CN1330513A - Low adenosine anti-sense ligonucleotide, compositions, kit and method for treatment of airway disorders associate with bronchoconstriction, lung infflammations, allergy(ies) and surfactant deplection - Google Patents

Abstract

An in vivo method of selectively delivering a nucleic acid to a target gene or mRNA, comprises the topical administration, e.g. to the respiratory system, of a subject of a therapeutic amount of an oligonucleotide (oligo) that is anti - sense to the initiation codon region, the coding region, the 5' or 3' inton- exon junctions or regions within 2 to 10 nucleotides of the junctions of the gene or antisense to a mRNA complementary to the gene in an amount effective to reach the target polynucleotide and reducing or inhibiting expression. In addition a method of treating and adenosine mediated effect, comprises topically administering to a subject an anti-sense oligo in an amount effective to treat the respiratory, pulmonary, or airway disease. In order t o minimize triggering adenosine receptors by their metabolism, the administere d oligos have a low content of or are essentially free of adenosine. A pharmaceutical composition and formulations comprise the oligo anti-sense to an adenosine receptor, genes and mRNAs encoding them, genomic and mRNA flanking regions, intron and exon borders and all regulatory and functionall y related segments of the genes and mRNAs encoding the polypeptides, their salts and mixtures. Various formulations contain a requisite carrier, and optional ly other additives and biologically active agents.

Description

Low adenosine antisense oligonucleotides, compositions, kits and methods for treating airway diseases associated with bronchoconstriction, pneumonia, allergy and surfactant deficiency

Background

Technical Field

The present invention relates to a composition comprising an oligonucleotide antisense to adenosine receptors with low or no adenosine content. These formulations are useful in the treatment of pulmonary diseases associated with inflammation, airway obstruction, such as pulmonary diseases and diseases affecting the lungs of patients due to secondary effects of the disease, and others. The types of diseases are allergy, asthma, respiratory obstruction, allergic rhinitis, pain, cystoid fibers, and cancer such as leukemia, colon cancer and the like. The formulation may be used prophylactically or therapeutically in combination with other therapies, and may also be used as a replacement for therapies without significant side effects.

Background

Respiratory diseases associated with a range of diseases and symptoms are very common in the general population, and in certain human species such as african american humans, in some cases, respiratory diseases are accompanied by inflammation that invades the lungs, such as asthma, which is the most common disease in industrial countries, accounting for about 1% of all health care and treatment costs in the united states, and it is predicted that asthma will become the leading occupational disease in the next decade as it is reported that its prevalence and death increases in the past decade, and the increased mortality rate in industrial countries may be due to lack of reliable β stimulants for disease treatment, and the underlying cause of asthma is currently poorly understood.

Adenosine can constitute an important regulator of various lung diseases including bronchial asthma. The potential role of the asthmatic human in responding positively to aerosolized adenosine, with significant bronchoconstriction, is suggested by the findings not seen in normal humans. Asthmatic rabbits, dust mite allergic rabbits, which mimic human asthma, also showed the same response to aerosolized adenosine with significant bronchoconstriction, whereas non-asthmatic animals did not. More recent experimental animal studies suggest that adenosine-induced bronchial constriction and bronchial hyperresponsiveness during asthma may be mediated primarily through stimulation of adenosine receptors. Adenosine has also been shown to produce side effects including death when treating other diseases and conditions of the airways of patients that have not been previously diagnosed as being hyperresponsive.

There are currently a number of available treatments for respiratory diseases and conditions, but in general there are limitations. Theophylline is an important drug for the treatment of asthma and is known to be an antagonist of the adenosine receptor. It has been reported that this antagonist abrogates adenosine-mediated bronchoconstriction in asthmatic rabbits. A selective adenosine a1 receptor antagonist, 8-cyclopentyl-1, 3 Dipropylxanthine (DPCPX), has also been reported to prevent adenosine-mediated bronchial vasoconstriction and bronchial hyperresponsiveness in allergic rabbits. The adenosine a1 receptor specific antagonists currently available are limited in their toxicity for therapeutic and prophylactic use. Such as theophylline, has been widely used in the treatment of asthma, but the narrow therapeutic dose range often accompanies frequent significant toxicity. DPCPX is too toxic to be clinically used. In fact, despite intensive research for over a decade, no specific adenosine receptor antagonists have been able to combat the general toxicity of these agents in clinical applications. Antisense oligonucleotides have received a high degree of academic interest as potential agents for the treatment of human diseases. However, their practical application in real models of human disease is somewhat fantasy. An important obstacle to their effective use is the difficulty in finding the appropriate route of administration to deliver them to the site of action. Many in vivo experiments have administered antisense oligonucleotides directly to specific parts of the brain. However, due to the invasiveness of this approach, its necessary clinical application is limited. Antisense oligonucleotides have received a high degree of academic interest as potential agents for the treatment of human diseases. In human disease treatment experiments, only few practical effective preparations are currently found due to the large dose of the preparation. Another important consideration for the pharmacological use of these molecules is the route of administration. Many in vivo administrations involve direct administration of antisense oligonucleotides restricted to brain sites. This approach limits its clinical use due to its invasiveness. The systemic administration of antisense oligonucleotides as pharmaceutical agents has also found significant problems, not only with the difficulty of targeting the organ in which the disease is located, but the necessary dilution of antisense oligonucleotides in the circulatory system makes it very difficult to achieve therapeutic doses at the target organ site after intravenous or oral administration. The bioavailability of orally administered antisense oligonucleotides is low, less than 5% of normal. Antisense oligonucleotides have been used therapeutically in a number of humans, including the human of the invention. The inventors have succeeded in treating various diseases and conditions in previous work by directly applying the formulation to the lungs. In many cases, other humans face difficulties associated with delivering DNA molecules to the desired target. Thus, the route of administration is extremely important for the treatment of general diseases and conditions as well as for local therapy. In contrast, to date, no method has been developed for delivering antisense agents to the lungs. As will be described in more detail later herein, the lung is the best target for direct administration of antisense oligonucleotides, and the present invention provides a non-invasive and tissue-specific approach.

Clearly, there is currently no effective treatment for these diseases, or at least no effective treatment without side effects. Thus, there remains a need for effective agents for treating adenosine-mediated disorders affecting pulmonary and respiratory disorders affecting the manner in which pulmonary ventilation is effected, such as disorders involving respiratory problems, bronchoconstriction, inflammation, allergy, loss or low secretion of surfactants, and the like, which are highly effective and sufficiently selective to avoid deleterious side effects such as those produced by other therapies. In addition, there is a clear need to make available a delivery method. This approach requires low doses of therapeutic agents, is rapid and effective, targets the histogenetic pathway of mRNA, and reverses the non-directional effects that afflict the patient.

Summary of The Invention

The present invention relates to a pharmacological or veterinary composition comprising an antisense oligonucleotide effective to reduce bronchoconstriction, and/or pneumonia, allergy, and/or surfactant deletion and/or hyposecretion, when administered to a mammal, the oligonucleotide containing from 0 to about 15% adenosine (a) and being antisense to a target selected from the group consisting of the start code, the coding region, the 5 'and 3' end genomic flanking regions, the 5 'and 3' end intron-exon junctions, the region within 2 to 10 nucleotides of the junction of a gene encoding a target polypeptide associated with pulmonary airway dysfunction, or to a mixture of polypeptide mRNA, conjugates of oligonucleotides, and oligonucleotides. The targets are typically molecules associated with airway diseases, cancer, etc., such as transcription factors, stimulatory and activating peptide factors, cytokines, cytokine receptors, chemokines, chemokine receptors, adenosine receptors, bradykinin receptors, endogenously produced specific and non-specific enzymes, immunoglobulins and antibodies, antibody receptors, Central Nervous System (CNS) and peripheral nervous and non-nervous system receptors, central nervous system and peripheral nervous and non-nervous system peptide transmitters, adhesion molecules, defensins, growth factors, vasoactive peptides and their receptors, binding proteins, or malignant tumor-associated proteins, among others. For example, oligonucleotides that target adenosine receptors, are typically present in the composition in an amount effective to reduce adenosine-mediated effects such as airway obstruction, inflammation, allergy, and surfactant deficiency, among others. The adenosine receptors are preferably selected from the group comprising adenosine receptors a1, A2b and A3 receptors, sometimes even A2a receptors. The oligonucleotides of the invention are useful for reducing adenosine-mediated bronchoconstriction, impeded respiration, inflammation, allergy, loss of surfactant production and other adverse pulmonary effects in the patient in need of treatment, and/or a pharmaceutical formulation for the treatment of specific diseases or disorders such as asthma, cystic fibrosis, allergic rhinitis, COPD, etc. The present invention provides for the first time a method for targeted administration of one or more oligonucleotides directly to the respiratory system. Oligonucleotides can also be administered directly to any target and are intended to rapidly cross lung mucosal tissue to hybridize with a desired target polynucleotide, such as mRNA, to prevent gene transcription and translation, such that protein expression is reduced, hindered, or completely halted. Thus, the present invention also provides a more general method of administering antisense oligonucleotides to target genes and mRNAs associated with any type of disease by direct administration to the respiratory system, such as inhalation, conduction to the airways of the respiratory system via a solution or aerosol, and/or direct access to the lungs.

The oligonucleotides of the invention are also useful for reducing airway problems that may be induced by a range of target proteins and genes, such as adenosine mediated effects including pulmonary, respiratory and other related effects such as bronchoconstriction, inflammation, immune mediated reactions, allergy, asthma and other conditions such as cancer. Examples of diseases and conditions that can be treated prophylactically, and therapeutically with the formulations of the present invention are: pulmonary vasoconstriction, inflammation, allergy, asthma, impeded respiration, dyspnea syndrome, pain, cystic fibrosis, allergic rhinitis, pulmonary hypertension, pulmonary vasoconstriction, emphysema, Chronic Obstructive Pulmonary Disease (COPD), bronchitis, and cancers such as leukemia, lymphomas, carcinomas and the like such as colon, breast, lung, pancreatic, hepatocellular, kidney, melanoma, liver metastases, and the like, and various types of cancers that may metastasize or have metastasized to the lung, including breast and creeping cancers. The formulations are suitable for administration, for example, in the early, intermediate and late stages of other types including radiation, chemotherapy, antibody therapy, light therapy and cancer and surgery. The present formulations can serve prophylactic, preventative, and therapeutic purposes in conjunction with other therapies, or simply the use of the formulation itself in an unknown therapeutic setting or as a substitute for an agent that does not produce significant side effects. The oligonucleotide may be dispensed to a patient, such as a patient's lung, by any known means, more typically by any or all of systemic and topical routes. The oligonucleotide used is antisense to the target DNA or RNA, such as adenosine receptor DNA or RNA, and preferably contains up to about 15% adenosine, and more preferably no adenosine. The oligonucleotides are provided in particular compositions and formulations, with a carrier or diluent, and optionally mixed with other therapeutic agents and additives for administration by particular routes, such as into the respiratory system, topically, subcutaneously, parenterally, by implantation, and the like. The preparation can also be made into capsule, injection cartridge, or kit. The oligonucleotides of the invention may be prepared by selecting specific target segments of the gene or mRNA encoding the adenosine receptor, as described below. In a preferred embodiment, oligonucleotides are selected to contain necessarily less than 15% adenosine. This can be achieved by selecting targets as above, including genes, genomic flanking regions, RNAs and polypeptides associated with diseases that afflict the pulmonary airways, obtaining mRNA sequences corresponding to the target genes and/or their genomic flanking regions and/or their membrane proximal regions, and mrnas encoding the target polypeptides, selecting at least one segment of the mRNA, synthesizing antisense oligonucleotides to one or more of the selected mRNA segments, optionally replacing one or more adenosines with a substitution agent such as a universal base or other base to reduce the proportion of adenosine present in the oligonucleotide to an amount of less than 15% to as little as no adenosine. Similarly, alternative and/or universal bases may be substituted for adenosine, such as the specific adenosine a1, A2b, and A3 receptor antagonists or A2a receptor agonists, theophylline, enprophylline and many adenosine receptor antagonists known in the art and agonists that significantly reduce adenosine excitability, such as would reduce adenosine excitability by 0.5%, 0.3%, etc.

The present invention will generally be described in conceptual and experimental terms, according to specific embodiments. Other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following description.

Detailed description of the preferred embodiments

The present invention results from the desire of the inventor to increase their past desire for treatment of pulmonary and other diseases, which techniques are often plagued by the need for deleterious side effects and high dose use of therapeutic agents. The present invention stems from the discovery of the inventionhuman beings themselves, and antisense oligonucleotides targeted to adenosine receptors can be used therapeutically in the treatment of diseases or conditions that cause respiratory disorders. And these conditions cause inflammation and/or allergy, tightening of bronchial tissue, obstruction of the pulmonary airways, loss of surfactant secretion, and conversely prevent normal breathing. In summary, many diseases or conditions are associated with or cause inflammation, constriction of bronchial tissue or pulmonary airways, loss of surfactant secretion, exacerbation of hypersensitivity, or otherwise prevent normal breathing. The present treatment is used to select specific targets that correlate or mediate these symptoms, and the amount of agent used can be up to 1000-fold less than the literature reported dose. In addition, the inventors want to provide a treatment that improves the outcome and lifestyle of patients undergoing or receiving other treatments including antibody therapy, chemotherapy, radiation, light therapy, and surgery such as cancer surgery, and can be effectively used for prevention, prevention and treatment. He concluded that he could further improve his findings by selecting oligonucleotides that reduce adenosine content or by reducing the adenosine content of antisense oligonucleotides corresponding to endogenous polynucleotide sequence targets. The present invention is premised on the discovery of the prior art. The inventors have found that oligonucleotides are metabolized to mononucleotides in vivo. Adenosine-containing oligonucleotides cleave and release adenosine, which in turn activates adenosine receptors, leading to bronchovasoconstriction, inflammation, surfactant depletion, allergy, and others. Therefore, he considered the use of low adenosine-adenosine free oligonucleotides to avoid side effects during use. He succeeded in this effort. In this patent, he provides new and improved compositions, formulations and methods of administration which provide greatly enhanced efficacy over previously known treatments for preventing and alleviating bronchoconstriction, hypersensitivity, inflammation, dyspnea, surfactant deficiency and airway obstruction, and other conditions which directly or indirectly affect the lungs. In various embodiments, one or more nucleic acids of the invention may be formulated alone, and/or in admixture with one or more surfactant components and/or a carrier, and/or with other therapeutic agents and/or agents known in the literature. Thus, the compositions of the present invention may be incorporated into a range of formulations for systemic and topical administration. Moreover, the inventors have also provided a widely applicable method of delivering antisense oligonucleotides via the respiratory system, which is rapid as a rapid method starting from the management of asthma and other diseases and conditions to a sensitive localized attack. In addition, the formulations of the present invention have a long half-life and can be used at lower dosages. This makes them highly desirable for use in once-a-week treatments. In the past, antisense oligonucleotides have received a high degree of academic interest as potential agents for the treatment of human diseases. Wagner, r., Nature 372: 333-335(1994). However, there are practical difficulties in using these molecules to alleviate and treat human diseases. An important consideration in the pharmacological use of these molecules is the failure of various routes of administration to deliver compounds to the site of action that avoid invading the circulatory system and other non-target tissues, causing excessive side effects. Many in vivo experiments using antisense oligonucleotides are directed to specific parts of the brain. See Wahlestedt, c., Trends in pharmacol.sci.15: 42-46 (1994); lai, j, et al, Neuroreport 5: 1049-1952 (1994); standard, k., et al, Neuron 12: 805-810 (1994); akabayashi, A., et al, Brain Res.21: 55-61(1994), and others in spinal fluid. See Tseng, l., et al, European j.pharmacol.258: r1-3 (1994); raffa, r, et al, European j.pharmacol.258: r5-7 (1994); gillardon, f, et al, european.j.neurosci.6: 880-884(1994). However, due to the invasiveness of this approach, it is apparently not clinically applicable. Systemic administration of such antisense oligonucleotides poses significant problems in pharmacological applications, not only the difficulty of selectively targeting the organ in which the disease is located.

The respiratory system, and in particular the lung, as the last site of entry into the body is an important route of antisense oligonucleotide administration. Thus, not only for the treatment of pulmonary diseases, but in particular because of its non-invasive and tissue-specific properties, the lung can be used as a delivery medium. Thus, local delivery of antisense oligonucleotides directly to target tissues allows these compounds to be used therapeutically. Fomivirsen (ISIS 2302), an example of a topical application delivered to the eye to treat Cytomegalovirus (CMV) retinitis, has been applied by ISIS. Administration of one agent via the lungs provides further advantages because inhalation is non-invasive and direct injection into the vitreous of the eye is invasive. The compositions and formulations of the present invention are useful in the prevention and treatment of diseases and conditions associated with bronchoconstriction, dyspnea, obstructed and disordered pulmonary airways, allergy, inflammation and surfactant deficiency, among others. Examples of diseases and conditions amenable to treatment by the methods of the present invention include: the use of adenosine in the treatment of Acute Respiratory Distress Syndrome (ARDS), asthma, such as upper ventricular tachycardia (SVT) and other arrhythmias, and stress testing, anemia, kidney injury or agent-induced decline in highly susceptible individuals, pediatric respiratory distress syndrome, pain, cystic fibrosis, pulmonary hypertension, pulmonary vasoconstriction, emphysema, Chronic ObstructivePulmonary Disease (COPD), rejection of lung transplants, lung infections and cancers such as leukemia, lymphoma, carcinoma and others including colon, breast, lung, pancreatic, hepatocellular, kidney, melanoma, liver metastasis and the like as well as all types of cancer metastasis or cancer that has metastasized to the lung including breast and pancreatic cancer. The invention will be described with reference to adenosine receptors, but any other target may be similarly applied in the context of the use of antisense oligonucleotides in the lung. The examples provided below show adenosine receptor-associated syndromes in an experimental rabbit model that completely inhibit human bronchial constriction, allergy and inflammation, and abolish the ability of adenosine receptor agonists to cause bronchial constriction, which is as excellent as adenosine, in a super-responsive monkey designed to study human hyperresponsiveness to adenosine receptor agonists. Accordingly, the pharmaceutical compositions and formulations of the present invention may be useful for preventing and alleviating the symptoms associated with the stimulation of adenosine receptors, such as the adenosine a1 receptor. The compositions and formulations of the invention are also useful in preventing the inappropriate side effects of adenosine-mediated hyper-responses in certain individuals, which are often seen in diseases affecting respiratory activity.

The methods of the invention intentionally minimize, reduce or eliminate the amount of adenosine in the antisense compound to prevent its release during degradation of the antisense oligonucleotide, and are useful in the treatment of airway diseases and conditions in patients caused by any cause. Examples of diseases and conditions that are prevented, prevented and therapeutically treated with the compositions and formulations of the present invention are: bronchoconstriction, inflammation, allergy, asthma, allergic rhinitis, impeded respiration, Acute Respiratory Distress Syndrome (ARDS), renal injury or reduced renal function associated with anemia and administration of certain agents, side effects associated with the use of adenosine, such as upper ventricular tachycardia (SVT) and adenosine stress test, pediatric Respiratory Distress Syndrome (RDS), ARDS, pain, cystic fibrosis, pulmonary hypertension, pulmonary cardiovascular constriction, emphysema, Chronic Obstructive Pulmonary Disease (COPD), rejection of lung transplants, lung infections and cancers such as leukemia, lymphoma, cancer and others including colon cancer, breast cancer, lung cancer, pancreatic cancer, hepatocellular carcinoma, kidney cancer, melanoma, liver cancer metastasis and the like, as well as all types of cancer metastasis or cancer that has metastasized to the lung including breast cancer and pancreatic cancer. The compositions and formulations are suitable for administration, for example, during the early, intermediate, and late stages of other types of procedures including radiation, chemotherapy, antibody therapy, light therapy, and cancer and surgery. The present compositions and formulations may also be used effectively as an alternative to treatment without significant side effects. The term "antisense" oligonucleotide generally refers to small synthetic oligonucleotides, similar to single-stranded DNA, that inhibit gene expression by repression of target messenger RNA (mRNA). See Milligan, J.F., et al, J.Med.chem.36(14), 1923&1937 (1993). Relevant parts are hereby incorporated by reference. For consistency, all RNAs and oligonucleotides of the present invention are represented in the single-stranded 5 'to 3' direction, and their complementary sequences are also included within the scope of the present invention, as read from left to right. In addition, all nucleotide bases and amino acids are encoded using the codes recommended by the IUPAC-IUB Commission on Biochemical nomenclature, or the known 3-letter code (amino acid). All nucleotide sequences are represented in the single-stranded 5 'to 3' direction, read from left to right. In addition, both nucleotides and amino acids are encoded using the IUPAC-IUB Commission on Biochemical nomenclature, or using the 3-letter code for (amino acids) according to 37 CFR' 1.822 and established usage. See patent application manual, 99-102(1990, 11) (United states patent and trademark office, patent Assistant Committee office, Washington, D.C., 20231); lines 20-43, column 3 of U.S. patent No. 4,871,670 to Hudson et al. The method prevents or down regulates expression of target genes, including those listed in tables 1 and 2, using antisense agents. As is known, this is generally achieved by hybridizing antisense oligonucleotides to the coding sequence of the target messenger rna (mrna). The exogenously applied agents of the present invention reduce the levels of mRNA and target gene-encoded protein, and/or cause changes in the growth characteristics or shape of the treated cells. Milligan et al (1993); helen, c, and Toulme, j.biochim.biophysis.acta 1049, 99-125 (1990); cohen, j.s.d., ed., oligodeoxynucleotide as an antisense repressor of gene expression; CRC press: boca Raton, FL (1987), relevant part incorporated by reference. Reference herein to "antisense oligonucleotides" is generally to short sequences of synthetic nucleotides that (1) hybridize under suitable hybridization conditions to any fragment of an mRNA encoding a target protein, and (2) cause a decrease in the level of gene expression of the target protein upon hybridization. The terms desA and dethymidine (desT) refer to a number of oligonucleotides lacking adenosine (desA) or thymidine (desT). Sometimes, de-adenosine or de-thymidine sequences occur naturally and sometimes they may be obtained by replacing the unwanted nucleotide by another nucleotide lacking undesirable activity, e.g. acting as an agonist or having an excitatory effect in the presence of adenosine receptors. The present invention generally accomplishes the substitution process by replacing adenosine with a universal base or a substitute base, which is known in the art and determined later. As used herein, preventing, or treating or therapy refers to a prophylactic, preventive, maintenance, or therapeutic treatment that reduces the likelihood that symptoms associated with adenosine receptor stimulation will be reduced after administration of the treatment to a patient. The term "down-regulation" refers to the induction of a decrease in the ability of a target product to be produced, secreted or available in a cell, thereby resulting in a decrease in the concentration of one receptor, such as adenosine a1, A2b, A3, bradykinin 2B, GATA-3 or other receptor, or an increase in the concentration of adenosine A2a receptor. The present technology relies on the design and modification of oligonucleotides antisense to mRNA targeting diseases associated with lung airway pathology to reduce the occurrence of undesirable side effects due to bond-breaking adenosine release, while retaining the activity and efficacy of its subsequent use. In this case, the inventors target specific genes, design one or more antisense oligonucleotides to selectively bind to the corresponding mRNA, and then reduce adenosine levels, if necessary, by substituting with a surrogate or universal base or an adenosine analogue that does not significantly, or substantially, reduce the ability to activate or antagonize the adenosine a1, A2b, or A3 receptor, or act as an agonist instead in the presence of the adenosine A2a receptor. Any number of adenosine present may be replaced with a substitute or universal base, e.g., a heteroaromatic base may bind to a thymidine base but have adenosine base agonistic or antagonistic activity of less than 0.3 in the presence of adenosine a1, A2b, A2a and A3 receptors. Based on experience in this field of research, the inventors concluded that in addition to the adenosine down-regulation of specific genes, he could enhance the effect of the used agent by selecting RNA fragments without or with low thymidine content or by replacing adenosine in one or more designed oligonucleotides with other nucleotide bases called universal bases that pair with thymidine but do not activate the adenosine receptor, but rather inhibit adenosine in the lung. Adenosine is known to be a nucleotide base complementary to thymidine, and when a thymidine is present in RNA, the antisense oligonucleotide must have an adenosine at the same position.

The antisense oligonucleotide has a sequence which specifically binds to a portion or fragment of an mRNA molecule, the messenger RNA encodes a polypeptide having a length which is more than that of a respiratory-obstructive pulmonary disease, allergy, pneumonia, deletion of a pulmonary surfactant, or reduction of a pulmonary surfactant, airway obstruction, bronchitis, or other related protein, the antisense oligonucleotide has been isolated as a therapeutic target for a pulmonary disease, the antisense oligonucleotide has been more than that of a pulmonary target protein, the antisense oligonucleotide has been more than that of a respiratory-antisense oligonucleotide 7, the antisense oligonucleotide has been more than that of a respiratory-antisense-adenine-12, the antisense oligonucleotide has been more than that of a respiratory-adenine-12, has been more than that of a pulmonary target protein, has been more than that of a respiratory-adenine-7-or a pulmonary-adenine-5-phospho-adenine-or other pulmonary target protein, the antisense-adenine-phospho-tyrosine-phospho-folate-antisense-phospho-or other pulmonary diseases, the antisense-adenine-phospho-or-folate-antisense oligonucleotide has been more than that of a mature-5-adenine-antisense-adenine-antisense-adenine-antisense-adenine-antisense-7-antisense-adenine-antisense-adenine-antisense-7-antisense oligonucleotide sequences, or-antisense-adenine-antisense-adenine-antisense-7-antisense-adenine-antisense-7-antisense oligonucleotide sequences, or-adenine-antisense-7-antisense oligonucleotide sequences, or-antisense oligonucleotide sequences, or-antisense-7-antisense-7-antisense-adenine-antisense-adenine-antisense-7-antisense.

The adenosine receptors discussed above are only some examples of the technical effect of the present invention. Indeed, a large number of genes can be targeted in a similar manner to the formulations of the invention to reduce or down-regulate protein expression. By way of example, if the target disease or condition is one of those related to impeded or reduced breathing, bronchoconstriction, chronic bronchitis, pulmonary bronchoconstriction and or hypertension, Chronic Obstructive Pulmonary Disease (COPD), rejection of lung transplants, lung infections, allergies, asthma, cystic fibrosis, respiratory distress syndrome, cancer, those affecting the lungs directly or through cancer metastasis, the method may be applied to a list of target mrnas that have been potentially listed in tables 1 and 2 and other targets. The antisense oligonucleotides of the invention are low in adenosine to prevent release of adenosine upon degradation of the formulation in vivo. For example, if the system is the lung or respiratory system, there are a large number of genes in its various functions that play a role. See table 1:

TABLE 1 Lung diseases or disorders and inflammation targets Nf6B transcription factor Interleukin-8 receptor (IL-8R) Interleukin-5 receptor (IL-5R) Interleukin-4 receptor (IL-4R) Interleukin-3 receptor (IL-5R) Interleukin-1 β (IL-1 β) Interleukin-1 β receptor (IL-1 β R) eosinophilic Trypsin major basic protein β₂Adrenoreceptor kinase endothelin receptor A endothelin receptor B Pre-endotheliogen bradykinin B₂Receptor (B2BR) IgE (high affinity receptor) interleukin-1 (IL-1) interleukin-1 receptor (IL-1R) interleukin-9 (IL-9) interleukin-9 receptor (IL-9R) interleukin-11 (IL-11) interleukin-11 receptor (IL-11R) induciblenitric oxide synthase Cyclooxygenase (COX) intracellular linker 1(ICAM-1) vascular intercellular linker (VCAM)Substance P Rantes endothelial leukocyte junction molecule endothelin (ELAM-1) ETA receptor cyclooxygenase-2 (COX-2) GM-CSF, endothelin-1 monocyte activating factor neutrophil chemotactic factor neutrophilic pancreatic peptidase E defensin 1, 2, 3 toxin bamboo mat acetylcholine receptor platelet activating factor tumor necrosis α factorSubstance P substance receptor histamine receptor of 5-lipoxygenase phosphodiesterase 1U P the chymosin receptor of the interleukin-2 (IL-2) interleukin-4 (IL4) interleukin-12 (IL-12) interleukin-5 (IL-5) interleukin-6 (IL-6) interleukin-7 (IL-7) interleukin-8 (IL-8) interleukin-12 receptor (IL-12R) interleukin-7 receptor (IL-7R) interleukin-1 (IL-1) interleukin-14 receptor (IL-14R) interleukin-14 CCR-2CC chemokine receptor of CCR-3CC chemokine receptor of CCR-4CC chemokine receptor of CCR-5CC chemokine receptor of prostaglandin receptor of GATA-3 transcription factor neutral adhesion receptor of MAP kinase of interleukin-15 (IL-15) interleukin-15 receptor (MIP-15R) interleukin-11 (IL-11) interleukin-11 receptor (IL-11) of IL-11 receptor of MCP-1C chemokine receptor of IL-4 (IL-2) interleukin-1, MCP-2A receptor of MCP-3 receptor of MCP-4₂Basic fibroblast growth factor metalloprotease CSBP/P38MAP kinase trypsin receptor PDG2 interleukin-3 (IL-3)Interleukin-10 (IL-10) cyclosporin A-binding protein FK 506-binding protein α₄β₁Selectin fibronectin α₄β₇Selectin CMad CAM-1 LFA-1 (CD)₁₁a/CD18) PECAM-1 LFA-1 selectin C3bi PSGL-1E-selectin P-selectin CD 34L-selectin P150, 95 Mac-1 (CD)₁₁b/CD18) fucosyltransferase VLA-4STAT-1 STAT-2CD-18/CD11a CD₁₁b/CD18ICAM2 and ICAM 3C 5aCCR₃(Haemophilus toxin receptor)CCR1, CCR2, CCR4, CCR5LTB-4 AP-1 transcription factor protein kinase C cysteinyl leukotriene receptor tachykinin receptor (tachR) 16Bkinase 1 and 2 interleukin-2 receptor (IL-2R) (e.g., substance P, NK-1 and NK-3 receptor) STAT 6C-masNF-interleukin-6 (NF-IL-6) interleukin-10 receptor (IL-10R) interleukin-3 (IL-3) interleukin-2 receptor (IL-2R) interleukin-13 (IL-13) interleukin-12 receptor (IL-12R) interleukin-14 (IL-14) interleukin-6 receptor (IL-6R) interleukin-16 (IL-16) interleukin-13 receptor (IL-13R) Medulin interleukin-16 receptor (IL-16R) adenosine A.₁Receptor (A)₁R) Trypsin-I adenosine A_2bReceptor (A)_2bR) adenosine A3 receptor (A)₃R) β Trypsin STAT-3 adenosine A₂a receptor (A)₂aR) IgE receptor β subunit (IgER β) F_CEpsilon receptor CD23 antigen IgE receptor α subunit (IgER α)IgE receptor Fc-epsilon receptor (IgERFc epsilon R) substance P receptor histidine decarboxylase trypsin-1 prostaglandin D synthase eosinophil-derived cationic protein eosinophil-derived neurotoxin eosinophil peroxidase endothelial nitric oxide synthase endothelial monocyte activator neutral oxidase factor cathepsin G macrophage inflammatory protein-1 α/Rantes receptor interleukin-8 receptor α subunit/IL-8R)

Endothelin receptor ET-B

These genes and others are involved in the normal functioning of the respiratory system and in a disease associated with respiratory pathologies such as cystic fibrosis, asthma, pulmonary hypertension and vasoconstriction, Chronic Obstructive Pulmonary Disease (COPD), rejection of lung transplants, lung infections, chronic bronchitis, respiratory distress syndrome, allergic rhinitis, lung cancer and metastatic cancer of lung cancer and other airway diseases including those responsive to inflammation.

The antisense oligonucleotides of adenosine A1, A2a, A2b, and A3 receptors, CCR3 (chemokine receptor), bradykinin 23 (vascular cell adhesion molecule), bradykinin 2 receptor,and other target receptors have been shown to be effective in down-regulating the expression of these genes, such as the down-regulation of adenosine A3, A2 3, and A3 receptors, CCR3, bradykinin 23 (vascular cell adhesion molecule), the down-regulation of the receptor of the macrophage, and respiratory system disease or inflammation, such preparations can be used alone or in combination with antisense oligonucleotides targeting other genes to allow their participation in the pathway and/or network to function effectively, such as the oligonucleotides are best able to be administered directly to the respiratory system of experimental animals by inhalation or other means to allow their systemic diffusion to the human lung without the present invention being able to reach the human lung without the present invention as compared to other preparations, this invention is not only because the human endothelial cell adhesion receptor of a macrophage-macrophage receptor-effector cells, and the present invention is not only shown to be effective in reducing the amount of the human adenosine A3, the antisense oligonucleotides of adenosine A3, macrophage receptor-macrophage receptor-macrophage receptor-macrophage-receptor-hormone receptor-hormone, and-hormone receptor-macrophage-hormone receptor-hormone, and-hormone receptor-macrophage-hormone receptor-hormone-.

As used herein, a term such as treating or managing asthma refers to a treatment which, when administered to a patient, reduces the likelihood of an apparent symptom of lung disease in the patient. The term "down-regulation" refers to the induction of a decrease (resulting in a decrease in concentration) in the production, secretion or availability of intracellular proteins of a target. The present invention is primarily directed to the treatment of human patients, however, the formulations and methods disclosed herein may also be used for veterinary purposes, such as the treatment of other mammals includingcattle, horses, wild animals, zoo animals, and domestic animals such as dogs and cats. The protein of the target is preferably a mammal, in particular of the same species as the animal to be treated. In general, the term "antisense" oligonucleotide refers generally to small synthetic oligonucleotides, similar to single-stranded DNA, that inhibit gene expression by repressing the action of target messenger rna (mrna). See Milligan, J.F., et al, J.Med.chem.36(14), 1923&1937 (1993). The relevant part is incorporated by reference. The present invention is expected to obtain an effect of inhibiting the expression of adenosine a1 or A3 receptor gene. The coding region, which hybridizes to a specific messenger mRNA target by hydrogen bonding according to Watson-Crick base pairing principles, inhibits gene expression. The mechanism of antisense oligonucleotide inhibition is that exogenously applied oligonucleotides reduce the levels of mRNA and protein of the target gene or cause changes in cell growth characteristics or shape. See Helen, C, and Toulme, J.Biochim.Biophys.acta 1049, 99-125 (1990); cohen, j.s.d., ed., oligodeoxynucleotide as an antisense repressor of gene expression; CRC publications: bocara, FL (1987). Reference herein to "anti-oligonucleotide" is generally to a short sequence of synthetic nucleotides (1) which can hybridize to any fragment of an mRNA encoding a target protein according to the hybridization conditions described below, (2) which upon hybridization results in a decrease in the level of gene expression of the A1 or A3 adenosine receptor. The receptors discussed above are only one example of a highly effective application of the present technology. In fact, a large number of genes can be targeted in the same manner according to the present method, protein expression is significantly down-regulated or eliminated, and changes in one or more functions performed in one system, such as the respiratory system and other lung disease-associated targets, are observed. By way of example, diseasesand disorders in the respiratory system that may be associated with dyspnea such as bronchoconstriction, inflammation, allergic rhinitis, chronic bronchitis, surfactant depletion and other disorders associated with Chronic Obstructive Pulmonary Disease (COPD), rejection of lung transplants, lung infections, inhalation burns, Acute Respiratory Distress Syndrome (ARDS), cystic fibrosis, radiation pneumonitis, tonsillitis, emphysema, toothache, oral inflammation, joint pain, esophagitis, cancers that directly afflict the respiratory system such as lung cancer, esophageal cancer, etc., or cancers that indirectly afflict the respiratory system through cancer metastasis or other causes are associated. Because they are associated with respiratory dysfunction, these functions are highly beneficial in diseases such as asthma, allergy, allergic rhinitis, pulmonary bronchoconstriction and hypertension, Chronic Obstructive Pulmonary Disease (COPD), rejection of lung transplants, lung infections, allergy, asthma, Cystic Fibrosis (CF), Acute Respiratory Distress Syndrome (ARDS) and RDS related to pediatric and pregnant women, cancer afflicting the lungs directly or through cancer metastasis, and the like. The antisense oligonucleotides can directly target a range of target mrnas, including the targets of table 1, and the like.

The oligonucleotides of the invention may be obtained by first selecting a target nucleic acid fragment of at least 4 contiguous nucleic acids from the group consisting of G and C and/or having a particular type and/or degree of activity to obtain a first 4-60 nucleotide long oligonucleotide comprising the selected fragment and having thymidine content in the nucleic acid of up to about 15%, preferably about 12%, about 10%, about 7%, about 5%, about 3%, about 1% and preferably no thymidine. A second oligonucleotide 4-60 nucleotides in length, antisense to the selected fragment, is then obtained, the second oligonucleotide having an adenosine base content of up to about15%, preferably about 12%, about 10%, about 7%, about 5%, about 3%, about 1% and preferably no adenosine. The method comprises, when the selected fragment contains at least one thymidine base, replacing the adenosine at the corresponding nucleotide position of the antisense fragment with a universal base. The universal base is selected from the group of heteroaromatic bases which bind to a thymidine base but have an adenosine base agonistic activity of less than 10%, preferably 1%, more preferably less than 0.3% in the presence of adenosine A1, A2b and A3 receptors, at the adenosine A2a receptor, when effective in the respiratory systemNo activity in the presence. Other adenosine activities in other systems may be determined in other systems by the procedure. The analogous heteroaromatic base can be selected from all pyrimidines and purines and can be used The presence of, halogen, ， ， ， ， ， branched and fused primary, secondary amino, alkyl, alkenyl, alkynyl, cycloalkyl, heterocycloalkyl, aryl, heteroaryl, alkoxy, alkenyloxy, acyl, cycloacyl, aroyl, alkynyloxy, cycloalkoxy, aroyl, arylthio, halocycloalkyl, alkylcycloalkyl, alkenylcycloalkyl, alkynylcycloalkyl, haloaryl, alkylaryl, alkenylaryl, alkynylaryl, arylalkyl, arylalkenyl, arylalkynyl, arylalkylalkyl, and may be further substituted with The presence of, halogen, a primary, a secondary and a tertiary amino group, ， ， ， cycloalkyl, heterocycloalkyl, heteroaryl substituted. Under known conditions, pyrimidines and purines may be substituted at any position, but preferably at positions 1, 2, 3, 4, 7 or 8. More preferred are pyrimidines and purines having the following chemical formulae such as theophylline, caffeine, dihydroxypropyltheophylline, etohydroxytheophylline (ethylphylline), piperazinine (acephyline) piperazine, paminotheophylline, enprophylline and xanthine (xanthine):

wherein R is¹And R²Each independently is Alkyl, alkenyl or alkynyl, R³Is composed of Aryl, bicycloalkyl, bicycloalkenyl, bicycloalkynyl, cycloalkyl, cycloalkenyl, cycloalkynyl, O-cycloalkyl, O-cycloalkenyl, O-cycloalkynyl, amino-alkylamino-ketoxyalkyloxyaryl, mono-and dialkylaminoalkyl-N-alkylamino-SO₂Aryl, and the like. Similar modifications to sugars can be included in embodiments of the invention. The low adenosine content in the antisense strand complementary to thymidine in the target RNA serves to prevent adenosine in the oligonucleotide cleavage product from migrating into the tissue environment of the system, e.g., lung, brain, heart, kidney, etc., and thus prevents side effects due to adenosine. For example, Nf6B transcription factor is selected as a target, selecting low thymidine or a thymidine-depleted fragment from its mRNA and DNA. Only a thymidine-free fragment of mRNA and DNA is selected, which will then be able to generate a desadenosine antisense strand as its complementary strand. When a large number of RNA thymidine-removed fragments are found, the sequence of the antisense strand can be deduced. Typically, de-adenosine antisense sequences are available in fragments of about 10-30 or more. These antisense strand sequences may include some or all of the desadenosine antisense oligonucleotide sequences complementary to the target RNA desacetylene, as shown in tables 1 and 2 above and including those related to the brain, cardiovascular and renal systemsSystems and other related sequences. When this occurs, the antisense oligonucleotide strand is said to be 100% free of adenosine. For each protodesadenosine antisense oligonucleotide sequence corresponding to a target gene, such as the transcription factor NF6B, there are typically about 10-30 sequences that can be found in the target gene or in RNA with low levels of thymidine. According to the invention, the selected fragment sequence may also contain small amounts of thymine nucleotides in its secondary or tertiary or quaternary sequence. In some cases, a high adenosine content may be sufficient to render the antisense oligonucleotide less active or even ineffective against the target. In accordance with the present invention, a "completely non-desadenosine" sequence may preferably mean an adenosine content of less than about 15%, more preferably less than about 10%, even more preferably less than about 5%, somewhat less than 2%, and most preferably no adenosine. In some cases, a higher adenosine concentration is also presentIt is possible that the oligonucleotide does not produce deleterious "adenosine activity". In a particularly important embodiment, the adenosine in the nucleotide is fixed or replaced by a universal base that base pairs with similar or equal affinity to A, G, C, T in natural DNA.

The universal base is defined as any compound, more commonly used adenosine analogs having a substantial ability to hybridize with thymidine while having a low or no ability to bind to adenosine receptors or other molecules, whereby adenosine exerts an unforeseen side effect in experimental animals or cell systems. α -deoxyribofuranose- (5-nitroindole) is a universal base when adenosine analogs that are completely inactive or adenosine receptors that significantly reduce their activation ability such as adenosine A1, A2b and/or A3 receptors, most preferably A1 adenosine receptors and which can be used as agonists for adenosine A2a receptors are used. α -deoxyribofuranose- (5-nitroindole) as well as other universal bases for which the antisense oligonucleotides are able to pair with the target RNA even more equally when they are used as antisense nucleotides (NO: 2-NO: 2, NO: 3-nitropyrrole-2 '-deoxyribo-2', 5-deoxyribo-NO: 3, NO: 5-D-NO: 3, NO: 2, NO-NO: 5, NO: 2-NO: 5, NO: No. 5-D-NO: No. 5, NO: No. 7, No. 5, No. 7, No. 5, No. 7, No. 5, No. 7, No. 5, No. 7, No. 5, No. 7, No. 5, No..

TABLE 2 cancer target transformation oncogene therapy target Ras thymidylate synthase Src thymidylate synthase Myc dihydrofolate reductase bcl-2 thymidine kinase

Deoxycytidine kinase

Ribonucleotide reductase antagonist adhesion molecule oncogene folate channel enzyme DNA repair gene (one carbon pool)

Telomeric enzymes

HMG CoA reductase

Farnesyl transferase

Glucose-6-phosphate transferase

One preferred set of targets for cancer therapy are genes associated with any of the different types of cancer, or those genes that are generally known to be associated with malignancies, whether they regulate or participate in the formation of RNA and/or proteins. For example, metastatic oncogenes include, but are not limited to, ras, src, myc, and BCL-2, among others. Other targets are those that are currently targeted directly by cancer chemotherapeutic agents, such as variousenzymes, predominantly but not exclusively thymidylate synthase, dihydrofolate reductase, thymidine kinase, deoxycytidine kinase, ribonucleic acid reductase, and analogs thereof. The present technology is particularly useful for cancer therapy where conventional cancer therapy fails to address the problem of selectively killing cancer cells and retaining normal viable cells from the lethal effects of chemotherapy, radiation therapy and other therapeutic approaches. The present technology provides the ability to selectively attenuate or enhance a desired pathway or target. This approach has certain advantages over standard cancer treatments because it allows the selection of pathways that include primary, secondary, and possibly tertiary targets that are not expressed simultaneously in normal cells. Administration of the formulation to a patient results in a selective increase in toxicity in tumor cells, e.g., expression of all three targets while expressing only 1 or 2 targets in normal cells will significantly reduce or even prevent disease. One preferred set of targets for cancer therapy are genes associated with any of the different types of cancer, or those genes that are generally known to be associated with malignancies, whether they regulate or participate in the formation of RNA and/or proteins. For example, metastatic oncogenes include, but are not limited to, ras, src, myc, and BCL-2, among others. Other targets are those that are currently targeted directly by cancer chemotherapy, such as various enzymes, major but not unique thymidylate synthases, dihydrofolate reductases, thymidine kinases, deoxycytidine kinases, ribonucleic acid reductases, and analogs thereof.

In one embodiment, at least one of the mrnas of the oligonucleotide targets of the invention encodes a protein such as a transcription factor, a stimulatory and activating factor, a general intracellular and extracellular receptor and peptide transmitter, an interleukin receptor, a chemokine receptor, an endogenously produced specific and non-specific enzyme, an immunoglobulin, an antibody receptor, a Central Nervous System (CNS) and peripheral nervous system and non-nervous system receptor, a central nervous system and peripheral nervous system and non-nervous system receptor, a protein such as a transcription factor, a stimulatory and activating factor, a general intracellular and extracellular receptor and a peptide transmitter, an interleukin, a chemokine receptor, an endogenously producedSystemic peptide transmitters, adhesion molecules, defensins, growth factors, vasoactive peptides and their receptors, binding proteins and other proteins, or associated with an oncogenemRNA and other genes associated with various diseases or conditions. Examples of target proteins are eosinophil toxin (eotaxin), major basic protein, preproendothelin (prepronedothelin), eosinophil cationic protein, P-selectin, STAT4, MIP-1a, MCP-2, MCP-3, MCP-4, STAT6, C-mas, NF-IL-6, cyclophilin, PDG2, cyclophilin A binding protein, FK 5-binding protein, fibronectin, LFA-1(CD11a/CD18), PECAM-1, C3bi, PSGL-1, CD-34, substance P, P150, 95, Mac-1(CD11b/1CD18), VLA-4, CD-18/CD11a, CD11b/CD18, C5a, CCR1, CCR2, CCR4, CCR5, LTB-4 and the like. Other suitable ones are also possible. In another embodiment, the oligonucleotide targets at least one of the mrnas encoding intracellular and extracellular receptors and polypeptide transmitters such as sympathetic receptors, parasympathetic receptors, GABA receptors, adenosine receptors, bradykinin receptors, insulin receptors, glycogen receptors, prostaglandin receptors, thyroid receptors, androgen receptors, synthetic receptors, estrogen receptors, progesterone receptors, receptors associated with coagulation, pituitary receptors, pituitary polypeptide transmitters, histamine receptors, and the like. Other suitable ones are also contemplated. The encoded sympathetic and parasympathetic receptors include: acetylcholine esterase receptor (AcChaser), acetylcholine receptor (AcChR), atropine receptor, muscarinic receptor, adrenergic receptor (EpiR), dopamine receptor (DOPAR), norepinephrine receptor (Nepir), and others. Examples of encoded receptors are also: adenosine A₁Receptor, adenosine A₂B receptor, adenosine A₃Receptors, endothelin receptor A, endothelin receptor B, IgE high affinity receptors, muscarinic acetylcholine receptor, substance P receptor, histamine receptor, CCR-1CC chemokine receptor, CCR-2CC chemokine receptor, CCR-3CC chemokine receptor (eosinophilic toxicity receptor), interleukin 1 β receptor (IL-1BR), interleukin 1 receptor (IL-1R), interleukin-1 β receptor (IL-1 β R), interleukin-3 receptor (IL-3R), CCR-4 chemokine receptor, cysteinyl leukotriene receptor, prostanoid receptor, GATA-3 transcription factor receptor, interleukin-1 receptor(IL-1R), interleukin-4 receptor (IL-4R), interleukin-5 receptor (IL-5R), interleukin-8 receptor (IL-SR), interleukin-9 receptor (IL-9R), interleukin-11 receptor (IL-11R), bradykinin B2 receptor, sympathetic receptor, parasympathetic receptor, GABA receptor, adenosine receptor, bradykinin receptor, insulin receptor, glycogen receptor, prostaglandin receptor, thyroid receptor, androgen receptor, synthetic receptor, estrogen receptor, progesterone receptor, receptor associated with coagulation, pituitary receptor, and histamine receptor (HisR). Other non-listed ones are also contemplated. Preparation of the code oligonucleuses of the inventionExamples of target enzymes include trypsin, inducible nitric oxide synthase, cyclooxygenase (Cox), MAP kinase, eosinophil peroxidase, β 2 adrenergic receptor kinase, leukotriene C-4 synthase, 5-lipoxygenase (Lipoxogenes), phosphodiesterase IV, metalloprotease, trypsin, CSBP/p38MAP kinase, neutrophil elastase, phospholipase A2, cyclooxygenase 2(Cox-2), fucosyltransferase, rennin, protein kinase C, thymidylate synthase, dihydrofolate reductase, thymidine kinase, deoxycytidine kinase, and ribonuclease reductase, any enzyme associated with a disease or condition of the invention is suitable as a target for GF, and suitable coding factors for use in the invention include CSF, Nf 6-vitamin E6B, mouse macrophage-adhesion factor (MCF-1), macrophage adhesion factor (MCAM-3), macrophage adhesion factor (MCH-1-2), macrophage adhesion factor (MCH-1-2), and other transcription factors (MCH-2) which are suitable for use in the inventionOther known or unknown factors (this time) may also be targeted, preferred for use in cytokinins, lymphokines, and chemokines are interleukin-1 (IL-1), interleukin-1 β (IL-1 β), interleukin-3 (IL-3), interleukin-4 (IL-4), interleukin-5 (IL-5), interleukin-8 (IL-8), interleukin-9 (IL-9), interleukin-11 (IL-11), CCR-5CC chemokine, and Rantes, among others, known to be associated with a disease or condition to be treated or their general state of activity such as inflammation, and may also be targeted.

The preparations to be administered according to the invention are preferably designed as target genes and/or mRNAs which are similar in origin to the species to be administered. When treating humans, it is preferred that the agent is designed as the antisense strand of a human gene or RNA. The formulations of the invention include oligonucleotides that are antisense to naturally occurring DNA and/or RNA sequences, and that can be as large as one base less than the target sequence, preferably at least about 7 nucleotides long, and that are only greater than about 0.02%, preferably greater than about 0.1%, more preferably greater than about 1% and even more preferably greater than about 4% adenosine, up to about 30%, more preferably about 15%, even more preferably about 10%, and even more preferably about 5% adenosine deficient. One or more adenosines in the antisense oligonucleotide are replaced with universal bases. The universal base can pair with thymic acid but is actually unable to trigger adenosine receptor activity. Examples of human sequences and fragments of antisense oligonucleotides of the invention are, without limitation, fragments and shorter fragments, shorter sequences of the entire gene or mRNA coding regions, preferably comprising 7, 10, 15, 18 to 21, 24, 27, 30, exon and intron-exon junctions of n-1 nucleotides per fragment, where n is the order of the total number of nucleotides. These fragments may originate from any part of the longer oligonucleotide, such as from the middle, 5 'end, 3' end of the original sequence, or from any position. Of particular interest are those fragments that contain a low amount of adenosine, those fragments containing less than or about 30% adenosine, preferably less than or about 15%, more preferably less than or about 10%, even more preferably less than or about 5%, and most preferably those fragments that do not contain adenosine, selected according to the invention or substituted with universal bases. The formulations of the invention comprise a set of optimal sequences and their fragments, one or more of the adenosines present in the sequence having been replaced by a universal base (B), see the examples. Similarly, all shorter fragments, such as those generated as described above or portions thereof, containing a B-containing fragment designed to replace the substitute B for adenosine in the sequence are also included. Provided below is a limited list of sequences and fragments.

Some examples of antisense oligonucleotide sequence fragments target the start code of the respective gene, and in some examples adenosine is annotated as a universal or alternative base adenosine analog of 'B'. The universal base "B" lacks the ability to bind to adenosine a1 and/or A3 receptors. In fact, this replacement nucleotide functions as a "spacer". Many of the examples below provide such a sequence and multiple fragments that overlap at the start codon position, particularly where n is about 7, 10, 12, 15, 18, 21 and up to 28, 35, 40, 50, 60 in number of nucleotides.

Antisense polynucleotides related to human receptors

5′-GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C TGCTTTTCT TTTCTGGGCCTCTGTGGTCT GTTTTTTTCT GGCCCTGCTG GGGCGCTCTC CGCCGCCCGC CTGGCTCCCG GBGCCCBTGB TGGGCBTGCCGTGGTTCTTG CCCTCCTTTG GCTGCCGTGC CCGCTCCCCG GCCTCCTGGC GGGTGGCCGT TGGGCCCGTG TTCCCCTGGGGCCTGGGGCT CCCTTCTCTC GCCCTTCTTG CTGGGCCTCT GCTGCTGCTG GTGCTGTGGC CCCCGTACA CCGAGGAGCCCATGATGGGC ATGCCACAGA CGACAGGCGT BCBCCGBGGB GCCCBTGBTG GGCBTGCCBC BGBCGBCBGG C GGC GCCGTG CCG CGT CTT GGT GGC GGC GG GTT CGC GCC CGC GCG GGG CCC CTC CGG TCC GTT CGC GCC CGC GCG GGGCCC CTC CGG TCC CGG GTC GGG GCC CCC CGC GGC C GCC TCG GGG CTG GGG CGC TGG TGG CCG GG CCG CGC CTCCGC CTG CCG CTT CTG GCT GGG CCC CGG GCG CCC CCT CCC CTC TTG CTC GGG TCC CCG TG ACA GCG CGT CCTGTG TCT CCA GCA GCA TGG CCG GGC CAG CTG GGC CCC BCB GCG CGT CCT GTG TCT CCB GCB GCB TGG CCG GGCCBG CTG GGC CCC ACA GAG CAG TGC TGT TGT TGG GCA TCT TGC CTT CCC AGG G BCB GBG CB TGC TGT TGT TGGGCB TCT TGC CTT CCC BGG GCC CTT TTC TGG TGG GGT GGT GCT GTT GTT GGG CTT TCT TCT GTT CCC BCB GBG CBGTGC TGT TGT TGG GCB TCT TGC CTT CCC BGG GCC CTT TTC TGG TGG GGT GGT GCT GTT GTT GGG C TTT CTT CTGTTC CC TTT CCC CTG GGT CTT CC CTC CTG CTC TTT TTT C ATT TGC TCT CCT ATT ACT TTC TGT GTC CAT TTTTTC ATT AAC CGA GCT GT BTT TGC TCT CCT BTT BCT TTC TGT GTC CBT TTT TTC BTT BBC CGB GCT GT GCC TGTGTC TGT CCT CCT GCT TCG TTC CTC TCG TTC CTG CTT GGT GCC CTT GCC G GTC CTG CTC CTC CGG GCT GTG GGTC GTG GCC CTG GCT CCG GCT GGT GGG CTC CCC TGG CCT TCG CTG GCT GGC GGC GTG C GGG TCT TGC TCTGGG CCT GGC TGT GGC CGT GGT TGG GGG TCT TC GCT GCC TCC GTT TGG GTG GC TCT CTG AAT ATT GAC CTTCCT CCA TGG CGG TCC TGC TTG GAT TCT CCC GA TCT CTG BBT BTT GBC CTT CCT CCB TGG CGG TCC TGC TTG GBTTCT CCC GB GCC TTT CCT GGT TCT CTT GTT GTT TTT GGG GTT TGG CTT ACA GTA GAG TAG GGG ATT CCA TGGCAG GAG CCA TCT TCT TCA TGG ACT CC TTC AAG GAG ACC TTA GGT TTCTGA GGG ACT GCT AAC ACG CCA TCTGGA GC BCB GTB GBG TBG GGG BTT CCB TGG CBG GBG CCB TCT TCT TCB TGG BCT CC TTC BBG GBG BCC TTBGGT TTC TGB GGG BCT GCT BBC BCG CCB TCT GGB GC GTT GTT TTT GGG GTT TGG CTT GCC TTT CCT GGT TCTCTT BCB GTB GBG TBG GGG BTT CCB TGG CBG GBG CCB TCT TCT TCB TGG BCT CC TTC BBG GBG BCC TTB GGTTTC TGB GGG BCT GCT BBC BCG CCB TCT GGB GC GCC TGT GTC TGT CCT CCT GCT TCG TTC CTC TCG TTC CTG CTTGGT GCC CTT GCC G GTC CTG CTC CTC CGG GCT GTG G GTC CTC GCC CTG GCT CCG GCT GGT GGG CTC CCC TGGCCT TCG CTG GCT GGC GGC GTG C CCC BGB BCG BGB CCC GGB CCG BCB GGC CGT GGT TGG GGG TCT TC GCT GCCTCC GTT TGG GTG GC GAT CTC TGA ATA TTGA CCT TCC ATG GCG GTC CTG CTT GGA GBT CTC TGB BTB TTGB CCTTCC BTG GCG GTC CTG CTT GGB TCT GGG GTG TCC TGG CCT TCG TGG TTC CTC TTC CTT CGT TTG CCG TCC GCGGGG GCC CCC GGG CCT GGC TGC GCT CCT GCC CCG CCT CTT TCC CGG GCT CTT GCG CTG GGG GGT GCT CC CGTGTG TTT GCG CCC TC CTC CTG GTC GCG CTT GTC GTT TTG GGG CCG GCT TTG CCC GCC TCC CGG CGC CTG GCC CGGCC TTC CTG GGC TGC GTG CGC GTT CTG TTC TTC TTC CTG GCT CTG GGG TGT CCT GGC CTT CGT GGT TCC TCT TCCTTC GTT TGC CGT CCG CGG GGG CCC CCG GGC CT GGC TGC GCT CCT GCC CCG CCT CTT TCC CGG GCT CTT GCG CTGGGG GGT GCT CCC GTG TGT TTG CGC CCT CCT CCT GGT CGC GCT TGT CGT TTT GG GGC CGG CTT TGC CCG CCT CCCGGC GCC TGG CCC GGC CTT CCT GGG CTG CGT GCG CGT TCT GTT CTT CTT CCT GGC GCA GGA GAC AGG GCA GGGCGA TCA GGA GCA GCG TGA GCC AAA GGA GGA CCA TCG GGA ACG CAG CTC CGG AAC GCA GGA CAG AGG TGC CGC BGG BGB CBG GGC BGG GCG BTC BGG BGC BGC GTG BGC CBB BGG BGG BCC BTC GGG BBC GCB GCT CCG GBB CGCBGG BCB GBG GTG CC TCT GCC CTG TCC GCC GGC TCT TCG GTG GCT CGG CCC CGC TCC TTG TCT TGC CGC GGGTTG GTT CCT GGG CCT GGT TCT TGC GGG CGT TTC GGT CTG CTG GCT GGT CTG GGC CCG CGG TGC GGC GGG TGGCTT GCT GTT CTG CCT GGG CTC TCC CCT CTC CTC CTT TTC TCC CTT CCT CTG TCT TGC CTC CTT CCT CTG GGT CCTCTT GGC CTG GGC GCT CTT CCC CTC GGG CGG CTG CGG GCG CTC GTG CTG CCT GGT CCG CTC CCT GGG GGT GCTCCT TCC CTT TCC CCG CTC GTG GGG TTT GCG GGG CTG GGC TGC CCT GGG GGG TCT GGG CCT TTT GGG GTC GGCTGG CTG CTG CTT CGG GCC GCC TGG GCT TCC CTG TGC CCC TTT CCT CTG CTG GGT CCC CCT CCC GTT CCA AGCTGC ACC GCA CAG ACC GGC GCT ACA GGA CAG AGC CAG GCA AGC ACC CAT GGG GAT CCA GGC CCA GCT GTT CCBBGC TGC BCC GCB CBG BCC GGC GCT BCB GGB CBG BGC CBG GCB BGC BCC CBT GGG GBT CCB GGC CCB GCT GCTCAGTGGCC CCCAAAAGGA TGAGTAATAC ATGCGCCACG ATGATCATAT CCTTTTTACT ATGAGGCCGT GTCTGTCGTGTCTTTCCTTT GCTCTTGGTG TGTCTTTGCT GTGCCCTGCC TCTCTGCCCG TGTCTGTCGT GTCTTTCCTT TGCTCTTGGTGTGTCTTTGC TGTGCCCTGC CTCTCTGCC CGTGTCTGTC GTGTCTTTCC TTTGCTCTTG GTGTGTCTTT GCTGTGCCCTGCCTCTCTGC GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGC GCCGCGCTCGGCTCCTCTCC CTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCC TGCGCGCGGCGCTGGCCCCT GCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC GCGCCGGGGC CTGTCCGCCTCTGCGGGCGC TGTCTCCTGG CTTGTCTTCC GGCTCTTCTG CTGGGGTGGG GCTGGGCGGC CGGCCCGGTG CTGGGGCTCCTCGGGGGGGG GGGCTCTTCC GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGG GTCTTGCCTGGCCTCCGGGC TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTG GCGCCCGTTTGTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCT CTGCTTCTCG CTCTCCTTTG TGGGGCCCTCCCTGCTGCTC TTGGTTTTGG GCTTTTTTTC TCTTCCTCCT TTTTCGTGCG TGGGCCTCC GCACGCCTCT TGCCACCTCCTGCGCAGGGC AGCGCCTTGG GGCCAGCGCC GCTCCCGGCG CGGCCAGCAG GGCAGCCAGC AGCGCGCAGCCGACGGCCAG CATGCTTCCT CCTCGGCTAC CACTCCATGG TCCCGCAGAG GCGGACAGGC GCBCGCCTC TTGCCBCCTCCTGCGCBGGG CBGCGCCTTG GGGCCBGCGC CGCTCCCGGC GCGGCCBGCB GGGCBGCCBG CBGCGCGCBGCCGBCGGCCB GCBTGCTTCC TCCTCGGCTB CCBCTCCBTG GTCCCGCBGB GGCGGBCBGG C GCTGCCCGGCGGGGTGTGCG CTTGGCGCTC CCGTGCTCGG TTCTCTGTCT CCCGGTCCCC CTTGCCTGGC GTCTCGGGCC TTCGTCCTCTTCCTCTTCTT CCTTCCGCTC CGTGGGGGCT GCTTGGTGGG GGCCTGTGCCT CGGGGTCCCG GGGCTTCTGGCCCTTGCCGT TCATGGTGGC TAGGTGGGGC GTTCBTGGTG GCTBGGTGGG GC GGG GTG GGT BGG CCG TGT CTGGGGGTT GGC CBT GTT GGT TGC CTCT TGG TGG TGC GCC GGG CGCG TCT TGG CTT TCT TCT CCT TCG GGC CCT CGGGCC GGT GCT TGT GGGCT CCT CCC GGG CGG CCT CCC CGG GCG GGG GCT TCT TGGCG CTG GCG GGG GGG CCTCCTGCT CTG TGG CTG GGC GTT CCT TGG TGT TCT GGG TGGTGG CGG GCG TGG TGG CCT CTG TGGGGG CCC GCGGCT GCB GGG GTTG CCT GTC TGC TTC GTCCTT TGC GCT CCC GGG CCG CCGGG GTG GGT AGG CCG TGT CTG GGGGTTGGC CAT GTT GGT TGC CGGG CCC GCG GCT GCA GGG G ACAGGGGCTG TAATCTTCATC TGCAGGTGGC ATGCCAGTGAAATTTAGATC ATCAAAATCC CACATCTGTG GATCTGTAAT ATTTGACATG TCCTCTTCAG TTTCAGCAAT GGTTTGATCTAACTGAAGCA CCGGCCAGGB CBGGGGCTGT BBTCTTCBTC TGCBGGTGGC BTGCCBGTGB BBTTTBGBTC BTCBBBBTCCCBCBTCTGTG GBTCTGTBBT BTTTGBCBTG TCCTCTTCBG TTTCBGCBB TGGTTTGBTC TBBCTGBBGC BCCGGCCBGGTGGCTCGGTG CTTCTGCCCC TGTTGTTGCG GCGCTCGGTT GGTGTGGCCC CTGTGGTGCT TCGTTTCCCC CTCTTTCTCTTTGTTCGGGG GTTCTTGTGG CGGGCTGCTT GTCTCGTTCC GCCCTGTCGG GCGGGAAGCC TCTCTCCTCT CCCCAGATCCGCGACAGGC CGCAGGCAAG AACCAGCGCA ACCAGGGCGC GTCCGCACAG ACTTGGAGGC GGCTGCATGCTGCTACCTGC TCCAGAAGCG TCCGGTGGCC GCCGCGCC CTGTCGGGCG GGBBGCCTCT CTCCTCTCCC CBGBTCCGCGBCBGGCCGCB GGCBBGBBCC BGCGCBBCCB GGGCGCGTCC GCBCBGBCTT GGBGGCGGCT GCBTGCTGCTBCCTGCTCGGGCG GGBBGCCTCCG GTGGCCGCCG CGCGTCCGGT GGCCGCCGCG CCTCTCTCCT CTCCCCGTGGCCCTGTCGGG CGGGTCCTGC CGTCCTGTCT CCTTTTCTTT TGCTGTCTTG TCTTCCCGTC TCTGCTTT GTCTGTCCTCCCCGTCTCCT CCCACTGCTT CTCCCGGGGG CTTCCCCGGC TTCGGGTGGC CGGTGTCCCG GGCTCCGGCGCGGCGGCGGC TTCGGCTGCG GGTGGGTGGC GCGGGCTGCC GGGTCCGCGC GGCGCCTGGG CCCTTGTGCTGCTTTTTGCT TGTTCCGTTC TGGCTGCTCC GGTCTGTGTT GTGGTTGTTT TGTTTCTTCT TGGGTGTGGG CCTTGCGGTTTTGGCTGTGG GCCCTTTGGG GCCTTGGCTT CTGGCTCGTC TGTCCTCCCC GTCTCCTCCC ACTGCTTCT CCCGGGGGCTTCCCCGGCTT CGGGTGGCCG GTGTCCCGGG CTCCGGCGCG GCGGCGGCTT CGGCTGCGGG TGGGTGGCGCGGGCTGCCGG GTCCGCGCGG CGCCTGGGCC CTTGTGCTGC TTTTTGCTTG TTCCGTTCTG GCTGCTCCGG TCTGTGTTGTGGTTGTTTTG TTTCTTCTTG GGTGTGGGCC TTGCGGTTTT GGCTGTGGGC CCTTTGGGGC CTTGGCTTCT GGCTCCATCCACATGATT GCTTAGATTT GTGCTGTATC TCTCAGGATT ATCACTGATT ACACATCCAA CCAGTGCCAG CCAAAAGGATGCCCTGAGGC AAAGGGTTTC CATCTTGAGG CAAATTTGAG GACBTCCBC BTGBTTGCTT BGBTTTGTGC TGTBTCTCTCBGGBTTBTCB CTGBTTBCBC BTCCBBCCBG TGCCBGCCBB BBGGBTGCCC TGBGGCBBBG GGTTTCCBTC TTGBGGCBBBTTTGBGGBGGGCTBBGBT GBTCCBCBTC BCTBCCBCGT TGCCCBCCBC BGBGGTCBCC BCBBTGBCCG TGTBGGCBGCTGCCCBBBGG BCBBTTTGCC BGGCTGGTTG CBCGBBCTGB TTGGGTTCCG BGGTGTTBGT GGBGBTGTTT GGGGBGBGGTCTGBGTCCBC CGGGBGGBCG TTBTCCBTTT CGBBGCTBGG CGGTBBBGCC CTBCTBTCTG TBCBCBBCCC CCCTCTGCBGCBGBGTCCTG TCGTGGCGCC TGGGGCTCBG GGTCCGGGC TAAGATGATC CACATCACTA CCACGTTGCC CACCACAGAGGTCACCACAA TGACCGTGTA GGCAGCTGCC CAAAGGACAA TTTGCCAGGC TGGTTGCACG AACTGATTGGGTTCCGAGGT GTTAGTGGAG ATGTTTGGGG AGAGGTCTGA GTCCACCGGG AGGACGTTAT CCATTTCGAAGCTAGGCGGT AAAGCCCTAC TATCTGTACA CAACCCCCCT CTGCAGCAGA GTCCTGTCGT GGCGCCTGGGGCTCAGGGTC CGTCCTGTCG TGGCGCCTGG GGCTCTTCTT TTGTGGGCTC TTTGGTGGCT GTGGCTGTGG TCTCTGTGGTTGCTGCCCTG GGTCTGGGGG TGTGGCCTTG GGGCCGTCCT CTGGCTCCTC CTCGTGGGCC CCC GGTGBCBTTGBGCBTGTCGG CGCGGTCCCG TTBBGBGTGG GCCCGCCAGC CCAGCCACTC CACTTGGGGG CGGGTGGCCAGCACGAACAG CACCCAGAGG AAGGGGGGCG GCCCAGAAGG GCAGCCCGCA GGCCAGGATC AGGTCTGCTGCGGCCGGAGA TAATGGCATT CACCACGCGG CGGCCCAGCG CACGCCGCGC ATCCGGCCCG GGTTCTGACCTGCAGCCCCC GTCTCCTTGG CATTCCTGGG CCCCAGTCAC TCCTCTCCCT GCCCCCCTTG CTGGGGCAGG GACGGGGTGBCBTTGBGCB TGTCGGCGCG GTCCCGTTBB GBGTGGGCCC GCCAGCCCAG CCACTCCACT TGGGGGCGGG TGGCCAGCACGAACAGCACC CAGAGGAAGG GGGGCGGCCC AGAAGGGCAG CCCGCAGGCC AGGATCAGGT CTGCTGCGGCCGGAGATAAT GGCATTCACC ACGCGGCGGC CCAGCGCACG CCGCGCATCC GGCCCGGGTT CTGACCTGCA GCCCCCGTCTCCTTGGCATT CCTGGGCCCC AGTCACTCCT CTCCCTGCCC CCCTTGCTGG GGCAGGGACG GCCGTGTTGT CBGTGGTGCTGCCCGTTTGB GGTBTGGCGC TCCBCCBBTT CCCTTTTCTC CTTGTTTTCC GTTTCTCTTG CCGTCTGTGG TT ATGCCGCCCTCCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTCTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGCCTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCTCCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGCTGCTGGATCC TCTCCTTCGT GGTGGGACTG CCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGCAGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATGGTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAATCCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTGAAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCACCCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGAACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAGCCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G ATGAGTGTCA GAAGTGTGAAGGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCA GGTGAGGAAG GGTTTAACCTCACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTG GGGGCACTTG GACAGAACAGTCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGG CGGGAGCCGGAGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGG AGCTCTGTTCCCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTG CCTCGTGCCCCTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCGGCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAACCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCCCCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTCACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCCGGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGTGGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGCAGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCAACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAGCTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCAAGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGCCCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGTCTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTCCCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCT TCCGCTCCCA CCAGCCCACATCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCT GCCCCAGCTG GGCTGTTGGCTGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTC CACTAGGAGT TAACTACCCTACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGG GACCAGGTGT CTAGAGGCAACAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGC TTCAGGGCTG GGCAGGTCCTGGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTG GGCTTCTGCG GTGAGGCAGGGGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTA AGGAGAGGAG AGCATCTGCTCTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTA GGAGAGACTG GCCAGAGGCAGCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTG GACCCCAGGC CATACCAGGTGCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGG GAGAGGCAGA AAGGGTAGGTTCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGG GAGTGAGCTT GGTGCGGTAG GTGCTGGCCTCAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTG CCCTGAGCTT TCCGGGGAGG AGCCTGGAGTGTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCC CGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTGCTGCTTCTGG GCCTGATGGA GAGGAGAACA CTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAACGGGGTGGAC GAGGGAGTGT CTGTAAGGAC TCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAGGCTGCAGCAG GCAGAGGAGG AGTACCCCCC TGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCCCTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAGGGATCTGGGA TCTGGGGAAG GACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGGTGGGGGAGCC TGGAGCCCCT GTGTGGGAGG GCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGAGGCGGGGGAT CCTGGAGCCC CTGTGTCGGG GGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAACATGAGTGTC AACTCCAGGA CTTGCTTCCA AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGCCCATGTGACT AATAAAAAAC TGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAGTCTTGAAGAG AGACAAAGGA AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGTTTGGGTTGTT GTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTGTTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCGGCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTTGGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTTGGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCATCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGA AGGTGAACCAGGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG ATGTGGCCGT GGGTGCCCTG GTCATCCCCCTCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACCCAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACC GCTACCTCCG GGTCAAGATC CCTCTCCGGTACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCAT AGCCGGCTGC TGGATCCTCT CCTTCGTGGTGGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGG CCTGGGCAGC CAACGGCAGCATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA TCAGCATGGA GTACATGGTC TACTTCAACTTCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTCAACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGTCGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACT GCATCACCCT CTTCTGCCCGTCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTATGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCATTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG CCCACATCCAGTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT GAGCCTGCCC CAGCTGGGCTGTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGG TCCCTCCACT AGGAGTTAACTACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAGAGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCAGGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGAGGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA GAGGAGAGCATCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT TCTGTAGGAG AGACTGGCCA GACCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CGGCGGGTCTCACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCTGCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAACGTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCCTGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTG CACTGACTTCTACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGC CTTCTGGCCG TGGCAGTCGACAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGG GGACCCGAGC AAGAGGGGTCATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCT GGGGTGGAAC AGTAAAGACA GTGCCACCAACAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGC TGCTGCCTTG TGAAGTGTCT CTTTGAGAATGTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCT GCCCCCACTG CTTATAATGC TGGTGATCTACATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC ACTGAGCTGA TGGACCACTC GAGGACCACCCTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGCTGTTAACTGT GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCAAGTGGGCAAT GAATATGGCC ATTCTTCTGTCACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATCTCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCGGTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGACACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCCCTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTA TGATCTATTCAGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTG TTTTTAAAAG TCTGCCTTGTTTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCA AATACTTTTT AACTTAGAGGCAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAG GAAGGTGACC TCAAAAATTAAAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGC ACTTTGGGAG GCCAAGGCAGGCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTG GGGCAATTTG TTAGTTATCC GCCGCCACCAAGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGG GCGCGAACTT TGGGCTCGGG CGAGTGGGTGGTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAA TGGGTGCCGC CTCTTGGCCG CGGGGGGCCCCGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGG CTCAGAAGCG GCAGGCGGAG GCGCGGTCCGGGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCC CTCGCCCGGC GCGCCTTCGG TAGGGGGCGCCCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAG GACGCGCTGT ACGTGGCGCT GGAGCTGGTCATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCG CCGCGGTGGG CACGGCGAAC ACTCTGCAGACGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGA CGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACCATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCATCTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCC CGCTCAGGTA TAAAAGTTTGGTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGGGTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGCTGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCCCCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGGACCACTCGAG GACCACCCTC CAGCGGGAGA TCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTTTGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTC ACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGTGGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGACTTCCGCTACA CTTTTCACAA AATTATCTCC AGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGGGGTACAGCCT GCTCTCGGTG TGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCACAAGAAACAA AGAGGACACG GCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGCCTCTCTTGAG CACTTCCCTG GAGCTACCAC GTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAATATATTTATG ATCTATTCAG CTGCTTTTAC TGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTTTTTAAAAGTC TGCCTTGTTT ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAATACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG GAATTCCCAG ATGGGCAGAGGTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCTACAGCATGCT GTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTCACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA GTGCTATATAGTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCC TCCTAGAAAT TTCTCTTGGT AACTTCCTTCTCTGAAGCAC AGATAAAGAA AACAATTACA GTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAGCTTTTCAAGT TCCAGCAGTG CAGGGATGTG GGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATTCAGTTGGAGA GGACTGCCCT TTTTAATGTC TGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGGACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGAT ACAGGGTGGG GGTCGGGAGT GGAATCAATGAATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGAT GAGCCCCAGG CAGAGGCGTC TCCCTTATGCCCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTTAGATGCTTAA GGTAAAAATG ATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCTAACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGA ACCAAGTGGG TCCCCAAATAACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCA GCTTCAGGGA GAGGGGGCTGATTCCCAGAC AGTCGCCTGT TCCTGCGGGGATGGGGCTGA GGCTTGGGGA ATGTGGGCAG GAGGATATGCCATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAGGTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGA GAAAGAGAGGTGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTTGACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACTTAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTCCTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCAC CTGATCCTGCACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTCTTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCTGAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTT GAGGACATCTGTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAG CATTCTGGAAACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTC TAAGGAGAAGGGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGA CTGTCACTGCACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCC ACTGGCCCTA CAGACGGATC TTGCTGGCTCACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGT CATTGGCCAATGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGC GTGGTCAAGCTGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC CTGGCTGACA TTGCTGTTGG GGTGCTGGTCATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCC TACTGCTTATCTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACC GTCAGGTAGCCTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA AAGCCAGAGC CTGCTGAATTTTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCC CTCAAGCCAC TGTGTGGGTT GGGTCCAAGTGTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATA ATCCCTTTGG ATGGTGCTGA GAAGCACCTG AACCAAGTGGGTCCCCAAAT AACTATGGCG TGCAAGTGTC TGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGAGAGGGGCTGA TTCCCAGACA GTCGCCTGTT CCTGCTGGGA TGGGGCTGAG GCTTGGGGAA TGTGGGCAGGAGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCC TTCTTTCTGT ATGTCTGGTC ATTCTGCTAT TCTGTCGTTCCTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTG CCAGTGTGAT TTTGCTAGGG TGTGAGCTGAGAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGGGAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCACCTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTCATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTC TGTACTTCCT CTTGGCCCAT CTCACTTCCTGAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTC AAAAAGCCAA AAAGCTGCAG GCAGAGGCGTTGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTT CAGATTCAGT CCATATAGAG CTGTCCTACAGCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGC TGGAAGTGAC CCACCTGTGA TGAGCCCTTTCTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAA GGGTAGGAAT GAGCAAGTTG GGAATTTTAGACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGA GAGCTAGGCC CACTGGCCCT ACAGACGGATCTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAA GGCAAGATGC CCAACAACAG CACTGCTCTGCGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA TATAGAGCTGTCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG AAGTGACCCA CCTGTGATGAGCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC CAGAAAAGGG TAGGAATGAG CAAGTTGGGAATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACAGACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCACTGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGGTCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATTGCTGTTGGGG TGCTGGTCAT GCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTATGACTTGCCTA CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCAAGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCTGGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGAAATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGATTTTCATCCCC CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTATCTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTTGCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACATGGGCATCCTG CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTCAAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAATTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTATGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTCCCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTTGGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCCTAGTTGACTT ACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATTGAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGGGGGACTTAAA CTGCTGAATT C CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGCCAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCCAAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCTGCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAAAATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAGGAGGCCTGGG GGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAGACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTGCCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTCCCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAGAAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAGAAAGAGAAGG AGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACCACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGACCAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTTGTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCATCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGTGGAGCAGAAT CAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCATTGGCTCCCTT CCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAGAGAAGGCCAT GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAGAGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAGGGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTAGAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGATAAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGGAGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCTAAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGGCTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCTGGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTAGAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGAGGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAACCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACATGGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTCCCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA ATGCCGCCCT CCATCTCAGCTTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTCTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGCCTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCTCCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGCTGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGCGGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCATGGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCTTCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGGGAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCAACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAACTCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G ATGAGTGTCAGAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCA GGTGAGGAAGGGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTG GGGGCACTTGGACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGGCGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGGAGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTGCCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGC TTTCCAGGCCGCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTGTGCCCGGGAA CGTGCTGGTG ATCTGGGCGGTGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGG CTGATGTGGCCGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTGCCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAGATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCCTCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGCAGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATGGTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAATCCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTGAAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCACCCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGAACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAGCCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCT TCCGCTCCCACCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCTGCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTCCACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGGGACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGCTTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTGGGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTAAGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTAGGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTGGACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGGGAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGGGAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTGCCCTGAGCTTTCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCCCGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACACTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGACTCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCCTGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTTGGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAG GACCAACCCATGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGGGCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGGGGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCAAGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT AATAAAAAACTGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGAAGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT GTTGTTGTTG TTTGGTGTGTTTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGAGTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGGAGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCTGCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATGCCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGTGCTGGTGATC TGGGCGGTGA AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTGGCGGTGGCTG ATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCACACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACCGCTACCTCCG GGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCATAGCCGGCTGC TGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCGGTGGAGCGGG CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCATCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTGGAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGTACTATGGGAA GGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCACATCCTCAACT GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCACGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATGACCATTTCCG CTGCCAGCCT GCACCTCCCA TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGACCCCGCCTTCC GCTCCCACCG CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCTGAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGGTCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTACGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTCCAGAGCTTCA GGGCTGGGCA GGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGGTGCTTGGGCT TCTGCGGTGA GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCAAGCTTAAGGA GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGTTCTGTAGGAG AGACTGGCCA GA CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTATGGCCATGCC CGGCGGGTCT CACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGCCCAGCTGGCC CGGCCATGCT GCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCGCGCTTTCGGT GGCGGGCAAC GTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCACCAACTACTTC CTGGTGTCCC TGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCCTGGGCTTCTG CACTGACTTC TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGCCTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGGGGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCTGGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGCTGCTGCCTTG TGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCTGCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC ACTGAGCTGATGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGA TTGTGGGGATTTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCAAGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGAGACTTCCGCT ACACTTTTCA CAAAATTATC TCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGCTGGGGTACAG CCTGCTCTCG GTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAATCCACAAGAAA CAAAGAGGAC ACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGACTGCCTCTCTT GAGCACTTCC CTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACAAATATATTTA TGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTGTTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCAAATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAGGAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGCACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTG GGGCAATTTGTTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGG GCGCGAACTTTGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAA TGGGTGCCGCCTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGG CTCAGAAGCGGCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCC CTCGCCCGGCGCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAG GACGCGCTGTACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCG CCGCGGTGGGCACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGA CGTGGCCGTGGGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCT TCCTCGCCTGCTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCCCGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGGTCCTTGCCTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAACCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGAGCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTCCTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGATCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTCACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCACATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTACTGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT ATGGTGGAAAATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAATAAAAGTTGAC TGTACTAAAA ATG GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCTCCTGCCTTTA TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCTTTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGGGAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTTTTTTTTGGCA GAGTGCTGCC TCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACAGTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTGGGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTCTGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATCAACTTGGGAT ACAGGGTGGG GGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGAGGACCCTGAT GAGCCCCAGG CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACCAGAACGCCAT TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCTCAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGATGGTGCTGAG AAGCACCTGA ACCAAGTGGG TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGAAGTTGGTGAC TAGGTAAGCA GCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGGATGGGGCTGA GGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTGTATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGATTTTGCTAGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAGTTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTGCTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACCAAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTGCATAGTCAGT GCTTCCAGCT CTGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCAATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCTGTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAAAAGCTGCAGG CAGAGGCGTT GAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTCCATATAGAGC TGTCCTACAG CATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACCCACCTGTGAT GAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATGAGCAAGTTGG GAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCCACTGGCCCTA CAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCCCAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGGGCAACGTGCT GGTCATCTGC GTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCCCTGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAGCTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGATACTTGCGGGT CAAGCTTACC GTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAATGAGGCTACA AAGCCAGAGCS CTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAATGATAAAGCC CTCAAGCCAC TGTGTGGGTT GGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATAATCCCTTTGG ATGGTGCTGAGAAGCACCTG AACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTCTGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTTCCTGCTGGGA TGGGGCTGAG GCTTGGGGAA TGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCCTTCTTTCTGT ATGTCTGGTC ATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTGCCAGTGTGAT TTTGCTAGGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAGAGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGTATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGAGGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGCAGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACTCTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGTTACTGAGCTC TGTACTTCCT CTTGGCCCAT CTCACTTCCT GAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTCAAAAAGCCAA AAAGCTGCAG GCAGAGGCGT TGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTTCAGATTCAGT CCATATAGAG CTGTCCTACA GCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGCTGGAAGTGAC CCACCTGTGA TGAGCCCTTT CTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAAGGGTAGGAAT GAGCAAGTTG GGAATTTTAG ACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGAGAGCTAGGCC CACTGGCCCT ACAGACGGAT CTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAAGGCAAGATGC CCAACAACAG CACTGCTCTG CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCAGCACTTTCAG ATTCAGTCCA TATAGAGCTG TCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATAAACGGGCTGG AAGTGACCCA CCTGTGATGA GCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCACCAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGTCTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCCCTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAAATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCCTGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCAT GCCTTTGGCCATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTA CTGCTTATCT TTACCCACGCCTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCA AGCTTACCGT CAGATACAAGAGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCT GGTGTCATTC CTGGTGGGATTGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGA AATGTCACCT TCCTTTCATG CCAATTTGTTTCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGAT TTTCATCCCC CTGGTTGTCA TGTGCGCCATCTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTAT CTAACTCCAA AGAGACAGGT GCATTTTATGGACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCAT GGCTGCCTTT ATCTCTCATCAACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACAT GGGCATCCTG CTGTCCCATG CCAACTCCATGATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTC AAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCTGCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTGACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCACTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTC CCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTTTGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTCTTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAA GGCTCTAGTTGGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATT GAGCAGAGAA CCTGCTCTCGGAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGG GGGACTTAAA CTGCTGAATT CAAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAATCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATGGCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGCTACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGCCATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTACGCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCTAGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTGTCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTGTTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAATTAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAGATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGCACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCCTGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGACAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCCCCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGGAAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTGGTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTCAAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAACCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGTTCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCTGCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAATCCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGTCCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCCTCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGCGCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTATTAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAGCACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTGTATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCCCACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCCTCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACTCCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGACAAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGAAGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTGGAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGCCTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAATTTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACAGCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGATGAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTCAGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGCTGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAGCCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTACCCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGAGCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGAAACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCCATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAAAGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGTCCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGGGGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTCAGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTCTCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCCCTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCAACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGGGCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGCAGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTGGGTCCCCCAGTCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGATGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGCCCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACTTTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCGATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGCCCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATGAATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGAGCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAAAATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACCCTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTGACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCCCCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCCAGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAATGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGGGAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCCAACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGAAGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCACTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGTCTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGACATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGGAGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTTGTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCGCAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCTCTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGGTGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGCCAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACCATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGGAAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATCATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGCTAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGCCTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGGCCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTGGGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATGGGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGACAGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGGGCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCGGAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAGCCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTGGAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGCAAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTGTTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGGGTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCAAAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGGAAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCCACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGAGCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTC GCCCTTCAAA GATGAGCTGT TCCCGCCGCCACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCCCCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGCTGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGCAGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTCCATAGGGGAT AAAGCACAGA CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCTCTGTCCCCAA CTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCACAGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAAGCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGATCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGGGGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTTTAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCTGCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCCGCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGACAGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCCACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAATAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGCTTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGGCCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGAGCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCAGCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTTCCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACATCAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCGGGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGGAGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGGCAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATTTGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGGGAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGTTCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGAGGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGAACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGACCAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATATTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCCATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGAGACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAATAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAACAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTGGGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGGAGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCATTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAGTCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACCCCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCAACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTGAAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATATTTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAACCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAGCTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTGGAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGGAATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAGGGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAACCTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGCTAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGCCCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACCCCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAATTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGAGCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACCAAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAGGAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGTGACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCTCACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGCAAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCTGTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTGTTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGGAAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGCACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGCATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCTGGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATCTGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGTGAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTAGGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGACTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGTCCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGCCTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCTAAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGTCCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTCGAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAGCCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTAGTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCACAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCAGTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTGAGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATCTAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGAAGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAGTTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGACAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTGGAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATTCCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAAGTAAATACCC AGTGGATCAGACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGCTGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCAGAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCCACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGGGCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCCAGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTCTCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGTAGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCTGGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCAAGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGGCCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCCTTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCACACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTTTTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAGAGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCACGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAACAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAATGCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCACAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAGGGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAAACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCCTAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTCCTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGGGCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAACTTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAAAGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCATGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCTGCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACAACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTAGTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTTACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGCAGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCCAATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAGAAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTTAATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCGGTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC AACACTTGAGATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAGGCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCGGGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGGACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATGTCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGGCTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCGTCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCTGATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCCGCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTGGCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGATCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGAGGGCCACAAC GTCACCGCTT GTGTCATCAGCTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCGTGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAACGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTGCTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTGCCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTCAACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGTGCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCATCTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGGGCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGACATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGCAGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTACTGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGGAGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAGGAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCTAGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGAGACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCACATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATCTCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAATACTATTGCA CACCACCTGT CCTGCCTC CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGGTTGTCCTTAA CCCCTGTCTC CTTCTGGACC AGTTTTTGTC CTTCGCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCACTTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCCCAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCACCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTACCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCCAACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCTGTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGCTGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTGAGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGTGCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCTCACTGATGGA CAAGGGAGGT CTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATATGCAGTATTGA GCACTGTAGG CAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAGACTCAAGTGG GAACGACTGG CACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTGTGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCTGTCCCTGCCT CAGTTCCCTC TTCTGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAAGTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTTACTATAAGGA AAAGACACTG AGGTCTAGA TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGTCATTGTGGTT CAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTGAACCCAGTAG GACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCTGATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCATGGTCTCCAA GCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACACGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAATCCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATACTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGGCTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCGGCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGGGGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCTTTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTGGGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGGCAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCATCACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACAC CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACCACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTCCGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCCCATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT CTGCTGGGAGGACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTTGCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCAATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTT CAGAGGGCTTGTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCC AGATTAAGGAGCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCACTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGACTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGAAGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTTCTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAGCCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCCTTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACACCCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAATCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTCAGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATTCACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACGGGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGCAGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGTGCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAGATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACGGTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAGGGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTCCTTCCGGAGG GAGG CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCTGCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACATCTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCAATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACAGCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGGGGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGATCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTATTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACAACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAATAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGGAGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGCTGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCAGCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTAAAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCAGACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAATCAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTTCCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCATGTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAGTGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCCTGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTAGAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGATAAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGGAGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCTAAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGGCTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCTGGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTAGAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGAGGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAACCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACATGGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTCCCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAATTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGAGCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACCAAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAGGAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGTGACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAAAAAAAATTAC GCTTCAAACA CATGATCTCTCACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGCAAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCTGTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTGTTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGGAAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGCACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGCATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCTGGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATCTGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGTGAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTAGGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGACTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGTCCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGCCTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCTAAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGTCCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTCGAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAGCCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTAGTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCACAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCAGTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTGAGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATCTAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGAAGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAGTTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGACAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTGGAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATTCCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAAGTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGCTGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCAGAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCCACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGGGCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCCAGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTCTCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGTAGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCTGGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCAAGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGGCCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCCTTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCACACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTTTTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAGAGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCACGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAACAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAATGCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCACAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAGGGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAAACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCCTAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTCCTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGGGCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAACTTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAAAGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCATGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCTGCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACAACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTAGTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTTACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGCAGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCCAATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAGAAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTTAATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCGGTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC AACACTTGAGATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAGGCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCGGGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGGACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATGTCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGGCTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCGTCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCTGATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCCGCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTGGCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGATCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGAGGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCGTGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAACGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTGCTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTGCCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTCAACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGTGCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCATCTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGGGCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGACATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGCAGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTACTGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGGAGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAGGAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCTAGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGAGACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCACATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATCTCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAATACTATTGCA CACCACCTGT CCTGCCTC CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGGTTGTCCTTAA CCCCTGTCTC CTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCACTTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCCCAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCACCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTACCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCCAACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCTGTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGCTGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTGAGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGTGCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCTCACTGATGGA CAAGGGAGGT CTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATATGCAGTATTGA GCACTGTAGG CAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAGACTCAAGTGG GAACGACTGG CACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTGTGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCTGTCCCTGCCT CAGTTCCCTC TTCTGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAAGTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTTACTATAAGGA AAAGACACTG AGGTCTAGA TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGTCATTGTGGTT CAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTGAACCCAGTAG GACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCTGATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCATGGTCTCCAA GCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACACGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAATCCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATACTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGGCTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCGGCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGGGGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCTTTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTGGGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGGCAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCATCACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTGATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACAC CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACCACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTCCGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCCCATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT CTGCTGGGAGGACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTTGCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCAATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTT CAGAGGGCTTGTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCC AGATTAAGGAGCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCACTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGACTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGAAGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTTCTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAGCCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCCTTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACACCCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAATCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTCAGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATTCACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACGGGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGCAGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGTGCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAGATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACGGTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAGGGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTCCTTCCGGAGG GAGG GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCAAATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATCCTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTTACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGACTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCAACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTGCCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGATCACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCTCTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTGCCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTTGAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAGATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACTTGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAGAAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAGAAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAACTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCATGCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCAGTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCACCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCCGGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGACTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGCACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTTTGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCATGAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCTCAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC GCCACCATGG AAACCCTTTG CCTCAGGGCATCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATA ATCCTGAGAG ATACAGCACA AATCTAAGCAATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCT CAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTCCTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGC AGACTAAAAT TACTTCAGCT TTCAAATACATTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAAT GCAACTCTGC TCAGGATCAT TTACCAGAACAAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTC TTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCCTATCAATGTA TTTAAGCTGC TGGCTGGGCG CTGGCCTTTT GATCACAATG ACTTTGGCGT ATTTCTTTGC AAGCTGTTCCCCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCT CTTAGTGTTG ACAGGTACAG AGCAGTTGCCTCCTGGAGTC GTGTTCAGGG AATTGGGATT CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTATCCTGGCCATT CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACA GCATAAAACC TGTATGCTCAATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG CTCTTCGGGT TCTATTTCTG TATGCCCTTGGTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGA TGTTGAACAG AAGGAATGGC AGCTTGAGAATTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGC AAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGCTGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTG TGTATAACGA GATGGACAAG AACCGATGTGAATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCA ACCATGAATT CATGTATAAA CCCCATAGCTCTGTATTTTG TGAGCAAGAA ATTTAAAAAT TGTTTCCAGT CATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGATGACCTCGGTC CCCATGAACG GAACAAGCAT CCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGACCGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAG AAGCACTCCT GAATTCGGGA AAAAGTGAAGGTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTC AAGATGGAAA CCCTTTGCCTCAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAATCTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAATTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC TTCAGCTTTC AAATACATTAACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAATGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTATCAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCTTTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCT CTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCCTGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCTGGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGG GTGAACAGCA TAAAACCTGTATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTATGCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGCTTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGCTCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAATTACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAA CTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTGTATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGACCTCGGTCCCC ATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGGAGCAGCCATA AGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGGAGAAAAAAAT CACAAGGCAA CTGTGAGTCC GGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGAAGAAATGCTT TCCAAAACCG CAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCTAATTTACATA TTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTTAAATGAAACC AGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCTGGTGAATGTT CAATGGGAAC TGGTCACCAT GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTTTTTGTCCTTC AGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTCAACAAGAAAA GCGTTGGTAG CTCTGGTGAA TCCCAAAAGA ATGTGGCAGT TGCTAGCCAT GCTCCTGAATATGTATAAAC AGTACATCAT ATGACTAAGA GTTTGACTTA GGGGTTAGAT TTTATGTGTT TGAACCCCAA ATTAGTTATTTAATAGTTGG CACCCCAAAA CAAGTTACTT AACCTCACTA AGGTTCAGTT TTCCTGTTTA TAAAATGTAG ATAGTGATAGTATGTACTTT ATAGGATTAT TGTGAAAAAT AAATGAAATA TCAGATTTAT TTAGGATAAC ACCTGGCATA TGTTTGGTATTCAGAATTAG TTGCTGCTGT TTTATTCTGC TCTCCCTTGC ATCCCACTTT TCTAAGTTGT AAACTAAATA GTTGTACACAGATTGACAGA TTAAGAAAGG CTTGTGATTG TGCTAGACCT ATGCCTATGC CTCTGTCTCA CCAGATTCCA GGTGTATATGTGGAGGTGGG ATAGGGAGTG GAGTAAGTGG GTAAATATTA AATTGCCCAG TTGGGCACCA TCCTGAATATTATCTCTAAA GAAAGAAGCA AAACCAGGCA CAGCTGATGG GTTAACCAGA TATGATACAG AAAACATTTCCTTCTGCTTT TTGGTTTTAA GCCTATATTT GAAGCCTTAG ATCTCTCCAG CACAGTAAGC ACCAGGAGTC CATGAAGAAGATG GATCTTCATG TGGAATGACT GGTTTCATTC AATAGACTTA ATTCAGCAGT CTGTGGGGAA GAGCAAGGTATGATAGAATG GTTCCTCAAG TGCTTCAGAT GTGAAGTGGG TTTAAATATA CTGTCCCTGT CTTCTTCAGA GTTTTGGTAAAGATAAAATA GGACACTCAT TTAAAAGCAA TCTTTGCAAA TGACAAGCCA CTATAGACAT TAATAGAGTTTTCATTTCCA GTATTATCAT TAATATCAGA TCCTGGAAGA AGGTTGAGCC TTGACCTAGA GCAAAAAAACAGAAGAATTA GTAAAGGAAT CCTGGAGAAA GCCCCTGCTG TGTATTTAAA GGAGAAAGGG AGATCATGTTGGGAAATTAT AATATTAAAA GTAAACAAAA GCTAGGAAGT AAAATAAAAT AAATTATATG GCCTAGATCCCCATAAGTAA TGGTTTAACT TCTGCCTTCC TGTGTTCTGA GCCAGATTAG GGCACAGTAG AGAAAGAGGAGTCTCTGAAA ATGTTTCCAA TTTCGCTGGT CAGACAGCGG ATCATCAGTG AATCAGATGA AAATTTGTGG ATTTATGCACTAACTGATCA GCAGGAAATT AAACAAGAAA AGCGTTGGTA GCTCTGGTGA ATCCCAAAAG AATTTGGCAGTTGCTAGCCA TGCTCCTGAA TATGTATAAA CAGTACATCA TATGACTAAG AGTTTGACTT AGGGGTTAGA TTTTATGTGTTTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACT TAACCTCACT AAGATTCAGT TTTCCTGTTTATAAAATGTA GATAGTGATA GTATGTACTT TATAGGATTA TTGTGAAAAA TAAATGAAAT ATCAGATTTA TTTAGGATAACACCTGGCAT ATGTTTGGTA TTCAGTAATT AGTTGCTGCT GTTTTATTCT GCTCTCCCTT GCATCCCACT TTTCTAAGTTGTAAACTAAA TAGTTGTACA CAGATTGACA GATTAAGAAA GGCTTGTGAT TGTGCTAGAC CTATGCCTCTCTCTCACCAG ATTCCAGGTG TATATGTGGA GGTGGGATAG GGAGTGGAGT AAGTGGGTAA ATATTAAATTGCCCAGTTGG GCACCATCCT GAATATTATC TCTAAAGAAA GAAGCAAAAC CAGGCACAGC TGATGGGTTAACCAGATATG ATACAGAAAA CATTTCCTTC TGCTTTTTGG TTTTAAGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACAGTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTCGGTAAGTAGA GATTCAATTA CCCCTCCCAG GGAGGCCCAA ATGAATTTGG GGAGCAGCTG GGGTAGGAACCTTTACTGTG GGTGGTGACT TTTTCTAGGA CATGTGCAAA CTATTGGGCA TTTCCCAGGG ACTCTGTAGT GGAGCCAAGCTAGAAAGCAG AGGCAAGTGG GCTGAGCAAC ACCTAAGGAG GAAGCCAGAC TGAAAGCTTG GTTCCTTGCATTTGCTCTGG CATCTTCCAG AGTGCAAATT TCCTACCAAG GTAATGAGGG TAGAGGAGAG AAAGAAGCTCTTTCTTCCCC TGATTCTCAT TCCTGAAAAG ACGGTTGGTC CTTAAAATTC CATGGATGTA GATCTTATCC CCACACCCAGATTCTAGTCC TCTGGAGATA AAGAAGACTG CTGGACACTA ATGTATCCTC TCTGGACTTT TGCAGCTCCA GATGGCGTGTTAGCAGGTGA GTCCTCTGTT CTTGTTCCCT TGGTGTATCA ACATGTCTGG GCATTGCTTT CCTCTCACTA TTTTCTTCGTCCCATCACTT CTGCTTTCTA ATGAGCATGA ATCTGTTCCT TGGCCAGACT ACTTTCCCTC TCCACCTTGC CTTGTCTTTCTTTTTTTCCC TGATTCATTG CATTCTCTCA AGTCATTCTC TCCTCTGTTT TAGTCAATAA CCATGTCTGT TGCACATATACATGTCTCAT TCTCTCTCCT AGACACTTTG GCATGATCTC GCTCAATAAT TACATTATTA TTATTATTGC CATTTTATAATTGAGGATGC TGAAACTCAG TGATTTTCTG GTGGTTACAT GGCTAAGGAA CTGGATTTCA ACGTAAGTTC CTTGGATCTAAGTCCAGTTC TCTTCTGACT ATATCACCCT TTTGTTATCA CCATGTATCT ACTTCTTTGG TCTCTGTTCA AATTTGCACTACATCCCCTT GTTCCAGGAA GCCATTCAAG ACTGACTTTC TTAGTGCCTC TCACTACTTT CTGGAACTGA CATATGTTTTTCACTCTGTA TATACTTACA ATTAAATAGT CATAAATATTCAGAGCTTGG AGAAACCTTA TATTTCATCC AGTCCAGTAAATTTATCCAT CCATAATTCA CTCATTCATT CACATAATAA ATATTTAATG TAACAATGGT TGAACATGGC AGACAGTGTTTCTACCTCAA AAGAGATTGC AGTCCTCATT TACAGATACT GAATTGAAAT TAACAGAAGT AGAGTGAGTCAGCTCAAATC ACATAGTGAA TTGGTTTCTT TGTTTTTAAA TCTCCTGCAT ATGTGTCCTG TCTTTCTCCC TGTGTTGGGCGTTCCCTGGG GCACCAATAC TAATTTCTCC TTCCCCTAGA AATCAAAACA GGGTCTTATC ACCAACAGAATAAGGACAGG TTGACCACTG ATTGTCAGAA TATTGCTTCG TTTGTACTTT TAAGCCTAGA CAGTTTTCAA TGACTTTTTTTCTCTCTACA TGTCTTTTCA TATTTTTATC TTCTTGAAGT CCCTCAGAAA CCTAAGGTCT CCTTGAACCC TCCATGGAATAGAATATTTA AAGGAGAGAA TGTGACTCTT ACATGTAATG GGAACAATTT CTTTGAAGTC AGTTCCACCAAATGGTTCCA CAATGGCAGC CTTTCAGAAG AGACAAATTC AAGTTTGAAT ATTGTGAATG CCAAATTTGAAGACAGTGGA GAATACAAAT GTCAGCACCA ACAAGTTAAT GAGAGTGAAC CTGTGTACCT GGAAGTCTTCAGTGGTAAGT TCCAGGGATA TGGAAATACA GATCTCTCAT GTGAGGGATG GCTCATCTGA AGATGGGAAAAAACAGGTTA TTCCAAGGGT TAGGACACCA GAGTGGGATT CAAGGCCTCT CATTTTTAAG ACCCCTGCATTGGCTGGGCA CAGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCTG AGGCAGGTGG ATCACGAGGTCAGGAGATCG AGACCATCCG GCTAACATGG TGAAACCCCA TCTCTGCTAA AAAATATATA TATATAAAATTAGCCGGGCG TAGTGGTGGG CACCTGTAGT CCCAGGTACT CGGGAGGCTG AGGCAGGAGA ATGGTGTGAACCCAGGAGGT GGAGGTTGCA GTGAGCTGAG ATCACGCCAC TGCCCTCCAG CCTGGGCTAC AGAGCAAGACTCCGTCTCAA AAAATAAATA AATAAATAAA AAAGACCCCT GCATCTCTTT TCTTCTACCC CCTTCCCTTT TGATTACTTGTATGCCTTCT TTCAATATTC TAGTCATCTC TCAATATTAT TCCTCCACCC TATTTTCCTC TATCTTTTCT GCCTAGATTCAGGTATATAT TATGTGGTCA AACAGCATGA CATATATGTG AACATTTCAA AGAGCTGTGT ATCTGGAATAGGATCAAAAG GTTTGACTTA AAGTTTTGCT CTGCATAATC CATATGGCAG GACCTGAATA TTAGGTTGTA CTCTTCGTTATGAAACATAT CTGGGTACAT TTCCTTATGT CCTCTGTTGT TACTTAAGAA CACATATTTC ATGCTTGTTT CATTTTTATCACTCCTACTG CCAACAAATA GCATAGCATG CTTAGGCACA TGTGGCTTAA TTAGCAAATG TTGAATAAACAAATTAATGA TTTTGAATAG TGACCAATAG GTCTCTTTTA TACTCTATAT TTTTCTCTTG AGTGAAAAAA AATGTTTCAACCTCCATATG TAAATTCCAA ACACAAACTA AAGCAATGTA GAATAGCTTC TTTATTCCCT GGAGTAGGTTCTAGAGAAGT CCTAAAGGAT TGGTCCTAAA TTAATTATGC TTATTATGCT AGCGATATTT CCTTTCAAAA TTCTCCTTTAATGAATGCTT TTTAATTTTT ACAAAAGCAT TAACCATAGA ATGTGATTCT TGTCTTTCAC TGACTCATTA GTGACAAATATTTGTTGAGT ACCTACCAAC TCCTAAGTAT TGCTACCAAC TCCTAAATAC TGTGTTGGGC ATTCAGAATA GAATGTAGAACTAGACAGGG T CCCTGACTT CTTGGAGCAC AGAGCAGTAT GGGAAGAGGA CATTAAATAA AGAATTACATAAGTAATTAA TTTAAATTAT ACATGTTTTG AAGAAGTTTT TTTTTGACAA CTATAATTAA CACTAGAACT GGGAAGTTTCTATAAGGTAA GAGAGGACAA AATAGACACT CTCCTAAGCT AAAATTCCCA AGAAAGACTG TTTATTTTCCCCTAACTAAC TAGAACTAGC AACAGAAGAT CTGAAAGGAA TTCTGGCTTT CAAGTGTTCC ATGTATGGACTCATCAGGGA GGTCCGAGAG GCTTTGTGGC CCCAGACTGA CTTTTCAGGA GGGGAAAGGA TTTATCAATACACAAGACAG GCTCTAAGCA TTATTTTGTG CCCTTTAAAA ATCCACTTTA TGAGCCAAAA AGTGAGTTAA TGATAATTCATAGTTTCTGA CACATGCTCT ATGCGTGGCT CTCTTTTCTC TATTCATTCT CTCTCTCTTC ATTTATTGTT AAATAAATAATGTAATGAAT GTTCTTCAGA CTGGCTGCTC CTTCAGGCCT CTGCTGAGGT GGTGATGGAG GGCCAGCCCC TCTTCCTCAGGTGCCATGGT TGGAGGAACT GGGATGTGTA CAAGGTGATC TATTATAAGG ATGGTGAAGC TCTCAAGTACTGGTATGAGA ACCACAACAT CTCCATTACA AATGCCACAG TTGAAGACAG TGGAACCTAC TACTGTACGGGCAAAGTGTG GCAGCTGGAC TATGAGTCTG AGCCCCTCAA CATTACTGTA ATAAAAGGTG AGTTGGTAAAGGAAAGGAAA AGCATCCATA GCAGGGGAAG GAAGAGAGAA CTTCTGAGCC TGAGCAGTTG CAGCTTGTAGAAGGGGGGCA CCTGTGATAC ACTGGAAAGC CTACCAGACT TGCAATGAGG AGACCTGGGT GATAGTATATATCTCAATCT CTGTTTCAAA GCCTTGACTT GTTAAATGGT GATAGTAATA CCTGCTTGCA CTATGAAATT TTTATGAAGATTAATGTGGT AATATTTGTG AAATGACTTT GTAAACTGTT AAGCACTACC CAAGCATAAC AGATTGTGAT TACTATTTTGATCTCAAAGT CATCTGTTGC TCCTGGGGGA ACACTTATAT TTATCAAATT GAAAAAAAGT TTCAAAGTTGAATGAAGAAA GGATATAAAG AGCTTGAGGA GCCCATTCCA GCTTAGGAGG GCTGGGAAAG GAAACCAGCAAGTCAGTAAG CTGTGTGCCT GTGTATTGAG GGAGGAGGGA ATGGACTTGA TATGGAGAGG GTAGGGAGGTGGACTGCCTC TATGGCCTGT AAGAAAAACT GCTCTCTCCA AACTCTTTAT AAGAGAGGGA GCCTGTGAAG TATTCACTTTTGAAGGAGAA AGTTAGACTT TTCCTTCACA CACTTTGTAC ATAATAATGT TTAAAAAAGC ATGAGGTCAAAATACATAAT TAAGTCCTAG CAGTTCTCTG TTAACTAATT TGAGACTGAA GTGCTATGTA CTTGTCTCTA GGCTTCCAGTATCTTCATCT GTAAAACAGA ATATTTGGTC TAGATTCCAT TAGAATCATT TGATAACTTA AAAAATATAT TGATGCTCATGTCTCATTTC TTGAGATTCT GATTTAATTG GTTTGGGGTG CAGCCTGGGT ATACGTATTT TTCATAGGTC TTTCACATAATGGTAATGGG TAGCCAATAT TGAGAATCAC TTGTCTAGGT GATCTTTAAA TGATTTCTGG ATGTAATATT CTGAGGCTCTATAATTTGAG ACTAATCACA AAAATCGGTA CAGTTTATAA ACAGACTAAC AGAACCACAA AATAATAGAATTGGAAGGCA ATTTAACTAG TGCAATTTCT TCATTTTGCC TAACAGGCAT GTAAGAAATG ATGATTGATT GAGTAATAGGCATTGATGAC CCCTGTCCTC ACTTTGTCCC CTTTCCACCC CTTAATTATA TGTGAATTCT GGTCTTGTCA TTTCGAATAAGGGGTTTATC TTTCCTATTG TCTTCCCCTC TGGGCACGGC ACACTGGCTA CTGGAGTTAA GAGGAAATGC TTAGGACTCCCTGTGGCTCC AGGGAGCACC AACAGAGCAA CTCAACCTAG TGTTAATCTG AGTGTTTTCT CTGTGCTTCT GGATGCCACATCACGCTAAA AATGAAGGAC AAAGCTTGGT CTTTCTCTTA GGGAGGATGA AACTCTGAAC CTCATTTTTC AGTTCCCAAGATGAATTATG TTTCTCATTG CATCTGTGTT CCACTACAGC TCCGCGTGAG AAGTACTGGC TACAATTTTT TATCCCATTGTTGGTGGTGA TTCTGTTTGC TGTGGACACA GGATTATTTA TCTCAACTCA GCAGCAGGTC ACATTTCTCT TGAAGATTAAGAGAACCAGG AAAGGCTTCA GACTTCTGAA CCCACATCCT AAGCCAAACC CCAAAAACAA CTGATATAATTACTCAAGAA ATATTTGCAA CATTAGTTTT TTTCCAGCAT CAGCAATTGC TACTCAATTG TCAAACACAG CTTGCAATATACATAGAAAC GTCTGTGCTC AAGGATTTAT AGAAATGCTT CATTAAACTG AGTGAAACTG GTTAAGTGGCATGTAATAGT AAGTGCTCAA TTAACATTGG TTGAATAAAT GAGAGAATGA ATAGATTCAT TTATTAGCATTTGTAAAAGA GATGTTCAAT TTCAATAAAA TAAATATAAA ACCATGTAAC AGAATGCTTC TGAGTATTCAAGGCTTGCTA GTTTGTTTGT TTGTTTTCTA CTAAAGGCAA GGACCATGAA GTTCTAGATT GGAAATGTCC TCTCTTGACTATTGCAAGTG CGATCTAGGA ATGAAAAGAC ATAGGAGGAT GCCAGTGAGG TGGATCATTT TTATGCTTCT TCTTCAGCTTACTAAATATG AACTTTCAGT TCTTGGCAGA ATCAGGGACA GTCTCAAGAC ATAGGACTCT CAGGATGAAGTAGAGTCCAG GATTCCTCTG TGATTGTTTT GCCCCTCCCA AATTTATATC TTGAACTTAT GTCTTGTATC TTTATACAGCACCTGAACCA AGCATTTTGG AGAAATTCCA GCTAATAATA ATAACCAAAA CCTTCGGCTC TGAAAACAGTCCAGGACTGA ATAAGATCTT GGGCAAAAGA ACTAGACAGT TTTGGTTTAT TTTCCCTTTC ATTTTATGTC TTCATCATAGTCATTGGAGG CTCATTCTTC TTGTCATGGA GTAAATGGGA TTAAAGTTC TACTAAGAGT CTCCAGCATCCTCCACCTGT CTACCACCGA GCATGGGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACA GTAAGCACCAGGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTC GCTCCAGATGGCGTGTTAGC AGTCCCTCAG AAACCTAAGG TCTCCTTGAA CCCTCCATGG AATAGAATAT TTAAAGGAGAGAATGTGACT CTTACATGTA ATGGGAACAA TTTCTTTGAA GTCAGTTCCA CCAAATGGTT CCACAATGGC AGCCTTTCAGAAGAGACAAA TTCAAGTTTG AATATTGTGA ATGCCAAATT TGAAGACAGT GGAGAATACA AATGTCAGCACCAACAAGTT AATGAGAGTG AACCTGTGTA CCTGGAAGTC TTCAGTGACT GGCTGCTCCT TCAGGCCTCTGCTGAGGTGG TGATGGAGGG CCAGCCCCTC TTCCTCAGGT GCCATGGTTG GAGGAACTGG GATGTGTACAAGGTGATCTA TTATAAGGAT GGTGAAGCTC TCAAGTACTG GTATGAGAAC CACAACATCT CCATTACAAATGCCACAGTT GAAGACAGTG GAACCTACTA CTGTACGGGC AAAGTGTGGC AGCTGGACTA TGAGTCTGAGCCCCTCAACA TTACTGTAAT AAAAGCTCCG CGTGAGAAGT ACTGGCTACA ATTTTTTATC CCATTGTTGG TGGTGATTCTGTTTGCTGTG GACACAGGAT TATTTATCTC AACTCAGCAG CAGGTCACAT TTCTCTTGAA GATTAAGAGAACCAGGAAAG GCTTCAGACT TCTGAACCCA CATCCTAAGC CAAACCCCAA AAACAACTGA TATAATTACTCAAGAAATAT TTGCAACATT AGTTTTTTTC CAGCATCAGC AATTGCTACT CAATTGTCAA ACACAGCTTG CAATATACATAGAAACGTCT GTGCTCAAGG ATTTATAGAA ATGCTTCATT AAACTGAGTG AAACTGGTTA AGTGGCATGTAATAGTAAGT GCTCAATTAA CATTGGTTGA ATAAATGAGA GAATGAATAG ATTCATTTAT TAGCATTTGTAAAAGAGATG TTCAATTTCA ATAAAATAAA TATAAAACCA TGTAACAGAA TGCTTCTGAG TAAAAAAAAAAAAAAAAAAA AAAAAAAA TCTCAATATA ATAATATTCT TTATTCCTGG ACAGCTCGGT TAATGAAAAAATGGACACAG AAAGTAATAG GAGAGCAAAT CTTGCTCTCC CACAGGAGCC TTCCAGTGTG CCTGCATTTGAAGTCTTGGA AATATCTCCC CAGGAAGTAT CTTCAGGCAG ACTATTGAAG TCGGCCTCAT CCCCACCACTGCATACATGG CTGACAGTTT TGAAAAAAGA GCAGGAGTTC CTGGGGGTAA CACAAATTCT GACTGCTATGATATGCCTTT GTTTTGGAAC AGTTGTCTGC TCTGTACTTG ATATTTCACA CATTGAGGGA GACATTTTTT CATCATTTAAAGCAGGTTAT CCATTCTGGG GAGCCATATT TTTTTCTATT TCTGGAATGT TGTCAATTAT ATCTGAAAGG AGAAATGCAACATATCTGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGG GAATTACCATCCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATT TTTTGAGACC AAGTGCTTTATGGCTTCCTT TTCCACTGAA ATTGTAGTGA TGATGCTGTT TCTCACCATT CTGGGACTTG GTAGTGCTGT GTCACTCACAATCTGTGGAG CTGGGGAAGA ACTCAAAGGA AACAAGGTTC CAGAGGATCG TGTTTATGAA GAATTAAACATATATTCAGC TACTTACAGT GAGTTGGAAG ACCCAGGGGA AATGTCTCCT CCCATTGATT TATAAGAATC ACGTGTCCAGAACACTCTGA TTCACAGCCA AGGATCCAGA AGGCCAAGGT CTTGTTAAGG GGCTACTGGA AAAATTTCTATTCTCTCCAC AGCCTGCTGG TTTT AAGCTTTTCA AAGGTGCAAT TGGATAACTT CTGCCATGAG AAATGGCTGAATTGGGACAC AAGTGGGGAC AATTCCAGAA GAAGGGCACA TCTCTTTCTT TTCTGCAGTT CTTTCTCACC TTCTCAACTCCTACTAAAAT GTCTCATTTT CAGGTTCTGT AAATCCTGCT AGTCTCAGGC AAAATTATGC TCCAGGAGTC TCAAATTTTCTTATTTCATA TTAGTCTTTA TTTAGTAGAC TTCTCAATTT TTCTATTCAT CACAAGTAAA AGCCTGTTGA TCTTAATCAGCCAAGAAACT TATCTGTCTG GCAAATGACT TATGTATAAA GAGAATCATC AATGTCATGA GGTAACCCATTTCAACTGCC TATTCAGAGC ATGCAGTAAG AGGAAATCCA CCAAGTCTCA ATATAATAAT ATTCTTTATT CCTGGACAGCTCGGTTAATG AAAAAATGGA CACAGAAAGT AATAGGAGAG CAAATCTTGC TCTCCCACAG GAGCCTTCCAGGTAGGTACA AGGTATTATT TTTTTCTACC CTCAGTCACT TGTGGCAGGG GAAGTCATAG TCACGGTGCT TAGGAGATGAAACTTTATTG ATTTAGGCAT GGATCCATCT AGTTTAATTA ATATATTGGG TATGAGGAAG CTACTTGCTG TACTTTCCATGTGGTTCTCT CTCCCTGGAG AGGAACATTT TTACTCAGCT TGCAAACTGG AAATAGATTT TCTCACATTA GAAGCTCATTTTCTGGGTAT GAGACAGGAG AGTTCATACT GTGTATGTAG ATCTCTGGCT TCTGGGTCTG ACATGTGCTG AGGGACACATATCCTTCACA CATGCTTTTA TAAATACTTG ATAAAGTAAC CTGCTTCTTG ATTGGTCTTT ATAATCCATA AGCTGTGGGATGCTTCTCTG AAGATGAAAA TAGTAATAGA GTCCCATCTA GCTATTCAAA GCCATTCCTT CATTGTATTC TGTGCACATGAAGTTGGGGT TTGTTACTGA CAAAATATAT TCAGATACAT TTCTATGTTA AAAGGATTGT GAGATGCATA GGTAAATGTGTTTATTTTCA GTTTTACTTG TCAACATAGA TGAATGAGAA AGAACTTGAA AGTAACACTG GATTAAGAAT AGGAAAATTTGGCATGGATT TTGCTCCATT TTGTCCCATC TAATCACTTG GATAGTGTTC AGGTGTTCTT GGTCAGTTAC TTGGATGCTCTGAGCTTTAG TTTCTTGGTG ATTACAATGA AGATTTGAAT TACAGGATGG CTTTGAAAAA ATAAACAAAA CTCCCCTTTCTGTCTGTCGA GAATGTTGCA CAGGGAGTTA CAGAATGTTC TCATGACTGA ATTGCTTTTA AATTTCACAG TGTGCCTGCATTTGAAGTCT TGGAAATATC TCCCCAGGAA GTATCTTCAG GCAGACTATT GAAGTCGGCC TCATCCCCAC CACTGCATACATGGCTGACA GTTTTGAAAA AAGAGCAGGA GTTCCTGGGG GTGAGTGAGC CTCCTCCAAC TTTGACTAGAGTAAGGGTTG GGTCTAGAAA AGAATATTGA GTTGCATCAA CTGTTTTCCC ACTTGGATTC ATGAGAGGTG TTAGGTCCTTTAAAAAACAT GGTAGATAAA GAGTTGACAC TAACTGGGTC CTTTTGGGAA GAGCCAGAAG CATTTCCTCATAAAGACTTT AAATTGCTAG GACGAGAATG GCCAACAGGA GTGAAGGATT CATAACTTTA TCTTTACTTAGATGTAAAGA ACAATTACTG ATGTTCAACA TGACTACATA CATAAAGGCG CATGGAGAAA AGTATTGGCCTTCCATGCAT TAGGTAGTGC TTGTATCAAT TCTTATAGTG GCTAGGGTAT CCTGGAAAAT CTTACGTGTG GATCATTTCTCAGGACAGTC TAGGACACTA ACGCAGTTTC TCATGTTTGG CTTCTATTAT TAAAAAATGA TACAATCTCG GGAAAATTTTTTTGATTTTC ATGAAATTCA TGTGTTTTTC TATAGGTAAC ACAAATTCTG ACTGCTATGA TATGCCTTTG TTTTGGAACAGTTGTCTGCT CTGTACTTGA TATTTCACAC ATTGAGGGAG ACATTTTTTC ATCATTTAAA GCAGGTTATC CATTCTGGGGAGCCATATTT GTGAGTATAT ATCTATAATT GTTTCTGAAA TAACACTGAA CATAGGTTTT TCTCTTTCTC AGATCTAACCAGTTGTTTAT TCCCAGTATT AAGATGATAT TTATAATTCT TAATTATAAA TATATGTGAG CATATATAAC ATAGATATGCTCATTAACAA CAACAAAAGA TTCTTTTTAC AATTAACGGT GGGTTAAACA TTTAGCCCAC AGTTTTATCCC ATGAGAAACCTGAATCTAA TACAAGTTAA ATGACTTGCC TAAGGGCCAC TTGACTAATA GTAATTGAAC CTAAACTTTCAGAATCCAAC TCCAGGAACA TACTTCTAGC ACTATTCATC AATAAAGTTA TATGATAAAT ACATACAACT TTATCTGTCAACTAAAAATA ACAACAGAGG CTGGGCATGG TGGCTCACAC CCGTAATCCC AGCACTTTGG GAGGCTGAGGCAGGTGGATC ACCTGAGGTC AGGAGTTTGA GACCAGCCTG ACCAACATGG TGAAACCTCA TCTCTACTAAATATAAAAAA TTAGCTGAGT GTGATAGTGC ATACCTGTAA TCCAGCTACT TAAGAGGCTG AGGCAGGAGGCTTGTTTGAA CCTGGAAGGC AGAGGTTGCA GTGAGCTGAG ATTGTGCCAT TGCACTCCAG CCTGGGCAATAAGTGCGAAC TCTGTCTCAA AATAATAATA ATAATAATAG AAAATAAAGT TGTCTTCATG AAAAATGAGGAAAGAGATTG CTGGGGTGAG AAACATTAAG ATCAATGGGC ATATGGTGAC CTTCTATGCC CTAGAAACTCTTTTANGGTA TTTTCTCCTG GTATCTCTTT TACNCATCGT TCTATCTGGA AAAATAGGTG GATGAGTGAG ATAATAACGGTATATACTTT TTAAAGGTCT AATTGACATA TATAAATTGC AAGTATTTCA GATGTCAATT TGCTAACCTT GACACACATAGACACACATG AAAACATCAC CACATTAATA CAATGTATGT ATCCATCATT CCAAAAGCTT CCCTGTGTAT CTTTGTAACTCTTTCTTCCT CCCTCCACTC CTTGTCCTCT CGTTCCCAAG AAAACATTGA TCTGCTTCCT GTGAATATAA ATTAACTTACATTTTTTAGA GCTTTATATA AGTATGTTCT CTTTACTGTT TGTCTTCCTT CGCTGCACAG TTATTTTGAG ATTCTTCAAGTTTTTTCTTT ATATCGATAC TTCATTCACA AGAATATATT TTAATTCTAG ACTATGTCAC ATTGACTTTG TCGTCTGCTAAATCCTTAGT GCTCAGATGA CTTGTTCAGG ACTCTCCTTG AACCTGTACC TCTGTTANAT TGAAACTTGT CTCTACTGTCTTTTTATTTC AAACACAGCT TATTAGGTGT CTCTCAACCC ATCAAACNCA CAATCTGAGT CTTTAGGAGA TTGCTTTGAATTTGTGCTAT TGACTTATAT NTATATNAAA TNTGTAAATG TTTGGTAAAA ATATCATCAT GTACNTTTTC ATAATTACGCTATNTNCACA TGATATATGT CAGACTCTGG AAATATGCAT GCCACAGACA CGTGTTTCTT GCCTAAAGGGGCTGATGGAA GACNCACATA CNAATAGACG ATTGCAGTAG AATGAGAGTG GTGGTCTAAN CAGTACATGTCCTGATGTTG CTCGGACAGT TACTACNCCA AGAGTACCCC CTGCATTGTC AGGGTTAGCA TCTCCTGGAA GCCTCATGTAAATGAAGAAT TTCATGCTCC ATCCAGGACC TAATGAATAA GAATCTGCAT TTTAGCAAGA CCCTCATATG ATTCATATACACTTTTTTTT TTTTTTTTTA GATGGAGTCT CACTCTTGTC GCCCAGGCTG GAGTGCAATG GCATGATCTT GGCTCACTGCAACCTCTGCC TCCCGGGTTC AAGTGATTCT CCTGTCTCAG CCTCCCTAGT AGCTGGGACT ACAGGTGCAT GCCACAGTGGCTGGCTAATT TTTGTATTTT TAGTAGAGAC AGGGTTTCAC CATTTTGGTC AGGCTGGTCT TGAACTCATG ACCTCCGGTGATTCCCCCGC CTCGGCTTCC CAAAGTGCTG GGATTACAGA CATGAGCCAC CACACCCGCC TTATTCGTAT ACNCATTTAATTCTGAGAAG CACTCTATAG AAAATAAGAA TAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAACTTTATCGAGT ACCCCAAATT TTACCTATGT TTGGAAGATG GGGTTAAAAG GACACATTGA AAACAAGAACTCATTGTGGC TTTTTTTTCC TCCTTTTTGA ACAGTTTTCT ATTTCTGGAA TGTTGTCAAT TATATCTGAA AGGAGAAATGCAACATATCT GGTGAGTTGC CCGTTTCTGT CTTTGTCCAT CCTTGAAAAG ATAAGAAGAA CAGAGTTTTA AGAGTCTTAAGGGAAACACA TCTTTGTCTC CTATATTACT TGTGAATGTG GATATATGAT TTTGTTTCAA TCTATTTTGT GTCCTAAGGCTTTTTGCAAC AGAAGTTGGA TATATCATTA GAAACATAAA TTGTACCATT TAACATACAT GAAGTTTATG TTTACCTTGACGTTCTTCTA AAAAGTGTCC TACACCGGCA TTGTCCTTGT AGGCATATTC ACATGATCAA ATAAAATAAT TAGTTTTCAATTAAGGAGAA TATTTGAGGA AAGACCGTAC GTGTTCATGT GGTTCCTGAA GGCAGTCCAG TGAGAAAGTAATATATGCTT CATTAAACAA TGCGGACATT TTCAGGGTTT CCCTTTTTAA CCAAAATTTG GAAGCAATGT GGAATTTACTGGATGCATCC AGCCCTGAAA TGAAGATAGG TTTATTGAAT GTGCCAGCAA GTGCAGGCCC AGGTCTGAGTGTTCTTCATT ATTATCAGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGGGAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATTTTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGTA TGTATTTTTT TTTGTGTGGG AAGACTAAGA TTCTGGGTCCTAATGTAAGT AAGAAGCCCT CTTCTCCTGT TCCATGAACA CCATCCTTTT CTGTAACTTC TATTACACAG TATAGTGGTTCTGTAAGTTC ACACAGCCCA GGGAGATGCT GGCTGCCCAC TCCCCTCAAC CCAGGCAAAT TCCTCGGGGTTAAAGTTATC TACTGCAAGT GACGATCTCT GGGTTTTTCT GTGCCTGTGT TTGTGTGTGT GTGTGTGTGT GTGTGTGTGTGTATGTGTCA CTTTAAAAGG ACTGGTCAGA TGGTAGGGAG ATGAAAACAG GAGATGCTAT AAGAAAATAAACTTTTGGGG CGAATACCAA TGTGACTCTT TTTGTTTGTC ATTTGTTGCT GTTCAATAGG AAATTGTAGT GATGATGCTGTTTCTCACCA TTCTGGGACT TGGTAGTGCT GTGTCACTCA CAATCTGTGG AGCTGGGGAA GAACTCAAAGGAAACAAGGT AGATAGAAGC CCGATATAAA ATCTTGAATG ACAGGTTAAC GAATTGGAGC TTTATTCCTTAAAATATGGC CTGGGTTTTC TGAAACATTT CTTCCAGAAA ATAGTTTCTC CAAGTTTTAT TACTTTGGTT TACAAATCTCACATTTAAAT CACATTTTAT ACCATAAGTA GCACACATTT CATAATATTC CTCTGAATGA GGGTTGGGAT AATAGGACTGATATGTTAGA AATGCCTTAA AGTGTGTGGA GCATGAGAGA TGGATGTACA GAAGGCTTGT GAGGAAACCACCCAGGTATC TGGCCTTGTT TTCTGCCCCA GAACTAGCCG CCTATTCCTG TTTCTGTTTT ATTCCTTTGT TTCTTGACTTTTCCTTTCCA ACTTGCTCTA AAACCTCAGT TTTCTTTCCT TTCTGATTCA TGACTACCAA ATGTTTTCAC TTGCCTCACCCGTCCATTAC ACCTTTGATA AGAACCACCA GACCTTGTGC TCATGTACTT GCCCATGTCT GATGGAAGAA ACATACTCTCTCCATCTGTC CACTTTCCTG AGGCATTCAA GTCTAGCCAC CTTTTAAAAT CACTCTCCTC CAGGCTGGGC ACGGTGTCACGCCTGTAATC TCAGCACTTT GTGAGGCTGA GGAGGGCGGA TCACTTGAAG TCAGGAGTTC AAAACCAGCCTGGCCAAATG GCAAAACCAA ATCTTCTTCA ATTATAACCA AATCTTAAAC CAAATCTCTA CTAAAAAATACAACAAAACA AAACAACAAC AACAAAAACA GAAAAGGAAA CATTAGCCCA GCGTGGTGGC AGGTACCTGAGGTTCCAGAT ACTTGGGAGG CTGAAGCAGG AGAATCGCTT GAGCCCAAGA GATGGAGGTT GCAGTGAGCCGAGATCATGC CACTGCACCA CAGCCAGGGT GACAGAGCCA TACTTCCCAG CACATTGGGA GGCCAAAGCTGAAGAATAAT TTGAGGTGAG GATTTGGAGA CCAGCCTGGC CAACATGGTG AAACTCCGTC TGTACTAAAAATATAAAACT TAGTGGGGCA TGGGGGCACA CACCTGTAAT TTCAGCTACT TAGGAGGCTG AGGCAGGAGAATTGCTTGAA CCCGGGAGGC GGAAGTTGCA GTGAGCCAAG ATCGTGGCCA CTGCACTCCA GCCTGGGTGACATAGTGAGA TTCTGTCTCA AAAAAAATAA AAGAAATTTA AAAAATCACT CTCTTCCAAA GATAGATAAATAAGACAGCA GATATACTAA GGAATAACCT CACCAACTTG TCATTGACTG ACATGATTTC TTTTGGCCCA CTTGGCCAGCTAGTCTGGTT TGGTTTTCTG GAAATGAAAG AAATAATCAG AGTTTAATGA CAGAGAGCGT GAGACCCAGAAAGACAAAAG TAGATGAGGT AAGTCTCTTG AGCGAGACTT CTAGGGATGG GAAATTTGTG GTGATTGATATGAAATGATT TTTCCCTTAT CAGGTTCCAG AGGATCGTGT TTATGAAGAA TTAAACATAT ATTCAGCTAC TTACAGTGAGTTGGAAGACC CAGGGGAAAT GTCTCCTCCC ATTGATTTAT AAGAATCACG TGTCCAGAAC ACTCTGATTCACAGCCAAGG ATCCAGAAGG CCAAGGTTTT GTTAAGGGGC TACTGGAAAA ATTTCTATTC TCTCCACAGCCTGCTGGTTT TACATTAGAT TTATTCGCCT GATAAGAATA TTTTGTTTCT GCTGCTTCTG TCCACCTTAA TATGCTCCTTCTATTTGTAG ATATGATAGA CTCCTATTTT TCTTGTTTTA TATTATGACC ACACACATCT CTGCTGGAAA GTCAACATGTAGTAAGCAAG ATTTAACTGT TTGATTATAA CTGTGCAAAT ACAGAAAAAA AGAAGGCTGG CTGAAAGTTGAGTTAAACTT TGACAGTTTG ATAATATTTG GTTCTTAGGG TTTTTTTTTT TTTTAGCATT CTTAATAGTT ACAGTTGGGCATGATTTGTA CCATCCACCC ATACCCACAC AGTCACAGTC ACACACACAT ATGTATTACT TACACTATAT ATAACTTCCTATGCAAATAT TTTACCACCA GTCAATAATA CATTTTTGCC AAGACATGAA GTTTTATAAA GATCTGTATA ATTGCCTGAATCACCAGCAC ATTCACTGAC ATGATATTAT TTGCAGATTG ACAAGTAGGA AGTGGGGAAC TTTTATTAAG TTACTCGTTGTCTGGGGAGG TAAATAGGTT AAAAACAGGG AAATTATAAG TGCAGAGATT AACATTTCAC AAATGTTTAGTGAAACATTT GTGAAAAAAG AAGACTAAAT TAAGACCTGA GCTGAAATAA AGTGACGTGG AAATGGAAATAATGGTTATA TCTAAAACAT GTAGAAAAAG AGTAACTGGT AGATTTTGTT AACAAATTAA AGAATAAAGTTAGACAAGCA ACTGGTTGAC TAATACATTA AGCGTTTGAG TCTAAGATGA AAGGAGAACA CTGGTTATGTTGATAGAATG ATAAAAAGGG TCGGGCGCGG AGGCTCACGC CTGTAATCCC AGCCCTTTGG GAGGCCGAGGTGGGCAGATC ACGAAGTCAG TAGTTTGAGA CCAGCCTGGC CAACATAGTG AAACCCCGTC TCTACTAAAAATACAAAAAA AAAATTAGCT GGGTGTGGTG GCAGTCACCT GTAGTCCCAG CTACTTGGGA GGATGAGGCAGGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCAGTGCAC TCCAGCCTTGGTGACAATGG GAGACTCCAT CTCAAAAAAA AAAAAAAAAA AAAAAAGATA AAAAGTCAGA AATCTGAAAAGTGGAGGAAG AGTACAAATA GACCTAAATT AAGTCTCATT TTTTGGCTTT GATTTTGGGG AGACAAAGGGAAATGCAGCC ATAGAGGGCC TGATGACATC CAATACATGA GTTCTGGTAA AGATAAAATT TGATACACGGTTTGGTGTCA TTATAAGAGA AATCATTATT AAATGAAGCA AGTTAACACT CTAAGAGAAT TATTTTGAGATAGAAGTGAA GCTAAGCTAA ACTTCACATG CCTATAATTG GAGGGAAAAA CTAAGGATAA AATCTAGCCTAGAAGATACA ATAATTAGTC ATAAACATGC ATTGTGAAAC TGTAGAGAGC AGGTAGCCCA AAATAGAGAAAGATTAGATA AAGAGAAAAT AAGTATCCAT CAGAGACAGT ATCTCTAGGC TTGGGCAAGA GAAAAGTCCACAGTGATAAG CAACTCCACC TAAGGCATGA ATATGCGGCA GAGAAAACAG CAATAGTGAA TGAATGCAAAAGGTGCTGAG CAAATTCCAC ACATGAGTAT TGTGCATGAG TAAATGAATA AAACATTTGC AAAGACCTTTAGAGAAAGAG AATGGGAGCA TATGTGCGAA ATAAGATAGT TGATTATGAA TAGAAGGTAG TGAAGAAAAGCAAGCTAAGA AAAAATTCTG TTTATAAAAG AAGGAAAAGA TAGTTTATGT TTTTAGCCTA AGTATAAGAGTCCTACAGAT GGACTGAAAA AAATCAGTCT GAGAGTATTA GTCACAATTA ATGAAATAAT TACATTTTATGTATTGAGGA TGCCAAGATT AAAAGGTGAC AGGTAGATGT TAATTTCCCT AGATTGTGAA AGTGATCACGACAATCACAC AACAAATAAT TAAGTGACTT GGTATGCTTT ATTTAATTGT AGGGCCTGAG GTTTTCCATT CTCATTTTTCTAAAATACAA TTTTGTTTCT CCAAATTTGA CAGCAGAATA AAAACCCTAC CCTTTCACTG TGTATCATGC TAAGCTGCATCTCTACTCTT GATCATCTGT AGGTATTAAT CACATCACTT CCATGGCATG GATGTTCACA TACAGACTCT TAACCCTGGTTTACCAGGAC CTCTAGGAGT GGATCCAATC TATATCTTTA CAGTTGTATA GTATATGATA TCTCTTTTAT TTCACTCAATTTATATTTTC ATCATTGACT ACATATTTCT TATACACAAC ACACAATTTA TGAATTTTTT CTCAAGATCA TTCTGAGAGTTGCCCCACCC TACCTGCCTT TTATAGTACG CCCACCTCAG GCAGACACAG AGCACAATGC TGGGGTTCTC TTCACACTATCACTGCCCCA AATTGTCTTT CTAAATTTCA ACTTCAATGT CATCTTCTCC ATGAAGACCA CTGAATGAAC ACCTTTTCATCCAGCCTTAA TTTCTTGCTC CATAACTACT CTATCCCACG ATGCAGTATT GTATCATTAA TTATTAGTGT GCTTGTGACCTCCTTATGTA TTCTCAATTA CCTGTATTTG TGCAATAAAT TGGAATAATG TAACTTGATT TCTTATCTGT GTTTGTGTTGGCATGCAAGA TTTAGGTACT TATCAAGATA ATGGGGAATT AAGGCATCAA TAAAATGATG CCAAAGACCAAGAGCAGTTT CTGAAGTCCT CCTTTTCATC AGCTCTTTAT CAAACAGAAC ACTCTATAAA CAACCCATAGCCAGAAAACA GGATGTAGGA ACAATCACCA GCACACTCTA TAAACAACCC ATAGCCAGAA AACAGAATGTAAGGACAATC ACCAGCCATC TTTTGTCAAT AATTGATGGA ATAGAGTTGA AAGGAACTGG AGCATGAGTCATATTTGACC AGTCAGTCCT CACTCTTATT TACTTGCTAT GTAAACTTGA GAAAGCTTTT TTCTCTTTGT GAACCTCAGGTTTTACATCT GAAAATGAGA AATTTGGAAC AAAAGATTCC TAACTGGTCT TTCTGTTCCC ATATTCTGTG ATTTTTCAATATTTAGGATT TTTGGTAATC ACAATTACTT AGTTTGTGGT TGAGATAGCA ACACGAATCA GAACTATTTG GTGGACATATTTTCAAAGGA GTAGCTCTCC ACTTTGGGTA AAGAAGTGAT GCNGGTCGTG GTGGCTCACG CCTGTAATCCCAGCACTTTA GGGAGGCCAA GGCGGGTGGA TCACGAGGTC AGGAGATCGA GACCATCCTG GCTAACACGGTGAAACCCCG TCTCTACTAA AAAATACAAA AAATTAGCCA GGCGTGGTGG CGGGCGCCTG TAGTCCCACGTACTCGGGAG GCTGAGGCAG GAGAATGGCA TGAACCAGGG AGGCGGAGCT TGCCGTGAGC CGAGATAGCGCCACTGCAGT CCCTCCTGGG CAAAAGAGCA AGACTGCGTC TCAAAAAAAA AAAAAAAAAA AAAAAAAGAAGTGTGTGGAG TAGCAGGACA CCTGCAACAA TAATATTTTT CTAAATCCCT CTGAAAAATG CTAATCAAAG GGTTTTTTTCCTAAAAATTG TCTTAGAAAT AAAATTTCCC CTTTGGGAGA CCGAGGCTGG CAGATCACGA GGTCAGGAGATAGAGACCAC GGTGAAACCC CGTCTCTACT AAAAATACTA AAAATTAGCC GGGGNGTGGT GGTGGGTACACCTGTAGTCC CAGCTACTTG GAGGCTGAGG CTGGAGAATC ACGTGAAC GCCACGTGCT GCTGGGTCTCAGTCCTCCAC TTCCCGTGTC CTCTGGAAGT TGTCAGGAGC AATGTTGCGC TTGTACGTGT TGGTAATGGG AGTTTCTGCCTTCACCCTTC AGCCTGCGGC ACACACAGGG GCTGCCAGAA GCTGCCGGTT TCGTGGGAGG CATTACAAGCGGGAGTTCAG GCTGGAAGGG GAGCCTGTAG CCCTGAGGTG CCCCCAGGTG CCCTACTGGT TGTGGGCCTCTGTCAGCCCC CGCATCAACC TGACATGGCA TAAAAATGAC TCTGCTAGGA CGGTCCCAGG AGAAGAAGAGACACGGATGT GGGCCCAGGA CGGTGCTCTG TGGCTTCTGC CAGCCTTGCA GGAGGACTCT GGCACCTACGTCTGCACTAC TAGAAATGCT TCTTACTGTG ACAAAATGTC CATTGAGCTC AGAGTTTTTG AGAATACAGA TGCTTTCCTGCCGTTCATCT CATACCCGCA AATTTTAACC TTGTCAACCT CTGGGGTATT AGTATGCCCT GACCTGAGTG AATTCACCCGTGACAAAACT GACGTGAAGA TTCAATGGTA CAAGGATTCT CTTCTTTTGG ATAAAGACAA TGAGAAATTTCTAAGTGTGA GGGGGACCAC TCACTTACTC GTACACGATG TGGCCCTGGA AGATGCTGGC TATTACCGCTGTGTCCTGAC ATTTGCCCAT GAAGGCCAGC AATACAACAT CACTAGGAGT ATTGAGCTAC GCATCAAGAAAAAAAAAGAA GAGACCATTC CTGTGATCAT TTCCCCCCTC AAGACCATAT CAGCTTCTCT GGGGTCAAGACTGACAATCC CGTGTAAGGT GTTTCTGGGA ACCGGCACAC CCTTAACCAC CATGCTGTGG TGGACGGCCAATGACACCCA CATAGAGAGC GCCTACCCGG GAGGCCGCGT GACCGAGGGG CCACGCCAGG AATATTCAGAAAATAATGAG AACTACATTG AAGTGCCATT GATTTTTGAT CCTGTCACAA GAGAGGATTT GCACATGGAT TTTAAATGTGTTGTCCATAA TACCCTGAGT TTTCAGACAC TACGCACCAC AGTCAAGGAA GCCTCCTCCA CGTTCTCCTG GGGCATTGTGCTGGCCCCAC TTTCACTGGC CTTCTTGGTT TTGGGGGGAA TATGGATGCA CAGACGGTGC AAACACAGAACTGGAAAAGC AGATGGTCTG ACTGTGCTAT GGCCTCATCA TCAAGACTTT CAATCCTATC CCAAGTGAAATAAATGGAAT GAAATAATTC AAACACAAAA AAAAAAAAAA AAAAAAAA GCCGGAGCCG ACTCGGAGCGCGCGGCGCGG CCGGGAGGAG CCGAGCGCGC CGGGCGCGGC GTGGGGGCGC CGGCTGCCCC GCGCGCCCAGGGAGCGGCAG GAATGTGACA ATCGCGCGCC CGCACCGTAG CACTCCTCGC TCGGCTCCTA GGGCTCTCGCCCTCTGAGCT GAGCCGGGTT CCGCCCGGGC TGGGATCCCA TCACCCTCCA CGGCCGTCCG TCCAGGTAGACGCACCCTCT GAAGATGGTG ACTCCCTCCT GAGAAGCTGG ACCCCTTGGT AAAAGACAAG GCCTTCTCCAAGAAGAATAT GAAAGTGTTA CTCAGACTTA TTTGTTTCAT AGCTCTACTG ATTTCTTCTC TGGAGGCTGA TAAATGCAAGGAACGTGAAG AAAAAATAAT TTTAGTGTCA TCTGCAAATG AAATTGATGT TCGTCCCTGT CCTCTTAACCCAAATGAACA CAAAGGCACT ATAACTTGGT ATAAAGATGA CAGCAAGACA CCTGTATCTA CAGAACAAGCCTCCAGGATT CATCAACACA AAGAGAAACT TTGGTTTGTT CCTGCTAAGG TGGAGGATTC AGGACATTACTATTGCGTGG TAAGAAATTC ATCTTACTGC CTCAGAATTA AAATAAGTGC AAAATTTGTG GAGAATGAGCCTAACTTATG TTATAATGCA CAAGCCATAT TTAAGCAGAA ACTACCCGTT GCAGGAGACG GAGGACTTGTGTGCCCTTAT ATGGAGTTTT TTAAAAATGA AAATAATGAG TTACCTAAAT TACAGTGGTA TAAGGATTGC AAACCTCTACTTCTTGACAA TATACACTTT AGTGGAGTCA AAGATAGGCT CATCGTGATG AATGTGGCTG AAAAGCATAGAGGGAACTATACTTGTCATG CATCCTACAC ATACTTGGGC AAGCAATATC CTATTACCCG GGTAATAGAA TTTATTACTCTAGAGGAAAA CAAACCCACA AGGCCTGTGA TTGTGAGCCC AGCTAATGAG ACAATGGAAG TAGACTTGGGATCCCAGATA CAATTGATCT GTAATGTCAC CGGCCAGTTG AGTGACATTG CTTACTGGAA GTGGAATGGGTCAGTAATTG ATGAAGATGA CCCAGTGCTA GGGGAAGACT ATTACAGTGT GGAAAATCCT GCAAACAAAAGAAGGAGTAC CCTCATCACA GTGCTTAATA TATCGGAAAT TGAAAGTAGA TTTTATAAAC ATCCATTTAC CTGTTTTGCCAAGAATACAC ATGGTATAGA TGCAGCATAT ATCCAGTTAA TATATCCAGT CACTAATTTC CAGAAGCACATGATTGGTAT ATGTGTCACG TTGACAGTCA TAATTGTGTG TTCTGTTTTC ATCTATAAAA TCTTCAAGAT TGACATTGTGCTTTGGTACA GGGATTCCTG CTATGATTTT CTCCCAATAA AAGCTTCAGA TGGAAAGACC TATGACGCAT ATATACTGTATCCAAAGACT GTTGGGGAAG GGTCTACCTC TGACTGTGAT ATTTTTGTGT TTAAAGTCTT GCCTGAGGTC TTGGAAAAACAGTGTGGATA TAAGCTGTTC ATTTATGGAA GGGATGACTA CGTTGGGGAA GACATTGTTG AGGTCATTAATGAAAACGTA AAGAAAAGCA GAAGACTGAT TATCATTTTA GTCAGAGAAA CATCAGGCTT CAGCTGGCTGGGTGGTTCAT CTGAAGAGCA AATAGCCATG TATAATGCTC TTGTTCAGGA TGGAATTAAA GTTGTCCTGC TTGAGCTGGAGAAAATCCAA GACTATGAGA AAATGCCAGA ATCGATTAAA TTCATTAAGC AGAAACATGG GGCTATCCGCTGGTCAGGGG ACTTTACACA GGGACCACAG TCTGCAAAGA CAAGGTTCTG GAAGAATGTC AGGTACCACATGCCAGTCCA GCGACGGTCA CCTTCATCTA AACACCAGTT ACTGTCACCA GCCACTAAGG AGAAACTGCAAAGAGAGGCT CACGTGCCTC TCGGGTAGCA TGGAGAAGTT GCCAAGAGTT CTTTAGGTGC CTCCTGTCTTATGGCGTTGC AGGCCAGGTT ATGCCTCATG CTGACTTGCA GAGTTCATGG AATGTAACTA TATCATCCTT TATCCCTGAGGTCACCAGGA ATCAGG-3′(SEQ.ID NO：3002)

Human enzyme related antisense polynucleotides

5′-CTT GCT CCT GGG GGC CTC CTG GTC CCT CTG GCT G TT CCC GGC CCT GGB CTG GGG CBG GGG CCG CGTBGG CGC GGC TCG CCB GGB CGG GCB GCG CCB GCB GCB GCB GGC TCB GCB TCC TGG CCB CGG BBT TCC GGT GTGCGG GGC CTG GTG CC CCT GGG CCT CGG GTG CTG CCT GT GCG CTG CCT TCT TCT CCT GG GTC CTC GCC GGG GCCCTT GCT GCC CTG GCT GT GCC CTG GGG GTC TGG GTT CGG CTG T CCC CBG CBG GBC CBG TCC CBT CCB CBG CGTGTG BTG BGT BGC CBT TCT CCT GCB GCC GBG GGG CGC GGG CGB GCB TCG C TTT GGG CTT TTC TCC TTT GGT TTGB GCG CCB GGB CCG CGC BCB GCB GCB GGG CGC GGG CGB GCB TCG CBG CGG CGG GCB GGG GGGCTCCCGCCGCGBGBGGT TBTGGGCTCC CBGGBCCBCC CGCBCCGCGC GGBCGTTTBC BTTCGCCBCG CBGTGCGCGG CCGBCBTGBCGBBGTTGGGC GCBBTCBGGG TGGCGCCGCB GBBGTGGCCT CCGCGCBGCT GCBGGGBCBC CBTGBBGGGC CBCGCGTGGGGCCGCGCTCG CCGGCCCCCC BCBBTCTCCG BGGCCBGCGC GGTGCCCCCC BGCBGCBBGG CCGGCBGGBC BCBGGCGBGGBGBCBCGCGB GTCGGCGGCC GBGGGTCBTG GTGGGGCTGG GGCTCCGGGG TCTCTGCCCC TCCGTGCTGGTGGGGCTGGG GCTCCGGGG TCTCTGCCCC TCCGTGCCGC GTGGGGCCGC GCTCGCCGGC CCCCCCCTGC CGGGTGGGCTCCCGCCGCGC GCCGGCCTGC CGGCCCCTCG TGGGTCCTGC TGGCCGGGTC CGGGTCCCGG GGGTGGGGCGCGBGTCGGCG GCCGBGGGTC CCCTCCBCBT CTGCTCTGBC CTGCTGGBCT CTGGBTCTGB BGBTBCGCCBTGTBGGGGCG GGBGTGGGGC CTGCTCTCCC GGCCTCCGBT GBTCTCCCCT GCCTCBGCCC CBGTGGGTBG GBGBBBGGCCBGCBGBBGCB GGBGTGGCTG CBTCTTTCCT GGTGGGGCCT GCTCTCCCGG CCTCCGTGTG TTGCTGGGTG TTTTCCCGTCTCTGGTCTGC CTTCGGGGGT CGT CCGGGGCTGC BGCBBCCTCB TCBGCTCTTG CCTGGBGTGG CTCBGCCTGGGCCTGCBGGG CCBCCBGGBG BBTGGCBGCB BGGBTGGCGB GGGTCCTCBT GGCTGGGGTC BCBGBTCCTC TBGCTBGGCBGGGTGBCCBG BGBGGGC GGG TCC TCB TGG CTG GGG GCC TGG GCC TGC BGG GCC GCT CTT GCC TGG BGT GGC TCGCC CBG BGT CTT CCC TGG T CGCTGCBBTC TGCTCCGGGG CTGCBGCBBC CTCBTCBGCTC TTGCCTGGBGTGGCTCBGCCTGG GCCTGCBGGG CCBCCBGGBGB BTGGCBGCBBG GBTGGCGBGGG TCCTCBTGGC TGGGGTCBCCTGGBGGBGGGB GBGCBGGGGG TCCTCBTGGC TGGGGTCCCT CTCTCCCGTC CT CGG TTT CCT TTG CGG TC TTG GCCCGG GCT CCG GGT G CCC GCC CGC CCG CCG GCC GCC GC CCC GCC GGG CTG TCC CCG CCC CGC CCC GGC CCG GGGCGC GGG GG CGG CCC TCC CGC CCC TCT GG GCC GGC GCG GGCGTC GG CCG CTC GCG CCT GGG GTT CCC TCT CCTCCC CCT GTG C GCC TGC CTC TTG CTC TTCTGC GTC CGC TGC CTT CTC CC CTC TCC TCG GCC GTT GCC TGT GC TGTCCG TCC TGT CGC CCT TCC GTG GTG C TGT TGT CTC TTC TGC CCT C GGT GTG CTG GTG CTG GTG GTG GTG CCT CTGCCC GTG CTC GCCCTG CCT GGG CTG GCC TCT TCG GGT GTG GCT TTG GGG CTC TCT TGG TTG CCC TTT CTT CTC GTGGTG CCT CTC CTC CCT GGC TTG GTC GT TGT CTG GGG TGG TGC TCC TCT CCC TTT CCC TGC TGG CCG TTT GT CCTGTT TTC TGT CTT CCT CT TTC CTC CTG TTT CTC CGT TTG GCT TGC TGC TTG CGG GGC TGT CTC C CTT GCC CCT GTGGGC TTT CCC TGG TCC GGT CTT CTC CTT GGG GGT C GCC CTT CTT GGT GGG CTGGCT CGT CTG TCT TTT TCC TTC CTGG GGG TGG CCG TTG TGG GCG GTG TGG TCC GCC T TGC CTC TGC TGG TCT TTC CTCGGTBGBC GCGCTCGBBCTCGGGTGGGC CGGTGGTGBG CGGCGGCGBCB CGCGGBBGGC CCTGCGCGCC GBGBTCBCCTG CBGGGBGBBGTBGGCTTGCB GCBGGBCTCC CBGGBGGGTG BCBGCBGCCB GTBGBGCTBC CTCGTCCTTC BTGGTBCCGT CGGTGTGGTGGCBCGGGCTG TGTGTGBBGG CGBGCTGGGC CCCGTCTGCT GCTCCTCGTG CCGCCTCGTC CTTCA TGG TACCGTCGGTGT GGTGGCCTCG GGTGGGCCGG TGGTGGGGCG CGCGCGCTCG CGTGGCTCCG GCTCTTCTTTCCCGGCTCCGT CGGCCCGGGG GCCTTGGTCT CCCTCGTCCT TCBTGGTBCC G BCCGGCGGBG CCGCCBGGGTGGBCTGGGBG TGGGTTTCTC CCCGCCGTTC TCBCCCBCCG CGCTGBGCTC BGCGCCTBBG BCTGCTGTTT CTGGBGCTCCTTGGCBBGCC BCBBBCBGCB GBGBGBBBBT CBTGBGCBBB TBBTCCBTTC TGBBBBBBBG GGBTCBBBBB CCTCCCGTTCCCCGTTCGCC TGGCGCGCGC TGCGGGTTCC TCGTGGGTTT CTCCCCGCCG TTCTCCGGTC TGTTGCCTTT GTGGGCTTCTTGTCTTTTTG GCTGTTCTTT TCCTGCTTGG CGTCTTTTCC TTTCTTTGTG CTCGGTTGTG GGTCCGCTGG TCCTTTGCCCTGTGTGTTTC TGCTGCCCGT TCGCCTGGCG CGCGCTGCGG GTTCCTCGTG GGTTTCTCCC CGCCGTTCTC CGGTCTGTTGCCTTTGTGGG CTTCTTGTCT TTTTGGCTGT TCTTTTCCTG CTTGGCGTCT TTTCCTTTCT TTGTGCTCGG TTGTGGGTCCGCTGGTCCTT TGCCCTGTGT GTTTCTGCTG GGBGCTGBTB CTGCBGATTT CBGBGGGBBG BBCCCTGBTB CTCBCCBGCTTCBGCTCTGG BGCBCBBGBG BBBGBGCBGC BGGGGGBGBG GBBGBBGCBG CBTCTTCCCB GBGBGGCTGC CTGBGCBBBTGCTGGTTTTC CTTTCCBGTC TTGGGTTTTB TBBCTCCCBG BBGGCBBGBG BGGGGCBBGG CGTTTTCTTC TCTCGCTGGTTTTCCTTTCC TGGCAGTGGG TGGGGGTGGG GGTGGGGTGG CTTCCTTGTT CCTGGGGGTG TCCTCTTGCT CTGGGCTTTTCTCCCCTTTT CCTTCCTGTC TGTTTTCCTG GGGCTCTCCT CTGTCTCTGT GTCCTTGCCC TGGCCCTCTT CCCTCTCCTGTCTCCTGTCC CTGTGTTCCG CCCGTCTTCC CTCTCCTGAC CTCCTTTTCC TCCGCTGGGT GGGGCCCTGC CTGTTCTCTGCTCCCTGGCT TGGGGTTTCT TCTGTGTGTC TTCTTCCTCT GTTGGCTGGC TTTCTCCTTC TTTTGTCTTC CTGGGTGCCCCTTCTTCCTT TCTTGGGTCC TTGGTGCTTG GGCTGGG GCGTCTTGGG GTGCBGGGCC CBTCCTGCTG CGCCTGGGCGCTGCTGTGCG TCCGTCTGCT GGGGGGCCGG GGTGGCTGGG CCCTGCTTGC CGCACGACCC CGGGCCGACCCGAGGCTCGG GGGGCTGTGT TCTGGCGCTG GTGGGCTTGG GCCCCTCTGG GGGCTGGGTT TCCTGCTGCGCCTGGGCGCT GGCGTCTTGG GGTGCGGGGC CGGGGGGCCG GGGGGCCGCT GTTCGTGGGC CTGGGGGTGCCTGTGGCTGC CGGTTGCCCC GGTTGGTGGC GCCGTCCTGC TGCCGGTCGT TGGCTGGGTC CCCCCGCCCG TTTCCTGGGGTCCGCGTGGG GTGCTCCGGT TCCTCGTGCC GCTGCTGCCT TGTCTTTCCG GCCGTGGCGG CGTGGTGGTC CGCCCCCCCTGGCCTTCTGC TCGGGGTCTG GCTGGTTGCC GGTGCCCTTG GCGGCGGTCT TCTTCCTGGT GGCTCTGGGC CCGGCCGGTCTCGGGCGTCT CGTGTTCGCT CTTGTGCTGT TCCGGCCGCT CCTTCCTCTT CCGCCGCCGC CGCTCCCCGC CCGCTCGTCGCCCTGGCCCG GCCTCCTCCT GGCCGCTGTC TCGGGCGGCG GCCTTGGCGC TCCGTTTGGG GCTGCCTCTG GCGCTTCCGGCCCTCGGCCT GGGCGCTCTC TTCCGCCTGT GCTGGTGGCC CTCGTGGGCC CCTCCTGGCC TCCGGTGTCC TGTGGTCCCCCGGCTGGTGG CCGGGCCGGT TGGGCGGGCG TGGGCGCCGG CGGGTCCTCC GGGCTGCCCT TCTCCGCCGGGGGTCCCGCG CTCCTGCTGT TCCCTGGGCT CTTCTGCCTC TCTCCTGGGT GGGTGCTGGG TGCCGGGGTC TCCGGGCTTGCCCCGCGCTG CTGGGCGTTC TGCGGTCTTG GGGTTGTCTG TGGCCCCGCT CGTGTCGCCC TCCGTCGCCC GTCGCCGGCCTCGTCCCCTC CTGGGTGCGC GGCGGGCTGG TCCTGGCGTT TTGCTCCTTC CTGGGCGTCT TGGGGTGCBG GGCCCBTCCTGCTGCGCCTG GGCGCTGCTG TGCGTCCGTC TGCTGGGGGG CCGGGGTGGC TGGGCCCTGC TTGCCGCACGACCCCGGGCC GACCCGAGGC TCGGGGGGCT GTGTTCTGGC GCTGGTGGGC TTGGGCCCCT CTGGGGGCTGGGTTTCCTGC TGCGCCTGGG CGCTGGCGTC TTGGGGTGCG GGGCCGGGGG GCCGGGGGGC CGCTGTTCGTGGGCCTGGGG GTGCCTGTGG CTGCCGGTTG CCCCGGTTGG TGGCGCCGTC CTGCTGCCGG TCGTTGGCTGGGTCCCCCCG CCCGTTTCCT GGGGTCCGCG TGGGGTGCTC CGGTTCCTCG TGCCGCTGCT GCCTTGTCTT TCCGGCCGTGGCGGCGTGGT GGTCCGCCCC CCCTGGCCTT CTGCTCGGGG TCTGGCTGGT TGCCGGTGCC CTTGGCGGCG GTCTTCTTCCTGGTGGCTCT GGGCCCGGCC GGTCTCGGGC GTCTCGTGTT CGCTCTTGTG CTGTTCCGGC CGCTCCTTCC TCTTCCGCCGCCGCCGCTCC CCGCCCGCTC GTCGCCCTGG CCCGGCCTCC TCCTGGCCGC TGTCTCGGGC GGCGGCCTTG GCGCTCCGTTTGGGGCTGCC TCTGGCGCTT CCGGCCCTCG GCCTGGGCGC TCTCTTCCGC CTGTGCTGGT GGCCCTCGTG GGCCCCTCCTGGCCTCCGGT GTCCTGTGGT CCCCCGGCTG GTGGCCGGGC CGGTTGGGCG GGCGTGGGCG CCGGCGGGTCCTCCGGGCTG CCCTTCTCCG CCGGGGGTCC CGCGCTCCTG CTGTTCCCTG GGCTCTTCTG CCTCTCTCCT GGGTGGGTGCTGGGTGCCGG GGTCTCCGGG CTTGCCCCGC GCTGCTGGGC GTTCTGCGGT CTTGGGGTTG TCTGTGGCCC CGCTCGTGTCGCCCTCCGTC GCCCGTCGCC GGCCTCGTCC CCTCCTGGGT GCGCGGCGGG CTGGTCCTGG CGTTTTGCTC CTTCCTGGCTGCCCCBGT TTTTGBTCCT CBCBTGCCGT GGGGBGGBCB BTGGCTGCCT CCCCGGGGTT TCTGCTGCTT GCTGCTTCTTTCCCGTCTCC CTTCTTTCCC GTCTCCTTTT TGCCTCTTTG GGTTCCTGTT GTTTCTGGCC TGCTTGGTGG CGGCTTGTGCGTTTCCTCTC TCTTCTCTTG GGTCTCCGCT TCTCGTCCTG CCTTTTCCTG TCTCTGTCGC GCCGTTCCTC CTCCGGCGTCCTCCTGCCCT GTGCTGTTTG CCTCGGGTGG TGCGGGTCCC GGTGCTCCCC CGGCGGGCCG GCTGGTTGCC TGGGCCTGTCTGGTGGGGTG TGGGGCCGCT GGGTTGGGGG TGTGGTGGGC TCTTCTGTGG CCTGTGGGGC TGTTGGTGTC TCTGTGGGCGTGTGCTGGGT CTTGGGGCTT CCTCCCTTGT GCTGGGTGCG GCCTCCCCGC CCCCCTTCTG GGCCGGTGGC CTGGCTCCTTGTGGGCGCTT CTGGCTCTTG CCCTGTCCTT CTTCGCCTCG TGGCTGCTGG GCTGC GCCGCCGCCG CCAAGATGGCGGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG GCCATGGAGA AGAGCAAGGC CACGCCGGCCGCGCGCGCCA GCAAGAAGAT ACTGCTGCCC GAGCCCAGCA TCCGCAGTGT CATGCAGAAG TACCTGGAGGACCGGGGCGA GGTGACCTTT GAGAAGATCT TTTCCCAGAA GCTGGGGTAC CTGCTCTTCC GAGACTTCTGCCTGAACCAC CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGA TCAAGAAGTA CGAGAAGCTGGAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCT TCGACTCATA CATCATGAAG GAGCTGCTGGCCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCAC CTGGGGAAGA AGCAGGTGCCTCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA AACCTCCGAG GGGACGTGTT CCAGAAATTCATTGAGAGCGATAAGTTCAC ACGGTTTTGC CAGTGGAAGA ATGTGGAGCT CAACATCCAC CTGACCATGAATGACTTCAG CGTGCATCGC ATCATTGGGC GCGGGGGCTT TGGCGAGGTC TATGGGTGCC GGAAGGCTGACACAGGCAAG ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGA TGAAGCAGGG GGAGACCCTGGCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCC ATTCATTGTC TGCATGTCAT ACGCGTTCCACACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAAC GGTGGGGACC TGCACTACCA CCTCTCCCAGCACGGGGTCT TCTCAGAGGC TGACATGCGC TTCTATGCGG CCGAGATCAT CCTGGGCCTG GAGCACATGCACAACCGCTT CGTGGTCTAC CGGGACCTGA AGCCAGCCAA CATCCTTCTG GACGAGCATG GCCACGTGCGGATCTCGGAC CTGGGCCTGG CCTGTGACTT CTCCAAGAAG AAGCCCCATG CCAGCGTGGG CACCCACGGGTACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACG ACAGCAGTGC CGACTGGTTC TCTCTGGGGTGCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCG GCAGCACAAG ACCAAAGACA AGCATGAGATCGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGAC TCCTTCTCCC CTGAACTACG CTCCCTGCTGGAGGGGTTGC TGCAGAGGGA TGTCAACCGG AGATTGGGCT GCCTGGGCCG AGGGGCTCAG GAGGTGAAAGAGAGCCCCTT TTTCCGCTCC CTGGACTGGC AGATGGTCTT CTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGGGAGGTGAACG CGGCCGACGC CTTCGACATT GGCTCCTTCG ATGAGGAGGA CACAAAAGGA ATCAAGTTACTGGACAGTGA TCAGGAGCTC TACCGCAACT TCCCCCTCAC CATCTCGGAG CGGTGGCAGC AGGAGGTGGCAGAGACTGTC TTCGACACCA TCAACGCTGA GACAGACCGG CTGGAGGCTC GCAAGAAAGC CAAGAACAAGCAGCTGGGCC ATGAGGAAGA CTACGCCCTG GGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGGGCAACCCCTT CCTGACCCAG TGGCAGCGGC GGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGGCGAGGGCGAG GCCCCGCAGA GCCTGCTGAC CATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAGGAGCGCAAGT GCCTGCTCCT CAAGATCCGC GGTGGGAAAC AGTTCATTTT GCAGTGCGAT AGCGACCCTGAGCTGGTGCA GTGGAAGAAG GAGCTGCGCG ACGCCTACCG CGAGGCCCAG CAGCTGGTGC AGCGGGTGCCCAAGATGAAG AACAAGCCGC GCTCGCCCGT GGTGGAGCTG AGCAAGGTGC CGCTGGTCCA GCGCGGCAGTGCCAACGGCC TCTGACCCGC CCACCCGCCT CCAGGAAGCT ACCTGGAGGA GGTGAGTCTT AGCGGATGAGTAGGAGTTGT CCACGGAGGA AGGTACACAG AAGGGCTTCC AGGCCCAGGA AACAGCAGAG GCACAGAAGTGAGAATGGGT GGGTGAGTTG GTGGGGAAAC TCCAGGTGCA GAGGATGGTA GCGAAACAAA CTGGAGCATTAAGGTCCAAG TCCTCCAAGA TCTTGACTTG CAGATTAAGG AGTTTGTTCA CCTAATCTGC TTTGGGCAGA GTGTGGTGAGTCCTAGAGAC CCCTCTAGGT CTCTCCTCTC AGTAGCCCCA GAAGGCCTGG AGAGCTGCTT CTGGGTGCCAAGCAGGCAGT GACTCCATCA GATCTAGATT TGGGAAAAGC ATCCCTGGTC AGGGCCTGCA TCAGGGCAGTGGCTGGCCAT GAGGACCCTG AGAAGTAGAC AGATTCACGG AGATTCTCAG GAGGCCAGAC AGGAGACTATGGTGACAAAT TAGATTAGAG AAGGGGAGAG AATGAAGGAG CAGTTGGGGT AAAAGAAAAC TGAGGCTGACATGGGTATAT GGGTGGCGAG TGACTCACCA CCCACTGAGA GGAGAACCTC ACAAGCTCTG ACATGCTCTGGTTCCAGGTT CTGTTGGGGC TGATCCAAGA TGGTAGCCTA GAGGTGCACA GAGATGGGGG CCTTGCTTTGCAAAAGGATG CTGGCTGCTG GCCCACAGCA TGGTAATGAG ATTTGAGCTT TATGTGCCCA GGGCTGGGAGGAGGGTCCTG TCACTTTGAA AGCAAAGAGA GGCTCTAGAG AGGGGCATGT TGAGATAGGA ATGCTGCCTTGAGACACCTG GCTTTCCCCA CTCTGGGTGG CTCTCAGCAG GGTGGGTTTC CCCTGCCAGG CAGCACTGAACCTCTGTGCG CTTCCGGCTG GGAGAGTTTT TACCGTAACT ACATGTGGAA CCATCCTGAA GGAACATCTGGATGGGATGG GGTACAGGGA AGGGAGCTGC CAAGAGTGCT GGCCAGGGAC CTGGGTCTAT GAGCTGGTTGGGGGGTGGGG TTGGGTGCAG GGTACTTGAT CCTGAGTGGG CCTTCTGCGG CCAGGATTGG TTCTAGAGTAGGAGGGGTGG GATCGGGGAT GGGGGAAGCC TGTAACTGCG CTGCAGTTGT CAGGTCCCAG GTTCTGGGTGACCTACTAAG GATTCTGGGT CCAGTGTGGG TCCCAGGTTA GACGTCCTAG TCCTGAGTCC GTGTCCACAG TTCTGGGTGTTGAGTCTAGG ACAGTGATCT GGAGTTGACA GTCCAATCTA GGTCTGAGTC CTGACCCCAA GTCTAGAGTTCAGGGTCATG GTAGTAGCCT AGGGTCAGAA TCAAGGTTGG GGTCAGTAAC CAGGATGGGA TCGAGGTCATGGTCCAAAAT CTGGATCTGG GGACCTGTTG GGGGTCTGAG GTGAGTGTCG CAGTCTGGGT ATGGCGTTGGAGACCCAGGG CTGTGATCTG AGGTCATGGT TAGAGTCTCA GGTGGTGGGC CAAGGTTTGA GTCTGGGGTCCTGTTTGGAG TCTGGTGTCA GGTCGTGGAC TGCGTCCAAG GTCAGGGAGT CCGGGGTTAT AGCCAGGGTCTGAGATGAAA GTCCCAGATG GTGTTCAGAG GTCTGAATCT GTGTCTTGGT GAGCGTCCAG GTTCCCTGTG ATCACGTTTGGTGTCAGGGC TGCGGCCCGA CTGGGGAGCC TGGGATCCAG AGATGTGACC CGAGGTTGTG GTCAGAGAATGGGTCTCGGG TCGTCTTCGT GCCGGGTCCC TGTCGTGTTC CAGGCCCGGG TCTCCGTCCA GCATCGAGGGCCGAGGTCAC GGCCAGGGTC TGAGCCCGCG GTCGCAGGTC TGGTTCGGGG TCAGATTCCG CGCGGCCTCCAGGGGGCGCC GTCGCCGCCC GGCTCGGCCC CTCGCGGGCT CGCTGGCGTT GTGCGCGGCA GGCGGGGCCGGAGGCGGCGG CGGCTCCGGG GGCGCGGGCC GGGCGGCGGC GGCGGCGGCG CCCCGACTGC AGTCCCGGCGGGAGCGGAGC GCGAAGCGCG GGGCCGGGCC CGGAGCCGGC GCCATGGGGC GGCGCCGCCT GTGAGCGGCGGCGAGCGGAG CCGCGGGCGC CGAGCAGGGC CAGGCGGGAG CGTCGGCGCC CGAGGCCGAG CGAGCCGCGGCCGGGCCGGG CCGAGCGCCG AGCGAGCAGG AGCGGCGGCG GCGGCGGCGG CGGCGGGAGG AGGCAGCGCCGCCGCCAAGA TGGCGGACCT GGAGGCGGTG CTGGCCGACG TGAGCTACCT GATGGCCATG GAGAAGAGCAAGGCCACGCC GGCCGCGCGC GCCAGCAAGA AGATACTGCT GCCCGAGCCC AGGTGAGGAG AAGCT TCCCAGTTAATACATAATCA ATATGCAATT TATTAATACA TCTCTCCATG TCCACTCCCC CTGTATCTTG CCATTCTTGA CCTGCATTTCCATCCTCCTT ACCTTCCCTA GAGGCCAACT CATTTTCTTT GAAAAACCTG GCATTTCCCA GAAAAAAAAG TGAAGGGCTGGGAGCTGTCC GTTGTCCTGA TTTGCTCCCT CTGCCCTTGC TTCCAAATGT GGTTGGAAAG AAGCACTATT GAAAAATCCCTAAACGCACC CCTGCAGGGT TGGCTCTACC CTGTAGCCAT GGACACATGC TGTTGATACC ACCTGCCTCA TGAGTCTCACATAATTTGCC CTTTCACACT ATCTACCCCA TCAGCCTTAC CAAAACCATA CCTGCATCCT GGGCAGCATC TGCCCTTCAAGAGACTAAGG AATCTCCTTG CAACCAAGAA TGACTAGACC AATGAGACAC CCTTTAAGGC CCCAGCACAATATAGAAATC CCACAATATG GTAATCCCAG TAAGGAGCTA TCAAGCCATT GCAGGACCAT CTAGAATACAACTAGAGTAT AGTTCCTTTC AATCCAGGAA CTATACTCTA ACAGCTTGGC TCACAGGAAC CAGAAGTGAAGATGATGAGG ATCAGGGCTG AGCCTGTGAG CACCAGCTCC ACCACTGACA CCAACCACAG ATTAAACAAGCATCTTGTGG ACCCCTGGGA TGGAAAGAAT AGTTGTTGCC TTATCAACCT CCCCCACAGC CCACACAGAAAAGATAAAAT CATCATGGCT ACAGTGTTAC AGAAGATGAT GACCCAAGGA GTAGGCCTGC CTGAGTGAATGCTGAGAGTG ATAATGGGAG CAGTAGCATC TCAGAGACTA CAGCAGAAAC CATCCACATA AAGAGCTTTGCCCAAACTTA TGATAAAGGG CACCCTCAGA GACTCTCCCT ACTTTAATAT TAGCCCATTG CAGAAATGGTGAGTGGAAAG AGAAATCTTA GGAAGAACCC CTTAAAAAAG CAAAATGCTT TTTAGGTTTG TGCTGAAGAGCCTGGAAAAG AAATAAGGAC ACACACGCTG AGAAATCTTC CTCCTGCCCC AACACTGGGA TAATCTCCAAGGATCTCTCC ATATCTCATT CTCCTGGATA CACTGTCCAC TCAGAAATAT TGTGCAGAGT GCAGTAATTC AAAAGTGAGCTATTGTGTTA GGAGTGAAGG CAAGAGTATC GTAAAATAAA TCAAATTTGA AATGAATTCT CTTAAATTGC TTTATAGATGTTTAATGTAA GCCAGCAGCT ATTAAACGAT AAACCTTAAA TTCGAGAAAA ACTTGGTCAT TCAGAAACTATAGAAACAGG CAGGACTTAT TGCGAGGGCA AACACAGAGT GAGCTCCAGC CTGCTTCAGG AAAATCTGCCAGTGCCATGA AGGATGTACT CTGTCTGCTC CACTGCACTA CTGCTCAGTA TGAGCCCATG CCATCAGCTG TCCCTGACCCACAGGAGTTC TTTAGAAGAG ACTGGTCAAC AAAAGTTTCT AGGGTGTTTT ATACCTGCCA ACTCGAGGGTTAAAACAAGT TGCATAGAAA TGCTCAATCA AGAAAGACAC AGTCATTACT CAGAGAATAA TAAACAGCCTGGCAGCACAT GAATGAATAG AAAAAAGATG TTACATGCAA AGCATGAAAT AACCAAATTC CATAACAGATGTTAATCTGT AATGTGTTTA GGAGAATTTA GAGGAAGTAT AAGATTTATT CTTTCATCAA AAAAATTATA GCCAATGAGGATATATCTAT CAATTATCCA TCAAGTGGTG ATATGGCAGC ACAAGGTAAA ACACAAAGGA ATAAAACCAACGTTTATTAA GAACCAATCA TGTGGCATTT CACATTGAGC ATCATATTTA ATTCTGAAAA AAATCCTTGT ACTGTATCATTCTTCATATT TTATGGATGC AGTAACTAAG GCTGAGAACT TTAAAATTTT TCCTAAGTTC AGACACATAG CTAAGTGGCAGAACCAAGAT TCAAACTCAC CCCATCTAAC TGCAGAGCAA ACTGCATGCC TTAAATGTCA AAGTGAATACTAGCACAGTT AATACAATGT TTGGAAACTC AGAGAAGGAA TGATCCCTCT GCATTATAGT TACTAAGGAATCATTGCCAT TATTTAAATG CCAGTGCTTC TACATCAGGC CCAAATTTTC TGTCCTACTA ACTGTGAATC AAGACTTGATTCAACCTCTA CTTGAGTATC TGCCGCAATG AGAAATCACT TACCTCCACT AACCACACAT TTATTTTATA ACAACAGATTGTTAGTAAGT CCTTTCTTAT ACATACTCAA CAGCTGCTTC CCAAGATGCT GTAGGATTAT GTCTAGAGTC AAACTAGCCAGAAGCAATGT CCAAAATACA CCATAACACT GTGCAGCAAA GGTCCTACTA CCACTTGTTT GGCCCAAACATTCTAGGCAG CACTGGATAT CTGAATCATC AATTATTTCC ACAAACACTG ACCCCTCTAC CAGTCACCCT CACTAGAAGAATTAATTCCA CATGATAATA GCTCCCTCAT GTTACTCCCT TCTAAGTCAA ATTGTACACC CCTTTATCTG ATTAACAGAGTCTAAGTCAC ATGACCTAAA TGCAAGAGAA CTGGGAATGG ACGTTTGTGG ATTCTACCTT AGTAAGGCAAAGTTATCATT GGGAATTCCT CTAATACAGG AAGGGTGTTC CAGAGACATT AAGGAGCCAT ATAAATGGAAAATGTCCACT ACAATCCATC ACTTGGTTGC CCCACATCAA CATTCATTCT TTTGCCACAC TTAAAGTTTC CAAGAACAAAAATTATCCCA CTGAACATAA TCTTTACTAT CTTTTATATA AAGGAAAATT AGACTTGACT CAGCAGAACT GAAATAACCCAGCTCTAACA GTTACTGCTT TTAACTTCAA GTACTGTGTC TCTAGGTGAT ACCTGCTCCA ACAATAGTTT GGTCACATTTTCAATTTGAT ATTCTCTAGT CTCCCAACTT GATAACTGTA CCCTAAACCA TAAAGTTCAC TACCAACATG CTATATATAAAATAACCAAA GGGGGAAGAA GAAAGAGAAA AAGGAAATCT CTTAAAATAC ACAGGTATAC ATATGACAAAGCAAAGAAGG AAATGTGAGC AGATAGTGCA GTCCTCGTTT CTGAAATTGG TCCCCTGACT GGGGCTATACCTATTCCATT TCCTCACCCT CAGCCAGGCA GGTGGAGCAA AAACTTAAGT CTTGGTGGAT CTGAATCTTG ATGCTGTGGAGCTGTCTTAC TAGCCCCAGA CTACCTGCCT CTCAATTTCT AATTATATCA GTGAAAGCAA ACAGCTTTGA TTTGTTTAAGCCTCTGATTT TTTGGTCTAA CTGATGTAAG ACCACAAGGA CAAGAGTTCT CCAGCTCCGG ATTCTCTTCT GTTCTGTTAATGGTGAAATG CCCGAGAGAA GAGTTGCCAA CTTTGGCAAA TAAAAAATAC AGGATTCCAG TTAAATTCAAATTTAGATAA ACAACAATTT TTTAGTATTA GTGTGTCCCA TTCAATATTT GGACATACTT AACTAAAAAA TGATTTGTTGTTCATCTGAA ATACAAATTT AACTGGGCAT TCTGAATATT CTCTGGCAAC CCCCGAGAGA GTGAAGAAAGTGGTACAAGG ACACTTAAGA AGACCAGATT TGAAAAGACA TTACGGATGT GTTTAAATGT CTTATTCTAGAGAGAGTTAG AGCTGTAGGT AGAACTTGGG AAATTAAGTT AAAAGCAGAC ACAGAGACCT GGCCAATATATACTAAGGAG TGGATCACTC TGGTCACAAG CCCAACCTGA GACCAAGGGC ATAGTGAGAT GATTTGGGAAAGGCACTTAT ACACTACTCA TCCCCGTCTT TGAACTAAAT GCCTTATAAA TCTCCAAGAG AAATGACAGT CCACCATGTGGACTGCTTTC TGTAAGTCCA GGGAAAATAA AAGCTATGTG CTTGAAACCC ACTTCTGATA TTATAAGGTG TGTGATCTTTGTCATGTTAA TGGGTCTGAG TATCAATTCT ACAATTGTAA AGTGACAGTA ATGGTGTGTC CCCAGGTTGT TGTGGAAAGCTTGATTCTTA ATGCAACAGT AGGAAACCCC AGCCTCTCTG GAGCAAACAC CCTTCTACAT CTTTACTTCC CCTGCACATTGGCAGGACTC TATTCCTCTA TTTCTCTCTA GTGCTAGAGC AGAAAGGGAC CTTGATTTGA TATCAGGAAA ATCTATTTCTGAACCATAAG CTATGATAGC TGATTTAAAA AATTGACTAT CATGACATGA TAATGATCAT AATGGTAATACATATTGATA GGGTTGCCGT GAAAGTAATA ATATATCTAA GAGTTGTGAC AATATATGAT ACGCCTAGACTCTCAGAAAA TGCTAATTCC AATCCCAATT GCTCTTTGCA TAAAGTTCTG TCCTAGGGTC TGTTCTTTTC CCACATCTACCCTCCTTGGA TCTCTCTTCT GTCTTTTTCA TGTGGTTCAG AGGAGGAGAG AGATCCAGGT CAATGTTTTT CAAATTACAAGGAATTATCA TTTAAATGGG GAAGAAGCTC AAGTTTTGAC GTGTAGTGGA ATTGGAGTGG AGTGGAGTGGAATGGAAACT AACAGGAAGA CACTGCACAT GGTTAAGATA AAGATTGTTT CCTGAAACCT TTAATTTGTGCTTACATACT CACACATACA TATGTGCATG CACTGGGACT CTGCAATATG CATTTCTGAC TATGGAACAT AGCCATAAAAGTCTTTGCAC TGAACGTTCA GTGGGCCTTT CACAAGCTGC CCTAATTGGG AAAGAAAAAC ATGGTCCCTC CATTTCCTGCCCCCAACTCC AGAAAAGTCA CCATAGTTGA GGGTACATCT GAGAAGCCAG CACTTGGGAG TTCAGGGCTCAAGTTCCTTT CTAGAAAAAC ACTGGGTGAT TCTAGGGGAA CTTCCGATCA GAAACAGCCA ATTCAGAGTGAGAGAAGAAA ACGTGACCAT GCAGTTCCTG TGGTTACCAG CCTTGCCCCT CTCTTGCCTT CTGGGAGTTATAAAACCCAA GACTGGAAAG GAAAACCAGC ATTTGCTCAG GCAGCCTCTC TGGGAAGATG CTGCTTCTTCCTCTCCCCCT GCTGCTCTTT CTCTTGTGCT CCAGAGCTGA AGCTGGTGAG TATCAGGGTT CTTCCCTCTG AAATCTGCAGTATCAGCTCC TGAAACAAAG ATGTTTAGTC TGAAATAGCT GACTCCTAAA CAGGGTTCCA AGATCTCTCT TCAAGAGTCCCACAGAGGAA ATTTCCACTT GGGATGTGTG CCACCCCACC CCCACCCCCA CCCACTGCCA TTCTCTACAGCCTAGGACAC CCCCAGGAAC AAGGAATTTC ACCTCAATTG TAGAAAAGCC CAGAGCAAGT GGAAGGAAAAGGGGTATCCC CAGGAAAACA GACATGTCCT CTTAATCTTC TGAGCATCAG GGCTACCCAT TACTTTGTGA CTTTCTCACTCTGTGACCAT GCTCAAGAGC TATGGAGAAA TCTAAAACAG GAACCTGGAC AGTGGGTCCT ACACAGAGACAGAGGAGAGT GGGCCAGGGC AAGGTGGGAG TGGGAGAAGT CTGAGATGAA AACATCAGAA TGGAGCAGAGGCAAGAATGA GATTTCACCT GGGAGGTTAT GGGTGGGGAA AGATACGAAA TACAGGAGAC AGGAGAGGGAAGATGGGCGG AACACAGGGT GAGAATGAGA TTCCAGGGAA GCCTAGCTCA GCTTTAACCC AATTTGTCCATTCATTGGAG AGAGTATCTA TGGCCGTGTT CAAACCCTGG GGTGCTCTGT TCCAGGGGAG ATCATCGGGGGCACAGAATG CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCA ACGGTCCCTCAAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTGAGACAACAGGG TCTATTTATC TCCAAATGGG AGATGAACAA CCAGAGTAGC ATCCAGGAAT ACACCTGCACTGGGGACTGA AGAGGGGGTC CTGGGTCTTG TCAACTTTCA GGAGAGGGAA GACTTTGGGC TGAAAGACTTTAGTCTGTGT TTGAATAGTT CCTTGAGCCT CAGTCACTGA GCTAAGCTCC CTTCGGAGGA AAAGGAGGTCCTGTCCGAAG GTCCCTCTTG TTGCAGTAGC ACCCCTCACC CCTACCCAAC TCAAGACACA CGGCTCACTT TTCAGGGCCCCACCCAGTCT CAGGGCCACT TCCTCTATGG CCTTTTCAAG AACACTGGCT CTAGTTCTCA GGGTCCTGAA CCCATCATTTTATGGGAGCA GAGAACAGGT CTACATAAGA CCCCCACTTT CCCGTTTTAA CTGATATCTC CTGCTTCAGG GGCTGGCCCTCATGCAGGGT TCCCTGAATT AGGAAGTGTG AACCCTGTCC CCTGAGTCCT CCCTGGCCTG TTCAGTCCCC AGCAATTCCAGGGGTCGTAG AAATTGTGTC TGTTTCCTGA GAAAGCTCTT TCATGAGTTA AGCCTGAGCC CTCAAATGCCACAAGTGGCC CATGAAAAGG GAGATGGGTA GAGTCCGGCN ACCCAGTGAC AGAGTTTAGT CCTCTTTTCTCAGAATGAGC TCACCTCAGA AGAAACCCCA AGCCATCACT GTCGCCTCCT TTTCCTTCCT TCTTCCTCAC AGCAGGTCTATAACAGTCAC CCTTGGAGCC CATAACATAA CAGAGGAAGA AGACACATGG CAGAAGCTTG AGGTTATAAAGCAATTCCGT CATCCAAAAT ATAACACTTC TACTCTTCAC CACGATATCA TGTTACTAAA GGTGACAACA CCTCTCTTCTCCCTTTCCAC TTCCCATTCT CCTAAGCTTC TCCTTCAGGT CCTCATTGCC CTGAATTTTT CTTAGGACTT GGCTATAACATGAAGCTACT CACCCTGTCC CTCCCTGATC ACCTCCAACT GTCCAGAGCC CATTTCGAGG ACTGACAGTC CTTCATTCCCTTCACAGTTG AAGGAGAAAG CCAGCCTGAC CCTGGCTGTG GGGACACTCC CCTTCCCATC ACAATTCAACTTTGTCCCAC CTGGGAGAAT GTGCCGGGTG GCTGGCTGGG GAAGAACAGG TGTGTTGAAG CCGGGCTCAGACACTCTGCA AGAGGTGAAG CTGAGACTCA TGGATCCCCA GGCCTGCAGC CACTTCAGAG ACTTTGACCACAATCTTCAG CTGTGTGTGG GCAATCCCAG GAAGACAAAA TCTGCATTTA AGGTGATCCT CCAACTAGGT TTCCTCTCCAAAACTCACTG TTCAGGGACC TGAATGCTCT TAGAAGGAGA TGGGGTCAGC AGGTTGTCAG TCAGGTGACAGGGTGAGCAT CACAGGAATT GCTGTCCTCC CGTGGTCCAA GACAGCCTCT GACCATCCAT TCCAGTCTACTGCACTGGGG GCATGGGGTG ACTGTGGAGA ATGTGGATGA CGGTCCCAAG AAAGGAAGAA GGGGCATCAGAACTAGATGT ATAAGTGAGG AGCTCCACCT CCTGGGTCTG ACTTTAGGTC TCACTGTGAC TCCAAGCTGGCTGGCAGACA GGAGTGGAGG ACTTCCCGGG CTCACCTTCT TCTCTCTCTC CTCCCCCTAC AGGGAGACTC TGGGGGCCCTCTTCTGTGTG CTGGGGTGGC CCAGGGCATC GTATCCTATG GACGGTCGGA TGCAAAGCCC CCTGCTGTCT TCACCCGAATCTCCCATTAC CGGCCCTGGA TCAACCAGAT CCTGCAGGCA AATTAATCCT GGATCCTGAG CCAGCCTGAAGGGAAGCTGG AACTGGACCT TAGCAGCAAA GTGTGTGCAA CTCATTCTGG TTCTACCCTT GGTTCCCTCAGCCACAACCC TAAGCCTCCA AGAGGTCTCC TACAGGTAAC AGAACTTTCA ATAAACTTCA GTGAAGACACAGCTTCTAGT CGTGAGTGTG TGTCCCTCTC TGCTGCTCTC TTCTCCTGCA CATGTGACCT GATTCCCAGC CCAAGCACCAAGGA CACCGCTCCT GTCAGCCAAC AAATATCCAT TGAGCGACAC CTGTGTCCCA GGTGCTGCTC TGGGCCCTGGGAGAAGTGCA TCAGTGGGCT TGGTAGTAGA GGGTAGGGAT GGAGTGAAGG GTAGGCAGGA AGAATGTCCCCAGGCTGGTA GGAGGTGGGG TGGGGGGTTT CAGTCTCAAA ACTCCCATGA AAACCAGAGA GAAGTTTCAGAACTCCACCC AAGAGGCTGG GTTTCTAGGG CCCAGAGCTG CCCTCCCCCA CCCTAGAATG GGCTATAAAAGTCCCTTCCC AGCTACGTCC AGAGAAGAGC TGGAGGAAGT GAGAGGTCGG CTGGGGGTCC TCAAAGTGAGAGGGGAGCAG AGGATCCTCC CGTGCAGGCT GTGGATGTCA CTCACTTCCC AGCTGGTGAA GCCTCGCTGCAGAGATGCAT CTGCTCCCAG CCCTGGCAGG GGTCCTGGCC ACACTCGTCC TCGCCCAGCC CTGTGAGGGCACTGACCCAG GTAATAGTCC CCTAGACAGG CAAGGAGGAG GGAGGGGAAA TGGAAGGGGA AGCACTTGGGTCTTGGAGGG GGTCTTGTGG CTTGCTGAAC CCTGAGTCCC CATCTCTTTG AACAGCCTCC CCTGGGGCAG TGGAGACCTCGGTCCTGCGA GACTGCATAG CAGAGGCCAA GTTGCTGGTG GATGCTGCCT ACAATTGGAC CCAGAAGAGGTGGACTTGGG TCTGGGGGCT GCATGGGCCT GGGAGGATCA GT TAATACCTTG TGGGGTCAGG GAGCCCATGTCCCGTGCTGA TGTTATTTCC CCACCAGGTC CGGGCTGTCT CCAACCAGAT TGTGCGCTTC CCCAATGAGA GACTGACCTCCGACCGTGGC CGAGCCCTCA TGTTCATGCA GTGGGGCCAG TTCATTGACC ATGACCTGGA CTTCTCCCCGGAGTCCCCGG CCAGAGTGGC CTTCACTGCA GGCGTTGACT GTGAGAGGAC CTGCGCCCAG CTGCCCCCCTGCTTTCCCAT CAAGGTACCT ACCCTCAGCC AATCTCCCAT GCCCTTGTGT GGCCTCCCCC AAAGGCAAGG TGCTGGGGGTGGGGATCTGG AAGACTGGAG CACCATCCTT AAGGAGCTGC CTGTGGAGCT AGGGTATGAG ACAGAGACAC AAGCACTGTCTCC TCTTCCATCT CAGATCCCAC CCAATGACCC CCGCATCAAG AACCAGCGTG ACTGCATCCC TTTCTTCCGCTCGGCACCCT CATGCCCCCA AAACAAGAAC AGAGTCCGCA ACCAGATCAA CGCGCTCACC TCCTTTGTGGACGCCAGCAT GGTGTATGGC AGTGAGGTCT CCCTCTCGCT GCGGCTCCGC AACCGGACCA ACTACCTGGGGCTGCTGGCC ATCAACCAGC GCTTTCAAGA CAACGGCCGG GCCCTGCTGC CCTTCGACAA CCTGCACGATGACCCCTGTC TCCTCACCAA CCGCTCGGCG CGCATCCCCT GCTTCCTGGC AGGTCAGACA GGGAGGAAGGTGGTGTCTTC CCAGGAAACA GCCATCCCTG GGGTCCCAAC TGGGAAGCAA TGGTGGGATG TGGTGAAGGTACATGGTTTG GGACCTCAGT ATTAGGCACA CCATAAGCAT GGATCTGTGC AC TGAAGAGATG GAGGTCCAGTGAGGGCCAGG AGTTTGGCCC ACCCCGTCTC TCCCATCCCC AGCCCTGGGT CTACCCTGGT AGAAAGACATTTCTCTGGGA AAGGCTGCAG TAAATCTGAG CTTGGGGTTT TCAAGGTGAC ACCCGATCAA CGGAAACCCCCAAACTGGCA GCCATGCACA CCCTCTTTAT GCGAGAGCAC AACCGGCTGG CCACCGAGCT GAGACGCCTGAATCCCCGGT GGAATGGAGA CAAACTGTAC AATGAGGCTC GGAAGATCAT GGGGGCCATG GTCCAGGTAAGGAGCTCTGC ATCCCAGCAT CCCCC CTTTGTATCT CCACCCACCA ATAGTAAATT AATGTTGTCA CATTTGACGTGATGACAATA AAGAATATGT CTGAGCCACC CTTTGAAAAG GCAAGGGTAT GGGTGAGTAG CCTCTGGGGAATGTTCCTCC TGTCTTCCCT TCCAGATCAT CACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGAGAACCCTGGG GCACTACAGG GGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGCCTTCCGCTTT GGCCACACAA TGCTCCAGCC CTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGCATGTCCCACT TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAA GGTGACCAGG TTTTCCAGGG GGCAAATGGGGGTGAGGGTG GGGAGCATGC CCTCCCCTAG GTGG TCCAGCTGCT TCATGTCTCT CCAGAACTCT GTTTCCTGACAAACGTTACT AACATACCCG ACTGGCTTGT CCAGCTCTGG GCTAGCTTGG CATCATGTGA TAACCCAAGTAGCTTCCCAG AGGCTGGTCC AATCTGTGCT GCTCACATTC CCTGCCACCA GGGGGCATCG ACCCCATCCTCCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAG GATGCCATGT TAGTGGATGA GCTCCGGGACCGGCTGTTTC GGCAAGTGAG GAGGATTGGG CTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACCACGGCCTTCC AGGTGAGGGG GCTGTCCACC TCTTCTCCCA GCTTTGCTCG GGCCAGGCTG CTCAAGGGGTTCTGGGAAGA CCCTGGTACC CGACTGCCTG GTAGGTTCTG GTGGCAGAAA CGAGGTGTTT TCACCAAAAGACAGCGCAAG GCCCTGAGCA GAATTTCCTT GTCTCGAATT ATATGTGACA ATACCGGTAT CACCACGGTTTCAAGGGACA TCTTCAGAGC CAACATCTAC CCTCGGGGCT TTGTGAACTG CAGCCGTATC CCCAGGTTGAACCTATCAGC CTGGCGAGGG ACATGAGGCT TCTGCAGGTA AGGGGAGGCC ACCTCCAGCA CCCTGGGCTGGTTAAGCCTC ACATCCTTCC CTGGATGGAT GGCTGAGTCC TCTTAGGTCT CTAAGCAGAG AAAACAGAACTTGTCACTAG GTACTCTTTC CAAGTGGCTT CCCAATGTGC TAGTTTCTGG GCTGACAGTC AATTCCAGGC CCTAGGACTTTGGGGGGAAA TTAGGAGCAT CCAACTA GAATTCCGTG GCCAGGACCC CTGCCAGGGC ACTGACCCAG CCTCCCCTGGGGCAGTGGAG ACCTCGGTCC TGCGAGACTG CATAGCAGAG GCCAAGTTGC TGGTGGATGC TGCCTACAATTGGACCCAGA AGAGCATCAA GCAGCGGCTT CGCAGCGGTT CAGCCAGCCC CATGGACCTC CTGTCCTACTTCAAACAACC GGTAGCAGCC ACCAGGACAG TTGTTCGGGC CGCAGATTAT ATGCATGTGG CTTTGGGGCTGCTTGAAGAG AAGTTACAAC CCCAGCGGTC CGGACCCTTC ATTGTCACTG ATGTGCTAAC AGAACCACAGCTGCGGCTGC TGTCCCAGGC CAGTGGCTGT GCTCTCCGGG ACCAGGCCGA GCGCTGCAGC GACAAGTACCGCACCATCAC TGGACGGTGC AACAACAAGA GGAGACCCTT GCTAGGGGCC TCCAACCAGG CTCTGGCTCGCTGGCTGCCC GCCGAGTATG AGGATGGGCT GTCGCTCCCC TTCGGCTGGA CCCCCAGCAG GAGGCGCAATGGCTTCCTTC TCCCTCTTGT CCGGGCTGTC TCCAACCAGA TTGTGCGCTT CCCCAATGAG AGACTGACCT CCGACCGTGGCCGAGCCCTC ATGTTCATGC AGTGGGGCCA GTTCATTGAC CATGACCTGG ACTTCTCCCC GGAGTCCCCGGCCAGAGTGG CCTTCACTGC AGGCGTTGAC TGTGAGAGGA CCTGCGCCCA GCTGCCCCCC TGCTTTCCCATCAAGATCCC ACCCAATGAC CCCCGCATCA AGAACCAGCG TGACTGCATC CCTTTCTTCC GCTCGGCACCCTCATGCCCC CAAAACAAGA ACAGAGTCCG CAACCAGATC AACGCGCTCA CCTCCTTTGT GGACGCCAGCATGGTGTATG GCAGTGAGGT CTCCCTCTCG CTGCGGCTCC GCAACCGGAC CAACTACCTG GGGCTGCTGGCCATCAACCA GCGCTTTCAA GACAACGGCC GGGCCCTGCT GCCCTTCGAC AACCTGCACG ATGACCCCTGTCTCCTCACC AACCGCTCGG CGCGCATCCC CTGCTTCCTG GCAGGTGACA CCCGATCAAC GGAAACCCCCAAACTGGCAG CCATGCACAC CCTCTTTATG CGAGAGCACA ACCGGCTGGC CACCGAGCTG AGACGCCTGAATCCCCGGTG GAATGGAGAC AAACTGTACA ATGAGGCTCG GAAGATCATG GGGGCCATGG TCCAGATCATCACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGGGGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCCCTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCAGCTGGCGGAT CGTGTATGAA GGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCTGAACCGTCAG GATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGGCTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGGTACAAT GCTTGGAGGCGCTTCTGTGGGCTCTCCCAG CCCCGGAATT TGGCACAGCT TAGCCGGGTG CTGAAAAACC AGGACTTGGCAAGGAAGTTC CTGAATTTGT ATGGAACACC TGACAACATT GACATCTGGA TTGGGGCCAT CGCTGAGCCTCTTTTGCCGG GGGCTCGAGT GGGGCCTCTT CTGGCTTGTC TGTTCGAGAA CCAGTTCAGA AGAGCCGAGACGGAGACAGG TTCTGGTGGC AGAACGAGGT GTTTTCACCA AAGACAGCGC AAGGCCCTGA GCAGAATTTCCTTGTCTCGA ATTATATGTG ACAATACCGG TATCACCACG GTTTCAAGGG ACATCTTCAG AGCCAACATC TACCCTCGGGGCTTTGTGAA CTGCAGCCGT ATCCCCAGGT TGAACCTATC AGCCTGGCGA GGGACATGAG GCTTCTGCAGGAGTCTATCC CAAGTCTCCA ACTTTTGGAG ACAAGGGGAA GGGGAGGACC ATGAGGCTGC CTTGTCTCCCTGGAGCAAGT GCAGGCTCGT GACGCTTCTG CTGGCTACAG CTCAGAGCTG GGTTCCCCAG CCAGGAGTGAAGGCTGGGGG CTCCTATCAG CAATGGACCT TCCGCCTTGG GAGCCTCTTA GGTATTAGGC TATGAATCAGCGCCACGTGC AAAGGCTTGG GAGCCAAGCC ATGTGGTCTT GCACCCCAGG CAAGAAAAGT CAGCTGGAGGGTTTACAGCA CTTTCTACTG TTTCCCAGCC CTCCCTCCCC TCCCTCACCA TGACTAAGAG ACCACTCGGT CCTAGCCTCCAGACACCCCA CAATACTCCT CTGAGCCTGA GGCCAGGCAG CATGCTCTGC TTCTACCAAT AAAGCACTGC CGGAATTCCATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAAC CCTTGTAATCCTAGCACTTT GAGAGGCTGA AGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCA TGGACAACATGGTGAAACCC AGTCTCTACC AAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCAGCTACTCAGG AGGCTGAGGT GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCGTGCCACTCCG CTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAATAAATGAAAT GAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT TATAAGGGAA GGAATTTAATCCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGG ATGAGGTGTT AGTAAGACCA ACATCTCAGAGGCCTCTCTG TGCCAATAGC CTTCCTTCCT TTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAATGGCATCATC TAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTTCCTGGACTCC TGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAGGAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCCTCTGTCTTAG CAGCCACCCT GCTGATGAAC TGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGTGAAGAGGCAC CACACAGAGT GATGTAACAG CAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCATAAATTAGCTA ACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGACCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACT TCTTGGCTGC CAGTGTGTTC ATAACTTTGTAGCGAGTCGA AAACTGAGGC TCCGGCCGCA GAGAACTCAG CCTCATTCCT GCTTTAAAAT CTCTCGGCCACCTTTGATGA GGGGACTGGG CAGTTCTAGA CAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTTACCCCGGGGA GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C CATATGTATG GGAATACTGT ATTTCAGGCATTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAAC CCTTGTAATC CTAGCACTTT GAGAGGCTGAAGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCC AGTCTCTACCAAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGG AGGCTGAGGTGGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCG CTCCAGTCTTGGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA TAAATGAAAT GAAATTATAAGAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT TATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAAAGCTTACCTA GTGCTAAAGG ATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCTTTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATC TAATATCACT GGCCTTCTGGAACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTGAGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGGCCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAAC TGCCACCTTGGACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT GATGTAACAG CAAGATCAGGTCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTA ACTGTACACA AGCTGGGGAC ACTCCCTTTGGAAACCAAAA AAAAAAAAAA AAAAAAGAGA CCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAGTATAAATACT TCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCAGAGAACTCAG CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGACAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGA GGCAGTGCAGCCAGCTGCAA GGTGAGTTGC C CTGCTTTAAA ATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTAGACAGTCCCG AAGTTCTCAA GGCACAGGTC TCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGCAGCCAGCTGC AAGCCCCACA GTGAAGAACA TCTGAGCTCA AATCCAGATA AGTGACATAA GTGACCTGCTTTGTAAAGCC ATAGAGATGG CCTGTCCTTG GAAATTTCTG TTCAAGACCA AATTCCACCA GTATGCAATGAATGGGGAAA AAGACATCAA CAACAATGTG GAGAAAGCCC CCTGTGCCAC CTCCAGTCCA GTGACACAGGATGACCTTCA GTATCACAAC CTCAGCAAGC AGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAAGAAGTCTCCA GAATCTCTGG TCAAGCTGGA TGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAAAACTGGGGCA GCGGGATGAC TTTCCAAGAC ACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGTCCAAATCTTG CCTGGGGTCC ATTATGACTC CCAAAAGTTT GACCAGAGGA CCCAGGGACA AGCCTACCCCTCCAGATGAG CTTCTACCTC AAGCTATCGA ATTTGTCAAC CAATATTACG GCTCCTTCAA AGAGGCAAAAATAGAGGAAC ATCTGGCCAG GGTGGAAGCG GTAACAAAGG AGATAGAAAC AACAGGAACC TACCAACTGACGGGAGATGA GCTCATCTTC GCCACCAAGC AGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCAGTGGTCCAAC CTGCAGGTCT TCGATGCCCG CAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGCAGACACGTGC GTTACTCCAC CAACAATGGC AACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTGATGGCAAGCA CGACTTCCGG GTGTGGAATG CTCAGCTCAT CCGCTATGCT GGCTACCAGA TGCCAGATGGCAGCATCAGA GGGGACCCTG CCAACGTGGA ATTCACTCAG CTGTGCATCG ACCTGGGCTG GAAGCCCAAGTACGGCCGCT TCGATGTGGT CCCCCTGGTC CTGCAGGCCA ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCTTGTGCTTGAG GTGGCCATGG AACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCCCTGCCTGCAG TGGCCAACAT GCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCTGGTACATGGG CACAGAGATC GGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC TGGAGGAAGTGGGCAGGAGA ATGGGCCTGG AAACGCACAA GCTGGCCTCG CTCTGGAAAG ACCAGGCTGT CGTTGAGATCAACATTGCTG TGATCCATAG TTTTCAGAAG CAGAATGTGA CCATCATGGA CCACCACTCG GCTGCAGAATCCTTCATGAA GTACATGCAG AATGAATACC GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGTCCCTCCCATG TCTGGGAGCA TCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATCAGGTAGAGGC CTGGAAAACC CATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG AGATTCCATTGAAAGTCTTG GTCAAAGCTG TGCTCTTTGC CTGTATGCTG ATGCGCAAGA CAATGGCGTC CCGAGTCAGAGTCACCATCC TCTTTGCGAC AGAGACAGGA AAATCAGAGG CGCTGGCCTG GGACCTGGGG GCCTTATTCAGCTGTGCCTT CAACCCCAAG GTTGTCTGCA TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCTGCTGTTGGTG GTGACCAGTA CGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCGCTCTTCATGC TGAAAGAGCT CAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACC CTCGGTTCTGCGCCTTTGCT CATGACATTG ATCAGAAGCT GTCCCACCTG GGGGCCTCTC AGCTCACCCC GATGGGAGAAGGGGATGAGC TCAGTGGGCA GGAGGACGCC TTCCGCAGCT GGGCCGTGCA AACCTTCAAG GCAGCCTGTGAGACGTTTGA TGTCCGAGGC AAACAGCACA TTCAGATCCC CAAGCTCTAC ACCTCCAATG TGACCTGGGACCCGCACCAC TACAGGCTCG TGCAGGACTC ACAGCCTTTG GACCTCAGCA AAGCCCTCAG CAGCATGCATGCCAAGAACG TGTTCACCAT GAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCC AGCCGTGCCACCATCCTGGT GGAACTCTCC TGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGC ACCTTGGGGTTTGCCCAGGC AACCAGCCGG CCCTGGTCCA AGGCATCCTG GAGCGAGTGG TGGATGGCCC CACACCCCACCAGACAGTGC GCCTGGAGGA CCTGGATGAG AGTGGCAGCT ACTGGGTCAG TGACAAGAGG CTGCCCCCCTGCTCACTCAG CCAGGCCCTC ACCTACTCCC CGGACATCAC CACACCCCCA ACCCAGCTGC TGCTCCAAAAGCTGGCCCAG GTGGCCACAG AAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCC CTCAGAGTACAGCAAGTGGA AGTTCACCAA CAGCCCCACA TTCCTGGAGG TGCTAGAGGA GTTCCCGTCC CTGCGGGTGTCTGCTGGCTT CCTGCTTTCC CAGCTCCCCA TTCTGAAGCC CAGGTTCTAC TCCATCAGCT CCTCCCGGGA TCACACGCCCACGGAGATCC ACCTGACTGT GGCCGTGGTC ACCTACCACA CCGGAGATGG CCAGGGTCCC CTGCACCACGGTGTCTGCAG CACATGGCTC AACAGCCTGA AGCCCCAAGA CCCAGTGCCC TGCTTTGTGC GGAATGCCAGCGCCTTCCAC CTCCCCGAGG ATCCCTCCCA TCCTTGCATC CTCATCGGGC CTGGCACAGG CATCGTGCCC TTCCGCAGTTTCTGGCAGCA ACGGCTCCAT GACTCCCAGC ACAAGGGAGT GCGGGGAGGC CGCATGACCT TGGTGTTTGGGTGCCGCCGC CCAGATGAGG ACCACATCTA CCAGGAGGAG ATGCTGGAGA TGGCCCAGAA GGGGGTGCTGCATGCGGTGC ACACAGCCTA TTCCCGCCTG CCTGGCAAGC CCAAGGTCTA TGTTCAGGAC ATCCTGCGGCAGCAGCTGGC CAGCGAGGTG CTCCGTGTGC TCCACAAGGA GCCAGGCCAC CTCTATGTTT GCGGGGATGTGCGCATGGCC CGGGACGTGG CCCACACCCT GAAGCAGCTG GTGGCTGCCA AGCTGAAATT GAATGAGGAGCAGGTCGAGG ACTATTTCTT TCAGCTCAAG AGCCAGAAGC GCTATCACGA AGATATCTTC GGTGCTGTAT TTCCTTACGAGGCGAAGAAG GACAGGGTGG CGGTGCAGCC CAGCAGCCTG GAGATGTCAG CGCTCTGAGG GCCTACAGGAGGGGTTAAAG CTGCCGGCAC AGAACTTAAG GATGGAGCCA GCTCTGCATT ATCTGAGGTC ACAGGGCCTGGGGAGATGGA GGAAAGTGAT ATCCCCCAGC CTCAAGTCTT ATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGACCTCCTAACAA GTAGCACCCT GGATTGATCG GAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGGAGACAAAATC TTAAATGCCA GGCCTGGCGA GTGGGTGAAA GATGGAACTT GCTGCTGAGT GCACCACTTCAAGTGACCAC CAGGAGGTGC TATCGCACCA CTGTGTATTT AACTGCCTTG TGTACAGTTA TTTATGCCTC TGTATTTAAAAAACTAACAC CCAGTCTGTT CCCCATGGCC ACTTGGGTCT TCCCTGTATG ATTCCTTGAT GGAGATATTT ACATGAATTGCATTTTACTT TAATC GAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGG GCAACTTGAAGAGCGTGGCC CAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCT GTGCGGCAAGCAGGGCCCAG CCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT ACTCCCACCA GCGCCAGAACACAGCCCCCC GAGCTCCCCG CTAACCCAGC CCCCAGAGGG GCCCAAGTTC CCTCGTGTGA AGAACTGGGAGGTGGGGAGC ATCACCTATG ACACCCTCAG CGCCCAGGCG CAGCAGGATG GGCCCTGCAC CCCAAGACGCTGCCTGGGCT CCCTGGTATT TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCG GCCCCTGAGCAGCTGCTGAG TCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCG GCTCCCAGGCCCACGAACAG CGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCT TAGGGAGAGCGAGCTGGTGT TCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT GGGCCGGATC CAGTGGGGGAAGCTGCAGGT GTTCGATGCC CGGGACTGCA GGTCTGCACA GGAAATGTTC ACCTACATCT GCAACCACATCAAGTATGCC ACCAACCGGG GCAACCTTCG CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGAGGAGACTTCC GAATCTGGAA CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGAC GGCTCTGTGCGGGGGGACCC AGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAG GAAACGGTCGCTTCGACGTG CTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCT GCCCCCCGAG CTGGTCCTTGAGGTGCCCCT GGAGCACCCC ACGCTGGAGT GGTTTGCAGC CCTGGGCCTG CGCTGGTACG CCCTCCCGGCAGTGTCCAAC ATGCTGCTGG AAATTGGGGG CCTGGAGTTC CCCGCAGCCC CCTTCAGTGG CTGGTACATGAGCACTGAGA TCGGCACGAG GAACCTGTGT GACCCTCACC GCTACAACAT CCTGGAGGAT GTGGCTGTCTGCATGGACCT GGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCA GCAGTGGAAA TCAACGTGGCCGTGCTGCAC AGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACG CCGCCACGGC CTCTTTCATGAAGCACCTGG AGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTG GGCCTGGATC GTGCCCCCCATCTCGGGCAG CCTCACTCCT GTTTTCCATC AGGAGATGGT CAACTATTTC CTGTCCCCGG CCTTCCGCTA CCAGCCAGACCCCTGGAAGG GGAGTGCCGC CAAGGGCACC GGCATCACCA GGAAGAAGAC CTTTAAAGAA GTGGCCAACGCCGTGAAGAT CTCCGCCTCG CTCATGGGCA CGGTGATGGC GAAGCGAGTG AAGGCGACAA TCCTGTATGGCTCCGAGACC GGCCGGGCCC AGAGCTACGC ACAGCAGCTG GGGAGACTCT TCCGGAAGGC TTTTGATCCCCGGGTCCTGT GTATGGATGA GTATGACGTG GTGTCCCTCG AACACGAGAC GCTGGTGCTG GTGGTAACCAGCACATTTGG GAATGGGGAT CCCCCGGAGA ATGGAGAGAG CTTTGCAGCT GCCCTGATGG AGATGTCCGGCCCCTACAAC AGCTCCCCTC GGCCGGAACA GCACAAGAGT TATAAGATCC GCTTCAACAG CATCTCCTGCTCAGACCCAC TGGTGTCCTC TTGGCGGCGG AAGAGGAAGG AGTCCAGTAA CACAGACAGT GCAGGGGCCCTGGGCACCCT CAGGTTCTGT GTGTTCGGGC TCGGCTCCCG GGCATACCCC CACTTCTGCG CCTTTGCTCG TGCCGTGGACACACGGCTGG AGGAACTGGG CGGGGAGCGG CTGCTGCAGC TGGGCCAGGG CGACGAGCTG TGCGGCCAGGAGGAGGCCTT CCGAGGCTGG GCCCAGGCTG CCTTCCAGGC CGCCTGTGAG ACCTTCTGTG TGGGAGAGGATGCCAAGGCC GCCGCCCGAG ACATCTTCAG CCCCAAACGGAGCTGGAAGC GCCAGAGGTA CCGGCTGAGCGCCCAGGCCG AGGGCCTGCA GTTGCTGCCA GGTCTGATCC ACGTGCACAG GCGGAAGATG TTCCAGGCTACAATCCGCTC AGTGGAAAAC CTGCAAAGCA GCAAGTCCAC GAGGGCCACC ATCCTGGTGC GCCTGGACACCGGAGGCCAG GAGGGGCTGC AGTACCAGCC GGGGGACCAC ATAGGTGTCT GCCCGCCCAA CCGGCCCGGCCTTGTGGAGG CGCTGCTGAG CCGCGTGGAG GACCCGCCGG CGCCCACTGA GCCCGTGGCA GTAGAGCAGCTGGAGAAGGG CAGCCCTGGT GGCCCTCCCC CCGGCTGGGT GCGGGACCCC CGGCTGCCCC CGTGCACGCTGCGCCAGGCT CTCACCTTCT TCCTGGACAT CACCTCCCCA CCCAGCCCTC AGCTCTTGCG GCTGCTCAGC ACCTTGGCAGAAGAGCCCAG GGAACAGCAG GAGCTGGAGG CCCTCAGCCA GGATCCCCGA CGCTACGAGG AGTGGAAGTGGTTCCGCTGC CCCACGCTGC TGGAGGTGCT GGAGCAGTTC CCGTCGGTGG CGCTGCCTGC CCCACTGCTCCTCACCCAGC TGCCTCTGCT CCAGCCCCGG TACTACTCAG TCAGCTCGGC ACCCAGCACC CACCCAGGAGAGATCCACCT CACTGTAGCT GTGCTGGCAT ACAGGACTCA GGATGGGCTG GGCCCCCTGC ACTATGGAGTCTGCTCCACG TGGCTAAGCC AGCTCAAGCC CGGAGACCCT GTGCCCTGCT TCATCCGGGG GGCTCCCTCCTTCCGGCTGC CACCCGATCC CAGCTTGCCC TGCATCCTGG TGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTGGCAGGAGCGG CTGCATGACA TTGAGAGCAA AGGGCTGCAG CCCACTCCCA TGACTTTGGT GTTCGGCTGCCGATGCTCCC AACTTGACCA TCTCTACCGC GACGAGGTGC AGAACGCCCA GCAGCGCGGG GTGTTTGGCCGAGTCCTCAC CGCCTTCTCC CGGGAACCTG ACAACCCCAA GACCTACGTG CAGGACATCC TGAGGACGGAGCTGGCTGCG GAGGTGCACC GCGTGCTGTG CCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACCATGGCAACCA ACGTCCTGCA GACCGTGCAG CGCATCCTGG CGACGGAGGG CGACATGGAG CTGGACGAGGCCGGCGACGT CATCGGCGTG CTGCGGGATC AGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCGCACCCAGGAG GTGACAAGCC GCATACGCAC CCAGAGCTTT TCCTTGCAGG AGCGTCAGTT GCGGGGCGCAGTGCCCTGGG CGTTCGACCC TCCCGGCTCA GACACCAACA GCCCCTGAGA GCCGCCTGGC TTTCCCTTCCAGTTCCGGGA GAGCGGCTGC CCGACTCAGG TCCGCCCGAC CAGGATCAGC CCCGCTCCTC CCCTCTTGAGGTGGTGCCTT CTCACATCTG TCCAGAGGCT GCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCCCTCTCTAGGC CTGTTGCCTC GGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCCAGGGCCTACT GCCACCCGCT TCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT CTCAGGAGTA TCTTACCTGTAAAGTCTAAT CTCTAAATCA AGTATTTATT ATTGAAGATT TACCATAAGG GACTGTGCCA GATGTTAGGAGAACTACTAA AGTGCCTACC CCAGCTC-3′(SEQ.ID NO：3003)

Human factor related antisense polynucleotides

5′-CCT CCT TCC TGG TCT GTC TGC CBG BCB BBT TTG GGB BGT GBB CBG TTT TGG BBC CBT GTT TCC CBG TCTCTG BGC TGT GGC GCC CTG CTG CTC TTT CTG CT TCC CTT GGT GGG TTG GGC C GCT GGT TGT TCT GGG GTT C TTGCTG CCC CTT CTG TCC C TGT TTG CTG GTG TCT GCG C CCC CBB CBG BBG BBG CBG BCB BBT TTG GGB BGT GBBCBG TTT TGG BBC CBT GTT TCC TGT GCG CTC GGC CTG GTC CCG G GGG TCT CCT CTT GTT GTT GC TTG CGC CTCCTG CTG GGG GT CC CTC TGT TCT TGT TTT GGG GGC GGG CCC GGC CGT TGT CTT G GTT TGG GGG TTT CCG TTGGGG TTC TCC TGG CCC GGG CCT TGC CC GGC CGT GGT CCC GGC TTC GTTCCT GTC TCC GTC TCG GCT CTT CTGGGG CCT TGC GCT GTC TTT GGT G GCB CCG TCC BGT GBT GGT GCG GTB CTT GTC GCT GCB GCG CTC GGC CTG GTCCCG GBG BGC GCG CGG GCC GGG GGC TGC TGG G GGT TGG CCC GGG GTG CCC C GCC GCT GGG TGC CCT CGT CCTCTG CGG TC GTG TCT CCT GGC TCT GGT TCC CC GCT GCG CCC GTT GTC CTC TGG GGT GGC CTT C GCT CCC GGG TCTGGT TCT TGT GT TGG GGG TCC CTT TTT GGG CCT GTT GT GGC GTG GCT TGT GTG TTC GGT TTC TGC CCT GTC CTCCGG CGT CCC CGG BGC CTC CCC GGG GCB GGB TGB CTT TTG BGG GGG BCB CBG BTG TCT GGG CBT TGC CBG GTCCTG GGB BCB GBG CCC CGB GCB GGB CCB GGB GTG CGG GCB GCG CGG GCC GGG GGC TGC TGG GBG CCB TBG CGBGGC TGB G CCT CTT TTC TGT TTT TCC C CTC TGC CTT TGT TTG GGT TCG CTT CCT TTC TGC TTC TTC C CTG TGTCTC CTG TCT CCG CTT TTT TCT TC GTC TTT GTT GTT TTC TCT TCC TTG CTGBGC BBG BTB TCT BGB TTC TGG GGTGGT CTC GBT TTT BBBB GCT TGB GBB GCT GCB BBC BTT BTC CBB BGT BTB TTT GBG GCT CCB BGG BTC BCG BCCBTC TTC CCB GGC BTT TTB BGT TGC TGT CGT BBG TGB GBG CTG BGB GBB BCT GTG BBG CBB TCB TGB CTT CBB GBGTTC TTT TCB CCC GTT CTT GGC TTC TTC TGT C CGT TGG CTT CTC GTT GTC CC TGT GGG CTT CTC GTT GTC CCCCC TTC GGG GGC TGG TGG GGC CGT CCT TGC CTG CTG G GTT CTT GGC TTC TTC TGT CCG T TGG CTT CTC GTTGTC CC TGT GGG CTT CTC GTT GTC CC CCC TTC GGG GGC TGG TGG GGC CGT CCT TGC CTG CTG G TTT TCT CTTTCG CTT TCT TTT CGT CTC CTG TTC CTC CTT TT TTG CTG TTT TTT CTC CTT CTT CTC TCC TTT CTT TTC TTT TCTCTT TCG CTT TCT TTT CGT CTC CTG TTC CTC CTT TT TTG CTG TTT TTT CTC CTT CTT CTC TCC TTT CTT TTC CTCTGT CTT GTT CTG GTC CTT CGT GGG GCT CTG TGT CGC GTG G GTG CGG CCG TGG CC GGC GGB CCB GGB GTT GGBGCB GGB GCB GGB CGG GCB GGC GGC TCB TGT TTG GBT CGG CBG GBG GCB CTC CTC TGG TTG GCT TCC TTC GCCGGC BCB TGC TBG CBG GBB GBB CBG BGG GGG BBG CBG TTG GGB GGT GBG BCC CBT TBB TBG GTG TCG BTCCCTGTTTC CCCCCTTTCG TTCTGCGTTT GCCTTTGGCG TTTTTTGTTT GTTTTCTCTC TCCGTCTTTC TTCTCCCCTGTGGGBBTTT CTGTGGGGBT GGCBTBCBCG TBGGCBGCTC CBBGBGCTBG CBBBCTCBBB TGCBGBBGCB TCCTCBTGGCTCTGBBBCGG TGGGAATTTC TGTGGGGBTG GCATACACGT AGGCAGCTCC AAGAGCTAGC AAACTCAAATGCAGAAGCATC CTCATGGCTC TGAAACG GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGCGCCGCGCTCG GCTCCTCTCC CTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCCTGCGCGCGGC GCTGGCCCCT GCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC GCGCCGGGGCCTGTCCGCCT CTGCGGGCGC TGTCTCCTGG CTTGTCTTCC GGCTCTTCTG CTGGGGTGGG GCTGGGCGGC CGGCCCGGTGCTGGGGCTCC TCGGGGGGGG GGGCTCTTCC GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGGGTCTTGCCTG GCCTCCGGGC TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTGGCGCCCGTTT GTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCT CTGCTTCTCG CTCTCCTTTGTGGGGCCCTC CCTGCTGCTC TTGGTTTTGGGCTTTTTTTC TCTTCCTCCT TTTTCGTGCG TGGGCCTCC GCACGCCTCTTGCCACCTCC TGCGCAGGGC AGCGCCTTGG GGCCAGCGCC GCTCCCGGCG CGGCCAGCAG GGCAGCCAGCAGCGCGCAGC CGACGGCCAG CATGCTTCCT CCTCGGCTAC CACTCCATGG TCCCGCAGAG GCGGACAGGC GCBCGCCTCTTGCCBCCTC CTGCGCBGGG CBGCGCCTTG GGGCCBGCGC CGCTCCCGGC GCGGCCBGCB GGGCBGCCBG CBGCGCGCBGCCGBCGGCCB GCBTGCTTCC TCCTCGGCTB CCBCTCCBTG GTCCCGCBGB GGCGGBCBGG C GGGGTGGBBBGGTTTGGBGT BTGTCTTTBT GCBCTGBCBT CTBBGTTCTT TBGCBCTCCT TGGCBBBBCT GCBCCTTCBC BCBGBGCTGCBGBBBTCBGG BBGGCTGCCB BGBGBGCCBC GGCCBGCTTG GBBGTCBTGT TTBCBCBCBG TGBGBTGGTT CCTTCCGGGCTTGTGTGCTC TGCTGTCTCT TGGTTCCTTC CGGTGGTTTC TTCCTGGCTC TTGTCCTTTC TCTTGG CCCT TGGCCGGGBGTGGG GGTCCTGGBC GGCBCTGBBG GCBTCCBGGG CTCCCTTCCB GTCCTTCTTG TCCGCTGCCB GCBCCCCTTCBTTCCBGBGG CTGBTGGCCT CCBCCBGGGB CBTGBTTBGG TBGBBBCTBG GBGGCCGGCC TCCBCCBGGG BCBTGGTCCTTCTTGTCCGC TGCCTCTCTG GGGTTTTCGG TCTGGGTGGG CTTTCCTCCT GGGGCTGCTG CTGGGCTCTT CTTTTTGTTTCTGGCCTGGT GCTCTCTCGT GCCCTTTCCC TTGGGTGTCT TGTTTTTGTG GCCTCCBCCB GGGBCBTG GTCTTTGTTTCTGGGCTCGT GCCCCBTCCC GGCTTCTCTC TGGTTCCGTC CTCTGTGGTG TTTGGCCCTG CTTCCTTTTG CCTGTTGAGGGGGCAGCAGT TGGGCCCCAA AGGCCCTCTC GTTCACCTTC TGGCACGGAGTT GCATCCCCATA GTCAAACTCTGTGGTCGTGT CATAGTCCTC TGTGGTGTTT GGAGTTTCCA TCCCGGCTTC TCTCTGGTTC CAAGGGAGB GGGGGCBGCBGTTGGGCCCC BBBGGCCCTC TCGTTCBCCT TCTGGCBCGG BGTTGCBTCC CCBTBGTCBB BCTCTGTGGT CGTGTCBTBGTCCTCTGTGG TGTTTGGBGT TTCCBTCCCG GCTTCTCTCT GGTTCCBBGG GB GGGCBCGGGG CBGTGGGCGGGCBBTGTBGG CBBBGCBGCB GGGTGTGGTG TCCGBGGBBT BTGGGGBGGC BGBTGCBGGB GCGCBGBGGG CBGTBGCBBTGBGGBTGBCB GCGBGGCGTG CCGCGGBGBC CTTCBTGGTB CCTGTGGBGB GGCTGTCGGB GGGGGTGTGG TGTCCGCTTGGCGGTTCTTT CGGGTGTTTC TTCTCTGGGT TGGCCTGCTG CTCGTCGTGGT CGCTCCGCTC CCGGGTTCGT CTCGCTCTGTCGCCCCTTCC TTCCTTGTCG TGTTCCTCCC TTCCTTGCCT CT GBTGTTTGTT BCCBBBGCBT CBBGBBTBGCTTTGCTBTCT BBGGBTCBCB TTTBGBCBTB GGBBBBCGCT GTBGGTCBGBB BGBTGTGCTT BCCTTCBCBC BGBGCTGCBGBBBTCBGGBBGG CTGCCBBGBGBG CCBCGGCCBGC TTGGBGTCBT GTTTBCBCBC BGTGBGGTGC TCCGGTGGCTTTTTGCTTGT GTGCTCTGCT GTCTCTG TTC CTTCCGGTGG TTTCTTCCTG GCTCTTGTCC TTTCTCTTGG CCCTTGGCCCCTTGBGCBGG BBGCTCTGGG GCBGGGBGCT GGCBGGGCCC BGGGGGGTGG CTTCCTGCBC TGTCCBGBGT GCBCTGTGCCBCBGCBGCBG CTGCBGGGCC BTCBGCTTCB TGGGGCTCTG GGTGGCBGGT CCBGCCBTGG GTCTGGGTGG GGCTGGGCTGCBGGCTCCGG GCGGTCCBGC CBTGGGTCTG GGGGCTGGG CTGCBGGCTC CGGGCGGGCG GGTGCGGGCT GCGTGCTGGGGGCTGCCCCG CAGGCCCTGC GGTCCBGCCB TGGGTCTGGG GGCTGGGCTG CBGGCTCCGG GCGGGCGGGTGCGGGCTGCG TGCTGGGGGC TGCCCCGCAG GCCCTGC GCBCCGCCTG GBGCCCTGGG GCCCCCCTGT CTTCTTGGGGBGCGCCTCCT CGGCCBGCTC CBCGTCCCGG BTCBTGCTTT CBGTGCTCBT GGTGTCCTTT CCBGGGGBGB GBGGGGCTGGTCCTCTGCTG TCCTTGCTGG TGCTCBTGGT GTCCTTTCCG CCCTGGGGCC CCCCTGTCTT CTTGGGGCCT CTTCCCTCTGGGGGCCGTCT CTCTCCCTCT CTTGCGTCTC TCTCTTTCTC TCTCTCTCTT CCCCTTTCCC GCTCTTTCTG TCTCGGTGTCTGGTTTTCTC TCTCCGCTGG CTGCCTGTCT GGCCTGCGCT CTTGGCCTGT GCTGTTCCTC CTCCGGTTCC TGTCCTCTCTGTCTGTCGCC CCCTCTGGGG TCTCCCTCTG GGTGGTGGTC TTGTTGCTTG GGCTGGGCTC CGTGTCTCCB GTGCTCBTGGTGTCCGCTGB GGGBGCGTCT GCTGGCGCTG GTCCTCTGCTGTC CTTGCTGGTG CTCBTGGTGT CCTTTCCGCCCTGGGGCCCC CCTGTCTTCT TGGGGCCTCT TCCCTCTGGG GGCCGTCTC TCTCCCTCTC TTGCGTCTCT CTCTTTCTCTCTCTCTCTTC CCCTTTCCCG CTCTTTCTGT CTCGGTGTCT GGTTTTCTCT CTCCGCTGGC TGCCTGTCTG GCCTGCGCTCTTGGCCTGTG CTGTTCCTCC TCCGGTTCCT GTCCTCTCTG TCTGTCGCCC CCTCTGGGGT CTCCCTCTGG CGTGGTGGTCTTGTTGCTTG GGCTGGGCTC CGTGTCTCCB GTGCTCBTGG TGTCCGCTGB GGGBGCGTCT GCTGGC CTGCTGBGGCTTGGGTCTCC GGGCGBTTCT CTGCBGBBGB TGCTCBBBGG GCTCCGGCBG TTCCTCCTTG BTCTGGTCGCT GTCGTBCCBGTCGGBCCBGT BBTTCBGBTC BTCBTTGGCT CCTBTTTCTT CTGCBBBCBG CTGBGTGGBG BCBBGBBBBB BGBCTGCCBBGGCCBCGBGG BTTTTCBTGT TGGBTTTTGC GBCGGBCBGTCCCGCGGGGT GCTGAGTTTC TCTGGTTCCT CCGBGCGCBCGTGGTCGCTC CGCGTTTCTC TGGTTCCTCC GGTCCCGCGG GGTGCTGTCT GGTCGCTGTC GTGGCTTGGG TCTCCGGGCGGTTTCCTTCC TTTTCCGC CGGCCCTTCT CACTGGAGGC ACCGGGCAGT CCTCCATGGG AGGGTTGGGC TTGGCCGGGGCTGCCCGGTG CCTCCTCTTG GCTGGTCCCT CGTTGTCCTT GGGCCCCGC TCCCGCTGCT CGGCCTCCGT GTTCTTTGGCCTCTTGCTCC GCCTGCTGTC TTGTCCCGTC CCCTCCTCGC TTGCGTTTCC CTCTTCCTTG TCTTCCAGGC CTTCCTCCGCTTCCGCTGCT GGGGCCCGCG CCGGGGGGGC GCTCGGCTCC GCGGCTTCCT CCCCGGCTGG GGGGTCCTGGTCTCCGGGGC CTGCGGCTCG CGGGCTCGGG GCTGCGTGCG CCGCGCGCGG CGTCCGCGGT GGGTGGCGCTGTCCCGCCGT GGTGTGTCTC CGTTCTCGTC CTGCGCCGTC CTGGTCTGCC CGTGGGGTCC TGGGCGTGGT GGGGGGCGTCTGGTGCCTCG TCTGCCCCGT GGGGCTTCGG GCTCGGGGCT GTTCGTCCCC CCTGCCGCTC TGTGGCCTCC GGGGCTCCTCGTTTTCGCTG CTTCGGGTGT CCTTCTCGGC GTGTGGCCCC GGGTCCCGGC CCTGCTGGGC TGGGCGGGGT CGCTGCCCTGGGCTTCTGGC CCGTCTGGTT GTCTGTCGGT GCTTGTCTCG GGTTTCTGGC CTCTGTGCTG GGCGCTTCTC TGCCTCCTGCTCCGCCCTCC TGGTGGCTCG GCTGGGGGTG CCCGTGCGGG GGTGGGTGTG GGGTGTTTTC GGGGTCCTCC CCTTCCCGTT TCA TCT TGG CTT TAT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCT CCC TCCCCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGA GTT TCATCT TGG GTT TCB TCT TGG CTT TBT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCT CCCTCC CCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGB GTTTCB TCT TGG GGG GGB GTT TCB TCT TGG CTT T CCGTGTTGTC BGTGGTGCTG CCCGTTTGBG GTBTGGCGCTCCBCCBBTTC CCTTTTCTC C TTGTTTTCCG TTTCTCTTGC CGTCTGTGGT T GCTCAGCCTC CAAAGGAGCC AGCCTCTCCCCAGTTCCTGA AATCCTGAGT GTTGCCTGCC AGTCGCCATG AGAACTTCCT ACCTTCTGCT GTTTACTCTC TGCTTACTTTTGTCTGAGAT GGCCTCAGGT GGTAACTTTC TCACAGGCCT TGGCCACAGA TCTGATCATT ACAATTGCGT CAGCAGTGGAGGGCAATGTC TCTATTCTGC CTGCCCGATC TTTACCAAAA TTCAAGGCAC CTGTTACAGA GGGAAGGCCAAGTGCTGCAA GTGAGCTGGG AGTGACCAGA AGAAATGACG CAGAAGTGAA ATGAACTTTT TATAAGCATTCTTTTAATAA AGGAAAATTG CTTTTGAAGT AT ATCCTTTAAG TCAATGGACT TTGCATCAGT CACACCATCTTTTGTTACTT TGGACTTCCC CAGCTATGTT CAATAATTAC TGTTCTTCCC TTGGGCCCCA TTGTAATGGC TACAGCCTCGACAAAAAGTC TACACTTTGA AGCATTAAGG CTCGGACATC AGCACCAAAT TTTACATCTT TACCATCACTTCAAGTGAGG TGAGGAGCCA GTAGCCTGGA CACTGGTCTC ATCTGGTGAA AGACTGTGGG TAATGGAAGCATTTCTGTGG GGTGCTGGCA GGACATGTGC ATGGCGAGGC AGGTCATCAG CAGCAAGTGA GAGCTGCCTCTTACTTTCTA AAGGTGACAT AGCAAATATA CAAAAAAAAA TAAATAAATT ATTAATTTAG GTAGAGCACATAAAGGCTTT ATTTCATATT CCATTTCTCT GTATGCTTTC TTCACCAGGA AGAAATAGTT TTAGTGTCAG GAATGAATGAGTCTGCCCCT CAATTCCAGC CTGCTCAACA CACAAGGAAA CAAAGCCCTG ACAATCAGAG TGACTCCCTGGTGACTAAGC TCCCAGTCCT GGATGCATAT TTGTTTAGCA GTTCTGACAG CATTTGACCC AGCCCTCTCT CTGCATATCCCATCAGAACC TTCTTTTTTT TTTTTTTCTT TGAGACTGAG TCTTGCTCTG TCGGAAGCGA CTCCTGTGCC TCAGCCTCCCAAATACCTGG AATTATAGGC GTAAGCCATC ATGCCTGGCT AATTTTTGTA TTTTTCATGG AGATGGGGTT TTGCCATGTTGGTCAAATTG GTCTCACACT CCTGACCTCA TGTGATCCAC CTGCCTCAGC CTCCCAAACT GCTGGGATGACAGGTGTAAG CCACCATGCT AGGCTCAGAA ATTTCCTTTT ATAAAAATGT CATTAAGGAT CTTGGCTGCA CAATATCGTTACCAGCTTCC TTTAAATCCA CTTCTGGCCT GCCAGGAATC AGGTTCTTCA GAACCTGACA TTTTAAATGA AGAGGTCAGGCAGTTCATGA GGAAAGCCTC ATTGTCCCCA TGTCTCTGTC ACTGCTGCAC CCCTGAGACA TCACAGACATGGACACTGGG GCCTGCTTGT TTCTCAAACT GCCCTTAGAT CGAAAGAGGG AGGAACCAGG ATGAATGCCACTCATTTTCC CAAGAAAGGC CCTCTCCTGA GTGCCCGGGA TGGGGCTCTG TCCATTGCCT GGGGCCGCCA ATTGCTACTCTGGGTTACGG AGGAAGGACA GGGTCCTGAG AGACACCAGA GACCTCACAC AGCCCTGAAA ACATGGGGCTCCTTCATAAG TGTTTCCCAT CACCAACAGG GAGACCACGT GGAGGCCTTG CAGCCCCACT CGGTGCTTCTCCACCAAATC CCAAGGGCAG TGACGCTGAC GTCTGTGGAA AGCAGAGAAA GCCCTGGCTC CCAAAGCCCTGAAGTCCCTG TGGAGCTGAC ATTCCCTGAG TGACGGTGTG AATGGAAGGA ACTCAAGTGC GGGTGGTAGGCCACCTCCTG GCCCAGGCCT GGGTGAACTC TGAGGGGACA CATGTAGTCA CAATCCCATC CTCCCATTCT CCTTCTCAGAGGAAGGAAGT GGGCATCCAT CTGCCTCATC TCTCTCCCGT GGGGAAGATG GGGAGTTTCA GGGGAACTTTCACATAAATT TCACCAGCTC AGATCTCCTG TGAGGATGGG GCCCACCATG CTCCCGGTGC TGCCAGAGGCCCTGAGCCCC TCCCAGGGTC CCTGGGTTTG AGCCAGCCCT GTATCATCCC CAGGAGCTGA ATGTCAGAGCAATGGATAGA ATTAGATGGA AAGAGCTCTC AATTTGACCT GAGACTGTCC CCAGATACTC AGGAAAAACAGGACGTCGCA CAGAGTGGGC AGCAGGTGAG TGGCAGGTTA TAGGTCCTGA GTTTGAGTTT GTTCTCACGTGAGACAGACC CAGCCCCTCA CTCCATTCAC ACACTGGGTT TTAAATGGTG CAAGATAGGA GCAATTTTCTGGTCCCAAGA GCAGGAGGAA GGGATTTTCT GGGGTTTCCT GAGTCCAGAT TTGCATAAGA TCTCCTGAGT GTGCATTGTTCTTTGAGGAC CATTCTCTGA CTCACCAGGT AAGTGGCTGA ATTCTAACCT CTGTAATGAG CATTGCACCC AATACCAGTTCTGAACTCTA CCTGGTGACC AGGGACCAGG ACCTTTATAA GGTGGAAGGC TTGATGTCCT CCCCAGACTCAGCTCCTGGT GAAGCTCCCA GCCATCAGCC ATGAGGGTCT TGTATCTCCT CTTCTCGTTC CTCTTCATAT TCCTGATGCCTCTTCCAGGT GAGATGGGCC AGGGAAATAG GAGGGTTGGC CAAATGGAAG AATGGCGTAG AAGTTCTCTGTCTCCTCTCA TTCCCCTCCA CCTATCTCTC CCTCATCCCT CTCTCTCCTT CCTCTCTCTG TGTGTCCCCT CCATCCTTTTCTCCTGCTTC TCTCTCTTCT TCCCTCTCTC TCTTTTTTCT GTCTTTCTTT TTCCTCTCTC CCTAGAGCAT GTCTTTCTTTCTTTCTCTTT CCTTTCTTCT ACCCACACTT TTAGACTGAA TGCCCTATTT AATTGAACAA AGCATTGCTT CCTTCAATAGAAAAGGAGTT TGAGAACCCA ATGGACACCT CACTCGTTCT TCTAAGCCAA TATGAAGGAG CCCAGTAGCTTGTAAATATC ATCTCTTCAC TGCTTTCCAT GCTACAACTG CTGAGACTAT GGTTGAAACC TGTTAGGTGA CTTTTTAAATAAAAGGCAGA AATTTTGATT TTATCTAAAG AAAGTAGTAT AGAATGTCAT TTTCTAAATT TTTATATTTA AAGGGTAGATACTGCAACCT AGAGAATTCC AGATAATCTT AAGGCCCAGC CTATACTGTG AGAACTACTG CAGCAAGACACTCTGCCTCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG TACAGCCCAT TGAAACCTAC TTTTAAACCT GGATGCCTAA CCTTCATTTT CTCCTTGATA TTATGAAAATAAAATAAAAA CCATGAAAGG ATAAAAGAGG GAGAGTGGAA GGGAAGGATG GAGAAAGGGA AAAAGAAAATTTGAGAGTAA ATCCTAAAAC AATTAATCTA ATAGATATCA TCTTGTGAAA TCCTCATTTT ACCAATCTTA TTTATGAGTCCTGGGTTTTG TGAGAACAAT GGGGTTCTGA GAGGCACCAG AGACCTCATG TTTTCCAAAA CCTAGAACAGTATAATGAAG GAAGGCGGGG AGGCAGGGAG GCAGGGAGGC AGGGAGGCAG GGAGGCGGGC AGGTGGGGAGGGAGGGACGG AAGGAGGGAG GGAGGGAGGG AGGGAGGGAG GGAGGGATAA AAAAAGAAGA ATGAGGTTGAAACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACTTGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCAT CTTTTTATCC CATCTCAGGT CAAATACTTA ACAGACTAAATGATTTGAAA AAGCAAAAGT TTACTGGCTT GTGTGTGTTA AAATGGAGGT ATGGTGGCTT TGATATTATC TTCTTGTGGTGGAGCTGAAT TCACAAGAGA TCGTTGCTGA GCTCCTACCA GACCCCACCT GGAGGCCCCA GTCACTCAGGAGAGATCAGG GTCTTTCACA ATCAGGTTCT ACAAAAATAA ACATCCCCCC AACCACAGCA GTGCCAGTTTCCATGTCAGA AACTTAGATC CAAATGACTG ACTCGCGTCT CATTATCATG ATGGAAAAGC CCAGGCTTGAGAAAGAAGCC CGCTGCGGAT TTACTCAAGG CGATACTGAC ACAGGGTTTG TGTTTTTCCA ACATGAGTTT TGAGTTCTTACACGCTGTTT GCTCTTTTTG TGTGTTTTTT CCCTGTTAGG TGTTTTTGGT GGTATAGGCG ATCCTGTTAC CTGCCTTAAGAGTGGAGCCA TATGTCATCC AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTGGAACAAAATG CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGCTCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC AATCTTTATCCTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA TATCCTTGAA ACACCTTTTT CTGCTCTCCAGGAAGGGGTC AGGGCTGCCA CAGCGGGGCT TGGAGTGCTT TCCAGGGTCA CAGGCATCTG TATTCTTTGGATTCCTTGAC CTTCCCCATT TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCC TGCATCCTCC CCTTGCATGCCCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGAC CAGTTCCCTC ATGGAATCATAGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGAC TCCCTTCTTC TGGCTAAGGT TTCTTATGCAATTAT CTGCAGTGGT AAAAAGATTC TATATCTGCT GTTTGATGAA TGCAGCACCC ACTAGCCACA TAGTGCTCGTGAGCACTTGC AATGCGGCTA GGGTGATTTC AATTAACCTA AAAGAGAACA GCCACAGGGA GCATGTGGCTGCCATATTGG ATGGTGCTGC TTTGAGAACA AAATGAGAGA AATGAAGCCT CTATTTACCT TGGTTGGCGGAACACATTGA AGGGACTCTG TATTGATACC AGGCTTCAAA CTTTGGGAAG TGTACTGGCC AACTTAAACACATCCACAGG AGAATGAAGA GGTTTGGGAA GGGACCAGAA ACCAGGCATT GAGGACAATG AGAAGAGTTTTTCAAAAGTG GAATTACTGC AAAAAGTGGA AAAATAGCCT TTGGATGGAA GTTACTGATG AGACAATTTCCATCGGTGTG AAAGCCATCT TTCCAACAGA GATCTGCAAC ATGAGAATGT ACTGTCTCCT AGGGTAGCGATGGCCTCTTG TATTAGTCCG CTCAGGCTAC CAGATTTATC GTTTAAACTG CCCATAAACA GACCAGGCAG TTTAAACAACAGAAATTTAT TTCCTCGCAG TCCTGGAGGC AGGAAGTCTG CGATCAAGGT GGAAGCAGGG TTGGCTTCTTCTCAGGTGTC TGTCCTTGGC TGGTAGATGA CCGCCGCCTC CCTGGGTCCT CACATGGTCT TTCCTCTGTG TGTGTCTGTCCCAATCTCTT CTTATAAGGA TGCAAGTCTT ATGGATCAGA GCACACCCCA ATGACCGTGT TTAACTTGAA TCACCTCTTTAAAGTTTCTC TCTCCAAATA CAATCACCTC CTGAGGCACT GTTAGGGCTT CGACACAGGA ATTCTTTTCC TAGGGGATTCAGTTCAGTCC AAAACGCCTA CCAGTGGAGA CTTGCAACAT GGCGGCCTGC TGGTCCCTCG CCAGGAATATCACAGGCGAC TGTTCCCTGT TGCATGGAAT AGAAGGCTAT TCCAGAGTAC TGTCTCTATT TATCAGATCT GGGATACTGGGAGAAGGGCA AAATAAAGTC CAAGTAGAAA AAAAAACTAT GAAAGTTTTA GAGAGTAACC ATAATTTCAGCCCGATGTGA AACGATCCTA GATTTCAGCT GAAATAGTGA TGTGGGAAGT GAGGGGGCCG GGATTCAAGGCAGAGGGAAC AGCGTAACTG AAGGCATGGA AGGAGGGAAG TGTAGGCTGT GTTTGAAGAG TGGCAGCTGCTTCCACATTT CTAAAACACA GGATGTGATT TTGGGGTGTG TTGAGACAAG GCAGAAAACT TGTTTGGAAAAATAACTTGA ATTCCCTGCA CATTTAAAAT CTCTCAGCAG AAGAAAACCC CACTCAGAAC CCCACTGTTC ATTCCTTGGCTTGTATTTGG SCACAGCTGG CATAGCCCCA GACTGAGTAA GCTCTTCAGA CACCTCATTT CATGAGTAGC CCCAAAGATCAATCATGGGC CAATTTCTTG GAAGAGAAGA CTCTCCGGTG TTTTGCAGTT ATTTGTTCTG CTTTCGCGAG ATGTTCTCAAATCGTTGCAG CTACAAGCCA TGAGTCTGAA GTGTTTGTGT TCCCTCCTTA CAGGTGGTAA CTTTCTCACA GGCCTTGGCCACAGATCTGA TCATTACAAT TGCGTCAGCA GTGGAGGGCA ATGTCTCTAT TCTGCCTGCC CGATCTTTAC CAAAATTCAAGGCACCTGTTACAGAGGGAA GGCCAAGTGC TGCAAGTGAG CTGAGAGTGA CCAGAAGAAA TGACGCAGAAGTGAAATGAA CTTTTTATAA GCATTCTTTT AATAAAGGAA AATTGCTTTT GAAGTATACC TCCTTTGGGC CAAAATGAATCTTGTGTCTC AATTGGAAGA GGTAAAGAAG TAGGGGGTTA GGGTGCATGG GTTGGAACGT GAGACAGGTCGAACCACAAA GCCTGCCTGG AAAAGGGGAG TGACGTCCTA GGCTTCAGTG ATGTCACCTC CACTTTGTTTGATCCACAAA CCAACAGGTG ACTGATTTTG GTCAGCTCAG CCTCCAAAGG AGCCAGCCTC TCCCCAGTTCCTGAAATCCT GAGTGTTGCC TGCCAGTCGC CATGAGAACT TCCTACCTTC TGCTGTTTAC TCTCTGCTTA CTTTTGTCTGAGATGGCCTC AGGTGGTAAC TTTCTCACAG GCCTTGGCCA CAGATCTGAT CATTACAATT GCGTCAGCAGTGGAGGGCAA TGTCTCTATT CTGCCTGCCC GATCTTTACC AAAATTCAAG GCACCTGTTA CAGAGGGAAGGCCAAGTGCT GCAAGTGAGC TGGGAGTGAC CAGAAGAAAT GACGCAGAAG TGAAATGAAC TT GAATTCACATTTCTCACCTT TTGATGTATT AAGAAAGTAT GGAGAAATAT ATCCTCTATC AAATTTTCAT GCCTTCAATA ATTTCTAATTCATCAGTCAG TGTTTTTCCA TCCTTTACTG TGATGATGCC CTTTCTTCCA AACTTTTTCA TTGCATCAGA GATGATGTTACCAATTTCTT TGTCTCCATT TGCAGAAATT GTAGCAACCT GTGCAATTTC TTCAGGTTTG GTCACAGGTT TAGACTGCTTTTTAAGTTCA GCAATTACAG CATCAACAGC TAACATCACA CCTCTCTTGA TTTCCACTGG ATTAGCACCT TTGCTAACCTTCTGGAAGGC TTATTTGGAA ATAGAGCATA CCAGTACAGC AGCAGTGATA GTGCCATCCC CCAGTCTCTC CATTTGTGTTATTGGCAACA TCTTGGACAA GTTTAGCTCC AATGCTTTTA TATTTATCCT TTAAGTCAAT TGACTTTGCA TCAGTCACACCATCTTTTGT TACTTTGGGA CTTCCCCAGC TATGTTCAAT AATTACTGTT CTTCCCTTTG GCCCCATTGT AATGGCTACAGCATCGACAA AAAGTCTACA CTTTGAAGCA TTAAGGCTCA GACATCAGCA CCAAATTTTA CATCTTTACCATCACTTCAA GTGAGGTGAG GAGCCAGTAG CCTGGACACT GGTCTCATCT GGTGAAAGAC TGTGGGTAATGGAAGCATTT CTGTGGGGTG GTGGCAGGAC ATGTGCATGG TGAGGCAGGT CATCAGCAGC AAGTGAGAGCTGCCTCTTAC TTTCTAAAGG TGACATAGCA AGTATACAAA AAAAAATAAA ATATTAATTT AGGCAGAGCACATAAAGGCT TTATTTCATA TTCCATTTCT CTGTATGCTT TCTTCACCAG GAAGAAATAG TTTTAGTGTC AGGAATGAATGAGTCTGCCC CTCAATTCCA GCCTGCTCAG CACACAAGGA AACAAAGCCC TGACAATCAG AGTGACTCCCTGGTGACTAA GCTCCAGTCC TGGATGCATA TTTGTTTAGC AGTTCTGACA GCATCTGACC CAGCCCTCTC TTTGCATACCCCACCAGAAC CTTCTTTTTT TTTTTTTTTC TTTGAGACTG AGTCTTGCTC TGTCGGAAGC GATTCCCGTG CCTCAGCCTCCCAAATACCT GGAATTATAG GCGTAAGCCA TCATGCCTGG CTAATTTTTG TATTTTTCAT GGAGATGGGG TTTTGCCATGTTGGTCAAAT TGGTCTCACA CTCCTGACCT CATGTGATCC ACCTGCCTCA GCCTCCCAAA GTGCTGGGAT GACAGGTGTAAGCCACCATG CTAGGCTCAG AAATTTCCTT TTATAAAAAT GTCATTAAGG ATCTTGGCTG CACAATATCG TTACCAGCTTCCTTTAAATC CACCTCTGGC CTGCCAGGAA TCAGGGTTCT TCAGAACCTG ACATTTTAAA TGAAGAGGTCAGGCAGGTCA TGAGGAAAGC CTCATTGTCC CCATGTCTCT GTCACTGCTG CACCCCTGAG ACATCACAGACATGGACACT GGGGCCTGCT TGTTTCTCAA ACTGCCCTTA GATCGAAAGA GGGAGGAACC AGGATGAATGCCACTCATTT TCCCAAGAAA GGCCCTCTCC TGAGTGCCCG GGATGGGGCT CTGTCCATTG CCTGGGGCCG CCAATTGCTACTCTGGGTTA CGGAAGAAGG ACAGGGTCCT GAGAGACACC AGAGACCTCA CACAGCCCTG AAAACATGGGGCTCCTTCAT AAGTGTTTCC CATCACCAAC AGGGAGACCA CGTGGAGGCC TTGCAGCCCT ACTCGGTGCTTCTCCACCAA ATCCCAAGGG CAGTGACGCT GACGTCTGTG GAAAGCAGAG AAAGCCCTGG CTCCCAAAGCCCTGAAGTCC TGTGGAGCTG ACATTCCCTG AGTGACGGTG TGAATGGAAG GAACTCAAGT GCGGGTGGTAGGCCACCTCC TGGCCCAGGC CTGGGTGAAC TCTGAGGGGA CACATGTAGT CACAATCCCA TCCTCCCATT CTCCTTCTCAGAGGAAGGAA GTGGGCATCC ATCTGCCTCA TCTCTCTCCC GTGGGGAAGA TGGGGAGTTT CAGGGGAACTTTCACATAAA TTTCACCAGC TCAGATCTCC TGTGAGGATG GGGCCCACCA TGCTCCCGGT GCTGCCAGAGGCCCTGAGCC CCTCCAGGGT CCCTGGGTTT GAGCCAGCCC TGTATCATCC CCAGGAGCTG AATGTCCGAACAATGGATAG AATTAGATGG AAAGAGCTCT CAATTTGGCC TGAGACTGTC CCCAGATACT CAGGAAAAACAGGACGTCGC ACAGAGTGGG CAGCAGGTGA GTGGCAGGTT ATAGGTCCTG AGTTTGAGTT TGTTCTCACGTGAGACAGAC CCAGCCCCTC ACTCCATTCA CACACTGGGT TTTAAATGGT GCAAGATAGG AGGAATTTTCTGGTCCCAAG AGCAGGAGGA AGGGATTTTC TGGGGTTTCC TGAGTCCAGA TTTGCATAAG ATCTCCTGAG TGTGCATTGTTCTTTGAGGA CCATTCTCTG ACTCACCAGG TAAGTGGCTG AATTCTAACC TCTGTAATGA GCATTGCACC CAATACCAGTTCTGAACTCT ACCTGGTGAC CAGGGACCAG GACCTTTATA AGGTGGAAGG CTTGATGTCC TCCCCAGACTCAGCTCCTGG TGAAGCTCCC AGCCATCAGC CATGAGGGTC TTGTATCTCC TCTTCTCGTT CCTCTTCATA TTCCTGATGCCTCTTCCAGG TGAGATGGGC CAGGGAAATA GGAGGGTTGG CCAAATGGAA GAATGGCGTA GAAGTTCTCTGTCTCCTCTC ATTCCCCTCC ACCTATCTCT CCCTCATCCC TCTCTCTCCT TCCTCTCTCT GTGTGTCCCC TCCATCCTTTTCTCCTGCTT CTCTCTCTTC TTCCCTCTCT CTCTTTTTTT CTGTCTTTCT TTTTCCTCTC TCCCTAGAGC ATGTCTTTCTTTCTTTCTCT TTCCTTTCTT CTACCCACAC TTTTAGACTG AGTAGACTGA ATGCCCTATT TAATTGAACC AAGCATTGCTTCCTTCAATA GAAAAGGAGT TTGAGAACCC AATGGACAAC TCACTCGTTC TTCTAAGCCA ATATGAAGGAGCCCAGTAGT TTGTAAATAT CATCTCTTCA CTGCTTTCCA TGCTACAACT GCTGAGACTA TGGTTGAAAC CTGTTAGGTGACTTTTTAAA TAAAAGGCAG AAATTTTGAT TTTATCTAAA GAAAGTAGTA TAGAATGTCA TTTTCTAAAT TTTTATATTTAAAGAGTAGA TACTGCAACC TAGAGAATTC CAGATAATCT TAAGGCCCAG CCTATACTGT GAGAACTACTGCAGCAGACA CTCTGCCCCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCACTGCAGGTTCA CAGGACAGGG ACAGCCCATT GAAACCAACT TTTAAACCTG GATGCCTAAC CTTCATTTTC TCCTTGATATTATGAAAATA AAATAAAAAC CATGAAAGGA TAAAAGAGGG AGAGTGGAAG GGAAGGATGG AGAAAGGGAAAAAGAAAATT TGAGAGTAAA TCCTAAAACA ATTAATCTAA TAGATATCAT CTTGTGAAAT CCTCATTTTA CCAATCTTATTTATGAGTCC TGGGTTTTGT GAGAACAATG GGGTTCTGAG AGGCACCAGA GACCTCATAT TTTCCAAAACCTAGAACAGT ATAATGAAGG AAGGAGGGAA GGAGGGAGGG AGGGAGGGAA GGAGGGAAGG AGGGAGGGAGGGAGGGAAAC AAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATTTATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCATCTTTTTTATC CCATCTCAGA TCAAATACTT AACAGACTAA ATGATTTGAA AAAGCAAAAG TTTACTGGCT TGTGTGTGTTAAAATGGAGG TATGGTGGCT TTGATATTAT CTTCTTGTGG TGGAGCTGAA TTCACAAGAG ATCGTTGCTG AGCTCCTGCCAGACCCCACC TGGAGGCCCC AGTCACTCAG GAGAGATCAG GGTCTTTCAC AATCAGGTTC TACAAAAATAAACATCCCCC AAACCACAGC AGTGCCAGTT TCCATGTCAG AAACTTAGAT CCAAATGACT GACTCGCGTCTCATTATCAT GATGGAAAAG CCCAGGCTTG AGAAAGAAGC CCGCTGCGGA TTTACTCAAG GCGATACTGACACAGGGTTT GTGTTTTTCC AACATGAGTT TTGAGTTCTT ACACGCTGTT TGCTCTTTTT GTGTGTTTTT TCCCTGTTAGGTGTTTTTGG TGGTATAGGC GATCCTGTTA CCTGCCTTAA GAGTGGAGCC ATATGTCATC CAGTCTTTTG CCCTAGAAGGTATAAACAAA TTGGCACCTG TGGTCTCCCT GGAACAAAAT GCTGCAAAAA GCCATGAGGA GGCCAAGAAGCTGCTGTGGC TGATGCGGAT TCAGAAAGGG CTCCCTCATC AGAGACGTGC GACATGTAAA CCAAATTAAACTATGGTGTC CAAAGATACG CAATCTTTAT CCTAGTAATT GTGGTCATTG GGTGATGTTG GTTTGGGCAG GCCATCTCTAATATCCTTGA AACACCTTTT TCTGCTCTCC AGGAAGGGGT CAGGGCTGCC ACAGCGGGGC TTGGAGTGC GAATTCCCTGTAAGCCCTGT TACAGGGGCT GCACCCCAGA TACAACCTGA CCTGTGTCCA AGGCGGGCAA CTCAACCCTTAGATATTGAA TGGGTCCCAT GGCACCAATG CTTAAACACC AGCAGCCCTC ACAACCACAG ATCGTGTTTTAAGGATGAGG AGGTAGTTCT CTGGATGCAC AGGCTTCAAT CCAAATGGGC TCATGACGCC GCAGCACACACCCAGTCTGC AGCCTGAAGA GTTGGAGCAT TGCATTCACA GAAAGCATCC AGACATGATC ATGGGCTCAGGGATACACCT GTTCTCCGAT GTGTACCAGT GAAGGATGGA AACTCCTATG CCTCCCAGAA AGCACCACTCAAGCTTTTGC TGAATGCTTC TCTGAAGGCC CACAAGGCTG AGAGGCTGTG CAACACCAGC AGTAAAGTGAATGCCCAGAC TCCCACCTCC TTTCTTGGGT GGCCATCTGG AAAGGCCACT CCCACCCTGA TGGCTAATGCCTCAGACCAG TTCTTGGCCC AGATGATCCT AGACAATTGT TTAAGCTTAA ACTGTTCATT GGCCAAGCAAACAGGTGATA GTACCTCTGG GGAACCACAT GCCGCGTGTA CATCCAGATC TCAGGAGAAC CCAAAAATGTCTGTTCCACA TAGCAACAGA AGCCCAGGTA GCACTCAGTC TCACCTGGGT GTTCTCCAAC ATCCCAGCTCAGCCAAATGG CTTTCATTAG TTTTTATGGT TAGACCCCAG GTCCTCGGGA CACTGCTTTA GAAACACATT CCAAATCCTCCTCTGTGTGC AGGTGGCATT CCTATCCCAA TCTCTTTGCA GGGCGTATAC TGTGATACGC AGCCAGGCTG TCCCAGAGGCCTTAAATATT CCCTTGGTGC AGGTAGTTCA GCTTAGCCAC AGCCAATGCA TCACAGGGTC AACTGTGTTA GGAGCCATTGAGAATCCATA GTTGGTTGCT GCCTGGGCCT GGCCAGGGCT GACCAAGGTA GATGAGAGGT TCCTCTGTGGAGTTCTACTT TAACCTCACC TTCCCACCAA ATTTCTCAAC TGTCCTTGCC ACCACAATTA TTTAATGGAC CCAACAGAAAGTAACCCCGG AAATTAGGAC ACCTCATCCC AAAAGACCTT TAAATAGGGG AAGTCCACTT GTGCACGGCTGCTCCTTGCT ATAGAAGACC TGGGACAGAG GACTGCTGTC TGCCCTCTCT GGTCACCCTG CCTAGCTAGAGGATCTGTAA GTACTACAAA ACTTAAACTT TACACTGAGT TTTCATCATT GAAGCTATGC CTCCAATCTG ACCTCTGACTGTGGGGCCGC CCCAGAGGGA CCCAGCGGGT GAATCCCTGC TAGGAACGTC TGTCCGGACC TCTGGTGACTGCTGGGGACG ATGGCTTCCA GCTAACTTAA TAGAGAAACT CAAGCAGTTT CCTTCTAAAT ACACATGTCACATGTCCTGG TTGACATGTC CAGTAAGAAG ACTATCACAG GTCTTTGGAA CATTCTTTTG AGAGAAACCT ATTTAGGTCCTTGGTCTGTT TTTCAATCAG GTTGTTTGAT TTTTGCTATT GAGTTGTTGG AATTCCTTAT GTATTCAGAT ATTTGCCCCTTCTGCCATGT AGGTTTTGCA AATATTTTCT CTCATTTTCT GGGTTATCTT TTCACTCGGT TGATTGTTTC CTTTGCTGTGCAGATGCTTT AGCGTTAAAT GAAGCCACAC TTGTCTATTT TCCCTTTTAT TGCCTGTGCC TTTGGTGTCA TAGCCAAGAAATCATTACCT ACATCAATGT CAAAAGCTTT ATCCTTCTAT ACACTTCTAG TAGTTTATGG TTTCAGTTGT TACATTTAGGTTTTCAATTC ATTCTGAGTT GATGTTCCTA CATGGTGTGA GATAAAGATT TAAATACATA CATATATAAA ATCATGAGGTAGTGTACACT ATAAATATAC AATTGTTAAT TGTTACTCAA GTCTAAGTAG AGGTGGAAAT AATAAACTTT CTTTTTTTTACTTAAACCAC TCTGTGTCAC TGAGCTGATT TCACCTTTAG CCTGATAAAA TCATTGTCCT CTCCACCCTG ATTCCTACAGGAGACTACTC ACCCCATAAC CTCAAAAACC TCTTCATGAG GATGGTAAGT CACCTGAATC CTGAAGTGAATTACTCGCTA TTCCATTGGA ACTCATATAG GACACCAGAA TCTAGACCTC CAGAGAACAG CAGGACCCATCTTCAGAAAA TAAGAAGCAT TTGTTCCCTG AGCCTGTTGA ATCAAAGTGC AATTTCTATT CTTTTTGGAA TGTTAAAAAGTGAATCATAA TATTTAAGCA GGTGAACCCA CGAGTAACAT AGCAGGGTCT TTCTTGTCAT TATTAGCTCC AACCTAGCACAGACATTAAA GGTACAGATG TATACTAGCA TGAAACTGGG AGAACAGGAG CATTCGAGCA ACCTTGAGACCAATGGGCCT CTCTTATAAA ATGCACACCT CCTCTCACTG AGATTGAGGA AGGTTTCTTG TCTCCGAGCC TTCTCCCAGTAGAGCTATAA ATCCAGGCTG GCTCCTCCCT CCCCACACAG CTGCTCCTGC TCTCCCTCCT CCAGGTGACC CCAGCCATGAGGACCCTCGC CATCCTTGCT GCCATTCTCC TGGTGGCCCT GCAGGCCCAG GCTGAGCCAC TCCAGGCAAGAGCTGATGAG GTTGCTGCAG CCCCGGAGCA GATTGCAGCG GACATCCCAG AAGTGGTTGT TTCCCTTGCATGGGACGAAA GCTTGGCTCC AAAGCATCCA GGTGAGAGAG GCAGGCATGC AGAGCTGCTA AGTCTAGAGGGAAGGACGGG AGAGAGGTTC CAGAGTTGGG TCTCAGCAGT CTATGTCACT GAGGTGGCTT CACTTAGAATCTCTGGGCAT TGATTTTCTC ATCTAGAAAT TGAACAGAGA GCCAAATAAA CCTGAGAAAC TTTATTTCTC CAAAGACTTGATTCCAAGAA ACATCTGTGA AATTCACTAA GTTTAAGATA TGAAGAGACA GACTAGTTAT TTCTGGATCTAAACAAGTAG ACTTAGTTGT AAAGAGAACA TTTTACTCTA TCTACAGAAG AGCTTTTAAA AACTGCAGCCAAGCCTGAGG GTAAGTTCAG GTGTGTGTGT GATGGGGCAG GAATGCAAAA ATGAGAGCAA AGGAGAATGAGTCTCAAATT CTGTGTGACA AGCACTGCTC TGCGTGTTTA TTCCTATCGA CTGAGGTTGT TCGTGCTACC GGCTGCAATGCAGCCAGCAT CACCTGTCAG CTAGCATGTG ACTTCCCCGA GATTCTTTTT CTTACCCACT GCTAACTCCA TACTCAATTTCTCATGCTCT CCCTGTCCCA GGCTCAAGGA AAAACATGGA CTGCTATTGC AGAATACCAG CGTGCATTGCAGGAGAACGT CGCTATGGAA CCTGCATCTA CCAGGGAAGA CTCTGGGCAT TCTGCTGCTG AGCTTGCAGAAAAAGAAAAA TGAGCTCAAA ATTTGCTTTG AGAGCTACAG GGAATTGCTA TTACTCCTGT ACCTTCTGCT CAATTTCCTTTCCTCATCTC AAATAAATGC CTTGTTACAA GATTTCTGTG TTTCCACCTC TTTAATGTGT GATATGTGTC TGTGTCAAGACACTTGGGAT ACACGTACCA AAACGCAAAA TCAAATTTTT GAACAATATA CCTACCTTGC TATAGAAGACCTGGGACAGA GGACTGCTGT CTGCCCTCTC TGGTCACCCT GCCTAGCTAG AGGATCTGTG ACCCCAGCCATGAGGACCCT CGCCATCCTT GCTGCCATTC TCCTGGTGGC CCTGCAGGCC CAGGCTGAGC CACTCCAGGCAAGAGCTGAT GAGGTTGCTG CAGCCCCGGA GCAGATTGCA GCGGACATCC CAGAAGTGGT TGTTTCCCTTGCATGGGACG AAAGCTTGGC TCCAAAGCAT CCAGGCTCAA GGAAAAACAT GGACTGCTAT TGCAGAATACCAGCGTGCAT TGCAGGAGAA CGTCGCTATG GAACCTGCAT CTACCAGGGA AGACTCTGGG CATTCTGCTGCTGAGCTTGC AGAAAAAGAA AAATGAGCTC AAAATTTGCT TTGAGAGCTA CAGGGAATTG CTATTACTCCTGTACCTTCT GCTCAATTTC CTTT GATCAAAATT TTTACCTATT ATGCATTTGA TATATAAATA AGTATATAAATGCACACACA GACACAGCAA TGATGGTGAA CAGTCTTCAT ACAATTATAT GGATGAATCT CATAAAATGCTGAGTTAAAG AAATCAGACC AAAGAACATA TACTGAAAGA TTCTCTCTAT ATACAAAGTT CAAAAATAGGTGGACCAATT CATGGTGGTG TTAGAAATCA GAAGAGAGGC TACCTTTGTG GGGAGGGGAC AGTTTAATGCCCAGAAGCGG TAAATAAGGA ATCCTCTGGG GAGTGGTAAT GATCTGGATG CTGGCTACAG GATGTGTTGGTTGTAAAAAT GCATTTTTTT ATATCTAGCT TTTTCCATGT GTATATTATA CTTCAAAGAA GTTCAGTTAA TAATTTCTCATGTCACTGTA GAGTAGCTCA GTTAGCCCCA GCAAGCCTCT GGCTTAATCT TGTTTTACCT TAAGCCATCA GTCATTTACAAGTAGGAAAA TTCACAGGGA AAGTTAGAGT ATAAAATCCA GAATGAAGGT TTACTGGGTA AGAGTCTCTCCATTTTCCAA AGCCCGTTTA TTTCTTGATT CCAGTTCTTA AGAAGTCTCA GCATTGTGTCTTTTTCATGT ATCTTACAAGAAGACAGCAT GTGCTTCTAA CACCTGATAC ATTGTATCTA CCAGCACTTG GTAAACAGAA AAGAACCACA TTTTTCTTGTAGGAGAAATT TGGTGCCTAT TTCCTACCAG GCACCAATAA GTGGGACCAA TAGGTGGGAT TAAAGATACAGTAGAAAGTA TTTAAAACTT GCCAGGGGGC AATAGTCTGA AAATAAGTAA ATTGGTGCTA TAGAATGGAAGTTACAGGCT TCTTTCTTTT TTCCCACAAG ATCTGCTCCT TGAGCCCCTA GAGACTTTTC TGTCTGTTAC TGTTTCTTCATTCCTCATCT GCAGAGCCAG CCCTGAGAAG TGCAGACCAA AGCCAGGGAA GGCTCTGCAA AGATGTACAAATGGAAGTCA CCTTAATAAC CTCTGACTGC TGCGCATAAT ACATTTCACT CAAAAGAGGG GTTAAACAATGGAACAGAAT ACAGAGGCCA GAAATAATGC TGAACACTGA CAACCATCTG ATCTTTGACA AAATCCACAAAAACAAGCAA TGGAGAAAGG ACTCCCTATT CCATAATGGT GCTGGGATAA CTGTCTAGCT ATATACAGAAGATTGAACCT GGGCCCCTTC CTTACATCAT ATACAAAAAA TAACTCAAGA TGGAGTAAAG ACTTAAATCTAAAACCAAAC ACTATAAAAA CCCTGGAAGA TAGCCTGGGA AATACCATTC TGGACATAGG ACCTGGCAAAGACTTCATGA CAAGACACCA AAAGCAATAG CAACAAAAAC CAAATTGACT AATGAAACTA ATGAAACTCTTTAGTTGTAC AACAGATAGT TTATCTGTAC AACAAAATAA ACTATCAACA GAGTAAACAA CCTACAGAATGGAAAAATTT TTTGCAAACT ATGCATCTGA CAAAGGTCTA ATATCCAGAA TCTATAAGGA ATTTAAACAAATTTACAAGC AAAAAAATGA CCTCATTAAA AAGTGGGCAA AGGACATGAA CAGATGCTTT TCAAAATAAGACATTCACAC ATCCAACAAC CATATGAAAA GATGTTTAAC ATCACTAATC ATTAGAGGAA TACAAATCAAAAGCATAATA AGATACCATC TAATACCAGT AGGAATGACT ACTATTAAAA AGTCAGACAA TAACAGATGCTGGTGAAGGT TGTGGAGAAA AGGGAATGTT TATGCACTGC TAGTGGGAAT GTAAACTAGT TCAGCCATTGTGGAAGAGAG TGTGGTGATT CCTCAAAGAA TGTAAAACCG AACTGCCTTT CAATCCAGCA ATCCCATTATTGGATATACA CCAAAAGGAA TAGAAATTGT TTTACCGTAA AGGCGCATGC ATGCATATGT TCATTACAGCACTATTTACG ATAGCAAAGA CATGGAATCG TCTAAATGCC CATCAGTGGT AGACTAGCTA AAAAAAAAAAAATGTGGTAC ATATACATCA CAGAATAGTA TGCAGCCATA AAAATGAACA AGATCATCAT GTCCTTTGCAGCAACATGGA TGTAGTTGGA GGCCATTATC CTAAGCAAAT TAATGCAGGA ACAGAAAGCC AAATACCACATGTTCTCATT TATAAGTGAC AGCTAAATAT TGAGTACACA TGGACACAAA GAAGGGAACA ATAGACATGGGACCTACTTG AGAATAGAGG GTGGGAGGAG GGTGAGGATC AAAAAGTACC CATAGGACAC TGTGCTTATTACCTGGGTGA TGAAATAATT TGCACACCAA ACCCCTGTGA CACACAATTT ACCTATATAG AAAACCTGTGCATGTACCCC TGAACCTAAA AGTTAATGGT GGGGGGGTGG GGTTAAGCTA CTTTGTGGTA TAAATCTGAG CATTCATATTAAAATAAAAT ATTTACCTCA TTAGAGTAAT TAACATTTAT TAAGCAAAGA GCCAAGTACC TTACACACAT GATGTTTAATCTCACAATGA TCTTTAATCT CATAACAACC GTCCATTGTA TGTACATATG TGGAAATTGA GCCTTGGAGA GATTAAATGCATGGGGCATG CCATTTGACT AGAAACTGGA AGCATCAGGA TTTAAACTCA GTTCTGAATG GTTTTGTAGG CTTTGTTTTTTCCACATTAT AGCATGGCCT GCCATGAAGA ACAGGTCCTT TCTGGTGTTT GTCTTGTTTG GTTTAAGTGA AGCAAATATTTATTTAAATA TTCAAGATAT GCTGTTAAAT TTTTACTCAA AAATTTGAGT ACAGTATGGA TCTTCTGAAG CCAAATAACTCTTATTCAAT GCTTAGTTGA GAAATTTTAT GGAGTAGTTC TCAATTTTTA TGTAGTTCCA CTGCAAAGGT AAGTCTTATGGAAAGATTCA CTGTAATTTT TTTTCCTCAT TTGGACATCA GCTTTTTCTT TTCCTCAGAC CCGCTGAAAG ATAATTTTTAAAATAAAAAC CTTGTTTTTA TATCAAGTGG GGACATTTTT TCCAAATGAA AACCGTGTAT TCATTTTATA TGATAAAATCAATGTTATTA TTTTTAAAAT TTTGATTTAA AAATCATTAA AAATAAATTT TCAGATATTA CCTGAAATTC TACCATCCAGAGATAATAGT GCTTAAAGAT TTGATATATA GACACACACA CATATATACA TATATATCAT CCTAAACTTC TTTGTATAAATGTATATAAA GTTTTTAATA AAAACTAGGA GATTAATGCC CTTTGAATGA AAATAAATAC AATGTGTATG CTTTAACATCTTGCCTTTAC TTTATAACAT TTATCACAGC AGTCATGAGA TAATGATTTA CATGGTCATT GTTAGTAAGC TAATAGCTAAGTGCATGAAC TCTGGAGCTA GCCTCCCTGG ATTTTAATCC CAGATCTGTC ACTGACCAGC TGAGCAATAC TAGGTAAATTGCTCTTGTTC CTTAGTTTCT TCATCTGTAA AATAGAGATA AAAATAATAT CCACCTCATA GGATTGGTGT GAGCATTAAATGAGCATACG TATGTAGGCC ACTTAACAAC AATGCCTTCA CATACTGAAC ACAAATATAC GAGCTGTTGTCTTATTGGGC TCATGTTTTT CCTACCACTA AGCCGCATGC ATGCAAGGAC CATGTTGGTT TTGTTCCACA TTGCATCCCCAACCTGGTAT ACAGTGTGCA TTCAATAGTT GTTGACTATT ATTACTAGTG GCATTTAACA AATATCTGTT AAATGAGTGAAGAAATACCC ATTTACTGCA AGTGTGTCTA ATATTGATGG CATAATGGGG GAAACTCAAA CTCTGGAGTCAAACAGGTTT TAAAACCTTA TTCCCTCATC CTCAGTTATT GACGTTTTTT TTTTGGCAGG TGTGTGTGTG GGACAACTTATTGAACTTTT CTGAATTTCC AGCTTCGCAT ATATAAAATA GAGATAGTGA TTCATTCTTG CAATGTATGG ATTTGAGACAATTGTGTAAG TTTATCAATA AATAGTAGCT ATTTTTGTAT AAGTATTACA TATAATATCC AGGCCACTGC TTTGCATAACCCAAAAGGGG CACCATTCAT GCAGAATACA ACATAAATGG TGTCCCTGGA GCAGTGCAGT ATAGGAACCCTGAGGGGACC TACAGTATAC TTTATAGTTC ATAGATTACA AATTATCCCT TTATCAGAGT CTCTCAAGGT TGGATGTATTTGAGGTCCAT AAGAGCAATT TAGGATTAAC AGTAGCTGCA GAAACCATCT GCAGTGATAT TCTCATTTTAAATCCGCGGG AAAGAAGACA GCTATAAACT TGGGACCTGG GTTTAAGCAT TTTAAATGCC AAGTTCACCATTTTCTAAAA CACAACAAAT ACCCAGTGAG AGAGGGAGAA GGGAAGTAAA TGCCTCTGAA TAAGCAAGTTAATGTCAGTA GTTGTACTGT ATGCATATTG ATGAACAATA GAGGAACCAA TGTCCAATCA GATGAGCAGGATATTTGGCA ATAACAAGTT GCCTTTGAGG AAAAATGATT TTCTTGGCAA GTTCTTTATC AGCATTACAA AGCTAAAAGCTACGCTTATC ATCACTTATA CTAGCATACC CTGTTGTGCA AATGCTGTCT GTGTTTGCAT CTGCTATTGT TGATGCCTGGTGCATGAATC AGGACTCCAG CCCACAAGTT TTCCCAGAAC TTTCTTATGG CCATCATCTT TAAGTGTCTG GTGAACAGTCATAGTTTGGT ACACAAAAGG GTCAACCTGG GGGATGGCTA GGGTTTGACT CAGTCGTTAC ATTTCAATAGAGCAGGAAGG GGAAATGGTG GCCTGTAACC TCAGGGAATT TTGCCAGTTG GTCCACCCCA CTCTCTCTCTCCTGCTCTGA GGAAGTGGCA CAGCCTAGAA CAGCACCACA GGTGAGAGAA ATGCAAACCC TAACCAGAGAAGCAGACTCT TTGCCAGTAG TAATAGTTCA GGACCACCAC CAGCTTTTAT TAAAATTTTT AATAACACTC AAGTATTGGCAGAAAGAAAT AATCTTGGGT TAACTATAAC TAGAATATTG ACTCTTCCTC TGTGGAAGAA TCAGCCAATC ACATTTGTTTACATCAGTTC CCCTGAAGAA GAAAAATACA CTGATGTTGC AGCAAGACAA ATTTAAGCTA GATGTAAATAACTTCCTTTA GCCTGTAATG CTAGGCTAAT TACATATTGG AACTATTTTT TCAGGGAAGA ATTGTGTAGG GTTTCAGGGAAGAATTCTGA AGAAAATATA GAGCTGAAAT GATCTTGCAG CTCACTGAAA CTGCAGGGTT TAGATCCACACTGATACTCG TTCTATTATC ACTGTAATGA AGGCTGATGG AATAAGTAAA AATGTTTTGT ATTAGTATGT TTTTACACTTATTTGCAAGG CATAAATAGG TTAGGTTTTG ATCTTAATTT AATTCTAACA TGTATTGTGC ACAAGCTGTG AGCAGTTTTCAGGAGTTAGG TATCTGGCCA TGACTGATTT TTCAGGAGTT AATCATCTGG TAGAAGGGTC ATACACAATAGGAAGATGTG TGTGACAGGT TGTGATCATT ACTATAATCA CACAGAGAGC TGTAGAATTT TAGGCTGGCAGGGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCCA AGGCAGGCGG ATCAAGAGGT CAGGAGATGGAGACCATCCT GGCTAACACG GTGAAACCCC GTCTGTACTA AAAATACAAA AAAAAAAAAA AGCCAGGCGTGGTGGTGGGC GCCTGTAGTC CCAGCTACTT GGGAGGCTGA GGCAGGAGAA TGGCGTGAAC CCGGGAGGTGGAGCTTGCAG TGAGCCGAGA TCGCATCACT GCAATCCAAC CTGGGCGACA GAGGGAGACT CAGTCTCAAAAAAAAAAAAA AAAAAAAGTC ATGTTAGATC CAGAGGGGTA GCAACTGGGG CTGGGCTGTC AGTCAACTCAGTCAACTCAG TCAACTCTGC TCCCCCACAG GAGATGCCAG TGATGCATTT TCATGGCCAA CATTGTCAGT CAGCATCATTGAATTACTCC TGATTATAGA GACACAGCTG CAAACGATTC CCCATTAAAT ATGATGTTTC TTGCAATGTT TGGAAGGTACTCCTTTTTAG TAAGGGAAAT CCCCTCTTCT GGCTTGCTGA AAGTTTTTTC TTTCCATTTT AAAAATCGTG AATTCCTTTTTGCAATATTG AGGTGGTTAT ATGGTTTCTC TTCTCTAATC TGTTAATATG GTGATTTAAT GGTTAGAAAT TTTCTAATGTAAATTCCACT CATATTGCAG AAATAAACCT AAACTGAGCA TGAGGCTATA TTTTTTATTT GCTTCTATAT TTGGTTGCTATACAGTATTA TGTTTAAGAT TTGTTCACAT ATATTTGTGA ATGGGATTGG ACTATTTTTC CTTCTTGCCG ATTTTTATCTGGTTTTTAAA TTAAGGATAT TTTAGACTTA TGAAATATTT GGCAAACAAT CCTTGGCAAG TAATTTTTTG GGGAATTTGTTTTGGCTATT TTGAGTATTA CCCAATATAT TTTAATTAAG TTATTCTTAA TGTTTTCTTA ATTAAAAAAA TTACCTACTCTAGAGATATT CTTTATGTAC TCCAGATTTT GTCTATTTAT ACCACTTTTC TTTTTTCCTC GATGAGTGTC ATAGATGTTCATCTATTTTT TTATCTTCTT TGATCTTCTC TTATTCCTTG TTTCTATTAA CTTCTGAAGT TTATTATTTT CTTTTTTCCACTTCCTTATG GTTTATTCTT TCAATTTTTC TCTAACTTCT TAAGTTGGGT GTTTAATTTT TAGCTTGCTT TGCTTTTTTAGGATAAGCAT TAAAACTACA AATTTTCCTT GTTATTCTTT TGCTGCACCC CAAATTGTTG ATATTTCTAT TGTCTAATTTCTATTCAATT AGAATACTTT AAAGTTTCTT TTTGGTTTTT AAAAACTAAC TTTTTAAATT GACAAATAAA AATTGTGTATATTTATTGTG CACAGCATAT GGCTTTGAAA TATATGTACA TTGTGGAATG GCTAAATTTA GCTTATTAAT GTATGCATTATCTCACATAC TTATCATTTT TTGTGGTGAG AGCTATGTGA CTTTTGAACT TATGAGTTAT TTAAATATTT TTAAATTATTAAGCATATTG GGATTTTAAG TAATTTACCT TTTTATTATT AACTTATAAC AAGTAGAACA GTTAACCTGT ATGATTCTACATCATTGAAA TTTATTGACA TTTGCTTCAT AGTCTATTAT ATGGTCTACT TTTGTTCATG TTACATCTGT AGTAGAATTGGCTAATAGTT GAGTAAAGTA CACATATGTC TATGAAATCA AGTGTAATCC AGAGAAAAAG AGAAATTTACTGAATATATT GTTCTAGGTG CTATTATATG TTGTCATGTT TAATCCTCAC CACAATTGTA TGAGGCAGCC ATAATTAATTCCACTTTACA CATGAGGAGC CTGAGGGTTA AAAAAAAAGC TAGCTCTACT ATTTGTAAAG AATGAAGCAAAGATACAAAT GAAGGCCCAC ATATCCTATA ACTAGATATT TAAGCATTTT AATTCAAGCT TTAAAACTGCTAAATAAAAT GTGCTCCAAT TTCTATATTG ACAGACATAC CTTCCTAATG AGCTGGGGTT CGAATTTAGA AATCTTTGATGCTTCAGAGT CCACACTGAA ATGTGGAGGC ACATAGTGAG TTGGTCCCCA GCCTTCAGTC CACCCACCTT CTCTTTACTAAATCACCTTT CACATACATG TATGAACACCCCAGCCTCCA AGTCCAAACC CTAAACAAAA TGGGACACCCTTGTGCATAC ACAGAGACAC AGCCCATCCT CAGGAAAACC TGGAAAAGTC CATACAAGTT CTGGAAGCAAGCTTGGGACG GTTTCAGTAG TGTGGTCTAT AAGGGAGGCC TCAGAAGACA GGTTTTCTTA ATTCTGTGAA CTTCTCCCACAGTAGAAAGG GTGCTGGAGG AGGGTCAGAG TGAGGACTTC TAAAGCATGG GTCCTGAGTA GGGGCCACTCTTGCCCAAGT CTAAGAAGGG TACTAGAATA GCACACTACT ACTAGATACT AGAACCCAGA TACAAGCACAGGTCTTCTGA AATTAATAAT AATAATAACT ATTACCATTA TTATACCAGT AGCTGTCATT TATTTAGTGC TTATTATTTGCCAGTCACTG TTCTAAATTC TTTACATGTA TTATACAACT GCCATATAAC TGCCATATGA GGGATGTACC CTCATTGTCACCATTTTACC GATGAGAAAA CTGGCATAAA ACGTTTAAGT AACTTGTCCA AGTTACAGAG CTTAGTGAAGCCACAATGTT GCTCAATTTG CTCTCAAACT TCAAAGGGAT GGGAAGGACA CCTAAGTCAT AGAGTCTTTAAGAATCAGAG CTAGAAGGAA TCTTAGATGT TATCTAGTCA GCCTCCTCCC ATTACAGTCC AAGAGAAGATGGCCCTGAGT TACTTGTAGC TATTTTTGCA TGTGAATTGC AAGTGAATAT ACATTCTACT GAAGATAAAA GATATTTAAAGATATCGCTG GATATAGGAA CAGTGGTTTT AAATCTCTAG GCTTTAACTT TTCTCAGAAC AAGAAATCCT TTTTGGTTTTAATCTATATG CACATCTGTA TTTTTCTCAA TTATCGGGTA GTAAAATATA ACTTTTCTTC TGTAATATTT TTTAACTTTAATGAGTGTTC CTCATAATAG AAAAGTTTGG AAACCATTGC TATGGGTATA TACTTTCTAA AGGGATAGTA ATTTCTCTAGAATATTCATT TAATGCTCCA GAAGTAATTA GCACAATTGT GCAAGTCTGT GCATCATCAA CTATACATTC TGCCTGTTTACTCCAAATCC ACATGAAACT GATTATACAG TCAAAGGCGA GCCCAGTGGA GAGGCATTTT TGGAGACTTCCTGGTACATT GAGACAGGGT CGGCCAGTCT GCGTTAGGGT CTTGGTCAAA ACTGCATTTC TGAAACTAAACTCAGATTGC TTTCTTTTAA GGGGTCAGAA CTGATTCAAA TCTACATTTT TAAAAGCCTT AGATGTGGGG CTTTTCCTATTCCCAGTCTC CGCTATTGGT CTTTGTGAAT CCACAGGCAA TTTGGCCACA TCCTTGACTC TCTCTTATAT TAAGAATTAAACAGCTAAGT TCATGCAGAG GAAATATAAC AAAGGAGGGA CTTTCCTACA AGATCTTTGA AAAATGGAACATTTGCATAA GTCATATTTA GCCAGAACTG TTGTTTTATA TTTTCCTTTC TGAATACTTT GTTACACCTC CTCCCAGCCAACCCCCCCCC TCCCTGACCC CAACTAGTCA GAGACCAAAG CCTTCACAAT GGTTTACACT TGAACCTTCCTGGCCCCACC CTCATCATCA CGCCTGAATA ATTACATTCA CTGACTGGTC TCCCCTGCTT CCGTTTATCT CCACTCCTAAACCCTCTGAC ACCTTAATCT TCCCAGAATA CCATTGTGAT CCTGTTCCAC TCTTGCTCAA GTTTTCCCAG AAACTAGAGTACAAACTTTA TAAGCTTTAG AGTTGAAAGC CACTCTATCT CTTTTTCATC CCCAGGTCTC TGCCAAGGCA GTATAACCTGTCCAACATCT CTAACTTCAA TACCTTTGTC TTAGATACTA GACTCTCCTC CTGGTTTCTA ATTAAACCTG ATCTAGGATCTAATTTTGCC TCTGAATTCT GTTGCCCTTT GCCAAGTGAT CTCTTCCTCC TCTGAGCCGC AGCATCTCTG AGCTTGCACACTTAGCATAG CCATAGCACA CACAGCCTTA GCTTGCAGTT CAGGGTGTTT ACCTTCCCTC CCCTTCCAGA TGCTGGATCCCCAGGGATAG GAACTCTGCC CTTATGTGTC CATAGCCCCT GGTAGTATGT CTTGCAGTCG TACATTTTCA GCAAATGTTTAATTGGTTAA TTGAAGACAA CTGTCCCATG CCTTAAGCCT CTCTTTTTGC TAAACATGCC TGTGTCCTTT GTCATTGAACAACTATTTTG ATCTATTTTC TTCCTGACAT AGGGGTCAGT TCCGAGGATG CTGAAATCAA GAGACATAGC TTATTCTCTCAAAATTGCTT TCAAGAGTGA TTTTGTTGTG AATTGAGAAC TGGCTGCCTA CTTTTGGACT ACCCACTTCA GCAAGAGTGTTTGAAACCAA ATCTATTCTA AGTAATTTTT TATTCCCTTT TCTCTATGGC ATTAGACACA CAGCTCTTTT AAACTACCTTTCGTTATCTA TTAAACAGAC ATTCAGTAAC TCTATAGACA CTGTCTAGCT ATATGAACTT AGACAAACTA ATATCTCTGAGCTTCAGTTT CTTAAAATTT AAAATGAGGA CAATACCATC TATGGCCGGG GATTAAATGC TATGAGGAATGTAAACCAGA TGTCAGGTAC CATCTCTCTA AAATCCAGAT AAAATGAATT AAAAATACTG GCCGCAAACCCTCTCTAAGA GTTCTCAAAA TTCTCAGAGA GCTTAATTTT CATGCTCACC ATAGCACCGA TTTTCTTCTA AATATTTTGTTTCTACCAAA ATATTTTGTC CCAATTTTGC CTTTTATGGC TATTTCTTCA TATCCACTTT CCCAAACTAA AGAAGCAGCCCCTTCACCTT AAACTCCTCC TTCAAAGCAA CCTAAATACA GGTCTGGGTT TGTATTCCTA GTGGGATGTT ACAGAGGTTAGTGTGATGCA GAGGAGGAGT CATGCTGTTT AAATCCATAC TAGTCCCCAG AGGCCAGGCT GCTTCTGCCACCCCTACCCC TCCCGCCACA GAGCTCTTCA GCTTCTCACA TTTCTAGTTC TTCTCTCTCT ACTTTCATTA CCTTCTCTCTTTTTTTTTTT CTTCTCATGT GCTCACGGGA GCAGAGAAAA TTAACTCCTC TAAGTTTTCT TAACACAGAG TGCCTTAATTACATATTACT ATTGTTTGAG TTCCTGCCAA CACTACGTCT GTAGGGTCAC ACCTGCTATA TTAGAGGCTT ATCAAAAAAAGATAGCTTTC TCCTAAAAAG GGATTTGGAT GCCTACTAAG ATAACTGGAT GCCAAGATAA GTTTAACCTAACAAACTTTA TTATTATTAT TATTATTATT ATTAGAGATA GGTACTTATT CTGTCACCCA GACTGCAGTG CAGGGATGCAATAATAGCTC ACTGCAGCCT CAAAGTCCTG AGTTCATGCA ATCCTTCTGC TTCAGCTCCC TGAGTAGCTA GGACTACAGGCATATGCTAC TCTGCCCAGC TACTTTTAAA AAAATAATTA GGGATGGGGT CTTGTTGTAT TGCCCAGGCT CGTCTCAAACTTCTGGTTTC AAGCAATCCT CCTGCCTTTT ACCTCCCTAATTGTTGGAGT TACAGGCATG AGCCACAGCA CTCAACCAAGATTTAAAAAC TTTTAAAAGA AATCACATTA CTTACTGTTA TCATCATTAT GGTTACTACC AGTGTTAAAA CAATTGGTATTGAAAACACC ACTACCAGAT CAAGCTTCAA ACCAAGATGT CAAGTAAATA TTATTGTCAG ACCTCTGAGCCCAAGCCTGC AGGTATACAC CCAGATGGCC TGAAGCAAGT GAAGAATCAC AAAAGAACTG AAAATGGCCGGTTCCTGCCT TAACTGATGA CATTCCACCA TTGTGATTTG TTCCTGCCCC ACCTTGACTG AGGGATTAAC CTTGTGAAATTCCTTCCCCT GGCTCAGAAG CTCCCCGACT GAGTACCTTG TGACCCCCAC CCCTGCCCAC AAGTGAAAAA CCCCCTTTGACTGTAATTTT CCACTACCCA CCCAAATCCT ATAAAACAGC CTCACCCCTA TCTCCCTTCG CTGACTCTCT TTTCAGACTCAACCTGCCTG CACCTAGGTG ATTCAAAAGC TTTATTGCTC ACACAAAGCC TGTTTGGTGG TCTCTTCACA CAGACCATGTGACATTTGGT GCCGTAACTC AGATCGGGGA ACCTCCCTTG GGAGATCAGT CCCCTGTCAT CCTGCTCTTT GCTCCATGAGAAAGATCCAC CTATGACCTC TGGTCCTCAG ACCAACCAGC CCAAGGAACA TCTCACCAAT TTTAAATTGGGTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCA CTATCCCTCA ACATCTTTCT CCTTTCAATC TTGGCACCACGCTTCAATCT CTCCCTTCCC TTAATTTCAG TTCCTTTCTT TTTCTGGTAG AGACAGAGGA AACGTGTTCT ATCTGTGAACCCAAAACTCC AGCACTGGTC ATGGACTTGG AAAGACAGTC TTCCCTTGAT GTTTAATCAC TGCAGGGATGCCTGCCTGAT TATTCACCCA CATTTCAGAG CTGTCTGATC ACTGCAGGGA CGCCTGCCTG GATCCTTCAC CTTAGTGGCAAGTACCACTT TGCCTGGGTG GCAAGCACCA CCTCTCCTGG GGGGCAAGCA CCACCTCTCC TGGGGGGCAAGTACCCCCCA ACCCCTTCTC TCCATGTCTC CACCCTCTCT TCTCTGGGCT TGCCTCCTTC ACTATGGGCC ACCTTCCACCCTCCATTCCT CCCTTTTCTC CCTTAGCCTG TGTTCTCAAG AACTTAAAAC CTCTTCAACT CACGTCTGAC CTAAAACCTAAATGCCTTAC TTTCTTCTGC AATACCGCTT GACCCCAATA CAAACTCAAC AATGGTTCCA AATAGCCTGA AAACGGCACTTTCAATTTCT CCATCCCACA AGATCTAAAT AATTCTTGTC GTAAAATGGA CAAATGGTCT GAGGTGCCTG ACATCTGGGCATTCTTTTAC ACGTCGGTCC CTCCCTAGTC TCTGTTCCCA ATGCAACTCA TCCCAAATCC TCCTTCTTTC CCTCCTGCCTGTCCCCTCAG TCCCAACCCC AAGTGTCGCT GAGTCTTTCC AATCTTCCTT TTCTACTGAC CCATCTGACC TCTCCCCTCTTCCCCAGACT GCTCCTCCTC AGGTCGCTCC CCGCCAGGCT GAATCAGGCT CCAATTCTTC CTCAGCGTCC GCTCCTCCACCCTATAATCC TTCTATCACC TCCCCTCCTC ACACCTGGTC CAGCTTACAG TTTCATTCTG TGACTAGCCC TCCCCCACCTGCCCAACAAT TTCCTCTTAA AGAGGTGGCT GGAGCTAAAG GCATAGTCAA GGTTAATGCT CCTTTTTCTT TATCCAACCTCTCCCATCTC AGTTAGTATT TAGGCTTTTT TTCATCAAAT ATGAATACCT AGCCCACTCC ATGGCTCATT TGGCAGCAACTCCTAGACAT TTTACAGCCT TGGACCCAGA GGGGCCAGAA GGTCATCTTA TTCTCAATAT GCATTTTATT ACCCAATCCACTCCCAACAT TAGAAAAAGC TCCAAAAGTT AGACTCCGGC CCTCAAACCC CACAACAGGA CTTAATTAACCTTGCCTTCA AAGCGTACAA TAATAGAGTA GAGGCAGCCA AGTAGCAACA TATTTCTGAG TTGCAATTCCTTGCCTCCAC TGTGAGAGAA ACCCCAGCCA CATCTCCAGT ACACAAGAAC TTCAAAATGC CTAAGCCACAGTGGTCAAGC ATTCCTACAG GACCTCCTCC ATCAGGATCT TGCTTCAAGT GCCAGAAATC TGGCCACTGGGCCAAGGAAT GCCCTCAGCC TGGGATTCCT CCTAAGCCAT GTTCCATCTG TGTGGGACCC CACTGGAAATCGGACTGTCC AACTTGCCCA GCACCCACTC CCAGAGCCCC TGGAACTCTG GCCCAAGGCT CTCTGACTGACTCCTTCCCA GATCTTCTTG GCTTAGTGGC TGAAGACTGA TGCTGCCTGA TCGCCTCAGA AGCCTCCTGG ACCATCACAGATGCTTTTGG TAACTCTTAC AGTGGAGGGT AAGTCCGTCC CCTTCTTAAT CAATGCAGAG GCTACCCACT CCACATTACCTTCTCTTCAA GGTCCTGTTT CCCTTGTCTT CATAAATGTT GTGGGTATTG ATGGCCAGGC TTCTAAACCC CTTAAAACTCCCCAACTCTG GTGCCGATTT AAACAACATT CTTTTATACA CTTCTTTTTA GTTATCCCCA CCTGCCCAGT TCCCTTATTAGGCTGAGACA TTTTAACCAA ATTATTTGCT TCCCTGACTA TTCCTGGACT ACAGCCACAT CTCATTGCTG CCCTTCTTCCCAACCCAAAA GTGGCAACTC CTTTGCCACT TCCTCTCATA TCCCCCTACC TTAACCCACA GGTATGGGAC ACCTCTACTCCCTCCCTGGC AACAAATCAC ACCCTCATTA CTATCCCATT AAAACCTAAT CACCCTTACC TGGGTCAACG CCAGTATCCCATCCCACAAC AGGCTTTAAA GGGATTAAAG CCTGTTATCA CTTGCCTGTT ACAACATGTC CTTTTAAAGC CTGTAAACTCTCCTTACAAT TCCCCCATTT TACCTGTCCA AAAACTGGAC ATGCCTTACA GGTTAGTTCA GGATCTGTGC CTTATCAACCAAATTGTCTT GCCTATCCAC GCCATGGTGC CAAACCCATA TACTCTCCTA TCCTCAATAC CTCCCTCCAA AACCCCTCCATAACCCTTAT TCTGTTCTGG ATCTCAAAAC ATGCTTTCTT TACTATTCAT TTGCACCCTT CATCCCAGCC TCTCTTCACTTTCACTTGGA CTGACCCTGA CACCCATCAG CCTCAGCAAC TTACCTGGGC TGTACTGCCG CAAGGCTTCATGGACAGCCC CCATTACCTC AGTCAACCCA AATTTCTTCT TCATCCATTA CCTATCCAGG CATAGTTCTT CATGAAAACACACGTGCTCT CCCTGCTGAT CATGTCCAGC TAATCTCCCC AACCCCAGGA CTGGCAAATT GACTTTACTC ACATGCCCCAAATCAGGACA CTAAAGTACC TCTTGGTCTG GGTAGACACT TTCACTGGAT AGGTAGATGC CTTTCCCACAGGGCCTAAGA AGGCCACCGT GGTCATTTCT TCCCTTCTGT CAGACATAAT TCCTTGGTTT GGCCTTCCCA CCTCTATACAGTCTGATAAT GGACAAGCCT TTACTAGTCA AAGCACGCAA GCAGTTTCTC AGGCTCTTGG TATTCAGTGA AACCTTCATACCCCTTACCG TCCTCAATCC TTAGGAAAGG TAGAACTGAT TAATGGTCTT TTAAAAACAC ACCTCACCAA GCTCAGCCTCCAACTTAAAA AGGACTGGAC AGTACTTTTA CCACTTGCCA TTCTCAGAAT TCGGGCCTGT CCTCGAAATGCTACAAGGTA CAGCCCATTT AAGATTCTGT ATGGACGCTC CTTTTTATTA GGCCCCAGTC TCATTCCAGA CACCAGCCCAACTTGAACTG TGCCCCAAAA ACTTGTCATC CCTACAATCT TCTGTCTAGT CATACTCCTA TTCACCATTC TCAACTACTTGTAAATGCCC TGCCCTTTTT TACAGTGCTG ATTTATACTT TTCCTCCAAA CCATCATAAC TGATATCTCC TGGTTTTACCTCAAACCGCC ACCCTTAAGT CTCTCTTAAA GTGGATAGAA GATCTTCAGT GACAAGGTAC ACTCCAATAC TTTCACCCTAATAAAGCCCT ATTCTTTACT TTTATATTCA CTCTTATTCT TGTTCCCATT CTTATGCCAC TCTCTACCTC TCCCCAGCTATCTCCACCAC ACTATCAATC TCACTCACTC TCTCCTAGCC ATTTCTAATC CTTCTTTAAC AAACAATTGC TGGCTTTACAATTTCTCTTT CCTCCAAAAT CACCGAGTCC TCAATTTACT CACTGCTAAA AAAGGGGACT CTGCATATTT TTAAATGAAGAGTGTTGTTT TTACCTAAAT CAATCTGGCC TGGTATATGA CAACATAAAA AAAACTCAAG GATAGAGCCAAAAACCTTGC CAACCAAGCA AGTAATTATG CTGAACCCCC TTGGGCACTC TAATTAGATG TCCTGGGTTC TCCCGATTCTTAATCCTTTA ATACCTGTTT TTCTCCTTCT CTTATGCAGA CCTTGTGTCT TCCATTTAGT TTCTCAATTC ATACAAAACCGTATCCAGGC CATCACCAAT CATTCTATAC GACAAATGTT TTAAGGGAGG AGACCACCCC TCATATTGTC TTATGCCCAATTTCTGCCTC CAAAGAAAGA AGTAAAAATG AAAAGGCAGA AATGAAATCC ACAGGCAGAC AGCCTGATGCCACACCCTGG GCCTGGTGGT TAAGATCAAC CCCTGACCTA ATCAGTTATG TTATCTATAG ATTACAGACA TTGTATGGAAAAGCACTGTG AAAATCCCTG TCTTGTTCTG TTCCTCTAAT TACCAGTACA CGCAGCCCCT AGTCATGTAC CCCCTGCTTGCTCCCCCTGC TTGCTCAATC AGTCATGACC CTCTCACGCA GACCCCCTTA GAGTTGTAAG CCCTTAAGAGGAAAAGGAAT TGTTCACTCG GAGAGCTCGG TTTTTGAGAC ATGAGTCTTG CCAATGCTCC CAGCTGAATAAAGCCCTTCC TTCTTTAACT CAGTGTCTGA GGGGTTTTGT CTGTGTCTTG TCCTGCTACA GTTTCATCTA ACAACCCCATAATATCACCC CTTACCACAA AATCTTCCTT CAGCTTAATC TCTCCCACTC TAGGTTCTCA CGCCACCCCT AATCCTGCTCGAAGCAGCCC TGAGAAACAT CGCCCGTTAT CTCTCCACAC CACCCCCAAA AATTTTCACT GCCCCAACACTTTACCACTA TTTCGTTTTA TTTTTCTTAT TAATATAAGA AGATAGAAAT GTCAGGCCTC TGAGCCCAAG CCTGCACGTATACATCCACA TGGCCTGAAG CAAGTGAAGA ATCACAAAAG AAGTGAAAAT GGCTGGTTCC TGCCTTAACTGATGATATTC CACCATTGTG ATTTGTTCCT GCGCCACCTT GACTGAGGGA TTAACCTTGT GAAATTCCTT CCCCTGGCTCAGAAGCTCCC CCACTGAGCA CCTTGTGACC CCCACCCCTA CCCACAAGTG AAAAACCCCC TTTGACTGTA ATTTTCCACTACCCACCCAA ATCCTATAAA ACAGCCCCAC CCCATCTCCC TTTGCTGACT CTATTTTTGG ACTCAGCCCA CCTGCACCCAGGTGATTCAA AAGCTTCATT GCTCACACAA AGCCTGTTTG GTGGTCTCTT CACACCGACA CGCGTGATAA TTATTATATTACTTTTAACT AAAACCCTTT CAGAGTCTCG CAGGGAAGGC TGTATATATC TCATAAAATG TTGGGGCCCACTGGATCAGA CAAGGCCACA AAGGCCAAAG GGAAGTAAAG ATCTCATTAT TTCTCCTAAT AATTTCCCTG TCCTTTGTCATAAATGGTGG GTAGGCTGTT ATGGTGATGG CAGATTTTCT TTCCATAAAA TGTCCATAAT AGGACATTTGAACAGAAGGG AAAAATCAAA TTGCTGAAGT TGAAAGAGGG CAATGCAAAG AACTTTGGAG AAAGAACTGTACAGAGAAGT CAACTGGCAG ATGGGAGGAA GTTTAAGGGG AAAAATATAG ATGTCTAAAG AATACATTTATTCATTTTCC ACAGTGCAAT TTGGACAAGA AGCCTCTTTC TTGCTTCTTT CTATTCTCAT TAAATCATTA GAGCTCAAGCAATCCTTCTG CCTCAGCTTC CCGACTAGCT AGGACTACAG GTATGTGCTA CTATGCCCAG CTAATTTTTT AAAAATTAGATTTTAATTTG GTGAACTATT TCTGTAGGAA ACTACAATAA TACAGCCCAG GCACATTGAT CTTGGGTGAACAAATCAGAA GGAATGAATA ATTCTGTGTT CCTGGGACTC TGACAATTTC ATGAACTTGG TACTCTGAGTAAAGCATAGG AGGAGTTATT TCATAAAATG TGGAGCACAA TCATGTGACA AAGATAATGG GATCCCCATTTCATAAATAA ATCTGAAGTT CAGAGAGAGT AACAACTGGC CAGGGTCACA TCACGGAGAC AGAGGCAGGGTTCCCACTGA TGCCTCTGAC TCCCTGTCCC AGGCCCTTCC TCCTCCCGCA AGCAGAAGTG CAGGGGGCAGAGCTGACCCT GTGCAGTGAA AATCTGAGGG CTGAGTTCCT ATTGGAACAC AAGTGAAAGA CTTCCTGGCTTCTAATCTCA GGATAAGGAC TCAGAGCTCC ATCTGTTCCA GCCTTAGGAT AAGAACCAGA ATCTTACACCATGAAAGCAT GAAAGGTAAG ATTTGAGTGA GGAAAAAAAA AAAAAAAGTC TGTGTTTCAG ATTCAGTTCACAAAGCAGTT TCATACTTAA GGTACCATCA CAATAACCCT GTGGGGTAAG CAAGGCAAAT TTCATTCTTG TTTTATGGGCATAGGAAGTA AGTCTCAGGG AGGTTAAGAC CAAGGTTTCT GGAGAATTTT ATATTATGAA TCTTGATTTA TGGGATTACTATTATGTAAT TCCTAAGATC ATATAGGAAT CCTAGAGCTT GAATATAGAA CTTTATTTTT AAATCTATAT ACATCATAATTACAAGGAGTAGTGTCCATT TGGGTTCCTT GGCCCTGATG TGTTAGTGGA ATAAACATTT TTGTCAGGGT TGCCATGTGTGTCTGTGCAC GTGTGCACTG TACACCTCCA GGGGATGTAC CCTAAACCAC ATGAATGTGA TTTGCACATCCAAGATTTAC AGTGTACTAT AGGGAGAATC TTTTGCAACA GCTTTTGCTA TAATACAGAA TCTGAGATGT CTTTGAGAAAGAAAAGTGTA ATCATTACCA AAAAATTATT CTCATAATGT GTGCAAATTT GTATGAAATC TATATTGGCCATGGGACAAG GAGGTATTTC CAGCTAGCTT CTGAAAGGGC TCTATTCTCT CATAAGAATT CAGCTGTTGA CATTAGGTGATATCTGCCCA GGTCATCAGA TGCCATAGAG AAAGAGGGTT TGCTGAAACT TATATCAGCA GTGCACTGTA TGCTCTTTCTGATTTATTTG AACATTCATT TATTGAGTGT CAAGTAATGC ACTAGATACT CCAGGGATCT GACACAAACT CTGCCCTGAAGGAGCATGTA ATCTCACTGG GGAGAAAACA AAACATATGA TAATTTCAAA ATAACAAACT AGGCAAACTAGTTAACACTT AAAAAGCAGG CTTTATTCAA ATGCAAAATT GCATGTTACA GGGTAACCTT TCAGTAAGAAGCCAGGAAGA GGAGCTCATC ATGGGTTGGA TTAGTAAAGG ACTAGTTATA AAAGAAGTGG TGGGGTTGAGGGAGGCCTGA GATGAAATTT AAAGAATATG TAGAATCTAG GTAAGTGGAT AAAAGGTCTG GGGGCAGGGGAAAGGAGAGC ATTTCATTGT GAATCAAGGA ATTTCTCCAC CTGTTTTAAC TCTTCCATAT GACATCAAAG AGATGTCACTTGCAGCTAGC ATTTCAGTGA TGTTTTCTTA CTAATAATAT CGTGATAAAA GAAACATTGA CTATAAGAAATAGGAATGGG TCTCATAAAA GGAAACAGCA AAACCCCCAA ACTAAAAAAC AGCGCAGGCT ATTTCTCTCTTCTCTCCTTT TGCTTGGCAC TCATGAGATG CTAGGTGTGG AAGTCAGCCA ACTGAAAAAG AGAGGTGGCTGAAGAAGGTG GGGAGGCTGA AGCCAGTTAA ATAGGATGGT CCAATTCACA GACGGCGAGG CTACAGTGCAAATAGGACTC TTTCAACTTG AGCAGGACCC CATTACTTCA CTGGAGTTAG AAAGAAAGGA GAGCGTAGACTTTTTGAACT TTCTATAAGA GTGTACCTCC ACAGTATACA GAAGACGACG TGAAATTTGA TCTGCAAGAAAACTGAGTCC ATATTCACAT ATGTATCAAA TTTGCACTTC ATTTAGAAGT GTCTGTCATC AAGTACAGCA CTGAATTGAAACTGAAAACA AGAGTCAAGA AAGAGCAAAG TCAGCCATCT TTATATTCCA CATGAATCCT TTCCCTTTAT GGTCTTATTTGTTTCTCCTC AGAAAAGACA AAAAGCTGAG CTGTATAAAC ACCTGTGGGC TGGGGGTTGA GGGATAAATGAGGGGCGAAA TGGAAGCTGA AGGAACTGTT GGTCAGGTAG AAATCTTCCC AGATGCACTG AAGGAAACACACTTCATGTT TGACGTAGGA GGTGCCACCA CACAAAACGT TTCATGGAAG GATTTAAAGG ATCTCATGAT TTTTAGTATTCCAAGAATTT TCTTTCACCA AGGGCGATTT AATATGGGTC ATTCATACTG AAAGAAAAAC AAAAGATAATAAGAGTTTAA AAATTGCAAA ACTTGGAGTG TTAGTAGTAA AGGTAAATAT TCATTAGAGA TGAGAAGAGGAGCAAGGAAA TGCTTTCAGC TGGAAATCTC AGACAAGAGG CCAGGCTTTA GGAACCTCTG AAGATGAACAAATGTAAGCA AACCCTAGTA GCAGCACTTC TCAGATTTTC ATGTGCTTAC CACTCAGAGA TGGTGTTAAAATGCAGACTC TGATTCAGTA GGTCTGAGTG GAGCCTGAGA TTCTGCACCC CTAACAAGCT CTTTAGTGAT GCTTATGCCACTGGCGCACA GACCCCACTT GGAGAAATTT TTGTGGTGCA TACGGTCTTT GTCTCCAGAT CTAATGAGTCTGAAGGACAG TGTAGATTGA TTTTTTAAAT TTATGTTTAT TTTAATTTAA TTTAATTTAA TTTATTTATT TATTTATTTTTGAGATGGAG TCTCACTCTG TTGCCCAGTC CGGAGTGCAG TGGCACGGAG GCAGCTCATG CAACCACGGCCTCCTGGGTT CAAGCGATTC TTCCGCCTCA ACTTCCTGAG TAGCTGGGAA TACAGGCACG TGCCAGCACACCCAGCTAAT TTTTGTATTT TTAGTAGAGA TGGGGTTTCA CCACATTGGC CAAGCTAATC TCAAACTCCT GACCTCATGATCCACCTGCC ACGGCCTCCG AAAGTGCTGG GATTACAGGC GTGAGCCACC GAGCCCAGCT GTAGATTGATTTTGAGCAGT GGAAAGTCAA GGAATTAGAA GGCATGCTTA AATGGAAAGT GAAATTGGAG AAAATTTAAACTCATGAAAT AGTGGTGGTT ATAAACTCGT GATAAATTAT ATCCTGGGAT ATAATTTAAT GAGATGGTAA CACATTTAGTTTAAAGAAAT AAGTGACACT TTTTTTGTGT GACACAACTG TCTTATTCTT GGAAAGGACA AGGAGAGAATGAAATATGGT ATGTCTTCAC AGCACCTTTC AAAGGGAGAA CCAGATTCTG AGGAGCTGGT CTCATGATGAACTGTCAGGG TAAACCACAG TTCAGCAGCT GCAAATGTGC TTGCCAAAAT AGAGACAAAA AAATGTTTCTGAAAACAAAA TTTCACATAT GCCCTCCTCT GAGGTTGGCA TCATATCTTC CTGTGTATCT TGGGTGTAGC TTCTATCCTGCCAGAATTTA GACAGTAGAA ACCAAATGAG GTGATAAACA GAGTCATTTT GCAGAAGAGT CAAAATAACCCAGCAAGAAA TGAAACCACA AATGCCCAAG GAGTCATTCA TTCACCATTC AAAAGCTAAT AGAAATGAACACAAACTACT ATGAAAATTC ACCCAAGAAC TTAAAAAAAA AAAAAAAGGC TCATGGTGTT TAGTGTGATAGTATTCATTT TACCTTTGAC TTGTTCTAAA AACACACCAT ACTTCTACCC CACCCTTCCT CAGTGCCGTC ACACAATGGTTTCAGTGTGA AAAAAAAAAC CACGTTACTG GAAAAGGAGG GTGCCTGGGA CTTGCCACTC TAAGCTGGTAGTCAAGGGTC TTGAGTTCTA AAAGCATACG CGTTAAGAGC ATGATTCCTG GATCCAAATG AGTATGGATCTCAGCATTGC CATTTATTGT GACCTCAGGC TATTTTATTT CTCTGTGCCT GTTTCTTTAT CAGTAATGAA GATGTTCATAGACCCTTCTC CCACAGACTT AAAGGCATAT TTCATGATTT AAGACATGTA AACCATTCAT AACAGTATACAACATGGAAT TAATATTTGA TAAAGGTTTA TGATTATTGT AACTAACTCT GTCACTTGCT CAAGGCCTAT AGAAAACTTACTTAATTAGT TCAACTACAA AAAGAGTTTG AATGTGATAT CCACCAAGAT CATATTCAGA CCTAGAATTC TGTGATTCTTATGAATTAAT ACAGCCTTGG TCAATAAATG AGAGCTGGGC AAATAATTCT TCTTTGCTAG GCCTTTCTAG ACCATCTGGTGAAGCATTCA AGACTTATGT TATTGGGGCC AGCCTTCCTT TCCAACTTCA ACTCCACAAC TCCTCAATAA GCCATGGGCTCAAGAAAGTT CTGCTCAGTG GCCCCTGAAA AATGCTTTCA TAGTCTCACT ACCATACCAC TGCTTACACA ATTTCCTTCCTACAGACTGC CTTCCTTTCC TGCTTTTCTC CATATACCTA AATCCTATCT ATTCTTCATA AGCAACCTTC TTTATAACATTTTCTATAAC CACCAAGCCA AATGACCTTT TCCTTCTTAA ATATAGCACC CATTGGCCAT TACCATGCTC TGCCTTGTATTTTTCTGATT TTTTTCTTTC TATATTCCTG TCTTAACTCC CCAGCTAGGT AATAATTTTC CTGAAATCAG GGACCAGGCTGACTCCTCTT GCTGTCTCAA GAAAGCTTAG CAGTTTCCAA CACAAAAATG TTCAATAAAC AACTATTAAT TGACTGATTATAAAAAATCA GTGAACCATT AAACTTAATA TAGCAATTTG CTTAGCATGG TAATTAGCTT TTTGCTAATA TTCTTCCAGCCAGTCTCTCC TCCTGTGCCT CAAGGACATC TTAAAAAAAA AAAATCTAGT TGATCTGCTT CCATCTAGTG GCAATTAAAACAGGTGGTTC CGGTAGCCAG AAAACAGCTC TGGGTAGATT GTGCCAGAAA ATACTTTCAC TCAGTAGGTGCGAGTTTGAA AGAAATCTTC ACATCTGTGG GTTTCCTGCC ACAGACATAG GGAGACCAGC CCAGAGAAAGAAGCCTTTCC TCACTAGACT CCATTTGCAC TAGTAAAGAG AAGACAGAGT AATTAAAAAG AATAAAAAGAACCTCCACTG ATCGTACATC CTCATCCAGT TACCCCTGCC CCACTTCTCC TTCACAGCCA AACATTTTAA AAGAGATGACTGCTTGTTCT GTCTCTACTT TCTCATCCTC AGTAATGCTC AATGCTTGGC CGTCTGACCT CTGTCTTGAT GTCTGCACTGCAAATAGTCT CCCCACTGAC ACCCTTGTTG CATCCAGGGG ATACTTACTG GTTCTCTTGG CAATGTTTGA AACCGTTCCCCTTTCTTTGT TTCCTTGGCA TTCATTACCC CACACTCTTT CTCCTCTTCC TTCTCCCTGC CTGGCAACAT CTTTTCATTTCTCTTTCCCT TAGGTGACTT ATTAGATAAT GATGTTCCTC TGGCTCCCAT ACTCTCTCCC AGGTCCTCTT CCATTCTTAAAGCACTCACA CCCTCCCTGG ATGATAGTAC CCACTCCTGA GATGGCAGTT ACCTCCTGAA ATGTGAGGGACCCAAATCCA CTTCTCCTGC CATAGCCTCT GTGCTTTGGA TAGGTCCAAT GAGCCACAGT GAATGATGTG CATACACCCAAAGCTCAGTA CAAAACTGAA CCCATGATCT TTACCTCCAA AACCTCTCAT TCTTTTATGT TCCCTTCTCA GAAGTAAACAGGACTACCAT CCGCCAGTTT CCAGGTGAGA AAGATGATAA TTTGATTCTT CTCTCTCACT TTTAGCCAAT TAACAGACACATTCAGTTAA TATCACCTCC TCTTATTTCA TGAACCCATT CTTACTACTA GTTCCCTAGA CAGGCGCCAT CGGTTTTAATCTAATAACTG CAAATGCCTC CAAAACAAGT CTCTTTGAAT CCAGGCTCAC CTGTCTCCCA CACTTGCCAT ACTGCTCTGCAGGGTGACCT TATAAGATGC CAGAGGTAAG GCTACTCACT GTTTAAACCC CTTTAGTGAT ATCCCAAAAGACCTCAAGAT AAAGCCCATA TCACATGGCT TATACATTAG TTTATGATCT GGCTTCTGGT GCCTCATTTT TCCCCACTTTTTCCTTTGCA TTCTAAGCAA TGGCCCATAC TAAGTTTGTG ATTGGTAGGA TGGTTGCCCA AACCAGCATC CAATCCCTTCAGAAATCATC TCACTTCATT TCTAGCATTT TAAAGGAAGC TCAGTTGTCC AGCTGGGTAC TGAATATGTC ACCAAAGTCCTCCTTTCATA GTTTATTTTA CTTAAACTCT CCTTCCTAAA ATTCCAGAGC AAGTCACTAA ACCCTAGATA CTGAGAAATATTTTTCCATC TTCATTTCTG CCAGGTGGGC CATCAACTTT CACATGTCTG CATCTCCTCC CACTGTGCTA TTTCTCCAGTAGAAGAAATT TGAGCTTCAA GACCAAACTG AAAAATACTT GCCTCCTTGG GGAAGCTGTA GGTAGAATTCATGCTCCCTA TCTTTCCCAC ATTTCTGAAG GACAATGCCT GTTAGAGCAA TTGAATGCAA ATAGTCAATT GAATAAGCATTTATTCATTT CTCAATAAGT GCTTGTTCAA TTGAATATTT CTTAAATAAT ATATTTAAGA ACAAGAAGAA CACACCACAATGTTTTTAAC CCTCAGAAAA AATTCTGAGG TAATCAGAAA AATCTCCCTT TACATAAACT GCCCTTTTCT AATAGGGATTACTTGTTCGT TCATTCATTC ATTCAGCTCC ACTAGCACCA AAAAGCACAG CTCTGAAAGG AAGCTAGTAG ATTTATCACCTTATCTGGTC ATTTGGATGA GGACCCCAGG TAAATAAACT ACTATGGGGT TAATGTGTCT AGCTAGAGCAGGAAGTAACT TAAGGAAGTA GAGAATGAAT CAGCAGATGT GGAAACTCCT CGCCACTAAT AAAACTTACCTTCTCTTGGA TTTCTTGCCT GAAAATAGAA AATAGAGAAA AGGCATTAGC AAAAATTAGA CAATTTAAAGTTTTTCAAGT AAGGGAGAAG GAAGACTCCC ACTCTCAAAA CTGTCTTTTG AAGTATATTA GGTATTTGTT AGGTGGACCCTATCTGTGTC AAAGGAGATT TGAGGAACTG GCTTAATAAA CAGTGGTAGA CACTAATACA GAACAGACATGTTGATGCAG ATGCCTCCTG AGGTTCCATT CCATTCTCCG TGCTACTCAA GAAGACAGAA 25441 TTGCTAAATTGCCTGGTGGC AAGACCCAAT ATGTCCATTC AAGTGTTTAT CCCTTCCCAA TCTGCCATCT CATCCTACCT GCAGATTCTTCCCTTGAGGG ACAGCTGCTA ATACTGTAAA ACTATGTGCC ATTACAGCTC ACAGCATCAT CTCTATGAGAATCCACAAGA GAATTTCACT TTGGTCTTGT TGGTAGGAAT TGTGCAGCCT CATCTGAGTA ACTAATGTGT TTTTATCTTACAAACACAAG GAATATCACA TGGTTCTCCT TTGACTGGCT GTAAGGAAAC TCAGAGCTAG ATCTGAGACCCTCTCCTACC AAGTATATAA AACTTTGTGA CATACATTTT TGTGCCATAA CTTCAACCTT GGTTCCAAAT GATTTTTGTACCCTAAGTTT AAATTTGGCT TTCTTTTTTT TTTTTTTGTA CTCAATAAAA CATCAAGCTC ATTTATTATT GCGAAGAGCGAAACAACAAA GCTTCCACAG CGTGGAAGGG GACCCGAGTG GGTTGCCCAA ATTGGCTTCT TTTTCTTACT TTTTAATTAATTTTAATTTG CTATACTGAA CACATTTTGT ACTGTTCTCA CATTCTTTTT GAAAAAAGCA GAATATAAAT AAGTAGATAACTTAAAAAAA ACTCTTTGAG CAGAAAGAAT CATTTGGGAG GCAATATATT TCAGTGGCTG TAAAGTGGCATTCTAGAATC ATCCTACCCA GGTGAAAGCC CTATTTTGCC ACCTGTAGTG TAGTGTGTAT TTGAACAGCT ACTTTCTTTTCTAAACTACA ATTTCTTCAT CTGTTAAAGA GGCATAATAA TTGTATCATC CTCATTGGGT TGATAAAATA AAATATTTCCAAGTATTTAG TTCAGGTCCT AGCACGTAGA CAGTGTTGCA TTACTGTTTT AATCCTTTAA AGTATTAAAG ACTACTATTTGAAATCTTTT CTTCTAAAAT TCAGCCTGCT GATGACCAAG TGCACTTGAG CAGGGGGAAT CAAATCTGAA TTAATTTCAGATTCTGGTTA GCTTCACATA AATATTTTTT TTAGGGATGA TGAACCTAAC AGCAATAGAT GAGTAAGAAT CTGTTCCTACTGAGAGAGTT TCATTTTGAA GAAAAAGGAA CTAAGGGGGC ATGTGTTCAG TTTCATGCCC TGGTCTAACC CTGTGTGTTGGTTCTGGTGG GAAATTCTTC CAACCGAGGA AAAAACCAGT TCACAAATCT GAAGACCAGT GATTTTAGAAGATGTATCTG GACTGGAGTC TAATCTCTGA CTCTGGGTCC TGCTGATATG GTATTTTTGA GATTTGGCCT AAAACATCATTGCCCTGGTT TCCTTATTTA CCAAACAGGG CCAATGGTAG TGACTAATCA GAAAATGATA ATGCCTGGTGCACAAAATGT GTCTAGATGA GCCCATGCAC AAGGACACAT GTTTCTGGAA CTGTTCCTTA TTCCTTTCCTAAAAGAAAGG AGGGAAAGTC TCCATACTAA GACTACTAGG GCAGGGGACA AAGTGCTAGA GTCAGAAGATTCATCTGAGG ACAGAAGAAT AGGGGTGAAG GCTCTAGTCA CTTCATTGGC TACCATGCTC TAAATAGTTACCTGTGCCCT TTTTCTAACT ATTAGAACCC AAAAAGCCTA TAAATTCTCT CTCTCTCTCT CTCTCTCTCT GTGTATATATATACATATAC ACACACACAT AGACACACAC ACACACCTAA ACACACACAT AGAGATTTAT GACTTTTTAC TTTTATCCTTGTAAATGCCA TTAACTATAT TTTGTCTTAG ATTTAGCCTG GGAATGTAGC CATTATTTCT ACCATTGCCT CCATAGGAAAAATACTCTTC ATGTTTTAAA GGACCAACCT ACAACTAAAA TCTTTGGAAA GCAGAATCAT TTGTAAGTTGGTGAAAATGG AAGATGTTGT TTTATAAATG AAGACTTTTT TTTTTTTTTT TTTTGAGACA GGGCCTCACT CTGTTGTGGAGTGCAGTGGT GCTGTCATGG CTTACTGCAG CCTTGACCTC CTGGGTTCAA GTGATCCTCC CACCTCAGTC TCCTGGGTAGCTGGGACTAC ATGTGCATGC TACCATGCCT GACTAATTTT TTGTATTTTT GTAGAGATGT GGTTTCGCCA TGTTGCCCAGGCTGGTCTTG AACTCGTGGG CTCAAGTAAT CCTCCTGCCT CAGCCTCCAA AAGTGCTGGG ATTAGAGGTGACAGCCAAGG TGCCTGGCCC ACAGATGAAG ACTATTTAAT GTTATCTTAA AGATACCCTA AGCTTCCTACCAAGCCAGTG ATCTTTTGGG GCTTCTGTTT TCTTTGTTGG CATAACTGTA ACTAGCCTAA CTGCCCGTTA TCTGTTTCCTGTTTGCCCCA CACTGATTCC CACAGCAGTT TTCAAGTTAT CGGTTTGAGA TCTTGTACAG AAATGACTCC AAGGTAAAAAATTTAAAAAC AACCCCTCTA ATTTTTTTAC CCTTGCTTAT AAAACAGCCT TAGCCAGCTA ACCCCTCACT ACATGCAAATGAGTTTGATT CTATTCTTTT GATTCTACAA ACACTTATTA AAAGATTTTA GAATTCGGAA ATAAATAGCT TCCTTATTAAGGTGACTTAC AGCCCCAAAG TCCTTAAAAT TATTTAGACA ATAGCCACCT TATCCCAGGG GGCAGTGTGTAATAACCCAC CCTGTTCTCT ATCCGTCAGT TCTGCCATCA TCGCCCAAGG TAGGAAGAAA GACAGGACAACCGGGGTCAA GATTTGAAGT CTCAATGGAA AGAATAATCA GTGGTTGGAG AAAACTGTCA TTCTTCTTTT GCCTTAATGCAGTACTTGAT ACTTATACTT AGTACTGTAT AGTACTTAGT ACTGTATAAT ACTATAAGAT AGTGAGATTC AATCAGCACAGAATTTCTAA TAGCAAGGGC AGAGACATTT TAACTGCTCA GTGCTCTCAG GTTATACATA GCTAATGAAG TTCTTGCATATCAACAATCC CCACCCCCCT CACACACTTT GTCTTTCTGG ATTGGTTAGA AAACTTACCT AGCGCCCACT ATTCTCAAATTTAAATGAAA GATAAGATCA GAGTGGCACG CAATTAGGGA CTGATAAATA ATATTTTTGT AATTGCCAGTGTAAATGGAC AGGGGGCAAC CTTTACATAC CATATTCAGT GAACAGAATA CGTACTAACT AATTTGATGGAAGGAAAATT AAAATGACAA TCAACTGAGC CCACAGAAAG GCAACACAGA GCAGTTGGTT AGCAATTGTTTCGAGATCAT CCCTGAACTT GAAACAGGTA TATCTTTTTT TTTTTTTTTT TTGAGACAGA GTCTCACTCT GTCACCAGGCTGGAGTGCAA TGGTGCGGTC TCAGCTCACT GCAACCTCCG CCTCCCGGGT TCAAGTGATT CTTCTGTCTC AGCCTCCCGAGTAGCTGGGA TTACAGGTGC CCGCCACCAC GCCTGGCTAA TTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGGCCAGGCTGGT CTTGAACTGC TGAGCTCATG ATCCGCCCGC CTCGGCCTCC CAAAGTGCTG GGATTACAGGCATGAGCCAC CACACCTGGC CAAAACAGGT ATATCTTAAA AGCTGCCCAA TGTCCATGAA TGTTACAGCCTTGAATGGTT CTTCCAGGTG AGTTTGGCCA AATGTGGCAC CATACACCCA AGGCCTGCTG CAGGCTAGTGGGTTGCTCAC ACTTTAAAGC TGAGACACAC TCATGCCTTA AGGTAAAGGG AGTGATAATC TGGGCAGCAGATGTTAACTT CTCAAGGCAG TCCTCCTTCT CTTTTCCTCT CCAGTGACGG ATGGTTGGAA AGCATATATG GTGCATTTGGTTAGAGCTGT GGCCTTGGTG AATAGATACT TGGGAGAATA CATGGGAATT TCTCCCAGGG TTAATGCAATGCCCATGTGT TGGGAACCAG GTGACTCTTG AAGAGGTCAG GTATTTGGGA GCAGTGCCTT GAAACCTTAGTGGACATTAG ACCCACTTCC TAGTGGAATT GTAGCATTGA AATCCAAGGC ATGTAGGCTC TTAGAGGACAGAGATAGTGT GTCATTTTTT CAGAATTAAT TAAGAGCAGG CCAGGCGTGG TGGCTCACAC CTGTAATCCAAGCCCTTTGG GAGGCCAAGG CAGGCAGATC ACGAGGTCAG GAGATCGAGA CCACTCTGGC TAACACAGTGAAACCCCGTG TCTACTAAAA ATACAAAAAA TTAGCTGGGC ATGGTGGCAC GCTCCTGTAG TCCCAGCTACTTGGGAGGCT GAGGTGGGAG AATAGCTTGA ACCCAGAAGG CGGAGGTTGC AGTGAGCTGA AATTGCACCACTGCACTCTA GCCTGGTGAC AGAGTGAGGC TCTGTCTCAA AAAAAAAAAA GTATTAAAGA ATTACATAAGAGCAAAGAAC CATTAGAATA TCTCACTTAG TTGTTATCAG CCTAGCAAGC TGCCTTGAAG GTAATAGACATTTTTAAAAG TTTATCAGAT GAAAAGCGAA AATCAGCCAA CCTGTTTTAA TGAAGGTGTG TCCTGGGCTG ATTTACATGTCTCCAGGGAC TGATGGCTCT AGAATGTAAA GCTTGGCATC CTGCTTGTGT TGAATCTATC ACATTTAATT TCCTGTGGGTTTCTTTTTTT TTTCTTTTTC ACTTTAAAGT TGTGTTCTTT TCATGTGAAG TTAAACTCAC ATACCTTTTT TTAATCTCCTTGCCAGCCAA ATGATAAATG CCAACCCAGA GAATGCAGTA ACCATGACTG CCACTGGAAT GAAGAGGGGGTTATAATCAC CCTCCTTAAT CATTGAGAAA CTTTTGTCCA ATTCTGAAAG AGAAATCAGT AAGGCACATAGCATGAGACC ACCAGCATTA TTTCCTTAGT CTATCTCATG ATATTTGACT TTTTTCCTCC TTACATCTCC CAGTAGTAGCCCATTTGATG CCATTTGACA GATGAGGAAA CTGGCATGGG AAGGCCCCTG ATGAGTCTAC AGCATAGGCAAAGACTGGAC CAGCCTTGCT AGTCTAATGC CTACAGAATC TCAATGCCCA GATTTGTGGT TCATAGAGTTCCTGAAAATG CACCTAAAAA TGTTGGCAAG AATGGTCATC GTTGTATTTA GCTCCATGGA CTTGTTCAAT GACTGGAACTCTGAAACACA GAGAAGAGCT AAAAGCCTAA TACAACTTCA GGAAAAATAA AAGCCAATGA TCTGAACTGGATAATTCACC AGTCAAAGGA AATCATTAAT GCTTTTACTT TAAAGCAGTT GTGCAAAAAT AAGCACTTGA TTTTTACATGCCAAGGACCT GCACTAATTT CTTTCCAATG CAGTAGTTAC CACTTCCCTC TACTTCCTTC ACGAATAAGT AAAAGGGCATGTTTAGAGAT ACTCTTGTAA GTGTAAACTA AGTTCATTTG GGAGCCTCTA TTTGAAAATA CTGGTATAAA AAAAAATCTGTCTCCTGATA CTAACATTTG AAGGAATCTA CTTTTTTACA TATTGGCAGA GGGTCTGATT CTATCCTTAG TTCTTCCCATTACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACAC CCAAATATAT GATTGAGAGA AGGCTCAAGTTCCCAGGAGC TCCAGACAGA AGGTACCTGT TGGCTTGATG AAGATGAGGA GGAAATGAAC ACTAGCTAGGCCTTAAAGGG AAATGTCTCT GATAGGCCTA ATACACAGTC CTCTGCTAAA GGCCTCCCTG CCTCTCTCTG CTCATCCACTCTACTCCCTG GCCCTGGGCA CGCAGCACAC AGAGATCAGC ATTTCTGACA GCTTCTGTAG ATCCTACCAT TTAAAGACTTTTGTCATCCA TGCAGATAGT CTCAGGAGCA GACACAGGTA GCTATTCTTT CACATGCTAG CTTAACATGC ATTTGCTTTAGCACCTATTG CCAGGCACTG TGTCAGGTGG AGGGTATACA AAGATGAACA AGACATGATT CTTCTCATATACAGATAGAT TTTGGAGGCA TTAGCTTAGT GATGATTCAG GAGTATCCAT TATTTGGGGA AGTAGGTGGTCATTAGTGAC CTTTTACAGG CATTTCAATG GGCTAACAGA GATGTTAGAT TGTAGTGGAA TAGAAGAATGGGTAAAAAGT AAATCAGTGA GTTCAGATTT TAGGAGTTAA GATGGCAAGA GGTGAGAACA AAAAAAGGAAATGATTGTCA TTAAAGGAGG AGGAAAGACC AGCCAAAGAT TTTACAGTGA GTTAAGCATA CAAATTTATTTCTAGGCCAC ATATTCTTAG CAAAACAACA TGTAAATGTT TATGTATGTC TTTCCTCATA TCTGCTCATC CATCAGCTCCATCGTTAAGA TTTCAGTTTT CCAGGACAAA CTTACTCACT TTGACATATT GGACTAGGAT TTGACCAGAT TCCAGATGATTCACAAATGG TTTTCTTCTT CCCAATTAAC TCAGTTCCTT CTGAGCAGAT GAAGGTACAT GCAGAGGTAA AGCTGAAGCTGGCCAGGGGA TGGCTACAGT TCATGATCCC CAAATCTGGT GCTGATAGAG GCTCACACTG AATCACTTCAATGAAAAAGA AAAAAAAAAA AAAGACAAAA CAGTATTTCT GAGTAGAGAC CCTCCCTTGA GCAAAGGATTTTTAGCCAAA GCTGCCTGAC TACATTACTT GTGATATTGC TTCCAGGCTT TATTTTCTTG AGAATGATGG TGGGTGGTGAATGAGAGATG AAGGCAAGGA AGCATTGAAA GCTGTGGGGA GAGGAGTAGC TACTCCAGGC TGCTGCCCTAGCTAAGGTGA CCCTCCCCTT CTGCTGGAAG TACCATGCCA TATGGCCTCT GCATCAAGGG CTCTTATGGG ATATTCTCAGAGAATCTCTG CCGTTTCATC TGTTCTGATA TCTACCCAAG CATTTTGAAA AACATCCCAA TTCACTGAAG CAAGTCCAACTTCCGTAAAT TCCAGTAGGT GGGTTGACAG TTTTATAATT TCAATAAGGG ATTTTGATAG CACTTCTAAG AATTAAACTACTTAAACTAA TGCATCAGGA GCATACTTGT AGAAAAGTTA ACCAAAACTT CGTAAGTTCA GATGACATTG GTTTTCTCCCATATGGAGAT AAGGTTGGCA GTTAAAAATG AAAAAAAAAA AAAAACCTAC CTTATTTCAA ACTTGAAAAGATCAAGAGAT TGTGTTTTTG TTTTTCAGTT GTTATTCTCC TAAAAGTTTA TGCATGAGGA AAAGTAAAAG TGATTTTAAGAATAAGCCAA ATAAAACAAC CAAGAAAGAC CTCCACTACCCTGGGAAGGA AACTGGTTGG TATTAAGTAGGACACCACAT AAAACAGGTG TTATTGAGAG GAGAAGAACC AAAATGTAAC TGAGGTTCAA CAAGACATTATTTATGCAAT GGCAATGAGA AAAATAAAAA ACACAGTATA ACCATGCTGT ATTGCTATAA GTCATGTTACACACTGGGAG ATGGCTTCAG GGGTATTTGG TTTTTACTTT TTGTTTGGGA GGTTTTTCAA AAAAATTTAG TTAGAATAAGTCCTTTGAGA AACATCACAG TAGGTTAAAC AAAGTTAGGT TAAATTAGGC TCCTAAGTTT GACTTCTCAG CAAACTTCTACTGAATGTTC TGACTGTAAG CCCAGGATTG CATGACAAAA CCTCTAGTCT GAAGTTACTC ACCTTGACAG GTTGGTTCTGGAGATGACCA GTTTCCAAAT GGTCCACAGG TGGTTTCTTC AATCCCAGTT AAGTTTGTTC CTTCAGAGCA GCTGAAGGCACACTGTGAGC TGAAGCTGAA GTTTCCCAAA GGGTGAGTAC AGTCCATGGT ACCCAGCTCT GGGGCCTCCAAAGGCTCACA CTGAATCACT TCAATAGGGA AAGAAACAGT ATGGGGAAGA GTTAAGAGGA ACTGACGCCTGGATTTGAAT CCTAGCCCTG CCACTTGATA ACCATGTGCC TTTAAACAAG GTTACTTGAA CCCTCCAACT TCAGTTTCTTCATCTATATA AGAGGAATAA TGAAATTGTG TTATCTTTAT CAAATTGATA TGGAAACTAA ATGTAATTCA ATTAGCATAAGTCAAGGACC TTAGAACAAA GCCTGACTCA TCAGAAATTC TAAGTAAACA TTAGCTAGTC TTCATATTAT TATCTTCAGCATTATCTGTA GTGAGAATCC TTAAAGCCAA ATAGGTGTAA CTGGGAATGA CCAGCTTAGT CGGGAAATAACTATCACATC AGAGCCCCTG AGTCTACTAG AGTATTGGGA GCAAGATGTT CAGAGAAAGA GTGGGTCTCCATAATAAGCC TTCTTTGCAA GGAGAGAATA TAAAAGTCTA GGAAGCATTT TGACCTCAAT TCTGTCTTCT ATTCTAGCTCAGTTCCAGAA TTTTAACTCT TTTGATTTTG ACAACCCTCT CCAGAAACTG TATCTATTTC CCTGTTCTGA TTGGTGGTACAATAGGTAAA TTTAAGACTT GGAAATCAAA GTTTTCACAT TTTAGACCCT GCCATGCCAT TTAGTAAACA GTACAACTTTCATGTCTTAT TCCTCATCTG TCAAATTTAA GCCATTATTG CTACCTTGCT CTAGAGACTT CAAGGAAGAA TGGACTCAAGGAATCAGAAG AATTTTTGTA TTTGGAAACT ATATGAGATG AGATTAGGGA GAAACATGGG AACTAAGAGAAAATGTTATC TTTTTTCATT GATTTAAAGA GTATCTATTA TATATCAAGC ATTACTCTGG GGCTTGAAGA GCTTAGATTTCACCCTGTAG GACAAAATGG TAGGTAGAAA TTAATGGGTG GATTGTCATG TATGTGTGAT GTGTTTTAAT TGCTTTTAATTGATCAGTCT CCCTGTAGTA TGAATAATGT ATTTGAGGGG AGCTAATTTA AAATTGTGGA ACTCATCTAA TAAACTATTGCAAGAATCTA GAAGAAAGAT AATGACGGCA ATGGTAGTAG AGTTGACAAG TGGAAGACAA ATTAGAAAAACACTAAGTTG TAAAAATTGG TAGAATGTTA CCCTGCATAA ATGTTGGGGG AGTTAAGAGA GTCTCATACCAGGGTGCCCATGTAAATGGT GATTCCACAT ACTGAGATAA GAAATACGAA GAGAAAAGCT GACTGGGAACAATTGGTTTT ATAGTCTTTT AAACATCCCA AAGGACATCC TTAGCATATT TGAGTTCAGA GCTGGAGATA GGCTTATCAGTCCAAAGATC ACATAGATTT GTGAGTCCGC AAAAGTCAGT AAGTTTGACC AAAGGATACA TGTAGATTAGAGTCAGAAGA GCAATATACA AAAGACAAAA GCTGAGAAAT TATAGTAGTT TATGGTCCTG GATAAGTGCTCATGAAGGAT CTCAGGAGAA ATGATCACAG GTAGAAAGAA TGAGAAAAGA GTGATATGAG AGAAACCAAGACAAAGAAAA GTAAAATGTT AAAAATGAGT GAAATAGGCA TACCAATAAT TAAAAATGAG TAAAATAGGCATACCAATAA CATAAGGGTT AAAAAATAGA GTTCAAAAAT GGGGTGAGGG TAAAGTATTA GGAAGGAGTCATGGCCCAGG GATCAAGTGA AATGAGTTAG ATCTATAGAT CTATTTCAGT TGGTTGACAT TTAAATGTAT TTTGGTTTTAATTCTTTATT GTTTACAAAC ATTGCTTTTT TAAAAAATTA AATTGTCCAA TTCAATTCAG GCTCACAAGC AAGTGCCTCATATATACAGG CATTTTGTGG ATCCCAAAGA TGCAATGATA AATAGGACAC TTACTGATCT CAAGAAGTTTTCAGTACCAG AGGAGACGGA CAAGTGAACA GATGACTTCA ACATAAGTGG GAGAAATGAG GAAGAAATATGTGGAGCTAT CAGAACTAAG AAAGCTTCCT AGAAGAAACT GTCTTTGAAC AATGTCTTAA AGATGACATGTTTTTTGGCC ATGTGCAAAA TGAGAGAGAA GGCCACCAGC AAAGTCAGTG TGCTACAGAG CACATGTGTTAAGTGTGGAG AACTGCAAGA AGGAAAGGAA CTACTAGAAG GAAAAAGCAA GATACTTTCT GGGTAACTCAGCCTCCTAAT GATAAATGGC ATAGTTTCTT CCAGACCTTA GAGTTCTAAT TAATCTAACA AGCTCATTAG ATCGTGAGCTTCTTGAGAGC GGGAATCTAC CATGCTAATT CCTTATGGTA ACCCTGACAG CTTTTATCCC AACACTGTGC TTCTTGTGGTACTCAAAAAG ACTTGTTGAG AAGTGAGTCG AAACTTCATG CTGACTTATG AAATCTTTAC GGAAAGGTAACAATATTGTG AAAGCAGAGC TTTCTGATCA AAACTTCCCA TTTCTCAGAG TGGCTAGTAT CATTTTGTTC CAACCAGCTTCATGATAAGC TATAATGATT CCTGTGACTT TACCTAAGAA GAAGCAAAGA AAGGAAAGAG ACTTACCAAACTGACACTGG GGCCCATAGT ACCCCACATC ACAGTTGCAG GTGTAATTAT TGATGATTTC TACACATTCT CCATGGCCACTGCATGACCA GGGCTGGCAA GAAGCTTTAA GGAGGTCAGA AAAAAAATAT TTTAATGTGA TTACATTTTAGTACTCAAAG TCATTTCTTT AGACATAGAT AACCTTTTGT CTGAGATGAT TTAAATAATC AGGAAAGGTT TATTTGTAAATTCATAGCAT AAAAATCATA TGCTAAAATT TTTACGTATA AAATACACTA AGCATATAGT CATAGGCATT TATTTGCTTTTGGAATGAAA TTACCAATAC TAATATTCTG TAACACTTAT AGGAAACTTA GTGGCATACC TTGAAACTCT TGAAATTACTTGTTTTTAAT GAGTGAGAAG GTTAAATGAT GACCTGACCT CAATCATTTC TGCATGCAAT TATTTCTTGG CAATCCCTTTCTTTATAGAA ATCAAAGATT AAAAAGTCCA AATTTGCTAA AACGGTAGAG TCCAATTTAT AAGAGACCAAATTAACTATG GTTCATTATT AAAACATCAC TTGGAAAATG CTGGCTGTTT TGGAATTGTA GAAGATTTTA CAGAAATATTCATACACCAA AGATAGTGCA ATTTTTATAT AAAATTATAT AAGGTTAGAC CAAGAAGGAA GCACGCAGCACCACACTCTC TACTTCACAA TGTGAAAACT GAGGTGATGT GAGCCTAAGT TTCCAACTGG CCCCAGCTGT CAGCTTCTCCTCCCCTGCCT TATTATCAAA GGCACTGATT GTCTAGCTCT TCCTCTGTAC TTCCTACGTA GATCTATCAT TTTGATGTAACTTGATTTAG GGGTATAGCT TTTGTGCACA GGGACAAATC TTACACACCA AAAATTCTTA GGAGTGACACGATGCAAGAT TATATAGAGG GCTAGATGTA TTTTAGAATG AACCAGAAGC TGTTCTCATC CCCCCACCTT TCCATGGGGTAAATCTGAGT ATTCTCTTAA CCGTGGCCCT TCCTGAGTCT GAGGCAGCAT AGCCGTCTTG TCACTCCCTA CCTGTGTAACAGAGGGCTGC CTTTAGTTTG TGGCAGGCGT CATCGTTCCA TTTGCCTGCA TCTTTGTTTC TCTTGATATA GATCTCCACGCAGTCCTCCT TGTTCTTCTT GTTGTTGGGC TCACCATCTC CCCAGTTCTC TGCTTCTTCA GTAAGAGATT TGTTGGTTCCCACCCACGTC CATATTCCTC CTATCTTCCG GATTCCTATC CAGTAGTAAG AACGACTGAA AGGCAGAGTC TTCTCCAGATACTCAATTTC CGCCTTGTTT TGTATGGCAA CTAAATCTGT GTAATTGTCT CGGCAGAATC TTCTAGCCCT TTGCCAGTTCATGGGTTTTT CAGAATAATG GTAAGTCCAG CAGTCGGTTC CATGATGTGC CAGGAAATCT GCAAGACATCAGTGTGACCT ATGCAGACTT ACATAATGTT ACAGCTAAAA AGAACCTAGC ACTACTCCAG GCTGAGCTAGACACTTAGAG ATGAGGAAAC AGAGCCTAAG AGTGTATGTG ACCATCTCAG GATCACAGAA TAGTTGTTTGCAGATTTGAA GTAGAACCTA GACCTTCTGG CTTGAATATA AGATGCTTTT ATCTAAGGTT CTATTTGAAA CAAATTTAGTGGTTTTCTAG GTTTATTTTC TTATTAATTT TTTTCTCAAA ATTATTTCAG GTGAAATTTA ACCAACATAT TTTAGACATTCATATTTCTT TTTCTTTGTA GCTGTTAATG ATTTACAACT AATTACCGTG TAATATCATA TAACTATACA ATTTACGTATACTTTTTAAT CCTGGAATCA TTTCTTGAAG GCCAACACAT ATGTACCTAT GGGAGAAGCA TAATAAGGACAGGAAGAACA GTGACATACT TTTAAGTAAC CTCTTTTACA TAAAAAACAT TTTATTTTAC CATAGGAAGA ACTGCTTCTGGAAAAGCCCA ATATACCACT CAACTCTTAT ATATCTAACT GTATAATTTT TAAAAAGAAC AATTTACAAAGCCAAATGGT ATAGGATTAT GAAATTCATT AGATCATGTT CTATACACAA AGAGACTCAA CTGATGATGTTTAATAAACA TATGGACCCA TCAAATATGA GGGCTTTGAA GATATCTAAT TAAACACATA ATTACACAATGACTTCATAA TAATATATGG CATTCTAAGC ATGGTATGAT CTACATGAAT CACTATTTAA TACAGTAAAGAAACAGATAT AATTGATGGT AAAGAGCATC ATAAAATAAA CATTTTGAAC AGAGTTTTGA ATGAGCATTCCACTAGAATG CAAGTTCTAA GAGGGAAAAA ACTGTTGTGT CCACTGCTGT ATCCTTAGTG CCTAGCATAAATTTCACACA TTGTAGGGAC TCAGAAAATA CCTGTTGTAT GAAAAGAGCA CTAAGTTTCT ATGTGACACAGTGCAGACAT GGCATAAGGA ATGTGTGAAC GGGAGAGTTA GCATGTTTGC TTGGCTAGAG CTGAAAATCCAGGCTAGGGA GAAAGAAGAC ATTAGTTTAC TTAGGAAATG AAAAACCAAG TTCAAAGCTA TTGCTGGAGAGTCTTCAAGA ATCAGATATA AAATTTGTCA CAACAATGGG AGAAGGACCA AAAAATGATA AACCCCCGTCCCTTAATAAG CTCGTATTGT AATTGTAGAA ATGACATTAA TGTACACTGA ACTATGAATA AAAAATAGAAAATGAGGTGC TAAATATTTG GTACAGATTG TAAGTACCTT AACAGAGATT TCTTAATTAA CATTATTCCT TTATAATTGAGGGATTTTGT GGGGTTATTG GGATTTGAAC TCTACAGCAT GGGCTATTAT AGGTTAAAAA TAGTGTTCAG GAGTTTCTGGGGAAGAACTA AAGGTAAGAA GAAAAGAGAT GTTTACAGAA GGGATAGAAT TAACAGCTCT GTGAAATAATTTTCCCTTAG ACTATGTATA ACTAGTGGAT ATTTAAGAAA AATGAATATA AGTAAAATAG ACTTAGCGAT ATATAAATATCATAACATAC CACAACAGAG CATTGTCCAC CCCCACAACT TGAAGATGTT CCATAAGTCC CTCTGGGTGC TCTGACATTTCCATGGAAAT ATCTGCAAAT GAAATACAAA ATTATATTTA GATGTATACT CTTAAACCAC ACATTTATAG CCTTTGAGGTGGTGCTTACA ACTTTCTTAA TAATCAGAAT AAAACACATA TGTCTACTAA CCCTGTCTGA GGTAACAGGT TTCTCAGACATAGATGAAAA ATTACTTCAA ATTTACATCA GAACTGATGC ACAGTTTTGT TTTGTTCTAT TTTATTTTTA CGCTTTAGTCTCAAGTTGCT AATCGGTACT GCCCTGAATT TTTTCTATGG TTTGGTAATT TTTATACCTG CTTTTCTGCT GAGCTATTAGATAAAACTAT TTAATATTTA CTATGTATAT TTTTTAAAGT ATTGTTGCTG CTTAATTAAC TATTGATGCT TATATTTAATGTTATAGCCT CACTCTTGAT CATAATGGGT CAATGCCTCA AATACCTAAA AAAAAAAAAA ATTAGATAGCCAGACACCAG GAAAGAAAAG TATTTCTTTT TTTAATAAAA AGAAATACCT TTTTGAGCAA CTGAAATGACAAAGTCACAA ATTTCCTGCA CACCTTAAAA TATACTTAAT GTAAATGACG AGTTAATGGG TGCAGCACACCAACATGGCA CATGTATACA TGTGTGACAA ACCTGTATGT TGTGCACATG TACCCTAGAA CTTAAAGTAT AATTTTAAAAAAATTCTATC TTCCAAAGCA TATCACTTCT CAGGTAGACA CAGTGTTTAT TGCAAAAGAT CTGATTTCAA TAGTATTTCTTCAAGAGTCT CCCCAGAGAC AAAGTCAAGA AGAGGAAATC AGCATATCTG AGAAGAAAGA TTTCAGGATCACTTTTTTTG AGGGTCTGAG AAAATGTTTA GTTTCTATAT TATTTAAAAC CAGAATTGAA ATGGGGTGAT TCCTATCCTTGCCACCTGCC TCTACAACCC CAAGAGTTTC TATCTGAGCA TCTAAACGTC TTTTAGGCTG AAAGGCTCAC CATGGCTTTGCTTGGTCCTT CTCTAGTTCT TCTGCAGCCC ATTGAGCCTC TTGACTTAGC ACAAGGGTCT CAGGTCCTTG CCCAAAGGGAGTGTGCTGTG CTGCAGGTAG ACTGCACTGA ATGTCAACAG AAAGCCTTGC TTTCTTTCAT TTCTCTAACC CAGTCTCACATCCTCCTCCT CCTCCCCTTT TCCCTCCCCT TCCTCCTGCA CTTCTCTTTC CTCTTTCCCC ACCCCTTTCC TAGACTGGCCTCTATTGCCT CCCACTGAGA CAAAAATGAA CTGCTGATCA GAAAGTAATG TGACTAGATT CTCTCTTCCT TCCCTCCTTTCTATCCTTCC TTCCATTCTC CTATGCATCT TTCCTTACCC TCCTCCTCCT TCACTCATTG TTGTTGCTGT TCTTCTTCCTCTTCTTTTTC CTCCTGCTCC TCTTCTTCTA CTTGTTCTTG TTCTTGTTTT TGTTTGGTTC TTGTTCTCCT CTTCCTCCTTCTCTCTCTCC TCCTCCTCCT TCTTTTCCAC CACCCTCCCC TATCTTTTTC ATAAATGCTA AACTAACTCT TGGCTACCTGTGGTAAATGG CCCTTGGAAA TTGCAAATAC TACAAATCAA AACTGCATTT CAGACATATT TATGATGTTT GCAAAACTTCAGTAGAGCTA AGCAGTGGAC TTGACTCGTT TCGGTTCCTT CACCTCCGTC TTTCCTTGCT CACCACCTAG TGGACGTCCTTGTTAGTGGC ACTTCCTGAA GTTAACCCCT GAAGAGAGCC CATGCTCTCT AGCTTTTCAC CGTGTAGGTT TGGGAGCCTACAAGTACCTT TAATATTCTT GGACTATAAA ATGAGATGGT TTTATAAGAC TGCATGTGAA ATTAGGACCC ATATGATGAAGGACAATAAA AAGGAAGACC CACTGATGTG AGTCAATGAG TCAAATGCAA ATCAGATTTG CATTTTTAGGAAAATAATAA TAACAACAAC AAAAACTCTG AAGCTCAGCG CCCCATATTT ATTATATTGT TTAATCTTTA TAACAGCTCTCTGCTATAGA TATGATTATT ATCCCCATTC TAAAGAGTCT CAAAGAGGTT AAGAAACAAA TTCAAAAACTAGCGAAAGAC AAGAAATAAC TAAGATCAGA GCAGAACCAT AGGAGGTAGA GACACGAAAA AGCCTTCAAAAAATCAATAA ATCCAGGAGC TGCATTTTGA AAAGATTAAC AAAATAGATG GACCACTAGC TAGACTAATAAGAAAGAAGA ATCAATAGAC ACAATAAAAA ATGGTAAAGG GGATATTACC ACTGATCCCG TAGAAATACAAACTACCATC AGAGATTACT ATAAACATCT TTACACAAAT AAACTAGAAA ATCTAGAAGA AATGGATAAATTCCTGGACA CATACACCCT CCCAAGACTA AACCAGGAAG AAGTCAAATC CCTGAATAGA CTAATAACAAGTTCTGAAAT TAAGGCAGCA ATTAATAGCC TACCAACTAA AAAAAGCCCA GGACCAGATG GATTCACAGCCAAATTCTAC CAGAGGTACA AAGAGGTGCT GGTACCATTC CTTCTGAAAC TATTCCAGAG AATAGAAAAAGAGGAACTCC TCCCTCACTC ATTTTATGAG GCCAGCATCA TCCTGATACT AAAACCTGGC AGAGACACAACAAAAAAAGA AAATTTCAGG CCAATATCCC TGATGAACAT CATTGCGAAA ATACTCAATA AAATACGGCAAACTGAATCC AGCAGCACAT CAAAAAGCTT ATCAACCACA ATCAAGTTGG CTTCATCCCT GGAATGCAAGGCTGGTTCAA CATACACAAA TCAATAAACA GAATCCATTA CGTAAACAGA ACCAATCACA AAAACCACGTGATTATCTCA ATAGATGCAG AAAAGGCCTT GGATAAAATT CAACACCCCT TCATGCTAAA AACTCTCAATAAACTAGGTA TTGATGGAAC GTATCTCAAA ATAATAAGAG CTATTTATGA CAAACCCACA GCCAATAGCATACTGAATGG GCAAAAACTG AAAGCGTTCC CTTTAAAAAC TGGCACAAGA CAAGTATGCC TCTCTCACCACTCCTGTTCA ACATAGTATT GGAAGTTCTG GCCAGGGCAA TCAGGCAAGA GAAAGAAATA AAGTGTATTCAAATAGAAGA GAGGAAGTCA AATTGTGTCT GTTTGCAGAT GACATGATTG TATATTTAGA AAATCCCATTGTCTCAGCCC AAAATCTCCT TAAACTGATC AGCAACTTCA GCAAAGTCTC AGGTTACAAA ATCAATGTGAAAAAATCACA AGAATTCCTA TACAGCAATA ATAGACAAAC AGAGAGCCAA ATCATGAGTG AACTCCCATTCACGATTGCT ACAAAGAGAA TAAAATACCT AGGAATCCAA CTTACAAGGA ATGTGAAGGA CCTATTCAAGGAGAACTACA AACCACTGCT CAAGGAAATA AGAGAGGACA CAAATGAATG GAAAAACATT CCATGCTCATGGGTAGGAAG AATCAATATC ATGAAAATGA CCATACTGCC CAAGGTAATT TATAGATTCA GTGCTATCCCCATCAAGCTA CTACTGACTT TTTTCACAGA ATTAGAAAAA AACTACTTTA AATTTCATAT GGAACCAAAA AAGAGCTTGTATAGCCAAGA CAATCCTAAG CAAAAAGAAC AAAGCTGGAG GCATCATGCT ACCTGACTTC AAACTATACTACAAGGCTAT AGTAACCAAA ACAGCATGGT GCTGGTACAA AAACAGATAT ATGGACCAAC GGAACAGAACAGAGGCATCA GAAATAACAC CACACATCTA CAACCATCTG ATCTTTGACA AAGCTGACAA AAAGAAGCAATTGGGAAAGG ATTCCCCATT TAATAAATGA TGTTGGGAAA ACTGGCTAGC CATATGCAGA AAACTGAAACTGGATCCCTT CCTTACACCT TATATAAAAA TTAACTCAAG ATGGATTAAA GACTTAAATG GAAGACCTAAAACCATAAAA ATTCTAGGAG AAAACCTAGG CAATACCATT CAGGACGTAG GTATGGGCAA AGACTTCATGACTAAAACAC CAAAAGCAAC AGCAACAAAA GCCAAAATTG ACAAATGGGA TCTAATTAAA CTAAAGAGCTTCTGCACAGT AGAAAAAAAAAAACTATCAT CAAAGTGAAC AGGAAACCTA CAGAATGGGA GAAAATTTTTGCAATCTATT CACCTGACAA AGGGCTAATA TCCAAAATCT ACAAGAAACT TAAACAAATT TACAAGAAAAAACAAACAAC ACCATCAAAA AGTGAGTGAA GGATATGAAC AGATGCTTCT CAAAAGAAGA AGTTTATGCAGTCAACAAAC ATATGAAAAA AAGCTCATCA TCACTGGTCA TTAGAGAAAT GCAAATCAAA ACCACAATGAGATGCCATCT CATGCCAGTT AGAATGGCGA TTATTAAAAA GTCAGGAAAC AACAGATGCT GGAGAGGATGTGGAGAAATA AGAATGCTTT TTACAGTGTT GGTGGAAGTG TAAATTAGTT CAATCATTGT GGAAGACAATGTGGCGATTT CTCAAGGATC TATAACTAGA AAAACCATTT GACCCAGCAA TCCCATTACT GGGTATATACCCAAAGGATT ATAAATCATT CTACGATAAA GACACATGCA CACTTATGTT TATTGAGGCA CTATTCACAACAGCAAAGAG TTGGAACCAA CCCAAATGCC CACCAATGAT AAACTGGATA AAGATGATGT GGCACATATACATCATGGAA TACTATACAG CCATAAAAAA GGATGAGTTC ATGTCCTTTG CAGGGACATG GATGAAGCTGGAAACCGTCA TTCTCAGCAA ACTAACACTG GAACAGAAAA CCAAACATTA CCCATTCTCA CTCATAAGTGGGAGTTGAAC AATGAGAACA CATGGACACA GGGAGGGGAA CATCACACAC TGGGGCATGT CAGGGGATGTGGGGCTAGGG GAGGAACAGC ATTAGGAGAA ATACCTAATG TAGATGACAG GTTGATGAAT GCAGCAAACCACCATGGCAC ATGTATACCT ATGTAACAAA CCTGCACGTT CTGCTCATGT ATCCCAGAAA TTAAAGTATAATTTAAAAAA AGTTTAAAAA AAGAAAGTTG CCTTAGTCAC ATAACTAGTA AGAGACATGG TTGGGAATTTGAACAGAGGC CAATCAGTTC CAAATCCATG CTCTTGATCA TTAAGCTGAA CTTATGGCAG GAACTTGGAAGACATGGTAA AATGGGGAAA AACGTGGAGC CAGGGAGACT TGTGAAAGTG CCAGTGCTCC CACTATACCCTGAAAGAAGT ATCTAGACTT ACTTTTTTCT AAGTCCTCTC CTCTAATTCT CTCAATCTCT CTCTCTCTTT CTCTAAGAGATGGGAATGCT GCTCTGTCAC TCAGGCTAGA GTGCAGTGGT GCGATCATAG CTCATTGCAC TCAAGGAATCCTAGGGTCTA GTGCCCCTTC TCCCTCAGCC TCCCATGTAG CTAAGACTAC AGGCACATGC CCCAACCCTC GACTAATTTTTTTATTTTTT ATTTTTGTAG AGACAGGATC TCACTATGTT GCTCAGGCTG TAATTCTGTC TTGAAGCTTG TCCAATCAGGCTTTCAGCCA CACCAATTCC CTGAGACTGC TCTCACCAAG GTCCTACACT TCACTAACAC AAACAGCCTA TTCTCCATCCTCATCTTACT TCACCAGGGA GCTCCTGGTT TTCCTCCTAC TTCACTGGCT ATTTCTTCTG TATCATGTGT TGATTCTCCCTCATCTCCCC AACCTCCAAA CCCTTGGAGT ACTCCAGAGA TCACCGCTTT GCTCTTCTGT GTCTAACCTC ACTAACTTGGTGGTCCAATT CACACTCTTG ACTTTGAATA CCATTTAAAT GCGAACGAAT TCTAAATTCT GTACAACCAG AACCATTCTCCTGTAGCCAA ATGCCTACTC AACATCTCCA TCCCCAAACA AATTTAGTTG TTCAATAAGC CTCTCATATT TTACATATCCCAAACTGAAC TTCTGAATTT CTCCTCCAAT CTGTAGGGCT CTTCCCACAG CCTTTCCATC TCAGTGGATT ATAACTCCATCCTTCCAGTT ACTCAGACCA AAACTTTTGG AGTTAACTGA GACACCTCTC TTTTTTTTCA CAAGTCATAT CCAATGTGTCAACAAATTTT GGTAGTGGAA ATATTGCGGG ATTTTTTAAG AAATCAGAGA GACCGATGGG GTTCAGGAGGATATTTATTA TTTAGGTGCA CTGGCCAAGT CAGATTAACA TCCAAAGGAC TGAGCCCTGA ACAAAGAGTTAAGTTACCTT TTAAGCATTT TGTGGGGTGG GAGAGAGGGG TATCTGTGCA GGGGGAAGCA TACTACAGAAGTGAGAAATA AAGACAGTTA TTCAATTAAT TGAGACATGC ATTACATCAT TTCTTACTTT TCAAGAAGAA ACATGTTTTGCGACTTGAGT TTATCTGTCT AGTGACCTTG CAGCTGCACA GCTAGAGAAA CAGGGTCTTC ACAATGCCTGGGAAAGGAGG AGAGGTAAGT CTCACTAGCC ACAGAAAAAC AGGCAGTTAA TTTTTAAAGG GCTCCAGCTCTTTCTCTTTC TCAGGGGGAG TTGGGTTTTG TTACATACAA CTGAGTTTCC GCTTACACAT TATTTAATTT CTTTTAATTCCTGTTCCAAA AGAAGCCAGA TACAAAAGGT TACATGTTGT CTGATTCCAT TTATATGAAA CATATAGAAGAGGTAAATCC ATAGAGACAG AAAGTAGATT AGAGGTTCCC AGGGGCTGAG GAAGAAATGG GGACTAACTGCTTATAGGGT ACAGAGTTTT CTTCTGATAA AAATATTTTG GAACTAGATA GACATTTTGT TAGGCCATTC TTGCATTGTTATAAAGAATT ACCTGAGACT TGGTAATTTA TAAAGAAAAG ATGTTTAATT GGCTTACACT TCTGCAAGCTTTACAGGAAG CATGGTGCCG ATATCTGCTC AGCTTCTGGT AAGGCCTCAG GAAGCTTACA ATCATGGCAGAAGGTGAAAG GGGAGCAGGC ATATCACATA GCAAAAGCAG GAGCAAGAGA GGGATGTGGG GAGGTGACAGTCACTTTTAA ACAGCCAGAT CTTGTGAGAA CTCATTCACT ATCATGAAGA CAGTACCAAG AGGATGGTACTAAATCATTC ATGAGAAACC CCACCCTCAT GATCAAATCA CCTCCCACCA GGCCCCACCT CCAACACTGGGGATTACAAT TTGACATGAG ATTTGAGTGA GAACACGGAT CCAAACCATA TCAGAGATGG TGGTTATACAATGCGATAAA CGTCACTGGA TTGTACACTT TAAGATGGTT GTTTTATGTT GTGTGAACTT CACCTCAATA AAAAAAAATATTTAATGTAC ATTCAGCCAA AAGAAGATTT GGAATAGGAA AGGTCATGGA GATATATTAA CAGCCATTTGATGGGTGGTA AGGAAAAGAG TGGTTATTAG ACTGTTTTGT GGCCCTCAAA AGGTAGAACT AGATCGAGTTGGTGAGCATT ATAAAACCAT CACAAAACCC TGGAGAGAGG ACCCAGTGCT GAAGAACCGT TTGCCTGCCATGAGACATGA GGGAAGTACC AGTGAATGCC ATTGAAAGCA GCATCCCTGG GTCCAAGGGA TGGTCAAAGGACCACTACCC AACCCTTCCC TAGCCTACGC CTCCATTACA GATGACCGCA AGATTTATTT GCTCATTGCT GCCAACCAAGGCTGCACTCA CTGCAGTTGC TATCAGTTTA TCATGGGTAA AAGGAATGTG CAGTAGAGAA CTAACTAACTGCCCACCTAC CTCCACAATC CTATCAGGAC AAATCACCAT GGCTCACATT TCCTTACATT TGGCATGTAA GCCCCTCTTACTGTCTGTCA TCTATCTCCT ACACAGTTCA CCTAAACTGT TCTCTCCTGA CCCAACCTTG ATTTTCATCC CAAATGCTTCCTTGCCATCT CTGGGATTCC TGTCTTCACC ATCACCAAAC TCCCCTCAAT CTTCCAGTTT CCTGTTCAAA CTTTTCTCCTACCTCCTTGC TTTGTCATTA GCCCGACTGC CTCCCTAGGA CATCACTTCC CCTGCAGATC TCTCAAGATG ACAATATTTATTCTCCACAC AGCACATACT TCAGGGTTGG AAGGCAGGGG CAATCTTCTC CTTTATAATG AGTGCCTCTT ATATATGTTTATTCATCTGC CCTCTTGTAA AACACACACA CACACACACA CAAAGAAGAA ATAAAATAAC TCTGCTTCTTTGAAGCTTGT GACACTGAGA TAAACCATCT CACTGTCCTC ATTGTAGTGA CCTCTCAACT CCTCATGCAA GATTGGCTTTGGCACCTAGT TCCTGATCTT CCTTTCCCTG TAAGCACTTC TCATAGTCTT ACGGGACTTC ACCATCCATG GCACAACCAATACCACAGCC CAGATCCTCA GCTCTCCAAT GACATTTTCC TCCACTAGAC TTGAGCTACC TCCTTCCCTA GGCACAGCCTCAACCTCGAC AACACCTAAG ACTGTACCGT CTCTAAAGTC ACATGTTCAA ACACTTCACT CTTTAACCAC TGTCTCCTATTCTTGCAAGT GTATTGCTCA AGTATCTCAT TGCAATGCTT TTTACTTCTA CCTCATTGAA CCTCCAGGCC ATTAAACATTTCCTTATTTC TAACCATCAG GTTTCTCCTT ACTTGTTTGT TTGTTTATTT GTTTCTTTTT TTTTTTTTTT TTTGAGACAGGGTCTCACTC TGTTGCCCAG GCTGGAGTGC AGTGGTATGA TCTCGGCTCA CTGCAGCCTC CATCTCCCTG GTTCAAGTGATTCTCATGTC TCAGCCTCCC GAGTAGCTGG GACTACAGGT GCATGCCACT ACGCCTGGCT AAGATTTTGT ATTTTTATTAGAGAAGGGGT TTTGCCATGT TGGCCAAGCT GGTCTCGAAC TCCTAACCTC AGGTGATCCA CCTGCCTCAGCCTCCCAAAG TGCTGAGATT ATAGGCATGA GCCACTATGC CCCACCTGGT TTCTCCTTAT TTATTTCAAG TCTATGCTGCACTATTAAAA CTGCCTTGAC AAAAATTATA ATAGTGAGAA AATTATGACA GTGAAAGAGA TCTGAAATAATCAACCCCCA TCTTGCCTTT ACCTTCCAGA CTGCCCTTAA TAATTCCTGA GCTTGGGCCA AGCTATCTTT GGCAGAAATTTAGTTTATAG TTTAAATGAT AATAGCCCTT CTCCAAAACT AAACTGCCTT TGTAAAACTA ATAAAAGACCACCAATGAAA GGTTAGGAGG ATGAGAGGAG CCTGAATTCT GCTAAGGTGT AGATGTAAAC AATTACCAACTGTTATTCCG GAGGTCACAA GATTTGCAAC ATCGCCAATT ACTCCTGCAG ATAACAGCAC TATCATAGAA TCTGATTGGCCTTTTGAGAT GTCTTTTCAG ATTCTTACAT TTCAACTGGT GGCTCTACCT GGACCCATCA ACAAGTCCTG TGGCTCCACCCAGAAGCAGA CTTAACATGC ACAAGGACCA TTTTCCACAC CGCTATGATT GCATCCCAAC CAATCAGCAGCAACCATTCC TCTGCCTGCC AAATTATCCT TGAAAAATCT TAGCCTTAGA ATTTTGGGGG AGGCTGATTT CAGTAATAACAAAACCCCGG TCTCCCATTT GGCTGGCTCT GCATGAATTA AATTCTTTCT CTATTGCAGT TCCCATCTTG ATAAATCACCTTTATCTGGG CAGCAAACAA AAGGAACCCA TTGGACAGTT ACACTGTTGG CAGATATATC TTGCTTCCAA AATTGGATTTTTGTTTAATG AATTTATTCT GTTTTCTTGA TATTTACAAC TGTGAATGTT GTGTCTGAAT TCTCTTTATT TCTTGTTGAAAAGAACTATA TTGCTACAGC CAGTACATAC AGATGGATAG CTAATTACTC AACACGGGGG GATGTGACCATCACCGCACT GTGCAAATGA ATGTTACCCA TTGTCCACTT TTCCCAAACT ACATAGTGTT ATATGGTATA TGACCCAATCAACGGTGGCA AAGCTCCAGA AATACCACAT AGACATCAGG GACACTTTAA ACTAATCAGC CTATAGTCCTTTTTCAGTAA TTTCCAAACC TGGTTGTGCA TCCAAATCAC TTGGTAACAT TAAAAAAACA AAAAAATATACACGCAACAT TCGCTCCCAA TCCTACTGAA TCAGAATATT TTGGGTTGGT TCAGGAACAT TCAGGAGTTT TTCAGGGTCCAAGGTTTATA TAATTTGAGG TCTCTCTTTG AGAAAAGGAA CGTAAAAGCG TCTTGCTTTT ATAGATCTTA CAAAGATGTATTACCATGTA AACACATTCC TAGGACCCAG GCCCTTGTAA TTTAAAGGTT TATCTAAGTA ATGGGCCCTG AAGCTTAATTTTCATTATCT TCAGGGCAAA TTACCTGTGG GTTAGGGTTT AGGAATATAT CTCTCTGTGT ATGTGTGTGC ACATTAGCATGTACGCTTGT GTGGATTTTT TTTTTTTTTT TTTTTTTTTC TGAGACAGAG TCTCGCTCTG TCGCCAGGCT GGAGTGCAGTGGCGTGATCT CTGCTCACTG CAAACTCCGC CTCCCAGGCT CAAGCGATTC TTCTGCCTCA GCCTCTTGAG TAGCTGGGACTATAGGCACG CACCACTATG CCCAGCTAAT TTTTGTATTT TTAGTAGAGT TGGGGTTTCG CCATGTTGGC CAGGATGGTCTTGATCTCTT GACCTCGTGA TCCACCCGCC TCCACCTCCC AAAGTGCTGG GATTACAGGC GTGAGTCACC ATGCCCAGCACTTGTGTGGA TGTTTTAAGC TCCCAGGTGA GTGAATACAA AACTAGATCT TTCCCTTCTG TAGCATCTGT ACTGTTTACTCTATGCATCT CAATATTTTT TCTTTTAGTA TCTTTCCTTT TTCTCTCTTA TTACTTCCTC TTGTGCTATT TTTACACCTCCTTTTTTAAA AAATTTTTTC CCTTTTATTT CTATTGACCT TTAGCCCTCA CAATGATTCC TACAAGCCCC ATTTCTGTAAATGGGGATTG AAATAATTGC TGGACTTTTG AGAGATAGAT ATATTAAATT GCAAACTGGC AGTAGTGGGGGCAGTTGATA CATAACTAGG TTTTAAAGTC TAGCCTTCTG AGACCACTCA TTCCATTTGT GAAAAGTGAT TCTACTTCTTATTATGAGCC AAAATATGCA TTCATTCACC CATGCATTGA TTTATTCATT CAATAAATAT TTGTTGGATG TCCACTCTGTATCAGGAATG TGCTAGGTTC TGGGAATACA GCAATGAACA AGGTAATTTT TCCCTACCCC TAAGGAACTTAGAGTTTAGT GGGGAAGACA GACATTAAAC AAACAATTGT GCAAGTAATA ATCTATAATT ATTTATTACAATTAAAGGAA GGAAGAGACA TATGGATTAT GAGGGCATTA AAGAGGAGAC CTAGTGTAAG TAGCCAGTTCTCGTGAAGGG ACATGTATTA GTTGGAGTTC TCCAGAGAAA CAGAACCAAT GGTGTGTGTG TGTGTGTGTGCGTGTGTGCG TGTGTGTGTT GGGGTGTGGG GGTGTGGTAT TTTTTATAGA AATTGTCTCA CACAATTATG GAAGCTGAGAAGTCCCATGG CCTGCTGTCT ACGAGCTGAG AACCAGGAAA GCCAGTGGAA TACTTCAAAG TCCAAAGGCCCTGGAACCAA GAGTGCCAGT GTTGGAAGGC AGGAGAAGAT GGGTGTCCCA GCTTAAAAAG ACAGTGAATTCACTCTTTTT GCTCTACATA GGGCCTCAAT GGGTTGGATC ATGGCCACCC ACATTGGTGA AGGCAATCCT CTTAGTCTACCAATTAAATA CTAATCTCTT TGGAAATACT CTCACAGACA CACTGAGAAA TAATGTTTTA TCAGGGTGAT AGAAATCTTCTGGAGTTAAA CAATGGTGAT AGCTGTACAA TCACATACAT TTTTAAAGGG TGCGTTTTAT GGAAAGTGAG TTTTATCTAAATAAAATTTC TAAGAAAGAG ACTTAACACA GAGATAAACA TAAGCACATT TATTGTCAAC CTTTATAGTGTTATGTCAAA TAGGTCTGAC ATAAGCTTAA ATAAATATAT ACTTTAAAAA TTATAAAATA TTTTAAGTTA TAATTTAAAATTCTCAATAA AACTCAAACA CAAACCACAC TGGTATTTCA CACAGCTAAT TTCTAATGCA GTTTACATAA ATATTTACAACACTTAAACA ATTTCAAAGA AAATAACACT GTATTCCATA CATAGCCTGA TCACAGTAGT TGTTCTCTCT TATTTCCCAGAGTTTTTCTG CCCCTTTAAA AGAACCTCTG CTGTTCTGAT CCTTATCACA TCTCTGTTTT GACTGTTGGC TTTGTTGTTGCCAGTGTTCA GCCAGAACTT CTCTGAAACT TTTTTTTCAA CACATGCTAA GTTAATGGAA GTGTAGGAGA GTTTTGATTCTCACACTCCT CAAGGCTAGA GCAGCTTTGG CAATTACTGA CTGAGAATTT TTCATTGCCA GTGATCAACTGAAAACTGGA GATTCCTTTG GAATTGTTAA ATCTGCTTAT AAATAAACAT AAATGCTTGC TCACACAGGC ATTCCTCTCTTCCAGAGCAC CCTAACATAC AGAAGAAAAC AAATAGGGAA TAACTATTAG ACATCTTCAT TCGTTAAAAATCTACCAGAT GACTCTTTTA CATGGTGAGT TTCTATTGTG AATTTAAAAT CTTCCATAAT ATACAAGAAT TATGTTTACATATCATATCT GACAAACATC TTTGTAGGAA TGCAAAGCAC ATCCATCTTT CTGTATTCTT TTCCAACAAA GACATTCATAAAATTATACC TTTGTGTGTT TGCATTTATG CTTTTATTAG TTCAAAACGT TTGGCCTCAT GGAAGTTTTT CATCGTGGAAACCACATATT TCTGAAAAAA TATCTGACAA TATACAAACC TTCCATTCAG TTTTTACTCT CCAATTCTAC CATGTTTTCAAAAAACAACT GTAGTAAAAA CACTCAGAAC TTTATTCTGG TTAACATCAT GCCTTGCTAG GGGACAATAG TTTCCCTTTTTGAAATAAAT TTAAAACAGA TGTAACATAA TTTGTTAATA AACAATGAGG GGGTAATCTA GAATAAGTAACTTTTACCAT ATCATAGTTG ACAGCATTTA CAAGTTTTTT AAGTCCCTAC CACACTTGTA TTGAATGAAG AAGTATGGAAGATTATAATA TATTCAATGC AAGTAAAAAT ATCACAATCC TTAAGAACTC TTTAAGAAGC ACTGAATCCCATAGGGATGA AAGTGATTAA ATTGTGCATA GTAACCCTCG CACAGAGCAT TCAGTAGGAT TTGCACCATTAACAACCCTC CATGCATTTG CCTGTGGGCA TTCAACATCT GTCATTTTTT TAAGTTATAA TATTTTTAGT CATTTTTTTCCTCTAAACTC TGGATAATTA TTATTCATTC TTATGACAGC AACTGTGTAA TCAGCTGTCG AAACACTGTG AAGGGCAAAAGAAAGAAAGC CACAAAATAT TGTGTTTCTG TGCCAAGATT TTACAGCGAG CAAGGGAGAG TTAGAAAAGGAATTCTGAGA TTTCAGAGTC TTGGTCTCTT CACCTTTGCT TGGAAGAAAA TATCCTTTCC CTTCATTAGC CAACACTTTCTTGATCCTGA GAGTAGGAAA GGGAACACTG AGTCTTTTCA GTTGAAGGCC GTCCTTGCCT GCTGGACTTT GATCTATTGAAGTGGTGATG GGTGTTGCGG TTTCAGCCAT AAAGGCATCT GGCATAGTAG GCAAGAAGGG CCAGAGACCCGAGGAGAGTT ATCTGTCTCT GTTAACTTCA GTGTATCCCT CTAGTTCCCC AGATGCACCT GTTTCTGTAA ATATAAACATGCATGTCATC AGAACACTTA ATATTCTGCA TACTGATCAT GACAACAAAA TGTACCTTCT AACACAGACACTCTCACTAG GATAGACCAT GTAGGAACAT CGAATTCTAT TCAGTTAGGA CAGTGATGAT GTCTACATAT TATACCTCTGTCAAAACCTA CAGAATATAC AACACAGCAC AGAGTGAATT CTAATGTAGC CTGTGGACAT TAATGAATAATAATGTATCA ATATTGGCCC ATCAGTTGTA ACACTAATAT AAGATGTTAA TAACAGGGGG AATTGAAGGGGTGGTGGGGA GATATGTTGG AACTCTTTGT GCTTTCTGCT CAATTTTTCT GTAAACTTAA AACCGCACAC ACAAAAAAAGTTATTTTAAT TTTTTAAAAA GTATTCAGAG GGACTTGACC TTTCCAAATT CTCTCAAAGC AGGTCGGAGT AGTTAAGAACACAAATTTTA GAACCAGACT GCCAGAGTTT GAATCCTGGC TACACCACTT ACTAGCTTTG AGATTTCAGA CAATTTACTTAACTTCTCTG TCTCATTTTC TTCATCTGTG TGATAAGAAA TAAAGTAACA GGCCAGGCCC AGTGGCTCAC GCCTGTAATCCCAGCACTTT GAGAGGCCAA GGCGGGTGGA TCAGGAGTTC AAGATCAGCC TGGCCAACAT GACGAAAAAATACAAAATCT CTACTAAAAA TACAAAAATT AGCTGGGTGT GGTGGCAGGC ACCTGTAATC CCAGCTACTCAGGAGGCTGA GGCAGGAGAA TTGCTTGAAC GCAGGAGGTG GAGGTTGCAG TGAGCCAAGA TCATGCCACTGCACTCCAGT CTAGGCAACA GAATGAGACT CCATCTCAAA ATTAAAAAAA AAAAAAGTAA AAAGAAAAGATAAGAAATAT AGTACCAGCC CCTATCTCAG AGTTCCTAGC TTAGAAAAAT TCCCAGAATA TAATAAGTGCAATGTAAGGG TCAGCTATCT TCATTATTAT TATCTATCAT AAATGAAATT ACACAATAAA GCTAGATCCG TTTCTTTCCTCTCCTTCTAC AAAAAATAAA GCAACTTTCC AGAACAATAC CCAGGTGATG ATTTCTCCCC TGCTCCCTCC CTAAGATATTGGCAAGTTTG GAGGGTTCAA GGAGAAACAG AGCATGTAGA GAAGATACCT CTCTCATAAC CATTTGTGATTTACAAGTCT TACCTGATTC TTTTGAACTT AAAGGATGTA AGAAGGCTTT TGGTAGCTTC CATCTGATTC AAGGCTTTGGCAGCTGCTGT GGAATACATG AGAACACTAG GTAAAGCACT GTCTTCCAAC ATGAAGAGAG AAAAATATGTGGAATGTTCA ATGGCATGCT TTGTATAAGA ATGCAACTTA CCTGGCAGGA ACAAATTTCT TTGCTGCAAAAGAAAAGACA AACAACCATT AATTCAGACT AAATGACTTT TAAGGATATA TTAAATCCAG ATACAATATGACTTAATTCA TCAAGTGTTG CAAACTCGAT GCTTCAGGGC CTCTGTAATA ATCAGAGCAC AAGCATGGCT CTGTGGCATCTAGGGTAAAA TGCAAAGTGC ACAGCCATCC AAAGGGCATA GCAGCTTCCT AATGCCAGCA AATAGCTACGGGGTCATCTT GCCCAATTCA GCTCCCAATT TTTCATGAGA AGTCCAAAGT CTTAATTTAA ATGTGAGATT TCCTATTTTGTAAACGTCAG AACTTAACTC AAAAATGTTT TAAGTACTCT TAAACATGTA AGCCAAACAA ACCATGAGTGTAGTCAGATG TGCTTCCATA TTCCTTATGA GAGACTCTCA AATTTAAGCC TGTACTCCAA ATAAATCTCC TTAGGAAGAATTTTATCCAT TTTCCTTAGA GTGCTCATCA TGGCAGTTCC ATTGCACAAT TCCGGGAGGC ATCATATAAT TCAACATGAATAGCACCCCC TGGAGTTGTA CAATATTAGG CACGACTAAC ATTTTTATTT CCTGAAACAC TTCCCACACT GAGTTGTACTACTAACTCTT TTCTTAATAC TTCTGCTTAA TTATACTGCA TTTTATCCAG ATTCTAATTA TTGTTTAAAT CAGTAAGCAAGACCATGACT TATCAATGAG AAAGAAATGT ATTTTCAAAA ACATTTTTGA AGTACATTCA TAAACTTCCT CACCTTTCCGTAAGCATTTC CGAAGCCAGA GGAGAAATGG TGCTAATGTC AGGAGGGAGA GTCCAGCAGC AGAAAGTCCAGCTACCAAGG GAATGTTGGA CTCAGTGGGA GCTAAGGAAG TAAGAGACGA AGAAAGGTCA TGAGGAAGAATTGATGTTAA AGTCTCTCCG TCCTGTCCCT TTGGCCTTTT TTCTGTACAT TCATTACTAG GAGCAGAAGA GCTATCTAGTTTAATACAAG AAGCAGAGAT GTGGCATTAC AGGCCTTTGA GATCTGCTCC AAGCCACCTT TGAAGCTATT TCCACCATTGGCAGGCAGAA CTCTAACTTG CCAAGCTCGT TCACAATACC ACACCACACC TTGGTTAATA AACACTGCACTTGCTTGCTC TCTTGCTCTC ACTCCCTCTT GTTTTCCATT TCCCCTTTCT CCTCTCCTCT CTCTGTCTCC TTTTTCCAGTTGTCAGAATT CTACCCTTTC CATCAACATG CAACTTCTGT TTTTTCTCTA TCCCCATACA ACTTAATATT CACAACTTGTCAACCTGGGC GAACTTTCTG GTTTGGATAT AATGAATAGT TGATTACTGT AACAAGATAG CTCCCCCTTT TTCTTTTTAATCACCAGACA ACCACCATCA ATCAATGCAT CACCTTCACA GGTAGGTAGC AGGCCAGACC AGTGTCCTGTGGCTCCACAT GTCCGAGCTG CAGAGCCATT GAGCGTCCAT CCTTCAGGAC AGGCGAACTT GCACACAGTGCCAAACACGG GCTCCCCACT GCAGCTCATG TTGATCTTTC CCGGAACTGC CAGGCTTGAA CATTTTACCA CTGCAAATGTTAGGTACACA GGCAGAGTTT CAGAAAAATC TACTGGAAAA CTTCCAAAAC TTGCTTAAAA GTCAACAATGAATGTAAAGT GTAAGCGCTA CTTAGTTTTC AGCATGTAGG AAATTAGGAC CAAACCCCTT TGGGGCAATCTAGGTTCAGA AACTTTATGA AGTATTTGAC CTGTACCCTA AAAAAGTCTG CACTCAATTC TACCTTGGCAGGAAGGAACC TCTTCTGTCC ATTGTCCCTG AGATGTGCAC TCAAGTTGAG TTGATCCATG TAATTCAAAT CCCTCCTCACAGCTGAAGGC ACAAGAGGAC TTGTAGGTGA ATTCTCCAAT AGGGGAATGA GCACACCTCA CCAAACCCTTCGGGGGCTGG TGGACAGCAT CGCATCTCAC AGCTGGAACA CACGAGAGAG CACTTTAGAA GTTTGTTTGCATCTCCAGCA ATACGTTTCC CAAGGTAACC AAGTTCCCAA GCTCTTCAAT AGTTCTTTTT ATCTTAAAAT AAAATAAAAACAAAGACTGT ACCTTCACAT GTGGGCTTCT CGTTGTCCCA CTCCCCTGTG GGGCCACATT GGAGCCTTTT GGATCCCTTCAACACAAAAC CCTGCTCACA GGAGAACTCA CAGCTGGACC CATAACGGAA ACTGCCAGAA GCACTAGGAAGACAATTCAT GTAGCCTCGC TCGGGGTTGG ACAAGGCTGT GCACTGGAAA GCTGAGACAT CAAAATGATGGTCAGAAAAT ATTGCAGTGG AACTAGAGAG TACTTGGCGT TTGTTGAGTG AACCCAGTTC ATTCAAGCAACACTTGGAGA ACTGAAGATT CTTTATAATT CCCTGGACAA ATGGGAAGAT GGCTGTGTTT TCTTTGAATT TCAGCCCCCTCACTGATCAT GGCACTAATT AAAAGACTAA TTAATCAGAA CATTAGTTCC TGAGCACTGT TCTTCTAACACACAAAATAA ATTATGGTCC AAGGAAAGAT TTCACGCAGT CTGAGGACAA CATATGGGTC ATGGATGTTTATAGATGGTG CCAAAAAGAA AGAAAAGAAA GCACCCCTAT AAAATTTGTC TGTTTTGCAG TTTGGTTTTT GTGTTATGTTTTGCTACTGG AAATCATTCT GTGCTGGCTT TGGCTAGGAC AAGGCCAGTG CCTGATAGTA AAAACTGCTT GTTTTCAATATCCTTGCTCT CACTTTAAAG TGAATTAAAA TTTACTGCTT ATATATGCAT CAATACTATC TCTGTAGCTG ACACCATGCTTGAAACAGTC TCATCACTGC TAATTATGAG CCATTTCAGA AGACAGGTGT GATGAGAGTT TTACATTCAA ATCATGTTCTCATTATTCTG CTTTCCGAAT TTTCTAATAT GATTCCTTTA GATTAAGAAT TCTGTCTATT CCATGCTAAT GTCTACAAAGTTTTATCAGC ACATCACAGT TAAAAAAAAA CAGCAAAGAA TTCATTCTTA ACACATATGA TCCTTTCCCT GGCCAAACATTAGTTCTTTT AAATGAATCT CAAAGATACG AGGGTTGCTC ATCAAATCTG ATTTCTATAG TTAAAGTGGG TATTGGTTTTTTTTTTCACT GTCCAAGTTT GAAGATGGTT GTTCTTTAAG AAAGTATAAA TCGAAGGATC TCAAGCTTAC CTTCACAAACTGGGATTTGC TGTGTCCACT GCCCTTGAGT GGTGCATTCA ACCTGGGCTG GTCCCTGCAA CATGAAGCCT TCCTCACAGGTGAAGTTGCA GGATGATTTG AAGGTGAACT CTCCAGCAGG GGAATGGCTG CACCTCACAG AGCCATTCTGAGGCTGGCGG ACGGCCCTGC ATGTCACAGC TGTAACAAAT ATACGCATTG ATATTAGCAC GGCCTAGAATTAGCTTGCCC ATTTCCAGTA TGGGTTGAGA GAAAGAATGT TCACAGTAAG TCTCCATGTG GAACAACTCT ACCTTTACACGTTGGCTTCT CGTTGTCCCA ATTCCCAGAT GAGGTACACT GAAGGCTCTG GGCTCCCATT AGTTCAAATC CTTCTTCACAGTCAAATGTA CAGGTTGTGT TCCATGGGAA GCTTCCAGGG TTTTGGAAAC ATTCCACGAA CCCATTGGCT GGATTTGTCACAGCATCACA CTCAACCACT GAGGATTTTA AAGAGCACCA TGAATTTTAC AGAAGAATGA TCTTTTCACT TCCTATTGAGCTGGGTGCCT AACAGAGTGA GGAAGCTGCC TTCAAAGGGT AGATCCCAAA GTCCTATGTC AATTCTTAGGGACATGCACA GCCAGAATAA AAGCTTTTAT TCTTTTTCAT GGATATTCTA TCTTTTCTGA TTTCCACTTT GCCTATGCTGAGTGGTCTCT AATCTATGTT ATCATTTACG TGAGGTAAAA ATTTAAAAAA AATAGATTCC AGATTAGGAG TTATGACTAGTACTGACATA CGTAGGCTAT TCATTTATTT TAGCCCATCA GAGCCTGAAG AACTGATTTT TCTTTTTTTG GCCTCTGGTTCAGAAAGATA AAATTAAGAG AGAAAAAGAG ATACTAAGAC TGCTTGACTA TCATGGTCTT AAGTTAGTCCCATGGCTTGG AAAAGTTAAA CAGGGAAACA AGATGAGAAA TCCATTGAGA TTTCTAGAGC TTTATTGTTTTATGGTCTCC CTTACAAATC ACCAGAGCCT CAGAAACACC CATTTCAAGC ATAGAATAAA AAAACCTCTCTCAACCCAAG CAGGTACTGG GTTGGCAATA TACATTGGCT GAGAGAACAA ATTGTATTAA AAACAAAAACAAAAAAAAAA CTTTCCCTGA AGTTTTGAAA ATGTAAGTTG AATCAAAAAA CAGAAGCAAT GAGGGATGAGTTACAGAACG TTCTGTGCAT TCTCAGAGGG ATTTACCATT GCAGGCTGGA ATAGGAGCAC TCCATTCTCCAGAGGACATA CACTGCATGG TCTCCATGCT GCTTGGCAGG TAACCCCTAT CACAGCTGAT AGAGCAGGAAGAATTGTAGC TGAAGTTTCCCAGTGGGTGA CTGCAAACCA GGCTTCCATG CTCAGGGGAT TCCAGGGCTGTACAGTTCAC AACTGAAAAA GAAACCCAAA TCAGTTCTGC TCATCTCTCA CCTTTAACAG ATAAGAACACTGGAAACTAG AACTACAGTT TGGTTTTTTT TTTTTTTAGT TTAAAAATTT ATAAAATTTC TAATGGAATT TGTAAAATTGACTGTAATTC TACCCCTTTT CTTTTATTCA AGAAAATGCT GATCCATAAC AACAACAACA AAAAAGCAGTGATGACAACC ATAAAAAAGA AATATTGAGT GATATGGGGA GAGTAGTGTA ATTGTGTTTA CCTCAAAACTGTTCAAATTA TATGAACAAA CACAGCAAAC TTAGGTACCA CAACAAATTT CTTGTTACTT TTCTCACAAC TGCTAAAAATACTACAGTAA GCTTCCAACC AGGATGAGAA CCATTCACAA AGCTATATTT CAAATTTAAG TACTAGAATACATTACAAAT TTTAAAACCC TAATGCTGCA CTGTCTACTA TAGTAGCCAC TATCTGTGTG GCTACTCAAA TTTAAACTTGAATTCGTTGA AATCAAATAA CATTTAAAAT TCAGTTCCTC AGTGTCACCA GCCACATTTC AAGTACTCAA TAACCACATGTGGCTCATAG GTACACACTG GAAAACACAG CTATGGAACA TTTCCATTAT CACAAAAGCT CTACTGCACAACGCTGTGCT AAGGAATCTT GGAGAGAAGC TCATCTAACT CTCTTAATGT ACAAATTTAG GAACTGAGAC CTCATTTCATTCAAGTGACT TGCTCCATGC TACACGGCTA GTCATTACAG AGCCAGAGGC CAGAGCATGA ACCAAGATACCCTGGACTCT GTAACTCACT CATTTCTACT GCAACGTCTT GTTACCACCT AGATGAGGTG AGTACATGTT CCTCGCAGGGACACAGAATT ACAGTTTATT GAATGTGTCC TGTGTGCCAG GCACCATGTA ACCATGAGCC TATGAAGTTC ACACTATTATTATCCTCATT TTACAATGAG AAAACTGACA TAGAGAGTTA AACTATCTTG TCAAGGTGCC AAAATAAATAACTGGTGAAT CTAGGACTCA AACCCAGCAG GGTCTGACTT CATAGTCTCA GCTCACGATC ACCATATGACACCATCTGCA CCAGGGAAGG GAAGGCATGC AGACCTGACT CTAATGCCAG CTAGGACGTG AGATGGTGCTACCATCTCAA GTGAAGAAAG AGGCAAGAAC CAGACTTACT TTGCTCACAC TTGAGTCCAC TGAAGCCAGGGTCACACTTG CAAGTGTAAT TATTGATGGT CTCTACACAT TCACCGTGGC CACTGCAGGA TGTATTGGTA CAGGCAGCTACGGAAAATAC AAAGCATGAT GAGGAGGACT ATTACTGTGC TTATACTGAG TGCCTTTGAT TTTAGAATCAACAGTGTGCA ACAGAGACAT CAGCAGTCCT ACAGAGTGCC ATAGACTTTA ACTGAAGTGT TTTACAAAGTTCCAAATCTG AGTTTCAGGC CCACCTATCC TAAACCTTGA TGCTAATGTA TAGCTGTGGC TGGCACCTAC CGTAGAAAATTTACTTCTTC ACAAACTCTG AAGACAGTTC CCCTACCACA AATAAACAAG TAATTAAAAT ATGTATTGTG TGTGTGCATTTTTATATGTA AAGAACTACA TATTTGCCTA CAGTATTTAT ATATATTTTA TATATATACA TACACACATA TATGTGTGTATATGTGTGTA TGTATATATA TAAAATGTAT ATAAATGCTG TAGGCTATAT ATATATACAC ACACACATAT ATGTGTGTGTGTATATATGT GTGTGTGTGT ATATATATAC ATATCCACAT ATTCTTGCCC ACATTCACAC AAAACAGCAAAAGAGAGAAA CTTTAGCAGT TAAACAGAAT CTTTTGGAAC ATAAAATGAC CACAATAGAG AGCAGTTTTTGCATGCTGTA AATTTGCCAA GATGCCCACA CACTGAAACT ACCTCCCACT GCTGCCGCAA ACTCCCTACCTGTGTAGCAT AGGGCAAGCT TCTTCTTGCT GCACCTCTCA TCATTCCACA TGCCCACATC TTTTTCTCTC TTGATGTAGATCTCCACGCA GTCCTCATCT TTTTGCCTAT TGTTGGGTTC ACCTGGAGCC CAGTTCTTGG CTTCTTCTGT CAGAGGTTTCTGGGTTCCTA CCCAGACCCA CACATTGTTG ACTTTTCTGA TTCCAATCCA GTAATAACTT GGTGAATAGC TCAATATGGAGTTTAGGTAC TCAATCTCTT CTTTGTTTTG AATTGCAACC AGGTGTGTGT ACCTTTGCTG ACAATAAGCA CTGGCCTCATCATAAGTCAT AGCTTCCGTG GAGGTGTTGT AAGACCAGGC TCCACTCTCT TTAATGAGAA GCACTAGTGGGAGAAAAAGA AAAGAAATGG TAGAGTTTGG TACTGTTGTG GTTTAACTCT GACAACTGTG CTTTTTATTG TCTTATTTTTGGCAATGTTT GTGACATGGC CCAGACTTTT CTCATCTTTT CAAAAGTAAG AAGTACGTAT GAAGAAACAG CGACTTATTGTTTATCTCTT TTGTGACTGC CACCCACTAG GTACCTTATC CACACTCACT CACAACATTA TAGTATACCC ATTTTGTAGTAGAATAATAA TCAGAATAAC TAAGCTTTAT TGAGCACTTA GTATGCACCA AGAAGCACTG TATGAGGTACTTTCCATGAA CCATGCTATT GAATCCTCAC AATGCATCTG GGAAATAGGT CATTATGATC CACACTTTAC ACTTAAGGAAAGGGAGACAC CAAGAGGTAA AGTAAATGAC CCCAAGCCCA GGGAAGAACA CATTGCAGGT AGAGGTCAAGGATGCTGCCA GATATCCTGT GCAGGACAGC CCCAGACAAG CAAGGATATT TCAGTCTGAA ATATCTATAGTGCGAGAATG AGAAATCTTG GTCTAATGGC ACTGACTTAC CCAAAGTGAG AGCTGAGAGA AACTGTGAAGCAATCATGAC TTCAAGAGTT CTTTTCACCC AAAGGTTTAG GCTTGAAATA CTTTCCTGGG GAGATAAAACACAAAATGAA TTAAAGAAGG AAATCGTGGG TAGCTAGTTA CATTATTCTA CCATGATGTT TAAGGCAGCATCCTAAGATT TTGGGCAAAG GACACTAGTG CAATAATCTT TATTTCAGAG TTTAATCAAA TAAATAAACA AATTTTAAGACTTTCATTAT TTAGGTCAAA GAGAAAAGAC AGGTTTTAGC TACAATACAA TAAGAGCTTG TACAGATGTG GTTTTTATTAGAAGGCCTTT TGCATATCTG TGTTTCATGG CCCGAGGCTG CCCTTATAAA GCGTTCTGCA CTTACCGTTT TGGGAAGCAGTTGTTCAAAC ACAGGATCTC TCAGGTGGGT ATCACTGCTG CCTCTGTCTC AGGTCAGTAT AGGAGTTTTG ATGTGAAGTCAGCCAAGAAC AGCTGAACAC TACTTCGGCT GAGGCCCTTT TATAGGAGGG ATTGCTTCCT GTGAATAATAGGAGGATATT GTCCACATCC AGTAAAGAGG AAATCCCCAA TGGCATCCAA AAACTTTCCC GGGAATATCCACGATGCTTA AAATTACAAT GATGTCAGAA ACTCTGTCTC TTGAAGCTAC TTCACCTTTG TCCATGCCTT TATATCGTATATGCAATTTT ATTAATATGA CAAAAATGCA TGATTTTTAA TTATAATAAC ATAAAGTCTA TGTCTTTAAA AAGTTGTAAAACTTTGCTTG TTAGTAGTGT CTCTCATGTA GTTGTGGTAG TAATTAGAAT TTCAGAAACA GAAGGAAACCAAGAATAGGT TTGTCATCCA TAGTCTACTA CCTTCAATTT CTCATTCATA GCTGTGGATA ACCAATCACT ACTCATTTTTTCTTCCTTTT TCACCTGCCA ATTCAACATA TTTAACATGC ACTGTCTCAC AGAGGAATGA CTCACAAGGT AGATATTAATCTTCAGATTT TGCACGGCAG TTATGCCTAA ATTAAAATAT TATCTAAAAA TAATATCTAA CACTCAAATG GTTAAAATAATGCCTTATTT TAAAAAAAGA AAAATGGGAA ATAGATATTT ACATCTGGGA AAGTTTCATG GTTTGTTCAGTGAAAAAAAT AAAAAGGAGG CCAGGCACAG TGGCTCACGC CTGTAATCCC ACCACTTTGG GAGGCCGAGGCAGGCGGATC ACCTGAGGCC GGGAGTTCAA GACCAGCCTG ACCAACATGG AGAAACGCCA TCTCTACTAAAAATACAAAA TTAGCTGGGC ATGGTGGCGC ATGCCTGTAA TCCCAGCTAC TCGGGAGGCT GAGGCAGGAGAATCGCTTGA ACCCGGGAAG TGGAGGTTGC AGTGAGCCAA GATCACGCCA GTGCACTCCA GCCTGGGAAACGAGTGAAAC TCTGTCTTAA AAAAAAAAAA AAAAAAAGAA AAGAAAAGAA AAAAAATAAA ACGGAAAACTATATATATAT ATTTAATTGG TCAAAATTTT GTTTAAAATT TTTGAAATGT TAATGTGCAA AGAATAAAAA TTCTTCCACAATGTTAACAG TGACTAACTC TGGATGGCAG GATTTGGGAT AATTTTTATA TCCTTCATTA TTATTTTCAG GATTTTAAAGTTTTTTTCAA TTTCCCTTTT TTTCACCTTT ATAGTAACAA GAATACAGTT TAAAGAAACT TGTCTCTAGG CCAGGCATGATGGCTCATGC CTGTAATCCC AGCACTTTGG GAGGCTGAGG TGGGTGGATC ACCTGAGGTC AGGAGTTCCAGACCAGCGTG GCCAATATGG TGAAACCCTG TCTCTACTAA AAATACAAAA ATTAGCCGGG GTGTAGTGGCGCATGCCTGT AATCCCAGCT ACTGGGGAGC CTGATGCAAG AGAATCGCTT GAACCCAGGA GGCAGAGGTTGCAGTGAGCT GAAATCACAC CATTGCACTC CAGCCTGGGC GACAGAGCAA GACTCCATCT CAAAAAAAAAGAAAAAAAGA AAAAGAAAAG AAAAGAAATT TGTTTCCAAA TGCAACAGAA GGAGATGTAT GTGGTATCCTATATTCCTGC TCTTCATTTT GACATTTCTT CTGGGTGATT GTATACATTC CCCATCTCTG CATCTTACCC TATCTAAATGATGGTAACAG TAAATGGGGA TCATTTTAAT TTCCATATTC TGTAGGTTTT CAGAGCTCAA GTCAAGCTAA TATTCTATATCTACAGCCTT TCAAAATAGG AGGTCTATCT AAAAATGTAC TGTCAGCAGA CCTGAACGAG TAGTGGTAAAAGCCTCGTTT TTCTCTTTAC TTGTTAGCAC TGGTCTTTCT GTGTTCATAA AGATGTCAAG ACCCAAAAAA AAAACAAGAAAAGAGAAGAA AAATTCCAAA AAAGACAACT GATTAGAAAA AAATAACTTA ATTAACGAAT TTAATTCAACCCCTATCAAA AAGCATAGAA TTTATTCCCT CCACCTTACC ACTCTCTTAC ATGATCCAGA TACTGACATT ATTCCAATTCTTTATCCCAC TTTACTTAGC TCAATGTGGT TGTTGCTTCA ATAAATTCAG AAGAGTAATC ACTCATATAG TGTTTATTTAGATTTTAGGG CAGAATGTCA AGTTGGGTTA ATACATTATC TGTATGTATT TTATTTTTAA TAAAGTATGA ATACATAATCTGCTATTTTT AAAAAGCATG GTCAAATGTA TAGAGTAGCC AAATCTTAAA AAACAATTTA TCTTCGATAT CAATAAAGTACCTAATAATT ATATTGCTAA TAGAAATTAG TCGTTAACAT CCCTAGATAA CTAACTTTAT TATTGCGAAT TTTTCATAACTAAGTTTATA GTTTATCTCT TCCCCTTTTT AAAATTAGTT CAAAGATATC TAAAAATAGC CCCAGTGGTG ATGAAGTTTCTATTTTACTT ACATATATAT GTCCTGGACC CCCAATTATA ATCTCTAACA TTTATTGAGT GCTTACTATG TGCCAGGCCATATTCTGAGC ATTTTGTATG TTCACCTATT GATTATTCAA TCCGTACAAC AGCCTATGAA ATAGGTACTC CTATTATCCCCATTTTACAG ATGAGGAAAT TGAGAATCTG GGGATTTTAT CTCATTCAAA AGCACAGAGC TAAGGGTTGAAACCAGGCAG TTGATATCCA GAGCCCACTC CCTTACCTGC TACTCCAAAC CATGATTTCT TTTGTTGTTA TGCCCCGAGATTCCTTGTTC TACCCAAGTT TCCTGTACTC TTCTTGCCCT CTTCTTCCTG AGACATCCTT GACCATCACA GCTCTCCACTGAGATAACTG TGTCCTGGGT TCTGAGACAT GGGGGCTGGA AGGGACCCCA GGGACAGTGA GCAGTAGGGAGAGGATGCAG TGAGAACAGA CCCTGGATCC CCGGTGCATA GGCAGGGAGA AAGTGGACAA AGGAAAAAACAAGCAAGGCA GGTGGAGCCA TGCCTAGGTA AAGTTGATCC CTAAGCCACA GTTCCCAGAA GTTCCTGATTCAAAAGCAAA TTTTCTCTAA GGTCAAAGGG CAAACTGATT ATTCTAAATT CTAAACTGAT TATTTCTAAA TTGAGAAAGCTTCAGGGAGA GATCCCAATA TTCGAAGGAT AAGAGAAATG AGGAGTGGAA GAGATAGGTG AGTAACAGTAACTTAAATGT AGACTATATA TAATATATAA TATATGTAGA GTATATATAT ATAATTACAA TATATTATAT ATGTGGAATATATATATTAT TTATATATAT TTATATATTT TATATATATA GATATTTTTA TATTTTATAT ATAAATATAG ATATTTTTATATTTTATATA TAAATATAGA TATTTTTATA TATATTATAT ATAAATATAT GTAAAATACT GTGAAAGAAG AATAGAATCTTGAGACCTCA AATTCACTAT GCCAAAGGGA AAGTTAAGCT TGGGAAATGA GTCATGCAAA AACTGCCTTCCTTTTGTTCC CAAATACCTG TAATTTCACA TGCTTACTTT ATCTTATATA AAATGTAGAT GTACTGAGCA TGAGATCCATGCATAATTTC CCTCTAGTCC CTTCTTTTTA CATGTAAAGT GTAGACTCAC TGAGTGTTAC AGAGCCTTGC CACAATGTAAACACTTGTCT CATTGCCAAC CCATCTTTCG TTTATTTTCT TCCCCTCCTG CTTGCTCTTT CCCCTCTAAA GATGGAAGTTCCCAAAACTC TCTTTGGAAA AAGCGCAGGT CACAGATCCT ACAGTGATTT GTGTTTCTTT TACCTGGGAC AAAATAAACCTCTAATCTGT TGAGATATGC TTCAGTTACT TTTTGGTTTA CAATATGTAC ATGTATGTAT ATAATTTATA TGTATATAATATATGTACTT GTTTTAACCA GAGGTATGTT ATTCAAAATC CATTCATCCT TACAATTACC TGCATTCTCC CACAGTATTTTCTGTGTCCC TGCCCCCGAG GTTGTCACTG CAAATCAGGT ACATGGATAC TGGGAGCTGA TGGGCTCCCC TCTGGCTACCTGGGCTGCTG AAGGGGCCAT AGACAGACCC AGCTTTCCTC TCGTGGAGAG GCCCTGGGCC AGCGCTGCGTGGGAGTGGGA TTACAACCAG ACTATAGCTT CTTCACCTGC TTTTTCCTAT CAGGATTTCA TAAGAGGCAA TTGCTTGTTTTTTGAGGGTG GGGGCAAATC AGGGGGAGTT GAAGAGGAAA TTGGGTAAGA TTTGAATAGT TGGGCATGTTGAATATTATG AATATCATCT CCCTCTTCAA ATAATCCAAA ATATACCCCC AAGAAACAGG CTGATTAGAGGTGCTTCAAG GCTCCACTGA ATCTCCCAAG CTCTGAAGAT GTAGCTAGCT GTTACCGGAT TGCCGGTTTT CAAGCCTCGCCTCACATGGA CCCTCTTGGC AGTTTCTCGC ATGGGGGAAG CATCCGCTAC ATAGATGGGA ATGAAAAGAGGAAAGAAGAC GGTGCAAACT CAGGCACACC CCGGTGTCTG CCACCAGTGC TATTTAATCT CTGAGGTGTCACCCTTCCTG GCTTTATTGT CTCTTCCTGG AAGTCTCTTG TCCTCTCCTC CACACCCTTT AATCAGGCAT CAAAGACTTTAACCAGTTTT GCTGTGTGCC CAGGCCCACT CATTCTCACT TTTATGGCAA AGGGAGTGGG AGACAGAGAGATAGCCAGAA AGAAGAGATT GGGGACCCCA AGACAAATGT TAGAATTTTA ACCAAGGCCA CCCTGTGGACAGGAGATTAT TGGGTTTAGT GGAAAGCAGC ACTGGCCACA ACCACACGTG GCAAAAGCAT CTATCGAGGAGTGAAGTTAT ATTTGGTGAA TGTGACCGGG AAGCAGGGGC AGTGGTGTCC TCCTGCCTTC CTGAGGCACT CTGTTCCCTTACCTCTGCGA AGGCTTATTT TACCCCTGAG TGCTTAGTTT TGAAAGCCTT AGTTCCCTCT CTCCCATAAA AAAGCTCTACTCTGCTAACA TCTAAGTTAC CTTTGCAGAG TCTTAGGTAG AGGGAGGAAA TCCCAATAAA GATTCCACCCTATCTGCAAA ATACAAACAT GGTATTTCTT GCATTCCCAA AATTGTGAAA GAAAATGTGT ATCACCACAGTAGAGAATGG CATTTTTTGT TTGATCAAAA CCTAAATATA TTTGATGAAA ATGTGTCTGG TTCTAAGTTT ATTTCCCAGAAAGCCATGTT TACTCACTTG GAATTTATAG ACATCTTATA ATATCTGAGT CGAGTAGGAG CTCCGGGCTC TACCTCACTCTTTTCTCCCA CACCCAGGGG GAAGTGTAGG GTTCTCAGAC TTTAGAATAA AGAGGAATCA CCTGGACAACTCACCTAAAA TGCACATCTT CAGGTCTCAT ACTCAGAGGC TCTGACTCAA CAGGTCTGGG TGGCGCCCAAGAATTTGGGC TTTAAATGAG TATCTCAGAT GATTCTAATA CAGAATGTGT AAGATGACCA GATCCTATCA CACTTAGATGTATTGGCCTA GGGCCACCTA ACTTGGAGAA AATGTTAGTA AGACCCCGTG GTTGGTGCTC AGCTATAGGTACCAGAATTT TGATCAAAAT TTACTATCAT TGTGACACTT CTCTTCGGAA CTGGAAGGCC AGAACCCCAC TTGTAAAGTGCTGGGAAAAT ACAAGGAAAA TTTAGGGTGA GTAGCATTTT GAATTCTTAC ACATGGAAAG TAAATGTATAAGAATTCTTA CCAATAAAAA AAAAGCAAGA GAGAATAGCT GCTAAAGAAT TAACACAAAT ATGTATATATTAGTTATTCT CTTTTCTCCT CTGATTCCAG AGGACTTTGT AATTCCACTA ATTCTTCTTG AGCTTCCAGG ATGATCTGAGACTTGAATTT TTCATGTGCT TTTTGCTTCC TATTTGGCAG CATCTTATCT TGAAGTTTCC GCTTTCTGCT TGGGGACCTAAAAACTAACT AATGGGAATT TCTTCAAAAT GAGCAAACTC TGGTGAATTC CCAAAGCGGA AGAAACAAGTGAGGATCGGG CTGGTTAATT AAGAGAACTT TTCCTGAATG TAGCCAGACT GTTTGCCGAC TGTTGTTAACATGAGGGAAG AAATACCCCT GGATTTTAGA AGAGCCCCTT GTTTGTTTTC CTTGGCCATT TGTGCTGCTT GTTTTGTAAGTCAGAAATTT CCTGAAGGAC TATTATTAGC TTTGTTCTCA CGTCAGAAAA CTTCTGCTCT GGCCACTTTT AAACATATAACTTGGATTTT ACTGTATTAG AAAATGTAAC AATTACAGAC AGCACTAAAA GGACACCAAA GGGCAAAGAAAATGGGTAAC TTTTTTTTCT TCCCCAAATC TAAAATAGGT GATTTTGGAG AAGTAGGAGA AAAACCTGGA TTTTCTAGATCTCTTTAGAG CTCAACAACT GATATAGTTA ATTATGTAAG TCTTTGATAT TTGGAAATGA TTGGATTAAC CGGATAACAATGAATATTTA AATACAGTGA TTTGGCCAGG AGCAGTGGCT CATGCCTGTA ATCCCAGCAT TTGGGGAGGCTGAGGCGGGT GGATCACCTA AGGCCGGGAG TTCCAGACCA GCCTGGCCAA CATGGTGAAA CCCCATCTCTACTAAAAATA CAAAATTAGC CAGGCGTGGT GGTGCAAGAC TGTAATCCCA GCAACTCGGG AGGCTGAGGCAGGAGAATTG CTTGAACCCG GGAGGCAGAG GTTGCAGTGA GCCAAGATCA CGCCATTGCA CTCCAGCCTGGGCAACAAGA GCGAAATTCC ATCTCAATAA ATAAATAAAT AAATACAGTG ATTTAACACA AGAGATTTCTATTTCACACT AATGAGCTCT GTCACTGGGG CAAGCTTCTT TGCCTCATTA AGTCTCAGAT TTCCCGAGAG CTTATTTATTTATACCAAGA GTGCTTTACT ACCGTCTCTG CTAGCTGTGA CATAATATGA CAAAAGGTAT AAATATGGGAAAAGGCACTA ATTTATATCA AAGCGTTCTT CGTTTTTCCT TGCTGTGAAG TTTTTAGCTA ATAATTCATA AGAATATACCATATTTAGAG TGTTTACTAT GCATGGGCCT GGCACTTCAC ATACATTGCT TCTTACAAAT TTTACAAAGT GAAAGGTAGATATTAATCTC ATTTTATGGA GGACAAGATA GAGATCTGGA GAGGTTACAT AACTTGCCAG TGTTTTTTCA GTTAATAAATGGTAGGGTGG AGATTCAATC TGTGTTACTC TAAAGTCCGT GTCCTTTTTA TTGGCTCCAT GCCTACTCAG ATTTAAATCTCAGCAGGGAA GTAAACCTTA GTTTTTACAT GAGAAAATGT TACAGCAGCC TTCTCGGCTT CCTTTACCCC CATCCCAGTTTCACGAGCTT AGTGCCTTAG ATCGGGTTCC TTTAGAAGCA GACCTCGAAA TAAGGATGTG GGTGCCAGTCATTTATTGAA AAGATGATCC CAAGAAAGCC TAGTAGGAGA GTGAGGAAGT GAGATGGGGA AAGGAAGAAACTCCACAAGA AGTGTGTTAA TAAGCAGGTT ACCGCTGTGG GCAGCCATGG GGCTCAGCTG CACTAACAAACTCTGTCTAG TACAGAAAAC CTCAGGGTCT CCCCAAGGAG GGGCAAGAAG TCTGCCTAGG GTATATATCCGCCAACTCAG TCACTGGCTG AGAGCTGATC CTGGGAGGGC ATGGTTAATT CCTCTGCACT TTCAAGTGGA TTCCTGTGGTCAGAAAAAGC CCTCTACAAT GAATTCCAGA TGCTTGTATT TAAATCTGAC ATGATCTGAA TGCTGTGTTGGGACAGGGTG GGCGTTATTA GTTTTCTGTC ATTACTGTAA CAGATTACTA CAAACCTGAT GGCTGCAAAC AACACATATTTATTATGTCA TAGTTTGTGT GGGTCAGAAG TACAGGTTAG CTCAACTAGT TTCTCTGCTC TAGGTTTCAC ATTGCCAATATCAAGGTGTC ATCCAGTTGG GCTCTTCTTG GGAGGCTTGG GGATGAATCC ACTTTCAAGC TCATTCAGAT TGTTGGCAGAATCCAGTTCC TTGTGGTTGC AGGACCAAGG TCCCTGTTGC CTTGCTGGCT GTTGGCCAGG AGTCATTCTT AGCTTCTAGAGACTACCTGT ACTCTCTGAC TCGTGTCTCC ACTTCACCTT TCAAACCAGC AGCGGCTAGT CGAGTCCCTC TCTTCAAATGTCTCCAACTG TGCCTTCACC TCATTTCTCC TCTGTGTACC ATGTCTGCCT CTACTGCTTG TAAGGGCTCA TGGGATTACATTGGATTTAT TCAATCCAGG ATAATCTCCA TATTTTAAGG CTAGCTGACT AGTGATCTTA ATTCCATCTA CAAAGTCCCTTCCAATAGTA CTGTATTAGT CCATTTTCAT GCTACTGATA AAGACATACC CAAGACTGGG CAATTCACAAAAGAAAGAGG TTTAATTAGA TTTACAGTTC CACATGGCTG GGGAAGCCTC ACAATCATGG CAGAAGTCAAGGAAGAGCAA GTCATGTCTT ACATAGATGG CAGCAGGCAA AGAGAGAGAG CTTGTGCAGG GAACTCCTCTTTTTAAAACC ATCAGATCTC ATAATACTTA TTCACTATCA CAAGAACAGC ATGGGAAAGT CTTGCCCCCA TGATTCAATTACTCCCACCA GGTCCCTCCC ACAACATGCA GGAATTCAAG ATGAGATTTG TGTGGGGACA CAGCCAAACCATATCAAGTA CCTAGATTCA TGTTTGATTA AACAACCAGG GAGCAGAAAT CTTCAGGAGT GGGGGGCATCTTTAGAATTC TGCCCACCAA GGCTGGGCGC GGTGGCTCAC ACCTGTAATC CCAGCACTTT GGGAGGCCAAGGTGGGTGGA TCATGAGGTC AAGAGATCGA GACCACCCTG GCCATGGTGA AACCCCATTT CTACTAAAAATACAAAAATT AGCCAGGTAT GGTGGTGGGC ACCTGTAGTC CCAGCTACTC AGGAGGCTGA GGTAGGAGAATCACTTGAAC CCAGGAAGCG GAGGTTGCAG TGAGCCAAGA TTGCGCCGCT GCACTCCAGC CTGGGAGACAGAGCAAGACT GTCTCAAAAA AAAAGAATTC TGCCCATCAT AGTAGGCTGT CCTACAGAGA CATAACCCAGGAATTAGGTG AATGGCTAAC CTAAATTAGC ACTGTGATGT GTTTTCTGAC TTGGTCCTTA TAGCTCCTCT GCTTAGATGTGGAACTAATC CATGAATGCA AGGGTTTGTC TAGAGTTTTA AGTGGGAGTT AAATATCCAA AGTACAGGAGATATTATGGG TGCCTCATCC ATGTCCCCTT GGCATTTATC TTTCTTGGAT AACCCAACTC TATTAGTTTT TATATCTCACTTGTTCCTAT ACTCTGTGAA CTGATGTCCC ATAAATAGAC ATTTCATTTT GCCAGTCTTC TTGAACAATA ATTACGATTATTAATCTAGC AGTTATCATT AATTGGCCAC TTCACATTAG ACACAGCACT TAGGACTTAA GAATACCATG TCATTTGATCATCATAATAT GGTCAGGAAT TAAGTATTGC TATCCAAATT TTACAAAGAA GGCACTGAGG GTTAGAGTTTAAATAACTTG CTTAAGATGT CATAGCCTGT AAGTGACAAA ACTAGGACTC AAATACAGGT CCATCTGACTCCAAAGTCTA TGTTCTTGGC TACCACACTG CCTCTCCTAC AAGTGACCTG TGGTTTTACT ACTATATTCA CACTCTACTAACTTTACCAT CTCCCATGAG TCTGTCTAGA GGAGGGCACA CACAGCACAG AAAACACATG AATGCAAAATAAGGAAGGGC CTACTTACTA CACAGAGCCA TTCTAATACC TGATGTTTGC TCTAATCCAG TTTTACTATT AATTAGTTGCTGGTGCCCAA GTTTTTACTG AGAAATGGGG ATAATTTTGG AAGTCATAAT GATGCCTTCT TCTCATAGGG TATTTTATTTGTTGTTGTAT CTCCAGGCCC CAACACAGCC TGGCTTTTAG TAAATGATCA AAAATACCTG TTGAATGAATAAATGGAGTC ACCTGAAACA TGTTAAACAT TTGTTCATGT GTCCTAATCG TGGATTTCAG GATAGTAAGCATCCTAAAAG GAAAGCATGC ACACTGTTCT TGCTACATTA ATTTCTCACA ATATAAAAAA AGAAAAGCATCTGAAAAAAG CTGCCAGCCG CTGTGTCTCC TAATATCAAA CTGAGCACAG ATATGGAGAA GCTAAGGGAGAGGGATGATG GGCCATGCCT CTAACCTCAT CATGGCAAAA GTCCTGGGGG TCAGACCCGA GGAGAGCAGGAAGTGTCTTT TGAGGGATAC ATTTCCACAG TGGAAATAAT GAGACTTAAA TAAATATTAT ATACACAGTT CAACTGTTTTTATGTGTAAA GGTAGTAGGT TTTCACAGTA AGGAAGCACT TCTTTTTTTT TTTGTTTGAG ACAGAGTCTC GCTCTGTCTCCCAGCCTGGA GTACAGTGGT GCTATCTCGG CTCACTGCAA TCTCTGCCTC CTGGATTCAA GTGATTCTCC TGCCTCAGCCTCCCGAGTAG CTGGGACAAC AGGTGTGTGC CATTACACCT GGCTAATTTT TGTATTTTTA GCAGAGATGC GGTTTCACCATGTTGGCCAG GCTGATCTCG AACTCCTGAC CTCAGGTGTT CTGCCCGCCT CTGCCTCCCA ATGTGCTGGG ATTACAGGCATGAGCCACTG CACTCACCAA GCACTTCTAC TGATAGCATT TACAAACCCT TCTTAGAATA TTTAAAAATT CTAAGAGAAGAGTAAATTGA GCCTTCCCAA CTAATACTAG GAGGTTATAA CCTTCATACC AAAACTGGAC AATGCTTGCACAAAAGAAGG AAGCCAATGA GGCCACCTAG AAGGAAGACT GGGCATTGGG CCCAGTGAGT CCTGGAAACCTCATCTGTGC CAGCCACCCC GGCATGGCCT GTATGAGTGG ATGAGGGTGA CTTGTCCACA GACAATAGCCATCTAGCTGT GATAAAGGAG TCAAGGTAGT CAGCTGCATC TCTTTCACCT GTTTGCCAAT GTTACACAGG TTGAAAAGCTAAGGTTTATG TAAAGCAAGC ATCAAAGATG ATGAAATGAT CAACCTGACA ATGAGTACTA TGCTGCATTGTCCAGAAAGG AACTGTGGAA GATTTTGGGC TGAATTTCAA AACAGAATTT CCTCACTCTC TGGATGTTGG CTTACTTGGCCTTTGATGTT CAGAGGTGGT GCCTTTGTGT TGTTGAACAA TGTTGATTTT GGAGAGAAAA CAGAGTTGAAAAACCCACAA GTCATTCCCT GGGGAGTATT ACCGGAATAC AGAGGATAAT TTCAGCAAGC CAGCAAGGCCTCATCTCTGC TTCTAATAGA TAGGAAGAAA GGAAGAGAGG AACAATACTT TTTTAAGAAG CTCAGCTTTA TCGCCTTATCTCATAGAAAG ATGCCTCCAG TCTGTCTGGC TAAAGGTAAT TGGCATGGGA AAGTCTTTAT CTGTGATTCTAACAAGTGGA ATGTTTCCCT TCATTAAGAG AGCCTTGTCT GGCTTGGGGA AATGAAACAC TTTCTCCGATATGAGTGGGC TGTAACCCCT GCTACTAAAT ACTCAGAAGA AATAAGGCGG TTGTGGAGCA GTCAGGAATGAGTCACTTGC CTCCCTGGAA TATTCAGAAA ACTGAATCAA AAGTACATTC TTCTGGGTTT TCTTAGTCTA ATAGACTAAGGGTCTCTACT TTGTTAAATT TCTGGGAAAC AGCATAGAAT GGGAGAAAAA ACTGGTCACT GTAGTCATGCAAATCTGCAA AACAAACAAA AAAGTCTGGG TATTGCTGCT AACTAGCTAT GTGACCTTAA GCAAGGTATTAACTCTCTCT GAATTTCAGG TTCTTCATCT GTTAAATAGC ATATCTGTAA AATGGGAATT ATTTTCATAT CATAATGCTGTAGCTTTAAA AAATAAAATA AAATGGATGA GATAATCAGA ATTAAAGAGC CTGGGATATA TAGTTAATATATAGCAGCAT GTAAAGATCC TGTTAGAAAT GCTAATTTTA CAGTTAACCA TTTGGAGATG ATCCGCCAAAGCTGCTAGTG TAGAGGCAAC TGAGAATTTG CCTGTCCTTC AGAATATGAA TAAATAACTG TCAATGATGTCTCAAGCCTA GAAAAACCTA TCCATCTGGA TGGGTGGGAA ATTTCTAGGC TAGTATTGAG AAGCCCATTTCTTGGGAAAT AGGTCCTGGA CTGAGTGAAG GAAAAGAAAC AGTAAAACCC ATGGTAAAGC AGCAAGGCTCTCTAGAGGCT CTGGAGAGGA TGAATTGAAT TCTAGAAGAT GAAGTAGGGA AGACGCTTTA CCTTCTTGTGAAATGGATTC AAAGATTCAA AGACCTTCGG GAATCTCCAA TTGTATAAAT GGCACCATAG CTGTATGTTCCATGGAACAC TACTTCCCAG AGATGCCCAG TGAAAAAAGA ATGCCACAGT CAAATAAGTT TGGAAACACTCCATTATGTG GCCACCTCCT TGAAGACTCT AATGCACATT AGCATGTTAA ACAGTCTTGA GAAGTCCTGCAGAGCAGAAA TTGCTTCACA TCTGCTAAGC CGGCAGTTTC CCAATATACT TGATTATGGA TAGTTTTTTC CTTACAACACCATTCTCTGA TATGCTTCCA ATGACATGAA ATAAATATAT ATGCATGAGG TTCTTCATTA GGGCATACTT TTTAATAGAAAATATTGAGA ATAATCTAAA TATAAATGCA CAGCATTTAC CTTTTCTGCA TAAACTATAT ACAGGCATAC CTTGGAGATACTATGGGTTT GGTTCCCACA ATATCTCCAA AACCACATTC GGTTTTATGA CCACTGCCAT AAAACCAGCC ACATGAATTTTTTGGTTTCC CAATGTATAT CAAAGTTACA TTTTTACTAT ACCATAGTCT ATTATATATA CAATAGCATT ATATCTAAAAAACAACGTAA ACACCTTAAT TTAAGGCTGT GGCTGGTTTG ATTTTCTACC CAGACCACTA AAACTTTCTT CATATCAGCAATAAGGCTGT TTCACTTTCT TACTATTTTT TGTGATAGCA CTTTTCCTTT CCTTCAAGAA TTTTTCCTTT CTATTCACAATTTGTTTGAT ACAAGAGGAC TAGATTTTAG CTTATCTCAG TTTAAGGTGT TTACATTGTT AGCTAAAAAT GCTAATGATCATCTGAGACT TCAGCAAGTC ATAATCTTTT GCTGGTGGAA GGTCTTGCCT CAGTGTTGAT GTCTGCTGAC TGGGTGGCTTTGGCAATTTC TTAAAGTAAG ACAACAATCA AGTTTGACAT ATCAATTGAC CCTTCCTGTC ATAAATGATT TTTTTTTTCTCTGTAGCCTG CAATGCTCTT TGATAGCATT TTACCCACAG TAGAATTTTC AAAATTGGAG TCAATCCTTT CAAACTCTGGTGCTGTTTTA TCAACTAAGT TTATGGAGTA TTAGAAATCC CTTGTTGTCA TTTCAACAAT GTTCACACCA TCTTCCCCAGGAGTATATTC TACCTCAAGA AACCACTTTC TTTGCTCATC TATAAGAAGC AGCTCCTCAT CCACTAAAGT TTTATCCTGAGATTGCAACA ATTCAGTTAC ATCTTCAGGC TCTACTTCTA ATTCTAGTTC TCTTGCTGTT TCTATCTCAT TTGTGCTTACTTTCTCCGCT GAAGTCTTGA ACCCCTTAAA GTCACTCATG AGGGTTGGAA TCAACTTCTT ACAAACTCCT GTTGATGTTGATATTTTGAC CTGCTCCCAT GATTCATGGG TATTCTTAAT GGCATCTAGA ATGGTGAACG TTTTCAGAAG GTTTTCAGTTGGCTTTGCCC GGATCCATCA GACGAATCCC TATCTATGGA AGCTATAGAT TTATAAAATG TATTTCTTTT TTTGTGGGGGCATAGCGTCT CACCCTGTCA CCCAACCTGG AATGCAGTGG CACAGTCATA ACTCACTGAAGACTCAAACTCCTGGGCTCA AGTGATTCTT CCACCTTGGC CTCCCAAAAC ACTGGATTAC AAGCTTGAGC CACTGTGTCT AGCCCAAAATGTATATCATA ACTAATGAGG CTTGAAAGTC AAAGTGACTC CTTGATCCAT GGGCTACAGA ATGGACGCTGGGTTACCAGA CATGAAAACA ATACTCATCT CCTCATACAT CTCCTTCAGA GCTCCTGGGT GAGCAGGCCCATTGTCAAAT GAGCAGTAGT ATCTTGAAAG AAATTTTTTT TCTGAGCAGT AGATCTCCAC AGTGGACTTA AAATAGTCAGTAAACTATGC TGTAAACAGA AGTGCTGTCA TCCAAGCTCT GTTTTTCCAC TGATAGGGCA AAAGCAGAGTAGATTTGGCA TAATTCTCTA GGGCCTTAGG ATTTTTGGAA TGGCAAATTG AGCATTGGCT TCAACTTTTT TTTTTTTTTTTTTTTTTGAG ACAGAGTCTT GGTCTGTCAC CCAGGCTGGA GTGCAGTGGT GCAATCTCGG CCCACTGCAA GCTCTGCCTCCTAGGTTCAC ACCATTCTCC TGCCTCTGCC TCCTGAGTAG CTGGGACTAC AGGCACCCGC CACCATGCCC GGCTAATTTTTTGTATTTTA GTACAGACGG GGTTTCGCCA TGTTAGCCAG GATGGTCTCG ATCTCCTGAC CTCGTGATCC ACCCGCCTCGGCCTCCCAAA GTGCTGGGAT TACAGGCGTG AGCCACAGCG CCCAGCCTGT CTTCAACTTA AAGTCGCCAGCTGTGTTAGC CTCTAATAAG AGAGTCTGCC TGTCCTTTCA AGCTTTGAAG CCAGGCATCA TTCTCTTCTC TAGCTATGAAAATCTTAGAT AGCATCTTCT CCCAATAGGA AGCCATTTTT TATGCCCTAA AAATCTGTCG TTTGGTGTAG CCACCTTCATCATTGATCTT ACCTAGATCC GCTGGATAAC TTACCACAGT GTCTACATCA TTACTTCTGC TTCACCTTGC ACTTTTATGTTATGGGGATG GCTCCTTTCC TCTAACCTCA TAAACTAACC TCCACTAGCC TCACATTCTT CTTTTACAGC TTCCTCGCCTCTCTCAGAGT TCACAGAATT GAAGAATGTT GGGCCTTGGA TTACACTTTG GTTTAAGGGA ATGCTGTGGCT GGTTTGATTTTCTATCCAG AACACTAAAA CTTTCTTCAT ATCAGCAATA AGACTGTTTC ACTTTCTTAC TATTTTTTGT GATAGCACTTTTCCTTTCCT TCAAGAATTT TTCCTTTCTA TTCACAATTT GACCGTTTGA TATGAGAGGC CTAGATTTTA GCCAATCTCAGTTTACACCA TGCCTTTTTC ACTAAGCTTC ATCATTTTAG CTTTTTATTT AAAGTAAGAT GTGTGACCCT TCCTTTCATTTGAACACTTA CATGATGATG CCTGGCTTCA AAGCTTGAAA GGACAGGCAG ACTCTCTTAT TAGGGGCTAACACAGCTGGC GACTTTTAAG TTGAAGCCAA TGCTCAATTT GCCATTAGAA GCCATTGTAG GGTTAATTAA TTTGCCTAATTTTAATATTA TGGTGTCTCA GGGAATAAGG AGGCCTGAGT AGAGGGAGGG AGATGGGGAA ACAGCCAGTCATCAGAGCAC ACACAACATT TATCAATTAA GTTTATCACC TTGAGGGCAC AGGTCATGAT ACTTCAAAACAATTACAATA ATAAAATAAA AAATCATTGA TCGCAGATCA CCATAACAGA TATAATGATA ATGAAAAATTTGAAGTATTGTGAGAATTAC CAAAACGTGA CACACAGACA CAAAGTGAGC ACATGTCATT GGAAAAGTGGTGCTGATAGA CTTACTTCAT GCAGGGTTGC CACAAATACT CAATCTGTAA AAAATTCAAT TATCTACATA GTACCATAAAAACAAGGTAT ACCTGTTTAT ATAATCAAGA CCAACAGAAC CCTAGAGAAA ATAGCTCACT CCCTAGCTCGGAGACATTCT AACCAACATA CACTTACCTT TCTTTTTGCT GTGTACAGAA TTCAAATCCC TGTCTCAGCA AAATTGCAAAGTATCAAATG TCATGTCCAT CTAATACTCA AAACTGCAAA TGTTAAGTCT TGTAAGCCCA GAGACCACTGTATATACAAG TGTTGCTATA AGCATTAGTT CTTCTCCAAA GAAAATAGTC CACTTGGTAG AAACAAACAAAAAGAAAAAA AAAGAAAGAA AAAACATTTT TTACAAGAAG ATTCAGTCTC TTACCTACAT AAGCAAAAATATGAGATGTT CTCTTATCAT TTTTCCATCT ATCTTATAAT CTTTGGTGCT GACTTAGACA CTCATTTTCC TTTTTGTACGTGACCATGTA AAAGTTCAAG TCAAGAAAAA CTTGTTTTGA CATTTGTTTT GCTGAGTGAT GGGTCCCTAA AAGAAATTTGGCTTTGCTTT TGAAAAGTTC AGCATGATAT TGTGTGAATT TTTCATGGCT AATGATTTTT AGAACAGTTG TGATGTGTTTAGGTGTTTTA AGAATATGAA GCATTCAGTG GTTTAAGTTG GTTGTTATAA AATGAAAGAA TATGAAGGAAAGCCTTCTTG TCTTAGAACA CACTGATTCA CAAATAAGCA GCTTCTCTCA AAATGTTGTA ATTACAAAAA TTCCAAGGCAAATATAATAA ACTCCTTGTC GGTGCTATGT CTAGAAACTT AACAGCCCCA AAGAAAGTCC TGACAAGGCAAAAAATATAT ATATATATAC AAATTGTGGA AGCAGGGTGT TGAAAGAAGA ATAAAGACTA TATAAGGACAAACTGTTTAA AAGGGAGGGT ATCCTTGAAA GCTTGACACT TGACTCTTTT GACGAGGCTG AGGGAAAACACTCAGTTTCA TAGATTGCTG GTACGGATGT AAAATAGTGA CATCCCTATA GAGAGGAATT TGGCAATATCTAGCAAAAGT GCTTATGCAT TTATTCTTTG ACCTAGTAAT CCCGCTTCTA GGATTAGTGG TGAAGATACA CCTCAACAATAAAAATATAT ATACATTAGG TTATTAGTTA TGGTTTAATT TTTAATAGCA AAATATTTAA AACAACCTAC ATGAACAAATAGGAGACTTA CTGAATAAAC TATGGTATAT CTGTACAATA AAGTGCAATT CACTTATGTT GTTAATTTGT TCCAAAAATCCAGAGCCAAA GAGTATTTGT TATGCTCTCT TTAGTATAAG AAAGGGGAAA TAAGATATGT GTGCATCTGT TTATTTTTGTGAAAATAAGT ACAGAAAGGA TAAGTAAGAA ACTAGTAAAA CTAGTTATCT CCTAGTGTTA GTAGAAATAGAATGAAAGTG AATTAGGCTT CTTTGAGTAT ATGTTTATAT ATAGTTTTGA CTTTTGAATT ATGTTTATGT TTACATAGTCAAAAATATAA ATTAATCAAC AGAAATAACA AAAAAAGAAG AAATCACAAG CTTTAAAATT TAATACAAACAGAAATAATT GAATCTAACA GTATATCAAA GTGATAACGT AAACTCAGAA GAAAAAAACA TAATCCAACATACCAGTGGA ACACAATATT CTAACTGTAT ACATTCAGTG GTTATAGTCT AAGGACAAGA AAAATTGCAAAAATATCTTG AACTTTAGCT TGTAGGATTT TTATTGGTAG CAATACTAAT GTACTAATTC TGAAATTAAT GTTCGTGTATTATAGAATTG AGTAAATGAA TAAATATGTT GATGTTATTG GGAACTAAAA TTATCATTCT GGGAGTAGAGAAATATAAAT ATGGACTTGG CAAATGAAAC AAAGACCTGC AGAGAGATAA CCATATAAAC TCATTATTTTAAAAATTATA AGTGTCCTAG CTCTGTTACT GAAAAGGCCT AGATTCAATC TTATCTTGAT AGACAGGAGG GCACCCCTTTCTCAGAACAT GGTTTCCAAA TGCCATTCTC CATTAAAAGG AACAAGGTCT TCTTGGAGAA AAGACTGATTCTAGGTCTGG ATTAGGTAAA GTACAACGTT AGTCTGGAAT TTCTTGCTGA ATCAGAAGTA AGAAAGTGCTCAAAAACATG GGAACATGTC ACAAACACAC GTGAGGCAAC TTGAATCCTC ACTGGCCATA TTTAGGACAATCGAGCATCA AAAAAAAAAA AAATGTTGAG AATAATGGAT TCTAACACTT AAAACAAAAA ATAATCCATAGCCCACAGAA GGGGAAGAGA GGGGGAGCTC TTATTTACAG ATGAATATCA AATAGCAAAG ACAGAAGAAATGACAGAATT AGAGAAACAT CATTTTGCAA AACACCACTG TAATAATCAA TTCAGGCAAG TATTATTAATGGATGTATTA CTATTGCGTA AAACCAGTTG GGGAACAGGA TATTCATACA GTCTGAAGGT GTCACCCTAAACATAACTTA TTACAAGTGG AAAATGGTGC CTTTACAATG AAGAAATCTA GCAGAAACCA TCTTAATCTAGTGATCAAAC TTAGTATCAC CAATAATGGA TCATACTGAG TCATGTGTCT CCTAATATGA TGCACCAGGAAGGATGCAAC GTCATGAACG TTGTATTCTT TTGTATTCAA CAGACCACCC AGGGTAAAGG CAGCTTTCTC ACTTACTAATCAGAATTGTT GGTTTTAATT CATTTTGGAT TTTAAGATTT CTTACTTTCT TGTCAGCTCA GAAATTTATT TAAGATGATTTTTATCTTTT ATTCAATACT TTAGCTTGGA GAACCATTCA GAGTTTCTAA CTCATTGTAT TGCCAAAAAT AGAAAACAGCATGGTTTCTT TTGAAAATGT CTAACTTTAA AGTTACTTGT GTGTGTCACT CAGATTCACA TAGCTTTTTT GCCTAGTAATGTAGTATCAT GTGGCAAGGC TATAAAAATG TTTACAATCT TTTATTTAAT ATGACTCTTG AGAGTTTATT CTAAGGAAATAATTGAATAG TAACAAAACA CTATTAACAC AAAGCATAGC AATTTGATTT GGGCAACCAA ACACTGGAAACAACCTAAAT GTCCATTACA GGAATCATTT ATGAAGCAAA CACTAAAATA TTTATTGTGA AGATTATGAGAACATAGAAG ACAGTTATGA GAGTAAATTT GAAAACCTGA ACACAAAACT TACATATACT CCAATTGTAACTTATAAAAA ATACGTGCAT ATAAGGATAA AACAGTACAA ACAAAAAAAT AGTTGCGTTA GATTGGTAGAATTATGGCTC CTTTTGCTGT CTTAATTTTT TCCTTTTACA TTTTGATACA TTATTTTAAT TTTAATTTTA AAATTCAAAAGAATTTGCCA CTCATCTTTG CCACTTCAAG GAAAAAAGAA ATGTGTTCGA TTATTCTGTT CTTAGTATAG TTTTGGCAATTTCCTCACGT GTAAAAAGAG AATACTATTA ATAATTTCAG TATCTATAAG ACAATATAAA ATTAAAGAATCTAGCCCAGT AACTGGTACA TGGAACGTAA TTAATAAATC ATTATGGACT TTTTTTCTCA CACCCAAGTAGGGAGGAATC AGTGGTCCCC TAGAGGCCCA GTGTAGAGGT GGCAGCACCA ATCCCTAGGG GAGAAGATCTTGGTGATGAT AATTCCTGAG CAGACAGTTA GCTGAGAATT CAAGAGCAGA AAAGTAAGAA AGAAACAACTTCTTGCTAAC ACCTTTCCAC CCACGTTTCC CTGTTCTGTT GTACTCTGCT TACCCTTTCA TGGATGGAGG CAGAGGAAAGAGAACCAAGT TTGCTCTTAG TCATTCACTA TGTTGTTTAA TCTGCCTTCC ATCTTTCTTA TCAGTTCAAA TTAGAATGTAGACCTGAATT TAAATCCCCG TTCTGTCAGT TATAATGTGA CCCTAGACAA AACACATTCT CTGAACCTCA GAGAACATTCTTCATTTGTA GAATGGGAAG ATTAATCTAT ATTCCACTTG GATGGCAAGT CTTTTATAAA CTTTATAACC TAAACATGTGTGAGTTGCTA GTATCATTAT GTTGGTAAAG TTATTCTGAG ATATGATAAC AGAACTGTTT TGTCTAACTC CACTAGCATGGTTCAGGTTT AGAGAGTGTG GAATTAAAAG GCTTTATCCT CAAATATGAC TTAAATCCGA TTTTTCTCAT CCACTTTCCTCCACAAACAA ATCCTCAGGA AATGACAAAC TTTACATGGT TAAACATCAG TTTTGTTTAG TCTTTGACAT CCACATGGTTAAATCATACA TTTGAAAACT GCTTATATTT GTGTTGTCTA TGTCTAAATT GAAAAGACTT ATTGAGGAAT AGAAGACTACACATTTTTCA GCAAACACTG CACGTTTTGC AGAATTTCCC CAGGCACCAG TCTCCAGGAA TTTATTGGCT ACTAACAATACTAAGATATG GATGAATGAG GAAATCAAAA TGGAGATCTT GCAAGTTTTG TGAGAATGGG TGAATGGTCCAAATGAAGAG ATAAGTTGTG AAATATTAGT ACAAGTAAAA ATTATTTACA ATGAAAGACA TTTTGTCAATAGCTATGAGA ATTTTACCAT TGACCCAGAA ATTCCATTTC TTTCTTCAGA AATACCCACG TAGGTATACA TATAAAAAGTTATTCATTAC AGTATCGTTT TTCATAGGAA AAAGTTTTAA AAATCAGAAG CTATCTAAAC TATGGTATAT CTAGGTCATAGAAATCAAAT GACTAAAAAT GTTAATATAA GCATATGTTT TTAAATTAAC TTGGCTTGGG TCTTCAGCAA AATTGGCTTCTTAACATTGC ACTCCAGAGT TAGACTTACC CACTCAGTCA CTTATCATGC AGGAGCAGAC TCCTAATACC ACATATCATAGAGCAGAGTA GGACACAGGT TCTCTGCAGG CAGGCAAATC CCAAAGAGAA GGGAGGAAAG GGCTGAGACACTGCATGGTC AATTTCTTCT GAACTCTGCA ATGTACGGAG GTGGACAGTG TCCACAAAGA TTGCTCCCCTGGACCCACCA TCATAATAAC ACAACGGCTT TGTTTTGTTT TTGTTTTTGT TTTTTGACAC GGAGTTTTGC TCTTGTTGTCCAGGCTGGAG TGCAATGGTG TGATCTCGAC TCACCACAAC CTCCACTTCC TGGGTTCAAG TGATTCTCCT GCCTCAGCCTCCTGAGTGGA TGGGATTACA GGCATGCACC ACCATGCCCA GCTAATTTTG TATTTTTAGT AGAGACGAGG TTTCTCCACGTTGGCCAGGC TGGTCTCAAA CTCTTAACCT CAGGTGATCC ACCCGTCTTG GCCTCCCAAA GTGCTGCGAT TACAGGTGTGAGCCACCGCG CCCAGCCCAC AATGGCCTTT TGTTTACATC TCTAGTGCAG CACTCATTTC ATGTTCTTTC AAGAAGAATACATATTTCAT CTTTTTATTT TATACAGCAA TTAGCACAGT GCCTGGCATA AGGAAAATGA TCATTAAAAG CTGGGTGAAAAACCTAATAA AGCTACTGAG GATAGGAACT GCAGACCAGC ATGGAAAGAA AACTATGAGC CAGATATTGACATCATCCTG AAAGGCAGAA GATTTAGTAT AGGCAAGAAG TATGCTTTTG GAATATAGAA AATCTGGATTATGATAAGAA AAGAATCATA TTTGTCTTAT CTTACCTACT CACTTCTCAG TTCCACATGT TTCTGAGGCT GTTTGTCCTTACTTTCTTTT CTGTTTTATC CACTCTTTCT GTTCTTTAGA TTGGATCATT CCTATTGAGC TGACATCAAG TTAACTGACCTTTTATTTTG TCCAAACTGC TGTTAAATGC ATCCAGTGAA TTTTTAACTT TATATAGTAT ATCTTTTAGT CCTAGAATTTCCACATGAGT TTTTTAAGTT TCCATTTCTC TGCTGAGATC TCCTATTTGT TCATTCATTA TGACCATATT TTTCTCTACATTATTGAGCA TAATTATAAC AGCTCTTCTA AAATTCTTGT CTGCACATTC TAACACCTGA ATTATTCTGG GGTCAGTCTCTGTTACATTG CCTTATTACA AAAACAGTAT AAGTCACATT GCCTTGTTTC TTAATATGCA AAATGATTTT TGATTGCAGACTAGACATTT TGAATTAAAC ATTATAGAGA TTCTGGATTC TCGAGAGAGT ATTGACTTGT TTTTTCCATC AGGCAGGTAACTTGACTGGA CTCAAACTCC AAACTCTAGG TCCTCTGTAA TGGGCAACTG CAGTAATCTT TGTTTAGTTC TTTAAGACTTATTGGCCAGG CACGGGGGCT CATGCCTGCA ATCCCAGCAC TGTGGGAGGC CAAGGTGGGA GGATCACCTGAGGTCAGGAG TTCGAGACCA GCCTGGCCCA CATGGTGAAA CCCTGCCTCT ACTAAAAATA CAAAAATTAGCCGGGTGTGG TGGTGGGCGC CTGTAGTCCC AGCTACTCAG AAGGCTAAGG CAGAAGAATC ACTTGAACCTGGAAGGCAGA GGTTGCAGTG AGCCGAGATT GTGCCACTAT ACTCCAGCCT GGGTGACAAA AGCGAGACTCCCTCTCAAAA AAAAATTTAT TGGCACTGCT TGGCATCTGC TATGAATACA TGAAGTTCAT GGGTCAGCTA TAGATCTGGGCACGTTATAC ACAGAATTTG GGTCTCCCTT TCTCTGGATT TCTCCTTTTC TGGATTTCTT TTCTCATTTT CCAGCAGCTGTGGTTGCCCT AAACTCGGTC CTCTGTTTCT TTACGGCAGT AAGATTTGGG AACTTTTAGG TTTTACCTGC CTCTCAGACAAAATAAAAAA TAATTTTCAT CTTGATGCTA CTCCTTTCTT CCAGATGTAG ACACCTCTCT AATTTCCAGT TGCTTTTTATTGCTCTCCAG AGTCTAAAGA TTATCATTGT TTTCTGTGGG AGAGTTGGTC TGATAAAAAC TACTCCCCCA AAACTGGAAGCTGGAAGCTT GTAATTATGA ATAGACTTTG AGTAGTATTC TTCTTTGGAA AAGGATTTTA ACTACTCCCT ATGTACTTCTTTATTTCCTG TTTTTCTCAT CCGTAATCTT TTTATTTTCA TACTTCCTAA GTCAGACAAT TTTCCTACTT GAAGATTCAGTGACTGCTAT CAAATGACCC CCATATTACT AAATACAATA TCCCCAACTG CATTTATAAA AAGAAAATTT ACTGTTTATTAGTAAACAAT GTTGTAGAAT AGTAAAATAT TGCTGGGCTT TGGAGCCAGA TAATCAAGGT TAGAATCCCAGATTCTAACT TACTAGCTGG TGTATTAGTC CTTTCTCATG CTGCTAATAA AGACATACCC CAGACTGGGA GACTGGGTAATTTATGAAGA AAAGAGGTTT AATTGACTCA CAGTTCAGCA TGGCTGGGGA GGCCTTAGGA AACTTACAGTCATGGTGGCA GCAAGGAGAA GTTCCAAGCA AAGAGGGAAA AGCCCCTTAT AAAACCATCT GATCTTATGAGAACTCACTC ACTATCACGA GAACAGCATG AGGGTAACTG CCCTCACGTT TAATTACCTT CCACCAGTTCCCCCCCATGA CACATGGGGA TTATGAAAGC TATAATTCAA GATGAGATTT GGGTGGAGAA ATAGCCAAACCATATAATTC CACCCCTGGC CCCTCTCAAA TCTCATGTCC TCACATTTCA AAACTCAATC ATGCCCTCCC AACTGTCCCCCAAGGTCTTA ACTCATTCCA GCATTAAGTC AAAAATCCAA GTTCAAAGTC TCATCTGAGA CAAGGCAAGTCCCTTCTGCC TATGAGCCTA TAAAATCAAA AGCATGTTAG TTACTTCCTA GATACAGTGG GGGTACAGGCGTTGGGTAAA TACACTGATT CCAAATGGGA GAAATTGCCA AAACAAAAGA GTTACAGACC CCATGCAAGTCCAAAACCCA ATAGGGCAGT CATTAACATT AAAGTTCCAA AATGATCTCC TTTGACTTCA TGTCTCACAT CCAGGTCACACTGATGCAAG AGGTGGGCTT CCAATGGCCT TGGGCAGCTC TGCCCCTGTG GCTTTGCAGG GTATAGCCTG CTTCCTGTTTGCTTTTTCAC AGGCTGACAT TGAGTGTCTG TGGCTTTTCC ATGAGTATGG TGCAAGCTGT TGGTGGATTT ACCATTCTGGGGTCTGGGCC AGGTGCAGTG GCTCATGCCT GTAATCCCAG CACTTTGGGA GGCTGAGGTG GGGGATCACAAGGTCAGGAG ATCGAGACCA TCCTGGCTAA CACGGTAAAA CCCAGTCTCT GCTTAAAAAA TACAAAAAATTAGCCAGGCG TGGTGGTGGG TGCCTGTAGT CCCAGATACT TGGGAGGCTG AGGCAGGAGA ATGGCGTGAACCCAGGAGGT GGAGCTTGCA GCGAGCTGAG ATTGTGCCAC TGCACTCCAG CCTGGGCGAC AGAGCAAGACTCCATCAAAA AAAAAAACAA AAAAACCATT CTGGGGTCTG GAGAATGGTA GCCCTTACAG CACCACCAGGCAGTGCCCCA GTGGGGACTC TGTGTGGGGG CTCTGACCCC ACATTTCCCT TCTGCACGGC CCTAGTAGAG GTTCTCCATGAGGGTTCTAC CCCTGCAGCA AACTTCTGCC TGGACATCCAGGCATTTCCA TACATCCTCG GAAATCTAAGCCGCGGAGGT TCCCAAACTT CAATTCTTGA CTCCTGTGCA CCCACAGGCT CAATACCACA TGTAAGCCACCAATGCTTGG TCAGGGCTTG AACCCTCTGA AGCAATGGCC TGAGCTGTAC GTTGACACCT TTTAGCCTAGACATCTAGGA CACAGGGCAC CATGACCCGA AGCTTCATAA AGTGGGAGGG CCTTGGGACT AGCTGAGGAAACCATTTTTC CATCCTAGGC CTCCAGGCCT GTGATGGGAA GGGCAGCCAT GAAGGTGCCT GACATGCCCTGGAGACGTTT TCCCCATTGT CTTGGTAACT AACATTCAGC TCCGTGTGCA GCACCAACTT ACTTATGCAA ATTTCTGTCACTGGTTTGAA TTTCTCCCCA GAAAACAGGA TTTTTCTTTT CTATTGCATC ATCATGCTGC AAATTTTCAA ACTTTTATGCTATGCTTCCT GTTGAAGACT TTGCGGCTTA GAAATTTCTT CCCCCAGATA CCCAAAATTA TCTCTCTCAA GTTCAAAGTTCCACAGATAT CTAGGGGACA AAATGTTGCC AGTCTCTTTG CATAGCAAGA GTGACCTTTA CTCCAGTTCC CAACAAGTTTCTCATCTCCA TATGAGACCA TCTCAGCTTG GACTTAGTTG TCCATGTTAC TATCAACATT TTGGTCAAAG CCATTCAACAAGTCTCTATG AAGTTTCAAA CTTCCCCATG TTTTCCTGTC TTCTAATAGC CCTCCAAATT TTTCCAACCT CTGTCTGTTACCCAGTTCTA AAGTCACTTC TACATTTTTG GGTATCTTTA CAGCAGTGGC ACTCCCCATG GTACTAATTT ACTGTATTAGTCTGTTCTCA TGCTGCTAAT AAAGACTTAC TCGAGACTGG GTAATTTATA AAGAACAGAG GTTCAACTGG CTCACAGTTCAGCATGGCTG GGAGGCCTCA GGAAACTTAC AAACATGGTG GCAGCAAAGA GAAGTTCCAA GCAAAGAGGGAAAAGCCCCT TATAAAACCA TCAGATCTTG TGAGAATTCA CTATCATGAA AATAGCATGA GGGTAACTGCCCCCATGATT AATTTACCTC CCACAGGGTC CCTCCCATGA CAGGTGGGGA TTATGGGAAC TACAATTCAAGATGAGATTT GGGTGGGGAC ACAGCCATAC CATGCCAGCT AGAGAGCCTT AAGAAAGTCA CCTAATCTCCACAAATAAAA GGTTTCCTAT TTGTTCAACA AAAATAATGA CACCCCTTTT ATGGGATTTC TGTGAGGACA AATGATAACTAACATAGCCT TGCATAGTGT CTGGCACAAA ATAGCTACTC AAAAAATAAT AGAAACAACA TTTAAAAAATGTAGACTTTA TTTTTTAGAG TTTTATGTAC AAAGCAAAAT TGAGCAGAAT GTACAGAGAG TTTCCGTATA GCACTCCCTACCCCCAAGCA CAGATAGCCT CCCCCAGTAT CAGCATCCCG CACCAGAGTG GTACATTTAT TATAACTGATGAATCTATAT TGACGTGTCA TTTTCATCCA AAATCCATAG TTTATATTAG GGATGCCTCT TGGTGTTGTA CCTTCTATGGGTTTTGACAA ATGTATAATG ACATGTATTC ACCATTACAG TATCATAAAG AATAGTTTCA CTGTCCTAAA AATCTTTGATCTTCTTCCTA TTCATCACTC CCTCCCCATT AATCCCTGAC AACTACTGCT AATTTTCCTG TCTCCATTGT TTTGTCTTTTCCTGAATGTC ATATAGTTTA AATATACAGT ATGTAGGATT TTCAAACTGG TTTATTTCAC TTAGTAATAT GCATTTGATGTTCTTCCATA TCTTTTCAAA GCTTCATAGT TCAATATTTA TAGAATTGAA TAATATTCCA TTGTCTGGAT GTACTACAGTTTATGTATTC ATTCACCTAT CAAAGAACAC CTTGGTTGCT TCCAAGTTTC AACAATCATG AGTAAAGCTG CTATAAACATCTATGTACAT GTTTTTTTGT GAATTGAACA TTTTCAGCTT TTTTAGCTCC ATTCCTAGGA GTGCAATTGC TGGATTGTATGATAAGGGTA TGTTTAGTGT TGTAAGAAAC TGCCACGCTC TTCCTAACTG GATGTACTGT TTTGCATTCT CACCAGCAATGAAAGAGTTC CTGTTGCTCC ACATACTCAC CAGCATTTGG TGTCGTCAAT GTTTTGAGCA ATAGCATTTT GATCTAACTTTTCCTAGGTA TTCTTTTTGA AGGAAATAAT ATGACAGATA ATAGAGAAAG GATATACGAG GACAGTTCTG TCCTTTATTTATAGTCCATC ATTTAATGAA GGACTCTGTC CACACTTGGT ATTTTTAACT CTGATCCTCC TCTCCCATGA ACTCTGACAATCTCCTAAAT CCCTGTTGCT GGCACACATG GTTGTGTATC AGGCCCCCTG TGGTCTGTCT GAAGCATGGC TTTTTTTTTTTTTTTTTTTT TTTTTTTGAG ACGGAGTCTC GCTCTGTCGC CCAGGCTGGA GTGCAGTGGC GCGATCTCGG CTCACTGCAAGCTCCGCCTC CCGGGTTCAC GCCATTCTCC TGCCTCAGCC TCCCGAGTAG CTGGGACTAC AGGCGCCCGCCACCACGCCT GGCTAATTTT TTGTATTTTT AGTAGAGGCG GGGTTTCACT GTGTTAGCCA GGATGGTCTC GATCTCCTGACCTTGTGATC CGCCCGCCTC TGCCTCCCAA AGTGCTGGGA TTACAGGCGT GAGCCACCGC GCCCGGCCTT TTTTTTTTTTTTTTTTTTTT TTTGAGATGG AGTCTGTCAC TCTGTCACCC AGGCTGGTGC AGTGATGCAA TCTTGGCTCA CTACAACCTCCATCTTTCAG GTTCAAGTGA TTCTGCCACC TCAGCCTCCC AAGTACCTGG GATTACAGGT GCCCGCCACC ACACCCAGCTATTTTTTTGT ATTTTTAGTA GAGACGTAGT TTCACCATGT TGGCCAGGCT GGTCTCATTC CTGACCTTGA GTGATCCACCTGCCTTGGCC TCCCAAAGTG CTGGGATTAC AGGCATGGGT CATCACATGT GGCCTGAAGC ATGACTGTTG CTTTAATCATATGAAATACT GCTCTGTATT GTTATCTATT TGAAATGCCA CACCTCCTGA GCTAAATTGC AAGCTTTTAT GGAGCACAAACCATATTTAT ATATATTAGC ATGATACCAT GACACATATC AAAAGCTGTT ATATATTGTT ACGTGAATTG ATTCTTTCTCAGTTAAGAGG ACCTCTGTAG TAGCACTTTC ATACCGTTAA TTTTTCATTT TGTGCCCAGC CCCTACTCTG TGAAAAATGAAATGAATCCT GTTATCATTT CCCTCCCAGG CCTTTTCTCC TTGTGGACAA TGTGTGGCTC AAGAGAAAAT TCAGTCAGTAAATTTGTTCA GTGCACAAAC TCTTTATCAC CTCTCACTGT TCTCAAGTGA GATAGAACAG AACATCCATC CAGTGTCTTACAAATTGTCT GGTATATAGT AGGCACTCAA TAAATGTTTT TTGAATAAAT GCATACATGA ATCCTATTCC TATATATAGTATGGTAGACA GATCATTGAT ACCCAAAGAT GCCCAAATGC TGATCCCCAG AACTTGTGAA TATGTTACATTTCATGTCAA AAGGGACTTT GCTAATGTGA TTAAGGATTC AGACCCTTGG ATTGTAAGAT TATCCCGGAT TAACCAGGGCCAATCTAATC ACATGAGACC TTAAAAAAGC AGAAAACATT TCCCAGCTGG GTTAGAGAGA GATGAGACAGAGTAAAAAGG AAAGAGATTC AGGGCATGAA AATGACTCTA CCCACTGTTG CTGGCTTTGA AGATAGAGGAACTAGGCCAC AAAACAAGGA GTATGAGTGG CCTTAAGAAA TAGGAAAAAG CCCTCATCTG ACAGCCAGCTAGAAAGCAGT CCTCTGACCA CAAGAAATTG GATTCTGCCA ACCACTCAAA TGAGCAAGGA AATGGATTCTCCCCTAGAAC CTCCAGAAAG GAACACAGCT CTGTAATGCC TTGATTTTAG CCAGGTGAGA CCTGTTTCAG ACTTTTGACCTATGGAAATA TAAGATAATA AAGTTTTATT GTATGCTGCT AAATTTGCGG TAGTTTATTA CTGAAGCAAT GGAAAGCCAATACAGACAGA ATATACAGAG AGAAAGAGAA TGAGTTCTTT CCTGATAATT TGTAAATATT TGGGTCTTCACTGGACAAGC TTCACAGAGG ATTCACTGGT TCCCTAGCAA ACCAGCATGT CCAGTCCTGC AGCCTCCCTT TCTTAGGCCCAGCATATGTC AGCTGTGTGC ATAGAAAAAT CAAAGCAGGA CCCTGAGTAG TTGGAAAGAA AAGATGGTTGGAAATGGGTT GCACTTCAAG TGAGGAAACA AGAGGTAGGA GACCGGCATC TCTTTCTCAT ATGTCCCAGGCTGACTCTTG TGAGTTGTTT TCCCTTGGAG GCTATCGATG ACAGTCACAG TAACCTGATG GAACCTGGAT CATGATGAAAGAAGTAAGTG TCAATGGCTC CGACTTCCAA GGACTCTGAT GTCCCACAGC ACTAGCTAAA CAAAGCCAGTTGGAAATGAG CTTAAATGGG GAATTTCCTG AATATATTCC CTATTGTTAG GAAGCCAGGT TGGCTTCCTT GCCTACAATTATGCCAAGCA GTCACACTAT AGAGTCCCTA GGGACATGAT ATTAAGTGAT TCTTTTAACA CAAACAACTTAATAATCATT TATACTAATA GCAAAACGGC CAACGGCTGA TATTCCACTT GAAGTAGAAT TGGCTATCCAACTGGAAGAG AAGACAGGAA GACGTGATCT CCAGGGAGCC ACTAAAAGGA TTGGCACCTG CCTCTGGATTCCCCTTTTCC TTATATTACC TCTCAGCACT GGCAGGCCTT TATTTCAGGA TACAGTTTCA CAAGTATTAT GTCACGTCTCTGAGAATTAT GTTGGTAGAT ATTTGCTCCT CTGGCCAGAA AGACCTAGTT TGGAGTCTGG AGTCATGAAGGTGACATACA TGTAGCTAGT GACATAAGTG TAGCTAGTAA AAATAGTGAG TAATGGCCCT GAAATTCTATTGAATGCCCA AAGTGCTGAC CAGGAACAAG CATGCTCTAG CTTATCTCAC AAGGAACTTG ACAATTTTCTTCAAAAATCC TAGTAGCTAA GATTTCTTAG TAACAAAGCC ACTAAGGCAC AATTATGATT AACTTGACCCTTAGGTGACT TTTAAGGACT ATTCTATAAA ATATTACAAC TAATAGTGGA TCCAAGCCAG CACACTCTGC TATATAAGATTAATTGACAG TGTCCACACT GGTAAAATAA GTTGTTTCAT AAATACATTA GAATTCATTT GCACTTTCTA CACAGCCCCAAGTCCAGAAC TTTCCCCAGA ATAGGTCTAT GTTTTGCAAT CTGCTACTCC ATACAGAGAT TTGAGTTCAC TTGGCAATTTAGTGCTGCTT ATATGTGACC AGTTAGTCTG TTTTACTTAT CTATGCCTTA AACATTACTA TACTTACTAA CTCCAAGATGCCTGGTCTCA ACTTGACAAA AATACCCCAA GTTGGGAAAT CCTTATGTGA ATATGTAGAT AGTCACAATT GCTGGTTGATGATGATCTGT CTTTTCCTGT ATTTGAGAAA ATGGAGATAA AATGGACCAA TCCAAATAAT GGATTAAACATGGGAATAGG TGAGAGAGAG AGAGGAATAC ATGGTGGCTC TCAGTGTCTG GCTTAGGCAG TAAACACTTTCGTTAATAAA GACGGAAAAT AAAAAAGGAA TAATTGGTGT CTAGGGGAAA ATAATGAGCT CAAGTTTTAACACTCTGAGT TCCCGGATGT GAGACATCCA GGCGCATTTA TCCAAGAGGC AGTTGGAAGC AACGTTCCGGAGCTTAGGAG AGAGGCATGA CCAAAAGCTG GTGGGACTGT GAAAAGGTAT GGCCATTCTG GAAAACTGTTTGGCAGTTTC TTAGAAAATT AAACATGTAC TAACAACCCA GCAATTGTAC TCTTGAGCAT TTGTCCCAGATAAATGAAAA AAAAAAAAAG CATTTTTTTT ACACAAAAAC ATATACATGA AAGTTCATAG AAGTGTTATTCATAAAAAAC TGGAAAAAAC TGAGATGTCT TTATTGAGTG AATGCTTAGG CAAACGGTGG TCTATCCATACAATGGAATT ATGCTTAGCA ATAAAGAGAA AAGAACTATT GATACATGCA ATAACACAGA TGAATCTCAAAGGAATTAAT GCTGAGTGGG AAAAAAAGCA CATCTCAAAA TGGTATATAC TGTACTATTT TATTTACTTA ACATTTTAAAAATAGCAAAA TCATAGAGAT GGAGAACAGA TTAATGGGTA CTGTGTTTTG GGATGGGGAG TGAGAAAAGGGTAAGGTGTA AATATAAAGG GGTAGCACAA AAGAGCCTTG TGGTTGAAGG ATTCTATGTC TTGGTTGTAGTCGTGATTGC AGGAATCTAC ATGTGATAAA ATTGTATGGG TCTACATACG CATACACACA AGAGCATATAAAACTGGTGA CATGTGAAGA AGCTCCGCAC ATTGTGCCAA CATCAGTATC CTAGTTTCAA TATCAGACTACAGTTATACA AAACATTGTC ATTGAGGGAA ACTGGGTAAA GGGAACACAG GACATTTGGC ATATATTTTTGCAATTTCCT GTGAATCCGT AATTATTTAA AAATAACAGA TATACTACAT ATCAAAAATT TAATGTCATA AAGTTGATGAGTTTACCTAG TGGATAGCTT TGTTAATATC TGCTATAAGA CTACTGAAAA TGACAGTTAT GCAAGTATAAGCTCAGAGAA CTTTCCTCCC CCTTCGTAAA TGAAATGAGC AAAAGAAATG AAACAGGAAA GGCAAGCAGTACTGAAAACA GGGAAGGGCT CTTCCCCATA TAACTATATC TGCGACTTCA ACAGCTATTC ATCCAGAAACACAGCCTCTT GCGCTAAGAG GAAACTTTGG ATAACAATAT GTTTTCACTC TCCAAGAGAG AAAATGGATAGATTAATTTT TAAGAAAAAA AAAAAAACCT CACCAATTTC ATGCTGTGGC TTGCACCTTT AATCCCAGCTACCTACAAGG CTGAGGTGAG AGGCTTACTT GAGCCCAGGA GTTCAAGGCT GCAATGAGCT ATGATTGATTGTGCTATCGC ACTCCAACCT GGAGTACTAA GCTAAGAGCT AAGAACACAG CTGAGAGCGG AGAAGAAACAAACAAATCTG ACCAATAACC CCCACTCCCC TCATTTTACT GGAGTGAGCT GAGACTGCTG GCAAACATGGCCTTTGACCT AGCCTGAACT GTAGCAAAAG TCATCAGATA TTTTTCCACC AATCAACAGA CAGAAGTGGGGAGAAAACAA TCGTAGTTCA TAACTACAAC AAGCAGATAA ACGAAGGCCA TGGTGAGGGA TGGAAGACATTGTGATATAT CAAAGGCAGG CTCATTTAAA ACTCAACCCA AATTCCAAAC AAAATATATA ATTGAATATGTATTAATGCC AAAGGAGCTT GAGTGAGCTT TAGCACAAAC CCCGCCCTCC AGCCCCCACC CAAAAAAATCACTCTGTTCT CTCCCCATTC TTTGATAGGC ATACTTGCTG TTTTCTCACA GCCAAGGTAC AGAGGGGACT TAGAGGAACTAGAACTCTAA TACACTGCTA GCAGGAATGT AAAATGAAGC ATCTACTTCA GAAAACCATT TTATCAGTTTCTAGAAAGTT AAACATAGAC CCACCATGCA GCCCAGCCAC TCTACTCCTA AGTATTTACA CAAGAGAAATGAAAACGTGT CCCCACACAG TTGTATTTAA AGGTGATGGT TAGCCTTGTG TGTCAACTTG GCTAGGCTAT AATACCCAGTTACTGAATCA AATAGTAATC TAGGTGCATC TGTGAAGGTA TTTTGTAGAT GTGGTTAACA GCTACAATCT GTTGACTTCAAGTAAAGGAG ATTGCTCTTG ATAGTATGGG TGGGCTTCAT CCAATCAATT GAAGGCCTTA AGAGCAAAAAGTAAGGTTTC CCGGAGAGAA AGAAATTCTG CCTCAAGACT GCAGCCTCAA CTCCTGCCTG AGTTTCCAGTCAGCCAGCCA GCCTAAAGAT TTGCTAGGCA TTATAATCAC ATCAGCTAAT TTCTTAAAAT AAACCTCTTT ATATATATTGATACAATGAA TGGTTATAGC AGCCTTATTT GTAATAGCCA CAAACTGGAA ACAACCTAAA TGTCCTTCAATAAGTGAATA CATAAACAAA TTGTGGTATA TCCACAATTT TTACGCAGCA GTAAAAAGGA ATAAATGGTTGAATAAGGAA TAAACACATA ACAAGGATGA ACCTTAAAAC CGTAAGGCTG AATGGAAAAA GTCAGACAAAACTAATACAT ACTGAATAAT TCCATTTATA TTGAAGTTCT AGAAAATGAG GACTAACCTA TAGTAACAAAAAGCAGAAAA ATTTTGCCCA CTGGTGATGG AGGGGGCGCA GGTATTGTAG AGTATCTGAG AAAGGACAACTGGATAAAAG GGGGCACAAG AAAACTTTTG AGGGTGATTG ATATGTTCAT TATCTTGTGG CATGGTTTCATAGGTGCATA CATATGTCAA AACATCAAGT TATACACTTT TAAAATGTTC AGTTTACTGT ATATCTATTA TACTTCAGTAGAGAGGAAGG AAGAAAGTGG GCAGGGTGGG GGAGAGGAAA GGAAACGAGG GAGGAAAGGC CCTAATAGGAAGGATTTTGG AGTTTAGATT TTAAAATGAT AAAGGATGTT TGACACTCTA GGCATATGAC GAATATAGGA TTATGAGTCCACAAAAACCA CCAGGAAGTC ATGTATGTTT ATACTTTTAA GTGAAGGATC AGTGGATTAT CAACTCCCTA ATGCTTTGCCTCTCTATGAC TGGCTGCTGT CCTTCTCATC CCAATACTCC TTCCAAAGCC CCTTGCTTAA ATGTAAGCCT TCTTTCCTCCTTTCAACACA TCCTGCATTC CGTGACAAAA TAAGTTTTCC TTAAACAGAA TGTACAGCAT ATTATTTGTA CAATTAAAAATTTTTGGCCA GGTGTGATGA CTCATGCCTG TAATCCCAGC AATTTGGGAG GCCGAGATGT GTGGATTACCTGAGGTCAGG AGTTCGAGAC CAGCCTGGCC AACATGGTGA AACCCTGTCT CTACTAAAAA TACAAAAATTAGCTGAGTGT AGTGTGGCAG GTACCTGTAA TCCCAGCTAC TCAGGAAGCT GAGGCAGGAG AATCGCTTGAACCTGGGAGG TGGAGGTTGC TGTGAGCAGA GATCAGACTA TTGCATTCTA GGCTAGGAGA CAGAGTGAGACTCGGTCCCC AAAAAAAAAC ACATTTTTTT TTAATGTTTC CTCCTTGCCT GTAGGAAAAA GGCTCTGACT CCTTAGCCTGGGCATCAGAG CTCTATCTAA ATGGACTTTA ACCTGATTTT GTGGCACTAA TTCCATTGCA GTACTTGTCC GCTCACTGGCCTGTGCCTCT CTGCCACTAT TTTTGGAATA ATGTCCTCTC TCCATCTTGT TTACTCAACT ATATCCAACC TCTAAGGCTGTGCTCCTACA AAGCCTCCCC TGGCTACTTC AGCCCACAGA GATATTTAAC TGCTCTGCAG TTCAGGACAT TCTTCTGACTCTTTAAATCA CATTTACTTA TATATGATCT TGTGATATTT TTTGTTGACG TGTTTACTTT AATTTTCTTC CATAACCTATTCATTCAACA AACTCAACAA TTATTTATTA AATGCCAAGT TAGAAAAATA TTATTGATTT TATATAGATT ATAGATATGTTTGAAATTTT ATTTGGCAAT CTGCAAGTAG AAAAATAATT ATAATGTGGT ATATCTGTGA TAGAAGTATT AGTGCAGAGACCATGGGGAA CATAATCCAG CCTGGAAGTT CAGGAGAGAT ACGTGGAAGA AAGGACGTCA GAGCCTTTTTCCTACAGGCA TGGAAGAAAC ATTAAAAAAA ATTTTTTTTT TTGAGATGGA GTCTCACTCT GTCTCCCAGC CTAGACTGTGGTGGTGCGAT CTCTGCTCAC TGCAACCTCT GTCTCCCGGG TTCAAGTGAT TCTCCTGCCT CAGCTTCCCA AGTAGCTGGGATTACAGGTA CCTGCCACAC ATGGATGATA AATATGATCA TATTTTCTTG TTCTTTTCCT CCTCAGTTGT CTTCCCTGAAGAAAGGAATG CCTTTTATAG ATGACAAACT CCCATTCTCA AGAACAAGGA TTTTTGACCA ATTTAATTTA ATCAGATGTCTGGCTTTGAC CTAGAAACAC AGTCACGAAA CTTGGTGATT AGAGACCAAT TCCCAAACAT GAGCATTTCTTAGGAAACAC AGTAAAGATC TGAGAGACCC AAGAGCAGAA GGGCGAGAAA CCAAAAGCCA TCAGTTTGCATAGGAAACAC CTTGTTTAGCCTAATCTTTT TATTTTTATT ACTCTATTAG TCACTACAAC TATTTTCTGA TTGCTATGGTGATAGATGGT TTAAAACAAG CCTTCATTAA GAATTGTCAC ACCATGGTCT CAGTCAAAAA CACCAACATT TTTATTGGTATTGACAATTA TGGGAATATC CAATTCCAAG AAGACAAGGA GACCTCTGAA CTTTCTAAAT GAAGACTCCAATCTTCCTGA TCTGATGGGA AGCAGCTTGG CAAGATTACC AACCACCACC ACAGAGAGTG GACTCTAAGCTAAGACTTAA AAGATAAGTA GAAATTATCC AGGTAAAGAT GTGTACAGAG AAGGAAGTAC ATCCAGGGGAAAAGAACAAT ACGTGCAAAA GTACGGAAAT GGTAAAAAGT AATACTACAT AGTCAAAGCC AAGCAGAGTTCAGAAGGGAT CTGGTGGTGA AAAATACGGC TAGAGAAAGC AGCAAGGATT GGCTTCTAAA ACCTATGTAGTATCTTGGAC CTTACCCTAA ATGTAATGAG AAGCTTCTAA AGAATCTTTC ATTTATTCAT TCATTGAACA AATATTTTGAGGCTTTCTGT GAAGAACATC ATTCTAAGTA GTAAAGATAC AGCAGTGAAT AGGACACATA AAATCCTAGATCTCACAGAA TTGACATTCC AGAGAGGGAA AGGTAGACAA TAAATACATA AACAAATCAT TTAACAAGATGATTTCAGAC AATGGTACGT ACTGTGAAAA AAATGAAACA AGGTAATGGA CAGCGAAAAG GCACTGGAAGGAAGCCTGCT TACCTTTGCA TGGTTAGAAA AGATCTCTCT AAGAAAGAGA CCACATGTGA GCTGCGACCTGAAGGATACC GAGAAGCTAG GTGTGCAAAG ATGTGGGGAC AGAACTTTTG GACTGAATAG CAAATACAAATGCCCTTGGG TGCAAGCTTT GCCTGTTCAA GGACCAAAAA GAAGGCCAGT GTGCCTGCAG CATACTAAGCACAGAGGAAA ACACTGTTAT ATGCTGAGAT TGGAATTATA AGTAGAGCCA GATAATATAG TCTCTTATAGGTCATAATAA GGCAACCAGA TTTTATTCCA AGAGGATTTA AAAATCACTG GAGGTTTTGC ACTAGGGTGAGAGGTGTGAT TTGTATTTTT AAAAGATAAT TCTGGAGAAT TAACTATAAT GAGGTAGGAG TAAACTAAGTTAGGGGCTAT TTCAGTGGCT CAGACAAGAG ATAATGGTAG CTTAGACTAG GATAGTAGTC GTAGAAATAAATAAAAGTGG CACTCTACTT TGGGGGTAGA GTCTATAATA GGTTTGGTTT ATGGATCATA TATGAGAGTAAAAAAAAGAA AATAAATTAA TAATGGTTCC TAGGTTTGTA CCTGAGCAAC TGAATAAATG GGTGCTGTGAATTGAGATAA AGGAGATTGA GAATCACAGG CTTTGTTTTG CAAATTAATT TTGAGAGGCT TATTAGACATCCCAGTGGAG ATTTCAGGTG AGTGGAGCCC ATTGAAAGGT AAGGGACAGG GTCAGGTGTG GTAGGTCAGGCCTGTGATCC CAGGACTTTG GAAGGCCAAG GCAGACAGAT CAGTTGAGCT CAGGAGTTTG AGACCAGCCTGGGCAACATG GGAAAACCCT GTCTCTACAA AATATGCAAA ATATTACCTG GGCATGGTGG CATATGACTGTGGTCCAAGC CACTTGGGGG GCTGAGATGG GAGGATCACT TGAGTACAGG AGGCGGAGGT TGCAGTGAGCCAAGATCTCG CCACTGCAAA CCAGCTTAGG TGACAGAGTG AGAACCTGTC TCAATAAATA AATAAGAAACGTAAGGGAAA AGGAAATTAA TCTGATCATT GGCAAATGCA TAGTATTTAA AGCCAGGGGA GTAGATGAGATACTCAAAGT AGGTGAAGAT AAGGAGGCAA TGAAGGCCTA GGACTCTGGT GTACATTTAG ATGGTTATAAGAGGAATAGA AACTGGCAAA ATAAGTAACA CTGAGCACCC AATGAGGTGG AGAGGAAAGC CAGGAGATGAAGCATCATAG AAGGCAAGAG AAGAAGGGTG TCAAAGAGGC GAGGCAGTCA TCAACTTCTG GGCAGTCAAATAATATAAGG ACAGAAAAGT GACCATTGGA TTTGGAAATA TGATGAGCAC TTTGAGTGGA GTGTTGAGACAGAAGACCAA TTAGAGTAGA TTGAGGAGAT AACGAGAAAT GAGAAAATGT AACCTGCAAG CACAGACAATTCTTGAGAGA CTTTTCTGTG AAAGGAAACA GACACAGAGT CTTAGCATGT CTTGTCTTTC TATGGGAAAT GTAAATAGTTTGAGATCAGG GATAGTATTT TATTCTGCTT TTTGTACCTC TACATTACCT AGCATAGAGC TAGCTAATGT GCACTTAAGTATGTTCTCAA TTCTTATCGC CTGAATGACT GGATGGGTGA AAGAATGGAT GGATGGATGG ATGGATGGATGGAAGGATGG ATGGATGGAT GGAAGACTTC TGATTTGCCA AGAAGAGGAT ACTGGTAGCA GAAATAAAAACAGCACTGGA GAAAGAAGAG TTTAGATTTT TATTCTTTGG TGTCAGTTAG ACAGGAAAGT AAGACATTAGAAGAGTCCTT AGATAATTTA TGTAATTGTT CACTTAGGAT TTTTAAATGT GATCACTGAT ATTGGACATG TTCCTAGTGAAGCATTTTTG GTGTTTCACT GGTTGAAGTT AATAACTGTA AAATTATTTC CCGTTCAGGA CAGAAAAACA GAAAACTTGAAGCTCCTATT AGAAAGTTCA AGATTCTCTG GGGTTCTTAG GATTTACTGT TCCCAAAACT CTGTCAAGAA CAAGAAAATGACCTGTATAC TTAACTGGTC TAGGCAACAG TGGAAAGACA ATTCTCAGAG AAGATTTGTT TTAAGAAGACACTTTCCATA GGAATCAAAC AATAGCTTTC AGTGACTAAC ATGGTAAGAC ACAGGGTGTT AGCTCTTTCC TTCCAACCTCATGGCTGTTG TACCTTACCT TTCGACCCCG TGTTCCTGAA ATTGTTAAAT TCATAAACTT ACCAAGGACT AACCAGCCTCTGGGGAATTG CTGTATACTT AGCAAACTTA CAATGGACAT ATTTATAAGC CATAATGATA ACTGACTAATAGGAAATACC CTCAACTGAA AATGAGAGAT CATCATTTGC AAATGAGTTC CCTTGCCCAG GCAACTACTGGGGAAAATGT CATGCAAGCA AAATTAATCT TTGAAATCCT CCTTTTCCAT TTTTTGTGTC TTCCTTTTCC ATAGGCACCAGAAATATCAT GGTGCCTGGA TCTCATCTCT ACAGAAAAAA AAAGTGATTT GATAAACTGA TTTATATTGT GTCCAAATGTGATTGTATTT TCAAAGATAA CCTAAGGGGA GAATGCTGTC TGGCCCAACA GCAGGCTCTC GACTTCATTTCAGACACTGT GGCCAATGGC TGGGAAACAG GTATGAACAG TAGGTTTCTG AGTCCCCTGG AATTATTCCATTTATGTAGC CACCTCCATG ACAGGAAGCC TCCCTACTCT TACTTCCCAG TTTGTTCATT CATGGCACCA GGTTGCAGATTAAAATTTGC TCAGTGACCT TTTATCTAAT AATGTGTTAC CTTCTTCTCT TAAAAAGTAC AAGGGACAAA TGCTCATGGTATACTTTTAG GAGATTGTGG CTCTCTATTA ACAGTATTTA TTCAACAAAC ATTTATTGAG CATTTATATG TGCATCATGCTAGGGACTGG AACCTAGTAA GTGTAGCACA TATTATTTCA TTTAATCCTC ACAACAAACC CATGAGGTTG GTTTTATGATCCCAATTTTT CAGAAGAAGA AACTGATATT CAGAACCAGT TAACTAACTG GTTCAAGGTC ATGCAATTTCTAAGATACAG AACCAAGAGT CAAAGACATG ATTTTAAACC AAAGCTTTTT CTGCTACTCC ACATTGCTTCCCTAGGTGAG ATCTGAGGCA TTCCGCGAAA AGAGAAGGGT CATAAAGCCA AGGGAAGACA AGCTTAGGAAAAAAAAGGGA AATGTCCTAA ATAAACAGCT TTCCTATTTA CCAGAAACCA CTAGTTTAAA AATATAATGGGAAAAATCCT ATTCACTTTA ACAATGTTAA AAAAAAAAAA GATAGAAGAA ACATAGGGAT AAACTTAACACATTTGTAGG ATATGTAAAG AAACTAAAAG ATGTTAATAA TGGCCTAAAG AAAAAAAAAC TTACATGTATGGGGAGATAG ACCATCTTAC TGGATTCTAA TATTTAATAG TCTAGGTGTT CCATTTCTCA CCAAATTAAT GTATACATTTAATACAATGT CAAACGAAAT ATCTTAGGAA TTGCTTACAA ATTGTCAGAT AATTACAAAG TTTACCTGGGAAATATAAGC ATATATGAAG AGTGAATGGG ACCCCACCAC TCCCCCCAAA ACAAAAAAGG TCTGAAAAGGACAGAAATCA AGGAGAGTCT TGCCTGCCAG ATACAAAATT CTATTATAAA GGTGTATTGA TGAAAACAATTTAATACTAG TGTAGCAATA GGCAGCAAAG CAATGAAACA GCATAAAAAG ACCAGAACTA TACCTAATTATGATGAAGAT TTAAGGTATG ATAAACATGA CATAATTCAA ATCAGCAGAA ATTGGCATAG ATAGGGTTAAGACAAATAGC TAATCATTAG AGGGGAGGAA GGAAAGGAGG GAGGATAAAA TTAGGTTCCT GCCTTCATCTTACATTAAAA TAAATTCCAG ATGTATTACA TTTAAATTTT TTTAAAAAAA GAAACCACAA AATACTTGAAGAAAATATAA GTTGTTATAT AGTCTTTTGA TGGGAATTTT TTTTTTTTTC AGAGACAGGG TCTTGCTCTG TCACCTAGCCTAGAGTGCAA TGGCATGATC ATGGCTCACT GCAGCCTTGA ACTCCTGGGC TCAAGTGATC CTCCCAGCTCAGCCCCCCAG GTAGCAGGAA CTACAGGCAT GCGACACCCC ATCCAACTTA TTTTTTATTT TTTGTAGAGA CAGGGGTCTTGCTTTGTTTC CCAGGCTTAT CTCGAACTTC TGCCTTCAAG CACCTCAGCC TCCCAAAGAG CTGGGCTGAT GGGACATTTTTTAACATAGT GCCACATTAC CATAAATGAA AAGCTTGTAA AATACTAATT TTTAAAACTA ATATATATCA GAAATTTTTATAAACAAAGT TAAAAAGCAA ACACAAAAAA TTTGTAGCAC TTATGACAAA TATATGTATA TATATGAATACAAAAAGAGC CTTTACAAAA CAGTAAGAAA ACAATGAATA CTCCCAATGG AGTATTCAAA ACTAAACTGCTAAAAGCAAT TCAAAACAAA AAACATAAAC TATGCATATA TGTATGTGAA AAAGTTTAAC CTTATCAAAGAAGTAAACTC TCAAAGAAAT AAACATCAAA TAAGGAAATA GCCTTTTCCC ACAAATAACC AAAATCTGTAAGAATACTGA GCTGCGAATG TTTCAGAAAA AAAAAAAAAT CATACACCTA GTTCGGCATG TAATTAATATAGATCAGAAC ACTTTAAAAA TATTTATAGG CCAGGCACGG TGGCTCATGC CTATAATCCC AGCACTTTGGGAGGCCAAGG CGGGTGGATC ACCTGAAGTC AGGAGTTTGA GACCATCCTG ACCAACATGG TGAAACCCTGTCTCTACTAA AAATACAAAA ACTAGCCAGG CATGTTGGCG TATGCTGGTA ATCCTGGCTA CTCGGGAGGCTGAGGCAGGA GAATTGCTTG AACCCAGGAG GTGGAGGTTG CAGTGAGCTG ACATTGTGCC ACTGTACTCCAGCCTGGGCA ACAAGAGCAA AACTCTGTCT CAAAAAATAA TAATAAATAA AAATAAAATA TTTATATACTCTGACCCATC AATTTGTCCA GCATAATTAG GCATGTGTAC AAGGGTTTAC ACACAAGAAT GCCTATTGCA ATATTGCTTTTAATGCTAAA AAAAATTGGG GAAAATGCTT TAAAAATATA GATTAAGACT GTACATTGTG GTACAGTCATATAATCAATA GTATACAGCT ATTATTTATT TTCAGCCACT GTCCAAAATA TAGCCTGGCC TAACAACATT CTGTTAGGATACGCAAGCAC CGTGAGGAGA TCAGCTATAA AGTATCAGTG TTTCACACCA CTGCTCCTTT GCTAATAACCTTCAATGGCT TTTAAAGAAG TAAAAAACAA AGGCAAAATT CCTTAGTCAG CCCTTAAGAC TCTCTGTTACTTAGCTCAAA CTACCCTTTT CAACAACACT GCCCTAACCA GGATGAGTTT TTTGCCCCCC TGGAGTACAT TCAGCCTTTCCTTATCAAAC CTTCCTTTAA ATAAGTATCT TCTCCAGGAC CACTTCACTT TCTTCCCCAA TTTAGCATTT TCTATATCTCCAGGCCTACC TCTATAAAGC CTGTCCTAAC CACTCAAACC CTAGCTTTTT CTCTGAACTG CTAGAAATAT TTTTCTCTCATTGGCCATTT AGGTAAAAAG GTTTTTACTG TTTATTACCT ACTCAATAAA AATTTTCTTT TTTTGAGACA AGGTCTTACTCTGTCGCCTA GAATGGGGGG AAGTGGTGTG ATCACAACTC ACTGCAGCTT CTACCTCCCA GCTCAACAGTCCTCCCACCT CAGCCTAGTG AGTAGCTGTG ACTACAGGCA TGTGCCACCA TACCCCACTA CTTTTCATTT TTTATTTTTTGTGAGATGGA ATCTCACTAT GTTACCCAGG CTGGTCTGCT GATCTCAATT GATCCTCCCA CTGTGGCCTC CCAAAATGCTGGGATTACAG GCATGAGCCA CAATATCTGG CCCCAGTAAG CTTTTAAGGC CATTAACATG AGGAACAGTGTTCTTTACAC TATTTTATCA GCTAGGGCTT TGCATGGAGT AGGAGTTTAG TAAATGCGGT TGATGGGTTA ATCAATGTGTGAAAATATTC AGAGCCACCA AAAACAGATA TTATGTCTAT TCTCATCAAC AATCAAAATT GAGTAAACAGCCATTTTCTA ATACAGGAAA CCACAAAACA TTGAATGGTG ACATTAAAAA ATTCCCCCAG CAGGAGCCAACCAATTTTTT CATCCTGATC CAAGTTAGCA AACTGCAAAA GATAGGAAGC ACTAATGAGT GGAAATTTGAGTAGAAGCAT TTCTTATGAA GGCTGTCTTG ACTGGATCAC ATTTTTATTG CTGTTGGAGG TGCCAAATGT GTGTGTTTATGCTAATCCTC CACCTCAGGC AACACACAGT CAAGGATCCT ACCAAGTGTT ACCGTCAAGT GTCTGTTGGCAGCTCAAGGC CCCAGCGTTG TTCCCTTGCA CTAGGGAAAA GACATATTCC AGGTACAAGT ACTCCCACTTTGATGCTACA GAGGAGTTGC TGAACTTTGT GTCATTAATC TCTCTTCGTT AGATCCCAAC CCTGTTTAAA TCCCACTATCTGCCTACTCT GGGTCTTCAC CAATTTACTA GATCATAGTT GGAGAAAATC TACAAAGCCT TGCTCCCTTT AGATTTAAACAGGTCTCCGT TTAAATTTAG AATTGCTAAC TTCAAGCGGG CCCTTATGCG ACAGTATGCC TGTCAGTCAT ACTACATTTCCTCAATTCCA TTCATGTGAC TGCTCCATAC CCTTCCCTCT CTCTTCATAC TACTATTATC TCTTCCCCCC TCCCTCATTTTTAACTGATG ATCTTGTTTC CTATTTCTCT GAGAAAATAG AAGCCATCAA AAGAGAGTTT CCACAAACTC CTACTGCCTTATCTAGCCCT GTACCATATA CTTTGCATTT CCTCTCATTA CCATGGATGT ACTGCCTATC TGTGCTTCTA TCTAAGGCTAACCCTTCCAC TTCAGTTTTG AATATTATCA GCTCTTACCA ACTCAAGGCC ATTGCTCTAG CAATTCTCTC ATTCTCTCTCATTTTCTTCC ATCAAGTTTT CCTTTTCTTC AATTAACAGA GTAGCTCCTA AAGGGAAAAA AAAGTCTTCT TTTTCAATGCTCATCATCAC TGGCCATCAG AGAAATGCAA ATCAAAACCA CAATGAGATA TCATCTCACA CCAGTTAGAATGGCAATCAT TAAAAAGTCA GGAAACAACA GGTGCTGGAG AGGATGTGGA GAAATAGGAA CACTTTTACACTGTTGGTGG GACTGTAAAC TAGTTCAACC ATTGTGGAAG ACAGTGTGGC GATTCCTCAG GGATCTAGAATTAGAAATAC CATTTGACCC AGCCATCCCA TTACTGGGTA TATACCCAAA GGATTATAAA CAATGCTGCTATAAAGACAC ATGCACACGT ATGTTTATTG TGGCACTACT CACAATAGCA AAGACTTGGA ACCAACCCAAACGTCCAACA ATGATAGACT GGATTAAGAA AATGTGGCAC ATATACACCA TGGAATACTA TGCAGCCATAAAAAATGATG AGTTCATGTC CTTTGTAGGG ACATGGAGGA AGCTGGAAAC CATCACTCTC AGCAAACTATCACAAGGACA AAAAACCAAA CACTGCATGT TCTCACTCAT AGGTGGGAAT TGAACAATGA GAACACTTGGACACAGGAAG GGGAACATCA CCCACTGGGG CCTGTTGTGG GATGAGGGGA GTGGGGAGGG ATAGCATTAGGAGATATACC TAATGTTAAA TGATGAGTTA ATGGGTGCAG CACACCAACA TAGCACATGT ATACATATGTAACAAACCTG CACGTTGTGC ACATGTACCC TAAAACTTAA AGTATAATAA AAAAATATAT ATATATATATAAAACAACTA AAAATAAATC TTCTTTTTCT GCAGGATCAG TCCATCACCA CACACACAGG CTGTGTTTTA TGTTGTTCCCCAGCTTAAGA GATCGTTCTC CAGATCCCAC TGCTCCTTCC AGTTGTCACC TCAGTTCTCC ACTTCTTTTT GCTGATAAACTACTCTAACT AGTTACATAT GATTTCTGTC CCCAGGTCCC CTCCCTCAGT TGTTTTGAAC ATAATCATTT ATATCATTTATCATTTTCAC TCTAATTGCA CAACCAAAAA CTCCCTTTTT TTTTAGATGG AGTCTCACTC TGTCACCTAG GCTGGAGTGCAGTGGCATGA TCTCGGCTCA CTCCAACCTC CGCCTCACGG GTTCAAGTGA TCCCCCTGCC TTAGCCTCCT GAATAGCTGGGATTATACAC ATGCACCACC ACACCTGGCT AATTGCTTTG TTTTTGTTTG TGTGTGTGTG TGTTTTTTTT TTTTTTTGGACAGAGTCTCA CTCTGTTGCC CAGGCTAGAC TGCAGTGGCA TGATCTCAGC TCACTGCAAC CTCCACCTCC TGGGTTCAAGCGATTCTCCT GCCTCAGCCT CCCGAGTAGC TGGGACTACA GGCATGCACC ACCATGCCAG GCTAATTTTT TTGTATTTTCAGTAGAGACC AGGTTTCACC ATGTTGGTCA GGCTGGTCTT GAACTCCTGA CCTCAAATGA TCTGCGCACC TGGACCTCCCAAAGTGCTGG GATTACAGAC TTGAGCTACT GCGCCGGGCT ATTTTGTGTT TTTAGTAAAG ACGGGGTTTC ACCATGTTGTCCAGGCTGGT CTCAAACTCC TGACCTCAAG TGATCCGCTC GCCTCAGGCC CTCAAAGTGC TGGGATTACAGGAGTGAGCC ACCATGCCTG GCCATAAAAC TGCCCTTTGT TAATATGACT GTTGGCCTGC ACATTGTCAAATCCAGTGGC ATTCATCTTA CTCGGCCAAC CTACGGCATT TGACACTGTC TGTCTTTCCT TCTGTTCCTC TATCTGTTTCCAGTATACTG GCCTGGCTTT CTTTTTACCT CTTTTATATG CTCTTCCAGT CTCAGGCTCC TTTGGGGATT TGAAGGTATGTTGCATTTTG CTATTCAATG AATAATGACA AGTAATGATC ACTTAAGACA TTAAGTGGTC AGTTCCTTTA CTAGGATAAAAATAATTTTC TTCCCAACAT GGGGCATATT CCATTTCCAG TCTGACTGTT CTGTGTAATC TTTGTATTCC TTGGCAGCCCCTTTTATATC AGTTCATCTA CTGTGCAGGA AATTGGACAA ACATTTGCAC TGGTATAACC AAATACAGTT GAACTTTTGGCTTGACTCTT AGCTGAACTC ACCAAAAATA ATTTCTGTAA GAGACTGAGA CGTCTACGAG TAGGTTTTTC AGAATTAGTAAACATAAATC AAGGATACAC AGGTAGATTT GAATTTCAGA TAAACAACAA ATACTTTTTT AGTATGTCTA CTGAAATATTTGTATCTTAT CTGGCAATTC TACCTGGTAC AGAACTAATC CATTCTCTTG AAAGATCTTG ACTCTGTAAT AAGTTCTTTGGTGATGGAAG GGAGGTATTT CTGTAATTAG AGTCACTGTC TTCCTCCCAG TTTTTTATCC TGGCCCAGAT CTGCAATGAACACACGACAG AATCCAGGGG GGATGAAGAT GGGTGCTTTG CAGGAAAAAA AAATTAAAAA CATCTGAAAAAGCTTTTGTA CTAAAAGAAT GTGATCTAAA AAAGAAAGCA GGAGAACTTT CTGTCTGCAC TTTACATCAGAACAACCTTG GCGTCTAGAA GCTGTGCCCT GTGGGAAGTG GTGGTGCTTG GTAAGAGATG CCAGGACCAGTGGTACCCAC TGGGAGCACT GCCAATACCC AGCAAGGAGC ATGGGTGCAC AGTAAGGCAT TGCACTGTGATTCAGCATAA AATAACAATA AGGGAACGTC ACGGAGAAAA GGCCAGACTT CCTTTGTTTA GAATGTGGGAAATGTCTTCT GAAAAATGGT AGTAAAAAAG CATGCTTGGA TGGTCCACTC CAGGCAAAAC TGACTAATCGGGGGTCAGGG ATACAACCCC TGCATCATAT GTTTGTTTCT GTTGGGCTGA CATGAGGTTC ACTGTGACCA CTGTGGTTTAACCCCATAGT CTCCTGGAAA TACAGCCAGG TCAAGAGAGC TCCACATAAA ACATAATCAA AAAAATAAACTCAAGTTTCC ACTGATCAGC TTTTCACAAC TCTTATCCTT TCACTAACTT TGGAGCAAGA TTTGAGAATT GGATGGCTATTTGAGGGCTA TTTCTGCGCT TTAGTTCAAT GTTTTGTTCT TTCTTTATTA GAGAACTATG GTTTTTTATT ATATTTACACTTTAAGTTCT AGGGTACATG TGCACAACGT GCAGATTTGT TACACAGGTA TAAATGTGCC ATGTTGGTTT GCTGCACCCATCAACTCGTC ATTTACATTA GGTATTTCTC CTAATGCTAT CCCTCCCCCA GTCCCCCACC CCCCGACAGG CCCTGGTGTGTGATGTTCCC CTTCCTGTGT CCAAGTGTTC TGTTTATGTG ATAGATTACG TTTATTGATT TGTGTATGTT GAACCAGCCTTGCATCACAG TCACTTGCTT ACAAGAAACA AACACTTCAC AGATGGATCA TTATGTGTGA TAAGTGAAATCCAAGGATTT ATGCTCAGAG GTGGGCTTAA CAGGTAGGAA GAGCAGTATT TTCCTTCAAC CATGAGTGTATGCAGGTTTT TCTTTTCTTT TTTGAGATGG AGTCTCACTC TTTTACCCAG GCTGGCGCGC AGTGGTGCGA TCTTGGCTCACTGTAACCTC TGCCACCTGG GTTCAAGCAA TTCTCCTGCC TCAGCCTCCC AAGTGGCTGG GATTACAGGC ACCTGCCACTGTCTCCGGCT AATTTTTGTC TTTTTAGTAG AGATGGGGTT TCACCATCTT GGCCAGCCTT GTCTTGAACT CCTGACCTCATGAATCATCC TTCTCAGCCT CCCAAAGTGC TGGGATTACA GGCATGAGCC ACTGCGCCCA GCCCACAGGTTTTTCAAAGA CTAAACTTAA AAAAAAAAAA AAAATTTCCC AATGAAATAT AAAACTAAAG TGCTAAACTGTGATAGACTG TTTTACAAGA ATGCCAGTTT TCACAAGTGT CTATAGAACA TGTAATTTAG ATAGGTAAGA TGAAATTTTGATAATATTTG ATGGCAAATT TAAACAGGTA TACAACAAAA ATAAAATTCT AAGCCCCTCA ACCAACTGAATGGACTCCTT CTCTCAGCCA AAGGAATACC AAAGTAAACC TGAAAAACTA GTTTTGGCCA GGATTGGGGGTAGGTGGGGG AAGCCCAACA TGACTCATTA TTCTCTCCTC CCTTTGGAAT TCAGGCACAA CTGAATGTCAGCATTGACAC TAAAACACAG ATCTTAAGAC TGACAAGCCA GACTCTTTGT AGCAGAGAGC CAGGCCCTGGAAGAAATCAA GTTATTTTAT CCCAAAAAAT ATTTCTTTGA TATATTTTCA AATGGCCCTG CAAAGCTGTC TCTTGTGGGGAAAATTGACA TGCTGTACAG AATTTCCTTC TCTTTCCAAG TTTTTACTGA TCCAGGAGAG ATTTAACTAA GAGGCTAGCATGTTTTTTTT TTTTTTTTTT TGAGGCGGAG TCTTGCTCTG TTGCCCAGGC TGGAGTGCAG TGGCGTGATC TCAGCTCACTGCAACCTTCG CCTCCCGGGT TCAAGCGATT CTCCTGCCTC AGCTTCCCGA GTAGCTGGGA TTACAGATCC ATGCCACTATGCCCAGCTAA TTTTTGTATT TTTTGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTAGT ATTGAACTCC TGACCTCGTGATCCGCCCAC CTCGGCCTCC CAAAGTGCTG GCATTACAGG CGTGAGCCAC CGTGCCCAGC ACAAGACATTTACCGTCTAT TCTCTCTGAA GCTACTATCT AGAGGCTTCA TCAACATAAT AAGACCCTTG GTCTCCACAA CTCCTTATCTTATCCTATTA GTTTCTACTG ATTCCAGGTC TTTAGATAAT AACAACTCTT TCAACCAATT GCCAATCAGA AAGTCTTTGAATCCACCTAT GACTTAAAAG CCCCACTCCT TCAAGTTATC CCGCCTTTCT GGACTGAACC AATGTACACC TTATATGTGTTGATGGATAT CTGCCTGTAA CTTCCATTCC CCTAAAATGT ATAACATCAA GCTGTAACCC AACCACCTTG GGCACATGTTTTCAGGAACT CATGAGACTG TGTTGCAGAC CTTGGTCACT CATATTTGGC TCACAGTAAA CTTCTTTAAA TATTGTATAGAGTTTGGCTT TTTTCATTGA CACAGGAAAA ATAAAGAATT GGAAGGTCTT TCATCAGTCA CTGAGCCAGC TTCATATCTGACTGAGGTCA TACAGTTCAG TGATTTGTAG CTTTGCTACT TAGATTGCTA TCCATTATCT AGAAGCATCA GGATCACGTGGGACCTATTG GAAATGCAGA CTTTCCTCCT AGAACCCAGG ACCTTGGAAT ATTCTTGGCA CATAGTAGGTGCTCAATACA TATTGAACTC CTAGGTGCAA TTCATTAATT CATGAATTAA TGAATTAACA CGCTCTCAAA GTTTAGTGCTTTTTCACAGA CTAGTCTTTC TGCCTCTTAA GCACTCAGCT CACCACGCTT CCAGTCTCAC TCCCCTATTA GTCTGATTAAAATCTGCTTA CATGTGAGTC TGAGATCAAG TGTTATCTCT TCTGAGAAGT CTTCCCTCAC TGGCCCAAAG GAATTTCTCCTCTATTTTAG CACTGTCCCA GTTGACTTGT CATTATTCTA GTCTTTTTCA TATTAGTTGT TTTTCATATA TATGTTATTAAGGAAACTAG TCATTTCCCC TAATAGAACA AAATTGCTGG CCTTTGGGGT TGGCAATGGA GGGGAGGCTCTTCTTGAAAA GGGGGAAGAG TGTTCTCCTA ATATTTTTCT TACGAGATTT ATGTTGCTCA TCTTTAGCCT TTAGTCCCCCATTGCCTGCC TACAGTTGGC AGAGACCATC TGTTCTCTCA CTGTCAGGAA CTGTCTCAATTCTTGAAGTT CAGAGTCAAAAAAGAAGCAA GTTTTCCTAG CTCTTTGATC AACTTTCAAA GTTTTACTTC CATTTGAAAA TTTACTAAGT CACCAGGAGATGGTTTATAC TGAGAAATAT CCACTCATAC TCTTCCTCTT CAACTTTCTT CCATATACAC CCTATTACAG GGATATAGTCTTACTCTATA GCTCAAAAGG ATGACCCTAT CAGAAACCTG CACAGTATGT AAAACATTCT CACCAGAGGT TCACTTGTGTATTTCCACCC TAGAATGGAA GCTCTACAAA AGCACAGAAT GTATCATTTT AACTTTAGAT TCTATTTTCA CACCCAGTGCTTGACACATG ATTTGAAGTT AATATTTATT TATCAAGTGA TTGTTTTAAA ATCATGACTC ACTCAACAAA GTTATAAGAATAAGAATAGT GTTACAGAAT TGGTATACAC AAGCTGACCA TAATCAACAC ACCTATTATC ATTTTTTTGC GACAGGTTCTCGCTGTCTCA CCCTGGCTGG AGTGGAGTGG CATGACCACG GTTCACTGCA GGTTTGAACT TCCAGGCTCAAGCAATCCTC CCACCTCAGC CTCCCACATA GCTGAGCCCA CAGGTGTGTG CCACCATGTC CAGCTAACTT TTTAATTCTTTGTAGAGACA GGGTCACCCT ATGTTGCCCA AGCTGGTCTT GAACTCCTTG GCTAGAGAGA TCCTCCCTCCAAGGTCCCCC AAAATGCTGG GATCTCAGGC AAGAGCCACC ATGCCTGGCC ATAATCAATA CACTTTTAAGAATGCTAGAA TGTTATATCA GATGCATACT TCAGCACTAT CTCAAGCAAA CTGGGGTGTG GGTTATTCTA CATATAAAGTTCAGCAGTGT TGTTCCACAG TCCCAAACTC CAACTGAGGT CAAATGTAGG GTGCAGCAAG GTCACTGGGGCTGTCATCAA GGGCCTCTCC TTGCACTCTT GCCAACCCTG TTTCTTGATT GTCTCTACCA CCATGAGTCA CCAGCAATCTCCCACAGTCA CTTGTTTAAA AGTTCACAAG TATTGTGTGA ATTGCAGGCA ACCCCTTGAC TCCCTGATTG CCTGGTCTTCTTCCTTGGGC TCTACCATTT TTTTTCCCCA GCACTCTTTC TGCTGCTCTA AATTTTAATT CATGCAATTC CATATGTGTTTCTCTATCAT TCTTCATCTC TTTCCTCTCC CTTCCATCCA ATTTTGTTTG TCTGTTTGCT TGCTTGCTTG CTTTAATACATTTCTCTTTT TCTGAGAAGG CTTGAGTCCA AAACTCTCAG TTACCTGTTG TTCTGTTTCC CGTTAGTTAA TCTCCGAACCTTCATAAATT AAATCTGACA AAGTCCCCTG ACTAACAAAG GAAATGCACA AGTCACAGTA AAAGGGGCACACACAGAACA CAAATAGACC CAGGGTCTTT TCTGTTCATC ACTCAGCTTT TTATAGGAGA TCCAGGAGAAATGAAGTGGA AAGGGAAGTG TGTTGAGTTA CTATACAACA CAAGAGTAAA CTTTCTTATA AGTGGTAATT TTTTTTTACAGGAATAATTG AAAATGGAAA TTACCTTCTC TACTCATAGT AAGTACTCAG TGCGTTCTTG ATGGGATGAG AATGTGTTTGAGCTTTAGTG TAAGGCAGAA TTCTGTTTAG TCTGCCAGTA TTGGAGAAAA ATAAAACACA AAGGGACTGACATGTAGGAA GTGGCACCTG GGAGGGTCTC AATTCTTCCT ATTACAAAAA TGCCCCAGAG AAATAAAAAGCTTGTGTACA TGTTGAGATG GGAGAGTTCT CTGGCCCCCC TCGCAGGATG TGTGACAGTG GGGTGGCTCT CTGCTGCGCCACCATGAGCT CAAACCCCTC ATAGGAGGGG GAGCACACAG GCAGGAAGGT GCAGGAGCTG GGCGAGCTCTTTGGGCTCTG GCCCCGTGGT ACTGTCTAGA GGTGGGTGCC TGCAACTCCT GAAAGCCCAA GTGGGCATGTGTTACAGTGC ACTCTTTCAG CTTTGCTGTC TGCAGCTTAA GCGTTAACCA GCTCAGTTTC TTCTTGGTAC CCAGGTCCTTGTCTGGCATC CAGGAAGAAT CAGGTTACAC ATGGACTTGA AGGATGAATG TGGGAGTTTT ATGGAGTGGTGGAGGTGGCT CTCAGTGGGA TGGATGGGGA GCTGGAAGGG GGATGGAGTG GGAAGATGAT ATTCTCCTGGAGTTTGGCTG TCCAGCAGCC GATCTCCTCT CCAGTCGTCC CCAGCCTCTC GACGTTCAGA TGCTCCTCTT CTCTCCTTCTCTGCCATGCT GTTCTGCCGT TCATCTGCCT GTCTCTCTCT GGAGCCTGGA ATTTGGGGTT TATATGGTAC ACAATAAGGGGCATGGCAGG CCAAAAGGGA ACTTTTTAGG TGCAAAAAAC AGGAATGCCT CTTCTCACTT AGGGCTATAGATTTTCAGGC TTGAAGGTGG GGCCTTTACC AGCGAACCTG TATTTCCCTG TCTCCTGTGC ATATCAATGT AATCAAATACTGGGCTGATC CAGGATGTTT CTTTAGACCA ATTATGGGTA AAATAATTTA CATTCAGGTT TTTATATTTG CTTTTGTCATTTCTTTTTAA GCAATCATGT AAAATATCTA TACGACAGTA ATAGATGATA GCGAACCTAA TTAAAATTAC CAGAAACTTAAGAATCTCTA ATGATTTCAA CTGTAACTAA GGTTATTTCT CTTTATGTTG AACAATGTTG GGAGATAAGA CACAAGAGTTTCTGAAGTAT TTCAGAAACA CAAAGAGGGA GGTTATATAA ATAATATTTT TTTCCTACTT TGGGAAAATGAAAGCTAGTC ACAAAGTTAA ACGAGTGGTT ATTTTAATAT TTAAAATACA GGCTTGGATG TATTTCCTGT TAAAGAAAATAAAATGCAGA ATATTCAAAA CGTCTGACCA CCCTTCTAAG AAAATGCATC TCTGAGGTAT TTTTCCTTAG AAGTTATTGTAAAAATCCTG GAGAAGCTTG AACACAGCAA AGCAAACAGG ATGCAGAGTT TAATCTGTGG AAAGCTTAGGGAAGAAAAGC AAATCATTAA AAATAGGTCT TCCTCTGAAG ATTTTTAAAA CGCAAAGAGG GTGGAATAGCAATGATAATA AAAAAGCTGG CATAGAGAGT GGCACAATTT GCTGTGCCAC TGAGCTGACT GGATGTGTTCTGAATTTCTA GGCATTAGTG TACCTTTCCA CACGCATTCT CCCTTTAAAA AAAATGCCCA CACACTGAAT ACTTTTTTCATGCAATTTAA AATAAGCGCA CCATCTAGTT TACAGAAATT CACTAGAAGT TATTTATCCT AAAATAGCAGAGATCTAGAA GAATTTTGAG CTCTAGGACA TTTTAGACAC ACAGAAAGAA GAATCTGGAC AAGTCTTGACCAGACATGAC AGAATAGAAA TTTCTTTTCC TATTTATCTC TTTGAATAAA ATTTTCAGGA TCTTACAGTG GACAAGTTTGTTATCTACAC ATTGTGAAGC ACATTGATTT CTCCTCTGTA GCCTTAGGAA GATCTGAGAG GTGACTGAGC TGATTGAATGATCCGTGACC GCTCTACTGG GACCAGTAGT AGAACTTTAC TGGTGGAGAC CTGCTGGAGG TTTGAGAGCAGACTTTGAAA ATTACTAGAG CTACACAGAT ACTGTGTGGC TAACTGGATT ATGTTTAGAG GCTTTCAGAA CTATGCTGCTGCTGCTGCAG TGTAGCCAGG ACGCACAGAG AACATCTAAG GCTCTTGAAT GGGGCGATAG GGACAGATTTCAGCAGCCAT CTGACTTCAG TGCTCATTTT GATGCTTTCC CTGCAGGGTG CAGTGTGCAG TGTGCAGTGT GCAGTGGTGGGAGGCTCACA CAGGAATACT TGCTTCTGTA GCCCTAATTT CCGGTTCAAA CTCTGCATTC ACCTTGACAG ATTCTTTCCTTGGCCAAAAT TTAGTTAGGC TTCTGGGCTT TCTCTTATGC CCACCTGCAG ACTTTTTGGT AAAATCCAGT TTTAGTAAAGAGCTCTGCTA AGTCAGTTTA GCAAGAATCC CCACCTCAAA AGTCACTATC TCCCTCCCTG GTAGTGTCTG GCTTGTCTTCAGCGAGAATT CTATTAGGTT CTGTTAGATT AGAATCCTCC TTACCCTTGA TGCTTCCTCT TAGTATTTTT TCATCCACTGACTCCTTGAC CCACCTTGCT CCTCGGCTAT AAATTCCCAC TTGCCCATAC TCTGCAGTTA AGACTATTTT CTCCCCACTACTGCAAAATC CCATTGCCAT GGTCCCTATA CTATCTCAAT GGTAATGAAT AAAGTCTGCC TTACCATGCT TTAACAAGTAACATTGAACC ATTTTTTTCT TTAACAATCT GCTGCACAAT GAGATTACTA AAACTTTATT CCATTTTGCC ATGCTGGATGTCCTCAATGG AATGGCTCTT GTGAGCACCA AATCATTGTG AGAAGGAAAA CCCATCTCTT ACAGCCCCCTGTAACGTGAT GTATGTTACA TGTGATGTAT GTTACATAGT TTTTTTTCAT GTTGATCACT TTTTGCCCAT TTTCCTATATCTTATCAGTT GGAAGACTGT GGAAGTTTGT AGTACTAAGC CACAAGATGA CTAAGAAGAG TTGAAAGGGCAAGTGGGGCT AAAAACAGAT TTTGTTTGAC TTACCCCACC ATTCCCCCTA TCATGGGGCT GAATCTGCCTGGAGGAAGGA GCATCTTTAT CTTTGTACTG TGAACCACAC AGTCTAGCAG CAGCACAGCC AAGGCACTTGGGGTTTCATG AGACTAAGTA CATGCAATTC TATTGTAAAG GCTTAAAATA TATACAACTG ACCCTTGAACAACATGAATT TGAATTGCAT GGTCAGTTAT ACGCAGATTT TCTTCCACCT CTGCCACCCC TGAGACAGTA AGATCAATCAATCCTCTTCC TCCTACTCCT CAGTCTACTC AAAGATACTT GAAGTCTACT TGAAGATGAC AAGCACAAAG ACATTTATGATGATCCACTT CCACTTAGTG AATAGTAAAT ATGTTTTCTC TTCCTCCTAA TTTTTTAACA CTTTCTTCTC TCTAGCTTAATTTATTGTTA AGAATACAAT CTATAATACA TATGACATAC AAAATATGTC TTAGTTGACT GTTTATGTTA TCTGTAAGGCTTCAGGTCAA GAGTATGCTA TTAGTGGTTA AGTTTTCGAG GAGTCAAAAG GTGTATGTGG ACTTTCAACTGCAGGGGGGT GGGCACCCCT GCCCCCATGT TGTTCAAGGG TCAACTTTAC TGCCAAAGGC AAGCCTTTAC ATCCACTTTTTCCATCCCAT CAGTAAATGG AAAAAGATAG CTACAGTATC CCTGCGTCAA ATCTTTTTTT TTGCAGATCA CAAATTGGCCACTCACCTTG CTCTGTGAGG GGTAAAATGC CCCACTTTCT TTAGTAATAT TTAAGTTAGA TAATATTTAA GTTATAAAGTTGTTCTTTGT AATCGTTAAT TGTAATTTTT ACATAGTTTC TTTCAAACAG AAATAGCATT TTTGTTAGAT AACCTCCCGTATAGATGATG AAACTCCTTT TAAGGGCTAT CTGAATTTTA ATTCCTTGAA AAGGCAGAAA TTGGATAGCT AGTAGTCATAAATGTACTGT GGCTTCCCCC AACCATCTGG GCTATATAGA AGCTGCATCC TTGGACTGCA GTAGAGGAGTCTTACAAAGC ACAGAGCAAC TTCTCTCCTG GGTTGCGCTA GTTATGATGG CAATTTTAAA TGTGTACTTT TACCCAAAGAAAATCCTTAT TATCAACAAT CACAATGCCA TCATAACCAT GGTATAAAAA ATTCAAAATG TCCCAGCTGAAGTGGAGGCA AAGACTCAAG TTCATGGAGT CAGAGTTTCC TTGCTATTCC TCTTTTTCAA ATGACCATTT AGTAAGCACCTGAAGAAAAT ACTATGGACG GCATTGAAAA GTGAAGATAG GTTTAATCTT CTCGAAAATC TAATTCTCCAGATGAAACGC TGACACTTAT CCACCCCACA GACCCTATAG CAGATGTGTC ACTGGCCATC ACATTTGACACAGAGAAGTC ATAACTCAGT CAGCACAGAG ACATTTCCAT GAGTTTCTGA ACCATGGACA GAACGTCGTCTGTGGGACAT GAAAACTGGA ACTTAGAGGA CAGGCACATC TGAGAAATGG GCAGTTTAAA GGCAGAACATAGCACATATG TGACTGGGTT TTAGAAGCAA ATTTACAAGA CGCACTCTTC TTCATCCTAA ATAATCTGCA ACCAAAGCTTCCAAAAAAGA CAATTTAGGA ATGCAGAGGT GAGGAGTAGG GAGGGGAATG GGATGAGAGA GAGTGGAGATTAATGGTGGG CAGAGCGAGG TTTAGAACTT AGTGGTTTCT TCAGGTTCTG AACTGAAATT TGTATACTGTAAAGGCACAA ACACCATTTT TAACAAAAGT GAGCAGGACT TCCTATCTGG TTCAGAAAAT AGGTGAATAAATAGTACGAA TTATTAAAAA TAATAATTTC CACTTATACA TAGGAAACTT GATAGGAACC ATGATAAATG CTTAACTCTTAATCTTCAAG GAACTCTGCT AGGGATATAA TATTATAAAT CTTGTTTTGC AGATGGAGAA ATTGAATTTT AACCCAAGTTATCATAACCC TTAAATGATT AAATGATACT GTTACATGAG AAAGCTGCGT ATCTGTTTCC TGGATTTGTA GCCATAATTTGTGTCTCAAG TCCCTTTTGC TGCCAGCTAT CTTGGGTAGG TGTGTTCCCT TTGGGCTGTT TGATACCCCC ACATTTATCTTTTTTTTTTC TCTTTTTTTG TTGAGAGAGT CTTTCCCTGT TGCCTAGGCT GGAGGGCAAT GGCGCGATCT CGGCTCACTGCAACCTCCGC CTCCTGGGTT CAAGTGCTTC TCACGATTCT CTTGTCCCAG CCTCTCTAAT AGCTCGGATT ACTGGCATGCACCACCACGC CCACCTAATT TTGTATTTTT AGTAGACAAG GGGTTTCTCC ATGTTGGTCA GGGTGGTCTC AAACTCCTGACCTCAGGTGA TCTGCCTGCC TTGGCCTCCC AAAGTGCTGG GATTACAGGT GTGAGCCACC ATGCCTGGCC CCAAATTTATCTTTAATGCC CCAAATTATC TAGTTCCCAT GACTGGGCTT CTGCTTTGAT CCTTTCTGCA CTTGCTGGAC CCTCTCCCTGGGAAATGAGA TTGTGTCCTG AGCCCCTAGT TAGAGGCTAT GTCTCTGCTG TTCCTGAATG GGCCTCCTGG ATGAGACCTCATTAAAAGTC TAATTCTCTT GGAGAATTGA GAGATACCTA TTTGTCTCAA AATCATTGAA ACCAATTAAT GTATTATGAGCCTCTATCCA GTGATTTGTA CCTCAATTCC CCAATCCAGC TGTCAAGGCC AATTTGTTCT ACCTTACCTA GTAGGTAAGTCTGGAATTGT AGCTGTGGCA TTTTCAGTAA TGGTACTCTA GGTTAGCAGT CCCCAACCTT TTTGGCACCA GGGACCAGTTTTGTGGAAGA CAATTTTTCC ATGAAGGGCT GGGCAGGGGA GTGGTTTCAG GATGAAACTG TTCCACCTCAGATCATCAGG CATTAGATTC TCACAAGGAG TGCGCAAGCT AGATCCCTCA CACATGCAGT TCACAATAGGGTGTGCACTC CCATGAGAAT CTAACACCGC TGCTGATCTG ACAGGAGACA GAGCTCAGGC AGTAATACTCATTTGCCTAC CGCTCACCTC CTGCCGTGCA GCTCAGTTCC TAACAGGCCA CGGACCAGTA CTGGTCCACGGCGCAGGCAT CAGGGACCCC TGTTGCTAGG TATAAGCATC TGGCTGCTGC ATGTCTTCTG TGTAGCTACA TCTGTATGTGTATCTGATGA GATATAAATT ATTTGATTAT AAATTACTTT CTTCATATTA GAGTTGTGAA TGAGTATCAC ATATAATTATACATAAACTA GGAATATGCT TTTTAATAAT GTATATAAGT AAGTTTCCTT AACTATGACT TTCATCTTAG CGTAGTAAGAGGGTGCTAAG AAATATTTGT GATGAAAATA GGCATTGGTA GAGTTGAGAC CACTGGGTGA TGAAAGAGTGTAAAGATTTT AAAGCCTTCA GATGCTGGTT CAAGGTGAGA AATGTGATTG GGAGCAAATC AATTAACTTC TTGAAGTCTTATAGGGCAGT TATGAATACT TAATGTTAAC ATATGTAAAG CTCTTCTGCC CTGTATACAG TAAATGCTAG TTAGCTATTATGATCACTAC TAAAATGGGG ATGACATAAA CCTCATAAGG TTTTAAGTAT TATGCAAGAT ACTATACAAAGTCCAGTAAA TATCACATTC AATTGAATCC ATGATGTCCG ATTATTTTAG CTACTTCCAA GAGAGAAAAA AATGCTGTCAGTTTTACTGT TCTTATAGAG AGCAAGGCAG ATCCCAATTC CCAATGTGGT AACGTGAAAA TTTTTGCATT TGAATCAACAAAACACTTTC TCCTTTCTTT CCTACTATTT AACAACTGGT AAGTCTATAC TCCCCCAAAT CTGGAATTCT CCTTTCTTATTCTTTTTCCT CCTACCAAGA CCGCAGGATC TTTTACTTGG CTATAAGGGG TAAACCTCAA GTAGTACAAG TTCTCTGTATTACTTTTATA CTCTGTCACA GATTCCCTTT GTTTCCTCAT CTCCATGTGA ATTTAGTTAA ATTCTCAGCA TTCTGATCCTTACTATACAA GGTAAATGAA TATAAAAACA AAACGAAACA AAAACCTCTT CCTATTTACA TAAGGCCCCAACCTAATATT TAGTGATATA TATTAATGTG AACAAGGAAC TAACGAAGAC TGGGAAGAAA TTCACAGACTTGAGAGAAGA AATGGCAGGA TTTCCTGGGA ACAATTTCAT GTAACGTCAA AGGTGGTAAA AGGTCAAATAGAATGAAGAT GGAGAATACC GGATTTTCTT ACAAAATGAT TTCCCAGGAG ATCTCATCAA ATGCACGAGGATACCTTCTC AGTTTCACCT AGTGAGTAAA AGACTGGTAA CATAGCTCAC TTACAATTTG GATAAACAAAACTAAACAAA CAACATCAAA ATTTCAGAAA AAATAATAGC AAAACAGAAA TCAAACACTC AAATTTTTGGTCCTTCTGTT TATTTCATTT TGGATACTCA GTGAATGTTA ATTAACCAGG AAACTTAAAA GTTATTTCAA TTATGAACCTCTTCAATCCT TCATCAATTA TTTTGAGTAT TCTGGTCTTA AAAACATCTC TTTCTTCTAC AAACTTCTGA AAGAGATGAACACCTCCACC TACACCAAAA TAATGTGCTT TGCTGGCCAA AAGTACACGT CCATTTTTAC TTAACAGTCT AAGGAAAGTCTGGTGCAAAT TACTATAATA ATCTGGGTTG TAAATGGTTT CTGAGGTGAG AATGAGATCA TATTTTACAA AAAGTTTTTCACTACTTAGT ACAAGCTTAC AAAACTCAGA CCACTCACCA GAAAAAAATC GGCATTTATA TAGTTGTGTT ACTTTTGGTTTCCTGCATCT TTTCACATCT GGCTCATTTA CATCATTTTC TTCATCTTCC AAAGTGGAGT TAGCTACTAC ATTAGGTAAGGTTACTTCAT CAATCACCAT ACTGTTATAA TCTTGAAAGT GAATTTCTTT GGACCCTCCC TTGAATGCAG TTATACCTAGTAAACCTGAT CCACAACCAA GATCCAAGAC TTTTTTCCCA GCAAATTTCA CTTTGGCCTT TGTGAAATAA GCCAGGAGGTCAAAGGTACA TTCCCAGATT TTTAAGCCTC CCTCATAAAC ACCTGTAATC AGATCAGAGT GAGAAGAAAAGCTTTTTGAA ACTATGTTTT CTCCAGGGAA GTTCTCTTTC AACAAGATGG TTTTCACTAC TGATAACTTA ACATGCTGGAAACCTGGTAA TGTTTCTATG ACTTTATTTT CTAACATCTT CTTTAAATCT TTAGGCATAG CATGCTCTTT GGCAGCTCTCAAGGAGGGCT GTTTTCCATG TGGCTCCAAG TTCCTTGAAC TGCTGGCTGC ACTGAGTGGA CTGTCTGTGT CTTGAGAGGGAGCTGCATTT TCCATTGACT TATGTTCCCA CAAGTGATCC TGAGGCAAGT CAAATTGTTC TGCAGAACAT TTTCTGTCCCTCTCTTCTCC TTTTTGACTT TCTGAGACTG ACAGCTCTTT TGAGGAATCC AGGGTCAAAG CTCCATCTCT AATGGGTGTTAATTCATTTT CCAGATGGTC TTCTATAGTG AAATTAAACT GAAAGGTCAT CCTCTTATTA AATGCACACA ATCTTTAAATTCAGATTCTT CAACTTCTGG ATAGAATTTG ATGATACACA CAAATCTGCC TCAATTATTC AATTAGTTTT GTTGGGCCCAATTTCTCTTT AGCAGCTTAT ACATGGTAAC AAATATTTAG AGATATTTCC AAATGACTTT TTAGACGTCT TTGGTCCTCTTTCCAAGCAG CTCTGGAAAG AAAAAAAAAA AAAAAAGAAA GAAAATGATG ATTAAAGCAA AATGGCACATTTCACTAAAG TGTAATATTA AACAGCCACC CCCACCCCTC CCTGTCCCAC CATACAGCTG CTTTTTCTTA AAAAGTTGTGGGGAAGAGAG AGAGATAAGA GATTTGGACACTCATACACA CCTTAAGGGT TCCAAAGTGG GAGAAGAAAATCAACTATAA AAACAAACAG AAGAACAACA GCAACCACCA CCACTACCAC CTGGACAAAC ATAAAGTCCAAGATATTCAG ACAGGACAGC CTAGCTACTT GCTGTCTTTC AGCTGTCTTG ATTTGTGTCC AACCATATTC ACCCCCTAAGCTTCCAGAAT AACTTCACTT CTGTCTTTTA CAGAAGAGGT GCAGTATTTT ATTTTGGTAA GTCAGCGTCC CTTTAAAAACATGCATAGGT ATGGCCTGGT GTGTGTAAAT TCATCCAAGA CTTCACTCCA AACATTTAGT CGAGAACAGCAGCCCTAAGT GTATAGAAGT GGGGGTAATT TGGCAATAAT TAGTAAAGAC TAATTCGGTG GCAGAGCAAACGCAAACTAG GGCACTGCAG TAGTTTGGAG AGACCTGTAG AAATAAGAAG CAACTTTATT GAGAATCTTCTATCTACTGC GCTAGACACT ATACCATCTG CCTCAATTTT CACAGTTCTG GCAAGTGGGA TCTTTGTTCC CTTTATACAAGATTTACAAT TTGGGGGAGA GGCGGGTCAC CCAGTCCCGC GGCTAGGAAC GCGCCTCTTT CCTCTCCCATCACGCTGCAA GGCTTGGAGT CACTTCCGGC TGCAGGTCCC GGAACAAATC CGACCCCAGA AGTGGGGACTTCTGGCCCTC ACCTCCCCAT TTGAATGTAA TGTTTACAGT GATCCAGACC TGGGGATGCT TGCTTCCCGA CGTGTCCTGGGATCGCGCTT CTGAAAAAGC TCACCTCACA ACGCCTCCTC CGGACCTAAA TCGCGCACCA GTGAGTCGAGTCCTCCAGGG GCTAGAGAAG CCCGACTTTC TTTCCGGCCT TGAGGGACCC GGGCTCACCA AGAAACCAGCCGCCCTCCTC TCTATGGTTT TGGAGCCGGC GGAGAGCGCG CAAGGGTTGG CGGGACTGCG AGTTTCCGGTCTGGGCTTTG GCGGGTCTGG TTTGAAGCTC TCCTGTTTGA CGAAAGTATG TCTCAGGAAG GTGCGGTCCCAGCTAGCGCG GTTCCCCTGG AAGAATTAAG TAGCTGGCCA GAGGAGCTAT GCCGCCGGGA ACTGCCGTCCGTCCTGCCCC GACTCCTCAT ATCCTTCCTT GGTTGTCACT TCTACCTAGA GAAGGGTGTG GGCGGGTCGC GAACCTTTCTCTTCTGTCCC TTCAGACCCA CCGCCAGGCT GGGTTATATT ACCGCGGCCT GAACCCCCTC TTTTCTTTGT CAGTGAGTGGGATGAAAAGT GAGGGACTGG AGGGGAAGCG ACAACCGTGG TAGATTTAAG TAAGGCTTTG GCCCTGGAAAGCCTCGCGGA CGTGTTCTGA CCCAAGGTTT TAGCAGTGGA TGTGGCGTTT TCTTCCATTC CTTCTTTCAG TTTTTCTGTACTCGTTGCTT GCAATTAAGT GTAAATACTT TTGCTAGTGG ATAATGGGGG AGGCAAGGAC TGAGACCTGCGGTATGACGA TAGCTCTGGC TCTTAATAGT TTGAGGTAAA GCGAGATACT CTGAGCTTTT GTCTCCCGTAAAAAGGGTGG TGAATATGAA TAAGGGCTTT CTTAGCGTTA TAAGAATTAA AGGGCATAGT TCTGTGGTGTGAAATCTTTA AAAGATGTTC AGTAAATAAA AATGATTTTC CTCCTTCCCC TCTCAGACCT CTTTTTCTTC TTTCTTTCTTTTTTTTTGAC AAGTTCTCAC TCCTCTCACC CAGGCTGGAG TCTTTCTGAA AGAGTTCTTC CGCTTGTTGT TGGCTTTCAACTGTTGGATT TGAGGCGCTT AGCGCCTTCT TCGTCCGGGT GCAGCACATT CTTGATTGGT CTCATGCCTT TGTGGTTGTAAATGTGCCTG GAATCCTAGC CTTTCATGGT AAACCATATG TATATGTATC TTTTTCACAA CATTTGAGCC CAGCTTTATACAATTACACT CAAAAGAAAA AAAGTAACCT TCACTTGAGA GAATCTCAAT ACTGCACAAA TATTGTGCAGCTAAAGCCCT ATGTAATCAC ATAGAAGTCA TTCACCTAGG CATTAGCAAA ATCTCAGAAG GTGCCAAAGCCCCCTTTTTT AGTTTTTGTG TAGGTACAGA ACTGCCGTCT TCAAGGAGTT TCAACTTGAA AACAAATAGC CACCCTCAAAACATTCAAAA ACACTTAAAC TGCGTGCATA ATGTGTGTGA GACATGGTGT TAGGCTTTGG GAGAACAGAGACACGGAACG TGATTCCTCT TCTTCCCCAC AAGCTTATAG AGAGACTTCA TTAAGTTGAA AGTCAACATT CCCACCTAGCTTTGCACTTC AAACGACATA TTCAAAAAAG CCCAAACTTC CTCTAGTTTT CTTCATCTGA GTAAATGGTT TCACAAACTGAAACCTTGAA TCCTCTCTGT CTCACACACC CGATCAGTAA GTTCTATTGT TTCTGATTCC AAACTATGTC TTGAATCAATCCGTTTATCT CCATCCTCAT TGCTACCACT CTGATTCCAA ACCCTTATCA CCTCTCACTT GGAGTATTAA TAGTTTCCTTGTTTCTACTC ATAATTCATT ATTCCAAAAA AGTTAAGAGG GGAAAAACAT AGATCTCGTC ATTTCCCTTT TTAAACCACTTTACCTTCAA GGTTCCAGGT GATCTAAGCC TTGCCCTTCT CTCATACCTA GTTAATTAAC TACACTCTGT TCATGAATACATTAGGCTCA CCTACCTCAA GATCTTTTTG CTCAGCCTGA TTTGTTCTCT CAGCCTTTTG CATATTTCAT GTTTATGTCTTGGCCCAAAT GTCACTTCCT TAGAGGGGCT TTTTCAGAGC CTTCAATCTT AGGCAGTTCC CCCAAACGCA GTCTTACACTTGTATCACAT TGGCCTGTTC AGTTTTCTAA AAAGCACATT ACCATTAAAA GAAATGCTCT TGTTTGCTTT GTATATTTTCCACTTCTACA CATTATGTTG CAAAGTTCAT AAAGGCAGGA TGTTGATTTT CTTCACAGCG TTACCCTCAG CACCTAGAACAGTGCCTGAC ACATAGTAAG CATTCATTAA AGGGCTAAAA ATATTTCATG TTTTAAAAAT ACTTGGGAGTCTAATTAGAC AATACTTTTT TTCAGCTTAA TGGTAGTATT TTAGCTTCAC TATTTTAACA AATGAAAAAT TTGCAATAAATCTACAATGC CATTACCCCC CAAAATCTTT TTCATGTTTT GCATTTTACG TATTATTTTC CAGGCCTTAC CTGCATGTCTGCATAATCAT AACTGACTAA TTTTGGAACA GCTGGTAATT ATTTGAGCTT TACTGAAATT TTTTCATGAG GCCAATTCTACCCTACTGAA CTCAAATTTG AGTTAATGAT GACCTCATTT TGATTGCTGC TGTAAAAAAT AAGATTTCGG AAGAGGAATGAATTCTTGTA TTACTGTGGT AGGACTATGG GTTTTTTTTT GTTTGTTTGT TTGTTTTGAG ACGGAGTCTC ACCCTGTCACCCAGGCTGGA GTGCAGTGGT GCGATCTCAG CTCACAGCAG CCAGGTTCAA GTGATTCTCC TTCCTCAGCCTCCCGAGTAG CTGAGATTAC AGGCACGTGC CACCATGCCC GGCTAATTTT TTGTATCTTT AGTAGAGATG GTTTCACCATGTTGGCCAGG CTGGTCTCGA ACTCCTGACC TCGTGATCCG CCTGCCTCAG CCTCCCAAAG TGCTGGGACTACAGGCGTGA GCCACCGTGC CCGGCCGGGT TATTCATTTT TCTTATTAAC ATTCTTTGATGATTCTTATG GTGTTGTTACAGTAAAACAT TTCTAACAAT TATTCTAACA ATTATTCTTG ATGGTGTATA TGAAGAATTT ATTGTCGTGT ATTTGTAAGCTGCTATGTGC AGAAGAATTT CAGTCAAATA AAGTTGGTAA GATAGGTATG TAAGTAATAT GAAAAAAGATAGAAGGTGAT GAGTGACTTA GGTATAAATT AAGTACAATA GAAATGTTGA GGAAAGAAAA ATTTCTTGTAATAGAAATCG GAAGTACAAA CTGGGCATGG TGGTGTGCAT CTCTAATCCC AGCTCCTTGA GAGGCTGGTATGGGAGGATC ACTTTAGCCC AGGAGCTTGA GGCTGCAGTG AGGTGTGATC ATGTCACCGC ACTCCATCCTGGGTGACAGC AAGACCGTCT CTCTTTTTTT TTTTTTTTGA GACGGAGTCT CGCCTATGCT GGAGTGCAAT GGCGCGATCTTGGCTCACTG CAACCTCTGC CTCCCAGTTT CAAGTGATTC TCCTGCCTCA GCCTCCTGAG CAGCTGGGAT TACAGGTGTGCGCCACCATG CCCAGCTAAT TATTTTGTAT TTTAAGTAGA GACGGGTTCT CACCATACTG GCCAGGCTGG TCTTCAACTCCTGACCTCTT GTTCGCCCAT CTAGGTCTCC CAAAGTGCTG GGATTACAGG TGTGAGCCAC CCCACTTGGCCCCGAGCGAG ACCCTCTCTC TAAAAAAAAA TAAATAAATA AATCATAAAC CTGTGGATTA TTGTAGCATT GTTTCTCATCTGTCAAAAAT ATTTCATGAC TATGCATAGT TTGAAAAGGC AAGTTTGTCC CTGGGCAATT TTCAAAATAT TTCTTTAATGTGTTTTCACA ATACTGTTTA CCTAATAAAT CTTAAGTTTT TAAAAGCAAA ATTAAGCCAG TAATTTGAGT CCAATTCCAATCTCTTATGA GTCATTGCTT AAATTTCAAA AGGGTTTTAT TTTTTTTTTA GGTTTGTTCT GAGTAATGAA TACCCTATTACTATGATACT AGTATCTTCC TTAATTATCC TACTCATTGT CTCAACATTC TGACAGTTGG ATTGAGCATA TTCGTAAGTAAAATTGTTTT AACTGTATGA TGTACTTTGA TGTTAAGGTC CGAGTCCCCA CATACCTCGG TAGATGTGTT CTTACAGTTTTGTATTCCCT TGAAATGTAA CTGTTCTCTA TGTTACAGCC TTTATAACCT TCAGTTACTT GAAATGAACA AATTCATTCAAATTCCAGCA CTTAAAAGTT TTAAATTACA TTTTGGATAA ATACCAAAGT GTTTTGTTGA TGATGTATGT ATAAACAAATTGTAAATATT AAACGTTAGT TGTTACGATT AGACCTATAT AAAACATGAT ATGCAGTCTA CTGAATAGCT ATCAGCCTCTAACATGTTTA GTGTCATTTA GAAAATGCTT TCTAAATTGC CAAAAGCTGA TTGTCTAGGT GATAACAAAT TTACCATTTGGAGGAAGTTG ACTTTCTCAT TTTCATGTCT TCATCAGTCT TACTTGATGA GATTCATTCT TCTAGTCAGA AGAGAGTTTAGACTGCTCAG TTTACTCATA TTTTGAGTTA GCTTTTCTAT TTAGAGTTCA CTTGGTTGTG GAATATTCAT TTATAATTTGAATCTACGTT GTGTAATGGG ACCTAATTTT TTTTTCCTTT GTTTTTGTTG GAGTCTCGTT TTGTCACCCA GGTTGGAGTGCAGTGGCGTG ATCTTTGCTC ACTGCAACCT CCACCTTCCA GGTTCAGGTG ATTCTCCTGC CTCAGTCTCC CAAGTAGCTGGGATTACAGG CATGCTTCAC CACGCCTGGC TAATTTTTGT ATTTTTAGTA GAGATGGGGT TTCACCATGT TGGCCAGGCTGGTCTCAAAA CTCCTGAGCT CAAGTGATCC TCCTGCCTTG GCCTCCATAA GTGCTGGGAT TACAGGCGTGAGCCGCTGAG CCTGGCCCCA GAGTTTGTTT TGTTTTGTTT TCAAGACAAG ATCTCACTCT ATTGCCCAGG CTGGAGAGCAGTAGTGCGAT CATAGCTCAC TGCAGCCTGA ACTCCTGGGT TCAAGCTATT CTCCTGCCTC CATCTTCTAA AGTGCTGTGATTACAGGTCT GAGCCATGAT GCTTGGCCTG TGTTTTTGTT TGTTTGTTTT GGGGGACAGG GTCTTGCTTT GTCACCAAAACTGGAGTGTA GTGGTGCGAA CATAGCTAGC TCACTGCAGC CTCCATCTCC CACGCTCAAG CAATCCTCTC ACCTCAGCCTTCCAAGTAGC TGAGACCGCA GGTGCGTGCT ACCATGCGTG GCTAATTTTC TATTTATATA TTTATTTTTT GGTAGACATGAGGTCTTGTC ATGTTTCCCA GGTGGTCTTT AACTCCTGGG CTCAGACAGT CCTCCCGCCT CAGCCACCCA AAGTGTTGGGATTACAGGCG TGAGCCACCA TGCGTGGCAT AATTTTTTTT AAGTAAATTA TTTTTTTATC TTGAGTATAG AAGTGATTCATGTTCATTGT GGAAAATATG AAACATATAG AAAAACAGAA AAGATTACAA AACATCTAAT CTGAAATGGTTAAGATTTTG ATGAGAACAG TCTCATCTCA TTTCCGTATA TTCCTGCCAG CCTATCCATC ATTCTTCGTA CATGTTTATCTACATTAAAA TTGGTGTTAT ATTTTGGAAA CTTTTTGTTT AACTACATTG TGAACATTTT TCATGTTTTA AAATGTCATTTTAATGATGG CAGATCCTAT TCAATAGATG TACACACACC TATTTAACTG GTCCACAATT GTTGGATATG TAGGTCGTTTCCTTTCTCTC TTTTTTTTTT TTTTTGGCTA CTACTTAATA GTTTCTCTGT ATAGAATGTG GTATTTTGAA AGTGTATCAAGCTTTAGATT GGTAGTATTC TTGCATTTAA TAAAGGGCAG TGGCCTTTGT TGACTGACAT GACAATATTT TTATAAAATTTGTTATTTGC TTTACAGAAA TTTTGAAAAT TATTGTAGAA ATGTTTTTAC CTCATATGAA CCACCTGACA TTGGAACAGACTTTCTTTTC ACAAGTGTTA CCAAAGGTAT AATACTATTA CCTGAAAATA CATGTTATAA GGAATCTAGC CTCAGTCTTAGATGATTTAT TATTAATTAT GGCTCTCTTT TTCTAATATA TCAAATATAT TCAAAATAAA AATAAGGAGT AAGTAGATCTCATGTGAGAC TATAATGGTG TTAGTGTGAT CATTAGGCAG TTAAAAACTG TTACAGGCTG GGCACGGTGGCTCATGCCTG TAATCCCAGC TCTCTGAGAG GCTGAGGTGG GCAGATCATC TGAGGTCAGG AGTTCGAGACCACCCATGGT CAACATGATG AAACCTCGTC TCTACTAAAA GTACAAAAAA TTAGCTGGAC ATGGTGGCAGGTGCCTGTAA TCCCAGCTAC TTGGGAGACT GAGACAGGAG AATTGCTTGA GCCTGGGAGG CGGAGGTTGCATTGAGTCAA GATCGTGCCA TTGCACTCCA GCCTGGGCAA TAAGAGCGAT GCTCCGTCTC AAAAAAAAAAAAAAAAAAAA AAGAACTTAT ATTTTCAGAT TGTGTGGTTC CTTTACTAAC TGAATTTAAA TTATTTGTAG TCAATTTTAAATGCTCTTGT ATTTTAAAGC CACTGTACTC CAGCCTGGGT GACAGAGTGA AACCCTTAAT TCAAAAAAAAAAAAAAAAAA AAGAAAAGCT GGAATATTGG CAAAATCAAG TAACTAAGAG AAAACATTAA ATTCACAGAATACATTATTA CATTTTAGAT ATATATGGTA TATGTTTTCT CTGAAAAGCA CAAGCATACC TTTTTTGTTT TAAATGGAGGGAACTAAAGA TACTTTGGTG CCAAAATGAA ACATTATTTG TAATTAATCT CTTATTGAAA TGGGTTTCTA ACTTTAGCTTTGAATCGTAA TCTTTCAAAT TTCTTGTACT CATAGTCACT TGATGATTCT CTATCTGAAA TATTTCTTAG AATTTGTTCTTGACCACCAG AAAAAGATTC AACTGTTACA TAGATGAAAA TGGATGTTGA GTGTTAACAG GCCTATGGGAAACAGTATTT TCTTTAGCTA CATTGTATTG TTGACTGTGT TGCTATTCTT ATAATGTTTA GGTCATTTAA ATTGTTAGAAAGATCCAAGT ATTAAGATCT AGGGTGGCTA ACTTTTCACA GACAAAAAGC TTGTTTGTAA GGTCATTTAC TATACCCTTAATTCAGGAAG GTTAGCTTGA ATTGGGTCAA AAGGAAACTG GTTAGAAAAT AAGTGAGTAG TGAATAGGCGATTCAGTGCA AATTCCTTCC AGAAAATACC CTTGTAAATG ACTGTATGAA TGTGGATTCT TCAAGACAGT CAAATTTATTGTGCGAAAGT AATACTTTTA TTTTTTGCAT CTCTAAAACA TGAACTTTGA GTGATTTTTT AAAAAAATTG ATGCTATTAAATAGATTCAA ACCATAGAAA TGGAAAATAA ATTTCTGTTT GGGGCTTTTG GGGGGATTAT GTTGTAAAAA TACCTTTTCTCTGTATTTTG TGCTTAATTA GGTACAATTG TTAAGCTAGA TGATAGCCTG TGGATGTTAC TAGTGCAAAA TCAAATTATCGTATTGTGTT TTCTCTGTAA AGTTTTGTCT TGTCTTTTCT AGTGATTTCT CTTATTCCTG TTTATTACTT GATTTGTTTTTACAGACTGT GAAATTATTC GATGACATGA TGTATGAATT AACCAGTCAA GCCAGAGGAC TGTCAAGCCAAAATTTGGAA ATCCAGACCA CTCTAAGGAA TATTTTACAA GTAAGTCAAA TGTATTAGAA AGCAGGAGAGAGAGGGAGCT TAAAGAATGT CAAAATTTTT ATACTGATAC TGATTAGCTA TGTATTCTTA TGTAATGGCC TAATGTTGGAATTAAATTTA TAGAATTAAA GACGTGAATA TAGAAACATG AATTCTGAAT AATAAACTCT TATAAGAAGAGAAGTCATCA AGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG AACACCTGCC ATGTGTTTTG AAGTTTGTGTTAGTATTCTA AATGGCTAGA CAGTTGTTCC AGTATTTGTAGTTCTGATAG ACTAAAGTTC TGTGAAAAGAGGAAGAGACT GTGTTTTGTT CATTGCTGTA TTTGTAGCAC CCAGCATGCT GACTAATACC TTTTCAGTGC ACAAAAAATATATTCTAAGT GAAATTTCCT TCCTTATTCA CAGACAATGG TGCAGCTCTT AGGAGCTCTC ACAGGATGTG TTCAGCATATCTGTGCCACA CAGGAATCCA TCATTTTGGA AAATATTCAG AGTCTCCCCT CCTCAGTCCT TCATATAATT AAAAGCACATTTGTGCATTG TAAGGTGAGT AAAGGTCTAA TTATACTTTG AATGGTATAT AATCAATGTG CATAGGGGCTGAGTAAAATA ATGTTTGTAT AAGATTTTAC ATTTTAGTCT ATATTATTGA AATAAACTTT TCCATAGAAT AAAGAACATGTAAGTAAATA ATTGTTGCAA AAAAAGTGGT TTTAAGGAAG TCATTAAAAG TGGCTTTTTG GGGTTTTTTA GTTTTATCTTATTTCCCCTC TATAAAGAAA GAAGTTTTAA GAATTTGTGT TGAGACAGAC ACAGGGATCC TGAAATAGTT ATGTCATGTTGCATTGACCA ATATTCAATT ACCATTATGA TTAGATGTCA GAACTTCCTT TTATAAAGGA AAGTTAATCC TTATTTAGTCCATCTCTACA TGCCAGAGGT AGCCTTGAGG CACAAAAGCT TGCCTAGAAT TTATGGGTCA CAGACAGTTT TAATATTGCTATTTGTTGGG CGAATGAAAA TCACTAGTTA ATTAATACCT CTCTTTGCTG ATAGGATGCT AAAAATGTCA CGCACCTGGCCTAATGTTAC CCTTTTTTAG TTCTGTATTT GCAAGATCAT GGAAGTCAGA AATAATATTT TATACATGCT TGCATCTCTTGAAGCACACT ATATTTAATG GATGTTCACT AAACAATGAA TGAATATGTG ATTCAGTAAA TTTATGATCT CTAATAGTATGAATTAAAGT AAATTTGGCT CTTGAGCTTT GATTTGTTTT TTCTCTCATT TTTATTTATC CGTAATCAGA ATAGTGAATCTGTGTATTCT GGGTGTTTAC ACCTAGTTTC AGACCTTCTC CAGGCTCTTT TCAAGGAGGC CTATTCTCTT CAAAAGCAGTTAATGGAACT GCTGGACATG GTTTGCATGG ACCCTTTAGT AGATGACAAT GATGATATTT TGAATATGGTAATAGGTGAG TGAAGAAAAC TTTCTGCTTA GTATATGGTG ACTATAAATC ATGTATCAAT TAAAATTGTC TCTAATGATTCATGTTATTT TCTTACTAAT TATGCATTAA AATTGATTTA AATCTTACCA AATAAATTTT TAATCTTGAA ATTTGGAATTTGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC CACAATGATT AACTTATATAACTTTATAAT CTCTGAGGTT GTCCATATTC AGAGACAATA ACTTTCACAT TTTTTTAACC ATAACTGATA TTGAGATGCAGTTTATATTT CCTTCCAGAA TACATATAAA TACGTGCATA TGTGTATGTA AATATGTCTA TTCTCATATA CATATTATAATGAAATAACT CATTTTACAT GTGATGCACT TTATACTAGT TTATTTTTAT TTTATTTTAT TTTTTTGAGA CAGAGTCTCACTGTGTAGCC CAGGCTGGAG TGCAGTGGCA CAATCTCGGC TCACTGCAAC CTCGCCTCCC GGACTCAAGCGATTCTCCTG CCTCAGCCTC ATGAGTAGCT GGGATTATAG GCGTCCGCCA CCACACCTGG CTAATTTTTG TATTTTTAGTAGAGACAGGGTTTCACCGTG TTGGCCAGGC TGGTCTTGAA CTCCTGACCT CAGGTAATCC ACCTGCCTCAGCCTCCCAAA GTGCTGGGAT TACAGGCATG AGCCACCGTG CCCAGCCAAT ACTAGTTTAT TTTTAAAGAATTGCTGGTCG TAACACACTT CATTGATTTT ATCACTCATT AATGGATTAT GAACAAGAGT TTGAAAAACA ATATAAAGGCAAAGTTTGCA TTCAAAACTT TGGTATAAAG AGAGTAAGTT GGTTTTGTGC AGTGTATCAG GCACCTGTTG CTCTGCAACACACCACCTCA AAATCTATTT ATTCACTATT TATTTATTCA TGATTCTGTG AGTCTGCAGT TTAGGGTGGG ATGTCCTGAGACAACTTTCT CTGATCCACC TGGGGCACTA GCTCACCCAT GTGACTTCAG TGACTTCATT CACATCTGGC TGTTGGCAGAGGCAGAAGTA CTTGAGAAAG CCATGTGCAT CATCCAGCAG GTTCACCCTA TCTCAGATAC CTGATGCCAGTGGTTTCAGG GTTTCTAAGA GTAGCAAAAG TGTGAGCAGG TCGCTGTGTG CTAGCACTTT TCAAGTTTCT GCTTGCCTTAATTTTATTAT TGTCCCCCGG GCCACAGCAG GTCATAGCGT TTAGCCCAGA GTCATTGTAG AAAAGTGTGGATTCACAAAG GGCAGTCATT GTGGCCATTT TTATAAATAA TCTACCACAG ACTGAGTAAA AGCCTTGCATGAATACCATG GATATTAATT TGAATTCTTC CTTTTTAGAT TTTCTTTCCT TAGCAATTTG TTTTGTCATT TTGGATTAGAATTATATCTG TAGAATATTT CAGTTATAAT AGGGTACAAC TTTTATTCCA CTGAACATCT TTAGTTTTAT TTAGGTCATCTGGTAGGTAT AAACTTCAGA AGTTAATATT CAATATTTAT AAAAACCATT AACAAGTGTG ACACTTAAAT AGTTTAAATAATTCTTTTGA CACAACTGTT TCCAAGTTGT GTTACGTATT TTAATTCAAT CAAATGTTGA AATTGTTCAG TAGATAGTTTTAATTATAGG AGAAACTCAC CCCCATGACA TTTGGATGTC TTAAAAGTTC TGTTATCTTT CTTTGCAGTT ATTCATTCTTTATTGGATAT CTGCTCTGTT ATTTCCAGTA TGGACCATGC ATTTCATGCC AATACTTGGA AGTTTATAAT TAAGTAAGTTTGTTTGTTAT TTTTTACTTT TTAGAAAATG TTTTCCATAT TCCCCAATCT TAATTATTCA TGATTCTTTA GATTGCATTTAAAACATTTT GTGTGAATTT AATGTTCACT GACACTGCTG TCTGATAATC CAGATATTCT ACATGTAGCT CTCAAGCCAAATTGGACTTC TTTACCCTGT GGCCTCTAAA ATTAAAAAAA ATGTTCTTCC TAGTTAGCTA GTACTTCAGA AATAATGGGCCATGGGCCAG ACTAGAACTT AACCACTTTT CTTCTGCTAC TGTTGTTTAA CCAGCTATCA AGTATCCTAT TTCTAGGATTAGATAAATTG ATAACTATAA TTAAAACTGA ATATAATCTT TTCATTAGGT ACTTTTAAGT TGTTCACACT TAATTCCATTTGTACAGTAA TTTTAACTTT CTGAAACTGA AGCATTTTAA AGGGTCACCA GGGATAGTGC CTGTAGCATT CATCAGATTCTTAGGGGTGA GAGGAGATGT GGTTGAGATG TAAAAATGGT TAAGAATATC TACTTTATAC ACATACATAAAACATTAAAG GTCAGTGTAT TTTCAGGTCT TAGGTACTTT TCTTGTACTA CCAGGACATT AAGTTGCCAT TCAGTGGTTAAGAGTGTTGC CTGGGAGCTG TATCACATGT GCTTAAATCC ATTCTTGAAA TCATTTACTC CTTCTGAGCC CTTGGGCTATTTGGTTAATT TCTCTGAACG TTAGTTTGCT CATCTGAAAA TGGAAATAAT AATAGCAACT TCTTGACAGG GTTATAGTGAGAATTGAGTT CATCACTGTG AAATGCTTAG AAATGTGCAT GACACATAGT TAATACTCAA GGAATTAGCCACATCACTAT CATCATCACT GATTATCTTC CACTCTTACC CTCTTCCAGT TCATTTTCTG CCCAGCAGAA TGATCTTTTAAAAAGTAAAT CAGATCATGT TACTCTATTG CTTGAAGTCT ATCCCATTTG ATTAAGAATA ACAACCTAAT CCTCTGTGGATGCTGCCTCC TTCACCAGCC TGTCTCATGC TGCTCTCCCT ACTCTTAGTT CCTCAAACAT ACCAAACTCT CCTGTCCCAGAGTCTTTTCG TGGTTTTTCC ATCTGCCTAG GATGCTTCTC TCTCCTATTT TGTGTACCTT GCTAACTCCT GCTTACTGTCTTTCAGTTCT CAGCTTAAGA GTTATATCTT CATGATAACA TTCTTTGATA TCCTTACCCT AAGATTAAGT TAGATTGATATCCTTACCCT AAGAATAAGT TAGATTAGGT CTCTCTATTG TAGCACCTTA GACTCTGTCA TTTGACAAAT CACAGCCCTAATTAATTATT CTTAAAATTA TTTAACATTC TCTCTCATGC TAGACCACAA GTTTCATGCA GGTAAGGCGG AGATTGTGTCCATTTGTTTG ACCCCTTTGT CTCCAGGGCC TGGTAGAATG CCTCATACAT AGTAAGAATT CAATTAATAT TTTACACAGAGAAAAAATTA GCAACTTATT TAAACAAATA TAACTGCTTC AGAGGTAAAC TGGGCACATC TTAGTTATAT TATGTGATATATGATGCTTT TTGATTGTTT TTTTAAATGT TCTACAAGGT AGATATTGTT AGAGGTCCTA AGTTACTTGA TGTGTTACTTGTGGTGATTG TATTCTTTTC TTTTTATTCA TTTAGGCAGA GCCTTAAGCA CCAGTCCATA ATAAAAAGCC AGTTGAAACACAAAGATATA ATTACTAGCT TGTGTGAAGA CATTCTTTTC TCCTTCCATT CTTGTTTACA GTTAGCTGAG CAGATGACACAGTCAGATGC ACAGGTAAAA TTTGGGCTAA TAGCATTTTA AACAGCAACT CTTATTTTCT TTGGCAGTTA GTAAATCTCATTTGAATGTC TGGGTCAGTC TATTTAAGAG GATTTTAATT TATTTCATTT GGGTGTTTTT TTTTGATCTG TGGGATTATTTATATCCCAT AATTACTTTT CACCCAGAGC ATTGTATTAG ATTCCTAACT GCTGTCATTG CCTCTGGGGT CTGCCTGGCTCCCTCTTTGC TTGGTAACTG GTTGGTCACA GCATTCTTCT CAGAATCCTT TCATTCTTTT CTGCATGAGA ACAAAAATTCTTTTGTTCAT ATTTGTATAA GATCTGATAT AGCTGCAATC AATCTTGCAT TTTTTCTTCA CCAACGCATT GCGACCTTTAGGGATACAAG TATGTTTGTG CATGTATATG TATGTATCAG TCTTTTAAAT TTGATATAGT CATACATTTG TTTTTATTTTGAAAAGTTAG AGTGTTGAAT TGGTATCCCA TTTATGAAAC ATTATATTCT AAAAATTTGT AGTACGATTA TTGGGAATTATAACTCATTT TCCTGTAACA CTGTTATACA TAGTACCTTT TGCTTTCAGA CTAGCCCTCA ATTTTATTTA ACTATAGTAGTCCTAAATTA TAAGATTAAT AGTACTCAGG ACCTAACAGT TATATGTCAT TTGTTTTTTT TTTTTTTGAG ATGGCGTCTCACTCTGTCAC CCAAGCTGGA GTGCAGTGGT ATGACCTTGG CTCACTGCAG CCTCTGCCTC ACGGGTTCAA GGGATCGTTCTGCCTTAGCC TCCTGAGTAG CTGGGATTAT AGGCGCCTGC CACCACGCCT GGCTAATTTT TTTAGTAGAG ACGGGGTTTCGCCATGTTGG CCAGGCTGGT CTCGAACTCC TGACCTCAGG TGGTCCACCC GCCTTGGCCT CCCAAAGTGCTGGGATTACA GGTGTGAGCC ACCGCGCCCA GCCTATATGT AATAATTTTA ATGGGACCAT GAATTGAATA TTTCTTCCTTGAATAGCAAT GACATAGCCC CTTCTATTGT ACATCTGCAA GCTGATACAG GGAATTCCTT TGTACCTGCG CTCTTCCCTGCCAGTCAGCT ATGGGGGTGA AAGTGTAGGG GTTCATCCAA GTCCTAAAAC TGGTAGCAAC TCCTAGGGCAGGGCTGATCT GGAAGGACAG ACCCTAGGGG AGGGTGGAAC TTTAAAAAGA AGTTCTGAAG GTAGTAAGAAGGAAATGAGG AGTAGTGTTA GGAAGGGGCT AACTTTTTTC TTCTTGCTTC TCTTCTTTAT CTCACCTGCC CCTCCCCTTGTATCCCTTCT TCCTTTTTCC CTTTCCTTTT TTGTCCTCAC TTCATTCGTG CATCCTTTCT GATTCCTCTT ACCTTGCTAAAAGGAGAAGT TTGTTTGGGT ATCCTATATC AATGGCAGGA AGGTTGTTTT CTTCTTTACC TTTATCCTAT AGATTCATATTCTCAACACC AACCTCCTCC TTTTTCAGTT TCCTTCTTGC TTCTCTTGAC ACCACAGAGT TTGCAGCTAG TACTTGGAGAGGAAAATTAA ACAGAGATAC TTGGACCAAG AGTAAGATGA AGAAAGTCTA AACAACAGTA TAGTCTATAGTGGCAAGAGA GAGTATGGGG GCTGCTTAGC CAGGGTGGCT GTACATAAAG TATATCTTCA GTTTATATAAACTGCTTATA GATGGAAATC AGAAAATTTA AATTCTCTTA ACTGTCCAAG AAAATTCTCA TTTTTTCAAA TTTGGGACTGATAAATGTGA CCAGTTCTGC TTACTGTCCA TTGCCTGAAA TGGAGCTTTG AGGTGGACTG TATAATTTCT TCAATCTTAACTCCAAATTC TGATCAGCGA CGCCCTCTGC TGTTCACTAT TAATATTTAT TTACCAATCA AAGTAAAGTA TTGAAGTTTTCCTGGCAGTT TTCACTTTGT GTTTTAGTCC ATTTAGGCTG CTATAACAAA ATCCCTTAAA CTGGGTAAGG GATTATAAATATTAGAAATT TATCTCTCAC AGTTCTGGAA GCTGGGAAGC CCAATATCAA GGCACCAGTA GATTTGGTGTCTAACGAGGG TGTGCCGTCT GCTTCAAAAA TGGCCCCTTG TTGCTGCATC CTCACTTAGT GCAAGGGGCAAGACAGCTCC CTTCAACCTC TTTTATAAGG GCACTTATGT CATTCATGAG GGCAGAGCCC TCATGACTTA ATCACTTCCCCAAAGGCCCC ACCTCTTAAT AGTATCACAT TGGGTGTTAG GTGTCTGGGA GGACACCAAT CTTCAAGCCATATCATCTCA CTTGGAAAAA AGTCAAAATA AAACCAGTAG ATTTAATTAA TATTACACTA TTTATAGAAG CATGTGATGTATCATTCCTT GTATTAATTT CCTGGGGTTG CCGTAACAAG TTACCACAAA CTAGGTGGCT TAAAACAATA GAATTTTATTCTCTCACATT TCTAGAGGCA GAAGTTCACA GTGTGTCAAT AGGGCCATGT TCTCTGGAAG GCTTTAGGGG AGAATATATTTCATATCTTT CTCTTAGCTT CTCGGTGTCA CTGGCAATCC TTAGCTTACT TTGGCTTTCT GTGTCTTCAC ATCATCTTTTTATAAGAACA CCAGTGATAG TGATTAAGGG CATACCTTAC TTTAATATGA CCTCATCTTA ACTAATTATG TCTTCAATAACCCTATTTCC AAATAAGGCC ACATTCTGAA GTATTGGGAG TTAGAACTTA AAGCTTTTTG GGAGGGACACAGTTCAACCC ATAACAACCC CTAAAATCGA TATTTATTCT CAATTAAGTC TTGAAATTGG TTTCAAAAAG AGAATATTCTATTAGAGTTT TTAATGTATA GTTTTAACAT ATAGTTCTTT AGCCCCCAAT TTTTTTTTTT TTTTTTTTTT TTTTTTTTTTTTTTTGAGAC GGAGTCTCGC TCTGTCGCCC AGGCCGGACT GCGGACTGCA GTGGCGCAAT CTCGGCTCACTGCAAGCTCC GCTTCCCGGG TTCACGCCAT TCCCCTGCCT CAGCCTCCCG AGTAGCTGGG ACTACAGGCGCCTGCCACCG CGCCCGGCTA ATTTTTTTGT ATTTTTAGTA GAGACGGGGT TTCACCTTGT TAGCCAGGAT GGTCTCGATCTCCTGACCTC ATGATCCACC CGCCTCGGCC TCCCAAAGTG CTGGGATTAC AGGCGTGAGC CACCGCGCCCGGCCTGCCCC CAATTATTTA GTTTTTCTAT AAACAGGGAA ATTTATTTGT GTGGCCCTTA GAACTAATTT AATTTCCACTCTAATTCCTA CTTATGTTTA TATAATGCTT TTAGAAATTT GTATTATTCA GAAAATAAAC ATATACTATT GTATCTGTTGCCTACACTTA GATTTTATTG CCTGCTATAT TTAAATTTTA TTAGTATTTT AATTGTTTTA TTAAAGAAAG AATGTGCCTGTAATCTCAGC ACTTTTGAGA GGCCAAGGCA GAAGGATTGC TTGAGCCCAG GAGTTTGAGA CCAGACTGAGCAACACAGGG AGACCCCCAT CTCTACAAAA AATAAAAAAA TTCTCCAGGC CTCATGGCAC ATACCTGTAGTTCTAGTTAC TTGGGAGACT GGGGTGGGAG GATGCATTGA GCCCAGGAGA TTGAGGCTGC AGTGAGCCATGATCAGGCCA CTGTACTCCA GCTTGGACAA CAGAGTGAGA GCTTGTCTAG ATAGATAGAT AGATAGATAATCTAAATAGA TAATAGACAG ATTATCTAAA TAGATAATAG ACAGATTATC TAAATAGATA ATAGACAGATTATCTAAATA GATAATAGAC AGATTATCTA AATAGATAAT AGACAGATTA TCTAAATAGA TAATAGACAGATTATCTATC TAAATAGATA ATAGATTATC TAAATAGATA ATAGATAGAT AGATTAGATA GATAGATAGATAGATAGAGC TTGGACAACA GAGTGAGAGC CTGTCTAGAT AGATAGAAAC AAAGAAAGAA AGAAAGAATGGTGCTCATAT TTTAAAGCAT TGAAAAATGG TCTTCCTTGC TTATATTACC CACACCTTCT TTGTTGGCAT TAAGATGCAAACTTTGTTTT AAACAGTTGA GTAAATCAAA GATGGGACTG TTAAGTTATT TGTGTTATTT ACCTGCTTTT TGAAAATGTAAAAATAAAAC TCTAGGTTTA ATTAGTAGTA TGCTATTTAG TAATGAAGTA AAGCTAGAGG CTTCGAACAAATCTTGTGTA ATTTCCTCTT GAATGAGAGA GAAAATTTAA AGTAAGCAAA CAAATAAGTT GTGTGTCACC ACTCATTCAGTCATTTAACA AGTATTTCCA GAGTACTTAT TCTGTGCCAG GAAATGTTGT AGGTGCCCTC AACAACTTAG AGTCTAGCCTGAGACACAAG TAAGTAGGTA ATTATTATAG AATGGTATGA TCTTTGGAGG ACTGGGTATT GGCTGGCTCATGGGAGTACA AGATAGGTAC CCAGTGATGA AGTCAGGAAA GGTTTCTTAT GGTGATATGA TGACGTCTATGCTGATTATA AGGTCAGTGT AGAATAAACT TTGTGCTTTT AAATTTGCAT AGCACTGTAT TAGAGAGTTC ATCTTCAAAATAATCGAAAA GGCTGAGTGT GGTGACCCAT GGCTGTAATC CCAGCACTTT GGGAGGCCGA GGTGGGCAGATTGCTTGAGC TAGGAGTTCG AGACCAGGCT GGCCAACATG GTGAAACCCC GTCTCTACTA AAAATACAAAAATTAGCCAG GAGTGATGGT GCGCACCTGT AATGCCAGCT ACTTGGGAGG CTGAGGCAGG AGGATCACTTGAACCCAGGA GGTGGAGGTT GAAGTAAGCC GAGGTCATGC CACTGCACTC CAGCCTGGGC AACAGAGTGAGACTCCATCT CAAAAAAAAA AAAAATGATC AAAGAAAGGT GAATTTTCAT CTACCCTATT TCTGCTGAGGAAAATGGACT ATTTTCAAAT ATTTTTAATA AGGGTCAAAA TGAGGGATC GCATTTTTTC AAGTTTTATG ATTTATTTAACTTGTGGAAC AAAAATAAAC CAGAAACCAC CACCTCTCAC GCCAAAGCTC ACACCTTCAG CCTCCAACATGAAGGTCTCC GCAGCACTTC TGTGGCTGCT GCTCATAGCA GCTGCCTTCA GCCCCCAGGG GCTCGCTGGGCCAGCTTCTG TCCCAACCAC CTGCTGCTTT AACCTGGCCA ATAGGAAGAT ACCCCTTCAG CGACTAGAGAGCTACAGGAG AATCACCAGT GGCAAATGTC CCCAGAAAGC TGTGATCTTC AAGACCAAAC TGGCCAAGGATATCTGTGCC GACCCCAAGA AGAAGTGGGT GCAGGATTCC ATGAAGTATC TGGACCAAAA ATCTCCAACTCCAAAGCCAT AAATAATCAC CATTTTTGAA ACCAAACCAG AGCCTGAGTG TTGCCTAATT TGTTTTCCCT TCTTACAATGCATTCTGAGG TAACCTCATT ATCAGTCCAA AGGGCATGGG TTTTATTATA TATATATATA TTTTTTTTTT AAAAAAAAACGTATTGCATT TAATTTATTG AGGCTTTAAA ACTTATCCTC CATGAATATC AGTTATTTTT AAACTGTAAA GCTTTGTGCAGATTCTTTAC CCCCTGGGAG CCCCAATTCG ATCCCCTGTC ACGTGTGGGC AATGTTCCCC CTCTCCTCTC TTCCTCCCTGGAATCTTGTA AAGGTCCTGG CAAAGATGAT CAGTATGAAA ATGTCATTGT TCTTGTGAAC CCAAAGTGTGACTCATTAAA TGGAAGTAAA TGTTGTTTTA GGAATAC ATGAAGGTCT CCGCAGCACT TCTGTGGCTG CTGCTCATAGCAGCTGCCTT CAGCCCCCAGGGGCTCGCTG GGCCAGCTTC TGTCCCAACC ACCTGCTGCT TTAACCTGGCCAATAGGAAG ATACCCCTTC AGCGACTAGA GAGCTACAGG AGAATCACCA GTGGCAAATG TCCCCAGAAAGCTGTGATCT TCAAGACCAA ACTGGCCAAG GATATCTGTG CCGACCCCAA GAAGAAGTGG GTGCAGGATTCCATGAAGTA TCTGGACCAA AAATCTCCAA CTCCAAAGCC ATAA CCACATATTC CCCTCCTTTT CCAAGGCAAGATCCAGATGG ATTAAAAAAT GTACCAAGTC CCTCCTACTA GCTTGCCTCT CTTCTGTTCT GCTTGACTTC CTAGGATCTGGAATCTGGTC AGCAATCAGG AATCCCTTCA TCGTGACCCC CGCATGGGCA AAGGCTTCCC TGGAATCTCCCACACTGTCT GCTCCCTATA AAAGGCAGGC AGATGGGCCA GAGGAGCAGA GAGGCTGAGA CCAACCCAGAAACCACCACC TCTCACGCCA AAGCTCACAC CTTCAGCCTC CAACATGAAG GTCTCCGCAG CACTTCTGTGGCTGCTGCTC ATAGCAGCTG CCTTCAGCCC CCAGGGGCTC GCTGGGCCAG GTAAGCCCCC CAACTCCTTACAGGAAAGGT AAGGTAACCA CCTCCAGGCT ACTAGGTCAG CAAGAATCTT TACAGACTCA CTGCAAATTCTCCATTTGAA AAATAGGGAA ACAGGTTTTG TGGGTGGACA AGAAATGCCT CAACCGTCAC ATCCAGTCACTGGAAGAGCC AGAACTAGAA AGCTCCCGAG TCTTTTCCCC ACATTCAAGA GGGCCGCTGG GTGCATCCTTACCCAGCTAT CCTTACAGTG TTTGGGAATG GGGAATGGCT CTGTCTTACT GTGGGCATGG TGGGCATTTT TGGCAGTGGGAGAGAAGGAA AATCTGTTGA TTAGAAGCTC AGTATGTTAA TTCGACTCCA GGACAGCTTT CAGAGACAGTGGCTAAGAGA AGAACGAGGT CCCAGGGGAT CTCTTGAGGT GACTTATTTT GACACTCTTT GGGAAAGTTATCTAGGAGAT TTGTTCCATA ACTCATTTTC CCATACTCTG GTGACAAATT TACTGAGTGT ATCGGTCCCA CTGAGCCAGTGCATAGCATG GTAACAAACA GTTCTAAATT ATCAATGACT TAACAGAATT AACTAAATTA ACAAAAGTTA CTTTCTCACTTGTACTAAAT ATCTATAATG TATGGGCTCA GGCTTCTGCA TTTTATACTC AGGATTCTAG ACTGATGGAG AAGTTGCCATGTGGGGGAAC ATTGATGGAT ACTGTGATAA AGCAGAAGAA AGCTCTCAGG AGTCTTGCAT AGGCAATGCACTGTGGCTCA AAAATGACAC CCATCACTTT GTCTCCTTCT TTATTGATCA AAACTAATTA ATGCCTCCAA CCAAACAAAAGTGGCCAAGA AATGCAAGTC TACCTTGTGT CTCAAAACAG AGGATGGAGA ATATTTGGTG AAAATTACCATGACCATCAC ATGGCCACGT AGGTCTTTAT AATGACAGAG CTAGCATTTG TCACATTGAC CAAGCTTTGT CCATACACTCTACAGTAATG ATGAGTCCTC AGTGCACAGG GGAGGATGCT GAAGACACAG GACAGCATCC TCCAGACACATAAGACTTCA GAGCAGAGGG ATTCTCCCTC CACCTCTCGC AATTCCTTGC TTTCTCCTAA CTTCCTTTAC AAAGTCATGCTTGGAAATGT CTATGTATCA TCATGTGGCT CATTTTTTTC TCTGTTCATT TTTTTTCCCC AAAATTCAGC TTCTGTCCCAACCACCTGCT GCTTTAACCT GGCCAATAGG AAGATACCCC TTCAGCGACT AGAGAGCTAC AGGAGAATCACCAGTGGCAA ATGTCCCCAG AAAGCTGTGA TGTAAGTAAA TAAAGTTCAC CCTCCCCTAG ACAAAAAAATAATGTCTAGG GCACAGAGTC AAGAACTGTG GGAGTCATAG ACTCTGATAG TTTGACCTCT ATGGTCCAAT TCATTAATTTTCACAAGTGA GTGTTCACTC CCAGCTCCCT GCCTGGGAGA TTGCTGTAGT CATATCAATT TCTTCAAGTC AAGAGCAAAGATGGTTTTAC TGGGCCTTTA AGAGCAGCAA CTAACCCAAG AGTCTCATCC TTCCTCCTCT CCGTAGCAAC CCTTTGTCCAGGGGCAGATG GTCCTTAAAT ATTTAGGGTC AAATGGGCAG AATTTTCAAA AACAATCCTT CCAATTGCAT CCTGATTCTCCCCACAGCTT CAAGACCAAA CTGGCCAAGG ATATCTGTGC CGACCCCAAG AAGAAGTGGG TGCAGGATTCCATGAAGTAT CTGGACCAAA AATCTCCAAC TCCAAAGCCA TAAATAATCA CCATTTTTGA AACCAAACCAGAGCCTGAGT GTTGCCTAAT TTGTTTTCCC TTCTTACAAT GCATTCTGAG GTAACCTCAT TATCAGTCCA AAGGGCATGGGTTTTATTAT ATATATATAT ATATATTTTT TTTTAAAAAA AAACGTATTG CATTTAATTT ATTGAGGCTT TAAAACTTATCCTCCATGAA TATCAGTTAT TTTTAAACTG TAAAGCTTTG TGCAGATTCT TTACCCCCTG GGAGCCCCAA TTCGATCCCCTGTCACGTGT GGGCAATGTT CCCCCTCTCC TCTCTTCCTC CCTGGAATCT TGTAAAGGTC CTGGCAAAGA TGATCAGTATGAAAATGTCA TTGTTCTTGT GAACCCAAAG TGTGACTCAT TAAATGGAAG TAATGTTGTT TTAGGAATAC ATAAAGTATGTGCATATTTT ATTATAGTCA CTAGTTGTAA TTTTTTTGTG GGAAATCCAC ACTGAGCTGA GGGGG GCCAGGTCGCTGTTGGTCCA CGCCGCCCGT CGCGCCGCCC GCCCGCTCAG CGTCCGCCGC CGCCATGGGA GGCCGGAGCCGAGCCGGGGT CGGGCAGCAG CAGGGACCCC CCAGAGGCGG GGCCTGTGGG ACCGCTATGG GCGTGGAGATCGAGACCATC TCCCCCGGAG ACGGAAGGAC ATTCCCCAAG AAGGGCCAAA CGTGTGTGGT GCACTACACAGGAATGCTCC AAAATGGGAA GAAGTTTGAT TCATCCAGAG ACAGAAACAA ACCTTTCAAG TTCAGAATTGGCAAACAGGA AGTCATCAAA GGTTTTGAAG AGGGTGCAGC CCAGATGAGC TTGGGGCAGA GGGCGAAGCTGACCTGCACC CCTGATGTGG CATATGGAGC CACGGGCCAC CCCGGTGTCA TCCCTCCCAA TGCCACCCTCATCTTTGACG TGGAGCTGCT CAACTTAGAG TGAAGGCAGG AAGGAACTCA AGGTGGCTGG AGATGGCTGCTGCTCACCCT CCTAGCCTGC TCTGCCACTG GGACGGCTCC TGCTTTTGGG GCTCTTGATC AGTGTGCTAA CCTCACTGCCTCATGGCATC ATCCATTCTC TCTGCCCAAG TTGCTCTGTA TGTGTTCGTC AGTGTTCATG CGAATTCTTG CTTGAGGAAACTTCGGTTGC AGATTGAAGC ATTTCAGGTT GTGCATTTTG TGTGATGCAT GTAGTAGCCT TTCCTGATGA CAGAACACAGATCTCTTGTT CGCACAATCT ACACTGCCTT ACCTTCACTT AAACCACACA CACAAGGTGC TCAGACATGA AATGTACATGGCGTACCGTA CACAGAGGGA CTTGAGCCAG TTACCTTTGC TGTCACTTTC TCTCTTATAA ATTCTGTTAG CTGCTCACTTAAACAATGTC CTCTTTGAGA AAATGTAAAA TAAAGGCTCT GTGCTTGACA GAATTCGGGC CGCCGCCAGGTCGCTGTTGG TCCACGCCGC CCGTCGCGCC GCCCGCCCGC TCAGCGTCCG CCGCCGCCAT GGGAGTGCAGGTGGAAACCA TCTCCCCAGG AGACGGGCGC ACCTTCCCCA AGCGCGGCCA GACCTGCGTG GTGCACTACACCGGGATGCT TGAAGATGGA AAGAAATTTG ATTCCTCCCG GGACAGAAAC AAGCCCTTTA AGTTTATGCTAGGCAAGCAG GAGGTGATCC GAGGCTGGGA AGAAGGGGTT GCCCAGATGA GTGTGGGTCA GAGAGCCAAACTGACTATAT CTCCAGATTA TGCCTATGGT GCCACTGGGC ACCCAGGCAT CATCCCACCA CATGCCACTC TCGTCTTCGATGTGGAGCTT CTAAAACTGG AATGACAGGA ATGGCCTCCT CCCTTAGCTC CCTGTTCTTG GATCTGCCAT GGAGGGATCTGGTGCCTCCA GACATGTGCA CATGAGTCCA TATGGAGCTT TTCCTGATGT TCCACTCCAC TTTGTATAGA CATCTGCCCTGACTGAATGT GTTCTGTCAC TCAGCTTTGC TTCCGACACC TCTGTTTCCT CTTCCCCTTT CTCCTCGTAT GTGTGTTTACCTAAACTATA TGCCATAAAC CTCAAGTTAT TCATTTTATT TTGTTTTCAT TTTGGGGTGA AGATTCAGTT TCAGTCTTTTGGATATAGGT TTCCAATTAA GTACATGGTC AAGTATTAAC AGCACAAGTG GTAGGTTAAC ATTAGAATAGGAATTGGTGT TGGGGGGGGG GTTTGCAAGA ATATTTTATT TTAATTTTTT GGATGAAATT TTTATCTATT ATATATTAAACATTCTTGCT GCTGCGCTGC AAAGCCATAG CAGATTTGAG GCGCTGTTGA GGACTGAATT ACTCTCCAAGTTGAGAGATG TCTTTGGGTT AAATTAAAAG CCCTACCTAA AACTGAGGTG GGGATGGGGA GAGCCTTTGCCTCCACCATT CCCACCCACC CTCCCCTTAA ACCCTCTGCC TTTGAAAGTA GATCATGTTC ACTGCAATGC TGGACACTACAGGTATCTGT CCCTGGGCCA GCAGGGACCT CTGAAGCCTT CTTTGTGGCC TTTTTTTTTT TTCATCCTGT GGTTTTTCTAATGGACTTTC AGGAATTTTG TAATCTCATA ACTTTCCAAG CTCCACCACT TCCTAAATCT TAAGAACTTT AATTGACAGTTTCAATTGAA GGTGCTGTTT GTAGACTTAA CACCCAGTGA AAGCCCAGCC ATCATGACAA ATCCTTGAAT GTTCTCTTAAGAAAATGATG CTGGTCATCG CAGCTTCAGC ATCTCCTGTT TTTTGATGCT TGGCTCCCTC TGCTGATCTC AGTTTCCTGGCTTTTCCTCC CTCAGCCCCT TCTCACCCCT TTGCTGTCCT GTGTAGTGATTTGGTGAGAA ATCGTTGCTG CACCCTTCCCCCAGCACCAT TTATGAGTCT CAAGTTTTAT TATTGCAATA AAAGTGCTTT ATGCCCGAAT TC GCCGCCGCCATGGGAGTGCA GGTGGAAACC ATCTCCCCAG GAGACGGGCG CACCTTCCCC AAGCGCGGCC AGACCTGCGTGGTGCACTAC ACCGGGATGC TTGAAGATGG AAAGAAATTT GATTCCTCCC GGGACAGAAA CAAGCCCTTTAAGTTTATGC TAGGCAAGCA GGAGGTGATC CGAGGCTGGG AAGAAGGGGT TGCCCAGATG AGTGTGGGTCAGAGAGCCAA ACTGACTATA TCTCCAGATT ATGCCTATGG TGCCACTGGG CACCCAGGCA TCATCCCACCACATGCCACT CTCGTCTTCG ATGTGGAGCT TCTAAAACTG GAATGACAGG AATGGCCTCC TCCCTTAGCT CCCTGTTCTTGGATCTGCCR TGGAGGGATC TGGTGCCTCC AGACATGTGC ACATGARTCC ATATGGAGCT TTTCCTGATG TTCCACTCCACTTTGTATAG ACATCTGCCC TGACTGAATG TGTTCTGTCA CTCAGCTTTG CTTCCGACAC CTCTGTTTCC TCTTCCCCTTTCTCCTCGTA TGTGTGTTTA CCTAAACTAT ATGCCATAAA CCTCAAGTTA TTCA AAGCTTCTAC CCTAGTCTGGTGCTACACTT ACATTGCTTA CATCCAAGTG TGGTTATTTC TGTGGCTCCT GTTATAACTA TTATAGCACC AGGTCTATGACCAGGAGAAT TAGACTGGCA TTAAATCAGA ATAAGAGATT TTGCACCTGC AATAGACCTT ATGACACCTAACCAACCCCA TTATTTACAA TTAAACAGGA ACAGAGGGAA TACTTTATCC AACTCACACA AGCTGTTTTCCTCCCAGATC CATGCTTTTT TGCGTTTATT ATTTTTTAGA GATGGGGGCT TCACTATGTT GCCCACACTG GACTAAAACTCTGGGCCTCA AGTGATTGTC CTGCCTCAGC CTCCTGAATA GCTGGGACTA CAGGGGCATG CCATCACACC TAGTTCATTTCCTCTATTTA AAATATACAT GGCTTAAACT CCAACTGGGA ACCCAAAACA TTCATTTGCT AAGAGTCTGG TGTTCTACCACCTGAACTAG GCTGGCCACA GGAATTATAA AAGCTGAGAA ATTCTTTAAT AATAGTAACC AGGCAACATCATTGAAGGCT CATATGTAAA AATCCATGCC TTCCTTTCTC CCAATCTCCA TTCCCAAACT TAGCCACTGG TTCTGGCTGAGGCCTTACGC ATACCTCCCG GGGCTTGCAC ACACCTTCTT CTACAGAAGA CACACCTTGG GCATATCCTACAGAAGACCA GGCTTCTCTC TGGTCCTTGG TAGAGGGCTA CTTTACTGTA ACAGGGCCAG GGTGGAGAGTTCTCTCCTGA AGCTCCATCC CCTCTATAGG AAATGTGTTG ACAATATTCA GAAGAGTAAG AGGATCAAGA CTTCTTTGTGCTCAAATACC ACTGTTCTCT TCTCTACCCT GCCCTAACCA GGAGCTTGTC ACCCCAAACT CTGAGGTGAT TTATGCCTTAATCAAGCAAA CTTCCCTCTT CAGAAAAGAT GGCTCATTTT CCCTCAAAAG TTGCCAGGAG CTGCCAAGTA TTCTGCCAATTCACCCTGGA GCACAATCAA CAAATTCAGC CAGAACACAA CTACAGCTAC TATTAGAACTATTATTATTAATAAATTCCT CTCCAAATCT AGCCCCTTGA CTTCGGATTT CACGATTTCT CCCTTCCTCC TAGAAACTTG ATAAGTTTCCCGCGCTTCCC TTTTTCTAAG ACTACATGTT TGTCATCTTA TAAAGCAAAG GGGTGAATAA ATGAACCAAA TCAATAACTTCTGGAATATC TGCAAACAAC AATAATATCA GCTATGCCAT CTTTCACTAT TTTAGCCAGT ATCGAGTTGA ATGAACATAGAAAAATACAA AACTGAATTC TTCCCTGTAA ATTCCCCGTT TTGACGACGC ACTTGTAGCC ACGTAGCCAC GCCTACTTAAGACAATTACA AAAGGCGAAG AAGACTGACT CAGGCTTAAG CTGCCAGCCA GAGAGGGAGT CATTTCATTGGCGTTTGAGT CAGCAAAGGT ATTGTCCTCA CATCTCTGGC TATTAAAGTA TTTTCTGTTG TTGTTTTTCT CTTTGGCTGTTTTCTCTCAC ATTGCCTTCT CTAAAGCTAC AGTCTCTCCT TTCTTTTCTT GTCCCTCCCT GGTTTGGTAT GTGACCTAGAATTACAGTCA GATTTCAGAA AATGATTCTC TCATTTTGCT GATAAGGACT GATTCGTTTT ACTGAGGGAC GGCAGAACTAGTTTCCTATG AGGGCATGGG TGAATACAAC TGAGGCTTCT CATGGGAGGG AATCTCTACT ATCCAAAATTATTAGGAGAA AATTGAAAAT TTCCAACTCT GTCTCTCTCT TACCTCTGTG TAAGGCAAAT ACCTTATTCT TGTGGTGTTTTTGTAACCTC TTCAAACTTT CATTGATTGA ATGCCTGTTC TGGCAATACA TTAGGTTGGG CACATAAGGA ATACCAACATAAATAAAACA TTCTAAAAGA AGTTTACGAT CTAATAAAGG AGACAGGTAC ATAGCAAACT AATTCAAAGGAGCTAGAAGA TGGAGAAAAT GCTGAATGTG GACTAAGTCA TTCAACAAAG TTTTCAGGAA GCACAAAGAGGAGGGGCTCC CCTCACAGAT ATCTGGATTA GAGGCTGGCT GAGCTGATGG TGGCTGGTGT TCTCTGTTGCAGAAGTCAAG ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGGTA AGGAATAAGATTTATCTCTT GTGATTTAAT GAGGGTTTCA AGGCTCACCA GAATCCAGCT AGGCATAACA GTGGCCAGCATGGGGGCAGG CCGGCAGAGG TTGTAGAGAT GTGTACTAGT CCTGAAGTCA GAGCAGGTTC AGAGAAGACCCAGAAAAACT AAGCATTCAG CATGTTAAAC TGAGATTACA TTGGCAGGGA GACCGCCATT TTAGAAAAATTATTTTTGAG GTCTGCTGAG CCCTACATGA ATATCAGCAT CAACTTAGAC ACAGCCTCTG TTGAGATCAC ATGCCCTGATATAAGAATGG GTTTTACTGG TCCATTCTCA GGAAAACTTG ATCTCATTCA GGAACAGGAA ATGGCTCCACAGCAAGCTGG GCATGTGAAC TCACATATGC AGGCAAATCT CACTCAGATG TAGAAGAAAG GTAAATGAACACAAAGATAA AATTACGGAA CATATTAAAC TAACATGATG TTTCCATTAT CTGTAGTAAA TACTAACACAAACTAGGCTG TCAAAATTTT GCCTGGATAT TTTACTAAGT ATAAATTATG AAATCTGTTT TAGTGAATAC ATGAAAGTAATGTGTAACAT ATAATCTATT TGGTTAAAAT AAAAAGGAAG TGCTTCAAAA CCTTTCTTTT CTCTAAAGGA GCTTAACATTCTTCCCTGAA CTTCAATTAA AGCTCTTCAA TTTGTTAGCC AAGTCCAATT TTTACAGATA AAGCACAGGT AAAGCTCAAAGCCTGTCTTG ATGACTACTA ATTCCAGATT AGTAAGATAT GAATTACTCT ACCTATGTGT ATGTGTAGAA GTCCTTAAATTTCAAAGATG ACAGTAATGG CCATGTGTAT GTGTGTGACC CACAACTATC ATGGTCATTA AAGTACATTGGCCAGAGACC ACATGAAATA ACAACAATTA CATTCTCATC ATCTTATTTT GACAGTGAAA ATGAAGAAGACAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGGTAAGC AAATGACTGT AATTCTCATG GGACTGCTAT TCTTACACAGTGGTTTCTTC ATCCAAAGAG AACAGCAATG ACTTGAATCT TAAATACTTT TGTTTTACCC TCACTAGAGA TCCAGAGACCTGTCTTTCAT TATAAGTGAG ACCAGCTGCC TCTCTAAACT AATAGTTGAT GTGCATTGGC TTCTCCCAGA ACAGAGCAGAACTATCCCAA ATCCCTGAGA ACTGGAGTCT CCTGGGGCAG GCTTCATCAG GATGTTAGTT ATGCCATCCTGAGAAAGCCC CGCAGGCCGC TTCACCAGGT GTCTGTCTCC TAACGTGATG TGTTGTGGTT GTCTTCTCTG ACACCAGCATCAGAGGTTAG AGAAAGTCTC CAAACATGAA GCTGAGAGAG AGGAAGCAAG CCAGCTGAAA GTGAGAAGTCTACAGCCACT CATCAATCTG TGTTATTGTG TTTGGAGACC ACAAATAGAC ACTATAAGTA CTGCCTAGTA TGTCTTCAGTACTGGCTTTA AAAGCTGTCC CCAAAGGAGT ATTTCTAAAA TATTTTGAGC ATTGTTAAGC AGATTTTTAA CCTCCTGAGAGGGAACTAAT TGGAAAGCTA CCACTCACTA CAATCATTGT TAACCTATTT AGTTACAACA TCTCATTTTT GAGCATGCAAATAAATGAAA AAGTCTTCCT AAAAAAATCA TCTTTTTATC CTGGAAGGAG GAAGGAAGGT GAGACAAAAGGGAGAGAGGG AGGGAAGCCT AATGAAACAC CAGTTACCTA AGACCAGAAT GGAGATCCTC CTCACTACCTCTGTTGAATA CAGCACCTAC TGAAAGAACT TTCATTCCCT GACCATGAAC AGCCTCTCAG CTTCTGTTTT CCTTCCTCACAGAAATCCTT CTATCATGTA AGCTATGGCC CACTCCATGA AGGCTGCATG GATCAATCTG TGTCTCTGAG TATCTCTGAAACCTCTAAAA CATCCAAGCT TACCTTCAAG GAGAGCATGG TGGTAGTAGC AACCAACGGG AAGGTTCTGAAGAAGAGACG GTTGAGTTTA AGCCAATCCA TCACTGATGA TGACCTGGAG GCCATCGCCA ATGACTCAGAGGAAGGTAAG GGGTCAAGCA CAATAATATC TTTCTTTTAC AGTTTTAAGC AAGTAGGGAC AGTAGAATTTAGGGGAAAAT TAAACGTGGA GTCAGAATAA CAAGAAGACA ACCAAGCATT AGTCTGGTAA CTATACAGAGGAAAATTAAT TTTTATCCTT CTCCAGGAGG GAGAAATGAG CAGTGGCCTG AATCGAGAAT ACTTGCTCACAGCCATTATT TCTTAGCCAT ATTGTAAAGG TCGTGTGACT TTTAGCCTTT CAGGAGAAAG CAGTAATAAG ACCACTTACGAGCTATGTTC CTCTCATACT AACTATGCCT CCTTGGTCAT GTTACATAAT CTTTTCGTGA TTCAGTTTCC TCTACTGTAAAATGGAGATA ATCAGAATCC CCCACTCATT GGATTGTTGT AAAGATTAAG AGTCTCAGGC TTTACAGACTGAGCTAGCTG GGCCCTCCTG ACTGTTATAA AGATTAAATG AGTCAACATC CCCTAACTTC TGGACTAGAATAATGTCTGG TACAAAGTAA GCACCCAATA AATGTTAGCT ATTACTATCA TTATTATTAT TATTTTATTT TTTTTTTTTGAGATGGAGTC TGGCTCTGTC ACCCAGGCTG GAGTGCAGTG GCACAATCTC GGCTCACTGC AAGCTCTGCCTCCTGGGTTC ATGCCATTCT CCTGCCTCAG CCTCCCGAGT AAGCTGGGAA TACAGGCACC CGCCACTGTT CCCGGCTAATTTTTTGTATT TTTAGTAGAG ACGGAGTTTC ACCGTGGTCT CCATCTCCTC GTGATCCACC CACCTTGGCC TCCCAAAGTGCCGGGATTAC AGGCGTGAGC CACCGCGCCC GGCCTATTAT TATTATTATT ACTACTACTA CTACCTATAT GAATACTACCAGCAATACTA ATTTATTAAT GACTGGATTA TGTCTAAACC TCACAAGAAT CCTACCTTCT CATTTTACAT AAAAGGAAACTAAGCTCATT GAGATAGGTA AACTGCCCAA TGGCATACAT CTGTAAGTGG GAGAGCCTCA AATCTAATTCAGTTCTACCT GAGTAAAAAA ATCATGGTTT CTCCTCCATC CCTTTACTGT ACAAGCCTCC ACATGAACTA TAAACCCAATATTCCTGTTT TTAAGATAAT ACCTAAGCAA TAACGCATGT TCACCTAGAA GGTTTTAAAA TGTAACAAAATATAAGAAAA TAAAAATCAC TCATATCGTC AGTGAGAGTT TACTACTGCC AGCACTATGG TATGTTTCCT TAAAATCTTTGCTATACACA TACCTACATG TGAACAAATA TGTCTAACAT CAAGACCACA CTATTTACAA CTTTATATCC AGCTTTTCTTACTTAGCAAT GTATTGAGGA CATTTTAGAG TGCCCGTTTT TCACCATTAT AAGCAATGCA ACAATGAACA TCTGTATAAATAAATATTCA TTTCTCTCAC CCTTTATTTC CTTAGAATAT ATTCCTAGAA GTAGAATTTC CCAGAGCCAT GAGGATTTGTGACGCTATTG ATATGTGCCA CTTTGCACTC TCTGTGACAT ATATAATTAT TTTTAATGCA TTCATTTTTT TCTCAGAGTGCATTCGTTTG AAAACATAGA CGGGAAATAC TGGTAGTCTT CCTTGTCAGT TAGAAACACC CAAACAATGAAAAATGAAAA AGTTGCACAA ATAGTCTCTA AAAACAATGA AACTATTGCC TGAGGAATTG AAGTTTAAAAAGAAGCACAT AAGCAACAAC AAGGATAATC CTAGAAAACC AGTTCTGCTG ACTGGGTGAT TTCACTTCTC TTTGCTTCCTCATCTGGATT GGAATATTCC TAATACCCCC TCCAGAACTA TTTTCCCTGT TTGTACTAGA CTGTGTATAT CATCTGTGTTTGTACATAGA CATTAATCTG CACTTGTGAT CATGGTTTTA GAAATCATCA AGCCTAGGTC ATCACCTTTT AGCTTCCTGAGCAATGTGAA ATACAACTTT ATGAGGATCA TCAAATACGA ATTCATCCTG AATGACGCCC TCAATCAAAGTATAATTCGA GCCAATGATC AGTACCTCAC GGCTGCTGCA TTACATAATC TGGATGAAGC AGGTACATTAAAATGGCACC AGACATTTCT GTCATCCTCC CCTCCTTTCA TTTACTTATT TATTTATTTC AATCTTTCTG CTTGCAAAAAACATACCTCT TCAGAGTTCT GGGTTGCACA ATTCTTCCAG AATAGCTTGA AGCACAGCAC CCCCATAAAAATCCCAAGCC AGGGCAGAAG GTTCAACTAA ATCTGGAAGT TCCACAAGAG AGAAGTTTCC TATCTTTGAGAGTAAAGGGT TGTGCACAAA GCTAGCTGAT GTACTACCTC TTTGGTTCTT TCAGACATTC TTACCCTCAA TTTTAAAACTGAGGAAACTG TCAGACATAT TAAATGATTT ACTCAGATTT ACCCAGAAGC CAATGAAGAA CAATCACTCTCCTTTAAAAA GTCTGTTGAT CAAACTCACA AGTAACACCA AACCAGGAAG ATCTTTATTA TCTCTGATAA CATATTTGTGAGGCAAAACC TCCAATAAGC TACAAATATG GCTTAAAGGA TGAAGTTTAG TGTCCAAAAA CTTTTATCACACACATCCAA TTTTCATGGC GGACATGTTT TAGTTTCAAC AGTATACATA TTTTCAAAGG TCCAGAGAGG CAATTTTGCAATAAACAAGC AAGACTTTTT CTGATTGGAT GCACTTCAGC TAACATGCTT TCAACTCTAC ATTTACAAAT TATTTTGTGTTCTATTTTTC TACTTAATAT TATTTCTGCA ATTTTCCCAA TATTGACATC GTGTATGTAT TTGCCATTTT TAATATCACTAGACAATTCA ATCAGGTTGC TACGTTGGTC CCTTGGGTTT ACTCTAAATA GCTTGATTGC AAATATCTTT GTATATATTATTGTTTTTTC TCCTATCTTG TAATTTCTTT GAGCACATCC CAAAGAGGAA TGCCTAGATC AATGGGCACA AATAATTTGACAGCTCTTAT TAAACATTAT TCTGTAAGTA AAAACTGAAC TACTTTTCAG TATCACTAGC AACATATGAG TGTATCAGCTTCCTAAACCC CTCCATGTTA GGTCATTATG AACTTATGAT CTAACAAATT ACAGGGTCTT ATCCCACTAA TGAAATTATAAGAGATTCAA CACTTATTCA GCCCCGAAGG ATTCATTCAA CGTAGAAAAT TCTAAGAACA TTAACCAAGTATTTACCTGC CTAGTGAGTG TGGAAGACAT TGTGAAGGAC ACAAAGATGT ATAGAATTCC ATTCCTGACT TCCAGGTATTTACACCATAG GTGGGGACCT AACTACACAC ACACACACAC ACACACACAC ACACACACAC ACCATGCACACACAATCTAC ATCAACACTT GATTTTATAC AAATACAATG AATTTACTTT CTTTTTGGTT CTTCTCTTCA CCAGTGAAATTTGACATGGG TGCTTATAAG TCATCAAAGG ATGATGCTAA AATTACCGTG ATTCTAAGAA TCTCAAAAAC TCAATTGTATGTGACTGCCC AAGATGAAGA CCAACCAGTG CTGCTGAAGG TCAGTTGTCC TTTGTCTCCA ACTTACCTTC ATTTACATCTCATATGTTTG TAAATAAGCC CAATAGGCAG ACACCTCTAA CAAGGTGACA CTGTCCTCTT TCCTTCCTAC CACAGCCCCCACCTACCCAC CCCACTCCCA TTGATTCCAG AGGCGTGCCT AGGCAGGATC TATGAGAAAA TATAACAGAGAGTAAGAGGA AAATTACCTT CTTTCTTTTT CCTTTCCCTG CCTGACCTTA TTCACCTCCC ATCCCAGAGC ATCCATTTATTCCATTGATC TTTACTGACA TCTATTATCT GACCTACACA ATACTAGACA TTAGGACAAT GTGGCCTGCC TCCAAGAAACTCAAATAAGC CAACTGAGAT CAGAGAGGAT TAATCACCTG CCAATGGGCA CAAAGCAACA AGCTGGGAGCCAAGTCCCAA AATGGGGCCT GCTGCTTCCA GTTCCCCTCT CTCTGCATTG ATGTCAGCAT TATCCTTCGT CCCAGTCCTGTCTCCACTAC CACTTTCCCC CTCAAACACA CACACACACA ACAGCCTTAG ATGTTTTCTC CACTGATAAG TAGGTGACTCAATTTGTAAG TATATAATCC AAGACCTTCT ATTCCCAAGT AGAATTTATG TGCCTGCCTG TGCTTTTCTA CCTGGATCAAGTGATGTCTA CAGAGTAGGG CAGTAGCTTC ATTCATGAAC TCATTCAACA AGCATTATTC ACTGAGAGCC TTGTATTTTTCAGGCATAGT GCCAACAGCA GTGTGGACAG TGGTGCATCA AAGCCTCTAG TCTCATAGAA CTTAGTCTTCTGGAGGATAT GGAAAACAGA CAACCCAAAC AACCAACAAA AGAGCAAGAT GCTGCAAAAA AAAAAAAAATGAATAGGGTG CTAAGATAGA GAAAAGTGGG AGAGTGCTAT TTAGACAAAG TGGTAAAAAC AAAGCCCCTTGTGAGATGAG AGCTGCCGAC AGAGGGGGCG GGTCATGGTT GTGGGTTTTT GGGTAGGACA TTCAGAGGAGGGGGCGGGTC GTGGTTGTGG GTTTTTGGGT AGGACATTCA GAGGAGGGGG CGGGTCGTGG TTGTGGGTTTTTGGGTAGGA CATTCAGAGG AGGGGGCGGG TCGTGGTTGT GGGTTTTTGG GTAGGACATT CAGAGGAGGGGGCGGGTCGT GGTTGTGGGT TTTTGGGACA TTCAGAGGAG TCTGAATGCA CCCAGGCCTA CAACTTCAAGATGGTAAAGG ACAGCTCCAA GGATCAGAAG AAGCATTCTT GGAACTGGGG CATTTTGAGA AGGAGGAAAAATATGCAGAG ACTAGTGCTT GCAGAGCTTG CATTTGGATT TCATTTGAGG TACAATGAAA ACCCATTAAT GGGTTTCACACAGTGCAATG GCCTGACCTC ACTTATATTT CCTAAAATAG AAAACAGATC AGAAGGAAGG CAATAGAGAAGCAGAAAGTC CAATGAGGAG GTTTCACAGC AGTCATGGGG GTGGGGTAAG GAAAAGAAGT GGAAAGAAACAGACAGAATT GGGTTATATT TTGGAGATAG AACCAACAGA AGGAAGAGGA GAAACAACAT TTACTGAGAAGGGAAAAAGT AGGAGAGGAA TAGGTTTGGG AAATAAATCC TGCTGACATT GGAAACCCCA AGGAAGCCTCAAAAGTATAT TTACTTGCTT TAGATTTAAA AGAATAGGAA AGAAGCATCT CAACTTGGAA TTTGAAATCT ATTTTTCCATAAAAGTATTG TTAAATTCTA CTCATACTCA CAAGAAAAGT ACATTCTAAA GAGTATATTG AAAGAGTTTA CTGATATACTTAGGAATTTT GTGTGTATGT GTGTGTGTGT ATGTGTGTGT GTGTGTTTAA CCTTCAATTG TTGACTTAAA TACTGAGATAAATGTCATCT AAATGCTAAA TTGATTTCCC AAAGGTATGA TTTGTTCACT TGGAGATCAA AATGTTTAGG GGGCTTAGAATCACTGTAGT GCTCAGATTT GATGCAAAAT GTCTTAGGCC TATGTTGAAG GCAGGACAGA AACAATGTTT CCCTCCTACCTGCCTGGATA CAGTAAGATA CTAGTGTCAC TGACAATCTT CATAACTAAT TTAGATCTCT CTCCAATCAA CTAAGGAAATCAACTCTTAT TAATAGACTG GGCCACACAT CTACTAGGCA TGTAATAAAT GCTTGCTGAA TGAACAAATGAATGAAGAGC CTATAGCATC ATGTTACAGC CATAGTCCTA AAGTGGTGTT TCTCATGAAG GCCAAATGCTAAGGGATTGA GCTTCAGTCC TTTTTCTAAC ATCTTGTTCT CTAACAGAAT TCTCTTCTTT TCTTCATAGG AGATGCCTGAGATACCCAAA ACCATCACAG GTAGTGAGAC CAACCTCCTC TTCTTCTGGG AAACTCACGG CACTAAGAACTATTTCACAT CAGTTGCCCA TCCAAACTTG TTTATTGCCA CAAAGCAAGA CTACTGGGTG TGCTTGGCAGGGGGGCCACC CTCTATCACT GACTTTCAGA TACTGGAAAA CCAGGCGTAG GTCTGGAGTC TCACTTGTCT CACTTGTGCAGTGTTGACAG TTCATATGTA CCATGTACAT GAAGAAGCTA AATCCTTTAC TGTTAGTCAT TTGCTGAGCA TGTACTGAGCCTTGTAATTC TAAATGAATG TTTACACTCT TTGTAAGAGT GGAACCAACA CTAACATATA ATGTTGTTAT TTAAAGAACACCCTATATTT TGCATAGTAC CAATCATTTT AATTATTATT CTTCATAACA ATTTTAGGAG GACCAGAGCT ACTGACTATGGCTACCAAAA AGACTCTACC CATATTACAG ATGGGCAAAT TAAGGCATAA GAAAACTAAG AAATATGCACAATAGCAGTT GAAACAAGAA GCCACAGACC TAGGATTTCA TGATTTCATT TCAACTGTTT GCCTTCTGCT TTTAAGTTGCTGATGAACTC TTAATCAAAT AGCATAAGTT TCTGGGACCT CAGTTTTATC ATTTTCAAAA TGGAGGGAAT AATACCTAAGCCTTCCTGCC GCAACAGTTT TTTATGCTAA TCAGGGAGGT CATTTTGGTA AAATACTTCT CGAAGCCGAG CCTCAAGATGAAGGCAAAGC ACGAAATGTT ATTTTTTAAT TATTATTTAT ATATGTATTT ATAAATATAT TTAAGATAAT TATAATATACTATATTTATG GGAACCCCTT CATCCTCTGA GTGTGACCAG GCATCCTCCA CAATAGCAGA CAGTGTTTTC TGGGATAAGTAAGTTTGATT TCATTAATAC AGGGCATTTT GGTCCAAGTT GTGCTTATCC CATAGCCAGG AAACTCTGCA TTCTAGTACTTGGGAGACCT GTAATCATAT AATAAATGTA CATTAATTAC CTTGAGCCAG TAATTGGTCC GATCTTTGAC TCTTTTGCCATTAAACTTAC CTGGGCATTC TTGTTTCATT CAATTCCACC TGCAATCAAG TCCTACAAGC TAAAATTAGA TGAACTCAACTTTGACAACC ATGAGACCAC TGTTATCAAA ACTTTCTTTT CTGGAATGTA ATCAATGTTT CTTCTAGGTT CTAAAAATTGTGATCAGACC ATAATGTTAC ATTATTATCA ACAATAGTGA TTGATAGAGT GTTATCAGTC ATAACTAAAT AAAGCTTGCAACAAAATTCT CTGACACATA GTTATTCATT GCCTTAATCA TTATTTTACT GCATGGTAAT TAGGGACAAA TGGTAAATGTTTACATAAAT AATTGTATTT AGTGTTACTT TATAAAATCA AACCAAGATT TTATATTTTT TTCTCCTCTT TGTTAGCTGCCAGTATGCAT AAATGGCATT AAGAATGATA ATATTTCCGG GTTCACTTAA AGCTCATATT ACACATACACAAAACATGTG TTCCCATCTT TATACAAACT CACACATACA GAGCTACATT AAAAACAACT AATAGGCCAGGCACGGTGGC TCAGACCTGT AATCCCAGCA CTTTGGGAGG ACCAACCTCT TCGAGGCACA AGGCACAACAGGCTGCTCTG GGATTCTCTT CAGCCAATCT TCATTGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TGAGCTCGCCAGTGAAATGA TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGATGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCACCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTGGTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTTCGACACATGG GATAACGAGG CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGACTCACAGCAAA AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATATGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGCCTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTGGAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAATCAATAACAA GCTGGAATTT GAGTCTGCCC AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAACATGCCCGTC TTCCTGGGAG GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCTTCCTAAAGAG AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGGGAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCT GCCTTAGGGTAGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA GCTCTCTCCT TTCAGGGCCA ATCCCCAGCC CTTTTGTTGAGCCAGGCCTC TCTCACCTCT CCTACTCACT TAAAGCCCGC CTGACAGAAA CCACGGCCAC ATTTGGTTCTAAGAAACCCT CTGTCATTCG CTCCCACATT CTGATGAGCA ACCGCTTCCC TATTTATTTA TTTATTTGTT TGTTTGTTTTATTCATTGGT CTAATTTATT CAAAGGGGGC AAGAAGTAGC AGTGTCTGTA AAAGAGCCTA GTTTTTAATAGCTATGGAAT CAATTCAATT TGGACTGGTG TGCTCTCTTT AAATCAAGTC CTTTAATTAA GACTGAAAAT ATATAAGCTCAGATTATTTA AATGGGAATA TTTATAAATG AGCAAATATC ATACTGTTCA ATGGTTCTGA AATAAACTTC TCTGAAGAGAAAGAAAGAGAGAGAGAA AGAAAAGAAA GAGGAAGGAA GGAAGGAAGG AAGAAAGACA GGCTCTGAGGAAGGTGGCAG TTCCTACAAC GGGAGAACCA GTGGTTAATT TGCAAAGTGG ATCCTGTGGA GGCANNCAGAGGAGTCCCCT AGGCCACCCA GACAGGGCTT TTAGCTATCT GCAGGCCAGA CACCAAATTT CAGGAGGGCTCAGTGTTAGG AATGGATTAT GGCTTATCAA ATTCACAGGA AACTAACATG TTGAACAGCT TTTAGATTTCCTGTGGAAAA TATAACTTAC TAAAGATGGA GTTCTTGTGA CTGACTCCTG ATATCAAGAT ACTGGGAGCCAAATTAAAAA TCAGAAGGCT GCTTGGAGAG CAAGTCCATG AAATGCTCTT TTTCCCACAG TAGAACCTATTTCCCTCGTG TCTCAAATAC TTGCACAGAG GCTCACTCCC TTGGATAATG CAGAGCGAGC ACGATACCTGGCACATACTA ATTTGAATAA AATGCTGTCA AATTCCCATT CACCCATTCA AGCAGCAAAC TCTATCTCAC CTGAATGTACATGCCAGGCA CTGTGCTAGA CTTGGCTCAA AAAGATTTCA GTTTCCTGGA GGAACCAGGA GGGCAAGGTTTCAACTCAGT GCTATAAGAA GTGTTACAGG CTGGACACGG TGGCTCACGC CTGTAATCCC AACATTTGGGAGGCCGAGGC GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCTCTACTAAAAA TACAAAAAAT TAGCCGGGCG TTGGCGGCAG GTGCCTGTAG TCCCAGCTGC TGGGGAGGCTGAGGCAGGAG AATGGTGTGA ACCCGGGAGG CGGAACTTGC AGGGGGCCGA GATCGTGCCA CTGCACTCCAGCCTGGGCGA CAGAGTGAGA CTCTGTCTCA AAAAAAAAAA AAAAGTGTTA TGATGCAGAC CTGTCAAAGAGGCAAAGGAG GGTGTTCCTA CACTCCAGGC ACTGTTCATA ACCTGGACTC TCATTCATTC TACAAATGGAGGGCTCCCCT GGGCAGATCC CTGGAGCAGG CACTTTGCTG GTGTCTCGGT TAAAGAGAAA CTGATAACTCTTGGTATTAC CAAGAGATAG AGTCTCAGAT GGATATTCTT ACAGAAACAA TATTCCCACT TTTCAGAGTTCACCAAAAAA TCATTTTAGG CAGAGCTCAT CTGGCATTGA TCTGGTTCAT CCATGAGATT GGCTAGGGTAACAGCACCTG GTCTTGCAGG GTTGTGTGAG CTTATCTCCA GGGTTGCCCC AACTCCGTCA GGAGCCTGAACCCTGCATAC CGTATGTTCT CTGCCCCAGC CAAGAAAGGT CAATTTTCTC CTCAGAGGCT CCTGCAATTG ACAGAGAGCTCCCGAGGCAG AGAACAGCAC CCAAGGTAGA GACCCACACC CTCAATACAG ACAGGGAGGG CTATTGGCCCTTCATTGTAC CCATTTATCC ATCTGTAAGT GGGAAGATTC CTAAACTTAA GTACAAAGAA GTGAATGAAGAAAAGTATGT GCATGTATAA ATCTGTGTGT CTTCCACTTT GTCCCACATA TACTAAATTT AAACATTCTT CTAACGTGGGAAAATCCAGT ATTTTAATGT GGACATCAAC TGCACAACGA TTGTCAGGAA AACAATGCAT ATTTGCATGGTGATACATTT GCAAAATGTG TCATAGTTTG CTACTCCTTG CCCTTCCATG AACCAGAGAA TTATCTCAGT TTATTAGTCCCCTCCCCTAA GAAGCTTCCA CCAATACTCT TTTCCCCTTT CCTTTAACTT GATTGTGAAA TCAGGTATTC AACAGAGAAATTTCTCAGCC TCCTACTTCT GCTTTTGAAA GCTATAAAAA CAGCGAGGGA GAAACTGGCA GATACCAAACCTCTTCGAGG CACAAGGCAC AACAGGCTGC TCTGGGATTC TCTTCAGCCA ATCTTCATTG CTCAAGTATG ACTTTAATCTTCCTTACAAC TAGGTGCTAA GGGAGTCTCT CTGTCTCTCT GCCTCTTTGT GTGTATGCAT ATTCTCTCTC TCTCTCTCTTTCTTTCTCTG TCTCTCCTCT CCTTCCTCTC TGCCTCCTCT CTCAGCTTTT TGCAAAAATG CCAGGTGTAA TATAATGCTTATGACTCGGG AAATATTCTG GGAATGGATA CTGCTTATCT AACAGCTGAC ACCCTAAAGG TTAGTGTCAAAGCCTCTGCT CCAGCTCTCC TAGCCAATAC ATTGCTAGTT GGGGTTTGGT TTAGCAAATG CTTTTCTCTA GACCCAAAGGACTTCTCTTT CACACATTCA TTCATTTACT CAGAGATCAT TTCTTTGCAT GACTGCCATG CACTGGATGC TGAGAGAAATCACACATGAA CGTAGCCGTC ATGGGGAAGT CACTCATTTT CTCCTTTTTA CACAGGTGTC TGAAGCAGCCATGGCAGAAG TACCTGAGCT CGCCAGTGAA ATGATGGCTT ATTACAGGTC AGTGGAGACG CTGAGACCAGTAACATGAGC AGGTCTCCTC TTTCAAGAGT AGAGTGTTAT CTGTGCTTGG AGACCAGATT TTTCCCCTAA ATTGCCTCTTTCAGTGGCAA ACAGGGTGCC AAGTAAATCT GATTTAAAGA CTACTTTCCC ATTACAAGTC CCTCCAGCCTTGGGACCTGG AGGCTATCCA GATGTGTTGT TGCAAGGGCT TCCTGCAGAG GCAAATGGGG AGAAAAGATTCCAAGCCCAC AATACAAGGA ATCCCTTTGC AAAGTGTGGC TTGGAGGGAG AGGGAGAGCT CAGATTTTAGCTGACTCTGC TGGGCTAGAG GTTAGGCCTC AAGATCCAAC AGGGAGCACC AGGGTGCCCA CCTGCCAGGCCTAGAATCTG CCTTCTGGAC TGTTCTGCGC ATATCACTGT GAAACTTGCC AGGTGTTTCA GGCAGCTTTG AGAGGCAGGCTGTTTGCAGT TTCTTATGAA CAGTCAAGTC TTGTACACAG GGAAGGAAAA ATAAACCTGT TTAGAAGACATAATTGAGAC ATGTCCCTGT TTTTATTACA GTGGCAATGA GGATGACTTG TTCTTTGAAG CTGATGGCCC TAAACAGATGAAGGTAAGAC TATGGGTTTA ACTCCCAACC CAAGGAAGGG CTCTAACACA GGGAAAGCTC AAAGAAGGGAGTTCTGGGCC ACTTTGATGC CATGGTATTT TGTTTTAGAA AGACTTTAAC CTCTTCCAGT GAGACACAGG CTGCACCACTTGCTGACCTG GCCACTTGGT CATCATATCA CCACAGTCAC TCACTAACGT TGGTGGTGGT GGCCACACTT GGTGGTGACAGGGGAGGAGT AGTGATAATG TTCCCATTTC ATAGTAGGAA GACAACCAAG TCTTCAACAT AAATTTGATT ATCCTTTTAAGAGATGGATT CAGCCTATGC CAATCACTTG AGTTAAACTC TGAAACCAAG AGATGATCTT GAGAACTAACATATGTCTAC CCCTTTTGAG TAGAATAGTT TTTTGCTACC TGGGGTGAAG CTTATAACAA CAAGACATAG ATGATATAAACAAAAAGATG AATTGAGACT TGAAAGAAAA CCATTCACTT GCTGTTTGAC CTTGACAAGT CATTTTACCC GCTTTGGACCTCATCTGAAA AATAAAGGGC TGAGCTGGAT GATCTCTGAG ATTCCAGCAT CCTGCAACCT CCAGTTCTGA AATATTTTCAGTTGTAGCTA AGGGCATTTG GGCAGCAAAT GGTCATTTTT CAGACTCATC CTTACAAAGA GCCATGTTAT ATTCCTGCTGTCCCTTCTGT TTTATATGAT GCTCAGTAGC CTTCCTAGGT GCCCAGCCAT CAGCCTAGCT AGGTCAGTTG TGCAGGTTGGAGGCAGCCAC TTTTCTCTGG CTTTATTTTA TTCCAGTTTG TGATAGCCTC CCCTAGCCTC ATAATCCAGT CCTCAATCTTGTTAAAAACA TATTTCTTTA GAAGTTTTAA GACTGGCATA ACTTCTTGGC TGCAGCTGTG GGAGGAGCCC ATTGGCTTGTCTGCCTGGCC TTTGCCCCCC ATTGCCTCTT CCAGCAGCTT GGCTCTGCTC CAGGCAGGAA ATTCTCTCCT GCTCAACTTTCTTTTGTGCA CTTACAGGTC TCTTTAACTG TCTTTCAAGC CTTTGAACCA TTATCAGCCT TAAGGCAACC TCAGTGAAGCCTTAATACGG AGCTTCTCTG AATAAGAGGA AAGTGGTAAC ATTTCACAAA AAGTACTCTC ACAGGATTTGCAGAATGCCT ATGAGACAGT GTTATGAAAA AGGAAAAAAA AGAACAGTGT AGAAAAATTG AATACTTGCTGAGTGAGCAT AGGTGAATGG AAAATGTTAT GGTCATCTGC ATGAAAAAGC AAATCATAGT GTGACAGCATTAGGGATACA AAAAGATATA GAGAAGGTAT ACATGTATGG TGTAGGTGGG GCATGTACAA AAAGATGACAAGTAGAATCG GGATTTATTC TAAAGAATAG CCTGTAAGGT GTCCAGAAGC CACATTCTAG TCTTGAGTCT GCCTCTACCTGCTGTGTGCC CTTGAGTACA CCCTTAACCT CCTTGAGCTT CAGAGAGGGA TAATCTTTTT ATTTTATTTT ATTTTATTTTGTTTTGTTTT GTTTTGTTTT GTTTTATGAG ACAGAGTCTC ACTCTGTTGC CCAGGCTGGA GTGCAGTGGT ACAATCTTGGCTTACTGCAT CCTCCACCTC CTGAGTTCAA GCGATTCTCC TTCCTCAGTC TCCTGAATAG CTAGGATTAC AGGTGCACCCCACCACACCC AGCTAATTTT TGTATTTTTA GTAGAGAAGG GGTTTCGCCA TGTTGGCCAG GCTGGTTTTG AAGTCCTGACCTAAATGATT CATCCACCTC GGCTTCCCAA AGTGCTGGGA TTACAGGCAT GAGCCACCAC GCCTGGCCCAGAGAGGGATG ATCTTTAGAA GCTCGGGATT CTTTCAAGCC CTTTCCTCCT CTCTGAGCTT TCTACTCTCT GATGTCAAAGCATGGTTCCT GGCAGGACCA CCTCACCAGG CTCCCTCCCT CGCTCTCTCC GCAGTGCTCC TTCCAGGACC TGGACCTCTGCCCTCTGGAT GGCGGCATCC AGCTACGAAT CTCCGACCAC CACTACAGCA AGGGCTTCAG GCAGGCCGCGTCAGTTGTTG TGGCCATGGA CAAGCTGAGG AAGATGCTGG TTCCCTGCCC ACAGACCTTC CAGGAGAATGACCTGAGCAC CTTCTTTCCC TTCATCTTTG AAGAAGGTAG TTAGCCAAGA GCAGGCAGTA GATCTCCACT TGTGTCCTCTTGGAAGTCAT CAAGCCCCAG CCAACTCAAT TCCCCCAGAG CCAAAGCCCT TTAAAGGTAG AAGGCCCAGCGGGGAGACAA AACAAAGAAG GCTGGAAACC AAAGCAATCA TCTCTTTAGT GGAAACTATT CTTAAAGAAGATCTTGATGG CTACTGACAT TTGCAACTCC CTCACTCTTT CTCAGGGGCC TTTCACTTAC ATTGTCACCA GAGGTTCGTAACCTCCCTGT GGGCTAGTGT TATGACCATC ACCATTTTAC CTAAGTAGCT CTGTTGCTCG GCCACAGTGA GCAGTAATAGACCTGAAGCT GGAACCCATG TCTAATAGTG TCAGGTCCAG TGTTCTTAGC CACCCCACTC CCAGCTTCAT CCCTACTGGTGTTGTCATCA GACTTTGACC GTATATGCTC AGGTGTCCTC CAAGAAATCA AATTTTGCCA CCTCGCCTCA CGAGGCCTGCCCTTCTGATT TTATACCTAA ACAACATGTG CTCCACATTT CAGAACCTAT CTTCTTCGAC ACATGGGATA ACGAGGCTTATGTGCACGAT GCACCTGTAC GATCACTGAA CTGCACGCTC CGGGACTCAC AGCAAAAAAG CTTGGTGATGTCTGGTCCAT ATGAACTGAA AGCTCTCCAC CTCCAGGGAC AGGATATGGA GCAACAAGGT AAATGGAAACATCCTGGTTT CCCTGCCTGG CCTCCTGGCA GCTTGCTAAT TCTCCATGTT TTAAACAAAG TAGAAAGTTA ATTTAAGGCAAATGATCAAC ACAAGTGAAA AAAAATATTA AAAAGGAATA TACAAACTTT GGTCCTAGAA ATGGCACATTTGATTGCACT GGCCAGTGCA TTTGTTAACA GGAGTGTGAC CCTGAGAAAT TAGACGGCTC AAGCACTCCCAGGACCATGT CCACCCAAGT CTCTTGGGCA TAGTGCAGTG TCAATTCTTC CACAATATGG GGTCATTTGA TGGACATGGCCTAACTGCCT GTGGGTTCTC TCTTCCTGTT GTTGAGGCTG AAACAAGAGT GCTGGAGCGA TAATGTGTCC ATCCCCCTCCCCAGTCTTCC CCCCTTGCCC CAACATCCGT CCCACCCAAT GCCAGGTGGT TCCTTGTAGG GAAATTTTAC CGCCCAGCAGGAACTTATAT CTCTCCGCTG TAACGGGCAA AAGTTTCAAG TGCGGTGAAC CCATCATTAG CTGTGGTGAT CTGCCTGGCATCGTGCCACA GTAGCCAAAG CCTCTGCACA GGAGTGTGGG CAACTAAGGC TGCTGACTTT GAAGGACAGCCTCACTCAGG GGGAAGCTAT TTGCTCTCAG CCAGGCCAAG AAAATCCTGT TTCTTTGGAA TCGGGTAGTAAGAGTGATCC CAGGGCCTCC AATTGACACT GCTGTGACTG AGGAAGATCA AAATGAGTGT CTCTCTTTGGAGCCACTTTC CCAGCTCAGC CTCTCCTCTC CCAGTTTCTT CCCATGGGCT ACTCTCTGTT CCTGAAACAG TTCTGGTGCCTGATTTCTGG CAGAAGTACA GCTTCACCTC TTTCCTTTCC TTCCACATTG ATCAAGTTGT TCCGCTCCTG TGGATGGGCACATTGCCAGC CAGTGACACA ATGGCTTCCT TCCTTCCTTC CTTCAGCATT TAAAATGTAG ACCCTCTTTC ATTCTCCGTTCCTACTGCTA TGAGGCTCTG AGAAACCCTC AGGCCTTTGA GGGGAAACCC TAAATCAACA AAATGACCCTGCTATTGTCT GTGAGAAGTC AAGTTATCCT GTGTCTTAGG CCAAGGAACC TCACTGTGGG TTCCCACAGA GGCTACCAATTACATGTATC CTACTCTCGG GGCTAGGGGT TGGGGTGACC CTGCATGCTG TGTCCCTAAC CACAAGACCC CCTTCTTTCTTCAGTGGTGT TCTCCATGTC CTTTGTACAA GGAGAAGAAA GTAATGACAA AATACCTGTG GCCTTGGGCCTCAAGGAAAA GAATCTGTAC CTGTCCTGCG TGTTGAAAGA TGATAAGCCC ACTCTACAGC TGGAGGTAAGTGAATGCTAT GGAATGAAGC CCTTCTCAGC CTCCTGCTAC CACTTATTCC CAGACAATTC ACCTTCTCCC CGCCCCCATCCCTAGGAAAA GCTGGGAACA GGTCTATTTG ACAAGTTTTG CATTAATGTA AATAAATTTA ACATAATTTT TAACTGCGTGCAACCTTCAA TCCTGCTGCA GAAAATTAAA TCATTTTGCC GATGTTATTA TGTCCTACCA TAGTTACAAC CCCAACAGATTATATATTGT TAGGGCTGCT CTCATTTGAT AGACACCTTG GGAAATAGAT GACTTAAAGG GTCCCATTAT CACGTCCACTCCACTCCCAA AATCACCACC ACTATCACCT CCAGCTTTCT CAGCAAAAGC TTCATTTCCA AGTTGATGTC ATTCTAGGACCATAAGGAAA AATACAATAA AAAGCCCCTG GAAACTAGGT ACTTCAAGAA GCTCTAGCTT AATTTTCACCCCCCCAAAAA AAAAAAATTC TCACCTACAT TATGCTCCTC AGCATTTGGC ACTAAGTTTT AGAAAAGAAGAAGGGCTCTT TTAATAATCA CACAGAAAGT TGGGGGCCCA GTTACAACTC AGGAGTCTGG CTCCTGATCATGTGACCTGC TCGTCAGTTT CCTTTCTGGC CAACCCAAAG AACATCTTTC CCATAGGCAT CTTTGTCCCT TGCCCCACAAAAATTCTTCT TTCTCTTTCG CTGCAGAGTG TAGATCCCAA AAATTACCCA AAGAAGAAGA TGGAAAAGCG ATTTGTCTTCAACAAGATAG AAATCAATAA CAAGCTGGAA TTTGAGTCTG CCCAGTTCCC CAACTGGTAC ATCAGCACCTCTCAAGCAGA AAACATGCCC GTCTTCCTGG GAGGGACCAA AGGCGGCCAG GATATAACTG ACTTCACCATGCAATTTGTG TCTTCCTAAA GAGAGCTGTA CCCAGAGAGT CCTGTGCTGA ATGTGGACTC AATCCCTAGGGCTGGCAGAA AGGGAACAGA AAGGTTTTTG AGTACGGCTA TAGCCTGGAC TTTCCTGTTG TCTACACCAATGCCCAACTG CCTGCCTTAG GGTAGTGCTA AGAGGATCTC CTGTCCATCA GCCAGGACAG TCAGCTCTCT CCTTTCAGGGCCAATCCCCA GCCCTTTTGT TGAGCCAGGC CTCTCTCACC TCTCCTACTC ACTTAAAGCC CGCCTGACAG AAACCACGGCCACATTTGGT TCTAAGAAAC CCTCTGTCAT TCGCTCCCAC ATTCTGATGA GCAACCGCTT CCCTATTTAT TTATTTATTTGTTTGTTTGT TTTGATTCAT TGGTCTAATT TATTCAAAGG GGGCAAGAAG TAGCAGTGTC TGTAAAAGAG CCTAGTTTTTAATAGCTATG GAATCAATTCAATTTGGACT GGTGTGCTCT CTTTAAATCA AGTCCTTTAA TTAAGACTGA AAATATATAAGCTCAGATTA TTTAAATGGG AATATTTATA AATGAGCAAA TATCATACTG TTCAATGGTT CTGAAATAAA CTTCACTGAAGAAAAAAAAA AAAGGGTCTC TCCTGATCAT TGACTGTCTG GATTGACACT GACAGTAAGC AAACAGGCTGTGAGAGTTCT TGGGACTAAG CCCACTCCTC ATTGCTGAGT GCTGCAAGTA CCTAGAAATA TCCTTGGCCACCGAAGACTA TCCTCCTCAC CCATCCCCTT TATTTCGTTG TTCAACAGAA GGATATTCAG TGCACATCTG GAACAGGATCAGCTGAAGCA CTGCAGGGAG TCAGGACTGG TAGTAACAGC TACCATGATT TATCTATCAA TGCACCAAACATCTGTTGAG CAAGCGCTAT GTACTAGGAG CTGGGAGTAC AGAGATGAGA ACAGTCACAA GTCCCTCCTCAGATAGGAGA GGCAGCTAGT TATAAGCAGA ACAAGGTAAC ATGACAAGTA GAGTAAGATA GAAGAACGAAGAGGAGTAGC CAGGAAGGAG GGAGGAGAAC GACATAAGAA TCAAGCCTAA AGGGATAAAC AGAAGATTTCCACACATGGG CTGGGCCAAT TGGGTGTCGG TTACGCCTGT AATCCCAGCA CTTTGGGTGG CAGGGGCAGAAAGATCGCTT GAGCCCAGGA GTTCAAGACC AGCCTGGGCA ACATAGTGAG ACTCCCATCT CTACAAAAAATAAATAAATA AATAAAACAA TCAGCCAGGC ATGCTGGCAT GCACCTGTAG TCCTAGCTAC TTGGGAAGCTGACACTGGAG GATTGCTTGA GCCCAGAAGT TCAAGACTGC AGTGAGCTTA TCCGTTGACC TGCAGGTCGA CACAAACCTTT TCGAGGCAAA AGGCAAAAAA GGCTGCTCTG GGATTCTCTT CAGCCAATCT TCAATGCTCAAGTGTCTGAA GCAGCCATGG CAGAAGTACC TAAGCTCGCC AGTGAAATGA TGGCTTATTA CAGTGGCAATGAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA TGAAGTGCTC CTTCCAGGAC CTGGACCTCTGCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGCGTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAATGACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG CTTATGTGCACGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA AAAGCTTGGT GATGTCTGGTCCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA TGGAGCAACA AGTGGTGTTC TCCATGTCCTTTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCTGTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAGAAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCCAGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG GGACCAAAGGCGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG AGCTGTACCC AGAGAGTCCTGTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG GAACAGAAAG GTTTTTGAGT ACGGCTATAGCCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCCAGGACAGTCA GCTCTCTCCT TTCAGGGCCA ATCCCAGCCC TTTTGTTGAG CCAGGCCTCT CTCACCTCTC CTACTCACTTAAAGCCCGCC TGACAGAAAC CAGGCCACAT TTTGGTTCTA AGAAACCCTC CTCTGTCATT CGCTCCCACATTCTGATGAG CAACCGCTTC CCTATTTATT TATTTATTTG TTTGTTTGTT TTGATTCATT GGTCTAATTT ATTCAAAGGGGGCAAGAAGT AGCAGTGTCT GTAAAAGAGC CTAGTTTTTA ATAGCTATGG AATCAATTCA ATTTGGACTG GTGTGCTCTCTTTAAATCAA GTCCTTTAAT TAAGACTGAA AATATATAAG CTCAGATTAT TTAAATGGGA ATATTTATAA ATGAGCAAATATCATACTGT TCAATGGTTC TCAAATAAAC TTCACT CTGGCAGGAG TAGCAGCTGC CCCTTGGCGC GACTGCTGGAGCCGCGAACT AGAGAAACAC AGACACGCCT CATAGAGCAA CGGCGTCTCT CGGAGCGTGG AGCCCGCCAAGCTCGAGCTG AGCTTTCGCT TGCCGTCCAC CACTGCCCAC ACTGTCGTTT GCTGCCATCG CAGACCTGCT GCTGACTTCCATCCCTCTGG ATCCGGCAAG GGCCTGCGAT TTTGACAATG TCAAGATTTA CCGTATATCC CTGTTTGTTT GGATACACCAGTGACGTCCA CTTCTAGAAG ACAAAGTTAT ATTACTTAAA CAACCAAAGA TATGAAACTA TCCATGAAGAACAATATTAT CAATACACAG CAGTCTTTTG TAACCATGCC CAATGTGATT GTACCAGATA TTGAAAAGGAAATACGAAGG ATGGAAAATG GAGCATGCAG CTCCTTTTCT GAGGATGATG ACAGTGCCTC TACATCTGAAGAATCAGAGA ATGAAAACCC TCATGCAAGG GGTTCCTTTA GTTATAAGTC ACTCAGAAAG GGAGGACCATCACAGAGGGA GCAGTACCTG CCTGGTGCCA TTGCCATTTT TAATGTGAAC AACAGCGACA ATAAGGACCAGGAACCAGAA GAAAAAAAGA AAAAGAAAAA AGAAAAGAAG AGCAAGTCAG ATGATAAAAA CGAAAATAAAAACGACCCAA AGAAGAAGAT GGAAAAGCGA ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACTGTTACAGTGA AAATGAAGAA GACAGTTCCT CCATTGATCA TCTGTCTCTG AATCAGAAAT CCTTCTATCA TGTAAGCTATGGCCCACTCC ATGAAGGCTG CATGGATCAA TCTGTGTCTC TGAGTATCTC TGAAACCTCT AAAACATCCA AGCTTACCTTCAAGGAGAGC ATGGTGGTAG TAGCAACCAA CGGGAAGGTT CTGAAGAAGA GACGGTTGAG TTTAAGCCAATCCATCACTG ATGATGACCT GGAGGCCATC GCCAATGACT CAGAGGAAGA AATCATCAAG CCTAGGTCAGCACCTTTTAG CTTCCTGAGC AATGTGAAAT ACAACTTTAT GAGGATCATC AAATACGAAT TCATCCTGAA TGACGCCCTCAATCAAAGTA TAATTCGAGC CAATGATCAG TACCTCACGG CTGCTGCATT ACATAATCTG GATGAAGCAGTGAAATTTGA CATGGGTGCT TATAAGTCAT CAAAGGATGA TGCTAAAATT ACCGTGATTC TAAGAATCTCAAAAACTCAA TTGTATGTGA CTGCCCAAGA TGAAGACCAA CCAGTGCTGC TGAAGGAGAT GCCTGAGATACCCAAAACCA TCACAGGTAG TGAGACCAAC CTCCTCTTCT TCTGGGAAAC TCACGGCACT AAGAACTATTTCACATCAGT TGCCCATCCA AACTTGTTTA TTGCCACAAA GCAAGACTAC TGGGTGTGCT TGGCAGGGGGGCCACCCTCT ATCACTGACT TTCAGATACT GGAAAACCAG GCGTAGGTCT GGAGTCTCAC TTGTCTCACT TGTGCAGTGTTGACAGTTCA TATGTACCAT GTACATGAAG AAGCTAAATC CTTTACTGTT AGTCATTTGC TGAGCATGTA CTGAGCCTTGTAATTCTAAA TGAATGTTTA CACTCTTTGT AAGAGTGGAA CCAACACTAA CATATAATGT TGTTATTTAA AGAACACCCTATATTTTGCA TAGTACCAAT CATTTTAATT ATTATTCTTC ATAACAATTT TAGGAGGACC AGAGCTACTG ACTATGGCTACCAAAAAGAC TCTACCCATA TTACAGATGG GCAAATTAAG GCATAAGAAA ACTAAGAAAT ATGCACAATAGCAGTTGAAA CAAGAAGCCA CAGACCTAGG ATTTCATGAT TTCATTTCAA CTGTTTGCCT TCTGCTTTTA AGTTGCTGATGAACTCTTAA TCAAATAGCA TAAGTTTCTG GGACCTCAGT TTTATCATTT TCAAAATGGA GGGAATAATA CCTAAGCCTTCCTGCCGCAA CAGTTTTTTA TGCTAATCAG GGAGGTCATT TTGGTAAAAT ACTTCTCGAA GCCGAGCCTCAAGATGAAGG CAAAGCACGA AATGTTATTT TTTAATTATT ATTTATATAT GTATTTATAA ATATATTTAA GATAATTATAATATACTATA TTTATGGGAA CCCCTTCATC CTCTGAGTGT GACCAGGCAT CCTCCACAAT AGCAGACAGT GTTTTCTGGGATAAGTAAGT TTGATTTCAT TAATACAGGG CATTTTGGTC CAAGTTGTGC TTATCCCATA GCCAGGAAAC TCTGCATTCTAGTACTTGGG AGACCTGTAA TCATATAATA AATGTACATT AATTACCTTG AGCCAGTAAT TGGTCCGATC TTTGACTCTTTTGCCATTAA ACTTACCTGG GCATTCTTGT TTCATTCAAT TCCACCTGCA ATCAAGTCCT ACAAGCTAAA ATTAGATGAACTCAACTTTG ACAACCATAG ACCACTGTTA TCAAAACTTT CTTTTCTGGA ATGTAATCAA TGTTTCTTCT AGGTTCTAAAAATTGTGATC AGACCATAAT GTTACATTAT TATCAACAAT AGTGATTGAT AGAGTGTTAT CAGTCATAAC TAAATAAAGCTTGCAAGTGA GGGAGTCATT TCATTGGCGT TTGAGTCAGC AAAGAAGTCA AG AGCTGCCAGC CAGAGAGGGAGTCATTTCAT TGGCGTTTGA GTCAGCAAAG AAGTCAAGATGGCCAAAGTT CCAGACATGT TTGAAGACCTGAAGAACTGT TACAGTGAAA ATGAAGAAGA CAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGAAATCCTTCTATCATG TAAGCTATGG CCCACTCCAT GAAGGCTGCA TGGATCAATC TGTGTCTCTG AGTATCTCTG AAACCTCTAAAACATCCAAG CTTACCTTCA AGGAGAGCAT GGTGGTAGTA GCAACCAACG GGAAGGTTCT GAAGAAGAGACGGTTGAGTT TAAGCCAATC CATCACTGAT GATGACCTGG AGGCCATCGC CAATGACTCA GAGGAAGAAATCATCAAGCC TAGGTCATCA CCTTTTAGCT TCCTGAGCAA TGTGAAATAC AACTTTATGA GGATCATCAA ATACGAATTCATCCTGAATG ACGCCCTCAA TCAAAGTATA ATTCGAGCCA ATGATCAGTA CCTCACGGCT GCTGCATTACATAATCTGGA TGAAGCAGTG AAATTTGACA TGGGTGCTTA TAAGTCATCA AAGGATGATG CTAAAATTACCGTGATTCTA AGAATCTCAA AAACTCAATT GTATGTGACT GCCCAAGATG AAGACCAACC AGTGCTGCTGAAGGAGATGC CTGAGATACC CAAAACCATC ACAGGTAGTG AGACCAACCT CCTCTTCTTC TGGGAAACTCACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAA CTTGTTTATT GCCACAAAGC AAGACTACTG GGTGTGCTTGGCAGGGGGGC CACCCTCTAT CACTGACTTT CAGATACTGG AAAACCAGGC GTAGGTCTGG AGTCTCACTTGTCTCACTTG TGCAGTGTTG ACAGTTCATA TGTACCATGT ACATGAAGAA GCTAAATCCT TTACTGTTAG TCATTTGCTGAGCATGTACT GAGCCTTGTA ATTCTAAATG AATGTTTACA CTCTTTGTAA GAGTGGAACC AACACTAACA TATAATGTTGTTATTTAAAG AACACCCTAT ATTTTGCATA GTACCAATCA TTTTAATTAT TATTCTTCAT AACAATTTTA GGAGGACCAGAGCTACTGAC TATGGCTACC AAAAAGACTC TACCCATATT ACAGATGGGC AAATTAAGGC ATAAGAAAACTAAGAAATAT GCACAATAGC AGTCGAAACA AGAAGCCACA GACCTAGGAT TTCATGATTT CATTTCAACTGTTTGCCTTC TGCTTTTAAG TTGCTGATGA ACTCTTAATC AAATAGCATA AGTTTCTGGG ACCTCAGTTT TATCATTTTCAAAATGGAGG GAATAATACC TAAGCCTTCC TGCCGCAACA GTTTTTTATG CTAATCAGGG AGGTCATTTTGGTAAAATAC TTCTCGAAGC CGAGCCTCAA GATGAAGGCA AAGCACGAAA TGTTATTTTT TAATTATTAT TTATATATGTATTTATAAAT ATATTTAAGA TAATTATAAT ATACTATATT TATGGGAACC CCTTCATCCT CTGAGTGTGA CCAGGCATCCTCCACAATAG CAGACAGTGT TTTCTGGGAT AAGTAAGTTT GATTTCATTA ATACAGGGCA TTTTGGTCCA AGTTGTGCTTATCCCATAGC CAGGAAACTC TGCATTCTAG TACTTGGGAG ACCTGTAATC ATATAATAAA TGTACATTAA TTACCTTGAGCCAGTAATTG GTCCGATCTT TGACTCTTTT GCCATTAAAC TTACCTGGGC ATTCTTGTTT CATTCAATTC CACCTGCAATCAAGTCCTACAAGCTAAAAT TAGATGAACT CAACTTTGAC AACCATGAGA CCACTGTTAT CAAAACTTTC TTTTCTGGAATGTAATCAAT GTTTCTTCTA GGTTCTAAAA ATTGTGATCA GACCATAATG TTACATTATT ATCAACAATA GTGATTGATAGAGTGTTATC AGTCATAACT AAATAAAGCT TGCAACAAAA TTCTCTG GCTCAGGGCA CATGCCTCCC CTCCCCAGGCCGCGGCCCAG CTGACCCTCG GGGCTCCCCC GGCAGCGGAC AGGGAAGGGT TAAAGGCCCC CGGCTCCCTGCCCCCTGCCC TGGGGAACCC CTGGCCCTGT GGGGACATGA ACTGTGTTTG CCGCCTGGTC CTGGTCGTGC TGAGCCTGTGGCCAGATACA GCTGTCGCCC CTGGGCCACC ACCTGGCCCC CCTCGAGTTT CCCCAGACCC TCGGGCCGAGCTGGACAGCA CCGTGCTCCT GACCCGCTCT CTCCTGGCGG ACACGCGGCA GCTGGCTGCA CAGCTGAGGGACAAATTCCC AGCTGACGGG GACCACAACC TGGATTCCCT GCCCACCCTG GCCATGAGTG CGGGGGCACTGGGAGCTCTA CAGCTCCCAG GTGTGCTGAC AAGGCTGCGA GCGGACCTAC TGTCCTACCT GCGGCACGTGCAGTGGCTGC GCCGGGCAGG TGGCTCTTCC CTGAAGACCC TGGAGCCCGA GCTGGGCACC CTGCAGGCCCGACTGGACCG GCTGCTGCGC CGGCTGCAGC TCCTGATGTC CCGCCTGGCC CTGCCCCAGC CACCCCCGGACCCGCCGGCG CCCCCGCTGG CGCCCCCCTC CTCAGCCTGG GGGGGCATCA GGGCCGCCCA CGCCATCCTGGGGGGGCTGC ACCTGACACT TGACTGGGCC GTGAGGGGAC TGCTGCTGCT GAAGACTCGG CTGTGACCCGGGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTA TTTATTTATT TATTTCAGTA CTGGGGGCGAAACAGCCAGG TGATCCCCCC GCCATTATCT CCCCCTAGTT AGAGACAGTC CTTCCGTGAG GCCTGGGGGACATCTGTGCC TTATTTATAC TTATTTATTT CAGGAGCAGG GGTGGGAGGC AGGTGGACTC CTGGGTCCCCGAGGAGGAGG GGACTGGGGT CCCGGATTCT TGGGTCTCCA AGAAGTCTGT CCACAGACTT CTGCCCTGGCTCTTCCCCAT CTAGGCCTGG GCAGGAACAT ATATTATTTA TTTAAGCAAT TACTTTTCAT GTTGGGGTGG GGACGGAGGGGAAAGGGAAG CCTGGGTTTT TGTACAAAAA TGTGAGAAAC CTTTGTGAGA CAGAGAACAG GGAATTAAATGTGTCATACA TATCC CAGCTGCGGC ATCCTCTGTC TCAGAGTCTT GGTGTCTCTG TTCCTTTCCC CTCGGGGTCTCCCTGGGTCT CCCCAAGTCC CTCCTGCTGT CTTCCTCCCG CTCTCTGATC TCTGACTCCC AGAACCTCTC CCTCTGTCTCCAGGGCTGCC CCTCTGATCC TCTTTGCTTC TCTGGTGTGT CTCTCTGGCT GCCTCCATCT CTGTGGATCT CCGTCTCCCTGTCTCTGTCT CAGTCTGTCC TTCACTCTGT GTGTGTGTGT GTCTCTCTCT CTCTCTCTCC TTCCCTTCCA CTCCCTCTTCCTCCTGCCTC CACCTCTCCA GGCCCCTGTCTTGTCCCTCC GTCCGGCCTT TCTCTGCCTT TCCGTCCTCC TGCCTCCCCATCTCTCTCTG CTAGTCCTGT CCAGCCGGAC CCCCACCCAC AGTCGGGCCC CAGCGCTTGA GCCTGAGTGT CTGCTCCGGCCCGTGGAGGT GGAGGGAGGG GACGCCAATG ACCTCACCAG CCCCTCTCCG ACCACCCCCC CCTTTCCCTT TTCAACTTTTCCAACTTTTC CTTCCGTGCC CTCCTCCGAG CGCGGCGGCG TGAGCCCTGC AAGGCAGCCG CTCCGTCTGAATGGAAAAGG CAGGCAGGGA GGGTGAGTCA GGATGTGTCA GGCCGGCCCT CCCCTGCCGC CTGCCCCCCGCCCGCCCGCC CCAGGCCCCC TATATAACCC CCCAGGCGTC CACACTCCCT CACTGCCGCG GGCCCTGCTGCTCAGGGCAC ATGCCTCCCC TCCCCAGCCG CGGGCCCAGC TGACCCTCGG GGCTCCCCCG GCAGCGGACAGGGAAGGGTT AAAGGCCCCC GGCTCCCTGC CCCCTGCCCT GGGGAACCCC TGGCCCTGTG GGGACATGAACTGTAAGTTG GTTCATGGGG AGGGTGGAGG GGACAGGGAG GCAGGGAGGA GAGGGACCCA CGGCGGGGGTGGGAGCAGAC CCCGCTGAGT CGCACAGAGA GGGACCCGGA GACAGGCAGC CGGGGAGGAG AGCAGCTTCGGAGACAGGAG GCGGCGGAGG AGATGGGCAG AGAGAGACAC AGACAGGAGC GGATGGAGGC AGCCAATCAGAGGCGCCGCA GGAGGGACGG GCCAGACAGG GCCCGAGAGG AGCGAGACGC GAGACCGAGC AGGGGCAGGGACGCAGGGAC TGGTGCCGGG AGGGAGGTGA CCCCCATCGA CCCAGGCCCC AGGGAGCCCG CGGGGACCGGGAGACTCCCT GGGATTCCGG CAGAGAGGCT CCGGAGGGAA ACTGAGGCAG GGTCCGCGGA GAGCGGAGCAAGCCAGGGAG TAGCGACCCC AGCCGGGGGG AGGAGAGAGA CTGGGCGCCG GGGGAAAGCG GGGAGAGCCGGGCAGATGCG GCCGACGGAG GCGCGGACAG ACCGACGGCT GGCGGGCCCG GGGGGCGGGC TGGGGGTGTGCGAGGCGCGG GCGGCCGGGG AGCGCTGATT GGCTGGCGGG TGGCCGGGTG GGCGGGGCGG CCGGGGTGGGCTGCGGGGAG CGAGCTCCGG ACCCCCGCGC CCCCGGCGCC CCCCGCGCCC CCCGCCGCCA GCTCTCCCGCTCCCGGCGCC CGGCCGGGCC ATGGCTCTGC CCCTCTCCGC CCAGGTGCGC TGCGGCCCGG GCTTCTGCCGCCCACCCGGC GGGCTCCTGG GAGGGCGTCT AAGGGGTCTC CCGTGGGAGA GGTCCGTGTC TCCCGGACTCCGTCCTGGGC TTTTGGCTCC TTCCCCTGCT CCCAGCCAGC TCGGGCTCCC GCGGCCCGGG GAGGGGGCAGGTTCTGGCCT GTGCCTCCCC CACCATCCGC GCCCCGGGGC CCAGATTCCG GCGTCCGGGG GCGGACGGGAGACGCCCGGG CCGCGTCTGC TCCGACGGGC GGGGCAGCCA GAGCCAGGGA GGGAGAGGGA AGCCCGCCTGGCCCTGCGAC CTGCCCGCGG GCGTTCCACC CTGGGACTTA AGACCTCCAG CTCCATCCTC CCTAAGGCCGGGAGTCCAGG CCCCAGACCC TCCTCCCCGA GACCCAGGAG TCCAGACCCC AGGCCTTCCT CCCTCAGACCTAGGAGTCCA GGCCCCCAGC CTCTCCTCCC TCAGACCCAG GAGGAGTCCA GACCCCAGTT CCTCCTCCCTCAGACCCGGG AGTCCAGCCC AGGCCCTCCT CTCTCAGACC CGGAGTCCAG CCTGAGCTCT CTGCCTTATCCTGCCCCCAG GTGTTTGCCG CCTGGTCCTG GTCGTGCTGA GCCTGTGGCC AGATACAGCT GTCGCCCCTGGGCCACCACC TGGCCCCCCT CGAGTTTCCC CAGACCCTCG GGCCGAGCTG GACAGCACCG TGCTCCTGACCCGCTCTCTC CTGGCGGACA CGCGGCAGCT GGCTGCACAG CTGGTAGGAG AGACTGGGCT GGGGCCAGCACAGGAGTGAG AGGCAGAGAG GAACGGAGAG GAGTCTGCGG GCAGCCACTT GGAGGGGTTC TGGGCTCTCAGGTGGCAGAG TGAGGGAGGG GAAGAGTTGG GGGCCTGGCG TGGGGGATGG AGGGAGCCCC GAGGCTGGGCAGGGGCCACC TCACAGCTTT TTTCCCTGCC AGAGGGACAA ATTCCCAGCT GACGGGGACC ACAACCTGGATTCCCTGCCC ACCCTGGCCA TGAGTGCAGG GGCACTGGGA GCTCTACAGG TAAGGGCAAG GGAGTGGGCTGGGGACAAGG TGGGAGGCAG GCAGTGAAGG GGGCGGGGAG GATGAGGGGC ACTGGTCGGG TGTTCTCTGATGTCCCGGCT CTATCCCCAG CTCCCAGGTG TGCTGACAAG GCTGCGAGCG GACCTACTGT CCTACCTGCGGCACGTGCAG TGGCTGCGCC GGGCAGGTGG CTCTTCCCTG AAGACCCTGG AGCCCGAGCT GGGCACCCTGCAGGCCCGAC TGGACCGGCT GCTGCGCCGG CTGCAGCTCC TGGTATGTCC TGGCCCCAAG ACCTGACACCCCAGACCCCC ACCCCTGGCC CCAAAATCCT GTGGCCTGAG TCCTTGAAGC CTGAGACCCC AGACCCGAGTGCAACAGCCC CGCTCTGAGA CCCTGACACC CTAACAGCCC GCTCTGAGAC CCTGACACCG TAACAGCCCCGCTCTGAGAC CCTGACCCTA ACAGTCCTGC TCTGAGACCC TGACCCTGCA GTCCCAAGAT CCTGTGGCCCTGAGACCCTG AGGCCCTAGA CCCCCAAATC CTGCCCAGAA ACTTCAAATT CTCACCCAAG ACCCTGAGACTCCATCATCC ATGACCTCAA AGTCCCCAGA TCCCAGCCCC TAAGACCCAA GACCCCATCC TGAAGCCCAAAGCCTTGAGA ATTCAAATCC TCACCTCAAG ACTTGGAGAC CCTGGCCCCA TGACATTGAA AACCATGGACCTGGCCAGGC GTGGTGGCTC ACGCCTGTAA TCCCAGCACT TTGGGAGGCC GAGGCAAGTG GATCACCTGAGGTCGGGAGT TCAAGACCAG CCAGACCAAC ATGGTGAAAC CCTGTCTCTA CTAAAAATAC AAAATTAGCCAGGCGTGGTG GTGCATGCCT GTAATCCCAG CTACTTGGGA GGCTGAGGCA GGAGAATCGC TTGAACCTGGGAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCATTACAC TCCAGCCTGG GCAACAAGAG CAAAACTCCCTCTCTCTCAA AAAAAAAAAA AAAAAAAAAA AAGAAGGAAA AGAAAACCAT GGACCTCCAG ACCCTGAGACCCCAGGCCCC AGCCCTGAGA TCCTGACATC TTAAAGATCC CAGGCCCTAA GATACAAGAC CTTGACCCAAAGCCAGCCTT GGGACCCTGG CTGTACAAAC CCAAGACCTC CAGGACCTAG ACCCCGAGCC CTGAGGCCCTATGTCTCACT CCCAACATCG AAAACCCTGA CACCTCAGAT CCTGAGCCTG CGCCTGTACG ACTCCAAGACCCTCACTTCC AAAGCCAGGC CCAAAGCCCT GAGACCAGAA GACTTCAAAC CCTGGTTCTT GGGCCTAACTCCAAAGACCC TGGATCTCAA ATTCCAACTT CTAGCTCTGA GACTCCAGCC CTCACCCATG AGTTCCTGAA CTTGAACCCAGAGACCCCAT CTCTAAGACT TCAGCCTTGA GATCCAGGGC CTGACCCTAG ACTCGAGCCC ACAGACCTCAGATACTGTCT GTAAAACCCC AGCTCTGGTG GGGAGCAGTG GCTCACTCCT GTAATCCCAA GGCAGGGGAGGCCAAGGCAG AAGGACCTCT TGAGGCCATG AGTTTGAGAC AGCCTGGGCA GCATAGCAAG ACTCTGTTTCTTAATTATTA TTATTATTAT TATTTTTTGG AGACAGAGTC TCGCGCTCTG TTGCCCAGGC TAGAGTGCAA TGGTGCCATTTCGGCTTGCT GGAACCTCCG CCTCCTGGGC TCAAGCGATT CTCCTGCCTC AGCCTCCTGA GTAGCTGGGA CTTCAGGTGCACACTGCCAC ACCCGGATAA TTTTTTTGTA TTTTAGTAGA CACAGGGTTT CACCGTGTTG CCCAGGCTGG TCACAAACTCCTGAGCTCAG GCCATCCGCC CGCCTCGGCC TCCCAAAGCG CTGGGATAAC AGGCGTGACG CCGCGCCTGGCTTCTTAATT GTTCTAACAG CAGCGACAAC AACAAAAACC CAGCTCTGAG ATTCCAGCCC CGGCGACTCTAACAGTCCCA GGCCCGATCC CTCACCTAGA ACCGAGATGC CAGCCCTGAC TCCACAGACT TCACCCCCAACCCCCACACT CAGCTCTGGA AGCCCGTCCT GACTCCAGCC TCCATTTTCG GAACCCCACA GCCTGAAGAGCTCCCGGCCT AAACACTTCA CCCCACGCGC CACAGTCCCC CTGTGAATAT GCAGCCCCGA TTCAGCTGCAGCTCCACAGC ACCCCTGCCC TGCACCCCCG CTGCACCCCC TACCTGTGAC TCACCTCTCT CCTCTCCCCA CAGATGTCCCGCCTGGCCCT GCCCCAGCCA CCCCCGGACC CGCCGGCGCC CCCGCTGGCG CCCCCCTCCT CAGCCTGGGGGGGCATCAGG GCCGCCCACG CCATCCTGGG GGGGCTGCAC CTGACACTTG ACTGGGCCGT GAGGGGACTGCTGCTGCTGA AGACTCGGCT GTGACCCGGG GCCCAAAGCC ACCACCGTCC TTCCAAAGCC AGATCTTATT TATTTATTTATTTCAGTACT GGGGGCGAAA CAGCCAGGTG ATCCCCCCGC CATTATCTCC CCCTAGTTAG AGACAGTCCTTCCGTGAGGC CTGGGGGGCA TCTGTGCCTT ATTTATACTT ATTTATTTCA GGAGCAGGGG TGGGAGGCAG GTGGACTCCTGGGTCCCCGA GGAGGAGGGG ACTGGGGTCC CGGATTCTTG GGTCTCCAAG AAGTCTGTCC ACAGACTTCTGCCCTGGCTC TTCCCCATCT AGGCCTGGGC AGGAACATAT ATTATTTATT TAAGCAATTA CTTTTCATGT TGGGGTGGGGACGGAGGGGA AAGGGAAGCC TGGGTTTTTG TACAAAAATG TGAGAAACCT TTGTGAGACA GAGAACAGGGAATTAAATGT GTCATACATA TCCACTTGAG GGCGATTTGT CTGAGAGCTG GGGCTGGATG CTTGGGTAACTGGGGCAGGG CAGGTGGAGG GGAGACCTCC ATTCAGGTGG AGGTCCCGAG TGGGCGGGGC AGCGACTGGGAGATGGGTCG GTCACCCAGA CAGCTCTGTG GAGGCAGGGT CTGAGCCTTG CCTGGGGCCC CGCACTGCATAGGGCCGTTT GTTTGTTTTT TGAGATGGAG TCTCGCTCTG TTGCCTAGGC TGGAGTGCAG TGAGGCAATC TAAGGTCACTGCAACCTCCA CCTCCCGGGT TCAAGCAATT CTCCTGCCTC AGCCTCCCGA TTAGCTGGGA TCACAGGTGTGCACCACCAT GCCCAGCTAA TTATTTATTT CTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGTTTCGAACTCC TGACCTCAGG TGATCCTCCT GCCTCGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCCACCACACCTG ACCCATAGGT CTTCAATAAA TATTTAATGG AAGGTTCCAC AAGTCACCCT GTGATCAACAGTACCCGTAT GGGACAAAGC TGCAAGGTCA AGATGGTTCA TTATGGCTGT GTTCACCATA GCAAACTGGAAACAATCTAG ATATCCAACA GTGAGGGTTA AGCAACATGG TGCATCTGTG GATAGAACGC CACCCAGCCGCCCGGAGCAG GGACTGTCAT TCAGGGAGGC TAAGGAGAGA GGCTTGCTTG GGATATAGAA AGATATCCTGACATTGGCCA GGCATGGTGG CTCACGCCTG TAATCCTGGC ACTTTGGGAG GACGAAGCGA GTGGATCACTGAAGTCCAAG AGTTTGAGAC CGGCCTGCGA GACATGGCAA AACCCTGTCT CAAAAAAGAA AGAATGATGTCCTGACATGA AACAGCAGGC TACAAAACCA CTGCATGCTG TGATCCCAAT TTTGTGTTTT TCTTTCTATA TATGGATTAAAACAAAAATC CTAAAGGGAA ATACGCCAAA ATGTTGACAA TGACTGTCTC CAGGTCAAAG GAGAGAGGTGGGATTGTGGG TGACTTTTAA TGTGTATGAT TGTCTGTATT TTACAGAATT TCTGCCATGA CTGTGTATTT TGCATGACACATTTTAAAAA TAATAAACAC TATTTTTAGA ATAACAGAAT ATCAGCCTCC TCCTCTCCAA AAATAAGCCCTCAGGAGGGG ACAAAGTTGA CCGCTGATTG AGCCTGTCAG GGCTGTGCAC-3′(SEQ.ID NO：3004)

Human adenosine A₁Receptor nucleic acids and antisense oligonucleotide fragments

5′-ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTGTGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTTCATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCACAGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCAATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGGCGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG CCCCTATGT TTGGCTGGAA CAATCTGAGTGCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGGTCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTACCTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGAAGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTGCACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCACGCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGAATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCAGGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTGGGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGGAGCGCTGCGG CGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCGCGCGGCCCGG AGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGGATGGTGCTTG CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGCTTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGCCTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCTCCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGCTGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGCGGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCATGGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCTTCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGGGAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCAACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAACTCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCTTCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCTGCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTCCACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGGGACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGCTTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTGGGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTAAGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTAGGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTGGACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGGGAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGGGAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTGCCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCCCGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACACTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGACTCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCCTGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTTGGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAG GACCAACCCATGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGGGCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGGGGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCAAGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT AATAAAAAACTGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGAAGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT GTTGTTGTTG TTTGGTGTGTTTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGAGTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGGAGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCTGCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATGCCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGTGCTGGTGATC TGGGCGGTGA AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTGGCGGTGGCTG ATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCACACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACCGCTACCTCCG GGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCATAGCCGGCTGC TGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCGGTGGAGCGGG CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCATCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTGGAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGTACTATGGGAA GGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCTGCCTTTGCACATCCTCAACT GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCACGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATGACCATTTCCG CTGCCAGCCT GCACCTCCCA TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGACCCCGCCTTCC GCTCCCACCG CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCTGAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGGTCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTACGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTCCAGAGCTTCA GGGCTGGGCA GGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGGTGCTTGGGCT TCTGCGGTGA GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCAAGCTTAAGGA GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGTTCTGTAGGAG AGACTGGCCA GA GAT GGA GGG CGG CAT GGC GGG G CGG GTC GCC GG GGC GGG CBC BGG CGGC GGG CBC GC GGC CTG G GGB GGG CGG C GBT GGB GGG GG CTG GGC GC GGC CTG GAA AGC TGA GAT GGAGGG CGG CAT GGC GGG CAC AGG CTG GGC ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGTGCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTGCGGGATGCCA CCTTCTGCTT CATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCATCCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCTCCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGATGGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTGACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGGAGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGTGTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGAAGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGCCCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCCACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTCCGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGAGGATCTCCCA GAAGAGAGGC CTGATGACTA G ATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCCAGAGCCTCCT CTCCCTCTGT GAGGCTGGCA GGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGAGCTAGCGGCT GCTGAAGGCG TCGAGGTGTG GGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTGCCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGG CGGGAGCCGG AGGACTATGA GCTGCCGCGCGTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGG AGCTCTGTTC CCTGGAACTT TGGGCACTGCCTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTG CCTCGTGCCC CTTGGTGCCC GTCTGCTGATGTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCCCTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCACCTTCTGCTT CATCGTGTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAACATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGCCCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACCCCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGTTTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGATCAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTCTCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGCGACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTGCCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACCTACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGTCACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCAGAAGAGAGGC CTGATGACTA GACCCCGCCT TCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCAGTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCT GCCCCAGCTG GGCTGTTGGC TGGGGGCATGGGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTC CACTAGGAGT TAACTACCCT ACACCTCTGGGCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGG GACCAGGTGT CTAGAGGCAA CAGTGTTCTGAGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGC TTCAGGGCTG GGCAGGTCCT GGGGAGGCTGAGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTG GGCTTCTGCG GTGAGGCAGG GGAGTCTGCTTGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTA AGGAGAGGAG AGCATCTGCT CTGAGACGGATGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTA GGAGAGACTG GCCAGAGGCA GCTAAGGGGCAGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTG GACCCCAGGC CATACCAGGT GCTAGGGTGCCTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGG GAGAGGCAGA AAGGGTAGGT TCAGTAATCATTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGG GAGTGAGCTT GGTGCGGTAG GTGCTGGCCTCAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTG CCCTGAGCTT TCCGGGGAGG AGCCTGGAGTGTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCC CGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTGCTGCTTCTGG GCCTGATGGA GAGGAGAACA CTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAACGGGGTGGAC GAGGGAGTGT CTGTAAGGAC TCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAGGCTGCAGCAG GCAGAGGAGG AGTACCCCCC TGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCCCTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAGGGATCTGGGA TCTGGGGAAG GACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGGTGGGGGAGCC TGGAGCCCCT GTGTGGGAGG GCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGAGGCGGGGGAT CCTGGAGCCC CTGTGTCGGG GGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAACATGAGTGTC AACTCCAGGA CTTGCTTCCA AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGCCCATGTGACT AATAAAAAAC TGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAGTCTTGAAGAG AGACAAAGGA AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGTTTGGGTTGTT GTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTGTTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCGGCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTTGGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTTGGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCATCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGA AGGTGAACCAGGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG ATGTGGCCGT GGGTGCCCTG GTCATCCCCCTCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACCCAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACC GCTACCTCCG GGTCAAGATC CCTCTCCGGTACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCAT AGCCGGCTGC TGGATCCTCT CCTTCGTGGTGGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGG CCTGGGCAGC CAACGGCAGCATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA TCAGCATGGA GTACATGGTC TACTTCAACTTCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTCAACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGTCGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACT GCATCACCCT CTTCTGCCCGTCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTATGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCATTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG CCCACATCCAGTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT GAGCCTGCCC CAGCTGGGCTGTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGG TCCCTCCACT AGGAGTTAACTACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAGAGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCAGGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGAGGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA GAGGAGAGCATCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT TCTGTAGGAG AGACTGGCCA GA -3′(FRAG.NO：__)(SEQ.NO：3005)[2423)]

5′-CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGA AGGAAAATTTAAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT GTTGTTGTTG TTTGGTGTGT TTTTTGTTTTTTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCCAGCCAGCTAC CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGCTGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTGGTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCATCTCAGCTTT CCAGGCCGCC TACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATCTGGGCGGTGA AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTGATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTCATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACC GCTACCTCCGGGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCAT AGCCGGCTGCTGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGGCCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA TCAGCATGGAGTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTG GAGGTCTTCTACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAAGGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACTGCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCGGCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCGCTGCCAGCCT GCACCTCCCA TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCCGCTCCCACCG CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCTGAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGGTCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTACGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTCCAGAGCTTCA GGGCTGGGCA GGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGGTGCTTGGGCT TCTGCGGTGA GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCAAGCTTAAGGA GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGTTCTGTAGGAG AGACTGGCCA GA-3′(FRAG.NO：__)(SEQ.ID NO：2434)

5′-ATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCAGGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTGGGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGGAGCGCTGCGG CGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCGCGCGGCCCGG AGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGGATGGTGCTTG CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGCTTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGCCTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCTCCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGCTGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGCGGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCATGGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCTTCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGGGAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCAACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAACTCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCTTCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCTGCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTCCACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGGGACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGCTTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTGGGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTAAGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTAGGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTGGACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGGGAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGGGAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTGCCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCCCGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACACTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGACTCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCCTGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTTGGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAG GACCAACCCATGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGGGCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGGGGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCAAGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT AATAAAAAACTGTGAACCCT-3′(FRAG.NO：__)(SEQ.ID NO：2433)

5′-ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTGTGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTTCATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCACAGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCAATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGGCGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGTGCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGGTCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTACCTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGAAGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTGCACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCACGCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGAATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G-3′(FRAG.NO：__)(SEQ.ID NO：2432)

5′-CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGA AGGAAAATTTAAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT GTTGTTGTTG TTTGGTGTGT TTTTTGTTTTTTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCCAGCCAGCTAC CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGCTGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTGGTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCATCTCAGCTTT CCAGGCCGCC TACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATCTGGGCGGTGA AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTGATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTCATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACC GCTACCTCCGGGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCATAGCCGGCTGCTGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGGCCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA TCAGCATGGAGTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTG GAGGTCTTCTACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAAGGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACTGCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCGGCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCGCTGCCAGCCT GCACCTCCCA TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCCGCTCCCACCG CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCTGAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGGTCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTACGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTCCAGAGCTTCA GGGCTGGGCA GGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGGTGCTTGGGCT TCTGCGGTGA GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCAAGCTTAAGGA GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGTTCTGTAGGAG AGACTGGCCA GA-3′

(FRAG.NO：__)(SEQ.ID NO：2422)

5′-ATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCAGGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTGGGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGGAGCGCTGCGG CGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCGCGCGGCCCGG AGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGGATGGTGCTTG CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGCTTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGCCTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCTCCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGCTGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGCGGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCATGGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCTTCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGGGAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCAACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAACTCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCTTCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCTGCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTCCACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGGGACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGCTTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTGGGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTAAGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTAGGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTGGACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGGGAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGGGAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTGCCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCCCGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACACTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGACTCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCCTGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTTGGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAG GACCAACCCATGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGGGCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGGGGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCAAGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT AATAAAAAACTGTGAACCCT-3′(FRAG.NO：__) (SEQ.ID NO：2421)

5′-ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTGTGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTTCATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCACAGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCAATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGGCGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG CCCCTATGT TTGGCTGGAA CAATCTGAGTGCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGGTCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTACCTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGAAGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTGCACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCACGCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGAATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G (FRAGNO：__) (SEQ.ID NO：2420)

5′-GAT GGA GGG CGG CAT GGC GGG-3′(FRAG.NO：1657) (SEQ ID NO：2412)

5′-G CGG GTC GCC GG-3′(FRAG.NO：1658) (SEQ ID NO：2413)

5′-GGC GGG CBC BGG C-3′(FRAG.NO：1659) (SEQ ID NO：2414)

5′-GGC GGG CBC-3′(FRAG.NO：1660) (SEQ ID NO：2415)

5′-GC GGC CTG G-3′(FRAG.NO：1661) (SEQ ID NO：2416)

5′-GGB GGG CGG C-3′(FRAG.NO：1662) (SEQ ID NO：2417)

5′-GBT GGB GGG-3′(FRAG.NO：1663) (SEQ ID NO：2418)

5′-GG CTG GGC-3′(FRAG.NO：1664) (SEQ ID NO：2419)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG.1)(SEQ.ID NO：11)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 2)(SEQ.ID NO：12)

5′-GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 3)(SEQ.ID NO：13)

5′-GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 4)(SEQ.ID NO：14)

5′-C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 5)(SEQ.ID NO：15)

5′-CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 6)(SEQ.ID NO：16)

5′-TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 7)(SEQ.ID NO：17)

5′-G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 8)(SEQ.ID NO：18)

5′-GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 9)(SEQ.ID NO：19)

5′-AA AGC TGA GAT GGAGGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 10)(SEQ.ID NO：20)

5′-A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 11)(SEQ.ID NO：21)

5′-AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 12)(SEQ.ID NO：22)

5′-GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 13)(SEQ.ID NO：23)

5′-C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 14)(SEQ.ID NO：24)

5′-TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 15)(SEQ.ID NO：25)

5′-GA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 16)(SEQ.ID NO：26)

5′-A GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 17)(SEQ.ID NO：27)

5′-GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 18)(SEQ.ID NO：28)

5′-AT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 19)(SEQ.ID NO：29)

5′-T GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 20)(SEQ.ID NO：30)

5′-GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 21)(SEQ.ID NO：31)

5′-GA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 22)(SEQ.ID NO：32)

5′-A GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 23)(SEQ.ID NO：33)

5′-GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 24)(SEQ.ID NO：34)

5′-GG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 25)(SEQ.ID NO：35)

5′-G CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 26)(SEQ.ID NO：36)

5′-CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 27)(SEQ.ID NO：37)

5′-GG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 28)(SEQ.ID NO：38)

5′-G CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 29)(SEQ.ID NO：39)

5′-CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 30)(SEQ.ID NO：40)

5′-AT GGC GGG CAC AGG CTG GGC-3′(FRAG 31)(SEQ.ID NO：41)

5′-T GGC GGG CAC AGG CTG GGC-3′(FRAG 32)(SEQ.ID NO：42)

5′-GGC GGG CAC AGG CTG GGC-3′(FRAG 33)(SEQ.ID NO：43)

5′-GC GGG CAC AGG CTG GGC-3′(FRAG 34)(SEQ.ID NO：44)

5′-C GGG CAC AGG CTG GGC-3′(FRAG 35)(SEQ.ID NO：45)

5′-GGG CAC AGG CTG GGC-3′(FRAG 36)(SEQ.ID NO：46)

5′-GG CAC AGG CTG GGC-3′(FRAG 37)(SEQ.ID NO：47)

5′-G CAC AGG CTG GGC-3′(FRAG 38)(SEQ.ID NO：48)

5′-CAC AGG CTG GGC-3′(FRAG 39)(SEQ.ID NO：49)

5′-AC AGG CTG GGC-3′(FRAG 40)(SEQ.ID NO：50)

5′-C AGG CTG GGC-3′(FRAG 41)(SEQ.ID NO：51)

5′-AGG CTG GGC-3′(FRAG 42)(SEQ.ID NO：52)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 43)(SEQ.ID NO：53)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 44)(SEQ.ID NO：54)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 45)(SEQ.ID NO：55)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 46)(SEQ.ID NO：56)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 47)(SEQ.ID NO：57)

5′-GGC GGC CTG GAAAGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 48)(SEQ.ID NO：58)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 49)(SEQ.ID NO：59)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 50)(SEQ.ID NO：60)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 51)(SEQ.ID NO：61)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 52)(SEQ.ID NO：62)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 53)(SEQ.ID NO：63)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 54)(SEQ.ID NO：64)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 55)(SEQ.ID NO：65)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 56)(SEQ.ID NO：66)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′FRAG 57)(SEQ.ID NO：67)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 58)(SEQ.ID NO：68)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 59)(SEQ.ID NO：69)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 60)(SEQ.ID NO：70)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 61)(SEQ.ID NO：71)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 62)(SEQ.ID NO：72)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 63)(SEQ.ID NO：73)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 64)(SEQ.ID NO：74)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 65)(SEQ.ID NO：75)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 66)(SEQ.ID NO：76)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GGG -3′(FRAG 67)(SEQ.ID NO：77)

5′-GGC GGC CTG GAA AGC TGA GAT GGA GG -3′(FRAG 68)(SEQ.ID NO：78)

5′-GGC GGC CTG GAA AGC TGA GAT GGA G -3′(FRAG 69)(SEQ.ID NO：79)

5′-GGC GGC CTG GAA AGC TGA GAT GGA -3′(FRAG 70)(SEQ.ID NO：80)

5′-GGC GGC CTG GAA AGC TGA GAT GG -3′(FRAG 71)(SEQ.ID NO：81)

5′-GGC GGC CTG GAA AGC TGA GAT G -3′(FRAG 72)(SEQ.ID NO：82)

5′-GGC GGC CTG GAA AGC TGA GAT -3′(FRAG 73)(SEQ.ID NO：83)

5′-GGC GGC CTG GAA AGC TGA GA-3′(FRAG 74)(SEQ.ID NO：84)

5′-GGC GGC CTG GAA AGC TGA G-3′(FRAG 75)(SEQ.ID NO：85)

5′-GGC GGC CTG GAA AGC TGA-3′(FRAG 76)(SEQ.ID NO：86)

5′-GGC GGC CTG GAA AGC TG-3′(FRAG 77)(SEQ.ID NO：87)

5′-GGC GGC CTG GAA AGC T-3′(FRAG 78)(SEQ.ID NO：88)

5′-GGC GGC CTG GAA AGC-3′(FRAG 79)(SEQ.ID NO：89)

5′-GGC GGC CTG GAA AG-3′(FRAG 80)(SEQ.ID NO：90)

5′-GGC GGC CTG GAA A-3′(FRAG 81)(SEQ.ID NO：91)

5′-GGC GGC CTG GAA-3′(FRAG 82)(SEQ.ID NO：92)

5′-GGC GGC CTG GA-3′(FRAG 83)(SEQ.ID NO：93)

5′-GGC GGC CTG G-3′(FRAG 84)(SEQ.ID NO：94)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 85)(SEQ.ID NO：95)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 86)(SEQ.ID NO：96)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 87)(SEQ.ID NO：97)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 88)(SEQ.ID NO：98)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′ (FRAG 89)(SEQ.ID NO：99)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 90)(SEQ.ID NO：100)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 91)(SEQ.ID NO：101)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 92)(SEQ.ID NO：102)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 93)(SEQ.ID NO：103)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 94)(SEQ.ID NO：104)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 95)(SEQ.ID NO：105)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 96)(SEQ.ID NO：106)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 97)(SEQ.ID NO：107)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 98)(SEQ.ID NO：108)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 99)(SEQ.ID NO：109)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 100)(SEQ.ID NO：110)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 101)(SEQ.ID NO：111)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 102)(SEQ.ID NO：112)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 103)(SEQ.ID NO：113)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 104)(SEQ.ID NO：114)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 105)(SEQ.ID NO：115)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 106)(SEQ.ID NO：116)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 107)(SEQ.ID NO：117)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 108)(SEQ.ID NO：118)

5′-GC GGC CTG GAA AGC TGA GAT GGA GGG -3′(FRAG 109)(SEQ.ID NO：119)

5′-GC GGC CTG GAA AGC TGA GAT GGA GG -3′(FRAG 110)(SEQ.ID NO：120)

5′-GC GGC CTG GAA AGC TGA GAT GGA G -3′(FRAG 111)(SEQ.ID NO：121)

5′-GC GGC CTG GAA AGC TGA GAT GGA -3′(FRAG 112)(SEQ.ID NO：122)

5′-GC GGC CTG GAA AGC TGA GAT GG -3′(FRAG 113)(SEQ.ID NO：123)

5′-GC GGC CTG GAA AGC TGA GAT G -3′(FRAG 114)(SEQ.ID NO：124)

5′-GC GGC CTG GAA AGC TGA GAT -3′(FRAG 115)(SEQ.ID NO：125)

5′-GC GGC CTG GAA AGC TGA GA-3′(FRAG 116)(SEQ.ID NO：126)

5′-GC GGC CTG GAA AGC TGA G-3′(FRAG 117)(SEQ.ID NO：127)

5′-GC GGC CTG GAA AGC TGA-3′(FRAG 118)(SEQ.ID NO：128)

5′-GC GGC CTG GAA AGC TG-3′(FRAG 119) (SEQ.ID NO：129)

5′-GC GGC CTG GAA AGC T-3′(FRAG 120)(SEQ.ID NO：130)

5′-GC GGC CTG GAA AGC-3′(FRAG 121)(SEQ.ID NO：131)

5′-GC GGC CTG GAA AG-3′(FRAG 122)(SEQ.ID NO：132)

5′-GC GGC CTG GAA A-3′(FRAG 123)(SEQ.ID NO：133)

5′-GC GGC CTG GAA-3′(FRAG 124)(SEQ.ID NO：134)

5′-GC GGC CTG GA-3′(FRAG 125)(SEQ.ID NO：135)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 126)(SEQ.ID NO：136)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 127)(SEQ.ID NO：137)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 128)(SEQ.ID NO：138)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 129)(SEQ.ID NO：139)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 130)(SEQ.ID NO：140)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 131)(SEQ.ID NO：141)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 132)(SEQ.ID NO：142)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 133)(SEQ.ID NO：143)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 134)(SEQ.ID NO：144)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 135)(SEQ.ID NO：145)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 136)(SEQ.ID NO：146)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 137)(SEQ.ID NO：147)

5′-C GGC CTG GAA AGC TGA GATGGA GGG CGG CAT GGC GGG -3′(FRAG 138)(SEQ.ID NO：148)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 139)(SEQ.ID NO：149)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 140)(SEQ.ID NO：150)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 141)(SEQ.ID NO：151)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 142)(SEQ.ID NO：152)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3’(FRA 143)(SEQ.ID NO：153)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 144)(SEQ.ID NO：154)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 145)(SEQ.ID NO：155)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 146)(SEQ.ID NO：156)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 147)(SEQ.ID NO：157)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 148)(SEQ.ID NO：158)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 148)(SEQ.ID NO：159)

5′-C GGC CTG GAA AGC TGA GAT GGA GGG -3′(FRAG 150)(SEQ.ID NO：160)

5′-C GGC CTG GAA AGC TGA GAT GGA GG -3′(FRAG 151)(SEQ.ID NO：161)

5′-C GGC CTG GAA AGC TGA GAT GGA G -3’(FRAG 152)(SEQ.ID NO：162)

5′-C GGC CTG GAA AGC TGA GAT GGA -3′(FRAG 153)(SEQ.ID NO：163)

5′-C GGC CTG GAA AGC TGA GAT GG -3′(FRAG 154)(SEQ.ID NO：164)

5′-C GGC CTG GAA AGC TGA GAT G -3′(FRAG 155)(SEQ.ID NO：165)

5′-C GGC CTG GAA AGC TGA GAT -3′(FRAG 156)(SEQ.ID NO：166)

5′-C GGC CTG GAA AGC TGA GA-3′(FRAG 157)(SEQ.ID NO：167)

5′-C GGC CTG GAA AGC TGA G-3′(FRAG 158)(SEQ.ID NO：168)

5′-C GGC CTG GAA AGC TGA-3′(FRAG 159)(SEQ.ID NO：169)

5′-C GGC CTG GAA AGC TG-3′(FRAG 160)(SEQ.ID NO：170)

5′-C GGC CTG GAA AGC T-3′(FRAG 161)(SEO.ID NO：171)

5′-C GGC CTG GAA AGC-3′(FRAG 162)(SEQ.ID NO：172)

5′-C GGC CTG GAA AG-3′(FRAG 163)(SEQ.ID NO：173)

5′-C GGC CTG GAA A-3′(FRAG 164)(SEQ.ID NO：174)

5′-C GGC CTG GAA-3′(FRAG 165)(SEQ.ID NO：175)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 166)(SEQ.ID NO：176)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 167)(SEQ.ID NO：177)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 168)(SEQ.ID NO：178)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 169)(SEQ.ID NO：179)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 170)(SEQ.ID NO：180)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 171)(SEQ.ID NO：181)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 172)(SEQ.ID NO：182)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 173)(SEQ.ID NO：183)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 174)(SEQ.ID NO：184)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 175)(SEQ.ID NO：185)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 176)(SEQ.ID NO：186)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 177)(SEQ.ID NO：187)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 178)(SEQ.ID NO：188)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 179)(SEQ.ID NO：189)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 180)(SEQ.ID NO：190)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 181)(SEQ.ID NO：191)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 182)(SEQ.ID NO：192)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 183)(SEQ.ID NO：193)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 184)(SEQ.ID NO：194)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 185)(SEQ.ID NO：195)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 186)(SEQ.ID NO：196)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 187)(SEQ.ID NO：197)

5′- GGC CTG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 188)(SEQ.ID NO：198)

5′- GGC CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 189)(SEQ.ID NO：199)

5′- GGC CTG GAA AGC TGA GAT GGA GGG -3′(FRAG 190)(SEQ.ID NO：200)

5′- GGC CTG GAA AGC TGA GAT GGA GG -3′FRAG 191)(SEQ.ID NO：201)

5′- GGC CTG GAA AGC TGA GAT GGA G -3′(FRAG 192)(SEQ.ID NO：202)

5′- GGC CTG GAA AGC TGA GAT GGA -3′(FRAG 193)(SEQ.ID NO：203)

5′- GGC CTG GAA AGC TGA GAT GG -3′(FRAG 194)(SEQ.ID NO：204)

5′- GGC CTG GAA AGC TGA GAT G -3′(FRAG 195)(SEQ.ID NO：205)

5′- GGC CTG GAA AGC TGA GAT -3′(FRAG 196)(SEQ.ID NO：206)

5′- GGC CTG GAA AGC TGA GA-3′(FRAG 197)(SEQ.ID NO：207)

5′- GGC CTG GAA AGC TGA G-3′(FRAG 198)(SEQ.ID NO：208)

5′- GGC CTG GAA AGC TGA-3′ (FRAG 199)(SEQ.ID NO：209)

5′- GGC CTG GAA AGC TG-3′(FRAG 200)(SEQ.ID NO：210)

5′- GGC CTG GAA AGC T-3′(FRAG 201)(SEQ.ID NO：211)

5′- GGC CTG GAA AGC-3′(FRAG 202)(SEQ.ID NO：212)

5′- GGC CTG GAA AG-3′(FRAG 203)(SEQ.ID NO：213)

5′- GGC CTG GAA A-3′(FRAG 204)(SEQ.ID NO：214)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 205)(SEQ.ID NO：215)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 206)(SEQ.ID NO：216)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 207)(SEQ.ID NO：217)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 208)(SEQ.ID NO：218)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 209)(SEQ.ID NO：219)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 210)(SEQ.ID NO：220)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 211)(SEQ.1D NO：221)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 212)(SEQ.ID NO：222)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 213)(SEQ.ID NO：223)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 214)(SEQ.ID NO：224)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 215)(SEQ.ID NO：225)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 216)(SEQ.ID NO：226)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 217)(SEQ.ID NO：227)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 218)(SEQ.ID NO：228)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 219)(SEQ.ID NO：229)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 220)(SEQ.ID NO：230)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 221)(SEQ.ID NO：231)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 222)(SEQ.ID NO：232)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 223)(SEQ.ID NO：233)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 224)(SEQ.ID NO：234)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 225)(SEQ.ID NO：235)

5′- GC CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 226)(SEQ.ID NO：236)

5′- GC CTG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 227)(SEQ.ID NO：237)

5′- GC CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 228)(SEQ.ID NO：238)

5′- GC CTG GAA AGC TGA GAT GGA GGG -3′FRAG 229)(SEQ.ID NO：239)

5′- GC CTG GAA AGC TGA GAT GGA GG -3′FRAG 230)(SEQ.ID NO：240)

5′- GC CTG GAA AGC TGA GAT GGA G -3′(FRAG 231)(SEQ.ID NO：241)

5′- GC CTG GAA AGC TGA GAT GGA -3′(FRAG 232)(SEQ.ID NO：242)

5′- GC CTG GAA AGC TGA GAT GG -3′(FRAG 233)(SEQ.ID NO：243)

5′- GC CTG GAA AGC TGA GAT G -3′(FRAG 234)(SEQ.ID NO：244)

5′- GC CTG GAA AGC TGA GAT -3′(FRAG 235)(SEQ.ID NO：245)

5′- GC CTG GAA AGC TGA GA-3′(FRAG 236)(SEQ.ID NO：246)

5′- GC CTG GAA AGC TGA G-3′(FRAG 237)(SEQ.ID NO：247)

5′- GC CTG GAA AGC TGA-3′(FRAG 238)(SEQ.ID NO：248)

5′- GC CTG GAA AGC TG-3′(FRAG 239)(SEQ.ID NO：249)

5′- GC CTG GAA AGC T-3′(FRAG 240)(SEQ.ID NO：250)

5′- GC CTG GAA AGC-3′(FRAG 241)(SEQ.ID NO：251)

5′- GC CTG GAA AG-3′(FRAG 242)(SEQ.ID NO：252)

5′- C CTG GAA AGC TGA GAT GG A GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 243)(SEQ.ID NO：253)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 244)(SEQ.ID NO：254)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 245)(SEQ.ID NO：255)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 246)(SEQ.ID NO：256)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 247)(SEQ.ID NO：257)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 248)(SEQ.ID NO：258)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 249)(SEQ.ID NO：259)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 250)(SEQ.ID NO：260)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 251)(SEQ.ID NO：261)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 252)(SEQ.ID NO：262)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 253)(SEQ.ID NO：263)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 254)(SEQ.ID NO：264)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 255)(SEQ.ID NO：265)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 256)(SEQ.ID NO：266)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 257)(SEQ.ID NO：267)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 258)(SEQ.ID NO：268)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 259)(SEQ.ID NO：269)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 260)(SEQ.ID NO：270)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 261)(SEQ.ID NO：271)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 262)(SEQ.ID NO：272)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 263)(SEQ.ID NO：273)

5′- C CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 264)(SEQ.ID NO：274)

5′- C CTG GAA AGC TGA GAT GGA GGGCG -3′(FRAG 265)(SEQ.ID NO：275)

5′- C CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 266)(SEQ.ID NO：276)

5′- C CTG GAA AGC TGA GAT GGA GGG -3′(FRAG 267)(SEQ.ID NO：277)

5′- C CTG GAA AGC TGA GAT GGA GG -3′(FRAG 268)(SEQ.ID NO：278)

5′- C CTG GAA AGC TGA GAT GGA G -3′(FRAG 269)(SEQ.ID NO：279)

5′- C CTG GAA AGC TGA GAT GGA -3′(FRAG 270)(SEQ.ID NO：280)

5′- C CTG GAA AGC TGA GAT GG -3′(FRAG 271)(SEQ.ID NO：281)

5′- C CTG GAA AGC TGA GAT G -3′(FRAG 272)(SEQ.ID NO：282)

5′- C CTG GAA AGC TGA GAT -3′(FRAG 273)(SEQ.ID NO：283)

5′- C CTG GAA AGC TGA GA-3′(FRAG 274)(SEQ.ID NO：284)

5′- C CTG GAA AGC TGA G-3′(FRAG 275)(SEQ.ID NO：285)

5′- C CTG GAA AGC TGA-3′(FRAG 276)(SEQ.ID NO：286)

5′- C CTG GAA AGC TG-3′FRAG 277)(SEQ.ID NO：287)

5′- C CTG GAA AGC T-3′FRAG 278)(SEQ.ID NO：288)

5′- C CTG GAA AGC-3′(FRAG 279)(SEQ.ID NO：289)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 280)(SEQ.ID NO：290)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 281)(SEQ.ID NO：291)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 282)(SEQ.ID NO：292)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 283)(SEQ.ID NO：293)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 284)(SEQ.ID NO：294)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 285)(SEQ.ID NO：295)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 286)(SEQ.ID NO：296)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 287)(SEQ.ID NO：297)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 288)(SEQ.ID NO：298)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 289)(SEQ.ID NO：299)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 290)(SEQ.ID NO：300)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 291)(SEQ.ID NO：301)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 292)(SEQ.ID NO：302)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 293)(SEQ.ID NO：303)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 294)(SEQ.ID NO：304)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 295)(SEQ.ID NO：305)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 296)(SEQ.ID NO：306)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 297)(SEQ.ID NO：307)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 298)(SEQ.ID NO：308)

5′- CTG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 299)(SEQ.ID NO：309)

5′- CTG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 300)(SEQ.ID NO：310)

5′- CTG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 301)(SEQ.ID NO：311)

5′- CTG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 302)(SEQ.ID NO：312)

5′- CTG GAA AGC TGA GAT GGA GGG C -3′(FRAG 303)(SEQ.ID NO：313)

5′- CTG GAA AGC TGA GAT GGA GGG -3′(FRAG 304)(SEQ.ID NO：314)

5′- CTG GAA AGC TGA GAT GGA GG -3′(FRAG 305)(SEQ.ID NO：315)

5′- CTG GAA AGC TGA GAT GGA G -3′(FRAG 306)(SEQ.ID NO：316)

5′- CTG GAA AGC TGA GAT GGA -3′(FRAG 307)(SEQ.ID NO：317)

5′- CTG GAA AGC TGA GAT GG -3′(FRAG 308)(SEQ.ID NO：318)

5′- CTG GAA AGC TGA GAT G -3′(FRAG 309)(SEQ.ID NO：319)

5′- CTG GAA AGC TGA GAT -3′(FRAG 310)(SEQ.ID NO：320)

5′- CTG GAA AGC TGA GA-3′(FRAG 311)(SEQ.ID NO：321)

5′- CTG GAA AGC TGA G-3′(FRAG 312)(SEQ.ID NO：322)

5′- CTG GAA AGC TGA-3′(FRAG 313)(SEQ.ID NO：323)

5′- CTG GAA AGC TG-3′(FRAG 314)(SEQ.ID NO：324)

5′- CTG GAA AGC T-3′(FRAG 315)(SEQ.ID NO：325)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 316)(SEQ.ID NO：326)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 317)(SEQ.ID NO：327)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 318)(SEQ.ID NO：328)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 319)(SEQ.ID NO：329)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 320)(SEQ.ID NO：330)

5′- TG GAAAGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 321)(SEQ.ID NO：331)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 322)(SEQ.ID NO：332)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 323)(SEQ.ID NO：333)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 324)(SEQ.ID NO：334)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 325)(SEQ.ID NO：335)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 326)(SEQ.ID NO：336)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 327)(SEQ.ID NO：337)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 328)(SEQ.ID NO：338)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 329)(SEQ.ID NO：339)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 330)(SEQ.ID NO：340)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 331)(SEQ.ID NO：341)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 332)(SEQ.ID NO：342)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 333)(SEQ.ID NO：343)

5′- TG GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 334)(SEQ.ID NO：344)

5′- TG GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 335)(SEQ.ID NO：345)

5′- TG GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 336)(SEQ.ID NO：346)

5′- TG GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 337)(SEQ.ID NO：347)

5′- TG GAA AGC TGA GAT GGA GGG CG -3′(FRAG 338)(SEQ.ID NO：348)

5′- TG GAA AGC TGA GAT GGA GGG C -3′(FRAG 339)(SEQ.ID NO：349)

5′- TG GAA AGC TGA GAT GGA GGG -3′(FRAG 340)(SEQ.ID NO：350)

5′- TG GAA AGC TGA GAT GGA GG -3′FRAG 341)(SEQ.ID NO：351)

5′- TG GAA AGC TGA GAT GGA G -3′FRAG 342)(SEQ.ID NO：352)

5′- TG GAA AGC TGA GAT GGA -3′(FRAG 343)(SEQ.ID NO：353)

5′- TG GAA AGC TGA GAT GG -3′(FRAG 344)(SEQ.ID NO：354)

5′- TG GAA AGC TGA GAT G -3′(FRAG 345)(SEQ.ID NO：355)

5′- TG GAA AGC TGA GAT -3′(FRAG 346)(SEQ.ID NO：356)

5′- TG GAA AGC TGA GA-3′(FRAG 347)(SEQ.ID NO：357)

5′- TG GAA AGC TGA G-3′(FRAG 348)(SEQ.ID NO：358)

5′- TG GAA AGC TGA-3′(FRAG 349)(SEQ.ID NO：359)

5′- TG GAA AGC TG-3′(FRAG 350)(SEQ.ID NO：360)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 351)(SEQ.ID NO：361)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 352)(SEQ.ID NO：362)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 353)(SEQ.ID NO：363)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 354)(SEQ.ID NO：364)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′FRAG 355)(SEQ.ID NO：365)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′FRAG 356)(SEQ.ID NO：366)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 357)(SEQ.ID NO：367)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 358)(SEQ.ID NO：368)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 359)(SEQ.ID NO：369)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 360)(SEQ.ID NO：370)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 361)(SEQ.ID NO：371)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 362)(SEQ.ID NO：372)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 363)(SEQ.ID NO：373)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 364)(SEQ.ID NO：374)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 365)(SEQ.ID NO：375)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 366)(SEQ.ID NO：376)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 367)(SEQ.ID NO：377)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 368)(SEQ.ID NO：378)

5′- G GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 369)(SEQ.ID NO：379)

5′- G GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 370)(SEQ.ID NO：380)

5′- G GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 371)(SEQ.ID NO：381)

5′- G GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 372)(SEQ.ID NO：382)

5′- G GAA AGC TGA GAT GGA GGG CG -3′(FRAG 373)(SEQ.ID NO：383)

5′- G GAA AGC TGA GAT GGA GGG C -3′(FRAG 374)(SEQ.ID NO：384)

5′- G GAA AGC TGA GAT GGA GGG -3′(FRAG 375)(SEQ.ID NO：385)

5′- G GAA AGC TGA GAT GGA GG -3′(FRAG 376)(SEQ.ID NO：386)

5′- G GAA AGC TGA GAT GGA G -3′FRAG 377)(SEQ.ID NO：387)

5′- G GAA AGC TGA GAT GGA -3′(FRAG 378)(SEQ.ID NO：388)

5′- G GAA AGC TGA GAT GG -3′(FRAG 379)(SEQ.ID NO：389)

5′- G GAA AGC TGA GAT G -3′(FRAG 380)(SEQ.ID NO：390)

5′- G GAA AGC TGA GAT -3′(FRAG 381)(SEQ.ID NO：391)

5′- G GAA AGC TGA GA-3′(FRAG 382)(SEQ.ID NO：392)

5′- G GAA AGC TGA G-3′(FRAG 383)(SEQ.ID NO：393)

5′- G GAA AGC TGA-3′(FRAG 384)(SEQ.ID NO：394)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 385)(SEQ.ID NO：395)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 386)(SEQ.ID NO：396)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 387)(SEQ.ID NO：397)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 388)(SEQ.ID NO：398)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 389)(SEQ.ID NO：399)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 390)(SEQ.ID NO：400)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 391)(SEQ.ID NO：401)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 392)(SEQ.ID NO：402)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 393)(SEQ.ID NO：403)

5′- GAA AGC TGA GAT GGAGGG CGG CAT GGC GGG CAC-3′FRAG 394)(SEQ.ID NO：404)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 395)(SEQ.ID NO：405)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 396)(SEQ.ID NO：406)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 397)(SEQ.ID NO：407)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 398)(SEQ.ID NO：408)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 399)(SEQ.ID NO：409)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 400)(SEQ.ID NO：410)

5′- GAA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 401)(SEQ.ID NO：411)

5′- GAA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 402)(SEQ.ID NO：412)

5′- GAA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 403)(SEQ.ID NO：413)

5′- GAA AGC TGA GAT GGA GGG CGG CA-3′(FRAG 404)(SEQ.ID NO：414)

5′- GAA AGC TGA GAT GGA GGG CGG C-3′(FRAG 405)(SEQ.ID NO：415)

5′- GAA AGC TGA GAT GGA GGG CGG -3′(FRAG 406)(SEQ.ID NO：416)

5′- GAA AGC TGA GAT GGA GGG CG -3′(FRAG 407)(SEQ.ID NO：417)

5′- GAA AGC TGA GAT GGA GGG C -3′(FRAG 408)(SEQ.ID NO：418)

5′- GAA AGC TGA GAT GGA GGG -3′(FRAG 409)(SEQ.ID NO：419)

5′- GAA AGC TGA GAT GGA GG -3′(FRAG 410)(SEQ.ID NO：420)

5′- GAA AGC TGA GAT GGA G -3′FRAG 411)(SEQ.ID NO：421)

5′- GAA AGC TGA GAT GGA -3′(FRAG 412)(SEQ.ID NO：422)

5′- GAA AGC TGA GATGG -3′(FRAG 413)(SEQ.ID NO：423)

5′- GAA AGC TGA GAT G -3′(FRAG 414)(SEQ.ID NO：424)

5′- GAA AGC TGA GAT -3′(FRAG 415)(SEQ.ID NO：425)

5′- GAA AGC TGA GA-3′(FRAG 416)(SEQ.ID NO：426)

5′- GAA AGC TGA G-3′(FRAG 417)(SEQ.ID NO 427)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 418)(SEQ.ID NO：428)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 419)(SEQ.ID NO：429)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 420)(SEQ.ID NO：430)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 421)(SEQ.ID NO：431)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 422)(SEQ.ID NO：432)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 423)(SEQ.ID NO：433)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 424)(SEQ.ID NO：434)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 425)(SEQ.ID NO：435)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 426)(SEQ.ID NO：436)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 427)(SEQ.ID NO：437)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 428)(SEQ.ID NO：438)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 429)(SEQ.ID NO：439)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 430)(SEQ.ID NO：440)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 431)(SEQ.ID NO：441)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 432)(SEQ.ID NO：442)

5′- AA AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 433)(SEQ.ID NO：443)

5′- AA AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 434)(SEQ.ID NO：444)

5′- AA AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 435)(SEQ.ID NO：445)

5′- AA AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 436)(SEQ.ID NO：446)

5′- AA AGC TGA. GAT GGA GGG CGG CA-3′(FRAG 437)(SEQ.ID NO：447)

5′- AA AGC TGA GAT GGA GGG CGG C-3′(FRAG 438)(SEQ.ID NO：448)

5′- AA AGC TGA GAT GGA GGG CGG -3′(FRAG 439)(SEQ.ID NO：449)

5′- AA AGC TGA GAT GGA GGG CG -3′(FRAG 440)(SEQ.ID NO：450)

5′- AA AGC TGA GAT GGA GGG C -3′(FRAG 441)(SEQ.ID NO：451)

5′- AA AGC TGA GAT GGA GGG -3′(FRAG 442)(SEQ.ID NO：452)

5′- AA AGC TGA GAT GGA GG -3′(FRAG 443)(SEQ.ID NO：453)

5′- AA AGC TGA GAT GGA G -3′(FRAG 444)(SEQ.ID NO：454)

5′- AA AGC TGA GAT GGA -3′(FRAG 445)(SEQ.ID NO： 455)

5′- AA AGC TGA GAT GG -3′(FRAG 446)(SEQ.ID NO：456)

5′- AA AGC TGA GAT G -3′(FRAG 447)(SEQ.ID NO：457)

5′- AA AGC TGA GAT -3′(FRAG 448)(SEQ.ID NO：458)

5′- AA AGC TGA GA-3′(FRAG 449)(SEQ.ID NO：459)

5′- A AGC TGA GAT GGA GGG CG G CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 450)(SEQ.ID NO：460)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 451)(SEQ.ID NO：461)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 452)(SEQ.ID NO：462)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 453)(SEQ.ID NO：463)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 454)(SEQ.ID NO：464)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 455)(SEQ.ID NO：465)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 456)(SEQ.ID NO：466)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 457)(SEQ.ID NO：467)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 458)(SEQ.ID NO：468)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 459)(SEQ.ID NO：469)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 460)(SEQ.ID NO：470)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 461)(SEQ.ID NO：471)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 462)(SEQ.ID NO：472)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 463)(SEQ.ID NO：473)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 464)(SEQ.ID NO：474)

5′- A AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 465)(SEQ.ID NO：475)

5′- A AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 466)(SEQ.ID NO：476)

5′- A AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 467)(SEQ.ID NO：477)

5′- A AGCTGA GAT GGA GGG CGG CAT -3′(FRAG 468)(SEQ.ID NO：478)

5′- A AGC TGA GAT GGA GGG CGG CA-3′(FRAG 469)(SEQ.ID NO：479)

5′- A AGC TGA GAT GGA GGG CGG C-3′(FRAG 470)(SEQ.ID NO：480)

5′- A AGC TGA GAT GGA GGG CGG -3′(FRAG 471)(SEQ.ID NO：481)

5′- A AGC TGA GAT GGA GGG CG -3′(FRAG 472)(SEQ.ID NO：482)

5′- A AGC TGA GAT GGA GGG C -3′(FRAG 473)(SEQ.1D NO：483)

5′- A AGC TGA GAT GGA GGG -3′(FRAG 474)(SEQ.ID NO：484)

5′- A AGC TGA GAT GGA GG -3′(FRAG 475)(SEQ.ID NO：485)

5′- A AGC TGA GAT GGA G -3′(FRAG 476)(SEQ.ID NO：486)

5′- A AGC TGA GAT GGA -3′(FRAG 477)(SEQ.ID NO：487)

5′- A AGC TGA GAT GG -3′(FRAG 478)(SEQ.ID NO：488)

5′- A AGC TGA GAT G -3′(FRAG 479)(SEQ.ID NO：489)

5′- A AGC TGA GAT -3′(FRAG 480)(SEQ.ID NO：490)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 481)(SEQ.ID NO：491)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 482)(SEQ.ID NO：492)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 483)(SEQ.ID NO：493)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 484)(SEQ.ID NO：494)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 485)(SEQ.ID NO：495)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 486)(SEQ.ID NO：496)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 487)(SEQ.ID NO：497)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 488)(SEQ.ID NO：498)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 489)(SEQ.ID NO：499)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 490)(SEQ.ID NO：500)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 491)(SEQ.ID NO：501)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 492)(SEQ.ID NO：502)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 493)(SEQ.ID NO：503)

5′- AGC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 494)(SEQ.ID NO：504)

5′- AGC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 495)(SEQ.ID NO：505)

5′- AGC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 496)(SEQ.ID NO：506)

5′- AGC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 497)(SEQ.ID NO：507)

5′- AGC TGA GAT GGA GGG CGG CAT G -3′(FRAG 498)(SEQ.ID NO：508)

5′- AGC TGA GAT GGA GGG CGG CAT -3′(FRAG 499)(SEQ.ID NO：509)

5′- AGC TGA GAT GGA GGG CGG CA-3′(FRAG 500)(SEQ.ID NO：510)

5′- AGC TGA GAT GGA GGG CGG C-3′(FRAG 501)(SEQ.ID NO：511)

5′- AGC TGA GAT GGA GGG CGG -3′(FRAG 502)(SEQ.ID NO：512)

5′- AGC TGA GAT GGA GGG CG -3′(FRAG 503)(SEQ.ID NO：513)

5′- AGC TGA GAT GGA GGG C -3′(FRAG 504)(SEQ.ID NO：514)

5′- AGC TGA GAT GGA GGG -3′(FRAG 505)(SEQ.ID NO：515)

5′- AGC TGA GAT GGA GG -3′FRAG 506)(SEQ.ID NO：516)

5′- AGC TGA GAT GGA G -3′(FRAG 507)(SEQ.ID NO：517)

5′- AGC TGA GAT GGA -3′(FRAG 508)(SEQ.ID NO：518)

5′- AGC TGA GAT GG -3′(FRAG 509)(SEQ.ID NO：519)

5′- AGC TGA GAT G -3′(FRAG 510)(SEQ.ID NO：520)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 511)(SEQ.ID NO：521)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 512)(SEQ.ID NO：522)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 513)(SEQ.ID NO：523)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 514)(SEQ.ID NO：524)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 515)(SEQ.ID NO：525)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 516)(SEQ.ID NO：526)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 517)(SEQ.ID NO：527)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 518)(SEQ.ID NO：528)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 519)(SEQ.ID NO：529)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 520)(SEQ.ID NO：530)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 521)(SEQ.ID NO：531)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 522)(SEQ.ID NO：532)

5′- GC TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 523)(SEQ.ID NO：533)

5′- GC TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 524)(SEQ.ID NO：534)

5′- GC TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 525)(SEQ.ID NO：535)

5′- GC TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 526)(SEQ.ID NO：536)

5′- GC TGA GAT GGA GGG CGG CAT GG -3′(FRAG 527)(SEQ.ID NO：537)

5′- GC TGA GAT GGA GGG CGG CAT G -3′(FRAG 528)(SEQ.ID NO：538)

5′- GC TGA GAT GGA GGG CGG CAT -3′(FRAG 529)(SEQ.ID NO：539)

5′- GC TGA GAT GGA GGG CGG CA-3′(FRAG 530)(SEQ.ID NO：540)

5′- GC TGA GAT GGA GGG CGG C-3′(FRAG 531)(SEQ.ID NO：541)

5′- GC TGA GAT GGA GGG CGG -3′(FRAG 532)(SEQ.ID NO：542)

5′- GC TGA GAT GGA GGG CG -3′(FRAG 533)(SEQ.ID NO：543)

5′- GC TGA GAT GGA GGG C -3′(FRAG 534)(SEQ.ID NO：544)

5′- GC TGA GAT GGA GGG -3′(FRAG 535)(SEQ.ID NO：545)

5′- GC TGA GAT GGA GG -3′(FRAG 536)(SEQ.ID NO：546)

5′- GC TGA GAT GGA G -3′(FRAG 537)(SEQ.ID NO：547)

5′- GC TGA GAT GGA -3′(FRAG 538)(SEQ.ID NO：548)

5′- GC TGA GAT GG -3′(FRAG 539)(SEQ.ID NO：549)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 540)(SEQ.ID NO：550)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 541)(SEQ.ID NO：551)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 542)(SEQ.ID NO：552)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 543)(SEQ.ID NO：553)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 544)(SEQ.ID NO：554)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 545)(SEQ.ID NO：555)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 546)(SEQ.ID NO：556)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 547)(SEQ.ID NO：557)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 548)(SEQ.ID NO：558)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 549)(SEQ.ID NO：559)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 550)(SEQ.ID NO：560)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 551)(SEQ.ID NO：561)

5′- C TGA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 552)(SEQ.ID NO：562)

5′- C TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 553)(SEQ.ID NO：563)

5′- C TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 554)(SEQ.ID NO：564)

5′- C TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 555)(SEQ.ID NO：565)

5′- C TGA GAT GGA GGG CGG CAT GG -3′(FRAG 556)(SEQ.ID NO：566)

5′- C TGA GAT GGA GGG CGG CAT G -3′(FRAG 557)(SEQ.ID NO：567)

5′- C TGA GAT GGA GGG CGG CAT -3′(FRAG 558)(SEQ.ID NO：568)

5′- C TGA GAT GGA GGG CGG CA-3′(FRAG 559)(SEQ.ID NO：569)

5′- C TGA GAT GGA GGG CGG C-3′(FRAG 560)(SEQ.ID NO：570)

5′- C TGA GAT GGA GGG CGG -3′(FRAG 561)(SEQ.ID NO：571)

5′- C TGA GAT GGA GGG CG -3′(FRAG 562)(SEQ.ID NO：572)

5′- C TGA GAT GGA GGG C -3′(FRAG 563)(SEQ.ID NO：573)

5′- C TGA GAT GGA GGG -3′(FRAG 564)(SEQ.ID NO：574)

5′- C TGA GAT GGA GG -3′(FRAG 565)(SEQ.ID NO：575)

5′- C TGA GAT GGA G -3′(FRAG 566)(SEQ.ID NO：576)

5′- C TGA GAT GGA -3′(FRAG 567)(SEQ.ID NO：577)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 568)(SEQ.ID NO：578)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 569)(SEQ.ID NO：579)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 570)(SEQ.ID NO：580)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 571)(SEQ.ID NO：581)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 572)(SEQ.ID NO：582)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 573)(SEQ.ID NO：583)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 574)(SEQ.ID NO：584)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 575)(SEQ.ID NO：585)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 576)(SEQ.ID NO：586)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 577)(SEQ.ID NO：87)

5′- TGA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 578)(SEQ.ID NO：588)

5′- TGA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 579)(SEQ.ID NO：589)

5′- TGA GAT GGA GGGCGG CAT GGC GGG -3′(FRAG 580)(SEQ.ID NO：590)

5′- TGA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 581)(SEQ.ID NO：591)

5′- TGA GAT GGA GGG CGG CAT GGC G-3′(FRAG 582)(SEQ.ID NO：592)

5′- TGA GAT GGA GGG CGG CAT GGC -3′(FRAG 583)(SEQ.ID NO：593)

5′- TGA GAT GGA GGG CGG CAT GG -3′(FRAG 584)(SEQ.ID NO：594)

5′- TGA GAT GGA GGG CGG CAT G -3′(FRAG 585)(SEQ.ID NO：595)

5′- TGA GAT GGA GGG CGG CAT -3′(FRAG 586)(SEQ.ID NO：596)

5′- TGA GAT GGA GGG CGG CA-3′(FRAG 587)(SEQ.ID NO：597)

5′- TGA GAT GGA GGG CGG C-3′(FRAG 588)(SEQ.ID NO：598)

5′- TGA GAT GGA GGG CGG -3′(FRAG 589)(SEQ.ID NO：599)

5′- TGA GAT GGA GGG CG -3′(FRAG 590)(SEQ.ID NO：600)

5′- TGA GAT GGA GGG C -3′(FRAG 591)(SEQ.ID NO：601)

5′- TGA GAT GGA GGG -3′(FRAG 592)(SEQ.ID NO：602)

5′- TGA GAT GGA GG -3′(FRAG 593)(SEQ.ID NO：603)

5′- TGA GAT GGA G -3′(FRAG 594)(SEQ.ID NO：604)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 595)(SEQ.ID NO：605)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 596)(SEQ.ID NO：606)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 597)(SEQ.ID NO：607)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 598)(SEQ.ID NO：608)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 599)(SEQ. ID NO：609)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 600)(SEQ.ID NO：610)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 601) (SEQ.ID NO：611)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 602) (SEQ. ID NO： 612)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 603)(SEQ.ID NO：613)

5′- GA GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 604)(SEQ.ID NO：614)

5′- GA GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 605)(SEQ.ID NO：615)

5′- GA GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 606)(SEQ.ID NO：616)

5′- GA GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 607)(SEQ.ID NO：617)

5′- GA GAT GGA GGG CGG CAT GGC GG-3′(FRAG 608)(SEQ.ID NO：618)

5′- GA GAT GGA GGG CGG CAT GGC G-3′(FRAG 609)(SEQ.ID NO：619)

5′- GA GAT GGA GGG CGG CAT GGC -3′(FRAG 610)(SEQ.ID NO：620)

5′- GA GAT GGA GGG CGG CAT GG -3′(FRAG 611)(SEQ.ID NO：621)

5′- GA GAT GGA GGG CGG CAT G -3′(FRAG 612)(SEQ.ID NO：622)

5′- GA GAT GGA GGG CGG CAT -3′(FRAG 613)(SEQ.ID NO：623)

5′- GA GAT GGA GGG CGG CA-3′(FRAG 614)(SEQ.ID NO：624)

5′- GA GAT GGA GGG CGG C-3′(FRAG 615)(SEQ.ID NO：625)

5′- GA GAT GGA GGG CGG -3′(FRAG 616)(SEQ.ID NO：626)

5′- GA GAT GGA GGG CG -3′(FRAG 617)(SEQ.ID NO：627)

5′- GA GAT GGA GGG C -3′(FRAG 618)(SEQ.ID NO：628)

5′- GA GAT GGA GGG -3′(FRAG 619)(SEQ.ID NO：629)

5′- GA GAT GGA GG -3′(FRAG 620)(SEQ.ID NO：630)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 621)(SEQ.ID NO：631)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 622)(SEQ.ID NO：632)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 623)(SEQ.ID NO：633)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 624)(SEQ.ID NO：634)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 625)(SEQ.ID NO：635)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 626)(SEQ.ID NO：636)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 627)(SEQ.ID NO：637)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 628)(SEQ.ID NO：638)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 629)(SEQ.ID NO：639)

5′- A GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 630)(SEQ.ID NO：640)

5′- A GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 631)(SEQ.ID NO：641)

5′- A GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 632)(SEQ.ID NO：642)

5′- A GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 633)(SEQ.ID NO：643)

5′- A GAT GGA GGG CGG CAT GGC GG-3’(FRAG 634)(SEQ.ID NO：644)

5′- A GAT GGA GGG CGG CAT GGC G-3′(FRAG 635)(SEQ.ID NO：645)

5′- A GAT GGA GGG CGG CAT GGC -3′(FRAG 636)(SEQ.ID NO：646)

5′- A GAT GGA GGG CGG CAT GG -3′(FRAG 637)(SEQ.ID NO：647)

5′- A GAT GGA GGG CGG CAT G -3′(FRAG 638)(SEQ.ID NO：648)

5′- A GAT GGA GGG CGG CAT -3′(FRAG 639)(SEQ.ID NO：649)

5′- A GAT GGA GGG CGG CA-3′(FRAG 640)(SEQ.ID NO：650)

5′- A GAT GGA GGG CGG C-3′(FRAG 641)(SEQ.ID NO：651)

5′- A GAT GGA GGG CGG -3′(FRAG 642)(SEQ.ID NO：652)

5′- A GAT GGA GGG CG -3′(FRAG 643)(SEQ.ID NO：653)

5′- A GAT GGA GGG C -3′(FRAG 644)(SEQ.ID NO：654)

5′- A GAT GGA GGG -3′(FRAG 645)(SEQ.ID NO：655)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 646)(SEQ.ID NO：656)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 647)(SEQ.ID NO：657)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 648)(SEQ.ID NO：658)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 6)(SEQ.ID NO：659)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 650)(SEQ.ID NO：660)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 651)(SEQ.ID NO：661)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 652)(SEQ.ID NO：662)

5′- GAT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 653)(SEQ. ID NO：663)

5′- GAT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 654)(SEQ.ID NO：664)

5′- GAT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 655) (SEQ.ID NO：665)

5′- GAT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 656) (SEQ.ID NO：666)

5′- GAT GGA GGG CGG CAT GGC GGG C-3′(FRAG 657) (SEQ.ID NO：667)

5′- GAT GGA GGG CGG CAT GGC GGG -3′(FRAG 658) (SEQ.ID NO：668)

5′- GAT GGA GGG CGG CAT GGC GG-3′(FRAG 659)(SEQ.ID NO：669)

5′- GAT GGA GGG CGG CAT GGC G-3′(FRAG 660)(SEQ.ID NO：670)

5′- GAT GGA GGG CGG CAT GGC -3′(FRAG 661)(SEQ.ID NO：671)

5′- GAT GGA GGG CGG CAT GG -3′(FRAG 662)(SEQ.ID NO：672)

5′- GAT GGA GGG CGG CAT G -3′(FRAG 663)(SEQ.ID NO：673)

5′- GAT GGA GGG CGG CAT -3′(FRAG 664)(SEQ.ID NO：674)

5′- GAT GGA GGG CGG CA-3′(FRAG 665)(SEQ.ID NO：675)

5′- GAT GGA GGG CGG C-3′(FRAG 666)(SEQ.ID NO：676)

5′- GAT GGA GGG CGG -3′(FRAG 667)(SEQ.ID NO：677)

5′- GAT GGA GGG CG -3′(FRAG 668)(SEQ.ID NO：678)

5′- GAT GGA GGG C -3′(FRAG 669)(SEQ.ID NO：679)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 670)(SEQ.ID NO：680)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 671)(SEQ.ID NO：681)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 672)(SEQ.ID NO：682)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 673)(SEQ.ID NO：683)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 674)(SEQ.ID NO：684)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 675)(SEQ.ID NO：685)

5′- AT GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 676)(SEQ.ID NO：686)

5′- AT GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 677)(SEQ.ID NO：687)

5′- AT GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 678)(SEQ.ID NO：688)

5′- AT GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 679)(SEQ.ID NO：689)

5′- AT GGA GGG CGG CAT GGC GGG CA-3′(FRAG 680)(SEQ.ID NO：690)

5′- AT GGA GGG CGG CAT GGC GGG C-3′(FRAG 681)(SEQ.ID NO：691)

5′- AT GGA GGG CGG CAT GGC GGG -3′(FRAG 682)(SEQ.ID NO：692)

5′- AT GGA GGG CGG CAT GGC GG-3′(FRAG 683)(SEQ.ID NO：693)

5′- AT GGA GGG CGG CAT GGC G-3′(FRAG 684)(SEQ.ID NO：694)

5′- AT GGA GGG CGG CAT GGC -3′(FRAG 685)(SEQ.ID NO：695)

5′- AT GGA GGG CGG CAT GG -3′(FRAG 686)(SEQ.ID NO：696)

5′- AT GGA GGG CGG CAT G -3′(FRAG 687)(SEQ.ID NO：697)

5′- AT GGA GGG CGG CAT -3′(FRAG 688)(SEQ.ID NO：698)

5′- AT GGA GGG CGG CA-3′(FRAG 689)(SEQ.ID NO：699)

5′- AT GGA GGG CGG C-3′(FRAG 690)(SEQ.ID NO：700)

5′- AT GGA GGG CGG -3′(FRAG 691)(SEQ.ID NO：701)

5′- AT GGA GGG CG -3′(FRAG 692)(SEQ.ID NO：702)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 693)(SEQ.ID NO：703)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 694)(SEQ.ID NO：704)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 695)(SEQ.ID NO：705)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 696)(SEQ.ID NO：706)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 697)(SEQ.ID NO：707)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 698)(SEQ.ID NO：708)

5′- T GGA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 699)(SEQ.ID NO：709)

5′- T GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 700)(SEQ.ID NO：710)

5′- T GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 701)(SEQ.ID NO：711)

5′- T GGA GGG CGG CAT GGC GGG CAC-3′(FRAG 702)(SEQ.ID NO：712)

5′- T GGA GGG CGG CAT GGC GGG CA-3′(FRAG 703)(SEQ.ID NO：713)

5′- T GGA GGG CGG CAT GGC GGG C-3′(FRAG 704)(SEQ.ID NO：714)

5′- T GGA GGG CGG CAT GGC GGG -3′(FRAG 705)(SEQ.ID NO：715)

5′- T GGA GGG CGG CAT GGC GG-3′(FRAG 706)(SEQ.ID NO：716)

5′- T GGA GGG CGG CAT GGC G-3′(FRAG 707)(SEQ.ID NO：717)

5′- T GGA GGG CGG CAT GGC -3′(FRAG 708)(SEQ.ID NO：718)

5′- T GGA GGG CGG CAT GG -3′(FRAG 709)(SEQ.ID NO：719)

5′- T GGA GGG CGG CAT G -3′(FRAG 710)(SEQ.ID NO：720)

5′- T GGA GGG CGG CAT -3′(FRAG 711)(SEQ.ID NO：721)

5′- T GGA GGG CGG CA-3′(FRAG 712)(SEQ.ID NO：722)

5′- T GGA GGG CGG C-3′(FRAG 713)(SEQ.ID NO：723)

5′- T GGA GGG CGG -3′(FRAG 714)(SEQ.ID NO：724)

5′- GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 715)(SEQ.ID NO：725)

5′- GGA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 716)(SEQ.ID NO：726)

5′- GGA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 717)(SEQ.ID NO：727)

5′- GGA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 718)(SEQ.ID NO：728)

5′- GGA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 719)(SEQ. ID NO：729)

5′- GGA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 720)(SEQ.ID NO：730)

5′- GGA GGG CGG CAT GGC GGG CAC AGG -3′FRAG 721)(SEQ.ID NO：731)

5′- GGA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 722)(SEQ.ID NO：732)

5′- GGA GGG CGG CAT GGC GGG CAC A-3′(FRAG 723)(SEQ.ID NO：733)

5′- GGA GGG CGG CAT GGC GGG CAC-3′FRAG 724)(SEQ.ID NO：734)

5′- GGA GGG CGG CAT GGC GGG CA-3′(FRAG 725)(SEQ. ID NO：735)

5′- GGA GGG CGG CAT GGC GGG C-3′(FRAG 726)(SEQ. ID NO：736)

5′- GGA GGG CGG CAT GGC GGG -3′(FRAG 727)(SEQ.ID NO：737)

5′- GGA GGG CGG CAT GGC GG-3′(FRAG 728) (SEQ.ID NO：738)

5′- GGA GGG CGG CAT GGC G-3′(FRAG 729)(SEQ.ID NO：739)

5′- GGA GGG CGG CAT GGC -3′(FRAG 730)(SEQ.ID NO：740)

5′- GGA GGG CGG CAT GG -3′(FRAG 731)(SEQ.ID NO：741)

5′- GGA GGG CGG CAT G -3′(FRAG 732)(SEQ.ID NO：742)

5′- GGA GGG CGG CAT -3′(FRAG 733)(SEQ.ID NO：743)

5′- GGA GGG CGG CA-3′(FRAG 734)(SEQ.ID NO：744)

5′- GGA GGG CGG C-3′(FRAG 735)(SEQ.ID NO：745)

5′- GA GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 736)(SEQ.ID NO：746)

5′- GA GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 737)(SEQ.ID NO：747)

5′- GA GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 738)(SEQ.ID NO：748)

5′- GA GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 739)(SEQ.ID NO：749)

5′- GA GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 740)(SEQ.ID NO：750)

5′- GA GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 741)(SEQ.ID NO：751)

5′- GA GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 742)(SEQ.ID NO：752)

5′- GA GGG CGG CAT GGC GGG CAC AG-3′(FRAG 743)(SEQ.ID NO：753)

5′- GA GGG CGG CAT GGC GGG CAC A-3′(FRAG 744)(SEQ.ID NO：754)

5′- GA GGG CGG CAT GGC GGG CAC-3′(FRAG 745)(SEQ.ID NO：755)

5′- GA GGG CGG CAT GGC GGG CA-3′(FRAG 746)(SEQ.ID NO：756)

5′- GA GGG CGG CAT GGC GGG C-3′FRAG 747)(SEQ.ID NO：757)

5′- GA GGG CGG CAT GGC GGG -3′(FRAG 748)(SEQ.ID NO：758)

5′- GA GGG CGG CAT GGC GG-3′(FRAG 749)(SEQ.ID NO：759)

5′- GA GGG CGG CAT GGC G-3′(FRAG 750)(SEQ.ID NO：760)

5′- GA GGG CGG CAT GGC -3′(FRAG 751)(SEQ.ID NO：761)

5′- GA GGG CGG CAT GG -3′(FRAG 752)(SEQ.ID NO：762)

5′- GA GGG CGG CAT G -3′(FRAG 753)(SEQ.ID NO：763)

5′- GA GGG CGG CAT -3′(FRAG 754)(SEQ.ID NO：764)

5′- GA GGG CGG CA-3′(FRAG 755)(SEQ.ID NO：765)

5′- A GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 756)(SEQ.ID NO：766)

5′- A GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 757)(SEQ.ID NO：767)

5′- A GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 758)(SEQ.ID NO：768)

5′- A GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 759)(SEQ.ID NO：769)

5′- A GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 760)(SEQ.ID NO：770)

5′- A GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 761)(SEQ.ID NO：771)

5′- A GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 762)(SEQ.ID NO：772)

5′- A GGG CGG CAT GGC GGG CAC AG-3′(FRAG 763)(SEQ.ID NO：773)

5′- A GGG CGG CAT GGC GGG CAC A-3′(FRAG 764)(SEQ.ID NO：774)

5′- A GGG CGG CAT GGC GGG CAC-3′(FRAG 765)(SEQ.ID NO：775)

5′- A GGG CGG CAT GGC GGG CA-3′(FRAG 766)(SEQ.ID NO：776)

5′- A GGG CGG CAT GGC GGG C-3′(FRAG 767)(SEQ.ID NO：777)

5′- A GGG CGG CAT GGC GGG -3′(FRAG 768)(SEQ.ID NO：778)

5′- A GGG CGG CAT GGC GG-3′(FRAG 769)(SEQ.ID NO：779)

5′- A GGG CGG CAT GGC G-3′(FRAG 770)(SEQ.ID NO：780)

5′- A GGG CGG CAT GGC -3′(FRAG 771)(SEQ.ID NO：781)

5′- A GGG CGG CAT GG -3′(FRAG 772)(SEQ.ID NO：782)

5′- A GGG CGG CAT G -3′(FRAG 773)(SEQ.ID NO：783)

5′- A GGG CGG CAT -3′(FRAG 774)(SEQ.ID NO：784)

5′- GGG CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 775)(SEQ.ID NO：785)

5′- GGG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 776)(SEQ.ID NO：786)

5′- GGG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 777)(SEQ.ID NO：787)

5′- GGG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 778)(SEQ.ID NO：788)

5′- GGG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 779)(SEQ.ID NO：789)

5′- GGG CGG CAT GGC GGG CAC AGG C-3′(FRAG 780)(SEQ.ID NO：790)

5′- GGG CGG CAT GGC GGG CAC AGG -3′(FRAG 781)(SEQ.ID NO：791)

5′- GGG CGG CAT GGC GGG CAC AG-3′(FRAG 782)(SEQ.ID NO：792)

5′- GGG CGG CAT GGC GGG CAC A-3′(FRAG 783 (SEQ.ID NO：793)

5′- GGG CGG CAT GGC GGG CAC-3′(FRAG 784)(SEQ.ID NO：794)

5′- GGG CGG CAT GGC GGG CA-3′(FRAG 785)(SEQ.ID NO：795)

5′- GGG CGG CAT GGC GGG C-3′(FRAG 786)(SEQ.ID NO：796)

5′- GGG CGG CAT GGC GGG -3′(FRAG 787)(SEQ.ID NO：797)

5′- GGG CGG CAT GGC GG-3′(FRAG 788)(SEQ.ID NO：798)

5′- GGG CGG CAT GGC G-3′(FRAG 789)(SEQ.ID NO：799)

5′- GGG CGG CAT GGC -3′(FRAG 790)(SEQ.ID NO：800)

5′- GGG CGG CAT GG -3′(FRAG 791)(SEQ.ID NO：801)

5′- GGG CGG CAT G -3′(FRAG 792)(SEQ.ID NO：802)

5′- GG CGG CAT GGC GGG CAC AG G CTG GGC-3′(FRAG 793)(SEQ.ID NO：803)

5′- GG CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 794)(SEQ. ID NO：804)

5′- GG CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 795)(SEQ.ID NO：805)

5′- GG CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 796)(SEQ.ID NO：806)

5′- GG CGG CAT GGC GGG CAC AGG CT-3′(FRAG 797)(SEQ.ID NO：807)

5′- GG CGG CAT GGC GGG CAC AGG C-3′(FRAG 798)(SEQ.ID NO：808)

5′- GG CGG CAT GGC GGG CAC AGG -3′(FRAG 799)(SEQ.ID NO：809)

5′- GG CGG CAT GGC GGG CAC AG-3′(FRAG 800)(SEQ.ID NO：810)

5′- GG CGG CAT GGC GGG CAC A-3′(FRAG 801)(SEQ.ID NO：811)

5′- GG CGG CAT GGC GGG CAC-3′(FRAG 802)(SEQ.ID NO： 812)

5′- GG CGG CAT GGC GGG CA-3′(FRAG 803)(SEQ.ID NO：813)

5′- GG CGG CAT GGC GGG C-3′(FRAG 804)(SEQ.ID NO：814)

5′- GG CGG CAT GGC GGG -3′(FRAG 805)(SEQ.ID NO：815)

5′- GG CGG CAT GGC GG-3′(FRAG 806)(SEQ.ID NO：816)

5′- GG CGG CAT GGC G-3′(FRAG 807)(SEQ.ID NO：817)

5′- GG CGG CAT GGC -3′(FRAG 808)(SEQ.ID NO：818)

5′- GG CGG CAT GG -3′(FRAG 809)(SEQ.ID NO：819)

5′- G CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 810)(SEQ.ID NO：820)

5′- G CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 811)(SEQ.ID NO：821)

5′- G CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 812)(SEQ.ID NO：822)

5′- G CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 813)(SEQ.ID NO：823)

5′- G CGG CAT GGC GGG CAC AGG CT-3′(FRAG 814)(SEQ.ID NO：824)

5′- G CGG CAT GGC GGG CAC AGG C-3′(FRAG 815)(SEQ.ID NO：825)

5′- G CGG CAT GGC GGG CAC AGG -3′(FRAG 816)(SEQ.ID NO：826)

5′- G CGG CAT GGC GGG CAC AG-3′(FRAG 817)(SEQ.ID NO：827)

5′- G CGG CAT GGC GGG CAC A-3′(FRAG 818)(SEQ.ID NO：828)

5′- G CGG CAT GGC GGG CAC-3′(FRAG 819)(SEQ.ID NO：829)

5′- G CGG CAT GGC GGG CA-3′(FRAG 820)(SEQ.ID NO：830)

5′- G CGG CAT GGC GGG C-3′(FRAG 821)(SEQ.ID NO：831)

5′- G CGG CAT GGC GGG -3′(FRAG 822)(SEQ.ID NO：832)

5′- G CGG CAT GGC GG-3′(FRAG 823)(SEQ.ID NO：833)

5′- G CGG CAT GGC G-3′(FRAG 824)(SEQ.ID NO：834)

5′- G CGG CAT GGC -3′(FRAG 825)(SEQ.ID NO：835)

5′- CGG CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 826)(SEQ.ID NO：836)

5′- CGG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 827)(SEQ.ID NO：837)

5′- CGG CAT GGC GGG CAC AGG CTG G-3′(FRAG 828)(SEQ.ID NO：838)

5′- CGG CAT GGC GGG CAC AGG CTG -3′(FRAG 829)(SEQ.ID NO：839)

5′- CGG CAT GGC GGG CAC AGG CT-3′(FRAG 830)(SEQ.ID NO：840)

5′- CGG CAT GGC GGG CAC AGG C-3′(FRAG 831)(SEQ.ID NO：841)

5′- CGG CAT GGC GGG CAC AGG -3′(FRAG 832)(SEQ.ID NO：842)

5′- CGG CAT GGC GGG CAC AG-3′(FRAG 833)(SEQ.ID NO：843)

5′- CGG CAT GGC GGG CAC A-3′(FRAG 834)(SEQ.ID NO：844)

5′- CGG CAT GGC GGG CAC-3′(FRAG 835)(SEQ.ID NO：845)

5′- CGG CAT GGC GGG CA-3′(FRAG 836)(SEQ.ID NO：846)

5′- CGG CAT GGC GGG C-3′(FRAG 837)(SEQ.ID NO：847)

5′- CGG CAT GGC GGG -3′(FRAG 838)(SEQ.ID NO：848)

5′- CGG CAT GGC GG-3′(FRAG 839)(SEQ.ID NO：849)

5′- CGG CAT GGC G-3′(FRAG 840)(SEQ.ID NO：850)

5′- GG CAT GGC GGG CAC AGG C TG GGC-3′(FRAG 841)(SEQ.ID NO：851)

5′- GG CAT GGC GGG CAC AGG CTG GG-3′(FRAG 842)(SEQ.ID NO：852)

5′- GG CAT GGC GGG CAC AGG CTG G-3′(FRAG 843)(SEQ.ID NO：853)

5′- GG CAT GGC GGG CAC AGG CTG -3′(FRAG 844)(SEQ.ID NO：854)

5′- GG CAT GGC GGG CAC AGG CT-3′(FRAG 845)(SEQ.ID NO：855)

5′- GG CAT GGC GGG CAC AGG C-3′(FRAG 846)(SEQ.ID NO：856)

5′- GG CAT GGC GGG CAC AGG -3′(FRAG 847)(SEQ.ID NO：857)

5′- GG CAT GGC GGG CAC AG-3′(FRAG 848)(SEQ.ID NO：858)

5′- GG CAT GGC GGG CAC A-3′(FRAG 849)(SEQ.ID NO：859)

5′- GG CAT GGC GGG CAC-3′(FRAG 850)(SEQ.ID NO：860)

5′- GG CAT GGC GGG CA-3′FRAG 851)(SEQ.ID NO：861)

5′- GG CAT GGC GGG C-3′(FRAG 852)(SEQ.ID NO：862)

5′- GG CAT GGC GGG -3′(FRAG 853)(SEQ.ID NO：863)

5′- GG CAT GGC GG-3′(FRAG 854)(SEQ.ID NO：864)

5′- G CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 855)(SEQ.ID NO：865)

5′- G CAT GGC GGG CAC AGG CTG GG-3′(FRAG 856)(SEQ.ID NO：866)

5′- G CAT GGC GGG CAC AGG CTG G-3′(FRAG 857)(SEQ.ID NO：867)

5′- G CAT GGC GGG CAC AGG CTG -3′(FRAG 858) (SEQ. ID NO：868)

5′- G CAT GGC GGG CAC AGG CT-3′(FRAG 859)(SEQ.ID NO：869)

5′- G CAT GGC GGG CAC AGG C-3′(FRAG 860)(SEQ.ID NO：870)

5′- G CAT GGC GGG CAC AGG -3′(FRAG 861)(SEQ.ID NO：871)

5′- G CAT GGC GGG CAC AG-3′(FRAG 862)(SEQ.ID NO：872)

5′- G CAT GGC GGG CAC A-3′(FRAG 863)(SEQ.ID NO：873)

5′- G CAT GGC GGG CAC-3′(FRAG 864)(SEQ.ID NO：874)

5′- G CAT GGC GGG CA-3′(FRAG 865)(SEQ.ID NO：875)

5′- G CAT GGC GGG C-3′(FRAG 866)(SEQ.ID NO：876)

5′- G CAT GGC GGG -3′(FRAG 867)(SEQ.ID NO：877)

5′- CAT GGC GGG CAC AGG CTG GGC-3′(FRAG 868)(SEQ.ID NO：878)

5′- CAT GGC GGG CAC AGG CTG GG-3′(FRAG 869)(SEQ.ID NO：879)

5′- CAT GGC GGG CAC AGG CTG G-3′(FRAG 870)(SEQ.ID NO：880)

5′- CAT GGC GGG CAC AGG CTG -3′(FRAG 871)(SEQ.ID NO：881)

5′- CAT GGC GGG CAC AGG CT-3′(FRAG 872)(SEQ.ID NO：882)

5′- CAT GGC GGG CAC AGG C-3′(FRAG 873)(SEQ.ID NO：883)

5′- CAT GGC GGG CAC AGG -3′(FRAG 874)(SEQ.ID NO：884)

5′- CAT GGC GGG CAC AG-3′(FRAG 875)(SEQ.ID NO：885)

5′- CAT GGC GGG CAC A-3′(FRAG 876)(SEQ.ID NO：886)

5′- CAT GGC GGG CAC-3′(FRAG 877) (SEQ.ID NO：887)

5′- CAT GGC GGG CA-3′(FRAG 878) (SEQ.ID NO：888)

5′- CAT GGC GGG C-3′(FRAG 879) (SEQ.ID NO：889)

5′- AT GGC GGG CAC AGG CTG GGC-3′(FRAG 880)(SEQ.ID NO：890)

5′- AT GGC GGG CAC AGG CTG GG-3′(FRAG 881)(SEQ.ID NO：891)

5′- AT GGC GGG CAC AGG CTG G-3′(FRAG 882)(SEQ.ID NO：892)

5′- AT GGC GGG CAC AGG CTG -3′(FRAG 883)(SEQ.ID NO：893)

5′- AT GGC GGG CAC AGG CT-3′(FRAG 884)(SEQ.ID NO：894)

5′- AT GGC GGG CAC AGG C-3′(FRAG 885)(SEQ.ID NO：895)

5′- AT GGC GGG CAC AGG -3′(FRAG 886)(SEQ.ID NO：896)

5′- AT GGC GGG CAC AG-3′(FRAG 887)(SEQ.ID NO：897)

5′- AT GGC GGG CAC A-3′(FRAG 888)(SEQ.ID NO：898)

5′- AT GGC GGG CAC-3′(FRAG 889)(SEQ.ID NO：899)

5′- AT GGC GGG CA-3′(FRAG 890)(SEQ.ID NO：900)

5′- T GGC GGG CAC AGG CTG GGC-3′(FRAG 891)(SEQ.ID NO：901)

5′- T GGC GGG CAC AGG CTG GG-3′(FRAG 892)(SEQ.ID NO：902)

5′- T GGC GGG CAC AGG CTG G-3′(FRAG 893)(SEQ.ID NO：903)

5′- T GGC GGG CAC AGG CTG -3′(FRAG 894)(SEQ.ID NO：904)

5′- T GGC GGG CAC AGG CT-3′(FRAG 895)(SEQ.ID NO：905)

5′- T GGC GGG CAC AGG C-3′(FRAG 896)(SEQ.ID NO：906)

5′- T GGC GGG CAC AGG -3′(FRAG 897)(SEQ.ID NO：907)

5′- T GGC GGG CAC AG-3′(FRAG 898)(SEQ.ID NO：908)

5′- T GGC GGG CAC A-3′FRAG 899)(SEQ.ID NO：909)

5′- T GGC GGG CAC-3′(FRAG 900)(SEQ.ID NO：910)

5′- GGC GGG CAC AGG CTG GGC-3′(FRAG 901)(SEQ.ID NO：911)

5′- GGC GGG CAC AGG CTG GG-3′(FRAG 902)(SEQ.ID NO：912)

5′- GGC GGG CAC AGG CTG G-3′(FRAG 903)(SEQ.ID NO：913)

5′- GGC GGG CAC AGG CTG -3′(FRAG 904)(SEQ.ID NO：914)

5′- GGC GGG CAC AGG CT-3′FRAG 905)(SEQ.ID NO：915)

5′- GGC GGG CAC AGG C-3′(FRAG 906)(SEQ.ID NO：916)

5′- GGC GGG CAC AGG-3′(FRAG 907)(SEQ.ID NO：917)

5′- GGC GGG CAC AG-3′(FRAG 908)(SEQ.ID NO：918)

5′- GGC GGG CAC A-3′(FRAG 909)(SEQ.ID NO：919)

5′- GC GGG CAC AGG CTG GGC-3′(FRAG 910)(SEQ.ID NO：920)

5′- GC GGG CAC AGG CTG GG-3′FRAG 911)(SEQ.ID NO：921)

5′- GC GGG CAC AGG CTG G-3′(FRAG 912)(SEQ.ID NO：922)

5′- GC GGG CAC AGG CTG-3′(FRAG 913)(SEQ.ID NO：923)

5′-GC GGG CAC AGG CT-3′(FRAG 914)(SEQ.ID NO：924)

5′-GC GGG CAC AGG C-3′(FRAG 915)(SEQ.ID NO：925)

5′-GC GGG CAC AGG-3′FRAG 916)(SEQ.ID NO：926)

5′- GC GGG CAC AG-3′(FRAG 917)(SEQ.ID NO：927)

5′- C GGG CAC AGG CTG GGC-3′FRAG 918)(SEQ.ID NO：928)

5′- GGG CAC AGG CTG GG-3′(FRAG 919)(SEQ.ID NO：929)

5′-C GGG CAC AGG CTG G-3′(FRAG 920)(SEQ.ID NO：930)

5′-C GGG CAC AGG CTG -3′(FRAG 921)(SEQ.ID NO：931)

5′- C GGG CAC AGG CT-3′(FRAG 922)(SEQ.ID NO：932)

5′- C GGG CAC AGG C-3′(FRAG 923)(SEQ.ID NO：933)

5′- C GGG CAC AGG-3′(FRAG 924)(SEQ.ID NO：934)

5′-GGG CAC AGG CTG GGC-3′(FRAG 925)(SEQ.ID NO：935)

5′-GGG CAC AGG CTG GG-3′FRAG 926)(SEQ.ID NO：936)

5′- GGG CAC AGG CTG G-3′(FRAG 927)(SEQ.ID NO：937)

5′- GGG CAC AGG CTG -3′(FRAG 928)(SEQ.ID NO：938)

5′- GGG CAC AGG CT-3′FRAG 929)(SEQ.ID NO：939)

5′-GGG CAC AGG C-3′(FRAG 930)(SEQ.ID NO：940)

5′-GG CAC AGG CTG GGC-3′(FRAG 931)(SEQ.ID NO：941)

5′-GG CAC AGG CTG GG-3′(FRAG 932)(SEQ.ID NO：942)

5′-GG CAC AGG CTG G-3′(FRAG 933)(SEQ.ID NO：943)

5′-GG CAC AGG CTG -3′(FRAG 934)(SEQ.ID NO：944)

5′-GG CAC AGG CT-3′(FRAG 935)(SEQ.ID NO：945)

5′-G CAC AGG CTG GGC-3′FRAG 936)(SEQ. ID NO：946)

5′-G CAC AGG CTG GG-3′(FRAG 937)(SEQ.ID NO：947)

5′-G CAC AGG CTG G-3′(FRAG 938)(SEQ.ID NO：948)

5′-G CAC AGG CTG -3′(FRAG 939)(SEQ.ID NO：949)

5′-CAC AGG CTG GGC-3′(FRAG 940)(SEQ.ID NO：950)

5′-CAC AGG CTG GG-3′(FRAG 941)(SEQ.ID NO：951)

5′-CAC AGG CTG G-3′FRAG 942)(SEQ.ID NO：952)

5′-AC AGG CTG GGC-3′(FRAG 943)(SEQ.ID NO：953)

5′-AC AGG CTG GG-3′(FRAG 944)(SEQ.ID NO：954)

5′-C AGG CTG GGC-3′FRAG 945)(SEQ.ID NO：955)

5′-TTT TCC TTC CTT TGT CTC TCT TC (FRAG 946)(SEQ.ID NO：956)

5′-GCT CCC GGC TGC CTG (FRAG 947)(SEQ.ID NO：957)

5′-CTC GGC CGT GCG GCT CTG TCG CTC CCG GT(FRAG 948)(SEQ.ID NO：958)

5′-CCG CCG CCC TCC GGG GGG TC (FRAG 949)(SEQ.ID NO：959)

5′-TGC TGC CGT TGG CTG CCC(FRAG 950)(SEQ.ID NO：960)

5′-CTT CTG CGG GTC GCC GG(FRAG 951)(SEQ.ID NO：961)

5′-TGC TGG GCT TGT GGC(FRAG 952)(SEQ.ID NO：962)

5′-GGC CTC TCT TCT GGG(FRAG 953)(SEQ.ID NO：963)

5′-CCT GGT CCC TCC GT(FRAG 954)(SEQ.ID NO：964)

5′-GGT GGC TCC TCT GC(FRAG 955)(SEQ.ID NO： 965)

5′-GCT TGG TCC TGG GGC TGC(FRAG 956)(SEQ.ID NO：966)

5′-TGC TCT CCT CTC CTT(FRAG 957)(SEQ.ID NO：967)

Human adenosine A2a receptor nucleic acids and antisense oligonucleotide fragments

5′-TGC TTT TCT TTT CTG GGC CTC TGT GGT CTG TTT TTT TCT G GCC CTG CTG GGG CGC TCT CC GCC GCCCGC CTG GCT CCC GGB GCC CBT GBT GGG CBT GCC GTG GTT CTT GCC CTC CTT TGG CTG CCG TGC CCG CTC CCCGGC CTC CTG GCG GGT GGC CGT TG GGC CCG TGT TCC CCT GGG -GCC TGG GGC TCC CTT CTC TC GCC CTT CTT GCTGGG CCT C TGC TGC TGC TGG TGC TGT GGC CCC C GTA CAC CGA GGA GCC CAT GAT GGG CAT GCC ACA GAC GACAGG C GTB CBC CGB GGB GCC CBT GBT GGG CBT GCC BCB GBC GBC BGG C-3′(FRAG.NO.1665)(SEQ.ID NO：1680)

5′-CTG GGC CTC-3(FRAG 1666)(SEQ.ID NO：1681)

-TGC TTT TCT TTT CTG GGC CTC-3(FRAG 958)(SEQ.ID NO：968)

-TGT GGT CTG TTT TTT TCT G-3

(FRAG 959)(SEQ.ID NO：969)

-GCC CTG CTG GGG CGC TCT CC-3

(FRAG 960)(SEQ.ID NO：970)

-GCC GCC CGC CTG GCT CCC-3(FRAG 961)(SEQ.ID NO：971)

-GGB GCC CBT GBT GGG CBT GCC-3

(FRAG 962)(SEQ.ID NO：972)

-GTG GTT CTT GCC CTC CTT TGG CTG-3

(FRAG 963)(SEQ.ID NO：973)

-CCG TGC CCG CTC CCC GGC-3

(FRAG 964)(SEQ.ID NO：974)

-CTC CTG GCG GGT GGC CGT TG-3(FRAG 965)(SEQ.ID NO：975)

-GGC CCG TGT TCC CCT GGG-3

(FRAG 966)(SEQ.ID NO：976)

-GCC TGG GGC TCC CTT CTC TC-3

(FRAG 967)(SEQ.ID NO：977)

-GCC CTT CTT GCT GGG CCT C-3

(FRAG 968) (SEO.ID NO：978)

-TGC TGC TGC TGG TGC TGT GGC CCC C-3

(FRAG 969)(SEQ.ID NO：979)

5′-GTACACCGAGGAGCCCATGATGGGCATGCCACAGACGACAGGC-3′(FRAG 970)(SEQ.ID NO：980)

5′-GTBCBCCGBGGBGCCCBTGBTGGGCBTGCCBCBGBCGBCBGGC-3′(FRAG 971)(SEQ.ID NO：981)

Human adenosine A2b receptor nucleic acids and antisense oligonucleotide fragments

5′-GGC GCC GTG CCG CGT CTT GGT GGC GGC GG GTT CGC GCC CGC GCG GGG CCC CTC CGG TCC GTT CGCGCC CGC GCG GGG CCC CTC CGG TCC CGG GTC GGG GCC CCC CGC GGC C GCC TCG GGG CTG GGG CGC TGG TGGCCG GG CCG CGC CTC CGC CTG CCG CTT CTG GCT GGG CCC CGG GCG CCC CCT CCC CTC TTG CTC GGG TCC CCG TGACA GCG CGT CCT GTG TCT CCA GCA GCA TGG CCG GGC CAG CTG GGC CCC BCB GCG CGT CCT GTG TCT CCB GCBGCB TGG CCG GGC CBG CTG GGC CCC CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTATGGCCATGCC CGGCGGGTCT CACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGCCCAGCTGGCC CGGCCATGCT GCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCGCGCTTTCGGT GGCGGGCAAC GTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCACCAACTACTTC CTGGTGTCCC TGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCCTGGGCTTCTG CACTGACTTC TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGCCTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGGGGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCTGGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGCTGCTGCCTTG TGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCTGCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC ACTGAGCTGATGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGA TTGTGGGGATTTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCAAGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGAGACTTCCGCT ACACTTTTCA CAAAATTATC TCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGCTGGGGTACAG CCTGCTCTCG GTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAATCCACAAGAAA CAAAGAGGAC ACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGACTGCCTCTCTT GAGCACTTCC CTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACAAATATATTTA TGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTGTTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCAAATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAGGAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGCACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTG GGGCAATTTGTTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGG GCGCGAACTTTGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAA TGGGTGCCGCCTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGG CTCAGAAGCGGCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCC CTCGCCCGGCGCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAG GACGCGCTGTACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCG CCGCGGTGGGCACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGA CGTGGCCGTGGGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCT TCCTCGCCTGCTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCCCGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGGTCCTTGCCTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAACCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGAGCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTCCTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGATCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTCACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCACATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTACTGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT ATGGTGGAAAATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAATAAAAGTTGAC TGTACTAAAA ATG CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTATGGCCATGCC CGGCGGGTCT CACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGCCCAGCTGGCC CGGCCATGCT GCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCGCGCTTTCGGT GGCGGGCAAC GTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCACCAACTACTTC CTGGTGTCCC TGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCCTGGGCTTCTG CACTGACTTC TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGCCTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGGGGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCTGGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGCTGCTGCCTTG TGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCTGCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC ACTGAGCTGATGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGA TTGTGGGGATTTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCAAGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGAGACTTCCGCT ACACTTTTCA CAAAATTATC TCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGCTGGGGTACAG CCTGCTCTCG GTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAATCCACAAGAAA CAAAGAGGAC ACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGACTGCCTCTCTT GAGCACTTCC CTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACAAATATATTTA TGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTGTTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCAAATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAGGAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGCACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTG GGGCAATTTGTTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGG GCGCGAACTTTGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAA TGGGTGCCGCCTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGG CTCAGAAGCGGCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCC CTCGCCCGGCGCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAG GACGCGCTGTACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCG CCGCGGTGGGCACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGA CGTGGCCGTGGGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCT TCCTCGCCTGCTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCCCGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGGTCCTTGCCTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAACCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGAGCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTCCTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGATCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTCACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCACATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTACTGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT ATGGTGGAAAATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAATAAAAGTTGAC TGTACTAAAA ATG-3′(FRAG.NO：1670)(SEQ.ID NO：3006)

5′-GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGGGCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAATGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGGCTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCCCTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAGGACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCGCCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGACGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCTTCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCCATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCTGGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG CCACCAACAACTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA AGTGTCTCTT TGAGAATGTGGTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACATTAAGATCTTC CTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTCCAGCGGGAGA TCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGTTAACTGTGTC ACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCACATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTACTGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT ATGGTGGAAAATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAATAAAAGTTGAC TGTACTAAAA ATG-3′(FRAG.NO：_)(SEQ.ID NO：2436)

5′-CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CGGCGGGTCTCACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCTGCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAACGTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCCTGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTG CACTGACTTCTACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGC CTTCTGGCCG TGGCAGTCGACAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGG GGACCCGAGC AAGAGGGGTCATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCT GGGGTGGAAC AGTAAAGACA GTGCCACCAACAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGC TGCTGCCTTG TGAAGTGTCT CTTTGAGAATGTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCT GCCCCCACTG CTTATAATGC TGGTGATCTACATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC ACTGAGCTGA TGGACCACTC GAGGACCACCCTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGCTGTTAACTGT GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC ATTCTTCTGTCACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATCTCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCGGTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGACACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCCCTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTA TGATCTATTCAGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTG TTTTTAAAAG TCTGCCTTGTTTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCA AATACTTTTT AACTTAGAGGCAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAG GAAGGTGACC TCAAAAATTAAAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGC ACTTTGGGAG GCCAAGGCAGGCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTG-3′(FRAG.NO：_)(SEQ.ID NO：2435)

5′-GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGGGCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAATGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGGCTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCCCTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAGGACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCGCCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGACGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCTTCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCCATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCTGGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG CCACCAACAACTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA AGTGTCTCTT TGAGAATGTGGTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACATTAAGATCTTC CTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTCCAGCGGGAGA TCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGTTAACTGTGTC ACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCACATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTACTGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT ATGGTGGAAAATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAATAAAAGTTGAC TGTACTAAAA ATG-3′(FRAG.NO：_)(SEQ.ID NO：2425)

5′-CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CGGCGGGTCTCACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCTGCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAACGTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCCTGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTG CACTGACTTCTACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGC CTTCTGGCCG TGGCAGTCGACAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGG GGACCCGAGC AAGAGGGGTCATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCT GGGGTGGAAC AGTAAAGACA GTGCCACCAACAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGC TGCTGCCTTG TGAAGTGTCT CTTTGAGAATGTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCT GCCCCCACTG CTTATAATGC TGGTGATCTACATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC ACTGAGCTGA TGGACCACTC GAGGACCACCCTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGCTGTTAACTGT GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC ATTCTTCTGTCACATGCCAA TTCAGTTGTC AATCCCATTGTCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATCTCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCGGTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGACACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCCCTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTA TGATCTATTCAGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTG TTTTTAAAAG TCTGCCTTGTTTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCA AATACTTTTT AACTTAGAGGCAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAG GAAGGTGACC TCAAAAATTAAAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGC ACTTTGGGAG GCCAAGGCAGGCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTG(FRAG.NO：_)(SEQ.ID NO：2424)

5′-GCGCGTCCTG-3′ (FRAG.NO：1671)(SEQ.ID NO：1686)

5′-GCT GGG CCC CGG-3′(FRAG.NO：1672)(SEQ.ID NO：1687)

5′-CGG GTC GGG GCC CCC C-3′(FRAG.NO：1673)(SEQ.ID NO：1688)

5′-CGC GCC CGC G-3′(FRAG.NO：1674)(SEQ.ID NO：1689)

-GGC GCC GTG CCG CGT CTT GGT GGC GGC GG-3

(FRAG 972)(SEQ.ID NO：982)

-GTT CGC GCC CGC GCG GGG CCC CTC CGG TCC-3

(FRAG 973)(SEQ.ID NO：983)

-GTT CGC GCC CGC GCG GGG CCC CTC CGG TCC-3′(FRAG 974)(SEQ.ID NO：984)

-CGG GTC GGG GCC CCC CGC GGC C-3

(FRAG 975)(SEQ.ID NO：985)

-GCC TCG GGG CTG GGG CGC TGG TGG CCG GG-3

(FRAG 976)(SEQ.ID NO：986)

-CCG CGC CTC CGC CTG CCG CTT CTG-3(FRAG 977)(SEQ.ID NO：987)

-GCT GGG CCC CGG GCG CCC CCT-3

(FRAG 978)(SEQ.ID NO：988)

-CCC CTC TTG CTC GGG TCC CCG TG-3

(FRAG 979)(SEQ.ID NO：989)

5′-ACAGCGCGTCCTGTGTCTCCAGCAGCATGGCCGGGCCAGCTGGGCCCC-3′(FRAG 980)(SEQ.ID NO：990)

5′-BCBGCGCGTCCTGTGTCTCCBGCBGCBTGGCCGGGCCBGCTGGGCCCC-3′(FRAG 981)(SEQ.ID NO：991)

Human adenosine A3 receptor nucleic acids and antisense oligonucleotide fragments

5′-ACA GAG CAG TGC TGT TGT TGG GCA TCT TGC CTT CCC AGG G BCB GBG CB TGC TGT TGT TGG GCB TCT TGCCTT CCC BGG GCC CTT TTC TGG TGG GGT GGT GCT GTT GTT GGG CTT TCT TCT GTT CCC BCB GBG CBG TGC TGT TGTTGG GCB TCT TGC CTT CCC BGG GCC CTT TTC TGG TGG GGT GGT GCT GTT GTT GGG C TTT CTT CTG TTC CCGAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA TTCTCTCTAG TGGGTTATTCTTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCC AGCTGAGATGGACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGT ATTTAACTAAGGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCAGAGTGCTGCC TCCTAGAAATTTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACA GTAGAAACAT TTATGAGGGACACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTG GGCAGAACTG ACATTGGAAAATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTC TGGGGAGTCT GCTCAGGGAGAAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGAT ACAGGGTGGGGGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGAT GAGCCCCAGGCAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT TGTTGTTACT GCTGAATTTTATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTGTTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGA ACCAAGTGGGTCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCA GCTTCAGGGAGAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGA GGCTTGGGGA ATGTGGGCAGGAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGT CATTCTGCTA TTCTGTCGTTCCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGAGAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGGGAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCACCTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTCATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTGAAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTTGAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAGCATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTCTAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGACTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCC ACTGGCCCTA CAGACGGATCTTGCTGGCTC ACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGTCATTGGCCAA TGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGCGTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC CTGGCTGACA TTGCTGTTGGGGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCCTACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACCGTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA AAGCCAGAGCCTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCC CTCAAGCCAC TGTGTGGGTTGGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATA ATCCCTTTGG ATGGTGCTGA GAAGCACCTGAACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTC TGGTTCCCAG AAGTTGGTGA CTAGGTAAGCGACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTT CCTGCTGGGA TGGGGCTGAG GCTTGGGGAATGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCC TTCTTTCTGT ATGTCTGGTC ATTCTGCTATTCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTG CCAGTGTGAT TTTGCTAGGG TGTGAGCTGAGAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGGGAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCACCTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTCATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTC TGTACTTCCT CTTGGCCCAT CTCACTTCCTGAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTC AAAAAGCCAA AAAGCTGCAG GCAGAGGCGTTGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTT CAGATTCAGT CCATATAGAG CTGTCCTACAGCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGC TGGAAGTGAC CCACCTGTGA TGAGCCCTTTCTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAA GGGTAGGAAT GAGCAAGTTG GGAATTTTAGACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGA GAGCTAGGCC CACTGGCCCT ACAGACGGATCTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAA GGCAAGATGC CCAACAACAG CACTGCTCTGCGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA TATAGAGCTGTCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG AAGTGACCCA CCTGTGATGAGCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC CAGAAAAGGG TAGGAATGAG CAAGTTGGGAATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACAGACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCACTGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGGTCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATTGCTGTTGGGG TGCTGGTCAT GCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTATGACTTGCCTA CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCAAGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCTGGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGAAATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGATTTTCATCCCC CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTATCTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTTGCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACATGGGCATCCTG CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTCAAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAATTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTATGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTCCCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTTGGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCCTAGTTGACTT ACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATTGAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGGGGGACTTAAA CTGCTGAATT C GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCTCCTGCCTTTA TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCTTTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGGGAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTTTTTTTTGGCA GAGTGCTGCC TCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACAGTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTGGGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTCTGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATCAACTTGGGAT ACAGGGTGGG GGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGAGGACCCTGAT GAGCCCCAGG CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACCAGAACGCCAT TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCTCAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGATGGTGCTGAG AAGCACCTGA ACCAAGTGGG TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGAAGTTGGTGAC TAGGTAAGCA GCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGGATGGGGCTGA GGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTGTATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGATTTTGCTAGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAGTTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTGCTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACCAAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTGCATAGTCAGT GCTTCCAGCT CTGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCAATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCTGTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAAAAGCTGCAGG CAGAGGCGTT GAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTCCATATAGAGC TGTCCTACAG CATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACCCACCTGTGAT GAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATGAGCAAGTTGG GAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCCACTGGCCCTA CAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCCCAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGGGCAACGTGCT GGTCATCTGC GTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCCCTGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAGCTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGATACTTGCGGGT CAAGCTTACC GTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAATGAGGCTACA AAGCCAGAGC CTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAATGATAAAGCC CTCAAGCCAC TGTGTGGGTT GGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATAATCCCTTTGG ATGGTGCTGA GAAGCACCTG AACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTCTGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTTCCTGCTGGGA TGGGGCTGAG GCTTGGGGAA TGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCCTTCTTTCTGT ATGTCTGGTC ATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTGCCAGTGTGAT TTTGCTAGGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAGAGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGTATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGAGGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGCAGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACTCTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGTTACTGAGCTC TGTACTTCCT CTTGGCCCAT CTCACTTCCT GAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTCAAAAAGCCAA AAAGCTGCAG GCAGAGGCGT TGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTTCAGATTCAGT CCATATAGAG CTGTCCTACA GCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGCTGGAAGTGAC CCACCTGTGA TGAGCCCTTT CTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAAGGGTAGGAAT GAGCAAGTTG GGAATTTTAG ACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGAGAGCTAGGCC CACTGGCCCT ACAGACGGAT CTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAAGGCAAGATGC CCAACAACAG CACTGCTCTG CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCAGCACTTTCAG ATTCAGTCCA TATAGAGCTG TCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATAAACGGGCTGG AAGTGACCCA CCTGTGATGA GCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCACCAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGTCTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCCCTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAAATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCCTGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCAT GCCTTTGGCCATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTA CTGCTTATCT TTACCCACGCCTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCA AGCTTACCGT CAGATACAAGAGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCT GGTGTCATTC CTGGTGGGATTGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGA AATGTCACCT TCCTTTCATG CCAATTTGTTTCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGAT TTTCATCCCC CTGGTTGTCA TGTGCGCCATCTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTAT CTAACTCCAA AGAGACAGGT GCATTTTATGGACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCAT GGCTGCCTTT ATCTCTCATCAACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACAT GGGCATCCTG CTGTCCCATG CCAACTCCATGATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTC AAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCTGCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTGACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCACTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTC CCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTTTGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTCTTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAA GGCTCTAGTTGGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATT GAGCAGAGAA CCTGCTCTCGGAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGG GGGACTTAAA CTGCTGAATT C -3′(FRAG.NO：1675) (SEQ.ID NO：3007)

5′-CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA TATAGAGCTGTCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG AAGTGACCCA CCTGTGATGAGCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC CAGAAAAGGG TAGGAATGAG CAAGTTGGGAATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACAGACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCACTGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGGTCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATTGCTGTTGGGG TGCTGGTCAT GCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTATGACTTGCCTA CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCAAGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCTGGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGAAATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGATTTTCATCCCC CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTATCTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTTGCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACATGGGCATCCTG CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTCAAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAATTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTATGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTCCCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTTGGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCCTAGTTGACTT ACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATTGAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGGGGGACTTAAA CTGCTGAATT C -3′(FRAG.NO：_)(SEQ.ID NO：2439)

5′-CTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCC CTCAAGCCACTGTGTGGGTT GGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATA ATCCCTTTGG ATGGTGCTGAGAAGCACCTG AACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTC TGGTTCCCAG AAGTTGGTGACTAGGTAAGC GACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTT CCTGCTGGGA TGGGGCTGAGGCTTGGGGAA TGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCC TTCTTTCTGT ATGTCTGGTCATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTG CCAGTGTGAT TTTGCTAGGGTGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCTTCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAGCGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCTCTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCTCCGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTCTATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTC TGTACTTCCT CTTGGCCCATCTCACTTCCT GAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTC AAAAAGCCAA AAAGCTGCAGGCAGAGGCGT TGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTT CAGATTCAGT CCATATAGAGCTGTCCTACA GCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGC TGGAAGTGAC CCACCTGTGATGAGCCCTTT CTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAA GGGTAGGAAT GAGCAAGTTGGGAATTTTAG ACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGA GAGCTAGGCC CACTGGCCCTACAGACGGAT CTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAA GGCAAGATGC CCAACAACAGCACTGCTCTG-3′(FRAG.NO：_)(SEQ.ID NO：2438)

5′-GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA TTCTCTCTAGTGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCCAGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGTATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCCTCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACA GTAGAAACATTTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTG GGCAGAACTGACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTC TGGGGAGTCTGCTCAGGGAG AAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGATACAGGGTGGG GGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGATGAGCCCCAGG CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT TGTTGTTACTGCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCT CAAGCCACTG TGTGGGTTTGGGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGAACCAAGTGGG TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCAGCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGA GGCTTGGGGAATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGT CATTCTGCTATTCTGTCGTT CCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGAGAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGGGAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAATAGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCACCTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTCATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTGAAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTTGAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAGCATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTCTAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGACTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCC ACTGGCCCTA CAGACGGATCTTGCTGGCTC ACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGTCATTGGCCAA TGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGCGTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC CTGGCTGACA TTGCTGTTGGGGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCCTACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACCGTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA AAGCCAGAGC-3′(FRAG.NO：_)(SEQ.ID NO：2437)

5′-CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA TATAGAGCTGTCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG AAGTGACCCA CCTGTGATGAGCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC CAGAAAAGGG TAGGAATGAG CAAGTTGGGAATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACAGACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCACTGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGGTCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATTGCTGTTGGGG TGCTGGTCAT GCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTATGACTTGCCTA CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCAAGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCTGGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGAAATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGATTTTCATCCCC CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTATCTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTTGCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACATGGGCATCCTG CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTCAAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAATTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTATGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTCCCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTTGGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCCTAGTTGACTT ACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATTGAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGGGGGACTTAAA CTGCTGAATT C-3′(FRAG.NO：_)(SEQ.ID NO：2427)

5′-TTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA TTCTCTCTAGTGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCCAGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGTATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCCTCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACA GTAGAAACATTTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTG GGCAGAACTGACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTC TGGGGAGTCTGCTCAGGGAG AAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGATACAGGGTGGG GGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGATGAGCCCCAGG CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT TGTTGTTACTGCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCT CAAGCCACTG TGTGGGTTTGGGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGAACCAAGTGGG TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCAGCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGA GGCTTGGGGAATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGT CATTCTGCTATTCTGTCGTT CCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGAGAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGGGAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCACCTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTCATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTGAAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTTGAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAGCATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTCTAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGACTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG GCTAGGCCC ACTGGCCCTA CAGACGGATC TTGCTGGCTCACCTGTCCCT GTGGAGGTTC CCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTACTCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGC GTGGTCAAGC TGAACCCCAGCCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC TGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGGCCATTGTTGT CAGCCTGGGC TCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCACCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACC GTCAGGTAGC CTGCGGCGTGGGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA AGCCAGAGC-3′(FRAG.NO：_)(SEQ.ID NO：2426)

5′-GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG CCCCGCGCGGGCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAATGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGGCTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCCCTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAGGACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCGCCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGACGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTAC GGCTGCCTCTTCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCCATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCTGGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG CCACCAACAACTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA AGTGTCTCTT TGAGAATGTGGTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACATTAAGATCTTC CTGGTGGCCT GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTCCAGCGGGAGA TCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGTTAACTGTGTC ACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCACATGCCAATTC AGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAGGATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTACTGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT ATGGTGGAAAATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAATAAAAGTTGAC TGTACTAAAA ATG-3′(FRAG.NO：_)(SEQ.ID NO：2425)

5′-GBG CB TGC-3′(FRAG.NO：1676)(SEQ.ID NO：1691)

5′-TTG TTG GGC-3′(FRAG.NO：1677)(SEQ.ID NO：1692)

5′-TGC CTT CCC BGG G-3′(FRAG.NO：1678)(SEQ.ID NO：1693)

5′-GTT GTT GGG CAT CTT GCC-3′(FRAG.NO：1679)(SEQ.ID NO：3)

5′-GTG GGC CTA GCT CTC GCC-3′(GRAG.NO：1680)(SEQ.ID NO：5)

5′-ACA GAG CA TGC TGT TGT TGG GCA TCT TGC CTT CCC AGG G-3′(FRAG 982)(SEQ.ID NO：992)

5′-BCB GBG CB TGC TGT TGT TGG GCB TCT TGC CTT CCC BGG G-3′(FRAG 983)(SEQ.ID NO：993)

5′-CCC TTT TCT GGT GGG GTG-3′(FRAG 984)(SEQ.ID NO：994)

5′-GTG CTG TTG TTG GGC-3′(FRAG 985)(SEQ.ID NO：995)

5′-TTT CTT CTG TTC CC-3′(FRAG 986)(SEQ.ID NO：996)

5′-CCC TTT TCT GGT GGG GTG-3′(FRAG 987)(SEQ.ID NO：997)

5′-GTG CTG TTG TTG GGC-3′(FRAG 988)(SEQ.ID NO：998)

5′-TTT CTT CTG TTC CC-3′(FRAG 989)(SEQ.ID NO：999)

Human IgE receptor β nucleic acids and antisense oligonucleotide fragments

5′-TTT CCC CTG GGT CTT CC CTC CTG CTC TTT TTT C ATT TGC TCT CCT ATT ACT TTC TGT GTC CAT TTTTTC ATT AAC CGA GCT GT BTT TGC TCT CCT BTT BCT TTC TGT GTC CBT TTT TTC BTT BBC CGB GCT GT-3′(FRAG.NO：1681)(SEQ.ID NO：1694)

5′-CCC CTG GG-3′(FRAG.NO：1682)(SEQ.ID NO：1695)

5′-GCTCTCCTBTT-3′(FRAG.NO：1683)(SEQ.ID NO：1696)

5′-CBTTBBCCGBGCTG-3′(FRAG.NO：1684)(SEQ.ID NO：1697)

-TTT CCC CTG GGT CTT CC-3(FRAG 990)(SEQ.ID NO：1000)

-CTC CTG CTC TTT TTT C-3

(FRAG 991)(SEQ.ID NO：1001)

ATTTGCTCTCCTATTACTTTCTGTGTCCATTTTTTCATTAACCGAGCTGT (FRAG 992)(SEQ.ID NO：1002)

BTTTGCTCTCCTBTTBCTTTCTGTGTCCBTTTTTTCBTTBBCCGBGCTGT (FRAG 993)(SEQ.ID NO：1003)

Human Fc-epsilon receptor CD23 antigen (IgEs receptor) nucleic acids and antisense oligonucleotide fragments

-GCC TGT GTC TGT CCT CCT GCT TCG TTC CTC TCG TTC CTG CTT GGT GCC CTT GCC G GTC CTG CTC CTCCGG GCT GTG G GTC GTG GCC CTG GCT CCG GCT GGT GGG CTC CCC TGG CCT TCG CTG GCT GGC GGC GTG CGGG TCT TGC TCT GGG CCT GGC TGT GGC CGT GGT TGG GGG TCT TC GCT GCC TCC GTT TGG GTG GC TCT CTGAAT ATT GAC CTT CCT CCA TGG CGG TCC TGC TTG GAT TCT CCC GA TCT CTG BBT BTT GBC CTT CCT CCB TGGCGG TCC TGC TTG GBT TCT CCC GB-3′(FRAG 1685)(SEQ.ID NO：1698)

5′-GT CCT CCT-3′(FRAG 1686)(SEQ.ID NO：1699)

5′-TGT GTC TGT CCT CC-3′(FRAG 1687)(SEQ.ID NO：1700)

5′-GTG GCC CTG GC-3′(FRAG 1688)(SEQ.ID NO：1701)

5′-CGT GGT TGG GG-3′(FRAG 1689)(SEQ.ID NO：1702)

5′-TCT CTG BBT BTT GBC C-3′(FRAG1690)(SEQ.ID NO：1703)

-GCC TGT GTC TGT CCT CCT-3

(FRAG 994)(SEQ.ID NO：1004)

-GCT TCG TTC CTC TCG TTC-3(FRAG 995)(SEQ.ID NO：1005)

-CTG CTT GGT GCC CTT GCC G-3

(FRAG 996)(SEQ.ID NO：1006)

-GTC CTG CTC CTC CGG GCT GTG G-3

(FRAG 997)(SEQ.ID NO：1007)

-GTC GTG GCC CTG GCT CCG GCT GGT GGG CTC CCC TGG-3

(FRAG 998)(SEQ.ID NO：1008)

-CCT TCG CTG GCT GGC GGC GTG C-3

(FRAG 999)(SEQ.ID NO：1009)

-GGG TCT TGC TCT GGG CCT GGC TGT-3(FRAG 1000)(SEQ.ID NO：1010)

-GGC CGT GGT TGG GGG TCT TC-3

(FRAG 1001)(SEQ.ID NO：1011)

5′-GCT GCC TCC GTT TGG GTG GC (FRAG 1002) (SEQ.ID NO：1012)

5′-TCT CTG AAT ATT GAC CTT CCT CCA TGG CGG TCC TGC TTG GAT TCTCCC GA(FRAG 1003)(SEQ.ID NO：1013)

5′-TCT CTG BBT BTT GBC CTT CCT CCB TGG CGG TCC TGC TTG GBT TCT CCC GB(FRAG 1004)(SEQ.ID NO：1014)

Human IgE receptor α subunit nucleic acids and antisense oligonucleotide fragments

5′-GCC TTT CCT GGT TCT CTT GTT GTT TTT GGG GTT TGG CTT ACA GTA GAG TAG GGG ATT CCA TGG CAGGAG CCA TCT TCT TCA TGG ACT CC TTC AAG GAG ACC TTA GGT TTC TGA GGG ACT GCT AAC ACG CCA TCT GGAGC BCB GTB GBG TBG GGG BTT CCB TGG CBG GBG CCB TCT TCT TCB TGG BCT CC TTC BBG GBG BCC TTB GGTTTC TGB GGG BCT GCT BBC BCG CCB TCT GGB GC GTT GTT TTT GGG GTT TGG CTT GCC TTT CCT GGT TCT CTTBCB GTB GBG TBG GGG BTT CCB TGG CBG GBG CCB TCT TCT TCB TGG BCT CC TTC BBG GBG BCC TTB GGT TTC TGBGGG BCT GCT BBC BCG CCB TCT GGB GC-3′(FRAG. NO：1691) (SEQ.ID NO：1704)

5′-TGG BCT CC -3′(FRAG.NO：1692)(SEQ.ID NO：1705)

5′-CCB TCT GGB-3′(FRAG.NO：1693)(SEQ.ID NO：1706)

5′-CT GCT BBC BCG-3′FRAG.NO：1694)(SEQ.ID NO：1707)

5′-GTT TTT GGG GTT TG-3′(FRAG.NO：1695)(SEQ.ID NO：1708)

5′-GCC TTT CCT GGT TCT CTT GTT GTT TTT GGG GTT TGG CTT-3′FRAG. NO：1005)(SEQ.ID NO：1015)

5′-ACAGTAGAGTAGGGGATTCCATGGCAGGAGCCATCTTCTTCATGGACTCC-3′(FRAG.NO：1006)(SEQ.ID NO：1016)

5′-TTC AAG GAG ACC TTA GGT TTC TGA GGG ACT GCT AAC ACG CCA TCT GGA GC-3′(FRAG.NO：1007)(SEQ.ID NO：1017)

5′-BCB GTB GBG TBG GGG BTT CCB TGG CBG GBG CCB TCT TCT TCB TGG BCT CC TTC BBG GBG BCC TTB GGTTTC TGB GGG-3′FRAG.NO：1008)(SEQ.ID NO：1018)

5′-BCT GCT BBC BCG CCB TCT GGB GC-3′(FRAG.NO：1009)(SEQ.ID NO：1019)

5-GTT GTT TTT GGG GTT TGG CTT-3′(FRAG. NO：1010) (SEQ.ID NO：1020)

-GCC TTT CCT GGT TCT CTT-3(FRAG.NO：1011)(SEQ.ID NO：1021)

5’-BCBGTBGBGTBGGGGBTTCCBTGGCBGGBGCCBTCTTCTTCBTGGBCTCC-3′(FRAG.NO：1012)(SEQ.ID NO：1022)

5′-TTC BBG GBG BCC TTB GGT TTC TGB GGG BCT GCT BBC BCG CCB TCT GGB GC-3′(FRAG.NO：1013)(SEQ.IDNO：1023)

Human IgE receptor (Fc epsilon R) nucleic acids and antisense oligonucleotide fragments

5′-GCC TGT GTC TGT CCT CCT GCT TCG TTC CTC TCG TTC CTG CTT GGT GCC CTT GCC G GTC CTG CTC CTC CGGGCT GTG G GTC CTC GCC CTG GCT CCG GCT GGT GGG CTC CCC TGG CCT TCG CTG GCT GGC GGC GTG C CCC BGBBCG BGB CCC GGB CCG BCB GGC CGT GGT TGG GGG TCT TC GCT GCC TCC GTT TGG GTG GC GAT CTC TGA ATATTGA CCT TCC ATG GCG GTC CTG CTT GGA GBT CTC TGB BTB TTGB CCT TCC BTG GCG GTC CTG CTT GGB-3′(FRAG：1696)(SEQ.ID NO：1709)

5′-TCG TTC CTC TCG-3′(FRAG：1697)(SEQ.ID NO：3001)

5′-BGB BCG BGB C-3′FRAG：1698)(SEQ.ID NO：1711)

5′-TGB BTB TTGB-3′(FRAG：1699)(SEQ.ID NO：1712)

-GCC TGT GTC TGT CCT CCT-3

(FRAG.NO：1014)(SEQ.ID NO：1024)

-GCT TCG TTC CTC TCG TTC-3

(FRAG.NO：1015)(SEQ.ID NO：1025)

-CTG CTT GGT GCC CTT GCC G-3

(FRAG.NO：1016)(SEQ.ID NO：1026)

-GTC CTG CTC CTC CGG GCT GTG G-3

(FRAG.NO：1017)(SEQ.ID NO：1027)

-GTC CTC GCC CTG GCT CCG GCT GGT GGG CTC CCC TGG-3

(FRAG.NO：1018)(SEQ.ID NO：1028)

-CCT TCG CTG GCT GGC GGC GTG C-3(FRAG.NO：1019)(SEQ.ID NO：1029)

-CCC BGB BCG BGB CCC GGB CCG BCB-3(FRAG.NO：1020)(SEQ.ID NO：1030)

-GGC CGT GGT TGG GGG TCT TC-3(FRAG.NO：1021)(SEQ.ID NO：1031)

-GCT GCC TCC GTT TGG GTG GC-3

(FRAG.NO：1022)(SEQ.ID NO：1032)

5′-GBT CTC TGB BTB TTGB CCT TCC BTG GCG GTC CTG CTT GGB-3′(FRAG.NO：1023)(SEQ.ID NO：1033)

Human high affinity IgE receptor oligonucleotide fragments

5′-AACAAGAAAA GCGTTGGTAG CTCTGGTGAA TCCCAAAAGA ATGTGGCAGT TGCTAGCCAT GCTCCTGAATATGTATAAAC AGTACATCAT ATGACTAAGA GTTTGACTTA GGGGTTAGAT TTTATGTGTT TGAACCCCAA ATTAGTTATTTAATAGTTGG CACCCCAAAA CAAGTTACTT AACCTCACTA AGGTTCAGTT TTCCTGTTTA TAAAATGTAG ATAGTGATAGTATGTACTTT ATAGGATTAT TGTGAAAAAT AAATGAAATA TCAGATTTAT TTAGGATAAC ACCTGGCATA TGTTTGGTATTCAGAATTAG TTGCTGCTGT TTTATTCTGC TCTCCCTTGC ATCCCACTTT TCTAAGTTGT AAACTAAATA GTTGTACACAGATTGACAGA TTAAGAAAGG CTTGTGATTG TGCTAGACCT ATGCCTATGC CTCTGTCTCA CCAGATTCCA GGTGTATATGTGGAGGTGGG ATAGGGAGTG GAGTAAGTGG GTAAATATTA AATTGCCCAG TTGGGCACCA TCCTGAATATTATCTCTAAA GAAAGAAGCA AAACCAGGCA CAGCTGATGG GTTAACCAGA TATGATACAG AAAACATTTCCTTCTGCTTT TTGGTTTTAA GCCTATATTT GAAGCCTTAG ATCTCTCCAG CACAGTAAGC ACCAGGAGTC CATGAAGAAGATG GATCTTCATG TGGAATGACT GGTTTCATTC AATAGACTTA ATTCAGCAGT CTGTGGGGAA GAGCAAGGTATGATAGAATG GTTCCTCAAG TGCTTCAGAT GTGAAGTGGG TTTAAATATA CTGTCCCTGT CTTCTTCAGA GTTTTGGTAAAGATAAAATA GGACACTCAT TTAAAAGCAA TCTTTGCAAA TGACAAGCCA CTATAGACAT TAATAGAGTTTTCATTTCCA GTATTATCAT TAATATCAGA TCCTGGAAGA AGGTTGAGCC TTGACCTAGA GCAAAAAAACAGAAGAATTA GTAAAGGAAT CCTGGAGAAA GCCCCTGCTG TGTATTTAAA GGAGAAAGGG AGATCATGTTGGGAAATTAT AATATTAAAA GTAAACAAAA GCTAGGAAGT AAAATAAAAT AAATTATATG GCCTAGATCCCCATAAGTAA TGGTTTAACT TCTGCCTTCC TGTGTTCTGA GCCAGATTAG GGCACAGTAG AGAAAGAGGAGTCTCTGAAA ATGTTTCCAA TTTCGCTGGT CAGACAGCGG ATCATCAGTG AATCAGATGA AAATTTGTGG ATTTATGCACTAACTGATCA GCAGGAAATT AAACAAGAAA AGCGTTGGTA GCTCTGGTGA ATCCCAAAAG AATTTGGCAGTTGCTAGCCA TGCTCCTGAA TATGTATAAA CAGTACATCA TATGACTAAG AGTTTGACTT AGGGGTTAGA TTTTATGTGTTTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACT TAACCTCACT AAGATTCAGT TTTCCTGTTTATAAAATGTA GATAGTGATA GTATGTACTT TATAGGATTA TTGTGAAAAA TAAATGAAAT ATCAGATTTA TTTAGGATAACACCTGGCAT ATGTTTGGTA TTCAGTAATT AGTTGCTGCT GTTTTATTCT GCTCTCCCTT GCATCCCACT TTTCTAAGTTGTAAACTAAA TAGTTGTACA CAGATTGACA GATTAAGAAA GGCTTGTGAT TGTGCTAGAC CTATGCCTCTCTCTCACCAG ATTCCAGGTG TATATGTGGA GGTGGGATAG GGAGTGGAGT AAGTGGGTAA ATATTAAATTGCCCAGTTGG GCACCATCCT GAATATTATC TCTAAAGAAA GAAGCAAAAC CAGGCACAGC TGATGGGTTAACCAGATATG ATACAGAAAA CATTTCCTTC TGCTTTTTGG TTTTAAGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACAGTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCATGGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTCGGTAAGTAGA GATTCAATTA CCCCTCCCAG GGAGGCCCAA ATGAATTTGG GGAGCAGCTG GGGTAGGAACCTTTACTGTG GGTGGTGACT TTTTCTAGGA CATGTGCAAA CTATTGGGCA TTTCCCAGGG ACTCTGTAGT GGAGCCAAGCTAGAAAGCAG AGGCAAGTGG GCTGAGCAAC ACCTAAGGAG GAAGCCAGAC TGAAAGCTTG GTTCCTTGCATTTGCTCTGG CATCTTCCAG AGTGCAAATT TCCTACCAAG GTAATGAGGG TAGAGGAGAG AAAGAAGCTCTTTCTTCCCC TGATTCTCAT TCCTGAAAAG ACGGTTGGTC CTTAAAATTC CATGGATGTA GATCTTATCC CCACACCCAGATTCTAGTCC TCTGGAGATA AAGAAGACTG CTGGACACTA ATGTATCCTC TCTGGACTTT TGCAGCTCCA GATGGCGTGTTAGCAGGTGA GTCCTCTGTT CTTGTTCCCT TGGTGTATCA ACATGTCTGG GCATTGCTTT CCTCTCACTA TTTTCTTCGTCCCATCACTT CTGCTTTCTA ATGAGCATGA ATCTGTTCCT TGGCCAGACT ACTTTCCCTC TCCACCTTGC CTTGTCTTTCTTTTTTTCCC TGATTCATTG CATTCTCTCA AGTCATTCTC TCCTCTGTTT TAGTCAATAA CCATGTCTGT TGCACATATACATGTCTCAT TCTCTCTCCT AGACACTTTG GCATGATCTC GCTCAATAAT TACATTATTA TTATTATTGC CATTTTATAATTGAGGATGC TGAAACTCAG TGATTTTCTG GTGGTTACAT GGCTAAGGAA CTGGATTTCA ACGTAAGTTC CTTGGATCTAAGTCCAGTTC TCTTCTGACT ATATCACCCT TTTGTTATCA CCATGTATCT ACTTCTTTGG TCTCTGTTCA AATTTGCACTACATCCCCTT GTTCCAGGAA GCCATTCAAG ACTGACTTTC TTAGTGCCTC TCACTACTTT CTGGAACTGA CATATGTTTTTCACTCTGTA TATACTTACA ATTAAATAGT CATAAATATT CAGAGCTTGG AGAAACCTTA TATTTCATCC AGTCCAGTAAATTTATCCAT CCATAATTCA CTCATTCATT CACATAATAA ATATTTAATG TAACAATGGT TGAACATGGC AGACAGTGTTTCTACCTCAA AAGAGATTGC AGTCCTCATT TACAGATACT GAATTGAAAT TAACAGAAGT AGAGTGAGTCAGCTCAAATC ACATAGTGAA TTGGTTTCTT TGTTTTTAAA TCTCCTGCAT ATGTGTCCTG TCTTTCTCCC TGTGTTGGGCGTTCCCTGGG GCACCAATAC TAATTTCTCC TTCCCCTAGA AATCAAAACA GGGTCTTATC ACCAACAGAATAAGGACAGG TTGACCACTG ATTGTCAGAA TATTGCTTCG TTTGTACTTT TAAGCCTAGA CAGTTTTCAA TGACTTTTTTTCTCTCTACA TGTCTTTTCA TATTTTTATC TTCTTGAAGT CCCTCAGAAA CCTAAGGTCT CCTTGAACCC TCCATGGAATAGAATATTTA AAGGAGAGAA TGTGACTCTT ACATGTAATG GGAACAATTT CTTTGAAGTC AGTTCCACCAAATGGTTCCA CAATGGCAGC CTTTCAGAAG AGACAAATTC AAGTTTGAAT ATTGTGAATG CCAAATTTGAAGACAGTGGA GAATACAAAT GTCAGCACCA ACAAGTTAAT GAGAGTGAAC CTGTGTACCT GGAAGTCTTCAGTGGTAAGT TCCAGGGATA TGGAAATACA GATCTCTCAT GTGAGGGATG GCTCATCTGA AGATGGGAAAAAACAGGTTA TTCCAAGGGT TAGGACACCA GAGTGGGATT CAAGGCCTCT CATTTTTAAG ACCCCTGCATTGGCTGGGCA CAGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCTG AGGCAGGTGG ATCACGAGGTCAGGAGATCG AGACCATCCG GCTAACATGG TGAAACCCCA TCTCTGCTAA AAAATATATA TATATAAAATTAGCCGGGCG TAGTGGTGGG CACCTGTAGT CCCAGGTACT CGGGAGGCTG AGGCAGGAGA ATGGTGTGAACCCAGGAGGT GGAGGTTGCA GTGAGCTGAG ATCACGCCAC TGCCCTCCAG CCTGGGCTAC AGAGCAAGACTCCGTCTCAA AAAATAAATA AATAAATAAA AAAGACCCCT GCATCTCTTT TCTTCTACCC CCTTCCCTTT TGATTACTTGTATGCCTTCT TTCAATATTC TAGTCATCTC TCAATATTAT TCCTCCACCC TATTTTCCTC TATCTTTTCT GCCTAGATTCAGGTATATAT TATGTGGTCA AACAGCATGA CATATATGTG AACATTTCAA AGAGCTGTGT ATCTGGAATAGGATCAAAAG GTTTGACTTA AAGTTTTGCT CTGCATAATC CATATGGCAG GACCTGAATA TTAGGTTGTA CTCTTCGTTATGAAACATAT CTGGGTACAT TTCCTTATGT CCTCTGTTGT TACTTAAGAA CACATATTTC ATGCTTGTTT CATTTTTATCACTCCTACTG CCAACAAATA GCATAGCATG CTTAGGCACA TGTGGCTTAA TTAGCAAATG TTGAATAAACAAATTAATGA TTTTGAATAG TGACCAATAG GTCTCTTTTA TACTCTATAT TTTTCTCTTG AGTGAAAAAA AATGTTTCAACCTCCATATG TAAATTCCAA ACACAAACTA AAGCAATGTA GAATAGCTTC TTTATTCCCT GGAGTAGGTTCTAGAGAAGT CCTAAAGGAT TGGTCCTAAA TTAATTATGC TTATTATGCT AGCGATATTT CCTTTCAAAA TTCTCCTTTAATGAATGCTT TTTAATTTTT ACAAAAGCAT TAACCATAGA ATGTGATTCT TGTCTTTCAC TGACTCATTA GTGACAAATATTTGTTGAGT ACCTACCAAC TCCTAAGTAT TGCTACCAAC TCCTAAATAC TGTGTTGGGC ATTCAGAATA GAATGTAGAACTAGACAGGG TCCCTGACTT CTTGGAGCAC AGAGCAGTAT GGGAAGAGGA CATTAAATAA AGAATTACATAAGTAATTAA TTTAAATTAT ACATGTTTTG AAGAAGTTTT TTTTTGACAA CTATAATTAA CACTAGAACT GGGAAGTTTCTATAAGGTAA GAGAGGACAA AATAGACACT CTCCTAAGCT AAAATTCCCA AGAAAGACTG TTTATTTTCCCCTAACTAAC TAGAACTAGC AACAGAAGAT CTGAAAGGAA TTCTGGCTTT CAAGTGTTCC ATGTATGGACTCATCAGGGA GGTCCGAGAG GCTTTGTGGC CCCAGACTGA CTTTTCAGGA GGGGAAAGGA TTTATCAATACACAAGACAG GCTCTAAGCA TTATTTTGTG CCCTTTAAAA ATCCACTTTA TGAGCCAAAA AGTGAGTTAA TGATAATTCATAGTTTCTGA CACATGCTCT ATGCGTGGCT CTCTTTTCTC TATTCATTCT CTCTCTCTTC ATTTATTGTT AAATAAATAATGTAATGAAT GTTCTTCAGA CTGGCTGCTC CTTCAGGCCT CTGCTGAGGT GGTGATGGAG GGCCAGCCCC TCTTCCTCAGGTGCCATGGT TGGAGGAACT GGGATGTGTA CAAGGTGATC TATTATAAGG ATGGTGAAGC TCTCAAGTACTGGTATGAGA ACCACAACAT CTCCATTACA AATGCCACAG TTGAAGACAG TGGAACCTAC TACTGTACGGGCAAAGTGTG GCAGCTGGAC TATGAGTCTG AGCCCCTCAA CATTACTGTA ATAAAAGGTG AGTTGGTAAAGGAAAGGAAA AGCATCCATA GCAGGGGAAG GAAGAGAGAA CTTCTGAGCC TGAGCAGTTG CAGCTTGTAGAAGGGGGGCA CCTGTGATAC ACTGGAAAGC CTACCAGACT TGCAATGAGG AGACCTGGGT GATAGTATATATCTCAATCT CTGTTTCAAA GCCTTGACTT GTTAAATGGT GATAGTAATA CCTGCTTGCA CTATGAAATT TTTATGAAGATTAATGTGGT AATATTTGTG AAATGACTTT GTAAACTGTT AAGCACTACC CAAGCATAAC AGATTGTGAT TACTATTTTGATCTCAAAGT CATCTGTTGC TCCTGGGGGA ACACTTATAT TTATCAAATT GAAAAAAAGT TTCAAAGTTGAATGAAGAAA GGATATAAAG AGCTTGAGGA GCCCATTCCA GCTTAGGAGG GCTGGGAAAG GAAACCAGCAAGTCAGTAAG CTGTGTGCCT GTGTATTGAG GGAGGAGGGA ATGGACTTGA TATGGAGAGG GTAGGGAGGTGGACTGCCTCT ATGGCCTGT AAGAAAAACT GCTCTCTCCA AACTCTTTAT AAGAGAGGGA GCCTGTGAAG TATTCACTTTTGAAGGAGAA AGTTAGACTT TTCCTTCACA CACTTTGTAC ATAATAATGT TTAAAAAAGC ATGAGGTCAAAATACATAAT TAAGTCCTAG CAGTTCTCTG TTAACTAATT TGAGACTGAA GTGCTATGTA CTTGTCTCTA GGCTTCCAGTATCTTCATCT GTAAAACAGA ATATTTGGTC TAGATTCCAT TAGAATCATT TGATAACTTA AAAAATATAT TGATGCTCATGTCTCATTTC TTGAGATTCT GATTTAATTG GTTTGGGGTG CAGCCTGGGT ATACGTATTT TTCATAGGTC TTTCACATAATGGTAATGGG TAGCCAATAT TGAGAATCAC TTGTCTAGGT GATCTTTAAA TGATTTCTGG ATGTAATATT CTGAGGCTCTATAATTTGAG ACTAATCACA AAAATCGGTA CAGTTTATAA ACAGACTAAC AGAACCACAA AATAATAGAATTGGAAGGCA ATTTAACTAG TGCAATTTCT TCATTTTGCC TAACAGGCAT GTAAGAAATG ATGATTGATT GAGTAATAGGCATTGATGAC CCCTGTCCTC ACTTTGTCCC CTTTCCACCC CTTAATTATA TGTGAATTCT GGTCTTGTCA TTTCGAATAAGGGGTTTATC TTTCCTATTG TCTTCCCCTC TGGGCACGGC ACACTGGCTA CTGGAGTTAA GAGGAAATGC TTAGGACTCCCTGTGGCTCC AGGGAGCACC AACAGAGCAA CTCAACCTAG TGTTAATCTG AGTGTTTTCT CTGTGCTTCT GGATGCCACATCACGCTAAA AATGAAGGAC AAAGCTTGGT CTTTCTCTTA GGGAGGATGA AACTCTGAAC CTCATTTTTC AGTTCCCAAGATGAATTATG TTTCTCATTG CATCTGTGTT CCACTACAGC TCCGCGTGAG AAGTACTGGC TACAATTTTT TATCCCATTGTTGGTGGTGA TTCTGTTTGC TGTGGACACA GGATTATTTA TCTCAACTCA GCAGCAGGTC ACATTTCTCT TGAAGATTAAGAGAACCAGG AAAGGCTTCA GACTTCTGAA CCCACATCCT AAGCCAAACC CCAAAAACAA CTGATATAATTACTCAAGAA ATATTTGCAA CATTAGTTTT TTTCCAGCAT CAGCAATTGC TACTCAATTG TCAAACACAG CTTGCAATATACATAGAAAC GTCTGTGCTC AAGGATTTAT AGAAATGCTT CATTAAACTG AGTGAAACTG GTTAAGTGGCATGTAATAGT AAGTGCTCAA TTAACATTGG TTGAATAAAT GAGAGAATGA ATAGATTCAT TTATTAGCATTTGTAAAAGA GATGTTCAAT TTCAATAAAA TAAATATAAA ACCATGTAAC AGAATGCTTC TGAGTATTCAAGGCTTGCTA GTTTGTTTGT TTGTTTTCTA CTAAAGGCAA GGACCATGAA GTTCTAGATT GGAAATGTCC TCTCTTGACTATTGCAAGTG CGATCTAGGA ATGAAAAGAC ATAGGAGGAT GCCAGTGAGG TGGATCATTT TTATGCTTCT TCTTCAGCTTACTAAATATG AACTTTCAGT TCTTGGCAGA ATCAGGGACA GTCTCAAGAC ATAGGACTCT CAGGATGAAGTAGAGTCCAG GATTCCTCTG TGATTGTTTT GCCCCTCCCA AATTTATATC TTGAACTTAT GTCTTGTATC TTTATACAGCACCTGAACCA AGCATTTTGG AGAAATTCCA GCTAATAATA ATAACCAAAA CCTTCGGCTC TGAAAACAGTCCAGGACTGA ATAAGATCTT GGGCAAAAGA ACTAGACAGT TTTGGTTTAT TTTCCCTTTC ATTTTATGTC TTCATCATAGTCATTGGAGG CTCATTCTTC TTGTCATGGA GTAAATGGGA TTAAAGTTC TACTAAGAGT CTCCAGCATCCTCCACCTGT CTACCACCGA GCATGGGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACA GTAAGCACCAGGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTC GCTCCAGATGGCGTGTTAGC AGTCCCTCAG AAACCTAAGG TCTCCTTGAA CCCTCCATGG AATAGAATAT TTAAAGGAGAGAATGTGACT CTTACATGTA ATGGGAACAA TTTCTTTGAA GTCAGTTCCA CCAAATGGTT CCACAATGGC AGCCTTTCAGAAGAGACAAA TTCAAGTTTG AATATTGTGA ATGCCAAATT TGAAGACAGT GGAGAATACA AATGTCAGCACCAACAAGTT AATGAGAGTG AACCTGTGTA CCTGGAAGTC TTCAGTGACT GGCTGCTCCT TCAGGCCTCTGCTGAGGTGG TGATGGAGGG CCAGCCCCTC TTCCTCAGGT GCCATGGTTG GAGGAACTGG GATGTGTACAAGGTGATCTA TTATAAGGAT GGTGAAGCTC TCAAGTACTG GTATGAGAAC CACAACATCT CCATTACAAATGCCACAGTT GAAGACAGTG GAACCTACTA CTGTACGGGC AAAGTGTGGC AGCTGGACTA TGAGTCTGAGCCCCTCAACA TTACTGTAAT AAAAGCTCCGCGTGAGAAGT ACTGGCTACA ATTTTTTATC CCATTGTTGG TGGTGATTCTGTTTGCTGTG GACACAGGAT TATTTATCTC AACTCAGCAG CAGGTCACAT TTCTCTTGAA GATTAAGAGAACCAGGAAAG GCTTCAGACT TCTGAACCCA CATCCTAAGC CAAACCCCAA AAACAACTGA TATAATTACTCAAGAAATAT TTGCAACATT AGTTTTTTTC CAGCATCAGC AATTGCTACT CAATTGTCAA ACACAGCTTG CAATATACATAGAAACGTCT GTGCTCAAGG ATTTATAGAA ATGCTTCATT AAACTGAGTG AAACTGGTTA AGTGGCATGTAATAGTAAGT GCTCAATTAA CATTGGTTGA ATAAATGAGA GAATGAATAG ATTCATTTAT TAGCATTTGTAAAAGAGATG TTCAATTTCA ATAAAATAAA TATAAAACCA TGTAACAGAA TGCTTCTGAG TAAAAAAAAAAAAAAAAAAA AAAAAAAA TCTCAATATA ATAATATTCT TTATTCCTGG ACAGCTCGGT TAATGAAAAAATGGACACAG AAAGTAATAG GAGAGCAAAT CTTGCTCTCC CACAGGAGCC TTCCAGTGTG CCTGCATTTGAAGTCTTGGA AATATCTCCC CAGGAAGTAT CTTCAGGCAG ACTATTGAAG TCGGCCTCAT CCCCACCACTGCATACATGG CTGACAGTTT TGAAAAAAGA GCAGGAGTTC CTGGGGGTAA CACAAATTCT GACTGCTATGATATGCCTTT GTTTTGGAAC AGTTGTCTGC TCTGTACTTG ATATTTCACA CATTGAGGGA GACATTTTTT CATCATTTAAAGCAGGTTAT CCATTCTGGG GAGCCATATT TTTTTCTATT TCTGGAATGT TGTCAATTAT ATCTGAAAGG AGAAATGCAACATATCTGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGG GAATTACCATCCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATT TTTTGAGACC AAGTGCTTTATGGCTTCCTT TTCCACTGAA ATTGTAGTGA TGATGCTGTT TCTCACCATT CTGGGACTTG GTAGTGCTGT GTCACTCACAATCTGTGGAG CTGGGGAAGA ACTCAAAGGA AACAAGGTTC CAGAGGATCG TGTTTATGAA GAATTAAACATATATTCAGC TACTTACAGT GAGTTGGAAG ACCCAGGGGA AATGTCTCCT CCCATTGATT TATAAGAATC ACGTGTCCAGAACACTCTGA TTCACAGCCA AGGATCCAGA AGGCCAAGGT CTTGTTAAGG GGCTACTGGA AAAATTTCTATTCTCTCCAC AGCCTGCTGG TTTT AAGCTTTTCA AAGGTGCAAT TGGATAACTT CTGCCATGAG AAATGGCTGAATTGGGACAC AAGTGGGGAC AATTCCAGAA GAAGGGCACA TCTCTTTCTT TTCTGCAGTT CTTTCTCACC TTCTCAACTCCTACTAAAAT GTCTCATTTT CAGGTTCTGT AAATCCTGCT AGTCTCAGGC AAAATTATGC TCCAGGAGTC TCAAATTTTCTTATTTCATA TTAGTCTTTA TTTAGTAGAC TTCTCAATTT TTCTATTCAT CACAAGTAAA AGCCTGTTGA TCTTAATCAGCCAAGAAACT TATCTGTCTG GCAAATGACT TATGTATAAA GAGAATCATC AATGTCATGA GGTAACCCATTTCAACTGCC TATTCAGAGC ATGCAGTAAG AGGAAATCCA CCAAGTCTCA ATATAATAAT ATTCTTTATT CCTGGACAGCTCGGTTAATG AAAAAATGGA CACAGAAAGT AATAGGAGAG CAAATCTTGC TCTCCCACAG GAGCCTTCCAGGTAGGTACA AGGTATTATT TTTTTCTACC CTCAGTCACT TGTGGCAGGG GAAGTCATAG TCACGGTGCT TAGGAGATGAAACTTTATTG ATTTAGGCAT GGATCCATCT AGTTTAATTA ATATATTGGG TATGAGGAAG CTACTTGCTG TACTTTCCATGTGGTTCTCT CTCCCTGGAG AGGAACATTT TTACTCAGCT TGCAAACTGG AAATAGATTT TCTCACATTA GAAGCTCATTTTCTGGGTAT GAGACAGGAG AGTTCATACT GTGTATGTAG ATCTCTGGCT TCTGGGTCTG ACATGTGCTG AGGGACACATATCCTTCACA CATGCTTTTA TAAATACTTG ATAAAGTAAC CTGCTTCTTG ATTGGTCTTT ATAATCCATA AGCTGTGGGATGCTTCTCTG AAGATGAAAA TAGTAATAGA GTCCCATCTA GCTATTCAAA GCCATTCCTT CATTGTATTC TGTGCACATGAAGTTGGGGT TTGTTACTGA CAAAATATAT TCAGATACAT TTCTATGTTA AAAGGATTGT GAGATGCATA GGTAAATGTGTTTATTTTCA GTTTTACTTG TCAACATAGA TGAATGAGAA AGAACTTGAA AGTAACACTG GATTAAGAAT AGGAAAATTTGGCATGGATT TTGCTCCATT TTGTCCCATC TAATCACTTG GATAGTGTTC AGGTGTTCTT GGTCAGTTAC TTGGATGCTCTGAGCTTTAG TTTCTTGGTG ATTACAATGA AGATTTGAAT TACAGGATGG CTTTGAAAAA ATAAACAAAA CTCCCCTTTCTGTCTGTCGA GAATGTTGCA CAGGGAGTTA CAGAATGTTC TCATGACTGA ATTGCTTTTA AATTTCACAG TGTGCCTGCATTTGAAGTCT TGGAAATATC TCCCCAGGAA GTATCTTCAG GCAGACTATT GAAGTCGGCC TCATCCCCAC CACTGCATACATGGCTGACA GTTTTGAAAA AAGAGCAGGA GTTCCTGGGG GTGAGTGAGC CTCCTCCAAC TTTGACTAGAGTAAGGGTTG GGTCTAGAAA AGAATATTGA GTTGCATCAA CTGTTTTCCC ACTTGGATTC ATGAGAGGTG TTAGGTCCTTTAAAAAACAT GGTAGATAAA GAGTTGACAC TAACTGGGTC CTTTTGGGAA GAGCCAGAAG CATTTCCTCATAAAGACTTT AAATTGCTAG GACGAGAATG GCCAACAGGA GTGAAGGATT CATAACTTTA TCTTTACTTAGATGTAAAGA ACAATTACTG ATGTTCAACA TGACTACATA CATAAAGGCG CATGGAGAAA AGTATTGGCCTTCCATGCAT TAGGTAGTGC TTGTATCAAT TCTTATAGTG GCTAGGGTAT CCTGGAAAAT CTTACGTGTG GATCATTTCTCAGGACAGTC TAGGACACTA ACGCAGTTTC TCATGTTTGG CTTCTATTAT TAAAAAATGA TACAATCTCG GGAAAATTTTTTTGATTTTC ATGAAATTCA TGTGTTTTTC TATAGGTAAC ACAAATTCTG ACTGCTATGA TATGCCTTTG TTTTGGAACAGTTGTCTGCT CTGTACTTGA TATTTCACAC ATTGAGGGAG ACATTTTTTC ATCATTTAAA GCAGGTTATC CATTCTGGGGAGCCATATTT GTGAGTATAT ATCTATAATT GTTTCTGAAA TAACACTGAA CATAGGTTTT TCTCTTTCTC AGATCTAACCAGTTGTTTAT TCCCAGTATT AAGATGATAT TTATAATTCT TAATTATAAA TATATGTGAG CATATATAAC ATAGATATGCTCATTAACAA CAACAAAAGA TTCTTTTTAC AATTAACGGT GGGTTAAACA TTTAGCCCAC AGTTTTATCC CATGAGAAACCTGAATCTAA TACAAGTTAA ATGACTTGCC TAAGGGCCAC TTGACTAATA GTAATTGAAC CTAAACTTTCAGAATCCAAC TCCAGGAACA TACTTCTAGC ACTATTCATC AATAAAGTTA TATGATAAAT ACATACAACT TTATCTGTCAACTAAAAATA ACAACAGAGG CTGGGCATGG TGGCTCACAC CCGTAATCCC AGCACTTTGG GAGGCTGAGGCAGGTGGATC ACCTGAGGTC AGGAGTTTGA GACCAGCCTG ACCAACATGG TGAAACCTCA TCTCTACTAAATATAAAAAA TTAGCTGAGT GTGATAGTGC ATACCTGTAA TCCAGCTACT TAAGAGGCTG AGGCAGGAGGCTTGTTTGAA CCTGGAAGGC AGAGGTTGCA GTGAGCTGAG ATTGTGCCAT TGCACTCCAG CCTGGGCAATAAGTGCGAAC TCTGTCTCAA AATAATAATA ATAATAATAG AAAATAAAGT TGTCTTCATG AAAAATGAGGAAAGAGATTG CTGGGGTGAG AAACATTAAG ATCAATGGGC ATATGGTGAC CTTCTATGCC CTAGAAACTCTTTTANGGTA TTTTCTCCTG GTATCTCTTT TACNCATCGT TCTATCTGGA AAAATAGGTG GATGAGTGAG ATAATAACGGTATATACTTT TTAAAGGTCT AATTGACATA TATAAATTGC AAGTATTTCA GATGTCAATT TGCTAACCTT GACACACATAGACACACATG AAAACATCAC CACATTAATA CAATGTATGT ATCCATCATT CCAAAAGCTT CCCTGTGTAT CTTTGTAACTCTTTCTTCCT CCCTCCACTC CTTGTCCTCT CGTTCCCAAG AAAACATTGA TCTGCTTCCT GTGAATATAA ATTAACTTACATTTTTTAGA GCTTTATATA AGTATGTTCT CTTTACTGTT TGTCTTCCTT CGCTGCACAG TTATTTTGAG ATTCTTCAAGTTTTTTCTTT ATATCGATAC TTCATTCACA AGAATATATT TTAATTCTAG ACTATGTCAC ATTGACTTTG TCGTCTGCTAAATCCTTAGT GCTCAGATGA CTTGTTCAGG ACTCTCCTTG AACCTGTACC TCTGTTANAT TGAAACTTGT CTCTACTGTCTTTTTATTTC AAACACAGCT TATTAGGTGT CTCTCAACCC ATCAAACNCA CAATCTGAGT CTTTAGGAGA TTGCTTTGAATTTGTGCTAT TGACTTATAT NTATATNAAA TNTGTAAATG TTTGGTAAAA ATATCATCAT GTACNTTTTC ATAATTACGCTATNTNCACA TGATATATGT CAGACTCTGG AAATATGCAT GCCACAGACA CGTGTTTCTT GCCTAAAGGGGCTGATGGAA GACNCACATA CNAATAGACG ATTGCAGTAG AATGAGAGTG GTGGTCTAAN CAGTACATGTCCTGATGTTG CTCGGACAGT TACTACNCCA AGAGTACCCC CTGCATTGTC AGGGTTAGCA TCTCCTGGAA GCCTCATGTAAATGAAGAAT TTCATGCTCC ATCCAGGACC TAATGAATAA GAATCTGCAT TTTAGCAAGA CCCTCATATG ATTCATATACACTTTTTTTT TTTTTTTTTA GATGGAGTCT CACTCTTGTC GCCCAGGCTG GAGTGCAATG GCATGATCTT GGCTCACTGCAACCTCTGCC TCCCGGGTTC AAGTGATTCT CCTGTCTCAG CCTCCCTAGT AGCTGGGACT ACAGGTGCAT GCCACAGTGGCTGGCTAATT TTTGTATTTT TAGTAGAGAC AGGGTTTCAC CATTTTGGTC AGGCTGGTCT TGAACTCATG ACCTCCGGTGATTCCCCCGC CTCGGCTTCC CAAAGTGCTG GGATTACAGA CATGAGCCAC CACACCCGCC TTATTCGTAT ACNCATTTAATTCTGAGAAG CACTCTATAG AAAATAAGAA TAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAACTTTATCGAGT ACCCCAAATT TTACCTATGT TTGGAAGATG GGGTTAAAAG GACACATTGA AAACAAGAACTCATTGTGGC TTTTTTTTCC TCCTTTTTGA ACAGTTTTCT ATTTCTGGAA TGTTGTCAAT TATATCTGAA AGGAGAAATGCAACATATCT GGTGAGTTGC CCGTTTCTGT CTTTGTCCAT CCTTGAAAAG ATAAGAAGAA CAGAGTTTTA AGAGTCTTAAGGGAAACACA TCTTTGTCTC CTATATTACT TGTGAATGTG GATATATGAT TTTGTTTCAA TCTATTTTGT GTCCTAAGGCTTTTTGCAAC AGAAGTTGGA TATATCATTA GAAACATAAA TTGTACCATT TAACATACAT GAAGTTTATG TTTACCTTGACGTTCTTCTA AAAAGTGTCC TACACCGGCA TTGTCCTTGT AGGCATATTC ACATGATCAA ATAAAATAAT TAGTTTTCAATTAAGGAGAA TATTTGAGGA AAGACCGTAC GTGTTCATGT GGTTCCTGAA GGCAGTCCAG TGAGAAAGTAATATATGCTT CATTAAACAA TGCGGACATT TTCAGGGTTT CCCTTTTTAA CCAAAATTTG GAAGCAATGT GGAATTTACTGGATGCATCC AGCCCTGAAA TGAAGATAGG TTTATTGAAT GTGCCAGCAA GTGCAGGCCC AGGTCTGAGTGTTCTTCATT ATTATCAGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGGGAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATTTTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGTA TGTATTTTTT TTTGTGTGGG AAGACTAAGA TTCTGGGTCCTAATGTAAGT AAGAAGCCCT CTTCTCCTGT TCCATGAACA CCATCCTTTT CTGTAACTTC TATTACACAG TATAGTGGTTCTGTAAGTTC ACACAGCCCA GGGAGATGCT GGCTGCCCAC TCCCCTCAAC CCAGGCAAAT TCCTCGGGGTTAAAGTTATC TACTGCAAGT GACGATCTCT GGGTTTTTCT GTGCCTGTGT TTGTGTGTGT GTGTGTGTGT GTGTGTGTGTGTATGTGTCA CTTTAAAAGG ACTGGTCAGA TGGTAGGGAG ATGAAAACAG GAGATGCTAT AAGAAAATAAACTTTTGGGG CGAATACCAA TGTGACTCTT TTTGTTTGTC ATTTGTTGCT GTTCAATAGG AAATTGTAGT GATGATGCTGTTTCTCACCA TTCTGGGACT TGGTAGTGCT GTGTCACTCA CAATCTGTGG AGCTGGGGAA GAACTCAAAGGAAACAAGGT AGATAGAAGC CCGATATAAA ATCTTGAATG ACAGGTTAAC GAATTGGAGC TTTATTCCTTAAAATATGGC CTGGGTTTTC TGAAACATTT CTTCCAGAAA ATAGTTTCTC CAAGTTTTAT TACTTTGGTT TACAAATCTCACATTTAAAT CACATTTTAT ACCATAAGTA GCACACATTT CATAATATTC CTCTGAATGA GGGTTGGGAT AATAGGACTGATATGTTAGA AATGCCTTAA AGTGTGTGGA GCATGAGAGA TGGATGTACA GAAGGCTTGT GAGGAAACCACCCAGGTATC TGGCCTTGTT TTCTGCCCCA GAACTAGCCG CCTATTCCTG TTTCTGTTTT ATTCCTTTGT TTCTTGACTTTTCCTTTCCA ACTTGCTCTA AAACCTCAGT TTTCTTTCCT TTCTGATTCA TGACTACCAA ATGTTTTCAC TTGCCTCACCCGTCCATTAC ACCTTTGATA AGAACCACCA GACCTTGTGC TCATGTACTT GCCCATGTCT GATGGAAGAA ACATACTCTCTCCATCTGTC CACTTTCCTG AGGCATTCAA GTCTAGCCAC CTTTTAAAAT CACTCTCCTC CAGGCTGGGC ACGGTGTCACGCCTGTAATC TCAGCACTTT GTGAGGCTGA GGAGGGCGGA TCACTTGAAG TCAGGAGTTC AAAACCAGCCTGGCCAAATG GCAAAACCAA ATCTTCTTCA ATTATAACCA AATCTTAAAC CAAATCTCTA CTAAAAAATACAACAAAACA AAACAACAAC AACAAAAACA GAAAAGGAAA CATTAGCCCA GCGTGGTGGC AGGTACCTGAGGTTCCAGAT ACTTGGGAGG CTGAAGCAGG AGAATCGCTT GAGCCCAAGA GATGGAGGTT GCAGTGAGCCGAGATCATGC CACTGCACCA CAGCCAGGGT GACAGAGCCA TACTTCCCAG CACATTGGGA GGCCAAAGCTGAAGAATAAT TTGAGGTGAG GATTTGGAGA CCAGCCTGGC CAACATGGTG AAACTCCGTC TGTACTAAAAATATAAAACT TAGTGGGGCA TGGGGGCACA CACCTGTAAT TTCAGCTACT TAGGAGGCTG AGGCAGGAGAATTGCTTGAA CCCGGGAGGC GGAAGTTGCA GTGAGCCAAG ATCGTGGCCA CTGCACTCCA GCCTGGGTGACATAGTGAGA TTCTGTCTCA AAAAAAATAA AAGAAATTTA AAAAATCACT CTCTTCCAAA GATAGATAAATAAGACAGCA GATATACTAA GGAATAACCT CACCAACTTG TCATTGACTG ACATGATTTC TTTTGGCCCA CTTGGCCAGCTAGTCTGGTT TGGTTTTCTG GAAATGAAAG AAATAATCAG AGTTTAATGA CAGAGAGCGT GAGACCCAGAAAGACAAAAG TAGATGAGGT AAGTCTCTTG AGCGAGACTT CTAGGGATGG GAAATTTGTG GTGATTGATATGAAATGATT TTTCCCTTAT CAGGTTCCAG AGGATCGTGT TTATGAAGAA TTAAACATAT ATTCAGCTAC TTACAGTGAGTTGGAAGACC CAGGGGAAAT GTCTCCTCCC ATTGATTTAT AAGAATCACG TGTCCAGAAC ACTCTGATTCACAGCCAAGG ATCCAGAAGG CCAAGGTTTT GTTAAGGGGC TACTGGAAAA ATTTCTATTC TCTCCACAGCCTGCTGGTTT TACATTAGAT TTATTCGCCT GATAAGAATATTTTGTTTCT GCTGCTTCTG TCCACCTTAA TATGCTCCTTCTATTTGTAG ATATGATAGA CTCCTATTTT TCTTGTTTTA TATTATGACC ACACACATCT CTGCTGGAAA GTCAACATGTAGTAAGCAAG ATTTAACTGT TTGATTATAA CTGTGCAAAT ACAGAAAAAA AGAAGGCTGG CTGAAAGTTGAGTTAAACTT TGACAGTTTG ATAATATTTG GTTCTTAGGG TTTTTTTTTT TTTTAGCATT CTTAATAGTT ACAGTTGGGCATGATTTGTA CCATCCACCC ATACCCACAC AGTCACAGTC ACACACACAT ATGTATTACT TACACTATAT ATAACTTCCTATGCAAATAT TTTACCACCA GTCAATAATA CATTTTTGCC AAGACATGAA GTTTTATAAA GATCTGTATA ATTGCCTGAATCACCAGCAC ATTCACTGAC ATGATATTAT TTGCAGATTG ACAAGTAGGA AGTGGGGAAC TTTTATTAAG TTACTCGTTGTCTGGGGAGG TAAATAGGTT AAAAACAGGG AAATTATAAG TGCAGAGATT AACATTTCAC AAATGTTTAGTGAAACATTT GTGAAAAAAG AAGACTAAAT TAAGACCTGA GCTGAAATAA AGTGACGTGG AAATGGAAATAATGGTTATA TCTAAAACAT GTAGAAAAAG AGTAACTGGT AGATTTTGTT AACAAATTAA AGAATAAAGTTAGACAAGCA ACTGGTTGAC TAATACATTA AGCGTTTGAG TCTAAGATGA AAGGAGAACA CTGGTTATGTTGATAGAATG ATAAAAAGGG TCGGGCGCGG AGGCTCACGC CTGTAATCCC AGCCCTTTGG GAGGCCGAGGTGGGCAGATC ACGAAGTCAG TAGTTTGAGA CCAGCCTGGC CAACATAGTG AAACCCCGTC TCTACTAAAAATACAAAAAA AAAATTAGCT GGGTGTGGTG GCAGTCACCT GTAGTCCCAG CTACTTGGGA GGATGAGGCAGGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCAGTGCAC TCCAGCCTTGGTGACAATGG GAGACTCCAT CTCAAAAAAA AAAAAAAAAA AAAAAAGATA AAAAGTCAGA AATCTGAAAAGTGGAGGAAG AGTACAAATA GACCTAAATT AAGTCTCATT TTTTGGCTTT GATTTTGGGG AGACAAAGGGAAATGCAGCC ATAGAGGGCC TGATGACATC CAATACATGA GTTCTGGTAA AGATAAAATT TGATACACGGTTTGGTGTCA TTATAAGAGA AATCATTATT AAATGAAGCA AGTTAACACT CTAAGAGAAT TATTTTGAGATAGAAGTGAA GCTAAGCTAA ACTTCACATG CCTATAATTG GAGGGAAAAA CTAAGGATAA AATCTAGCCTAGAAGATACA ATAATTAGTC ATAAACATGC ATTGTGAAAC TGTAGAGAGC AGGTAGCCCA AAATAGAGAAAGATTAGATA AAGAGAAAAT AAGTATCCAT CAGAGACAGT ATCTCTAGGC TTGGGCAAGA GAAAAGTCCACAGTGATAAG CAACTCCACC TAAGGCATGA ATATGCGGCA GAGAAAACAG CAATAGTGAA TGAATGCAAAAGGTGCTGAG CAAATTCCAC ACATGAGTAT TGTGCATGAG TAAATGAATA AAACATTTGC AAAGACCTTTAGAGAAAGAG AATGGGAGCA TATGTGCGAA ATAAGATAGT TGATTATGAA TAGAAGGTAG TGAAGAAAAGCAAGCTAAGA AAAAATTCTG TTTATAAAAG AAGGAAAAGA TAGTTTATGT TTTTAGCCTA AGTATAAGAGTCCTACAGAT GGACTGAAAA AAATCAGTCT GAGAGTATTA GTCACAATTA ATGAAATAAT TACATTTTATGTATTGAGGA TGCCAAGATT AAAAGGTGAC AGGTAGATGT TAATTTCCCT AGATTGTGAA AGTGATCACGACAATCACAC AACAAATAAT TAAGTGACTT GGTATGCTTT ATTTAATTGT AGGGCCTGAG GTTTTCCATT CTCATTTTTCTAAAATACAA TTTTGTTTCT CCAAATTTGA CAGCAGAATA AAAACCCTAC CCTTTCACTG TGTATCATGC TAAGCTGCATCTCTACTCTT GATCATCTGT AGGTATTAAT CACATCACTT CCATGGCATG GATGTTCACA TACAGACTCT TAACCCTGGTTTACCAGGAC CTCTAGGAGT GGATCCAATC TATATCTTTA CAGTTGTATA GTATATGATA TCTCTTTTAT TTCACTCAATTTATATTTTC ATCATTGACT ACATATTTCT TATACACAAC ACACAATTTA TGAATTTTTT CTCAAGATCA TTCTGAGAGTTGCCCCACCC TACCTGCCTT TTATAGTACG CCCACCTCAG GCAGACACAG AGCACAATGC TGGGGTTCTC TTCACACTATCACTGCCCCA AATTGTCTTT CTAAATTTCA ACTTCAATGT CATCTTCTCC ATGAAGACCA CTGAATGAAC ACCTTTTCATCCAGCCTTAA TTTCTTGCTC CATAACTACT CTATCCCACG ATGCAGTATT GTATCATTAA TTATTAGTGT GCTTGTGACCTCCTTATGTA TTCTCAATTA CCTGTATTTG TGCAATAAAT TGGAATAATG TAACTTGATT TCTTATCTGT GTTTGTGTTGGCATGCAAGA TTTAGGTACT TATCAAGATA ATGGGGAATT AAGGCATCAA TAAAATGATG CCAAAGACCAAGAGCAGTTT CTGAAGTCCT CCTTTTCATC AGCTCTTTAT CAAACAGAAC ACTCTATAAA CAACCCATAGCCAGAAAACA GGATGTAGGA ACAATCACCA GCACACTCTA TAAACAACCC ATAGCCAGAA AACAGAATGTAAGGACAATC ACCAGCCATC TTTTGTCAAT AATTGATGGA ATAGAGTTGA AAGGAACTGG AGCATGAGTCATATTTGACC AGTCAGTCCT CACTCTTATT TACTTGCTAT GTAAACTTGA GAAAGCTTTT TTCTCTTTGT GAACCTCAGGTTTTACATCT GAAAATGAGA AATTTGGAAC AAAAGATTCC TAACTGGTCT TTCTGTTCCC ATATTCTGTG ATTTTTCAATATTTAGGATT TTTGGTAATC ACAATTACTT AGTTTGTGGT TGAGATAGCA ACACGAATCA GAACTATTTG GTGGACATATTTTCAAAGGA GTAGCTCTCC ACTTTGGGTA AAGAAGTGAT GCNGGTCGTG GTGGCTCACG CCTGTAATCCCAGCACTTTA GGGAGGCCAA GGCGGGTGGA TCACGAGGTC AGGAGATCGA GACCATCCTG GCTAACACGGTGAAACCCCG TCTCTACTAA AAAATACAAA AAATTAGCCA GGCGTGGTGG CGGGCGCCTG TAGTCCCACGTACTCGGGAG GCTGAGGCAGGAGAATGGCA TGAACCAGGG AGGCGGAGCT TGCCGTGAGC CGAGATAGCGCCACTGCAGT CCCTCCTGGG CAAAAGAGCA AGACTGCGTC TCAAAAAAAA AAAAAAAAAA AAAAAAAGAAGTGTGTGGAG TAGCAGGACA CCTGCAACAA TAATATTTTT CTAAATCCCT CTGAAAAATG CTAATCAAAG GGTTTTTTTCCTAAAAATTG TCTTAGAAAT AAAATTTCCC CTTTGGGAGA CCGAGGCTGG CAGATCACGA GGTCAGGAGATAGAGACCAC GGTGAAACCC CGTCTCTACT AAAAATACTA AAAATTAGCC GGGGNGTGGT GGTGGGTACACCTGTAGTCC CAGCTACTTG GAGGCTGAGG CTGGAGAATC ACGTGAAC-3′(FRAG.NO：_)(SEQ.ID NO：2505)

5′-AACAAGAAAA GCGTTGGTAG CTCTGGTGAA TCCCAAAAGA ATGTGGCAGT TGCTAGCCAT GCTCCTGAATATGTATAAAC AGTACATCAT ATGACTAAGA GTTTGACTTA GGGGTTAGAT TTTATGTGTT TGAACCCCAA ATTAGTTATTTAATAGTTGG CACCCCAAAA CAAGTTACTT AACCTCACTA AGGTTCAGTT TTCCTGTTTA TAAAATGTAG ATAGTGATAGTATGTACTTT ATAGGATTAT TGTGAAAAAT AAATGAAATA TCAGATTTAT TTAGGATAAC ACCTGGCATA TGTTTGGTATTCAGAATTAG TTGCTGCTGT TTTATTCTGC TCTCCCTTGC ATCCCACTTT TCTAAGTTGT AAACTAAATA GTTGTACACAGATTGACAGA TTAAGAAAGG CTTGTGATTG TGCTAGACCT ATGCCTATGC CTCTGTCTCA CCAGATTCCA GGTGTATATGTGGAGGTGGG ATAGGGAGTG GAGTAAGTGG GTAAATATTA AATTGCCCAG TTGGGCACCA TCCTGAATATTATCTCTAAA GAAAGAAGCA AAACCAGGCA CAGCTGATGG GTTAACCAGA TATGATACAG AAAACATTTCCTTCTGCTTT TTGGTTTTAA GCCTATATTT GAAGCCTTAG ATCTCTCCAG CACAGTAAGC ACCAGGAGTC CATGAAGAAGATG-3′(FRAG.NO：_)(SEQ.ID NO：2500)

5′-GATCTTCATG TGGAATGACT GGTTTCATTC AATAGACTTA ATTCAGCAGT CTGTGGGGAA GAGCAAGGTATGATAGAATG GTTCCTCAAG TGCTTCAGAT GTGAAGTGGG TTTAAATATA CTGTCCCTGT CTTCTTCAGA GTTTTGGTAAAGATAAAATA GGACACTCAT TTAAAAGCAA TCTTTGCAAA TGACAAGCCA CTATAGACAT TAATAGAGTTTTCATTTCCA GTATTATCAT TAATATCAGA TCCTGGAAGA AGGTTGAGCC TTGACCTAGA GCAAAAAAACAGAAGAATTA GTAAAGGAAT CCTGGAGAAA GCCCCTGCTG TGTATTTAAA GGAGAAAGGG AGATCATGTTGGGAAATTAT AATATTAAAA GTAAACAAAA GCTAGGAAGT AAAATAAAAT AAATTATATG GCCTAGATCCCCATAAGTAA TGGTTTAACT TCTGCCTTCC TGTGTTCTGA GCCAGATTAG GGCACAGTAG AGAAAGAGGAGTCTCTGAAA ATGTTTCCAA TTTCGCTGGT CAGACAGCGG ATCATCAGTG AATCAGATGA AAATTTGTGG ATTTATGCACTAACTGATCA GCAGGAAATT AAACAAGAAA AGCGTTGGTA GCTCTGGTGA ATCCCAAAAG AATTTGGCAGTTGCTAGCCA TGCTCCTGAA TATGTATAAA CAGTACATCA TATGACTAAG AGTTTGACTT AGGGGTTAGA TTTTATGTGTTTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACT TAACCTCACT AAGATTCAGT TTTCCTGTTTATAAAATGTA GATAGTGATA GTATGTACTT TATAGGATTA TTGTGAAAAA TAAATGAAAT ATCAGATTTA TTTAGGATAACACCTGGCAT ATGTTTGGTA TTCAGTAATT AGTTGCTGCT GTTTTATTCT GCTCTCCCTT GCATCCCACT TTTCTAAGTTGTAAACTAAA TAGTTGTACA CAGATTGACA GATTAAGAAA GGCTTGTGAT TGTGCTAGAC CTATGCCTCTCTCTCACCAG ATTCCAGGTG TATATGTGGA GGTGGGATAG GGAGTGGAGT AAGTGGGTAA ATATTAAATTGCCCAGTTGG GCACCATCCT GAATATTATC TCTAAAGAAA GAAGCAAAAC CAGGCACAGC TGATGGGTTAACCAGATATG ATACAGAAAA CATTTCCTTC TGCTTTTTGG TTTTAAGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACAGTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTCGGTAAGTAGA GATTCAATTA CCCCTCCCAG GGAGGCCCAA ATGAATTTGG GGAGCAGCTG GGGTAGGAACCTTTACTGTG GGTGGTGACT TTTTCTAGGA CATGTGCAAA CTATTGGGCA TTTCCCAGGG ACTCTGTAGT GGAGCCAAGCTAGAAAGCAG AGGCAAGTGG GCTGAGCAAC ACCTAAGGAG GAAGCCAGAC TGAAAGCTTG GTTCCTTGCATTTGCTCTGG CATCTTCCAG AGTGCAAATT TCCTACCAAG GTAATGAGGG TAGAGGAGAG AAAGAAGCTCTTTCTTCCCC TGATTCTCAT TCCTGAAAAG ACGGTTGGTC CTTAAAATTC CATGGATGTA GATCTTATCC CCACACCCAGATTCTAGTCC TCTGGAGATA AAGAAGACTG CTGGACACTA ATGTATCCTC TCTGGACTTT TGCAGCTCCA GATGGCGTGTTAGCAGGTGA GTCCTCTGTT CTTGTTCCCT TGGTGTATCA ACATGTCTGG GCATTGCTTT CCTCTCACTA TTTTCTTCGTCCCATCACTT CTGCTTTCTA ATGAGCATGA ATCTGTTCCT TGGCCAGACT ACTTTCCCTC TCCACCTTGC CTTGTCTTTCTTTTTTTCCC TGATTCATTG CATTCTCTCA AGTCATTCTC TCCTCTGTTT TAGTCAATAA CCATGTCTGT TGCACATATACATGTCTCAT TCTCTCTCCT AGACACTTTG GCATGATCTC GCTCAATAAT TACATTATTA TTATTATTGC CATTTTATAATTGAGGATGC TGAAACTCAG TGATTTTCTG GTGGTTACAT GGCTAAGGAA CTGGATTTCA ACGTAAGTTC CTTGGATCTAAGTCCAGTTC TCTTCTGACT ATATCACCCT TTTGTTATCA CCATGTATCT ACTTCTTTGG TCTCTGTTCA AATTTGCACTACATCCCCTT GTTCCAGGAA GCCATTCAAG ACTGACTTTC TTAGTGCCTC TCACTACTTT CTGGAACTGA CATATGTTTTTCACTCTGTA TATACTTACA ATTAAATAGT CATAAATATT CAGAGCTTGG AGAAACCTTA TATTTCATCC AGTCCAGTAAATTTATCCAT CCATAATTCA CTCATTCATT CACATAATAA ATATTTAATG TAACAATGGT TGAACATGGC AGACAGTGTTTCTACCTCAA AAGAGATTGC AGTCCTCATT TACAGATACT GAATTGAAAT TAACAGAAGT AGAGTGAGTCAGCTCAAATC ACATAGTGAA TTGGTTTCTT TGTTTTTAAA TCTCCTGCAT ATGTGTCCTG TCTTTCTCCC TGTGTTGGGCGTTCCCTGGG GCACCAATAC TAATTTCTCC TTCCCCTAGA AATCAAAACA GGGTCTTATC ACCAACAGAATAAGGACAGG TTGACCACTG ATTGTCAGAA TATTGCTTCG TTTGTACTTT TAAGCCTAGA CAGTTTTCAA TGACTTTTTTTCTCTCTACA TGTCTTTTCA TATTTTTATC TTCTTGAAGT CCCTCAGAAA CCTAAGGTCT CCTTGAACCC TCCATGGAATAGAATATTTA AAGGAGAGAA TGTGACTCTT ACATGTAATG GGAACAATTT CTTTGAAGTC AGTTCCACCAAATGGTTCCA CAATGGCAGC CTTTCAGAAG AGACAAATTC AAGTTTGAAT ATTGTGAATG CCAAATTTGAAGACAGTGGA GAATACAAAT GTCAGCACCA ACAAGTTAAT GAGAGTGAAC CTGTGTACCT GGAAGTCTTCAGTGGTAAGT TCCAGGGATA TGGAAATACA GATCTCTCAT GTGAGGGATG GCTCATCTGA AGATGGGAAAAAACAGGTTA TTCCAAGGGT TAGGACACCA GAGTGGGATT CAAGGCCTCT CATTTTTAAG ACCCCTGCATTGGCTGGGCA CAGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCTG AGGCAGGTGG ATCACGAGGTCAGGAGATCG AGACCATCCG GCTAACATGG TGAAACCCCA TCTCTGCTAA AAAATATATA TATATAAAATTAGCCGGGCG TAGTGGTGGG CACCTGTAGT CCCAGGTACT CGGGAGGCTG AGGCAGGAGA ATGGTGTGAACCCAGGAGGT GGAGGTTGCA GTGAGCTGAG ATCACGCCAC TGCCCTCCAG CCTGGGCTAC AGAGCAAGACTCCGTCTCAA AAAATAAATA AATAAATAAA AAAGACCCCT GCATCTCTTT TCTTCTACCC CCTTCCCTTT TGATTACTTGTATGCCTTCT TTCAATATTC TAGTCATCTC TCAATATTAT TCCTCCACCC TATTTTCCTC TATCTTTTCT GCCTAGATTCAGGTATATAT TATGTGGTCA AACAGCATGA CATATATGTG AACATTTCAA AGAGCTGTGT ATCTGGAATAGGATCAAAAG GTTTGACTTA AAGTTTTGCT CTGCATAATC CATATGGCAG GACCTGAATA TTAGGTTGTA CTCTTCGTTATGAAACATAT CTGGGTACAT TTCCTTATGT CCTCTGTTGT TACTTAAGAA CACATATTTC ATGCTTGTTT CATTTTTATCACTCCTACTG CCAACAAATA GCATAGCATG CTTAGGCACA TGTGGCTTAA TTAGCAAATG TTGAATAAACAAATTAATGA TTTTGAATAG TGACCAATAG GTCTCTTTTA TACTCTATAT TTTTCTCTTG AGTGAAAAAA AATGTTTCAACCTCCATATG TAAATTCCAA ACACAAACTA AAGCAATGTA GAATAGCTTC TTTATTCCCT GGAGTAGGTTCTAGAGAAGT CCTAAAGGAT TGGTCCTAAA TTAATTATGC TTATTATGCT AGCGATATTT CCTTTCAAAA TTCTCCTTTAATGAATGCTT TTTAATTTTT ACAAAAGCAT TAACCATAGA ATGTGATTCT TGTCTTTCAC TGACTCATTA GTGACAAATATTTGTTGAGT ACCTACCAAC TCCTAAGTAT TGCTACCAAC TCCTAAATAC TGTGTTGGGC ATTCAGAATA GAATGTAGAACTAGACAGGG TCCCTGACTT CTTGGAGCAC AGAGCAGTAT GGGAAGAGGA CATTAAATAA AGAATTACATAAGTAATTAA TTTAAATTAT ACATGTTTTG AAGAAGTTTT TTTTTGACAA CTATAATTAA CACTAGAACT GGGAAGTTTCTATAAGGTAA GAGAGGACAA AATAGACACT CTCCTAAGCT AAAATTCCCA AGAAAGACTG TTTATTTTCCCCTAACTAAC TAGAACTAGC AACAGAAGAT CTGAAAGGAA TTCTGGCTTT CAAGTGTTCC ATGTATGGACTCATCAGGGA GGTCCGAGAG GCTTTGTGGC CCCAGACTGA CTTTTCAGGA GGGGAAAGGA TTTATCAATACACAAGACAG GCTCTAAGCA TTATTTTGTG CCCTTTAAAA ATCCACTTTA TGAGCCAAAA AGTGAGTTAA TGATAATTCATAGTTTCTGA CACATGCTCT ATGCGTGGCT CTCTTTTCTC TATTCATTCT CTCTCTCTTC ATTTATTGTT AAATAAATAATGTAATGAAT GTTCTTCAGA CTGGCTGCTC CTTCAGGCCT CTGCTGAGGT GGTGATGGAG GGCCAGCCCC TCTTCCTCAGGTGCCATGGT TGGAGGAACT GGGATGTGTA CAAGGTGATC TATTATAAGG ATGGTGAAGC TCTCAAGTACTGGTATGAGA ACCACAACAT CTCCATTACA AATGCCACAG TTGAAGACAG TGGAACCTAC TACTGTACGGGCAAAGTGTG GCAGCTGGAC TATGAGTCTG AGCCCCTCAA CATTACTGTA ATAAAAGGTG AGTTGGTAAAGGAAAGGAAA AGCATCCATA GCAGGGGAAG GAAGAGAGAA CTTCTGAGCC TGAGCAGTTG CAGCTTGTAGAAGGGGGGCA CCTGTGATAC ACTGGAAAGC CTACCAGACT TGCAATGAGG AGACCTGGGT GATAGTATATATCTCAATCT CTGTTTCAAA GCCTTGACTT GTTAAATGGT GATAGTAATA CCTGCTTGCA CTATGAAATT TTTATGAAGATTAATGTGGT AATATTTGTG AAATGACTTT GTAAACTGTT AAGCACTACC CAAGCATAAC AGATTGTGAT TACTATTTTGATCTCAAAGT CATCTGTTGC TCCTGGGGGA ACACTTATAT TTATCAAATT GAAAAAAAGT TTCAAAGTTGAATGAAGAAA GGATATAAAG AGCTTGAGGA GCCCATTCCA GCTTAGGAGG GCTGGGAAAG GAAACCAGCAAGTCAGTAAG CTGTGTGCCT GTGTATTGAG GGAGGAGGGA ATGGACTTGA TATGGAGAGG GTAGGGAGGTGGACTGCCTC TATGGCCTGT AAGAAAAACT GCTCTCTCCA AACTCTTTAT AAGAGAGGGA GCCTGTGAAG TATTCACTTTTGAAGGAGAA AGTTAGACTT TTCCTTCACA CACTTTGTAC ATAATAATGT TTAAAAAAGC ATGAGGTCAAAATACATAAT TAAGTCCTAG CAGTTCTCTG TTAACTAATT TGAGACTGAA GTGCTATGTA CTTGTCTCTA GGCTTCCAGTATCTTCATCT GTAAAACAGA ATATTTGGTC TAGATTCCAT TAGAATCATT TGATAACTTA AAAAATATAT TGATGCTCATGTCTCATTTC TTGAGATTCT GATTTAATTG GTTTGGGGTG CAGCCTGGGT ATACGTATTT TTCATAGGTC TTTCACATAATGGTAATGGG TAGCCAATAT TGAGAATCAC TTGTCTAGGT GATCTTTAAA TGATTTCTGG ATGTAATATT CTGAGGCTCTATAATTTGAG ACTAATCACA AAAATCGGTA CAGTTTATAA ACAGACTAAC AGAACCACAA AATAATAGAATTGGAAGGCA ATTTAACTAG TGCAATTTCT TCATTTTGCC TAACAGGCAT GTAAGAAATG ATGATTGATT GAGTAATAGGCATTGATGAC CCCTGTCCTC ACTTTGTCCC CTTTCCACCC CTTAATTATA TGTGAATTCT GGTCTTGTCA TTTCGAATAAGGGGTTTATC TTTCCTATTG TCTTCCCCTC TGGGCACGGC ACACTGGCTA CTGGAGTTAA GAGGAAATGC TTAGGACTCCCTGTGGCTCC AGGGAGCACC AACAGAGCAA CTCAACCTAG TGTTAATCTG AGTGTTTTCT CTGTGCTTCT GGATGCCACATCACGCTAAA AATGAAGGAC AAAGCTTGGT CTTTCTCTTA GGGAGGATGA AACTCTGAAC CTCATTTTTC AGTTCCCAAGATGAATTATG TTTCTCATTG CATCTGTGTT CCACTACAGC TCCGCGTGAG AAGTACTGGC TACAATTTTT TATCCCATTGTTGGTGGTGA TTCTGTTTGC TGTGGACACA GGATTATTTA TCTCAACTCA GCAGCAGGTC ACATTTCTCT TGAAGATTAAGAGAACCAGG AAAGGCTTCA GACTTCTGAA CCCACATCCT AAGCCAAACC CCAAAAACAA CTGATATAATTACTCAAGAA ATATTTGCAA CATTAGTTTT TTTCCAGCAT CAGCAATTGC TACTCAATTG TCAAACACAG CTTGCAATATACATAGAAAC GTCTGTGCTC AAGGATTTAT AGAAATGCTT CATTAAACTG AGTGAAACTG GTTAAGTGGCATGTAATAGT AAGTGCTCAA TTAACATTGG TTGAATAAAT GAGAGAATGA ATAGATTCAT TTATTAGCATTTGTAAAAGA GATGTTCAAT TTCAATAAAA TAAATATAAA ACCATGTAAC AGAATGCTTC TGAGTATTCAAGGCTTGCTA GTTTGTTTGT TTGTTTTCTA CTAAAGGCAA GGACCATGAA GTTCTAGATT GGAAATGTCC TCTCTTGACTATTGCAAGTG CGATCTAGGA ATGAAAAGAC ATAGGAGGAT GCCAGTGAGG TGGATCATTT TTATGCTTCT TCTTCAGCTTACTAAATATG AACTTTCAGT TCTTGGCAGA ATCAGGGACA GTCTCAAGAC ATAGGACTCT CAGGATGAAGTAGAGTCCAG GATTCCTCTG TGATTGTTTT GCCCCTCCCA AATTTATATC TTGAACTTAT GTCTTGTATC TTTATACAGCACCTGAACCA AGCATTTTGG AGAAATTCCA GCTAATAATA ATAACCAAAA CCTTCGGCTC TGAAAACAGTCCAGGACTGA ATAAGATCTT GGGCAAAAGA ACTAGACAGT TTTGGTTTAT TTTCCCTTTC ATTTTATGTC TTCATCATAGTCATTGGAGG CTCATTCTTC TTGTCATGGA GTAAATGGGA TTAAAGTTC-3′(FRAG.NO：_)(SEQ.ID NO：2501)

5′-TACTAAGAGT CTCCAGCATC CTCCACCTGT CTACCACCGA GCATGGGCCT ATATTTGAAG CCTTAGATCTCTCCAGCACA GTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGTGTGTAGCCTT ACTGTTCTTC GCTCCAGATG GCGTGTTAGC AGTCCCTCAG AAACCTAAGG TCTCCTTGAA CCCTCCATGGAATAGAATAT TTAAAGGAGA GAATGTGACT CTTACATGTA ATGGGAACAA TTTCTTTGAA GTCAGTTCCACCAAATGGTT CCACAATGGC AGCCTTTCAG AAGAGACAAA TTCAAGTTTG AATATTGTGA ATGCCAAATTTGAAGACAGT GGAGAATACA AATGTCAGCA CCAACAAGTT AATGAGAGTG AACCTGTGTA CCTGGAAGTCTTCAGTGACT GGCTGCTCCT TCAGGCCTCT GCTGAGGTGG TGATGGAGGG CCAGCCCCTC TTCCTCAGGT GCCATGGTTGGAGGAACTGG GATGTGTACA AGGTGATCTA TTATAAGGAT GGTGAAGCTC TCAAGTACTG GTATGAGAACCACAACATCT CCATTACAAA TGCCACAGTT GAAGACAGTG GAACCTACTA CTGTACGGGC AAAGTGTGGCAGCTGGACTA TGAGTCTGAG CCCCTCAACA TTACTGTAAT AAAAGCTCCG CGTGAGAAGT ACTGGCTACA ATTTTTTATCCCATTGTTGG TGGTGATTCT GTTTGCTGTG GACACAGGAT TATTTATCTC AACTCAGCAG CAGGTCACAT TTCTCTTGAAGATTAAGAGA ACCAGGAAAG GCTTCAGACT TCTGAACCCA CATCCTAAGC CAAACCCCAA AAACAACTGATATAATTACT CAAGAAATAT TTGCAACATT AGTTTTTTTC CAGCATCAGC AATTGCTACT CAATTGTCAA ACACAGCTTGCAATATACAT AGAAACGTCT GTGCTCAAGG ATTTATAGAA ATGCTTCATT AAACTGAGTG AAACTGGTTAAGTGGCATGT AATAGTAAGT GCTCAATTAA CATTGGTTGA ATAAATGAGA GAATGAATAG ATTCATTTAT TAGCATTTGTAAAAGAGATG TTCAATTTCA ATAAAATAAA TATAAAACCA TGTAACAGAA TGCTTCTGAG TAAAAAAAAAAAAAAAAAAAAAAAAAAA-3′(FRAG. NO：_) (SEQ.ID NO：2502)

5′-TCTCAATATA ATAATATTCT TTATTCCTGG ACAGCTCGGT TAATGAAAAA ATGGACACAG AAAGTAATAGGAGAGCAAAT CTTGCTCTCC CACAGGAGCC TTCCAGTGTG CCTGCATTTG AAGTCTTGGA AATATCTCCCCAGGAAGTAT CTTCAGGCAG ACTATTGAAG TCGGCCTCAT CCCCACCACT GCATACATGG CTGACAGTTTTGAAAAAAGA GCAGGAGTTC CTGGGGGTAA CACAAATTCT GACTGCTATG ATATGCCTTT GTTTTGGAACAGTTGTCTGC TCTGTACTTG ATATTTCACA CATTGAGGGA GACATTTTTT CATCATTTAA AGCAGGTTAT CCATTCTGGGGAGCCATATT TTTTTCTATT TCTGGAATGT TGTCAATTAT ATCTGAAAGG AGAAATGCAA CATATCTGGT GAGAGGAAGCCTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGG GAATTACCAT CCTGATCATC AACCTGAAGAAGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATT TTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGAAATTGTAGTGA TGATGCTGTT TCTCACCATT CTGGGACTTG GTAGTGCTGT GTCACTCACA ATCTGTGGAG CTGGGGAAGAACTCAAAGGA AACAAGGTTC CAGAGGATCG TGTTTATGAA GAATTAAACA TATATTCAGC TACTTACAGTGAGTTGGAAG ACCCAGGGGA AATGTCTCCT CCCATTGATT TATAAGAATC ACGTGTCCAG AACACTCTGATTCACAGCCA AGGATCCAGA AGGCCAAGGT CTTGTTAAGG GGCTACTGGA AAAATTTCTA TTCTCTCCACAGCCTGCTGG TTTT-3′(FRAG.NO：_)(SEQ.ID NO：2503)

5′-AAGCTTTTCA AAGGTGCAAT TGGATAACTT CTGCCATGAG AAATGGCTGA ATTGGGACAC AAGTGGGGACAATTCCAGAA GAAGGGCACA TCTCTTTCTT TTCTGCAGTT CTTTCTCACC TTCTCAACTC CTACTAAAAT GTCTCATTTTCAGGTTCTGT AAATCCTGCT AGTCTCAGGC AAAATTATGC TCCAGGAGTC TCAAATTTTC TTATTTCATA TTAGTCTTTATTTAGTAGAC TTCTCAATTT TTCTATTCAT CACAAGTAAA AGCCTGTTGA TCTTAATCAG CCAAGAAACT TATCTGTCTGGCAAATGACT TATGTATAAA GAGAATCATC AATGTCATGA GGTAACCCAT TTCAACTGCC TATTCAGAGCATGCAGTAAG AGGAAATCCA CCAAGTCTCA ATATAATAAT ATTCTTTATT CCTGGACAGC TCGGTTAATGAAAAAATGGA CACAGAAAGT AATAGGAGAG CAAATCTTGC TCTCCCACAG GAGCCTTCCA GGTAGGTACAAGGTATTATT TTTTTCTACC CTCAGTCACT TGTGGCAGGG GAAGTCATAG TCACGGTGCT TAGGAGATGA AACTTTATTGATTTAGGCAT GGATCCATCT AGTTTAATTA ATATATTGGG TATGAGGAAG CTACTTGCTG TACTTTCCAT GTGGTTCTCTCTCCCTGGAG AGGAACATTT TTACTCAGCT TGCAAACTGG AAATAGATTT TCTCACATTA GAAGCTCATT TTCTGGGTATGAGACAGGAG AGTTCATACT GTGTATGTAG ATCTCTGGCT TCTGGGTCTG ACATGTGCTG AGGGACACATATCCTTCACA CATGCTTTTA TAAATACTTG ATAAAGTAAC CTGCTTCTTG ATTGGTCTTT ATAATCCATA AGCTGTGGGATGCTTCTCTG AAGATGAAAA TAGTAATAGA GTCCCATCTA GCTATTCAAA GCCATTCCTT CATTGTATTC TGTGCACATGAAGTTGGGGT TTGTTACTGA CAAAATATAT TCAGATACAT TTCTATGTTA AAAGGATTGT GAGATGCATA GGTAAATGTGTTTATTTTCA GTTTTACTTG TCAACATAGA TGAATGAGAA AGAACTTGAA AGTAACACTG GATTAAGAAT AGGAAAATTTGGCATGGATT TTGCTCCATT TTGTCCCATC TAATCACTTG GATAGTGTTC AGGTGTTCTTGGTCAGTTAC TTGGATGCTCTGAGCTTTAG TTTCTTGGTG ATTACAATGA AGATTTGAAT TACAGGATGG CTTTGAAAAA ATAAACAAAA CTCCCCTTTCTGTCTGTCGA GAATGTTGCA CAGGGAGTTA CAGAATGTTC TCATGACTGA ATTGCTTTTA AATTTCACAG TGTGCCTGCATTTGAAGTCT TGGAAATATC TCCCCAGGAA GTATCTTCAG GCAGACTATT GAAGTCGGCC TCATCCCCAC CACTGCATACATGGCTGACA GTTTTGAAAA AAGAGCAGGA GTTCCTGGGG GTGAGTGAGC CTCCTCCAAC TTTGACTAGAGTAAGGGTTG GGTCTAGAAA AGAATATTGA GTTGCATCAA CTGTTTTCCC ACTTGGATTC ATGAGAGGTG TTAGGTCCTTTAAAAAACAT GGTAGATAAA GAGTTGACAC TAACTGGGTC CTTTTGGGAA GAGCCAGAAG CATTTCCTCATAAAGACTTT AAATTGCTAG GACGAGAATG GCCAACAGGA GTGAAGGATT CATAACTTTA TCTTTACTTAGATGTAAAGA ACAATTACTG ATGTTCAACA TGACTACATA CATAAAGGCG CATGGAGAAA AGTATTGGCCTTCCATGCAT TAGGTAGTGC TTGTATCAAT TCTTATAGTG GCTAGGGTAT CCTGGAAAAT CTTACGTGTG GATCATTTCTCAGGACAGTC TAGGACACTA ACGCAGTTTC TCATGTTTGG CTTCTATTAT TAAAAAATGA TACAATCTCG GGAAAATTTTTTTGATTTTC ATGAAATTCA TGTGTTTTTC TATAGGTAAC ACAAATTCTG ACTGCTATGA TATGCCTTTG TTTTGGAACAGTTGTCTGCT CTGTACTTGA TATTTCACAC ATTGAGGGAG ACATTTTTTC ATCATTTAAA GCAGGTTATC CATTCTGGGGAGCCATATTT GTGAGTATAT ATCTATAATT GTTTCTGAAA TAACACTGAA CATAGGTTTT TCTCTTTCTC AGATCTAACCAGTTGTTTAT TCCCAGTATT AAGATGATAT TTATAATTCT TAATTATAAA TATATGTGAG CATATATAAC ATAGATATGCTCATTAACAA CAACAAAAGA TTCTTTTTAC AATTAACGGT GGGTTAAACA TTTAGCCCAC AGTTTTATCC CATGAGAAACCTGAATCTAA TACAAGTTAA ATGACTTGCC TAAGGGCCAC TTGACTAATA GTAATTGAAC CTAAACTTTCAGAATCCAAC TCCAGGAACA TACTTCTAGC ACTATTCATC AATAAAGTTA TATGATAAAT ACATACAACT TTATCTGTCAACTAAAAATA ACAACAGAGG CTGGGCATGG TGGCTCACAC CCGTAATCCC AGCACTTTGG GAGGCTGAGGCAGGTGGATC ACCTGAGGTC AGGAGTTTGA GACCAGCCTG ACCAACATGG TGAAACCTCA TCTCTACTAAATATAAAAAA TTAGCTGAGT GTGATAGTGC ATACCTGTAA TCCAGCTACT TAAGAGGCTG AGGCAGGAGGCTTGTTTGAA CCTGGAAGGC AGAGGTTGCA GTGAGCTGAG ATTGTGCCAT TGCACTCCAG CCTGGGCAATAAGTGCGAAC TCTGTCTCAA AATAATAATA ATAATAATAG AAAATAAAGT TGTCTTCATG AAAAATGAGGAAAGAGATTG CTGGGGTGAG AAACATTAAG ATCAATGGGC ATATGGTGAC CTTCTATGCC CTAGAAACTCTTTTANGGTA TTTTCTCCTG GTATCTCTTT TACNCATCGT TCTATCTGGA AAAATAGGTG GATGAGTGAG ATAATAACGGTATATACTTT TTAAAGGTCT AATTGACATA TATAAATTGC AAGTATTTCA GATGTCAATT TGCTAACCTT GACACACATAGACACACATG AAAACATCAC CACATTAATA CAATGTATGT ATCCATCATT CCAAAAGCTT CCCTGTGTAT CTTTGTAACTCTTTCTTCCT CCCTCCACTC CTTGTCCTCT CGTTCCCAAG AAAACATTGA TCTGCTTCCT GTGAATATAA ATTAACTTACATTTTTTAGA GCTTTATATA AGTATGTTCT CTTTACTGTT TGTCTTCCTT CGCTGCACAG TTATTTTGAG ATTCTTCAAGTTTTTTCTTT ATATCGATAC TTCATTCACA AGAATATATT TTAATTCTAG ACTATGTCAC ATTGACTTTG TCGTCTGCTAAATCCTTAGT GCTCAGATGA CTTGTTCAGG ACTCTCCTTG AACCTGTACC TCTGTTANAT TGAAACTTGT CTCTACTGTCTTTTTATTTC AAACACAGCT TATTAGGTGT CTCTCAACCC ATCAAACNCA CAATCTGAGT CTTTAGGAGA TTGCTTTGAATTTGTGCTAT TGACTTATAT NTATATNAAA TNTGTAAATG TTTGGTAAAA ATATCATCAT GTACNTTTTC ATAATTACGCTATNTNCACA TGATATATGT CAGACTCTGG AAATATGCAT GCCACAGACA CGTGTTTCTT GCCTAAAGGG GCTGATGGAA GACNCACATA CNAATAGACG ATTGCAGTAG AATGAGAGTG GTGGTCTAAN CAGTACATGTCCTGATGTTG CTCGGACAGT TACTACNCCA AGAGTACCCC CTGCATTGTC AGGGTTAGCA TCTCCTGGAA GCCTCATGTAAATGAAGAAT TTCATGCTCC ATCCAGGACC TAATGAATAA GAATCTGCAT TTTAGCAAGA CCCTCATATG ATTCATATACACTTTTTTTT TTTTTTTTTA GATGGAGTCT CACTCTTGTC GCCCAGGCTG GAGTGCAATG GCATGATCTT GGCTCACTGCAACCTCTGCC TCCCGGGTTC AAGTGATTCT CCTGTCTCAG CCTCCCTAGT AGCTGGGACT ACAGGTGCAT GCCACAGTGGCTGGCTAATT TTTGTATTTT TAGTAGAGAC AGGGTTTCAC CATTTTGGTC AGGCTGGTCT TGAACTCATG ACCTCCGGTGATTCCCCCGC CTCGGCTTCC CAAAGTGCTG GGATTACAGA CATGAGCCAC CACACCCGCC TTATTCGTAT ACNCATTTAATTCTGAGAAG CACTCTATAG AAAATAAGAA TAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAACTTTATCGAGT ACCCCAAATT TTACCTATGT TTGGAAGATG GGGTTAAAAG GACACATTGA AAACAAGAACTCATTGTGGC TTTTTTTTCC TCCTTTTTGA ACAGTTTTCT ATTTCTGGAA TGTTGTCAAT TATATCTGAA AGGAGAAATGCAACATATCT GGTGAGTTGC CCGTTTCTGT CTTTGTCCAT CCTTGAAAAG ATAAGAAGAA CAGAGTTTTA AGAGTCTTAAGGGAAACACA TCTTTGTCTC CTATATTACT TGTGAATGTG GATATATGAT TTTGTTTCAA TCTATTTTGT GTCCTAAGGCTTTTTGCAAC AGAAGTTGGA TATATCATTA GAAACATAAA TTGTACCATT TAACATACAT GAAGTTTATG TTTACCTTGACGTTCTTCTA AAAAGTGTCC TACACCGGCA TTGTCCTTGT AGGCATATTC ACATGATCAA ATAAAATAAT TAGTTTTCAATTAAGGAGAA TATTTGAGGA AAGACCGTAC GTGTTCATGT GGTTCCTGAA GGCAGTCCAG TGAGAAAGTAATATATGCTT CATTAAACAA TGCGGACATT TTCAGGGTTT CCCTTTTTAA CCAAAATTTG GAAGCAATGT GGAATTTACTGGATGCATCC AGCCCTGAAA TGAAGATAGG TTTATTGAAT GTGCCAGCAA GTGCAGGCCC AGGTCTGAGTGTTCTTCATT ATTATCAGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGGGAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATTTTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGTA TGTATTTTTT TTTGTGTGGG AAGACTAAGA TTCTGGGTCCTAATGTAAGT AAGAAGCCCT CTTCTCCTGT TCCATGAACA CCATCCTTTT CTGTAACTTC TATTACACAG TATAGTGGTTCTGTAAGTTC ACACAGCCCA GGGAGATGCT GGCTGCCCAC TCCCCTCAAC CCAGGCAAAT TCCTCGGGGTTAAAGTTATC TACTGCAAGT GACGATCTCT GGGTTTTTCT GTGCCTGTGT TTGTGTGTGT GTGTGTGTGT GTGTGTGTGTGTATGTGTCA CTTTAAAAGG ACTGGTCAGA TGGTAGGGAG ATGAAAACAG GAGATGCTAT AAGAAAATAAACTTTTGGGG CGAATACCAA TGTGACTCTT TTTGTTTGTC ATTTGTTGCT GTTCAATAGG AAATTGTAGT GATGATGCTGTTTCTCACCA TTCTGGGACT TGGTAGTGCT GTGTCACTCA CAATCTGTGG AGCTGGGGAA GAACTCAAAGGAAACAAGGT AGATAGAAGC CCGATATAAA ATCTTGAATG ACAGGTTAAC GAATTGGAGC TTTATTCCTTAAAATATGGC CTGGGTTTTC TGAAACATTT CTTCCAGAAA ATAGTTTCTC CAAGTTTTAT TACTTTGGTT TACAAATCTCACATTTAAAT CACATTTTAT ACCATAAGTA GCACACATTT CATAATATTC CTCTGAATGA GGGTTGGGAT AATAGGACTGATATGTTAGA AATGCCTTAA AGTGTGTGGA GCATGAGAGA TGGATGTACA GAAGGCTTGT GAGGAAACCACCCAGGTATC TGGCCTTGTT TTCTGCCCCA GAACTAGCCG CCTATTCCTG TTTCTGTTTT ATTCCTTTGT TTCTTGACTTTTCCTTTCCA ACTTGCTCTA AAACCTCAGT TTTCTTTCCT TTCTGATTCA TGACTACCAA ATGTTTTCAC TTGCCTCACCCGTCCATTAC ACCTTTGATA AGAACCACCA GACCTTGTGC TCATGTACTT GCCCATGTCT GATGGAAGAA ACATACTCTCTCCATCTGTC CACTTTCCTG AGGCATTCAA GTCTAGCCAC CTTTTAAAAT CACTCTCCTC CAGGCTGGGC ACGGTGTCACGCCTGTAATC TCAGCACTTT GTGAGGCTGA GGAGGGCGGA TCACTTGAAG TCAGGAGTTC AAAACCAGCCTGGCCAAATG GCAAAACCAA ATCTTCTTCA ATTATAACCA AATCTTAAAC CAAATCTCTA CTAAAAAATACAACAAAACA AAACAACAAC AACAAAAACA GAAAAGGAAA CATTAGCCCA GCGTGGTGGC AGGTACCTGAGGTTCCAGAT ACTTGGGAGG CTGAAGCAGG AGAATCGCTT GAGCCCAAGA GATGGAGGTT GCAGTGAGCCGAGATCATGC CACTGCACCA CAGCCAGGGT GACAGAGCCA TACTTCCCAG CACATTGGGA GGCCAAAGCTGAAGAATAAT TTGAGGTGAG GATTTGGAGA CCAGCCTGGC CAACATGGTG AAACTCCGTC TGTACTAAAAATATAAAACT TAGTGGGGCA TGGGGGCACA CACCTGTAAT TTCAGCTACT TAGGAGGCTG AGGCAGGAGAATTGCTTGAA CCCGGGAGGC GGAAGTTGCA GTGAGCCAAG ATCGTGGCCA CTGCACTCCA GCCTGGGTGACATAGTGAGA TTCTGTCTCA AAAAAAATAA AAGAAATTTA AAAAATCACT CTCTTCCAAA GATAGATAAATAAGACAGCA GATATACTAA GGAATAACCT CACCAACTTG TCATTGACTG ACATGATTTC TTTTGGCCCA CTTGGCCAGCTAGTCTGGTT TGGTTTTCTG GAAATGAAAG AAATAATCAG AGTTTAATGA CAGAGAGCGT GAGACCCAGAAAGACAAAAG TAGATGAGGT AAGTCTCTTG AGCGAGACTT CTAGGGATGG GAAATTTGTG GTGATTGATATGAAATGATT TTTCCCTTAT CAGGTTCCAG AGGATCGTGT TTATGAAGAA TTAAACATAT ATTCAGCTAC TTACAGTGAGTTGGAAGACC CAGGGGAAAT GTCTCCTCCC ATTGATTTAT AAGAATCACG TGTCCAGAAC ACTCTGATTCACAGCCAAGG ATCCAGAAGG CCAAGGTTTT GTTAAGGGGC TACTGGAAAA ATTTCTATTC TCTCCACAGCCTGCTGGTTT TACATTAGAT TTATTCGCCT GATAAGAATA TTTTGTTTCT GCTGCTTCTG TCCACCTTAA TATGCTCCTTCTATTTGTAG ATATGATAGA CTCCTATTTT TCTTGTTTTA TATTATGACC ACACACATCT CTGCTGGAAA GTCAACATGTAGTAAGCAAG ATTTAACTGT TTGATTATAA CTGTGCAAAT ACAGAAAAAA AGAAGGCTGG CTGAAAGTTGAGTTAAACTT TGACAGTTTG ATAATATTTG GTTCTTAGGG TTTTTTTTTT TTTTAGCATT CTTAATAGTT ACAGTTGGGCATGATTTGTA CCATCCACCC ATACCCACAC AGTCACAGTC ACACACACAT ATGTATTACT TACACTATAT ATAACTTCCTATGCAAATAT TTTACCACCA GTCAATAATA CATTTTTGCC AAGACATGAA GTTTTATAAA GATCTGTATA ATTGCCTGAATCACCAGCAC ATTCACTGAC ATGATATTAT TTGCAGATTG ACAAGTAGGA AGTGGGGAAC TTTTATTAAG TTACTCGTTGTCTGGGGAGG TAAATAGGTT AAAAACAGGG AAATTATAAG TGCAGAGATT AACATTTCAC AAATGTTTAGTGAAACATTT GTGAAAAAAG AAGACTAAAT TAAGACCTGA GCTGAAATAA AGTGACGTGG AAATGGAAATAATGGTTATA TCTAAAACAT GTAGAAAAAG AGTAACTGGT AGATTTTGTT AACAAATTAA AGAATAAAGTTAGACAAGCA ACTGGTTGAC TAATACATTA AGCGTTTGAG TCTAAGATGA AAGGAGAACA CTGGTTATGTTGATAGAATG ATAAAAAGGG TCGGGCGCGG AGGCTCACGC CTGTAATCCC AGCCCTTTGG GAGGCCGAGGTGGGCAGATC ACGAAGTCAG TAGTTTGAGA CCAGCCTGGC CAACATAGTG AAACCCCGTC TCTACTAAAAATACAAAAAA AAAATTAGCT GGGTGTGGTG GCAGTCACCT GTAGTCCCAG CTACTTGGGA GGATGAGGCAGGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCAGTGCAC TCCAGCCTTGGTGACAATGG GAGACTCCAT CTCAAAAAAA AAAAAAAAAA AAAAAAGATA AAAAGTCAGA AATCTGAAAAGTGGAGGAAG AGTACAAATA GACCTAAATT AAGTCTCATT TTTTGGCTTT GATTTTGGGG AGACAAAGGGAAATGCAGCC ATAGAGGGCC TGATGACATC CAATACATGA GTTCTGGTAA AGATAAAATT TGATACACGGTTTGGTGTCA TTATAAGAGA AATCATTATT AAATGAAGCA AGTTAACACT CTAAGAGAAT TATTTTGAGATAGAAGTGAA GCTAAGCTAA ACTTCACATG CCTATAATTG GAGGGAAAAA CTAAGGATAA AATCTAGCCTAGAAGATACA ATAATTAGTC ATAAACATGC ATTGTGAAAC TGTAGAGAGC AGGTAGCCCA AAATAGAGAAAGATTAGATA AAGAGAAAAT AAGTATCCAT CAGAGACAGT ATCTCTAGGC TTGGGCAAGA GAAAAGTCCACAGTGATAAG CAACTCCACC TAAGGCATGA ATATGCGGCA GAGAAAACAG CAATAGTGAA TGAATGCAAAAGGTGCTGAG CAAATTCCAC ACATGAGTAT TGTGCATGAG TAAATGAATA AAACATTTGC AAAGACCTTTAGAGAAAGAG AATGGGAGCA TATGTGCGAA ATAAGATAGT TGATTATGAA TAGAAGGTAG TGAAGAAAAGCAAGCTAAGA AAAAATTCTG TTTATAAAAG AAGGAAAAGA TAGTTTATGT TTTTAGCCTA AGTATAAGAGTCCTACAGAT GGACTGAAAA AAATCAGTCT GAGAGTATTA GTCACAATTA ATGAAATAAT TACATTTTATGTATTGAGGA TGCCAAGATT AAAAGGTGAC AGGTAGATGT TAATTTCCCT AGATTGTGAA AGTGATCACGACAATCACAC AACAAATAAT TAAGTGACTT GGTATGCTTT ATTTAATTGT AGGGCCTGAG GTTTTCCATT CTCATTTTTCTAAAATACAA TTTTGTTTCT CCAAATTTGA CAGCAGAATA AAAACCCTAC CCTTTCACTG TGTATCATGC TAAGCTGCATCTCTACTCTT GATCATCTGT AGGTATTAAT CACATCACTT CCATGGCATG GATGTTCACA TACAGACTCT TAACCCTGGTTTACCAGGAC CTCTAGGAGT GGATCCAATC TATATCTTTA CAGTTGTATA GTATATGATA TCTCTTTTAT TTCACTCAATTTATATTTTC ATCATTGACT ACATATTTCT TATACACAAC ACACAATTTA TGAATTTTTT CTCAAGATCA TTCTGAGAGTTGCCCCACCC TACCTGCCTT TTATAGTACG CCCACCTCAG GCAGACACAG AGCACAATGC TGGGGTTCTC TTCACACTATCACTGCCCCA AATTGTCTTT CTAAATTTCA ACTTCAATGT CATCTTCTCC ATGAAGACCA CTGAATGAACACCTTTTCATCCAGCCTTAA TTTCTTGCTC CATAACTACT CTATCCCACG ATGCAGTATT GTATCATTAA TTATTAGTGT GCTTGTGACCTCCTTATGTA TTCTCAATTA CCTGTATTTG TGCAATAAAT TGGAATAATG TAACTTGATT TCTTATCTGT GTTTGTGTTGGCATGCAAGA TTTAGGTACT TATCAAGATA ATGGGGAATT AAGGCATCAA TAAAATGATG CCAAAGACCAAGAGCAGTTT CTGAAGTCCT CCTTTTCATC AGCTCTTTAT CAAACAGAAC ACTCTATAAA CAACCCATAGCCAGAAAACA GGATGTAGGA ACAATCACCA GCACACTCTA TAAACAACCC ATAGCCAGAA AACAGAATGTAAGGACAATC ACCAGCCATC TTTTGTCAAT AATTGATGGA ATAGAGTTGA AAGGAACTGG AGCATGAGTCATATTTGACC AGTCAGTCCT CACTCTTATT TACTTGCTAT GTAAACTTGA GAAAGCTTTT TTCTCTTTGT GAACCTCAGGTTTTACATCT GAAAATGAGA AATTTGGAAC AAAAGATTCC TAACTGGTCT TTCTGTTCCC ATATTCTGTG ATTTTTCAATATTTAGGATT TTTGGTAATC ACAATTACTT AGTTTGTGGT TGAGATAGCA ACACGAATCA GAACTATTTG GTGGACATATTTTCAAAGGA GTAGCTCTCC ACTTTGGGTA AAGAAGTGAT GCNGGTCGTG GTGGCTCACG CCTGTAATCCCAGCACTTTA GGGAGGCCAA GGCGGGTGGA TCACGAGGTC AGGAGATCGA GACCATCCTG GCTAACACGGTGAAACCCCG TCTCTACTAA AAAATACAAA AAATTAGCCA GGCGTGGTGG CGGGCGCCTG TAGTCCCACGTACTCGGGAG GCTGAGGCAG GAGAATGGCA TGAACCAGGG AGGCGGAGCT TGCCGTGAGC CGAGATAGCGCCACTGCAGT CCCTCCTGGG CAAAAGAGCA AGACTGCGTC TCAAAAAAAA AAAAAAAAAA AAAAAAAGAAGTGTGTGGAG TAGCAGGACA CCTGCAACAA TAATATTTTT CTAAATCCCT CTGAAAAATG CTAATCAAAG GGTTTTTTTCCTAAAAATTG TCTTAGAAAT AAAATTTCCC CTTTGGGAGA CCGAGGCTGG CAGATCACGA GGTCAGGAGATAGAGACCAC GGTGAAACCC CGTCTCTACT AAAAATACTA AAAATTAGCC GGGGNGTGGT GGTGGGTACACCTGTAGTCC CAGCTACTTG GAGGCTGAGG CTGGAGAATC ACGTGAAC-3′(FRAG.NO：_)(SEQ.ID NO：2504)

Human histidine decarboxylase nucleic acids and antisense oligonucleotide fragments

5′-TCT CCC TTG GGC TCT GGC TCC TTC TC TCT CTC TCC CTC TCT CTC TGT CGC CTC CGC CCT GGCTGC TGG GGT GGT GGT GC TTT TGT TCT TCC TTG CTG CC GCC CCG CTG CTT GTC T TC CTC G CTC TGT CCC TCTCTC TCT GTB CTC CTC BGG CTC CBT CBT CTC CCT TGG GC-3′(FRAG.NO：1700) (SEQ.ID NO：1711)

5′-GGC TCT GGC (FRAG.NO：1701)(SEQ.ID NO：1712)

5′-CCC TTG G (FRAG.NO：1702)(SEQ.ID NO：1713)

5′- TT TGT TCT TCC (FRAG.NO：1703)(SEQ.ID NO：1714)

-TCT CCC TTG GGC TCT GGC TCC TTC TC-3

(FRAG.NO：1024)(SEQ.ID NO：1034)

-TCT CTC TCC CTC TCT CTC TGT-3

(FRAG.NO：1025)(SEQ.ID NO：1035)

-CGC CTC CGC CCT GGC TGC TGG GGT GGT GGT GC-3

(FRAG.NO：1026)(SEQ ID NO：1036)

-TTT TGT TCT TCC TTG CTG CC-3

(FRAG NO：1027)(SEQ.ID NO：1037)

-GCC CCG CTG CTT GTC T TC CTC G-3

(FRAG NO：1028)(SEQ.ID NO：1038)

5' -CTC TGT CCC TCT CTC TCT GTB CTC CTC BGG CTC CBT CBT CTC CCT TGG GC (FRAG. NO: 1029) (SEQ. ID NO: 1039) human β tryptase nucleic acids and antisense oligonucleotide fragments

5′-CTT GCT CCT GGG GGC CTC CTG GTC CCT CCG GGT GTT CCC GGC GGG CCT GGC CTG GGG CBG GGG CCGCGT BGG CGC GGC TCG CCB GGB CGG GCB GCG CCB GCB GCB GCB GBT TCB GCB TCC TGG-3′ (FRAG.NO：1704)(SEQ.ID NO：1715)

5′-GCT CCT GGG GGC CT-3′(FRAG.NO：1705)(SEQ.ID NO：1716)

5′-CGT BGG CGC-3′ (FRAG.NO：1706)(SEQ.ID NO：1717)

5′-T GGC CTG GGG-3′(FRAG.NO：1707)(SEQ.ID NO：1718)

5

-CTT GCT CCT GGG GGC CTC CTG-3(FRAG.NO：1030)(SEQ.ID NO：1040)

5

-GTC CCT CCG GGT GTT CCC GGC-3(FRAG.NO：1031)(SEQ.ID NO：1041)

5-GGG CCT GGC CTG GGG CBG GGG CCG CGT BGG CGC GGC TCG CCB GGB CGG GCB GCG CCB GCB GCB GCBGBT TCB GCB TCC TGG-3(FRAG.NO：1032)(SEQ.ID NO：1042)

Human tryptase-I nucleic acids and antisense oligonucleotide fragments

5′-CTT GCT CCT GGG GGC CTC CTG GTC CCT CTG GCT G TT CCC GGC CCT GGB CTG GGG CBG GGG CCG CGTBGG CGC GGC TCG CCB GGB CGG GCB GCG CCB GCB GCB GCB GGC TCB GCB TCC TGG CCB CGG BBT TCC-3′ (FRAG.NO：1708)(SEO.ID NO：1719)

5′-CT CCT GGG GGC CTC CTG-3

(FRAG. NO：1709)(SEQ.ID NO：1720)

5′-B TCC TGG CCB CGG BBT TCC -3

(FRAG.NO：1710)(SEQ.ID NO：1721)

5′-GTC CCT C-3

(FRAG. NO：1711)(SEQ.ID NO：1722)

5-CTT GCT CCT GGG GGC CTC CTG-3

(FRAG.NO：1033)(SEO.ID NO：1043)

5

-GTC CCT CTG GCT G TT CCC GGC-3

(FRAG.NO：1034)(SEQ.ID NO：1044)

5

-CCT GGB CTG GGG CBG GGG CCG CGT BGG CGC GGC TCG CCB GGB CGG GCB GCG CCB GCB GCB GCB GGCTCB GCB TCC TGG CCB CGG BBT TCC -3

(FRAG.NO：1035)(SEQ.ID NO：1045)

Human prostaglandin D synthase nucleic acids and antisense oligonucleotide fragments

5′-GGT GTG CGG GGC CTG GTG CC CCT GGG CCT CGG GTG CTG CCT GT GCG CTG CCT TCT TCT CCT GG GTC CTCGCC GGG GCC CTT GCT GCC CTG GCT GT GCC CTG GGG GTC TGG GTT CGG CTG T CCC CBG CBG GBC CBG TCC CBTCCB CBG CGT GTG BTG BGT BGC CBT TCT CCT GCB GCC GBG-3′(FRAG.NO：1712)(SEO.ID NO：1723)

5′-T TCT CCT GCB GCC GBG -3

(FRAG.NO：1713)(SEQ. ID NO：1724)

5′-CTT GCT GCC CTG GCT GT-3

(FRAG.NO：1714)(SEQ.ID NO：1725)

5′-TCT TCT CCT GG-3

(FRAG.NO：1715)(SEO.ID NO：1726)

5

-GGT GTG CGG GGC CTG GTG CC-3(FRAG.NO：1036)(SEQ. ID NO：1046)

5

-CCT GGG CCT CGG GTG CTG CCT GT-3(FRAG.NO：1037) (SEQ.ID NO：1047)

5

-GCG CTG CCT TCT TCT CCT GG-3

(FRAG.NO：1038)(SEO.ID NO：1048)

5-GTC CTC GCC GGG GCC CTT GCT GCC CTG GCT GT-3(FRAG.NO：1039)(SEO.ID NO：1049)

5-GCC CTG GGG GTC TGG GTT CGG CTG T-3

(FRAG.NO：1040)(SEQ.ID NO：1050)

5-CCC CBG CBG GBC CBG TCC CBT CCB CBG CGT GTG BTG BGT BGC CBT TCT CCT GCB GCC GBG -3(FRAG.NO：1041)(SEQ.ID NO：1051)

Human cyclooxygenase-2 nucleic acids and antisense oligonucleotide fragments

5′-GGG CGC GGG CGB GCB TCG C TTT GGG CTT TTC TCC TTT GGT T TGB GCG CCB GGB CCG CGC BCB GCB GCBGGG CGC GGG CGB GCB TCG CBG CGG CGG GCB GGG-3′(FRAG.NO：1716)(SEQ.ID NO：1729)5′-G GCB GGG-3

(FRAG.NO：1717) (SEQ.ID NO：1730)

5′-TCC TTT GGT T-3

(FRAG.NO：1718)(SEQ.ID NO：1731)

5

-GGG CGC GGG CGB GCB TCG C-3

(FRAG.NO：1042)(SEQ.ID NO：1052)

5-TTT GGG CTT TTC TCC TTT GGT T-3

(FRAG.NO：1043)(SEQ.ID NO：1053)

5

-TGB GCG CCB GGB CCG CGC BCB GCB GCB GGG CGC GGG CGB GCB TCG CBG CGG CGG GCB GGG-3(FRAG.NO：1044) (SEQ.ID NO：1054)

Human eosinophil cationic protein nucleic acids and antisense oligonucleotide fragments

5′-CCT CCT TCC TGG TCT GTC TGC CBG BCB BBT TTG GGB BGT GBB CBG TTT TGG BBC CBT GTT TCC CBG TCTCTG BGC TGT GGC-3′ (FRAG.NO：1719)(SEQ.ID NO：1732)

5′-TTC TCC TTT GGT T-3

(FRAG.NO：1720)(SEQ.ID NO：1733)

5′-T TTC TCC TTT GGT T-3

(FRAG.NO：1721)(SEQ.ID NO：1734)

5

-GGG CGC GGG CGB GCB TCG C-3

(FRAG.NO：1042)(SEO.ID NO：1052)

5-TTT GGG CTT TTC TCC TTT GGT T-3

(FRAG.NO：1043)(SEQ.ID NO：1053)

5-TGB GCG CCB GGB CCG CGC BCB GCB GCB GGG CGC GGG CGB GCB TCG CBG CGG CGG GCB GGG -3

(FRAG.NO：1044)(SEQ.ID NO:1054)

Human eosinophil-derived neurotoxin nucleic acids and antisense oligonucleotide fragments

5′-GCC CTG CTG CTC TTT CTG CT TCC CTT GGT GGG TTG GGC C GCT GGT TGT TCT GGG GTT C TTG CTG CCCCTT CTG TCC C TGT TTG CTG GTG TCT GCG C 5

- CCC CBB CBG BBG BBG CBG BCB BBT TTG GGB BGT GBB CBG TTTTGG BBC CBT GTT TCC TGT-3′(FRAG.NO：1722)(SEQ.ID NO：1735)

5′-TTC CTG T-3(FRAG.NO：1723)(SEQ.ID NO：1736)

5′-CTC TTT CTG CT-3(FRAG.NO：1724)(SEQ.ID NO：1737)

5′-CCC CTT CTG TCC C-3

(FRAG.NO：1725)(SEQ.ID NO：1738)

-GCC CTG CTG CTC TTT CTG CT-3(FRAG.NO：1047)(SEQ.ID NO：1055)

-TCC CTT GGT GGG TTG GGC C-3

(FRAG.NO：1048)(SEQ.ID NO：1056)

-GCT GGT TGT TCT GGG GTT C-3

(FRAG.NO：1049)(SEQ.ID NO：1058)

-TTG CTG CCC CTT CTG TCC C-3

(FRAG.NO：1050)(SEQ.ID NO：1057)

-TGT TTG CTG GTG TCT GCG C-3

(FRAG.NO：1051)(SEQ.ID NO：1059)

-CCC CBB CBG BBG BBG CBG BCB BBT TTG GGB BGT GBB CBG TTT TGG BBC CBT GTT TCC TGT-3(FRAG.NO：1052)(SEQ ID NO：1060)

Human eosinophil peroxidase nucleic acids and antisense oligonucleotide fragments

5′-GCG CTC GGC CTG GTC CCG G GGG TCT CCT CTTGTT GTT GCTTG CGC CTC CTG CTG GGG GT CC CTCTGTTCT TGT TTT GGG GGC GGG CCC GGC CGT TGT CTT G GTT TGG GGG TTT CCG TTG GGG TTC TCC TGG CCC GGGCCT TGC CC GGC CGT GGT CCC GGC TTC GTTCCT GTC TCC GTC TCG GCT CTT CTG GGG CCT TGC GCT GTC TTTGGT G 5-GCB CCG TCC BGT GBT GGT GCG GTB CTT GTC GCT GCB GCG CTC GGC CTG GTC CCG GBG BGCCACCGCTCCT GTCAGCCAAC AAATATCCAT TGAGCGACAC CTGTGTCCCA GGTGCTGCTC TGGGCCCTGGGAGAAGTGCA TCAGTGGGCT TGGTAGTAGA GGGTAGGGAT GGAGTGAAGG GTAGGCAGGA AGAATGTCCCCAGGCTGGTA GGAGGTGGGG TGGGGGGTTT CAGTCTCAAA ACTCCCATGA AAACCAGAGA GAAGTTTCAGAACTCCACCC AAGAGGCTGG GTTTCTAGGG CCCAGAGCTG CCCTCCCCCA CCCTAGAATG GGCTATAAAAGTCCCTTCCC AGCTACGTCC AGAGAAGAGC TGGAGGAAGT GAGAGGTCGG CTGGGGGTCC TCAAAGTGAGAGGGGAGCAG AGGATCCTCC CGTGCAGGCT GTGGATGTCA CTCACTTCCC AGCTGGTGAA GCCTCGCTGCAGAGATGCAT CTGCTCCCAG CCCTGGCAGG GGTCCTGGCC ACACTCGTCC TCGCCCAGCC CTGTGAGGGCACTGACCCAG GTAATAGTCC CCTAGACAGG CAAGGAGGAG GGAGGGGAAA TGGAAGGGGA AGCACTTGGGTCTTGGAGGG GGTCTTGTGG CTTGCTGAAC CCTGAGTCCC CATCTCTTTG ACAGCCTCC CCTGGGGCAG TGGAGACCTCGGTCCTGCGA GACTGCATAG CAGAGGCCAA GTTGCTGGTG GATGCTGCCT ACAATTGGAC CCAGAAGAGGTGGACTTGGG TCTGGGGGCT GCATGGGCCT GGGAGGATCA GT TAATACCTTG TGGGGTCAGG GAGCCCATGTCCCGTGCTGA TGTTATTTCC CCACCAGGTC CGGGCTGTCT CCAACCAGAT TGTGCGCTTC CCCAATGAGA GACTGACCTCCGACCGTGGC CGAGCCCTCA TGTTCATGCA GTGGGGCCAG TTCATTGACC ATGACCTGGA CTTCTCCCCGGAGTCCCCGG CCAGAGTGGC CTTCACTGCA GGCGTTGACT GTGAGAGGAC CTGCGCCCAG CTGCCCCCCTGCTTTCCCAT CAAGGTACCT ACCCTCAGCC AATCTCCCAT GCCCTTGTGT GGCCTCCCCC AAAGGCAAGG TGCTGGGGGTGGGGATCTGG AAGACTGGAG CACCATCCTT AAGGAGCTGC CTGTGGAGCT AGGGTATGAG ACAGAGACAC AAGCACTGTCTCC TCTTCCATCT CAGATCCCAC CCAATGACCC CCGCATCAAG AACCAGCGTG ACTGCATCCC TTTCTTCCGCTCGGCACCCT CATGCCCCCA AAACAAGAAC AGAGTCCGCA ACCAGATCAA CGCGCTCACC TCCTTTGTGGACGCCAGCAT GGTGTATGGC AGTGAGGTCT CCCTCTCGCT GCGGCTCCGC AACCGGACCA ACTACCTGGGGCTGCTGGCC ATCAACCAGC GCTTTCAAGA CAACGGCCGG GCCCTGCTGC CCTTCGACAA CCTGCACGATGACCCCTGTC TCCTCACCAA CCGCTCGGCG CGCATCCCCT GCTTCCTGGC AGGTCAGACA GGGAGGAAGGTGGTGTCTTC CCAGGAAACA GCCATCCCTG GGGTCCCAAC TGGGAAGCAA TGGTGGGATG TGGTGAAGGTACATGGTTTG GGACCTCAGT ATTAGGCACA CCATAAGCAT GGATCTGTGC AC TGAAGAGATG GAGGTCCAGTGAGGGCCAGG AGTTTGGCCC ACCCCGTCTC TCCCATCCCC AGCCCTGGGT CTACCCTGGT AGAAAGACATTTCTCTGGGA AAGGCTGCAG TAAATCTGAG CTTGGGGTTT TCAAGGTGAC ACCCGATCAA CGGAAACCCCCAAACTGGCA GCCATGCACA CCCTCTTTAT GCGAGAGCAC AACCGGCTGG CCACCGAGCT GAGACGCCTGAATCCCCGGT GGAATGGAGA CAAACTGTAC AATGAGGCTC GGAAGATCAT GGGGGCCATG GTCCAGGTAAGGAGCTCTGC ATCCCAGCAT CCCCC CTTTGTATCT CCACCCACCA ATAGTAAATT AATGTTGTCA CATTTGACGTGATGACAATA AAGAATATGT CTGAGCCACC CTTTGAAAAG GCAAGGGTAT GGGTGAGTAG CCTCTGGGGAATGTTCCTCC TGTCTTCCCT TCCAGATCAT CACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGAGAACCCTGGG GCACTACAGG GGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGCCTTCCGCTTT GGCCACACAA TGCTCCAGCC CTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGCATGTCCCACT TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAA GGTGACCAGG TTTTCCAGGG GGCAAATGGGGGTGAGGGTG GGGAGCATGC CCTCCCCTAG GTGG TCCAGCTGCT TCATGTCTCT CCAGAACTCT GTTTCCTGACAAACGTTACT AACATACCCG ACTGGCTTGT CCAGCTCTGG GCTAGCTTGG CATCATGTGA TAACCCAAGTAGCTTCCCAG AGGCTGGTCC AATCTGTGCT GCTCACATTC CCTGCCACCA GGGGGCATCG ACCCCATCCTCCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAG GATGCCATGT TAGTGGATGA GCTCCGGGACCGGCTGTTTCGGCAAGTGAG GAGGATTGGG CTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACCACGGCCTTCC AGGTGAGGGG GCTGTCCACC TCTTCTCCCA GCTTTGCTCG GGCCAGGCTG CTCAAGGGGTTCTGGGAAGA CCCTGGTACC CGACTGCCTG GTAGGTTCTG GTGGCAGAAA CGAGGTGTTT TCACCAAAAGACAGCGCAAG GCCCTGAGCA GAATTTCCTT GTCTCGAATT ATATGTGACA ATACCGGTAT CACCACGGTTTCAAGGGACA TCTTCAGAGC CAACATCTAC CCTCGGGGCT TTGTGAACTG CAGCCGTATC CCCAGGTTGAACCTATCAGC CTGGCGAGGG ACATGAGGCT TCTGCAGGTA AGGGGAGGCC ACCTCCAGCA CCCTGGGCTGGTTAAGCCTC ACATCCTTCC CTGGATGGAT GGCTGAGTCC TCTTAGGTCT CTAAGCAGAG AAAACAGAACTTGTCACTAG GTACTCTTTC CAAGTGGCTT CCCAATGTGC TAGTTTCTGG GCTGACAGTC AATTCCAGGC CCTAGGACTTTGGGGGGAAA TTAGGAGCAT CCAACTA GAATTCCGTG GCCAGGACCC CTGCCAGGGC ACTGACCCAG CCTCCCCTGGGGCAGTGGAG ACCTCGGTCC TGCGAGACTG CATAGCAGAG GCCAAGTTGC TGGTGGATGC TGCCTACAATTGGACCCAGA AGAGCATCAA GCAGCGGCTT CGCAGCGGTT CAGCCAGCCC CATGGACCTC CTGTCCTACTTCAAACAACC GGTAGCAGCC ACCAGGACAG TTGTTCGGGC CGCAGATTAT ATGCATGTGG CTTTGGGGCTGCTTGAAGAG AAGTTACAAC CCCAGCGGTC CGGACCCTTC ATTGTCACTG ATGTGCTAAC AGAACCACAGCTGCGGCTGC TGTCCCAGGC CAGTGGCTGT GCTCTCCGGG ACCAGGCCGA GCGCTGCAGC GACAAGTACCGCACCATCAC TGGACGGTGC AACAACAAGA GGAGACCCTT GCTAGGGGCC TCCAACCAGG CTCTGGCTCGCTGGCTGCCC GCCGAGTATG AGGATGGGCT GTCGCTCCCC TTCGGCTGGA CCCCCAGCAG GAGGCGCAATGGCTTCCTTC TCCCTCTTGT CCGGGCTGTC TCCAACCAGA TTGTGCGCTT CCCCAATGAG AGACTGACCT CCGACCGTGGCCGAGCCCTC ATGTTCATGC AGTGGGGCCA GTTCATTGAC CATGACCTGG ACTTCTCCCC GGAGTCCCCGGCCAGAGTGG CCTTCACTGC AGGCGTTGAC TGTGAGAGGA CCTGCGCCCA GCTGCCCCCC TGCTTTCCCATCAAGATCCC ACCCAATGAC CCCCGCATCA AGAACCAGCG TGACTGCATC CCTTTCTTCC GCTCGGCACCCTCATGCCCC CAAAACAAGA ACAGAGTCCG CAACCAGATC AACGCGCTCA CCTCCTTTGT GGACGCCAGCATGGTGTATG GCAGTGAGGT CTCCCTCTCG CTGCGGCTCC GCAACCGGAC CAACTACCTG GGGCTGCTGGCCATCAACCA GCGCTTTCAAGACAACGGCC GGGCCCTGCT GCCCTTCGAC AACCTGCACG ATGACCCCTGTCTCCTCACC AACCGCTCGG CGCGCATCCC CTGCTTCCTG GCAGGTGACA CCCGATCAAC GGAAACCCCCAAACTGGCAG CCATGCACAC CCTCTTTATG CGAGAGCACA ACCGGCTGGC CACCGAGCTG AGACGCCTGAATCCCCGGTG GAATGGAGAC AAACTGTACA ATGAGGCTCG GAAGATCATG GGGGCCATGG TCCAGATCATCACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGGGGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCCCTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCAGCTGGCGGAT CGTGTATGAA GGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCTGAACCGTCAG GATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGGCTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGGTACAAT GCTTGGAGGCGCTTCTGTGG GCTCTCCCAG CCCCGGAATT TGGCACAGCT TAGCCGGGTG CTGAAAAACC AGGACTTGGCAAGGAAGTTC CTGAATTTGT ATGGAACACC TGACAACATT GACATCTGGA TTGGGGCCAT CGCTGAGCCTCTTTTGCCGG GGGCTCGAGT GGGGCCTCTT CTGGCTTGTC TGTTCGAGAA CCAGTTCAGA AGAGCCGAGACGGAGACAGG TTCTGGTGGC AGAACGAGGT GTTTTCACCA AAGACAGCGC AAGGCCCTGA GCAGAATTTCCTTGTCTCGA ATTATATGTG ACAATACCGG TATCACCACG GTTTCAAGGG ACATCTTCAG AGCCAACATC TACCCTCGGGGCTTTGTGAA CTGCAGCCGT ATCCCCAGGT TGAACCTATC AGCCTGGCGA GGGACATGAG GCTTCTGCAGGAGTCTATCC CAAGTCTCCA ACTTTTGGAG ACAAGGGGAA GGGGAGGACC ATGAGGCTGC CTTGTCTCCCTGGAGCAAGT GCAGGCTCGT GACGCTTCTG CTGGCTACAG CTCAGAGCTG GGTTCCCCAG CCAGGAGTGAAGGCTGGGGG CTCCTATCAG CAATGGACCT TCCGCCTTGG GAGCCTCTTA GGTATTAGGC TATGAATCAGCGCCACGTGC AAAGGCTTGG GAGCCAAGCC ATGTGGTCTT GCACCCCAGG CAAGAAAAGT CAGCTGGAGGGTTTACAGCA CTTTCTACTG TTTCCCAGCC CTCCCTCCCC TCCCTCACCA TGACTAAGAG ACCACTCGGT CCTAGCCTCCAGACACCCCA CAATACTCCT CTGAGCCTGA GGCCAGGCAG CATGCTCTGC TTCTACCAAT AAAGCACTGC CGGAATTC-

(FRAG. NO：1726) (SEQ. ID NO：3008)

5′-CACCGCTCCT GTCAGCCAAC AAATATCCAT TGAGCGACAC CTGTGTCCCA GGTGCTGCTC TGGGCCCTGGGAGAAGTGCA TCAGTGGGCT TGGTAGTAGA GGGTAGGGAT GGAGTGAAGG GTAGGCAGGA AGAATGTCCCCAGGCTGGTA GGAGGTGGGG TGGGGGGTTT CAGTCTCAAA ACTCCCATGA AAACCAGAGA GAAGTTTCAGAACTCCACCC AAGAGGCTGG GTTTCTAGGG CCCAGAGCTG CCCTCCCCCA CCCTAGAATG GGCTATAAAAGTCCCTTCCC AGCTACGTCC AGAGAAGAGC TGGAGGAAGT GAGAGGTCGG CTGGGGGTCC TCAAAGTGAGAGGGGAGCAG AGGATCCTCC CGTGCAGGCT GTGGATGTCA CTCACTTCCC AGCTGGTGAA GCCTCGCTGCAGAGATGCAT CTGCTCCCAG CCCTGGCAGG GGTCCTGGCC ACACTCGTCC TCGCCCAGCC CTGTGAGGGCACTGACCCAG GTAATAGTCC CCTAGACAGG CAAGGAGGAG GGAGGGGAAA TGGAAGGGGA AGCACTTGGGTCTTGGAGGG GGTCTTGTGG CTTGCTGAAC CCTGAGTCCC CATCTCTTTG AACAGCCTCC CCTGGGGCAG TGGAGACCTCGGTCCTGCGA GACTGCATAG CAGAGGCCAA GTTGCTGGTG GATGCTGCCT ACAATTGGAC CCAGAAGAGGTGGACTTGGG TCTGGGGGCT GCATGGGCCT GGGAGGATCA GT-3′(FRAG. NO：_)(SEQ. ID NO：2483)

5′-TAATACCTTG TGGGGTCAGG GAGCCCATGT CCCGTGCTGA TGTTATTTCC CCACCAGGTC CGGGCTGTCTCCAACCAGAT TGTGCGCTTC CCCAATGAGA GACTGACCTC CGACCGTGGC CGAGCCCTCA TGTTCATGCAGTGGGGCCAG TTCATTGACC ATGACCTGGA CTTCTCCCCG GAGTCCCCGG CCAGAGTGGC CTTCACTGCAGGCGTTGACT GTGAGAGGAC CTGCGCCCAG CTGCCCCCCT GCTTTCCCAT CAAGGTACCT ACCCTCAGCC AATCTCCCATGCCCTTGTGT GGCCTCCCCC AAAGGCAAGG TGCTGGGGGT GGGGATCTGG AAGACTGGAG CACCATCCTTAAGGAGCTGC CTGTGGAGCT AGGGTATGAG ACAGAGACAC AAG-3′(FRAG.NO：_)(SEQ.ID NO：2484)

5′-CACTGTCTCC TCTTCCATCT CAGATCCCAC CCAATGACCC CCGCATCAAG AACCAGCGTG ACTGCATCCCTTTCTTCCGC TCGGCACCCT CATGCCCCCA AAACAAGAAC AGAGTCCGCA ACCAGATCAA CGCGCTCACCTCCTTTGTGG ACGCCAGCAT GGTGTATGGC AGTGAGGTCT CCCTCTCGCT GCGGCTCCGC AACCGGACCAACTACCTGGG GCTGCTGGCC ATCAACCAGC GCTTTCAAGA CAACGGCCGG GCCCTGCTGC CCTTCGACAACCTGCACGAT GACCCCTGTC TCCTCACCAA CCGCTCGGCG CGCATCCCCT GCTTCCTGGC AGGTCAGACAGGGAGGAAGG TGGTGTCTTC CCAGGAAACA GCCATCCCTG GGGTCCCAAC TGGGAAGCAA TGGTGGGATGTGGTGAAGGT ACATGGTTTG GGACCTCAGT ATTAGGCACA CCATAAGCAT GGATCTGTGC AC-3′(FRAG.NO：_)(SEQ.IDNO：2485)

5′-TGAAGAGATG GAGGTCCAGT GAGGGCCAGG AGTTTGGCCC ACCCCGTCTC TCCCATCCCC AGCCCTGGGTCTACCCTGGT AGAAAGACAT TTCTCTGGGA AAGGCTGCAG TAAATCTGAG CTTGGGGTTT TCAAGGTGACACCCGATCAA CGGAAACCCC CAAACTGGCA GCCATGCACA CCCTCTTTAT GCGAGAGCAC AACCGGCTGGCCACCGAGCT GAGACGCCTG AATCCCCGGT GGAATGGAGA CAAACTGTAC AATGAGGCTC GGAAGATCATGGGGGCCATG GTCCAGGTAA GGAGCTCTGC ATCCCAGCAT CCCCC-3′(FRAG.NO：_)(SEQ.ID NO：2486)

5′-CTTTGTATCT CCACCCACCA ATAGTAAATT AATGTTGTCA CATTTGACGT GATGACAATA AAGAATATGTCTGAGCCACC CTTTGAAAAG GCAAGGGTAT GGGTGAGTAG CCTCTGGGGA ATGTTCCTCC TGTCTTCCCT TCCAGATCATCACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGGGGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCCCTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCAGCTGGCGGAT CGTGTATGAA GGTGACCAGG TTTTCCAGGG GGCAAATGGG GGTGAGGGTG GGGAGCATGCCCTCCCCTAG GTGG-3′(FRAG.NO：_)(SEQ.ID NO：2487)

5′-TCCAGCTGCT TCATGTCTCT CCAGAACTCT GTTTCCTGAC AAACGTTACT AACATACCCG ACTGGCTTGTCCAGCTCTGG GCTAGCTTGG CATCATGTGA TAACCCAAGT AGCTTCCCAG AGGCTGGTCC AATCTGTGCT GCTCACATTCCCTGCCACCA GGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAGGATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGG CTGGACCTGGCAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGTGAGGGG GCTGTCCACC TCTTCTCCCAGCTTTGCTCG GGCCAGGCTG CTCAAGGGGT TCTGGAAAGA CCCTGGTACC-3′(FRAG.NO：_)(SEQ.ID NO：2488)

5′-CGACTGCCTG GTAGGTTCTG GTGGCAGAAA CGAGGTGTTT TCACCAAAAG ACAGCGCAAG GCCCTGAGCAGAATTTCCTT GTCTCGAATT ATATGTGACA ATACCGGTAT CACCACGGTT TCAAGGGACA TCTTCAGAGC CAACATCTACCCTCGGGGCT TTGTGAACTG CAGCCGTATC CCCAGGTTGA ACCTATCAGC CTGGCGAGGG ACATGAGGCTTCTGCAGGTA AGGGGAGGCC ACCTCCAGCA CCCTGGGCTG GTTAAGCCTC ACATCCTTCC CTGGATGGATGGCTGAGTCC TCTTAGGTCT CTAAGCAGAG AAAACAGAAC TTGTCACTAG GTACTCTTTC CAAGTGGCTT CCCAATGTGCTAGTTTCTGG GCTGACAGTC AATTCCAGGC CCTAGGACTT TGGGGGGAAA TTAGGAGCAT CCAACTA-3′(FRAG.NO：_)(SEQ.ID NO：2489)

5′-GAATTCCGTG GCCAGGACCC CTGCCAGGGC ACTGACCCAG CCTCCCCTGG GGCAGTGGAG ACCTCGGTCCTGCGAGACTG CATAGCAGAG GCCAAGTTGC TGGTGGATGC TGCCTACAAT TGGACCCAGA AGAGCATCAAGCAGCGGCTT CGCAGCGGTT CAGCCAGCCC CATGGACCTC CTGTCCTACT TCAAACAACC GGTAGCAGCCACCAGGACAG TTGTTCGGGC CGCAGATTAT ATGCATGTGG CTTTGGGGCT GCTTGAAGAG AAGTTACAACCCCAGCGGTC CGGACCCTTC ATTGTCACTG ATGTGCTAAG AGAACCACAG CTGCGGCTGC TGTCCCAGGCCAGTGGCTGT GCTCTCCGGG ACCAGGCCGA GCGCTGCAGC GACAAGTACC GCACCATCAC TGGACGGTGCAACAACAAGA GGAGACCCTT GCTAGGGGCC TCCAACCAGG CTCTGGCTCG CTGGCTGCCC GCCGAGTATGAGGATGGGCT GTCGCTCCCC TTCGGCTGGA CCCCCAGCAG GAGGCGCAAT GGCTTCCTTC TCCCTCTTGT CCGGGCTGTCTCCAACCAGA TTGTGCGCTT CCCCAATGAG AGACTGACCT CCGACCGTGG CCGAGCCCTC ATGTTCATGCAGTGGGGCCA GTTCATTGAC CATGACCTGG ACTTCTCCCC GGAGTCCCCG GCCAGAGTGG CCTTCACTGCAGGCGTTGAC TGTGAGAGGA CCTGCGCCCA GCTGCCCCCC TGCTTTCCCA TCAAGATCCC ACCCAATGACCCCCGCATCA AGAACCAGCG TGACTGCATC CCTTTCTTCC GCTCGGCACC CTCATGCCCC CAAAACAAGAACAGAGTCCG CAACCAGATC AACGCGCTCA CCTCCTTTGT GGACGCCAGC ATGGTGTATG GCAGTGAGGTCTCCCTCTCG CTGCGGCTCC GCAACCGGAC CAACTACCTG GGGCTGCTGG CCATCAACCA GCGCTTTCAAGACAACGGCC GGGCCCTGCT GCCCTTCGAC AACCTGCACG ATGACCCCTG TCTCCTCACC AACCGCTCGGCGCGCATCCC CTGCTTCCTG GCAGGTGACA CCCGATCAAC GGAAACCCCC AAACTGGCAG CCATGCACACCCTCTTTATG CGAGAGCACA ACCGGCTGGC CACCGAGCTG AGACGCCTGA ATCCCCGGTG GAATGGAGACAAACTGTACA ATGAGGCTCG GAAGATCATG GGGGCCATGG TCCAGATCAT CACCTACCGA GACTTTCTGCCCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGG GGGTACTGCT CCAATGTGGACCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCC CTTCATGTTC CGCTTGGACAGTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAAGGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAG GATGCCATGTTAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGG CTGGACCTGG CAGCTCTCAACATGCAACGA AGCCGGGACC ACGGCCTTCC AGGGTACAAT GCTTGGAGGC GCTTCTGTGG GCTCTCCCAGCCCCGGAATT TGGCACAGCT TAGCCGGGTG CTGAAAAACC AGGACTTGGC AAGGAAGTTC CTGAATTTGTATGGAACACC TGACAACATT GACATCTGGA TTGGGGCCAT CGCTGAGCCT CTITTGCCGG GGGCTCGAGTGGGGCCTCTT CTGGCTTGTC TGTTCGAGAA CCAGTTCAGA AGAGCCGAGA CGGAGACAGG TTCTGGTGGCAGAACGAGGT GTTTTCACCA AAGACAGCGC AAGGCCCTGA GCAGAATTTC CTTGTCTCGA ATTATATGTGACAATACCGG TATCACCACG GTTTCAAGGG ACATCTTCAG AGCCAACATC TACCCTCGGG GCTTTGTGAACTGCAGCCGT ATCCCCAGGT TGAACCTATC AGCCTGGCGA GGGACATGAG GCTTCTGCAG GAGTCTATCCCAAGTCTCCA ACTTTTGGAG ACAAGGGGAA GGGGAGGACC ATGAGGCTGC CTTGTCTCCC TGGAGCAAGTGCAGGCTCGT GACGCTTCTG CTGGCTACAG CTCAGAGCTG GGTTCCCCAG CCAGGAGTGA AGGCTGGGGGCTCCTATCAG CAATGGACCT TCCGCCTTGG GAGCCTCTTA GGTATTAGGC TATGAATCAG CGCCACGTGCAAAGGCTTGG GAGCCAAGCC ATGTGGTCTT GCACCCCAGG CAAGAAAAGT CAGCTGGAGG GTTTACAGCACTTTCTACTG TTTCCCAGCC CTCCCTCCCC TCCCTCACCA TGACTAAGAG ACCACTCGGT CCTAGCCTCC AGACACCCCACAATACTCCT CTGAGCCTGA GGCCAGGCAG CATGCTCTGC TTCTACCAAT AAAGCACTGC CGGAATTC-3′(FRAG.NO：_)(SEQ.ID no：2490)

5′-TC GGC CTG GTC CCG G-3

(FRAG.NO：1727)(SEQ.ID NO：1740)

5′-TGG GGG TTT CCG TTG-3

(FRAG.NO：1728)(SEQ.ID NO：1741)

5′-TG GTC CCG GBG BGC-3

(FRAG.NO：1729)(SEQ.ID NO：1742)

-GCG CTC GGC CTG GTC CCG G-3

(FRAG.NO：1053)(SEQ.ID NO：1061)

-GGG TCT CCT CTT GTT GTT GC-3

(FRAG.NO：1054)(SEQ.ID NO：1062)

-TTG CGC CTC CTG CTG GGG GT CC-3(FRAG.NO：1055)(SEQ.ID NO：1063)

-CTC TGT TCT TGT TTT GGG GGC-3

(FRAG.NO：1056)(SEQ.ID NO：1064)

-GGG CCC GGC CGT TGT CTT G-3

(FRAG.NO：1057)(SEQ.ID NO：1065)

-GTT TGG GGG TTT CCG TTG-3

(FRAG.NO：1058)(SEQ.ID NO：1066)

-GGG TTC TCC TGG CCC GGG CCT TGC CC-3

(FRAG.NO：1059)(SEQ.ID NO：1067)

-GGC CGT GGT CCC GGC TTC GTT GC-3

(FRAG.NO：1060)(SEQ.ID NO：1068)

-CCT GTC TCC GTC TCG GCT CTT CTG-3

(FRAG.NO：1061)(SEQ.ID NO：1069)

-GGG CCT TGC GCT GTC TTT GGT G-3

(FRAG.NO：1062)(SEQ.ID NO：1070)

-GCB CCG TCC BGT GBT GGT GCG GTB CTT GTC GCT GCB GCG CTC GGC CTG GTC CCG GBG BGC-3

(FRAGNO：1063)(SEQ.ID NO：1071)

Human intercellular adhesion molecule-1 (ICAM-1) nucleic acids and antisense oligonucleotide fragments

5′-GCG CGG GCC GGG GGC TGC TGG G GGT TGG CCC GGG GTG CCC C GCC GCT GGG TGC CCT CGT CCT CTG CGGTC GTG TCT CCT GGC TCT GGT TCC CC GCT GCG CCC GTT GTC CTC TGG GGT GGC CTT C GCT CCC GGG TCT GGT TCTTGT GT TGG GGG TCC CTT TTT GGG CCT GTT GT GGC GTG GCT TGT GTG TTC GGT TTC TGC CCT GTC CTC CGG CGTCCC CGG BGC CTC CCC GGG GCB GGB TGB CTT TTG BGG GGG BCB CBG BTG TCT GGG CBT TGC CBG GTC CTG GGBBCB GBG CCC CGB GCB GGB CCB GGB GTG CGG GCB GCG CGG GCC GGG GGC TGC TGG GBG CCB TBG CGB GGC TGBG-3′ (FRAG.NO：1730) (SEQ.ID NO：1743)

5′-GGG GGC TGC TGG G-3

(FRAG.NO：1731)(SEQ.ID NO：1744)

5′-T GTC CTC CGG CGT CCC-3

(FRAG.NO：1732)(SEQ.ID NO：1745)

5′-G CCB TBG CGB GGC TGB G-3

(FRAG.NO：1733)(SEQ.ID NO：1746)

5′-CTC TGG GGT GGC CTT C-3(FRAG.NO：1734) (SEQ.ID NO：1747)

-GCG CGG GCC GGG GGC TGC TGG G-3(FRAG.NO：1064)(SEQ.ID NO：1072)

-GGT TGG CCC GGG GTG CCC C-3(FRAG.NO：1065)(SEQ.ID NO：1073)

-GCC GCT GGG TGC CCT CGT CCT CTG CGG TC-3

(FRAG.NO：1066)(SEQ.ID NO：1074)

-GTG TCT CCT GGC TCT GGT TCC CC-3(FRAG.NO：1067)(SEQ.ID NO：1075)

-GCT GCG CCC GTT GTC CTC TGG GGT GGC CTT C-3(FRAG.NO：1068)(SEQ.ID NO：1076)

-GCT CCC GGG TCT GGT TCT TGT GT-3

(FRAG NO：1069)(SEQ.ID NO：1077)

-TGG GGG TCC CTT TTT GGG CCT GTT GT-3

(FRAG.NO：1070)(SEQ.ID NO：1078)

-GGC GTG GCT TGT GTG TTC GGT TTC-3

(FRAG.NO：1071)(SEQ.ID NO：1079)

-TGC CCT GTC CTC CGG CGT CCC-3

(FRAG.NO：1072)(SEQ.ID NO：1080)

5′-CGG BGC CTC CCCGGG GCB GGB TGB CTT TTG BGG GGG BCB CBG BTG TCT GGG CBT TGC CBG GTC CTG GGBBCB GBG CCC CGB GCB GGB CCB GGB GTG CGG GCB GCG CGG GCC GGG GGC TGC TGG GBG CCB TBG CGB GGC TGBG-3

(FRAG.NO：1073)(SEQ.ID NO：1081)

Human vascular intercellular adhesion molecule-1 (VCAM-1) nucleic acids and oligonucleotide fragments

5′-CCT CTT TTC TGT TTT TCC C CTC TGC CTT TGT TTG GGT TCG CTT CCT TTC TGC TTC TTC C CTG TGT CTCCTG TCT CCG CTT TTT TCT TC GTC TTT GTT GTT TTC TCT TCC TTG CTG BGC BBG BTB TCT BGB TTC TGG GGT GGTCTC GBT TTT BBBB GCT TGB GBB GCT GCB BBC BTT BTC CBB BGT BTB TTT GBG GCT CCB BGG BTC BCG BCC BTCTTC CCB GGC BTT TTB BGT TGC TGT CGT-3′(FRAG.NO：1735)(SEQ.ID NO：1748)

5′-C TGT CGT-3′(FRAG.NO：1736)(SEQ.ID NO：1749)

5′-TGC TTC TTC C-3

(FRAG.NO：1737)(SEQ.ID NO：1750)

HSVCAM1AS1：5-CCT CTT TTC TGT TTT TCC C-3(FRAG NO：1074)(SEQ.ID NO：1082)

HSVCAM1AS2：5

-CTC TGC CTT TGT TTG GGT TCG-3

(FRAG.NO：1075)(SEQ.ID NO：1083)

HSVCAM1AS3：5-CTT CCT TTC TGC TTC TTC C-3

(FRAG.NO：1076)(SEQ.ID NO：1084)

HSVCAM1AS4：5

-CTG TGT CTC CTG TCT CCG CTT TTT TCT TC-3

(FRAG.NO：1077)(SEQ.ID NO：1085)

HSVCAM1AS5：5-GTC TTT GTT GTT TTC TCT TCC TTG-3

(FRAG.NO：1078)(SEQ.ID NO：1086)

CTG BGC BBG BTB TCT BGB TTC TGG GGT GGT CTC GBT TTT BBBB GCT TGB GBB GCT GCB BBC BTT BTC CBB BGTBTB TTT GBG GCT CCB BGG BTC BCG BCC BTC TTC CCB GGC BTT TTB BGT TGC TGT CGT(FRAG.NO：1079)(SEQ.IDNO：1087)

Human endothelial leukocyte intercellular adhesion molecule-1 (ELAM-1) nucleic acids and antisense oligonucleotide fragments

5′-BBG TGB GBG CTG BGB GBB BCT GTG BBG CBB TCB TGB CTT CBB GBG TTC TTT TCB CCC GTT CTT GGC TTCTTC TGT C CGT TGG CTT CTC GTT GTC CC TGT GGG CTT CTC GTT GTC CC CCC TTC GGG GGC TGG TGG GGC CGTCCT TGC CTG CTG G GTT CTT GGC TTC TTC TGT CCG T TGG CTT CTC GTT GTC CC TGT GGG CTT CTC GTT GTC CCCCC TTC GGG GGC TGG TGG GGC CGT CCT TGC CTG CTG G CCTGAGACAG AGGCAGCAGT GATACCCACCTGAGAGATCC TGTGTTTGAA CAACTGCTTC CCAAAACGGA AAGTATTTCA AGCCTAAACC TTTGGGTGAAAAGAACTCTT GAAGTCATGA TTGCTTCACA GTTTCTCTCA GCTCTCACTT TGGTGCTTCT CATTAAAGAG AGTGGAGCCTGGTCTTACAA CACCTCCACG GAAGCTATGA CTTATGATGA GGCCAGTGCT TATTGTCAGC AAAGGTACACACACCTGGTT GCAATTCAAA ACAAAGAAGA GATTGAGTAC CTAAACTCCA TATTGAGCTA TTCACCAAGTTATTACTGGA TTGGAATCAG AAAAGTCAAC AATGTGTGGG TCTGGGTAGG AACCCAGAAA CCTCTGACAGAAGAAGCCAA GAACTGGGCT CCAGGTGAAC CCAACAATAG GCAAAAAGAT GAGGACTGCG TGGAGATCTACATCAAGAGA GAAAAAGATG TGGGCATGTG GAATGATGAG AGGTGCAGCA AGAAGAAGCT TGCCCTATGCTACACAGCTG CCTGTACCAA TACATCCTGC AGTGGCCACG GTGAATGTGT AGAGACCATC AATAATTACACTTGCAAGTG TGACCCTGGC TTCAGTGGAC TCAAGTGTGA GCAAATTGTG AACTGTACAG CCCTGGAATCCCCTGAGCAT GGAAGCCTGG TTTGCAGTCA CCCACTGGGA AACTTCAGCT ACAATTCTTC CTGCTCTATC AGCTGTGATAGGGGTTACCT GCCAAGCAGC ATGGAGACCA TGCAGTGTAT GTCCTCTGGA GAATGGAGTG CTCCTATTCCAGCCTGCAAT GTGGTTGAGT GTGATGCTGT GACAAATCCA GCCAATGGGT TCGTGGAATG TTTCCAAAACCCTGGAAGCT TCCCATGGAA CACAACCTGT ACATTTGACT GTGAAGAAGG ATTTGAACTA ATGGGAGCCCAGAGCCTTCA GTGTACCTCA TCTGGGAATT GGGACAACGA GAAGCCAACG TGTAAAGCTG TGACATGCAGGGCCGTCCGC CAGCCTCAGA ATGGCTCTGT GAGGTGCAGC CATTCCCCTG CTGGAGAGTT CACCTTCAAATCATCCTGCA ACTTCACCTG TGAGGAAGGC TTCATGTTGC AGGGACCAGC CCAGGTTGAA TGCACCACTCAAGGGCAGTG GACACAGCAA ATCCCAGTTT GTGAAGCTTT CCAGTGCACA GCCTTGTCCA ACCCCGAGCGAGGCTACATG AATTGTCTTC CTAGTGCTTC TGGCAGTTTC CGTTATGGGT CCAGCTGTGA GTTCTCCTGT GAGCAGGGTTTTGTGTTGAA GGGATCCAAA AGGCTCCAAT GTGGCCCCAC AGGGGAGTGG GACAACGAGA AGCCCACATGTGAAGCTGTG AGATGCGATG CTGTCCACCA GCCCCCGAAG GGTTTGGTGA GGTGTGCTCA TTCCCCTATTGGAGAATTCA CCTACAAGTC CTCTTGTGCC TTCAGCTGTG AGGAGGGATT TGAATTATAT GGATCAACTC AACTTGAGTGCACATCTCAG GGACAATGGA CAGAAGAGGT TCCTTCCTGC CAAGTGGTAA AATGTTCAAG CCTGGCAGTTCCGGGAAAGA TCAACATGAG CTGCAGTGGG GAGCCCGTGT TTGGCACTGT GTGCAAGTTC GCCTGTCCTGAAGGATGGAC GCTCAATGGC TCTGCAGCTC GGACATGTGG AGCCACAGGA GACTGGTCTG GCCTGCTACCTACCTGTGAA GCTCCCACTG AGTCCAACAT TCCCTTGGTA GCTGGACTTT CTGCTGCTGG ACTCTCCCTC CTGACATTAGCACCATTTCT CCTCTGGCTT CGGAAATGCT TACGGAAAGC AAAGAAATTT GTTCCTGCCA GCAGCTGCCAAAGCCTTGAA TCAGACGGAA GCTACCAAAA GCCTTCTTAC ATCCTTTAAG TTCAAAAGAA TCAGAAACAGGTGCATCTGG GGAACTAGAG GGATACACTG AAGTTAACAG AGACAGATAA CTCTCCTCGG GTCTCTGGCCCTTCTTGCCT ACTATGCCAG ATGCCTTTAT GGCTGAAACC GCAACACCCA TCACCACTTC AATAGATCAAAGTCCAGCAG GCAAGGACGG CCTTCAACTG AAAAGACTCA GTGTTCCCTT TCCTACTCTC AGGATCAAGAAAGTGTTGGC TAATGAAGGG AAAGGATATT TTCTTCCAAG CAAAGGTGAA GAGACCAAGA CTCTGAAATCTCAGAATTCC TTTTCTAACT CTCCCTTGCT CGCTGTAAAA TCTTGGCACA GAAACACAAT ATTTTGTGGC TTTCTTTCTTTTGCCCTTCA CAGTGTTTCG ACAGCTGATT ACACAGTTGC TGTCATAAGA ATGAATAATA ATTATCCAGA GTTTAGAGGAAAAAAATGAC TAAAAATATT ATAACTTAAA AAAATGACAG ATGTTGAATG CCCACAGGCA AATGCATGGAGGGTTGTTAA TGGTGCAAAT CCTACTGAAT GCTCTGTGCG AGGGTTACTA TGCACAATTT AATCACTTTC ATCCCTATGGGATTCAGTGC TTCTTAAAGA GTTCTTAAGG ATTGTGATAT TTTTACTTGC ATTGAATATA TTATAATCTT CCATACTTCTTCATTCAATA CAAGTGTGGT AGGGACTTAA AAAACTTGTA AATGCTGTCA ACTATGATAT GGTAAAAGTT ACTTATTCTAGATTACCCCC TCATTGTTTA TTAACAAATT ATGTTACATC TGTTTTAAAT TTATTTCAAA AAGGGAAACT ATTGTCCCCTAGCAAGGCAT GATGTTAACC AGAATAAAGT TCTGAGTGTT TTTACTACAG TTGTTTTTTG AAAACATGGT AGAATTGGAGAGTAAAAACT GAATGGAAGG TTTGTATATT GTCAGATATT TTTTCAGAAA TATGTGGTTT CCACGATGAA AAACTTCCATGAGGCCAAAC GTTTTGAACT AATAAAAGCA TAAATGCAAA CACACAAAGG TATAATTTTA TGAATGTCTTTGTTGGAAAA GAATACAGAA AGATGGATGT GCTTTGCATT CCTACAAAGA TGTTTGTCAG ATGTGATATGTAAACATAAT TCTTGTATAT TATGGAAGAT TTTAAATTCA CAATAGAAAC TCACCATGTA AAAGAGTCAT CTGGTAGATTTTTAACGAAT GAAGATGTCT AATAGTTATT CCCTATTTGT TTTCTTCTGT ATGTTAGGGT GCTCTGGAAG AGAGGAATGCCTGTGTGAGC AAGCATTTAT GTTTATTTAT AAGCAGATTT AACAATTCCA AAGGAATCTC CAGTTTTCAG TTGATCACTGGCAATGAAAA ATTCTCAGTC AGTAATTGCC AAAGCTGCTC TAGCCTTGAG GAGTGTGAGA ATCAAAACTCTCCTACACTT CCATTAACTT AGCATGTGTT GAAAAAAAAA GTTTCAGAGA AGTTCTGGCT GAACACTGGCAACGACAAAG CCAACAGTCA AAACAGAGAT GTGATAAGGA TCAGAACAGC AGAGGTTCTT TTAAAGGGGCAGAAAAACTC TGGGAAATAA GAGAGAACAA CTACTGTGAT CAGGCTATGT ATGGAATACA GTGTTATTTTCTTTGAAATT GTTTAAGTGT TGTAAATATT TATGTAAACT GCATTAGAAA TTAGCTGTGT GAAATACCAG TGTGGTTTGTGTTTGAGTTT TATTGAGAAT TTTAAATTAT AACTTAAAAT ATTTTATAAT TTTTAAAGTA TATATTTATT TAAGCTTATGTCAGACCTAT TTGACATAAC ACTATAAAGG TTGACAATAA ATGTGCTTAT GTTT GATCAAAATT TTTACCTATTATGCATTTGA TATATAAATA AGTATATAAA TGCACACACA GACACAGCAA TGATGGTGAA CAGTCTTCATACAATTATAT GGATGAATCT CATAAAATGC TGAGTTAAAG AAATCAGACC AAAGAACATA TACTGAAAGATTCTCTCTAT ATACAAAGTT CAAAAATAGG TGGACCAATT CATGGTGGTG TTAGAAATCA GAAGAGAGGCTACCTTTGTG GGGAGGGGAC AGTTTAATGC CCAGAAGCGG TAAATAAGGA ATCCTCTGGG GAGTGGTAATGATCTGGATG CTGGCTACAG GATGTGTTGG TTGTAAAAAT GCATTTTTTT ATATCTAGCT TTTTCCATGT GTATATTATACTTCAAAGAA GTTCAGTTAA TAATTTCTCA TGTCACTGTA GAGTAGCTCA GTTAGCCCCA GCAAGCCTCT GGCTTAATCTTGTTTTACCT TAAGCCATCA GTCATTTACA AGTAGGAAAA TTCACAGGGA AAGTTAGAGT ATAAAATCCAGAATGAAGGT TTACTGGGTA AGAGTCTCTC CATTTTCCAA AGCCCGTTTA TTTCTTGATT CCAGTTCTTA AGAAGTCTCAGCATTGTGTC TTTTTCATGT ATCTTACAAG AAGACAGCAT GTGCTTCTAA CACCTGATAC ATTGTATCTA CCAGCACTTGGTAAACAGAA AAGAACCACA TTTTTCTTGT AGGAGAAATT TGGTGCCTAT TTCCTACCAG GCACCAATAAGTGGGACCAA TAGGTGGGAT TAAAGATACA GTAGAAAGTA TTTAAAACTT GCCAGGGGGC AATAGTCTGAAAATAAGTAA ATTGGTGCTA TAGAATGGAA GTTACAGGCT TCTTTCTTTT TTCCCACAAG ATCTGCTCCT TGAGCCCCTAGAGACTTTTC TGTCTGTTAC TGTTTCTTCA TTCCTCATCT GCAGAGCCAG CCCTGAGAAG TGCAGACCAA AGCCAGGGAAGGCTCTGCAA AGATGTACAA ATGGAAGTCA CCTTAATAAC CTCTGACTGC TGCGCATAAT ACATTTCACTCAAAAGAGGG GTTAAACAAT GGAACAGAAT ACAGAGGCCA GAAATAATGC TGAACACTGA CAACCATCTGATCTTTGACA AAATCCACAA AAACAAGCAA TGGAGAAAGG ACTCCCTATT CCATAATGGT GCTGGGATAACTGTCTAGCT ATATACAGAA GATTGAACCT GGGCCCCTTC CTTACATCAT ATACAAAAAA TAACTCAAGATGGAGTAAAG ACTTAAATCT AAAACCAAAC ACTATAAAAA CCCTGGAAGA TAGCCTGGGA AATACCATTCTGGACATAGG ACCTGGCAAA GACTTCATGA CAAGACACCA AAAGCAATAG CAACAAAAAC CAAATTGACTAATGAAACTA ATGAAACTCT TTAGTTGTAC AACAGATAGT TTATCTGTAC AACAAAATAA ACTATCAACAGAGTAAACAA CCTACAGAAT GGAAAAATTT TTTGCAAACT ATGCATCTGA CAAAGGTCTA ATATCCAGAATCTATAAGGA ATTTAAACAA ATTTACAAGC AAAAAAATGA CCTCATTAAA AAGTGGGCAA AGGACATGAACAGATGCTTT TCAAAATAAG ACATTCACAC ATCCAACAAC CATATGAAAA GATGTTTAAC ATCACTAATCATTAGAGGAA TACAAATCAA AAGCATAATA AGATACCATC TAATACCAGT AGGAATGACT ACTATTAAAAAGTCAGACAA TAACAGATGC TGGTGAAGGT TGTGGAGAAA AGGGAATGTT TATGCACTGC TAGTGGGAATGTAAACTAGT TCAGCCATTG TGGAAGAGAG TGTGGTGATT CCTCAAAGAA TGTAAAACCG AACTGCCTTTCAATCCAGCA ATCCCATTAT TGGATATACA CCAAAAGGAA TAGAAATTGT TTTACCGTAA AGGCGCATGCATGCATATGT TCATTACAGC ACTATTTACG ATAGCAAAGA CATGGAATCG TCTAAATGCC CATCAGTGGTAGACTAGCTA AAAAAAAAAA AATGTGGTAC ATATACATCA CAGAATAGTA TGCAGCCATA AAAATGAACAAGATCATCAT GTCCTTTGCA GCAACATGGA TGTAGTTGGA GGCCATTATC CTAAGCAAAT TAATGCAGGAACAGAAAGCC AAATACCACA TGTTCTCATT TATAAGTGAC AGCTAAATAT TGAGTACACA TGGACACAAAGAAGGGAACA ATAGACATGG GACCTACTTG AGAATAGAGG GTGGGAGGAG GGTGAGGATC AAAAAGTACCCATAGGACAC TGTGCTTATT ACCTGGGTGA TGAAATAATT TGCACACCAA ACCCCTGTGA CACACAATTT ACCTATATAGAAAACCTGTG CATGTACCCC TGAACCTAAA AGTTAATGGT GGGGGGGTGG GGTTAAGCTA CTTTGTGGTATAAATCTGAG CATTCATATT AAAATAAAAT ATTTACCTCA TTAGAGTAAT TAACATTTAT TAAGCAAAGA GCCAAGTACCTTACACACAT GATGTTTAAT CTCACAATGA TCTTTAATCT CATAACAACC GTCCATTGTA TGTACATATG TGGAAATTGAGCCTTGGAGA GATTAAATGC ATGGGGCATGC CCATTTGACT AGAAACTGGA AGCATCAGGA TTTAAACTCAGTTCTGAATG GTTTTGTAGG CTTTGTTTTT TCCACATTAT AGCATGGCCT GCCATGAAGA ACAGGTCCTT TCTGGTGTTTGTCTTGTTTG GTTTAAGTGA AGCAAATATT TATTTAAATA TTCAAGATAT GCTGTTAAAT TTTTACTCAA AAATTTGAGTACAGTATGGA TCTTCTGAAG CCAAATAACT CTTATTCAAT GCTTAGTTGA GAAATTTTAT GGAGTAGTTC TCAATTTTTATGTAGTTCCA CTGCAAAGGT AAGTCTTATG GAAAGATTCA CTGTAATTTT TTTTCCTCAT TTGGACATCA GCTTTTTCTTTTCCTCAGAC CCGCTGAAAG ATAATTTTTA AAATAAAAAC CTTGTTTTTA TATCAAGTGG GGACATTTTT TCCAAATGAAAACCGTGTAT TCATTTTATA TGATAAAATC AATGTTATTA TTTTTAAAAT TTTGATTTAA AAATCATTAA AAATAAATTTTCAGATATTA CCTGAAATTC TACCATCCAG AGATAATAGT GCTTAAAGAT TTGATATATA GACACACACACATATATACA TATATATCAT CCTAAACTTC TTTGTATAAA TGTATATAAA GTTTTTAATA AAAACTAGGA GATTAATGCCCTTTGAATGA AAATAAATAC AATGTGTATG CTTTAACATC TTGCCTTTAC TTTATAACAT TTATCACAGC AGTCATGAGATAATGATTTA CATGGTCATT GTTAGTAAGC TAATAGCTAA GTGCATGAAC TCTGGAGCTA GCCTCCCTGG ATTTTAATCCCAGATCTGTC ACTGACCAGC TGAGCAATAC TAGGTAAATT GCTCTTGTTC CTTAGTTTCT TCATCTGTAA AATAGAGATAAAAATAATAT CCACCTCATA GGATTGGTGT GAGCATTAAA TGAGCATACG TATGTAGGCC ACTTAACAACAATGCCTTCA CATACTGAAC ACAAATATAC GAGCTGTTGT CTTATTGGGCTCATGTTTTT CCTACCACTA AGCCGCATGCATGCAAGGAC CATGTTGGTT TTGTTCCACA TTGCATCCCC AACCTGGTAT ACAGTGTGCA TTCAATAGTT GTTGACTATTATTACTAGTG GCATTTAACA AATATCTGTT AAATGAGTGA AGAAATACCC ATTTACTGCA AGTGTGTCTA ATATTGATGGCATAATGGGG GAAACTCAAA CTCTGGAGTC AAACAGGTTT TAAAACCTTA TTCCCTCATC CTCAGTTATT GACGTTTTTTTTTTGGCAGG TGTGTGTGTG GGACAACTTA TTGAACTTTT CTGAATTTCC AGCTTCGCAT ATATAAAATA GAGATAGTGATTCATTCTTG CAATGTATGG ATTTGAGACA ATTGTGTAAG TTTATCAATA AATAGTAGCT ATTTTTGTAT AAGTATTACATATAATATCC AGGCCACTGC TTTGCATAAC CCAAAAGGGG CACCATTCAT GCAGAATACA ACATAAATGGTGTCCCTGGA GCAGTGCAGT ATAGGAACCC TGAGGGGACC TACAGTATAC TTTATAGTTC ATAGATTACA AATTATCCCTTTATCAGAGT CTCTCAAGGT TGGATGTATT TGAGGTCCAT AAGAGCAATT TAGGATTAAC AGTAGCTGCAGAAACCATCT GCAGTGATAT TCTCATTTTA AATCCGCGGG AAAGAAGACA GCTATAAACT TGGGACCTGGGTTTAAGCAT TTTAAATGCC AAGTTCACCA TTTTCTAAAA CACAACAAAT ACCCAGTGAG AGAGGGAGAAGGGAAGTAAA TGCCTCTGAA TAAGCAAGTT AATGTCAGTA GTTGTACTGT ATGCATATTG ATGAACAATAGAGGAACCAA TGTCCAATCA GATGAGCAGG ATATTTGGCA ATAACAAGTT GCCTTTGAGG AAAAATGATTTTCTTGGCAA GTTCTTTATC AGCATTACAA AGCTAAAAGC TACGCTTATC ATCACTTATA CTAGCATACC CTGTTGTGCAAATGCTGTCT GTGTTTGCAT CTGCTATTGT TGATGCCTGG TGCATGAATC AGGACTCCAG CCCACAAGTT TTCCCAGAACTTTCTTATGG CCATCATCTT TAAGTGTCTG GTGAACAGTC ATAGTTTGGT ACACAAAAGG GTCAACCTGG GGGATGGCTAGGGTTTGACT CAGTCGTTAC ATTTCAATAG AGCAGGAAGG GGAAATGGTG GCCTGTAACC TCAGGGAATTTTGCCAGTTG GTCCACCCCA CTCTCTCTCT CCTGCTCTGA GGAAGTGGCA CAGCCTAGAA CAGCACCACAGGTGAGAGAA ATGCAAACCC TAACCAGAGA AGCAGACTCT TTGCCAGTAG TAATAGTTCA GGACCACCACCAGCTTTTAT TAAAATTTTT AATAACACTC AAGTATTGGC AGAAAGAAAT AATCTTGGGT TAACTATAAC TAGAATATTGACTCTTCCTC TGTGGAAGAA TCAGCCAATC ACATTTGTTT ACATCAGTTC CCCTGAAGAA GAAAAATACA CTGATGTTGCAGCAAGACAA ATTTAAGCTA GATGTAAATA ACTTCCTTTA GCCTGTAATG CTAGGCTAAT TACATATTGG AACTATTTTTTCAGGGAAGA ATTGTGTAGG GTTTCAGGGA AGAATTCTGA AGAAAATATA GAGCTGAAAT GATCTTGCAGCTCACTGAAA CTGCAGGGTT TAGATCCACA CTGATACTCG TTCTATTATC ACTGTAATGA AGGCTGATGGAATAAGTAAA AATGTTTTGT ATTAGTATGT TTTTACACTT ATTTGCAAGG CATAAATAGG TTAGGTTTTG ATCTTAATTTAATTCTAACA TGTATTGTGC ACAAGCTGTG AGCAGTTTTC AGGAGTTAGG TATCTGGCCA TGACTGATTT TTCAGGAGTTAATCATCTGG TAGAAGGGTC ATACACAATA GGAAGATGTG TGTGACAGGT TGTGATCATT ACTATAATCACACAGAGAGC TGTAGAATTT TAGGCTGGCA GGGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCCAAGGCAGGCGG ATCAAGAGGT CAGGAGATGG AGACCATCCT GGCTAACACG GTGAAACCCC GTCTGTACTAAAAATACAAA AAAAAAAAAA AGCCAGGCGT GGTGGTGGGC GCCTGTAGTC CCAGCTACTT GGGAGGCTGAGGCAGGAGAA TGGCGTGAAC CCGGGAGGTG GAGCTTGCAG TGAGCCGAGA TCGCATCACT GCAATCCAACCTGGGCGACA GAGGGAGACT CAGTCTCAAA AAAAAAAAAA AAAAAAAGTC ATGTTAGATC CAGAGGGGTAGCAACTGGGG CTGGGCTGTC AGTCAACTCA GTCAACTCAG TCAACTCTGC TCCCCCACAG GAGATGCCAGTGATGCATTT TCATGGCCAA CATTGTCAGT CAGCATCATT GAATTACTCC TGATTATAGA GACACAGCTG CAAACGATTCCCCATTAAAT ATGATGTTTC TTGCAATGTT TGGAAGGTAC TCCTTTTTAG TAAGGGAAAT CCCCTCTTCT GGCTTGCTGAAAGTTTTTTC TTTCCATTTT AAAAATCGTG AATTCCTTTT TGCAATATTG AGGTGGTTAT ATGGTTTCTC TTCTCTAATCTGTTAATATG GTGATTTAAT GGTTAGAAAT TTTCTAATGT AAATTCCACT CATATTGCAG AAATAAACCT AAACTGAGCATGAGGCTATA TTTTTTATTT GCTTCTATAT TTGGTTGCTA TACAGTATTA TGTTTAAGAT TTGTTCACAT ATATTTGTGAATGGGATTGG ACTATTTTTC CTTCTTGCCG ATTTTTATCT GGTTTTTAAA TTAAGGATAT TTTAGACTTA TGAAATATTTGGCAAACAAT CCTTGGCAAG TAATTTTTTG GGGAATTTGT TTTGGCTATT TTGAGTATTA CCCAATATAT TTTAATTAAGTTATTCTTAA TGTTTTCTTA ATTAAAAAAA TTACCTACTC TAGAGATATT CTTTATGTAC TCCAGATTTT GTCTATTTATACCACTTTTC TTTTTTCCTC GATGAGTGTC ATAGATGTTC ATCTATTTTT TTATCTTCTT TGATCTTCTC TTATTCCTTGTTTCTATTAA CTTCTGAAGT TTATTATTTT CTTTTTTCCA CTTCCTTATG GTTTATTCTT TCAATTTTTC TCTAACTTCTTAAGTTGGGT GTTTAATTTT TAGCTTGCTT TGCTTTTTTA GGATAAGCAT TAAAACTACA AATTTTCCTT GTTATTCTTTTGCTGCACCC CAAATTGTTG ATATTTCTAT TGTCTAATTT CTATTCAATT AGAATACTTT AAAGTTTCTT TTTGGTTTTTAAAAACTAAC TTTTTAAATT GACAAATAAA AATTGTGTAT ATTTATTGTG CACAGCATAT GGCTTTGAAA TATATGTACATTGTGGAATG GCTAAATTTA GCTTATTAAT GTATGCATTA TCTCACATAC TTATCATTTT TTGTGGTGAG AGCTATGTGACTTTTGAACT TATGAGTTAT TTAAATATTT TTAAATTATT AAGCATATTG GGATTTTAAG TAATTTACCT TTTTATTATTAACTTATAAC AAGTAGAACA GTTAACCTGT ATGATTCTAC ATCATTGAAA TTTATTGACA TTTGCTTCAT AGTCTATTATATGGTCTACT TTTGTTCATG TTACATCTGT AGTAGAATTG GCTAATAGTT GAGTAAAGTA CACATATGTC TATGAAATCAAGTGTAATCC AGAGAAAAAG AGAAATTTAC TGAATATATT GTTCTAGGTG CTATTATATG TTGTCATGTT TAATCCTCACCACAATTGTA TGAGGCAGCC ATAATTAATT CCACTTTACA CATGAGGAGC CTGAGGGTTA AAAAAAAAGCTAGCTCTACT ATTTGTAAAG AATGAAGCAA AGATACAAAT GAAGGCCCAC ATATCCTATA ACTAGATATTTAAGCATTTT AATTCAAGCT TTAAAACTGC TAAATAAAAT GTGCTCCAAT TTCTATATTG ACAGACATAC CTTCCTAATGAGCTGGGGTT CGAATTTAGA AATCTTTGAT GCTTCAGAGT CCACACTGAA ATGTGGAGGC ACATAGTGAGTTGGTCCCCA GCCTTCAGTC CACCCACCTT CTCTTTACTA AATCACCTTT CACATACATG TATGAACACC CCAGCCTCCAAGTCCAAACC CTAAACAAAA TGGGACACCC TTGTGCATAC ACAGAGACAC AGCCCATCCT CAGGAAAACCTGGAAAAGTC CATACAAGTT CTGGAAGCAA GCTTGGGACG GTTTCAGTAG TGTGGTCTAT AAGGGAGGCCTCAGAAGACA GGTTTTCTTA ATTCTGTGAA CTTCTCCCAC AGTAGAAAGG GTGCTGGAGG AGGGTCAGAGTGAGGACTTC TAAAGCATGG GTCCTGAGTA GGGGCCACTC TTGCCCAAGT CTAAGAAGGG TACTAGAATAGCACACTACT ACTAGATACT AGAACCCAGA TACAAGCACA GGTCTTCTGA AATTAATAAT AATAATAACTATTACCATTA TTATACCAGT AGCTGTCATT TATTTAGTGC TTATTATTTG CCAGTCACTG TTCTAAATTC TTTACATGTATTATACAACT GCCATATAAC TGCCATATGA GGGATGTACC CTCATTGTCA CCATTTTACC GATGAGAAAACTGGCATAAA ACGTTTAAGT AACTTGTCCA AGTTACAGAG CTTAGTGAAG CCACAATGTT GCTCAATTTG CTCTCAAACTTCAAAGGGAT GGGAAGGACA CCTAAGTCAT AGAGTCTTTA AGAATCAGAG CTAGAAGGAA TCTTAGATGTTATCTAGTCA GCCTCCTCCC ATTACAGTCC AAGAGAAGAT GGCCCTGAGT TACTTGTAGC TATTTTTGCA TGTGAATTGCAAGTGAATAT ACATTCTACT GAAGATAAAA GATATTTAAA GATATCGCTG GATATAGGAA CAGTGGTTTTAAATCTCTAG GCTTTAACTT TTCTCAGAAC AAGAAATCCT TTTTGGTTTT AATCTATATG CACATCTGTA TTTTTCTCAATTATCGGGTA GTAAAATATA ACTTTTCTTC TGTAATATTT TTTAACTTTA ATGAGTGTTC CTCATAATAG AAAAGTTTGGAAACCATTGC TATGGGTATA TACTTTCTAA AGGGATAGTA ATTTCTCTAG AATATTCATT TAATGCTCCA GAAGTAATTAGCACAATTGT GCAAGTCTGT GCATCATCAA CTATACATTC TGCCTGTTTA CTCCAAATCC ACATGAAACT GATTATACAGTCAAAGGCGA GCCCAGTGGA GAGGCATTTT TGGAGACTTC CTGGTACATT GAGACAGGGT CGGCCAGTCTGCGTTAGGGT CTTGGTCAAA ACTGCATTTC TGAAACTAAA CTCAGATTGC TTTCTTTTAA GGGGTCAGAA CTGATTCAAATCTACATTTT TAAAAGCCTT AGATGTGGGG CTTTTCCTAT TCCCAGTCTC CGCTATTGGT CTTTGTGAAT CCACAGGCAATTTGGCCACA TCCTTGACTC TCTCTTATAT TAAGAATTAA ACAGCTAAGT TCATGCAGAG GAAATATAACAAAGGAGGGA CTTTCCTACA AGATCTTTGA AAAATGGAAC ATTTGCATAA GTCATATTTA GCCAGAACTG TTGTTTTATATTTTCCTTTC TGAATACTTT GTTACACCTC CTCCCAGCCA ACCCCCCCCC TCCCTGACCC CAACTAGTCA GAGACCAAAGCCTTCACAAT GGTTTACACT TGAACCTTCC TGGCCCCACC CTCATCATCA CGCCTGAATA ATTACATTCA CTGACTGGTCTCCCCTGCTT CCGTTTATCT CCACTCCTAA ACCCTCTGAC ACCTTAATCT TCCCAGAATA CCATTGTGAT CCTGTTCCACTCTTGCTCAA GTTTTCCCAG AAACTAGAGT ACAAACTTTA TAAGCTTTAG AGTTGAAAGC CACTCTATCT CTTTTTCATCCCCAGGTCTC TGCCAAGGCA GTATAACCTG TCCAACATCT CTAACTTCAA TACCTTTGTC TTAGATACTA GACTCTCCTCCTGGTTTCTA ATTAAACCTG ATCTAGGATC TAATTTTGCC TCTGAATTCT GTTGCCCTTT GCCAAGTGAT CTCTTCCTCCTCTGAGCCGC AGCATCTCTG AGCTTGCACA CTTAGCATAG CCATAGCACA CACAGCCTTA GCTTGCAGTT CAGGGTGTTTACCTTCCCTC CCCTTCCAGA TGCTGGATCC CCAGGGATAG GAACTCTGCC CTTATGTGTC CATAGCCCCT GGTAGTATGTCTTGCAGTCG TACATTTTCA GCAAATGTTT AATTGGTTAA TTGAAGACAA CTGTCCCATG CCTTAAGCCT CTCTTTTTGCTAAACATGCC TGTGTCCTTT GTCATTGAAC AACTATTTTG ATCTATTTTC TTCCTGACAT AGGGGTCAGT TCCGAGGATGCTGAAATCAA GAGACATAGC TTATTCTCTC AAAATTGCTT TCAAGAGTGA TTTTGTTGTG AATTGAGAAC TGGCTGCCTACTTTTGGACT ACCCACTTCA GCAAGAGTGT TTGAAACCAA ATCTATTCTA AGTAATTTTT TATTCCCTTT TCTCTATGGCATTAGACACA CAGCTCTTTT AAACTACCTT TCGTTATCTA TTAAACAGAC ATTCAGTAAC TCTATAGACA CTGTCTAGCTATATGAACTT AGACAAACTA ATATCTCTGA GCTTCAGTTT CTTAAAATTT AAAATGAGGA CAATACCATC TATGGCCGGGGATTAAATGC TATGAGGAAT GTAAACCAGA TGTCAGGTAC CATCTCTCTA AAATCCAGAT AAAATGAATTAAAAATACTG GCCGCAAACC CTCTCTAAGA GTTCTCAAAA TTCTCAGAGA GCTTAATTTT CATGCTCACCATAGCACCGA TTTTCTTCTA AATATTTTGT TTCTACCAAA ATATTTTGTC CCAATTTTGC CTTTTATGGC TATTTCTTCATATCCACTTT CCCAAACTAA AGAAGCAGCC CCTTCACCTT AAACTCCTCC TTCAAAGCAA CCTAAATACA GGTCTGGGTTTGTATTCCTA GTGGGATGTT ACAGAGGTTA GTGTGATGCA GAGGAGGAGT CATGCTGTTT AAATCCATACTAGTCCCCAG AGGCCAGGCT GCTTCTGCCA CCCCTACCCC TCCCGCCACA GAGCTCTTCA GCTTCTCACA TTTCTAGTTCTTCTCTCTCT ACTTTCATTA CCTTCTCTCT TTTTTTTTTT CTTCTCATGT GCTCACGGGA GCAGAGAAAA TTAACTCCTCTAAGTTTTCT TAACACAGAG TGCCTTAATT ACATATTACT ATTGTTTGAG TTCCTGCCAA CACTACGTCT GTAGGGTCACACCTGCTATA TTAGAGGCTT ATCAAAAAAA GATAGCTTTC TCCTAAAAAG GGATTTGGAT GCCTACTAAGATAACTGGAT GCCAAGATAA GTTTAACCTA ACAAACTTTA TTATTATTAT TATTATTATT ATTAGAGATA GGTACTTATTCTGTCACCCA GACTGCAGTG CAGGGATGCA ATAATAGCTC ACTGCAGCCT CAAAGTCCTG AGTTCATGCAATCCTTCTGC TTCAGCTCCC TGAGTAGCTA GGACTACAGG CATATGCTAC TCTGCCCAGC TACTTTTAAA AAAATAATTAGGGATGGGGT CTTGTTGTAT TGCCCAGGCT CGTCTCAAAC TTCTGGTTTC AAGCAATCCT CCTGCCTTTT ACCTCCCTAATTGTTGGAGT TACAGGCATG AGCCACAGCA CTCAACCAAG ATTTAAAAAC TTTTAAAAGA AATCACATTACTTACTGTTA TCATCATTAT GGTTACTACC AGTGTTAAAA CAATTGGTAT TGAAAACACC ACTACCAGAT CAAGCTTCAAACCAAGATGT CAAGTAAATA TTATTGTCAG ACCTCTGAGC CCAAGCCTGC AGGTATACAC CCAGATGGCCTGAAGCAAGT GAAGAATCAC AAAAGAACTG AAAATGGCCG GTTCCTGCCT TAACTGATGA CATTCCACCATTGTGATTTG TTCCTGCCCC ACCTTGACTG AGGGATTAAC CTTGTGAAAT TCCTTCCCCT GGCTCAGAAG CTCCCCGACTGAGTACCTTG TGACCCCCAC CCCTGCCCAC AAGTGAAAAA CCCCCTTTGA CTGTAATTTT CCACTACCCA CCCAAATCCTATAAAACAGC CTCACCCCTA TCTCCCTTCG CTGACTCTCT TTTCAGACTC AACCTGCCTG CACCTAGGTG ATTCAAAAGCTTTATTGCTC ACACAAAGCC TGTTTGGTGG TCTCTTCACA CAGACCATGT GACATTTGGT GCCGTAACTC AGATCGGGGAACCTCCCTTG GGAGATCAGT CCCCTGTCAT CCTGCTCTTT GCTCCATGAG AAAGATCCAC CTATGACCTC TGGTCCTCAGACCAACCAGC CCAAGGAACA TCTCACCAAT TTTAAATTGG GTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCACTATCCCTCA ACATCTTTCT CCTTTCAATC TTGGCACCAC GCTTCAATCT CTCCCTTCCT TTAATTTCAG TTCCTTTCTTTTTCTGGTAG AGACAGAGGA AACGTGTTCT ATCTGTGAAC CCAAAACTCC AGCACTGGTC ATGGACTTGGAAAGACAGTC TTCCCTTGAT GTTTAATCAC TGCAGGGATG CCTGCCTGAT TATTCACCCA CATTTCAGAG CTGTCTGATCACTGCAGGGA CGCCTGCCTG GATCCTTCAC CTTAGTGGCA AGTACCACTT TGCCTGGGTG GCAAGCACCACCTCTCCTGG GGGGCAAGCA CCACCTCTCC TGGGGGGCAA GTACCCCCCA ACCCCTTCTCTCCATGTCTC CACCCTCTCTTCTCTGGGCT TGCCTCCTTC ACTATGGGCC ACCTTCCACC CTCCATTCCT CCCTTTTCTC CCTTAGCCTG TGTTCTCAAGAACTTAAAAC CTCTTCAACT CACGTCTGAC CTAAAACCTA AATGCCTTAC TTTCTTCTGC AATACCGCTT GACCCCAATACAAACTCAAC AATGGTTCCA AATAGCCTGA AAACGGCACT TTCAATTTCT CCATCCCACA AGATCTAAAT AATTCTTGTCGTAAAATGGA CAAATGGTCT GAGGTGCCTG ACATCTGGGC ATTCTTTTAC ACGTCGGTCC CTCCCTAGTC TCTGTTCCCAATGCAACTCA TCCCAAATCC TCCTTCTTTC CCTCCTGCCT GTCCCCTCAG TCCCAACCCC AAGTGTCGCT GAGTCTTTCCAATCTTCCTT TTCTACTGAC CCATCTGACC TCTCCCCTCT TCCCCAGACT GCTCCTCCTC AGGTCGCTCC CCGCCAGGCTGAATCAGGCT CCAATTCTTC CTCAGCGTCC GCTCCTCCAC CCTATAATCC TTCTATCACC TCCCCTCCTC ACACCTGGTCCAGCTTACAG TTTCATTCTG TGACTAGCCC TCCCCCACCT GCCCAACAAT TTCCTCTTAA AGAGGTGGCT GGAGCTAAAGGCATAGTCAA GGTTAATGCT CCTTTTTCTT TATCCAACCT CTCCCATCTC AGTTAGTATT TAGGCTTTTT TTCATCAAATATGAATACCT AGCCCACTCC ATGGCTCATT TGGCAGCAAC TCCTAGACAT TTTACAGCCT TGGACCCAGAGGGGCCAGAA GGTCATCTTA TTCTCAATAT GCATTTTATT ACCCAATCCA CTCCCAACAT TAGAAAAAGC TCCAAAAGTTAGACTCCGGC CCTCAAACCC CACAACAGGA CTTAATTAAC CTTGCCTTCA AAGCGTACAA TAATAGAGTAGAGGCAGCCA AGTAGCAACA TATTTCTGAG TTGCAATTCC TTGCCTCCAC TGTGAGAGAA ACCCCAGCCACATCTCCAGT ACACAAGAAC TTCAAAATGC CTAAGCCACA GTGGTCAAGC ATTCCTACAG GACCTCCTCCATCAGGATCT TGCTTCAAGT GCCAGAAATC TGGCCACTGG GCCAAGGAAT GCCCTCAGCC TGGGATTCCTCCTAAGCCAT GTTCCATCTG TGTGGGACCC CACTGGAAAT CGGACTGTCC AACTTGCCCA GCACCCACTCCCAGAGCCCC TGGAACTCTG GCCCAAGGCT CTCTGACTGA CTCCTTCCCA GATCTTCTTG GCTTAGTGGC TGAAGACTGATGCTGCCTGA TCGCCTCAGA AGCCTCCTGG ACCATCACAG ATGCTTTTGG TAACTCTTAC AGTGGAGGGT AAGTCCGTCCCCTTCTTAAT CAATGCAGAG GCTACCCACT GCACATTACC TTCTCTTCAA GGTCCTGTTT CCCTTGTCTT CATAAATGTTGTGGGTATTG ATGGCCAGGC TTCTAAACCC CTTAAAACTC CCCAACTCTG GTGCCGATTT AAACAACATT CTTTTATACACTTCTTTTTA GTTATCCCCA CCTGCCCAGT TCCCTTATTA GGCTGAGACA TTTTAACCAA ATTATTTGCT TCCCTGACTATTCCTGGACT ACAGCCACAT CTCATTGCTG CCCTTCTTCC CAACCCAAAA GTGGCAACTC CTTTGCCACT TCCTCTCATATCCCCCTACC TTAACCCACA GGTATGGGAC ACCTCTACTC CCTCCCTGGC AACAAATCAC ACCCTCATTA CTATCCCATTAAAACCTAAT CACCCTTACCTGGGTCAACG CCAGTATCCC ATCCCACAAC AGGCTTTAAA GGGATTAAAGCCTGTTATCA CTTGCCTGTT ACAACATGTC CTTTTAAAGC CTGTAAACTC TCCTTACAAT TCCCCCATTT TACCTGTCCAAAAACTGGAC ATGCCTTACA GGTTAGTTCA GGATCTGTGC CTTATCAACC AAATTGTCTT GCCTATCCAC GCCATGGTGCCAAACCCATA TACTCTCCTA TCCTCAATAC CTCCCTCCAA AACCCCTCCA TAACCCTTAT TCTGTTCTGG ATCTCAAAACATGCTTTCTT TACTATTCAT TTGCACCCTT CATCCCAGCC TCTCTTCACT TTCACTTGGA CTGACCCTGA CACCCATCAGCCTCAGCAAC TTACCTGGGC TGTACTGCCG CAAGGCTTCA TGGACAGCCC CCATTACCTC AGTCAACCCA AATTTCTTCTTCATCCATTA CCTATCCAGG CATAGTTCTT CATGAAAACA CACGTGCTCT CCCTGCTGAT CATGTCCAGC TAATCTCCCCAACCCCAGGA CTGGCAAATT GACTTTACTC ACATGCCCCA AATCAGGACA CTAAAGTACC TCTTGGTCTGGGTAGACACT TTCACTGGAT AGGTAGATGC CTTTCCCACA GGGCCTAAGA AGGCCACCGT GGTCATTTCT TCCCTTCTGTCAGACATAAT TCCTTGGTTT GGCCTTCCCA CCTCTATACA GTCTGATAAT GGACAAGCCT TTACTAGTCA AAGCACGCAAGCAGTTTCTC AGGCTCTTGG TATTCAGTGA AACCTTCATA CCCCTTACCG TCCTCAATCC TTAGGAAAGG TAGAACTGATTAATGGTCTT TTAAAAACAC ACCTCACCAA GCTCAGCCTC CAACTTAAAA AGGACTGGAC AGTACTTTTACCACTTGCCA TTCTCAGAAT TCGGGCCTGT CCTCGAAATG CTACAAGGTA CAGCCCATTT AAGATTCTGT ATGGACGCTCCTTTTTATTA GGCCCCAGTC TCATTCCAGA CACCAGCCCA ACTTGAACTG TGCCCCAAAA ACTTGTCATC CCTACAATCTTCTGTCTAGT CATACTCCTA TTCACCATTC TCAACTACTT GTAAATGCCC TGCCCTTTTT TACAGTGCTG ATTTATACTTTTCCTCCAAA CCATCATAAC TGATATCTCC TGGTTTTACC TCAAACCGCC ACCCTTAAGT CTCTCTTAAA GTGGATAGAAGATCTTCAGT GACAAGGTAC ACTCCAATAC TTTCACCCTA ATAAAGCCCT ATTCTTTACT TTTATATTCA CTCTTATTCTTGTTCCCATT CTTATGCCAC TCTCTACCTC TCCCCAGCTA TCTCCACCAC ACTATCAATC TCACTCACTC TCTCCTAGCCATTTCTAATC CTTCTTTAAC AAACAATTGC TGGCTTTACA ATTTCTCTTT CCTCCAAAAT CACCGAGTCC TCAATTTACTCACTGCTAAA AAAGGGGACT CTGCATATTT TTAAATGAAG AGTGTTGTTT TTACCTAAAT CAATCTGGCC TGGTATATGACAACATAAAA AAAACTCAAG GATAGAGCCA AAAACCTTGC CAACCAAGCA AGTAATTATG CTGAACCCCCTTGGGCACTC TAATTAGATG TCCTGGGTTC TCCCGATTCT TAATCCTTTA ATACCTGTTT TTCTCCTTCT CTTATGCAGACCTTGTGTCTTCCATTTAGT TTCTCAATTC ATACAAAACC GTATCCAGGC CATCACCAAT CATTCTATAC GACAAATGTTTTAAGGGAGG AGACCACCCC TCATATTGTC TTATGCCCAA TTTCTGCCTC CAAAGAAAGA AGTAAAAATGAAAAGGCAGA AATGAAATCC ACAGGCAGAC AGCCTGATGC CACACCCTGG GCCTGGTGGT TAAGATCAACCCCTGACCTA ATCAGTTATG TTATCTATAG ATTACAGACA TTGTATGGAA AAGCACTGTG AAAATCCCTG TCTTGTTCTGTTCCTCTAAT TACCAGTACA CGCAGCCCCT AGTCATGTAC CCCCTGCTTG CTCCCCCTGC TTGCTCAATC AGTCATGACCCTCTCACGCA GACCCCCTTA GAGTTGTAAG CCCTTAAGAG GAAAAGGAAT TGTTCACTCG GAGAGCTCGGTTTTTGAGAC ATGAGTCTTG CCAATGCTCC CAGCTGAATA AAGCCCTTCC TTCTTTAACT CAGTGTCTGA GGGGTTTTGTCTGTGTCTTG TCCTGCTACA GTTTCATCTA ACAACCCCAT AATATCACCC CTTACCACAA AATCTTCCTT CAGCTTAATCTCTCCCACTC TAGGTTCTCA CGCCACCCCT AATCCTGCTC GAAGCAGCCC TGAGAAACAT CGCCCGTTAT CTCTCCACACCACCCCCAAA AATTTTCACT GCCCCAACAC TTTACCACTA TTTCGTTTTA TTTTTCTTAT TAATATAAGA AGATAGAAATGTCAGGCCTC TGAGCCCAAG CCTGCACGTA TACATCCACA TGGCCTGAAG CAAGTGAAGA ATCACAAAAGAAGTGAAAAT GGCTGGTTCC TGCCTTAACT GATGATATTC CACCATTGTG ATTTGTTCCT GCGCCACCTT GACTGAGGGATTAACCTTGT GAAATTCCTT CCCCTGGCTC AGAAGCTCCC CCACTGAGCA CCTTGTGACC CCCACCCCTA CCCACAAGTGAAAAACCCCC TTTGACTGTA ATTTTCCACT ACCCACCCAA ATCCTATAAA ACAGCCCCAC CCCATCTCCC TTTGCTGACTCTATTTTTGG ACTCAGCCCA CCTGCACCCA GGTGATTCAA AAGCTTCATT GCTCACACAA AGCCTGTTTG GTGGTCTCTTCACACCGACA CGCGTGATAA TTATTATATT ACTTTTAACT AAAACCCTTT CAGAGTCTCG CAGGGAAGGC TGTATATATCTCATAAAATG TTGGGGCCCA CTGGATCAGA CAAGGCCACA AAGGCCAAAG GGAAGTAAAG ATCTCATTATTTCTCCTAAT AATTTCCCTG TCCTTTGTCA TAAATGGTGG GTAGGCTGTT ATGGTGATGG CAGATTTTCT TTCCATAAAATGTCCATAAT AGGACATTTG AACAGAAGGG AAAAATCAAA TTGCTGAAGT TGAAAGAGGG CAATGCAAAGAACTTTGGAG AAAGAACTGT ACAGAGAAGT CAACTGGCAG ATGGGAGGAA GTTTAAGGGG AAAAATATAGATGTCTAAAG AATACATTTA TTCATTTTCC ACAGTGCAAT TTGGACAAGA AGCCTCTTTC TTGCTTCTTT CTATTCTCATTAAATCATTA GAGCTCAAGC AATCCTTCTG CCTCAGCTTC CCGACTAGCT AGGACTACAG GTATGTGCTA CTATGCCCAGCTAATTTTTT AAAAATTAGA TTTTAATTTG GTGAACTATT TCTGTAGGAA ACTACAATAA TACAGCCCAG GCACATTGATCTTGGGTGAA CAAATCAGAA GGAATGAATA ATTCTGTGTT CCTGGGACTC TGACAATTTC ATGAACTTGG TACTCTGAGTAAAGCATAGG AGGAGTTATT TCATAAAATG TGGAGCACAA TCATGTGACA AAGATAATGG GATCCCCATTTCATAAATAA ATCTGAAGTT CAGAGAGAGT AACAACTGGC CAGGGTCACA TCACGGAGAC AGAGGCAGGGTTCCCACTGA TGCCTCTGAC TCCCTGTCCC AGGCCCTTCC TCCTCCCGCA AGCAGAAGTG CAGGGGGCAGAGCTGACCCT GTGCAGTGAA AATCTGAGGG CTGAGTTCCT ATTGGAACAC AAGTGAAAGA CTTCCTGGCTTCTAATCTCA GGATAAGGAC TCAGAGCTCC ATCTGTTCCA GCCTTAGGAT AAGAACCAGA ATCTTACACCATGAAAGCAT GAAAGGTAAG ATTTGAGTGA GGAAAAAAAA AAAAAAAGTC TGTGTTTCAG ATTCAGTTCACAAAGCAGTT TCATACTTAA GGTACCATCA CAATAACCCT GTGGGGTAAG CAAGGCAAAT TTCATTCTTG TTTTATGGGCATAGGAAGTA AGTCTCAGGG AGGTTAAGAC CAAGGTTTCT GGAGAATTTT ATATTATGAA TCTTGATTTA TGGGATTACTATTATGTAAT TCCTAAGATC ATATAGGAAT CCTAGAGCTT GAATATAGAA CTTTATTTTT AAATCTATAT ACATCATAATTACAAGGAGT AGTGTCCATT TGGGTTCCTT GGCCCTGATG TGTTAGTGGA ATAAACATTT TTGTCAGGGT TGCCATGTGTGTCTGTGCAC GTGTGCACTG TACACCTCCA GGGGATGTAC CCTAAACCAC ATGAATGTGA TTTGCACATCCAAGATTTAC AGTGTACTAT AGGGAGAATC TTTTGCAACA GCTTTTGCTA TAATACAGAA TCTGAGATGT CTTTGAGAAAGAAAAGTGTA ATCATTACCA AAAAATTATT CTCATAATGT GTGCAAATTT GTATGAAATC TATATTGGCCATGGGACAAG GAGGTATTTC CAGCTAGCTT CTGAAAGGGC TCTATTCTCT CATAAGAATT CAGCTGTTGA CATTAGGTGATATCTGCCCA GGTCATCAGA TGCCATAGAG AAAGAGGGTT TGCTGAAACT TATATCAGCA GTGCACTGTA TGCTCTTTCTGATTTATTTG AACATTCATT TATTGAGTGT CAAGTAATGC ACTAGATACT CCAGGGATCT GACACAAACT CTGCCCTGAAGGAGCATGTA ATCTCACTGG GGAGAAAACA AAACATATGA TAATTTCAAA ATAACAAACT AGGCAAACTAGTTAACACTT AAAAAGCAGG CTTTATTCAA ATGCAAAATT GCATGTTACA GGGTAACCTT TCAGTAAGAAGCCAGGAAGA GGAGCTCATC ATGGGTTGGA TTAGTAAAGG ACTAGTTATA AAAGAAGTGG TGGGGTTGAGGGAGGCCTGA GATGAAATTT AAAGAATATG TAGAATCTAG GTAAGTGGAT AAAAGGTCTG GGGGCAGGGGAAAGGAGAGC ATTTCATTGT GAATCAAGGA ATTTCTCCAC CTGTTTTAAC TCTTCCATAT GACATCAAAG AGATGTCACTTGCAGCTAGC ATTTCAGTGA TGTTTTCTTA CTAATAATAT CGTGATAAAA GAAACATTGA CTATAAGAAATAGGAATGGG TCTCATAAAA GGAAACAGCA AAACCCCCAA ACTAAAAAAC AGCGCAGGCT ATTTCTCTCTTCTCTCCTTT TGCTTGGCAC TCATGAGATG CTAGGTGTGG AAGTCAGCCA ACTGAAAAAG AGAGGTGGCTGAAGAAGGTG GGGAGGCTGA AGCCAGTTAA ATAGGATGGT CCAATTCACA GACGGCGAGG CTACAGTGCAAATAGGACTC TTTCAACTTG AGCAGGACCC CATTACTTCA CTGGAGTTAG AAAGAAAGGA GAGCGTAGACTTTTTGAACT TTCTATAAGA GTGTACCTCC ACAGTATACA GAAGACGACG TGAAATTTGA TCTGCAAGAAAACTGAGTCC ATATTCACAT ATGTATCAAA TTTGCACTTC ATTTAGAAGT GTCTGTCATC AAGTACAGCA CTGAATTGAAACTGAAAACA AGAGTCAAGA AAGAGCAAAG TCAGCCATCT TTATATTCCA CATGAATCCT TTCCCTTTAT GGTCTTATTTGTTTCTCCTC AGAAAAGACA AAAAGCTGAG CTGTATAAAC ACCTGTGGGC TGGGGGTTGA GGGATAAATGAGGGGCGAAA TGGAAGCTGA AGGAACTGTT GGTCAGGTAG AAATCTTCCC AGATGCACTG AAGGAAACACACTTCATGTT TGACGTAGGA GGTGCCACCA CACAAAACGT TTCATGGAAG GATTTAAAGG ATCTCATGAT TTTTAGTATTCCAAGAATTT TCTTTCACCA AGGGCGATTT AATATGGGTC ATTCATACTG AAAGAAAAAC AAAAGATAATAAGAGTTTAA AAATTGCAAA ACTTGGAGTG TTAGTAGTAA AGGTAAATAT TCATTAGAGA TGAGAAGAGGAGCAAGGAAA TGCTTTCAGC TGGAAATCTC AGACAAGAGG CCAGGCTTTA GGAACCTCTG AAGATGAACAAATGTAAGCA AACCCTAGTA GCAGCACTTC TCAGATTTTC ATGTGCTTAC CACTCAGAGA TGGTGTTAAAATGCAGACTC TGATTCAGTA GGTCTGAGTG GAGCCTGAGA TTCTGCACCC CTAACAAGCT CTTTAGTGAT GCTTATGCCACTGGCGCACA GACCCCACTT GGAGAAATTT TTGTGGTGCA TACGGTCTTT GTCTCCAGAT CTAATGAGTCTGAAGGACAG TGTAGATTGA TTTTTTAAAT TTATGTTTAT TTTAATTTAA TTTAATTTAA TTTATTTATT TATTTATTTTTGAGATGGAG TCTCACTCTG TTGCCCAGTC CGGAGTGCAG TGGCACGGAG GCAGCTCATG CAACCACGGCCTCCTGGGTT CAAGCGATTC TTCCGCCTCA ACTTCCTGAG TAGCTGGGAA TACAGGCACG TGCCAGCACACCCAGCTAAT TTTTGTATTT TTAGTAGAGA TGGGGTTTCA CCACATTGGC CAAGCTAATC TCAAACTCCT GACCTCATGATCCACCTGCC ACGGCCTCCG AAAGTGCTGG GATTACAGGC GTGAGCCACC GAGCCCAGCT GTAGATTGATTTTGAGCAGT GGAAAGTCAA GGAATTAGAA GGCATGCTTA AATGGAAAGT GAAATTGGAG AAAATTTAAACTCATGAAAT AGTGGTGGTT ATAAACTCGT GATAAATTAT ATCCTGGGAT ATAATTTAAT GAGATGGTAA CACATTTAGTTTAAAGAAAT AAGTGACACT TTTTTTGTGT GACACAACTG TCTTATTCTT GGAAAGGACA AGGAGAGAATGAAATATGGT ATGTCTTCAC AGCACCTTTC AAAGGGAGAA CCAGATTCTG AGGAGCTGGT CTCATGATGAACTGTCAGGG TAAACCACAG TTCAGCAGCT GCAAATGTGC TTGCCAAAAT AGAGACAAAA AAATGTTTCTGAAAACAAAA TTTCACATAT GCCCTCCTCT GAGGTTGGCA TCATATCTTC CTGTGTATCT TGGGTGTAGC TTCTATCCTGCCAGAATTTA GACAGTAGAA ACCAAATGAG GTGATAAACA GAGTCATTTT GCAGAAGAGT CAAAATAACCCAGCAAGAAA TGAAACCACA AATGCCCAAG GAGTCATTCA TTCACCATTC AAAAGCTAAT AGAAATGAACACAAACTACT ATGAAAATTC ACCCAAGAAC TTAAAAAAAA AAAAAAAGGC TCATGGTGTT TAGTGTGATAGTATTCATTT TACCTTTGAC TTGTTCTAAA AACACACCAT ACTTCTACCC CACCCTTCCT CAGTGCCGTC ACACAATGGTTTCAGTGTGA AAAAAAAAAC CACGTTACTG GAAAAGGAGG GTGCCTGGGA CTTGCCACTC TAAGCTGGTAGTCAAGGGTC TTGAGTTCTA AAAGCATACG CGTTAAGAGC ATGATTCCTG GATCCAAATG AGTATGGATCTCAGCATTGC CATTTATTGT GACCTCAGGC TATTTTATTT CTCTGTGCCT GTTTCTTTAT CAGTAATGAA GATGTTCATAGACCCTTCTC CCACAGACTT AAAGGCATAT TTCATGATTT AAGACATGTA AACCATTCAT AACAGTATACAACATGGAAT TAATATTTGA TAAAGGTTTA TGATTATTGT AACTAACTCT GTCACTTGCT CAAGGCCTAT AGAAAACTTACTTAATTAGT TCAACTACAA AAAGAGTTTG AATGTGATAT CCACCAAGAT CATATTCAGA CCTAGAATTC TGTGATTCTTATGAATTAAT ACAGCCTTGG TCAATAAATG AGAGCTGGGC AAATAATTCT TCTTTGCTAG GCCTTTCTAG ACCATCTGGTGAAGCATTCA AGACTTATGT TATTGGGGCC AGCCTTCCTT TCCAACTTCA ACTCCACAAC TCCTCAATAA GCCATGGGCTCAAGAAAGTT CTGCTCAGTG GCCCCTGAAA AATGCTTTCA TAGTCTCACT ACCATACCAC TGCTTACACA ATTTCCTTCCTACAGACTGC CTTCCTTTCC TGCTTTTCTC CATATACCTA AATCCTATCT ATTCTTCATA AGCAACCTTC TTTATAACATTTTCTATAAC CACCAAGCCA AATGACCTTT TCCTTCTTAA ATATAGCACC CATTGGCCAT TACCATGCTC TGCCTTGTATTTTTCTGATT TTTTTCTTTC TATATTCCTG TCTTAACTCC CCAGCTAGGT AATAATTTTC CTGAAATCAG GGACCAGGCTGACTCCTCTT GCTGTCTCAA GAAAGCTTAG CAGTTTCCAA CACAAAAATG TTCAATAAAC AACTATTAAT TGACTGATTATAAAAAATCA GTGAACCATT AAACTTAATA TAGCAATTTG CTTAGCATGG TAATTAGCTT TTTGCTAATA TTCTTCCAGCCAGTCTCTCC TCCTGTGCCT CAAGGACATC TTAAAAAAAA AAAATCTAGT TGATCTGCTT CCATCTAGTG GCAATTAAAACAGGTGGTTC CGGTAGCCAG AAAACAGCTC TGGGTAGATT GTGCCAGAAA ATACTTTCAC TCAGTAGGTGCGAGTTTGAA AGAAATCTTC ACATCTGTGG GTTTCCTGCC ACAGACATAG GGAGACCAGC CCAGAGAAAGAAGCCTTTCC TCACTAGACT CCATTTGCAC TAGTAAAGAG AAGACAGAGT AATTAAAAAG AATAAAAAGAACCTCCACTG ATCGTACATC CTCATCCAGT TACCCCTGCC CCACTTCTCC TTCACAGCCA AACATTTTAA AAGAGATGACTGCTTGTTCT GTCTCTACTT TCTCATCCTC AGTAATGCTC AATGCTTGGC CGTCTGACCT CTGTCTTGAT GTCTGCACTGCAAATAGTCT CCCCACTGAC ACCCTTGTTG CATCCAGGGG ATACTTACTG GTTCTCTTGG CAATGTTTGA AACCGTTCCCCTTTCTTTGT TTCCTTGGCA TTCATTACCC CACACTCTTT CTCCTCTTCC TTCTCCCTGC CTGGCAACAT CTTTTCATTTCTCTTTCCCT TAGGTGACTT ATTAGATAAT GATGTTCCTC TGGCTCCCAT ACTCTCTCCC AGGTCCTCTT CCATTCTTAAAGCACTCACA CCCTCCCTGG ATGATAGTAC CCACTCCTGA GATGGCAGTT ACCTCCTGAA ATGTGAGGGACCCAAATCCA CTTCTCCTGC CATAGCCTCT GTGCTTTGGA TAGGTCCAAT GAGCCACAGT GAATGATGTG CATACACCCAAAGCTCAGTA CAAAACTGAA CCCATGATCT TTACCTCCAA AACCTCTCAT TCTTTTATGT TCCCTTCTCA GAAGTAAACAGGACTACCAT CCGCCAGTTT CCAGGTGAGA AAGATGATAA TTTGATTCTT CTCTCTCACT TTTAGCCAAT TAACAGACACATTCAGTTAA TATCACCTCC TCTTATTTCA TGAACCCATT CTTACTACTA GTTCCCTAGA CAGGCGCCAT CGGTTTTAATCTAATAACTG CAAATGCCTC CAAAACAAGT CTCTTTGAAT CCAGGCTCAC CTGTCTCCCA CACTTGCCAT ACTGCTCTGCAGGGTGACCT TATAAGATGC CAGAGGTAAG GCTACTCACT GTTTAAACCC CTTTAGTGAT ATCCCAAAAGACCTCAAGAT AAAGCCCATA TCACATGGCT TATACATTAG TTTATGATCT GGCTTCTGGT GCCTCATTTT TCCCCACTTTTTCCTTTGCA TTCTAAGCAA TGGCCCATAC TAAGTTTGTG ATTGGTAGGA TGGTTGCCCA AACCAGCATC CAATCCCTTCAGAAATCATC TCACTTCATT TCTAGCATTT TAAAGGAAGC TCAGTTGTCC AGCTGGGTAC TGAATATGTC ACCAAAGTCCTCCTTTCATA GTTTATTTTA CTTAAACTCT CCTTCCTAAA ATTCCAGAGC AAGTCACTAA ACCCTAGATA CTGAGAAATATTTTTCCATC TTCATTTCTG CCAGGTGGGC CATCAACTTT CACATGTCTG CATCTCCTCC CACTGTGCTA TTTCTCCAGTAGAAGAAATT TGAGCTTCAA GACCAAACTG AAAAATACTT GCCTCCTTGG GGAAGCTGTA GGTAGAATTCATGCTCCCTA TCTTTCCCAC ATTTCTGAAG GACAATGCCT GTTAGAGCAA TTGAATGCAA ATAGTCAATT GAATAAGCATTTATTCATTT CTCAATAAGT GCTTGTTCAA TTGAATATTT CTTAAATAAT ATATTTAAGA ACAAGAAGAA CACACCACAATGTTTTTAAC CCTCAGAAAA AATTCTGAGG TAATCAGAAA AATCTCCCTT TACATAAACT GCCCTTTTCT AATAGGGATTACTTGTTCGT TCATTCATTC ATTCAGCTCC ACTAGCACCA AAAAGCACAG CTCTGAAAGG AAGCTAGTAG ATTTATCACCTTATCTGGTC ATTTGGATGA GGACCCCAGG TAAATAAACT ACTATGGGGT TAATGTGTCT AGCTAGAGCAGGAAGTAACT TAAGGAAGTA GAGAATGAAT CAGCAGATGT GGAAACTCCT CGCCACTAAT AAAACTTACCTTCTCTTGGA TTTCTTGCCT GAAAATAGAA AATAGAGAAA AGGCATTAGC AAAAATTAGA CAATTTAAAGTTTTTCAAGT AAGGGAGAAG GAAGACTCCC ACTCTCAAAA CTGTCTTTTG AAGTATATTA GGTATTTGTT AGGTGGACCCTATCTGTGTC AAAGGAGATT TGAGGAACTG GCTTAATAAA CAGTGGTAGA CACTAATACA GAACAGACATGTTGATGCAG ATGCCTCCTG AGGTTCCATT CCATTCTCCG TGCTACTCAA GAAGACAGAA TTGCTAAATT GCCTGGTGGCAAGACCCAAT ATGTCCATTC AAGTGTTTAT CCCTTCCCAA TCTGCCATCT CATCCTACCT GCAGATTCTT CCCTTGAGGGACAGCTGCTA ATACTGTAAA ACTATGTGCC ATTACAGCTC ACAGCATCAT CTCTATGAGA ATCCACAAGAGAATTTCACT TTGGTCTTGT TGGTAGGAAT TGTGCAGCCT CATCTGAGTA ACTAATGTGT TTTTATCTTA CAAACACAAGGAATATCACA TGGTTCTCCT TTGACTGGCT GTAAGGAAAC TCAGAGCTAG ATCTGAGACC CTCTCCTACC AAGTATATAAAACTTTGTGA CATACATTTT TGTGCCATAA CTTCAACCTT GGTTCCAAAT GATTTTTGTA CCCTAAGTTT AAATTTGGCTTTCTTTTTTT TTTTTTTGTA CTCAATAAAA CATCAAGCTC ATTTATTATT GCGAAGAGCG AAACAACAAA GCTTCCACAGCGTGGAAGGG GACCCGAGTG GGTTGCCCAA ATTGGCTTCT TTTTCTTACT TTTTAATTAA TTTTAATTTG CTATACTGAACACATTTTGT ACTGTTCTCA CATTCTTTTT GAAAAAAGCA GAATATAAAT AAGTAGATAA CTTAAAAAAA ACTCTTTGAGCAGAAAGAAT CATTTGGGAG GCAATATATT TCAGTGGCTG TAAAGTGGCA TTCTAGAATC ATCCTACCCAGGTGAAAGCC CTATTTTGCC ACCTGTAGTG TAGTGTGTAT TTGAACAGCT ACTTTCTTTT CTAAACTACA ATTTCTTCATCTGTTAAAGA GGCATAATAA TTGTATCATC CTCATTGGGT TGATAAAATA AAATATTTCC AAGTATTTAG TTCAGGTCCTAGCACGTAGA CAGTGTTGCA TTACTGTTTT AATCCTTTAA AGTATTAAAG ACTACTATTT GAAATCTTTT CTTCTAAAATTCAGCCTGCT GATGACCAAG TGCACTTGAG CAGGGGGAAT CAAATCTGAA TTAATTTCAG ATTCTGGTTAGCTTCACATA AATATTTTTT TTAGGGATGA TGAACCTAAC AGCAATAGAT GAGTAAGAAT CTGTTCCTAC TGAGAGAGTTTCATTTTGAA GAAAAAGGAA CTAAGGGGGC ATGTGTTCAG TTTCATGCCC TGGTCTAACC CTGTGTGTTG GTTCTGGTGGGAAATTCTTC CAACCGAGGA AAAAACCAGT TCACAAATCT GAAGACCAGT GATTTTAGAA GATGTATCTGGACTGGAGTC TAATCTCTGA CTCTGGGTCC TGCTGATATG GTATTTTTGA GATTTGGCCT AAAACATCAT TGCCCTGGTTTCCTTATTTA CCAAACAGGG CCAATGGTAG TGACTAATCA GAAAATGATA ATGCCTGGTG CACAAAATGTGTCTAGATGA GCCCATGCAC AAGGACACAT GTTTCTGGAA CTGTTCCTTA TTCCTTTCCT AAAAGAAAGGAGGGAAAGTC TCCATACTAA GACTACTAGG GCAGGGGACA AAGTGCTAGA GTCAGAAGAT TCATCTGAGGACAGAAGAAT AGGGGTGAAG GCTCTAGTCA CTTCATTGGC TACCATGCTC TAAATAGTTA CCTGTGCCCT TTTTCTAACTATTAGAACCC AAAAAGCCTA TAAATTCTCT CTCTCTCTCT CTCTCTCTCT GTGTATATAT ATACATATAC ACACACACATAGACACACAC ACACACCTAA ACACACACAT AGAGATTTAT GACTTTTTAC TTTTATCCTT GTAAATGCCA TTAACTATATTTTGTCTTAG ATTTAGCCTG GGAATGTAGC CATTATTTCT ACCATTGCCT CCATAGGAAA AATACTCTTC ATGTTTTAAAGGACCAACCT ACAACTAAAA TCTTTGGAAA GCAGAATCAT TTGTAAGTTG GTGAAAATGG AAGATGTTGTTTTATAAATG AAGACTTTTT TTTTTTTTTT TTTTGAGACA GGGCCTCACT CTGTTGTGGA GTGCAGTGGT GCTGTCATGGCTTACTGCAG CCTTGACCTC CTGGGTTCAA GTGATCCTCC CACCTCAGTC TCCTGGGTAG CTGGGACTAC ATGTGCATGCTACCATGCCT GACTAATTTT TTGTATTTTT GTAGAGATGT GGTTTCGCCA TGTTGCCCAG GCTGGTCTTG AACTCGTGGGCTCAAGTAAT CCTCCTGCCT CAGCCTCCAA AAGTGCTGGG ATTAGAGGTG ACAGCCAAGG TGCCTGGCCCACAGATGAAG ACTATTTAAT GTTATCTTAA AGATACCCTA AGCTTCCTAC CAAGCCAGTG ATCTTTTGGG GCTTCTGTTTTCTTTGTTGG CATAACTGTA ACTAGCCTAA CTGCCCGTTA TCTGTTTCCT GTTTGCCCCA CACTGATTCC CACAGCAGTTTTCAAGTTAT CGGTTTGAGA TCTTGTACAG AAATGACTCC AAGGTAAAAA ATTTAAAAAC AACCCCTCTA ATTTTTTTACCCTTGCTTAT AAAACAGCCT TAGCCAGCTA ACCCCTCACT ACATGCAAAT GAGTTTGATT CTATTCTTTT GATTCTACAAACACTTATTA AAAGATTTTA GAATTCGGAA ATAAATAGCT TCCTTATTAA GGTGACTTAC AGCCCCAAAG TCCTTAAAATTATTTAGACA ATAGCCACCT TATCCCAGGG GGCAGTGTGT AATAACCCAC CCTGTTCTCT ATCCGTCAGT TCTGCCATCATCGCCCAAGG TAGGAAGAAA GACAGGACAA CCGGGGTCAA GATTTGAAGT CTCAATGGAA AGAATAATCAGTGGTTGGAG AAAACTGTCA TTCTTCTTTT GCCTTAATGC AGTACTTGAT ACTTATACTT AGTACTGTAT AGTACTTAGTACTGTATAAT ACTATAAGAT AGTGAGATTC AATCAGCACA GAATTTCTAA TAGCAAGGGC AGAGACATTTTAACTGCTCA GTGCTCTCAG GTTATACATA GCTAATGAAG TTCTTGCATA TCAACAATCC CCACCCCCCT CACACACTTTGTCTTTCTGG ATTGGTTAGA AAACTTACCT AGCGCCCACT ATTCTCAAAT TTAAATGAAA GATAAGATCAGAGTGGCACG CAATTAGGGA CTGATAAATA ATATTTTTGT AATTGCCAGT GTAAATGGAC AGGGGGCAACCTTTACATAC CATATTCAGT GAACAGAATA CGTACTAACT AATTTGATGG AAGGAAAATT AAAATGACAATCAACTGAGC CCACAGAAAG GCAACACAGA GCAGTTGGTT AGCAATTGTT TCGAGATCAT CCCTGAACTTGAAACAGGTA TATCTTTTTT TTTTTTTTTT TTGAGACAGA GTCTCACTCT GTCACCAGGC TGGAGTGCAA TGGTGCGGTCTCAGCTCACT GCAACCTCCG CCTCCCGGGT TCAAGTGATT CTTCTGTCTC AGCCTCCCGA GTAGCTGGGA TTACAGGTGCCCGCCACCAC GCCTGGCTAA TTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGT CTTGAACTGCTGAGCTCATG ATCCGCCCGC CTCGGCCTCC CAAAGTGCTG GGATTACAGG CATGAGCCAC CACACCTGGCCAAAACAGGT ATATCTTAAA AGCTGCCCAA TGTCCATGAA TGTTACAGCC TTGAATGGTT CTTCCAGGTG AGTTTGGCCAAATGTGGCAC CATACACCCA AGGCCTGCTG CAGGCTAGTG GGTTGCTCAC ACTTTAAAGC TGAGACACACTCATGCCTTA AGGTAAAGGG AGTGATAATC TGGGCAGCAG ATGTTAACTT CTCAAGGCAG TCCTCCTTCT CTTTTCCTCTCCAGTGACGG ATGGTTGGAA AGCATATATG GTGCATTTGG TTAGAGCTGT GGCCTTGGTG AATAGATACTTGGGAGAATA CATGGGAATT TCTCCCAGGG TTAATGCAAT GCCCATGTGT TGGGAACCAG GTGACTCTTGAAGAGGTCAG GTATTTGGGA GCAGTGCCTT GAAACCTTAG TGGACATTAG ACCCACTTCC TAGTGGAATTGTAGCATTGA AATCCAAGGC ATGTAGGCTC TTAGAGGACA GAGATAGTGT GTCATTTTTT CAGAATTAATTAAGAGCAGG CCAGGCGTGG TGGCTCACAC CTGTAATCCA AGCCCTTTGG GAGGCCAAGG CAGGCAGATCACGAGGTCAG GAGATCGAGA CCACTCTGGC TAACACAGTG AAACCCCGTG TCTACTAAAA ATACAAAAAATTAGCTGGGC ATGGTGGCAC GCTCCTGTAG TCCCAGCTAC TTGGGAGGCT GAGGTGGGAG AATAGCTTGAACCCAGAAGG CGGAGGTTGC AGTGAGCTGA AATTGCACCA CTGCACTCTA GCCTGGTGAC AGAGTGAGGCTCTGTCTCAA AAAAAAAAAA GTATTAAAGA ATTACATAAG AGCAAAGAAC CATTAGAATA TCTCACTTAGTTGTTATCAG CCTAGCAAGC TGCCTTGAAG GTAATAGACA TTTTTAAAAG TTTATCAGAT GAAAAGCGAAAATCAGCCAA CCTGTTTTAA TGAAGGTGTG TCCTGGGCTG ATTTACATGT CTCCAGGGAC TGATGGCTCT AGAATGTAAAGCTTGGCATC CTGCTTGTGT TGAATCTATC ACATTTAATT TCCTGTGGGT TTCTTTTTTT TTTCTTTTTC ACTTTAAAGTTGTGTTCTTT TCATGTGAAG TTAAACTCAC ATACCTTTTT TTAATCTCCT TGCCAGCCAA ATGATAAATG CCAACCCAGAGAATGCAGTA ACCATGACTG CCACTGGAAT GAAGAGGGGG TTATAATCAC CCTCCTTAAT CATTGAGAAACTTTTGTCCA ATTCTGAAAG AGAAATCAGT AAGGCACATA GCATGAGACC ACCAGCATTA TTTCCTTAGT CTATCTCATGATATTTGACT TTTTTCCTCC TTACATCTCC CAGTAGTAGC CCATTTGATG CCATTTGACA GATGAGGAAA CTGGCATGGGAAGGCCCCTG ATGAGTCTACAGCATAGGCA AAGACTGGAC CAGCCTTGCT AGTCTAATGC CTACAGAATCTCAATGCCCA GATTTGTGGT TCATAGAGTT CCTGAAAATG CACCTAAAAA TGTTGGCAAG AATGGTCATC GTTGTATTTAGCTCCATGGA CTTGTTCAAT GACTGGAACT CTGAAACACA GAGAAGAGCT AAAAGCCTAA TACAACTTCAGGAAAAATAA AAGCCAATGA TCTGAACTGG ATAATTCACC AGTCAAAGGA AATCATTAAT GCTTTTACTTTAAAGCAGTT GTGCAAAAAT AAGCACTTGA TTTTTACATG CCAAGGACCT GCACTAATTT CTTTCCAATG CAGTAGTTACCACTTCCCTC TACTTCCTTC ACGAATAAGT AAAAGGGCAT GTTTAGAGAT ACTCTTGTAA GTGTAAACTA AGTTCATTTGGGAGCCTCTA TTTGAAAATA CTGGTATAAA AAAAAATCTG TCTCCTGATA CTAACATTTG AAGGAATCTA CTTTTTTACATATTGGCAGA GGGTCTGATT CTATCCTTAG TTCTTCCCAT TACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACACCCAAATATAT GATTGAGAGA AGGCTCAAGT TCCCAGGAGC TCCAGACAGA AGGTACCTGT TGGCTTGATGAAGATGAGGA GGAAATGAAC ACTAGCTAGG CCTTAAAGGG AAATGTCTCT GATAGGCCTA ATACACAGTCCTCTGCTAAA GGCCTCCCTG CCTCTCTCTG CTCATCCACT CTACTCCCTG GCCCTGGGCA CGCAGCACAC AGAGATCAGCATTTCTGACA GCTTCTGTAG ATCCTACCAT TTAAAGACTT TTGTCATCCA TGCAGATAGT CTCAGGAGCA GACACAGGTAGCTATTCTTT CACATGCTAG CTTAACATGC ATTTGCTTTA GCACCTATTG CCAGGCACTG TGTCAGGTGG AGGGTATACAAAGATGAACA AGACATGATT CTTCTCATAT ACAGATAGAT TTTGGAGGCA TTAGCTTAGT GATGATTCAGGAGTATCCAT TATTTGGGGA AGTAGGTGGT CATTAGTGAC CTTTTACAGG CATTTCAATG GGCTAACAGA GATGTTAGATTGTAGTGGAA TAGAAGAATG GGTAAAAAGT AAATCAGTGA GTTCAGATTT TAGGAGTTAA GATGGCAAGAGGTGAGAACA AAAAAAGGAA ATGATTGTCA TTAAAGGAGG AGGAAAGACC AGCCAAAGAT TTTACAGTGAGTTAAGCATA CAAATTTATT TCTAGGCCAC ATATTCTTAG CAAAACAACA TGTAAATGTT TATGTATGTC TTTCCTCATATCTGCTCATC CATCAGCTCC ATCGTTAAGA TTTCAGTTTT CCAGGACAAA CTTACTCACT TTGACATATT GGACTAGGATTTGACCAGAT TCCAGATGAT TCACAAATGG TTTTCTTCTT CCCAATTAAC TCAGTTCCTT CTGAGCAGAT GAAGGTACATGCAGAGGTAA AGCTGAAGCT GGCCAGGGGA TGGCTACAGT TCATGATCCC CAAATCTGGT GCTGATAGAGGCTCACACTG AATCACTTCA ATGAAAAAGA AAAAAAAAAA AAAGACAAAA CAGTATTTCT GAGTAGAGACCCTCCCTTGA GCAAAGGATT TTTAGCCAAA GCTGCCTGAC TACATTACTT GTGATATTGC TTCCAGGCTT TATTTTCTTGAGAATGATGG TGGGTGGTGA ATGAGAGATG AAGGCAAGGA AGCATTGAAA GCTGTGGGGA GAGGAGTAGCTACTCCAGGC TGCTGCCCTA GCTAAGGTGA CCCTCCCCTT CTGCTGGAAG TACCATGCCA TATGGCCTCT GCATCAAGGGCTCTTATGGG ATATTCTCAG AGAATCTCTG CCGTTTCATC TGTTCTGATA TCTACCCAAG CATTTTGAAA AACATCCCAATTCACTGAAG CAAGTCCAAC TTCCGTAAAT TCCAGTAGGT GGGTTGACAG TTTTATAATT TCAATAAGGG ATTTTGATAGCACTTCTAAG AATTAAACTA CTTAAACTAA TGCATCAGGA GCATACTTGT AGAAAAGTTA ACCAAAACTTCGTAAGTTCA GATGACATTG GTTTTCTCCC ATATGGAGAT AAGGTTGGCA GTTAAAAATG AAAAAAAAAAAAAAACCTAC CTTATTTCAA ACTTGAAAAG ATCAAGAGAT TGTGTTTTTG TTTTTCAGTT GTTATTCTCC TAAAAGTTTATGCATGAGGA AAAGTAAAAG TGATTTTAAG AATAAGCCAA ATAAAACAAC CAAGAAAGAC CTCCACTACCCTGGGAAGGA AACTGGTTGG TATTAAGTAG GACACCACAT AAAACAGGTG TTATTGAGAG GAGAAGAACCAAAATGTAAC TGAGGTTCAA CAAGACATTA TTTATGCAAT GGCAATGAGA AAAATAAAAA ACACAGTATAACCATGCTGT ATTGCTATAA GTCATGTTAC ACACTGGGAG ATGGCTTCAG GGGTATTTGG TTTTTACTTT TTGTTTGGGAGGTTTTTCAA AAAAATTTAG TTAGAATAAG TCCTTTGAGA AACATCACAG TAGGTTAAAC AAAGTTAGGTTAAATTAGGC TCCTAAGTTT GACTTCTCAG CAAACTTCTA CTGAATGTTC TGACTGTAAG CCCAGGATTG CATGACAAAACCTCTAGTCT GAAGTTACTC ACCTTGACAG GTTGGTTCTG GAGATGACCA GTTTCCAAAT GGTCCACAGG TGGTTTCTTCAATCCCAGTT AAGTTTGTTC CTTCAGAGCA GCTGAAGGCA CACTGTGAGC TGAAGCTGAA GTTTCCCAAAGGGTGAGTAC AGTCCATGGT ACCCAGCTCT GGGGCCTCCA AAGGCTCACA CTGAATCACT TCAATAGGGAAAGAAACAGT ATGGGGAAGA GTTAAGAGGA ACTGACGCCT GGATTTGAAT CCTAGCCCTG CCACTTGATAACCATGTGCC TTTAAACAAG GTTACTTGAA CCCTCCAACT TCAGTTTCTT CATCTATATA AGAGGAATAA TGAAATTGTGTTATCTTTAT CAAATTGATA TGGAAACTAA ATGTAATTCA ATTAGCATAA GTCAAGGACC TTAGAACAAAGCCTGACTCA TCAGAAATTC TAAGTAAACA TTAGCTAGTC TTCATATTAT TATCTTCAGC ATTATCTGTA GTGAGAATCCTTAAAGCCAA ATAGGTGTAA CTGGGAATGA CCAGCTTAGT CGGGAAATAA CTATCACATC AGAGCCCCTGAGTCTACTAG AGTATTGGGA GCAAGATGTT CAGAGAAAGA GTGGGTCTCC ATAATAAGCC TTCTTTGCAAGGAGAGAATA TAAAAGTCTA GGAAGCATTT TGACCTCAAT TCTGTCTTCT ATTCTAGCTC AGTTCCAGAA TTTTAACTCTTTTGATTTTG ACAACCCTCT CCAGAAACTG TATCTATTTC CCTGTTCTGA TTGGTGGTAC AATAGGTAAA TTTAAGACTTGGAAATCAAA GTTTTCACAT TTTAGACCCT GCCATGCCAT TTAGTAAACA GTACAACTTT CATGTCTTAT TCCTCATCTGTCAAATTTAA GCCATTATTG CTACCTTGCT CTAGAGACTT CAAGGAAGAA TGGACTCAAG GAATCAGAAGAATTTTTGTA TTTGGAAACT ATATGAGATG AGATTAGGGA GAAACATGGG AACTAAGAGA AAATGTTATC TTTTTTCATTGATTTAAAGA GTATCTATTA TATATCAAGC ATTACTCTGG GGCTTGAAGA GCTTAGATTT CACCCTGTAG GACAAAATGGTAGGTAGAAA TTAATGGGTG GATTGTCATG TATGTGTGAT GTGTTTTAAT TGCTTTTAAT TGATCAGTCT CCCTGTAGTATGAATAATGT ATTTGAGGGG AGCTAATTTA AAATTGTGGA ACTCATCTAA TAAACTATTG CAAGAATCTAGAAGAAAGAT AATGACGGCA ATGGTAGTAG AGTTGACAAG TGGAAGACAA ATTAGAAAAA CACTAAGTTGTAAAAATTGG TAGAATGTTA CCCTGCATAA ATGTTGGGGG AGTTAAGAGA GTCTCATACC AGGGTGCCCATGTAAATGGT GATTCCACAT ACTGAGATAA GAAATACGAA GAGAAAAGCT GACTGGGAAC AATTGGTTTTATAGTCTTTT AAACATCCCA AAGGACATCC TTAGCATATT TGAGTTCAGA GCTGGAGATA GGCTTATCAGTCCAAAGATC ACATAGATTT GTGAGTCCGC AAAAGTCAGT AAGTTTGACC AAAGGATACA TGTAGATTAGAGTCAGAAGA GCAATATACA AAAGACAAAA GCTGAGAAAT TATAGTAGTT TATGGTCCTG GATAAGTGCTCATGAAGGAT CTCAGGAGAA ATGATCACAG GTAGAAAGAA TGAGAAAAGA GTGATATGAG AGAAACCAAGACAAAGAAAA GTAAAATGTT AAAAATGAGT GAAATAGGCA TACCAATAAT TAAAAATGAG TAAAATAGGCATACCAATAA CATAAGGGTT AAAAAATAGA GTTCAAAAAT GGGGTGAGGG TAAAGTATTA GGAAGGAGTCATGGCCCAGG GATCAAGTGA AATGAGTTAG ATCTATAGAT CTATTTCAGT TGGTTGACAT TTAAATGTAT TTTGGTTTTAATTCTTTATT GTTTACAAAC ATTGCTTTTT TAAAAAATTA AATTGTCCAA TTCAATTCAG GCTCACAAGC AAGTGCCTCATATATACAGG CATTTTGTGG ATCCCAAAGA TGCAATGATA AATAGGACAC TTACTGATCT CAAGAAGTTTTCAGTACCAG AGGAGACGGA CAAGTGAACA GATGACTTCA ACATAAGTGG GAGAAATGAG GAAGAAATATGTGGAGCTAT CAGAACTAAG AAAGCTTCCT AGAAGAAACT GTCTTTGAAC AATGTCTTAA AGATGACATGTTTTTTGGCC ATGTGCAAAA TGAGAGAGAA GGCCACCAGC AAAGTCAGTG TGCTACAGAG CACATGTGTTAAGTGTGGAG AACTGCAAGA AGGAAAGGAA CTACTAGAAG GAAAAAGCAA GATACTTTCT GGGTAACTCAGCCTCCTAAT GATAAATGGC ATAGTTTCTT CCAGACCTTA GAGTTCTAAT TAATCTAACA AGCTCATTAG ATCGTGAGCTTCTTGAGAGC GGGAATCTAC CATGCTAATT CCTTATGGTA ACCCTGACAGCTTTTATCCC AACACTGTGC TTCTTGTGGTACTCAAAAAG ACTTGTTGAG AAGTGAGTCG AAACTTCATG CTGACTTATG AAATCTTTAC GGAAAGGTAACAATATTGTG AAAGCAGAGC TTTCTGATCA AAACTTCCCA TTTCTCAGAG TGGCTAGTAT CATTTTGTTC CAACCAGCTTCATGATAAGC TATAATGATT CCTGTGACTT TACCTAAGAA GAAGCAAAGA AAGGAAAGAG ACTTACCAAACTGACACTGG GGCCCATAGT ACCCCACATC ACAGTTGCAG GTGTAATTAT TGATGATTTC TACACATTCT CCATGGCCACTGCATGACCA GGGCTGGCAA GAAGCTTTAA GGAGGTCAGA AAAAAAATAT TTTAATGTGA TTACATTTTAGTACTCAAAG TCATTTCTTT AGACATAGAT AACCTTTTGT CTGAGATGAT TTAAATAATC AGGAAAGGTT TATTTGTAAATTCATAGCAT AAAAATCATA TGCTAAAATT TTTACGTATA AAATACACTA AGCATATAGT CATAGGCATT TATTTGCTTTTGGAATGAAA TTACCAATAC TAATATTCTG TAACACTTAT AGGAAACTTA GTGGCATACC TTGAAACTCT TGAAATTACTTGTTTTTAAT GAGTGAGAAG GTTAAATGAT GACCTGACCT CAATCATTTC TGCATGCAAT TATTTCTTGG CAATCCCTTTCTTTATAGAA ATCAAAGATT AAAAAGTCCA AATTTGCTAA AACGGTAGAG TCCAATTTAT AAGAGACCAAATTAACTATG GTTCATTATT AAAACATCAC TTGGAAAATG CTGGCTGTTT TGGAATTGTA GAAGATTTTA CAGAAATATTCATACACCAA AGATAGTGCA ATTTTTATAT AAAATTATAT AAGGTTAGAC CAAGAAGGAA GCACGCAGCACCACACTCTC TACTTCACAA TGTGAAAACT GAGGTGATGT GAGCCTAAGT TTCCAACTGG CCCCAGCTGT CAGCTTCTCCTCCCCTGCCT TATTATCAAA GGCACTGATT GTCTAGCTCT TCCTCTGTAC TTCCTACGTA GATCTATCAT TTTGATGTAACTTGATTTAG GGGTATAGCT TTTGTGCACA GGGACAAATC TTACACACCA AAAATTCTTA GGAGTGACACGATGCAAGAT TATATAGAGG GCTAGATGTA TTTTAGAATG AACCAGAAGC TGTTCTCATC CCCCCACCTT TCCATGGGGTAAATCTGAGT ATTCTCTTAA CCGTGGCCCT TCCTGAGTCT GAGGCAGCAT AGCCGTCTTG TCACTCCCTA CCTGTGTAACAGAGGGCTGC CTTTAGTTTG TGGCAGGCGT CATCGTTCCA TTTGCCTGCA TCTTTGTTTC TCTTGATATA GATCTCCACGCAGTCCTCCT TGTTCTTCTT GTTGTTGGGC TCACCATCTC CCCAGTTCTC TGCTTCTTCA GTAAGAGATT TGTTGGTTCCCACCCACGTC CATATTCCTC CTATCTTCCG GATTCCTATC CAGTAGTAAG AACGACTGAA AGGCAGAGTC TTCTCCAGATACTCAATTTC CGCCTTGTTT TGTATGGCAA CTAAATCTGT GTAATTGTCT CGGCAGAATC TTCTAGCCCT TTGCCAGTTCATGGGTTTTT CAGAATAATG GTAAGTCCAG CAGTCGGTTC CATGATGTGC CAGGAAATCT GCAAGACATCAGTGTGACCT ATGCAGACTT ACATAATGTT ACAGCTAAAA AGAACCTAGC ACTACTCCAG GCTGAGCTAGACACTTAGAG ATGAGGAAAC AGAGCCTAAG AGTGTATGTG ACCATCTCAG GATCACAGAA TAGTTGTTTGCAGATTTGAA GTAGAACCTA GACCTTCTGG CTTGAATATA AGATGCTTTT ATCTAAGGTT CTATTTGAAA CAAATTTAGTGGTTTTCTAG GTTTATTTTC TTATTAATTT TTTTCTCAAA ATTATTTCAG GTGAAATTTA ACCAACATAT TTTAGACATTCATATTTCTT TTTCTTTGTA GCTGTTAATG ATTTACAACT AATTACCGTG TAATATCATA TAACTATACA ATTTACGTATACTTTTTAAT CCTGGAATCA TTTCTTGAAG GCCAACACAT ATGTACCTAT GGGAGAAGCA TAATAAGGACAGGAAGAACA GTGACATACT TTTAAGTAAC CTCTTTTACA TAAAAAACAT TTTATTTTAC CATAGGAAGA ACTGCTTCTGGAAAAGCCCA ATATACCACT CAACTCTTAT ATATCTAACT GTATAATTTT TAAAAAGAAC AATTTACAAAGCCAAATGGT ATAGGATTAT GAAATTCATT AGATCATGTT CTATACACAA AGAGACTCAA CTGATGATGTTTAATAAACA TATGGACCCA TCAAATATGA GGGCTTTGAA GATATCTAAT TAAACACATA ATTACACAATGACTTCATAA TAATATATGG CATTCTAAGC ATGGTATGAT CTACATGAAT CACTATTTAA TACAGTAAAGAAACAGATAT AATTGATGGT AAAGAGCATC ATAAAATAAA CATTTTGAAC AGAGTTTTGA ATGAGCATTCCACTAGAATG CAAGTTCTAA GAGGGAAAAA ACTGTTGTGT CCACTGCTGT ATCCTTAGTG CCTAGCATAAATTTCACACA TTGTAGGGAC TCAGAAAATA CCTGTTGTAT GAAAAGAGCA CTAAGTTTCT ATGTGACACAGTGCAGACAT GGCATAAGGA ATGTGTGAAC GGGAGAGTTA GCATGTTTGC TTGGCTAGAG CTGAAAATCCAGGCTAGGGA GAAAGAAGAC ATTAGTTTAC TTAGGAAATG AAAAACCAAG TTCAAAGCTA TTGCTGGAGAGTCTTCAAGA ATCAGATATA AAATTTGTCA CAACAATGGG AGAAGGACCA AAAAATGATA AACCCCCGTCCCTTAATAAG CTCGTATTGT AATTGTAGAA ATGACATTAA TGTACACTGA ACTATGAATA AAAAATAGAAAATGAGGTGC TAAATATTTG GTACAGATTG TAAGTACCTT AACAGAGATT TCTTAATTAA CATTATTCCT TTATAATTGAGGGATTTTGT GGGGTTATTG GGATTTGAAC TCTACAGCAT GGGCTATTAT AGGTTAAAAA TAGTGTTCAG GAGTTTCTGGGGAAGAACTA AAGGTAAGAA GAAAAGAGAT GTTTACAGAA GGGATAGAAT TAACAGCTCT GTGAAATAATTTTCCCTTAG ACTATGTATA ACTAGTGGAT ATTTAAGAAA AATGAATATA AGTAAAATAG ACTTAGCGAT ATATAAATATCATAACATAC CACAACAGAG CATTGTCCAC CCCCACAACT TGAAGATGTT CCATAAGTCC CTCTGGGTGC TCTGACATTTCCATGGAAAT ATCTGCAAAT GAAATACAAA ATTATATTTA GATGTATACT CTTAAACCAC ACATTTATAG CCTTTGAGGTGGTGCTTACA ACTTTCTTAA TAATCAGAAT AAAACACATA TGTCTACTAA CCCTGTCTGA GGTAACAGGT TTCTCAGACATAGATGAAAA ATTACTTCAA ATTTACATCA GAACTGATGC ACAGTTTTGT TTTGTTCTAT TTTATTTTTA CGCTTTAGTCTCAAGTTGCT AATCGGTACT GCCCTGAATT TTTTCTATGG TTTGGTAATT TTTATACCTG CTTTTCTGCT GAGCTATTAGATAAAACTAT TTAATATTTA CTATGTATAT TTTTTAAAGT ATTGTTGCTG CTTAATTAAC TATTGATGCT TATATTTAATGTTATAGCCT CACTCTTGAT CATAATGGGT CAATGCCTCA AATACCTAAA AAAAAAAAAA ATTAGATAGCCAGACACCAG GAAAGAAAAG TATTTCTTTT TTTAATAAAA AGAAATACCT TTTTGAGCAA CTGAAATGACAAAGTCACAA ATTTCCTGCA CACCTTAAAA TATACTTAAT GTAAATGACG AGTTAATGGG TGCAGCACACCAACATGGCA CATGTATACA TGTGTGACAA ACCTGTATGT TGTGCACATG TACCCTAGAA CTTAAAGTAT AATTTTAAAAAAATTCTATC TTCCAAAGCA TATCACTTCT CAGGTAGACA CAGTGTTTAT TGCAAAAGAT CTGATTTCAA TAGTATTTCTTCAAGAGTCT CCCCAGAGAC AAAGTCAAGA AGAGGAAATC AGCATATCTG AGAAGAAAGA TTTCAGGATCACTTTTTTTG AGGGTCTGAG AAAATGTTTA GTTTCTATAT TATTTAAAAC CAGAATTGAA ATGGGGTGAT TCCTATCCTTGCCACCTGCC TCTACAACCC CAAGAGTTTC TATCTGAGCA TCTAAACGTC TTTTAGGCTG AAAGGCTCAC CATGGCTTTGCTTGGTCCTT CTCTAGTTCT TCTGCAGCCC ATTGAGCCTC TTGACTTAGC ACAAGGGTCT CAGGTCCTTG CCCAAAGGGAGTGTGCTGTG CTGCAGGTAG ACTGCACTGA ATGTCAACAG AAAGCCTTGC TTTCTTTCAT TTCTCTAACC CAGTCTCACATCCTCCTCCT CCTCCCCTTT TCCCTCCCCT TCCTCCTGCA CTTCTCTTTC CTCTTTCCCC ACCCCTTTCC TAGACTGGCCTCTATTGCCT CCCACTGAGA CAAAAATGAA CTGCTGATCA GAAAGTAATG TGACTAGATT CTCTCTTCCT TCCCTCCTTTCTATCCTTCC TTCCATTCTC CTATGCATCT TTCCTTACCC TCCTCCTCCT TCACTCATTG TTGTTGCTGT TCTTCTTCCTCTTCTTTTTC CTCCTGCTCC TCTTCTTCTA CTTGTTCTTG TTCTTGTTTT TGTTTGGTTC TTGTTCTCCT CTTCCTCCTTCTCTCTCTCC TCCTCCTCCT TCTTTTCCAC CACCCTCCCC TATCTTTTTC ATAAATGCTA AACTAACTCT TGGCTACCTGTGGTAAATGG CCCTTGGAAA TTGCAAATAC TACAAATCAA AACTGCATTT CAGACATATT TATGATGTTT GCAAAACTTCAGTAGAGCTA AGCAGTGGAC TTGACTCGTT TCGGTTCCTT CACCTCCGTC TTTCCTTGCT CACCACCTAG TGGACGTCCTTGTTAGTGGC ACTTCCTGAA GTTAACCCCT GAAGAGAGCC CATGCTCTCT AGCTTTTCAC CGTGTAGGTT TGGGAGCCTACAAGTACCTT TAATATTCTT GGACTATAAA ATGAGATGGT TTTATAAGAC TGCATGTGAA ATTAGGACCC ATATGATGAAGGACAATAAA AAGGAAGACC CACTGATGTG AGTCAATGAG TCAAATGCAA ATCAGATTTG CATTTTTAGGAAAATAATAA TAACAACAAC AAAAACTCTG AAGCTCAGCG CCCCATATTT ATTATATTGT TTAATCTTTA TAACAGCTCTCTGCTATAGA TATGATTATT ATCCCCATTC TAAAGAGTCT CAAAGAGGTT AAGAAACAAA TTCAAAAACTAGCGAAAGAC AAGAAATAAC TAAGATCAGA GCAGAACCAT AGGAGGTAGA GACACGAAAA AGCCTTCAAAAAATCAATAA ATCCAGGAGC TGCATTTTGA AAAGATTAAC AAAATAGATG GACCACTAGC TAGACTAATAAGAAAGAAGA ATCAATAGAC ACAATAAAAA ATGGTAAAGG GGATATTACC ACTGATCCCG TAGAAATACAAACTACCATC AGAGATTACT ATAAACATCT TTACACAAAT AAACTAGAAA ATCTAGAAGA AATGGATAAATTCCTGGACA CATACACCCT CCCAAGACTA AACCAGGAAG AAGTCAAATC CCTGAATAGA CTAATAACAAGTTCTGAAAT TAAGGCAGCA ATTAATAGCC TACCAACTAA AAAAAGCCCA GGACCAGATG GATTCACAGCCAAATTCTAC CAGAGGTACA AAGAGGTGCT GGTACCATTC CTTCTGAAAC TATTCCAGAG AATAGAAAAAGAGGAACTCC TCCCTCACTC ATTTTATGAG GCCAGCATCA TCCTGATACT AAAACCTGGC AGAGACACAACAAAAAAAGA AAATTTCAGG CCAATATCCC TGATGAACAT CATTGCGAAA ATACTCAATA AAATACGGCAAACTGAATCC AGCAGCACAT CAAAAAGCTT ATCAACCACA ATCAAGTTGG CTTCATCCCT GGAATGCAAGGCTGGTTCAA CATACACAAA TCAATAAACA GAATCCATTA CGTAAACAGA ACCAATCACA AAAACCACGTGATTATCTCA ATAGATGCAG AAAAGGCCTT GGATAAAATT CAACACCCCT TCATGCTAAA AACTCTCAATAAACTAGGTA TTGATGGAAC GTATCTCAAA ATAATAAGAG CTATTTATGA CAAACCCACA GCCAATAGCATACTGAATGG GCAAAAACTG AAAGCGTTCC CTTTAAAAAC TGGCACAAGA CAAGTATGCC TCTCTCACCACTCCTGTTCA ACATAGTATT GGAAGTTCTG GCCAGGGCAA TCAGGCAAGA GAAAGAAATA AAGTGTATTCAAATAGAAGA GAGGAAGTCA AATTGTGTCT GTTTGCAGAT GACATGATTG TATATTTAGA AAATCCCATTGTCTCAGCCC AAAATCTCCT TAAACTGATC AGCAACTTCA GCAAAGTCTC AGGTTACAAA ATCAATGTGAAAAAATCACA AGAATTCCTA TACAGCAATA ATAGACAAAC AGAGAGCCAA ATCATGAGTG AACTCCCATTCACGATTGCT ACAAAGAGAA TAAAATACCT AGGAATCCAA CTTACAAGGA ATGTGAAGGA CCTATTCAAGGAGAACTACA AACCACTGCT CAAGGAAATA AGAGAGGACA CAAATGAATG GAAAAACATT CCATGCTCATGGGTAGGAAG AATCAATATC ATGAAAATGA CCATACTGCC CAAGGTAATT TATAGATTCA GTGCTATCCCCATCAAGCTA CTACTGACTT TTTTCACAGA ATTAGAAAAAAACTACTTTA AATTTCATAT GGAACCAAAA AAGAGCTTGTATAGCCAAGA CAATCCTAAG CAAAAAGAAC AAAGCTGGAG GCATCATGCT ACCTGACTTC AAACTATACTACAAGGCTAT AGTAACCAAA ACAGCATGGT GCTGGTACAA AAACAGATAT ATGGACCAAC GGAACAGAACAGAGGCATCA GAAATAACAC CACACATCTA CAACCATCTG ATCTTTGACA AAGCTGACAA AAAGAAGCAATTGGGAAAGG ATTCCCCATT TAATAAATGA TGTTGGGAAA ACTGGCTAGC CATATGCAGA AAACTGAAACTGGATCCCTT CCTTACACCT TATATAAAAA TTAACTCAAG ATGGATTAAA GACTTAAATG GAAGACCTAAAACCATAAAA ATTCTAGGAG AAAACCTAGG CAATACCATT CAGGACGTAG GTATGGGCAA AGACTTCATGACTAAAACAC CAAAAGCAAC AGCAACAAAA GCCAAAATTG ACAAATGGGA TCTAATTAAA CTAAAGAGCTTCTGCACAGT AGAAAAAAAA AAACTATCAT CAAAGTGAAC AGGAAACCTA CAGAATGGGA GAAAATTTTTGCAATCTATT CACCTGACAA AGGGCTAATA TCCAAAATCT ACAAGAAACT TAAACAAATT TACAAGAAAAAACAAACAAC ACCATCAAAA AGTGAGTGAA GGATATGAAC AGATGCTTCT CAAAAGAAGA AGTTTATGCAGTCAACAAAC ATATGAAAAA AAGCTCATCA TCACTGGTCA TTAGAGAAAT GCAAATCAAA ACCACAATGAGATGCCATCT CATGCCAGTT AGAATGGCGA TTATTAAAAA GTCAGGAAAC AACAGATGCT GGAGAGGATGTGGAGAAATA AGAATGCTTT TTACAGTGTT GGTGGAAGTG TAAATTAGTT CAATCATTGT GGAAGACAATGTGGCGATTT CTCAAGGATC TATAACTAGA AAAACCATTT GACCCAGCAA TCCCATTACT GGGTATATACCCAAAGGATT ATAAATCATT CTACGATAAA GACACATGCA CACTTATGTT TATTGAGGCA CTATTCACAACAGCAAAGAG TTGGAACCAA CCCAAATGCC CACCAATGAT AAACTGGATA AAGATGATGT GGCACATATACATCATGGAA TACTATACAG CCATAAAAAA GGATGAGTTC ATGTCCTTTG CAGGGACATG GATGAAGCTGGAAACCGTCA TTCTCAGCAA ACTAACACTG GAACAGAAAA CCAAACATTA CCCATTCTCA CTCATAAGTGGGAGTTGAAC AATGAGAACA CATGGACACA GGGAGGGGAA CATCACACAC TGGGGCATGT CAGGGGATGTGGGGCTAGGG GAGGAACAGC ATTAGGAGAA ATACCTAATG TAGATGACAG GTTGATGAAT GCAGCAAACCACCATGGCAC ATGTATACCT ATGTAACAAA CCTGCACGTT CTGCTCATGT ATCCCAGAAA TTAAAGTATAATTTAAAAAA AGTTTAAAAA AAGAAAGTTG CCTTAGTCAC ATAACTAGTA AGAGACATGG TTGGGAATTTGAACAGAGGC CAATCAGTTC CAAATCCATG CTCTTGATCA TTAAGCTGAA CTTATGGCAG GAACTTGGAAGACATGGTAA AATGGGGAAA AACGTGGAGC CAGGGAGACT TGTGAAAGTG CCAGTGCTCC CACTATACCCTGAAAGAAGT ATCTAGACTT ACTTTTTTCT AAGTCCTCTC CTCTAATTCT CTCAATCTCT CTCTCTCTTT CTCTAAGAGATGGGAATGCT GCTCTGTCAC TCAGGCTAGA GTGCAGTGGT GCGATCATAG CTCATTGCAC TCAAGGAATCCTAGGGTCTA GTGCCCCTTC TCCCTCAGCC TCCCATGTAG CTAAGACTAC AGGCACATGC CCCAACCCTC GACTAATTTTTTTATTTTTT ATTTTTGTAG AGACAGGATC TCACTATGTT GCTCAGGCTG TAATTCTGTC TTGAAGCTTG TCCAATCAGGCTTTCAGCCA CACCAATTCC CTGAGACTGC TCTCACCAAG GTCCTACACT TCACTAACAC AAACAGCCTA TTCTCCATCCTCATCTTACT TCACCAGGGA GCTCCTGGTT TTCCTCCTAC TTCACTGGCT ATTTCTTCTG TATCATGTGT TGATTCTCCCTCATCTCCCC AACCTCCAAA CCCTTGGAGT ACTCCAGAGA TCACCGCTTT GCTCTTCTGT GTCTAACCTC ACTAACTTGGTGGTCCAATT CACACTCTTG ACTTTGAATA CCATTTAAAT GCGAACGAAT TCTAAATTCT GTACAACCAG AACCATTCTCCTGTAGCCAA ATGCCTACTC AACATCTCCA TCCCCAAACA AATTTAGTTG TTCAATAAGC CTCTCATATT TTACATATCCCAAACTGAAC TTCTGAATTT CTCCTCCAAT CTGTAGGGCT CTTCCCACAG CCTTTCCATC TCAGTGGATT ATAACTCCATCCTTCCAGTT ACTCAGACCA AAACTTTTGG AGTTAACTGA GACACCTCTC TTTTTTTTCA CAAGTCATAT CCAATGTGTCAACAAATTTT GGTAGTGGAA ATATTGCGGG ATTTTTTAAG AAATCAGAGA GACCGATGGG GTTCAGGAGGATATTTATTA TTTAGGTGCA CTGGCCAAGT CAGATTAACA TCCAAAGGAC TGAGCCCTGA ACAAAGAGTTAAGTTACCTT TTAAGCATTT TGTGGGGTGG GAGAGAGGGG TATCTGTGCA GGGGGAAGCA TACTACAGAAGTGAGAAATA AAGACAGTTA TTCAATTAAT TGAGACATGC ATTACATCAT TTCTTACTTT TCAAGAAGAA ACATGTTTTGCGACTTGAGT TTATCTGTCT AGTGACCTTG CAGCTGCACA GCTAGAGAAA CAGGGTCTTC ACAATGCCTGGGAAAGGAGG AGAGGTAAGT CTCACTAGCC ACAGAAAAAC AGGCAGTTAA TTTTTAAAGG GCTCCAGCTCTTTCTCTTTC TCAGGGGGAG TTGGGTTTTG TTACATACAA CTGAGTTTCC GCTTACACAT TATTTAATTT CTTTTAATTCCTGTTCCAAA AGAAGCCAGA TACAAAAGGT TACATGTTGT CTGATTCCAT TTATATGAAA CATATAGAAGAGGTAAATCC ATAGAGACAG AAAGTAGATT AGAGGTTCCC AGGGGCTGAG GAAGAAATGG GGACTAACTGCTTATAGGGT ACAGAGTTTT CTTCTGATAA AAATATTTTG GAACTAGATA GACATTTTGT TAGGCCATTC TTGCATTGTTATAAAGAATT ACCTGAGACT TGGTAATTTA TAAAGAAAAG ATGTTTAATT GGCTTACACT TCTGCAAGCTTTACAGGAAG CATGGTGCCGATATCTGCTC AGCTTCTGGT AAGGCCTCAG GAAGCTTACA ATCATGGCAGAAGGTGAAAG GGGAGCAGGC ATATCACATA GCAAAAGCAG GAGCAAGAGA GGGATGTGGG GAGGTGACAGTCACTTTTAA ACAGCCAGAT CTTGTGAGAA CTCATTCACT ATCATGAAGA CAGTACCAAG AGGATGGTACTAAATCATTC ATGAGAAACC CCACCCTCAT GATCAAATCA CCTCCCACCA GGCCCCACCT CCAACACTGGGGATTACAAT TTGACATGAG ATTTGAGTGA GAACACGGAT CCAAACCATA TCAGAGATGG TGGTTATACAATGCGATAAA CGTCACTGGA TTGTACACTT TAAGATGGTT GTTTTATGTT GTGTGAACTT CACCTCAATA AAAAAAAATATTTAATGTAC ATTCAGCCAA AAGAAGATTT GGAATAGGAA AGGTCATGGA GATATATTAA CAGCCATTTGATGGGTGGTA AGGAAAAGAG TGGTTATTAG ACTGTTTTGT GGCCCTCAAA AGGTAGAACT AGATCGAGTTGGTGAGCATT ATAAAACCAT CACAAAACCC TGGAGAGAGG ACCCAGTGCT GAAGAACCGT TTGCCTGCCATGAGACATGA GGGAAGTACC AGTGAATGCC ATTGAAAGCA GCATCCCTGG GTCCAAGGGA TGGTCAAAGGACCACTACCC AACCCTTCCC TAGCCTACGC CTCCATTACA GATGACCGCA AGATTTATTT GCTCATTGCT GCCAACCAAGGCTGCACTCA CTGCAGTTGC TATCAGTTTA TCATGGGTAA AAGGAATGTG CAGTAGAGAA CTAACTAACTGCCCACCTAC CTCCACAATC CTATCAGGAC AAATCACCAT GGCTCACATT TCCTTACATT TGGCATGTAA GCCCCTCTTACTGTCTGTCA TCTATCTCCT ACACAGTTCA CCTAAACTGT TCTCTCCTGA CCCAACCTTG ATTTTCATCC CAAATGCTTCCTTGCCATCT CTGGGATTCC TGTCTTCACC ATCACCAAAC TCCCCTCAAT CTTCCAGTTT CCTGTTCAAA CTTTTCTCCTACCTCCTTGC TTTGTCATTA GCCCGACTGC CTCCCTAGGA CATCACTTCC CCTGCAGATC TCTCAAGATG ACAATATTTATTCTCCACAC AGCACATACT TCAGGGTTGG AAGGCAGGGG CAATCTTCTC CTTTATAATG AGTGCCTCTT ATATATGTTTATTCATCTGC CCTCTTGTAA AACACACACA CACACACACA CAAAGAAGAA ATAAAATAAC TCTGCTTCTTTGAAGCTTGT GACACTGAGA TAAACCATCT CACTGTCCTC ATTGTAGTGA CCTCTCAACT CCTCATGCAA GATTGGCTTTGGCACCTAGT TCCTGATCTT CCTTTCCCTG TAAGCACTTC TCATAGTCTT ACGGGACTTC ACCATCCATG GCACAACCAATACCACAGCC CAGATCCTCA GCTCTCCAAT GACATTTTCC TCCACTAGAC TTGAGCTACC TCCTTCCCTA GGCACAGCCTCAACCTCGAC AACACCTAAG ACTGTACCGT CTCTAAAGTC ACATGTTCAA ACACTTCACT CTTTAACCAC TGTCTCCTATTCTTGCAAGT GTATTGCTCA AGTATCTCAT TGCAATGCTT TTTACTTCTA CCTCATTGAA CCTCCAGGCC ATTAAACATTTCCTTATTTC TAACCATCAG GTTTCTCCTT ACTTGTTTGT TTGTTTATTT GTTTCTTTTT TTTTTTTTTT TTTGAGACAGGGTCTCACTC TGTTGCCCAG GCTGGAGTGC AGTGGTATGA TCTCGGCTCA CTGCAGCCTC CATCTCCCTG GTTCAAGTGATTCTCATGTC TCAGCCTCCC GAGTAGCTGG GACTACAGGT GCATGCCACT ACGCCTGGCT AAGATTTTGT ATTTTTATTAGAGAAGGGGT TTTGCCATGT TGGCCAAGCT GGTCTCGAAC TCCTAACCTC AGGTGATCCA CCTGCCTCAGCCTCCCAAAG TGCTGAGATT ATAGGCATGA GCCACTATGC CCCACCTGGT TTCTCCTTAT TTATTTCAAG TCTATGCTGCACTATTAAAA CTGCCTTGAC AAAAATTATA ATAGTGAGAA AATTATGACA GTGAAAGAGA TCTGAAATAATCAACCCCCA TCTTGCCTTT ACCTTCCAGA CTGCCCTTAA TAATTCCTGA GCTTGGGCCA AGCTATCTTT GGCAGAAATTTAGTTTATAG TTTAAATGAT AATAGCCCTT CTCCAAAACT AAACTGCCTT TGTAAAACTA ATAAAAGACCACCAATGAAA GGTTAGGAGG ATGAGAGGAG CCTGAATTCT GCTAAGGTGT AGATGTAAAC AATTACCAACTGTTATTCCG GAGGTCACAA GATTTGCAAC ATCGCCAATT ACTCCTGCAG ATAACAGCAC TATCATAGAA TCTGATTGGCCTTTTGAGAT GTCTTTTCAG ATTCTTACAT TTCAACTGGT GGCTCTACCT GGACCCATCA ACAAGTCCTG TGGCTCCACCCAGAAGCAGA CTTAACATGC ACAAGGACCA TTTTCCACAC CGCTATGATT GCATCCCAAC CAATCAGCAGCAACCATTCC TCTGCCTGCC AAATTATCCT TGAAAAATCT TAGCCTTAGA ATTTTGGGGG AGGCTGATTT CAGTAATAACAAAACCCCGG TCTCCCATTT GGCTGGCTCT GCATGAATTA AATTCTTTCT CTATTGCAGT TCCCATCTTG ATAAATCACCTTTATCTGGG CAGCAAACAA AAGGAACCCA TTGGACAGTT ACACTGTTGG CAGATATATC TTGCTTCCAA AATTGGATTTTTGTTTAATG AATTTATTCT GTTTTCTTGA TATTTACAAC TGTGAATGTT GTGTCTGAAT TCTCTTTATT TCTTGTTGAAAAGAACTATA TTGCTACAGC CAGTACATAC AGATGGATAG CTAATTACTC AACACGGGGG GATGTGACCATCACCGCACT GTGCAAATGA ATGTTACCCA TTGTCCACTT TTCCCAAACT ACATAGTGTT ATATGGTATA TGACCCAATCAACGGTGGCA AAGCTCCAGA AATACCACAT AGACATCAGG GACACTTTAA ACTAATCAGC CTATAGTCCTTTTTCAGTAA TTTCCAAACC TGGTTGTGCA TCCAAATCAC TTGGTAACAT TAAAAAAACA AAAAAATATACACGCAACAT TCGCTCCCAA TCCTACTGAA TCAGAATATT TTGGGTTGGT TCAGGAACAT TCAGGAGTTT TTCAGGGTCCAAGGTTTATA TAATTTGAGG TCTCTCTTTG AGAAAAGGAA CGTAAAAGCG TCTTGCTTTT ATAGATCTTA CAAAGATGTATTACCATGTA AACACATTCC TAGGACCCAG GCCCTTGTAA TTTAAAGGTT TATCTAAGTA ATGGGCCCTG AAGCTTAATTTTCATTATCT TCAGGGCAAA TTACCTGTGG GTTAGGGTTT AGGAATATAT CTCTCTGTGT ATGTGTGTGC ACATTAGCATGTACGCTTGT GTGGATTTTT TTTTTTTTTT TTTTTTTTTC TGAGACAGAG TCTCGCTCTG TCGCCAGGCT GGAGTGCAGTGGCGTGATCT CTGCTCACTG CAAACTCCGC CTCCCAGGCT CAAGCGATTC TTCTGCCTCA GCCTCTTGAG TAGCTGGGACTATAGGCACG CACCACTATG CCCAGCTAAT TTTTGTATTT TTAGTAGAGT TGGGGTTTCG CCATGTTGGC CAGGATGGTCTTGATCTCTT GACCTCGTGA TCCACCCGCC TCCACCTCCC AAAGTGCTGG GATTACAGGC GTGAGTCACC ATGCCCAGCACTTGTGTGGA TGTTTTAAGC TCCCAGGTGA GTGAATACAA AACTAGATCT TTCCCTTCTG TAGCATCTGT ACTGTTTACTCTATGCATCT CAATATTTTT TCTTTTAGTA TCTTTCCTTT TTCTCTCTTA TTACTTCCTC TTGTGCTATT TTTACACCTCCTTTTTTAAA AAATTTTTTC CCTTTTATTT CTATTGACCT TTAGCCCTCA CAATGATTCC TACAAGCCCC ATTTCTGTAAATGGGGATTG AAATAATTGC TGGACTTTTG AGAGATAGAT ATATTAAATT GCAAACTGGC AGTAGTGGGGGCAGTTGATA CATAACTAGG TTTTAAAGTC TAGCCTTCTG AGACCACTCA TTCCATTTGT GAAAAGTGAT TCTACTTCTTATTATGAGCC AAAATATGCA TTCATTCACC CATGCATTGA TTTATTCATT CAATAAATAT TTGTTGGATG TCCACTCTGTATCAGGAATG TGCTAGGTTC TGGGAATACA GCAATGAACA AGGTAATTTT TCCCTACCCC TAAGGAACTTAGAGTTTAGT GGGGAAGACA GACATTAAAC AAACAATTGT GCAAGTAATA ATCTATAATT ATTTATTACAATTAAAGGAA GGAAGAGACA TATGGATTAT GAGGGCATTA AAGAGGAGAC CTAGTGTAAG TAGCCAGTTCTCGTGAAGGG ACATGTATTA GTTGGAGTTC TCCAGAGAAA CAGAACCAAT GGTGTGTGTG TGTGTGTGTGCGTGTGTGCG TGTGTGTGTT GGGGTGTGGG GGTGTGGTAT TTTTTATAGA AATTGTCTCA CACAATTATG GAAGCTGAGAAGTCCCATGG CCTGCTGTCT ACGAGCTGAG AACCAGGAAA GCCAGTGGAA TACTTCAAAG TCCAAAGGCCCTGGAACCAA GAGTGCCAGT GTTGGAAGGC AGGAGAAGAT GGGTGTCCCA GCTTAAAAAG ACAGTGAATTCACTCTTTTT GCTCTACATA GGGCCTCAAT GGGTTGGATC ATGGCCACCC ACATTGGTGA AGGCAATCCT CTTAGTCTACCAATTAAATA CTAATCTCTT TGGAAATACT CTCACAGACA CACTGAGAAA TAATGTTTTA TCAGGGTGAT AGAAATCTTCTGGAGTTAAA CAATGGTGAT AGCTGTACAA TCACATACAT TTTTAAAGGG TGCGTTTTAT GGAAAGTGAG TTTTATCTAAATAAAATTTC TAAGAAAGAG ACTTAACACA GAGATAAACA TAAGCACATT TATTGTCAAC CTTTATAGTGTTATGTCAAA TAGGTCTGAC ATAAGCTTAA ATAAATATAT ACTTTAAAAA TTATAAAATA TTTTAAGTTA TAATTTAAAATTCTCAATAA AACTCAAACA CAAACCACAC TGGTATTTCA CACAGCTAAT TTCTAATGCA GTTTACATAA ATATTTACAACACTTAAACA ATTTCAAAGA AAATAACACT GTATTCCATA CATAGCCTGATCACAGTAGT TGTTCTCTCT TATTTCCCAGAGTTTTTCTG CCCCTTTAAA AGAACCTCTG CTGTTCTGAT CCTTATCACA TCTCTGTTTT GACTGTTGGC TTTGTTGTTGCCAGTGTTCA GCCAGAACTT CTCTGAAACT TTTTTTTCAA CACATGCTAA GTTAATGGAA GTGTAGGAGA GTTTTGATTCTCACACTCCT CAAGGCTAGA GCAGCTTTGG CAATTACTGA CTGAGAATTT TTCATTGCCA GTGATCAACTGAAAACTGGA GATTCCTTTG GAATTGTTAA ATCTGCTTAT AAATAAACAT AAATGCTTGC TCACACAGGC ATTCCTCTCTTCCAGAGCAC CCTAACATAC AGAAGAAAAC AAATAGGGAA TAACTATTAG ACATCTTCAT TCGTTAAAAATCTACCAGAT GACTCTTTTA CATGGTGAGT TTCTATTGTG AATTTAAAAT CTTCCATAAT ATACAAGAAT TATGTTTACATATCATATCT GACAAACATC TTTGTAGGAA TGCAAAGCAC ATCCATCTTT CTGTATTCTT TTCCAACAAA GACATTCATAAAATTATACC TTTGTGTGTT TGCATTTATG CTTTTATTAG TTCAAAACGT TTGGCCTCAT GGAAGTTTTT CATCGTGGAAACCACATATT TCTGAAAAAA TATCTGACAA TATACAAACC TTCCATTCAG TTTTTACTCT CCAATTCTAC CATGTTTTCAAAAAACAACT GTAGTAAAAA CACTCAGAAC TTTATTCTGG TTAACATCAT GCCTTGCTAG GGGACAATAG TTTCCCTTTTTGAAATAAAT TTAAAACAGA TGTAACATAA TTTGTTAATA AACAATGAGG GGGTAATCTA GAATAAGTAACTTTTACCAT ATCATAGTTG ACAGCATTTA CAAGTTTTTT AAGTCCCTAC CACACTTGTA TTGAATGAAG AAGTATGGAAGATTATAATA TATTCAATGC AAGTAAAAAT ATCACAATCC TTAAGAACTC TTTAAGAAGC ACTGAATCCCATAGGGATGA AAGTGATTAA ATTGTGCATA GTAACCCTCG CACAGAGCAT TCAGTAGGAT TTGCACCATTAACAACCCTC CATGCATTTG CCTGTGGGCA TTCAACATCT GTCATTTTTT TAAGTTATAA TATTTTTAGT CATTTTTTTCCTCTAAACTC TGGATAATTA TTATTCATTC TTATGACAGC AACTGTGTAA TCAGCTGTCG AAACACTGTG AAGGGCAAAAGAAAGAAAGC CACAAAATAT TGTGTTTCTG TGCCAAGATT TTACAGCGAG CAAGGGAGAG TTAGAAAAGGAATTCTGAGA TTTCAGAGTC TTGGTCTCTT CACCTTTGCT TGGAAGAAAA TATCCTTTCC CTTCATTAGC CAACACTTTCTTGATCCTGA GAGTAGGAAA GGGAACACTG AGTCTTTTCA GTTGAAGGCC GTCCTTGCCT GCTGGACTTT GATCTATTGAAGTGGTGATG GGTGTTGCGG TTTCAGCCAT AAAGGCATCT GGCATAGTAG GCAAGAAGGG CCAGAGACCCGAGGAGAGTT ATCTGTCTCT GTTAACTTCA GTGTATCCCT CTAGTTCCCC AGATGCACCT GTTTCTGTAA ATATAAACATGCATGTCATC AGAACACTTA ATATTCTGCA TACTGATCAT GACAACAAAA TGTACCTTCT AACACAGACACTCTCACTAG GATAGACCAT GTAGGAACAT CGAATTCTAT TCAGTTAGGA CAGTGATGAT GTCTACATATTATACCTCTGTCAAAACCTA CAGAATATAC AACACAGCAC AGAGTGAATT CTAATGTAGC CTGTGGACAT TAATGAATAATAATGTATCA ATATTGGCCC ATCAGTTGTA ACACTAATAT AAGATGTTAA TAACAGGGGG AATTGAAGGGGTGGTGGGGA GATATGTTGG AACTCTTTGT GCTTTCTGCT CAATTTTTCT GTAAACTTAA AACCGCACAC ACAAAAAAAGTTATTTTAAT TTTTTAAAAA GTATTCAGAG GGACTTGACC TTTCCAAATT CTCTCAAAGC AGGTCGGAGT AGTTAAGAACACAAATTTTA GAACCAGACT GCCAGAGTTT GAATCCTGGC TACACCACTT ACTAGCTTTG AGATTTCAGA CAATTTACTTAACTTCTCTG TCTCATTTTC TTCATCTGTG TGATAAGAAA TAAAGTAACA GGCCAGGCCC AGTGGCTCAC GCCTGTAATCCCAGCACTTT GAGAGGCCAA GGCGGGTGGA TCAGGAGTTC AAGATCAGCC TGGCCAACAT GACGAAAAAATACAAAATCT CTACTAAAAA TACAAAAATT AGCTGGGTGT GGTGGCAGGC ACCTGTAATC CCAGCTACTCAGGAGGCTGA GGCAGGAGAA TTGCTTGAAC GCAGGAGGTG GAGGTTGCAG TGAGCCAAGA TCATGCCACTGCACTCCAGT CTAGGCAACA GAATGAGACT CCATCTCAAA ATTAAAAAAA AAAAAAGTAA AAAGAAAAGATAAGAAATAT AGTACCAGCC CCTATCTCAG AGTTCCTAGC TTAGAAAAAT TCCCAGAATA TAATAAGTGCAATGTAAGGG TCAGCTATCT TCATTATTAT TATCTATCAT AAATGAAATT ACACAATAAA GCTAGATCCG TTTCTTTCCTCTCCTTCTAC AAAAAATAAA GCAACTTTCC AGAACAATAC CCAGGTGATG ATTTCTCCCC TGCTCCCTCC CTAAGATATTGGCAAGTTTG GAGGGTTCAA GGAGAAACAG AGCATGTAGA GAAGATACCT CTCTCATAAC CATTTGTGATTTACAAGTCT TACCTGATTC TTTTGAACTT AAAGGATGTA AGAAGGCTTT TGGTAGCTTC CATCTGATTC AAGGCTTTGGCAGCTGCTGT GGAATACATG AGAACACTAG GTAAAGCACT GTCTTCCAAC ATGAAGAGAG AAAAATATGTGGAATGTTCA ATGGCATGCT TTGTATAAGA ATGCAACTTA CCTGGCAGGA ACAAATTTCT TTGCTGCAAAAGAAAAGACA AACAACCATT AATTCAGACT AAATGACTTT TAAGGATATA TTAAATCCAG ATACAATATGACTTAATTCA TCAAGTGTTG CAAACTCGAT GCTTCAGGGC CTCTGTAATA ATCAGAGCAC AAGCATGGCT CTGTGGCATCTAGGGTAAAA TGCAAAGTGC ACAGCCATCC AAAGGGCATA GCAGCTTCCT AATGCCAGCA AATAGCTACGGGGTCATCTT GCCCAATTCA GCTCCCAATT TTTCATGAGA AGTCCAAAGT CTTAATTTAA ATGTGAGATT TCCTATTTTGTAAACGTCAG AACTTAACTC AAAAATGTTT TAAGTACTCT TAAACATGTA AGCCAAACAA ACCATGAGTGTAGTCAGATG TGCTTCCATA TTCCTTATGA GAGACTCTCA AATTTAAGCC TGTACTCCAA ATAAATCTCC TTAGGAAGAATTTTATCCAT TTTCCTTAGA GTGCTCATCA TGGCAGTTCC ATTGCACAAT TCCGGGAGGC ATCATATAAT TCAACATGAATAGCACCCCC TGGAGTTGTA CAATATTAGG CACGACTAAC ATTTTTATTT CCTGAAACAC TTCCCACACT GAGTTGTACTACTAACTCTT TTCTTAATAC TTCTGCTTAA TTATACTGCA TTTTATCCAG ATTCTAATTA TTGTTTAAAT CAGTAAGCAAGACCATGACT TATCAATGAG AAAGAAATGT ATTTTCAAAA ACATTTTTGA AGTACATTCA TAAACTTCCT CACCTTTCCGTAAGCATTTC CGAAGCCAGA GGAGAAATGG TGCTAATGTC AGGAGGGAGA GTCCAGCAGC AGAAAGTCCAGCTACCAAGG GAATGTTGGA CTCAGTGGGA GCTAAGGAAG TAAGAGACGA AGAAAGGTCA TGAGGAAGAATTGATGTTAA AGTCTCTCCG TCCTGTCCCT TTGGCCTTTT TTCTGTACAT TCATTACTAG GAGCAGAAGA GCTATCTAGTTTAATACAAG AAGCAGAGAT GTGGCATTAC AGGCCTTTGA GATCTGCTCC AAGCCACCTT TGAAGCTATT TCCACCATTGGCAGGCAGAA CTCTAACTTG CCAAGCTCGT TCACAATACC ACACCACACC TTGGTTAATA AACACTGCACTTGCTTGCTC TCTTGCTCTC ACTCCCTCTT GTTTTCCATT TCCCCTTTCT CCTCTCCTCT CTCTGTCTCC TTTTTCCAGTTGTCAGAATT CTACCCTTTC CATCAACATG CAACTTCTGT TTTTTCTCTA TCCCCATACA ACTTAATATT CACAACTTGTCAACCTGGGC GAACTTTCTG GTTTGGATAT AATGAATAGT TGATTACTGT AACAAGATAG CTCCCCCTTT TTCTTTTTAATCACCAGACA ACCACCATCA ATCAATGCAT CACCTTCACA GGTAGGTAGC AGGCCAGACC AGTGTCCTGTGGCTCCACAT GTCCGAGCTG CAGAGCCATT GAGCGTCCAT CCTTCAGGAC AGGCGAACTT GCACACAGTGCCAAACACGG GCTCCCCACT GCAGCTCATG TTGATCTTTC CCGGAACTGC CAGGCTTGAA CATTTTACCA CTGCAAATGTTAGGTACACA GGCAGAGTTT CAGAAAAATC TACTGGAAAA CTTCCAAAAC TTGCTTAAAA GTCAACAATGAATGTAAAGT GTAAGCGCTA CTTAGTTTTC AGCATGTAGG AAATTAGGAC CAAACCCCTT TGGGGCAATCTAGGTTCAGA AACTTTATGA AGTATTTGAC CTGTACCCTA AAAAAGTCTG CACTCAATTC TACCTTGGCAGGAAGGAACC TCTTCTGTCC ATTGTCCCTG AGATGTGCAC TCAAGTTGAG TTGATCCATG TAATTCAAAT CCCTCCTCACAGCTGAAGGC ACAAGAGGAC TTGTAGGTGA ATTCTCCAAT AGGGGAATGA GCACACCTCA CCAAACCCTTCGGGGGCTGG TGGACAGCAT CGCATCTCAC AGCTGGAACA CACGAGAGAG CACTTTAGAA GTTTGTTTGCATCTCCAGCA ATACGTTTCC CAAGGTAACC AAGTTCCCAA GCTCTTCAAT AGTTCTTTTT ATCTTAAAAT AAAATAAAAACAAAGACTGT ACCTTCACAT GTGGGCTTCT CGTTGTCCCA CTCCCCTGTG GGGCCACATT GGAGCCTTTT GGATCCCTTCAACACAAAAC CCTGCTCACA GGAGAACTCA CAGCTGGACC CATAACGGAA ACTGCCAGAA GCACTAGGAAGACAATTCAT GTAGCCTCGC TCGGGGTTGG ACAAGGCTGT GCACTGGAAA GCTGAGACAT CAAAATGATGGTCAGAAAAT ATTGCAGTGG AACTAGAGAG TACTTGGCGT TTGTTGAGTG AACCCAGTTC ATTCAAGCAACACTTGGAGA ACTGAAGATT CTTTATAATT CCCTGGACAA ATGGGAAGAT GGCTGTGTTT TCTTTGAATT TCAGCCCCCTCACTGATCAT GGCACTAATT AAAAGACTAA TTAATCAGAA CATTAGTTCC TGAGCACTGT TCTTCTAACACACAAAATAA ATTATGGTCC AAGGAAAGAT TTCACGCAGT CTGAGGACAA CATATGGGTC ATGGATGTTTATAGATGGTG CCAAAAAGAA AGAAAAGAAA GCACCCCTAT AAAATTTGTC TGTTTTGCAG TTTGGTTTTT GTGTTATGTTTTGCTACTGG AAATCATTCT GTGCTGGCTT TGGCTAGGAC AAGGCCAGTG CCTGATAGTA AAAACTGCTT GTTTTCAATATCCTTGCTCT CACTTTAAAG TGAATTAAAA TTTACTGCTT ATATATGCAT CAATACTATC TCTGTAGCTG ACACCATGCTTGAAACAGTC TCATCACTGC TAATTATGAG CCATTTCAGA AGACAGGTGT GATGAGAGTT TTACATTCAA ATCATGTTCTCATTATTCTG CTTTCCGAAT TTTCTAATAT GATTCCTTTA GATTAAGAAT TCTGTCTATT CCATGCTAAT GTCTACAAAGTTTTATCAGC ACATCACAGT TAAAAAAAAA CAGCAAAGAA TTCATTCTTA ACACATATGA TCCTTTCCCT GGCCAAACATTAGTTCTTTT AAATGAATCT CAAAGATACG AGGGTTGCTC ATCAAATCTG ATTTCTATAG TTAAAGTGGG TATTGGTTTTTTTTTTCACT GTCCAAGTTT GAAGATGGTT GTTCTTTAAG AAAGTATAAA TCGAAGGATC TCAAGCTTAC CTTCACAAACTGGGATTTGC TGTGTCCACT GCCCTTGAGT GGTGCATTCA ACCTGGGCTG GTCCCTGCAA CATGAAGCCT TCCTCACAGGTGAAGTTGCA GGATGATTTG AAGGTGAACT CTCCAGCAGG GGAATGGCTG CACCTCACAG AGCCATTCTGAGGCTGGCGG ACGGCCCTGC ATGTCACAGC TGTAACAAAT ATACGCATTG ATATTAGCAC GGCCTAGAATTAGCTTGCCC ATTTCCAGTA TGGGTTGAGA GAAAGAATGT TCACAGTAAG TCTCCATGTG GAACAACTCT ACCTTTACACGTTGGCTTCT CGTTGTCCCA ATTCCCAGAT GAGGTACACT GAAGGCTCTG GGCTCCCATT AGTTCAAATC CTTCTTCACAGTCAAATGTA CAGGTTGTGT TCCATGGGAA GCTTCCAGGG TTTTGGAAAC ATTCCACGAA CCCATTGGCT GGATTTGTCACAGCATCACA CTCAACCACT GAGGATTTTA AAGAGCACCA TGAATTTTAC AGAAGAATGA TCTTTTCACT TCCTATTGAGCTGGGTGCCT AACAGAGTGA GGAAGCTGCC TTCAAAGGGT AGATCCCAAA GTCCTATGTC AATTCTTAGGGACATGCACA GCCAGAATAA AAGCTTTTAT TCTTTTTCAT GGATATTCTA TCTTTTCTGA TTTCCACTTT GCCTATGCTGAGTGGTCTCT AATCTATGTT ATCATTTACG TGAGGTAAAA ATTTAAAAAA AATAGATTCC AGATTAGGAG TTATGACTAGTACTGACATA CGTAGGCTAT TCATTTATTT TAGCCCATCA GAGCCTGAAG AACTGATTTT TCTTTTTTTG GCCTCTGGTTCAGAAAGATA AAATTAAGAG AGAAAAAGAG ATACTAAGAC TGCTTGACTA TCATGGTCTT AAGTTAGTCCCATGGCTTGG AAAAGTTAAA CAGGGAAACA AGATGAGAAA TCCATTGAGA TTTCTAGAGC TTTATTGTTTTATGGTCTCC CTTACAAATC ACCAGAGCCT CAGAAACACC CATTTCAAGC ATAGAATAAA AAAACCTCTCTCAACCCAAG CAGGTACTGG GTTGGCAATA TACATTGGCT GAGAGAACAA ATTGTATTAA AAACAAAAACAAAAAAAAAA CTTTCCCTGA AGTTTTGAAA ATGTAAGTTG AATCAAAAAA CAGAAGCAAT GAGGGATGAGTTACAGAACG TTCTGTGCAT TCTCAGAGGG ATTTACCATT GCAGGCTGGA ATAGGAGCAC TCCATTCTCCAGAGGACATA CACTGCATGG TCTCCATGCT GCTTGGCAGG TAACCCCTAT CACAGCTGAT AGAGCAGGAAGAATTGTAGC TGAAGTTTCC CAGTGGGTGA CTGCAAACCA GGCTTCCATG CTCAGGGGAT TCCAGGGCTGTACAGTTCAC AACTGAAAAA GAAACCCAAA TCAGTTCTGC TCATCTCTCA CCTTTAACAG ATAAGAACACTGGAAACTAG AACTACAGTT TGGTTTTTTT TTTTTTTAGT TTAAAAATTT ATAAAATTTC TAATGGAATT TGTAAAATTGACTGTAATTC TACCCCTTTT CTTTTATTCA AGAAAATGCT GATCCATAAC AACAACAACA AAAAAGCAGTGATGACAACC ATAAAAAAGA AATATTGAGT GATATGGGGA GAGTAGTGTA ATTGTGTTTA CCTCAAAACTGTTCAAATTA TATGAACAAA CACAGCAAAC TTAGGTACCA CAACAAATTT CTTGTTACTT TTCTCACAAC TGCTAAAAATACTACAGTAA GCTTCCAACC AGGATGAGAA CCATTCACAA AGCTATATTT CAAATTTAAG TACTAGAATACATTACAAAT TTTAAAACCC TAATGCTGCA CTGTCTACTA TAGTAGCCAC TATCTGTGTG GCTACTCAAA TTTAAACTTGAATTCGTTGA AATCAAATAA CATTTAAAAT TCAGTTCCTC AGTGTCACCA GCCACATTTC AAGTACTCAA TAACCACATGTGGCTCATAG GTACACACTG GAAAACACAG CTATGGAACA TTTCCATTAT CACAAAAGCT CTACTGCACAACGCTGTGCT AAGGAATCTT GGAGAGAAGC TCATCTAACT CTCTTAATGT ACAAATTTAG GAACTGAGAC CTCATTTCATTCAAGTGACT TGCTCCATGC TACACGGCTA GTCATTACAG AGCCAGAGGC CAGAGCATGA ACCAAGATACCCTGGACTCT GTAACTCACT CATTTCTACT GCAACGTCTT GTTACCACCT AGATGAGGTG AGTACATGTT CCTCGCAGGGACACAGAATT ACAGTTTATT GAATGTGTCC TGTGTGCCAG GCACCATGTA ACCATGAGCC TATGAAGTTC ACACTATTATTATCCTCATT TTACAATGAG AAAACTGACA TAGAGAGTTA AACTATCTTG TCAAGGTGCC AAAATAAATAACTGGTGAAT CTAGGACTCA AACCCAGCAG GGTCTGACTT CATAGTCTCA GCTCACGATC ACCATATGACACCATCTGCA CCAGGGAAGG GAAGGCATGC AGACCTGACT CTAATGCCAG CTAGGACGTG AGATGGTGCTACCATCTCAA GTGAAGAAAG AGGCAAGAAC CAGACTTACT TTGCTCACAC TTGAGTCCAC TGAAGCCAGGGTCACACTTG CAAGTGTAAT TATTGATGGT CTCTACACAT TCACCGTGGC CACTGCAGGA TGTATTGGTA CAGGCAGCTACGGAAAATAC AAAGCATGAT GAGGAGGACT ATTACTGTGC TTATACTGAG TGCCTTTGAT TTTAGAATCAACAGTGTGCA ACAGAGACAT CAGCAGTCCT ACAGAGTGCC ATAGACTTTA ACTGAAGTGT TTTACAAAGTTCCAAATCTG AGTTTCAGGC CCACCTATCC TAAACCTTGA TGCTAATGTA TAGCTGTGGC TGGCACCTAC CGTAGAAAATTTACTTCTTC ACAAACTCTG AAGACAGTTC CCCTACCACA AATAAACAAG TAATTAAAAT ATGTATTGTG TGTGTGCATTTTTATATGTA AAGAACTACA TATTTGCCTA CAGTATTTAT ATATATTTTA TATATATACA TACACACATA TATGTGTGTATATGTGTGTA TGTATATATA TAAAATGTAT ATAAATGCTG TAGGCTATAT ATATATACAC ACACACATAT ATGTGTGTGTGTATATATGT GTGTGTGTGT ATATATATAC ATATCCACAT ATTCTTGCCC ACATTCACAC AAAACAGCAAAAGAGAGAAA CTTTAGCAGT TAAACAGAAT CTTTTGGAAC ATAAAATGAC CACAATAGAG AGCAGTTTTTGCATGCTGTA AATTTGCCAA GATGCCCACA CACTGAAACT ACCTCCCACT GCTGCCGCAA ACTCCCTACCTGTGTAGCAT AGGGCAAGCT TCTTCTTGCT GCACCTCTCA TCATTCCACA TGCCCACATC TTTTTCTCTC TTGATGTAGATCTCCACGCA GTCCTCATCT TTTTGCCTAT TGTTGGGTTC ACCTGGAGCC CAGTTCTTGG CTTCTTCTGT CAGAGGTTTCTGGGTTCCTA CCCAGACCCA CACATTGTTG ACTTTTCTGA TTCCAATCCA GTAATAACTT GGTGAATAGC TCAATATGGAGTTTAGGTAC TCAATCTCTT CTTTGTTTTG AATTGCAACC AGGTGTGTGT ACCTTTGCTG ACAATAAGCA CTGGCCTCATCATAAGTCAT AGCTTCCGTG GAGGTGTTGT AAGACCAGGC TCCACTCTCT TTAATGAGAA GCACTAGTGGGAGAAAAAGA AAAGAAATGG TAGAGTTTGG TACTGTTGTG GTTTAACTCT GACAACTGTG CTTTTTATTG TCTTATTTTTGGCAATGTTT GTGACATGGC CCAGACTTTT CTCATCTTTT CAAAAGTAAG AAGTACGTAT GAAGAAACAG CGACTTATTGTTTATCTCTT TTGTGACTGC CACCCACTAG GTACCTTATC CACACTCACT CACAACATTA TAGTATACCC ATTTTGTAGTAGAATAATAA TCAGAATAAC TAAGCTTTAT TGAGCACTTA GTATGCACCA AGAAGCACTG TATGAGGTACTTTCCATGAA CCATGCTATT GAATCCTCAC AATGCATCTG GGAAATAGGT CATTATGATC CACACTTTAC ACTTAAGGAAAGGGAGACAC CAAGAGGTAA AGTAAATGAC CCCAAGCCCA GGGAAGAACA CATTGCAGGT AGAGGTCAAGGATGCTGCCA GATATCCTGTGCAGGACAGC CCCAGACAAG CAAGGATATT TCAGTCTGAA ATATCTATAGTGCGAGAATG AGAAATCTTG GTCTAATGGC ACTGACTTAC CCAAAGTGAG AGCTGAGAGA AACTGTGAAGCAATCATGAC TTCAAGAGTT CTTTTCACCC AAAGGTTTAG GCTTGAAATA CTTTCCTGGG GAGATAAAACACAAAATGAA TTAAAGAAGG AAATCGTGGG TAGCTAGTTA CATTATTCTA CCATGATGTT TAAGGCAGCATCCTAAGATT TTGGGCAAAG GACACTAGTG CAATAATCTT TATTTCAGAG TTTAATCAAA TAAATAAACA AATTTTAAGACTTTCATTAT TTAGGTCAAA GAGAAAAGAC AGGTTTTAGC TACAATACAA TAAGAGCTTG TACAGATGTG GTTTTTATTAGAAGGCCTTT TGCATATCTG TGTTTCATGG CCCGAGGCTG CCCTTATAAA GCGTTCTGCA CTTACCGTTT TGGGAAGCAGTTGTTCAAAC ACAGGATCTC TCAGGTGGGT ATCACTGCTG CCTCTGTCTC AGGTCAGTAT AGGAGTTTTG ATGTGAAGTCAGCCAAGAAC AGCTGAACAC TACTTCGGCT GAGGCCCTTT TATAGGAGGG ATTGCTTCCT GTGAATAATAGGAGGATATT GTCCACATCC AGTAAAGAGG AAATCCCCAA TGGCATCCAA AAACTTTCCC GGGAATATCCACGATGCTTA AAATTACAAT GATGTCAGAA ACTCTGTCTC TTGAAGCTAC TTCACCTTTG TCCATGCCTT TATATCGTATATGCAATTTT ATTAATATGA CAAAAATGCA TGATTTTTAA TTATAATAAC ATAAAGTCTA TGTCTTTAAA AAGTTGTAAAACTTTGCTTG TTAGTAGTGT CTCTCATGTA GTTGTGGTAG TAATTAGAAT TTCAGAAACA GAAGGAAACCAAGAATAGGT TTGTCATCCA TAGTCTACTA CCTTCAATTT CTCATTCATA GCTGTGGATA ACCAATCACT ACTCATTTTTTCTTCCTTTT TCACCTGCCA ATTCAACATA TTTAACATGC ACTGTCTCAC AGAGGAATGA CTCACAAGGT AGATATTAATCTTCAGATTT TGCACGGCAG TTATGCCTAA ATTAAAATAT TATCTAAAAA TAATATCTAA CACTCAAATG GTTAAAATAATGCCTTATTT TAAAAAAAGA AAAATGGGAA ATAGATATTT ACATCTGGGA AAGTTTCATG GTTTGTTCAGTGAAAAAAAT AAAAAGGAGG CCAGGCACAG TGGCTCACGC CTGTAATCCC ACCACTTTGG GAGGCCGAGGCAGGCGGATC ACCTGAGGCC GGGAGTTCAA GACCAGCCTG ACCAACATGG AGAAACGCCA TCTCTACTAAAAATACAAAA TTAGCTGGGC ATGGTGGCGC ATGCCTGTAA TCCCAGCTAC TCGGGAGGCT GAGGCAGGAGAATCGCTTGA ACCCGGGAAG TGGAGGTTGC AGTGAGCCAA GATCACGCCA GTGCACTCCA GCCTGGGAAACGAGTGAAAC TCTGTCTTAA AAAAAAAAAA AAAAAAAGAA AAGAAAAGAA AAAAAATAAA ACGGAAAACTATATATATAT ATTTAATTGG TCAAAATTTT GTTTAAAATT TTTGAAATGT TAATGTGCAA AGAATAAAAA TTCTTCCACAATGTTAACAG TGACTAACTC TGGATGGCAG GATTTGGGAT AATTTTTATA TCCTTCATTA TTATTTTCAG GATTTTAAAGTTTTTTTCAA TTTCCCTTTT TTTCACCTTT ATAGTAACAA GAATACAGTT TAAAGAAACT TGTCTCTAGG CCAGGCATGATGGCTCATGC CTGTAATCCC AGCACTTTGG GAGGCTGAGG TGGGTGGATC ACCTGAGGTC AGGAGTTCCAGACCAGCGTG GCCAATATGG TGAAACCCTG TCTCTACTAA AAATACAAAA ATTAGCCGGG GTGTAGTGGCGCATGCCTGT AATCCCAGCT ACTGGGGAGC CTGATGCAAG AGAATCGCTT GAACCCAGGA GGCAGAGGTTGCAGTGAGCT GAAATCACAC CATTGCACTC CAGCCTGGGC GACAGAGCAA GACTCCATCT CAAAAAAAAAGAAAAAAAGA AAAAGAAAAG AAAAGAAATT TGTTTCCAAA TGCAACAGAA GGAGATGTAT GTGGTATCCTATATTCCTGC TCTTCATTTT GACATTTCTT CTGGGTGATT GTATACATTC CCCATCTCTG CATCTTACCC TATCTAAATGATGGTAACAG TAAATGGGGA TCATTTTAAT TTCCATATTC TGTAGGTTTT CAGAGCTCAA GTCAAGCTAA TATTCTATATCTACAGCCTT TCAAAATAGG AGGTCTATCT AAAAATGTAC TGTCAGCAGA CCTGAACGAG TAGTGGTAAAAGCCTCGTTT TTCTCTTTAC TTGTTAGCAC TGGTCTTTCT GTGTTCATAA AGATGTCAAG ACCCAAAAAA AAAACAAGAAAAGAGAAGAA AAATTCCAAA AAAGACAACT GATTAGAAAA AAATAACTTA ATTAACGAAT TTAATTCAACCCCTATCAAA AAGCATAGAA TTTATTCCCT CCACCTTACC ACTCTCTTAC ATGATCCAGA TACTGACATT ATTCCAATTCTTTATCCCAC TTTACTTAGC TCAATGTGGT TGTTGCTTCA ATAAATTCAG AAGAGTAATC ACTCATATAG TGTTTATTTAGATTTTAGGG CAGAATGTCA AGTTGGGTTA ATACATTATC TGTATGTATT TTATTTTTAA TAAAGTATGA ATACATAATCTGCTATTTTT AAAAAGCATG GTCAAATGTA TAGAGTAGCC AAATCTTAAA AAACAATTTA TCTTCGATAT CAATAAAGTACCTAATAATT ATATTGCTAA TAGAAATTAG TCGTTAACAT CCCTAGATAA CTAACTTTAT TATTGCGAAT TTTTCATAACTAAGTTTATA GTTTATCTCT TCCCCTTTTT AAAATTAGTT CAAAGATATC TAAAAATAGC CCCAGTGGTG ATGAAGTTTCTATTTTACTT ACATATATAT GTCCTGGACC CCCAATTATA ATCTCTAACA TTTATTGAGT GCTTACTATG TGCCAGGCCATATTCTGAGC ATTTTGTATG TTCACCTATT GATTATTCAA TCCGTACAAC AGCCTATGAA ATAGGTACTC CTATTATCCCCATTTTACAG ATGAGGAAAT TGAGAATCTG GGGATTTTAT CTCATTCAAA AGCACAGAGC TAAGGGTTGAAACCAGGCAG TTGATATCCA GAGCCCACTC CCTTACCTGC TACTCCAAAC CATGATTTCT TTTGTTGTTA TGCCCCGAGATTCCTTGTTC TACCCAAGTT TCCTGTACTC TTCTTGCCCT CTTCTTCCTG AGACATCCTT GACCATCACA GCTCTCCACTGAGATAACTG TGTCCTGGGT TCTGAGACAT GGGGGCTGGA AGGGACCCCA GGGACAGTGA GCAGTAGGGAGAGGATGCAG TGAGAACAGA CCCTGGATCC CCGGTGCATA GGCAGGGAGA AAGTGGACAA AGGAAAAAACAAGCAAGGCA GGTGGAGCCA TGCCTAGGTA AAGTTGATCC CTAAGCCACA GTTCCCAGAA GTTCCTGATTCAAAAGCAAA TTTTCTCTAA GGTCAAAGGG CAAACTGATT ATTCTAAATT CTAAACTGAT TATTTCTAAA TTGAGAAAGCTTCAGGGAGA GATCCCAATA TTCGAAGGAT AAGAGAAATG AGGAGTGGAA GAGATAGGTG AGTAACAGTAACTTAAATGT AGACTATATA TAATATATAA TATATGTAGA GTATATATAT ATAATTACAA TATATTATAT ATGTGGAATATATATATTAT TTATATATAT TTATATATTT TATATATATA GATATTTTTA TATTTTATAT ATAAATATAG ATATTTTTATATTTTATATA TAAATATAGA TATTTTTATA TATATTATAT ATAAATATAT GTAAAATACT GTGAAAGAAG AATAGAATCTTGAGACCTCA AATTCACTAT GCCAAAGGGA AAGTTAAGCT TGGGAAATGA GTCATGCAAA AACTGCCTTCCTTTTGTTCC CAAATACCTG TAATTTCACA TGCTTACTTT ATCTTATATA AAATGTAGAT GTACTGAGCA TGAGATCCATGCATAATTTC CCTCTAGTCC CTTCTTTTTA CATGTAAAGT GTAGACTCAC TGAGTGTTAC AGAGCCTTGC CACAATGTAAACACTTGTCT CATTGCCAAC CCATCTTTCG TTTATTTTCT TCCCCTCCTG CTTGCTCTTT CCCCTCTAAA GATGGAAGTTCCCAAAACTC TCTTTGGAAA AAGCGCAGGT CACAGATCCT ACAGTGATTT GTGTTTCTTT TACCTGGGAC AAAATAAACCTCTAATCTGT TGAGATATGC TTCAGTTACT TTTTGGTTTA CAATATGTAC ATGTATGTAT ATAATTTATA TGTATATAATATATGTACTT GTTTTAACCA GAGGTATGTT ATTCAAAATC CATTCATCCT TACAATTACC TGCATTCTCC CACAGTATTTTCTGTGTCCC TGCCCCCGAG GTTGTCACTG CAAATCAGGT ACATGGATAC TGGGAGCTGA TGGGCTCCCC TCTGGCTACCTGGGCTGCTG AAGGGGCCAT AGACAGACCC AGCTTTCCTC TCGTGGAGAG GCCCTGGGCC AGCGCTGCGTGGGAGTGGGA TTACAACCAG ACTATAGCTT CTTCACCTGC TTTTTCCTAT CAGGATTTCA TAAGAGGCAA TTGCTTGTTTTTTGAGGGTG GGGGCAAATC AGGGGGAGTT GAAGAGGAAA TTGGGTAAGA TTTGAATAGT TGGGCATGTTGAATATTATG AATATCATCT CCCTCTTCAA ATAATCCAAA ATATACCCCC AAGAAACAGG CTGATTAGAGGTGCTTCAAG GCTCCACTGA ATCTCCCAAG CTCTGAAGAT GTAGCTAGCT GTTACCGGAT TGCCGGTTTT CAAGCCTCGCCTCACATGGA CCCTCTTGGC AGTTTCTCGC ATGGGGGAAG CATCCGCTAC ATAGATGGGA ATGAAAAGAGGAAAGAAGAC GGTGCAAACT CAGGCACACC CCGGTGTCTG CCACCAGTGC TATTTAATCT CTGAGGTGTCACCCTTCCTG GCTTTATTGT CTCTTCCTGG AAGTCTCTTG TCCTCTCCTC CACACCCTTT AATCAGGCAT CAAAGACTTTAACCAGTTTT GCTGTGTGCC CAGGCCCACT CATTCTCACT TTTATGGCAA AGGGAGTGGG AGACAGAGAGATAGCCAGAA AGAAGAGATT GGGGACCCCA AGACAAATGT TAGAATTTTA ACCAAGGCCA CCCTGTGGACAGGAGATTAT TGGGTTTAGT GGAAAGCAGC ACTGGCCACA ACCACACGTG GCAAAAGCAT CTATCGAGGAGTGAAGTTAT ATTTGGTGAA TGTGACCGGG AAGCAGGGGC AGTGGTGTCC TCCTGCCTTC CTGAGGCACT CTGTTCCCTTACCTCTGCGA AGGCTTATTT TACCCCTGAG TGCTTAGTTT TGAAAGCCTT AGTTCCCTCT CTCCCATAAA AAAGCTCTACTCTGCTAACA TCTAAGTTAC CTTTGCAGAG TCTTAGGTAG AGGGAGGAAA TCCCAATAAA GATTCCACCCTATCTGCAAA ATACAAACAT GGTATTTCTT GCATTCCCAA AATTGTGAAA GAAAATGTGT ATCACCACAGTAGAGAATGG CATTTTTTGT TTGATCAAAA CCTAAATATA TTTGATGAAA ATGTGTCTGG TTCTAAGTTT ATTTCCCAGAAAGCCATGTT TACTCACTTG GAATTTATAG ACATCTTATA ATATCTGAGT CGAGTAGGAG CTCCGGGCTC TACCTCACTCTTTTCTCCCA CACCCAGGGG GAAGTGTAGG GTTCTCAGAC TTTAGAATAA AGAGGAATCA CCTGGACAACTCACCTAAAA TGCACATCTT CAGGTCTCAT ACTCAGAGGC TCTGACTCAA CAGGTCTGGG TGGCGCCCAAGAATTTGGGC TTTAAATGAG TATCTCAGAT GATTCTAATA CAGAATGTGT AAGATGACCA GATCCTATCA CACTTAGATGTATTGGCCTA GGGCCACCTA ACTTGGAGAA AATGTTAGTA AGACCCCGTG GTTGGTGCTC AGCTATAGGTACCAGAATTT TGATCAAAAT TTACTATCAT TGTGACACTT CTCTTCGGAA CTGGAAGGCC AGAACCCCAC TTGTAAAGTGCTGGGAAAAT ACAAGGAAAA TTTAGGGTGA GTAGCATTTT GAATTCTTAC ACATGGAAAG TAAATGTATAAGAATTCTTA CCAATAAAAA AAAAGCAAGA GAGAATAGCT GCTAAAGAAT TAACACAAAT ATGTATATATTAGTTATTCT CTTTTCTCCT CTGATTCCAG AGGACTTTGT AATTCCACTA ATTCTTCTTG AGCTTCCAGG ATGATCTGAGACTTGAATTT TTCATGTGCT TTTTGCTTCC TATTTGGCAG CATCTTATCT TGAAGTTTCC GCTTTCTGCT TGGGGACCTAAAAACTAACT AATGGGAATT TCTTCAAAAT GAGCAAACTC TGGTGAATTC CCAAAGCGGA AGAAACAAGTGAGGATCGGG CTGGTTAATT AAGAGAACTT TTCCTGAATG TAGCCAGACT GTTTGCCGAC TGTTGTTAACATGAGGGAAG AAATACCCCT GGATTTTAGA AGAGCCCCTT GTTTGTTTTC CTTGGCCATT TGTGCTGCTT GTTTTGTAAGTCAGAAATTT CCTGAAGGAC TATTATTAGC TTTGTTCTCA CGTCAGAAAA CTTCTGCTCT GGCCACTTTT AAACATATAACTTGGATTTT ACTGTATTAG AAAATGTAAC AATTACAGAC AGCACTAAAA GGACACCAAA GGGCAAAGAAAATGGGTAAC TTTTTTTTCT TCCCCAAATC TAAAATAGGT GATTTTGGAG AAGTAGGAGA AAAACCTGGATTTTCTAGATCTCTTTAGAG CTCAACAACT GATATAGTTA ATTATGTAAG TCTTTGATAT TTGGAAATGA TTGGATTAAC CGGATAACAATGAATATTTA AATACAGTGA TTTGGCCAGG AGCAGTGGCT CATGCCTGTA ATCCCAGCAT TTGGGGAGGCTGAGGCGGGT GGATCACCTA AGGCCGGGAG TTCCAGACCA GCCTGGCCAA CATGGTGAAA CCCCATCTCTACTAAAAATA CAAAATTAGC CAGGCGTGGT GGTGCAAGAC TGTAATCCCA GCAACTCGGG AGGCTGAGGCAGGAGAATTG CTTGAACCCG GGAGGCAGAG GTTGCAGTGA GCCAAGATCA CGCCATTGCA CTCCAGCCTGGGCAACAAGA GCGAAATTCC ATCTCAATAA ATAAATAAAT AAATACAGTG ATTTAACACA AGAGATTTCTATTTCACACT AATGAGCTCT GTCACTGGGG CAAGCTTCTT TGCCTCATTA AGTCTCAGAT TTCCCGAGAG CTTATTTATTTATACCAAGA GTGCTTTACT ACCGTCTCTG CTAGCTGTGA CATAATATGA CAAAAGGTAT AAATATGGGAAAAGGCACTA ATTTATATCA AAGCGTTCTT CGTTTTTCCT TGCTGTGAAG TTTTTAGCTA ATAATTCATA AGAATATACCATATTTAGAG TGTTTACTAT GCATGGGCCT GGCACTTCAC ATACATTGCT TCTTACAAAT TTTACAAAGT GAAAGGTAGATATTAATCTC ATTTTATGGA GGACAAGATA GAGATCTGGA GAGGTTACAT AACTTGCCAG TGTTTTTTCA GTTAATAAATGGTAGGGTGG AGATTCAATC TGTGTTACTC TAAAGTCCGT GTCCTTTTTA TTGGCTCCAT GCCTACTCAG ATTTAAATCTCAGCAGGGAA GTAAACCTTA GTTTTTACAT GAGAAAATGT TACAGCAGCC TTCTCGGCTT CCTTTACCCC CATCCCAGTTTCACGAGCTT AGTGCCTTAG ATCGGGTTCC TTTAGAAGCA GACCTCGAAA TAAGGATGTG GGTGCCAGTCATTTATTGAA AAGATGATCC CAAGAAAGCC TAGTAGGAGA GTGAGGAAGT GAGATGGGGA AAGGAAGAAACTCCACAAGA AGTGTGTTAA TAAGCAGGTT ACCGCTGTGG GCAGCCATGG GGCTCAGCTG CACTAACAAACTCTGTCTAG TACAGAAAAC CTCAGGGTCT CCCCAAGGAG GGGCAAGAAG TCTGCCTAGG GTATATATCCGCCAACTCAG TCACTGGCTG AGAGCTGATC CTGGGAGGGC ATGGTTAATT CCTCTGCACT TTCAAGTGGA TTCCTGTGGTCAGAAAAAGC CCTCTACAAT GAATTCCAGA TGCTTGTATT TAAATCTGAC ATGATCTGAA TGCTGTGTTGGGACAGGGTG GGCGTTATTA GTTTTCTGTC ATTACTGTAA CAGATTACTA CAAACCTGAT GGCTGCAAAC AACACATATTTATTATGTCA TAGTTTGTGT GGGTCAGAAG TACAGGTTAG CTCAACTAGT TTCTCTGCTC TAGGTTTCAC ATTGCCAATATCAAGGTGTC ATCCAGTTGG GCTCTTCTTG GGAGGCTTGG GGATGAATCC ACTTTCAAGC TCATTCAGAT TGTTGGCAGAATCCAGTTCC TTGTGGTTGC AGGACCAAGG TCCCTGTTGC CTTGCTGGCT GTTGGCCAGG AGTCATTCTT AGCTTCTAGAGACTACCTGT ACTCTCTGAC TCGTGTCTCC ACTTCACCTT TCAAACCAGC AGCGGCTAGT CGAGTCCCTC TCTTCAAATGTCTCCAACTG TGCCTTCACC TCATTTCTCC TCTGTGTACC ATGTCTGCCT CTACTGCTTG TAAGGGCTCA TGGGATTACATTGGATTTAT TCAATCCAGG ATAATCTCCA TATTTTAAGG CTAGCTGACT AGTGATCTTA ATTCCATCTA CAAAGTCCCTTCCAATAGTA CTGTATTAGT CCATTTTCAT GCTACTGATA AAGACATACC CAAGACTGGG CAATTCACAAAAGAAAGAGG TTTAATTAGA TTTACAGTTC CACATGGCTG GGGAAGCCTC ACAATCATGG CAGAAGTCAAGGAAGAGCAA GTCATGTCTT ACATAGATGG CAGCAGGCAA AGAGAGAGAG CTTGTGCAGG GAACTCCTCTTTTTAAAACC ATCAGATCTC ATAATACTTA TTCACTATCA CAAGAACAGC ATGGGAAAGT CTTGCCCCCA TGATTCAATTACTCCCACCA GGTCCCTCCC ACAACATGCA GGAATTCAAG ATGAGATTTG TGTGGGGACA CAGCCAAACCATATCAAGTA CCTAGATTCA TGTTTGATTA AACAACCAGG GAGCAGAAAT CTTCAGGAGT GGGGGGCATCTTTAGAATTC TGCCCACCAA GGCTGGGCGC GGTGGCTCAC ACCTGTAATC CCAGCACTTT GGGAGGCCAAGGTGGGTGGA TCATGAGGTC AAGAGATCGA GACCACCCTG GCCATGGTGA AACCCCATTT CTACTAAAAATACAAAAATT AGCCAGGTAT GGTGGTGGGC ACCTGTAGTC CCAGCTACTC AGGAGGCTGA GGTAGGAGAATCACTTGAAC CCAGGAAGCG GAGGTTGCAG TGAGCCAAGA TTGCGCCGCT GCACTCCAGC CTGGGAGACAGAGCAAGACT GTCTCAAAAA AAAAGAATTC TGCCCATCAT AGTAGGCTGT CCTACAGAGA CATAACCCAGGAATTAGGTG AATGGCTAAC CTAAATTAGC ACTGTGATGT GTTTTCTGAC TTGGTCCTTA TAGCTCCTCT GCTTAGATGTGGAACTAATC CATGAATGCA AGGGTTTGTC TAGAGTTTTA AGTGGGAGTT AAATATCCAA AGTACAGGAGATATTATGGG TGCCTCATCC ATGTCCCCTT GGCATTTATC TTTCTTGGAT AACCCAACTC TATTAGTTTT TATATCTCACTTGTTCCTAT ACTCTGTGAA CTGATGTCCC ATAAATAGAC ATTTCATTTT GCCAGTCTTC TTGAACAATA ATTACGATTATTAATCTAGC AGTTATCATT AATTGGCCAC TTCACATTAG ACACAGCACT TAGGACTTAA GAATACCATG TCATTTGATCATCATAATAT GGTCAGGAAT TAAGTATTGC TATCCAAATT TTACAAAGAA GGCACTGAGG GTTAGAGTTTAAATAACTTG CTTAAGATGT CATAGCCTGT AAGTGACAAA ACTAGGACTC AAATACAGGT CCATCTGACTCCAAAGTCTA TGTTCTTGGC TACCACACTG CCTCTCCTAC AAGTGACCTG TGGTTTTACT ACTATATTCA CACTCTACTAACTTTACCAT CTCCCATGAG TCTGTCTAGA GGAGGGCACA CACAGCACAG AAAACACATG AATGCAAAATAAGGAAGGGC CTACTTACTA CACAGAGCCA TTCTAATACC TGATGTTTGC TCTAATCCAG TTTTACTATT AATTAGTTGCTGGTGCCCAA GTTTTTACTG AGAAATGGGG ATAATTTTGG AAGTCATAAT GATGCCTTCT TCTCATAGGG TATTTTATTTGTTGTTGTAT CTCCAGGCCC CAACACAGCC TGGCTTTTAG TAAATGATCA AAAATACCTG TTGAATGAATAAATGGAGTC ACCTGAAACA TGTTAAACAT TTGTTCATGT GTCCTAATCG TGGATTTCAG GATAGTAAGCATCCTAAAAG GAAAGCATGC ACACTGTTCT TGCTACATTA ATTTCTCACA ATATAAAAAA AGAAAAGCATCTGAAAAAAG CTGCCAGCCG CTGTGTCTCC TAATATCAAA CTGAGCACAG ATATGGAGAA GCTAAGGGAGAGGGATGATG GGCCATGCCT CTAACCTCAT CATGGCAAAA GTCCTGGGGG TCAGACCCGA GGAGAGCAGGAAGTGTCTTT TGAGGGATAC ATTTCCACAG TGGAAATAAT GAGACTTAAA TAAATATTAT ATACACAGTT CAACTGTTTTTATGTGTAAA GGTAGTAGGT TTTCACAGTA AGGAAGCACT TCTTTTTTTT TTTGTTTGAG ACAGAGTCTC GCTCTGTCTCCCAGCCTGGA GTACAGTGGT GCTATCTCGG CTCACTGCAA TCTCTGCCTC CTGGATTCAA GTGATTCTCC TGCCTCAGCCTCCCGAGTAG CTGGGACAAC AGGTGTGTGC CATTACACCT GGCTAATTTT TGTATTTTTA GCAGAGATGC GGTTTCACCATGTTGGCCAG GCTGATCTCG AACTCCTGAC CTCAGGTGTT CTGCCCGCCT CTGCCTCCCA ATGTGCTGGG ATTACAGGCATGAGCCACTG CACTCACCAA GCACTTCTAC TGATAGCATT TACAAACCCT TCTTAGAATA TTTAAAAATT CTAAGAGAAGAGTAAATTGA GCCTTCCCAA CTAATACTAG GAGGTTATAA CCTTCATACC AAAACTGGAC AATGCTTGCACAAAAGAAGG AAGCCAATGA GGCCACCTAG AAGGAAGACT GGGCATTGGG CCCAGTGAGT CCTGGAAACCTCATCTGTGC CAGCCACCCC GGCATGGCCT GTATGAGTGG ATGAGGGTGA CTTGTCCACA GACAATAGCCATCTAGCTGT GATAAAGGAG TCAAGGTAGT CAGCTGCATC TCTTTCACCT GTTTGCCAAT GTTACACAGG TTGAAAAGCTAAGGTTTATG TAAAGCAAGC ATCAAAGATG ATGAAATGAT CAACCTGACA ATGAGTACTA TGCTGCATTGTCCAGAAAGG AACTGTGGAA GATTTTGGGC TGAATTTCAA AACAGAATTT CCTCACTCTC TGGATGTTGG CTTACTTGGCCTTTGATGTT CAGAGGTGGT GCCTTTGTGT TGTTGAACAA TGTTGATTTT GGAGAGAAAA CAGAGTTGAAAAACCCACAA GTCATTCCCT GGGGAGTATT ACCGGAATAC AGAGGATAAT TTCAGCAAGC CAGCAAGGCCTCATCTCTGC TTCTAATAGA TAGGAAGAAA GGAAGAGAGG AACAATACTT TTTTAAGAAG CTCAGCTTTA TCGCCTTATCTCATAGAAAG ATGCCTCCAG TCTGTCTGGC TAAAGGTAAT TGGCATGGGA AAGTCTTTAT CTGTGATTCTAACAAGTGGA ATGTTTCCCT TCATTAAGAG AGCCTTGTCT GGCTTGGGGA AATGAAACAC TTTCTCCGATATGAGTGGGC TGTAACCCCT GCTACTAAAT ACTCAGAAGA AATAAGGCGG TTGTGGAGCA GTCAGGAATGAGTCACTTGC CTCCCTGGAA TATTCAGAAA ACTGAATCAA AAGTACATTC TTCTGGGTTT TCTTAGTCTA ATAGACTAAGGGTCTCTACT TTGTTAAATT TCTGGGAAAC AGCATAGAAT GGGAGAAAAA ACTGGTCACT GTAGTCATGCAAATCTGCAA AACAAACAAA AAAGTCTGGG TATTGCTGCT AACTAGCTAT GTGACCTTAA GCAAGGTATTAACTCTCTCT GAATTTCAGG TTCTTCATCT GTTAAATAGC ATATCTGTAA AATGGGAATT ATTTTCATAT CATAATGCTGTAGCTTTAAA AAATAAAATA AAATGGATGA GATAATCAGA ATTAAAGAGC CTGGGATATA TAGTTAATATATAGCAGCAT GTAAAGATCC TGTTAGAAAT GCTAATTTTA CAGTTAACCA TTTGGAGATG ATCCGCCAAAGCTGCTAGTG TAGAGGCAAC TGAGAATTTG CCTGTCCTTC AGAATATGAA TAAATAACTG TCAATGATGTCTCAAGCCTA GAAAAACCTA TCCATCTGGA TGGGTGGGAA ATTTCTAGGC TAGTATTGAG AAGCCCATTTCTTGGGAAAT AGGTCCTGGA CTGAGTGAAG GAAAAGAAAC AGTAAAACCC ATGGTAAAGC AGCAAGGCTCTCTAGAGGCT CTGGAGAGGA TGAATTGAAT TCTAGAAGAT GAAGTAGGGA AGACGCTTTA CCTTCTTGTGAAATGGATTC AAAGATTCAA AGACCTTCGG GAATCTCCAA TTGTATAAAT GGCACCATAG CTGTATGTTCCATGGAACAC TACTTCCCAG AGATGCCCAG TGAAAAAAGA ATGCCACAGT CAAATAAGTT TGGAAACACTCCATTATGTG GCCACCTCCT TGAAGACTCT AATGCACATT AGCATGTTAA ACAGTCTTGA GAAGTCCTGCAGAGCAGAAA TTGCTTCACA TCTGCTAAGC CGGCAGTTTC CCAATATACT TGATTATGGA TAGTTTTTTC CTTACAACACCATTCTCTGA TATGCTTCCA ATGACATGAA ATAAATATAT ATGCATGAGG TTCTTCATTA GGGCATACTT TTTAATAGAAAATATTGAGA ATAATCTAAA TATAAATGCA CAGCATTTAC CTTTTCTGCA TAAACTATAT ACAGGCATAC CTTGGAGATACTATGGGTTT GGTTCCCACA ATATCTCCAA AACCACATTC GGTTTTATGA CCACTGCCAT AAAACCAGCC ACATGAATTTTTTGGTTTCC CAATGTATAT CAAAGTTACA TTTTTACTAT ACCATAGTCT ATTATATATA CAATAGCATT ATATCTAAAAAACAACGTAA ACACCTTAAT TTAAGGCTGT GGCTGGTTTG ATTTTCTACC CAGACCACTA AAACTTTCTT CATATCAGCAATAAGGCTGT TTCACTTTCT TACTATTTTT TGTGATAGCA CTTTTCCTTT CCTTCAAGAA TTTTTCCTTT CTATTCACAATTTGTTTGAT ACAAGAGGAC TAGATTTTAG CTTATCTCAG TTTAAGGTGT TTACATTGTT AGCTAAAAAT GCTAATGATCATCTGAGACT TCAGCAAGTC ATAATCTTTT GCTGGTGGAA GGTCTTGCCT CAGTGTTGAT GTCTGCTGAC TGGGTGGCTTTGGCAATTTC TTAAAGTAAG ACAACAATCA AGTTTGACAT ATCAATTGAC CCTTCCTGTCATAAATGATT TTTTTTTTCTCTGTAGCCTG CAATGCTCTT TGATAGCATT TTACCCACAG TAGAATTTTC AAAATTGGAG TCAATCCTTT CAAACTCTGGTGCTGTTTTA TCAACTAAGT TTATGGAGTA TTAGAAATCC CTTGTTGTCA TTTCAACAAT GTTCACACCA TCTTCCCCAGGAGTATATTC TACCTCAAGA AACCACTTTC TTTGCTCATC TATAAGAAGC AGCTCCTCAT CCACTAAAGT TTTATCCTGAGATTGCAACA ATTCAGTTAC ATCTTCAGGC TCTACTTCTA ATTCTAGTTC TCTTGCTGTT TCTATCTCAT TTGTGCTTACTTTCTCCGCT GAAGTCTTGA ACCCCTTAAA GTCACTCATG AGGGTTGGAA TCAACTTCTT ACAAACTCCT GTTGATGTTGATATTTTGAC CTGCTCCCAT GATTCATGGG TATTCTTAAT GGCATCTAGA ATGGTGAACG TTTTCAGAAG GTTTTCAGTTGGCTTTGCCC GGATCCATCA GACGAATCCC TATCTATGGA AGCTATAGAT TTATAAAATG TATTTCTTTT TTTGTGGGGGCATAGCGTCT CACCCTGTCA CCCAACCTGG AATGCAGTGG CACAGTCATA ACTCACTGAA GACTCAAACTCCTGGGCTCA AGTGATTCTT CCACCTTGGC CTCCCAAAAC ACTGGATTAC AAGCTTGAGC CACTGTGTCT AGCCCAAAATGTATATCATA ACTAATGAGG CTTGAAAGTC AAAGTGACTC CTTGATCCAT GGGCTACAGA ATGGACGCTGGGTTACCAGA CATGAAAACA ATACTCATCT CCTCATACAT CTCCTTCAGA GCTCCTGGGT GAGCAGGCCCATTGTCAAAT GAGCAGTAGT ATCTTGAAAG AAATTTTTTT TCTGAGCAGT AGATCTCCAC AGTGGACTTA AAATAGTCAGTAAACTATGC TGTAAACAGA AGTGCTGTCA TCCAAGCTCT GTTTTTCCAC TGATAGGGCA AAAGCAGAGTAGATTTGGCA TAATTCTCTA GGGCCTTAGG ATTTTTGGAA TGGCAAATTG AGCATTGGCT TCAACTTTTT TTTTTTTTTTTTTTTTTGAG ACAGAGTCTT GGTCTGTCAC CCAGGCTGGA GTGCAGTGGT GCAATCTCGG CCCACTGCAA GCTCTGCCTCCTAGGTTCAC ACCATTCTCC TGCCTCTGCC TCCTGAGTAG CTGGGACTAC AGGCACCCGC CACCATGCCC GGCTAATTTTTTGTATTTTA GTACAGACGG GGTTTCGCCA TGTTAGCCAG GATGGTCTCG ATCTCCTGAC CTCGTGATCC ACCCGCCTCGGCCTCCCAAA GTGCTGGGAT TACAGGCGTG AGCCACAGCG CCCAGCCTGT CTTCAACTTA AAGTCGCCAGCTGTGTTAGC CTCTAATAAG AGAGTCTGCC TGTCCTTTCA AGCTTTGAAG CCAGGCATCA TTCTCTTCTC TAGCTATGAAAATCTTAGAT AGCATCTTCT CCCAATAGGA AGCCATTTTT TATGCCCTAA AAATCTGTCG TTTGGTGTAG CCACCTTCATCATTGATCTT ACCTAGATCC GCTGGATAAC TTACCACAGT GTCTACATCA TTACTTCTGC TTCACCTTGC ACTTTTATGTTATGGGGATG GCTCCTTTCC TCTAACCTCA TAAACTAACC TCCACTAGCC TCACATTCTT CTTTTACAGC TTCCTCGCCTCTCTCAGAGT TCACAGAATT GAAGAATGTT GGGCCTTGGA TTACACTTTG GTTTAAGGGA ATGCTGTGGC TGGTTTGATTTTCTATCCAG AACACTAAAA CTTTCTTCAT ATCAGCAATA AGACTGTTTC ACTTTCTTAC TATTTTTTGT GATAGCACTTTTCCTTTCCT TCAAGAATTT TTCCTTTCTA TTCACAATTT GACCGTTTGA TATGAGAGGC CTAGATTTTA GCCAATCTCAGTTTACACCA TGCCTTTTTC ACTAAGCTTC ATCATTTTAG CTTTTTATTT AAAGTAAGAT GTGTGACCCT TCCTTTCATTTGAACACTTA CATGATGATG CCTGGCTTCA AAGCTTGAAA GGACAGGCAG ACTCTCTTAT TAGGGGCTAACACAGCTGGC GACTTTTAAG TTGAAGCCAA TGCTCAATTT GCCATTAGAA GCCATTGTAG GGTTAATTAA TTTGCCTAATTTTAATATTA TGGTGTCTCA GGGAATAAGG AGGCCTGAGT AGAGGGAGGG AGATGGGGAA ACAGCCAGTCATCAGAGCAC ACACAACATT TATCAATTAA GTTTATCACC TTGAGGGCAC AGGTCATGAT ACTTCAAAACAATTACAATA ATAAAATAAA AAATCATTGA TCGCAGATCA CCATAACAGA TATAATGATA ATGAAAAATTTGAAGTATTG TGAGAATTAC CAAAACGTGA CACACAGACA CAAAGTGAGC ACATGTCATT GGAAAAGTGGTGCTGATAGA CTTACTTCAT GCAGGGTTGC CACAAATACT CAATCTGTAA AAAATTCAAT TATCTACATA GTACCATAAAAACAAGGTAT ACCTGTTTAT ATAATCAAGA CCAACAGAAC CCTAGAGAAA ATAGCTCACT CCCTAGCTCGGAGACATTCT AACCAACATA CACTTACCTT TCTTTTTGCT GTGTACAGAA TTCAAATCCC TGTCTCAGCA AAATTGCAAAGTATCAAATG TCATGTCCAT CTAATACTCA AAACTGCAAA TGTTAAGTCT TGTAAGCCCA GAGACCACTGTATATACAAG TGTTGCTATA AGCATTAGTT CTTCTCCAAA GAAAATAGTC CACTTGGTAG AAACAAACAAAAAGAAAAAA AAAGAAAGAA AAAACATTTT TTACAAGAAG ATTCAGTCTC TTACCTACAT AAGCAAAAATATGAGATGTT CTCTTATCAT TTTTCCATCT ATCTTATAAT CTTTGGTGCT GACTTAGACA CTCATTTTCC TTTTTGTACGTGACCATGTA AAAGTTCAAG TCAAGAAAAA CTTGTTTTGA CATTTGTTTT GCTGAGTGAT GGGTCCCTAA AAGAAATTTGGCTTTGCTTT TGAAAAGTTC AGCATGATAT TGTGTGAATT TTTCATGGCT AATGATTTTT AGAACAGTTG TGATGTGTTTAGGTGTTTTA AGAATATGAA GCATTCAGTG GTTTAAGTTG GTTGTTATAA AATGAAAGAA TATGAAGGAAAGCCTTCTTG TCTTAGAACA CACTGATTCA CAAATAAGCA GCTTCTCTCA AAATGTTGTA ATTACAAAAA TTCCAAGGCAAATATAATAA ACTCCTTGTC GGTGCTATGT CTAGAAACTT AACAGCCCCA AAGAAAGTCC TGACAAGGCAAAAAATATAT ATATATATAC AAATTGTGGA AGCAGGGTGT TGAAAGAAGA ATAAAGACTA TATAAGGACAAACTGTTTAA AAGGGAGGGT ATCCTTGAAA GCTTGACACT TGACTCTTTT GACGAGGCTG AGGGAAAACACTCAGTTTCA TAGATTGCTG GTACGGATGT AAAATAGTGA CATCCCTATA GAGAGGAATT TGGCAATATCTAGCAAAAGT GCTTATGCAT TTATTCTTTG ACCTAGTAAT CCCGCTTCTA GGATTAGTGG TGAAGATACA CCTCAACAATAAAAATATAT ATACATTAGG TTATTAGTTA TGGTTTAATT TTTAATAGCA AAATATTTAA AACAACCTAC ATGAACAAATAGGAGACTTA CTGAATAAAC TATGGTATAT CTGTACAATA AAGTGCAATT CACTTATGTT GTTAATTTGT TCCAAAAATCCAGAGCCAAA GAGTATTTGT TATGCTCTCT TTAGTATAAG AAAGGGGAAA TAAGATATGT GTGCATCTGT TTATTTTTGTGAAAATAAGT ACAGAAAGGA TAAGTAAGAA ACTAGTAAAA CTAGTTATCT CCTAGTGTTA GTAGAAATAGAATGAAAGTG AATTAGGCTT CTTTGAGTAT ATGTTTATAT ATAGTTTTGA CTTTTGAATT ATGTTTATGT TTACATAGTCAAAAATATAA ATTAATCAAC AGAAATAACA AAAAAAGAAG AAATCACAAG CTTTAAAATT TAATACAAACAGAAATAATT GAATCTAACA GTATATCAAA GTGATAACGT AAACTCAGAA GAAAAAAACA TAATCCAACATACCAGTGGA ACACAATATT CTAACTGTAT ACATTCAGTG GTTATAGTCT AAGGACAAGA AAAATTGCAAAAATATCTTG AACTTTAGCT TGTAGGATTT TTATTGGTAG CAATACTAAT GTACTAATTC TGAAATTAAT GTTCGTGTATTATAGAATTG AGTAAATGAA TAAATATGTT GATGTTATTG GGAACTAAAA TTATCATTCT GGGAGTAGAGAAATATAAAT ATGGACTTGG CAAATGAAAC AAAGACCTGC AGAGAGATAA CCATATAAAC TCATTATTTTAAAAATTATA AGTGTCCTAG CTCTGTTACT GAAAAGGCCT AGATTCAATC TTATCTTGAT AGACAGGAGG GCACCCCTTTCTCAGAACAT GGTTTCCAAA TGCCATTCTC CATTAAAAGG AACAAGGTCT TCTTGGAGAA AAGACTGATTCTAGGTCTGG ATTAGGTAAA GTACAACGTT AGTCTGGAAT TTCTTGCTGA ATCAGAAGTA AGAAAGTGCTCAAAAACATG GGAACATGTC ACAAACACAC GTGAGGCAAC TTGAATCCTC ACTGGCCATA TTTAGGACAATCGAGCATCA AAAAAAAAAA AAATGTTGAG AATAATGGAT TCTAACACTT AAAACAAAAA ATAATCCATAGCCCACAGAA GGGGAAGAGA GGGGGAGCTC TTATTTACAG ATGAATATCA AATAGCAAAG ACAGAAGAAATGACAGAATT AGAGAAACAT CATTTTGCAA AACACCACTG TAATAATCAA TTCAGGCAAG TATTATTAATGGATGTATTA CTATTGCGTA AAACCAGTTG GGGAACAGGA TATTCATACA GTCTGAAGGT GTCACCCTAAACATAACTTA TTACAAGTGG AAAATGGTGC CTTTACAATG AAGAAATCTA GCAGAAACCA TCTTAATCTAGTGATCAAAC TTAGTATCAC CAATAATGGA TCATACTGAG TCATGTGTCT CCTAATATGA TGCACCAGGAAGGATGCAAC GTCATGAACG TTGTATTCTT TTGTATTCAA CAGACCACCC AGGGTAAAGG CAGCTTTCTC ACTTACTAATCAGAATTGTT GGTTTTAATT CATTTTGGAT TTTAAGATTT CTTACTTTCT TGTCAGCTCA GAAATTTATT TAAGATGATTTTTATCTTTT ATTCAATACT TTAGCTTGGA GAACCATTCA GAGTTTCTAA CTCATTGTAT TGCCAAAAAT AGAAAACAGCATGGTTTCTT TTGAAAATGT CTAACTTTAA AGTTACTTGT GTGTGTCACT CAGATTCACA TAGCTTTTTT GCCTAGTAATGTAGTATCAT GTGGCAAGGC TATAAAAATG TTTACAATCT TTTATTTAAT ATGACTCTTG AGAGTTTATT CTAAGGAAATAATTGAATAG TAACAAAACA CTATTAACAC AAAGCATAGC AATTTGATTT GGGCAACCAA ACACTGGAAACAACCTAAAT GTCCATTACA GGAATCATTT ATGAAGCAAA CACTAAAATA TTTATTGTGA AGATTATGAGAACATAGAAG ACAGTTATGA GAGTAAATTT GAAAACCTGA ACACAAAACT TACATATACT CCAATTGTAACTTATAAAAA ATACGTGCAT ATAAGGATAA AACAGTACAA ACAAAAAAAT AGTTGCGTTA GATTGGTAGAATTATGGCTC CTTTTGCTGT CTTAATTTTT TCCTTTTACA TTTTGATACA TTATTTTAAT TTTAATTTTA AAATTCAAAAGAATTTGCCA CTCATCTTTG CCACTTCAAG GAAAAAAGAA ATGTGTTCGA TTATTCTGTT CTTAGTATAG TTTTGGCAATTTCCTCACGT GTAAAAAGAG AATACTATTA ATAATTTCAG TATCTATAAG ACAATATAAA ATTAAAGAATCTAGCCCAGT AACTGGTACA TGGAACGTAA TTAATAAATC ATTATGGACT TTTTTTCTCA CACCCAAGTAGGGAGGAATC AGTGGTCCCC TAGAGGCCCA GTGTAGAGGT GGCAGCACCA ATCCCTAGGG GAGAAGATCTTGGTGATGAT AATTCCTGAG CAGACAGTTA GCTGAGAATT CAAGAGCAGA AAAGTAAGAA AGAAACAACTTCTTGCTAAC ACCTTTCCAC CCACGTTTCC CTGTTCTGTT GTACTCTGCT TACCCTTTCA TGGATGGAGG CAGAGGAAAGAGAACCAAGT TTGCTCTTAG TCATTCACTA TGTTGTTTAA TCTGCCTTCC ATCTTTCTTA TCAGTTCAAA TTAGAATGTAGACCTGAATT TAAATCCCCG TTCTGTCAGT TATAATGTGA CCCTAGACAA AACACATTCT CTGAACCTCA GAGAACATTCTTCATTTGTA GAATGGGAAG ATTAATCTAT ATTCCACTTG GATGGCAAGT CTTTTATAAA CTTTATAACC TAAACATGTGTGAGTTGCTA GTATCATTAT GTTGGTAAAG TTATTCTGAG ATATGATAAC AGAACTGTTT TGTCTAACTC CACTAGCATGGTTCAGGTTT AGAGAGTGTG GAATTAAAAG GCTTTATCCT CAAATATGAC TTAAATCCGA TTTTTCTCAT CCACTTTCCTCCACAAACAA ATCCTCAGGA AATGACAAAC TTTACATGGT TAAACATCAG TTTTGTTTAG TCTTTGACAT CCACATGGTTAAATCATACA TTTGAAAACT GCTTATATTT GTGTTGTCTA TGTCTAAATT GAAAAGACTT ATTGAGGAAT AGAAGACTACACATTTTTCA GCAAACACTG CACGTTTTGC AGAATTTCCC CAGGCACCAG TCTCCAGGAA TTTATTGGCT ACTAACAATACTAAGATATG GATGAATGAG GAAATCAAAA TGGAGATCTT GCAAGTTTTG TGAGAATGGG TGAATGGTCCAAATGAAGAG ATAAGTTGTG AAATATTAGT ACAAGTAAAA ATTATTTACA ATGAAAGACA TTTTGTCAATAGCTATGAGA ATTTTACCAT TGACCCAGAA ATTCCATTTC TTTCTTCAGA AATACCCACG TAGGTATACA TATAAAAAGTTATTCATTAC AGTATCGTTT TTCATAGGAA AAAGTTTTAA AAATCAGAAG CTATCTAAAC TATGGTATAT CTAGGTCATAGAAATCAAAT GACTAAAAAT GTTAATATAA GCATATGTTT TTAAATTAAC TTGGCTTGGG TCTTCAGCAA AATTGGCTTCTTAACATTGC ACTCCAGAGT TAGACTTACC CACTCAGTCA CTTATCATGC AGGAGCAGAC TCCTAATACC ACATATCATAGAGCAGAGTA GGACACAGGT TCTCTGCAGG CAGGCAAATC CCAAAGAGAA GGGAGGAAAG GGCTGAGACACTGCATGGTC AATTTCTTCT GAACTCTGCA ATGTACGGAG GTGGACAGTG TCCACAAAGA TTGCTCCCCTGGACCCACCA TCATAATAAC ACAACGGCTT TGTTTTGTTT TTGTTTTTGT TTTTTGACAC GGAGTTTTGC TCTTGTTGTCCAGGCTGGAG TGCAATGGTG TGATCTCGAC TCACCACAAC CTCCACTTCC TGGGTTCAAG TGATTCTCCT GCCTCAGCCTCCTGAGTGGA TGGGATTACA GGCATGCACC ACCATGCCCA GCTAATTTTG TATTTTTAGT AGAGACGAGG TTTCTCCACGTTGGCCAGGC TGGTCTCAAA CTCTTAACCT CAGGTGATCC ACCCGTCTTG GCCTCCCAAA GTGCTGCGAT TACAGGTGTGAGCCACCGCG CCCAGCCCAC AATGGCCTTT TGTTTACATC TCTAGTGCAG CACTCATTTC ATGTTCTTTC AAGAAGAATACATATTTCAT CTTTTTATTT TATACAGCAA TTAGCACAGT GCCTGGCATA AGGAAAATGA TCATTAAAAG CTGGGTGAAAAACCTAATAA AGCTACTGAG GATAGGAACT GCAGACCAGC ATGGAAAGAA AACTATGAGC CAGATATTGACATCATCCTG AAAGGCAGAA GATTTAGTAT AGGCAAGAAG TATGCTTTTG GAATATAGAA AATCTGGATTATGATAAGAA AAGAATCATA TTTGTCTTAT CTTACCTACT CACTTCTCAG TTCCACATGT TTCTGAGGCT GTTTGTCCTTACTTTCTTTT CTGTTTTATC CACTCTTTCT GTTCTTTAGA TTGGATCATT CCTATTGAGC TGACATCAAG TTAACTGACCTTTTATTTTG TCCAAACTGC TGTTAAATGC ATCCAGTGAA TTTTTAACTT TATATAGTAT ATCTTTTAGT CCTAGAATTTCCACATGAGT TTTTTAAGTT TCCATTTCTC TGCTGAGATC TCCTATTTGT TCATTCATTA TGACCATATT TTTCTCTACATTATTGAGCA TAATTATAAC AGCTCTTCTA AAATTCTTGT CTGCACATTC TAACACCTGA ATTATTCTGG GGTCAGTCTCTGTTACATTG CCTTATTACA AAAACAGTAT AAGTCACATT GCCTTGTTTC TTAATATGCA AAATGATTTT TGATTGCAGACTAGACATTT TGAATTAAAC ATTATAGAGA TTCTGGATTC TCGAGAGAGT ATTGACTTGT TTTTTCCATC AGGCAGGTAACTTGACTGGA CTCAAACTCC AAACTCTAGG TCCTCTGTAA TGGGCAACTG CAGTAATCTT TGTTTAGTTCTTTAAGACTTATTGGCCAGG CACGGGGGCT CATGCCTGCA ATCCCAGCAC TGTGGGAGGC CAAGGTGGGA GGATCACCTGAGGTCAGGAG TTCGAGACCA GCCTGGCCCA CATGGTGAAA CCCTGCCTCT ACTAAAAATA CAAAAATTAGCCGGGTGTGG TGGTGGGCGC CTGTAGTCCC AGCTACTCAG AAGGCTAAGG CAGAAGAATC ACTTGAACCTGGAAGGCAGA GGTTGCAGTG AGCCGAGATT GTGCCACTAT ACTCCAGCCT GGGTGACAAA AGCGAGACTCCCTCTCAAAA AAAAATTTAT TGGCACTGCT TGGCATCTGC TATGAATACA TGAAGTTCAT GGGTCAGCTA TAGATCTGGGCACGTTATAC ACAGAATTTG GGTCTCCCTT TCTCTGGATT TCTCCTTTTC TGGATTTCTT TTCTCATTTT CCAGCAGCTGTGGTTGCCCT AAACTCGGTC CTCTGTTTCT TTACGGCAGT AAGATTTGGG AACTTTTAGG TTTTACCTGC CTCTCAGACAAAATAAAAAA TAATTTTCAT CTTGATGCTA CTCCTTTCTT CCAGATGTAG ACACCTCTCT AATTTCCAGT TGCTTTTTATTGCTCTCCAG AGTCTAAAGA TTATCATTGT TTTCTGTGGG AGAGTTGGTC TGATAAAAAC TACTCCCCCA AAACTGGAAGCTGGAAGCTT GTAATTATGA ATAGACTTTG AGTAGTATTC TTCTTTGGAA AAGGATTTTA ACTACTCCCT ATGTACTTCTTTATTTCCTG TTTTTCTCAT CCGTAATCTT TTTATTTTCA TACTTCCTAA GTCAGACAAT TTTCCTACTT GAAGATTCAGTGACTGCTAT CAAATGACCC CCATATTACT AAATACAATA TCCCCAACTG CATTTATAAA AAGAAAATTT ACTGTTTATTAGTAAACAAT GTTGTAGAAT AGTAAAATAT TGCTGGGCTT TGGAGCCAGA TAATCAAGGT TAGAATCCCAGATTCTAACT TACTAGCTGG TGTATTAGTC CTTTCTCATG CTGCTAATAA AGACATACCC CAGACTGGGA GACTGGGTAATTTATGAAGA AAAGAGGTTT AATTGACTCA CAGTTCAGCA TGGCTGGGGA GGCCTTAGGA AACTTACAGTCATGGTGGCA GCAAGGAGAA GTTCCAAGCA AAGAGGGAAA AGCCCCTTAT AAAACCATCT GATCTTATGAGAACTCACTC ACTATCACGA GAACAGCATG AGGGTAACTG CCCTCACGTT TAATTACCTT CCACCAGTTCCCCCCCATGA CACATGGGGA TTATGAAAGC TATAATTCAA GATGAGATTT GGGTGGAGAA ATAGCCAAACCATATAATTC CACCCCTGGC CCCTCTCAAA TCTCATGTCC TCACATTTCA AAACTCAATC ATGCCCTCCC AACTGTCCCCCAAGGTCTTA ACTCATTCCA GCATTAAGTC AAAAATCCAA GTTCAAAGTC TCATCTGAGA CAAGGCAAGTCCCTTCTGCC TATGAGCCTA TAAAATCAAA AGCATGTTAG TTACTTCCTA GATACAGTGG GGGTACAGGCGTTGGGTAAA TACACTGATT CCAAATGGGA GAAATTGCCA AAACAAAAGA GTTACAGACC CCATGCAAGTCCAAAACCCA ATAGGGCAGT CATTAACATT AAAGTTCCAA AATGATCTCC TTTGACTTCA TGTCTCACAT CCAGGTCACACTGATGCAAG AGGTGGGCTT CCAATGGCCT TGGGCAGCTC TGCCCCTGTG GCTTTGCAGG GTATAGCCTG CTTCCTGTTTGCTTTTTCAC AGGCTGACAT TGAGTGTCTG TGGCTTTTCC ATGAGTATGG TGCAAGCTGT TGGTGGATTT ACCATTCTGGGGTCTGGGCC AGGTGCAGTG GCTCATGCCT GTAATCCCAG CACTTTGGGA GGCTGAGGTG GGGGATCACAAGGTCAGGAG ATCGAGACCA TCCTGGCTAA CACGGTAAAA CCCAGTCTCT GCTTAAAAAA TACAAAAAATTAGCCAGGCG TGGTGGTGGG TGCCTGTAGT CCCAGATACT TGGGAGGCTG AGGCAGGAGA ATGGCGTGAACCCAGGAGGT GGAGCTTGCA GCGAGCTGAG ATTGTGCCAC TGCACTCCAG CCTGGGCGAC AGAGCAAGACTCCATCAAAA AAAAAAACAA AAAAACCATT CTGGGGTCTG GAGAATGGTA GCCCTTACAG CACCACCAGGCAGTGCCCCA GTGGGGACTC TGTGTGGGGG CTCTGACCCC ACATTTCCCT TCTGCACGGC CCTAGTAGAG GTTCTCCATGAGGGTTCTAC CCCTGCAGCA AACTTCTGCC TGGACATCCA GGCATTTCCA TACATCCTCG GAAATCTAAGCCGCGGAGGT TCCCAAACTT CAATTCTTGA CTCCTGTGCA CCCACAGGCT CAATACCACA TGTAAGCCACCAATGCTTGG TCAGGGCTTG AACCCTCTGA AGCAATGGCC TGAGCTGTAC GTTGACACCT TTTAGCCTAGACATCTAGGA CACAGGGCAC CATGACCCGA AGCTTCATAA AGTGGGAGGG CCTTGGGACT AGCTGAGGAAACCATTTTTC CATCCTAGGC CTCCAGGCCT GTGATGGGAA GGGCAGCCAT GAAGGTGCCT GACATGCCCTGGAGACGTTT TCCCCATTGT CTTGGTAACT AACATTCAGC TCCGTGTGCA GCACCAACTT ACTTATGCAA ATTTCTGTCACTGGTTTGAA TTTCTCCCCA GAAAACAGGA TTTTTCTTTT CTATTGCATC ATCATGCTGC AAATTTTCAA ACTTTTATGCTATGCTTCCT GTTGAAGACT TTGCGGCTTA GAAATTTCTT CCCCCAGATA CCCAAAATTA TCTCTCTCAA GTTCAAAGTTCCACAGATAT CTAGGGGACA AAATGTTGCC AGTCTCTTTG CATAGCAAGA GTGACCTTTA CTCCAGTTCC CAACAAGTTTCTCATCTCCA TATGAGACCA TCTCAGCTTG GACTTAGTTG TCCATGTTAC TATCAACATT TTGGTCAAAG CCATTCAACAAGTCTCTATG AAGTTTCAAA CTTCCCCATG TTTTCCTGTC TTCTAATAGC CCTCCAAATT TTTCCAACCT CTGTCTGTTACCCAGTTCTA AAGTCACTTC TACATTTTTG GGTATCTTTA CAGCAGTGGC ACTCCCCATG GTACTAATTT ACTGTATTAGTCTGTTCTCA TGCTGCTAAT AAAGACTTAC TCGAGACTGG GTAATTTATA AAGAACAGAG GTTCAACTGG CTCACAGTTCAGCATGGCTG GGAGGCCTCA GGAAACTTAC AAACATGGTG GCAGCAAAGA GAAGTTCCAA GCAAAGAGGGAAAAGCCCCT TATAAAACCA TCAGATCTTG TGAGAATTCA CTATCATGAA AATAGCATGA GGGTAACTGCCCCCATGATT AATTTACCTC CCACAGGGTC CCTCCCATGA CAGGTGGGGA TTATGGGAAC TACAATTCAAGATGAGATTT GGGTGGGGAC ACAGCCATAC CATGCCAGCT AGAGAGCCTT AAGAAAGTCA CCTAATCTCCACAAATAAAA GGTTTCCTAT TTGTTCAACA AAAATAATGA CACCCCTTTT ATGGGATTTC TGTGAGGACA AATGATAACTAACATAGCCT TGCATAGTGT CTGGCACAAA ATAGCTACTC AAAAAATAAT AGAAACAACA TTTAAAAAATGTAGACTTTA TTTTTTAGAG TTTTATGTAC AAAGCAAAAT TGAGCAGAAT GTACAGAGAG TTTCCGTATA GCACTCCCTACCCCCAAGCA CAGATAGCCT CCCCCAGTAT CAGCATCCCG CACCAGAGTG GTACATTTAT TATAACTGATGAATCTATAT TGACGTGTCA TTTTCATCCA AAATCCATAG TTTATATTAG GGATGCCTCT TGGTGTTGTA CCTTCTATGGGTTTTGACAA ATGTATAATG ACATGTATTC ACCATTACAG TATCATAAAG AATAGTTTCA CTGTCCTAAA AATCTTTGATCTTCTTCCTA TTCATCACTC CCTCCCCATT AATCCCTGAC AACTACTGCT AATTTTCCTG TCTCCATTGT TTTGTCTTTTCCTGAATGTC ATATAGTTTA AATATACAGT ATGTAGGATT TTCAAACTGG TTTATTTCAC TTAGTAATAT GCATTTGATGTTCTTCCATA TCTTTTCAAA GCTTCATAGT TCAATATTTA TAGAATTGAA TAATATTCCA TTGTCTGGAT GTACTACAGTTTATGTATTC ATTCACCTAT CAAAGAACAC CTTGGTTGCT TCCAAGTTTC AACAATCATG AGTAAAGCTG CTATAAACATCTATGTACAT GTTTTTTTGT GAATTGAACA TTTTCAGCTT TTTTAGCTCC ATTCCTAGGA GTGCAATTGC TGGATTGTATGATAAGGGTA TGTTTAGTGT TGTAAGAAAC TGCCACGCTC TTCCTAACTG GATGTACTGT TTTGCATTCT CACCAGCAATGAAAGAGTTC CTGTTGCTCC ACATACTCAC CAGCATTTGG TGTCGTCAAT GTTTTGAGCA ATAGCATTTT GATCTAACTTTTCCTAGGTA TTCTTTTTGA AGGAAATAAT ATGACAGATA ATAGAGAAAG GATATACGAG GACAGTTCTG TCCTTTATTTATAGTCCATC ATTTAATGAA GGACTCTGTC CACACTTGGT ATTTTTAACT CTGATCCTCC TCTCCCATGA ACTCTGACAATCTCCTAAAT CCCTGTTGCT GGCACACATG GTTGTGTATC AGGCCCCCTG TGGTCTGTCT GAAGCATGGC TTTTTTTTTTTTTTTTTTTT TTTTTTTGAG ACGGAGTCTC GCTCTGTCGC CCAGGCTGGA GTGCAGTGGC GCGATCTCGG CTCACTGCAAGCTCCGCCTC CCGGGTTCAC GCCATTCTCC TGCCTCAGCC TCCCGAGTAG CTGGGACTAC AGGCGCCCGCCACCACGCCT GGCTAATTTT TTGTATTTTT AGTAGAGGCG GGGTTTCACT GTGTTAGCCA GGATGGTCTC GATCTCCTGACCTTGTGATC CGCCCGCCTC TGCCTCCCAA AGTGCTGGGA TTACAGGCGT GAGCCACCGC GCCCGGCCTT TTTTTTTTTTTTTTTTTTTT TTTGAGATGG AGTCTGTCAC TCTGTCACCC AGGCTGGTGC AGTGATGCAA TCTTGGCTCA CTACAACCTCCATCTTTCAG GTTCAAGTGA TTCTGCCACC TCAGCCTCCC AAGTACCTGG GATTACAGGT GCCCGCCACC ACACCCAGCTATTTTTTTGT ATTTTTAGTA GAGACGTAGT TTCACCATGT TGGCCAGGCT GGTCTCATTC CTGACCTTGA GTGATCCACCTGCCTTGGCC TCCCAAAGTG CTGGGATTAC AGGCATGGGT CATCACATGT GGCCTGAAGC ATGACTGTTG CTTTAATCATATGAAATACT GCTCTGTATT GTTATCTATT TGAAATGCCA CACCTCCTGA GCTAAATTGC AAGCTTTTAT GGAGCACAAACCATATTTAT ATATATTAGC ATGATACCAT GACACATATC AAAAGCTGTT ATATATTGTT ACGTGAATTG ATTCTTTCTCAGTTAAGAGG ACCTCTGTAG TAGCACTTTC ATACCGTTAA TTTTTCATTT TGTGCCCAGC CCCTACTCTG TGAAAAATGAAATGAATCCT GTTATCATTT CCCTCCCAGG CCTTTTCTCC TTGTGGACAA TGTGTGGCTC AAGAGAAAAT TCAGTCAGTAAATTTGTTCA GTGCACAAAC TCTTTATCAC CTCTCACTGT TCTCAAGTGA GATAGAACAG AACATCCATC CAGTGTCTTACAAATTGTCT GGTATATAGT AGGCACTCAA TAAATGTTTT TTGAATAAAT GCATACATGA ATCCTATTCC TATATATAGTATGGTAGACA GATCATTGAT ACCCAAAGAT GCCCAAATGC TGATCCCCAG AACTTGTGAA TATGTTACATTTCATGTCAA AAGGGACTTT GCTAATGTGA TTAAGGATTC AGACCCTTGG ATTGTAAGAT TATCCCGGAT TAACCAGGGCCAATCTAATC ACATGAGACC TTAAAAAAGC AGAAAACATT TCCCAGCTGG GTTAGAGAGA GATGAGACAGAGTAAAAAGG AAAGAGATTC AGGGCATGAA AATGACTCTA CCCACTGTTG CTGGCTTTGA AGATAGAGGAACTAGGCCAC AAAACAAGGA GTATGAGTGG CCTTAAGAAA TAGGAAAAAG CCCTCATCTG ACAGCCAGCTAGAAAGCAGT CCTCTGACCA CAAGAAATTG GATTCTGCCA ACCACTCAAA TGAGCAAGGA AATGGATTCTCCCCTAGAAC CTCCAGAAAG GAACACAGCT CTGTAATGCC TTGATTTTAG CCAGGTGAGA CCTGTTTCAG ACTTTTGACCTATGGAAATA TAAGATAATA AAGTTTTATT GTATGCTGCT AAATTTGCGG TAGTTTATTA CTGAAGCAAT GGAAAGCCAATACAGACAGA ATATACAGAG AGAAAGAGAA TGAGTTCTTT CCTGATAATT TGTAAATATT TGGGTCTTCACTGGACAAGC TTCACAGAGG ATTCACTGGT TCCCTAGCAA ACCAGCATGT CCAGTCCTGC AGCCTCCCTT TCTTAGGCCCAGCATATGTC AGCTGTGTGC ATAGAAAAAT CAAAGCAGGA CCCTGAGTAG TTGGAAAGAA AAGATGGTTGGAAATGGGTT GCACTTCAAG TGAGGAAACA AGAGGTAGGA GACCGGCATC TCTTTCTCAT ATGTCCCAGGCTGACTCTTG TGAGTTGTTT TCCCTTGGAG GCTATCGATG ACAGTCACAG TAACCTGATG GAACCTGGAT CATGATGAAAGAAGTAAGTG TCAATGGCTC CGACTTCCAA GGACTCTGAT GTCCCACAGC ACTAGCTAAA CAAAGCCAGTTGGAAATGAG CTTAAATGGG GAATTTCCTG AATATATTCC CTATTGTTAG GAAGCCAGGT TGGCTTCCTT GCCTACAATTATGCCAAGCA GTCACACTAT AGAGTCCCTA GGGACATGAT ATTAAGTGAT TCTTTTAACA CAAACAACTTAATAATCATT TATACTAATA GCAAAACGGC CAACGGCTGA TATTCCACTT GAAGTAGAAT TGGCTATCCAACTGGAAGAG AAGACAGGAA GACGTGATCT CCAGGGAGCC ACTAAAAGGA TTGGCACCTG CCTCTGGATTCCCCTTTTCC TTATATTACC TCTCAGCACT GGCAGGCCTT TATTTCAGGA TACAGTTTCA CAAGTATTAT GTCACGTCTCTGAGAATTAT GTTGGTAGAT ATTTGCTCCT CTGGCCAGAA AGACCTAGTT TGGAGTCTGG AGTCATGAAGGTGACATACA TGTAGCTAGT GACATAAGTG TAGCTAGTAA AAATAGTGAG TAATGGCCCT GAAATTCTATTGAATGCCCA AAGTGCTGAC CAGGAACAAG CATGCTCTAG CTTATCTCAC AAGGAACTTG ACAATTTTCTTCAAAAATCC TAGTAGCTAA GATTTCTTAG TAACAAAGCC ACTAAGGCAC AATTATGATT AACTTGACCCTTAGGTGACT TTTAAGGACT ATTCTATAAA ATATTACAAC TAATAGTGGA TCCAAGCCAG CACACTCTGC TATATAAGATTAATTGACAG TGTCCACACT GGTAAAATAA GTTGTTTCAT AAATACATTA GAATTCATTT GCACTTTCTA CACAGCCCCAAGTCCAGAAC TTTCCCCAGA ATAGGTCTAT GTTTTGCAAT CTGCTACTCC ATACAGAGAT TTGAGTTCAC TTGGCAATTTAGTGCTGCTT ATATGTGACC AGTTAGTCTG TTTTACTTAT CTATGCCTTA AACATTACTA TACTTACTAA CTCCAAGATGCCTGGTCTCA ACTTGACAAA AATACCCCAA GTTGGGAAAT CCTTATGTGA ATATGTAGAT AGTCACAATT GCTGGTTGATGATGATCTGT CTTTTCCTGT ATTTGAGAAA ATGGAGATAA AATGGACCAA TCCAAATAAT GGATTAAACATGGGAATAGG TGAGAGAGAG AGAGGAATAC ATGGTGGCTC TCAGTGTCTG GCTTAGGCAG TAAACACTTTCGTTAATAAA GACGGAAAAT AAAAAAGGAA TAATTGGTGT CTAGGGGAAA ATAATGAGCT CAAGTTTTAACACTCTGAGT TCCCGGATGT GAGACATCCA GGCGCATTTA TCCAAGAGGC AGTTGGAAGC AACGTTCCGGAGCTTAGGAG AGAGGCATGA CCAAAAGCTG GTGGGACTGT GAAAAGGTAT GGCCATTCTG GAAAACTGTTTGGCAGTTTC TTAGAAAATT AAACATGTAC TAACAACCCA GCAATTGTAC TCTTGAGCAT TTGTCCCAGATAAATGAAAA AAAAAAAAAG CATTTTTTTT ACACAAAAAC ATATACATGA AAGTTCATAG AAGTGTTATTCATAAAAAAC TGGAAAAAAC TGAGATGTCT TTATTGAGTG AATGCTTAGG CAAACGGTGG TCTATCCATACAATGGAATT ATGCTTAGCA ATAAAGAGAA AAGAACTATT GATACATGCA ATAACACAGA TGAATCTCAAAGGAATTAAT GCTGAGTGGG AAAAAAAGCA CATCTCAAAA TGGTATATAC TGTACTATTT TATTTACTTA ACATTTTAAAAATAGCAAAA TCATAGAGAT GGAGAACAGA TTAATGGGTA CTGTGTTTTG GGATGGGGAG TGAGAAAAGGGTAAGGTGTA AATATAAAGG GGTAGCACAA AAGAGCCTTG TGGTTGAAGG ATTCTATGTC TTGGTTGTAGTCGTGATTGC AGGAATCTAC ATGTGATAAA ATTGTATGGG TCTACATACG CATACACACA AGAGCATATAAAACTGGTGA CATGTGAAGA AGCTCCGCAC ATTGTGCCAA CATCAGTATC CTAGTTTCAA TATCAGACTACAGTTATACA AAACATTGTC ATTGAGGGAA ACTGGGTAAA GGGAACACAG GACATTTGGC ATATATTTTTGCAATTTCCT GTGAATCCGT AATTATTTAA AAATAACAGA TATACTACAT ATCAAAAATT TAATGTCATA AAGTTGATGAGTTTACCTAG TGGATAGCTT TGTTAATATC TGCTATAAGA CTACTGAAAA TGACAGTTAT GCAAGTATAAGCTCAGAGAA CTTTCCTCCC CCTTCGTAAA TGAAATGAGC AAAAGAAATG AAACAGGAAA GGCAAGCAGTACTGAAAACA GGGAAGGGCT CTTCCCCATA TAACTATATC TGCGACTTCA ACAGCTATTC ATCCAGAAACACAGCCTCTT GCGCTAAGAG GAAACTTTGG ATAACAATAT GTTTTCACTC TCCAAGAGAG AAAATGGATAGATTAATTTT TAAGAAAAAA AAAAAAACCT CACCAATTTC ATGCTGTGGC TTGCACCTTT AATCCCAGCTACCTACAAGG CTGAGGTGAG AGGCTTACTT GAGCCCAGGA GTTCAAGGCT GCAATGAGCT ATGATTGATTGTGCTATCGC ACTCCAACCT GGAGTACTAA GCTAAGAGCT AAGAACACAG CTGAGAGCGG AGAAGAAACAAACAAATCTG ACCAATAACC CCCACTCCCC TCATTTTACT GGAGTGAGCT GAGACTGCTG GCAAACATGGCCTTTGACCT AGCCTGAACT GTAGCAAAAG TCATCAGATA TTTTTCCACC AATCAACAGA CAGAAGTGGGGAGAAAACAA TCGTAGTTCA TAACTACAAC AAGCAGATAA ACGAAGGCCA TGGTGAGGGA TGGAAGACATTGTGATATAT CAAAGGCAGG CTCATTTAAA ACTCAACCCA AATTCCAAAC AAAATATATA ATTGAATATGTATTAATGCC AAAGGAGCTT GAGTGAGCTT TAGCACAAAC CCCGCCCTCC AGCCCCCACC CAAAAAAATCACTCTGTTCT CTCCCCATTC TTTGATAGGC ATACTTGCTG TTTTCTCACA GCCAAGGTAC AGAGGGGACT TAGAGGAACTAGAACTCTAA TACACTGCTA GCAGGAATGT AAAATGAAGC ATCTACTTCA GAAAACCATT TTATCAGTTTCTAGAAAGTT AAACATAGAC CCACCATGCA GCCCAGCCAC TCTACTCCTA AGTATTTACA CAAGAGAAATGAAAACGTGT CCCCACACAG TTGTATTTAA AGGTGATGGT TAGCCTTGTG TGTCAACTTG GCTAGGCTAT AATACCCAGTTACTGAATCA AATAGTAATC TAGGTGCATC TGTGAAGGTA TTTTGTAGAT GTGGTTAACA GCTACAATCT GTTGACTTCAAGTAAAGGAG ATTGCTCTTG ATAGTATGGG TGGGCTTCAT CCAATCAATT GAAGGCCTTA AGAGCAAAAAGTAAGGTTTC CCGGAGAGAA AGAAATTCTG CCTCAAGACT GCAGCCTCAA CTCCTGCCTG AGTTTCCAGTCAGCCAGCCA GCCTAAAGAT TTGCTAGGCA TTATAATCAC ATCAGCTAAT TTCTTAAAAT AAACCTCTTT ATATATATTGATACAATGAA TGGTTATAGC AGCCTTATTT GTAATAGCCA CAAACTGGAA ACAACCTAAA TGTCCTTCAATAAGTGAATA CATAAACAAA TTGTGGTATA TCCACAATTT TTACGCAGCA GTAAAAAGGA ATAAATGGTTGAATAAGGAA TAAACACATA ACAAGGATGA ACCTTAAAAC CGTAAGGCTG AATGGAAAAA GTCAGACAAAACTAATACAT ACTGAATAAT TCCATTTATA TTGAAGTTCT AGAAAATGAG GACTAACCTA TAGTAACAAAAAGCAGAAAA ATTTTGCCCA CTGGTGATGG AGGGGGCGCA GGTATTGTAG AGTATCTGAG AAAGGACAACTGGATAAAAG GGGGCACAAG AAAACTTTTG AGGGTGATTG ATATGTTCAT TATCTTGTGG CATGGTTTCATAGGTGCATA CATATGTCAA AACATCAAGT TATACACTTT TAAAATGTTC AGTTTACTGT ATATCTATTA TACTTCAGTAGAGAGGAAGG AAGAAAGTGG GCAGGGTGGG GGAGAGGAAA GGAAACGAGG GAGGAAAGGC CCTAATAGGAAGGATTTTGG AGTTTAGATT TTAAAATGAT AAAGGATGTT TGACACTCTA GGCATATGAC GAATATAGGA TTATGAGTCCACAAAAACCA CCAGGAAGTC ATGTATGTTT ATACTTTTAA GTGAAGGATC AGTGGATTAT CAACTCCCTA ATGCTTTGCCTCTCTATGAC TGGCTGCTGT CCTTCTCATC CCAATACTCC TTCCAAAGCC CCTTGCTTAA ATGTAAGCCT TCTTTCCTCCTTTCAACACA TCCTGCATTC CGTGACAAAA TAAGTTTTCC TTAAACAGAA TGTACAGCAT ATTATTTGTA CAATTAAAAATTTTTGGCCA GGTGTGATGA CTCATGCCTG TAATCCCAGC AATTTGGGAG GCCGAGATGT GTGGATTACCTGAGGTCAGG AGTTCGAGAC CAGCCTGGCC AACATGGTGA AACCCTGTCT CTACTAAAAA TACAAAAATTAGCTGAGTGT AGTGTGGCAG GTACCTGTAA TCCCAGCTAC TCAGGAAGCT GAGGCAGGAG AATCGCTTGAACCTGGGAGG TGGAGGTTGC TGTGAGCAGA GATCAGACTA TTGCATTCTA GGCTAGGAGA CAGAGTGAGACTCGGTCCCC AAAAAAAAAC ACATTTTTTT TTAATGTTTC CTCCTTGCCT GTAGGAAAAA GGCTCTGACT CCTTAGCCTGGGCATCAGAG CTCTATCTAA ATGGACTTTA ACCTGATTTT GTGGCACTAA TTCCATTGCA GTACTTGTCC GCTCACTGGCCTGTGCCTCT CTGCCACTAT TTTTGGAATA ATGTCCTCTC TCCATCTTGT TTACTCAACT ATATCCAACC TCTAAGGCTGTGCTCCTACA AAGCCTCCCC TGGCTACTTC AGCCCACAGA GATATTTAAC TGCTCTGCAG TTCAGGACAT TCTTCTGACTCTTTAAATCA CATTTACTTA TATATGATCT TGTGATATTT TTTGTTGACG TGTTTACTTT AATTTTCTTC CATAACCTATTCATTCAACA AACTCAACAA TTATTTATTA AATGCCAAGT TAGAAAAATA TTATTGATTT TATATAGATT ATAGATATGTTTGAAATTTT ATTTGGCAAT CTGCAAGTAG AAAAATAATT ATAATGTGGT ATATCTGTGA TAGAAGTATT AGTGCAGAGACCATGGGGAA CATAATCCAG CCTGGAAGTT CAGGAGAGAT ACGTGGAAGA AAGGACGTCA GAGCCTTTTTCCTACAGGCA TGGAAGAAAC ATTAAAAAAA ATTTTTTTTT TTGAGATGGA GTCTCACTCT GTCTCCCAGC CTAGACTGTGGTGGTGCGAT CTCTGCTCAC TGCAACCTCT GTCTCCCGGG TTCAAGTGAT TCTCCTGCCT CAGCTTCCCA AGTAGCTGGGATTACAGGTA CCTGCCACAC ATGGATGATA AATATGATCA TATTTTCTTG TTCTTTTCCT CCTCAGTTGT CTTCCCTGAAGAAAGGAATG CCTTTTATAG ATGACAAACT CCCATTCTCA AGAACAAGGA TTTTTGACCA ATTTAATTTA ATCAGATGTCTGGCTTTGAC CTAGAAACAC AGTCACGAAA CTTGGTGATT AGAGACCAAT TCCCAAACAT GAGCATTTCTTAGGAAACAC AGTAAAGATC TGAGAGACCC AAGAGCAGAA GGGCGAGAAA CCAAAAGCCA TCAGTTTGCATAGGAAACAC CTTGTTTAGC CTAATCTTTT TATTTTTATT ACTCTATTAG TCACTACAAC TATTTTCTGA TTGCTATGGTGATAGATGGT TTAAAACAAG CCTTCATTAA GAATTGTCAC ACCATGGTCT CAGTCAAAAA CACCAACATT TTTATTGGTATTGACAATTA TGGGAATATC CAATTCCAAG AAGACAAGGA GACCTCTGAA CTTTCTAAAT GAAGACTCCAATCTTCCTGA TCTGATGGGA AGCAGCTTGG CAAGATTACC AACCACCACC ACAGAGAGTG GACTCTAAGCTAAGACTTAA AAGATAAGTA GAAATTATCC AGGTAAAGAT GTGTACAGAG AAGGAAGTAC ATCCAGGGGAAAAGAACAAT ACGTGCAAAA GTACGGAAAT GGTAAAAAGT AATACTACAT AGTCAAAGCC AAGCAGAGTTCAGAAGGGAT CTGGTGGTGA AAAATACGGC TAGAGAAAGC AGCAAGGATT GGCTTCTAAA ACCTATGTAGTATCTTGGAC CTTACCCTAA ATGTAATGAG AAGCTTCTAA AGAATCTTTC ATTTATTCAT TCATTGAACA AATATTTTGAGGCTTTCTGT GAAGAACATC ATTCTAAGTA GTAAAGATAC AGCAGTGAAT AGGACACATA AAATCCTAGATCTCACAGAA TTGACATTCC AGAGAGGGAA AGGTAGACAA TAAATACATA AACAAATCAT TTAACAAGATGATTTCAGAC AATGGTACGT ACTGTGAAAA AAATGAAACA AGGTAATGGA CAGCGAAAAG GCACTGGAAGGAAGCCTGCT TACCTTTGCA TGGTTAGAAA AGATCTCTCT AAGAAAGAGA CCACATGTGA GCTGCGACCTGAAGGATACC GAGAAGCTAG GTGTGCAAAG ATGTGGGGAC AGAACTTTTG GACTGAATAG CAAATACAAATGCCCTTGGG TGCAAGCTTT GCCTGTTCAA GGACCAAAAA GAAGGCCAGT GTGCCTGCAG CATACTAAGCACAGAGGAAA ACACTGTTAT ATGCTGAGAT TGGAATTATA AGTAGAGCCA GATAATATAG TCTCTTATAGGTCATAATAA GGCAACCAGA TTTTATTCCA AGAGGATTTA AAAATCACTG GAGGTTTTGC ACTAGGGTGAGAGGTGTGAT TTGTATTTTT AAAAGATAAT TCTGGAGAAT TAACTATAAT GAGGTAGGAG TAAACTAAGTTAGGGGCTAT TTCAGTGGCT CAGACAAGAG ATAATGGTAG CTTAGACTAG GATAGTAGTC GTAGAAATAAATAAAAGTGG CACTCTACTT TGGGGGTAGA GTCTATAATA GGTTTGGTTT ATGGATCATA TATGAGAGTAAAAAAAAGAA AATAAATTAA TAATGGTTCC TAGGTTTGTA CCTGAGCAAC TGAATAAATG GGTGCTGTGAATTGAGATAA AGGAGATTGA GAATCACAGG CTTTGTTTTG CAAATTAATT TTGAGAGGCT TATTAGACATCCCAGTGGAG ATTTCAGGTG AGTGGAGCCC ATTGAAAGGT AAGGGACAGG GTCAGGTGTG GTAGGTCAGGCCTGTGATCC CAGGACTTTG GAAGGCCAAG GCAGACAGAT CAGTTGAGCT CAGGAGTTTG AGACCAGCCTGGGCAACATG GGAAAACCCT GTCTCTACAA AATATGCAAA ATATTACCTG GGCATGGTGG CATATGACTGTGGTCCAAGC CACTTGGGGG GCTGAGATGG GAGGATCACT TGAGTACAGG AGGCGGAGGT TGCAGTGAGCCAAGATCTCG CCACTGCAAA CCAGCTTAGG TGACAGAGTG AGAACCTGTC TCAATAAATA AATAAGAAACGTAAGGGAAA AGGAAATTAA TCTGATCATT GGCAAATGCA TAGTATTTAA AGCCAGGGGA GTAGATGAGATACTCAAAGT AGGTGAAGAT AAGGAGGCAA TGAAGGCCTA GGACTCTGGT GTACATTTAG ATGGTTATAAGAGGAATAGA AACTGGCAAA ATAAGTAACA CTGAGCACCC AATGAGGTGG AGAGGAAAGC CAGGAGATGAAGCATCATAG AAGGCAAGAG AAGAAGGGTG TCAAAGAGGC GAGGCAGTCA TCAACTTCTG GGCAGTCAAATAATATAAGG ACAGAAAAGT GACCATTGGA TTTGGAAATA TGATGAGCAC TTTGAGTGGA GTGTTGAGACAGAAGACCAA TTAGAGTAGA TTGAGGAGAT AACGAGAAAT GAGAAAATGT AACCTGCAAG CACAGACAATTCTTGAGAGA CTTTTCTGTG AAAGGAAACA GACACAGAGT CTTAGCATGT CTTGTCTTTC TATGGGAAAT GTAAATAGTTTGAGATCAGG GATAGTATTT TATTCTGCTT TTTGTACCTC TACATTACCT AGCATAGAGC TAGCTAATGT GCACTTAAGTATGTTCTCAA TTCTTATCGC CTGAATGACT GGATGGGTGA AAGAATGGAT GGATGGATGG ATGGATGGATGGAAGGATGG ATGGATGGAT GGAAGACTTC TGATTTGCCA AGAAGAGGAT ACTGGTAGCA GAAATAAAAACAGCACTGGA GAAAGAAGAG TTTAGATTTT TATTCTTTGG TGTCAGTTAG ACAGGAAAGT AAGACATTAGAAGAGTCCTT AGATAATTTA TGTAATTGTT CACTTAGGAT TTTTAAATGT GATCACTGAT ATTGGACATG TTCCTAGTGAAGCATTTTTG GTGTTTCACT GGTTGAAGTT AATAACTGTA AAATTATTTC CCGTTCAGGA CAGAAAAACAGAAAACTTGAAGCTCCTATT AGAAAGTTCA AGATTCTCTG GGGTTCTTAG GATTTACTGT TCCCAAAACT CTGTCAAGAA CAAGAAAATGACCTGTATAC TTAACTGGTC TAGGCAACAG TGGAAAGACA ATTCTCAGAG AAGATTTGTT TTAAGAAGACACTTTCCATA GGAATCAAAC AATAGCTTTC AGTGACTAAC ATGGTAAGAC ACAGGGTGTT AGCTCTTTCC TTCCAACCTCATGGCTGTTG TACCTTACCT TTCGACCCCG TGTTCCTGAA ATTGTTAAAT TCATAAACTT ACCAAGGACT AACCAGCCTCTGGGGAATTG CTGTATACTT AGCAAACTTA CAATGGACAT ATTTATAAGC CATAATGATA ACTGACTAATAGGAAATACC CTCAACTGAA AATGAGAGAT CATCATTTGC AAATGAGTTC CCTTGCCCAG GCAACTACTGGGGAAAATGT CATGCAAGCA AAATTAATCT TTGAAATCCT CCTTTTCCAT TTTTTGTGTC TTCCTTTTCC ATAGGCACCAGAAATATCAT GGTGCCTGGA TCTCATCTCT ACAGAAAAAA AAAGTGATTT GATAAACTGA TTTATATTGT GTCCAAATGTGATTGTATTT TCAAAGATAA CCTAAGGGGA GAATGCTGTC TGGCCCAACA GCAGGCTCTC GACTTCATTTCAGACACTGT GGCCAATGGC TGGGAAACAG GTATGAACAG TAGGTTTCTG AGTCCCCTGG AATTATTCCATTTATGTAGC CACCTCCATG ACAGGAAGCC TCCCTACTCT TACTTCCCAG TTTGTTCATT CATGGCACCA GGTTGCAGATTAAAATTTGC TCAGTGACCT TTTATCTAAT AATGTGTTAC CTTCTTCTCT TAAAAAGTAC AAGGGACAAA TGCTCATGGTATACTTTTAG GAGATTGTGG CTCTCTATTA ACAGTATTTA TTCAACAAAC ATTTATTGAG CATTTATATG TGCATCATGCTAGGGACTGG AACCTAGTAA GTGTAGCACA TATTATTTCA TTTAATCCTC ACAACAAACC CATGAGGTTG GTTTTATGATCCCAATTTTT CAGAAGAAGA AACTGATATT CAGAACCAGT TAACTAACTG GTTCAAGGTC ATGCAATTTCTAAGATACAG AACCAAGAGT CAAAGACATG ATTTTAAACC AAAGCTTTTT CTGCTACTCC ACATTGCTTCCCTAGGTGAG ATCTGAGGCA TTCCGCGAAA AGAGAAGGGT CATAAAGCCA AGGGAAGACA AGCTTAGGAAAAAAAAGGGA AATGTCCTAA ATAAACAGCT TTCCTATTTA CCAGAAACCA CTAGTTTAAA AATATAATGGGAAAAATCCT ATTCACTTTA ACAATGTTAA AAAAAAAAAA GATAGAAGAA ACATAGGGAT AAACTTAACACATTTGTAGG ATATGTAAAG AAACTAAAAG ATGTTAATAA TGGCCTAAAG AAAAAAAAAC TTACATGTATGGGGAGATAG ACCATCTTAC TGGATTCTAA TATTTAATAG TCTAGGTGTT CCATTTCTCA CCAAATTAAT GTATACATTTAATACAATGT CAAACGAAAT ATCTTAGGAA TTGCTTACAA ATTGTCAGAT AATTACAAAG TTTACCTGGGAAATATAAGC ATATATGAAG AGTGAATGGG ACCCCACCAC TCCCCCCAAA ACAAAAAAGG TCTGAAAAGGACAGAAATCA AGGAGAGTCT TGCCTGCCAGATACAAAATT CTATTATAAA GGTGTATTGA TGAAAACAATTTAATACTAG TGTAGCAATA GGCAGCAAAG CAATGAAACA GCATAAAAAG ACCAGAACTA TACCTAATTATGATGAAGAT TTAAGGTATG ATAAACATGA CATAATTCAA ATCAGCAGAA ATTGGCATAG ATAGGGTTAAGACAAATAGC TAATCATTAG AGGGGAGGAA GGAAAGGAGG GAGGATAAAA TTAGGTTCCT GCCTTCATCTTACATTAAAA TAAATTCCAG ATGTATTACA TTTAAATTTT TTTAAAAAAA GAAACCACAA AATACTTGAAGAAAATATAA GTTGTTATAT AGTCTTTTGA TGGGAATTTT TTTTTTTTTC AGAGACAGGG TCTTGCTCTG TCACCTAGCCTAGAGTGCAA TGGCATGATC ATGGCTCACT GCAGCCTTGA ACTCCTGGGC TCAAGTGATC CTCCCAGCTCAGCCCCCCAG GTAGCAGGAA CTACAGGCAT GCGACACCCC ATCCAACTTA TTTTTTATTT TTTGTAGAGA CAGGGGTCTTGCTTTGTTTC CCAGGCTTAT CTCGAACTTC TGCCTTCAAG CACCTCAGCC TCCCAAAGAG CTGGGCTGAT GGGACATTTTTTAACATAGT GCCACATTAC CATAAATGAA AAGCTTGTAA AATACTAATT TTTAAAACTA ATATATATCA GAAATTTTTATAAACAAAGT TAAAAAGCAA ACACAAAAAA TTTGTAGCAC TTATGACAAA TATATGTATA TATATGAATACAAAAAGAGC CTTTACAAAA CAGTAAGAAA ACAATGAATA CTCCCAATGG AGTATTCAAA ACTAAACTGCTAAAAGCAAT TCAAAACAAA AAACATAAAC TATGCATATA TGTATGTGAA AAAGTTTAAC CTTATCAAAGAAGTAAACTC TCAAAGAAAT AAACATCAAA TAAGGAAATA GCCTTTTCCC ACAAATAACC AAAATCTGTAAGAATACTGA GCTGCGAATG TTTCAGAAAA AAAAAAAAAT CATACACCTA GTTCGGCATG TAATTAATATAGATCAGAAC ACTTTAAAAA TATTTATAGG CCAGGCACGG TGGCTCATGC CTATAATCCC AGCACTTTGGGAGGCCAAGG CGGGTGGATC ACCTGAAGTC AGGAGTTTGA GACCATCCTG ACCAACATGG TGAAACCCTGTCTCTACTAA AAATACAAAA ACTAGCCAGG CATGTTGGCG TATGCTGGTA ATCCTGGCTA CTCGGGAGGCTGAGGCAGGA GAATTGCTTG AACCCAGGAG GTGGAGGTTG CAGTGAGCTG ACATTGTGCC ACTGTACTCCAGCCTGGGCA ACAAGAGCAA AACTCTGTCT CAAAAAATAA TAATAAATAA AAATAAAATA TTTATATACTCTGACCCATC AATTTGTCCA GCATAATTAG GCATGTGTAC AAGGGTTTAC ACACAAGAAT GCCTATTGCA ATATTGCTTTTAATGCTAAA AAAAATTGGG GAAAATGCTT TAAAAATATA GATTAAGACT GTACATTGTG GTACAGTCATATAATCAATA GTATACAGCT ATTATTTATT TTCAGCCACT GTCCAAAATA TAGCCTGGCC TAACAACATT CTGTTAGGATACGCAAGCAC CGTGAGGAGA TCAGCTATAA AGTATCAGTG TTTCACACCA CTGCTCCTTT GCTAATAACCTTCAATGGCT TTTAAAGAAG TAAAAAACAA AGGCAAAATT CCTTAGTCAG CCCTTAAGAC TCTCTGTTACTTAGCTCAAA CTACCCTTTT CAACAACACT GCCCTAACCA GGATGAGTTT TTTGCCCCCC TGGAGTACAT TCAGCCTTTCCTTATCAAAC CTTCCTTTAA ATAAGTATCT TCTCCAGGAC CACTTCACTT TCTTCCCCAA TTTAGCATTT TCTATATCTCCAGGCCTACC TCTATAAAGC CTGTCCTAAC CACTCAAACC CTAGCTTTTT CTCTGAACTG CTAGAAATAT TTTTCTCTCATTGGCCATTT AGGTAAAAAG GTTTTTACTG TTTATTACCT ACTCAATAAA AATTTTCTTT TTTTGAGACA AGGTCTTACTCTGTCGCCTA GAATGGGGGG AAGTGGTGTG ATCACAACTC ACTGCAGCTT CTACCTCCCA GCTCAACAGTCCTCCCACCT CAGCCTAGTG AGTAGCTGTG ACTACAGGCA TGTGCCACCA TACCCCACTA CTTTTCATTT TTTATTTTTTGTGAGATGGA ATCTCACTAT GTTACCCAGG CTGGTCTGCT GATCTCAATT GATCCTCCCA CTGTGGCCTC CCAAAATGCTGGGATTACAG GCATGAGCCA CAATATCTGG CCCCAGTAAG CTTTTAAGGC CATTAACATG AGGAACAGTGTTCTTTACAC TATTTTATCA GCTAGGGCTT TGCATGGAGT AGGAGTTTAG TAAATGCGGT TGATGGGTTA ATCAATGTGTGAAAATATTC AGAGCCACCA AAAACAGATA TTATGTCTAT TCTCATCAAC AATCAAAATT GAGTAAACAGCCATTTTCTA ATACAGGAAA CCACAAAACA TTGAATGGTG ACATTAAAAA ATTCCCCCAG CAGGAGCCAACCAATTTTTT CATCCTGATC CAAGTTAGCA AACTGCAAAA GATAGGAAGC ACTAATGAGT GGAAATTTGAGTAGAAGCAT TTCTTATGAA GGCTGTCTTG ACTGGATCAC ATTTTTATTG CTGTTGGAGG TGCCAAATGT GTGTGTTTATGCTAATCCTC CACCTCAGGC AACACACAGT CAAGGATCCT ACCAAGTGTT ACCGTCAAGT GTCTGTTGGCAGCTCAAGGC CCCAGCGTTG TTCCCTTGCA CTAGGGAAAA GACATATTCC AGGTACAAGT ACTCCCACTTTGATGCTACA GAGGAGTTGC TGAACTTTGT GTCATTAATC TCTCTTCGTT AGATCCCAAC CCTGTTTAAA TCCCACTATCTGCCTACTCT GGGTCTTCAC CAATTTACTA GATCATAGTT GGAGAAAATC TACAAAGCCT TGCTCCCTTT AGATTTAAACAGGTCTCCGT TTAAATTTAG AATTGCTAAC TTCAAGCGGG CCCTTATGCG ACAGTATGCC TGTCAGTCAT ACTACATTTCCTCAATTCCA TTCATGTGAC TGCTCCATAC CCTTCCCTCT CTCTTCATAC TACTATTATC TCTTCCCCCC TCCCTCATTTTTAACTGATG ATCTTGTTTC CTATTTCTCT GAGAAAATAG AAGCCATCAA AAGAGAGTTT CCACAAACTC CTACTGCCTTATCTAGCCCT GTACCATATA CTTTGCATTT CCTCTCATTA CCATGGATGT ACTGCCTATC TGTGCTTCTA TCTAAGGCTAACCCTTCCAC TTCAGTTTTG AATATTATCA GCTCTTACCA ACTCAAGGCC ATTGCTCTAG CAATTCTCTC ATTCTCTCTCATTTTCTTCC ATCAAGTTTT CCTTTTCTTC AATTAACAGA GTAGCTCCTA AAGGGAAAAA AAAGTCTTCT TTTTCAATGCTCATCATCAC TGGCCATCAG AGAAATGCAA ATCAAAACCA CAATGAGATA TCATCTCACA CCAGTTAGAATGGCAATCAT TAAAAAGTCA GGAAACAACA GGTGCTGGAG AGGATGTGGA GAAATAGGAA CACTTTTACACTGTTGGTGG GACTGTAAAC TAGTTCAACC ATTGTGGAAG ACAGTGTGGC GATTCCTCAG GGATCTAGAATTAGAAATAC CATTTGACCC AGCCATCCCA TTACTGGGTA TATACCCAAA GGATTATAAA CAATGCTGCTATAAAGACAC ATGCACACGT ATGTTTATTG TGGCACTACT CACAATAGCA AAGACTTGGA ACCAACCCAAACGTCCAACA ATGATAGACT GGATTAAGAA AATGTGGCAC ATATACACCA TGGAATACTA TGCAGCCATAAAAAATGATG AGTTCATGTC CTTTGTAGGG ACATGGAGGA AGCTGGAAAC CATCACTCTC AGCAAACTATCACAAGGACA AAAAACCAAA CACTGCATGT TCTCACTCAT AGGTGGGAAT TGAACAATGA GAACACTTGGACACAGGAAG GGGAACATCA CCCACTGGGG CCTGTTGTGG GATGAGGGGA GTGGGGAGGG ATAGCATTAGGAGATATACC TAATGTTAAA TGATGAGTTA ATGGGTGCAG CACACCAACA TAGCACATGT ATACATATGTAACAAACCTG CACGTTGTGC ACATGTACCC TAAAACTTAA AGTATAATAA AAAAATATAT ATATATATATAAAACAACTA AAAATAAATC TTCTTTTTCT GCAGGATCAG TCCATCACCA CACACACAGG CTGTGTTTTA TGTTGTTCCCCAGCTTAAGA GATCGTTCTC CAGATCCCAC TGCTCCTTCC AGTTGTCACC TCAGTTCTCC ACTTCTTTTT GCTGATAAACTACTCTAACT AGTTACATAT GATTTCTGTC CCCAGGTCCC CTCCCTCAGT TGTTTTGAAC ATAATCATTT ATATCATTTATCATTTTCAC TCTAATTGCA CAACCAAAAA CTCCCTTTTT TTTTAGATGG AGTCTCACTC TGTCACCTAG GCTGGAGTGCAGTGGCATGA TCTCGGCTCA CTCCAACCTC CGCCTCACGG GTTCAAGTGA TCCCCCTGCC TTAGCCTCCT GAATAGCTGGGATTATACAC ATGCACCACC ACACCTGGCT AATTGCTTTG TTTTTGTTTG TGTGTGTGTG TGTTTTTTTT TTTTTTTGGACAGAGTCTCA CTCTGTTGCC CAGGCTAGAC TGCAGTGGCA TGATCTCAGC TCACTGCAAC CTCCACCTCC TGGGTTCAAGCGATTCTCCT GCCTCAGCCT CCCGAGTAGC TGGGACTACA GGCATGCACC ACCATGCCAG GCTAATTTTT TTGTATTTTCAGTAGAGACC AGGTTTCACC ATGTTGGTCA GGCTGGTCTT GAACTCCTGA CCTCAAATGA TCTGCGCACC TGGACCTCCCAAAGTGCTGG GATTACAGAC TTGAGCTACT GCGCCGGGCT ATTTTGTGTT TTTAGTAAAG ACGGGGTTTC ACCATGTTGTCCAGGCTGGT CTCAAACTCC TGACCTCAAG TGATCCGCTC GCCTCAGGCC CTCAAAGTGC TGGGATTACAGGAGTGAGCC ACCATGCCTG GCCATAAAAC TGCCCTTTGT TAATATGACTGTTGGCCTGC ACATTGTCAAATCCAGTGGC ATTCATCTTA CTCGGCCAAC CTACGGCATT TGACACTGTC TGTCTTTCCT TCTGTTCCTC TATCTGTTTCCAGTATACTG GCCTGGCTTT CTTTTTACCT CTTTTATATG CTCTTCCAGT CTCAGGCTCC TTTGGGGATT TGAAGGTATGTTGCATTTTG CTATTCAATG AATAATGACA AGTAATGATC ACTTAAGACA TTAAGTGGTC AGTTCCTTTA CTAGGATAAAAATAATTTTC TTCCCAACAT GGGGCATATT CCATTTCCAG TCTGACTGTT CTGTGTAATC TTTGTATTCC TTGGCAGCCCCTTTTATATC AGTTCATCTA CTGTGCAGGA AATTGGACAA ACATTTGCAC TGGTATAACC AAATACAGTT GAACTTTTGGCTTGACTCTT AGCTGAACTC ACCAAAAATA ATTTCTGTAA GAGACTGAGA CGTCTACGAG TAGGTTTTTC AGAATTAGTAAACATAAATC AAGGATACAC AGGTAGATTT GAATTTCAGA TAAACAACAA ATACTTTTTT AGTATGTCTA CTGAAATATTTGTATCTTAT CTGGCAATTC TACCTGGTAC AGAACTAATC CATTCTCTTG AAAGATCTTG ACTCTGTAAT AAGTTCTTTGGTGATGGAAG GGAGGTATTT CTGTAATTAG AGTCACTGTC TTCCTCCCAG TTTTTTATCC TGGCCCAGAT CTGCAATGAACACACGACAG AATCCAGGGG GGATGAAGAT GGGTGCTTTG CAGGAAAAAA AAATTAAAAA CATCTGAAAAAGCTTTTGTA CTAAAAGAAT GTGATCTAAA AAAGAAAGCA GGAGAACTTT CTGTCTGCAC TTTACATCAGAACAACCTTG GCGTCTAGAA GCTGTGCCCT GTGGGAAGTG GTGGTGCTTG GTAAGAGATG CCAGGACCAGTGGTACCCAC TGGGAGCACT GCCAATACCC AGCAAGGAGC ATGGGTGCAC AGTAAGGCAT TGCACTGTGATTCAGCATAA AATAACAATA AGGGAACGTC ACGGAGAAAA GGCCAGACTT CCTTTGTTTA GAATGTGGGAAATGTCTTCT GAAAAATGGT AGTAAAAAAG CATGCTTGGA TGGTCCACTC CAGGCAAAAC TGACTAATCGGGGGTCAGGG ATACAACCCC TGCATCATAT GTTTGTTTCT GTTGGGCTGA CATGAGGTTC ACTGTGACCA CTGTGGTTTAACCCCATAGT CTCCTGGAAA TACAGCCAGG TCAAGAGAGC TCCACATAAA ACATAATCAA AAAAATAAACTCAAGTTTCC ACTGATCAGC TTTTCACAAC TCTTATCCTT TCACTAACTT TGGAGCAAGA TTTGAGAATT GGATGGCTATTTGAGGGCTA TTTCTGCGCT TTAGTTCAAT GTTTTGTTCT TTCTTTATTA GAGAACTATG GTTTTTTATT ATATTTACACTTTAAGTTCT AGGGTACATG TGCACAACGT GCAGATTTGT TACACAGGTA TAAATGTGCC ATGTTGGTTT GCTGCACCCATCAACTCGTC ATTTACATTA GGTATTTCTC CTAATGCTAT CCCTCCCCCA GTCCCCCACC CCCCGACAGG CCCTGGTGTGTGATGTTCCC CTTCCTGTGT CCAAGTGTTC TGTTTATGTG ATAGATTACG TTTATTGATT TGTGTATGTT GAACCAGCCTTGCATCACAG TCACTTGCTT ACAAGAAACA AACACTTCAC AGATGGATCA TTATGTGTGA TAAGTGAAATCCAAGGATTT ATGCTCAGAG GTGGGCTTAA CAGGTAGGAA GAGCAGTATT TTCCTTCAAC CATGAGTGTATGCAGGTTTT TCTTTTCTTT TTTGAGATGG AGTCTCACTC TTTTACCCAG GCTGGCGCGC AGTGGTGCGA TCTTGGCTCACTGTAACCTC TGCCACCTGG GTTCAAGCAA TTCTCCTGCC TCAGCCTCCC AAGTGGCTGG GATTACAGGC ACCTGCCACTGTCTCCGGCT AATTTTTGTC TTTTTAGTAG AGATGGGGTT TCACCATCTT GGCCAGCCTT GTCTTGAACT CCTGACCTCATGAATCATCC TTCTCAGCCT CCCAAAGTGC TGGGATTACA GGCATGAGCC ACTGCGCCCA GCCCACAGGTTTTTCAAAGA CTAAACTTAA AAAAAAAAAA AAAATTTCCC AATGAAATAT AAAACTAAAG TGCTAAACTGTGATAGACTG TTTTACAAGA ATGCCAGTTT TCACAAGTGT CTATAGAACA TGTAATTTAG ATAGGTAAGA TGAAATTTTGATAATATTTG ATGGCAAATT TAAACAGGTA TACAACAAAA ATAAAATTCT AAGCCCCTCA ACCAACTGAATGGACTCCTT CTCTCAGCCA AAGGAATACC AAAGTAAACC TGAAAAACTA GTTTTGGCCA GGATTGGGGGTAGGTGGGGG AAGCCCAACA TGACTCATTA TTCTCTCCTC CCTTTGGAAT TCAGGCACAA CTGAATGTCAGCATTGACAC TAAAACACAG ATCTTAAGAC TGACAAGCCA GACTCTTTGT AGCAGAGAGC CAGGCCCTGGAAGAAATCAA GTTATTTTAT CCCAAAAAAT ATTTCTTTGA TATATTTTCA AATGGCCCTG CAAAGCTGTC TCTTGTGGGGAAAATTGACA TGCTGTACAG AATTTCCTTC TCTTTCCAAG TTTTTACTGA TCCAGGAGAG ATTTAACTAA GAGGCTAGCATGTTTTTTTT TTTTTTTTTT TGAGGCGGAG TCTTGCTCTG TTGCCCAGGC TGGAGTGCAG TGGCGTGATC TCAGCTCACTGCAACCTTCG CCTCCCGGGT TCAAGCGATT CTCCTGCCTC AGCTTCCCGA GTAGCTGGGA TTACAGATCC ATGCCACTATGCCCAGCTAA TTTTTGTATT TTTTGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTAGT ATTGAACTCC TGACCTCGTGATCCGCCCAC CTCGGCCTCC CAAAGTGCTG GCATTACAGG CGTGAGCCAC CGTGCCCAGC ACAAGACATTTACCGTCTAT TCTCTCTGAA GCTACTATCT AGAGGCTTCA TCAACATAAT AAGACCCTTG GTCTCCACAA CTCCTTATCTTATCCTATTA GTTTCTACTG ATTCCAGGTC TTTAGATAAT AACAACTCTT TCAACCAATT GCCAATCAGA AAGTCTTTGAATCCACCTAT GACTTAAAAG CCCCACTCCT TCAAGTTATC CCGCCTTTCT GGACTGAACC AATGTACACC TTATATGTGTTGATGGATAT CTGCCTGTAA CTTCCATTCC CCTAAAATGT ATAACATCAA GCTGTAACCC AACCACCTTG GGCACATGTTTTCAGGAACT CATGAGACTG TGTTGCAGAC CTTGGTCACT CATATTTGGC TCACAGTAAA CTTCTTTAAA TATTGTATAGAGTTTGGCTT TTTTCATTGA CACAGGAAAA ATAAAGAATT GGAAGGTCTT TCATCAGTCA CTGAGCCAGC TTCATATCTGACTGAGGTCA TACAGTTCAG TGATTTGTAG CTTTGCTACT TAGATTGCTA TCCATTATCT AGAAGCATCA GGATCACGTGGGACCTATTG GAAATGCAGA CTTTCCTCCT AGAACCCAGG ACCTTGGAAT ATTCTTGGCA CATAGTAGGTGCTCAATACA TATTGAACTC CTAGGTGCAA TTCATTAATT CATGAATTAA TGAATTAACA CGCTCTCAAA GTTTAGTGCTTTTTCACAGA CTAGTCTTTC TGCCTCTTAA GCACTCAGCT CACCACGCTT CCAGTCTCAC TCCCCTATTA GTCTGATTAAAATCTGCTTA CATGTGAGTC TGAGATCAAG TGTTATCTCT TCTGAGAAGT CTTCCCTCAC TGGCCCAAAG GAATTTCTCCTCTATTTTAG CACTGTCCCA GTTGACTTGT CATTATTCTA GTCTTTTTCA TATTAGTTGT TTTTCATATA TATGTTATTAAGGAAACTAG TCATTTCCCC TAATAGAACA AAATTGCTGG CCTTTGGGGT TGGCAATGGA GGGGAGGCTCTTCTTGAAAA GGGGGAAGAG TGTTCTCCTA ATATTTTTCT TACGAGATTT ATGTTGCTCA TCTTTAGCCT TTAGTCCCCCATTGCCTGCC TACAGTTGGC AGAGACCATC TGTTCTCTCA CTGTCAGGAA CTGTCTCAAT TCTTGAAGTT CAGAGTCAAAAAAGAAGCAA GTTTTCCTAG CTCTTTGATC AACTTTCAAA GTTTTACTTC CATTTGAAAA TTTACTAAGT CACCAGGAGATGGTTTATAC TGAGAAATAT CCACTCATAC TCTTCCTCTT CAACTTTCTT CCATATACAC CCTATTACAG GGATATAGTCTTACTCTATA GCTCAAAAGG ATGACCCTAT CAGAAACCTG CACAGTATGT AAAACATTCT CACCAGAGGT TCACTTGTGTATTTCCACCC TAGAATGGAA GCTCTACAAA AGCACAGAAT GTATCATTTT AACTTTAGAT TCTATTTTCA CACCCAGTGCTTGACACATG ATTTGAAGTT AATATTTATT TATCAAGTGA TTGTTTTAAA ATCATGACTC ACTCAACAAA GTTATAAGAATAAGAATAGT GTTACAGAAT TGGTATACAC AAGCTGACCA TAATCAACAC ACCTATTATC ATTTTTTTGC GACAGGTTCTCGCTGTCTCA CCCTGGCTGG AGTGGAGTGG CATGACCACG GTTCACTGCA GGTTTGAACT TCCAGGCTCAAGCAATCCTC CCACCTCAGC CTCCCACATA GCTGAGCCCA CAGGTGTGTG CCACCATGTC CAGCTAACTT TTTAATTCTTTGTAGAGACA GGGTCACCCT ATGTTGCCCA AGCTGGTCTT GAACTCCTTG GCTAGAGAGA TCCTCCCTCCAAGGTCCCCC AAAATGCTGG GATCTCAGGC AAGAGCCACC ATGCCTGGCC ATAATCAATA CACTTTTAAGAATGCTAGAA TGTTATATCA GATGCATACT TCAGCACTAT CTCAAGCAAA CTGGGGTGTG GGTTATTCTA CATATAAAGTTCAGCAGTGT TGTTCCACAG TCCCAAACTC CAACTGAGGT CAAATGTAGG GTGCAGCAAG GTCACTGGGGCTGTCATCAA GGGCCTCTCC TTGCACTCTT GCCAACCCTG TTTCTTGATT GTCTCTACCA CCATGAGTCA CCAGCAATCTCCCACAGTCA CTTGTTTAAA AGTTCACAAG TATTGTGTGA ATTGCAGGCA ACCCCTTGAC TCCCTGATTG CCTGGTCTTCTTCCTTGGGC TCTACCATTT TTTTTCCCCA GCACTCTTTC TGCTGCTCTA AATTTTAATT CATGCAATTC CATATGTGTTTCTCTATCAT TCTTCATCTC TTTCCTCTCC CTTCCATCCA ATTTTGTTTG TCTGTTTGCT TGCTTGCTTG CTTTAATACATTTCTCTTTT TCTGAGAAGG CTTGAGTCCA AAACTCTCAG TTACCTGTTG TTCTGTTTCC CGTTAGTTAA TCTCCGAACCTTCATAAATT AAATCTGACA AAGTCCCCTG ACTAACAAAG GAAATGCACA AGTCACAGTA AAAGGGGCACACACAGAACA CAAATAGACC CAGGGTCTTT TCTGTTCATC ACTCAGCTTT TTATAGGAGA TCCAGGAGAAATGAAGTGGA AAGGGAAGTG TGTTGAGTTA CTATACAACA CAAGAGTAAA CTTTCTTATA AGTGGTAATT TTTTTTTACAGGAATAATTG AAAATGGAAA TTACCTTCTC TACTCATAGT AAGTACTCAG TGCGTTCTTG ATGGGATGAG AATGTGTTTGAGCTTTAGTG TAAGGCAGAA TTCTGTTTAG TCTGCCAGTA TTGGAGAAAA ATAAAACACA AAGGGACTGACATGTAGGAA GTGGCACCTG GGAGGGTCTC AATTCTTCCT ATTACAAAAA TGCCCCAGAG AAATAAAAAGCTTGTGTACA TGTTGAGATG GGAGAGTTCT CTGGCCCCCC TCGCAGGATG TGTGACAGTG GGGTGGCTCT CTGCTGCGCCACCATGAGCT CAAACCCCTC ATAGGAGGGG GAGCACACAG GCAGGAAGGT GCAGGAGCTG GGCGAGCTCTTTGGGCTCTG GCCCCGTGGT ACTGTCTAGA GGTGGGTGCC TGCAACTCCT GAAAGCCCAA GTGGGCATGTGTTACAGTGC ACTCTTTCAG CTTTGCTGTC TGCAGCTTAA GCGTTAACCA GCTCAGTTTC TTCTTGGTAC CCAGGTCCTTGTCTGGCATC CAGGAAGAAT CAGGTTACAC ATGGACTTGA AGGATGAATG TGGGAGTTTT ATGGAGTGGTGGAGGTGGCT CTCAGTGGGA TGGATGGGGA GCTGGAAGGG GGATGGAGTG GGAAGATGAT ATTCTCCTGGAGTTTGGCTG TCCAGCAGCC GATCTCCTCT CCAGTCGTCC CCAGCCTCTC GACGTTCAGA TGCTCCTCTT CTCTCCTTCTCTGCCATGCT GTTCTGCCGT TCATCTGCCT GTCTCTCTCT GGAGCCTGGA ATTTGGGGTT TATATGGTAC ACAATAAGGGGCATGGCAGG CCAAAAGGGA ACTTTTTAGG TGCAAAAAAC AGGAATGCCT CTTCTCACTT AGGGCTATAGATTTTCAGGC TTGAAGGTGG GGCCTTTACC AGCGAACCTG TATTTCCCTG TCTCCTGTGC ATATCAATGT AATCAAATACTGGGCTGATC CAGGATGTTT CTTTAGACCA ATTATGGGTA AAATAATTTA CATTCAGGTT TTTATATTTG CTTTTGTCATTTCTTTTTAA GCAATCATGT AAAATATCTA TACGACAGTA ATAGATGATA GCGAACCTAA TTAAAATTAC CAGAAACTTAAGAATCTCTA ATGATTTCAA CTGTAACTAA GGTTATTTCT CTTTATGTTG AACAATGTTG GGAGATAAGA CACAAGAGTTTCTGAAGTAT TTCAGAAACA CAAAGAGGGA GGTTATATAA ATAATATTTT TTTCCTACTT TGGGAAAATGAAAGCTAGTC ACAAAGTTAA ACGAGTGGTT ATTTTAATAT TTAAAATACA GGCTTGGATG TATTTCCTGT TAAAGAAAATAAAATGCAGA ATATTCAAAA CGTCTGACCA CCCTTCTAAG AAAATGCATC TCTGAGGTAT TTTTCCTTAG AAGTTATTGTAAAAATCCTG GAGAAGCTTG AACACAGCAA AGCAAACAGG ATGCAGAGTT TAATCTGTGG AAAGCTTAGGGAAGAAAAGC AAATCATTAA AAATAGGTCT TCCTCTGAAG ATTTTTAAAA CGCAAAGAGG GTGGAATAGCAATGATAATA AAAAAGCTGG CATAGAGAGT GGCACAATTT GCTGTGCCAC TGAGCTGACT GGATGTGTTCTGAATTTCTA GGCATTAGTG TACCTTTCCA CACGCATTCT CCCTTTAAAA AAAATGCCCA CACACTGAAT ACTTTTTTCATGCAATTTAA AATAAGCGCA CCATCTAGTT TACAGAAATT CACTAGAAGT TATTTATCCT AAAATAGCAGAGATCTAGAA GAATTTTGAG CTCTAGGACA TTTTAGACAC ACAGAAAGAA GAATCTGGAC AAGTCTTGACCAGACATGAC AGAATAGAAA TTTCTTTTCC TATTTATCTC TTTGAATAAA ATTTTCAGGA TCTTACAGTG GACAAGTTTGTTATCTACAC ATTGTGAAGC ACATTGATTT CTCCTCTGTA GCCTTAGGAA GATCTGAGAG GTGACTGAGC TGATTGAATGATCCGTGACC GCTCTACTGG GACCAGTAGT AGAACTTTAC TGGTGGAGAC CTGCTGGAGG TTTGAGAGCAGACTTTGAAA ATTACTAGAG CTACACAGAT ACTGTGTGGC TAACTGGATT ATGTTTAGAG GCTTTCAGAA CTATGCTGCTGCTGCTGCAG TGTAGCCAGG ACGCACAGAG AACATCTAAG GCTCTTGAAT GGGGCGATAG GGACAGATTTCAGCAGCCAT CTGACTTCAG TGCTCATTTT GATGCTTTCC CTGCAGGGTG CAGTGTGCAG TGTGCAGTGT GCAGTGGTGGGAGGCTCACA CAGGAATACT TGCTTCTGTA GCCCTAATTT CCGGTTCAAA CTCTGCATTC ACCTTGACAG ATTCTTTCCTTGGCCAAAAT TTAGTTAGGC TTCTGGGCTT TCTCTTATGC CCACCTGCAG ACTTTTTGGT AAAATCCAGT TTTAGTAAAGAGCTCTGCTA AGTCAGTTTA GCAAGAATCC CCACCTCAAA AGTCACTATC TCCCTCCCTG GTAGTGTCTG GCTTGTCTTCAGCGAGAATT CTATTAGGTT CTGTTAGATT AGAATCCTCC TTACCCTTGA TGCTTCCTCT TAGTATTTTT TCATCCACTGACTCCTTGAC CCACCTTGCT CCTCGGCTAT AAATTCCCAC TTGCCCATAC TCTGCAGTTA AGACTATTTT CTCCCCACTACTGCAAAATC CCATTGCCAT GGTCCCTATA CTATCTCAAT GGTAATGAAT AAAGTCTGCC TTACCATGCT TTAACAAGTAACATTGAACC ATTTTTTTCT TTAACAATCT GCTGCACAAT GAGATTACTA AAACTTTATT CCATTTTGCC ATGCTGGATGTCCTCAATGG AATGGCTCTT GTGAGCACCA AATCATTGTG AGAAGGAAAA CCCATCTCTT ACAGCCCCCTGTAACGTGAT GTATGTTACA TGTGATGTAT GTTACATAGT TTTTTTTCAT GTTGATCACT TTTTGCCCAT TTTCCTATATCTTATCAGTT GGAAGACTGT GGAAGTTTGT AGTACTAAGC CACAAGATGA CTAAGAAGAG TTGAAAGGGCAAGTGGGGCT AAAAACAGAT TTTGTTTGAC TTACCCCACC ATTCCCCCTA TCATGGGGCTGAATCTGCCTGGAGGAAGGA GCATCTTTAT CTTTGTACTG TGAACCACAC AGTCTAGCAG CAGCACAGCC AAGGCACTTGGGGTTTCATG AGACTAAGTA CATGCAATTC TATTGTAAAG GCTTAAAATA TATACAACTG ACCCTTGAACAACATGAATT TGAATTGCAT GGTCAGTTAT ACGCAGATTT TCTTCCACCT CTGCCACCCC TGAGACAGTA AGATCAATCAATCCTCTTCC TCCTACTCCT CAGTCTACTC AAAGATACTT GAAGTCTACT TGAAGATGAC AAGCACAAAG ACATTTATGATGATCCACTT CCACTTAGTG AATAGTAAAT ATGTTTTCTC TTCCTCCTAA TTTTTTAACA CTTTCTTCTC TCTAGCTTAATTTATTGTTA AGAATACAAT CTATAATACA TATGACATAC AAAATATGTC TTAGTTGACT GTTTATGTTA TCTGTAAGGCTTCAGGTCAA GAGTATGCTA TTAGTGGTTA AGTTTTCGAG GAGTCAAAAG GTGTATGTGG ACTTTCAACTGCAGGGGGGT GGGCACCCCT GCCCCCATGT TGTTCAAGGG TCAACTTTAC TGCCAAAGGC AAGCCTTTAC ATCCACTTTTTCCATCCCAT CAGTAAATGG AAAAAGATAG CTACAGTATC CCTGCGTCAA ATCTTTTTTT TTGCAGATCA CAAATTGGCCACTCACCTTG CTCTGTGAGG GGTAAAATGC CCCACTTTCT TTAGTAATAT TTAAGTTAGA TAATATTTAA GTTATAAAGTTGTTCTTTGT AATCGTTAAT TGTAATTTTT ACATAGTTTC TTTCAAACAG AAATAGCATT TTTGTTAGAT AACCTCCCGTATAGATGATG AAACTCCTTT TAAGGGCTAT CTGAATTTTA ATTCCTTGAA AAGGCAGAAA TTGGATAGCT AGTAGTCATAAATGTACTGT GGCTTCCCCC AACCATCTGG GCTATATAGA AGCTGCATCC TTGGACTGCA GTAGAGGAGTCTTACAAAGC ACAGAGCAAC TTCTCTCCTG GGTTGCGCTA GTTATGATGG CAATTTTAAA TGTGTACTTT TACCCAAAGAAAATCCTTAT TATCAACAAT CACAATGCCA TCATAACCAT GGTATAAAAA ATTCAAAATG TCCCAGCTGAAGTGGAGGCA AAGACTCAAG TTCATGGAGT CAGAGTTTCC TTGCTATTCC TCTTTTTCAA ATGACCATTT AGTAAGCACCTGAAGAAAAT ACTATGGACG GCATTGAAAA GTGAAGATAG GTTTAATCTT CTCGAAAATC TAATTCTCCAGATGAAACGC TGACACTTAT CCACCCCACA GACCCTATAG CAGATGTGTC ACTGGCCATC ACATTTGACACAGAGAAGTC ATAACTCAGT CAGCACAGAG ACATTTCCAT GAGTTTCTGA ACCATGGACA GAACGTCGTCTGTGGGACAT GAAAACTGGA ACTTAGAGGA CAGGCACATC TGAGAAATGG GCAGTTTAAA GGCAGAACATAGCACATATG TGACTGGGTT TTAGAAGCAA ATTTACAAGA CGCACTCTTC TTCATCCTAA ATAATCTGCA ACCAAAGCTTCCAAAAAAGA CAATTTAGGA ATGCAGAGGT GAGGAGTAGG GAGGGGAATG GGATGAGAGA GAGTGGAGATTAATGGTGGG CAGAGCGAGG TTTAGAACTT AGTGGTTTCT TCAGGTTCTG AACTGAAATT TGTATACTGTAAAGGCACAAACACCATTTT TAACAAAAGT GAGCAGGACT TCCTATCTGG TTCAGAAAAT GGTGAATAAATAGTACGAA TTATTAAAAA TAATAATTTC CACTTATACA TAGGAAACTT GATAGGAACC ATGATAAATG CTTAACTCTTAATCTTCAAG GAACTCTGCT AGGGATATAA TATTATAAAT CTTGTTTTGC AGATGGAGAA ATTGAATTTT AACCCAAGTTATCATAACCC TTAAATGATT AAATGATACT GTTACATGAG AAAGCTGCGT ATCTGTTTCC TGGATTTGTA GCCATAATTTGTGTCTCAAG TCCCTTTTGC TGCCAGCTAT CTTGGGTAGG TGTGTTCCCT TTGGGCTGTT TGATACCCCC ACATTTATCTTTTTTTTTTC TCTTTTTTTG TTGAGAGAGT CTTTCCCTGT TGCCTAGGCT GGAGGGCAAT GGCGCGATCT CGGCTCACTGCAACCTCCGC CTCCTGGGTT CAAGTGCTTC TCACGATTCT CTTGTCCCAG CCTCTCTAAT AGCTCGGATT ACTGGCATGCACCACCACGC CCACCTAATT TTGTATTTTT AGTAGACAAG GGGTTTCTCC ATGTTGGTCA GGGTGGTCTC AAACTCCTGACCTCAGGTGA TCTGCCTGCC TTGGCCTCCC AAAGTGCTGG GATTACAGGT GTGAGCCACC ATGCCTGGCC CCAAATTTATCTTTAATGCC CCAAATTATC TAGTTCCCAT GACTGGGCTT CTGCTTTGAT CCTTTCTGCA CTTGCTGGAC CCTCTCCCTGGGAAATGAGA TTGTGTCCTG AGCCCCTAGT TAGAGGCTAT GTCTCTGCTG TTCCTGAATG GGCCTCCTGG ATGAGACCTCATTAAAAGTC TAATTCTCTT GGAGAATTGA GAGATACCTA TTTGTCTCAA AATCATTGAA ACCAATTAAT GTATTATGAGCCTCTATCCA GTGATTTGTA CCTCAATTCC CCAATCCAGC TGTCAAGGCC AATTTGTTCT ACCTTACCTA GTAGGTAAGTCTGGAATTGT AGCTGTGGCA TTTTCAGTAA TGGTACTCTA GGTTAGCAGT CCCCAACCTT TTTGGCACCA GGGACCAGTTTTGTGGAAGA CAATTTTTCC ATGAAGGGCT GGGCAGGGGA GTGGTTTCAG GATGAAACTG TTCCACCTCAGATCATCAGG CATTAGATTC TCACAAGGAG TGCGCAAGCT AGATCCCTCA CACATGCAGT TCACAATAGGGTGTGCACTC CCATGAGAAT CTAACACCGC TGCTGATCTG ACAGGAGACA GAGCTCAGGC AGTAATACTCATTTGCCTAC CGCTCACCTC CTGCCGTGCA GCTCAGTTCC TAACAGGCCA CGGACCAGTA CTGGTCCACGGCGCAGGCAT CAGGGACCCC TGTTGCTAGG TATAAGCATC TGGCTGCTGC ATGTCTTCTG TGTAGCTACA TCTGTATGTGTATCTGATGA GATATAAATT ATTTGATTAT AAATTACTTT CTTCATATTA GAGTTGTGAA TGAGTATCAC ATATAATTATACATAAACTA GGAATATGCT TTTTAATAAT GTATATAAGT AAGTTTCCTT AACTATGACT TTCATCTTAG CGTAGTAAGAGGGTGCTAAG AAATATTTGT GATGAAAATA GGCATTGGTA GAGTTGAGAC CACTGGGTGA TGAAAGAGTGTAAAGATTTT AAAGCCTTCA GATGCTGGTT CAAGGTGAGA AATGTGATTG GGAGCAAATC AATTAACTTC TTGAAGTCTTATAGGGCAGT TATGAATACT TAATGTTAAC ATATGTAAAG CTCTTCTGCC CTGTATACAG TAAATGCTAG TTAGCTATTATGATCACTAC TAAAATGGGG ATGACATAAA CCTCATAAGG TTTTAAGTAT TATGCAAGAT ACTATACAAAGTCCAGTAAA TATCACATTC AATTGAATCC ATGATGTCCG ATTATTTTAG CTACTTCCAA GAGAGAAAAA AATGCTGTCAGTTTTACTGT TCTTATAGAG AGCAAGGCAG ATCCCAATTC CCAATGTGGT AACGTGAAAA TTTTTGCATT TGAATCAACAAAACACTTTC TCCTTTCTTT CCTACTATTT AACAACTGGT AAGTCTATAC TCCCCCAAAT CTGGAATTCT CCTTTCTTATTCTTTTTCCT CCTACCAAGA CCGCAGGATC TTTTACTTGG CTATAAGGGG TAAACCTCAA GTAGTACAAG TTCTCTGTATTACTTTTATA CTCTGTCACA GATTCCCTTT GTTTCCTCAT CTCCATGTGA ATTTAGTTAA ATTCTCAGCA TTCTGATCCTTACTATACAA GGTAAATGAA TATAAAAACA AAACGAAACA AAAACCTCTT CCTATTTACA TAAGGCCCCAACCTAATATT TAGTGATATA TATTAATGTG AACAAGGAAC TAACGAAGAC TGGGAAGAAA TTCACAGACTTGAGAGAAGA AATGGCAGGA TTTCCTGGGA ACAATTTCAT GTAACGTCAA AGGTGGTAAA AGGTCAAATAGAATGAAGAT GGAGAATACC GGATTTTCTT ACAAAATGAT TTCCCAGGAG ATCTCATCAA ATGCACGAGGATACCTTCTC AGTTTCACCT AGTGAGTAAA AGACTGGTAA CATAGCTCAC TTACAATTTG GATAAACAAAACTAAACAAA CAACATCAAA ATTTCAGAAA AAATAATAGC AAAACAGAAA TCAAACACTC AAATTTTTGGTCCTTCTGTT TATTTCATTT TGGATACTCA GTGAATGTTA ATTAACCAGG AAACTTAAAA GTTATTTCAA TTATGAACCTCTTCAATCCT TCATCAATTA TTTTGAGTAT TCTGGTCTTA AAAACATCTC TTTCTTCTAC AAACTTCTGA AAGAGATGAACACCTCCACC TACACCAAAA TAATGTGCTT TGCTGGCCAA AAGTACACGT CCATTTTTAC TTAACAGTCT AAGGAAAGTCTGGTGCAAAT TACTATAATA ATCTGGGTTG TAAATGGTTT CTGAGGTGAG AATGAGATCA TATTTTACAA AAAGTTTTTCACTACTTAGT ACAAGCTTAC AAAACTCAGA CCACTCACCA GAAAAAAATC GGCATTTATA TAGTTGTGTT ACTTTTGGTTTCCTGCATCT TTTCACATCT GGCTCATTTA CATCATTTTC TTCATCTTCC AAAGTGGAGT TAGCTACTAC ATTAGGTAAGGTTACTTCAT CAATCACCAT ACTGTTATAA TCTTGAAAGT GAATTTCTTT GGACCCTCCC TTGAATGCAG TTATACCTAGTAAACCTGAT CCACAACCAA GATCCAAGAC TTTTTTCCCA GCAAATTTCA CTTTGGCCTT TGTGAAATAA GCCAGGAGGTCAAAGGTACA TTCCCAGATT TTTAAGCCTC CCTCATAAAC ACCTGTAATC AGATCAGAGT GAGAAGAAAAGCTTTTTGAA ACTATGTTTT CTCCAGGGAA GTTCTCTTTC AACAAGATGG TTTTCACTAC TGATAACTTA ACATGCTGGAAACCTGGTAA TGTTTCTATG ACTTTATTTT CTAACATCTT CTTTAAATCT TTAGGCATAG CATGCTCTTT GGCAGCTCTCAAGGAGGGCT GTTTTCCATG TGGCTCCAAG TTCCTTGAAC TGCTGGCTGC ACTGAGTGGA CTGTCTGTGT CTTGAGAGGGAGCTGCATTT TCCATTGACT TATGTTCCCA CAAGTGATCC TGAGGCAAGT CAAATTGTTC TGCAGAACAT TTTCTGTCCCTCTCTTCTCC TTTTTGACTT TCTGAGACTG ACAGCTCTTT TGAGGAATCC AGGGTCAAAG CTCCATCTCT AATGGGTGTTAATTCATTTT CCAGATGGTC TTCTATAGTG AAATTAAACT GAAAGGTCAT CCTCTTATTA AATGCACACA ATCTTTAAATTCAGATTCTT CAACTTCTGG ATAGAATTTG ATGATACACA CAAATCTGCC TCAATTATTC AATTAGTTTT GTTGGGCCCAATTTCTCTTT AGCAGCTTAT ACATGGTAAC AAATATTTAG AGATATTTCC AAATGACTTT TTAGACGTCT TTGGTCCTCTTTCCAAGCAG CTCTGGAAAG AAAAAAAAAA AAAAAAGAAA GAAAATGATG ATTAAAGCAA AATGGCACATTTCACTAAAG TGTAATATTA AACAGCCACC CCCACCCCTC CCTGTCCCAC CATACAGCTG CTTTTTCTTA AAAAGTTGTGGGGAAGAGAG AGAGATAAGA GATTTGGACA CTCATACACA CCTTAAGGGT TCCAAAGTGG GAGAAGAAAATCAACTATAA AAACAAACAG AAGAACAACA GCAACCACCA CCACTACCAC CTGGACAAAC ATAAAGTCCAAGATATTCAG ACAGGACAGC CTAGCTACTT GCTGTCTTTC AGCTGTCTTG ATTTGTGTCC AACCATATTC ACCCCCTAAGCTTCCAGAAT AACTTCACTT CTGTCTTTTA CAGAAGAGGT GCAGTATTTT ATTTTGGTAA GTCAGCGTCC CTTTAAAAACATGCATAGGT ATGGCCTGGT GTGTGTAAAT TCATCCAAGA CTTCACTCCA AACATTTAGT CGAGAACAGCAGCCCTAAGT GTATAGAAGT GGGGGTAATT TGGCAATAAT TAGTAAAGAC TAATTCGGTG GCAGAGCAAACGCAAACTAG GGCACTGCAG TAGTTTGGAG AGACCTGTAG AAATAAGAAG CAACTTTATT GAGAATCTTCTATCTACTGC GCTAGACACT ATACCATCTG CCTCAATTTT CACAGTTCTG GCAAGTGGGA TCTTTGTTCC CTTTATACAAGATTTACAAT TTGGGGGAGA GGCGGGTCAC CCAGTCCCGC GGCTAGGAAC GCGCCTCTTT CCTCTCCCATCACGCTGCAA GGCTTGGAGT CACTTCCGGC TGCAGGTCCC GGAACAAATC CGACCCCAGA AGTGGGGACTTCTGGCCCTC ACCTCCCCAT TTGAATGTAA TGTTTACAGT GATCCAGACC TGGGGATGCT TGCTTCCCGA CGTGTCCTGGGATCGCGCTT CTGAAAAAGC TCACCTCACA ACGCCTCCTC CGGACCTAAA TCGCGCACCA GTGAGTCGAGTCCTCCAGGG GCTAGAGAAG CCCGACTTTC TTTCCGGCCT TGAGGGACCC GGGCTCACCA AGAAACCAGCCGCCCTCCTC TCTATGGTTT TGGAGCCGGC GGAGAGCGCG CAAGGGTTGG CGGGACTGCG AGTTTCCGGTCTGGGCTTTG GCGGGTCTGG TTTGAAGCTC TCCTGTTTGA CGAAAGTATG TCTCAGGAAG GTGCGGTCCCAGCTAGCGCG GTTCCCCTGG AAGAATTAAG TAGCTGGCCA GAGGAGCTAT GCCGCCGGGA ACTGCCGTCCGTCCTGCCCC GACTCCTCAT ATCCTTCCTT GGTTGTCACT TCTACCTAGA GAAGGGTGTG GGCGGGTCGC GAACCTTTCTCTTCTGTCCC TTCAGACCCA CCGCCAGGCT GGGTTATATT ACCGCGGCCT GAACCCCCTC TTTTCTTTGT CAGTGAGTGGGATGAAAAGT GAGGGACTGG AGGGGAAGCG ACAACCGTGG TAGATTTAAG TAAGGCTTTG GCCCTGGAAAGCCTCGCGGA CGTGTTCTGA CCCAAGGTTT TAGCAGTGGA TGTGGCGTTT TCTTCCATTC CTTCTTTCAG TTTTTCTGTACTCGTTGCTT GCAATTAAGT GTAAATACTT TTGCTAGTGG ATAATGGGGG AGGCAAGGAC TGAGACCTGCGGTATGACGA TAGCTCTGGC TCTTAATAGT TTGAGGTAAA GCGAGATACT CTGAGCTTTT GTCTCCCGTAAAAAGGGTGG TGAATATGAA TAAGGGCTTT CTTAGCGTTA TAAGAATTAA AGGGCATAGT TCTGTGGTGTGAAATCTTTA AAAGATGTTC AGTAAATAAA AATGATTTTC CTCCTTCCCC TCTCAGACCT CTTTTTCTTC TTTCTTTCTTTTTTTTTGAC AAGTTCTCAC TCCTCTCACC CAGGCTGGAG TCTTTCTGAA AGAGTTCTTC CGCTTGTTGT TGGCTTTCAACTGTTGGATT TGAGGCGCTT AGCGCCTTCT TCGTCCGGGT GCAGCACATT CTTGATTGGT CTCATGCCTT TGTGGTTGTAAATGTGCCTG GAATCCTAGC CTTTCATGGT AAACCATATG TATATGTATC TTTTTCACAA CATTTGAGCC CAGCTTTATACAATTACACT CAAAAGAAAA AAAGTAACCT TCACTTGAGA GAATCTCAAT ACTGCACAAA TATTGTGCAGCTAAAGCCCT ATGTAATCAC ATAGAAGTCA TTCACCTAGG CATTAGCAAA ATCTCAGAAG GTGCCAAAGCCCCCTTTTTT AGTTTTTGTG TAGGTACAGA ACTGCCGTCT TCAAGGAGTT TCAACTTGAA AACAAATAGC CACCCTCAAAACATTCAAAA ACACTTAAAC TGCGTGCATA ATGTGTGTGA GACATGGTGT TAGGCTTTGG GAGAACAGAGACACGGAACG TGATTCCTCT TCTTCCCCAC AAGCTTATAG AGAGACTTCA TTAAGTTGAA AGTCAACATT CCCACCTAGCTTTGCACTTC AAACGACATA TTCAAAAAAG CCCAAACTTC CTCTAGTTTT CTTCATCTGA GTAAATGGTT TCACAAACTGAAACCTTGAA TCCTCTCTGT CTCACACACC CGATCAGTAA GTTCTATTGT TTCTGATTCC AAACTATGTC TTGAATCAATCCGTTTATCT CCATCCTCAT TGCTACCACT CTGATTCCAA ACCCTTATCA CCTCTCACTT GGAGTATTAA TAGTTTCCTTGTTTCTACTC ATAATTCATT ATTCCAAAAA AGTTAAGAGG GGAAAAACAT AGATCTCGTC ATTTCCCTTT TTAAACCACTTTACCTTCAA GGTTCCAGGT GATCTAAGCC TTGCCCTTCT CTCATACCTA GTTAATTAAC TACACTCTGT TCATGAATACATTAGGCTCA CCTACCTCAA GATCTTTTTG CTCAGCCTGA TTTGTTCTCT CAGCCTTTTG CATATTTCAT GTTTATGTCTTGGCCCAAAT GTCACTTCCT TAGAGGGGCT TTTTCAGAGC CTTCAATCTT AGGCAGTTCC CCCAAACGCA GTCTTACACTTGTATCACAT TGGCCTGTTC AGTTTTCTAA AAAGCACATT ACCATTAAAA GAAATGCTCT TGTTTGCTTT GTATATTTTCCACTTCTACA CATTATGTTG CAAAGTTCAT AAAGGCAGGA TGTTGATTTT CTTCACAGCG TTACCCTCAG CACCTAGAACAGTGCCTGAC ACATAGTAAG CATTCATTAA AGGGCTAAAA ATATTTCATG TTTTAAAAAT ACTTGGGAGTCTAATTAGAC AATACTTTTT TTCAGCTTAA TGGTAGTATT TTAGCTTCAC TATTTTAACA AATGAAAAAT TTGCAATAAATCTACAATGC CATTACCCCC CAAAATCTTT TTCATGTTTT GCATTTTACG TATTATTTTC CAGGCCTTAC CTGCATGTCTGCATAATCAT AACTGACTAA TTTTGGAACA GCTGGTAATT ATTTGAGCTT TACTGAAATT TTTTCATGAG GCCAATTCTACCCTACTGAA CTCAAATTTG AGTTAATGAT GACCTCATTT TGATTGCTGC TGTAAAAAAT AAGATTTCGG AAGAGGAATGAATTCTTGTA TTACTGTGGT AGGACTATGG GTTTTTTTTT GTTTGTTTGT TTGTTTTGAG ACGGAGTCTC ACCCTGTCACCCAGGCTGGA GTGCAGTGGT GCGATCTCAG CTCACAGCAG CCAGGTTCAA GTGATTCTCC TTCCTCAGCCTCCCGAGTAG CTGAGATTAC AGGCACGTGC CACCATGCCC GGCTAATTTT TTGTATCTTT AGTAGAGATG GTTTCACCATGTTGGCCAGG CTGGTCTCGA ACTCCTGACC TCGTGATCCG CCTGCCTCAG CCTCCCAAAG TGCTGGGACTACAGGCGTGA GCCACCGTGC CCGGCCGGGT TATTCATTTT TCTTATTAAC ATTCTTTGAT GATTCTTATG GTGTTGTTACAGTAAAACAT TTCTAACAAT TATTCTAACA ATTATTCTTG ATGGTGTATA TGAAGAATTT ATTGTCGTGT ATTTGTAAGCTGCTATGTGC AGAAGAATTT CAGTCAAATA AAGTTGGTAA GATAGGTATG TAAGTAATAT GAAAAAAGATAGAAGGTGAT GAGTGACTTA GGTATAAATT AAGTACAATA GAAATGTTGA GGAAAGAAAA ATTTCTTGTAATAGAAATCG GAAGTACAAA CTGGGCATGG TGGTGTGCAT CTCTAATCCC AGCTCCTTGA GAGGCTGGTATGGGAGGATC ACTTTAGCCC AGGAGCTTGA GGCTGCAGTG AGGTGTGATC ATGTCACCGC ACTCCATCCTGGGTGACAGC AAGACCGTCT CTCTTTTTTT TTTTTTTTGA GACGGAGTCT CGCCTATGCT GGAGTGCAAT GGCGCGATCTTGGCTCACTG CAACCTCTGC CTCCCAGTTT CAAGTGATTC TCCTGCCTCA GCCTCCTGAG CAGCTGGGAT TACAGGTGTGCGCCACCATG CCCAGCTAAT TATTTTGTAT TTTAAGTAGA GACGGGTTCT CACCATACTG GCCAGGCTGG TCTTCAACTCCTGACCTCTT GTTCGCCCAT CTAGGTCTCC CAAAGTGCTG GGATTACAGG TGTGAGCCAC CCCACTTGGCCCCGAGCGAG ACCCTCTCTC TAAAAAAAAA TAAATAAATA AATCATAAAC CTGTGGATTA TTGTAGCATT GTTTCTCATCTGTCAAAAAT ATTTCATGAC TATGCATAGT TTGAAAAGGC AAGTTTGTCC CTGGGCAATT TTCAAAATAT TTCTTTAATGTGTTTTCACA ATACTGTTTA CCTAATAAAT CTTAAGTTTT TAAAAGCAAA ATTAAGCCAG TAATTTGAGT CCAATTCCAATCTCTTATGA GTCATTGCTT AAATTTCAAA AGGGTTTTAT TTTTTTTTTA GGTTTGTTCT GAGTAATGAA TACCCTATTACTATGATACT AGTATCTTCC TTAATTATCC TACTCATTGT CTCAACATTC TGACAGTTGG ATTGAGCATA TTCGTAAGTAAAATTGTTTT AACTGTATGA TGTACTTTGA TGTTAAGGTC CGAGTCCCCA CATACCTCGG TAGATGTGTT CTTACAGTTTTGTATTCCCT TGAAATGTAA CTGTTCTCTA TGTTACAGCC TTTATAACCT TCAGTTACTT GAAATGAACA AATTCATTCAAATTCCAGCA CTTAAAAGTT TTAAATTACA TTTTGGATAA ATACCAAAGT GTTTTGTTGA TGATGTATGT ATAAACAAATTGTAAATATT AAACGTTAGT TGTTACGATT AGACCTATAT AAAACATGAT ATGCAGTCTA CTGAATAGCT ATCAGCCTCTAACATGTTTA GTGTCATTTA GAAAATGCTT TCTAAATTGC CAAAAGCTGA TTGTCTAGGT GATAACAAAT TTACCATTTGGAGGAAGTTG ACTTTCTCAT TTTCATGTCT TCATCAGTCT TACTTGATGA GATTCATTCT TCTAGTCAGA AGAGAGTTTAGACTGCTCAG TTTACTCATA TTTTGAGTTA GCTTTTCTAT TTAGAGTTCA CTTGGTTGTG GAATATTCAT TTATAATTTGAATCTACGTT GTGTAATGGG ACCTAATTTT TTTTTCCTTT GTTTTTGTTG GAGTCTCGTT TTGTCACCCA GGTTGGAGTGCAGTGGCGTG ATCTTTGCTC ACTGCAACCT CCACCTTCCA GGTTCAGGTG ATTCTCCTGC CTCAGTCTCC CAAGTAGCTGGGATTACAGG CATGCTTCAC CACGCCTGGC TAATTTTTGT ATTTTTAGTA GAGATGGGGT TTCACCATGT TGGCCAGGCTGGTCTCAAAA CTCCTGAGCT CAAGTGATCC TCCTGCCTTG GCCTCCATAA GTGCTGGGAT TACAGGCGTGAGCCGCTGAG CCTGGCCCCA GAGTTTGTTT TGTTTTGTTT TCAAGACAAG ATCTCACTCT ATTGCCCAGG CTGGAGAGCAGTAGTGCGAT CATAGCTCAC TGCAGCCTGA ACTCCTGGGT TCAAGCTATT CTCCTGCCTC CATCTTCTAA AGTGCTGTGATTACAGGTCT GAGCCATGAT GCTTGGCCTG TGTTTTTGTT TGTTTGTTTT GGGGGACAGG GTCTTGCTTT GTCACCAAAACTGGAGTGTA GTGGTGCGAA CATAGCTAGC TCACTGCAGC CTCCATCTCC CACGCTCAAG CAATCCTCTC ACCTCAGCCTTCCAAGTAGC TGAGACCGCA GGTGCGTGCT ACCATGCGTG GCTAATTTTC TATTTATATA TTTATTTTTT GGTAGACATGAGGTCTTGTC ATGTTTCCCA GGTGGTCTTT AACTCCTGGG CTCAGACAGT CCTCCCGCCT CAGCCACCCA AAGTGTTGGGATTACAGGCG TGAGCCACCA TGCGTGGCAT AATTTTTTTT AAGTAAATTA TTTTTTTATC TTGAGTATAG AAGTGATTCATGTTCATTGT GGAAAATATG AAACATATAG AAAAACAGAA AAGATTACAA AACATCTAAT CTGAAATGGTTAAGATTTTG ATGAGAACAG TCTCATCTCA TTTCCGTATA TTCCTGCCAG CCTATCCATC ATTCTTCGTA CATGTTTATCTACATTAAAA TTGGTGTTAT ATTTTGGAAA CTTTTTGTTT AACTACATTG TGAACATTTT TCATGTTTTA AAATGTCATTTTAATGATGG CAGATCCTAT TCAATAGATG TACACACACC TATTTAACTG GTCCACAATT GTTGGATATG TAGGTCGTTTCCTTTCTCTC TTTTTTTTTT TTTTTGGCTA CTACTTAATA GTTTCTCTGT ATAGAATGTG GTATTTTGAA AGTGTATCAAGCTTTAGATT GGTAGTATTC TTGCATTTAA TAAAGGGCAG TGGCCTTTGT TGACTGACAT GACAATATTT TTATAAAATTTGTTATTTGC TTTACAGAAA TTTTGAAAAT TATTGTAGAA ATGTTTTTAC CTCATATGAA CCACCTGACA TTGGAACAGACTTTCTTTTC ACAAGTGTTA CCAAAGGTAT AATACTATTA CCTGAAAATA CATGTTATAA GGAATCTAGC CTCAGTCTTAGATGATTTAT TATTAATTAT GGCTCTCTTT TTCTAATATA TCAAATATAT TCAAAATAAA AATAAGGAGT AAGTAGATCTCATGTGAGAC TATAATGGTG TTAGTGTGAT CATTAGGCAG TTAAAAACTG TTACAGGCTG GGCACGGTGGCTCATGCCTG TAATCCCAGC TCTCTGAGAG GCTGAGGTGG GCAGATCATC TGAGGTCAGG AGTTCGAGACCACCCATGGT CAACATGATG AAACCTCGTC TCTACTAAAA GTACAAAAAA TTAGCTGGAC ATGGTGGCAGGTGCCTGTAA TCCCAGCTAC TTGGGAGACT GAGACAGGAG AATTGCTTGA GCCTGGGAGG CGGAGGTTGCATTGAGTCAA GATCGTGCCA TTGCACTCCA GCCTGGGCAA TAAGAGCGAT GCTCCGTCTC AAAAAAAAAAAAAAAAAAAA AAGAACTTAT ATTTTCAGAT TGTGTGGTTC CTTTACTAAC TGAATTTAAA TTATTTGTAG TCAATTTTAAATGCTCTTGT ATTTTAAAGC CACTGTACTC CAGCCTGGGT GACAGAGTGA AACCCTTAAT TCAAAAAAAAAAAAAAAAAA AAGAAAAGCT GGAATATTGG CAAAATCAAG TAACTAAGAG AAAACATTAA ATTCACAGAATACATTATTA CATTTTAGAT ATATATGGTA TATGTTTTCT CTGAAAAGCA CAAGCATACC TTTTTTGTTT TAAATGGAGGGAACTAAAGA TACTTTGGTG CCAAAATGAA ACATTATTTG TAATTAATCT CTTATTGAAA TGGGTTTCTA ACTTTAGCTTTGAATCGTAA TCTTTCAAAT TTCTTGTACT CATAGTCACT TGATGATTCT CTATCTGAAA TATTTCTTAG AATTTGTTCTTGACCACCAG AAAAAGATTC AACTGTTACA TAGATGAAAA TGGATGTTGA GTGTTAACAG GCCTATGGGAAACAGTATTT TCTTTAGCTA CATTGTATTG TTGACTGTGT TGCTATTCTT ATAATGTTTA GGTCATTTAA ATTGTTAGAAAGATCCAAGT ATTAAGATCT AGGGTGGCTA ACTTTTCACA GACAAAAAGC TTGTTTGTAA GGTCATTTAC TATACCCTTAATTCAGGAAG GTTAGCTTGA ATTGGGTCAA AAGGAAACTG GTTAGAAAAT AAGTGAGTAG TGAATAGGCGATTCAGTGCA AATTCCTTCC AGAAAATACC CTTGTAAATG ACTGTATGAA TGTGGATTCT TCAAGACAGT CAAATTTATTGTGCGAAAGT AATACTTTTA TTTTTTGCAT CTCTAAAACA TGAACTTTGA GTGATTTTTT AAAAAAATTG ATGCTATTAAATAGATTCAA ACCATAGAAA TGGAAAATAA ATTTCTGTTT GGGGCTTTTG GGGGGATTAT GTTGTAAAAA TACCTTTTCTCTGTATTTTG TGCTTAATTA GGTACAATTG TTAAGCTAGA TGATAGCCTG TGGATGTTAC TAGTGCAAAA TCAAATTATCGTATTGTGTT TTCTCTGTAA AGTTTTGTCT TGTCTTTTCT AGTGATTTCT CTTATTCCTG TTTATTACTT GATTTGTTTTTACAGACTGT GAAATTATTC GATGACATGA TGTATGAATT AACCAGTCAA GCCAGAGGAC TGTCAAGCCAAAATTTGGAA ATCCAGACCA CTCTAAGGAA TATTTTACAA GTAAGTCAAA TGTATTAGAA AGCAGGAGAGAGAGGGAGCT TAAAGAATGT CAAAATTTTT ATACTGATAC TGATTAGCTA TGTATTCTTA TGTAATGGCC TAATGTTGGAATTAAATTTA TAGAATTAAA GACGTGAATA TAGAAACATG AATTCTGAAT AATAAACTCT TATAAGAAGAGAAGTCATCA AGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG AACACCTGCC ATGTGTTTTG AAGTTTGTGTTAGTATTCTA AATGGCTAGA CAGTTGTTCC AGTATTTGTA GTTCTGATAG ACTAAAGTTC TGTGAAAAGAGGAAGAGACT GTGTTTTGTT CATTGCTGTA TTTGTAGCAC CCAGCATGCT GACTAATACC TTTTCAGTGC ACAAAAAATATATTCTAAGT GAAATTTCCT TCCTTATTCA CAGACAATGG TGCAGCTCTT AGGAGCTCTC ACAGGATGTG TTCAGCATATCTGTGCCACA CAGGAATCCA TCATTTTGGA AAATATTCAG AGTCTCCCCT CCTCAGTCCT TCATATAATT AAAAGCACATTTGTGCATTG TAAGGTGAGT AAAGGTCTAA TTATACTTTG AATGGTATAT AATCAATGTG CATAGGGGCTGAGTAAAATA ATGTTTGTAT AAGATTTTAC ATTTTAGTCT ATATTATTGA AATAAACTTT TCCATAGAAT AAAGAACATGTAAGTAAATA ATTGTTGCAA AAAAAGTGGT TTTAAGGAAG TCATTAAAAG TGGCTTTTTG GGGTTTTTTA GTTTTATCTTATTTCCCCTC TATAAAGAAA GAAGTTTTAA GAATTTGTGT TGAGACAGAC ACAGGGATCC TGAAATAGTT ATGTCATGTTGCATTGACCA ATATTCAATT ACCATTATGA TTAGATGTCA GAACTTCCTT TTATAAAGGA AAGTTAATCC TTATTTAGTCCATCTCTACA TGCCAGAGGT AGCCTTGAGG CACAAAAGCT TGCCTAGAAT TTATGGGTCA CAGACAGTTT TAATATTGCTATTTGTTGGG CGAATGAAAA TCACTAGTTA ATTAATACCT CTCTTTGCTG ATAGGATGCT AAAAATGTCA CGCACCTGGCCTAATGTTAC CCTTTTTTAG TTCTGTATTT GCAAGATCAT GGAAGTCAGA AATAATATTT TATACATGCT TGCATCTCTTGAAGCACACT ATATTTAATG GATGTTCACT AAACAATGAA TGAATATGTG ATTCAGTAAA TTTATGATCT CTAATAGTATGAATTAAAGT AAATTTGGCT CTTGAGCTTT GATTTGTTTT TTCTCTCATT TTTATTTATC CGTAATCAGA ATAGTGAATCTGTGTATTCT GGGTGTTTAC ACCTAGTTTC AGACCTTCTC CAGGCTCTTT TCAAGGAGGC CTATTCTCTT CAAAAGCAGTTAATGGAACT GCTGGACATG GTTTGCATGG ACCCTTTAGT AGATGACAAT GATGATATTTTGAATATGGTAATAGGTGAG TGAAGAAAAC TTTCTGCTTA GTATATGGTG ACTATAAATC ATGTATCAAT TAAAATTGTC TCTAATGATTCATGTTATTT TCTTACTAAT TATGCATTAA AATTGATTTA AATCTTACCA AATAAATTTT TAATCTTGAA ATTTGGAATTTGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC CACAATGATT AACTTATATAACTTTATAAT CTCTGAGGTT GTCCATATTC AGAGACAATA ACTTTCACAT TTTTTTAACC ATAACTGATA TTGAGATGCAGTTTATATTT CCTTCCAGAA TACATATAAA TACGTGCATA TGTGTATGTA AATATGTCTA TTCTCATATA CATATTATAATGAAATAACT CATTTTACAT GTGATGCACT TTATACTAGT TTATTTTTAT TTTATTTTAT TTTTTTGAGA CAGAGTCTCACTGTGTAGCC CAGGCTGGAG TGCAGTGGCA CAATCTCGGC TCACTGCAAC CTCGCCTCCC GGACTCAAGCGATTCTCCTG CCTCAGCCTC ATGAGTAGCT GGGATTATAG GCGTCCGCCA CCACACCTGG CTAATTTTTG TATTTTTAGTAGAGACAGGG TTTCACCGTG TTGGCCAGGC TGGTCTTGAA CTCCTGACCT CAGGTAATCC ACCTGCCTCAGCCTCCCAAA GTGCTGGGAT TACAGGCATG AGCCACCGTG CCCAGCCAAT ACTAGTTTAT TTTTAAAGAATTGCTGGTCG TAACACACTT CATTGATTTT ATCACTCATT AATGGATTAT GAACAAGAGT TTGAAAAACA ATATAAAGGCAAAGTTTGCA TTCAAAACTT TGGTATAAAG AGAGTAAGTT GGTTTTGTGC AGTGTATCAG GCACCTGTTG CTCTGCAACACACCACCTCA AAATCTATTT ATTCACTATT TATTTATTCA TGATTCTGTG AGTCTGCAGT TTAGGGTGGG ATGTCCTGAGACAACTTTCT CTGATCCACC TGGGGCACTA GCTCACCCAT GTGACTTCAG TGACTTCATT CACATCTGGC TGTTGGCAGAGGCAGAAGTA CTTGAGAAAG CCATGTGCAT CATCCAGCAG GTTCACCCTA TCTCAGATAC CTGATGCCAGTGGTTTCAGG GTTTCTAAGA GTAGCAAAAG TGTGAGCAGG TCGCTGTGTG CTAGCACTTT TCAAGTTTCT GCTTGCCTTAATTTTATTAT TGTCCCCCGG GCCACAGCAG GTCATAGCGT TTAGCCCAGA GTCATTGTAG AAAAGTGTGGATTCACAAAG GGCAGTCATT GTGGCCATTT TTATAAATAA TCTACCACAG ACTGAGTAAA AGCCTTGCATGAATACCATG GATATTAATT TGAATTCTTC CTTTTTAGAT TTTCTTTCCT TAGCAATTTG TTTTGTCATT TTGGATTAGAATTATATCTG TAGAATATTT CAGTTATAAT AGGGTACAAC TTTTATTCCA CTGAACATCT TTAGTTTTAT TTAGGTCATCTGGTAGGTAT AAACTTCAGA AGTTAATATT CAATATTTAT AAAAACCATT AACAAGTGTG ACACTTAAAT AGTTTAAATAATTCTTTTGA CACAACTGTT TCCAAGTTGT GTTACGTATT TTAATTCAAT CAAATGTTGA AATTGTTCAG TAGATAGTTTTAATTATAGG AGAAACTCAC CCCCATGACA TTTGGATGTC TTAAAAGTTC TGTTATCTTT CTTTGCAGTT ATTCATTCTTTATTGGATATCTGCTCTGTT ATTTCCAGTA TGGACCATGC ATTTCATGCC AATACTTGGA AGTTTATAAT TAAGTAAGTTTGTTTGTTAT TTTTTACTTT TTAGAAAATG TTTTCCATAT TCCCCAATCT TAATTATTCA TGATTCTTTA GATTGCATTTAAAACATTTT GTGTGAATTT AATGTTCACT GACACTGCTG TCTGATAATC CAGATATTCT ACATGTAGCT CTCAAGCCAAATTGGACTTC TTTACCCTGT GGCCTCTAAA ATTAAAAAAA ATGTTCTTCC TAGTTAGCTA GTACTTCAGA AATAATGGGCCATGGGCCAG ACTAGAACTT AACCACTTTT CTTCTGCTAC TGTTGTTTAA CCAGCTATCA AGTATCCTAT TTCTAGGATTAGATAAATTG ATAACTATAA TTAAAACTGA ATATAATCTT TTCATTAGGT ACTTTTAAGT TGTTCACACT TAATTCCATTTGTACAGTAA TTTTAACTTT CTGAAACTGA AGCATTTTAA AGGGTCACCA GGGATAGTGC CTGTAGCATT CATCAGATTCTTAGGGGTGA GAGGAGATGT GGTTGAGATG TAAAAATGGT TAAGAATATC TACTTTATAC ACATACATAAAACATTAAAG GTCAGTGTAT TTTCAGGTCT TAGGTACTTT TCTTGTACTA CCAGGACATT AAGTTGCCAT TCAGTGGTTAAGAGTGTTGC CTGGGAGCTG TATCACATGT GCTTAAATCC ATTCTTGAAA TCATTTACTC CTTCTGAGCC CTTGGGCTATTTGGTTAATT TCTCTGAACG TTAGTTTGCT CATCTGAAAA TGGAAATAAT AATAGCAACT TCTTGACAGG GTTATAGTGAGAATTGAGTT CATCACTGTG AAATGCTTAG AAATGTGCAT GACACATAGT TAATACTCAA GGAATTAGCCACATCACTAT CATCATCACT GATTATCTTC CACTCTTACC CTCTTCCAGT TCATTTTCTG CCCAGCAGAA TGATCTTTTAAAAAGTAAAT CAGATCATGT TACTCTATTG CTTGAAGTCT ATCCCATTTG ATTAAGAATA ACAACCTAAT CCTCTGTGGATGCTGCCTCC TTCACCAGCC TGTCTCATGC TGCTCTCCCT ACTCTTAGTT CCTCAAACAT ACCAAACTCT CCTGTCCCAGAGTCTTTTCG TGGTTTTTCC ATCTGCCTAG GATGCTTCTC TCTCCTATTT TGTGTACCTT GCTAACTCCT GCTTACTGTCTTTCAGTTCT CAGCTTAAGA GTTATATCTT CATGATAACA TTCTTTGATA TCCTTACCCT AAGATTAAGT TAGATTGATATCCTTACCCT AAGAATAAGT TAGATTAGGT CTCTCTATTG TAGCACCTTA GACTCTGTCA TTTGACAAAT CACAGCCCTAATTAATTATT CTTAAAATTA TTTAACATTC TCTCTCATGC TAGACCACAA GTTTCATGCA GGTAAGGCGG AGATTGTGTCCATTTGTTTG ACCCCTTTGT CTCCAGGGCC TGGTAGAATG CCTCATACAT AGTAAGAATT CAATTAATAT TTTACACAGAGAAAAAATTA GCAACTTATT TAAACAAATA TAACTGCTTC AGAGGTAAAC TGGGCACATC TTAGTTATAT TATGTGATATATGATGCTTT TTGATTGTTT TTTTAAATGT TCTACAAGGT AGATATTGTT AGAGGTCCTA AGTTACTTGA TGTGTTACTTGTGGTGATTG TATTCTTTTC TTTTTATTCA TTTAGGCAGA GCCTTAAGCA CCAGTCCATA ATAAAAAGCC AGTTGAAACACAAAGATATA ATTACTAGCT TGTGTGAAGA CATTCTTTTC TCCTTCCATT CTTGTTTACA GTTAGCTGAG CAGATGACACAGTCAGATGC ACAGGTAAAA TTTGGGCTAA TAGCATTTTA AACAGCAACT CTTATTTTCT TTGGCAGTTA GTAAATCTCATTTGAATGTC TGGGTCAGTC TATTTAAGAG GATTTTAATT TATTTCATTT GGGTGTTTTT TTTTGATCTG TGGGATTATTTATATCCCAT AATTACTTTT CACCCAGAGC ATTGTATTAG ATTCCTAACT GCTGTCATTG CCTCTGGGGT CTGCCTGGCTCCCTCTTTGC TTGGTAACTG GTTGGTCACA GCATTCTTCT CAGAATCCTT TCATTCTTTT CTGCATGAGA ACAAAAATTCTTTTGTTCAT ATTTGTATAA GATCTGATAT AGCTGCAATC AATCTTGCAT TTTTTCTTCA CCAACGCATT GCGACCTTTAGGGATACAAG TATGTTTGTG CATGTATATG TATGTATCAG TCTTTTAAAT TTGATATAGT CATACATTTG TTTTTATTTTGAAAAGTTAG AGTGTTGAAT TGGTATCCCA TTTATGAAAC ATTATATTCT AAAAATTTGT AGTACGATTA TTGGGAATTATAACTCATTT TCCTGTAACA CTGTTATACA TAGTACCTTT TGCTTTCAGA CTAGCCCTCA ATTTTATTTA ACTATAGTAGTCCTAAATTA TAAGATTAAT AGTACTCAGG ACCTAACAGT TATATGTCAT TTGTTTTTTT TTTTTTTGAG ATGGCGTCTCACTCTGTCAC CCAAGCTGGA GTGCAGTGGT ATGACCTTGG CTCACTGCAG CCTCTGCCTC ACGGGTTCAA GGGATCGTTCTGCCTTAGCC TCCTGAGTAG CTGGGATTAT AGGCGCCTGC CACCACGCCT GGCTAATTTT TTTAGTAGAG ACGGGGTTTCGCCATGTTGG CCAGGCTGGT CTCGAACTCC TGACCTCAGG TGGTCCACCC GCCTTGGCCT CCCAAAGTGCTGGGATTACA GGTGTGAGCC ACCGCGCCCA GCCTATATGT AATAATTTTA ATGGGACCAT GAATTGAATA TTTCTTCCTTGAATAGCAAT GACATAGCCC CTTCTATTGT ACATCTGCAA GCTGATACAG GGAATTCCTT TGTACCTGCG CTCTTCCCTGCCAGTCAGCT ATGGGGGTGA AAGTGTAGGG GTTCATCCAA GTCCTAAAAC TGGTAGCAAC TCCTAGGGCAGGGCTGATCT GGAAGGACAG ACCCTAGGGG AGGGTGGAAC TTTAAAAAGA AGTTCTGAAG GTAGTAAGAAGGAAATGAGG AGTAGTGTTA GGAAGGGGCT AACTTTTTTC TTCTTGCTTC TCTTCTTTAT CTCACCTGCC CCTCCCCTTGTATCCCTTCT TCCTTTTTCC CTTTCCTTTT TTGTCCTCAC TTCATTCGTG CATCCTTTCT GATTCCTCTT ACCTTGCTAAAAGGAGAAGT TTGTTTGGGT ATCCTATATC AATGGCAGGA AGGTTGTTTT CTTCTTTACC TTTATCCTAT AGATTCATATTCTCAACACC AACCTCCTCC TTTTTCAGTT TCCTTCTTGC TTCTCTTGAC ACCACAGAGT TTGCAGCTAG TACTTGGAGAGGAAAATTAA ACAGAGATAC TTGGACCAAG AGTAAGATGA AGAAAGTCTA AACAACAGTA TAGTCTATAGTGGCAAGAGA GAGTATGGGG GCTGCTTAGC CAGGGTGGCT GTACATAAAG TATATCTTCA GTTTATATAAACTGCTTATA GATGGAAATC AGAAAATTTA AATTCTCTTA ACTGTCCAAG AAAATTCTCA TTTTTTCAAA TTTGGGACTGATAAATGTGA CCAGTTCTGC TTACTGTCCA TTGCCTGAAA TGGAGCTTTG AGGTGGACTG TATAATTTCT TCAATCTTAACTCCAAATTC TGATCAGCGA CGCCCTCTGC TGTTCACTAT TAATATTTAT TTACCAATCA AAGTAAAGTA TTGAAGTTTTCCTGGCAGTT TTCACTTTGT GTTTTAGTCC ATTTAGGCTG CTATAACAAA ATCCCTTAAA CTGGGTAAGG GATTATAAATATTAGAAATT TATCTCTCAC AGTTCTGGAA GCTGGGAAGC CCAATATCAA GGCACCAGTA GATTTGGTGTCTAACGAGGG TGTGCCGTCT GCTTCAAAAA TGGCCCCTTG TTGCTGCATC CTCACTTAGT GCAAGGGGCAAGACAGCTCC CTTCAACCTC TTTTATAAGG GCACTTATGT CATTCATGAG GGCAGAGCCC TCATGACTTA ATCACTTCCCCAAAGGCCCC ACCTCTTAAT AGTATCACAT TGGGTGTTAG GTGTCTGGGA GGACACCAAT CTTCAAGCCATATCATCTCA CTTGGAAAAA AGTCAAAATA AAACCAGTAG ATTTAATTAA TATTACACTA TTTATAGAAG CATGTGATGTATCATTCCTT GTATTAATTT CCTGGGGTTG CCGTAACAAG TTACCACAAA CTAGGTGGCT TAAAACAATA GAATTTTATTCTCTCACATT TCTAGAGGCA GAAGTTCACA GTGTGTCAAT AGGGCCATGT TCTCTGGAAG GCTTTAGGGG AGAATATATTTCATATCTTT CTCTTAGCTT CTCGGTGTCA CTGGCAATCC TTAGCTTACT TTGGCTTTCT GTGTCTTCAC ATCATCTTTTTATAAGAACA CCAGTGATAG TGATTAAGGG CATACCTTAC TTTAATATGA CCTCATCTTA ACTAATTATG TCTTCAATAACCCTATTTCC AAATAAGGCC ACATTCTGAA GTATTGGGAG TTAGAACTTA AAGCTTTTTG GGAGGGACACAGTTCAACCC ATAACAACCC CTAAAATCGA TATTTATTCT CAATTAAGTC TTGAAATTGG TTTCAAAAAG AGAATATTCTATTAGAGTTT TTAATGTATA GTTTTAACAT ATAGTTCTTT AGCCCCCAAT TTTTTTTTTT TTTTTTTTTT TTTTTTTTTTTTTTTGAGAC GGAGTCTCGC TCTGTCGCCC AGGCCGGACT GCGGACTGCA GTGGCGCAAT CTCGGCTCACTGCAAGCTCC GCTTCCCGGG TTCACGCCAT TCCCCTGCCT CAGCCTCCCG AGTAGCTGGG ACTACAGGCGCCTGCCACCG CGCCCGGCTA ATTTTTTTGT ATTTTTAGTA GAGACGGGGT TTCACCTTGT TAGCCAGGAT GGTCTCGATCTCCTGACCTC ATGATCCACC CGCCTCGGCC TCCCAAAGTG CTGGGATTAC AGGCGTGAGC CACCGCGCCCGGCCTGCCCC CAATTATTTA GTTTTTCTAT AAACAGGGAA ATTTATTTGT GTGGCCCTTA GAACTAATTT AATTTCCACTCTAATTCCTA CTTATGTTTA TATAATGCTT TTAGAAATTT GTATTATTCA GAAAATAAAC ATATACTATT GTATCTGTTGCCTACACTTA GATTTTATTG CCTGCTATAT TTAAATTTTA TTAGTATTTT AATTGTTTTA TTAAAGAAAG AATGTGCCTGTAATCTCAGC ACTTTTGAGA GGCCAAGGCA GAAGGATTGC TTGAGCCCAG GAGTTTGAGA CCAGACTGAGCAACACAGGG AGACCCCCAT CTCTACAAAA AATAAAAAAA TTCTCCAGGC CTCATGGCAC ATACCTGTAGTTCTAGTTAC TTGGGAGACT GGGGTGGGAG GATGCATTGA GCCCAGGAGA TTGAGGCTGC AGTGAGCCATGATCAGGCCA CTGTACTCCA GCTTGGACAA CAGAGTGAGA GCTTGTCTAG ATAGATAGAT AGATAGATAATCTAAATAGA TAATAGACAG ATTATCTAAA TAGATAATAG ACAGATTATC TAAATAGATA ATAGACAGATTATCTAAATA GATAATAGAC AGATTATCTA AATAGATAAT AGACAGATTA TCTAAATAGA TAATAGACAGATTATCTATC TAAATAGATA ATAGATTATC TAAATAGATA ATAGATAGAT AGATTAGATA GATAGATAGATAGATAGAGC TTGGACAACA GAGTGAGAGC CTGTCTAGAT AGATAGAAAC AAAGAAAGAA AGAAAGAATGGTGCTCATAT TTTAAAGCAT TGAAAAATGG TCTTCCTTGC TTATATTACC CACACCTTCT TTGTTGGCAT TAAGATGCAAACTTTGTTTT AAACAGTTGA GTAAATCAAA GATGGGACTG TTAAGTTATT TGTGTTATTT ACCTGCTTTT TGAAAATGTAAAAATAAAAC TCTAGGTTTA ATTAGTAGTA TGCTATTTAG TAATGAAGTA AAGCTAGAGG CTTCGAACAAATCTTGTGTA ATTTCCTCTT GAATGAGAGA GAAAATTTAA AGTAAGCAAA CAAATAAGTT GTGTGTCACC ACTCATTCAGTCATTTAACA AGTATTTCCA GAGTACTTAT TCTGTGCCAG GAAATGTTGT AGGTGCCCTC AACAACTTAG AGTCTAGCCTGAGACACAAG TAAGTAGGTA ATTATTATAG AATGGTATGA TCTTTGGAGG ACTGGGTATT GGCTGGCTCATGGGAGTACA AGATAGGTAC CCAGTGATGA AGTCAGGAAA GGTTTCTTAT GGTGATATGA TGACGTCTATGCTGATTATA AGGTCAGTGT AGAATAAACT TTGTGCTTTT AAATTTGCAT AGCACTGTAT TAGAGAGTTC ATCTTCAAAATAATCGAAAA GGCTGAGTGT GGTGACCCAT GGCTGTAATC CCAGCACTTT GGGAGGCCGA GGTGGGCAGATTGCTTGAGC TAGGAGTTCG AGACCAGGCT GGCCAACATG GTGAAACCCC GTCTCTACTA AAAATACAAAAATTAGCCAG GAGTGATGGT GCGCACCTGT AATGCCAGCT ACTTGGGAGG CTGAGGCAGG AGGATCACTTGAACCCAGGA GGTGGAGGTT GAAGTAAGCC GAGGTCATGC CACTGCACTC CAGCCTGGGC AACAGAGTGAGACTCCATCT CAAAAAAAAA AAAAATGATC AAAGAAAGGT GAATTTTCAT CTACCCTATT TCTGCTGAGGAAAATGGACT ATTTTCAAAT ATTTTTAATA AGGGTCAAAA TGAGGGATC GCCACCATGG AAACCCTTTG CCTCAGGGCATCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATA ATCCTGAGAG ATACAGCACA AATCTAAGCAATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCT CAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTCCTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGC AGACTAAAAT TACTTCAGCT TTCAAATACATTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAAT GCAACTCTGC TCAGGATCAT TTACCAGAACAAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTC TTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCCTATCAATGTA TTTAAGCTGC TGGCTGGGCG CTGGCCTTTT GATCACAATG ACTTTGGCGT ATTTCTTTGC AAGCTGTTCCCCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCT CTTAGTGTTG ACAGGTACAG AGCAGTTGCCTCCTGGAGTC GTGTTCAGGG AATTGGGATT CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTATCCTGGCCATT CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACA GCATAAAACC TGTATGCTCAATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG CTCTTCGGGT TCTATTTCTG TATGCCCTTGGTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGA TGTTGAACAG AAGGAATGGC AGCTTGAGAATTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGC AAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGCTGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTG TGTATAACGA GATGGACAAG AACCGATGTGAATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCA ACCATGAATT CATGTATAAA CCCCATAGCTCTGTATTTTG TGAGCAAGAA ATTTAAAAAT TGTTTCCAGT CATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGATGACCTCGGTC CCCATGAACG GAACAAGCAT CCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGACCGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAG AAGCACTCCT-3′ (FRAG NO：1738)(SEQ ID NO：3009)

5′-GCCACCATGG AAACCCTTTG CCTCAGGGCA TCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATAATCCTGAGAG ATACAGCACA AATCTAAGCA ATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCTCAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTC CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGCAGACTAAAAT TACTTCAGCT TTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAATGCAACTCTGC TCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTCTTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA TTTAAGCTGC TGGCTGGGCG CTGGCCTTTTGATCACAATG ACTTTGGCGT ATTTCTTTGC AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAACCTCTGCGCT CTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGG AATTGGGATT CCTTTGGTAACTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATT CCTGAAGCGA TTGGCTTCGT CATGGTACCCTTTGAATATA GGGGTGGACA GCATAAAACC TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACCAAGATGTAAA GGACTGGTGG CTCTTCGGGT TCTATTTCTG TATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATGACTGGTGAGA TGTTGAACAG AAGGAATGGC AGCTTGAGAA TTGCCCTCAG TGAACATCTT AAGCAGCGTCGAGAAGTGGC AAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGC TGGTTCCCTC TTCATTTAAG CCGTATATTGAAGAAAACTG TGTATAACGA GATGGACAAG AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATTACATCGGTAT TAACTTGGCA ACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAATTGTTTCCAGT CATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC CCCATGAACG GAACAAGCATCCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGAC CGGAGCAGCC ATAAGGACAG CATGAACTGACCACCCTTAG AAGCACTCCT-3′(FRAG.NO：_)(SEQ.ID NO：2481)

5′-GATCAAAATT TTTACCTATT ATGCATTTGA TATATAAATA AGTATATAAA TGCACACACA GACACAGCAATGATGGTGAA CAGTCTTCAT ACAATTATAT GGATGAATCT CATAAAATGC TGAGTTAAAG AAATCAGACCAAAGAACATA TACTGAAAGA TTCTCTCTAT ATACAAAGTT CAAAAATAGG TGGACCAATT CATGGTGGTGTTAGAAATCA GAAGAGAGGC TACCTTTGTG GGGAGGGGAC AGTTTAATGC CCAGAAGCGG TAAATAAGGAATCCTCTGGG GAGTGGTAAT GATCTGGATG CTGGCTACAG GATGTGTTGG TTGTAAAAAT GCATTTTTTT ATATCTAGCTTTTTCCATGT GTATATTATA CTTCAAAGAA GTTCAGTTAA TAATTTCTCA TGTCACTGTA GAGTAGCTCA GTTAGCCCCAGCAAGCCTCT GGCTTAATCT TGTTTTACCT TAAGCCATCA GTCATTTACA AGTAGGAAAA TTCACAGGGA AAGTTAGAGTATAAAATCCA GAATGAAGGT TTACTGGGTA AGAGTCTCTC CATTTTCCAA AGCCCGTTTA TTTCTTGATT CCAGTTCTTAAGAAGTCTCA GCATTGTGTC TTTTTCATGT ATCTTACAAG AAGACAGCAT GTGCTTCTAA CACCTGATAC ATTGTATCTACCAGCACTTG GTAAACAGAA AAGAACCACA TTTTTCTTGT AGGAGAAATT TGGTGCCTAT TTCCTACCAGGCACCAATAA GTGGGACCAA TAGGTGGGAT TAAAGATACA GTAGAAAGTA TTTAAAACTT GCCAGGGGGCAATAGTCTGA AAATAAGTAA ATTGGTGCTA TAGAATGGAA GTTACAGGCT TCTTTCTTTT TTCCCACAAG ATCTGCTCCTTGAGCCCCTA GAGACTTTTC TGTCTGTTAC TGTTTCTTCA TTCCTCATCT GCAGAGCCAG CCCTGAGAAG TGCAGACCAAAGCCAGGGAA GGCTCTGCAA AGATGTACAA ATGGAAGTCA CCTTAATAAC CTCTGACTGC TGCGCATAATACATTTCACT CAAAAGAGGG GTTAAACAAT GGAACAGAAT ACAGAGGCCA GAAATAATGC TGAACACTGACAACCATCTG ATCTTTGACA AAATCCACAA AAACAAGCAA TGGAGAAAGG ACTCCCTATT CCATAATGGTGCTGGGATAA CTGTCTAGCT ATATACAGAA GATTGAACCT GGGCCCCTTC CTTACATCAT ATACAAAAAATAACTCAAGA TGGAGTAAAG ACTTAAATCT AAAACCAAAC ACTATAAAAA CCCTGGAAGA TAGCCTGGGAAATACCATTC TGGACATAGG ACCTGGCAAA GACTTCATGA CAAGACACCA AAAGCAATAG CAACAAAAACCAAATTGACT AATGAAACTA ATGAAACTCT TTAGTTGTAC AACAGATAGT TTATCTGTAC AACAAAATAAACTATCAACA GAGTAAACAA CCTACAGAAT GGAAAAATTT TTTGCAAACT ATGCATCTGA CAAAGGTCTAATATCCAGAA TCTATAAGGA ATTTAAACAA ATTTACAAGC AAAAAAATGA CCTCATTAAA AAGTGGGCAAAGGACATGAA CAGATGCTTT TCAAAATAAG ACATTCACAC ATCCAACAAC CATATGAAAA GATGTTTAACATCACTAATC ATTAGAGGAA TACAAATCAA AAGCATAATA AGATACCATC TAATACCAGT AGGAATGACTACTATTAAAA AGTCAGACAA TAACAGATGC TGGTGAAGGT TGTGGAGAAA AGGGAATGTT TATGCACTGCTAGTGGGAAT GTAAACTAGT TCAGCCATTG TGGAAGAGAG TGTGGTGATT CCTCAAAGAA TGTAAAACCGAACTGCCTTT CAATCCAGCA ATCCCATTAT TGGATATACA CCAAAAGGAA TAGAAATTGT TTTACCGTAAAGGCGCATGC ATGCATATGT TCATTACAGC ACTATTTACG ATAGCAAAGA CATGGAATCG TCTAAATGCCCATCAGTGGT AGACTAGCTA AAAAAAAAAA AATGTGGTAC ATATACATCA CAGAATAGTA TGCAGCCATAAAAATGAACA AGATCATCAT GTCCTTTGCA GCAACATGGA TGTAGTTGGA GGCCATTATC CTAAGCAAATTAATGCAGGA ACAGAAAGCC AAATACCACA TGTTCTCATT TATAAGTGAC AGCTAAATAT TGAGTACACATGGACACAAA GAAGGGAACA ATAGACATGG GACCTACTTG AGAATAGAGG GTGGGAGGAG GGTGAGGATCAAAAAGTACC CATAGGACAC TGTGCTTATT ACCTGGGTGA TGAAATAATT TGCACACCAA ACCCCTGTGACACACAATTT ACCTATATAG AAAACCTGTG CATGTACCCC TGAACCTAAA AGTTAATGGT GGGGGGGTGGGGTTAAGCTA CTTTGTGGTA TAAATCTGAG CATTCATATT AAAATAAAAT ATTTACCTCA TTAGAGTAAT TAACATTTATTAAGCAAAGA GCCAAGTACC TTACACACAT GATGTTTAAT CTCACAATGA TCTTTAATCT CATAACAACC GTCCATTGTATGTACATATG TGGAAATTGA GCCTTGGAGA GATTAAATGC ATGGGGCATG CCATTTGACT AGAAACTGGAAGCATCAGGA TTTAAACTCA GTTCTGAATG GTTTTGTAGGCTTTGTTTTT TCCACATTAT AGCATGGCCT GCCATGAAGAACAGGTCCTT TCTGGTGTTT GTCTTGTTTG GTTTAAGTGA AGCAAATATT TATTTAAATA TTCAAGATAT GCTGTTAAATTTTTACTCAA AAATTTGAGT ACAGTATGGA TCTTCTGAAG CCAAATAACT CTTATTCAAT GCTTAGTTGA GAAATTTTATGGAGTAGTTC TCAATTTTTA TGTAGTTCCA CTGCAAAGGT AAGTCTTATG GAAAGATTCA CTGTAATTTT TTTTCCTCATTTGGACATCA GCTTTTTCTT TTCCTCAGAC CCGCTGAAAG ATAATTTTTA AAATAAAAAC CTTGTTTTTA TATCAAGTGGGGACATTTTT TCCAAATGAA AACCGTGTAT TCATTTTATA TGATAAAATC AATGTTATTA TTTTTAAAAT TTTGATTTAAAAATCATTAA AAATAAATTT TCAGATATTA CCTGAAATTC TACCATCCAG AGATAATAGT GCTTAAAGAT TTGATATATAGACACACACA CATATATACA TATATATCAT CCTAAACTTC TTTGTATAAA TGTATATAAA GTTTTTAATA AAAACTAGGAGATTAATGCC CTTTGAATGA AAATAAATAC AATGTGTATG CTTTAACATC TTGCCTTTAC TTTATAACAT TTATCACAGCAGTCATGAGA TAATGATTTA CATGGTCATT GTTAGTAAGC TAATAGCTAA GTGCATGAAC TCTGGAGCTA GCCTCCCTGGATTTTAATCC CAGATCTGTC ACTGACCAGC TGAGCAATAC TAGGTAAATT GCTCTTGTTC CTTAGTTTCT TCATCTGTAAAATAGAGATA AAAATAATAT CCACCTCATA GGATTGGTGT GAGCATTAAA TGAGCATACG TATGTAGGCCACTTAACAAC AATGCCTTCA CATACTGAAC ACAAATATAC GAGCTGTTGT CTTATTGGGC TCATGTTTTT CCTACCACTAAGCCGCATGC ATGCAAGGAC CATGTTGGTT TTGTTCCACA TTGCATCCCC AACCTGGTAT ACAGTGTGCA TTCAATAGTTGTTGACTATT ATTACTAGTG GCATTTAACA AATATCTGTT AAATGAGTGA AGAAATACCC ATTTACTGCA AGTGTGTCTAATATTGATGG CATAATGGGG GAAACTCAAA CTCTGGAGTC AAACAGGTTT TAAAACCTTA TTCCCTCATC CTCAGTTATTGACGTTTTTT TTTTGGCAGG TGTGTGTGTG GGACAACTTA TTGAACTTTT CTGAATTTCC AGCTTCGCAT ATATAAAATAGAGATAGTGA TTCATTCTTG CAATGTATGG ATTTGAGACA ATTGTGTAAG TTTATCAATA AATAGTAGCT ATTTTTGTATAAGTATTACA TATAATATCC AGGCCACTGC TTTGCATAAC CCAAAAGGGG CACCATTCAT GCAGAATACAACATAAATGG TGTCCCTGGA GCAGTGCAGT ATAGGAACCC TGAGGGGACC TACAGTATAC TTTATAGTTCATAGATTACA AATTATCCCT TTATCAGAGT CTCTCAAGGT TGGATGTATT TGAGGTCCAT AAGAGCAATT TAGGATTAACAGTAGCTGCA GAAACCATCT GCAGTGATAT TCTCATTTTA AATCCGCGGG AAAGAAGACA GCTATAAACTTGGGACCTGG GTTTAAGCAT TTTAAATGCC AAGTTCACCA TTTTCTAAAA CACAACAAAT ACCCAGTGAGAGAGGGAGAA GGGAAGTAAA TGCCTCTGAA TAAGCAAGTT AATGTCAGTA GTTGTACTGT ATGCATATTGATGAACAATA GAGGAACCAA TGTCCAATCA GATGAGCAGG ATATTTGGCA ATAACAAGTT GCCTTTGAGGAAAAATGATT TTCTTGGCAA GTTCTTTATC AGCATTACAA AGCTAAAAGC TACGCTTATC ATCACTTATA CTAGCATACCCTGTTGTGCA AATGCTGTCT GTGTTTGCAT CTGCTATTGT TGATGCCTGG TGCATGAATC AGGACTCCAG CCCACAAGTTTTCCCAGAAC TTTCTTATGG CCATCATCTT TAAGTGTCTG GTGAACAGTC ATAGTTTGGT ACACAAAAGG GTCAACCTGGGGGATGGCTA GGGTTTGACT CAGTCGTTAC ATTTCAATAG AGCAGGAAGG GGAAATGGTG GCCTGTAACCTCAGGGAATT TTGCCAGTTG GTCCACCCCA CTCTCTCTCT CCTGCTCTGA GGAAGTGGCA CAGCCTAGAACAGCACCACA GGTGAGAGAA ATGCAAACCC TAACCAGAGA AGCAGACTCT TTGCCAGTAG TAATAGTTCAGGACCACCAC CAGCTTTTAT TAAAATTTTT AATAACACTC AAGTATTGGC AGAAAGAAAT AATCTTGGGT TAACTATAACTAGAATATTG ACTCTTCCTC TGTGGAAGAA TCAGCCAATC ACATTTGTTT ACATCAGTTC CCCTGAAGAA GAAAAATACACTGATGTTGC AGCAAGACAA ATTTAAGCTA GATGTAAATA ACTTCCTTTA GCCTGTAATG CTAGGCTAAT TACATATTGGAACTATTTTT TCAGGGAAGA ATTGTGTAGG GTTTCAGGGA AGAATTCTGA AGAAAATATA GAGCTGAAATGATCTTGCAG CTCACTGAAA CTGCAGGGTT TAGATCCACA CTGATACTCG TTCTATTATC ACTGTAATGA AGGCTGATGGAATAAGTAAA AATGTTTTGT ATTAGTATGT TTTTACACTT ATTTGCAAGG CATAAATAGG TTAGGTTTTG ATCTTAATTTAATTCTAACA TGTATTGTGC ACAAGCTGTG AGCAGTTTTC AGGAGTTAGG TATCTGGCCA TGACTGATTT TTCAGGAGTTAATCATCTGG TAGAAGGGTC ATACACAATA GGAAGATGTG TGTGACAGGT TGTGATCATT ACTATAATCACACAGAGAGC TGTAGAATTT TAGGCTGGCA GGGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCCAAGGCAGGCGG ATCAAGAGGT CAGGAGATGG AGACCATCCT GGCTAACACG GTGAAACCCC GTCTGTACTAAAAATACAAA AAAAAAAAAA AGCCAGGCGT GGTGGTGGGC GCCTGTAGTC CCAGCTACTT GGGAGGCTGAGGCAGGAGAA TGGCGTGAAC CCGGGAGGTG GAGCTTGCAG TGAGCCGAGA TCGCATCACT GCAATCCAACCTGGGCGACA GAGGGAGACT CAGTCTCAAA AAAAAAAAAA AAAAAAAGTC ATGTTAGATC CAGAGGGGTAGCAACTGGGG CTGGGCTGTC AGTCAACTCA GTCAACTCAG TCAACTCTGC TCCCCCACAG GAGATGCCAGTGATGCATTT TCATGGCCAA CATTGTCAGT CAGCATCATT GAATTACTCC TGATTATAGA GACACAGCTG CAAACGATTCCCCATTAAAT ATGATGTTTC TTGCAATGTT TGGAAGGTAC TCCTTTTTAG TAAGGGAAAT CCCCTCTTCT GGCTTGCTGAAAGTTTTTTC TTTCCATTTT AAAAATCGTG AATTCCTTTT TGCAATATTG AGGTGGTTAT ATGGTTTCTC TTCTCTAATCTGTTAATATG GTGATTTAAT GGTTAGAAAT TTTCTAATGT AAATTCCACT CATATTGCAG AAATAAACCT AAACTGAGCATGAGGCTATA TTTTTTATTT GCTTCTATAT TTGGTTGCTA TACAGTATTA TGTTTAAGAT TTGTTCACAT ATATTTGTGAATGGGATTGG ACTATTTTTC CTTCTTGCCG ATTTTTATCT GGTTTTTAAA TTAAGGATAT TTTAGACTTA TGAAATATTTGGCAAACAAT CCTTGGCAAG TAATTTTTTG GGGAATTTGT TTTGGCTATT TTGAGTATTA CCCAATATAT TTTAATTAAGTTATTCTTAA TGTTTTCTTA ATTAAAAAAA TTACCTACTC TAGAGATATT CTTTATGTAC TCCAGATTTT GTCTATTTATACCACTTTTC TTTTTTCCTC GATGAGTGTC ATAGATGTTC ATCTATTTTT TTATCTTCTT TGATCTTCTC TTATTCCTTGTTTCTATTAA CTTCTGAAGT TTATTATTTT CTTTTTTCCA CTTCCTTATG GTTTATTCTT TCAATTTTTC TCTAACTTCTTAAGTTGGGT GTTTAATTTT TAGCTTGCTT TGCTTTTTTA GGATAAGCAT TAAAACTACA AATTTTCCTT GTTATTCTTTTGCTGCACCC CAAATTGTTG ATATTTCTAT TGTCTAATTT CTATTCAATT AGAATACTTT AAAGTTTCTT TTTGGTTTTTAAAAACTAAC TTTTTAAATT GACAAATAAA AATTGTGTAT ATTTATTGTG CACAGCATAT GGCTTTGAAA TATATGTACATTGTGGAATG GCTAAATTTA GCTTATTAAT GTATGCATTA TCTCACATAC TTATCATTTT TTGTGGTGAG AGCTATGTGACTTTTGAACT TATGAGTTAT TTAAATATTT TTAAATTATT AAGCATATTG GGATTTTAAG TAATTTACCT TTTTATTATTAACTTATAAC AAGTAGAACA GTTAACCTGT ATGATTCTAC ATCATTGAAA TTTATTGACA TTTGCTTCAT AGTCTATTATATGGTCTACT TTTGTTCATG TTACATCTGT AGTAGAATTG GCTAATAGTT GAGTAAAGTA CACATATGTC TATGAAATCAAGTGTAATCC AGAGAAAAAG AGAAATTTAC TGAATATATT GTTCTAGGTG CTATTATATG TTGTCATGTT TAATCCTCACCACAATTGTA TGAGGCAGCC ATAATTAATT CCACTTTACA CATGAGGAGC CTGAGGGTTA AAAAAAAAGCTAGCTCTACT ATTTGTAAAG AATGAAGCAA AGATACAAAT GAAGGCCCAC ATATCCTATA ACTAGATATTTAAGCATTTT AATTCAAGCT TTAAAACTGC TAAATAAAAT GTGCTCCAAT TTCTATATTG ACAGACATAC CTTCCTAATGAGCTGGGGTT CGAATTTAGA AATCTTTGAT GCTTCAGAGT CCACACTGAA ATGTGGAGGC ACATAGTGAGTTGGTCCCCA GCCTTCAGTC CACCCACCTT CTCTTTACTA AATCACCTTT CACATACATG TATGAACACC CCAGCCTCCAAGTCCAAACC CTAAACAAAA TGGGACACCC TTGTGCATAC ACAGAGACAC AGCCCATCCT CAGGAAAACCTGGAAAAGTC CATACAAGTT CTGGAAGCAA GCTTGGGACG GTTTCAGTAG TGTGGTCTAT AAGGGAGGCCTCAGAAGACA GGTTTTCTTA ATTCTGTGAA CTTCTCCCAC AGTAGAAAGG GTGCTGGAGG AGGGTCAGAGTGAGGACTTC TAAAGCATGG GTCCTGAGTA GGGGCCACTC TTGCCCAAGT CTAAGAAGGG TACTAGAATAGCACACTACT ACTAGATACT AGAACCCAGA TACAAGCACA GGTCTTCTGA AATTAATAAT AATAATAACTATTACCATTA TTATACCAGT AGCTGTCATT TATTTAGTGC TTATTATTTG CCAGTCACTG TTCTAAATTC TTTACATGTATTATACAACT GCCATATAAC TGCCATATGA GGGATGTACC CTCATTGTCA CCATTTTACC GATGAGAAAACTGGCATAAA ACGTTTAAGT AACTTGTCCA AGTTACAGAG CTTAGTGAAG CCACAATGTT GCTCAATTTG CTCTCAAACTTCAAAGGGAT GGGAAGGACA CCTAAGTCAT AGAGTCTTTA AGAATCAGAG CTAGAAGGAA TCTTAGATGTTATCTAGTCA GCCTCCTCCC ATTACAGTCC AAGAGAAGAT GGCCCTGAGT TACTTGTAGC TATTTTTGCA TGTGAATTGCAAGTGAATAT ACATTCTACT GAAGATAAAA GATATTTAAA GATATCGCTG GATATAGGAA CAGTGGTTTTAAATCTCTAG GCTTTAACTT TTCTCAGAAC AAGAAATCCT TTTTGGTTTT AATCTATATG CACATCTGTA TTTTTCTCAATTATCGGGTA GTAAAATATA ACTTTTCTTC TGTAATATTT TTTAACTTTA ATGAGTGTTC CTCATAATAG AAAAGTTTGGAAACCATTGC TATGGGTATA TACTTTCTAA AGGGATAGTA ATTTCTCTAG AATATTCATT TAATGCTCCA GAAGTAATTAGCACAATTGT GCAAGTCTGT GCATCATCAA CTATACATTC TGCCTGTTTA CTCCAAATCC ACATGAAACT GATTATACAGTCAAAGGCGA GCCCAGTGGA GAGGCATTTT TGGAGACTTC CTGGTACATT GAGACAGGGT CGGCCAGTCTGCGTTAGGGT CTTGGTCAAA ACTGCATTTC TGAAACTAAA CTCAGATTGC TTTCTTTTAA GGGGTCAGAA CTGATTCAAATCTACATTTT TAAAAGCCTT AGATGTGGGG CTTTTCCTAT TCCCAGTCTC CGCTATTGGT CTTTGTGAAT CCACAGGCAATTTGGCCACA TCCTTGACTC TCTCTTATAT TAAGAATTAA ACAGCTAAGT TCATGCAGAG GAAATATAACAAAGGAGGGA CTTTCCTACA AGATCTTTGA AAAATGGAAC ATTTGCATAA GTCATATTTA GCCAGAACTG TTGTTTTATATTTTCCTTTC TGAATACTTT GTTACACCTC CTCCCAGCCA ACCCCCCCCC TCCCTGACCC CAACTAGTCA GAGACCAAAGCCTTCACAAT GGTTTACACT TGAACCTTCC TGGCCCCACC CTCATCATCA CGCCTGAATA ATTACATTCA CTGACTGGTCTCCCCTGCTT CCGTTTATCT CCACTCCTAA ACCCTCTGAC ACCTTAATCT TCCCAGAATA CCATTGTGAT CCTGTTCCACTCTTGCTCAA GTTTTCCCAG AAACTAGAGT ACAAACTTTA TAAGCTTTAG AGTTGAAAGC CACTCTATCT CTTTTTCATCCCCAGGTCTC TGCCAAGGCA GTATAACCTG TCCAACATCT CTAACTTCAA TACCTTTGTC TTAGATACTA GACTCTCCTCCTGGTTTCTA ATTAAACCTG ATCTAGGATC TAATTTTGCC TCTGAATTCT GTTGCCCTTT GCCAAGTGAT CTCTTCCTCCTCTGAGCCGC AGCATCTCTG AGCTTGCACA CTTAGCATAG CCATAGCACA CACAGCCTTA GCTTGCAGTT CAGGGTGTTTACCTTCCCTC CCCTTCCAGA TGCTGGATCC CCAGGGATAG GAACTCTGCC CTTATGTGTC CATAGCCCCT GGTAGTATGTCTTGCAGTCG TACATTTTCA GCAAATGTTT AATTGGTTAA TTGAAGACAA CTGTCCCATG CCTTAAGCCT CTCTTTTTGCTAAACATGCC TGTGTCCTTT GTCATTGAAC AACTATTTTG ATCTATTTTC TTCCTGACAT AGGGGTCAGT TCCGAGGATGCTGAAATCAA GAGACATAGC TTATTCTCTC AAAATTGCTT TCAAGAGTGA TTTTGTTGTG AATTGAGAAC TGGCTGCCTACTTTTGGACT ACCCACTTCA GCAAGAGTGT TTGAAACCAA ATCTATTCTA AGTAATTTTT TATTCCCTTT TCTCTATGGCATTAGACACA CAGCTCTTTT AAACTACCTT TCGTTATCTA TTAAACAGAC ATTCAGTAAC TCTATAGACA CTGTCTAGCTATATGAACTT AGACAAACTA ATATCTCTGA GCTTCAGTTT CTTAAAATTT AAAATGAGGA CAATACCATC TATGGCCGGGGATTAAATGC TATGAGGAAT GTAAACCAGA TGTCAGGTAC CATCTCTCTA AAATCCAGAT AAAATGAATTAAAAATACTG GCCGCAAACC CTCTCTAAGA GTTCTCAAAA TTCTCAGAGA GCTTAATTTT CATGCTCACCATAGCACCGA TTTTCTTCTA AATATTTTGT TTCTACCAAA ATATTTTGTC CCAATTTTGC CTTTTATGGC TATTTCTTCATATCCACTTT CCCAAACTAA AGAAGCAGCC CCTTCACCTT AAACTCCTCC TTCAAAGCAA CCTAAATACA GGTCTGGGTTTGTATTCCTA GTGGGATGTT ACAGAGGTTA GTGTGATGCA GAGGAGGAGT CATGCTGTTT AAATCCATACTAGTCCCCAG AGGCCAGGCT GCTTCTGCCA CCCCTACCCC TCCCGCCACA GAGCTCTTCA GCTTCTCACA TTTCTAGTTCTTCTCTCTCT ACTTTCATTA CCTTCTCTCT TTTTTTTTTT CTTCTCATGT GCTCACGGGA GCAGAGAAAA TTAACTCCTCTAAGTTTTCT TAACACAGAG TGCCTTAATT ACATATTACT ATTGTTTGAG TTCCTGCCAA CACTACGTCT GTAGGGTCACACCTGCTATA TTAGAGGCTT ATCAAAAAAA GATAGCTTTC TCCTAAAAAG GGATTTGGAT GCCTACTAAGATAACTGGAT GCCAAGATAA GTTTAACCTA ACAAACTTTA TTATTATTAT TATTATTATT ATTAGAGATA GGTACTTATTCTGTCACCCA GACTGCAGTG CAGGGATGCA ATAATAGCTC ACTGCAGCCT CAAAGTCCTG AGTTCATGCAATCCTTCTGC TTCAGCTCCC TGAGTAGCTA GGACTACAGG CATATGCTAC TCTGCCCAGC TACTTTTAAA AAAATAATTAGGGATGGGGT CTTGTTGTAT TGCCCAGGCT CGTCTCAAAC TTCTGGTTTC AAGCAATCCT CCTGCCTTTT ACCTCCCTAATTGTTGGAGT TACAGGCATG AGCCACAGCA CTCAACCAAG ATTTAAAAAC TTTTAAAAGA AATCACATTACTTACTGTTA TCATCATTAT GGTTACTACC AGTGTTAAAA CAATTGGTAT TGAAAACACC ACTACCAGAT CAAGCTTCAAACCAAGATGT CAAGTAAATA TTATTGTCAG ACCTCTGAGC CCAAGCCTGC AGGTATACAC CCAGATGGCCTGAAGCAAGT GAAGAATCAC AAAAGAACTG AAAATGGCCG GTTCCTGCCT TAACTGATGA CATTCCACCATTGTGATTTG TTCCTGCCCC ACCTTGACTG AGGGATTAAC CTTGTGAAAT TCCTTCCCCT GGCTCAGAAG CTCCCCGACTGAGTACCTTG TGACCCCCAC CCCTGCCCAC AAGTGAAAAA CCCCCTTTGA CTGTAATTTT CCACTACCCA CCCAAATCCTATAAAACAGC CTCACCCCTA TCTCCCTTCG CTGACTCTCT TTTCAGACTC AACCTGCCTG CACCTAGGTG ATTCAAAAGCTTTATTGCTC ACACAAAGCC TGTTTGGTGG TCTCTTCACA CAGACCATGT GACATTTGGT GCCGTAACTC AGATCGGGGAACCTCCCTTG GGAGATCAGT CCCCTGTCAT CCTGCTCTTT GCTCCATGAG AAAGATCCAC CTATGACCTC TGGTCCTCAGACCAACCAGC CCAAGGAACA TCTCACCAAT TTTAAATTGG GTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCACTATCCCTCA ACATCTTTCT CCTTTCAATC TTGGCACCAC GCTTCAATCT CTCCCTTCCC TTAATTTCAG TTCCTTTCTTTTTCTGGTAG AGACAGAGGA AACGTGTTCT ATCTGTGAAC CCAAAACTCC AGCACTGGTC ATGGACTTGGAAAGACAGTC TTCCCTTGAT GTTTAATCAC TGCAGGGATG CCTGCCTGAT TATTCACCCA CATTTCAGAG CTGTCTGATCACTGCAGGGA CGCCTGCCTG GATCCTTCAC CTTAGTGGCA AGTACCACTT TGCCTGGGTG GCAAGCACCACCTCTCCTGG GGGGCAAGCA CCACCTCTCC TGGGGGGCAA GTACCCCCCA ACCCCTTCTC TCCATGTCTC CACCCTCTCTTCTCTGGGCT TGCCTCCTTC ACTATGGGCC ACCTTCCACC CTCCATTCCT CCCTTTTCTC CCTTAGCCTG TGTTCTCAAGAACTTAAAAC CTCTTCAACT CACGTCTGAC CTAAAACCTA AATGCCTTAC TTTCTTCTGC AATACCGCTT GACCCCAATACAAACTCAAC AATGGTTCCA AATAGCCTGA AAACGGCACT TTCAATTTCT CCATCCCACA AGATCTAAAT AATTCTTGTCGTAAAATGGA CAAATGGTCT GAGGTGCCTG ACATCTGGGC ATTCTTTTAC ACGTCGGTCC CTCCCTAGTC TCTGTTCCCAATGCAACTCA TCCCAAATCC TCCTTCTTTC CCTCCTGCCT GTCCCCTCAG TCCCAACCCC AAGTGTCGCT GAGTCTTTCCAATCTTCCTT TTCTACTGAC CCATCTGACC TCTCCCCTCT TCCCCAGACT GCTCCTCCTC AGGTCGCTCC CCGCCAGGCTGAATCAGGCT CCAATTCTTC CTCAGCGTCC GCTCCTCCAC CCTATAATCC TTCTATCACC TCCCCTCCTC ACACCTGGTCCAGCTTACAG TTTCATTCTG TGACTAGCCC TCCCCCACCT GCCCAACAAT TTCCTCTTAA AGAGGTGGCT GGAGCTAAAGGCATAGTCAA GGTTAATGCT CCTTTTTCTT TATCCAACCT CTCCCATCTC AGTTAGTATT TAGGCTTTTT TTCATCAAATATGAATACCT AGCCCACTCC ATGGCTCATT TGGCAGCAAC TCCTAGACAT TTTACAGCCT TGGACCCAGAGGGGCCAGAA GGTCATCTTA TTCTCAATAT GCATTTTATT ACCCAATCCA CTCCCAACAT TAGAAAAAGC TCCAAAAGTTAGACTCCGGC CCTCAAACCC CACAACAGGA CTTAATTAAC CTTGCCTTCA AAGCGTACAA TAATAGAGTAGAGGCAGCCA AGTAGCAACA TATTTCTGAG TTGCAATTCC TTGCCTCCAC TGTGAGAGAA ACCCCAGCCACATCTCCAGT ACACAAGAAC TTCAAAATGC CTAAGCCACA GTGGTCAAGC ATTCCTACAG GACCTCCTCCATCAGGATCT TGCTTCAAGT GCCAGAAATC TGGCCACTGG GCCAAGGAAT GCCCTCAGCC TGGGATTCCTCCTAAGCCAT GTTCCATCTG TGTGGGACCC CACTGGAAAT CGGACTGTCC AACTTGCCCA GCACCCACTCCCAGAGCCCC TGGAACTCTG GCCCAAGGCT CTCTGACTGA CTCCTTCCCA GATCTTCTTG GCTTAGTGGC TGAAGACTGATGCTGCCTGA TCGCCTCAGA AGCCTCCTGG ACCATCACAG ATGCTTTTGG TAACTCTTAC AGTGGAGGGT AAGTCCGTCCCCTTCTTAAT CAATGCAGAG GCTACCCACT CCACATTACC TTCTCTTCAA GGTCCTGTTT CCCTTGTCTT CATAAATGTTGTGGGTATTG ATGGCCAGGC TTCTAAACCC CTTAAAACTC CCCAACTCTG GTGCCGATTT AAACAACATT CTTTTATACACTTCTTTTTA GTTATCCCCA CCTGCCCAGT TCCCTTATTA GGCTGAGACA TTTTAACCAA ATTATTTGCT TCCCTGACTATTCCTGGACT ACAGCCACAT CTCATTGCTG CCCTTCTTCC CAACCCAAAA GTGGCAACTC CTTTGCCACT TCCTCTCATATCCCCCTACC TTAACCCACA GGTATGGGAC ACCTCTACTC CCTCCCTGGC AACAAATCAC ACCCTCATTA CTATCCCATTAAAACCTAAT CACCCTTACC TGGGTCAACG CCAGTATCCC ATCCCACAAC AGGCTTTAAA GGGATTAAAGCCTGTTATCA CTTGCCTGTT ACAACATGTC CTTTTAAAGC CTGTAAACTC TCCTTACAAT TCCCCCATTT TACCTGTCCAAAAACTGGAC ATGCCTTACA GGTTAGTTCA GGATCTGTGC CTTATCAACC AAATTGTCTT GCCTATCCAC GCCATGGTGCCAAACCCATA TACTCTCCTA TCCTCAATAC CTCCCTCCAA AACCCCTCCA TAACCCTTAT TCTGTTCTGG ATCTCAAAACATGCTTTCTT TACTATTCAT TTGCACCCTT CATCCCAGCC TCTCTTCACT TTCACTTGGA CTGACCCTGA CACCCATCAGCCTCAGCAAC TTACCTGGGC TGTACTGCCG CAAGGCTTCA TGGACAGCCC CCATTACCTC AGTCAACCCA AATTTCTTCTTCATCCATTA CCTATCCAGG CATAGTTCTT CATGAAAACA CACGTGCTCT CCCTGCTGAT CATGTCCAGC TAATCTCCCCAACCCCAGGA CTGGCAAATT GACTTTACTC ACATGCCCCA AATCAGGACA CTAAAGTACC TCTTGGTCTGGGTAGACACT TTCACTGGAT AGGTAGATGC CTTTCCCACA GGGCCTAAGA AGGCCACCGT GGTCATTTCT TCCCTTCTGTCAGACATAAT TCCTTGGTTT GGCCTTCCCA CCTCTATACA GTCTGATAAT GGACAAGCCT TTACTAGTCA AAGCACGCAAGCAGTTTCTC AGGCTCTTGG TATTCAGTGA AACCTTCATA CCCCTTACCG TCCTCAATCC TTAGGAAAGG TAGAACTGATTAATGGTCTTTTAAAAACAC ACCTCACCAA GCTCAGCCTC CAACTTAAAA AGGACTGGAC AGTACTTTTACCACTTGCCA TTCTCAGAAT TCGGGCCTGT CCTCGAAATG CTACAAGGTA CAGCCCATTT AAGATTCTGT ATGGACGCTCCTTTTTATTA GGCCCCAGTC TCATTCCAGA CACCAGCCCA ACTTGAACTG TGCCCCAAAA ACTTGTCATC CCTACAATCTTCTGTCTAGT CATACTCCTA TTCACCATTC TCAACTACTT GTAAATGCCC TGCCCTTTTT TACAGTGCTG ATTTATACTTTTCCTCCAAA CCATCATAAC TGATATCTCC TGGTTTTACC TCAAACCGCC ACCCTTAAGT CTCTCTTAAA GTGGATAGAAGATCTTCAGT GACAAGGTAC ACTCCAATAC TTTCACCCTA ATAAAGCCCT ATTCTTTACT TTTATATTCA CTCTTATTCTTGTTCCCATT CTTATGCCAC TCTCTACCTC TCCCCAGCTA TCTCCACCAC ACTATCAATC TCACTCACTC TCTCCTAGCCATTTCTAATC CTTCTTTAAC AAACAATTGC TGGCTTTACA ATTTCTCTTT CCTCCAAAAT CACCGAGTCC TCAATTTACTCACTGCTAAA AAAGGGGACT CTGCATATTT TTAAATGAAG AGTGTTGTTT TTACCTAAAT CAATCTGGCC TGGTATATGACAACATAAAA AAAACTCAAG GATAGAGCCA AAAACCTTGC CAACCAAGCA AGTAATTATG CTGAACCCCCTTGGGCACTC TAATTAGATG TCCTGGGTTC TCCCGATTCT TAATCCTTTA ATACCTGTTT TTCTCCTTCT CTTATGCAGACCTTGTGTCT TCCATTTAGT TTCTCAATTC ATACAAAACC GTATCCAGGC CATCACCAAT CATTCTATAC GACAAATGTTTTAAGGGAGG AGACCACCCC TCATATTGTC TTATGCCCAA TTTCTGCCTC CAAAGAAAGA AGTAAAAATGAAAAGGCAGA AATGAAATCC ACAGGCAGAC AGCCTGATGC CACACCCTGG GCCTGGTGGT TAAGATCAACCCCTGACCTA ATCAGTTATG TTATCTATAG ATTACAGACA TTGTATGGAA AAGCACTGTG AAAATCCCTG TCTTGTTCTGTTCCTCTAAT TACCAGTACA CGCAGCCCCT AGTCATGTAC CCCCTGCTTG CTCCCCCTGC TTGCTCAATC AGTCATGACCCTCTCACGCA GACCCCCTTA GAGTTGTAAG CCCTTAAGAG GAAAAGGAAT TGTTCACTCG GAGAGCTCGGTTTTTGAGAC ATGAGTCTTG CCAATGCTCC CAGCTGAATA AAGCCCTTCC TTCTTTAACT CAGTGTCTGA GGGGTTTTGTCTGTGTCTTG TCCTGCTACA GTTTCATCTA ACAACCCCAT AATATCACCC CTTACCACAA AATCTTCCTT CAGCTTAATCTCTCCCACTC TAGGTTCTCA CGCCACCCCT AATCCTGCTC GAAGCAGCCC TGAGAAACAT CGCCCGTTAT CTCTCCACACCACCCCCAAA AATTTTCACT GCCCCAACAC TTTACCACTA TTTCGTTTTA TTTTTCTTAT TAATATAAGA AGATAGAAATGTCAGGCCTC TGAGCCCAAG CCTGCACGTA TACATCCACA TGGCCTGAAG CAAGTGAAGA ATCACAAAAGAAGTGAAAAT GGCTGGTTCC TGCCTTAACT GATGATATTC CACCATTGTG ATTTGTTCCT GCGCCACCTT GACTGAGGGATTAACCTTGT GAAATTCCTT CCCCTGGCTCAGAAGCTCCC CCACTGAGCA CCTTGTGACC CCCACCCCTA CCCACAAGTGAAAAACCCCC TTTGACTGTA ATTTTCCACT ACCCACCCAA ATCCTATAAA ACAGCCCCAC CCCATCTCCC TTTGCTGACTCTATTTTTGG ACTCAGCCCA CCTGCACCCA GGTGATTCAA AAGCTTCATT GCTCACACAA AGCCTGTTTG GTGGTCTCTTCACACCGACA CGCGTGATAA TTATTATATT ACTTTTAACT AAAACCCTTT CAGAGTCTCG CAGGGAAGGC TGTATATATCTCATAAAATG TTGGGGCCCA CTGGATCAGA CAAGGCCACA AAGGCCAAAG GGAAGTAAAG ATCTCATTATTTCTCCTAAT AATTTCCCTG TCCTTTGTCA TAAATGGTGG GTAGGCTGTT ATGGTGATGG CAGATTTTCT TTCCATAAAATGTCCATAAT AGGACATTTG AACAGAAGGG AAAAATCAAA TTGCTGAAGT TGAAAGAGGG CAATGCAAAGAACTTTGGAG AAAGAACTGT ACAGAGAAGT CAACTGGCAG ATGGGAGGAA GTTTAAGG GG AAAAATATAGATGTCTAAAG AATACATTTA TTCATTTTCC ACAGTGCAAT TTGGACAAGA AGCCTCTTTC TTGCTTCTTT CTATTCTCATTAAATCATTA GAGCTCAAGC AATCCTTCTG CCTCAGCTTC CCGACTAGCT AGGACTACAG GTATGTGCTA CTATGCCCAGCTAATTTTTT AAAAATTAGA TTTTAATTTG GTGAACTATT TCTGTAGGAA ACTACAATAA TACAGCCCAG GCACATTGATCTTGGGTGAA CAAATCAGAA GGAATGAATA ATTCTGTGTT CCTGGGACTC TGACAATTTC ATGAACTTGG TACTCTGAGTAAAGCATAGG AGGAGTTATT TCATAAAATG TGGAGCACAA TCATGTGACA AAGATAATGG GATCCCCATTTCATAAATAA ATCTGAAGTT CAGAGAGAGT AACAACTGGC CAGGGTCACA TCACGGAGAC AGAGGCAGGGTTCCCACTGA TGCCTCTGAC TCCCTGTCCC AGGCCCTTCC TCCTCCCGCA AGCAGAAGTG CAGGGGGCAGAGCTGACCCT GTGCAGTGAA AATCTGAGGG CTGAGTTCCT ATTGGAACAC AAGTGAAAGA CTTCCTGGCTTCTAATCTCA GGATAAGGAC TCAGAGCTCC ATCTGTTCCA GCCTTAGGAT AAGAACCAGA ATCTTACACCATGAAAGCAT GAAAGGTAAG ATTTGAGTGA GGAAAAAAAA AAAAAAAGTC TGTGTTTCAG ATTCAGTTCACAAAGCAGTT TCATACTTAA GGTACCATCA CAATAACCCT GTGGGGTAAG CAAGGCAAAT TTCATTCTTG TTTTATGGGCATAGGAAGTA AGTCTCAGGG AGGTTAAGAC CAAGGTTTCT GGAGAATTTT ATATTATGAA TCTTGATTTA TGGGATTACTATTATGTAAT TCCTAAGATC ATATAGGAAT CCTAGAGCTT GAATATAGAA CTTTATTTTT AAATCTATAT ACATCATAATTACAAGGAGT AGTGTCCATT TGGGTTCCTT GGCCCTGATG TGTTAGTGGA ATAAACATTT TTGTCAGGGT TGCCATGTGTGTCTGTGCAC GTGTGCACTG TACACCTCCA GGGGATGTAC CCTAAACCAC ATGAATGTGA TTTGCACATCCAAGATTTAC AGTGTACTAT AGGGAGAATC TTTTGCAACA GCTTTTGCTATAATACAGAA TCTGAGATGT CTTTGAGAAAGAAAAGTGTA ATCATTACCA AAAAATTATT CTCATAATGT GTGCAAATTT GTATGAAATC TATATTGGCCATGGGACAAG GAGGTATTTC CAGCTAGCTT CTGAAAGGGC TCTATTCTCT CATAAGAATT CAGCTGTTGA CATTAGGTGATATCTGCCCA GGTCATCAGA TGCCATAGAG AAAGAGGGTT TGCTGAAACT TATATCAGCA GTGCACTGTA TGCTCTTTCTGATTTATTTG AACATTCATT TATTGAGTGT CAAGTAATGC ACTAGATACT CCAGGGATCT GACACAAACT CTGCCCTGAAGGAGCATGTA ATCTCACTGG GGAGAAAACA AAACATATGA TAATTTCAAA ATAACAAACT AGGCAAACTAGTTAACACTT AAAAAGCAGG CTTTATTCAA ATGCAAAATT GCATGTTACA GGGTAACCTT TCAGTAAGAAGCCAGGAAGA GGAGCTCATC ATGGGTTGGA TTAGTAAAGG ACTAGTTATA AAAGAAGTGG TGGGGTTGAGGGAGGCCTGA GATGAAATTT AAAGAATATG TAGAATCTAG GTAAGTGGAT AAAAGGTCTG GGGGCAGGGGAAAGGAGAGC ATTTCATTGT GAATCAAGGA ATTTCTCCAC CTGTTTTAAC TCTTCCATAT GACATCAAAG AGATGTCACTTGCAGCTAGC ATTTCAGTGA TGTTTTCTTA CTAATAATAT CGTGATAAAA GAAACATTGA CTATAAGAAATAGGAATGGG TCTCATAAAA GGAAACAGCA AAACCCCCAA ACTAAAAAAC AGCGCAGGCT ATTTCTCTCTTCTCTCCTTT TGCTTGGCAC TCATGAGATG CTAGGTGTGG AAGTCAGCCA ACTGAAAAAG AGAGGTGGCTGAAGAAGGTG GGGAGGCTGA AGCCAGTTAA ATAGGATGGT CCAATTCACA GACGGCGAGG CTACAGTGCAAATAGGACTC TTTCAACTTG AGCAGGACCC CATTACTTCA CTGGAGTTAG AAAGAAAGGA GAGCGTAGACTTTTTGAACT TTCTATAAGA GTGTACCTCC ACAGTATACA GAAGACGACG TGAAATTTGA TCTGCAAGAAAACTGAGTCC ATATTCACAT ATGTATCAAA TTTGCACTTC ATTTAGAAGT GTCTGTCATC AAGTACAGCA CTGAATTGAAACTGAAAACA AGAGTCAAGA AAGAGCAAAG TCAGCCATCT TTATATTCCA CATGAATCCT TTCCCTTTAT GGTCTTATTTGTTTCTCCTC AGAAAAGACA AAAAGCTGAG CTGTATAAAC ACCTGTGGGC TGGGGGTTGA GGGATAAATGAGGGGCGAAA TGGAAGCTGA AGGAACTGTT GGTCAGGTAG AAATCTTCCC AGATGCACTG AAGGAAACACACTTCATGTT TGACGTAGGA GGTGCCACCA CACAAAACGT TTCATGGAAG GATTTAAAGG ATCTCATGAT TTTTAGTATTCCAAGAATTT TCTTTCACCA AGGGCGATTT AATATGGGTC ATTCATACTG AAAGAAAAAC AAAAGATAATAAGAGTTTAA AAATTGCAAA ACTTGGAGTG TTAGTAGTAA AGGTAAATAT TCATTAGAGA TGAGAAGAGGAGCAAGGAAA TGCTTTCAGC TGGAAATCTC AGACAAGAGG CCAGGCTTTA GGAACCTCTG AAGATGAACAAATGTAAGCA AACCCTAGTA GCAGCACTTC TCAGATTTTC ATGTGCTTAC CACTCAGAGA TGGTGTTAAAATGCAGACTC TGATTCAGTA GGTCTGAGTG GAGCCTGAGA TTCTGCACCC CTAACAAGCT CTTTAGTGAT GCTTATGCCACTGGCGCACA GACCCCACTT GGAGAAATTT TTGTGGTGCA TACGGTCTTT GTCTCCAGAT CTAATGAGTCTGAAGGACAG TGTAGATTGA TTTTTTAAAT TTATGTTTAT TTTAATTTAA TTTAATTTAA TTTATTTATT TATTTATTTTTGAGATGGAG TCTCACTCTG TTGCCCAGTC CGGAGTGCAG TGGCACGGAG GCAGCTCATG CAACCACGGCCTCCTGGGTT CAAGCGATTC TTCCGCCTCA ACTTCCTGAG TAGCTGGGAA TACAGGCACG TGCCAGCACACCCAGCTAAT TTTTGTATTT TTAGTAGAGA TGGGGTTTCA CCACATTGGC CAAGCTAATC TCAAACTCCT GACCTCATGATCCACCTGCC ACGGCCTCCG AAAGTGCTGG GATTACAGGC GTGAGCCACC GAGCCCAGCT GTAGATTGATTTTGAGCAGT GGAAAGTCAA GGAATTAGAA GGCATGCTTA AATGGAAAGT GAAATTGGAG AAAATTTAAACTCATGAAAT AGTGGTGGTT ATAAACTCGT GATAAATTAT ATCCTGGGAT ATAATTTAAT GAGATGGTAA CACATTTAGTTTAAAGAAAT AAGTGACACT TTTTTTGTGT GACACAACTG TCTTATTCTT GGAAAGGACA AGGAGAGAATGAAATATGGT ATGTCTTCAC AGCACCTTTC AAAGGGAGAA CCAGATTCTG AGGAGCTGGT CTCATGATGAACTGTCAGGG TAAACCACAG TTCAGCAGCT GCAAATGTGC TTGCCAAAAT AGAGACAAAA AAATGTTTCTGAAAACAAAA TTTCACATAT GCCCTCCTCT GAGGTTGGCA TCATATCTTC CTGTGTATCT TGGGTGTAGC TTCTATCCTGCCAGAATTTA GACAGTAGAA ACCAAATGAG GTGATAAACA GAGTCATTTT GCAGAAGAGT CAAAATAACCCAGCAAGAAA TGAAACCACA AATGCCCAAG GAGTCATTCA TTCACCATTC AAAAGCTAAT AGAAATGAACACAAACTACT ATGAAAATTC ACCCAAGAAC TTAAAAAAAA AAAAAAAGGC TCATGGTGTT TAGTGTGATAGTATTCATTT TACCTTTGAC TTGTTCTAAA AACACACCAT ACTTCTACCC CACCCTTCCT CAGTGCCGTC ACACAATGGTTTCAGTGTGA AAAAAAAAAC CACGTTACTG GAAAAGGAGG GTGCCTGGGA CTTGCCACTC TAAGCTGGTAGTCAAGGGTC TTGAGTTCTA AAAGCATACG CGTTAAGAGC ATGATTCCTG GATCCAAATG AGTATGGATCTCAGCATTGC CATTTATTGT GACCTCAGGC TATTTTATTT CTCTGTGCCT GTTTCTTTAT CAGTAATGAA GATGTTCATAGACCCTTCTC CCACAGACTT AAAGGCATAT TTCATGATTT AAGACATGTA AACCATTCAT AACAGTATACAACATGGAAT TAATATTTGA TAAAGGTTTA TGATTATTGT AACTAACTCT GTCACTTGCT CAAGGCCTAT AGAAAACTTACTTAATTAGT TCAACTACAA AAAGAGTTTG AATGTGATAT CCACCAAGAT CATATTCAGA CCTAGAATTC TGTGATTCTTATGAATTAAT ACAGCCTTGG TCAATAAATG AGAGCTGGGC AAATAATTCT TCTTTGCTAG GCCTTTCTAG ACCATCTGGTGAAGCATTCA AGACTTATGT TATTGGGGCC AGCCTTCCTT TCCAACTTCA ACTCCACAAC TCCTCAATAA GCCATGGGCTCAAGAAAGTT CTGCTCAGTG GCCCCTGAAA AATGCTTTCA TAGTCTCACT ACCATACCAC TGCTTACACA ATTTCCTTCCTACAGACTGC CTTCCTTTCC TGCTTTTCTC CATATACCTA AATCCTATCT ATTCTTCATA AGCAACCTTC TTTATAACATTTTCTATAAC CACCAAGCCA AATGACCTTT TCCTTCTTAA ATATAGCACC CATTGGCCAT TACCATGCTC TGCCTTGTATTTTTCTGATT TTTTTCTTTC TATATTCCTG TCTTAACTCC CCAGCTAGGT AATAATTTTC CTGAAATCAG GGACCAGGCTGACTCCTCTT GCTGTCTCAA GAAAGCTTAG CAGTTTCCAA CACAAAAATG TTCAATAAAC AACTATTAAT TGACTGATTATAAAAAATCA GTGAACCATT AAACTTAATA TAGCAATTTG CTTAGCATGG TAATTAGCTT TTTGCTAATA TTCTTCCAGCCAGTCTCTCC TCCTGTGCCT CAAGGACATC TTAAAAAAAA AAAATCTAGT TGATCTGCTT CCATCTAGTG GCAATTAAAACAGGTGGTTC CGGTAGCCAG AAAACAGCTC TGGGTAGATT GTGCCAGAAA ATACTTTCAC TCAGTAGGTGCGAGTTTGAA AGAAATCTTC ACATCTGTGG GTTTCCTGCC ACAGACATAG GGAGACCAGC CCAGAGAAAGAAGCCTTTCC TCACTAGACT CCATTTGCAC TAGTAAAGAG AAGACAGAGT AATTAAAAAG AATAAAAAGAACCTCCACTG ATCGTACATC CTCATCCAGT TACCCCTGCC CCACTTCTCC TTCACAGCCA AACATTTTAA AAGAGATGACTGCTTGTTCT GTCTCTACTT TCTCATCCTC AGTAATGCTC AATGCTTGGC CGTCTGACCT CTGTCTTGAT GTCTGCACTGCAAATAGTCT CCCCACTGAC ACCCTTGTTG CATCCAGGGG ATACTTACTG GTTCTCTTGG CAATGTTTGA AACCGTTCCCCTTTCTTTGT TTCCTTGGCA TTCATTACCC CACACTCTTT CTCCTCTTCC TTCTCCCTGC CTGGCAACAT CTTTTCATTTCTCTTTCCCT TAGGTGACTT ATTAGATAAT GATGTTCCTC TGGCTCCCAT ACTCTCTCCC AGGTCCTCTT CCATTCTTAAAGCACTCACA CCCTCCCTGG ATGATAGTAC CCACTCCTGA GATGGCAGTT ACCTCCTGAA ATGTGAGGGACCCAAATCCA CTTCTCCTGC CATAGCCTCT GTGCTTTGGA TAGGTCCAAT GAGCCACAGT GAATGATGTG CATACACCCAAAGCTCAGTA CAAAACTGAA CCCATGATCT TTACCTCCAA AACCTCTCAT TCTTTTATGT TCCCTTCTCA GAAGTAAACAGGACTACCAT CCGCCAGTTT CCAGGTGAGA AAGATGATAA TTTGATTCTT CTCTCTCACT TTTAGCCAAT TAACAGACACATTCAGTTAA TATCACCTCC TCTTATTTCA TGAACCCATT CTTACTACTA GTTCCCTAGA CAGGCGCCAT CGGTTTTAATCTAATAACTG CAAATGCCTC CAAAACAAGT CTCTTTGAAT CCAGGCTCAC CTGTCTCCCA CACTTGCCAT ACTGCTCTGCAGGGTGACCT TATAAGATGC CAGAGGTAAG GCTACTCACT GTTTAAACCC CTTTAGTGAT ATCCCAAAAGACCTCAAGAT AAAGCCCATA TCACATGGCT TATACATTAG TTTATGATCT GGCTTCTGGT GCCTCATTTT TCCCCACTTTTTCCTTTGCA TTCTAAGCAA TGGCCCATAC TAAGTTTGTG ATTGGTAGGA TGGTTGCCCA AACCAGCATC CAATCCCTTCAGAAATCATC TCACTTCATT TCTAGCATTT TAAAGGAAGC TCAGTTGTCC AGCTGGGTAC TGAATATGTC ACCAAAGTCCTCCTTTCATA GTTTATTTTA CTTAAACTCT CCTTCCTAAA ATTCCAGAGC AAGTCACTAA ACCCTAGATA CTGAGAAATATTTTTCCATC TTCATTTCTG CCAGGTGGGC CATCAACTTT CACATGTCTG CATCTCCTCC CACTGTGCTA TTTCTCCAGTAGAAGAAATT TGAGCTTCAA GACCAAACTG AAAAATACTT GCCTCCTTGG GGAAGCTGTA GGTAGAATTCATGCTCCCTA TCTTTCCCAC ATTTCTGAAG GACAATGCCT GTTAGAGCAA TTGAATGCAA ATAGTCAATT GAATAAGCATTTATTCATTT CTCAATAAGT GCTTGTTCAA TTGAATATTT CTTAAATAAT ATATTTAAGA ACAAGAAGAA CACACCACAATGTTTTTAAC CCTCAGAAAA AATTCTGAGG TAATCAGAAA AATCTCCCTT TACATAAACT GCCCTTTTCT AATAGGGATTACTTGTTCGT TCATTCATTC ATTCAGCTCC ACTAGCACCA AAAAGCACAG CTCTGAAAGG AAGCTAGTAG ATTTATCACCTTATCTGGTC ATTTGGATGA GGACCCCAGG TAAATAAACT ACTATGGGGT TAATGTGTCT AGCTAGAGCAGGAAGTAACT TAAGGAAGTA GAGAATGAAT CAGCAGATGT GGAAACTCCT CGCCACTAAT AAAACTTACCTTCTCTTGGA TTTCTTGCCT GAAAATAGAA AATAGAGAAA AGGCATTAGC AAAAATTAGA CAATTTAAAGTTTTTCAAGT AAGGGAGAAG GAAGACTCCC ACTCTCAAAA CTGTCTTTTG AAGTATATTA GGTATTTGTT AGGTGGACCCTATCTGTGTC AAAGGAGATT TGAGGAACTG GCTTAATAAA CAGTGGTAGA CACTAATACA GAACAGACATGTTGATGCAG ATGCCTCCTG AGGTTCCATT CCATTCTCCG TGCTACTCAA GAAGACAGAA 25441 TTGCTAAATTGCCTGGTGGC AAGACCCAAT ATGTCCATTC AAGTGTTTAT CCCTTCCCAA TCTGCCATCT CATCCTACCT GCAGATTCTTCCCTTGAGGG ACAGCTGCTA ATACTGTAAA ACTATGTGCC ATTACAGCTC ACAGCATCAT CTCTATGAGAATCCACAAGA GAATTTCACT TTGGTCTTGT TGGTAGGAAT TGTGCAGCCT CATCTGAGTA ACTAATGTGT TTTTATCTTACAAACACAAG GAATATCACA TGGTTCTCCT TTGACTGGCT GTAAGGAAAC TCAGAGCTAG ATCTGAGACCCTCTCCTACC AAGTATATAA AACTTTGTGA CATACATTTT TGTGCCATAA CTTCAACCTT GGTTCCAAAT GATTTTTGTACCCTAAGTTT AAATTTGGCT TTCTTTTTTT TTTTTTTGTA CTCAATAAAA CATCAAGCTC ATTTATTATT GCGAAGAGCGAAACAACAAA GCTTCCACAG CGTGGAAGGG GACCCGAGTG GGTTGCCCAA ATTGGCTTCT TTTTCTTACT TTTTAATTAATTTTAATTTG CTATACTGAA CACATTTTGT ACTGTTCTCA CATTCTTTTT GAAAAAAGCA GAATATAAAT AAGTAGATAACTTAAAAAAA ACTCTTTGAG CAGAAAGAAT CATTTGGGAG GCAATATATT TCAGTGGCTG TAAAGTGGCATTCTAGAATC ATCCTACCCA GGTGAAAGCC CTATTTTGCC ACCTGTAGTG TAGTGTGTAT TTGAACAGCT ACTTTCTTTTCTAAACTACA ATTTCTTCAT CTGTTAAAGA GGCATAATAA TTGTATCATC CTCATTGGGT TGATAAAATA AAATATTTCCAAGTATTTAG TTCAGGTCCT AGCACGTAGA CAGTGTTGCA TTACTGTTTT AATCCTTTAA AGTATTAAAG ACTACTATTTGAAATCTTTT CTTCTAAAAT TCAGCCTGCT GATGACCAAG TGCACTTGAG CAGGGGGAAT CAAATCTGAA TTAATTTCAGATTCTGGTTA GCTTCACATA AATATTTTTT TTAGGGATGA TGAACCTAAC AGCAATAGAT GAGTAAGAAT CTGTTCCTACTGAGAGAGTT TCATTTTGAA GAAAAAGGAA CTAAGGGGGC ATGTGTTCAG TTTCATGCCC TGGTCTAACC CTGTGTGTTGGTTCTGGTGG GAAATTCTTC CAACCGAGGA AAAAACCAGT TCACAAATCT GAAGACCAGT GATTTTAGAAGATGTATCTG GACTGGAGTC TAATCTCTGA CTCTGGGTCC TGCTGATATG GTATTTTTGA GATTTGGCCT AAAACATCATTGCCCTGGTT TCCTTATTTA CCAAACAGGG CCAATGGTAG TGACTAATCA GAAAATGATA ATGCCTGGTGCACAAAATGT GTCTAGATGA GCCCATGCAC AAGGACACAT GTTTCTGGAA CTGTTCCTTA TTCCTTTCCTAAAAGAAAGG AGGGAAAGTC TCCATACTAA GACTACTAGG GCAGGGGACA AAGTGCTAGA GTCAGAAGATTCATCTGAGG ACAGAAGAAT AGGGGTGAAG GCTCTAGTCA CTTCATTGGC TACCATGCTC TAAATAGTTACCTGTGCCCT TTTTCTAACT ATTAGAACCC AAAAAGCCTA TAAATTCTCT CTCTCTCTCT CTCTCTCTCT GTGTATATATATACATATAC ACACACACAT AGACACACAC ACACACCTAA ACACACACAT AGAGATTTAT GACTTTTTAC TTTTATCCTTGTAAATGCCA TTAACTATAT TTTGTCTTAG ATTTAGCCTG GGAATGTAGC CATTATTTCT ACCATTGCCT CCATAGGAAAAATACTCTTC ATGTTTTAAA GGACCAACCT ACAACTAAAA TCTTTGGAAA GCAGAATCAT TTGTAAGTTGGTGAAAATGG AAGATGTTGT TTTATAAATG AAGACTTTTT TTTTTTTTTT TTTTGAGACA GGGCCTCACT CTGTTGTGGAGTGCAGTGGT GCTGTCATGG CTTACTGCAG CCTTGACCTC CTGGGTTCAA GTGATCCTCC CACCTCAGTC TCCTGGGTAGCTGGGACTAC ATGTGCATGC TACCATGCCT GACTAATTTT TTGTATTTTT GTAGAGATGT GGTTTCGCCA TGTTGCCCAGGCTGGTCTTG AACTCGTGGG CTCAAGTAAT CCTCCTGCCT CAGCCTCCAA AAGTGCTGGG ATTAGAGGTGACAGCCAAGG TGCCTGGCCC ACAGATGAAG ACTATTTAAT GTTATCTTAA AGATACCCTA AGCTTCCTACCAAGCCAGTG ATCTTTTGGG GCTTCTGTTT TCTTTGTTGG CATAACTGTA ACTAGCCTAA CTGCCCGTTA TCTGTTTCCTGTTTGCCCCA CACTGATTCC CACAGCAGTT TTCAAGTTAT CGGTTTGAGA TCTTGTACAG AAATGACTCC AAGGTAAAAAATTTAAAAAC AACCCCTCTA ATTTTTTTAC CCTTGCTTAT AAAACAGCCT TAGCCAGCTA ACCCCTCACT ACATGCAAATGAGTTTGATT CTATTCTTTT GATTCTACAA ACACTTATTA AAAGATTTTA GAATTCGGAA ATAAATAGCT TCCTTATTAAGGTGACTTAC AGCCCCAAAG TCCTTAAAAT TATTTAGACA ATAGCCACCT TATCCCAGGG GGCAGTGTGTAATAACCCAC CCTGTTCTCT ATCCGTCAGT TCTGCCATCA TCGCCCAAGG TAGGAAGAAA GACAGGACAACCGGGGTCAA GATTTGAAGT CTCAATGGAA AGAATAATCA GTGGTTGGAG AAAACTGTCA TTCTTCTTTT GCCTTAATGCAGTACTTGAT ACTTATACTT AGTACTGTAT AGTACTTAGT ACTGTATAAT ACTATAAGAT AGTGAGATTC AATCAGCACAGAATTTCTAA TAGCAAGGGC AGAGACATTT TAACTGCTCA GTGCTCTCAG GTTATACATA GCTAATGAAG TTCTTGCATATCAACAATCC CCACCCCCCT CACACACTTT GTCTTTCTGG ATTGGTTAGA AAACTTACCT AGCGCCCACT ATTCTCAAATTTAAATGAAA GATAAGATCA GAGTGGCACG CAATTAGGGA CTGATAAATA ATATTTTTGT AATTGCCAGTGTAAATGGAC AGGGGGCAAC CTTTACATAC CATATTCAGT GAACAGAATA CGTACTAACT AATTTGATGGAAGGAAAATT AAAATGACAA TCAACTGAGC CCACAGAAAG GCAACACAGA GCAGTTGGTT AGCAATTGTTTCGAGATCAT CCCTGAACTT GAAACAGGTA TATCTTTTTT TTTTTTTTTT TTGAGACAGA GTCTCACTCT GTCACCAGGCTGGAGTGCAA TGGTGCGGTC TCAGCTCACT GCAACCTCCG CCTCCCGGGT TCAAGTGATT CTTCTGTCTC AGCCTCCCGAGTAGCTGGGA TTACAGGTGC CCGCCACCAC GCCTGGCTAA TTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGGCCAGGCTGGT CTTGAACTGC TGAGCTCATG ATCCGCCCGC CTCGGCCTCC CAAAGTGCTG GGATTACAGGCATGAGCCAC CACACCTGGC CAAAACAGGT ATATCTTAAA AGCTGCCCAA TGTCCATGAA TGTTACAGCCTTGAATGGTT CTTCCAGGTG AGTTTGGCCA AATGTGGCAC CATACACCCA AGGCCTGCTG CAGGCTAGTGGGTTGCTCAC ACTTTAAAGC TGAGACACAC TCATGCCTTA AGGTAAAGGG AGTGATAATC TGGGCAGCAGATGTTAACTT CTCAAGGCAG TCCTCCTTCT CTTTTCCTCT CCAGTGACGG ATGGTTGGAA AGCATATATG GTGCATTTGGTTAGAGCTGT GGCCTTGGTG AATAGATACT TGGGAGAATA CATGGGAATT TCTCCCAGGG TTAATGCAATGCCCATGTGT TGGGAACCAG GTGACTCTTG AAGAGGTCAG GTATTTGGGAGCAGTGCCTT GAAACCTTAGTGGACATTAG ACCCACTTCC TAGTGGAATT GTAGCATTGA AATCCAAGGC ATGTAGGCTC TTAGAGGACAGAGATAGTGT GTCATTTTTT CAGAATTAAT TAAGAGCAGG CCAGGCGTGG TGGCTCACAC CTGTAATCCAAGCCCTTTGG GAGGCCAAGG CAGGCAGATC ACGAGGTCAG GAGATCGAGA CCACTCTGGC TAACACAGTGAAACCCCGTG TCTACTAAAA ATACAAAAAA TTAGCTGGGC ATGGTGGCAC GCTCCTGTAG TCCCAGCTACTTGGGAGGCT GAGGTGGGAG AATAGCTTGA ACCCAGAAGG CGGAGGTTGC AGTGAGCTGA AATTGCACCACTGCACTCTA GCCTGGTGAC AGAGTGAGGC TCTGTCTCAA AAAAAAAAAA GTATTAAAGA ATTACATAAGAGCAAAGAAC CATTAGAATA TCTCACTTAG TTGTTATCAG CCTAGCAAGC TGCCTTGAAG GTAATAGACATTTTTAAAAG TTTATCAGAT GAAAAGCGAA AATCAGCCAA CCTGTTTTAA TGAAGGTGTG TCCTGGGCTG ATTTACATGTCTCCAGGGAC TGATGGCTCT AGAATGTAAA GCTTGGCATC CTGCTTGTGT TGAATCTATC ACATTTAATT TCCTGTGGGTTTCTTTTTTT TTTCTTTTTC ACTTTAAAGT TGTGTTCTTT TCATGTGAAG TTAAACTCAC ATACCTTTTT TTAATCTCCTTGCCAGCCAA ATGATAAATG CCAACCCAGA GAATGCAGTA ACCATGACTG CCACTGGAAT GAAGAGGGGGTTATAATCAC CCTCCTTAAT CATTGAGAAA CTTTTGTCCA ATTCTGAAAG AGAAATCAGT AAGGCACATAGCATGAGACC ACCAGCATTA TTTCCTTAGT CTATCTCATG ATATTTGACT TTTTTCCTCC TTACATCTCC CAGTAGTAGCCCATTTGATG CCATTTGACA GATGAGGAAA CTGGCATGGG AAGGCCCCTG ATGAGTCTAC AGCATAGGCAAAGACTGGAC CAGCCTTGCT AGTCTAATGC CTACAGAATC TCAATGCCCA GATTTGTGGT TCATAGAGTTCCTGAAAATG CACCTAAAAA TGTTGGCAAG AATGGTCATC GTTGTATTTA GCTCCATGGA CTTGTTCAAT GACTGGAACTCTGAAACACA GAGAAGAGCT AAAAGCCTAA TACAACTTCA GGAAAAATAA AAGCCAATGA TCTGAACTGGATAATTCACC AGTCAAAGGA AATCATTAAT GCTTTTACTT TAAAGCAGTT GTGCAAAAAT AAGCACTTGA TTTTTACATGCCAAGGACCT GCACTAATTT CTTTCCAATG CAGTAGTTAC CACTTCCCTC TACTTCCTTC ACGAATAAGT AAAAGGGCATGTTTAGAGAT ACTCTTGTAA GTGTAAACTA AGTTCATTTG GGAGCCTCTA TTTGAAAATA CTGGTATAAA AAAAAATCTGTCTCCTGATA CTAACATTTG AAGGAATCTA CTTTTTTACA TATTGGCAGA GGGTCTGATT CTATCCTTAG TTCTTCCCATTACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACAC CCAAATATAT GATTGAGAGA AGGCTCAAGTTCCCAGGAGC TCCAGACAGA AGGTACCTGT TGGCTTGATG AAGATGAGGA GGAAATGAAC ACTAGCTAGGCCTTAAAGGG AAATGTCTCT GATAGGCCTA ATACACAGTC CTCTGCTAAA GGCCTCCCTG CCTCTCTCTG CTCATCCACTCTACTCCCTG GCCCTGGGCA CGCAGCACAC AGAGATCAGC ATTTCTGACA GCTTCTGTAG ATCCTACCAT TTAAAGACTTTTGTCATCCA TGCAGATAGT CTCAGGAGCA GACACAGGTA GCTATTCTTT CACATGCTAG CTTAACATGC ATTTGCTTTAGCACCTATTG CCAGGCACTG TGTCAGGTGG AGGGTATACA AAGATGAACA AGACATGATT CTTCTCATATACAGATAGAT TTTGGAGGCA TTAGCTTAGT GATGATTCAG GAGTATCCAT TATTTGGGGA AGTAGGTGGTCATTAGTGAC CTTTTACAGG CATTTCAATG GGCTAACAGA GATGTTAGAT TGTAGTGGAA TAGAAGAATGGGTAAAAAGT AAATCAGTGA GTTCAGATTT TAGGAGTTAA GATGGCAAGA GGTGAGAACA AAAAAAGGAAATGATTGTCA TTAAAGGAGG AGGAAAGACC AGCCAAAGAT TTTACAGTGA GTTAAGCATA CAAATTTATTTCTAGGCCAC ATATTCTTAG CAAAACAACA TGTAAATGTT TATGTATGTC TTTCCTCATA TCTGCTCATC CATCAGCTCCATCGTTAAGA TTTCAGTTTT CCAGGACAAA CTTACTCACT TTGACATATT GGACTAGGAT TTGACCAGAT TCCAGATGATTCACAAATGG TTTTCTTCTT CCCAATTAAC TCAGTTCCTT CTGAGCAGAT GAAGGTACAT GCAGAGGTAA AGCTGAAGCTGGCCAGGGGA TGGCTACAGT TCATGATCCC CAAATCTGGT GCTGATAGAG GCTCACACTG AATCACTTCAATGAAAAAGA AAAAAAAAAA AAAGACAAAA CAGTATTTCT GAGTAGAGAC CCTCCCTTGA GCAAAGGATTTTTAGCCAAA GCTGCCTGAC TACATTACTT GTGATATTGC TTCCAGGCTT TATTTTCTTG AGAATGATGG TGGGTGGTGAATGAGAGATG AAGGCAAGGA AGCATTGAAA GCTGTGGGGA GAGGAGTAGC TACTCCAGGC TGCTGCCCTAGCTAAGGTGA CCCTCCCCTT CTGCTGGAAG TACCATGCCA TATGGCCTCT GCATCAAGGG CTCTTATGGG ATATTCTCAGAGAATCTCTG CCGTTTCATC TGTTCTGATA TCTACCCAAG CATTTTGAAA AACATCCCAA TTCACTGAAG CAAGTCCAACTTCCGTAAAT TCCAGTAGGT GGGTTGACAG TTTTATAATT TCAATAAGGG ATTTTGATAG CACTTCTAAG AATTAAACTACTTAAACTAA TGCATCAGGA GCATACTTGT AGAAAAGTTA ACCAAAACTT CGTAAGTTCA GATGACATTG GTTTTCTCCCATATGGAGAT AAGGTTGGCA GTTAAAAATG AAAAAAAAAA AAAAACCTAC CTTATTTCAA ACTTGAAAAGATCAAGAGAT TGTGTTTTTG TTTTTCAGTT GTTATTCTCC TAAAAGTTTA TGCATGAGGA AAAGTAAAAG TGATTTTAAGAATAAGCCAA ATAAAACAAC CAAGAAAGAC CTCCACTACC CTGGGAAGGA AACTGGTTGG TATTAAGTAGGACACCACAT AAAACAGGTG TTATTGAGAG GAGAAGAACC AAAATGTAAC TGAGGTTCAA CAAGACATTATTTATGCAAT GGCAATGAGA AAAATAAAAA ACACAGTATA ACCATGCTGT ATTGCTATAA GTCATGTTACACACTGGGAG ATGGCTTCAG GGGTATTTGG TTTTTACTTT TTGTTTGGGA GGTTTTTCAA AAAAATTTAG TTAGAATAAGTCCTTTGAGA AACATCACAG TAGGTTAAAC AAAGTTAGGT TAAATTAGGC TCCTAAGTTT GACTTCTCAG CAAACTTCTACTGAATGTTC TGACTGTAAG CCCAGGATTG CATGACAAAA CCTCTAGTCT GAAGTTACTC ACCTTGACAG GTTGGTTCTGGAGATGACCA GTTTCCAAAT GGTCCACAGG TGGTTTCTTC AATCCCAGTT AAGTTTGTTC CTTCAGAGCA GCTGAAGGCACACTGTGAGC TGAAGCTGAA GTTTCCCAAA GGGTGAGTAC AGTCCATGGT ACCCAGCTCT GGGGCCTCCAAAGGCTCACA CTGAATCACT TCAATAGGGA AAGAAACAGT ATGGGGAAGA GTTAAGAGGA ACTGACGCCTGGATTTGAAT CCTAGCCCTG CCACTTGATA ACCATGTGCC TTTAAACAAG GTTACTTGAA CCCTCCAACT TCAGTTTCTTCATCTATATA AGAGGAATAA TGAAATTGTG TTATCTTTAT CAAATTGATA TGGAAACTAA ATGTAATTCA ATTAGCATAAGTCAAGGACC TTAGAACAAA GCCTGACTCA TCAGAAATTC TAAGTAAACA TTAGCTAGTC TTCATATTAT TATCTTCAGCATTATCTGTA GTGAGAATCC TTAAAGCCAA ATAGGTGTAA CTGGGAATGA CCAGCTTAGT CGGGAAATAACTATCACATC AGAGCCCCTG AGTCTACTAG AGTATTGGGA GCAAGATGTT CAGAGAAAGA GTGGGTCTCCATAATAAGCC TTCTTTGCAA GGAGAGAATA TAAAAGTCTA GGAAGCATTT TGACCTCAAT TCTGTCTTCT ATTCTAGCTCAGTTCCAGAA TTTTAACTCT TTTGATTTTG ACAACCCTCT CCAGAAACTG TATCTATTTC CCTGTTCTGA TTGGTGGTACAATAGGTAAA TTTAAGACTT GGAAATCAAA GTTTTCACAT TTTAGACCCT GCCATGCCAT TTAGTAAACA GTACAACTTTCATGTCTTAT TCCTCATCTG TCAAATTTAA GCCATTATTG CTACCTTGCT CTAGAGACTT CAAGGAAGAA TGGACTCAAGGAATCAGAAG AATTTTTGTA TTTGGAAACT ATATGAGATG AGATTAGGGA GAAACATGGG AACTAAGAGAAAATGTTATC TTTTTTCATT GATTTAAAGA GTATCTATTA TATATCAAGC ATTACTCTGG GGCTTGAAGA GCTTAGATTTCACCCTGTAG GACAAAATGG TAGGTAGAAA TTAATGGGTG GATTGTCATG TATGTGTGAT GTGTTTTAAT TGCTTTTAATTGATCAGTCT CCCTGTAGTA TGAATAATGT ATTTGAGGGG AGCTAATTTA AAATTGTGGA ACTCATCTAA TAAACTATTGCAAGAATCTA GAAGAAAGAT AATGACGGCA ATGGTAGTAG AGTTGACAAG TGGAAGACAA ATTAGAAAAACACTAAGTTG TAAAAATTGG TAGAATGTTA CCCTGCATAA ATGTTGGGGG AGTTAAGAGA GTCTCATACCAGGGTGCCCA TGTAAATGGT GATTCCACAT ACTGAGATAA GAAATACGAA GAGAAAAGCT GACTGGGAACAATTGGTTTT ATAGTCTTTT AAACATCCCA AAGGACATCC TTAGCATATT TGAGTTCAGA GCTGGAGATA GGCTTATCAGTCCAAAGATC ACATAGATTT GTGAGTCCGC AAAAGTCAGT AAGTTTGACC AAAGGATACA TGTAGATTAGAGTCAGAAGA GCAATATACA AAAGACAAAA GCTGAGAAAT TATAGTAGTT TATGGTCCTG GATAAGTGCTCATGAAGGAT CTCAGGAGAA ATGATCACAG GTAGAAAGAA TGAGAAAAGA GTGATATGAG AGAAACCAAGACAAAGAAAA GTAAAATGTT AAAAATGAGT GAAATAGGCA TACCAATAAT TAAAAATGAG TAAAATAGGCATACCAATAA CATAAGGGTT AAAAAATAGA GTTCAAAAAT GGGGTGAGGG TAAAGTATTA GGAAGGAGTCATGGCCCAGG GATCAAGTGA AATGAGTTAG ATCTATAGAT CTATTTCAGT TGGTTGACAT TTAAATGTAT TTTGGTTTTAATTCTTTATT GTTTACAAAC ATTGCTTTTT TAAAAAATTA AATTGTCCAA TTCAATTCAG GCTCACAAGC AAGTGCCTCATATATACAGG CATTTTGTGG ATCCCAAAGA TGCAATGATA AATAGGACAC TTACTGATCT CAAGAAGTTTTCAGTACCAG AGGAGACGGA CAAGTGAACA GATGACTTCA ACATAAGTGG GAGAAATGAG GAAGAAATATGTGGAGCTAT CAGAACTAAG AAAGCTTCCT AGAAGAAACT GTCTTTGAAC AATGTCTTAA AGATGACATGTTTTTTGGCC ATGTGCAAAA TGAGAGAGAA GGCCACCAGC AAAGTCAGTG TGCTACAGAG CACATGTGTTAAGTGTGGAG AACTGCAAGA AGGAAAGGAA CTACTAGAAG GAAAAAGCAA GATACTTTCT GGGTAACTCAGCCTCCTAAT GATAAATGGC ATAGTTTCTT CCAGACCTTA GAGTTCTAAT TAATCTAACA AGCTCATTAG ATCGTGAGCTTCTTGAGAGC GGGAATCTAC CATGCTAATT CCTTATGGTA ACCCTGACAG CTTTTATCCC AACACTGTGC TTCTTGTGGTACTCAAAAAG ACTTGTTGAG AAGTGAGTCG AAACTTCATG CTGACTTATG AAATCTTTAC GGAAAGGTAACAATATTGTG AAAGCAGAGC TTTCTGATCA AAACTTCCCA TTTCTCAGAG TGGCTAGTAT CATTTTGTTC CAACCAGCTTCATGATAAGC TATAATGATT CCTGTGACTT TACCTAAGAA GAAGCAAAGA AAGGAAAGAG ACTTACCAAACTGACACTGG GGCCCATAGT ACCCCACATC ACAGTTGCAG GTGTAATTAT TGATGATTTC TACACATTCT CCATGGCCACTGCATGACCA GGGCTGGCAA GAAGCTTTAA GGAGGTCAGA AAAAAAATAT TTTAATGTGA TTACATTTTAGTACTCAAAG TCATTTCTTT AGACATAGAT AACCTTTTGT CTGAGATGAT TTAAATAATC AGGAAAGGTT TATTTGTAAATTCATAGCAT AAAAATCATA TGCTAAAATT TTTACGTATA AAATACACTA AGCATATAGT CATAGGCATT TATTTGCTTTTGGAATGAAA TTACCAATAC TAATATTCTG TAACACTTAT AGGAAACTTA GTGGCATACC TTGAAACTCT TGAAATTACTTGTTTTTAAT GAGTGAGAAG GTTAAATGAT GACCTGACCT CAATCATTTC TGCATGCAAT TATTTCTTGG CAATCCCTTTCTTTATAGAA ATCAAAGATT AAAAAGTCCA AATTTGCTAA AACGGTAGAG TCCAATTTAT AAGAGACCAAATTAACTATG GTTCATTATT AAAACATCAC TTGGAAAATG CTGGCTGTTT TGGAATTGTA GAAGATTTTA CAGAAATATTCATACACCAA AGATAGTGCA ATTTTTATAT AAAATTATAT AAGGTTAGAC CAAGAAGGAA GCACGCAGCACCACACTCTC TACTTCACAA TGTGAAAACT GAGGTGATGT GAGCCTAAGT TTCCAACTGG CCCCAGCTGT CAGCTTCTCCTCCCCTGCCT TATTATCAAA GGCACTGATT GTCTAGCTCT TCCTCTGTAC TTCCTACGTA GATCTATCAT TTTGATGTAACTTGATTTAG GGGTATAGCT TTTGTGCACA GGGACAAATC TTACACACCA AAAATTCTTA GGAGTGACACGATGCAAGAT TATATAGAGG GCTAGATGTA TTTTAGAATG AACCAGAAGC TGTTCTCATC CCCCCACCTT TCCATGGGGTAAATCTGAGT ATTCTCTTAA CCGTGGCCCT TCCTGAGTCT GAGGCAGCAT AGCCGTCTTG TCACTCCCTA CCTGTGTAACAGAGGGCTGC CTTTAGTTTG TGGCAGGCGT CATCGTTCCA TTTGCCTGCA TCTTTGTTTC TCTTGATATA GATCTCCACGCAGTCCTCCT TGTTCTTCTT GTTGTTGGGC TCACCATCTC CCCAGTTCTC TGCTTCTTCA GTAAGAGATT TGTTGGTTCCCACCCACGTC CATATTCCTC CTATCTTCCG GATTCCTATC CAGTAGTAAG AACGACTGAA AGGCAGAGTC TTCTCCAGATACTCAATTTC CGCCTTGTTT TGTATGGCAA CTAAATCTGT GTAATTGTCT CGGCAGAATC TTCTAGCCCT TTGCCAGTTCATGGGTTTTT CAGAATAATG GTAAGTCCAG CAGTCGGTTC CATGATGTGC CAGGAAATCT GCAAGACATCAGTGTGACCT ATGCAGACTT ACATAATGTT ACAGCTAAAA AGAACCTAGC ACTACTCCAG GCTGAGCTAGACACTTAGAG ATGAGGAAAC AGAGCCTAAG AGTGTATGTG ACCATCTCAG GATCACAGAA TAGTTGTTTGCAGATTTGAA GTAGAACCTA GACCTTCTGG CTTGAATATA AGATGCTTTT ATCTAAGGTT CTATTTGAAA CAAATTTAGTGGTTTTCTAG GTTTATTTTC TTATTAATTT TTTTCTCAAA ATTATTTCAG GTGAAATTTA ACCAACATAT TTTAGACATTCATATTTCTT TTTCTTTGTA GCTGTTAATG ATTTACAACT AATTACCGTG TAATATCATA TAACTATACA ATTTACGTATACTTTTTAAT CCTGGAATCA TTTCTTGAAG GCCAACACAT ATGTACCTAT GGGAGAAGCA TAATAAGGACAGGAAGAACA GTGACATACT TTTAAGTAAC CTCTTTTACA TAAAAAACAT TTTATTTTAC CATAGGAAGA ACTGCTTCTGGAAAAGCCCA ATATACCACT CAACTCTTAT ATATCTAACT GTATAATTTT TAAAAAGAAC AATTTACAAAGCCAAATGGT ATAGGATTAT GAAATTCATT AGATCATGTT CTATACACAA AGAGACTCAA CTGATGATGTTTAATAAACA TATGGACCCA TCAAATATGA GGGCTTTGAA GATATCTAAT TAAACACATA ATTACACAATGACTTCATAA TAATATATGG CATTCTAAGC ATGGTATGATCTACATGAAT CACTATTTAA TACAGTAAAGAAACAGATAT AATTGATGGT AAAGAGCATC ATAAAATAAA CATTTTGAAC AGAGTTTTGA ATGAGCATTCCACTAGAATG CAAGTTCTAA GAGGGAAAAA ACTGTTGTGT CCACTGCTGT ATCCTTAGTG CCTAGCATAAATTTCACACA TTGTAGGGAC TCAGAAAATA CCTGTTGTAT GAAAAGAGCA CTAAGTTTCT ATGTGACACAGTGCAGACAT GGCATAAGGA ATGTGTGAAC GGGAGAGTTA GCATGTTTGC TTGGCTAGAG CTGAAAATCCAGGCTAGGGA GAAAGAAGAC ATTAGTTTAC TTAGGAAATG AAAAACCAAG TTCAAAGCTA TTGCTGGAGAGTCTTCAAGA ATCAGATATA AAATTTGTCA CAACAATGGG AGAAGGACCA AAAAATGATA AACCCCCGTCCCTTAATAAG CTCGTATTGT AATTGTAGAA ATGACATTAA TGTACACTGA ACTATGAATA AAAAATAGAAAATGAGGTGC TAAATATTTG GTACAGATTG TAAGTACCTT AACAGAGATT TCTTAATTAA CATTATTCCT TTATAATTGAGGGATTTTGT GGGGTTATTG GGATTTGAAC TCTACAGCAT GGGCTATTAT AGGTTAAAAA TAGTGTTCAG GAGTTTCTGGGGAAGAACTA AAGGTAAGAA GAAAAGAGAT GTTTACAGAA GGGATAGAAT TAACAGCTCT GTGAAATAATTTTCCCTTAG ACTATGTATA ACTAGTGGAT ATTTAAGAAA AATGAATATA AGTAAAATAG ACTTAGCGAT ATATAAATATCATAACATAC CACAACAGAG CATTGTCCAC CCCCACAACT TGAAGATGTT CCATAAGTCC CTCTGGGTGC TCTGACATTTCCATGGAAAT ATCTGCAAAT GAAATACAAA ATTATATTTA GATGTATACT CTTAAACCAC ACATTTATAG CCTTTGAGGTGGTGCTTACA ACTTTCTTAA TAATCAGAAT AAAACACATA TGTCTACTAA CCCTGTCTGA GGTAACAGGT TTCTCAGACATAGATGAAAA ATTACTTCAA ATTTACATCA GAACTGATGC ACAGTTTTGT TTTGTTCTAT TTTATTTTTA CGCTTTAGTCTCAAGTTGCT AATCGGTACT GCCCTGAATT TTTTCTATGG TTTGGTAATT TTTATACCTG CTTTTCTGCT GAGCTATTAGATAAAACTAT TTAATATTTA CTATGTATAT TTTTTAAAGT ATTGTTGCTG CTTAATTAAC TATTGATGCT TATATTTAATGTTATAGCCT CACTCTTGAT CATAATGGGT CAATGCCTCA AATACCTAAA AAAAAAAAAA ATTAGATAGCCAGACACCAG GAAAGAAAAG TATTTCTTTT TTTAATAAAA AGAAATACCT TTTTGAGCAA CTGAAATGACAAAGTCACAA ATTTCCTGCA CACCTTAAAA TATACTTAAT GTAAATGACG AGTTAATGGG TGCAGCACACCAACATGGCA CATGTATACA TGTGTGACAA ACCTGTATGT TGTGCACATG TACCCTAGAA CTTAAAGTAT AATTTTAAAAAAATTCTATC TTCCAAAGCA TATCACTTCT CAGGTAGACA CAGTGTTTAT TGCAAAAGAT CTGATTTCAA TAGTATTTCTTCAAGAGTCT CCCCAGAGAC AAAGTCAAGA AGAGGAAATC AGCATATCTG AGAAGAAAGA TTTCAGGATCACTTTTTTTG AGGGTCTGAG AAAATGTTTA GTTTCTATAT TATTTAAAAC CAGAATTGAA ATGGGGTGAT TCCTATCCTTGCCACCTGCC TCTACAACCC CAAGAGTTTC TATCTGAGCA TCTAAACGTC TTTTAGGCTG AAAGGCTCAC CATGGCTTTGCTTGGTCCTT CTCTAGTTCT TCTGCAGCCC ATTGAGCCTC TTGACTTAGC ACAAGGGTCT CAGGTCCTTG CCCAAAGGGAGTGTGCTGTG CTGCAGGTAG ACTGCACTGA ATGTCAACAG AAAGCCTTGC TTTCTTTCAT TTCTCTAACC CAGTCTCACATCCTCCTCCT CCTCCCCTTT TCCCTCCCCT TCCTCCTGCA CTTCTCTTTC CTCTTTCCCC ACCCCTTTCC TAGACTGGCCTCTATTGCCT CCCACTGAGA CAAAAATGAA CTGCTGATCA GAAAGTAATG TGACTAGATT CTCTCTTCCT TCCCTCCTTTCTATCCTTCC TTCCATTCTC CTATGCATCT TTCCTTACCC TCCTCCTCCT TCACTCATTG TTGTTGCTGT TCTTCTTCCTCTTCTTTTTC CTCCTGCTCC TCTTCTTCTA CTTGTTCTTG TTCTTGTTTT TGTTTGGTTC TTGTTCTCCT CTTCCTCCTTCTCTCTCTCC TCCTCCTCCT TCTTTTCCAC CACCCTCCCC TATCTTTTTC ATAAATGCTA AACTAACTCT TGGCTACCTGTGGTAAATGG CCCTTGGAAA TTGCAAATAC TACAAATCAA AACTGCATTT CAGACATATT TATGATGTTT GCAAAACTTCAGTAGAGCTA AGCAGTGGAC TTGACTCGTT TCGGTTCCTT CACCTCCGTC TTTCCTTGCT CACCACCTAG TGGACGTCCTTGTTAGTGGC ACTTCCTGAA GTTAACCCCT GAAGAGAGCC CATGCTCTCT AGCTTTTCAC CGTGTAGGTT TGGGAGCCTACAAGTACCTT TAATATTCTT GGACTATAAA ATGAGATGGT TTTATAAGAC TGCATGTGAA ATTAGGACCC ATATGATGAAGGACAATAAA AAGGAAGACC CACTGATGTG AGTCAATGAG TCAAATGCAA ATCAGATTTG CATTTTTAGGAAAATAATAA TAACAACAAC AAAAACTCTG AAGCTCAGCG CCCCATATTT ATTATATTGT TTAATCTTTA TAACAGCTCTCTGCTATAGA TATGATTATT ATCCCCATTC TAAAGAGTCT CAAAGAGGTT AAGAAACAAA TTCAAAAACTAGCGAAAGAC AAGAAATAAC TAAGATCAGA GCAGAACCAT AGGAGGTAGA GACACGAAAA AGCCTTCAAAAAATCAATAA ATCCAGGAGC TGCATTTTGA AAAGATTAAC AAAATAGATG GACCACTAGC TAGACTAATAAGAAAGAAGA ATCAATAGAC ACAATAAAAA ATGGTAAAGG GGATATTACC ACTGATCCCG TAGAAATACAAACTACCATC AGAGATTACT ATAAACATCT TTACACAAAT AAACTAGAAA ATCTAGAAGA AATGGATAAATTCCTGGACA CATACACCCT CCCAAGACTA AACCAGGAAG AAGTCAAATC CCTGAATAGA CTAATAACAAGTTCTGAAAT TAAGGCAGCA ATTAATAGCC TACCAACTAA AAAAAGCCCA GGACCAGATG GATTCACAGCCAAATTCTAC CAGAGGTACA AAGAGGTGCT GGTACCATTC CTTCTGAAAC TATTCCAGAG AATAGAAAAAGAGGAACTCC TCCCTCACTC ATTTTATGAG GCCAGCATCA TCCTGATACT AAAACCTGGC AGAGACACAACAAAAAAAGA AAATTTCAGG CCAATATCCC TGATGAACAT CATTGCGAAA ATACTCAATA AAATACGGCAAACTGAATCC AGCAGCACAT CAAAAAGCTT ATCAACCACA ATCAAGTTGG CTTCATCCCT GGAATGCAAGGCTGGTTCAA CATACACAAA TCAATAAACA GAATCCATTA CGTAAACAGA ACCAATCACA AAAACCACGTGATTATCTCA ATAGATGCAG AAAAGGCCTT GGATAAAATT CAACACCCCT TCATGCTAAA AACTCTCAATAAACTAGGTA TTGATGGAAC GTATCTCAAA ATAATAAGAG CTATTTATGA CAAACCCACA GCCAATAGCATACTGAATGG GCAAAAACTG AAAGCGTTCC CTTTAAAAAC TGGCACAAGA CAAGTATGCC TCTCTCACCACTCCTGTTCA ACATAGTATT GGAAGTTCTG GCCAGGGCAA TCAGGCAAGA GAAAGAAATA AAGTGTATTCAAATAGAAGA GAGGAAGTCA AATTGTGTCT GTTTGCAGAT GACATGATTG TATATTTAGA AAATCCCATTGTCTCAGCCC AAAATCTCCT TAAACTGATC AGCAACTTCA GCAAAGTCTC AGGTTACAAA ATCAATGTGAAAAAATCACA AGAATTCCTA TACAGCAATA ATAGACAAAC AGAGAGCCAA ATCATGAGTG AACTCCCATTCACGATTGCT ACAAAGAGAA TAAAATACCT AGGAATCCAA CTTACAAGGA ATGTGAAGGA CCTATTCAAGGAGAACTACA AACCACTGCT CAAGGAAATA AGAGAGGACA CAAATGAATG GAAAAACATT CCATGCTCATGGGTAGGAAG AATCAATATC ATGAAAATGA CCATACTGCC CAAGGTAATT TATAGATTCA GTGCTATCCCCATCAAGCTA CTACTGACTT TTTTCACAGA ATTAGAAAAA AACTACTTTA AATTTCATAT GGAACCAAAA AAGAGCTTGTATAGCCAAGA CAATCCTAAG CAAAAAGAAC AAAGCTGGAG GCATCATGCT ACCTGACTTC AAACTATACTACAAGGCTAT AGTAACCAAA ACAGCATGGT GCTGGTACAA AAACAGATAT ATGGACCAAC GGAACAGAACAGAGGCATCA GAAATAACAC CACACATCTA CAACCATCTG ATCTTTGACA AAGCTGACAA AAAGAAGCAATTGGGAAAGG ATTCCCCATT TAATAAATGA TGTTGGGAAA ACTGGCTAGC CATATGCAGA AAACTGAAACTGGATCCCTT CCTTACACCT TATATAAAAA TTAACTCAAG ATGGATTAAA GACTTAAATG GAAGACCTAAAACCATAAAA ATTCTAGGAG AAAACCTAGG CAATACCATT CAGGACGTAG GTATGGGCAA AGACTTCATGACTAAAACAC CAAAAGCAAC AGCAACAAAA GCCAAAATTG ACAAATGGGA TCTAATTAAA CTAAAGAGCTTCTGCACAGT AGAAAAAAAA AAACTATCAT CAAAGTGAAC AGGAAACCTA CAGAATGGGA GAAAATTTTTGCAATCTATT CACCTGACAA AGGGCTAATA CCAAAATCT ACAAGAAACT TAAACAAATT TACAAGAAAAAACAAACAAC ACCATCAAAA AGTGAGTGAA GGATATGAAC AGATGCTTCT CAAAAGAAGA AGTTTATGCAGTCAACAAAC ATATGAAAAA AAGCTCATCA TCACTGGTCA TTAGAGAAAT GCAAATCAAA ACCACAATGAGATGCCATCT CATGCCAGTT AGAATGGCGA TTATTAAAAA GTCAGGAAAC AACAGATGCT GGAGAGGATGTGGAGAAATA AGAATGCTTT TTACAGTGTT GGTGGAAGTG TAAATTAGTT CAATCATTGT GGAAGACAATGTGGCGATTT CTCAAGGATC TATAACTAGA AAAACCATTT GACCCAGCAA TCCCATTACT GGGTATATACCCAAAGGATT ATAAATCATT CTACGATAAA GACACATGCA CACTTATGTT TATTGAGGCA CTATTCACAACAGCAAAGAG TTGGAACCAA CCCAAATGCC CACCAATGAT AAACTGGATA AAGATGATGT GGCACATATACATCATGGAA TACTATACAG CCATAAAAAA GGATGAGTTC ATGTCCTTTG CAGGGACATG GATGAAGCTGGAAACCGTCA TTCTCAGCAA ACTAACACTG GAACAGAAAA CCAAACATTA CCCATTCTCA CTCATAAGTGGGAGTTGAAC AATGAGAACA CATGGACACA GGGAGGGGAA CATCACACAC TGGGGCATGT CAGGGGATGTGGGGCTAGGG GAGGAACAGC ATTAGGAGAA ATACCTAATG TAGATGACAG GTTGATGAAT GCAGCAAACCACCATGGCAC ATGTATACCT ATGTAACAAA CCTGCACGTT CTGCTCATGT ATCCCAGAAA TTAAAGTATAATTTAAAAAA AGTTTAAAAA AAGAAAGTTG CCTTAGTCAC ATAACTAGTA AGAGACATGG TTGGGAATTTGAACAGAGGC CAATCAGTTC CAAATCCATG CTCTTGATCA TTAAGCTGAA CTTATGGCAG GAACTTGGAAGACATGGTAA AATGGGGAAA AACGTGGAGC CAGGGAGACT TGTGAAAGTG CCAGTGCTCC CACTATACCCTGAAAGAAGT ATCTAGACTT ACTTTTTTCT AAGTCCTCTC CTCTAATTCT CTCAATCTCT CTCTCTCTTT CTCTAAGAGATGGGAATGCT GCTCTGTCAC TCAGGCTAGA GTGCAGTGGT GCGATCATAG CTCATTGCAC TCAAGGAATCCTAGGGTCTA GTGCCCCTTC TCCCTCAGCC TCCCATGTAG CTAAGACTAC AGGCACATGC CCCAACCCTC GACTAATTTTTTTATTTTTT ATTTTTGTAG AGACAGGATC TCACTATGTT GCTCAGGCTG TAATTCTGTC TTGAAGCTTG TCCAATCAGGCTTTCAGCCA CACCAATTCC CTGAGACTGC TCTCACCAAG GTCCTACACT TCACTAACAC AAACAGCCTA TTCTCCATCCTCATCTTACT TCACCAGGGA GCTCCTGGTT TTCCTCCTAC TTCACTGGCT ATTTCTTCTG TATCATGTGT TGATTCTCCCTCATCTCCCC AACCTCCAAA CCCTTGGAGT ACTCCAGAGA TCACCGCTTT GCTCTTCTGT GTCTAACCTC ACTAACTTGGTGGTCCAATT CACACTCTTG ACTTTGAATA CCATTTAAAT GCGAACGAAT TCTAAATTCT GTACAACCAG AACCATTCTCCTGTAGCCAA ATGCCTACTC AACATCTCCA TCCCCAAACA AATTTAGTTG TTCAATAAGC CTCTCATATT TTACATATCCCAAACTGAAC TTCTGAATTT CTCCTCCAAT CTGTAGGGCT CTTCCCACAG CCTTTCCATC TCAGTGGATT ATAACTCCATCCTTCCAGTT ACTCAGACCA AAACTTTTGG AGTTAACTGA GACACCTCTC TTTTTTTTCA CAAGTCATAT CCAATGTGTCAACAAATTTT GGTAGTGGAA ATATTGCGGG ATTTTTTAAG AAATCAGAGA GACCGATGGG GTTCAGGAGGATATTTATTA TTTAGGTGCA CTGGCCAAGT CAGATTAACA TCCAAAGGAC TGAGCCCTGA ACAAAGAGTTAAGTTACCTT TTAAGCATTT TGTGGGGTGG GAGAGAGGGG TATCTGTGCA GGGGGAAGCA TACTACAGAAGTGAGAAATA AAGACAGTTA TTCAATTAAT TGAGACATGC ATTACATCAT TTCTTACTTT TCAAGAAGAA ACATGTTTTGCGACTTGAGT TTATCTGTCT AGTGACCTTG CAGCTGCACA GCTAGAGAAA CAGGGTCTTC ACAATGCCTGGGAAAGGAGG AGAGGTAAGT CTCACTAGCC ACAGAAAAAC AGGCAGTTAA TTTTTAAAGG GCTCCAGCTCTTTCTCTTTC TCAGGGGGAG TTGGGTTTTG TTACATACAA CTGAGTTTCC GCTTACACAT TATTTAATTT CTTTTAATTCCTGTTCCAAA AGAAGCCAGA TACAAAAGGT TACATGTTGT CTGATTCCAT TTATATGAAA CATATAGAAGAGGTAAATCC ATAGAGACAG AAAGTAGATT AGAGGTTCCC AGGGGCTGAG GAAGAAATGG GGACTAACTGCTTATAGGGT ACAGAGTTTT CTTCTGATAA AAATATTTTG GAACTAGATA GACATTTTGT TAGGCCATTC TTGCATTGTTATAAAGAATT ACCTGAGACT TGGTAATTTA TAAAGAAAAG ATGTTTAATT GGCTTACACT TCTGCAAGCTTTACAGGAAG CATGGTGCCG ATATCTGCTC AGCTTCTGGT AAGGCCTCAG GAAGCTTACA ATCATGGCAGAAGGTGAAAG GGGAGCAGGC ATATCACATA GCAAAAGCAG GAGCAAGAGA GGGATGTGGG GAGGTGACAGTCACTTTTAA ACAGCCAGAT CTTGTGAGAA CTCATTCACT ATCATGAAGA CAGTACCAAG AGGATGGTACTAAATCATTC ATGAGAAACC CCACCCTCAT GATCAAATCA CCTCCCACCA GGCCCCACCT CCAACACTGGGGATTACAAT TTGACATGAG ATTTGAGTGA GAACACGGAT CCAAACCATA TCAGAGATGG TGGTTATACAATGCGATAAA CGTCACTGGA TTGTACACTT TAAGATGGTT GTTTTATGTT GTGTGAACTT CACCTCAATA AAAAAAAATATTTAATGTAC ATTCAGCCAA AAGAAGATTT GGAATAGGAA AGGTCATGGA GATATATTAA CAGCCATTTGATGGGTGGTA AGGAAAAGAG TGGTTATTAG ACTGTTTTGT GGCCCTCAAA AGGTAGAACT AGATCGAGTTGGTGAGCATT ATAAAACCAT CACAAAACCC TGGAGAGAGG ACCCAGTGCT GAAGAACCGT TTGCCTGCCATGAGACATGA GGGAAGTACC AGTGAATGCC ATTGAAAGCA GCATCCCTGG GTCCAAGGGA TGGTCAAAGGACCACTACCC AACCCTTCCC TAGCCTACGC CTCCATTACA GATGACCGCA AGATTTATTT GCTCATTGCT GCCAACCAAGGCTGCACTCA CTGCAGTTGC TATCAGTTTA TCATGGGTAA AAGGAATGTG CAGTAGAGAA CTAACTAACTGCCCACCTAC CTCCACAATC CTATCAGGAC AAATCACCAT GGCTCACATT TCCTTACATT TGGCATGTAA GCCCCTCTTACTGTCTGTCA TCTATCTCCT ACACAGTTCA CCTAAACTGT TCTCTCCTGA CCCAACCTTG ATTTTCATCC CAAATGCTTCCTTGCCATCT CTGGGATTCC TGTCTTCACC ATCACCAAAC TCCCCTCAAT CTTCCAGTTT CCTGTTCAAA CTTTTCTCCTACCTCCTTGC TTTGTCATTA GCCCGACTGC CTCCCTAGGA CATCACTTCC CCTGCAGATC TCTCAAGATG ACAATATTTATTCTCCACAC AGCACATACT TCAGGGTTGG AAGGCAGGGG CAATCTTCTC CTTTATAATG AGTGCCTCTT ATATATGTTTATTCATCTGC CCTCTTGTAA AACACACACA CACACACACA CAAAGAAGAA ATAAAATAAC TCTGCTTCTTTGAAGCTTGT GACACTGAGA TAAACCATCT CACTGTCCTC ATTGTAGTGA CCTCTCAACT CCTCATGCAA GATTGGCTTTGGCACCTAGT TCCTGATCTT CCTTTCCCTG TAAGCACTTC TCATAGTCTT ACGGGACTTC ACCATCCATG GCACAACCAATACCACAGCC CAGATCCTCA GCTCTCCAAT GACATTTTCC TCCACTAGAC TTGAGCTACC TCCTTCCCTA GGCACAGCCTCAACCTCGAC AACACCTAAG ACTGTACCGT CTCTAAAGTC ACATGTTCAA ACACTTCACT CTTTAACCAC TGTCTCCTATTCTTGCAAGT GTATTGCTCA AGTATCTCAT TGCAATGCTT TTTACTTCTA CCTCATTGAA CCTCCAGGCC ATTAAACATTTCCTTATTTC TAACCATCAG GTTTCTCCTT ACTTGTTTGT TTGTTTATTT GTTTCTTTTT TTTTTTTTTT TTTGAGACAGGGTCTCACTC TGTTGCCCAG GCTGGAGTGC AGTGGTATGA TCTCGGCTCA CTGCAGCCTC CATCTCCCTG GTTCAAGTGATTCTCATGTC TCAGCCTCCC GAGTAGCTGG GACTACAGGT GCATGCCACT ACGCCTGGCT AAGATTTTGT ATTTTTATTAGAGAAGGGGT TTTGCCATGT TGGCCAAGCT GGTCTCGAAC TCCTAACCTC AGGTGATCCA CCTGCCTCAGCCTCCCAAAG TGCTGAGATT ATAGGCATGA GCCACTATGC CCCACCTGGT TTCTCCTTAT TTATTTCAAG TCTATGCTGCACTATTAAAA CTGCCTTGAC AAAAATTATA ATAGTGAGAA AATTATGACA GTGAAAGAGA TCTGAAATAATCAACCCCCA TCTTGCCTTT ACCTTCCAGA CTGCCCTTAA TAATTCCTGA GCTTGGGCCA AGCTATCTTT GGCAGAAATTTAGTTTATAG TTTAAATGAT AATAGCCCTT CTCCAAAACT AAACTGCCTT TGTAAAACTA ATAAAAGACCACCAATGAAA GGTTAGGAGG ATGAGAGGAG CCTGAATTCT GCTAAGGTGT AGATGTAAAC AATTACCAACTGTTATTCCG GAGGTCACAA GATTTGCAAC ATCGCCAATT ACTCCTGCAG ATAACAGCAC TATCATAGAA TCTGATTGGCCTTTTGAGAT GTCTTTTCAG ATTCTTACAT TTCAACTGGT GGCTCTACCT GGACCCATCA ACAAGTCCTG TGGCTCCACCCAGAAGCAGA CTTAACATGC ACAAGGACCA TTTTCCACAC CGCTATGATT GCATCCCAAC CAATCAGCAGCAACCATTCC TCTGCCTGCC AAATTATCCT TGAAAAATCT TAGCCTTAGA ATTTTGGGGG AGGCTGATTT CAGTAATAACAAAACCCCGG TCTCCCATTT GGCTGGCTCT GCATGAATTA AATTCTTTCT CTATTGCAGT TCCCATCTTG ATAAATCACCTTTATCTGGG CAGCAAACAA AAGGAACCCA TTGGACAGTT ACACTGTTGG CAGATATATC TTGCTTCCAA AATTGGATTTTTGTTTAATG AATTTATTCT GTTTTCTTGA TATTTACAAC TGTGAATGTT GTGTCTGAAT TCTCTTTATT TCTTGTTGAAAAGAACTATA TTGCTACAGC CAGTACATAC AGATGGATAG CTAATTACTC AACACGGGGG GATGTGACCATCACCGCACT GTGCAAATGA ATGTTACCCA TTGTCCACTT TTCCCAAACT ACATAGTGTT ATATGGTATA TGACCCAATCAACGGTGGCA AAGCTCCAGA AATACCACAT AGACATCAGG GACACTTTAA ACTAATCAGC CTATAGTCCTTTTTCAGTAA TTTCCAAACC TGGTTGTGCA TCCAAATCAC TTGGTAACAT TAAAAAAACA AAAAAATATACACGCAACAT TCGCTCCCAA TCCTACTGAA TCAGAATATT TTGGGTTGGT TCAGGAACAT TCAGGAGTTT TTCAGGGTCCAAGGTTTATA TAATTTGAGG TCTCTCTTTG AGAAAAGGAA CGTAAAAGCG TCTTGCTTTT ATAGATCTTA CAAAGATGTATTACCATGTA AACACATTCC TAGGACCCAG GCCCTTGTAA TTTAAAGGTT TATCTAAGTA ATGGGCCCTG AAGCTTAATTTTCATTATCT TCAGGGCAAA TTACCTGTGG GTTAGGGTTT AGGAATATAT CTCTCTGTGT ATGTGTGTGC ACATTAGCATGTACGCTTGT GTGGATTTTT TTTTTTTTTT TTTTTTTTTC TGAGACAGAG TCTCGCTCTG TCGCCAGGCT GGAGTGCAGTGGCGTGATCT CTGCTCACTG CAAACTCCGC CTCCCAGGCT CAAGCGATTC TTCTGCCTCA GCCTCTTGAG TAGCTGGGACTATAGGCACG CACCACTATG CCCAGCTAAT TTTTGTATTT TTAGTAGAGT TGGGGTTTCG CCATGTTGGC CAGGATGGTCTTGATCTCTT GACCTCGTGA TCCACCCGCC TCCACCTCCC AAAGTGCTGG GATTACAGGC GTGAGTCACC ATGCCCAGCACTTGTGTGGA TGTTTTAAGC TCCCAGGTGA GTGAATACAA AACTAGATCT TTCCCTTCTG TAGCATCTGT ACTGTTTACTCTATGCATCT CAATATTTTT TCTTTTAGTA TCTTTCCTTT TTCTCTCTTA TTACTTCCTC TTGTGCTATT TTTACACCTCCTTTTTTAAA AAATTTTTTC CCTTTTATTT CTATTGACCT TTAGCCCTCA CAATGATTCC TACAAGCCCC ATTTCTGTAAATGGGGATTG AAATAATTGC TGGACTTTTG AGAGATAGAT ATATTAAATT GCAAACTGGC AGTAGTGGGGGCAGTTGATA CATAACTAGG TTTTAAAGTC TAGCCTTCTG AGACCACTCA TTCCATTTGT GAAAAGTGAT TCTACTTCTTATTATGAGCC AAAATATGCA TTCATTCACC CATGCATTGA TTTATTCATT CAATAAATAT TTGTTGGATG TCCACTCTGTATCAGGAATG TGCTAGGTTC TGGGAATACA GCAATGAACA AGGTAATTTT TCCCTACCCC TAAGGAACTTAGAGTTTAGT GGGGAAGACA GACATTAAAC AAACAATTGT GCAAGTAATA ATCTATAATT ATTTATTACAATTAAAGGAA GGAAGAGACA TATGGATTAT GAGGGCATTA AAGAGGAGAC CTAGTGTAAG TAGCCAGTTCTCGTGAAGGG ACATGTATTA GTTGGAGTTC TCCAGAGAAA CAGAACCAAT GGTGTGTGTG TGTGTGTGTGCGTGTGTGCG TGTGTGTGTT GGGGTGTGGG GGTGTGGTAT TTTTTATAGA AATTGTCTCA CACAATTATG GAAGCTGAGAAGTCCCATGG CCTGCTGTCT ACGAGCTGAG AACCAGGAAA GCCAGTGGAA TACTTCAAAG TCCAAAGGCCCTGGAACCAA GAGTGCCAGT GTTGGAAGGC AGGAGAAGAT GGGTGTCCCA GCTTAAAAAG ACAGTGAATTCACTCTTTTT GCTCTACATA GGGCCTCAAT GGGTTGGATC ATGGCCACCC ACATTGGTGA AGGCAATCCT CTTAGTCTACCAATTAAATA CTAATCTCTT TGGAAATACT CTCACAGACA CACTGAGAAA TAATGTTTTA TCAGGGTGAT AGAAATCTTCTGGAGTTAAA CAATGGTGAT AGCTGTACAA TCACATACAT TTTTAAAGGG TGCGTTTTAT GGAAAGTGAG TTTTATCTAAATAAAATTTC TAAGAAAGAG ACTTAACACA GAGATAAACA TAAGCACATT TATTGTCAAC CTTTATAGTGTTATGTCAAA TAGGTCTGAC ATAAGCTTAA ATAAATATAT ACTTTAAAAA TTATAAAATA TTTTAAGTTA TAATTTAAAATTCTCAATAA AACTCAAACA CAAACCACAC TGGTATTTCA CACAGCTAAT TTCTAATGCA GTTTACATAA ATATTTACAACACTTAAACA ATTTCAAAGA AAATAACACT GTATTCCATA CATAGCCTGA TCACAGTAGT TGTTCTCTCT TATTTCCCAGAGTTTTTCTG CCCCTTTAAA AGAACCTCTG CTGTTCTGAT CCTTATCACA TCTCTGTTTT GACTGTTGGC TTTGTTGTTGCCAGTGTTCA GCCAGAACTT CTCTGAAACT TTTTTTTCAA CACATGCTAA GTTAATGGAA GTGTAGGAGA GTTTTGATTCTCACACTCCT CAAGGCTAGA GCAGCTTTGG CAATTACTGA CTGAGAATTT TTCATTGCCA GTGATCAACTGAAAACTGGA GATTCCTTTG GAATTGTTAA ATCTGCTTAT AAATAAACAT AAATGCTTGC TCACACAGGC ATTCCTCTCTTCCAGAGCAC CCTAACATAC AGAAGAAAAC AAATAGGGAA TAACTATTAG ACATCTTCAT TCGTTAAAAATCTACCAGAT GACTCTTTTA CATGGTGAGT TTCTATTGTG AATTTAAAAT CTTCCATAAT ATACAAGAAT TATGTTTACATATCATATCT GACAAACATC TTTGTAGGAA TGCAAAGCAC ATCCATCTTT CTGTATTCTT TTCCAACAAA GACATTCATAAAATTATACC TTTGTGTGTT TGCATTTATG CTTTTATTAG TTCAAAACGT TTGGCCTCAT GGAAGTTTTT CATCGTGGAAACCACATATT TCTGAAAAAA TATCTGACAA TATACAAACC TTCCATTCAG TTTTTACTCT CCAATTCTAC CATGTTTTCAAAAAACAACT GTAGTAAAAA CACTCAGAAC TTTATTCTGG TTAACATCAT GCCTTGCTAG GGGACAATAG TTTCCCTTTTTGAAATAAAT TTAAAACAGA TGTAACATAA TTTGTTAATA AACAATGAGG GGGTAATCTA GAATAAGTAACTTTTACCAT ATCATAGTTG ACAGCATTTA CAAGTTTTTT AAGTCCCTAC CACACTTGTA TTGAATGAAG AAGTATGGAAGATTATAATA TATTCAATGC AAGTAAAAAT ATCACAATCC TTAAGAACTC TTTAAGAAGC ACTGAATCCCATAGGGATGA AAGTGATTAA ATTGTGCATA GTAACCCTCG CACAGAGCAT TCAGTAGGAT TTGCACCATTAACAACCCTC CATGCATTTG CCTGTGGGCA TTCAACATCT GTCATTTTTT TAAGTTATAA TATTTTTAGT CATTTTTTTCCTCTAAACTC TGGATAATTA TTATTCATTC TTATGACAGC AACTGTGTAA TCAGCTGTCG AAACACTGTG AAGGGCAAAAGAAAGAAAGC CACAAAATAT TGTGTTTCTG TGCCAAGATT TTACAGCGAG CAAGGGAGAG TTAGAAAAGGAATTCTGAGA TTTCAGAGTC TTGGTCTCTT CACCTTTGCT TGGAAGAAAA TATCCTTTCC CTTCATTAGC CAACACTTTCTTGATCCTGA GAGTAGGAAA GGGAACACTG AGTCTTTTCA GTTGAAGGCC GTCCTTGCCT GCTGGACTTT GATCTATTGAAGTGGTGATG GGTGTTGCGG TTTCAGCCAT AAAGGCATCT GGCATAGTAG GCAAGAAGGG CCAGAGACCCGAGGAGAGTT ATCTGTCTCT GTTAACTTCA GTGTATCCCT CTAGTTCCCC AGATGCACCT GTTTCTGTAA ATATAAACATGCATGTCATC AGAACACTTA ATATTCTGCA TACTGATCAT GACAACAAAA TGTACCTTCT AACACAGACACTCTCACTAG GATAGACCAT GTAGGAACAT CGAATTCTAT TCAGTTAGGA CAGTGATGAT GTCTACATAT TATACCTCTGTCAAAACCTA CAGAATATAC AACACAGCAC AGAGTGAATT CTAATGTAGC CTGTGGACAT TAATGAATAATAATGTATCA ATATTGGCCC ATCAGTTGTA ACACTAATAT AAGATGTTAA TAACAGGGGG AATTGAAGGGGTGGTGGGGA GATATGTTGG AACTCTTTGT GCTTTCTGCT CAATTTTTCT GTAAACTTAA AACCGCACAC ACAAAAAAAGTTATTTTAAT TTTTTAAAAA GTATTCAGAG GGACTTGACC TTTCCAAATT CTCTCAAAGC AGGTCGGAGT AGTTAAGAACACAAATTTTA GAACCAGACT GCCAGAGTTT GAATCCTGGC TACACCACTT ACTAGCTTTG AGATTTCAGA CAATTTACTTAACTTCTCTG TCTCATTTTC TTCATCTGTG TGATAAGAAA TAAAGTAACA GGCCAGGCCC AGTGGCTCAC GCCTGTAATCCCAGCACTTT GAGAGGCCAA GGCGGGTGGA TCAGGAGTTC AAGATCAGCC TGGCCAACAT GACGAAAAAATACAAAATCT CTACTAAAAA TACAAAAATT AGCTGGGTGT GGTGGCAGGC ACCTGTAATC CCAGCTACTCAGGAGGCTGA GGCAGGAGAA TTGCTTGAAC GCAGGAGGTG GAGGTTGCAG TGAGCCAAGA TCATGCCACTGCACTCCAGT CTAGGCAACA GAATGAGACT CCATCTCAAA ATTAAAAAAA AAAAAAGTAA AAAGAAAAGATAAGAAATAT AGTACCAGCC CCTATCTCAG AGTTCCTAGC TTAGAAAAAT TCCCAGAATA TAATAAGTGCAATGTAAGGG TCAGCTATCT TCATTATTAT TATCTATCAT AAATGAAATT ACACAATAAA GCTAGATCCG TTTCTTTCCTCTCCTTCTAC AAAAAATAAA GCAACTTTCC AGAACAATAC CCAGGTGATG ATTTCTCCCC TGCTCCCTCC CTAAGATATTGGCAAGTTTG GAGGGTTCAA GGAGAAACAG AGCATGTAGA GAAGATACCT CTCTCATAAC CATTTGTGATTTACAAGTCT TACCTGATTC TTTTGAACTT AAAGGATGTA AGAAGGCTTT TGGTAGCTTC CATCTGATTC AAGGCTTTGGCAGCTGCTGT GGAATACATG AGAACACTAG GTAAAGCACT GTCTTCCAAC ATGAAGAGAG AAAAATATGTGGAATGTTCA ATGGCATGCT TTGTATAAGA ATGCAACTTA CCTGGCAGGA ACAAATTTCT TTGCTGCAAAAGAAAAGACA AACAACCATT AATTCAGACT AAATGACTTT TAAGGATATA TTAAATCCAG ATACAATATGACTTAATTCA TCAAGTGTTG CAAACTCGAT GCTTCAGGGC CTCTGTAATA ATCAGAGCAC AAGCATGGCT CTGTGGCATCTAGGGTAAAA TGCAAAGTGC ACAGCCATCC AAAGGGCATA GCAGCTTCCT AATGCCAGCA AATAGCTACGGGGTCATCTT GCCCAATTCA GCTCCCAATT TTTCATGAGA AGTCCAAAGT CTTAATTTAA ATGTGAGATT TCCTATTTTGTAAACGTCAG AACTTAACTC AAAAATGTTT TAAGTACTCT TAAACATGTA AGCCAAACAA ACCATGAGTGTAGTCAGATG TGCTTCCATA TTCCTTATGA GAGACTCTCA AATTTAAGCC TGTACTCCAA ATAAATCTCC TTAGGAAGAATTTTATCCAT TTTCCTTAGA GTGCTCATCA TGGCAGTTCC ATTGCACAAT TCCGGGAGGC ATCATATAAT TCAACATGAATAGCACCCCC TGGAGTTGTA CAATATTAGG CACGACTAAC ATTTTTATTT CCTGAAACAC TTCCCACACT GAGTTGTACTACTAACTCTT TTCTTAATAC TTCTGCTTAA TTATACTGCA TTTTATCCAG ATTCTAATTA TTGTTTAAAT CAGTAAGCAAGACCATGACT TATCAATGAG AAAGAAATGT ATTTTCAAAA ACATTTTTGA AGTACATTCA TAAACTTCCT CACCTTTCCGTAAGCATTTC CGAAGCCAGA GGAGAAATGG TGCTAATGTC AGGAGGGAGA GTCCAGCAGC AGAAAGTCCAGCTACCAAGG GAATGTTGGA CTCAGTGGGA GCTAAGGAAG TAAGAGACGA AGAAAGGTCA TGAGGAAGAATTGATGTTAA AGTCTCTCCG TCCTGTCCCT TTGGCCTTTT TTCTGTACAT TCATTACTAG GAGCAGAAGA GCTATCTAGTTTAATACAAG AAGCAGAGAT GTGGCATTAC AGGCCTTTGA GATCTGCTCC AAGCCACCTT TGAAGCTATT TCCACCATTGGCAGGCAGAA CTCTAACTTG CCAAGCTCGT TCACAATACC ACACCACACC TTGGTTAATA AACACTGCACTTGCTTGCTC TCTTGCTCTC ACTCCCTCTT GTTTTCCATT TCCCCTTTCT CCTCTCCTCT CTCTGTCTCC TTTTTCCAGTTGTCAGAATT CTACCCTTTC CATCAACATG CAACTTCTGT TTTTTCTCTA TCCCCATACA ACTTAATATT CACAACTTGTCAACCTGGGC GAACTTTCTG GTTTGGATAT AATGAATAGT TGATTACTGT AACAAGATAG CTCCCCCTTT TTCTTTTTAATCACCAGACA ACCACCATCA ATCAATGCAT CACCTTCACA GGTAGGTAGC AGGCCAGACC AGTGTCCTGTGGCTCCACAT GTCCGAGCTG CAGAGCCATT GAGCGTCCAT CCTTCAGGAC AGGCGAACTT GCACACAGTGCCAAACACGG GCTCCCCACT GCAGCTCATG TTGATCTTTC CCGGAACTGC CAGGCTTGAA CATTTTACCA CTGCAAATGTTAGGTACACA GGCAGAGTTT CAGAAAAATC TACTGGAAAA CTTCCAAAAC TTGCTTAAAA GTCAACAATGAATGTAAAGT GTAAGCGCTA CTTAGTTTTC AGCATGTAGG AAATTAGGAC CAAACCCCTT TGGGGCAATCTAGGTTCAGA AACTTTATGA AGTATTTGAC CTGTACCCTA AAAAAGTCTG CACTCAATTC TACCTTGGCAGGAAGGAACC TCTTCTGTCC ATTGTCCCTG AGATGTGCAC TCAAGTTGAG TTGATCCATG TAATTCAAAT CCCTCCTCACAGCTGAAGGC ACAAGAGGAC TTGTAGGTGA ATTCTCCAAT AGGGGAATGA GCACACCTCA CCAAACCCTTCGGGGGCTGG TGGACAGCAT CGCATCTCAC AGCTGGAACA CACGAGAGAG CACTTTAGAA GTTTGTTTGCATCTCCAGCA ATACGTTTCC CAAGGTAACC AAGTTCCCAA GCTCTTCAAT AGTTCTTTTT ATCTTAAAAT AAAATAAAAACAAAGACTGT ACCTTCACAT GTGGGCTTCT CGTTGTCCCA CTCCCCTGTG GGGCCACATT GGAGCCTTTT GGATCCCTTCAACACAAAAC CCTGCTCACA GGAGAACTCA CAGCTGGACC CATAACGGAA ACTGCCAGAA GCACTAGGAAGACAATTCAT GTAGCCTCGC TCGGGGTTGG ACAAGGCTGT GCACTGGAAA GCTGAGACAT CAAAATGATGGTCAGAAAAT ATTGCAGTGG AACTAGAGAG TACTTGGCGT TTGTTGAGTG AACCCAGTTC ATTCAAGCAACACTTGGAGA ACTGAAGATT CTTTATAATT CCCTGGACAA ATGGGAAGAT GGCTGTGTTT TCTTTGAATT TCAGCCCCCTCACTGATCAT GGCACTAATT AAAAGACTAA TTAATCAGAA CATTAGTTCC TGAGCACTGT TCTTCTAACACACAAAATAA ATTATGGTCC AAGGAAAGAT TTCACGCAGT CTGAGGACAA CATATGGGTC ATGGATGTTTATAGATGGTG CCAAAAAGAA AGAAAAGAAA GCACCCCTAT AAAATTTGTC TGTTTTGCAG TTTGGTTTTT GTGTTATGTTTTGCTACTGG AAATCATTCT GTGCTGGCTT TGGCTAGGAC AAGGCCAGTG CCTGATAGTA AAAACTGCTT GTTTTCAATATCCTTGCTCT CACTTTAAAG TGAATTAAAA TTTACTGCTT ATATATGCAT CAATACTATC TCTGTAGCTG ACACCATGCTTGAAACAGTC TCATCACTGC TAATTATGAG CCATTTCAGAAGACAGGTGT GATGAGAGTT TTACATTCAA ATCATGTTCTCATTATTCTG CTTTCCGAAT TTTCTAATAT GATTCCTTTA GATTAAGAAT TCTGTCTATT CCATGCTAAT GTCTACAAAGTTTTATCAGC ACATCACAGT TAAAAAAAAA CAGCAAAGAA TTCATTCTTA ACACATATGA TCCTTTCCCT GGCCAAACATTAGTT3CTTTT AAATGAATCT CAAAGATACG AGGGTTGCTC ATCAAATCTG ATTTCTATAG TTAAAGTGGG TATTGGTTTTTTTTTTCACT GTCCAAGTTT GAAGATGGTT GTTCTTTAAG AAAGTATAAA TCGAAGGATC TCAAGCTTAC CTTCACAAACTGGGATTTGC TGTGTCCACT GCCCTTGAGT GGTGCATTCA ACCTGGGCTG GTCCCTGCAA CATGAAGCCT TCCTCACAGGTGAAGTTGCA GGATGATTTG AAGGTGAACT CTCCAGCAGG GGAATGGCTG CACCTCACAG AGCCATTCTGAGGCTGGCGG ACGGCCCTGC ATGTCACAGC TGTAACAAAT ATACGCATTG ATATTAGCAC GGCCTAGAATTAGCTTGCCC ATTTCCAGTA TGGGTTGAGA GAAAGAATGT TCACAGTAAG TCTCCATGTG GAACAACTCT ACCTTTACACGTTGGCTTCT CGTTGTCCCA ATTCCCAGAT GAGGTACACT GAAGGCTCTG GGCTCCCATT AGTTCAAATC CTTCTTCACAGTCAAATGTA CAGGTTGTGT TCCATGGGAA GCTTCCAGGG TTTTGGAAAC ATTCCACGAA CCCATTGGCT GGATTTGTCACAGCATCACA CTCAACCACT GAGGATTTTA AAGAGCACCA TGAATTTTAC AGAAGAATGA TCTTTTCACT TCCTATTGAGCTGGGTGCCT AACAGAGTGA GGAAGCTGCC TTCAAAGGGT AGATCCCAAA GTCCTATGTC AATTCTTAGGGACATGCACA GCCAGAATAA AAGCTTTTAT TCTTTTTCAT GGATATTCTA TCTTTTCTGA TTTCCACTTT GCCTATGCTGAGTGGTCTCT AATCTATGTT ATCATTTACG TGAGGTAAAA ATTTAAAAAA AATAGATTCC AGATTAGGAG TTATGACTAGTACTGACATA CGTAGGCTAT TCATTTATTT TAGCCCATCA GAGCCTGAAG AACTGATTTT TCTTTTTTTG GCCTCTGGTTCAGAAAGATA AAATTAAGAG AGAAAAAGAG ATACTAAGAC TGCTTGACTA TCATGGTCTT AAGTTAGTCCCATGGCTTGG AAAAGTTAAA CAGGGAAACA AGATGAGAAA TCCATTGAGA TTTCTAGAGC TTTATTGTTTTATGGTCTCC CTTACAAATC ACCAGAGCCT CAGAAACACC CATTTCAAGC ATAGAATAAA AAAACCTCTCTCAACCCAAG CAGGTACTGG GTTGGCAATA TACATTGGCT GAGAGAACAA ATTGTATTAA AAACAAAAACAAAAAAAAAA CTTTCCCTGA AGTTTTGAAA ATGTAAGTTG AATCAAAAAA CAGAAGCAAT GAGGGATGAGTTACAGAACG TTCTGTGCAT TCTCAGAGGG ATTTACCATT GCAGGCTGGA ATAGGAGCAC TCCATTCTCCAGAGGACATA CACTGCATGG TCTCCATGCT GCTTGGCAGG TAACCCCTAT CACAGCTGAT AGAGCAGGAAGAATTGTAGC TGAAGTTTCC CAGTGGGTGA CTGCAAACCA GGCTTCCATGCTCAGGGGAT TCCAGGGCTGTACAGTTCAC AACTGAAAAA GAAACCCAAA TCAGTTCTGC TCATCTCTCA CCTTTAACAG ATAAGAACACTGGAAACTAG AACTACAGTT TGGTTTTTTT TTTTTTTAGT TTAAAAATTT ATAAAATTTC TAATGGAATT TGTAAAATTGACTGTAATTC TACCCCTTTT CTTTTATTCA AGAAAATGCT GATCCATAAC AACAACAACA AAAAAGCAGTGATGACAACC ATAAAAAAGA AATATTGAGT GATATGGGGA GAGTAGTGTA ATTGTGTTTA CCTCAAAACTGTTCAAATTA TATGAACAAA CACAGCAAAC TTAGGTACCA CAACAAATTT CTTGTTACTT TTCTCACAAC TGCTAAAAATACTACAGTAA GCTTCCAACC AGGATGAGAA CCATTCACAA AGCTATATTT CAAATTTAAG TACTAGAATACATTACAAAT TTTAAAACCC TAATGCTGCA CTGTCTACTA TAGTAGCCAC TATCTGTGTG GCTACTCAAA TTTAAACTTGAATTCGTTGA AATCAAATAA CATTTAAAAT TCAGTTCCTC AGTGTCACCA GCCACATTTC AAGTACTCAA TAACCACATGTGGCTCATAG GTACACACTG GAAAACACAG CTATGGAACA TTTCCATTAT CACAAAAGCT CTACTGCACAACGCTGTGCT AAGGAATCTT GGAGAGAAGC TCATCTAACT CTCTTAATGT ACAAATTTAG GAACTGAGAC CTCATTTCATTCAAGTGACT TGCTCCATGC TACACGGCTA GTCATTACAG AGCCAGAGGC CAGAGCATGA ACCAAGATACCCTGGACTCT GTAACTCACT CATTTCTACT GCAACGTCTT GTTACCACCT AGATGAGGTG AGTACATGTT CCTCGCAGGGACACAGAATT ACAGTTTATT GAATGTGTCC TGTGTGCCAG GCACCATGTA ACCATGAGCC TATGAAGTTC ACACTATTATTATCCTCATT TTACAATGAG AAAACTGACA TAGAGAGTTA AACTATCTTG TCAAGGTGCC AAAATAAATAACTGGTGAAT CTAGGACTCA AACCCAGCAG GGTCTGACTT CATAGTCTCA GCTCACGATC ACCATATGACACCATCTGCA CCAGGGAAGG GAAGGCATGC AGACCTGACT CTAATGCCAG CTAGGACGTG AGATGGTGCTACCATCTCAA GTGAAGAAAG AGGCAAGAAC CAGACTTACT TTGCTCACAC TTGAGTCCAC TGAAGCCAGGGTCACACTTG CAAGTGTAAT TATTGATGGT CTCTACACAT TCACCGTGGC CACTGCAGGA TGTATTGGTA CAGGCAGCTACGGAAAATAC AAAGCATGAT GAGGAGGACT ATTACTGTGC TTATACTGAG TGCCTTTGAT TTTAGAATCAACAGTGTGCA ACAGAGACAT CAGCAGTCCT ACAGAGTGCC ATAGACTTTA ACTGAAGTGT TTTACAAAGTTCCAAATCTG AGTTTCAGGC CCACCTATCC TAAACCTTGA TGCTAATGTA TAGCTGTGGC TGGCACCTAC CGTAGAAAATTTACTTCTTC ACAAACTCTG AAGACAGTTC CCCTACCACA AATAAACAAG TAATTAAAAT ATGTATTGTG TGTGTGCATTTTTATATGTA AAGAACTACA TATTTGCCTA CAGTATTTAT ATATATTTTA TATATATACA TACACACATA TATGTGTGTATATGTGTGTA TGTATATATA TAAAATGTAT ATAAATGCTG TAGGCTATAT ATATATACAC ACACACATAT ATGTGTGTGTGTATATATGT GTGTGTGTGT ATATATATAC ATATCCACAT ATTCTTGCCC ACATTCACAC AAAACAGCAAAAGAGAGAAA CTTTAGCAGT TAAACAGAAT CTTTTGGAAC ATAAAATGAC CACAATAGAG AGCAGTTTTTGCATGCTGTA AATTTGCCAA GATGCCCACA CACTGAAACT ACCTCCCACT GCTGCCGCAA ACTCCCTACCTGTGTAGCAT AGGGCAAGCT TCTTCTTGCT GCACCTCTCA TCATTCCACA TGCCCACATC TTTTTCTCTC TTGATGTAGATCTCCACGCA GTCCTCATCT TTTTGCCTAT TGTTGGGTTC ACCTGGAGCC CAGTTCTTGG CTTCTTCTGT CAGAGGTTTCTGGGTTCCTA CCCAGACCCA CACATTGTTG ACTTTTCTGA TTCCAATCCA GTAATAACTT GGTGAATAGC TCAATATGGAGTTTAGGTAC TCAATCTCTT CTTTGTTTTG AATTGCAACC AGGTGTGTGT ACCTTTGCTG ACAATAAGCA CTGGCCTCATCATAAGTCAT AGCTTCCGTG GAGGTGTTGT AAGACCAGGC TCCACTCTCT TTAATGAGAA GCACTAGTGGGAGAAAAAGA AAAGAAATGG TAGAGTTTGG TACTGTTGTG GTTTAACTCT GACAACTGTG CTTTTTATTG TCTTATTTTTGGCAATGTTT GTGACATGGC CCAGACTTTT CTCATCTTTT CAAAAGTAAG AAGTACGTAT GAAGAAACAG CGACTTATTGTTTATCTCTT TTGTGACTGC CACCCACTAG GTACCTTATC CACACTCACT CACAACATTA TAGTATACCC ATTTTGTAGTAGAATAATAA TCAGAATAAC TAAGCTTTAT TGAGCACTTA GTATGCACCA AGAAGCACTG TATGAGGTACTTTCCATGAA CCATGCTATT GAATCCTCAC AATGCATCTG GGAAATAGGT CATTATGATC CACACTTTAC ACTTAAGGAAAGGGAGACAC CAAGAGGTAA AGTAAATGAC CCCAAGCCCA GGGAAGAACA CATTGCAGGT AGAGGTCAAGGATGCTGCCA GATATCCTGT GCAGGACAGC CCCAGACAAG CAAGGATATT TCAGTCTGAA ATATCTATAGTGCGAGAATG AGAAATCTTG GTCTAATGGC ACTGACTTAC CCAAAGTGAG AGCTGAGAGA AACTGTGAAGCAATCATGAC TTCAAGAGTT CTTTTCACCC AAAGGTTTAG GCTTGAAATA CTTTCCTGGG GAGATAAAACACAAAATGAA TTAAAGAAGG AAATCGTGGG TAGCTAGTTA CATTATTCTA CCATGATGTT TAAGGCAGCATCCTAAGATT TTGGGCAAAG GACACTAGTG CAATAATCTT TATTTCAGAG TTTAATCAAA TAAATAAACA AATTTTAAGACTTTCATTAT TTAGGTCAAA GAGAAAAGAC AGGTTTTAGC TACAATACAA TAAGAGCTTG TACAGATGTG GTTTTTATTAGAAGGCCTTT TGCATATCTG TGTTTCATGG CCCGAGGCTG CCCTTATAAA GCGTTCTGCA CTTACCGTTT TGGGAAGCAGTTGTTCAAAC ACAGGATCTC TCAGGTGGGT ATCACTGCTG CCTCTGTCTC AGGTCAGTAT AGGAGTTTTG ATGTGAAGTCAGCCAAGAAC AGCTGAACAC TACTTCGGCT GAGGCCCTTT TATAGGAGGG ATTGCTTCCT GTGAATAATAGGAGGATATT GTCCACATCC AGTAAAGAGG AAATCCCCAA TGGCATCCAA AAACTTTCCC GGGAATATCCACGATGCTTA AAATTACAAT GATGTCAGAA ACTCTGTCTC TTGAAGCTAC TTCACCTTTG TCCATGCCTT TATATCGTATATGCAATTTT ATTAATATGA CAAAAATGCA TGATTTTTAA TTATAATAAC ATAAAGTCTA TGTCTTTAAA AAGTTGTAAAACTTTGCTTG TTAGTAGTGT CTCTCATGTA GTTGTGGTAG TAATTAGAAT TTCAGAAACA GAAGGAAACCAAGAATAGGT TTGTCATCCA TAGTCTACTA CCTTCAATTT CTCATTCATA GCTGTGGATA ACCAATCACT ACTCATTTTTTCTTCCTTTT TCACCTGCCA ATTCAACATA TTTAACATGC ACTGTCTCAC AGAGGAATGA CTCACAAGGT AGATATTAATCTTCAGATTT TGCACGGCAG TTATGCCTAA ATTAAAATAT TATCTAAAAA TAATATCTAA CACTCAAATG GTTAAAATAATGCCTTATTT TAAAAAAAGA AAAATGGGAA ATAGATATTT ACATCTGGGA AAGTTTCATG GTTTGTTCAGTGAAAAAAAT AAAAAGGAGG CCAGGCACAG TGGCTCACGC CTGTAATCCC ACCACTTTGG GAGGCCGAGGCAGGCGGATC ACCTGAGGCC GGGAGTTCAA GACCAGCCTG ACCAACATGG AGAAACGCCA TCTCTACTAAAAATACAAAA TTAGCTGGGC ATGGTGGCGC ATGCCTGTAA TCCCAGCTAC TCGGGAGGCT GAGGCAGGAGAATCGCTTGA ACCCGGGAAG TGGAGGTTGC AGTGAGCCAA GATCACGCCA GTGCACTCCA GCCTGGGAAACGAGTGAAAC TCTGTCTTAA AAAAAAAAAA AAAAAAAGAA AAGAAAAGAA AAAAAATAAA ACGGAAAACTATATATATAT ATTTAATTGG TCAAAATTTT GTTTAAAATT TTTGAAATGT TAATGTGCAA AGAATAAAAA TTCTTCCACAATGTTAACAG TGACTAACTC TGGATGGCAG GATTTGGGAT AATTTTTATA TCCTTCATTA TTATTTTCAG GATTTTAAAGTTTTTTTCAA TTTCCCTTTT TTTCACCTTT ATAGTAACAA GAATACAGTT TAAAGAAACT TGTCTCTAGG CCAGGCATGATGGCTCATGC CTGTAATCCC AGCACTTTGG GAGGCTGAGG TGGGTGGATC ACCTGAGGTC AGGAGTTCCAGACCAGCGTG GCCAATATGG TGAAACCCTG TCTCTACTAA AAATACAAAA ATTAGCCGGG GTGTAGTGGCGCATGCCTGT AATCCCAGCT ACTGGGGAGC CTGATGCAAG AGAATCGCTT GAACCCAGGA GGCAGAGGTTGCAGTGAGCT GAAATCACAC CATTGCACTC CAGCCTGGGC GACAGAGCAA GACTCCATCT CAAAAAAAAAGAAAAAAAGA AAAAGAAAAG AAAAGAAATT TGTTTCCAAA TGCAACAGAA GGAGATGTAT GTGGTATCCTATATTCCTGC TCTTCATTTT GACATTTCTT CTGGGTGATT GTATACATTC CCCATCTCTG CATCTTACCC TATCTAAATGATGGTAACAG TAAATGGGGA TCATTTTAAT TTCCATATTC TGTAGGTTTT CAGAGCTCAA GTCAAGCTAA TATTCTATATCTACAGCCTT TCAAAATAGG AGGTCTATCT AAAAATGTAC TGTCAGCAGA CCTGAACGAG TAGTGGTAAAAGCCTCGTTT TTCTCTTTAC TTGTTAGCAC TGGTCTTTCT GTGTTCATAA AGATGTCAAG ACCCAAAAAA AAAACAAGAAAAGAGAAGAA AAATTCCAAA AAAGACAACT GATTAGAAAA AAATAACTTA ATTAACGAAT TTAATTCAACCCCTATCAAA AAGCATAGAA TTTATTCCCT CCACCTTACC ACTCTCTTAC ATGATCCAGA TACTGACATT ATTCCAATTCTTTATCCCAC TTTACTTAGC TCAATGTGGT TGTTGCTTCA ATAAATTCAG AAGAGTAATC ACTCATATAG TGTTTATTTAGATTTTAGGG CAGAATGTCA AGTTGGGTTA ATACATTATC TGTATGTATT TTATTTTTAA TAAAGTATGA ATACATAATCTGCTATTTTT AAAAAGCATG GTCAAATGTA TAGAGTAGCC AAATCTTAAA AAACAATTTA TCTTCGATAT CAATAAAGTACCTAATAATT ATATTGCTAA TAGAAATTAG TCGTTAACAT CCCTAGATAA CTAACTTTAT TATTGCGAAT TTTTCATAACTAAGTTTATA GTTTATCTCT TCCCCTTTTT AAAATTAGTT CAAAGATATC TAAAAATAGC CCCAGTGGTG ATGAAGTTTCTATTTTACTT ACATATATAT GTCCTGGACC CCCAATTATA ATCTCTAACA TTTATTGAGT GCTTACTATG TGCCAGGCCATATTCTGAGC ATTTTGTATG TTCACCTATT GATTATTCAA TCCGTACAAC AGCCTATGAA ATAGGTACTC CTATTATCCCCATTTTACAG ATGAGGAAAT TGAGAATCTG GGGATTTTAT CTCATTCAAA AGCACAGAGC TAAGGGTTGAAACCAGGCAG TTGATATCCA GAGCCCACTC CCTTACCTGC TACTCCAAAC CATGATTTCT TTTGTTGTTA TGCCCCGAGATTCCTTGTTC TACCCAAGTT TCCTGTACTC TTCTTGCCCT CTTCTTCCTG AGACATCCTT GACCATCACA GCTCTCCACTGAGATAACTG TGTCCTGGGT TCTGAGACAT GGGGGCTGGA AGGGACCCCA GGGACAGTGA GCAGTAGGGAGAGGATGCAG TGAGAACAGA CCCTGGATCC CCGGTGCATA GGCAGGGAGA AAGTGGACAA AGGAAAAAACAAGCAAGGCA GGTGGAGCCA TGCCTAGGTA AAGTTGATCC CTAAGCCACA GTTCCCAGAA GTTCCTGATTCAAAAGCAAA TTTTCTCTAA GGTCAAAGGG CAAACTGATT ATTCTAAATT CTAAACTGAT TATTTCTAAA TTGAGAAAGCTTCAGGGAGA GATCCCAATA TTCGAAGGAT AAGAGAAATG AGGAGTGGAA GAGATAGGTG AGTAACAGTAACTTAAATGT AGACTATATA TAATATATAA TATATGTAGA GTATATATAT ATAATTACAA TATATTATAT ATGTGGAATATATATATTAT TTATATATAT TTATATATTT TATATATATA GATATTTTTA TATTTTATAT ATAAATATAG ATATTTTTATATTTTATATA TAAATATAGA TATTTTTATA TATATTATAT ATAAATATAT GTAAAATACT GTGAAAGAAG AATAGAATCTTGAGACCTCA AATTCACTAT GCCAAAGGGA AAGTTAAGCT TGGGAAATGA GTCATGCAAA AACTGCCTTCCTTTTGTTCC CAAATACCTG TAATTTCACA TGCTTACTTT ATCTTATATA AAATGTAGAT GTACTGAGCA TGAGATCCATGCATAATTTC CCTCTAGTCC CTTCTTTTTA CATGTAAAGT GTAGACTCAC TGAGTGTTAC AGAGCCTTGC CACAATGTAAACACTTGTCT CATTGCCAAC CCATCTTTCG TTTATTTTCT TCCCCTCCTG CTTGCTCTTT CCCCTCTAAA GATGGAAGTTCCCAAAACTC TCTTTGGAAA AAGCGCAGGT CACAGATCCT ACAGTGATTT GTGTTTCTTT TACCTGGGAC AAAATAAACCTCTAATCTGT TGAGATATGC TTCAGTTACT TTTTGGTTTA CAATATGTAC ATGTATGTAT ATAATTTATA TGTATATAATATATGTACTT GTTTTAACCA GAGGTATGTT ATTCAAAATC CATTCATCCT TACAATTACC TGCATTCTCC CACAGTATTTTCTGTGTCCC TGCCCCCGAG GTTGTCACTG CAAATCAGGT ACATGGATAC TGGGAGCTGA TGGGCTCCCC TCTGGCTACCTGGGCTGCTG AAGGGGCCAT AGACAGACCC AGCTTTCCTC TCGTGGAGAG GCCCTGGGCC AGCGCTGCGTGGGAGTGGGA TTACAACCAG ACTATAGCTT CTTCACCTGC TTTTTCCTAT CAGGATTTCA TAAGAGGCAA TTGCTTGTTTTTTGAGGGTG GGGGCAAATC AGGGGGAGTT GAAGAGGAAA TTGGGTAAGA TTTGAATAGT TGGGCATGTTGAATATTATG AATATCATCT CCCTCTTCAA ATAATCCAAA ATATACCCCC AAGAAACAGG CTGATTAGAGGTGCTTCAAG GCTCCACTGA ATCTCCCAAG CTCTGAAGAT GTAGCTAGCT GTTACCGGAT TGCCGGTTTT CAAGCCTCGCCTCACATGGA CCCTCTTGGC AGTTTCTCGC ATGGGGGAAG CATCCGCTAC ATAGATGGGA ATGAAAAGAGGAAAGAAGAC GGTGCAAACT CAGGCACACC CCGGTGTCTG CCACCAGTGC TATTTAATCT CTGAGGTGTCACCCTTCCTG GCTTTATTGT CTCTTCCTGG AAGTCTCTTG TCCTCTCCTC CACACCCTTT AATCAGGCAT CAAAGACTTTAACCAGTTTT GCTGTGTGCC CAGGCCCACT CATTCTCACT TTTATGGCAA AGGGAGTGGG AGACAGAGAGATAGCCAGAA AGAAGAGATT GGGGACCCCA AGACAAATGT TAGAATTTTA ACCAAGGCCA CCCTGTGGACAGGAGATTAT TGGGTTTAGT GGAAAGCAGC ACTGGCCACA ACCACACGTG GCAAAAGCAT CTATCGAGGAGTGAAGTTAT ATTTGGTGAA TGTGACCGGG AAGCAGGGGC AGTGGTGTCC TCCTGCCTTC CTGAGGCACT CTGTTCCCTTACCTCTGCGA AGGCTTATTT TACCCCTGAG TGCTTAGTTT TGAAAGCCTT AGTTCCCTCT CTCCCATAAA AAAGCTCTACTCTGCTAACA TCTAAGTTAC CTTTGCAGAG TCTTAGGTAG AGGGAGGAAA TCCCAATAAA GATTCCACCCTATCTGCAAA ATACAAACAT GGTATTTCTT GCATTCCCAA AATTGTGAAA GAAAATGTGT ATCACCACAGTAGAGAATGG CATTTTTTGT TTGATCAAAA CCTAAATATA TTTGATGAAA ATGTGTCTGG TTCTAAGTTT ATTTCCCAGAAAGCCATGTT TACTCACTTG GAATTTATAG ACATCTTATA ATATCTGAGT CGAGTAGGAG CTCCGGGCTC TACCTCACTCTTTTCTCCCA CACCCAGGGG GAAGTGTAGG GTTCTCAGAC TTTAGAATAA AGAGGAATCA CCTGGACAACTCACCTAAAA TGCACATCTT CAGGTCTCAT ACTCAGAGGC TCTGACTCAA CAGGTCTGGG TGGCGCCCAAGAATTTGGGC TTTAAATGAG TATCTCAGAT GATTCTAATA CAGAATGTGT AAGATGACCA GATCCTATCA CACTTAGATGTATTGGCCTA GGGCCACCTA ACTTGGAGAA AATGTTAGTA AGACCCCGTG GTTGGTGCTC AGCTATAGGTACCAGAATTT TGATCAAAAT TTACTATCAT TGTGACACTT CTCTTCGGAA CTGGAAGGCC AGAACCCCAC TTGTAAAGTGCTGGGAAAAT ACAAGGAAAA TTTAGGGTGA GTAGCATTTT GAATTCTTAC ACATGGAAAG TAAATGTATAAGAATTCTTA CCAATAAAAA AAAAGCAAGA GAGAATAGCT GCTAAAGAAT TAACACAAAT ATGTATATATTAGTTATTCT CTTTTCTCCT CTGATTCCAG AGGACTTTGT AATTCCACTA ATTCTTCTTG AGCTTCCAGG ATGATCTGAGACTTGAATTT TTCATGTGCT TTTTGCTTCC TATTTGGCAG CATCTTATCT TGAAGTTTCC GCTTTCTGCT TGGGGACCTAAAAACTAACT AATGGGAATT TCTTCAAAAT GAGCAAACTC TGGTGAATTC CCAAAGCGGA AGAAACAAGTGAGGATCGGG CTGGTTAATT AAGAGAACTT TTCCTGAATG TAGCCAGACT GTTTGCCGAC TGTTGTTAACATGAGGGAAG AAATACCCCT GGATTTTAGA AGAGCCCCTT GTTTGTTTTC CTTGGCCATT TGTGCTGCTT GTTTTGTAAGTCAGAAATTT CCTGAAGGAC TATTATTAGC TTTGTTCTCA CGTCAGAAAA CTTCTGCTCT GGCCACTTTT AAACATATAACTTGGATTTT ACTGTATTAG AAAATGTAAC AATTACAGAC AGCACTAAAA GGACACCAAA GGGCAAAGAAAATGGGTAAC TTTTTTTTCT TCCCCAAATC TAAAATAGGT GATTTTGGAG AAGTAGGAGA AAAACCTGGA TTTTCTAGATCTCTTTAGAG CTCAACAACT GATATAGTTA ATTATGTAAG TCTTTGATAT TTGGAAATGA TTGGATTAAC CGGATAACAATGAATATTTA AATACAGTGA TTTGGCCAGG AGCAGTGGCT CATGCCTGTA ATCCCAGCAT TTGGGGAGGCTGAGGCGGGT GGATCACCTA AGGCCGGGAG TTCCAGACCA GCCTGGCCAA CATGGTGAAA CCCCATCTCTACTAAAAATA CAAAATTAGC CAGGCGTGGT GGTGCAAGAC TGTAATCCCA GCAACTCGGG AGGCTGAGGCAGGAGAATTG CTTGAACCCG GGAGGCAGAG GTTGCAGTGA GCCAAGATCA CGCCATTGCA CTCCAGCCTGGGCAACAAGA GCGAAATTCC ATCTCAATAA ATAAATAAAT AAATACAGTG ATTTAACACA AGAGATTTCTATTTCACACT AATGAGCTCT GTCACTGGGG CAAGCTTCTT TGCCTCATTA AGTCTCAGAT TTCCCGAGAG CTTATTTATTTATACCAAGA GTGCTTTACT ACCGTCTCTG CTAGCTGTGA CATAATATGA CAAAAGGTAT AAATATGGGAAAAGGCACTA ATTTATATCA AAGCGTTCTT CGTTTTTCCT TGCTGTGAAG TTTTTAGCTA ATAATTCATA AGAATATACCATATTTAGAG TGTTTACTAT GCATGGGCCT GGCACTTCAC ATACATTGCT TCTTACAAAT TTTACAAAGT GAAAGGTAGATATTAATCTC ATTTTATGGA GGACAAGATA GAGATCTGGA GAGGTTACAT AACTTGCCAG TGTTTTTTCA GTTAATAAATGGTAGGGTGG AGATTCAATC TGTGTTACTC TAAAGTCCGT GTCCTTTTTA TTGGCTCCAT GCCTACTCAG ATTTAAATCTCAGCAGGGAA GTAAACCTTA GTTTTTACAT GAGAAAATGT TACAGCAGCC TTCTCGGCTT CCTTTACCCC CATCCCAGTTTCACGAGCTT AGTGCCTTAG ATCGGGTTCC TTTAGAAGCA GACCTCGAAA TAAGGATGTG GGTGCCAGTCATTTATTGAA AAGATGATCC CAAGAAAGCC TAGTAGGAGA GTGAGGAAGT GAGATGGGGA AAGGAAGAAACTCCACAAGA AGTGTGTTAA TAAGCAGGTT ACCGCTGTGG GCAGCCATGG GGCTCAGCTG CACTAACAAACTCTGTCTAG TACAGAAAAC CTCAGGGTCT CCCCAAGGAG GGGCAAGAAG TCTGCCTAGG GTATATATCCGCCAACTCAG TCACTGGCTG AGAGCTGATC CTGGGAGGGC ATGGTTAATT CCTCTGCACT TTCAAGTGGA TTCCTGTGGTCAGAAAAAGC CCTCTACAAT GAATTCCAGA TGCTTGTATT TAAATCTGAC ATGATCTGAA TGCTGTGTTGGGACAGGGTG GGCGTTATTA GTTTTCTGTC ATTACTGTAA CAGATTACTA CAAACCTGAT GGCTGCAAAC AACACATATTTATTATGTCA TAGTTTGTGT GGGTCAGAAG TACAGGTTAG CTCAACTAGT TTCTCTGCTC TAGGTTTCAC ATTGCCAATATCAAGGTGTC ATCCAGTTGG GCTCTTCTTG GGAGGCTTGG GGATGAATCC ACTTTCAAGC TCATTCAGAT TGTTGGCAGAATCCAGTTCC TTGTGGTTGC AGGACCAAGG TCCCTGTTGC CTTGCTGGCT GTTGGCCAGG AGTCATTCTT AGCTTCTAGAGACTACCTGT ACTCTCTGAC TCGTGTCTCC ACTTCACCTT TCAAACCAGC AGCGGCTAGT CGAGTCCCTC TCTTCAAATGTCTCCAACTG TGCCTTCACC TCATTTCTCC TCTGTGTACC ATGTCTGCCT CTACTGCTTG TAAGGGCTCA TGGGATTACATTGGATTTAT TCAATCCAGG ATAATCTCCA TATTTTAAGG CTAGCTGACT AGTGATCTTA ATTCCATCTA CAAAGTCCCTTCCAATAGTA CTGTATTAGT CCATTTTCAT GCTACTGATA AAGACATACC CAAGACTGGG CAATTCACAAAAGAAAGAGG TTTAATTAGA TTTACAGTTC CACATGGCTG GGGAAGCCTC ACAATCATGG CAGAAGTCAAGGAAGAGCAA GTCATGTCTT ACATAGATGG CAGCAGGCAA AGAGAGAGAG CTTGTGCAGG GAACTCCTCTTTTTAAAACC ATCAGATCTC ATAATACTTA TTCACTATCA CAAGAACAGC ATGGGAAAGT CTTGCCCCCA TGATTCAATTACTCCCACCA GGTCCCTCCC ACAACATGCA GGAATTCAAG ATGAGATTTG TGTGGGGACA CAGCCAAACCATATCAAGTA CCTAGATTCA TGTTTGATTA AACAACCAGG GAGCAGAAAT CTTCAGGAGT GGGGGGCATCTTTAGAATTC TGCCCACCAA GGCTGGGCGC GGTGGCTCAC ACCTGTAATC CCAGCACTTT GGGAGGCCAAGGTGGGTGGA TCATGAGGTC AAGAGATCGA GACCACCCTG GCCATGGTGA AACCCCATTT CTACTAAAAATACAAAAATT AGCCAGGTAT GGTGGTGGGC ACCTGTAGTC CCAGCTACTC AGGAGGCTGA GGTAGGAGAATCACTTGAAC CCAGGAAGCG GAGGTTGCAG TGAGCCAAGA TTGCGCCGCT GCACTCCAGC CTGGGAGACAGAGCAAGACT GTCTCAAAAA AAAAGAATTC TGCCCATCAT AGTAGGCTGT CCTACAGAGA CATAACCCAGGAATTAGGTG AATGGCTAAC CTAAATTAGC ACTGTGATGT GTTTTCTGAC TTGGTCCTTA TAGCTCCTCT GCTTAGATGTGGAACTAATC CATGAATGCA AGGGTTTGTC TAGAGTTTTA AGTGGGAGTT AAATATCCAA AGTACAGGAGATATTATGGG TGCCTCATCC ATGTCCCCTT GGCATTTATC TTTCTTGGAT AACCCAACTC TATTAGTTTT TATATCTCACTTGTTCCTAT ACTCTGTGAA CTGATGTCCC ATAAATAGAC ATTTCATTTT GCCAGTCTTC TTGAACAATA ATTACGATTATTAATCTAGC AGTTATCATT AATTGGCCAC TTCACATTAG ACACAGCACT TAGGACTTAA GAATACCATG TCATTTGATCATCATAATAT GGTCAGGAAT TAAGTATTGC TATCCAAATT TTACAAAGAA GGCACTGAGG GTTAGAGTTTAAATAACTTG CTTAAGATGT CATAGCCTGT AAGTGACAAA ACTAGGACTC AAATACAGGT CCATCTGACTCCAAAGTCTA TGTTCTTGGC TACCACACTG CCTCTCCTAC AAGTGACCTG TGGTTTTACT ACTATATTCA CACTCTACTAACTTTACCAT CTCCCATGAG TCTGTCTAGA GGAGGGCACA CACAGCACAG AAAACACATG AATGCAAAATAAGGAAGGGC CTACTTACTA CACAGAGCCA TTCTAATACC TGATGTTTGC TCTAATCCAG TTTTACTATT AATTAGTTGCTGGTGCCCAA GTTTTTACTG AGAAATGGGG ATAATTTTGG AAGTCATAAT GATGCCTTCT TCTCATAGGG TATTTTATTTGTTGTTGTAT CTCCAGGCCC CAACACAGCC TGGCTTTTAG TAAATGATCA AAAATACCTG TTGAATGAATAAATGGAGTC ACCTGAAACA TGTTAAACAT TTGTTCATGT GTCCTAATCG TGGATTTCAG GATAGTAAGCATCCTAAAAG GAAAGCATGC ACACTGTTCT TGCTACATTA ATTTCTCACA ATATAAAAAA AGAAAAGCATCTGAAAAAAG CTGCCAGCCG CTGTGTCTCC TAATATCAAA CTGAGCACAG ATATGGAGAA GCTAAGGGAGAGGGATGATG GGCCATGCCT CTAACCTCAT CATGGCAAAA GTCCTGGGGG TCAGACCCGA GGAGAGCAGGAAGTGTCTTT TGAGGGATAC ATTTCCACAG TGGAAATAAT GAGACTTAAA TAAATATTAT ATACACAGTT CAACTGTTTTTATGTGTAAA GGTAGTAGGT TTTCACAGTA AGGAAGCACT TCTTTTTTTTTTTGTTTGAG ACAGAGTCTC GCTCTGTCTCCCAGCCTGGA GTACAGTGGT GCTATCTCGG CTCACTGCAA TCTCTGCCTC CTGGATTCAA GTGATTCTCC TGCCTCAGCCTCCCGAGTAG CTGGGACAAC AGGTGTGTGC CATTACACCT GGCTAATTTT TGTATTTTTA GCAGAGATGC GGTTTCACCATGTTGGCCAG GCTGATCTCG AACTCCTGAC CTCAGGTGTT CTGCCCGCCT CTGCCTCCCA ATGTGCTGGG ATTACAGGCATGAGCCACTG CACTCACCAA GCACTTCTAC TGATAGCATT TACAAACCCT TCTTAGAATA TTTAAAAATT CTAAGAGAAGAGTAAATTGA GCCTTCCCAA CTAATACTAG GAGGTTATAA CCTTCATACC AAAACTGGAC AATGCTTGCACAAAAGAAGG AAGCCAATGA GGCCACCTAG AAGGAAGACT GGGCATTGGG CCCAGTGAGT CCTGGAAACCTCATCTGTGC CAGCCACCCC GGCATGGCCT GTATGAGTGG ATGAGGGTGA CTTGTCCACA GACAATAGCCATCTAGCTGT GATAAAGGAG TCAAGGTAGT CAGCTGCATC TCTTTCACCT GTTTGCCAAT GTTACACAGG TTGAAAAGCTAAGGTTTATG TAAAGCAAGC ATCAAAGATG ATGAAATGAT CAACCTGACA ATGAGTACTA TGCTGCATTGTCCAGAAAGG AACTGTGGAA GATTTTGGGC TGAATTTCAA AACAGAATTT CCTCACTCTC TGGATGTTGG CTTACTTGGCCTTTGATGTT CAGAGGTGGT GCCTTTGTGT TGTTGAACAA TGTTGATTTT GGAGAGAAAA CAGAGTTGAAAAACCCACAA GTCATTCCCT GGGGAGTATT ACCGGAATAC AGAGGATAAT TTCAGCAAGC CAGCAAGGCCTCATCTCTGC TTCTAATAGA TAGGAAGAAA GGAAGAGAGG AACAATACTT TTTTAAGAAG CTCAGCTTTA TCGCCTTATCTCATAGAAAG ATGCCTCCAG TCTGTCTGGC TAAAGGTAAT TGGCATGGGA AAGTCTTTAT CTGTGATTCTAACAAGTGGA ATGTTTCCCT TCATTAAGAG AGCCTTGTCT GGCTTGGGGA AATGAAACAC TTTCTCCGATATGAGTGGGC TGTAACCCCT GCTACTAAAT ACTCAGAAGA AATAAGGCGG TTGTGGAGCA GTCAGGAATGAGTCACTTGC CTCCCTGGAA TATTCAGAAA ACTGAATCAA AAGTACATTC TTCTGGGTTT TCTTAGTCTA ATAGACTAAGGGTCTCTACT TTGTTAAATT TCTGGGAAAC AGCATAGAAT GGGAGAAAAA ACTGGTCACT GTAGTCATGCAAATCTGCAA AACAAACAAA AAAGTCTGGG TATTGCTGCT AACTAGCTAT GTGACCTTAA GCAAGGTATTAACTCTCTCT GAATTTCAGG TTCTTCATCT GTTAAATAGC ATATCTGTAA AATGGGAATT ATTTTCATAT CATAATGCTGTAGCTTTAAA AAATAAAATA AAATGGATGA GATAATCAGA ATTAAAGAGC CTGGGATATA TAGTTAATATATAGCAGCAT GTAAAGATCC TGTTAGAAAT GCTAATTTTA CAGTTAACCA TTTGGAGATG ATCCGCCAAAGCTGCTAGTG TAGAGGCAAC TGAGAATTTG CCTGTCCTTC AGAATATGAA TAAATAACTGTCAATGATGTCTCAAGCCTA GAAAAACCTA TCCATCTGGA TGGGTGGGAA ATTTCTAGGC TAGTATTGAG AAGCCCATTTCTTGGGAAAT AGGTCCTGGA CTGAGTGAAG GAAAAGAAAC AGTAAAACCC ATGGTAAAGC AGCAAGGCTCTCTAGAGGCT CTGGAGAGGA TGAATTGAAT TCTAGAAGAT GAAGTAGGGA AGACGCTTTA CCTTCTTGTGAAATGGATTC AAAGATTCAA AGACCTTCGG GAATCTCCAA TTGTATAAAT GGCACCATAG CTGTATGTTCCATGGAACAC TACTTCCCAG AGATGCCCAG TGAAAAAAGA ATGCCACAGT CAAATAAGTT TGGAAACACTCCATTATGTG GCCACCTCCT TGAAGACTCT AATGCACATT AGCATGTTAA ACAGTCTTGA GAAGTCCTGCAGAGCAGAAA TTGCTTCACA TCTGCTAAGC CGGCAGTTTC CCAATATACT TGATTATGGA TAGTTTTTTC CTTACAACACCATTCTCTGA TATGCTTCCA ATGACATGAA ATAAATATAT ATGCATGAGG TTCTTCATTA GGGCATACTT TTTAATAGAAAATATTGAGA ATAATCTAAA TATAAATGCA CAGCATTTAC CTTTTCTGCA TAAACTATAT ACAGGCATAC CTTGGAGATACTATGGGTTT GGTTCCCACA ATATCTCCAA AACCACATTC GGTTTTATGA CCACTGCCAT AAAACCAGCC ACATGAATTTTTTGGTTTCC CAATGTATAT CAAAGTTACA TTTTTACTAT ACCATAGTCT ATTATATATA CAATAGCATT ATATCTAAAAAACAACGTAA ACACCTTAAT TTAAGGCTGT GGCTGGTTTG ATTTTCTACC CAGACCACTA AAACTTTCTT CATATCAGCAATAAGGCTGT TTCACTTTCT TACTATTTTT TGTGATAGCA CTTTTCCTTT CCTTCAAGAA TTTTTCCTTT CTATTCACAATTTGTTTGAT ACAAGAGGAC TAGATTTTAG CTTATCTCAG TTTAAGGTGT TTACATTGTT AGCTAAAAAT GCTAATGATCATCTGAGACT TCAGCAAGTC ATAATCTTTT GCTGGTGGAA GGTCTTGCCT CAGTGTTGAT GTCTGCTGAC TGGGTGGCTTTGGCAATTTC TTAAAGTAAG ACAACAATCA AGTTTGACAT ATCAATTGAC CCTTCCTGTC ATAAATGATT TTTTTTTTCTCTGTAGCCTG CAATGCTCTT TGATAGCATT TTACCCACAG TAGAATTTTC AAAATTGGAG TCAATCCTTT CAAACTCTGGTGCTGTTTTA TCAACTAAGT TTATGGAGTA TTAGAAATCC CTTGTTGTCA TTTCAACAAT GTTCACACCA TCTTCCCCAGGAGTATATTC TACCTCAAGA AACCACTTTC TTTGCTCATC TATAAGAAGC AGCTCCTCAT CCACTAAAGT TTTATCCTGAGATTGCAACA ATTCAGTTAC ATCTTCAGGC TCTACTTCTA ATTCTAGTTC TCTTGCTGTT TCTATCTCAT TTGTGCTTACTTTCTCCGCT GAAGTCTTGA ACCCCTTAAA GTCACTCATG AGGGTTGGAA TCAACTTCTT ACAAACTCCT GTTGATGTTGATATTTTGAC CTGCTCCCAT GATTCATGGG TATTCTTAAT GGCATCTAGA ATGGTGAACG TTTTCAGAAG GTTTTCAGTTGGCTTTGCCC GGATCCATCA GACGAATCCC TATCTATGGA AGCTATAGAT TTATAAAATG TATTTCTTTT TTTGTGGGGGCATAGCGTCTCACCCTGTCA CCCAACCTGG AATGCAGTGG CACAGTCATA ACTCACTGAA GACTCAAACTCCTGGGCTCA AGTGATTCTT CCACCTTGGC CTCCCAAAAC ACTGGATTAC AAGCTTGAGC CACTGTGTCT AGCCCAAAATGTATATCATA ACTAATGAGG CTTGAAAGTC AAAGTGACTC CTTGATCCAT GGGCTACAGA ATGGACGCTGGGTTACCAGA CATGAAAACA ATACTCATCT CCTCATACAT CTCCTTCAGA GCTCCTGGGT GAGCAGGCCCATTGTCAAAT GAGCAGTAGT ATCTTGAAAG AAATTTTTTT TCTGAGCAGT AGATCTCCAC AGTGGACTTA AAATAGTCAGTAAACTATGC TGTAAACAGA AGTGCTGTCA TCCAAGCTCT GTTTTTCCAC TGATAGGGCA AAAGCAGAGTAGATTTGGCA TAATTCTCTA GGGCCTTAGG ATTTTTGGAA TGGCAAATTG AGCATTGGCT TCAACTTTTT TTTTTTTTTTTTTTTTTGAG ACAGAGTCTT GGTCTGTCAC CCAGGCTGGA GTGCAGTGGT GCAATCTCGG CCCACTGCAA GCTCTGCCTCCTAGGTTCAC ACCATTCTCC TGCCTCTGCC TCCTGAGTAG CTGGGACTAC AGGCACCCGC CACCATGCCC GGCTAATTTTTTGTATTTTA GTACAGACGG GGTTTCGCCA TGTTAGCCAG GATGGTCTCG ATCTCCTGAC CTCGTGATCC ACCCGCCTCGGCCTCCCAAA GTGCTGGGAT TACAGGCGTG AGCCACAGCG CCCAGCCTGT CTTCAACTTA AAGTCGCCAGCTGTGTTAGC CTCTAATAAG AGAGTCTGCC TGTCCTTTCA AGCTTTGAAG CCAGGCATCA TTCTCTTCTC TAGCTATGAAAATCTTAGAT AGCATCTTCT CCCAATAGGA AGCCATTTTT TATGCCCTAA AAATCTGTCG TTTGGTGTAG CCACCTTCATCATTGATCTT ACCTAGATCC GCTGGATAAC TTACCACAGT GTCTACATCA TTACTTCTGC TTCACCTTGC ACTTTTATGTTATGGGGATG GCTCCTTTCC TCTAACCTCA TAAACTAACC TCCACTAGCC TCACATTCTT CTTTTACAGC TTCCTCGCCTCTCTCAGAGT TCACAGAATT GAAGAATGTT GGGCCTTGGA TTACACTTTG GTTTAAGGGA ATGCTGTGGC TGGTTTGATTTTCTATCCAG AACACTAAAA CTTTCTTCAT ATCAGCAATA AGACTGTTTC ACTTTCTTAC TATTTTTTGT GATAGCACTTTTCCTTTCCT TCAAGAATTT TTCCTTTCTA TTCACAATTT GACCGTTTGA TATGAGAGGC CTAGATTTTA GCCAATCTCAGTTTACACCA TGCCTTTTTC ACTAAGCTTC ATCATTTTAG CTTTTTATTT AAAGTAAGAT GTGTGACCCT TCCTTTCATTTGAACACTTA CATGATGATG CCTGGCTTCA AAGCTTGAAA GGACAGGCAG ACTCTCTTAT TAGGGGCTAACACAGCTGGC GACTTTTAAG TTGAAGCCAA TGCTCAATTT GCCATTAGAA GCCATTGTAG GGTTAATTAA TTTGCCTAATTTTAATATTA TGGTGTCTCA GGGAATAAGG AGGCCTGAGT AGAGGGAGGG AGATGGGGAA ACAGCCAGTCATCAGAGCAC ACACAACATT TATCAATTAA GTTTATCACC TTGAGGGCAC AGGTCATGAT ACTTCAAAACAATTACAATA ATAAAATAAA AAATCATTGA TCGCAGATCA CCATAACAGA TATAATGATA ATGAAAAATTTGAAGTATTG TGAGAATTAC CAAAACGTGA CACACAGACA CAAAGTGAGC ACATGTCATT GGAAAAGTGGTGCTGATAGA CTTACTTCAT GCAGGGTTGC CACAAATACT CAATCTGTAA AAAATTCAAT TATCTACATA GTACCATAAAAACAAGGTAT ACCTGTTTAT ATAATCAAGA CCAACAGAAC CCTAGAGAAA ATAGCTCACT CCCTAGCTCGGAGACATTCT AACCAACATA CACTTACCTT TCTTTTTGCT GTGTACAGAA TTCAAATCCC TGTCTCAGCA AAATTGCAAAGTATCAAATG TCATGTCCAT CTAATACTCA AAACTGCAAA TGTTAAGTCT TGTAAGCCCA GAGACCACTGTATATACAAG TGTTGCTATA AGCATTAGTT CTTCTCCAAA GAAAATAGTC CACTTGGTAG AAACAAACAAAAAGAAAAAA AAAGAAAGAA AAAACATTTT TTACAAGAAG ATTCAGTCTC TTACCTACAT AAGCAAAAATATGAGATGTT CTCTTATCAT TTTTCCATCT ATCTTATAAT CTTTGGTGCT GACTTAGACA CTCATTTTCC TTTTTGTACGTGACCATGTA AAAGTTCAAG TCAAGAAAAA CTTGTTTTGA CATTTGTTTT GCTGAGTGAT GGGTCCCTAA AAGAAATTTGGCTTTGCTTT TGAAAAGTTC AGCATGATAT TGTGTGAATT TTTCATGGCT AATGATTTTT AGAACAGTTG TGATGTGTTTAGGTGTTTTA AGAATATGAA GCATTCAGTG GTTTAAGTTG GTTGTTATAA AATGAAAGAA TATGAAGGAAAGCCTTCTTG TCTTAGAACA CACTGATTCA CAAATAAGCA GCTTCTCTCA AAATGTTGTA ATTACAAAAA TTCCAAGGCAAATATAATAA ACTCCTTGTC GGTGCTATGT CTAGAAACTT AACAGCCCCA AAGAAAGTCC TGACAAGGCAAAAAATATAT ATATATATAC AAATTGTGGA AGCAGGGTGT TGAAAGAAGA ATAAAGACTA TATAAGGACAAACTGTTTAA AAGGGAGGGT ATCCTTGAAA GCTTGACACT TGACTCTTTT GACGAGGCTG AGGGAAAACACTCAGTTTCA TAGATTGCTG GTACGGATGT AAAATAGTGA CATCCCTATA GAGAGGAATT TGGCAATATCTAGCAAAAGT GCTTATGCAT TTATTCTTTG ACCTAGTAAT CCCGCTTCTA GGATTAGTGG TGAAGATACA CCTCAACAATAAAAATATAT ATACATTAGG TTATTAGTTA TGGTTTAATT TTTAATAGCA AAATATTTAA AACAACCTAC ATGAACAAATAGGAGACTTA CTGAATAAAC TATGGTATAT CTGTACAATA AAGTGCAATT CACTTATGTT GTTAATTTGT TCCAAAAATCCAGAGCCAAA GAGTATTTGT TATGCTCTCT TTAGTATAAG AAAGGGGAAA TAAGATATGT GTGCATCTGT TTATTTTTGTGAAAATAAGT ACAGAAAGGA TAAGTAAGAA ACTAGTAAAA CTAGTTATCT CCTAGTGTTA GTAGAAATAGAATGAAAGTG AATTAGGCTT CTTTGAGTAT ATGTTTATAT ATAGTTTTGA CTTTTGAATT ATGTTTATGT TTACATAGTCAAAAATATAA ATTAATCAAC AGAAATAACA AAAAAAGAAG AAATCACAAG CTTTAAAATT TAATACAAACAGAAATAATT GAATCTAACA GTATATCAAA GTGATAACGT AAACTCAGAA GAAAAAAACA TAATCCAACATACCAGTGGA ACACAATATT CTAACTGTAT ACATTCAGTG GTTATAGTCT AAGGACAAGA AAAATTGCAAAAATATCTTG AACTTTAGCT TGTAGGATTT TTATTGGTAG CAATACTAAT GTACTAATTC TGAAATTAAT GTTCGTGTATTATAGAATTG AGTAAATGAA TAAATATGTT GATGTTATTG GGAACTAAAA TTATCATTCT GGGAGTAGAGAAATATAAAT ATGGACTTGG CAAATGAAAC AAAGACCTGC AGAGAGATAA CCATATAAAC TCATTATTTTAAAAATTATA AGTGTCCTAG CTCTGTTACT GAAAAGGCCT AGATTCAATC TTATCTTGAT AGACAGGAGG GCACCCCTTTCTCAGAACAT GGTTTCCAAA TGCCATTCTC CATTAAAAGG AACAAGGTCT TCTTGGAGAA AAGACTGATTCTAGGTCTGG ATTAGGTAAA GTACAACGTT AGTCTGGAAT TTCTTGCTGA ATCAGAAGTA AGAAAGTGCTCAAAAACATG GGAACATGTC ACAAACACAC GTGAGGCAAC TTGAATCCTC ACTGGCCATA TTTAGGACAATCGAGCATCA AAAAAAAAAA AAATGTTGAG AATAATGGAT TCTAACACTT AAAACAAAAA ATAATCCATAGCCCACAGAA GGGGAAGAGA GGGGGAGCTC TTATTTACAG ATGAATATCA AATAGCAAAG ACAGAAGAAATGACAGAATT AGAGAAACAT CATTTTGCAA AACACCACTG TAATAATCAA TTCAGGCAAG TATTATTAATGGATGTATTA CTATTGCGTA AAACCAGTTG GGGAACAGGA TATTCATACA GTCTGAAGGT GTCACCCTAAACATAACTTA TTACAAGTGG AAAATGGTGC CTTTACAATG AAGAAATCTA GCAGAAACCA TCTTAATCTAGTGATCAAAC TTAGTATCAC CAATAATGGA TCATACTGAG TCATGTGTCT CCTAATATGA TGCACCAGGAAGGATGCAAC GTCATGAACG TTGTATTCTT TTGTATTCAA CAGACCACCC AGGGTAAAGG CAGCTTTCTC ACTTACTAATCAGAATTGTT GGTTTTAATT CATTTTGGAT TTTAAGATTT CTTACTTTCT TGTCAGCTCA GAAATTTATT TAAGATGATTTTTATCTTTT ATTCAATACT TTAGCTTGGA GAACCATTCA GAGTTTCTAA CTCATTGTAT TGCCAAAAAT AGAAAACAGCATGGTTTCTT TTGAAAATGT CTAACTTTAA AGTTACTTGT GTGTGTCACT CAGATTCACA TAGCTTTTTT GCCTAGTAATGTAGTATCAT GTGGCAAGGC TATAAAAATG TTTACAATCT TTTATTTAAT ATGACTCTTG AGAGTTTATT CTAAGGAAATAATTGAATAG TAACAAAACA CTATTAACAC AAAGCATAGC AATTTGATTT GGGCAACCAA ACACTGGAAACAACCTAAAT GTCCATTACA GGAATCATTT ATGAAGCAAA CACTAAAATA TTTATTGTGA AGATTATGAGAACATAGAAG ACAGTTATGA GAGTAAATTT GAAAACCTGA ACACAAAACT TACATATACT CCAATTGTAACTTATAAAAA ATACGTGCAT ATAAGGATAA AACAGTACAA ACAAAAAAAT AGTTGCGTTA GATTGGTAGAATTATGGCTC CTTTTGCTGT CTTAATTTTT TCCTTTTACA TTTTGATACA TTATTTTAAT TTTAATTTTA AAATTCAAAAGAATTTGCCA CTCATCTTTG CCACTTCAAG GAAAAAAGAA ATGTGTTCGA TTATTCTGTT CTTAGTATAG TTTTGGCAATTTCCTCACGT GTAAAAAGAG AATACTATTA ATAATTTCAG TATCTATAAG ACAATATAAA ATTAAAGAATCTAGCCCAGT AACTGGTACA TGGAACGTAA TTAATAAATC ATTATGGACT TTTTTTCTCA CACCCAAGTAGGGAGGAATC AGTGGTCCCC TAGAGGCCCA GTGTAGAGGT GGCAGCACCA ATCCCTAGGG GAGAAGATCTTGGTGATGAT AATTCCTGAG CAGACAGTTA GCTGAGAATT CAAGAGCAGA AAAGTAAGAA AGAAACAACTTCTTGCTAAC ACCTTTCCAC CCACGTTTCC CTGTTCTGTT GTACTCTGCT TACCCTTTCA TGGATGGAGG CAGAGGAAAGAGAACCAAGT TTGCTCTTAG TCATTCACTA TGTTGTTTAA TCTGCCTTCC ATCTTTCTTA TCAGTTCAAA TTAGAATGTAGACCTGAATT TAAATCCCCG TTCTGTCAGT TATAATGTGA CCCTAGACAA AACACATTCT CTGAACCTCA GAGAACATTCTTCATTTGTA GAATGGGAAG ATTAATCTAT ATTCCACTTG GATGGCAAGT CTTTTATAAA CTTTATAACC TAAACATGTGTGAGTTGCTA GTATCATTAT GTTGGTAAAG TTATTCTGAG ATATGATAAC AGAACTGTTT TGTCTAACTC CACTAGCATGGTTCAGGTTT AGAGAGTGTG GAATTAAAAG GCTTTATCCT CAAATATGAC TTAAATCCGA TTTTTCTCAT CCACTTTCCTCCACAAACAA ATCCTCAGGA AATGACAAAC TTTACATGGT TAAACATCAG TTTTGTTTAG TCTTTGACAT CCACATGGTTAAATCATACA TTTGAAAACT GCTTATATTT GTGTTGTCTA TGTCTAAATT GAAAAGACTT ATTGAGGAAT AGAAGACTACACATTTTTCA GCAAACACTG CACGTTTTGC AGAATTTCCC CAGGCACCAG TCTCCAGGAA TTTATTGGCT ACTAACAATACTAAGATATG GATGAATGAG GAAATCAAAA TGGAGATCTT GCAAGTTTTG TGAGAATGGG TGAATGGTCCAAATGAAGAG ATAAGTTGTG AAATATTAGT ACAAGTAAAA ATTATTTACA ATGAAAGACA TTTTGTCAATAGCTATGAGA ATTTTACCAT TGACCCAGAA ATTCCATTTC TTTCTTCAGA AATACCCACG TAGGTATACA TATAAAAAGTTATTCATTAC AGTATCGTTT TTCATAGGAA AAAGTTTTAA AAATCAGAAG CTATCTAAAC TATGGTATAT CTAGGTCATAGAAATCAAAT GACTAAAAAT GTTAATATAA GCATATGTTT TTAAATTAAC TTGGCTTGGG TCTTCAGCAA AATTGGCTTCTTAACATTGC ACTCCAGAGT TAGACTTACC CACTCAGTCA CTTATCATGC AGGAGCAGAC TCCTAATACC ACATATCATAGAGCAGAGTA GGACACAGGT TCTCTGCAGG CAGGCAAATC CCAAAGAGAA GGGAGGAAAG GGCTGAGACACTGCATGGTC AATTTCTTCT GAACTCTGCA ATGTACGGAG GTGGACAGTGTCCACAAAGA TTGCTCCCCTGGACCCACCA TCATAATAAC ACAACGGCTT TGTTTTGTTT TTGTTTTTGT TTTTTGACAC GGAGTTTTGC TCTTGTTGTCCAGGCTGGAG TGCAATGGTG TGATCTCGAC TCACCACAAC CTCCACTTCC TGGGTTCAAG TGATTCTCCT GCCTCAGCCTCCTGAGTGGA TGGGATTACA GGCATGCACC ACCATGCCCA GCTAATTTTG TATTTTTAGT AGAGACGAGG TTTCTCCACGTTGGCCAGGC TGGTCTCAAA CTCTTAACCT CAGGTGATCC ACCCGTCTTG GCCTCCCAAA GTGCTGCGAT TACAGGTGTGAGCCACCGCG CCCAGCCCAC AATGGCCTTT TGTTTACATC TCTAGTGCAG CACTCATTTC ATGTTCTTTC AAGAAGAATACATATTTCAT CTTTTTATTT TATACAGCAA TTAGCACAGT GCCTGGCATA AGGAAAATGA TCATTAAAAG CTGGGTGAAAAACCTAATAA AGCTACTGAG GATAGGAACT GCAGACCAGC ATGGAAAGAA AACTATGAGC CAGATATTGACATCATCCTG AAAGGCAGAA GATTTAGTAT AGGCAAGAAG TATGCTTTTG GAATATAGAA AATCTGGATTATGATAAGAA AAGAATCATA TTTGTCTTAT CTTACCTACT CACTTCTCAG TTCCACATGT TTCTGAGGCT GTTTGTCCTTACTTTCTTTT CTGTTTTATC CACTCTTTCT GTTCTTTAGA TTGGATCATT CCTATTGAGC TGACATCAAG TTAACTGACCTTTTATTTTG TCCAAACTGC TGTTAAATGC ATCCAGTGAA TTTTTAACTT TATATAGTAT ATCTTTTAGT CCTAGAATTTCCACATGAGT TTTTTAAGTT TCCATTTCTC TGCTGAGATC TCCTATTTGT TCATTCATTA TGACCATATT TTTCTCTACATTATTGAGCA TAATTATAAC AGCTCTTCTA AAATTCTTGT CTGCACATTC TAACACCTGA ATTATTCTGG GGTCAGTCTCTGTTACATTG CCTTATTACA AAAACAGTAT AAGTCACATT GCCTTGTTTC TTAATATGCA AAATGATTTT TGATTGCAGACTAGACATTT TGAATTAAAC ATTATAGAGA TTCTGGATTC TCGAGAGAGT ATTGACTTGT TTTTTCCATC AGGCAGGTAACTTGACTGGA CTCAAACTCC AAACTCTAGG TCCTCTGTAA TGGGCAACTG CAGTAATCTT TGTTTAGTTC TTTAAGACTTATTGGCCAGG CACGGGGGCT CATGCCTGCA ATCCCAGCAC TGTGGGAGGC CAAGGTGGGA GGATCACCTGAGGTCAGGAG TTCGAGACCA GCCTGGCCCA CATGGTGAAA CCCTGCCTCT ACTAAAAATA CAAAAATTAGCCGGGTGTGG TGGTGGGCGC CTGTAGTCCC AGCTACTCAG AAGGCTAAGG CAGAAGAATC ACTTGAACCTGGAAGGCAGA GGTTGCAGTG AGCCGAGATT GTGCCACTAT ACTCCAGCCT GGGTGACAAA AGCGAGACTCCCTCTCAAAA AAAAATTTAT TGGCACTGCT TGGCATCTGC TATGAATACA TGAAGTTCAT GGGTCAGCTA TAGATCTGGGCACGTTATAC ACAGAATTTG GGTCTCCCTT TCTCTGGATT TCTCCTTTTC TGGATTTCTT TTCTCATTTT CCAGCAGCTGTGGTTGCCCT AAACTCGGTC CTCTGTTTCT TTACGGCAGT AAGATTTGGG AACTTTTAGG TTTTACCTGC CTCTCAGACAAAATAAAAAA TAATTTTCAT CTTGATGCTA CTCCTTTCTT CCAGATGTAG ACACCTCTCT AATTTCCAGT TGCTTTTTATTGCTCTCCAG AGTCTAAAGA TTATCATTGT TTTCTGTGGG AGAGTTGGTC TGATAAAAAC TACTCCCCCA AAACTGGAAGCTGGAAGCTT GTAATTATGA ATAGACTTTG AGTAGTATTC TTCTTTGGAA AAGGATTTTA ACTACTCCCT ATGTACTTCTTTATTTCCTG TTTTTCTCAT CCGTAATCTT TTTATTTTCA TACTTCCTAA GTCAGACAAT TTTCCTACTT GAAGATTCAGTGACTGCTAT CAAATGACCC CCATATTACT AAATACAATA TCCCCAACTG CATTTATAAA AAGAAAATTT ACTGTTTATTAGTAAACAAT GTTGTAGAAT AGTAAAATAT TGCTGGGCTT TGGAGCCAGA TAATCAAGGT TAGAATCCCAGATTCTAACT TACTAGCTGG TGTATTAGTC CTTTCTCATG CTGCTAATAA AGACATACCC CAGACTGGGA GACTGGGTAATTTATGAAGA AAAGAGGTTT AATTGACTCA CAGTTCAGCA TGGCTGGGGA GGCCTTAGGA AACTTACAGTCATGGTGGCA GCAAGGAGAA GTTCCAAGCA AAGAGGGAAA AGCCCCTTAT AAAACCATCT GATCTTATGAGAACTCACTC ACTATCACGA GAACAGCATG AGGGTAACTG CCCTCACGTT TAATTACCTT CCACCAGTTCCCCCCCATGA CACATGGGGA TTATGAAAGC TATAATTCAA GATGAGATTT GGGTGGAGAA ATAGCCAAACCATATAATTC CACCCCTGGC CCCTCTCAAA TCTCATGTCC TCACATTTCA AAACTCAATC ATGCCCTCCC AACTGTCCCCCAAGGTCTTA ACTCATTCCA GCATTAAGTC AAAAATCCAA GTTCAAAGTC TCATCTGAGA CAAGGCAAGTCCCTTCTGCC TATGAGCCTA TAAAATCAAA AGCATGTTAG TTACTTCCTA GATACAGTGG GGGTACAGGCGTTGGGTAAA TACACTGATT CCAAATGGGA GAAATTGCCA AAACAAAAGA GTTACAGACC CCATGCAAGTCCAAAACCCA ATAGGGCAGT CATTAACATT AAAGTTCCAA AATGATCTCC TTTGACTTCA TGTCTCACAT CCAGGTCACACTGATGCAAG AGGTGGGCTT CCAATGGCCT TGGGCAGCTC TGCCCCTGTG GCTTTGCAGG GTATAGCCTG CTTCCTGTTTGCTTTTTCAC AGGCTGACAT TGAGTGTCTG TGGCTTTTCC ATGAGTATGG TGCAAGCTGT TGGTGGATTT ACCATTCTGGGGTCTGGGCC AGGTGCAGTG GCTCATGCCT GTAATCCCAG CACTTTGGGA GGCTGAGGTG GGGGATCACAAGGTCAGGAG ATCGAGACCA TCCTGGCTAA CACGGTAAAA CCCAGTCTCT GCTTAAAAAA TACAAAAAATTAGCCAGGCG TGGTGGTGGG TGCCTGTAGT CCCAGATACT TGGGAGGCTG AGGCAGGAGA ATGGCGTGAACCCAGGAGGT GGAGCTTGCA GCGAGCTGAG ATTGTGCCAC TGCACTCCAG CCTGGGCGAC AGAGCAAGACTCCATCAAAA AAAAAAACAA AAAAACCATT CTGGGGTCTG GAGAATGGTA GCCCTTACAG CACCACCAGGCAGTGCCCCA GTGGGGACTC TGTGTGGGGG CTCTGACCCC ACATTTCCCT TCTGCACGGC CCTAGTAGAG GTTCTCCATGAGGGTTCTAC CCCTGCAGCA AACTTCTGCC TGGACATCCA GGCATTTCCA TACATCCTCG GAAATCTAAGCCGCGGAGGT TCCCAAACTT CAATTCTTGA CTCCTGTGCA CCCACAGGCT CAATACCACA TGTAAGCCACCAATGCTTGG TCAGGGCTTG AACCCTCTGA AGCAATGGCC TGAGCTGTAC GTTGACACCT TTTAGCCTAGACATCTAGGA CACAGGGCAC CATGACCCGA AGCTTCATAA AGTGGGAGGG CCTTGGGACT AGCTGAGGAAACCATTTTTC CATCCTAGGC CTCCAGGCCT GTGATGGGAA GGGCAGCCAT GAAGGTGCCT GACATGCCCTGGAGACGTTT TCCCCATTGT CTTGGTAACT AACATTCAGC TCCGTGTGCA GCACCAACTT ACTTATGCAA ATTTCTGTCACTGGTTTGAA TTTCTCCCCA GAAAACAGGA TTTTTCTTTT CTATTGCATC ATCATGCTGC AAATTTTCAA ACTTTTATGCTATGCTTCCT GTTGAAGACT TTGCGGCTTA GAAATTTCTT CCCCCAGATA CCCAAAATTA TCTCTCTCAA GTTCAAAGTTCCACAGATAT CTAGGGGACA AAATGTTGCC AGTCTCTTTG CATAGCAAGA GTGACCTTTA CTCCAGTTCC CAACAAGTTTCTCATCTCCA TATGAGACCA TCTCAGCTTG GACTTAGTTG TCCATGTTAC TATCAACATT TTGGTCAAAG CCATTCAACAAGTCTCTATG AAGTTTCAAA CTTCCCCATG TTTTCCTGTC TTCTAATAGC CCTCCAAATT TTTCCAACCT CTGTCTGTTACCCAGTTCTA AAGTCACTTC TACATTTTTG GGTATCTTTA CAGCAGTGGC ACTCCCCATG GTACTAATTT ACTGTATTAGTCTGTTCTCA TGCTGCTAAT AAAGACTTAC TCGAGACTGG GTAATTTATA AAGAACAGAG GTTCAACTGG CTCACAGTTCAGCATGGCTG GGAGGCCTCA GGAAACTTAC AAACATGGTG GCAGCAAAGA GAAGTTCCAA GCAAAGAGGGAAAAGCCCCT TATAAAACCA TCAGATCTTG TGAGAATTCA CTATCATGAA AATAGCATGA GGGTAACTGCCCCCATGATT AATTTACCTC CCACAGGGTC CCTCCCATGA CAGGTGGGGA TTATGGGAAC TACAATTCAAGATGAGATTT GGGTGGGGAC ACAGCCATAC CATGCCAGCT AGAGAGCCTT AAGAAAGTCA CCTAATCTCCACAAATAAAA GGTTTCCTAT TTGTTCAACA AAAATAATGA CACCCCTTTT ATGGGATTTC TGTGAGGACA AATGATAACTAACATAGCCT TGCATAGTGT CTGGCACAAA ATAGCTACTC AAAAAATAAT AGAAACAACA TTTAAAAAATGTAGACTTTA TTTTTTAGAG TTTTATGTAC AAAGCAAAAT TGAGCAGAAT GTACAGAGAG TTTCCGTATA GCACTCCCTACCCCCAAGCA CAGATAGCCT CCCCCAGTAT CAGCATCCCG CACCAGAGTG GTACATTTAT TATAACTGATGAATCTATAT TGACGTGTCA TTTTCATCCA AAATCCATAG TTTATATTAG GGATGCCTCT TGGTGTTGTA CCTTCTATGGGTTTTGACAA ATGTATAATG ACATGTATTC ACCATTACAG TATCATAAAG AATAGTTTCACTGTCCTAAA AATCTTTGATCTTCTTCCTA TTCATCACTC CCTCCCCATT AATCCCTGAC AACTACTGCT AATTTTCCTG TCTCCATTGT TTTGTCTTTTCCTGAATGTC ATATAGTTTA AATATACAGT ATGTAGGATT TTCAAACTGG TTTATTTCAC TTAGTAATAT GCATTTGATGTTCTTCCATA TCTTTTCAAA GCTTCATAGT TCAATATTTA TAGAATTGAA TAATATTCCA TTGTCTGGAT GTACTACAGTTTATGTATTC ATTCACCTAT CAAAGAACAC CTTGGTTGCT TCCAAGTTTC AACAATCATG AGTAAAGCTG CTATAAACATCTATGTACAT GTTTTTTTGT GAATTGAACA TTTTCAGCTT TTTTAGCTCC ATTCCTAGGA GTGCAATTGC TGGATTGTATGATAAGGGTA TGTTTAGTGT TGTAAGAAAC TGCCACGCTC TTCCTAACTG GATGTACTGT TTTGCATTCT CACCAGCAATGAAAGAGTTC CTGTTGCTCC ACATACTCAC CAGCATTTGG TGTCGTCAAT GTTTTGAGCA ATAGCATTTT GATCTAACTTTTCCTAGGTA TTCTTTTTGA AGGAAATAAT ATGACAGATA ATAGAGAAAG GATATACGAG GACAGTTCTG TCCTTTATTTATAGTCCATC ATTTAATGAA GGACTCTGTC CACACTTGGT ATTTTTAACT CTGATCCTCC TCTCCCATGA ACTCTGACAATCTCCTAAAT CCCTGTTGCT GGCACACATG GTTGTGTATC AGGCCCCCTG TGGTCTGTCT GAAGCATGGC TTTTTTTTTTTTTTTTTTTT TTTTTTTGAG ACGGAGTCTC GCTCTGTCGC CCAGGCTGGA GTGCAGTGGC GCGATCTCGG CTCACTGCAAGCTCCGCCTC CCGGGTTCAC GCCATTCTCC TGCCTCAGCC TCCCGAGTAG CTGGGACTAC AGGCGCCCGCCACCACGCCT GGCTAATTTT TTGTATTTTT AGTAGAGGCG GGGTTTCACT GTGTTAGCCA GGATGGTCTC GATCTCCTGACCTTGTGATC CGCCCGCCTC TGCCTCCCAA AGTGCTGGGA TTACAGGCGT GAGCCACCGC GCCCGGCCTT TTTTTTTTTTTTTTTTTTTT TTTGAGATGG AGTCTGTCAC TCTGTCACCC AGGCTGGTGC AGTGATGCAA TCTTGGCTCA CTACAACCTCCATCTTTCAG GTTCAAGTGA TTCTGCCACC TCAGCCTCCC AAGTACCTGG GATTACAGGT GCCCGCCACC ACACCCAGCTATTTTTTTGT ATTTTTAGTA GAGACGTAGT TTCACCATGT TGGCCAGGCT GGTCTCATTC CTGACCTTGA GTGATCCACCTGCCTTGGCC TCCCAAAGTG CTGGGATTAC AGGCATGGGT CATCACATGT GGCCTGAAGC ATGACTGTTG CTTTAATCATATGAAATACT GCTCTGTATT GTTATCTATT TGAAATGCCA CACCTCCTGA GCTAAATTGC AAGCTTTTAT GGAGCACAAACCATATTTAT ATATATTAGC ATGATACCAT GACACATATC AAAAGCTGTT ATATATTGTT ACGTGAATTG ATTCTTTCTCAGTTAAGAGG ACCTCTGTAG TAGCACTTTC ATACCGTTAA TTTTTCATTT TGTGCCCAGC CCCTACTCTG TGAAAAATGAAATGAATCCT GTTATCATTT CCCTCCCAGG CCTTTTCTCC TTGTGGACAA TGTGTGGCTC AAGAGAAAATTCAGTCAGTAAATTTGTTCA GTGCACAAAC TCTTTATCAC CTCTCACTGT TCTCAAGTGA GATAGAACAG AACATCCATC CAGTGTCTTACAAATTGTCT GGTATATAGT AGGCACTCAA TAAATGTTTT TTGAATAAAT GCATACATGA ATCCTATTCC TATATATAGTATGGTAGACA GATCATTGAT ACCCAAAGAT GCCCAAATGC TGATCCCCAG AACTTGTGAA TATGTTACATTTCATGTCAA AAGGGACTTT GCTAATGTGA TTAAGGATTC AGACCCTTGG ATTGTAAGAT TATCCCGGAT TAACCAGGGCCAATCTAATC ACATGAGACC TTAAAAAAGC AGAAAACATT TCCCAGCTGG GTTAGAGAGA GATGAGACAGAGTAAAAAGG AAAGAGATTC AGGGCATGAA AATGACTCTA CCCACTGTTG CTGGCTTTGA AGATAGAGGAACTAGGCCAC AAAACAAGGA GTATGAGTGG CCTTAAGAAA TAGGAAAAAG CCCTCATCTG ACAGCCAGCTAGAAAGCAGT CCTCTGACCA CAAGAAATTG GATTCTGCCA ACCACTCAAA TGAGCAAGGA AATGGATTCTCCCCTAGAAC CTCCAGAAAG GAACACAGCT CTGTAATGCC TTGATTTTAG CCAGGTGAGA CCTGTTTCAG ACTTTTGACCTATGGAAATA TAAGATAATA AAGTTTTATT GTATGCTGCT AAATTTGCGG TAGTTTATTA CTGAAGCAAT GGAAAGCCAATACAGACAGA ATATACAGAG AGAAAGAGAA TGAGTTCTTT CCTGATAATT TGTAAATATT TGGGTCTTCACTGGACAAGC TTCACAGAGG ATTCACTGGT TCCCTAGCAA ACCAGCATGT CCAGTCCTGC AGCCTCCCTT TCTTAGGCCCAGCATATGTC AGCTGTGTGC ATAGAAAAAT CAAAGCAGGA CCCTGAGTAG TTGGAAAGAA AAGATGGTTGGAAATGGGTT GCACTTCAAG TGAGGAAACA AGAGGTAGGA GACCGGCATC TCTTTCTCAT ATGTCCCAGGCTGACTCTTG TGAGTTGTTT TCCCTTGGAG GCTATCGATG ACAGTCACAG TAACCTGATG GAACCTGGAT CATGATGAAAGAAGTAAGTG TCAATGGCTC CGACTTCCAA GGACTCTGAT GTCCCACAGC ACTAGCTAAA CAAAGCCAGTTGGAAATGAG CTTAAATGGG GAATTTCCTG AATATATTCC CTATTGTTAG GAAGCCAGGT TGGCTTCCTT GCCTACAATTATGCCAAGCA GTCACACTAT AGAGTCCCTA GGGACATGAT ATTAAGTGAT TCTTTTAACA CAAACAACTTAATAATCATT TATACTAATA GCAAAACGGC CAACGGCTGA TATTCCACTT GAAGTAGAAT TGGCTATCCAACTGGAAGAG AAGACAGGAA GACGTGATCT CCAGGGAGCC ACTAAAAGGA TTGGCACCTG CCTCTGGATTCCCCTTTTCC TTATATTACC TCTCAGCACT GGCAGGCCTT TATTTCAGGA TACAGTTTCA CAAGTATTAT GTCACGTCTCTGAGAATTAT GTTGGTAGAT ATTTGCTCCT CTGGCCAGAA AGACCTAGTT TGGAGTCTGG AGTCATGAAGGTGACATACA TGTAGCTAGT GACATAAGTG TAGCTAGTAA AAATAGTGAG TAATGGCCCT GAAATTCTATTGAATGCCCA AAGTGCTGAC CAGGAACAAG CATGCTCTAG CTTATCTCAC AAGGAACTTG ACAATTTTCTTCAAAAATCC TAGTAGCTAAGATTTCTTAG TAACAAAGCC ACTAAGGCAC AATTATGATT AACTTGACCCTTAGGTGACT TTTAAGGACT ATTCTATAAA ATATTACAAC TAATAGTGGA TCCAAGCCAG CACACTCTGC TATATAAGATTAATTGACAG TGTCCACACT GGTAAAATAA GTTGTTTCAT AAATACATTA GAATTCATTT GCACTTTCTA CACAGCCCCAAGTCCAGAAC TTTCCCCAGA ATAGGTCTAT GTTTTGCAAT CTGCTACTCC ATACAGAGAT TTGAGTTCAC TTGGCAATTTAGTGCTGCTT ATATGTGACC AGTTAGTCTG TTTTACTTAT CTATGCCTTA AACATTACTA TACTTACTAA CTCCAAGATGCCTGGTCTCA ACTTGACAAA AATACCCCAA GTTGGGAAAT CCTTATGTGA ATATGTAGAT AGTCACAATT GCTGGTTGATGATGATCTGT CTTTTCCTGT ATTTGAGAAA ATGGAGATAA AATGGACCAA TCCAAATAAT GGATTAAACATGGGAATAGG TGAGAGAGAG AGAGGAATAC ATGGTGGCTC TCAGTGTCTG GCTTAGGCAG TAAACACTTTCGTTAATAAA GACGGAAAAT AAAAAAGGAA TAATTGGTGT CTAGGGGAAA ATAATGAGCT CAAGTTTTAACACTCTGAGT TCCCGGATGT GAGACATCCA GGCGCATTTA TCCAAGAGGC AGTTGGAAGC AACGTTCCGGAGCTTAGGAG AGAGGCATGA CCAAAAGCTG GTGGGACTGT GAAAAGGTAT GGCCATTCTG GAAAACTGTTTGGCAGTTTC TTAGAAAATT AAACATGTAC TAACAACCCA GCAATTGTAC TCTTGAGCAT TTGTCCCAGATAAATGAAAA AAAAAAAAAG CATTTTTTTT ACACAAAAAC ATATACATGA AAGTTCATAG AAGTGTTATTCATAAAAAAC TGGAAAAAAC TGAGATGTCT TTATTGAGTG AATGCTTAGG CAAACGGTGG TCTATCCATACAATGGAATT ATGCTTAGCA ATAAAGAGAA AAGAACTATT GATACATGCA ATAACACAGA TGAATCTCAAAGGAATTAAT GCTGAGTGGG AAAAAAAGCA CATCTCAAAA TGGTATATAC TGTACTATTT TATTTACTTA ACATTTTAAAAATAGCAAAA TCATAGAGAT GGAGAACAGA TTAATGGGTA CTGTGTTTTG GGATGGGGAG TGAGAAAAGGGTAAGGTGTA AATATAAAGG GGTAGCACAA AAGAGCCTTG TGGTTGAAGG ATTCTATGTC TTGGTTGTAGTCGTGATTGC AGGAATCTAC ATGTGATAAA ATTGTATGGG TCTACATACG CATACACACA AGAGCATATAAAACTGGTGA CATGTGAAGA AGCTCCGCAC ATTGTGCCAA CATCAGTATC CTAGTTTCAA TATCAGACTACAGTTATACA AAACATTGTC ATTGAGGGAA ACTGGGTAAA GGGAACACAG GACATTTGGC ATATATTTTTGCAATTTCCT GTGAATCCGT AATTATTTAA AAATAACAGA TATACTACAT ATCAAAAATT TAATGTCATA AAGTTGATGAGTTTACCTAG TGGATAGCTT TGTTAATATC TGCTATAAGA CTACTGAAAA TGACAGTTAT GCAAGTATAAGCTCAGAGAA CTTTCCTCCC CCTTCGTAAA TGAAATGAGC AAAAGAAATG AAACAGGAAA GGCAAGCAGTACTGAAAACA GGGAAGGGCT CTTCCCCATA TAACTATATC TGCGACTTCA ACAGCTATTC ATCCAGAAACACAGCCTCTT GCGCTAAGAG GAAACTTTGG ATAACAATAT GTTTTCACTC TCCAAGAGAG AAAATGGATAGATTAATTTT TAAGAAAAAA AAAAAAACCT CACCAATTTC ATGCTGTGGC TTGCACCTTT AATCCCAGCTACCTACAAGG CTGAGGTGAG AGGCTTACTT GAGCCCAGGA GTTCAAGGCT GCAATGAGCT ATGATTGATTGTGCTATCGC ACTCCAACCT GGAGTACTAA GCTAAGAGCT AAGAACACAG CTGAGAGCGG AGAAGAAACAAACAAATCTG ACCAATAACC CCCACTCCCC TCATTTTACT GGAGTGAGCT GAGACTGCTG GCAAACATGGCCTTTGACCT AGCCTGAACT GTAGCAAAAG TCATCAGATA TTTTTCCACC AATCAACAGA CAGAAGTGGGGAGAAAACAA TCGTAGTTCA TAACTACAAC AAGCAGATAA ACGAAGGCCA TGGTGAGGGA TGGAAGACATTGTGATATAT CAAAGGCAGG CTCATTTAAA ACTCAACCCA AATTCCAAAC AAAATATATA ATTGAATATGTATTAATGCC AAAGGAGCTT GAGTGAGCTT TAGCACAAAC CCCGCCCTCC AGCCCCCACC CAAAAAAATCACTCTGTTCT CTCCCCATTC TTTGATAGGC ATACTTGCTG TTTTCTCACA GCCAAGGTAC AGAGGGGACT TAGAGGAACTAGAACTCTAA TACACTGCTA GCAGGAATGT AAAATGAAGC ATCTACTTCA GAAAACCATT TTATCAGTTTCTAGAAAGTT AAACATAGAC CCACCATGCA GCCCAGCCAC TCTACTCCTA AGTATTTACA CAAGAGAAATGAAAACGTGT CCCCACACAG TTGTATTTAA AGGTGATGGT TAGCCTTGTG TGTCAACTTG GCTAGGCTAT AATACCCAGTTACTGAATCA AATAGTAATC TAGGTGCATC TGTGAAGGTA TTTTGTAGAT GTGGTTAACA GCTACAATCT GTTGACTTCAAGTAAAGGAG ATTGCTCTTG ATAGTATGGG TGGGCTTCAT CCAATCAATT GAAGGCCTTA AGAGCAAAAAGTAAGGTTTC CCGGAGAGAA AGAAATTCTG CCTCAAGACT GCAGCCTCAA CTCCTGCCTG AGTTTCCAGTCAGCCAGCCA GCCTAAAGAT TTGCTAGGCA TTATAATCAC ATCAGCTAAT TTCTTAAAAT AAACCTCTTT ATATATATTGATACAATGAA TGGTTATAGC AGCCTTATTT GTAATAGCCA CAAACTGGAA ACAACCTAAA TGTCCTTCAATAAGTGAATA CATAAACAAA TTGTGGTATA TCCACAATTT TTACGCAGCA GTAAAAAGGA ATAAATGGTTGAATAAGGAA TAAACACATA ACAAGGATGA ACCTTAAAAC CGTAAGGCTG AATGGAAAAA GTCAGACAAAACTAATACAT ACTGAATAAT TCCATTTATA TTGAAGTTCT AGAAAATGAG GACTAACCTA TAGTAACAAAAAGCAGAAAA ATTTTGCCCA CTGGTGATGG AGGGGGCGCA GGTATTGTAG AGTATCTGAG AAAGGACAACTGGATAAAAG GGGGCACAAG AAAACTTTTG AGGGTGATTG ATATGTTCAT TATCTTGTGG CATGGTTTCATAGGTGCATA CATATGTCAA AACATCAAGT TATACACTTT TAAAATGTTC AGTTTACTGT ATATCTATTA TACTTCAGTAGAGAGGAAGG AAGAAAGTGG GCAGGGTGGG GGAGAGGAAA GGAAACGAGG GAGGAAAGGC CCTAATAGGAAGGATTTTGG AGTTTAGATT TTAAAATGAT AAAGGATGTT TGACACTCTA GGCATATGAC GAATATAGGA TTATGAGTCCACAAAAACCA CCAGGAAGTC ATGTATGTTT ATACTTTTAA GTGAAGGATC AGTGGATTAT CAACTCCCTA ATGCTTTGCCTCTCTATGAC TGGCTGCTGT CCTTCTCATC CCAATACTCC TTCCAAAGCC CCTTGCTTAA ATGTAAGCCT TCTTTCCTCCTTTCAACACA TCCTGCATTC CGTGACAAAA TAAGTTTTCC TTAAACAGAA TGTACAGCAT ATTATTTGTA CAATTAAAAATTTTTGGCCA GGTGTGATGA CTCATGCCTG TAATCCCAGC AATTTGGGAG GCCGAGATGT GTGGATTACCTGAGGTCAGG AGTTCGAGAC CAGCCTGGCC AACATGGTGA AACCCTGTCT CTACTAAAAA TACAAAAATTAGCTGAGTGT AGTGTGGCAG GTACCTGTAA TCCCAGCTAC TCAGGAAGCT GAGGCAGGAG AATCGCTTGAACCTGGGAGG TGGAGGTTGC TGTGAGCAGA GATCAGACTA TTGCATTCTA GGCTAGGAGA CAGAGTGAGACTCGGTCCCC AAAAAAAAAC ACATTTTTTT TTAATGTTTC CTCCTTGCCT GTAGGAAAAA GGCTCTGACT CCTTAGCCTGGGCATCAGAG CTCTATCTAA ATGGACTTTA ACCTGATTTT GTGGCACTAA TTCCATTGCA GTACTTGTCC GCTCACTGGCCTGTGCCTCT CTGCCACTAT TTTTGGAATA ATGTCCTCTC TCCATCTTGT TTACTCAACT ATATCCAACC TCTAAGGCTGTGCTCCTACA AAGCCTCCCC TGGCTACTTC AGCCCACAGA GATATTTAAC TGCTCTGCAG TTCAGGACAT TCTTCTGACTCTTTAAATCA CATTTACTTA TATATGATCT TGTGATATTT TTTGTTGACG TGTTTACTTT AATTTTCTTC CATAACCTATTCATTCAACA AACTCAACAA TTATTTATTA AATGCCAAGT TAGAAAAATA TTATTGATTT TATATAGATT ATAGATATGTTTGAAATTTT ATTTGGCAAT CTGCAAGTAG AAAAATAATT ATAATGTGGT ATATCTGTGA TAGAAGTATT AGTGCAGAGACCATGGGGAA CATAATCCAG CCTGGAAGTT CAGGAGAGAT ACGTGGAAGA AAGGACGTCA GAGCCTTTTTCCTACAGGCA TGGAAGAAAC ATTAAAAAAA ATTTTTTTTT TTGAGATGGA GTCTCACTCT GTCTCCCAGC CTAGACTGTGGTGGTGCGAT CTCTGCTCAC TGCAACCTCT GTCTCCCGGG TTCAAGTGAT TCTCCTGCCT CAGCTTCCCA AGTAGCTGGGATTACAGGTA CCTGCCACAC ATGGATGATA AATATGATCA TATTTTCTTG TTCTTTTCCT CCTCAGTTGT CTTCCCTGAAGAAAGGAATG CCTTTTATAG ATGACAAACT CCCATTCTCA AGAACAAGGA TTTTTGACCA ATTTAATTTA ATCAGATGTCTGGCTTTGAC CTAGAAACAC AGTCACGAAA CTTGGTGATT AGAGACCAAT TCCCAAACAT GAGCATTTCTTAGGAAACAC AGTAAAGATC TGAGAGACCC AAGAGCAGAA GGGCGAGAAA CCAAAAGCCA TCAGTTTGCATAGGAAACAC CTTGTTTAGC CTAATCTTTT TATTTTTATT ACTCTATTAG TCACTACAAC TATTTTCTGA TTGCTATGGTGATAGATGGT TTAAAACAAG CCTTCATTAA GAATTGTCAC ACCATGGTCT CAGTCAAAAA CACCAACATT TTTATTGGTATTGACAATTA TGGGAATATC CAATTCCAAG AAGACAAGGA GACCTCTGAA CTTTCTAAAT GAAGACTCCAATCTTCCTGA TCTGATGGGA AGCAGCTTGG CAAGATTACC AACCACCACC ACAGAGAGTG GACTCTAAGCTAAGACTTAA AAGATAAGTA GAAATTATCC AGGTAAAGAT GTGTACAGAG AAGGAAGTAC ATCCAGGGGAAAAGAACAAT ACGTGCAAAA GTACGGAAAT GGTAAAAAGT AATACTACAT AGTCAAAGCC AAGCAGAGTTCAGAAGGGAT CTGGTGGTGA AAAATACGGC TAGAGAAAGC AGCAAGGATT GGCTTCTAAA ACCTATGTAGTATCTTGGAC CTTACCCTAA ATGTAATGAG AAGCTTCTAA AGAATCTTTC ATTTATTCAT TCATTGAACA AATATTTTGAGGCTTTCTGT GAAGAACATC ATTCTAAGTA GTAAAGATAC AGCAGTGAAT AGGACACATA AAATCCTAGATCTCACAGAA TTGACATTCC AGAGAGGGAA AGGTAGACAA TAAATACATA AACAAATCAT TTAACAAGATGATTTCAGAC AATGGTACGT ACTGTGAAAA AAATGAAACA AGGTAATGGA CAGCGAAAAG GCACTGGAAGGAAGCCTGCT TACCTTTGCA TGGTTAGAAA AGATCTCTCT AAGAAAGAGA CCACATGTGA GCTGCGACCTGAAGGATACC GAGAAGCTAG GTGTGCAAAG ATGTGGGGAC AGAACTTTTG GACTGAATAG CAAATACAAATGCCCTTGGG TGCAAGCTTT GCCTGTTCAA GGACCAAAAA GAAGGCCAGT GTGCCTGCAG CATACTAAGCACAGAGGAAA ACACTGTTAT ATGCTGAGAT TGGAATTATA AGTAGAGCCA GATAATATAG TCTCTTATAGGTCATAATAA GGCAACCAGA TTTTATTCCA AGAGGATTTA AAAATCACTG GAGGTTTTGC ACTAGGGTGAGAGGTGTGAT TTGTATTTTT AAAAGATAAT TCTGGAGAAT TAACTATAAT GAGGTAGGAG TAAACTAAGTTAGGGGCTAT TTCAGTGGCT CAGACAAGAG ATAATGGTAG CTTAGACTAG GATAGTAGTC GTAGAAATAAATAAAAGTGG CACTCTACTT TGGGGGTAGA GTCTATAATA GGTTTGGTTT ATGGATCATA TATGAGAGTAAAAAAAAGAA AATAAATTAA TAATGGTTCC TAGGTTTGTA CCTGAGCAAC TGAATAAATG GGTGCTGTGAATTGAGATAA AGGAGATTGA GAATCACAGG CTTTGTTTTG CAAATTAATT TTGAGAGGCT TATTAGACATCCCAGTGGAG ATTTCAGGTG AGTGGAGCCC ATTGAAAGGT AAGGGACAGG GTCAGGTGTG GTAGGTCAGGCCTGTGATCC CAGGACTTTG GAAGGCCAAG GCAGACAGAT CAGTTGAGCT CAGGAGTTTG AGACCAGCCTGGGCAACATG GGAAAACCCT GTCTCTACAA AATATGCAAA ATATTACCTG GGCATGGTGG CATATGACTGTGGTCCAAGC CACTTGGGGG GCTGAGATGG GAGGATCACT TGAGTACAGG AGGCGGAGGT TGCAGTGAGCCAAGATCTCG CCACTGCAAA CCAGCTTAGG TGACAGAGTG AGAACCTGTC TCAATAAATA AATAAGAAACGTAAGGGAAA AGGAAATTAA TCTGATCATT GGCAAATGCA TAGTATTTAA AGCCAGGGGA GTAGATGAGATACTCAAAGT AGGTGAAGAT AAGGAGGCAA TGAAGGCCTA GGACTCTGGT GTACATTTAG ATGGTTATAAGAGGAATAGA AACTGGCAAA ATAAGTAACA CTGAGCACCC AATGAGGTGG AGAGGAAAGC CAGGAGATGAAGCATCATAG AAGGCAAGAG AAGAAGGGTG TCAAAGAGGC GAGGCAGTCA TCAACTTCTG GGCAGTCAAATAATATAAGG ACAGAAAAGT GACCATTGGA TTTGGAAATA TGATGAGCAC TTTGAGTGGA GTGTTGAGACAGAAGACCAA TTAGAGTAGA TTGAGGAGAT AACGAGAAAT GAGAAAATGT AACCTGCAAG CACAGACAATTCTTGAGAGA CTTTTCTGTG AAAGGAAACA GACACAGAGT CTTAGCATGT CTTGTCTTTC TATGGGAAAT GTAAATAGTTTGAGATCAGG GATAGTATTT TATTCTGCTT TTTGTACCTC TACATTACCT AGCATAGAGC TAGCTAATGT GCACTTAAGTATGTTCTCAA TTCTTATCGC CTGAATGACT GGATGGGTGA AAGAATGGAT GGATGGATGG ATGGATGGATGGAAGGATGG ATGGATGGAT GGAAGACTTC TGATTTGCCA AGAAGAGGAT ACTGGTAGCA GAAATAAAAACAGCACTGGA GAAAGAAGAG TTTAGATTTT TATTCTTTGG TGTCAGTTAG ACAGGAAAGT AAGACATTAGAAGAGTCCTT AGATAATTTA TGTAATTGTT CACTTAGGAT TTTTAAATGT GATCACTGAT ATTGGACATG TTCCTAGTGAAGCATTTTTG GTGTTTCACT GGTTGAAGTT AATAACTGTA AAATTATTTC CCGTTCAGGA CAGAAAAACA GAAAACTTGAAGCTCCTATT AGAAAGTTCA AGATTCTCTG GGGTTCTTAG GATTTACTGT TCCCAAAACT CTGTCAAGAA CAAGAAAATGACCTGTATAC TTAACTGGTC TAGGCAACAG TGGAAAGACA ATTCTCAGAG AAGATTTGTT TTAAGAAGACACTTTCCATA GGAATCAAAC AATAGCTTTC AGTGACTAAC ATGGTAAGAC ACAGGGTGTT AGCTCTTTCC TTCCAACCTCATGGCTGTTG TACCTTACCT TTCGACCCCG TGTTCCTGAA ATTGTTAAAT TCATAAACTT ACCAAGGACT AACCAGCCTCTGGGGAATTG CTGTATACTT AGCAAACTTA CAATGGACAT ATTTATAAGC CATAATGATA ACTGACTAATAGGAAATACC CTCAACTGAA AATGAGAGAT CATCATTTGC AAATGAGTTC CCTTGCCCAG GCAACTACTGGGGAAAATGT CATGCAAGCA AAATTAATCT TTGAAATCCT CCTTTTCCAT TTTTTGTGTC TTCCTTTTCC ATAGGCACCAGAAATATCAT GGTGCCTGGA TCTCATCTCT ACAGAAAAAA AAAGTGATTT GATAAACTGA TTTATATTGT GTCCAAATGTGATTGTATTT TCAAAGATAA CCTAAGGGGA GAATGCTGTC TGGCCCAACA GCAGGCTCTC GACTTCATTTCAGACACTGT GGCCAATGGC TGGGAAACAG GTATGAACAG TAGGTTTCTG AGTCCCCTGG AATTATTCCATTTATGTAGC CACCTCCATG ACAGGAAGCC TCCCTACTCT TACTTCCCAG TTTGTTCATT CATGGCACCA GGTTGCAGATTAAAATTTGC TCAGTGACCT TTTATCTAAT AATGTGTTAC CTTCTTCTCT TAAAAAGTAC AAGGGACAAA TGCTCATGGTATACTTTTAG GAGATTGTGG CTCTCTATTA ACAGTATTTA TTCAACAAAC ATTTATTGAG CATTTATATG TGCATCATGCTAGGGACTGG AACCTAGTAA GTGTAGCACA TATTATTTCA TTTAATCCTC ACAACAAACC CATGAGGTTG GTTTTATGATCCCAATTTTT CAGAAGAAGA AACTGATATT CAGAACCAGT TAACTAACTG GTTCAAGGTC ATGCAATTTCTAAGATACAG AACCAAGAGT CAAAGACATG ATTTTAAACC AAAGCTTTTT CTGCTACTCC ACATTGCTTCCCTAGGTGAG ATCTGAGGCA TTCCGCGAAA AGAGAAGGGT CATAAAGCCA AGGGAAGACA AGCTTAGGAAAAAAAAGGGA AATGTCCTAA ATAAACAGCT TTCCTATTTA CCAGAAACCA CTAGTTTAAA AATATAATGGGAAAAATCCT ATTCACTTTA ACAATGTTAA AAAAAAAAAA GATAGAAGAA ACATAGGGAT AAACTTAACACATTTGTAGG ATATGTAAAG AAACTAAAAG ATGTTAATAA TGGCCTAAAG AAAAAAAAAC TTACATGTATGGGGAGATAG ACCATCTTAC TGGATTCTAA TATTTAATAG TCTAGGTGTT CCATTTCTCA CCAAATTAAT GTATACATTTAATACAATGT CAAACGAAAT ATCTTAGGAA TTGCTTACAA ATTGTCAGAT AATTACAAAG TTTACCTGGGAAATATAAGC ATATATGAAG AGTGAATGGG ACCCCACCAC TCCCCCCAAA ACAAAAAAGG TCTGAAAAGGACAGAAATCA AGGAGAGTCT TGCCTGCCAG ATACAAAATT CTATTATAAA GGTGTATTGA TGAAAACAATTTAATACTAG TGTAGCAATA GGCAGCAAAG CAATGAAACA GCATAAAAAG ACCAGAACTA TACCTAATTATGATGAAGAT TTAAGGTATG ATAAACATGA CATAATTCAA ATCAGCAGAA ATTGGCATAG ATAGGGTTAAGACAAATAGC TAATCATTAG AGGGGAGGAA GGAAAGGAGG GAGGATAAAA TTAGGTTCCT GCCTTCATCTTACATTAAAA TAAATTCCAG ATGTATTACA TTTAAATTTT TTTAAAAAAA GAAACCACAA AATACTTGAAGAAAATATAA GTTGTTATAT AGTCTTTTGA TGGGAATTTT TTTTTTTTTC AGAGACAGGG TCTTGCTCTG TCACCTAGCCTAGAGTGCAA TGGCATGATC ATGGCTCACT GCAGCCTTGA ACTCCTGGGC TCAAGTGATC CTCCCAGCTCAGCCCCCCAG GTAGCAGGAA CTACAGGCAT GCGACACCCC ATCCAACTTA TTTTTTATTT TTTGTAGAGA CAGGGGTCTTGCTTTGTTTC CCAGGCTTAT CTCGAACTTC TGCCTTCAAG CACCTCAGCC TCCCAAAGAG CTGGGCTGAT GGGACATTTTTTAACATAGT GCCACATTAC CATAAATGAA AAGCTTGTAA AATACTAATT TTTAAAACTA ATATATATCA GAAATTTTTATAAACAAAGT TAAAAAGCAA ACACAAAAAA TTTGTAGCAC TTATGACAAA TATATGTATA TATATGAATACAAAAAGAGC CTTTACAAAA CAGTAAGAAA ACAATGAATA CTCCCAATGG AGTATTCAAA ACTAAACTGCTAAAAGCAAT TCAAAACAAA AAACATAAAC TATGCATATA TGTATGTGAA AAAGTTTAAC CTTATCAAAGAAGTAAACTC TCAAAGAAAT AAACATCAAA TAAGGAAATA GCCTTTTCCC ACAAATAACC AAAATCTGTAAGAATACTGA GCTGCGAATG TTTCAGAAAA AAAAAAAAAT CATACACCTA GTTCGGCATG TAATTAATATAGATCAGAAC ACTTTAAAAA TATTTATAGG CCAGGCACGG TGGCTCATGC CTATAATCCC AGCACTTTGGGAGGCCAAGG CGGGTGGATC ACCTGAAGTC AGGAGTTTGA GACCATCCTG ACCAACATGG TGAAACCCTGTCTCTACTAA AAATACAAAA ACTAGCCAGG CATGTTGGCG TATGCTGGTA ATCCTGGCTA CTCGGGAGGCTGAGGCAGGA GAATTGCTTG AACCCAGGAG GTGGAGGTTG CAGTGAGCTG ACATTGTGCC ACTGTACTCCAGCCTGGGCA ACAAGAGCAA AACTCTGTCT CAAAAAATAA TAATAAATAA AAATAAAATA TTTATATACTCTGACCCATC AATTTGTCCA GCATAATTAG GCATGTGTAC AAGGGTTTAC ACACAAGAAT GCCTATTGCA ATATTGCTTTTAATGCTAAA AAAAATTGGG GAAAATGCTT TAAAAATATA GATTAAGACT GTACATTGTG GTACAGTCATATAATCAATA GTATACAGCT ATTATTTATT TTCAGCCACT GTCCAAAATA TAGCCTGGCC TAACAACATT CTGTTAGGATACGCAAGCAC CGTGAGGAGA TCAGCTATAA AGTATCAGTG TTTCACACCA CTGCTCCTTT GCTAATAACCTTCAATGGCT TTTAAAGAAG TAAAAAACAA AGGCAAAATT CCTTAGTCAG CCCTTAAGAC TCTCTGTTACTTAGCTCAAA CTACCCTTTT CAACAACACT GCCCTAACCA GGATGAGTTT TTTGCCCCCC TGGAGTACAT TCAGCCTTTCCTTATCAAAC CTTCCTTTAA ATAAGTATCT TCTCCAGGAC CACTTCACTT TCTTCCCCAA TTTAGCATTT TCTATATCTCCAGGCCTACC TCTATAAAGC CTGTCCTAAC CACTCAAACC CTAGCTTTTT CTCTGAACTG CTAGAAATAT TTTTCTCTCATTGGCCATTT AGGTAAAAAG GTTTTTACTG TTTATTACCT ACTCAATAAA AATTTTCTTT TTTTGAGACA AGGTCTTACTCTGTCGCCTA GAATGGGGGG AAGTGGTGTG ATCACAACTC ACTGCAGCTT CTACCTCCCA GCTCAACAGTCCTCCCACCT CAGCCTAGTG AGTAGCTGTG ACTACAGGCA TGTGCCACCA TACCCCACTA CTTTTCATTT TTTATTTTTTGTGAGATGGA ATCTCACTAT GTTACCCAGG CTGGTCTGCT GATCTCAATT GATCCTCCCA CTGTGGCCTC CCAAAATGCTGGGATTACAG GCATGAGCCA CAATATCTGG CCCCAGTAAG CTTTTAAGGC CATTAACATG AGGAACAGTGTTCTTTACAC TATTTTATCA GCTAGGGCTT TGCATGGAGT AGGAGTTTAG TAAATGCGGT TGATGGGTTA ATCAATGTGTGAAAATATTC AGAGCCACCA AAAACAGATA TTATGTCTAT TCTCATCAAC AATCAAAATT GAGTAAACAGCCATTTTCTA ATACAGGAAA CCACAAAACA TTGAATGGTG ACATTAAAAA ATTCCCCCAG CAGGAGCCAACCAATTTTTT CATCCTGATC CAAGTTAGCA AACTGCAAAA GATAGGAAGC ACTAATGAGT GGAAATTTGAGTAGAAGCAT TTCTTATGAA GGCTGTCTTG ACTGGATCAC ATTTTTATTG CTGTTGGAGG TGCCAAATGT GTGTGTTTATGCTAATCCTC CACCTCAGGC AACACACAGT CAAGGATCCT ACCAAGTGTT ACCGTCAAGT GTCTGTTGGCAGCTCAAGGC CCCAGCGTTG TTCCCTTGCA CTAGGGAAAA GACATATTCC AGGTACAAGT ACTCCCACTTTGATGCTACA GAGGAGTTGC TGAACTTTGT GTCATTAATC TCTCTTCGTT AGATCCCAAC CCTGTTTAAA TCCCACTATCTGCCTACTCT GGGTCTTCAC CAATTTACTA GATCATAGTT GGAGAAAATC TACAAAGCCT TGCTCCCTTT AGATTTAAACAGGTCTCCGT TTAAATTTAG AATTGCTAAC TTCAAGCGGG CCCTTATGCG ACAGTATGCC TGTCAGTCAT ACTACATTTCCTCAATTCCA TTCATGTGAC TGCTCCATAC CCTTCCCTCT CTCTTCATAC TACTATTATC TCTTCCCCCC TCCCTCATTTTTAACTGATG ATCTTGTTTC CTATTTCTCT GAGAAAATAG AAGCCATCAA AAGAGAGTTT CCACAAACTC CTACTGCCTTATCTAGCCCT GTACCATATA CTTTGCATTT CCTCTCATTA CCATGGATGT ACTGCCTATC TGTGCTTCTA TCTAAGGCTAACCCTTCCAC TTCAGTTTTG AATATTATCA GCTCTTACCA ACTCAAGGCC ATTGCTCTAG CAATTCTCTC ATTCTCTCTCATTTTCTTCC ATCAAGTTTT CCTTTTCTTC AATTAACAGA GTAGCTCCTA AAGGGAAAAA AAAGTCTTCT TTTTCAATGCTCATCATCAC TGGCCATCAG AGAAATGCAA ATCAAAACCA CAATGAGATA TCATCTCACA CCAGTTAGAATGGCAATCAT TAAAAAGTCA GGAAACAACA GGTGCTGGAG AGGATGTGGA GAAATAGGAA CACTTTTACACTGTTGGTGG GACTGTAAAC TAGTTCAACC ATTGTGGAAG ACAGTGTGGC GATTCCTCAG GGATCTAGAATTAGAAATAC CATTTGACCC AGCCATCCCA TTACTGGGTA TATACCCAAA GGATTATAAA CAATGCTGCTATAAAGACAC ATGCACACGT ATGTTTATTG TGGCACTACT CACAATAGCA AAGACTTGGA ACCAACCCAAACGTCCAACAATGATAGACT GGATTAAGAA AATGTGGCAC ATATACACCA TGGAATACTA TGCAGCCATAAAAAATGATG AGTTCATGTC CTTTGTAGGG ACATGGAGGA AGCTGGAAAC CATCACTCTC AGCAAACTATCACAAGGACA AAAAACCAAA CACTGCATGT TCTCACTCAT AGGTGGGAAT TGAACAATGA GAACACTTGGACACAGGAAG GGGAACATCA CCCACTGGGG CCTGTTGTGG GATGAGGGGA GTGGGGAGGG ATAGCATTAGGAGATATACC TAATGTTAAA TGATGAGTTA ATGGGTGCAG CACACCAACA TAGCACATGT ATACATATGTAACAAACCTG CACGTTGTGC ACATGTACCC TAAAACTTAA AGTATAATAA AAAAATATAT ATATATATATAAAACAACTA AAAATAAATC TTCTTTTTCT GCAGGATCAG TCCATCACCA CACACACAGG CTGTGTTTTA TGTTGTTCCCCAGCTTAAGA GATCGTTCTC CAGATCCCAC TGCTCCTTCC AGTTGTCACC TCAGTTCTCC ACTTCTTTTT GCTGATAAACTACTCTAACT AGTTACATAT GATTTCTGTC CCCAGGTCCC CTCCCTCAGT TGTTTTGAAC ATAATCATTT ATATCATTTATCATTTTCAC TCTAATTGCA CAACCAAAAA CTCCCTTTTT TTTTAGATGG AGTCTCACTC TGTCACCTAG GCTGGAGTGCAGTGGCATGA TCTCGGCTCA CTCCAACCTC CGCCTCACGG GTTCAAGTGA TCCCCCTGCC TTAGCCTCCT GAATAGCTGGGATTATACAC ATGCACCACC ACACCTGGCT AATTGCTTTG TTTTTGTTTG TGTGTGTGTG TGTTTTTTTT TTTTTTTGGACAGAGTCTCA CTCTGTTGCC CAGGCTAGAC TGCAGTGGCA TGATCTCAGC TCACTGCAAC CTCCACCTCC TGGGTTCAAGCGATTCTCCT GCCTCAGCCT CCCGAGTAGC TGGGACTACA GGCATGCACC ACCATGCCAG GCTAATTTTT TTGTATTTTCAGTAGAGACC AGGTTTCACC ATGTTGGTCA GGCTGGTCTT GAACTCCTGA CCTCAAATGA TCTGCGCACC TGGACCTCCCAAAGTGCTGG GATTACAGAC TTGAGCTACT GCGCCGGGCT ATTTTGTGTT TTTAGTAAAG ACGGGGTTTC ACCATGTTGTCCAGGCTGGT CTCAAACTCC TGACCTCAAG TGATCCGCTC GCCTCAGGCC CTCAAAGTGC TGGGATTACAGGAGTGAGCC ACCATGCCTG GCCATAAAAC TGCCCTTTGT TAATATGACT GTTGGCCTGC ACATTGTCAAATCCAGTGGC ATTCATCTTA CTCGGCCAAC CTACGGCATT TGACACTGTC TGTCTTTCCT TCTGTTCCTC TATCTGTTTCCAGTATACTG GCCTGGCTTT CTTTTTACCT CTTTTATATG CTCTTCCAGT CTCAGGCTCC TTTGGGGATT TGAAGGTATGTTGCATTTTG CTATTCAATG AATAATGACA AGTAATGATC ACTTAAGACA TTAAGTGGTC AGTTCCTTTA CTAGGATAAAAATAATTTTC TTCCCAACAT GGGGCATATT CCATTTCCAG TCTGACTGTT CTGTGTAATC TTTGTATTCC TTGGCAGCCCCTTTTATATC AGTTCATCTA CTGTGCAGGA AATTGGACAA ACATTTGCAC TGGTATAACC AAATACAGTT GAACTTTTGGCTTGACTCTT AGCTGAACTC ACCAAAAATA ATTTCTGTAA GAGACTGAGA CGTCTACGAG TAGGTTTTTC AGAATTAGTAAACATAAATC AAGGATACAC AGGTAGATTT GAATTTCAGA TAAACAACAA ATACTTTTTT AGTATGTCTA CTGAAATATTTGTATCTTAT CTGGCAATTC TACCTGGTAC AGAACTAATC CATTCTCTTG AAAGATCTTG ACTCTGTAAT AAGTTCTTTGGTGATGGAAG GGAGGTATTT CTGTAATTAG AGTCACTGTC TTCCTCCCAG TTTTTTATCC TGGCCCAGAT CTGCAATGAACACACGACAG AATCCAGGGG GGATGAAGAT GGGTGCTTTG CAGGAAAAAA AAATTAAAAA CATCTGAAAAAGCTTTTGTA CTAAAAGAAT GTGATCTAAA AAAGAAAGCA GGAGAACTTT CTGTCTGCAC TTTACATCAGAACAACCTTG GCGTCTAGAA GCTGTGCCCT GTGGGAAGTG GTGGTGCTTG GTAAGAGATG CCAGGACCAGTGGTACCCAC TGGGAGCACT GCCAATACCC AGCAAGGAGC ATGGGTGCAC AGTAAGGCAT TGCACTGTGATTCAGCATAA AATAACAATA AGGGAACGTC ACGGAGAAAA GGCCAGACTT CCTTTGTTTA GAATGTGGGAAATGTCTTCT GAAAAATGGT AGTAAAAAAG CATGCTTGGA TGGTCCACTC CAGGCAAAAC TGACTAATCGGGGGTCAGGG ATACAACCCC TGCATCATAT GTTTGTTTCT GTTGGGCTGA CATGAGGTTC ACTGTGACCA CTGTGGTTTAACCCCATAGT CTCCTGGAAA TACAGCCAGG TCAAGAGAGC TCCACATAAA ACATAATCAA AAAAATAAACTCAAGTTTCC ACTGATCAGC TTTTCACAAC TCTTATCCTT TCACTAACTT TGGAGCAAGA TTTGAGAATT GGATGGCTATTTGAGGGCTA TTTCTGCGCT TTAGTTCAAT GTTTTGTTCT TTCTTTATTA GAGAACTATG GTTTTTTATT ATATTTACACTTTAAGTTCT AGGGTACATG TGCACAACGT GCAGATTTGT TACACAGGTA TAAATGTGCC ATGTTGGTTT GCTGCACCCATCAACTCGTC ATTTACATTA GGTATTTCTC CTAATGCTAT CCCTCCCCCA GTCCCCCACC CCCCGACAGG CCCTGGTGTGTGATGTTCCC CTTCCTGTGT CCAAGTGTTC TGTTTATGTG ATAGATTACG TTTATTGATT TGTGTATGTT GAACCAGCCTTGCATCACAG TCACTTGCTT ACAAGAAACA AACACTTCAC AGATGGATCA TTATGTGTGA TAAGTGAAATCCAAGGATTT ATGCTCAGAG GTGGGCTTAA CAGGTAGGAA GAGCAGTATT TTCCTTCAAC CATGAGTGTATGCAGGTTTT TCTTTTCTTT TTTGAGATGG AGTCTCACTC TTTTACCCAG GCTGGCGCGC AGTGGTGCGA TCTTGGCTCACTGTAACCTC TGCCACCTGG GTTCAAGCAA TTCTCCTGCC TCAGCCTCCC AAGTGGCTGG GATTACAGGC ACCTGCCACTGTCTCCGGCT AATTTTTGTC TTTTTAGTAG AGATGGGGTT TCACCATCTT GGCCAGCCTT GTCTTGAACT CCTGACCTCATGAATCATCC TTCTCAGCCT CCCAAAGTGC TGGGATTACA GGCATGAGCC ACTGCGCCCA GCCCACAGGTTTTTCAAAGA CTAAACTTAA AAAAAAAAAA AAAATTTCCC AATGAAATAT AAAACTAAAG TGCTAAACTGTGATAGACTG TTTTACAAGA ATGCCAGTTT TCACAAGTGT CTATAGAACA TGTAATTTAG ATAGGTAAGA TGAAATTTTGATAATATTTG ATGGCAAATT TAAACAGGTA TACAACAAAA ATAAAATTCT AAGCCCCTCA ACCAACTGAATGGACTCCTT CTCTCAGCCA AAGGAATACC AAAGTAAACC TGAAAAACTA GTTTTGGCCA GGATTGGGGGTAGGTGGGGG AAGCCCAACA TGACTCATTA TTCTCTCCTC CCTTTGGAAT TCAGGCACAA CTGAATGTCAGCATTGACAC TAAAACACAG ATCTTAAGAC TGACAAGCCA GACTCTTTGT AGCAGAGAGC CAGGCCCTGGAAGAAATCAA GTTATTTTAT CCCAAAAAAT ATTTCTTTGA TATATTTTCA AATGGCCCTG CAAAGCTGTC TCTTGTGGGGAAAATTGACA TGCTGTACAG AATTTCCTTC TCTTTCCAAG TTTTTACTGA TCCAGGAGAG ATTTAACTAA GAGGCTAGCATGTTTTTTTT TTTTTTTTTT TGAGGCGGAG TCTTGCTCTG TTGCCCAGGC TGGAGTGCAG TGGCGTGATC TCAGCTCACTGCAACCTTCG CCTCCCGGGT TCAAGCGATT CTCCTGCCTC AGCTTCCCGA GTAGCTGGGA TTACAGATCC ATGCCACTATGCCCAGCTAA TTTTTGTATT TTTTGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTAGT ATTGAACTCC TGACCTCGTGATCCGCCCAC CTCGGCCTCC CAAAGTGCTG GCATTACAGG CGTGAGCCAC CGTGCCCAGC ACAAGACATTTACCGTCTAT TCTCTCTGAA GCTACTATCT AGAGGCTTCA TCAACATAAT AAGACCCTTG GTCTCCACAA CTCCTTATCTTATCCTATTA GTTTCTACTG ATTCCAGGTC TTTAGATAAT AACAACTCTT TCAACCAATT GCCAATCAGA AAGTCTTTGAATCCACCTAT GACTTAAAAG CCCCACTCCT TCAAGTTATC CCGCCTTTCT GGACTGAACC AATGTACACC TTATATGTGTTGATGGATAT CTGCCTGTAA CTTCCATTCC CCTAAAATGT ATAACATCAA GCTGTAACCC AACCACCTTG GGCACATGTTTTCAGGAACT CATGAGACTG TGTTGCAGAC CTTGGTCACT CATATTTGGC TCACAGTAAA CTTCTTTAAA TATTGTATAGAGTTTGGCTT TTTTCATTGA CACAGGAAAA ATAAAGAATT GGAAGGTCTT TCATCAGTCA CTGAGCCAGC TTCATATCTGACTGAGGTCA TACAGTTCAG TGATTTGTAG CTTTGCTACT TAGATTGCTA TCCATTATCT AGAAGCATCA GGATCACGTGGGACCTATTG GAAATGCAGA CTTTCCTCCT AGAACCCAGG ACCTTGGAAT ATTCTTGGCA CATAGTAGGTGCTCAATACA TATTGAACTC CTAGGTGCAA TTCATTAATT CATGAATTAA TGAATTAACA CGCTCTCAAA GTTTAGTGCTTTTTCACAGA CTAGTCTTTC TGCCTCTTAA GCACTCAGCT CACCACGCTT CCAGTCTCAC TCCCCTATTA GTCTGATTAAAATCTGCTTA CATGTGAGTC TGAGATCAAG TGTTATCTCT TCTGAGAAGT CTTCCCTCAC TGGCCCAAAG GAATTTCTCCTCTATTTTAG CACTGTCCCA GTTGACTTGT CATTATTCTA GTCTTTTTCA TATTAGTTGT TTTTCATATA TATGTTATTAAGGAAACTAG TCATTTCCCC TAATAGAACA AAATTGCTGG CCTTTGGGGT TGGCAATGGA GGGGAGGCTCTTCTTGAAAA GGGGGAAGAG TGTTCTCCTA ATATTTTTCT TACGAGATTT ATGTTGCTCA TCTTTAGCCT TTAGTCCCCCATTGCCTGCC TACAGTTGGC AGAGACCATC TGTTCTCTCA CTGTCAGGAA CTGTCTCAAT TCTTGAAGTT CAGAGTCAAAAAAGAAGCAA GTTTTCCTAG CTCTTTGATC AACTTTCAAA GTTTTACTTC CATTTGAAAA TTTACTAAGT CACCAGGAGATGGTTTATAC TGAGAAATAT CCACTCATAC TCTTCCTCTT CAACTTTCTT CCATATACAC CCTATTACAG GGATATAGTCTTACTCTATA GCTCAAAAGG ATGACCCTAT CAGAAACCTG CACAGTATGT AAAACATTCT CACCAGAGGT TCACTTGTGTATTTCCACCC TAGAATGGAA GCTCTACAAA AGCACAGAAT GTATCATTTT AACTTTAGAT TCTATTTTCA CACCCAGTGCTTGACACATG ATTTGAAGTT AATATTTATT TATCAAGTGA TTGTTTTAAA ATCATGACTC ACTCAACAAA GTTATAAGAATAAGAATAGT GTTACAGAAT TGGTATACAC AAGCTGACCA TAATCAACAC ACCTATTATC ATTTTTTTGC GACAGGTTCTCGCTGTCTCA CCCTGGCTGG AGTGGAGTGG CATGACCACG GTTCACTGCA GGTTTGAACT TCCAGGCTCAAGCAATCCTC CCACCTCAGC CTCCCACATA GCTGAGCCCA CAGGTGTGTG CCACCATGTC CAGCTAACTT TTTAATTCTTTGTAGAGACA GGGTCACCCT ATGTTGCCCA AGCTGGTCTT GAACTCCTTG GCTAGAGAGA TCCTCCCTCCAAGGTCCCCC AAAATGCTGG GATCTCAGGC AAGAGCCACC ATGCCTGGCC ATAATCAATA CACTTTTAAGAATGCTAGAA TGTTATATCA GATGCATACT TCAGCACTAT CTCAAGCAAA CTGGGGTGTG GGTTATTCTA CATATAAAGTTCAGCAGTGT TGTTCCACAG TCCCAAACTC CAACTGAGGT CAAATGTAGG GTGCAGCAAG GTCACTGGGGCTGTCATCAA GGGCCTCTCC TTGCACTCTT GCCAACCCTG TTTCTTGATT GTCTCTACCA CCATGAGTCA CCAGCAATCTCCCACAGTCA CTTGTTTAAA AGTTCACAAG TATTGTGTGA ATTGCAGGCA ACCCCTTGAC TCCCTGATTG CCTGGTCTTCTTCCTTGGGC TCTACCATTT TTTTTCCCCA GCACTCTTTC TGCTGCTCTA AATTTTAATT CATGCAATTC CATATGTGTTTCTCTATCAT TCTTCATCTC TTTCCTCTCC CTTCCATCCA ATTTTGTTTG TCTGTTTGCT TGCTTGCTTG CTTTAATACATTTCTCTTTT TCTGAGAAGG CTTGAGTCCA AAACTCTCAG TTACCTGTTG TTCTGTTTCC CGTTAGTTAA TCTCCGAACCTTCATAAATT AAATCTGACA AAGTCCCCTG ACTAACAAAG GAAATGCACA AGTCACAGTA AAAGGGGCACACACAGAACA CAAATAGACC CAGGGTCTTT TCTGTTCATC ACTCAGCTTT TTATAGGAGA TCCAGGAGAAATGAAGTGGA AAGGGAAGTG TGTTGAGTTA CTATACAACA CAAGAGTAAA CTTTCTTATA AGTGGTAATT TTTTTTTACAGGAATAATTG AAAATGGAAA TTACCTTCTC TACTCATAGT AAGTACTCAG TGCGTTCTTG ATGGGATGAG AATGTGTTTGAGCTTTAGTG TAAGGCAGAA TTCTGTTTAG TCTGCCAGTA TTGGAGAAAA ATAAAACACA AAGGGACTGACATGTAGGAA GTGGCACCTG GGAGGGTCTC AATTCTTCCT ATTACAAAAA TGCCCCAGAG AAATAAAAAGCTTGTGTACA TGTTGAGATG GGAGAGTTCT CTGGCCCCCC TCGCAGGATG TGTGACAGTG GGGTGGCTCT CTGCTGCGCCACCATGAGCT CAAACCCCTC ATAGGAGGGG GAGCACACAG GCAGGAAGGT GCAGGAGCTG GGCGAGCTCTTTGGGCTCTG GCCCCGTGGT ACTGTCTAGA GGTGGGTGCC TGCAACTCCT GAAAGCCCAA GTGGGCATGTGTTACAGTGC ACTCTTTCAG CTTTGCTGTC TGCAGCTTAA GCGTTAACCA GCTCAGTTTC TTCTTGGTAC CCAGGTCCTTGTCTGGCATC CAGGAAGAAT CAGGTTACAC ATGGACTTGA AGGATGAATG TGGGAGTTTT ATGGAGTGGTGGAGGTGGCT CTCAGTGGGA TGGATGGGGA GCTGGAAGGG GGATGGAGTG GGAAGATGAT ATTCTCCTGGAGTTTGGCTG TCCAGCAGCC GATCTCCTCT CCAGTCGTCC CCAGCCTCTC GACGTTCAGA TGCTCCTCTT CTCTCCTTCTCTGCCATGCT GTTCTGCCGT TCATCTGCCT GTCTCTCTCT GGAGCCTGGA ATTTGGGGTT TATATGGTAC ACAATAAGGGGCATGGCAGG CCAAAAGGGA ACTTTTTAGG TGCAAAAAAC AGGAATGCCT CTTCTCACTT AGGGCTATAGATTTTCAGGC TTGAAGGTGG GGCCTTTACC AGCGAACCTG TATTTCCCTG TCTCCTGTGC ATATCAATGT AATCAAATACTGGGCTGATC CAGGATGTTT CTTTAGACCA ATTATGGGTA AAATAATTTA CATTCAGGTT TTTATATTTG CTTTTGTCATTTCTTTTTAA GCAATCATGT AAAATATCTA TACGACAGTA ATAGATGATA GCGAACCTAA TTAAAATTAC CAGAAACTTAAGAATCTCTA ATGATTTCAA CTGTAACTAA GGTTATTTCT CTTTATGTTG AACAATGTTG GGAGATAAGA CACAAGAGTTTCTGAAGTAT TTCAGAAACA CAAAGAGGGA GGTTATATAA ATAATATTTT TTTCCTACTT TGGGAAAATGAAAGCTAGTC ACAAAGTTAA ACGAGTGGTT ATTTTAATAT TTAAAATACA GGCTTGGATG TATTTCCTGT TAAAGAAAATAAAATGCAGA ATATTCAAAA CGTCTGACCA CCCTTCTAAG AAAATGCATC TCTGAGGTAT TTTTCCTTAG AAGTTATTGTAAAAATCCTG GAGAAGCTTG AACACAGCAA AGCAAACAGG ATGCAGAGTT TAATCTGTGG AAAGCTTAGGGAAGAAAAGC AAATCATTAA AAATAGGTCT TCCTCTGAAG ATTTTTAAAA CGCAAAGAGG GTGGAATAGCAATGATAATA AAAAAGCTGG CATAGAGAGT GGCACAATTT GCTGTGCCAC TGAGCTGACT GGATGTGTTCTGAATTTCTA GGCATTAGTG TACCTTTCCA CACGCATTCT CCCTTTAAAA AAAATGCCCA CACACTGAAT ACTTTTTTCATGCAATTTAA AATAAGCGCA CCATCTAGTT TACAGAAATT CACTAGAAGT TATTTATCCT AAAATAGCAGAGATCTAGAA GAATTTTGAG CTCTAGGACA TTTTAGACAC ACAGAAAGAA GAATCTGGAC AAGTCTTGACCAGACATGAC AGAATAGAAA TTTCTTTTCC TATTTATCTC TTTGAATAAA ATTTTCAGGA TCTTACAGTG GACAAGTTTGTTATCTACAC ATTGTGAAGC ACATTGATTT CTCCTCTGTA GCCTTAGGAA GATCTGAGAG GTGACTGAGC TGATTGAATGATCCGTGACC GCTCTACTGG GACCAGTAGT AGAACTTTAC TGGTGGAGAC CTGCTGGAGG TTTGAGAGCAGACTTTGAAA ATTACTAGAG CTACACAGAT ACTGTGTGGC TAACTGGATT ATGTTTAGAG GCTTTCAGAA CTATGCTGCTGCTGCTGCAG TGTAGCCAGG ACGCACAGAG AACATCTAAG GCTCTTGAAT GGGGCGATAG GGACAGATTTCAGCAGCCAT CTGACTTCAG TGCTCATTTT GATGCTTTCC CTGCAGGGTG CAGTGTGCAG TGTGCAGTGT GCAGTGGTGGGAGGCTCACA CAGGAATACT TGCTTCTGTA GCCCTAATTT CCGGTTCAAA CTCTGCATTC ACCTTGACAG ATTCTTTCCTTGGCCAAAAT TTAGTTAGGC TTCTGGGCTT TCTCTTATGC CCACCTGCAG ACTTTTTGGT AAAATCCAGT TTTAGTAAAGAGCTCTGCTA AGTCAGTTTA GCAAGAATCC CCACCTCAAA AGTCACTATC TCCCTCCCTG GTAGTGTCTG GCTTGTCTTCAGCGAGAATT CTATTAGGTT CTGTTAGATT AGAATCCTCC TTACCCTTGA TGCTTCCTCT TAGTATTTTT TCATCCACTGACTCCTTGAC CCACCTTGCT CCTCGGCTAT AAATTCCCAC TTGCCCATAC TCTGCAGTTA AGACTATTTT CTCCCCACTACTGCAAAATC CCATTGCCAT GGTCCCTATA CTATCTCAAT GGTAATGAAT AAAGTCTGCC TTACCATGCT TTAACAAGTAACATTGAACC ATTTTTTTCT TTAACAATCT GCTGCACAAT GAGATTACTA AAACTTTATT CCATTTTGCC ATGCTGGATGTCCTCAATGG AATGGCTCTT GTGAGCACCA AATCATTGTG AGAAGGAAAA CCCATCTCTT ACAGCCCCCTGTAACGTGAT GTATGTTACA TGTGATGTAT GTTACATAGT TTTTTTTCAT GTTGATCACT TTTTGCCCAT TTTCCTATATCTTATCAGTT GGAAGACTGT GGAAGTTTGT AGTACTAAGC CACAAGATGA CTAAGAAGAG TTGAAAGGGCAAGTGGGGCT AAAAACAGAT TTTGTTTGAC TTACCCCACC ATTCCCCCTA TCATGGGGCT GAATCTGCCTGGAGGAAGGA GCATCTTTAT CTTTGTACTG TGAACCACAC AGTCTAGCAG CAGCACAGCC AAGGCACTTGGGGTTTCATG AGACTAAGTA CATGCAATTC TATTGTAAAG GCTTAAAATA TATACAACTG ACCCTTGAACAACATGAATT TGAATTGCAT GGTCAGTTAT ACGCAGATTT TCTTCCACCT CTGCCACCCC TGAGACAGTA AGATCAATCAATCCTCTTCC TCCTACTCCT CAGTCTACTC AAAGATACTT GAAGTCTACT TGAAGATGAC AAGCACAAAG ACATTTATGATGATCCACTT CCACTTAGTG AATAGTAAAT ATGTTTTCTC TTCCTCCTAA TTTTTTAACA CTTTCTTCTC TCTAGCTTAATTTATTGTTA AGAATACAATCTATAATACA TATGACATAC AAAATATGTC TTAGTTGACT GTTTATGTTA TCTGTAAGGCTTCAGGTCAA GAGTATGCTA TTAGTGGTTA AGTTTTCGAG GAGTCAAAAG GTGTATGTGG ACTTTCAACTGCAGGGGGGT GGGCACCCCT GCCCCCATGT TGTTCAAGGG TCAACTTTAC TGCCAAAGGC AAGCCTTTAC ATCCACTTTTTCCATCCCAT CAGTAAATGG AAAAAGATAG CTACAGTATC CCTGCGTCAA ATCTTTTTTT TTGCAGATCA CAAATTGGCCACTCACCTTG CTCTGTGAGG GGTAAAATGC CCCACTTTCT TTAGTAATAT TTAAGTTAGA TAATATTTAA GTTATAAAGTTGTTCTTTGT AATCGTTAAT TGTAATTTTT ACATAGTTTC TTTCAAACAG AAATAGCATT TTTGTTAGAT AACCTCCCGTATAGATGATG AAACTCCTTT TAAGGGCTAT CTGAATTTTA ATTCCTTGAA AAGGCAGAAA TTGGATAGCT AGTAGTCATAAATGTACTGT GGCTTCCCCC AACCATCTGG GCTATATAGA AGCTGCATCC TTGGACTGCA GTAGAGGAGTCTTACAAAGC ACAGAGCAAC TTCTCTCCTG GGTTGCGCTA GTTATGATGG CAATTTTAAA TGTGTACTTT TACCCAAAGAAAATCCTTAT TATCAACAAT CACAATGCCA TCATAACCAT GGTATAAAAA ATTCAAAATG TCCCAGCTGAAGTGGAGGCA AAGACTCAAG TTCATGGAGT CAGAGTTTCC TTGCTATTCC TCTTTTTCAA ATGACCATTT AGTAAGCACCTGAAGAAAAT ACTATGGACG GCATTGAAAA GTGAAGATAG GTTTAATCTT CTCGAAAATC TAATTCTCCAGATGAAACGC TGACACTTAT CCACCCCACA GACCCTATAG CAGATGTGTC ACTGGCCATC ACATTTGACACAGAGAAGTC ATAACTCAGT CAGCACAGAG ACATTTCCAT GAGTTTCTGA ACCATGGACA GAACGTCGTCTGTGGGACAT GAAAACTGGA ACTTAGAGGA CAGGCACATC TGAGAAATGG GCAGTTTAAA GGCAGAACATAGCACATATG TGACTGGGTT TTAGAAGCAA ATTTACAAGA CGCACTCTTC TTCATCCTAA ATAATCTGCA ACCAAAGCTTCCAAAAAAGA CAATTTAGGA ATGCAGAGGT GAGGAGTAGG GAGGGGAATG GGATGAGAGA GAGTGGAGATTAATGGTGGG CAGAGCGAGG TTTAGAACTT AGTGGTTTCT TCAGGTTCTG AACTGAAATT TGTATACTGTAAAGGCACAA ACACCATTTT TAACAAAAGT GAGCAGGACT TCCTATCTGG TTCAGAAAAT AGGTGAATAAATAGTACGAA TTATTAAAAA TAATAATTTC CACTTATACA TAGGAAACTT GATAGGAACC ATGATAAATG CTTAACTCTTAATCTTCAAG GAACTCTGCT AGGGATATAA TATTATAAAT CTTGTTTTGC AGATGGAGAA ATTGAATTTT AACCCAAGTTATCATAACCC TTAAATGATT AAATGATACT GTTACATGAG AAAGCTGCGT ATCTGTTTCC TGGATTTGTA GCCATAATTTGTGTCTCAAG TCCCTTTTGC TGCCAGCTAT CTTGGGTAGG TGTGTTCCCT TTGGGCTGTT TGATACCCCC ACATTTATCTTTTTTTTTTC TCTTTTTTTG TTGAGAGAGT CTTTCCCTGTTGCCTAGGCT GGAGGGCAAT GGCGCGATCT CGGCTCACTGCAACCTCCGC CTCCTGGGTT CAAGTGCTTC TCACGATTCT CTTGTCCCAG CCTCTCTAAT AGCTCGGATT ACTGGCATGCACCACCACGC CCACCTAATT TTGTATTTTT AGTAGACAAG GGGTTTCTCC ATGTTGGTCA GGGTGGTCTC AAACTCCTGACCTCAGGTGA TCTGCCTGCC TTGGCCTCCC AAAGTGCTGG GATTACAGGT GTGAGCCACC ATGCCTGGCC CCAAATTTATCTTTAATGCC CCAAATTATC TAGTTCCCAT GACTGGGCTT CTGCTTTGAT CCTTTCTGCA CTTGCTGGAC CCTCTCCCTGGGAAATGAGA TTGTGTCCTG AGCCCCTAGT TAGAGGCTAT GTCTCTGCTG TTCCTGAATG GGCCTCCTGG ATGAGACCTCATTAAAAGTC TAATTCTCTT GGAGAATTGA GAGATACCTA TTTGTCTCAA AATCATTGAA ACCAATTAAT GTATTATGAGCCTCTATCCA GTGATTTGTA CCTCAATTCC CCAATCCAGC TGTCAAGGCC AATTTGTTCT ACCTTACCTA GTAGGTAAGTCTGGAATTGT AGCTGTGGCA TTTTCAGTAA TGGTACTCTA GGTTAGCAGT CCCCAACCTT TTTGGCACCA GGGACCAGTTTTGTGGAAGA CAATTTTTCC ATGAAGGGCT GGGCAGGGGA GTGGTTTCAG GATGAAACTG TTCCACCTCAGATCATCAGG CATTAGATTC TCACAAGGAG TGCGCAAGCT AGATCCCTCA CACATGCAGT TCACAATAGGGTGTGCACTC CCATGAGAAT CTAACACCGC TGCTGATCTG ACAGGAGACA GAGCTCAGGC AGTAATACTCATTTGCCTAC CGCTCACCTC CTGCCGTGCA GCTCAGTTCC TAACAGGCCA CGGACCAGTA CTGGTCCACGGCGCAGGCAT CAGGGACCCC TGTTGCTAGG TATAAGCATC TGGCTGCTGC ATGTCTTCTG TGTAGCTACA TCTGTATGTGTATCTGATGA GATATAAATT ATTTGATTAT AAATTACTTT CTTCATATTA GAGTTGTGAA TGAGTATCAC ATATAATTATACATAAACTA GGAATATGCT TTTTAATAAT GTATATAAGT AAGTTTCCTT AACTATGACT TTCATCTTAG CGTAGTAAGAGGGTGCTAAG AAATATTTGT GATGAAAATA GGCATTGGTA GAGTTGAGAC CACTGGGTGA TGAAAGAGTGTAAAGATTTT AAAGCCTTCA GATGCTGGTT CAAGGTGAGA AATGTGATTG GGAGCAAATC AATTAACTTC TTGAAGTCTTATAGGGCAGT TATGAATACT TAATGTTAAC ATATGTAAAG CTCTTCTGCC CTGTATACAG TAAATGCTAG TTAGCTATTATGATCACTAC TAAAATGGGG ATGACATAAA CCTCATAAGG TTTTAAGTAT TATGCAAGAT ACTATACAAAGTCCAGTAAA TATCACATTC AATTGAATCC ATGATGTCCG ATTATTTTAG CTACTTCCAA GAGAGAAAAA AATGCTGTCAGTTTTACTGT TCTTATAGAG AGCAAGGCAG ATCCCAATTC CCAATGTGGT AACGTGAAAA TTTTTGCATT TGAATCAACAAAACACTTTC TCCTTTCTTT CCTACTATTT AACAACTGGT AAGTCTATAC TCCCCCAAAT CTGGAATTCT CCTTTCTTATTCTTTTTCCT CCTACCAAGA CCGCAGGATC TTTTACTTGG CTATAAGGGG TAAACCTCAA GTAGTACAAG TTCTCTGTATTACTTTTATA CTCTGTCACA GATTCCCTTT GTTTCCTCAT CTCCATGTGA ATTTAGTTAA ATTCTCAGCA TTCTGATCCTTACTATACAA GGTAAATGAA TATAAAAACA AAACGAAACA AAAACCTCTT CCTATTTACA TAAGGCCCCAACCTAATATT TAGTGATATA TATTAATGTG AACAAGGAAC TAACGAAGAC TGGGAAGAAA TTCACAGACTTGAGAGAAGA AATGGCAGGA TTTCCTGGGA ACAATTTCAT GTAACGTCAA AGGTGGTAAA AGGTCAAATAGAATGAAGAT GGAGAATACC GGATTTTCTT ACAAAATGAT TTCCCAGGAG ATCTCATCAA ATGCACGAGGATACCTTCTC AGTTTCACCT AGTGAGTAAA AGACTGGTAA CATAGCTCAC TTACAATTTG GATAAACAAAACTAAACAAA CAACATCAAA ATTTCAGAAA AAATAATAGC AAAACAGAAA TCAAACACTC AAATTTTTGGTCCTTCTGTT TATTTCATTT TGGATACTCA GTGAATGTTA ATTAACCAGG AAACTTAAAA GTTATTTCAA TTATGAACCTCTTCAATCCT TCATCAATTA TTTTGAGTAT TCTGGTCTTA AAAACATCTC TTTCTTCTAC AAACTTCTGA AAGAGATGAACACCTCCACC TACACCAAAA TAATGTGCTT TGCTGGCCAA AAGTACACGT CCATTTTTAC TTAACAGTCT AAGGAAAGTCTGGTGCAAAT TACTATAATA ATCTGGGTTG TAAATGGTTT CTGAGGTGAG AATGAGATCA TATTTTACAA AAAGTTTTTCACTACTTAGT ACAAGCTTAC AAAACTCAGA CCACTCACCA GAAAAAAATC GGCATTTATA TAGTTGTGTT ACTTTTGGTTTCCTGCATCT TTTCACATCT GGCTCATTTA CATCATTTTC TTCATCTTCC AAAGTGGAGT TAGCTACTAC ATTAGGTAAGGTTACTTCAT CAATCACCAT ACTGTTATAA TCTTGAAAGT GAATTTCTTT GGACCCTCCC TTGAATGCAG TTATACCTAGTAAACCTGAT CCACAACCAA GATCCAAGAC TTTTTTCCCA GCAAATTTCA CTTTGGCCTT TGTGAAATAA GCCAGGAGGTCAAAGGTACA TTCCCAGATT TTTAAGCCTC CCTCATAAAC ACCTGTAATC AGATCAGAGT GAGAAGAAAAGCTTTTTGAA ACTATGTTTT CTCCAGGGAA GTTCTCTTTC AACAAGATGG TTTTCACTAC TGATAACTTA ACATGCTGGAAACCTGGTAA TGTTTCTATG ACTTTATTTT CTAACATCTT CTTTAAATCT TTAGGCATAG CATGCTCTTT GGCAGCTCTCAAGGAGGGCT GTTTTCCATG TGGCTCCAAG TTCCTTGAAC TGCTGGCTGC ACTGAGTGGA CTGTCTGTGT CTTGAGAGGGAGCTGCATTT TCCATTGACT TATGTTCCCA CAAGTGATCC TGAGGCAAGT CAAATTGTTC TGCAGAACAT TTTCTGTCCCTCTCTTCTCC TTTTTGACTT TCTGAGACTG ACAGCTCTTT TGAGGAATCC AGGGTCAAAG CTCCATCTCT AATGGGTGTTAATTCATTTT CCAGATGGTC TTCTATAGTG AAATTAAACT GAAAGGTCAT CCTCTTATTA AATGCACACA ATCTTTAAATTCAGATTCTT CAACTTCTGG ATAGAATTTG ATGATACACA CAAATCTGCC TCAATTATTC AATTAGTTTT GTTGGGCCCAATTTCTCTTT AGCAGCTTAT ACATGGTAAC AAATATTTAG AGATATTTCC AAATGACTTT TTAGACGTCT TTGGTCCTCTTTCCAAGCAG CTCTGGAAAG AAAAAAAAAA AAAAAAGAAA GAAAATGATG ATTAAAGCAA AATGGCACATTTCACTAAAG TGTAATATTA AACAGCCACC CCCACCCCTC CCTGTCCCAC CATACAGCTG CTTTTTCTTA AAAAGTTGTGGGGAAGAGAG AGAGATAAGA GATTTGGACA CTCATACACA CCTTAAGGGT TCCAAAGTGG GAGAAGAAAATCAACTATAA AAACAAACAG AAGAACAACA GCAACCACCA CCACTACCAC CTGGACAAAC ATAAAGTCCAAGATATTCAG ACAGGACAGC CTAGCTACTT GCTGTCTTTC AGCTGTCTTG ATTTGTGTCC AACCATATTC ACCCCCTAAGCTTCCAGAAT AACTTCACTT CTGTCTTTTA CAGAAGAGGT GCAGTATTTT ATTTTGGTAA GTCAGCGTCC CTTTAAAAACATGCATAGGT ATGGCCTGGT GTGTGTAAAT TCATCCAAGA CTTCACTCCA AACATTTAGT CGAGAACAGCAGCCCTAAGT GTATAGAAGT GGGGGTAATT TGGCAATAAT TAGTAAAGAC TAATTCGGTG GCAGAGCAAACGCAAACTAG GGCACTGCAG TAGTTTGGAG AGACCTGTAG AAATAAGAAG CAACTTTATT GAGAATCTTCTATCTACTGC GCTAGACACT ATACCATCTG CCTCAATTTT CACAGTTCTG GCAAGTGGGA TCTTTGTTCC CTTTATACAAGATTTACAAT TTGGGGGAGA GGCGGGTCAC CCAGTCCCGC GGCTAGGAAC GCGCCTCTTT CCTCTCCCATCACGCTGCAA GGCTTGGAGT CACTTCCGGC TGCAGGTCCC GGAACAAATC CGACCCCAGA AGTGGGGACTTCTGGCCCTC ACCTCCCCAT TTGAATGTAA TGTTTACAGT GATCCAGACC TGGGGATGCT TGCTTCCCGA CGTGTCCTGGGATCGCGCTT CTGAAAAAGC TCACCTCACA ACGCCTCCTC CGGACCTAAA TCGCGCACCA GTGAGTCGAGTCCTCCAGGG GCTAGAGAAG CCCGACTTTC TTTCCGGCCT TGAGGGACCC GGGCTCACCA AGAAACCAGCCGCCCTCCTC TCTATGGTTT TGGAGCCGGC GGAGAGCGCG CAAGGGTTGG CGGGACTGCG AGTTTCCGGTCTGGGCTTTG GCGGGTCTGG TTTGAAGCTC TCCTGTTTGA CGAAAGTATG TCTCAGGAAG GTGCGGTCCCAGCTAGCGCG GTTCCCCTGG AAGAATTAAG TAGCTGGCCA GAGGAGCTAT GCCGCCGGGA ACTGCCGTCCGTCCTGCCCC GACTCCTCAT ATCCTTCCTT GGTTGTCACT TCTACCTAGA GAAGGGTGTG GGCGGGTCGC GAACCTTTCTCTTCTGTCCC TTCAGACCCA CCGCCAGGCT GGGTTATATT ACCGCGGCCT GAACCCCCTC TTTTCTTTGT CAGTGAGTGGGATGAAAAGT GAGGGACTGG AGGGGAAGCG ACAACCGTGG TAGATTTAAG TAAGGCTTTG GCCCTGGAAAGCCTCGCGGA CGTGTTCTGA CCCAAGGTTT TAGCAGTGGA TGTGGCGTTT TCTTCCATTC CTTCTTTCAG TTTTTCTGTACTCGTTGCTT GCAATTAAGT GTAAATACTT TTGCTAGTGG ATAATGGGGG AGGCAAGGAC TGAGACCTGCGGTATGACGA TAGCTCTGGC TCTTAATAGT TTGAGGTAAA GCGAGATACT CTGAGCTTTT GTCTCCCGTAAAAAGGGTGG TGAATATGAA TAAGGGCTTT CTTAGCGTTA TAAGAATTAA AGGGCATAGT TCTGTGGTGTGAAATCTTTA AAAGATGTTC AGTAAATAAA AATGATTTTC CTCCTTCCCC TCTCAGACCT CTTTTTCTTC TTTCTTTCTTTTTTTTTGAC AAGTTCTCAC TCCTCTCACC CAGGCTGGAG TCTTTCTGAA AGAGTTCTTC CGCTTGTTGT TGGCTTTCAACTGTTGGATT TGAGGCGCTT AGCGCCTTCT TCGTCCGGGT GCAGCACATT CTTGATTGGT CTCATGCCTT TGTGGTTGTAAATGTGCCTG GAATCCTAGC CTTTCATGGT AAACCATATG TATATGTATC TTTTTCACAA CATTTGAGCC CAGCTTTATACAATTACACT CAAAAGAAAA AAAGTAACCT TCACTTGAGA GAATCTCAAT ACTGCACAAA TATTGTGCAGCTAAAGCCCT ATGTAATCAC ATAGAAGTCA TTCACCTAGG CATTAGCAAA ATCTCAGAAG GTGCCAAAGCCCCCTTTTTT AGTTTTTGTG TAGGTACAGA ACTGCCGTCT TCAAGGAGTT TCAACTTGAA AACAAATAGC CACCCTCAAAACATTCAAAA ACACTTAAAC TGCGTGCATA ATGTGTGTGA GACATGGTGT TAGGCTTTGG GAGAACAGAGACACGGAACG TGATTCCTCT TCTTCCCCAC AAGCTTATAG AGAGACTTCA TTAAGTTGAA AGTCAACATT CCCACCTAGCTTTGCACTTC AAACGACATA TTCAAAAAAG CCCAAACTTC CTCTAGTTTT CTTCATCTGA GTAAATGGTT TCACAAACTGAAACCTTGAA TCCTCTCTGT CTCACACACC CGATCAGTAA GTTCTATTGT TTCTGATTCC AAACTATGTC TTGAATCAATCCGTTTATCT CCATCCTCAT TGCTACCACT CTGATTCCAA ACCCTTATCA CCTCTCACTT GGAGTATTAA TAGTTTCCTTGTTTCTACTC ATAATTCATT ATTCCAAAAA AGTTAAGAGG GGAAAAACAT AGATCTCGTC ATTTCCCTTT TTAAACCACTTTACCTTCAA GGTTCCAGGT GATCTAAGCC TTGCCCTTCT CTCATACCTA GTTAATTAAC TACACTCTGT TCATGAATACATTAGGCTCA CCTACCTCAA GATCTTTTTG CTCAGCCTGA TTTGTTCTCT CAGCCTTTTG CATATTTCAT GTTTATGTCTTGGCCCAAAT GTCACTTCCT TAGAGGGGCT TTTTCAGAGC CTTCAATCTT AGGCAGTTCC CCCAAACGCA GTCTTACACTTGTATCACAT TGGCCTGTTC AGTTTTCTAA AAAGCACATT ACCATTAAAA GAAATGCTCT TGTTTGCTTT GTATATTTTCCACTTCTACA CATTATGTTG CAAAGTTCAT AAAGGCAGGA TGTTGATTTT CTTCACAGCG TTACCCTCAG CACCTAGAACAGTGCCTGAC ACATAGTAAG CATTCATTAA AGGGCTAAAA ATATTTCATG TTTTAAAAAT ACTTGGGAGTCTAATTAGAC AATACTTTTT TTCAGCTTAA TGGTAGTATT TTAGCTTCAC TATTTTAACA AATGAAAAAT TTGCAATAAATCTACAATGC CATTACCCCC CAAAATCTTT TTCATGTTTT GCATTTTACG TATTATTTTC CAGGCCTTAC CTGCATGTCTGCATAATCAT AACTGACTAA TTTTGGAACA GCTGGTAATT ATTTGAGCTT TACTGAAATT TTTTCATGAG GCCAATTCTACCCTACTGAA CTCAAATTTG AGTTAATGAT GACCTCATTT TGATTGCTGC TGTAAAAAAT AAGATTTCGG AAGAGGAATGAATTCTTGTA TTACTGTGGT AGGACTATGG GTTTTTTTTT GTTTGTTTGT TTGTTTTGAG ACGGAGTCTC ACCCTGTCACCCAGGCTGGA GTGCAGTGGT GCGATCTCAG CTCACAGCAG CCAGGTTCAA GTGATTCTCC TTCCTCAGCCTCCCGAGTAG CTGAGATTAC AGGCACGTGC CACCATGCCC GGCTAATTTT TTGTATCTTT AGTAGAGATG GTTTCACCATGTTGGCCAGG CTGGTCTCGA ACTCCTGACC TCGTGATCCG CCTGCCTCAG CCTCCCAAAG TGCTGGGACTACAGGCGTGA GCCACCGTGC CCGGCCGGGT TATTCATTTT TCTTATTAAC ATTCTTTGAT GATTCTTATG GTGTTGTTACAGTAAAACAT TTCTAACAAT TATTCTAACA ATTATTCTTG ATGGTGTATA TGAAGAATTT ATTGTCGTGT ATTTGTAAGCTGCTATGTGC AGAAGAATTT CAGTCAAATA AAGTTGGTAA GATAGGTATG TAAGTAATAT GAAAAAAGATAGAAGGTGAT GAGTGACTTA GGTATAAATT AAGTACAATA GAAATGTTGA GGAAAGAAAA ATTTCTTGTAATAGAAATCG GAAGTACAAA CTGGGCATGG TGGTGTGCAT CTCTAATCCC AGCTCCTTGA GAGGCTGGTATGGGAGGATC ACTTTAGCCC AGGAGCTTGA GGCTGCAGTG AGGTGTGATC ATGTCACCGC ACTCCATCCTGGGTGACAGC AAGACCGTCT CTCTTTTTTT TTTTTTTTGA GACGGAGTCT CGCCTATGCT GGAGTGCAAT GGCGCGATCTTGGCTCACTG CAACCTCTGC CTCCCAGTTT CAAGTGATTC TCCTGCCTCA GCCTCCTGAG CAGCTGGGAT TACAGGTGTGCGCCACCATG CCCAGCTAAT TATTTTGTAT TTTAAGTAGA GACGGGTTCT CACCATACTG GCCAGGCTGG TCTTCAACTCCTGACCTCTT GTTCGCCCAT CTAGGTCTCC CAAAGTGCTG GGATTACAGG TGTGAGCCAC CCCACTTGGCCCCGAGCGAG ACCCTCTCTC TAAAAAAAAA TAAATAAATA AATCATAAAC CTGTGGATTA TTGTAGCATT GTTTCTCATCTGTCAAAAAT ATTTCATGAC TATGCATAGT TTGAAAAGGC AAGTTTGTCC CTGGGCAATT TTCAAAATAT TTCTTTAATGTGTTTTCACA ATACTGTTTA CCTAATAAAT CTTAAGTTTT TAAAAGCAAA ATTAAGCCAG TAATTTGAGT CCAATTCCAATCTCTTATGA GTCATTGCTT AAATTTCAAA AGGGTTTTAT TTTTTTTTTA GGTTTGTTCT GAGTAATGAA TACCCTATTACTATGATACT AGTATCTTCC TTAATTATCC TACTCATTGT CTCAACATTC TGACAGTTGG ATTGAGCATA TTCGTAAGTAAAATTGTTTT AACTGTATGA TGTACTTTGA TGTTAAGGTC CGAGTCCCCA CATACCTCGG TAGATGTGTT CTTACAGTTTTGTATTCCCT TGAAATGTAA CTGTTCTCTA TGTTACAGCC TTTATAACCT TCAGTTACTT GAAATGAACA AATTCATTCAAATTCCAGCA CTTAAAAGTT TTAAATTACA TTTTGGATAA ATACCAAAGT GTTTTGTTGA TGATGTATGT ATAAACAAATTGTAAATATT AAACGTTAGT TGTTACGATT AGACCTATAT AAAACATGAT ATGCAGTCTA CTGAATAGCT ATCAGCCTCTAACATGTTTA GTGTCATTTA GAAAATGCTT TCTAAATTGC CAAAAGCTGA TTGTCTAGGT GATAACAAAT TTACCATTTGGAGGAAGTTG ACTTTCTCAT TTTCATGTCT TCATCAGTCT TACTTGATGA GATTCATTCT TCTAGTCAGA AGAGAGTTTAGACTGCTCAG TTTACTCATA TTTTGAGTTA GCTTTTCTAT TTAGAGTTCA CTTGGTTGTG GAATATTCAT TTATAATTTGAATCTACGTT GTGTAATGGG ACCTAATTTT TTTTTCCTTT GTTTTTGTTG GAGTCTCGTT TTGTCACCCA GGTTGGAGTGCAGTGGCGTG ATCTTTGCTC ACTGCAACCT CCACCTTCCA GGTTCAGGTG ATTCTCCTGC CTCAGTCTCC CAAGTAGCTGGGATTACAGG CATGCTTCAC CACGCCTGGC TAATTTTTGT ATTTTTAGTA GAGATGGGGT TTCACCATGT TGGCCAGGCTGGTCTCAAAA CTCCTGAGCT CAAGTGATCC TCCTGCCTTG GCCTCCATAA GTGCTGGGAT TACAGGCGTGAGCCGCTGAG CCTGGCCCCA GAGTTTGTTT TGTTTTGTTT TCAAGACAAG ATCTCACTCT ATTGCCCAGG CTGGAGAGCAGTAGTGCGAT CATAGCTCAC TGCAGCCTGA ACTCCTGGGT TCAAGCTATT CTCCTGCCTC CATCTTCTAA AGTGCTGTGATTACAGGTCT GAGCCATGAT GCTTGGCCTG TGTTTTTGTT TGTTTGTTTT GGGGGACAGG GTCTTGCTTT GTCACCAAAACTGGAGTGTA GTGGTGCGAA CATAGCTAGC TCACTGCAGC CTCCATCTCC CACGCTCAAG CAATCCTCTC ACCTCAGCCTTCCAAGTAGC TGAGACCGCA GGTGCGTGCT ACCATGCGTG GCTAATTTTC TATTTATATA TTTATTTTTT GGTAGACATGAGGTCTTGTC ATGTTTCCCA GGTGGTCTTT AACTCCTGGG CTCAGACAGT CCTCCCGCCT CAGCCACCCA AAGTGTTGGGATTACAGGCG TGAGCCACCA TGCGTGGCAT AATTTTTTTT AAGTAAATTA TTTTTTTATC TTGAGTATAG AAGTGATTCATGTTCATTGT GGAAAATATG AAACATATAG AAAAACAGAA AAGATTACAA AACATCTAAT CTGAAATGGTTAAGATTTTG ATGAGAACAG TCTCATCTCA TTTCCGTATA TTCCTGCCAG CCTATCCATC ATTCTTCGTA CATGTTTATCTACATTAAAA TTGGTGTTAT ATTTTGGAAA CTTTTTGTTT AACTACATTG TGAACATTTT TCATGTTTTA AAATGTCATTTTAATGATGG CAGATCCTAT TCAATAGATG TACACACACC TATTTAACTG GTCCACAATT GTTGGATATG TAGGTCGTTTCCTTTCTCTC TTTTTTTTTT TTTTTGGCTA CTACTTAATA GTTTCTCTGT ATAGAATGTG GTATTTTGAA AGTGTATCAAGCTTTAGATT GGTAGTATTC TTGCATTTAA TAAAGGGCAG TGGCCTTTGT TGACTGACAT GACAATATTT TTATAAAATTTGTTATTTGC TTTACAGAAA TTTTGAAAAT TATTGTAGAA ATGTTTTTAC CTCATATGAA CCACCTGACA TTGGAACAGACTTTCTTTTC ACAAGTGTTA CCAAAGGTAT AATACTATTA CCTGAAAATA CATGTTATAA GGAATCTAGC CTCAGTCTTAGATGATTTAT TATTAATTAT GGCTCTCTTT TTCTAATATA TCAAATATAT TCAAAATAAA AATAAGGAGT AAGTAGATCTCATGTGAGAC TATAATGGTG TTAGTGTGAT CATTAGGCAG TTAAAAACTG TTACAGGCTG GGCACGGTGGCTCATGCCTG TAATCCCAGC TCTCTGAGAG GCTGAGGTGG GCAGATCATC TGAGGTCAGG AGTTCGAGACCACCCATGGT CAACATGATG AAACCTCGTC TCTACTAAAA GTACAAAAAA TTAGCTGGAC ATGGTGGCAGGTGCCTGTAA TCCCAGCTAC TTGGGAGACT GAGACAGGAG AATTGCTTGA GCCTGGGAGG CGGAGGTTGCATTGAGTCAA GATCGTGCCA TTGCACTCCA GCCTGGGCAA TAAGAGCGAT GCTCCGTCTC AAAAAAAAAAAAAAAAAAAA AAGAACTTAT ATTTTCAGAT TGTGTGGTTC CTTTACTAAC TGAATTTAAA TTATTTGTAG TCAATTTTAAATGCTCTTGT ATTTTAAAGC CACTGTACTC CAGCCTGGGT GACAGAGTGA AACCCTTAAT TCAAAAAAAAAAAAAAAAAA AAGAAAAGCT GGAATATTGG CAAAATCAAG TAACTAAGAG AAAACATTAA ATTCACAGAATACATTATTA CATTTTAGAT ATATATGGTA TATGTTTTCT CTGAAAAGCA CAAGCATACC TTTTTTGTTT TAAATGGAGGGAACTAAAGA TACTTTGGTG CCAAAATGAA ACATTATTTG TAATTAATCT CTTATTGAAA TGGGTTTCTA ACTTTAGCTTTGAATCGTAA TCTTTCAAAT TTCTTGTACT CATAGTCACT TGATGATTCT CTATCTGAAA TATTTCTTAG AATTTGTTCTTGACCACCAG AAAAAGATTC AACTGTTACA TAGATGAAAA TGGATGTTGA GTGTTAACAG GCCTATGGGAAACAGTATTT TCTTTAGCTA CATTGTATTG TTGACTGTGT TGCTATTCTT ATAATGTTTA GGTCATTTAA ATTGTTAGAAAGATCCAAGT ATTAAGATCT AGGGTGGCTA ACTTTTCACA GACAAAAAGC TTGTTTGTAA GGTCATTTAC TATACCCTTAATTCAGGAAG GTTAGCTTGA ATTGGGTCAA AAGGAAACTG GTTAGAAAAT AAGTGAGTAG TGAATAGGCGATTCAGTGCA AATTCCTTCC AGAAAATACC CTTGTAAATG ACTGTATGAA TGTGGATTCT TCAAGACAGT CAAATTTATTGTGCGAAAGT AATACTTTTA TTTTTTGCAT CTCTAAAACA TGAACTTTGA GTGATTTTTT AAAAAAATTG ATGCTATTAAATAGATTCAA ACCATAGAAA TGGAAAATAA ATTTCTGTTT GGGGCTTTTG GGGGGATTAT GTTGTAAAAA TACCTTTTCTCTGTATTTTG TGCTTAATTA GGTACAATTG TTAAGCTAGA TGATAGCCTG TGGATGTTAC TAGTGCAAAA TCAAATTATCGTATTGTGTT TTCTCTGTAA AGTTTTGTCT TGTCTTTTCT AGTGATTTCT CTTATTCCTG TTTATTACTT GATTTGTTTTTACAGACTGT GAAATTATTC GATGACATGA TGTATGAATT AACCAGTCAA GCCAGAGGAC TGTCAAGCCAAAATTTGGAA ATCCAGACCA CTCTAAGGAA TATTTTACAA GTAAGTCAAA TGTATTAGAA AGCAGGAGAGAGAGGGAGCTTAAAGAATGT CAAAATTTTT ATACTGATAC TGATTAGCTA TGTATTCTTA TGTAATGGCC TAATGTTGGAATTAAATTTA TAGAATTAAA GACGTGAATA TAGAAACATG AATTCTGAAT AATAAACTCT TATAAGAAGAGAAGTCATCA AGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG AACACCTGCC ATGTGTTTTG AAGTTTGTGTTAGTATTCTA AATGGCTAGA CAGTTGTTCC AGTATTTGTA GTTCTGATAG ACTAAAGTTC TGTGAAAAGAGGAAGAGACT GTGTTTTGTT CATTGCTGTA TTTGTAGCAC CCAGCATGCT GACTAATACC TTTTCAGTGC ACAAAAAATATATTCTAAGT GAAATTTCCT TCCTTATTCA CAGACAATGG TGCAGCTCTT AGGAGCTCTC ACAGGATGTG TTCAGCATATCTGTGCCACA CAGGAATCCA TCATTTTGGA AAATATTCAG AGTCTCCCCT CCTCAGTCCT TCATATAATT AAAAGCACATTTGTGCATTG TAAGGTGAGT AAAGGTCTAA TTATACTTTG AATGGTATAT AATCAATGTG CATAGGGGCTGAGTAAAATA ATGTTTGTAT AAGATTTTAC ATTTTAGTCT ATATTATTGA AATAAACTTT TCCATAGAAT AAAGAACATGTAAGTAAATA ATTGTTGCAA AAAAAGTGGT TTTAAGGAAG TCATTAAAAG TGGCTTTTTG GGGTTTTTTA GTTTTATCTTATTTCCCCTC TATAAAGAAA GAAGTTTTAA GAATTTGTGT TGAGACAGAC ACAGGGATCC TGAAATAGTT ATGTCATGTTGCATTGACCA ATATTCAATT ACCATTATGA TTAGATGTCA GAACTTCCTT TTATAAAGGA AAGTTAATCC TTATTTAGTCCATCTCTACA TGCCAGAGGT AGCCTTGAGG CACAAAAGCT TGCCTAGAAT TTATGGGTCA CAGACAGTTT TAATATTGCTATTTGTTGGG CGAATGAAAA TCACTAGTTA ATTAATACCT CTCTTTGCTG ATAGGATGCT AAAAATGTCA CGCACCTGGCCTAATGTTAC CCTTTTTTAG TTCTGTATTT GCAAGATCAT GGAAGTCAGA AATAATATTT TATACATGCT TGCATCTCTTGAAGCACACT ATATTTAATG GATGTTCACT AAACAATGAA TGAATATGTG ATTCAGTAAA TTTATGATCT CTAATAGTATGAATTAAAGT AAATTTGGCT CTTGAGCTTT GATTTGTTTT TTCTCTCATT TTTATTTATC CGTAATCAGA ATAGTGAATCTGTGTATTCT GGGTGTTTAC ACCTAGTTTC AGACCTTCTC CAGGCTCTTT TCAAGGAGGC CTATTCTCTT CAAAAGCAGTTAATGGAACT GCTGGACATG GTTTGCATGG ACCCTTTAGT AGATGACAAT GATGATATTT TGAATATGGTAATAGGTGAG TGAAGAAAAC TTTCTGCTTA GTATATGGTG ACTATAAATC ATGTATCAAT TAAAATTGTC TCTAATGATTCATGTTATTT TCTTACTAAT TATGCATTAA AATTGATTTA AATCTTACCA AATAAATTTT TAATCTTGAA ATTTGGAATTTGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC CACAATGATT AACTTATATAACTTTATAAT CTCTGAGGTT GTCCATATTC AGAGACAATA ACTTTCACAT TTTTTTAACC ATAACTGATA TTGAGATGCAGTTTATATTT CCTTCCAGAA TACATATAAATACGTGCATA TGTGTATGTA AATATGTCTA TTCTCATATA CATATTATAATGAAATAACT CATTTTACAT GTGATGCACT TTATACTAGT TTATTTTTAT TTTATTTTAT TTTTTTGAGA CAGAGTCTCACTGTGTAGCC CAGGCTGGAG TGCAGTGGCA CAATCTCGGC TCACTGCAAC CTCGCCTCCC GGACTCAAGCGATTCTCCTG CCTCAGCCTC ATGAGTAGCT GGGATTATAG GCGTCCGCCA CCACACCTGG CTAATTTTTG TATTTTTAGTAGAGACAGGG TTTCACCGTG TTGGCCAGGC TGGTCTTGAA CTCCTGACCT CAGGTAATCC ACCTGCCTCAGCCTCCCAAA GTGCTGGGAT TACAGGCATG AGCCACCGTG CCCAGCCAAT ACTAGTTTAT TTTTAAAGAATTGCTGGTCG TAACACACTT CATTGATTTT ATCACTCATT AATGGATTAT GAACAAGAGT TTGAAAAACA ATATAAAGGCAAAGTTTGCA TTCAAAACTT TGGTATAAAG AGAGTAAGTT GGTTTTGTGC AGTGTATCAG GCACCTGTTG CTCTGCAACACACCACCTCA AAATCTATTT ATTCACTATT TATTTATTCA TGATTCTGTG AGTCTGCAGT TTAGGGTGGG ATGTCCTGAGACAACTTTCT CTGATCCACC TGGGGCACTA GCTCACCCAT GTGACTTCAG TGACTTCATT CACATCTGGC TGTTGGCAGAGGCAGAAGTA CTTGAGAAAG CCATGTGCAT CATCCAGCAG GTTCACCCTA TCTCAGATAC CTGATGCCAGTGGTTTCAGG GTTTCTAAGA GTAGCAAAAG TGTGAGCAGG TCGCTGTGTG CTAGCACTTT TCAAGTTTCT GCTTGCCTTAATTTTATTAT TGTCCCCCGG GCCACAGCAG GTCATAGCGT TTAGCCCAGA GTCATTGTAG AAAAGTGTGGATTCACAAAG GGCAGTCATT GTGGCCATTT TTATAAATAA TCTACCACAG ACTGAGTAAA AGCCTTGCATGAATACCATG GATATTAATT TGAATTCTTC CTTTTTAGAT TTTCTTTCCT TAGCAATTTG TTTTGTCATT TTGGATTAGAATTATATCTG TAGAATATTT CAGTTATAAT AGGGTACAAC TTTTATTCCA CTGAACATCT TTAGTTTTAT TTAGGTCATCTGGTAGGTAT AAACTTCAGA AGTTAATATT CAATATTTAT AAAAACCATT AACAAGTGTG ACACTTAAAT AGTTTAAATAATTCTTTTGA CACAACTGTT TCCAAGTTGT GTTACGTATT TTAATTCAAT CAAATGTTGA AATTGTTCAG TAGATAGTTTTAATTATAGG AGAAACTCAC CCCCATGACA TTTGGATGTC TTAAAAGTTC TGTTATCTTT CTTTGCAGTT ATTCATTCTTTATTGGATAT CTGCTCTGTT ATTTCCAGTA TGGACCATGC ATTTCATGCC AATACTTGGA AGTTTATAAT TAAGTAAGTTTGTTTGTTAT TTTTTACTTT TTAGAAAATG TTTTCCATAT TCCCCAATCT TAATTATTCA TGATTCTTTA GATTGCATTTAAAACATTTT GTGTGAATTT AATGTTCACT GACACTGCTG TCTGATAATC CAGATATTCT ACATGTAGCT CTCAAGCCAAATTGGACTTC TTTACCCTGT GGCCTCTAAA ATTAAAAAAA ATGTTCTTCC TAGTTAGCTA GTACTTCAGA AATAATGGGCCATGGGCCAG ACTAGAACTT AACCACTTTT CTTCTGCTAC TGTTGTTTAACCAGCTATCA AGTATCCTAT TTCTAGGATTAGATAAATTG ATAACTATAA TTAAAACTGA ATATAATCTT TTCATTAGGT ACTTTTAAGT TGTTCACACT TAATTCCATTTGTACAGTAA TTTTAACTTT CTGAAACTGA AGCATTTTAA AGGGTCACCA GGGATAGTGC CTGTAGCATT CATCAGATTCTTAGGGGTGA GAGGAGATGT GGTTGAGATG TAAAAATGGT TAAGAATATC TACTTTATAC ACATACATAAAACATTAAAG GTCAGTGTAT TTTCAGGTCT TAGGTACTTT TCTTGTACTA CCAGGACATT AAGTTGCCAT TCAGTGGTTAAGAGTGTTGC CTGGGAGCTG TATCACATGT GCTTAAATCC ATTCTTGAAA TCATTTACTC CTTCTGAGCC CTTGGGCTATTTGGTTAATT TCTCTGAACG TTAGTTTGCT CATCTGAAAA TGGAAATAAT AATAGCAACT TCTTGACAGG GTTATAGTGAGAATTGAGTT CATCACTGTG AAATGCTTAG AAATGTGCAT GACACATAGT TAATACTCAA GGAATTAGCCACATCACTAT CATCATCACT GATTATCTTC CACTCTTACC CTCTTCCAGT TCATTTTCTG CCCAGCAGAA TGATCTTTTAAAAAGTAAAT CAGATCATGT TACTCTATTG CTTGAAGTCT ATCCCATTTG ATTAAGAATA ACAACCTAAT CCTCTGTGGATGCTGCCTCC TTCACCAGCC TGTCTCATGC TGCTCTCCCT ACTCTTAGTT CCTCAAACAT ACCAAACTCT CCTGTCCCAGAGTCTTTTCG TGGTTTTTCC ATCTGCCTAG GATGCTTCTC TCTCCTATTT TGTGTACCTT GCTAACTCCT GCTTACTGTCTTTCAGTTCT CAGCTTAAGA GTTATATCTT CATGATAACA TTCTTTGATA TCCTTACCCT AAGATTAAGT TAGATTGATATCCTTACCCT AAGAATAAGT TAGATTAGGT CTCTCTATTG TAGCACCTTA GACTCTGTCA TTTGACAAAT CACAGCCCTAATTAATTATT CTTAAAATTA TTTAACATTC TCTCTCATGC TAGACCACAA GTTTCATGCA GGTAAGGCGG AGATTGTGTCCATTTGTTTG ACCCCTTTGT CTCCAGGGCC TGGTAGAATG CCTCATACAT AGTAAGAATT CAATTAATAT TTTACACAGAGAAAAAATTA GCAACTTATT TAAACAAATA TAACTGCTTC AGAGGTAAAC TGGGCACATC TTAGTTATAT TATGTGATATATGATGCTTT TTGATTGTTT TTTTAAATGT TCTACAAGGT AGATATTGTT AGAGGTCCTA AGTTACTTGA TGTGTTACTTGTGGTGATTG TATTCTTTTC TTTTTATTCA TTTAGGCAGA GCCTTAAGCA CCAGTCCATA ATAAAAAGCC AGTTGAAACACAAAGATATA ATTACTAGCT TGTGTGAAGA CATTCTTTTC TCCTTCCATT CTTGTTTACA GTTAGCTGAG CAGATGACACAGTCAGATGC ACAGGTAAAA TTTGGGCTAA TAGCATTTTA AACAGCAACT CTTATTTTCT TTGGCAGTTA GTAAATCTCATTTGAATGTC TGGGTCAGTC TATTTAAGAG GATTTTAATT TATTTCATTT GGGTGTTTTT TTTTGATCTG TGGGATTATTTATATCCCAT AATTACTTTT CACCCAGAGC ATTGTATTAG ATTCCTAACT GCTGTCATTG CCTCTGGGGT CTGCCTGGCTCCCTCTTTGC TTGGTAACTG GTTGGTCACA GCATTCTTCT CAGAATCCTT TCATTCTTTT CTGCATGAGA ACAAAAATTCTTTTGTTCAT ATTTGTATAA GATCTGATAT AGCTGCAATC AATCTTGCAT TTTTTCTTCA CCAACGCATT GCGACCTTTAGGGATACAAG TATGTTTGTG CATGTATATG TATGTATCAG TCTTTTAAAT TTGATATAGT CATACATTTG TTTTTATTTTGAAAAGTTAG AGTGTTGAAT TGGTATCCCA TTTATGAAAC ATTATATTCT AAAAATTTGT AGTACGATTA TTGGGAATTATAACTCATTT TCCTGTAACA CTGTTATACA TAGTACCTTT TGCTTTCAGA CTAGCCCTCA ATTTTATTTA ACTATAGTAGTCCTAAATTA TAAGATTAAT AGTACTCAGG ACCTAACAGT TATATGTCAT TTGTTTTTTT TTTTTTTGAG ATGGCGTCTCACTCTGTCAC CCAAGCTGGA GTGCAGTGGT ATGACCTTGG CTCACTGCAG CCTCTGCCTC ACGGGTTCAA GGGATCGTTCTGCCTTAGCC TCCTGAGTAG CTGGGATTAT AGGCGCCTGC CACCACGCCT GGCTAATTTT TTTAGTAGAG ACGGGGTTTCGCCATGTTGG CCAGGCTGGT CTCGAACTCC TGACCTCAGG TGGTCCACCC GCCTTGGCCT CCCAAAGTGCTGGGATTACA GGTGTGAGCC ACCGCGCCCA GCCTATATGT AATAATTTTA ATGGGACCAT GAATTGAATA TTTCTTCCTTGAATAGCAAT GACATAGCCC CTTCTATTGT ACATCTGCAA GCTGATACAG GGAATTCCTT TGTACCTGCG CTCTTCCCTGCCAGTCAGCT ATGGGGGTGA AAGTGTAGGG GTTCATCCAA GTCCTAAAAC TGGTAGCAAC TCCTAGGGCAGGGCTGATCT GGAAGGACAG ACCCTAGGGG AGGGTGGAAC TTTAAAAAGA AGTTCTGAAG GTAGTAAGAAGGAAATGAGG AGTAGTGTTA GGAAGGGGCT AACTTTTTTC TTCTTGCTTC TCTTCTTTAT CTCACCTGCC CCTCCCCTTGTATCCCTTCT TCCTTTTTCC CTTTCCTTTT TTGTCCTCAC TTCATTCGTG CATCCTTTCT GATTCCTCTT ACCTTGCTAAAAGGAGAAGT TTGTTTGGGT ATCCTATATC AATGGCAGGA AGGTTGTTTT CTTCTTTACC TTTATCCTAT AGATTCATATTCTCAACACC AACCTCCTCC TTTTTCAGTT TCCTTCTTGC TTCTCTTGAC ACCACAGAGT TTGCAGCTAG TACTTGGAGAGGAAAATTAA ACAGAGATAC TTGGACCAAG AGTAAGATGA AGAAAGTCTA AACAACAGTA TAGTCTATAGTGGCAAGAGA GAGTATGGGG GCTGCTTAGC CAGGGTGGCT GTACATAAAG TATATCTTCA GTTTATATAAACTGCTTATA GATGGAAATC AGAAAATTTA AATTCTCTTA ACTGTCCAAG AAAATTCTCA TTTTTTCAAA TTTGGGACTGATAAATGTGA CCAGTTCTGC TTACTGTCCA TTGCCTGAAA TGGAGCTTTG AGGTGGACTG TATAATTTCT TCAATCTTAACTCCAAATTC TGATCAGCGA CGCCCTCTGC TGTTCACTAT TAATATTTAT TTACCAATCA AAGTAAAGTA TTGAAGTTTTCCTGGCAGTT TTCACTTTGT GTTTTAGTCC ATTTAGGCTG CTATAACAAA ATCCCTTAAA CTGGGTAAGG GATTATAAATATTAGAAATT TATCTCTCAC AGTTCTGGAA GCTGGGAAGC CCAATATCAA GGCACCAGTA GATTTGGTGTCTAACGAGGG TGTGCCGTCT GCTTCAAAAATGGCCCCTTG TTGCTGCATC CTCACTTAGT GCAAGGGGCAAGACAGCTCC CTTCAACCTC TTTTATAAGG GCACTTATGT CATTCATGAG GGCAGAGCCC TCATGACTTA ATCACTTCCCCAAAGGCCCC ACCTCTTAAT AGTATCACAT TGGGTGTTAG GTGTCTGGGA GGACACCAAT CTTCAAGCCATATCATCTCA CTTGGAAAAA AGTCAAAATA AAACCAGTAG ATTTAATTAA TATTACACTA TTTATAGAAG CATGTGATGTATCATTCCTT GTATTAATTT CCTGGGGTTG CCGTAACAAG TTACCACAAA CTAGGTGGCT TAAAACAATA GAATTTTATTCTCTCACATT TCTAGAGGCA GAAGTTCACA GTGTGTCAAT AGGGCCATGT TCTCTGGAAG GCTTTAGGGG AGAATATATTTCATATCTTT CTCTTAGCTT CTCGGTGTCA CTGGCAATCC TTAGCTTACT TTGGCTTTCT GTGTCTTCAC ATCATCTTTTTATAAGAACA CCAGTGATAG TGATTAAGGG CATACCTTAC TTTAATATGA CCTCATCTTA ACTAATTATG TCTTCAATAACCCTATTTCC AAATAAGGCC ACATTCTGAA GTATTGGGAG TTAGAACTTA AAGCTTTTTG GGAGGGACACAGTTCAACCC ATAACAACCC CTAAAATCGA TATTTATTCT CAATTAAGTC TTGAAATTGG TTTCAAAAAG AGAATATTCTATTAGAGTTT TTAATGTATA GTTTTAACAT ATAGTTCTTT AGCCCCCAAT TTTTTTTTTT TTTTTTTTTT TTTTTTTTTTTTTTTGAGAC GGAGTCTCGC TCTGTCGCCC AGGCCGGACT GCGGACTGCA GTGGCGCAAT CTCGGCTCACTGCAAGCTCC GCTTCCCGGG TTCACGCCAT TCCCCTGCCT CAGCCTCCCG AGTAGCTGGG ACTACAGGCGCCTGCCACCG CGCCCGGCTA ATTTTTTTGT ATTTTTAGTA GAGACGGGGT TTCACCTTGT TAGCCAGGAT GGTCTCGATCTCCTGACCTC ATGATCCACC CGCCTCGGCC TCCCAAAGTG CTGGGATTAC AGGCGTGAGC CACCGCGCCCGGCCTGCCCC CAATTATTTA GTTTTTCTAT AAACAGGGAA ATTTATTTGT GTGGCCCTTA GAACTAATTT AATTTCCACTCTAATTCCTA CTTATGTTTA TATAATGCTT TTAGAAATTT GTATTATTCA GAAAATAAAC ATATACTATT GTATCTGTTGCCTACACTTA GATTTTATTG CCTGCTATAT TTAAATTTTA TTAGTATTTT AATTGTTTTA TTAAAGAAAG AATGTGCCTGTAATCTCAGC ACTTTTGAGA GGCCAAGGCA GAAGGATTGC TTGAGCCCAG GAGTTTGAGA CCAGACTGAGCAACACAGGG AGACCCCCAT CTCTACAAAA AATAAAAAAA TTCTCCAGGC CTCATGGCAC ATACCTGTAGTTCTAGTTAC TTGGGAGACT GGGGTGGGAG GATGCATTGA GCCCAGGAGA TTGAGGCTGC AGTGAGCCATGATCAGGCCA CTGTACTCCA GCTTGGACAA CAGAGTGAGA GCTTGTCTAG ATAGATAGAT AGATAGATAATCTAAATAGA TAATAGACAG ATTATCTAAA TAGATAATAG ACAGATTATC TAAATAGATA ATAGACAGATTATCTAAATA GATAATAGAC AGATTATCTA AATAGATAAT AGACAGATTA TCTAAATAGA TAATAGACAGATTATCTATC TAAATAGATA ATAGATTATC TAAATAGATA ATAGATAGAT AGATTAGATA GATAGATAGATAGATAGAGC TTGGACAACA GAGTGAGAGC CTGTCTAGAT AGATAGAAAC AAAGAAAGAA AGAAAGAATGGTGCTCATAT TTTAAAGCAT TGAAAAATGG TCTTCCTTGC TTATATTACC CACACCTTCT TTGTTGGCAT TAAGATGCAAACTTTGTTTT AAACAGTTGA GTAAATCAAA GATGGGACTG TTAAGTTATT TGTGTTATTT ACCTGCTTTT TGAAAATGTAAAAATAAAAC TCTAGGTTTA ATTAGTAGTA TGCTATTTAG TAATGAAGTA AAGCTAGAGG CTTCGAACAAATCTTGTGTA ATTTCCTCTT GAATGAGAGA GAAAATTTAA AGTAAGCAAA CAAATAAGTT GTGTGTCACC ACTCATTCAGTCATTTAACA AGTATTTCCA GAGTACTTAT TCTGTGCCAG GAAATGTTGT AGGTGCCCTC AACAACTTAG AGTCTAGCCTGAGACACAAG TAAGTAGGTA ATTATTATAG AATGGTATGA TCTTTGGAGG ACTGGGTATT GGCTGGCTCATGGGAGTACA AGATAGGTAC CCAGTGATGA AGTCAGGAAA GGTTTCTTAT GGTGATATGA TGACGTCTATGCTGATTATA AGGTCAGTGT AGAATAAACT TTGTGCTTTT AAATTTGCAT AGCACTGTAT TAGAGAGTTC ATCTTCAAAATAATCGAAAA GGCTGAGTGT GGTGACCCAT GGCTGTAATC CCAGCACTTT GGGAGGCCGA GGTGGGCAGATTGCTTGAGC TAGGAGTTCG AGACCAGGCT GGCCAACATG GTGAAACCCC GTCTCTACTA AAAATACAAAAATTAGCCAG GAGTGATGGT GCGCACCTGT AATGCCAGCT ACTTGGGAGG CTGAGGCAGG AGGATCACTTGAACCCAGGA GGTGGAGGTT GAAGTAAGCC GAGGTCATGC CACTGCACTC CAGCCTGGGC AACAGAGTGAGACTCCATCT CAAAAAAAAA AAAAATGATC AAAGAAAGGT GAATTTTCAT CTACCCTATT TCTGCTGAGGAAAATGGACT ATTTTCAAAT ATTTTTAATA AGGGTCAAAA TGAGGGATC-3′(FRAG.NO：_)(SEQ.ID NO：2480)

5′-CCTGAGACAG AGGCAGCAGT GATACCCACC TGAGAGATCC TGTGTTTGAA CAACTGCTTC CCAAAACGGAAAGTATTTCA AGCCTAAACC TTTGGGTGAA AAGAACTCTT GAAGTCATGA TTGCTTCACA GTTTCTCTCA GCTCTCACTTTGGTGCTTCT CATTAAAGAG AGTGGAGCCT GGTCTTACAA CACCTCCACG GAAGCTATGA CTTATGATGAGGCCAGTGCT TATTGTCAGC AAAGGTACAC ACACCTGGTT GCAATTCAAA ACAAAGAAGA GATTGAGTACCTAAACTCCA TATTGAGCTA TTCACCAAGT TATTACTGGA TTGGAATCAG AAAAGTCAAC AATGTGTGGGTCTGGGTAGG AACCCAGAAA CCTCTGACAG AAGAAGCCAA GAACTGGGCT CCAGGTGAAC CCAACAATAGGCAAAAAGAT GAGGACTGCG TGGAGATCTA CATCAAGAGA GAAAAAGATG TGGGCATGTG GAATGATGAGAGGTGCAGCA AGAAGAAGCT TGCCCTATGC TACACAGCTG CCTGTACCAA TACATCCTGC AGTGGCCACGGTGAATGTGT AGAGACCATC AATAATTACA CTTGCAAGTG TGACCCTGGC TTCAGTGGAC TCAAGTGTGAGCAAATTGTG AACTGTACAG CCCTGGAATC CCCTGAGCAT GGAAGCCTGG TTTGCAGTCA CCCACTGGGAAACTTCAGCT ACAATTCTTC CTGCTCTATC AGCTGTGATA GGGGTTACCT GCCAAGCAGC ATGGAGACCA TGCAGTGTATGTCCTCTGGA GAATGGAGTG CTCCTATTCC AGCCTGCAAT GTGGTTGAGT GTGATGCTGT GACAAATCCAGCCAATGGGT TCGTGGAATG TTTCCAAAAC CCTGGAAGCT TCCCATGGAA CACAACCTGT ACATTTGACTGTGAAGAAGG ATTTGAACTA ATGGGAGCCC AGAGCCTTCA GTGTACCTCA TCTGGGAATT GGGACAACGAGAAGCCAACG TGTAAAGCTG TGACATGCAG GGCCGTCCGC CAGCCTCAGA ATGGCTCTGT GAGGTGCAGCCATTCCCCTG CTGGAGAGTT CACCTTCAAA TCATCCTGCA ACTTCACCTG TGAGGAAGGC TTCATGTTGC AGGGACCAGCCCAGGTTGAA TGCACCACTC AAGGGCAGTG GACACAGCAA ATCCCAGTTT GTGAAGCTTT CCAGTGCACAGCCTTGTCCA ACCCCGAGCG AGGCTACATG AATTGTCTTC CTAGTGCTTC TGGCAGTTTC CGTTATGGGT CCAGCTGTGAGTTCTCCTGT GAGCAGGGTT TTGTGTTGAA GGGATCCAAA AGGCTCCAAT GTGGCCCCAC AGGGGAGTGGGACAACGAGA AGCCCACATG TGAAGCTGTG AGATGCGATG CTGTCCACCA GCCCCCGAAG GGTTTGGTGAGGTGTGCTCA TTCCCCTATT GGAGAATTCA CCTACAAGTC CTCTTGTGCC TTCAGCTGTG AGGAGGGATT TGAATTATATGGATCAACTC AACTTGAGTG CACATCTCAG GGACAATGGA CAGAAGAGGT TCCTTCCTGC CAAGTGGTAAAATGTTCAAG CCTGGCAGTT CCGGGAAAGA TCAACATGAG CTGCAGTGGG GAGCCCGTGT TTGGCACTGTGTGCAAGTTC GCCTGTCCTG AAGGATGGAC GCTCAATGGC TCTGCAGCTC GGACATGTGG AGCCACAGGACACTGGTCTG GCCTGCTACC TACCTGTGAA GCTCCCACTG AGTCCAACAT TCCCTTGGTA GCTGGACTTT CTGCTGCTGGACTCTCCCTC CTGACATTAG CACCATTTCT CCTCTGGCTT CGGAAATGCT TACGGAAAGC AAAGAAATTT GTTCCTGCCAGCAGCTGCCA AAGCCTTGAA TCAGACGGAA GCTACCAAAA GCCTTCTTAC ATCCTTTAAG TTCAAAAGAATCAGAAACAG GTGCATCTGG GGAACTAGAG GGATACACTG AAGTTAACAG AGACAGATAA CTCTCCTCGGGTCTCTGGCC CTTCTTGCCT ACTATGCCAG ATGCCTTTAT GGCTGAAACC GCAACACCCA TCACCACTTC AATAGATCAAAGTCCAGCAG GCAAGGACGG CCTTCAACTG AAAAGACTCA GTGTTCCCTT TCCTACTCTC AGGATCAAGAAAGTGTTGGC TAATGAAGGG AAAGGATATT TTCTTCCAAG CAAAGGTGAA GAGACCAAGA CTCTGAAATCTCAGAATTCC TTTTCTAACT CTCCCTTGCT CGCTGTAAAA TCTTGGCACA GAAACACAAT ATTTTGTGGC TTTCTTTCTTTTGCCCTTCA CAGTGTTTCG ACAGCTGATT ACACAGTTGC TGTCATAAGA ATGAATAATA ATTATCCAGA GTTTAGAGGAAAAAAATGAC TAAAAATATT ATAACTTAAA AAAATGACAG ATGTTGAATG CCCACAGGCA AATGCATGGAGGGTTGTTAA TGGTGCAAAT CCTACTGAAT GCTCTGTGCG AGGGTTACTA TGCACAATTT AATCACTTTC ATCCCTATGGGATTCAGTGC TTCTTAAAGA GTTCTTAAGG ATTGTGATAT TTTTACTTGC ATTGAATATA TTATAATCTT CCATACTTCTTCATTCAATA CAAGTGTGGT AGGGACTTAA AAAACTTGTA AATGCTGTCA ACTATGATAT GGTAAAAGTT ACTTATTCTAGATTACCCCC TCATTGTTTA TTAACAAATT ATGTTACATC TGTTTTAAAT TTATTTCAAA AAGGGAAACT ATTGTCCCCTAGCAAGGCAT GATGTTAACC AGAATAAAGT TCTGAGTGTT TTTACTACAG TTGTTTTTTG AAAACATGGT AGAATTGGAGAGTAAAAACT GAATGGAAGG TTTGTATATT GTCAGATATT TTTTCAGAAA TATGTGGTTT CCACGATGAA AAACTTCCATGAGGCCAAAC GTTTTGAACT AATAAAAGCA TAAATGCAAA CACACAAAGG TATAATTTTA TGAATGTCTTTGTTGGAAAA GAATACAGAA AGATGGATGT GCTTTGCATT CCTACAAAGA TGTTTGTCAG ATGTGATATGTAAACATAAT TCTTGTATAT TATGGAAGAT TTTAAATTCA CAATAGAAAC TCACCATGTA AAAGAGTCAT CTGGTAGATTTTTAACGAAT GAAGATGTCT AATAGTTATT CCCTATTTGT TTTCTTCTGT ATGTTAGGGT GCTCTGGAAG AGAGGAATGCCTGTGTGAGC AAGCATTTAT GTTTATTTAT AAGCAGATTT AACAATTCCA AAGGAATCTC CAGTTTTCAG TTGATCACTGGCAATGAAAA ATTCTCAGTC AGTAATTGCC AAAGCTGCTC TAGCCTTGAG GAGTGTGAGA ATCAAAACTCTCCTACACTT CCATTAACTT AGCATGTGTT GAAAAAAAAA GTTTCAGAGA AGTTCTGGCT GAACACTGGCAACGACAAAG CCAACAGTCA AAACAGAGAT GTGATAAGGA TCAGAACAGC AGAGGTTCTT TTAAAGGGGCAGAAAAACTC TGGGAAATAA GAGAGAACAA CTACTGTGAT CAGGCTATGT ATGGAATACA GTGTTATTTTCTTTGAAATT GTTTAAGTGT TGTAAATATT TATGTAAACT GCATTAGAAA TTAGCTGTGT GAAATACCAG TGTGGTTTGTGTTTGAGTTT TATTGAGAAT TTTAAATTAT AACTTAAAAT ATTTTATAAT TTTTAAAGTA TATATTTATT TAAGCTTATGTCAGACCTAT TTGACATAAC ACTATAAAGG TTGACAATAA ATGTGCTTAT GTTT-3′(FRAG. NO:_)(SEQ. ID NO：2479)

5′-CCTTGCCTGCTGG-3′ (FRAG. NO： 1739) (SEQ. ID NO：1752)

5′-GTT GTC CC-3(FRAG. NO：1740)(SEQ. ID NO：1753)

5-GTT CTT GGC TTC TTC TGT C-3

(FRAG. NO：1080)(SEQ. ID NO：1088)

5′-GGC TGG TGG-3

(FRAG. NO：1083)(SEQ. ID NO：1092)

5

-CGT TGG CTT CTC GTT GTC CC-3(FRAG. NO：1081)(SEQ. ID NO：1089)

5

-TGT GGG CTT CTC GTT GTC CC-3

(FRAG. NO：1082)(SEQ. ID NO：1090)

5

-CCC TTC GGG GGC TGG TGG-3(FRAG. NO：1083)(SEQ. ID NO：1091)

5′-GGC CGT CCT TGC CTG CTG G-3

(FRAG. NO：1084)(SEQ. ID NO：1093)

Human P-selectin fragments

5′-TTT TCT CTT TCG CTT TCT TTT CGT CTC CTG TTC CTC CTT TT TTG CTG TTT TTT CTC CTT CTT CTC TCC TTTCTT TTC-3′ (FRAG.NO：1741)(SEQ. ID NO：1754)

5′-TCC TTT CTT TTC-3′ (FRAG. NO：1742)(SEQ. ID NO：1755)]

5′-CTC CTT TT-3(FRAG. NO：1743)(SEQ. ID NO：1756)

5-TTT TCT CTT TCG CTT TCT TTT CGT CTC CTG TTC CTC CTT TT-3

(FRAG. NO：1085)(SEQ. ID NO：1094)

5-TTG CTG TTT TTT CTC CTT CTT CTC TCC TTT CTT TTC-3

(FRAG. NO：1086)(SEQ. ID NO：1095)

Human endothelial monocyte activating factor nucleic acid and antisense oligonucleotide fragment

5′-TTT TCT CTT TCG CTT TCT TTT CGT CTC CTG TTC CTC CTT TT TTG CTG TTT TTT CTC CTT CTT CTC TCC TTTCTT TTC-3′(FRAG. NO：1744)(SEQ. ID NO：1757)

5′-CC TTT CTT TTC(FRAG. NO：1745)(SEQ. ID NO：1758)

5′-CTG TTC CTC CTT TT-3

(FRAG. NO：1746)(SEQ. ID NO：1759)

5-TTT TCT CTT TCG CTT TCT TTT CGT CTC CTG TTC CTC CTT TT-3(FRAG. NO：1087)(SEQ. ID NO：1096)

5

-TTG CTG TTT TTT CTC CTT CTT CTC TCC TTT CTT TTC-3

(FRAG. NO：1088)(SEQ. ID NO：1097)

Human IL3^*Nucleic acids and antisense oligonucleotide fragments

5′-CTC TGT CTT GTT CTG GTC CTT CGT GGG GCT CTG TGT CGC GTG G GTG CGG CCG TGG CC GGC GGB CCBGGB GTT GGB GCB GGB GCB GGB CGG GCB GGC GGC TCB TGT TTG GBT CGG CBG GBG GCB CTC(FRAG.NO：1747)(SEQ. ID NO：1760)]

5′-G GBG GCB CTC-3′ (FRAG. NO：1748)(SEQ. ID NO：1761)

5′-GT GGG GCT CTG-3

(FRAG. NO：1749)(SEQ. ID NO：1762)

HUMIL3AAS1：5-CTC TGT CTT GTT CTG GTC CTT CGT GGG GCT CTG-3(FRAG. NO：1089)(SEQ. ID NO：1098)

HUMIL3AAS2：5

-TGT CGC GTG G GTG CGG CCG TGG CC-3

(FRAG. NO：1090)(SEQ. ID NO：1099)

GGC GGB CCB GGB GTT GGB GCB GGB GCB GGB CGG GCB GGC GGC TCB TGT TTG GBT CGG CBG GBG GCB CTC(FRAG. NO：1091)(SEQ. ID NO：1100)

Human IL3 receptor nucleic acids and antisense oligonucleotide fragments

5′-TCT GGG GTG TCC TGG CCT TCG TGG TTC CTC TTC CTT CGT TTG CCG TCC GCG GGG GCC CCC GGG CCT GGCTGC GCT CCT GCC CCG CCT CTT TCC CGG GCT CTT GCG CTG GGG GGT GCT CC CGT GTG TTT GCG CCC TC CTC CTGGTC GCG CTT GTC GTT TTG GGG CCG GCT TTG CCC GCC TCC CGG CGC CTG GCC CGG CC TTC CTG GGC TGC GTGCGC GTT CTG TTC TTC TTC CTG GCT CTG GGG TGT CCT GGC CTT CGT GGT TCC TCT TCC TTC GTT TGC CGT CCG CGGGGG CCC CCG GGC CT GGC TGC GCT CCT GCC CCG CCT CTT TCC CGG GCT CTT GCG CTG GGG GGT GCT CCC GTGTGT TTG CGC CCT CCT CCT GGT CGC GCT TGT CGT TTT GG GGC CGG CTT TGC CCG CCT CCC GGC GCC TGG CCC GGCCTT CCT GGG CTG CGT GCG CGT TCT GTT CTT CTT CCT GGC GCA GGA GAC AGG GCA GGG CGA TCA GGA GCA GCGTGA GCC AAA GGA GGA CCA TCG GGA ACG CAG CTC CGG AAC GCA GGA CAG AGG TGC C GC BGG BGB CBG GGC BGGGCG BTC BGG BGC BGC GTG BGC CBB BGG BGG BCC BTC GGG BBC GCB GCT CCG GBB CGC BGG BCB GBG GTG CC-3′(FRAG. NO：1750)(SEQ. ID NO：1763)

GBG GTG CC-3′FRAG. NO：1751) (SEQ. ID NO：1764)

5′- GCC CCG C-3′FRAG. NO：1752)(SEQ. ID NO：1765)

5′-TCTGGGGTGTCCTG (FRAG. NO：1092) (SEQ. ID NO：1101)

5′-GCCTTCGTGGTTCC (FRAG. NO：1093) (SEQ. ID NO：1102)

5′-TCTTCCTTCGTTTGC (FRAG. NO：1094) (SEQ. ID NO：1103)

5′-CGTCCGCGGGGGCCCCCGGGCCT (FRAG. NO：1095) (SEQ. ID NO：1105)

5′-GGC TGC GCT CCT GCC CCG C (FRAG. NO：1096) (SEQ. ID NO：1104)

5′-CTCTTTCCCGGGCTCTT (FRAG. NO：1097) (SEQ. ID NO：1106)

5′-GCGCTGGGGGGTGCTCC (FRAG. NO：1098) (SEQ. ID NO：1107)

5′-CGTGTGTTTGCGCCCTCCTCCTGGTCGC (FRAG. NO：1099) (SEQ. ID NO：1108)

5′-GCTTGTCGTTTTGG (FRAG. NO：1100) (SEQ. ID NO：1109)

5′-GGCCGGCTTTGCCCGCCTCCC (FRAG. NO：1101) (SEQ. ID NO：1110)

5′-GGCGCCTGGCCCGGCC (FRAG. NO：1102) (SEQ. ID NO：1111)

5′-TTCCTGGGCTGCGTGCGC (FRAG. NO：1103) (SEQ. ID NO：1112)

5′-GTTCTGTTCTTCTTCCTGGC (FRAG. NO：1104) (SEQ. ID NO：1113)

5′-GCB GGB GBC BGG GCB GGG CGB TCB GGB GCB GCG TGB GCC BBB GGB GGB CCB TCG GGB BCG CBG CTC CGGBBC GCB GGB 5′-CBG BGG TGC C (FRAG. NO：1105) (SEQ. ID NO：1114)

Human-4 nucleic acids and antisense oligonucleotide fragments

5′-CTC TGG TTG GCT TCC TTC GCC GGC BCB TGC TBG CBG GBB GBB CBG BGG GGG BBG CBG TTG GGB GGT GBGBCC CBT TBB TBG GTG TCG B-3′(FRAG. NO：1753) (SEQ. ID NO：1766)

5′-GCC GGC BCB-3′(FRAG. NO：1754) (SEQ. ID NO：1767)

5′-T TCC TTC-3′ (FRAG. NO：1755) (SEQ. ID NO：1768)

5′-CTC TGG TTG GCT TCC TTC-3′ (FRAG. NO：1106) (SEQ. ID NO：1115)

5′-GCCGGCBCBTGCTBGCBGGBBGBBCBGBGGGGGBBGCBGTTGGGBGGTGBGBCCCBTTBBTBGGTGTCGB-3′ (FRAG.NO：1107) (SEQ. ID NO：1116)

Human IL4 receptor nucleic acids and antisense oligonucleotide fragments

5′-TCT GCC CTG TCC GCC GGC TCT TCG GTG GCT CGG CCC CGC TCC TTG TCT TGC CGC GGG TTG GTT CCT GGGCCT GGT TCT TGC GGG CGT TTC GGT CTG CTG GCT GGT CTG GGC CCG CGG TGC GGC GGG TGG CTT GCT GTT CTGCCT GGG CTC TCC CCT CTC CTC CTT TTC TCC CTT CCT CTG TCT TGC CTC CTT CCT CTG GGT CCT CTT GGC CTG GGCGCT CTT CCC CTC GGG CGG CTG CGG GCG CTC GTG CTG CCT GGT CCG CTC CCT GGG GGT GCT CCT TCC CTT TCCCCG CTC GTG GGG TTT GCG GGG CTG GGC TGC CCT GGG GGG TCT GGG CCT TTT GGG GTC GGC TGG CTG CTG CTTCGG GCC GCC TGG GCT TCC CTG TGC CCC TTT CCT CTG CTG GGT CCC CCT CCC GTT CCA AGC TGC ACC GCA CAGACC GGC GCT ACA GGA CAG AGC CAG GCA AGC ACC CAT GGG GAT CCA GGC CCA GCT GTT CCB BGC TGC BCC GCBCBG BCC GGC GCT BCB GGB CBG BGC CBG GCB BGC BCC CBT GGG GBT CCB GGC CCB GCT G -3′(FRAG. NO：1756)(SEQID NO： 1769)

5′-TCTGCGC-3′ (FRAG. NO：1757) (SEQ ID NO：1770)

5′-CCT GCT CCT GGG G (FRAG. NO：1758) (SEQ. ID NO：1771)

5′-TCTGCGCGCCCCTGCTCC (FRAG. NO：1108) (SEQ. ID NO：1117)

5′-CGCCCGGCTTCTCT (FRAG. NO：1109) (SEQ. ID NO：1118)

5′-CGTGTGGGCTTCGG (FRAG. NO：1110) (SEQ. ID NO：1119)

5′-CCCCGCGCCTCCGTTGTTCTC (FRAG. NO：1111) (SEQ. ID NO：1120)

5′-TGCTCGCTGGGCTTG (FRAG. NO：1112) (SEQ. ID NO：1121)

5′-GGTTTCCTGGGGCCCTGGGTTTC (FRAG. NO：1113) (SEQ. ID NO：1122)

5′-TCTGCCGGGTCGTTTTC (FRAG. NO： 1114) (SEQ. ID NO： 1123)

5′-GGGTGCTGGCTGCG (FRAG. NO：1115) (SEQ. ID NO：1124)

5′-CTTGGTGCTGGGGCTCC (FRAG. NO：1116) (SEQ. ID NO：1125)

5′-GGCGGCTGCGGGCTGGGTTGGG (FRAG. NO：1117) (SEQ. ID NO：1126)

5′-CTTGGCTGGTTCCTGGCCTCGGG (FRAG. NO：1118) (SEQ. ID NO：1127)

5′-CCTCCTCCTCCTCCTCGCTCCCTTTTTCTTCCTCT (FRAG. NO：1119) (SEQ. ID NO：1128)

5′-TCCCTGCTGCTCTC (FRAG. NO：1120) (SEQ. ID NO：1129)

5′-TGCCCTCCCTTCCCTCCTGG (FRAG. NO：1121) (SEQ. ID NO：1130)

5′-GGTGCCTCCTTGGGCCCTGC (FRAG. NO：1122) (SEQ. ID NO：1131)

5′-GGCTGCTCCTTGCCCC (FRAG. NO：1123) (SEQ. ID NO：1132)

5′-CTCTGGGTCGGGCTGGC (FRAG. NO：1124) (SEQ. ID NO：1133)

5′-GGGGCGTCTCTGTGC (FRAG. NO：1125) (SEQ. ID NO：1134)

5′-CTGGCCTGGGTGCC (FRAG. NO：1126) (SEQ. ID NO：1135)

5′-GCCTCTCCTGGGGGGGTGGCTCCCTGTCC (FRAG. NO：1127) (SEQ.ID NO：1136)

5′-CCTTTTCCCCCGGCTCC (FRAG. NO：1128) (SEQ. ID NO：1137)

5′-GTGGGGGCTTTGGC (FRAG. NO： 1129) (SEQ. ID NO： 1138)

5′-GGG GGT CTG TGGCCT GCT CCT GGG G (FRAG. NO：1130) (SEQ. ID NO：1139)

5′-AGGGGTCTGGGGCCCTC (FRAG. NO：1131) (SEQ. ID NO：1140)

5′-TTTTGGGGGTCTGGCTTG (FRAG. NO：1132) (SEQ. ID NO：1141)

5′-GCCTGGCTGCCTTCC (FRAG. NO：1133) (SEQ. ID NO：1142)

5′-GGGGCCTGCCGTGGGGC (FRAG. NO：1134) (SEQ. ID NO：1143)

5′-TGTCCTCTGTTGCTCCCCTT (FRAG. NO：1135) (SEQ. ID NO：1144)

5′-TGCCTGCTGTCTGG (FRAG. NO：1136) (SEQ. ID NO：1145)

5′-GGTTCCCGCCTTCCCT (FRAG. NO： 1137) (SEQ. ID NO： 1146)

5′-GTT CCC AGA GCT TGC CAC CTG CAG CAG GAC CAG GCA GCT CAC AGG GAA CAG GAG CCC AGA GCA AAGCCA CCC CAT TGG GAG ATG CCA AGG CAC CAG GCT G (FRAG. NO：1138) (SEQ. ID NO：1147)

5′-GTT CCC BGB GCT TGC CBC CTG CBG CBG GBC CBG GCB GCT CBC BGG GBB CBG GBG CCC BGB GCB BBG CCBCCC CBT TGG GBG BTG CCB BGG CBC CBG GCT G-3′ (FRAG. NO：1139) (SEQ. ID NO：1148)

Human IL5^*Nucleic acids and antisense oligonucleotide fragments

5′-TCCCTGTTTC CCCCCTTTCG TTCTGCGTTT GCCTTTGGCG TTTTTTGTTT GTTTTCTCTC TCCGTCTTTCTTCTCCCCT GTGGGBBTTT CTGTGGGGBT GGCBTBCBCG TBGGCBGCTC CBBGBGCTBG CBBBCTCBBB TGCBGBBGCBTCCTCBTGGC TCTGBBBCGG TGGGAATTTC TGTGGGGBTG GCATACACGT AGGCAGCTCC AAGAGCTAGC AAACTCAAATGCAGAAGCATC CTCATGGCTC TGAAACG-3′ (FRAG. NO：1759) (SEQ. ID NO：1772)

5′-GCC CCG GG-3′ (FRAG. NO：1760) (SEQ. ID NO：1773)

5′-G GGT TTC T-3′ (FRAG. NO：1761) (SEQ. ID NO：1774)

5′-GTG GGG BTG GC-3′ (FRAG. NO：1762) (SEQ. ID NO：1775)

5′-CCB BGB GCT BGC-3′(FRAG. NO：1763) (SEQ. ID NO：1776)

5

-TCC CTG TTT CCC CCC TTT-3(FRAG. NO：1140)(SEQ. ID NO：1149)

5-CGT TCT GCG TTT GCC TTT GGC-3

(FRAG. NO：1141)(SEQ. ID NO：1150)

5

-GTT TTT TGT TTG TTT TCT-3

(FRAG. NO：1142)(SEQ. ID NO：1151)

5

-CTC TCC GTC TTT CTT CTC C-3

(FRAG. NO：1143)(SEQ. ID NO：1152)

5-CCT CCT GCC TGT GTC CCT GCT CCC C-3

(FRAG. NO：1144)(SEQ. ID NO：1153)

5

-GAG GGT TTC TGG CTT CCT CTC T-3

(FRAG. NO：1145)(SEQ. ID NO：1154)

5-TGT CTC TCT GTC CTT TTG TT-3

(FRAG. NO：1146)(SEQ. ID NO：1155)

5

-TGT TGT GCG GCC TGG TGC TGC CCT GCC CCG GG-3

(FRAG. NO：1147)(SEQ. ID NO：1156)

5′-GTG GGA ATT TCT GTG GGG BTG GCA TAC ACG TAG GCA GCT CCA AGA GCTAGC AAA CTC AAA TGC AGAAGC ATC CTC ATG GCT CTG AAA CG-3′ (FRAG. NO： 1764) (SEQ. ID NO： 1777)

5′-GTG GGB BTT TCT GTG GGG BTG GCB TBC BCG TBG GCB GCT CCB BGB GCT BGC BBB CTC BBB TGC BGB BGCBTC CTC BTG GCT CTG BBB CG-3′ (FRAG. NO：1148) (SEQ. ID NO：1157)

Human IL-5 receptor nucleic acids and antisense oligonucleotide fragments

5′-CTCAGTGGCC CCCAAAAGGA TGAGTAATAC ATGCGCCACG ATGATCATAT CCTTTTTACT ATGAGGCCGTGTCTGTCGTG TCTTTCCTTT GCTCTTGGTG TGTCTTTGCT GTGCCCTGCC CTCTGCCCG TGTCTGTCGT GTCTTTCCTTTGCTCTTGGT GTGTCTTTGC TGTGCCCTGC CTCTCTGCC CGTGTCTGTC GTGTCTTTCC TTTGCTCTTG GTGTGTCTTTGCTGTGCCCT GCCTCTCTGC-3′ (FRAG. NO： 1765) (SEQ. ID NO： 1778)

5′-CCG TGT C-3′ (FRAG. NO： 1766) (SEQ. ID NO： 1779)

5′-GCCCTGCC-3′ (FRAG. NO： 1767) (SEQ. ID NO： 1780)

5′-CCG TGT CTG TCG TGT CT-3′ (FRAG. NO：1149) (SEQ. ID NO：1158)

5′-TTCCTTTGCTCTTG-3′ (FRAG. NO：1150) (SEQ. ID NO：1159)

5′-GTGTGTCTTTGCTGT-3′ (FRAG. NO：1151) (SEQ. ID NO：1160)

5′-GCCCTGCCTCTCTGC-3′ (FRAG. NO：1152) (SEQ. ID NO：1161)

5′-CT CBGTGGCCCC CBBBBGGBTG BGTBBTBCBT GCGCCBCGBT GBTCBTBTCC TTTTTBCTBT GBGG (FRAG. NO：1768) (SEQ. ID NO： 1781)

Human IL-6 receptor fragments

5′-GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGC GCCGCGCTCG GCTCCTCTCCCTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCC TGCGCGCGGC GCTGGCCCCTGCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC GCGCCGGGGC CTGTCCGCCT CTGCGGGCGCTGTCTCCTGG CTTGTCTTCC GGCTCTTCTG CTGGGGTGGG GCTGGGCGGC CGGCCCGGTG CTGGGGCTCCTCGGGGGGGG GGGCTCTTCC GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGG GTCTTGCCTGGCCTCCGGGC TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTG GCGCCCGTTTGTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCT CTGCTTCTCG CTCTCCTTTG TGGGGCCCTCCCTGCTGCTC TTGGTTTTGG GCTTTTTTTC TCTTCCTCCT TTTTCGTGCG TGGGCCTCCG CACGCCTCTT GCCACCTCCTGCGCAGGGCA GCGCCTTGG GGCCAGCGCC GCTCCCGGCG CGGCCAGCAG GGCAGCCAGC AGCGCGCAGCCGACGGCCAG CATGCTTCCT CCTCGGCTAC CACTCCATGG TCCCGCAGAG GCGGACAGGC GCBCGCCTC TTGCCBCCTCCTGCGCBGGG CBGCGCCTTG GGGCCBGCGC CGCTCCCGGC GCGGCCBGCB GGGCBGCCBG CBGCGCGCBGCCGBCGGCCB GCBTGCTTCC TCCTCGGCTB CCBCTCCBTG GTCCCGCBGB GGCGGBCBGG C-3′ (FRAG. NO： 1769) (SEQ.ID NO： 1782)

5′-CCCGGCGC-3′ (FRAG. NO：1184) (SEQ. ID NO：1193)

5′-GGCCBGCBGG-3′ (FRAG. NO：1186) (SEQ. ID NO：1195)

5′-GCBGCCBGCBGCG-3′ (FRAG. NO：1770) (SEQ. ID NO：1783)

5′-C GCBGCCGBCGGCC -3′ (FRAG. NO：1771) (SEQ. ID NO：1784)

5′-GGGGGTGGCTTCCTGCC3

- (FRAG.NO：1153)(SEQ.ID NO：1162)

5′-GCGTCTCTGGGCCGTCCC-3′ (FRAG. NO：1154) (SEQ. ID NO：1163)

5′-GTCCCTCGGCCCCGCGCCGCGCTCGGCTCCTCTCCC-3′ (FRAG. NO：1155) (SEQ. ID NO：1164)

5′-TCTGGCCCGGCTC-3′ (FRAG. NO：1156) (SEQ. ID NO：1165)

5′-GGGGCGGGGCGGGGCGGTGGGCGGGC-3′ (FRAG. NO：1157) (SEQ. ID NO：1166)

5′-GGCGCTGCCCTGCGC-3′ (FRAG. NO：1158) (SEQ. ID NO：1167)

5′-GCGGCGCTGGCCCC-3′ (FRAG. NO：1159) (SEQ. ID NO：1168)

5′-TGCTGGCCGTCGGCTGCGCGCTGCTGGCTGCCCT-3′ (FRAG. NO：1160) (SEQ. ID NO：1169)

5′-GCTGGCCGCGCCGGG-3′ (FRAG. NO：1161) (SEQ. ID NO：1170)

5′-GCCTGTCCGCCTCTGCGGG-3′ (FRAG. NO：1162) (SEQ. ID NO：1171)

5′-CGCTGTCTCCTGGC-3′ (FRAG. NO：1163) (SEQ. ID NO：1172)

5′-TTGTCTTCCGGCTCT-3′ (FRAG. NO：1164) (SEQ. ID NO：1173)

5′-TCTGCTGGGGTGGG-3′ (FRAG. NO：1165) (SEQ. ID NO：1174)

5′-GCTGGGCGGCCGGCCCGGT-3′ (FRAG. NO：1166) (SEQ. ID NO：1175)

5′-GCTGGGGCTCCTCGGGGGG-3′ (FRAG. NO：1167) (SEQ. ID NO：1176)

5′-GGGGGCTCTTCCGG-3′ (FRAG. NO：1168) (SEQ. ID NO：1177)

5′-GCTGTCTCCCTCCGGG-3′ (FRAG. NO：1169) (SEQ. ID NO：1178)

5′-GCGGGGGTTTCTGGCC-3′ (FRAG. NO：1170) (SEQ. ID NO：1179)

5′-GTGGGGGTCTTGCC-3′ (FRAG. NO：1171) (SEQ. ID NO：1180)

5′-TGGCCTCCGGGCTCC-3′ (FRAG. NO：1172) (SEQ. ID NO：1181)

5′-TGCTTGTCTTGCCTTCCTTC-3′ (FRAG. NO：1173) (SEQ. ID NO：1182)

5′-TCTGGTCGGTTGTGGCTCG-3′ (FRAG. NO：1174) (SEQ. ID NO：1183)

5′-GGGCTCCGTGGGTCCCTGGC-3′ (FRAG. NO：1175) (SEQ. ID NO：1184)

5′-GCCCGTTTGTGTTTTGTC-3′ (FRAG. NO：1176) (SEQ. ID NO：1185)

5′-TTTTCCCCTGGCGT-3′ (FRAG. NO：1177) (SEQ. ID NO：1186)

5′-CCCTGTGCCCCTCTCCTCTCCTTCCTCTGCTTCTC-3′ (FRAG. NO：1178) (SEQ. ID NO：1187)

5′-GCTCTCCTTTGTGGG-3′ (FRAG. NO：1179) (SEQ. ID NO：1188)

5′-GCCCTCCCTGCTGCT-3′ (FRAG. NO：1180) (SEQ. ID NO：1189)

5′-CTTGGTTTTGGGCT-3′ (FRAG. NO：1181) (SEQ. ID NO：1190)

5′-TTTTTTCTCTTCCTCCTTTTTC-3′ (FRAG. NO：1182) (SEQ. ID NO：1191)

5′-GTGCGTGGGCCTCC-3′ (FRAG. NO：1183) (SEQ. ID NO：1192)

5′-GCACGCCTCT TGCCACCTCC TGCGCAGGGC AGCGCCTTGG GGCCAGCGCC GCTCCCGGCG CGGCCAGCAGGGCAGCCAGC AGCGCGCAGC CGACGGCCAG CATGCTTCCT CCTCGGCTAC CACTCCATGG TCCCGCAGAGGCGGACAGGC-3′ (FRAG. NO：1185) (SEQ. ID NO：1194)

5′-GCBCGCCTCT TGCCBCCTCC TGCGCBGGGC BGCGCCTTGG GGCCBGCGCC GCTCCCGGCG CGGCCBGCBGGGCBGCCBG CBGCGCGCBG CCGBCGGCCB GCBTGCTTCC TCCTCGGCTB CCBCTCCBTG GTCCCGCBGB GGCGGBCBGGC-3′ (FRAG. NO：1187) (SEQ. ID NO：1196)

Human IL-6 nucleic acids and antisense oligonucleotide fragments

5′--GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGC GCCGCGCTCG GCTCCTCTCCCTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCC TGCGCGCGGC GCTGGCCCCTGCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC GCGCCGGGGC CTGTCCGCCT CTGCGGGCGCTGTCTCCTGG CTTGTCTTCC GGCTCTTCTG CTGGGGTGGG GCTGGGCGGC CGGCCCGGTG CTGGGGCTCCTCGGGGGGGG GGGCTCTTCC GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGG GTCTTGCCTGGCCTCCGGGC TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTG GCGCCCGTTTGTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCT CTGCTTCTCG CTCTCCTTTG TGGGGCCCTCCCTGCTGCTC TTGGTTTTGG GCTTTTTTTC TCTTCCTCCT TTTTCGTGCG TGGGCCTCC GCACGCCTCT TGCCACCTCCTGCGCAGGGCAGCGCCTTGG GGCCAGCGCC GCTCCCGGCG CGGCCAGCAG GGCAGCCAGC AGCGCGCAGCCGACGGCCAG CATGCTTCCT CCTCGGCTAC CACTCCATGG TCCCGCAGAG GCGGACAGGC GCBCGCCTC TTGCCBCCTCCTGCGCBGGG CBGCGCCTTG GGGCCBGCGC CGCTCCCGGC GCGGCCBGCB GGGCBGCCBG CBGCGCGCBGCCGBCGGCCB GCBTGCTTCC TCCTCGGCTB CCBCTCCBTG GTCCCGCBGB GGCGGBCBGG C-3′ (FRAG. NO：1772)(SEQ.ID NO：1785)

5′-GGGGCBGG-3′ (FRAG. NO：1773) (SEQ. ID NO：1786)

5′-GBBGGCBG CBGGC-3′ (FRAG. NO：1774) (SEQ. ID NO：1787)

5′-CCBGGBGCBG CCCC-3′ (FRAG. NO：1775) (SEQ. ID NO：1788)

5′-BGGG BGBBGGCBBC-3′ (FRAG. NO：1776) (SEQ. ID NO：1789)

5-GCT TCT CTT TCG TTC CCG GTG GGC TCG-3

(FRAG. NO：1188)(SEQ. ID NO：1197)

5

-GTG GCT GTC TGT GTG GGG CGG CT-3

(FRAG. NO：1189)(SEQ. ID NO：1198)

5

-GTG CCT CTT TGC TGC TTT C-3(FRAG. NO：1190)(SEQ. ID NO：1199)

5

-GAT TCT TTG CCT TTT TCT GC-3(FRAG. NO：1191)(SEQ. ID NO：1200)

5′-CTCCTGGGGG TBCTGGGGCB GGGBBGGCBG CBGGCBBCBC CBGGBGCBGC CCCBGGGBGB BGGCBBCTGG BCCGBBGGCGCTTGTGGBGB BGGBGTTCBT BGCTGGGCTC CTGGBGGGGB GBTBGBGC-3′(FRAG..NO：1777)(SEQ.ID NO：1790)

Human monocyte derived neutrophilic chemokine nucleic acids and antisense oligonucleotide fragments

5′-GGGGTGGBBB GGTTTGGBGT BTGTCTTTBT GCBCTGBCBT CTBBGTTCTT TBGCBCTCCT TGGCBBBBCTGCBCCTTCBC BCBGBGCTGC BGBBBTCBGG BBGGCTGCCB BGBGBGCCBC GGCCBGCTTG GBBGTCBTGT TTBCBCBCBGTGBGBTGGTT CCTTCCGGGC TTGTGTGCTC TGCTGTCTCT TGGTTCCTTC CGGTGGTTTC TTCCTGGCTC TTGTCCTTTCTCTTGG CCCT TGGC-3′ (FRAG. NO：1778) (SEQ. ID NO： 1791)

5′-GGBGT BTG-3′ (FRAG. NO：1779) (SEQ. ID NO： 1792)

5′-GCBCTGBCBT CT-3′ (FRAG. NO：1780) (SEQ. ID NO：1793)

5′-CCG GTG G-3′ (FRAG. NO：1781) (SEQ. ID NO： 1794)

5′-GG CCC TTG GC-3′ (FRAG. NO：1782) (SEQ. ID NO： 1795)

5

-GCT TGT GTG CTC TGC TGT CTC T-3

(FRAG. NO：1192)(SEQ. ID NO：1201)

5′-TGG TTC CTT CCG GTG GTT TCT TCC TGG CTC TTG TCC T-3

(FRAG. NO：1193)(SEQ. ID NO：1202)

5-TTC TCT TGG CCC TTG GC-3

(FRAG. NO：1194)(SEQ. ID NO：1203)

5′-GGGGTGGBBB GGTTTGGBGT BTGTCTTTBT GCBCTGBCBT CTBBGTTCTT TBGCBCTCCT TGGCBBBBCTGCBCCTTCBC BCBGBGC-3′ (FRAG. NO：1783) (SEQ. ID NO： 1796)

Human neutrophilic elastase (Medullasin) nucleic acids and antisense oligonucleotide fragments

5′-GGGCTCCCGC CGCGBGBGGT TBTGGGCTCC CBGGBCCBCC CGCBCCGCGC GGBCGTTTBC BTTCGCCBCGCBGTGCGCGG CCGBCBTGBC GBBGTTGGGC GCBBTCBGGG TGGCGCCGCB GBBGTGGCCT CCGCGCBGCT GCBGGGBCBCCBTGBBGGGC CBCGCGTGGG GCCGCGCTCG CCGGCCCCCC BCBBTCTCCG BGGCCBGCGC GGTGCCCCCC BGCBGCBBGGCCGGCBGGBC BCBGGCGBGG BGBCBCGCGB GTCGGCGGCC GBGGGTCBTG GTGGGGCTGG GGCTCCGGGG TCTCTGCCCCTCCGTGCTGG TGGGGCTGGG GCTCCGGGG TCTCTGCCCC TCCGTGCCGC GTGGGGCCGC GCTCGCCGGC CCCCCCCTGCCGGGTGGGCT CCCGCCGCGC GCCGGCCTGC CGGCCCCTCG TGGGTCCTGC TGGCCGGGTC CGGGTCCCGGGGGTGGGGCG CGBGTCGGCG GCCGBGGGTC-3′ (FRAG. NO：1784) (SEQ. ID NO： 1797)

5′-GG TGG GGC-3′ (FRAG. NO：1785) (SEQ. ID NO： 1798)

5′-G GGG CCG -3′ (FRAG. NO：1786) (SEQ. ID NO：1799)

5′- GGC CGG GTC CGG G-3′ (FRAG. NO：1787) (SEQ. ID NO： 1800)

5

-TGG TGG GGC TGG GGC TCC GGG GTC TCT GCC CCT CCG TGC-3

(FRAG. NO：1195)(SEQ. ID NO：1204)

5

-CGC GTG GGG CCG CGC TCG CCG GCC CCC C-3(FRAG. NO：1196)(SEQ. ID NO：1205)

5

-CCT GCC GGG TGG GCT CCC GCC GCG-3

(FRAG. NO：1197)(SEQ. ID NO：1206)

5-CGC CGG CCT GCC GGC CCC TC-3

(FRAG. NO：1198)(SEQ. ID NO：1207)

5-GTG GGT CCT GCT GGC CGG GTC CGG GTC CCG GGG GTG GGG-3

(FRAG. NO：1199)(SEQ. ID NO：1208)

5-CGC GBG TCG GCG GCC GBG GGT C-3

(FRAG. NO：1200)(SEQ. ID NO：1209)

5′-GGGCTCCCGC CGCGBGBGGT TBTGGGCTCC CBGGBCCBCC CGCBCCGCGC GGBCGTTTBC BTTCGCCBCGCBGTGCGCGG CCGBCBTGBC GBBGTTGGGC GCBBTCBGGG TGGCGCCGCB GBBGTGGCCT CCGCGCBGCT GCBGGGBCBCCBTGBBGGGC CBCGCGTGGG GCCGCGCTCG CCGGCCCCCC BCBBTCTCCG BGGCCBGCGC GGTGCCCCCC BGCBGCBBGGCCGGCBGGBC BCBGGCGBGG BGBCBCGCGB GTCGGCGGCC GBGGGTCBTG GTGGGGCTGG GGCTCCGGGG TCTCTGCCCCTCCGTGC-3′ (FRAG. NO：1788) (SEQ. ID NO：1801)

Human neutrophil oxidase factor nucleic acids and antisense oligonucleotide fragments

5′-CGGGBGTGGG GGTCCTGGBC GGCBCTGBBG GCBTCCBGGG CTCCCTTCCB GTCCTTCTTG TCCGCTGCCBGCBCCCCTTC BTTCCBGBGG CTGBTGGCCT CCBCCBGGGB CBTGBTTBGG TBGBBBCTBG GBGGCCGGCC TCCBCCRGGGBCBTGGTCCT TCTTGTCCGC TGCCTCTCTG GGGTTTTCGG TCTGGGTGGG CTTTCCTCCT GGGGCTGCTG CTGGGCTCTTCTTTTTGTTT CTGGCCTGGT GCTCTCTCGT GCCCTTTCCC TTGGGTGTCT TGTTTTTGTG GCCTCCBCCB GGGBCBTG-3′(FRAG. NO：1789) (SEQ. ID NO： 1802)

5′-CGGGBGTGGG GG-3 ′ (FRAG. NO：1790) (SEQ. ID NO：1803)

5′-GCCBGCBCCCC-3′ (FRAG. NO：1791) (SEQ. ID NO：1804)

5′-C CBC CBG-3′ (FRAG. NO：1792) (SEQ. ID NO：1805)

5-GGC CTC CBC CBG GGB CBT G-3

(FRAG. NO：1201)(SEQ. ID NO：1210)

5-GTCCTT CTT GTC CGCTGC C-3(FRAG. NO：1202)(SEQ. ID NO：1211)

5

-TCT CTG GGG TTT TCG GTC TGG GTG G-3(FRAG NO：1203)(SEQ.ID NO：1212)

5-GCT TTC CTC CTG GGG CTG CTG CTG-3(FRAG. NO：1204)(SEQ. ID NO：1213)

5-GGC TCT TCT TTT TGT TTC TGG CCT GGT G-3

(FRAG. NO：1205)(SEQ. ID NO：1214)

5

-CTC TCT CGT GCC CTT TCC-3

(FRAG. NO：1206)(SEQ. ID NO：1215)

5

-CTT GGG TGT CTT GTT TTT GT-3

(FRAG. NO：1207)(SEQ. ID NO：1216

5

-GGC CTC CBC CBG GGB CBT G-3(FRAG. NO：1208)(SEQ. ID NO：1217)

5′-CGGGBGTGGG GGTCCTGGBC GGCBCTGBBG GCBTCCBGGG CTCCCTTCCB GTCCTTCTTG TCCGCTGCCBGCBCCCCTTC BTTCCBGBGG CTGBTGGCCT CCBCCBGGGB CBTGBTTBGG TBGBBBCTBG GBGGCC-3′ (FRAG.NO：1793)(SEQ. ID NO：1806)

Human cathepsin G nucleic acids and antisense oligonucleotide fragments

5′-CCCTCCBCBT CTGCTCTGBC CTGCTGGBCT CTGGBTCTGB BGBTBCGCCB TGTBGGGGCG GGBGTGGGGCCTGCTCTCCC GGCCTCCGBT GBTCTCCCCT GCCTCBGCCCCBGTGGGTBG GBGBBBGGCC BGCBGBBGCB GGBGTGGCTGCBTCTTTCCT GGTGGGGCCT GCTCTCCCGG CCTCCGTGTG TTGCTGGGTG TTTTCCCGTC TCTGGTCTGC CTTCGGGGGTCGT-3′ (FRAG. NO：1794) (SEQ. ID NO： 1807)

5′-GBBGBTBCGCC-3′ (FRAG. NO：1795) (SEQ. ID NO： 1808)

5′-CBGCCCCBG-3′ (FRAG. NO：1796) (SEQ. ID NO： 1809)

5′-TCC CGT CTC TGG-3′ (FRAG. NO：1797) (SEO. ID NO： 1810)

5

-GTG GGG CCT GCT CTC CCG GCC TCC G-3

(FRAG. NO：1209)(SEQ. ID NO：1218)

5

-TGT GTT GCT GG GTG TTT TCC CGT CTC TGG-3

(FRAG. NO：1210)(SEQ. ID NO：1219)

5

-TCT GCC TTC GGG GGT CGT-3(FRAG. NO：1211)(SEQ. ID NO：1220)

5′-CCCTCCBCBT CTGCTCTGBC CTGCTGGBCT CTGGBTCTGB BGBTBCGCCB TGTBGGGGCG GGBGTGGGGCCTGCTCTCCC GGCCTCCGBT GBTCTCCCCT GCCTCBGCCC CBGTGGGTBG GBGBBBGGCC BGCBGBBGCB GGBGTGGCTG-3′ (FRAG. NO：1798) (SEQ. IDNO： 1811)

Human defensin 1 nucleic acids and antisense oligonucleotide fragments

5′-CCGGGGCTGC BGCBBCCTCB TCBGCTCTTG CCTGGBGTGG CTCBGCCTGG GCCTGCBGGG CCBCCBGGBGBBTGGCBGCB BGGBTGGCGB GGGTCCTCBT GGCTGGGGTC BCBGBTCCTC TBGCTBGGCB GGGTGBCCBG BGBGGGC GGGTCC TCB TGG CTG GGG GCC TGG GCC TGC BGG GCC GCT CTT GCC TGG BGT GGC TC GCC CBG BGT CTT CCC TGG TGCTCAGCCTC CAAAGGAGCC AGCCTCTCCC CAGTTCCTGA AATCCTGAGT GTTGCCTGCC AGTCGCCATG AGAACTTCCTACCTTCTGCT GTTTACTCTC TGCTTACTTT TGTCTGAGAT GGCCTCAGGT GGTAACTTTC TCACAGGCCT TGGCCACAGATCTGATCATT ACAATTGCGT CAGCAGTGGA GGGCAATGTC TCTATTCTGC CTGCCCGATC TTTACCAAAA TTCAAGGCACCTGTTACAGA GGGAAGGCCA AGTGCTGCAA GTGAGCTGGG AGTGACCAGA AGAAATGACG CAGAAGTGAAATGAACTTTT TATAAGCATT CTTTTAATAA AGGAAAATTG CTTTTGAAGT AT CTGCAGTGGT AAAAAGATTCTATATCTGCT GTTTGATGAA TGCAGCACCC ACTAGCCACA TAGTGCTCGT GAGCACTTGC AATGCGGCTA GGGTGATTTCAATTAACCTA AAAGAGAACA GCCACAGGGA GCATGTGGCT GCCATATTGG ATGGTGCTGC TTTGAGAACAAAATGAGAGA AATGAAGCCT CTATTTACCT TGGTTGGCGG AACACATTGA AGGGACTCTG TATTGATACCAGGCTTCAAA CTTTGGGAAG TGTACTGGCC AACTTAAACA CATCCACAGG AGAATGAAGA GGTTTGGGAAGGGACCAGAA ACCAGGCATT GAGGACAATG AGAAGAGTTT TTCAAAAGTG GAATTACTGC AAAAAGTGGAAAAATAGCCT TTGGATGGAA GTTACTGATG AGACAATTTC CATCGGTGTG AAAGCCATCT TTCCAACAGAGATCTGCAAC ATGAGAATGT ACTGTCTCCT AGGGTAGCGA TGGCCTCTTG TATTAGTCCG CTCAGGCTAC CAGATTTATCGTTTAAACTG CCCATAAACA GACCAGGCAG TTTAAACAAC AGAAATTTAT TTCCTCGCAG TCCTGGAGGCAGGAAGTCTG CGATCAAGGT GGAAGCAGGG TTGGCTTCTT CTCAGGTGTC TGTCCTTGGC TGGTAGATGACCGCCGCCTC CCTGGGTCCT CACATGGTCT TTCCTCTGTG TGTGTCTGTC CCAATCTCTT CTTATAAGGA TGCAAGTCTTATGGATCAGA GCACACCCCA ATGACCGTGT TTAACTTGAA TCACCTCTTT AAAGTTTCTC TCTCCAAATA CAATCACCTCCTGAGGCACT GTTAGGGCTT CGACACAGGA ATTCTTTTCC TAGGGGATTC AGTTCAGTCC AAAACGCCTACCAGTGGAGA CTTGCAACAT GGCGGCCTGC TGGTCCCTCG CCAGGAATAT CACAGGCGAC TGTTCCCTGTTGCATGGAAT AGAAGGCTAT TCCAGAGTAC TGTCTCTATT TATCAGATCT GGGATACTGG GAGAAGGGCAAAATAAAGTC CAAGTAGAAA AAAAAACTAT GAAAGTTTTA GAGAGTAACC ATAATTTCAG CCCGATGTGAAACGATCCTA GATTTCAGCT GAAATAGTGA TGTGGGAAGT GAGGGGGCCG GGATTCAAGG CAGAGGGAACAGCGTAACTG AAGGCATGGA AGGAGGGAAG TGTAGGCTGT GTTTGAAGAGTGGCAGCTGC TTCCACATTTCTAAAACACA GGATGTGATT TTGGGGTGTG TTGAGACAAG GCAGAAAACT TGTTTGGAAA AATAACTTGAATTCCCTGCA CATTTAAAAT CTCTCAGCAG AAGAAAACCC CACTCAGAAC CCCACTGTTC ATTCCTTGGC TTGTATTTGGSCACAGCTGG CATAGCCCCA GACTGAGTAA GCTCTTCAGA CACCTCATTT CATGAGTAGC CCCAAAGATCAATCATGGGC CAATTTCTTG GAAGAGAAGA CTCTCCGGTG TTTTGCAGTT ATTTGTTCTG CTTTCGCGAG ATGTTCTCAAATCGTTGCAG CTACAAGCCA TGAGTCTGAA GTGTTTGTGT TCCCTCCTTA CAGGTGGTAA CTTTCTCACA GGCCTTGGCCACAGATCTGA TCATTACAAT TGCGTCAGCA GTGGAGGGCA ATGTCTCTAT TCTGCCTGCC CGATCTTTAC CAAAATTCAAGGCACCTGTT ACAGAGGGAA GGCCAAGTGC TGCAAGTGAG CTGAGAGTGA CCAGAAGAAA TGACGCAGAAGTGAAATGAA CTTTTTATAA GCATTCTTTT AATAAAGGAA AATTGCTTTT GAAGTATACC TCCTTTGGGC CAAAATGAATCTTGTGTCTC AATTGGAAGA GGTAAAGAAG TAGGGGGTTA GGGTGCATGG GTTGGAACGT GAGACAGGTCGAACCACAAA GCCTGCCTGG AAAAGGGGAG TGACGTCCTA GGCTTCAGTG ATGTCACCTC CACTTTGTTTGATCCACAAA CCAACAGGTG ACTGATTTTG GTCAGCTCAG CCTCCAAAGG AGCCAGCCTC TCCCCAGTTCCTGAAATCCT GAGTGTTGCC TGCCAGTCGC CATGAGAACT TCCTACCTTC TGCTGTTTAC TCTCTGCTTA CTTTTGTCTGGACGCAGAAG TGAAATGAAC TT-3′(FRAG. NO：___) (SEQ. ID NO：2475)

5′-CTGCAGTGGT AAAAAGATTC TATATCTGCT GTTTGATGAA TGCAGCACCC ACTAGCCACA TAGTGCTCGTGAGCACTTGC AATGCGGCTA GGGTGATTTC AATTAACCTA AAAGAGAACA GCCACAGGGA GCATGTGGCTGCCATATTGG ATGGTGCTGC TTTGAGAACA AAATGAGAGA AATGAAGCCT CTATTTACCT TGGTTGGCGGAACACATTGA AGGGACTCTG TATTGATACC AGGCTTCAAA CTTTGGGAAG TGTACTGGCC AACTTAAACACATCCACAGG AGAATGAAGA GGTTTGGGAA GGGACCAGAA ACCAGGCATT GAGGACAATG AGAAGAGTTTTTCAAAAGTG GAATTACTGC AAAAAGTGGA AAAATAGCCT TTGGATGGAA GTTACTGATG AGACAATTTCCATCGGTGTG AAAGCCATCT TTCCAACAGA GATCTGCAAC ATGAGAATGT ACTGTCTCCT AGGGTAGCGATGGCCTCTTG TATTAGTCCG CTCAGGCTAC CAGATTTATC GTTTAAACTG CCCATAAACA GACCAGGCAG TTTAAACAACAGAAATTTAT TTCCTCGCAG TCCTGGAGGC AGGAAGTCTG CGATCAAGGT GGAAGCAGGG TTGGCTTCTTCTCAGGTGTC TGTCCTTGGC TGGTAGATGA CCGCCGCCTC CCTGGGTCCT CACATGGTCT TTCCTCTGTG TGTGTCTGTCCCAATCTCTT CTTATAAGGA TGCAAGTCTT ATGGATCAGA GCACACCCCA ATGACCGTGT TTAACTTGAA TCACCTCTTTAAAGTTTCTC TCTCCAAATA CAATCACCTC CTGAGGCACT GTTAGGGCTT CGACACAGGA ATTCTTTTCC TAGGGGATTCAGTTCAGTCC AAAACGCCTA CCAGTGGAGA CTTGCAACAT GGCGGCCTGC TGGTCCCTCG CCAGGAATATCACAGGCGAC TGTTCCCTGT TGCATGGAAT AGAAGGCTAT TCCAGAGTAC TGTCTCTATT TATCAGATCT GGGATACTGGGAGAAGGGCA AAATAAAGTC CAAGTAGAAA AAAAAACTAT GAAAGTTTTA GAGAGTAACC ATAATTTCAGCCCGATGTGA AACGATCCTA GATTTCAGCT GAAATAGTGA TGTGGGAAGT GAGGGGGCCG GGATTCAAGGCAGAGGGAAC AGCGTAACTG AAGGCATGGA AGGAGGGAAG TGTAGGCTGT GTTTGAAGAG TGGCAGCTGCTTCCACATTT CTAAAACACA GGATGTGATT TTGGGGTGTG TTGAGACAAG GCAGAAAACT TGTTTGGAAAAATAACTTGA ATTCCCTGCA CATTTAAAAT CTCTCAGCAG AAGAAAACCC CACTCAGAAC CCCACTGTTC ATTCCTTGGCTTGTATTTGG SCACAGCTGG CATAGCCCCA GACTGAGTAA GCTCTTCAGA CACCTCATTT CATGAGTAGC CCCAAAGATCAATCATGGGC CAATTTCTTG GAAGAGAAGA CTCTCCGGTG TTTTGCAGTT ATTTGTTCTG CTTTCGCGAG ATGTTCTCAAATCGTTGCAG CTACAAGCCA TGAGTCTGAA GTGTTTGTGT TCCCTCCTTA CAGGTGGTAA CTTTCTCACA GGCCTTGGCCACAGATCTGA TCATTACAAT TGCGTCAGCA GTGGAGGGCA ATGTCTCTAT TCTGCCTGCC CGATCTTTAC CAAAATTCAAGGCACCTGTT ACAGAGGGAA GGCCAAGTGC TGCAAGTGAG CTGAGAGTGA CCAGAAGAAA TGACGCAGAAGTGAAATGAA CTTTTTATAA GCATTCTTTT AATAAAGGAA AATTGCTTTT GAAGTATACC TCCTTTGGGC CAAAATGAATCTTGTGTCTC AATTGGAAGA GGTAAAGAAG TAGGGGGTTA GGGTGCATGG GTTGGAACGT GAGACAGGTCGAACCACAAA GCCTGCCTGG AAAAGGGGAG TGACGTCCTA GGCTTCAGTG ATGTCACCTC CACTTTGTTTGATCCACAAA CCAACAGGTG ACTGATTTTG-3′(FRAG. NO：___) (SEQ. ID NO：2474)

5′-GCTCAGCCTC CAAAGGAGCC AGCCTCTCCC CAGTTCCTGA AATCCTGAGT GTTGCCTGCC AGTCGCCATGAGAACTTCCT ACCTTCTGCT GTTTACTCTC TGCTTACTTT TGTCTGAGAT GGCCTCAGGT GGTAACTTTC TCACAGGCCTTGGCCACAGA TCTGATCATT ACAATTGCGT CAGCAGTGGA GGGCAATGTC TCTATTCTGC CTGCCCGATC TTTACCAAAATTCAAGGCAC CTGTTACAGA GGGAAGGCCA AGTGCTGCAA GTGAGCTGGG AGTGACCAGA AGAAATGACGCAGAAGTGAA ATGAACTTTT TATAAGCATT CTTTTAATAA AGGAAAATTG CTTTTGAAGT AT-3′ (FRAG.NO：___) (SEQ.ID NO： 2472)

5′-CCGGGGC-3′ (FRAG. NO：1800) (SEQ. ID NO： 1813)

5′-GG GCCTGCBGGG CC-3′ (FRAG. NO：1801) (SEQ. ID NO： 1814)

5′-GGCBGCB BGG-3′ (FRAG. NO：1802) (SEQ. ID NO： 1815)

5-GGG TCC TCB TGG CTG GGG-3(FRAG. NO：1212)(SEQ. ID NO：1221)

5

-GCC TGG GCC TGC BGG GCC-3

(FRAG. NO：1213)(SEQ. ID NO：1222)

5′-GCT CTT GCC TGG BGT GGC TC-3′ (FRAG. NO：1214) (SEQ. ID NO：1223)

5′-GCC CBG BGT CTT CCC TGG T-3′ (FKAG. NO：1215) (SEQ. ID NO：1224)

5′-CCGGGGCTGC BGCBBCCTCB TCBGCTCTTG CCTGGBGTGG CTCBGCCTGG GCCTGCBGGG CCBCCBGGBGBBTGGCBGCB BGGBTGGCGB GGGTCCTCBT GGCTGGGGTC BCBGBTCCTC TBGCTBGGCB GGGTGBCCBG BGBGGGC-3′(FRAG. NO：1803) (SEQ. ID NO： 1816)

Human defensin 2 nucleic acids and antisense oligonucleotide fragments

5′-ATCCTTTAAG TCAATGGACT TTGCATCAGT CACACCATCT TTTGTTACTT TGGACTTCCC CAGCTATGTTCAATAATTAC TGTTCTTCCC TTGGGCCCCA TTGTAATGGC TACAGCCTCG ACAAAAAGTC TACACTTTGA AGCATTAAGGCTCGGACATC AGCACCAAAT TTTACATCTT TACCATCACT TCAAGTGAGG TGAGGAGCCA GTAGCCTGGACACTGGTCTC ATCTGGTGAA AGACTGTGGG TAATGGAAGC ATTTCTGTGG GGTGCTGGCA GGACATGTGCATGGCGAGGC AGGTCATC AG CAGCAAGTGA GAGCTGCCTC TTACTTTCTA AAGGTGACAT AGCAAATATACAAAAAAAAA TAAATAAATT ATTAATTTAG GTAGAGCACA TAAAGGCTTT ATTTCATATT CCATTTCTCT GTATGCTTTCTTCACCAGGA AGAAATAGTT TTAGTGTCAG GAATGAATGA GTCTGCCCCT CAATTCCAGC CTGCTCAACACACAAGGAAA CAAAGCCCTG ACAATCAGAG TGACTCCCTG GTGACTAAGC TCCCAGTCCT GGATGCATATTTGTTTAGCA GTTCTGACAG CATTTGACCC AGCCCTCTCT CTGCATATCC CATCAGAACC TTCTTTTTTT TTTTTTTCTTTGAGACTGAG TCTTGCTCTG TCGGAAGCGA CTCCTGTGCC TCAGCCTCCC AAATACCTGG AATTATAGGCGTAAGCCATC ATGCCTGGCT AATTTTTGTA TTTTTCATGG AGATGGGGTT TTGCCATGTT GGTCAAATTG GTCTCACACTCCTGACCTCA TGTGATCCAC CTGCCTCAGC CTCCCAAACT GCTGGGATGA CAGGTGTAAG CCACCATGCTAGGCTCAGAA ATTTCCTTTT ATAAAAATGT CATTAAGGAT CTTGGCTGCA CAATATCGTT ACCAGCTTCC TTTAAATCCACTTCTGGCCT GCCAGGAATC AGGTTCTTCA GAACCTGACA TTTTAAATGA AGAGGTCAGG CAGTTCATGAGGAAAGCCTC ATTGTCCCCA TGTCTCTGTC ACTGCTGCAC CCCTGAGACA TCACAGACAT GGACACTGGGGCCTGCTTGT TTCTCAAACT GCCCTTAGAT CGAAAGAGGG AGGAACCAGG ATGAATGCCA CTCATTTTCCCAAGAAAGGC CCTCTCCTGA GTGCCCGGGA TGGGGCTCTG TCCATTGCCT GGGGCCGCCA ATTGCTACTCTGGGTTACGG AGGAAGGACA GGGTCCTGAG AGACACCAGA GACCTCACAC AGCCCTGAAA ACATGGGGCTCCTTCATAAG TGTTTCCCAT CACCAACAGG GAGACCACGT GGAGGCCTTG CAGCCCCACT CGGTGCTTCTCCACCAAATC CCAAGGGCAG TGACGCTGAC GTCTGTGGAA AGCAGAGAAA GCCCTGGCTC CCAAAGCCCTGAAGTCCCTG TGGAGCTGAC ATTCCCTGAG TGACGGTGTG AATGGAAGGA ACTCAAGTGC GGGTGGTAGGCCACCTCCTG GCCCAGGCCT GGGTGAACTC TGAGGGGACA CATGTAGTCA CAATCCCATC CTCCCATTCT CCTTCTCAGAGGAAGGAAGT GGGCATCCAT CTGCCTCATC TCTCTCCCGT GGGGAAGATG GGGAGTTTCA GGGGAACTTTCACATAAATT TCACCAGCTC AGATCTCCTG TGAGGATGGG GCCCACCATG CTCCCGGTGC TGCCAGAGGCCCTGAGCCCC TCCCAGGGTC CCTGGGTTTG AGCCAGCCCT GTATCATCCC CAGGAGCTGA ATGTCAGAGCAATGGATAGA ATTAGATGGA AAGAGCTCTC AATTTGACCT GAGACTGTCC CCAGATACTC AGGAAAAACAGGACGTCGCA CAGAGTGGGC AGCAGGTGAG TGGCAGGTTA TAGGTCCTGA GTTTGAGTTT GTTCTCACGTGAGACAGACC CAGCCCCTCA CTCCATTCAC ACACTGGGTT TTAAATGGTG CAAGATAGGA GCAATTTTCTGGTCCCAAGA GCAGGAGGAA GGGATTTTCT GGGGTTTCCT GAGTCCAGAT TTGCATAAGA TCTCCTGAGT GTGCATTGTTCTTTGAGGAC CATTCTCTGA CTCACCAGGT AAGTGGCTGA ATTCTAACCT CTGTAATGAG CATTGCACCC AATACCAGTTCTGAACTCTA CCTGGTGACC AGGGACCAGG ACCTTTATAA GGTGGAAGGC TTGATGTCCT CCCCAGACTCAGCTCCTGGT GAAGCTCCCA GCCATCAGCC ATGAGGGTCT TGTATCTCCT CTTCTCGTTC CTCTTCATAT TCCTGATGCCTCTTCCAGGT GAGATGGGCC AGGGAAATAG GAGGGTTGGC CAAATGGAAG AATGGCGTAG AAGTTCTCTGTCTCCTCTCA TTCCCCTCCA CCTATCTCTC CCTCATCCCT CTCTCTCCTT CCTCTCTCTG TGTGTCCCCT CCATCCTTTTCTCCTGCTTC TCTCTCTTCT TCCCTCTCTC TCTTTTTTCT GTCTTTCTTT TTCCTCTCTC CCTAGAGCAT GTCTTTCTTTCTTTCTCTTT CCTTTCTTCT ACCCACACTT TTAGACTGAA TGCCCTATTT AATTGAACAA AGCATTGCTT CCTTCAATAGAAAAGGAGTT TGAGAACCCA ATGGACACCT CACTCGTTCT TCTAAGCCAA TATGAAGGAG CCCAGTAGCTTGTAAATATC ATCTCTTCAC TGCTTTCCAT GCTACAACTG CTGAGACTAT GGTTGAAACC TGTTAGGTGA CTTTTTAAATAAAAGGCAGA AATTTTGATT TTATCTAAAG AAAGTAGTAT AGAATGTCAT TTTCTAAATT TTTATATTTA AAGGGTAGATACTGCAACCT AGAGAATTCC AGATAATCTT AAGGCCCAGC CTATACTGTG AGAACTACTG CAGCAAGACACTCTGCCTCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG TACAGCCCAT TGAAACCTAC TTTTAAACCT GGATGCCTAA CCTTCATTTT CTCCTTGATA TTATGAAAATAAAATAAAAA CCATGAAAGG ATAAAAGAGG GAGAGTGGAA GGGAAGGATG GAGAAAGGGA AAAAGAAAATTTGAGAGTAA ATCCTAAAAC AATTAATCTA ATAGATATCA TCTTGTGAAA TCCTCATTTT ACCAATCTTA TTTATGAGTCCTGGGTTTTG TGAGAACAAT GGGGTTCTGA GAGGCACCAG AGACCTCATG TTTTCCAAAA CCTAGAACAGTATAATGAAG GAAGGCGGGG AGGCAGGGAG GCAGGGAGGCAGGGAGGCAG GGAGGCGGGC AGGTGGGGAGGGAGGGACGG AAGGAGGGAG GGAGGGAGGG AGGGAGGGAG GGAGGGATAA AAAAAGAAGA ATGAGGTTGAAACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACTTGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCAT CTTTTTATCC CATCTCAGGT CAAATACTTA ACAGACTAAATGATTTGAAA AAGCAAAAGT TTACTGGCTT GTGTGTGTTA AAATGGAGGT ATGGTGGCTT TGATATTATC TTCTTGTGGTGGAGCTGAAT TCACAAGAGA TCGTTGCTGA GCTCCTACCA GACCCCACCT GGAGGCCCCA GTCACTCAGGAGAGATCAGG GTCTTTCACA ATCAGGTTCT ACAAAAATAA ACATCCCCCC AACCACAGCA GTGCCAGTTTCCATGTCAGA AACTTAGATC CAAATGACTG ACTCGCGTCT CATTATCATG ATGGAAAAGC CCAGGCTTGAGAAAGAAGCC CGCTGCGGAT TTACTCAAGG CGATACTGAC ACAGGGTTTG TGTTTTTCCA ACATGAGTTT TGAGTTCTTACACGCTGTTT GCTCTTTTTG TGTGTTTTTT CCCTGTTAGG TGTTTTTGGT GGTATAGGCG ATCCTGTTAC CTGCCTTAAGAGTGGAGCCA TATGTCATCC AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTGGAACAAAATG CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGCTCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC AATCTTTATCCTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA TATCCTTGAA ACACCTTTTT CTGCTCTCCAGGAAGGGGTC AGGGCTGCCA CAGCGGGGCT TGGAGTGCTT TCCAGGGTCA CAGGCATCTG TATTCTTTGGATTCCTTGAC CTTCCCCATT TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCC TGCATCCTCC CCTTGCATGCCCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGAC CAGTTCCCTC ATGGAATCATAGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGAC TCCCTTCTTC TGGCTAAGGT TTCTTATGCAATTAT GAATTCACAT TTCTCACCTT TTGATGTATT AAGAAAGTAT GGAGAAATAT ATCCTCTATC AAATTTTCATGCCTTCAATA ATTTCTAATT CATCAGTCAG TGTTTTTCCA TCCTTTACTG TGATGATGCC CTTTCTTCCA AACTTTTTCATTGCATCAGA GATGATGTTA CCAATTTCTT TGTCTCCATT TGCAGAAATT GTAGCAACCT GTGCAATTTC TTCAGGTTTGGTCACAGGTT TAGACTGCTT TTTAAGTTCA GCAATTACAG CATCAACAGC TAACATCACA CCTCTCTTGA TTTCCACTGGATTAGCACCT TTGCTAACCT TCTGGAAGGC TTATTTGGAA ATAGAGCATA CCAGTACAGC AGCAGTGATAGTGCCATCCC CCAGTCTCTC CATTTGTGTT ATTGGCAACA TCTTGGACAA GTTTAGCTCC AATGCTTTTA TATTTATCCTTTAAGTCAAT TGACTTTGCA TCAGTCACAC CATCTTTTGT TACTTTGGGA CTTCCCCAGC TATGTTCAAT AATTACTGTTCTTCCCTTTG GCCCCATTGT AATGGCTACA GCATCGACAA AAAGTCTACA CTTTGAAGCA TTAAGGCTCAGACATCAGCA CCAAATTTTA CATCTTTACC ATCACTTCAA GTGAGGTGAG GAGCCAGTAG CCTGGACACTGGTCTCATCT GGTGAAAGAC TGTGGGTAAT GGAAGCATTT CTGTGGGGTG GTGGCAGGAC ATGTGCATGGTGAGGCAGGT CATCAGCAGC AAGTGAGAGC TGCCTCTTAC TTTCTAAAGG TGACATAGCA AGTATACAAAAAAAAATAAA ATATTAATTT AGGCAGAGCA CATAAAGGCT TTATTTCATA TTCCATTTCT CTGTATGCTT TCTTCACCAGGAAGAAATAG TTTTAGTGTC AGGAATGAAT GAGTCTGCCC CTCAATTCCA GCCTGCTCAG CACACAAGGAAACAAAGCCC TGACAATCAG AGTGACTCCC TGGTGACTAA GCTCCAGTCC TGGATGCATA TTTGTTTAGCAGTTCTGACA GCATCTGACC CAGCCCTCTC TTTGCATACC CCACCAGAAC CTTCTTTTTT TTTTITTTTC TTTGAGACTGAGTCTTGCTC TGTCGGAAGC GATTCCCGTG CCTCAGCCTC CCAAATACCT GGAATTATAG GCGTAAGCCA TCATGCCTGGCTAATTTTTG TATTTTTCAT GGAGATGGGG TTTTGCCATG TTGGTCAAAT TGGTCTCACA CTCCTGACCT CATGTGATCCACCTGCCTCA GCCTCCCAAA GTGCTGGGAT GACAGGTGTA AGCCACCATG CTAGGCTCAG AAATTTCCTTTTATAAAAAT GTCATTAAGG ATCTTGGCTG CACAATATCG TTACCAGCTT CCTTTAAATC CACCTCTGGC CTGCCAGGAATCAGGGTTCT TCAGAACCTG ACATTTTAAA TGAAGAGGTC AGGCAGGTCA TGAGGAAAGC CTCATTGTCCCCATGTCTCT GTCACTGCTG CACCCCTGAG ACATCACAGA CATGGACACT GGGGCCTGCT TGTTTCTCAA ACTGCCCTTAGATCGAAAGA GGGAGGAACC AGGATGAATG CCACTCATTT TCCCAAGAAA GGCCCTCTCC TGAGTGCCCGGGATGGGGCT CTGTCCATTG CCTGGGGCCG CCAATTGCTA CTCTGGGTTA CGGAAGAAGG ACAGGGTCCTGAGAGACACC AGAGACCTCA CACAGCCCTG AAAACATGGG GCTCCTTCAT AAGTGTTTCC CATCACCAACAGGGAGACCA CGTGGAGGCC TTGCAGCCCT ACTCGGTGCT TCTCCACCAA ATCCCAAGGG CAGTGACGCTGACGTCTGTG GAAAGCAGAG AAAGCCCTGG CTCCCAAAGC CCTGAAGTCC TGTGGAGCTG ACATTCCCTGAGTGACGGTG TGAATGGAAG GAACTCAAGT GCGGGTGGTA GGCCACCTCC TGGCCCAGGC CTGGGTGAACTCTGAGGGGA CACATGTAGT CACAATCCCA TCCTCCCATT CTCCTTCTCA GAGGAAGGAA GTGGGCATCCATCTGCCTCA TCTCTCTCCC GTGGGGAAGA TGGGGAGTTT CAGGGGAACT TTCACATAAA TTTCACCAGC TCAGATCTCCTGTGAGGATG GGGCCCACCA TGCTCCCGGT GCTGCCAGAG GCCCTGAGCC CCTCCAGGGT CCCTGGGTTTGAGCCAGCCC TGTATCATCC CCAGGAGCTG AATGTCCGAA CAATGGATAG AATTAGATGG AAAGAGCTCTCAATTTGGCC TGAGACTGTC CCCAGATACT CAGGAAAAAC AGGACGTCGC ACAGAGTGGG CAGCAGGTGAGTGGCAGGTT ATAGGTCCTG AGTTTGAGTT TGTTCTCACG TGAGACAGAC CCAGCCCCTC ACTCCATTCA CACACTGGGTTTTAAATGGT GCAAGATAGG AGGAATTTTC TGGTCCCAAG AGCAGGAGGA AGGGATTTTC TGGGGTTTCCTGAGTCCAGA TTTGCATAAG ATCTCCTGAG TGTGCATTGT TCTTTGAGGA CCATTCTCTG ACTCACCAGG TAAGTGGCTGAATTCTAACC TCTGTAATGA GCATTGCACC CAATACCAGT TCTGAACTCT ACCTGGTGAC CAGGGACCAG GACCTTTATAAGGTGGAAGG CTTGATGTCC TCCCCAGACT CAGCTCCTGG TGAAGCTCCC AGCCATCAGC CATGAGGGTCTTGTATCTCC TCTTCTCGTT CCTCTTCATA TTCCTGATGC CTCTTCCAGG TGAGATGGGC CAGGGAAATA GGAGGGTTGGCCAAATGGAA GAATGGCGTA GAAGTTCTCT GTCTCCTCTC ATTCCCCTCC ACCTATCTCT CCCTCATCCC TCTCTCTCCTTCCTCTCTCT GTGTGTCCCC TCCATCCTTT TCTCCTGCTT CTCTCTCTTC TTCCCTCTCT CTCTTTTTTT CTGTCTTTCTTTTTCCTCTC TCCCTAGAGC ATGTCTTTCT TTCTTTCTCT TTCCTTTCTT CTACCCACAC TTTTAGACTG AGTAGACTGAATGCCCTATT TAATTGAACC AAGCATTGCT TCCTTCAATA GAAAAGGAGT TTGAGAACCC AATGGACAAC TCACTCGTTCTTCTAAGCCA ATATGAAGGA GCCCAGTAGT TTGTAAATAT CATCTCTTCA CTGCTTTCCA TGCTACAACT GCTGAGACTATGGTTGAAAC CTGTTAGGTG ACTTTTTAAA TAAAAGGCAG AAATTTTGAT TTTATCTAAA GAAAGTAGTA TAGAATGTCATTTTCTAAAT TTTTATATTT AAAGAGTAGA TACTGCAACC TAGAGAATTC CAGATAATCT TAAGGCCCAG CCTATACTGTGAGAACTACT GCAGCAGACA CTCTGCCCCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCCACTAGGCCAC TGCAGGTTCA CAGGACAGGG ACAGCCCATT GAAACCAACT TTTAAACCTG GATGCCTAACCTTCATTTTC TCCTTGATAT TATGAAAATA AAATAAAAAC CATGAAAGGA TAAAAGAGGG AGAGTGGAAGGGAAGGATGG AGAAAGGGAA AAAGAAAATT TGAGAGTAAA TCCTAAAACA ATTAATCTAA TAGATATCATCTTGTGAAAT CCTCATTTTA CCAATCTTAT TTATGAGTCC TGGGTTTTGT GAGAACAATG GGGTTCTGAG AGGCACCAGAGACCTCATAT TTTCCAAAAC CTAGAACAGT ATAATGAAGG AAGGAGGGAA GGAGGGAGGG AGGGAGGGAAGGAGGGAAGG AGGGAGGGAG GGAGGGAAAC AAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAGAAACAAGCCA TTACAAAATT TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAAACAATTTCAG TAAGTTGCAT CTTTTTTATC CCATCTCAGA TCAAATACTT AACAGACTAA ATGATTTGAA AAAGCAAAAGTTTACTGGCT TGTGTGTGTT AAAATGGAGG TATGGTGGCT TTGATATTAT CTTCTTGTGG TGGAGCTGAA TTCACAAGAGATCGTTGCTG AGCTCCTGCC AGACCCCACC TGGAGGCCCC AGTCACTCAG GAGAGATCAG GGTCTTTCACAATCAGGTTC TACAAAAATA AACATCCCCC AAACCACAGC AGTGCCAGTT TCCATGTCAG AAACTTAGATCCAAATGACT GACTCGCGTC TCATTATCAT GATGGAAAAG CCCAGGCTTG AGAAAGAAGC CCGCTGCGGATTTACTCAAG GCGATACTGA CACAGGGTTT GTGTTTTTCC AACATGAGTT TTGAGTTCTT ACACGCTGTT TGCTCTTTTTGTGTGTTTTT TCCCTGTTAG GTGTTTTTGG TGGTATAGGC GATCCTGTTA CCTGCCTTAA GAGTGGAGCC ATATGTCATCCAGTCTTTTG CCCTAGAAGG TATAAACAAA TTGGCACCTG TGGTCTCCCT GGAACAAAAT GCTGCAAAAAGCCATGAGGA GGCCAAGAAG CTGCTGTGGC TGATGCGGAT TCAGAAAGGG CTCCCTCATC AGAGACGTGCGACATGTAAA CCAAATTAAA CTATGGTGTC CAAAGATACG CAATCTTTAT CCTAGTAATT GTGGTCATTG GGTGATGTTGGTTTGGGCAG GCCATCTCTA ATATCCTTGA AACACCTTTT TCTGCTCTCC AGGAAGGGGT CAGGGCTGCCACAGCGGGGC TTGGAGTGC-3′ (FRAG. NO：__) (SEQ. ID NO：3011)

5′-GAATTCACAT TTCTCACCTT TTGATGTATT AAGAAAGTAT GGAGAAATAT ATCCTCTATC AAATTTTCATGCCTTCAATA ATTTCTAATT CATCAGTCAG TGTTTTTCCA TCCTTTACTG TGATGATGCC CTTTCTTCCA AACTTTTTCATTGCATCAGA GATGATGTTA CCAATTTCTT TGTCTCCATT TGCAGAAATT GTAGCAACCT GTGCAATTTC TTCAGGTTTGGTCACAGGTT TAGACTGCTT TTTAAGTTCA GCAATTACAG CATCAACAGC TAACATCACA CCTCTCTTGA TTTCCACTGGATTAGCACCT TTGCTAACCT TCTGGAAGGC TTATTTGGAA ATAGAGCATA CCAGTACAGC AGCAGTGATAGTGCCATCCC CCAGTCTCTC CATTTGTGTT ATTGGCAACA TCTTGGACAA GTTTAGCTCC AATGCTTTTA TATTTATCCTTTAAGTCAAT TGACTTTGCA TCAGTCACAC CATCTTTTGT TACTTTGGGA CTTCCCCAGC TATGTTCAAT AATTACTGTTCTTCCCTTTG GCCCCATTGT AATGGCTACA GCATCGACAA AAAGTCTACA CTTTGAAGCA TTAAGGCTCAGACATCAGCA CCAAATTTTA CATCTTTACC ATCACTTCAA GTGAGGTGAG GAGCCAGTAG CCTGGACACTGGTCTCATCT GGTGAAAGAC TGTGGGTAAT GGAAGCATTT CTGTGGGGTG GTGGCAGGAC ATGTGCATGGTGAGGCAGGT CATCAGCAGC AAGTGAGAGC TGCCTCTTAC TTTCTAAAGG TGACATAGCA AGTATACAAAAAAAAATAAA ATATTAATTT AGGCAGAGCA CATAAAGGCT TTATTTCATA TTCCATTTCT CTGTATGCTT TCTTCACCAGGAAGAAATAG TTTTAGTGTC AGGAATGAAT GAGTCTGCCC CTCAATTCCA GCCTGCTCAG CACACAAGGAAACAAAGCCC TGACAATCAG AGTGACTCCC TGGTGACTAA GCTCCAGTCC TGGATGCATA TTTGTTTAGCAGTTCTGACA GCATCTGACC CAGCCCTCTC TTTGCATACC CCACCAGAAC CTTCTTTTTT TTTTTTTTTC TTTGAGACTGAGTCTTGCTC TGTCGGAAGC GATTCCCGTG CCTCAGCCTC CCAAATACCT GGAATTATAG GCGTAAGCCA TCATGCCTGGCTAATTTTTG TATTTTTCAT GGAGATGGGG TTTTGCCATG TTGGTCAAAT TGGTCTCACA CTCCTGACCT CATGTGATCCACCTGCCTCA GCCTCCCAAA GTGCTGGGAT GACAGGTGTA AGCCACCATG CTAGGCTCAG AAATTTCCTTTTATAAAAAT GTCATTAAGG ATCTTGGCTG CACAATATCG TTACCAGCTT CCTTTAAATC CACCTCTGGC CTGCCAGGAATCAGGGTTCT TCAGAACCTG ACATTTTAAA TGAAGAGGTC AGGCAGGTCA TGAGGAAAGC CTCATTGTCCCCATGTCTCT GTCACTGCTG CACCCCTGAG ACATCACAGA CATGGACACT GGGGCCTGCT TGTTTCTCAA ACTGCCCTTAGATCGAAAGA GGGAGGAACC AGGATGAATG CCACTCATTT TCCCAAGAAA GGCCCTCTCC TGAGTGCCCGGGATGGGGCT CTGTCCATTG CCTGGGGCCG CCAATTGCTA CTCTGGGTTA CGGAAGAAGG ACAGGGTCCTGAGAGACACC AGAGACCTCA CACAGCCCTG AAAACATGGG GCTCCTTCAT AAGTGTTTCC CATCACCAACAGGGAGACCA CGTGGAGGCC TTGCAGCCCT ACTCGGTGCT TCTCCACCAA ATCCCAAGGG CAGTGACGCTGACGTCTGTG GAAAGCAGAG AAAGCCCTGG CTCCCAAAGC CCTGAAGTCC TGTGGAGCTG ACATTCCCTGAGTGACGGTG TGAATGGAAG GAACTCAAGT GCGGGTGGTA GGCCACCTCC TGGCCCAGGC CTGGGTGAACTCTGAGGGGA CACATGTAGT CACAATCCCA TCCTCCCATT CTCCTTCTCA GAGGAAGGAA GTGGGCATCCATCTGCCTCA TCTCTCTCCC GTGGGGAAGA TGGGGAGTTT CAGGGGAACT TTCACATAAA TTTCACCAGC TCAGATCTCCTGTGAGGATG GGGCCCACCA TGCTCCCGGT GCTGCCAGAG GCCCTGAGCC CCTCCAGGGT CCCTGGGTTTGAGCCAGCCC TGTATCATCC CCAGGAGCTG AATGTCCGAA CAATGGATAG AATTAGATGG AAAGAGCTCTCAATTTGGCC TGAGACTGTC CCCAGATACT CAGGAAAAAC AGGACGTCGC ACAGAGTGGG CAGCAGGTGAGTGGCAGGTT ATAGGTCCTG AGTTTGAGTT TGTTCTCACG TGAGACAGAC CCAGCCCCTC ACTCCATTCA CACACTGGGTTTTAAATGGT GCAAGATAGG AGGAATTTTC TGGTCCCAAG AGCAGGAGGA AGGGATTTTC TGGGGTTTCCTGAGTCCAGA TTTGCATAAG ATCTCCTGAG TGTGCATTGT TCTTTGAGGA CCATTCTCTG ACTCACCAGG TAAGTGGCTGAATTCTAACC TCTGTAATGA GCATTGCACC CAATACCAGT TCTGAACTCT ACCTGGTGAC CAGGGACCAG GACCTTTATAAGGTGGAAGG CTTGATGTCC TCCCCAGACT CAGCTCCTGG TGAAGCTCCC AGCCATCAGC CATGAGGGTCTTGTATCTCC TCTTCTCGTT CCTCTTCATA TTCCTGATGC CTCTTCCAGG TGAGATGGGC CAGGGAAATA GGAGGGTTGGCCAAATGGAA GAATGGCGTA GAAGTTCTCT GTCTCCTCTC ATTCCCCTCC ACCTATCTCT CCCTCATCCC TCTCTCTCCTTCCTCTCTCT GTGTGTCCCC TCCATCCTTT TCTCCTGCTT CTCTCTCTTC TTCCCTCTCT CTCTTTTTTT CTGTCTTTCTTTTTCCTCTC TCCCTAGAGC ATGTCTTTCT TTCTTTCTCT TTCCTTTCTT CTACCCACAC TTTTAGACTG AGTAGACTGAATGCCCTATT TAATTGAACC AAGCATTGCT TCCTTCAATA GAAAAGGAGT TTGAGAACCC AATGGACAAC TCACTCGTTCTTCTAAGCCA ATATGAAGGA GCCCAGTAGT TTGTAAATAT CATCTCTTCA CTGCTTTCCA TGCTACAACT GCTGAGACTATGGTTGAAAC CTGTTAGGTG ACTTTTTAAA TAAAAGGCAG AAATTTTGAT TTTATCTAAA GAAAGTAGTA TAGAATGTCATTTTCTAAAT TTTTATATTT AAAGAGTAGA TACTGCAACC TAGAGAATTC CAGATAATCT TAAGGCCCAG CCTATACTGTGAGAACTACT GCAGCAGACA CTCTGCCCCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCCACTAGGCCAC TGCAGGTTCA CAGGACAGGG ACAGCCCATT GAAACCAACT TTTAAACCTG GATGCCTAACCTTCATTTTC TCCTTGATAT TATGAAAATA AAATAAAAAC CATGAAAGGA TAAAAGAGGG AGAGTGGAAGGGAAGGATGG AGAAAGGGAA AAAGAAAATT TGAGAGTAAA TCCTAAAACA ATTAATCTAA TAGATATCATCTTGTGAAAT CCTCATTTTA CCAATCTTAT TTATGAGTCC TGGGTTTTGT GAGAACAATG GGGTTCTGAG AGGCACCAGAGACCTCATAT TTTCCAAAAC CTAGAACAGT ATAATGAAGG AAGGAGGGAA GGAGGGAGGG AGGGAGGGAAGGAGGGAAGG AGGGAGGGAG GGAGGGAAAC AAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAGAAACAAGCCA TTACAAAATT TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAAACAATTTCAG TAAGTTGCAT CTTTTTTATC CCATCTCAGA TCAAATACTT AACAGACTAA ATGATTTGAA AAAGCAAAAGTTTACTGGCT TGTGTGTGTT AAAATGGAGG TATGGTGGCT TTGATATTAT CTTCTTGTGG TGGAGCTGAA TTCACAAGAGATCGTTGCTG AGCTCCTGCC AGACCCCACC TGGAGGCCCC AGTCACTCAG GAGAGATCAG GGTCTTTCACAATCAGGTTC TACAAAAATA AACATCCCCC AAACCACAGC AGTGCCAGTT TCCATGTCAG AAACTTAGATCCAAATGACT GACTCGCGTC TCATTATCAT GATGGAAAAG CCCAGGCTTG AGAAAGAAGC CCGCTGCGGATTTACTCAAGGCGATACTGA CACAGGGTTT GTGTTTTTCC AACATGAGTT TTGAGTTCTT ACACGCTGTT TGCTCTTTTTGTGTGTTTTT TCCCTGTTAG GTGTTTTTGG TGGTATAGGC GATCCTGTTA CCTGCCTTAA GAGTGGAGCC ATATGTCATCCAGTCTTTTG CCCTAGAAGG TATAAACAAA TTGGCACCTG TGGTCTCCCT GGAACAAAAT GCTGCAAAAAGCCATGAGGA GGCCAAGAAG CTGCTGTGGC TGATGCGGAT TCAGAAAGGG CTCCCTCATC AGAGACGTGCGACATGTAAA CCAAATTAAA CTATGGTGTC CAAAGATACG CAATCTTTAT CCTAGTAATT GTGGTCATTG GGTGATGTTGGTTTGGGCAG GCCATCTCTA ATATCCTTGA AACACCTTTT TCTGCTCTCC AGGAAGGGGT CAGGGCTGCCACAGCGGGGC TTGGAGTGC-3′ (FRAG. NO：___) (SEQ. ID NO：2476)

5′-ATCCTTTAAG TCAATGGACT TTGCATCAGT CACACCATCT TTTGTTACTT TGGACTTCCC CAGCTATGTTCAATAATTAC TGTTCTTCCC TTGGGCCCCA TTGTAATGGC TACAGCCTCG ACAAAAAGTC TACACTTTGA AGCATTAAGGCTCGGACATC AGCACCAAAT TTTACATCTT TACCATCACT TCAAGTGAGG TGAGGAGCCA GTAGCCTGGACACTGGTCTC ATCTGGTGAA AGACTGTGGG TAATGGAAGC ATTTCTGTGG GGTGCTGGCA GGACATGTGCATGGCGAGGC AGGTCATCAG CAGCAAGTGA GAGCTGCCTC TTACTTTCTA AAGGTGACAT AGCAAATATACAAAAAAAAA TAAATAAATT ATTAATTTAG GTAGAGCACA TAAAGGCTTT ATTTCATATT CCATTTCTCT GTATGCTTTCTTCACCAGGA AGAAATAGTT TTAGTGTCAG GAATGAATGA GTCTGCCCCT CAATTCCAGC CTGCTCAACACACAAGGAAA CAAAGCCCTG ACAATCAGAG TGACTCCCTG GTGACTAAGC TCCCAGTCCT GGATGCATATTTGTTTAGCA GTTCTGACAG CATTTGACCC AGCCCTCTCT CTGCATATCC CATCAGAACC TTCTTTTTTT TTTTTTTCTTTGAGACTGAG TCTTGCTCTG TCGGAAGCGA CTCCTGTGCC TCAGCCTCCC AAATACCTGG AATTATAGGCGTAAGCCATC ATGCCTGGCT AATTTTTGTA TTTTTCATGG AGATGGGGTT TTGCCATGTT GGTCAAATTG GTCTCACACTCCTGACCTCA TGTGATCCAC CTGCCTCAGC CTCCCAAACT GCTGGGATGA CAGGTGTAAG CCACCATGCTAGGCTCAGAA ATTTCCTTTT ATAAAAATGT CATTAAGGAT CTTGGCTGCA CAATATCGTT ACCAGCTTCC TTTAAATCCACTTCTGGCCT GCCAGGAATC AGGTTCTTCA GAACCTGACA TTTTAAATGA AGAGGTCAGG CAGTTCATGAGGAAAGCCTC ATTGTCCCCA TGTCTCTGTC ACTGCTGCAC CCCTGAGACA TCACAGACAT GGACACTGGGGCCTGCTTGT TTCTCAAACT GCCCTTAGAT CGAAAGAGGG AGGAACCAGG ATGAATGCCA CTCATTTTCCCAAGAAAGGC CCTCTCCTGA GTGCCCGGGA TGGGGCTCTG TCCATTGCCT GGGGCCGCCA ATTGCTACTCTGGGTTACGG AGGAAGGACA GGGTCCTGAG AGACACCAGA GACCTCACAC AGCCCTGAAA ACATGGGGCTCCTTCATAAG TGTTTCCCAT CACCAACAGG GAGACCACGT GGAGGCCTTG CAGCCCCACT CGGTGCTTCTCCACCAAATC CCAAGGGCAG TGACGCTGAC GTCTGTGGAA AGCAGAGAAA GCCCTGGCTC CCAAAGCCCTGAAGTCCCTG TGGAGCTGAC ATTCCCTGAG TGACGGTGTG AATGGAAGGA ACTCAAGTGC GGGTGGTAGGCCACCTCCTG GCCCAGGCCT GGGTGAACTC TGAGGGGACA CATGTAGTCA CAATCCCATC CTCCCATTCT CCTTCTCAGAGGAAGGAAGT GGGCATCCAT CTGCCTCATC TCTCTCCCGT GGGGAAGATG GGGAGTTTCA GGGGAACTTTCACATAAATT TCACCAGCTC AGATCTCCTG TGAGGATGGG GCCCACCATG CTCCCGGTGC TGCCAGAGGCCCTGAGCCCC TCCCAGGGTC CCTGGGTTTG AGCCAGCCCT GTATCATCCC CAGGAGCTGA ATGTCAGAGCAATGGATAGA ATTAGATGGA AAGAGCTCTC AATTTGACCT GAGACTGTCC CCAGATACTC AGGAAAAACAGGACGTCGCA CAGAGTGGGC AGCAGGTGAG TGGCAGGTTA TAGGTCCTGA GTTTGAGTTT GTTCTCACGTGAGACAGACC CAGCCCCTCA CTCCATTCAC ACACTGGGTT TTAAATGGTG CAAGATAGGA GCAATTTTCTGGTCCCAAGA GCAGGAGGAA GGGATTTTCT GGGGTTTCCT GAGTCCAGAT TTGCATAAGA TCTCCTGAGT GTGCATTGTTCTTTGAGGAC CATTCTCTGA CTCACCAGGT AAGTGGCTGA ATTCTAACCT CTGTAATGAG CATTGCACCC AATACCAGTTCTGAACTCTA CCTGGTGACC AGGGACCAGG ACCTTTATAA GGTGGAAGGC TTGATGTCCT CCCCAGACTCAGCTCCTGGT GAAGCTCCCA GCCATCAGCC ATGAGGGTCT TGTATCTCCT CTTCTCGTTC CTCTTCATAT TCCTGATGCCTCTTCCAGGT GAGATGGGCC AGGGAAATAG GAGGGTTGGC CAAATGGAAG AATGGCGTAG AAGTTCTCTGTCTCCTCTCA TTCCCCTCCA CCTATCTCTC CCTCATCCCT CTCTCTCCTT CCTCTCTCTG TGTGTCCCCT CCATCCTTTTCTCCTGCTTC TCTCTCTTCT TCCCTCTCTC TCTTTTTTCT GTCTTTCTTT TTCCTCTCTC CCTAGAGCAT GTCTTTCTTTCTTTCTCTTT CCTTTCTTCT ACCCACACTT TTAGACTGAA TGCCCTATTT AATTGAACAA AGCATTGCTT CCTTCAATAGAAAAGGAGTT TGAGAACCCA ATGGACACCT CACTCGTTCT TCTAAGCCAA TATGAAGGAG CCCAGTAGCTTGTAAATATC ATCTCTTCAC TGCTTTCCAT GCTACAACTG CTGAGACTAT GGTTGAAACC TGTTAGGTGA CTTTTTAAATAAAAGGCAGA AATTTTGATT TTATCTAAAG AAAGTAGTAT AGAATGTCAT TTTCTAAATT TTTATATTTA AAGGGTAGATACTGCAACCT AGAGAATTCC AGATAATCTT AAGGCCCAGC CTATACTGTGAGAACTACTG CAGCAAGACACTCTGCCTCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG TACAGCCCAT TGAAACCTAC TTTTAAACCT GGATGCCTAA CCTTCATTTT CTCCTTGATA TTATGAAAATAAAATAAAAA CCATGAAAGG ATAAAAGAGG GAGAGTGGAA GGGAAGGATG GAGAAAGGGA AAAAGAAAATTTGAGAGTAA ATCCTAAAAC AATTAATCTA ATAGATATCA TCTTGTGAAA TCCTCATTTT ACCAATCTTA TTTATGAGTCCTGGGTTTTG TGAGAACAAT GGGGTTCTGA GAGGCACCAG AGACCTCATG TTTTCCAAAA CCTAGAACAGTATAATGAAG GAAGGCGGGG AGGCAGGGAG GCAGGGAGGC AGGGAGGCAG GGAGGCGGGC AGGTGGGGAGGGAGGGACGG AAGGAGGGAG GGAGGGAGGG AGGGAGGGAG GGAGGGATAA AAAAAGAAGA ATGAGGTTGAAACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACTTGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCAT CTTTTTATCC CATCTCAGGT CAAATACTTA ACAGACTAAATGATTTGAAA AAGCAAAAGT TTACTGGCTT GTGTGTGTTA AAATGGAGGT ATGGTGGCTT TGATATTATC TTCTTGTGGTGGAGCTGAAT TCACAAGAGA TCGTTGCTGA GCTCCTACCA GACCCCACCT GGAGGCCCCA GTCACTCAGGAGAGATCAGG GTCTTTCACA ATCAGGTTCT ACAAAAATAA ACATCCCCCC AACCACAGCA GTGCCAGTTTCCATGTCAGA AACTTAGATC CAAATGACTG ACTCGCGTCT CATTATCATG ATGGAAAAGC CCAGGCTTGAGAAAGAAGCC CGCTGCGGAT TTACTCAAGG CGATACTGAC ACAGGGTTTG TGTTTTTCCA ACATGAGTTT TGAGTTCTTACACGCTGTTT GCTCTTTTTG TGTGTTTTTT CCCTGTTAGG TGTTTTTGGT GGTATAGGCG ATCCTGTTAC CTGCCTTAAGAGTGGAGCCA TATGTCATCC AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTGGAACAAAATG CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGCTCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC AATCTTTATCCTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA TATCCTTGAA ACACCTTTTT CTGCTCTCCAGGAAGGGGTC AGGGCTGCCA CAGCGGGGCT TGGAGTGCTT TCCAGGGTCA CAGGCATCTG TATTCTTTGGATTCCTTGAC CTTCCCCATT TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCC TGCATCCTCC CCTTGCATGCCCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGAC CAGTTCCCTC ATGGAATCATAGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGAC TCCCTTCTTC TGGCTAAGGT TTCTTATGCAATTAT GAATTCCCTG TAAGCCCTGT TACAGGGGCT GCACCCCAGA TACAACCTGA CCTGTGTCCA AGGCGGGCAACTCAACCCTT AGATATTGAA TGGGTCCCAT GGCACCAATG CTTAAACACC AGCAGCCCTC ACAACCACAGATCGTGTTTT AAGGATGAGG AGGTAGTTCT CTGGATGCAC AGGCTTCAAT CCAAATGGGC TCATGACGCCGCAGCACACA CCCAGTCTGC AGCCTGAAGA GTTGGAGCAT TGCATTCACA GAAAGCATCC AGACATGATCATGGGCTCAG GGATACACCT GTTCTCCGAT GTGTACCAGT GAAGGATGGA AACTCCTATG CCTCCCAGAAAGCACCACTC AAGCTTTTGC TGAATGCTTC TCTGAAGGCC CACAAGGCTG AGAGGCTGTG CAACACCAGCAGTAAAGTGA ATGCCCAGAC TCCCACCTCC TTTCTTGGGT GGCCATCTGG AAAGGCCACT CCCACCCTGATGGCTAATGC CTCAGACCAG TTCTTGGCCC AGATGATCCT AGACAATTGT TTAAGCTTAA ACTGTTCATT GGCCAAGCAAACAGGTGATA GTACCTCTGG GGAACCACAT GCCGCGTGTA CATCCAGATC TCAGGAGAAC CCAAAAATGTCTGTTCCACA TAGCAACAGA AGCCCAGGTA GCACTCAGTC TCACCTGGGT GTTCTCCAAC ATCCCAGCTCAGCCAAATGG CTTTCATTAG TTTTTATGGT TAGACCCCAG GTCCTCGGGA CACTGCTTTA GAAACACATT CCAAATCCTCCTCTGTGTGC AGGTGGCATT CCTATCCCAA TCTCTTTGCA GGGCGTATAC TGTGATACGC AGCCAGGCTG TCCCAGAGGCCTTAAATATT CCCTTGGTGC AGGTAGTTCA GCTTAGCCAC AGCCAATGCA TCACAGGGTC AACTGTGTTA GGAGCCATTGAGAATCCATA GTTGGTTGCT GCCTGGGCCT GGCCAGGGCT GACCAAGGTA GATGAGAGGT TCCTCTGTGGAGTTCTACTT TAACCTCACC TTCCCACCAA ATTTCTCAAC TGTCCTTGCC ACCACAATTA TTTAATGGAC CCAACAGAAAGTAACCCCGG AAATTAGGAC ACCTCATCCC AAAAGACCTT TAAATAGGGG AAGTCCACTT GTGCACGGCTGCTCCTTGCT ATAGAAGACC TGGGACAGAG GACTGCTGTC TGCCCTCTCT GGTCACCCTG CCTAGCTAGAGGATCTGTAA GTACTACAAA ACTTAAACTT TACACTGAGT TTTCATCATT GAAGCTATGC CTCCAATCTG ACCTCTGACTGTGGGGCCGC CCCAGAGGGA CCCAGCGGGT GAATCCCTGC TAGGAACGTC TGTCCGGACC TCTGGTGACTGCTGGGGACG ATGGCTTCCA GCTAACTTAA TAGAGAAACT CAAGCAGTTT CCTTCTAAAT ACACATGTCACATGTCCTGG TTGACATGTC CAGTAAGAAG ACTATCACAG GTCTTTGGAA CATTCTTTTG AGAGAAACCT ATTTAGGTCCTTGGTCTGTT TTTCAATCAG GTTGTTTGAT TTTTGCTATT GAGTTGTTGG AATTCCTTAT GTATTCAGAT ATTTGCCCCTTCTGCCATGT AGGTTTTGCA AATATTTTCT CTCATTTTCT GGGTTATCTT TTCACTCGGT TGATTGTTTC CTTTGCTGTGCAGATGCTTT AGCGTTAAAT GAAGCCACAC TTGTCTATTT TCCCTTTTAT TGCCTGTGCC TTTGGTGTCA TAGCCAAGAAATCATTACCT ACATCAATGT CAAAAGCTTT ATCCTTCTAT ACACTTCTAG TAGTTTATGG TTTCAGTTGT TACATTTAGGTTTTCAATTC ATTCTGAGTT GATGTTCCTA CATGGTGTGA GATAAAGATT TAAATACATA CATATATAAA ATCATGAGGTAGTGTACACT ATAAATATAC AATTGTTAAT TGTTACTCAA GTCTAAGTAG AGGTGGAAAT AATAAACTTT CTTTTTTTTACTTAAACCAC TCTGTGTCAC TGAGCTGATT TCACCTTTAG CCTGATAAAA TCATTGTCCT CTCCACCCTG ATTCCTACAGGAGACTACTC ACCCCATAAC CTCAAAAACC TCTTCATGAG GATGGTAAGT CACCTGAATC CTGAAGTGAATTACTCGCTA TTCCATTGGA ACTCATATAG GACACCAGAA TCTAGACCTC CAGAGAACAG CAGGACCCATCTTCAGAAAA TAAGAAGCAT TTGTTCCCTG AGCCTGTTGA ATCAAAGTGC AATTTCTATT CTTTTTGGAA TGTTAAAAAGTGAATCATAA TATTTAAGCA GGTGAACCCA CGAGTAACAT AGCAGGGTCT TTCTTGTCAT TATTAGCTCC AACCTAGCACAGACATTAAA GGTACAGATG TATACTAGCA TGAAACTGGG AGAACAGGAG CATTCGAGCA ACCTTGAGACCAATGGGCCT CTCTTATAAA ATGCACACCT CCTCTCACTG AGATTGAGGA AGGTTTCTTG TCTCCGAGCC TTCTCCCAGTAGAGCTATAA ATCCAGGCTG GCTCCTCCCT CCCCACACAG CTGCTCCTGC TCTCCCTCCT CCAGGTGACC CCAGCCATGAGGACCCTCGC CATCCTTGCT GCCATTCTCC TGGTGGCCCT GCAGGCCCAG GCTGAGCCAC TCCAGGCAAGAGCTGATGAG GTTGCTGCAG CCCCGGAGCA GATTGCAGCG GACATCCCAG AAGTGGTTGT TTCCCTTGCATGGGACGAAA GCTTGGCTCC AAAGCATCCA GGTGAGAGAG GCAGGCATGC AGAGCTGCTA AGTCTAGAGGGAAGGACGGG AGAGAGGTTC CAGAGTTGGG TCTCAGCAGT CTATGTCACT GAGGTGGCTT CACTTAGAATCTCTGGGCAT TGATTTTCTC ATCTAGAAAT TGAACAGAGA GCCAAATAAA CCTGAGAAAC TTTATTTCTC CAAAGACTTGATTCCAAGAA ACATCTGTGA AATTCACTAA GTTTAAGATA TGAAGAGACA GACTAGTTAT TTCTGGATCTAAACAAGTAG ACTTAGTTGT AAAGAGAACA TTTTACTCTA TCTACAGAAG AGCTTTTAAA AACTGCAGCCAAGCCTGAGG GTAAGTTCAG GTGTGTGTGT GATGGGGCAG GAATGCAAAA ATGAGAGCAA AGGAGAATGAGTCTCAAATT CTGTGTGACA AGCACTGCTC TGCGTGTTTA TTCCTATCGA CTGAGGTTGT TCGTGCTACC GGCTGCAATGCAGCCAGCAT CACCTGTCAG CTAGCATGTG ACTTCCCCGA GATTCTTTTT CTTACCCACT GCTAACTCCA TACTCAATTTCTCATGCTCT CCCTGTCCCA GGCTCAAGGA AAAACATGGA CTGCTATTGC AGAATACCAG CGTGCATTGCAGGAGAACGT CGCTATGGAA CCTGCATCTA CCAGGGAAGA CTCTGGGCAT TCTGCTGCTG AGCTTGCAGAAAAAGAAAAA TGAGCTCAAA ATTTGCTTTG AGAGCTACAG GGAATTGCTA TTACTCCTGT ACCTTCTGCT CAATTTCCTTTCCTCATCTC AAATAAATGC CTTGTTACAA GATTTCTGTG TTTCCACCTC TTTAATGTGT GATATGTGTC TGTGTCAAGACACTTGGGAT ACACGTACCA AAACGCAAAA TCAAATTTTT GAACAATATA-3′ (FRAG. NO：___) (SEQ. ID NO：3012)

Human defensin 3 nucleic acids and antisense oligonucleotide fragments

5′-CGCTGCBBTC TGCTCCGGGG CTGCBGCBBC CTCBTCBGCTC TTGCCTGGBGTG GCTCBGCCTGG GCCTGCBGGGCCBCCBGGBGB BTGGCBGCBBG GBTGGCGBGGG TCCTCBTGGC TGGGGTCBCCT GGBGGBGGGB GBGCBGGGGGTCCTCBTGGC TGGGGTCCCT CTCTCCCGTC CT CCTACCTTGC TATAGAAGAC CTGGGACAGA GGACTGCTGTCTGCCCTCTC TGGTCACCCT GCCTAGCTAG AGGATCTGTG ACCCCAGCCA TGAGGACCCT CGCCATCCTT GCTGCCATTCTCCTGGTGGC CCTGCAGGCC CAGGCTGAGC CACTCCAGGC AAGAGCTGAT GAGGTTGCTG CAGCCCCGGAGCAGATTGCA GCGGACATCC CAGAAGTGGT TGTTTCCCTT GCATGGGACG AAAGCTTGGC TCCAAAGCATCCAGGCTCAA GGAAAAACAT GGACTGCTAT TGCAGAATAC CAGCGTGCAT TGCAGGAGAA CGTCGCTATGGAACCTGCAT CTACCAGGGA AGACTCTGGG CATTCTGCTG CTGAGCTTGC AGAAAAAGAA AAATGAGCTCAAAATTTGCT TTGAGAGCTA CAGGGAATTG CTATTACTCC TGTACCTTCT GCTCAATTTC CTTT-3′ (FRAG. NO：1804)(SEQ. ID NO：3013)

5′-CCTACCTTGC TATAGAAGAC CTGGGACAGA GGACTGCTGT CTGCCCTCTC TGGTCACCCT GCCTAGCTAGAGGATCTGTG ACCCCAGCCA TGAGGACCCT CGCCATCCTT GCTGCCATTC TCCTGGTGGC CCTGCAGGCCCAGGCTGAGC CACTCCAGGC AAGAGCTGAT GAGGTTGCTG CAGCCCCGGA GCAGATTGCA GCGGACATCCCAGAAGTGGT TGTTTCCCTT GCATGGGACG AAAGCTTGGC TCCAAAGCAT CCAGGCTCAA GGAAAAACATGGACTGCTAT TGCAGAATAC CAGCGTGCAT TGCAGGAGAA CGTCGCTATG GAACCTGCAT CTACCAGGGAAGACTCTGGG CATTCTGCTG CTGAGCTTGC AGAAAAAGAA AAATGAGCTC AAAATTTGCT TTGAGAGCTACAGGGAATTG CTATTACTCC TGTACCTTCT GCTCAATTTC CTTT-3′ (FRAG. NO：___) (SEQ. ID NO：2478)

5′-GAATTCCCTG TAAGCCCTGT TACAGGGGCT GCACCCCAGA TACAACCTGA CCTGTGTCCA AGGCGGGCAACTCAACCCTT AGATATTGAA TGGGTCCCAT GGCACCAATG CTTAAACACC AGCAGCCCTC ACAACCACAGATCGTGTTTT AAGGATGAGG AGGTAGTTCT CTGGATGCAC AGGCTTCAAT CCAAATGGGC TCATGACGCCGCAGCACACA CCCAGTCTGC AGCCTGAAGA GTTGGAGCAT TGCATTCACA GAAAGCATCC AGACATGATCATGGGCTCAG GGATACACCT GTTCTCCGAT GTGTACCAGT GAAGGATGGA AACTCCTATG CCTCCCAGAAAGCACCACTC AAGCTTTTGC TGAATGCTTC TCTGAAGGCC CACAAGGCTG AGAGGCTGTG CAACACCAGCAGTAAAGTGA ATGCCCAGAC TCCCACCTCC TTTCTTGGGT GGCCATCTGG AAAGGCCACT CCCACCCTGATGGCTAATGC CTCAGACCAG TTCTTGGCCC AGATGATCCT AGACAATTGT TTAAGCTTAA ACTGTTCATT GGCCAAGCAAACAGGTGATA GTACCTCTGG GGAACCACAT GCCGCGTGTA CATCCAGATC TCAGGAGAAC CCAAAAATGTCTGTTCCACA TAGCAACAGA AGCCCAGGTA GCACTCAGTC TCACCTGGGT GTTCTCCAAC ATCCCAGCTCAGCCAAATGG CTTTCATTAG TTTTTATGGT TAGACCCCAG GTCCTCGGGA CACTGCTTTA GAAACACATT CCAAATCCTCCTCTGTGTGC AGGTGGCATT CCTATCCCAA TCTCTTTGCA GGGCGTATAC TGTGATACGC AGCCAGGCTG TCCCAGAGGCCTTAAATATT CCCTTGGTGC AGGTAGTTCA GCTTAGCCAC AGCCAATGCA TCACAGGGTC AACTGTGTTA GGAGCCATTGAGAATCCATA GTTGGTTGCT GCCTGGGCCT GGCCAGGGCT GACCAAGGTA GATGAGAGGT TCCTCTGTGGAGTTCTACTT TAACCTCACC TTCCCACCAA ATTTCTCAAC TGTCCTTGCC ACCACAATTA TTTAATGGAC CCAACAGAAAGTAACCCCGG AAATTAGGAC ACCTCATCCC AAAAGACCTT TAAATAGGGG AAGTCCACTT GTGCACGGCTGCTCCTTGCT ATAGAAGACC TGGGACAGAG GACTGCTGTC TGCCCTCTCT GGTCACCCTG CCTAGCTAGAGGATCTGTAA GTACTACAAA ACTTAAACTT TACACTGAGT TTTCATCATT GAAGCTATGC CTCCAATCTG ACCTCTGACTGTGGGGCCGC CCCAGAGGGA CCCAGCGGGT GAATCCCTGC TAGGAACGTC TGTCCGGACC TCTGGTGACTGCTGGGGACG ATGGCTTCCA GCTAACTTAA TAGAGAAACT CAAGCAGTTT CCTTCTAAAT ACACATGTCACATGTCCTGG TTGACATGTC CAGTAAGAAG ACTATCACAG GTCTTTGGAA CATTCTTTTG AGAGAAACCT ATTTAGGTCCTTGGTCTGTT TTTCAATCAG GTTGTTTGAT TTTTGCTATT GAGTTGTTGG AATTCCTTAT GTATTCAGAT ATTTGCCCCTTCTGCCATGT AGGTTTTGCA AATATTTTCT CTCATTTTCT GGGTTATCTT TTCACTCGGT TGATTGTTTC CTTTGCTGTGCAGATGCTTT AGCGTTAAAT GAAGCCACAC TTGTCTATTT TCCCTTTTAT TGCCTGTGCC TTTGGTGTCA TAGCCAAGAAATCATTACCT ACATCAATGT CAAAAGCTTT ATCCTTCTAT ACACTTCTAG TAGTTTATGG TTTCAGTTGT TACATTTAGGTTTTCAATTC ATTCTGAGTT GATGTTCCTA CATGGTGTGA GATAAAGATT TAAATACATA CATATATAAA ATCATGAGGTAGTGTACACT ATAAATATAC AATTGTTAAT TGTTACTCAA GTCTAAGTAG AGGTGGAAAT AATAAACTTT CTTTTTTTTACTTAAACCAC TCTGTGTCAC TGAGCTGATT TCACCTTTAG CCTGATAAAA TCATTGTCCT CTCCACCCTG ATTCCTACAGGAGACTACTC ACCCCATAAC CTCAAAAACC TCTTCATGAG GATGGTAAGT CACCTGAATC CTGAAGTGAATTACTCGCTA TTCCATTGGA ACTCATATAG GACACCAGAA TCTAGACCTC CAGAGAACAG CAGGACCCATCTTCAGAAAA TAAGAAGCAT TTGTTCCCTG AGCCTGTTGA ATCAAAGTGC AATTTCTATT CTTTTTGGAA TGTTAAAAAGTGAATCATAA TATTTAAGCA GGTGAACCCA CGAGTAACAT AGCAGGGTCT TTCTTGTCAT TATTAGCTCC AACCTAGCACAGACATTAAA GGTACAGATG TATACTAGCA TGAAACTGGG AGAACAGGAG CATTCGAGCA ACCTTGAGACCAATGGGCCT CTCTTATAAA ATGCACACCT CCTCTCACTG AGATTGAGGA AGGTTTCTTG TCTCCGAGCC TTCTCCCAGTAGAGCTATAA ATCCAGGCTG GCTCCTCCCT CCCCACACAG CTGCTCCTGC TCTCCCTCCT CCAGGTGACC CCAGCCATGAGGACCCTCGC CATCCTTGCT GCCATTCTCC TGGTGGCCCT GCAGGCCCAG GCTGAGCCAC TCCAGGCAAGAGCTGATGAG GTTGCTGCAG CCCCGGAGCA GATTGCAGCG GACATCCCAG AAGTGGTTGT TTCCCTTGCATGGGACGAAA GCTTGGCTCC AAAGCATCCA GGTGAGAGAG GCAGGCATGC AGAGCTGCTA AGTCTAGAGGGAAGGACGGG AGAGAGGTTC CAGAGTTGGG TCTCAGCAGT CTATGTCACT GAGGTGGCTT CACTTAGAATCTCTGGGCAT TGATTTTCTC ATCTAGAAAT TGAACAGAGA GCCAAATAAA CCTGAGAAAC TTTATTTCTC CAAAGACTTGATTCCAAGAA ACATCTGTGA AATTCACTAA GTTTAAGATA TGAAGAGACA GACTAGTTAT TTCTGGATCTAAACAAGTAG ACTTAGTTGT AAAGAGAACA TTTTACTCTA TCTACAGAAG AGCTTTTAAA AACTGCAGCCAAGCCTGAGG GTAAGTTCAG GTGTGTGTGT GATGGGGCAG GAATGCAAAA ATGAGAGCAA AGGAGAATGAGTCTCAAATT CTGTGTGACA AGCACTGCTC TGCGTGTTTA TTCCTATCGA CTGAGGTTGT TCGTGCTACC GGCTGCAATGCAGCCAGCAT CACCTGTCAG CTAGCATGTG ACTTCCCCGA GATTCTTTTT CTTACCCACT GCTAACTCCA TACTCAATTTCTCATGCTCT CCCTGTCCCA GGCTCAAGGA AAAACATGGA CTGCTATTGC AGAATACCAG CGTGCATTGCAGGAGAACGT CGCTATGGAA CCTGCATCTA CCAGGGAAGA CTCTGGGCAT TCTGCTGCTG AGCTTGCAGAAAAAGAAAAA TGAGCTCAAA ATTTGCTTTG AGAGCTACAG GGAATTGCTA TTACTCCTGT ACCTTCTGCT CAATTTCCTTTCCTCATCTC AAATAAATGC CTTGTTACAA GATTTCTGTG TTTCCACCTC TTTAATGTGT GATATGTGTC TGTGTCAAGACACTTGGGAT ACACGTACCA AAACGCAAAA TCAAATTTTT GAACAATATA-3′(FRAG. NO：___)(SEQ. ID NO：2477)

5′-GGCBGCBBGG-3′ (FRAG. NO：1805) (SEQ. ID NO：1818)

5′-GG CTG GGG-3′ (FRAG. NO：1806) (SEQ. ID NO：1819)

5′-GGGGTCBCC-3′ (FRAG. NO：1807) (SEQ. ID NO：1820)

5

-GGG TCC TCB TGG CTG GGG TC-3(FRAG.NO：1216)(SEQ.ID NO：1225)

5-CCT CTC TCC CGT CCT-3

(FRAG.NO：1217)(SEQ.ID NO：1226)

5′-CGCTGCBBTC TGCTCCGGGG CTGCBGCBBC CTCBTCBGCTC TTGCCTGGBGTG GCTCBGCCTGG GCCTGCBGGGCCBCCBGGBGB BTGGCBGCBBG GBTGGCGBGGG TCCTCBTGGC TGGGGTCBCCT GGBGGBGGGB GBGCBGG-3′(FRAG. NO：1808) (SEQ. IDNO：1821)

Human macrophage inflammatory protein-1- α/RANTES receptor nucleic acids and antisense oligonucleotide fragments

5-GTCTTTGTTT CTGGGCTCGT GCCCCBTCCC GGCTTCTCTC TGGTTCCGTC CTCTGTGGTG TTTGGCCCTGCTTCCTTTTG CCTGTTGAGG GGGCAGCAGT TGGGCCCCAA AGGCCCTCTC GTTCACCTTC TGGCACGGAGTTGCATCCCCATA GTCAAACTCT GTGGTCGTGT CATAGTCCTC TGTGGTGTTT GGAGTTTCCA TCCCGGCTTC TCTCTGGTTCCAAGGGAGB GGGGGCBGCB GTTGGGCCCC BBBGGCCCTC TCGTTCBCCT TCTGGCBCGG BGTTGCBTCC CCBTBGTCBBBCTCTGTGGT CGTGTCBTBG TCCTCTGTGG TGTTTGGBGT TTCCBTCCCG GCTTCTCTCT GGTTCCBBGG GB-3′ (FRAG.NO：1809) (SEQ. ID NO：1822)

5′-GGGCC CC-3′ (FRAG. NO：1810) (SEQ. ID NO：1823)

5′-GGGGGCBGC-3′ (FRAG. NO：1811) (SEQ. ID NO：1824)

5′-CCCGGCTTC-3′ (FRAG. NO：1812) (SEQ. ID NO：1825)

5

-GTC TTT GTT TCT GGG CTC GTG CC-3(FRAG. NO：1218)(SEQ. ID NO：1227)

5-CCB TCC CGG CTT CTC TCT GGT TCC-3

(FRAG. NO：1219)(SEQ. ID NO：1228)

5

-GTC CTCTGT GGT GTT TGG-3(FRAG. NO：1220)(SEQ. ID NO：1229)

5

-CCC TGC TTC CTT TTG CCT GTT-3

(FRAG. NO：1221)(SEQ. ID NO：1230)

5′-GAGGGGGCAG CAGTTGGGCC CCAAAGGCCC TCTCGTTCAC CTTCTGGCAC GGAGTTGCAT CCCCATAGTCAAACTCTGTG GTCGT-3′ (FRAG. NO：1222) (SEQ. ID NO：1231)

5′-GTCATAGTCCTCTGTGGTGTTTGGAGTTTCCATCCCGGCTTCTCTCTGGTTCCAAGGGA-3′ (FRAG. NO： 1223)(SEQ. IDNO：1232)

5′-GBGGGGGCBG CBGTTGGGCC CCBBBGGCCC TCTCGTTCBC CTTCTGGCBC GGBGTTGCBT CCCCBTBGTCBBBCTCTGTG GTCGTG-3′ (FRAG. NO：1224) (SEQ. ID NO：1233)

5′-TCBTBGTCCTCTGTGGTGTTTGGBGTTTCCBTCCCGGCTTCTCTCTGGTTCCBBGGGB-3′ (FRAG. NO：1225)(SEQ. IDNO：1234)

RANTES antisense oligonucleotide fragment

5′-GGGCBCGGGG CBGTGGGCGG GCBBTGTBGG CBBBGCBGCB GGGTGTGGTG TCCGBGGBBT BTGGGGBGGCBGBTGCBGGB GCGCBGBGGG CBGTBGCBBT GBGGBTGBCB GCGBGGCGTG CCGCGGBGBC CTTCBTGGTB CCTGTGGBGBGGCTGTCGGB GGGGGTGTGG TGTCCGCTTG GCGGTTCTTT CGGGTGTTTC TTCTCTGGGT TGGCCTGCTGCTCGTCGTGGT CGCTCCGCTC CCGGGTTCGT CTCGCTCTGT CGCCCCTTCC TTCCTTGTCG TGTTCCTCCC TTCCTTGCCTCT-3′ (FRAG. NO： 1813) (SEQ. ID NO： 1826)

5′-GGGTTGGC-3′ (FRAG. NO： 1814) (SEQ. ID NO： 1827)

5′-CGGGG CBG-3′ (FRAG. NO： 1815) (SEQ. ID NO： 1828)

5′-CCCGGGTTCG-3′ (FRAG. NO： 1816) (SEQ. ID NO： 1829)

5′-GGGTGTGGTG-3′ (FRAG. NO： 1817) (SEQ. ID NO： 1830)

5′-GGGCBCGGGG CBGTGGGCGG GCBBTGTBGG CBBBGCBGCB GGGTGTGGTG TCCGBGGBBT BTGGGGBGGCBGBTGCBGGB GCGC-3′ (FRAG. NO：1226) (SEQ. ID NO：1235)

5′-BGBGGGCBGTB GCBBTGBGGB TGBCBGCGBG GCGTGCCGCG GBGBCCTTCBTGGTBCCTGT GGBGBGGCTGTCGGBGG-3′ (FRAG. NO：1227) (SEQ. ID NO：1236)

5′-GGGTGTGGTGTCCGCTTGGCGGTTCTTTCGGGTGTTTCTTCTCTGGGTTGGCCTGCTGCTCGTCGTGGTC-3′ (FRAG.NO：1228) (SEQ. ID NO：1237)

5′-GCTCCGCTCCCGGGTTCGTCTCGCTCTGTCGCCCCTTCCTTCCTTGTCGTGTTCCTCCCTTCCTTGCCTCT-3′ (FRAG.NO：1229) (SEQ. ID NO：1238)

5′-GGGTGTGGTGTCCG-3′ (FRAG. NO：1230) (SEQ. ID NO：1239)

5′-CTTGGCGGTTCTTTCGGGTG-3′ (FRAG. NO：1231) (SEQ. ID NO：1240)

5′-TTTCTTCTCTGGGTTGGC-3′ (FRAG. NO：1232) (SEQ. ID NO：1241)

5′-CTGCTGCTCGTCGTGGTC-3′ (FRAG. NO：1233) (SEQ. ID NO：1242)

5′-GCTCCGCTCCCGGGTTC-3′ (FRAG. NO：1234) (SEQ. ID NO：1243)

5′-GTCTCGCTCTGTCGCCC-3′ (FRAG. NO：1235) (SEQ. ID NO：1244)

5′-CTTCCTTCCTTGTC-3′ (FRAG. NO：1236) (SEQ. ID NO：1245)

5′-GTGTTCCTCCCTTCCTTGCCTCT-3′ (FRAG. NO：1237) (SEQ. ID NO：1246)

5′-GGGCBCGGGG CBGTGGGCGG GCBBTGTBGG CBBBGCBGCB GGGTGTGGTG TCCGBGGBBT BTGGGGBGGCBGBTGCBGGB GCGCBGBGGG CBGTBGCBBT GBGGBTGBCB GCGBGGCGTG CCGCGGBGBC CTTCBTGGTB CCTGTGGBGBGGCTGTCGGB GG-3′ (FRAG. NO：1818) (SEQ. ID NO：1831)

Human Muscarinic Acetylcholine receptor HM1^*Nucleic acids and antisense oligonucleotide fragments

5

-GCTGCCCGGC GGGGTGTGCG CTTGGCGCTC CCGTGCTCGG TTCTCTGTCT CCCGGTCCCC CTTGCCTGGCGTCTCGGGCC TTCGTCCTCT TCCTCTTCTT CCTTCCGCTC CGTGGGGGCT GCTTGGTGGG GGCCTGTGCCTCGGGGTCCCG GGGCTTCTGG CCCTTGCCGT TCATGGTGGC TAGGTGGGGC GTTCBTGGTG GCTBGGTGGG GC-3′(FRAG.NO：1819)(SEQ. ID NO： 1832)

5′-GGTGGGGC-3′ (FRAG. NO：1820) (SEQ. ID NO： 1833)

5′-GCCCGGCGGGG-3′ (FRAG. NO：1821) (SEQ. ID NO： 1834)

5′-CGG GGC TTC TGG CCC-3′ (FRAG. NO：1822) (SEQ. ID NO： 1835)

5-GTT CBT GGT GGC TBG GTG GGG C-3(FRAG. NO：1238)(SEQ. ID NO：1247)

5-GCT GCC CGG CGG GGT GTG CGC TTG GC-3(FRAG. NO：1239)(SEQ.ID NO：1248)

5

-GCT CCC GTG CTC GGT TCT CTG TCT CCC GGT-3(FRAG. NO：1240)(SEQ. ID NO：1249)

5

-CCC CCT TTG CCT GGC GTC TCG G-3

(FRAG. NO：1241)(SEQ. ID NO：1250)

5-GCC TTC GTC CTC TTC CTC TTC TTC CTT CC-3

(FRAG. NO：1242)(SEQ. ID NO：1251)

5

-GCT CCG TGG GGG CTG CTT GGT GGG GGC CTG TGC CTC GGG GTC C-3(FRAG. NO：1243)(SEQ. IDNO：1252)

5

-CGG GGC TTC TGG CCC TTG CC-3

(FRAG. NO：1244)(SEQ. ID NO：1253)

5′-GTT CAT GGT GGC TAG GTG GGG C-3′ (FRAG. NO：1245)(SEQ.ID NO：1254)

Human Muscarinic Acetylcholine receptor HM3^*Nucleic acids and antisense oligonucleotide fragments

5

-GGG GTG GGT BGG CCG TGT CTG GGGGTT GGC CBT GTT GGT TGC CTCT TGG TGG TGC GCC GGG CGCG TCTTGG CTT TCT TCT CCT TCG GGC CCT CGG GCC GGT GCT TGT GGGCT CCT CCC GGG CGG CCT CCC CGG GCG GGG GCTTCT TGGCG CTG GCG GGG GGG CCT CCTGCT CTG TGG CTG GGC GTT CCT TGG TGT TCT GGG TGGTGG CGG GCG TGGTGG CCT CTG TGGGGG CCC GCG GCT GCB GGG GTTG CCT GTC TGC TTC GTCCTT TGC GCT CCC GGG CCG CCGGGGTG GGT AGG CCG TGT CTG GGGGTT GGC CAT GTT GGT TGC CGGG CCC GCG GCT GCA GGG G-3′ (FRAG. NO：1823)(SEQ. ID NO：1836)

5′-CCC GGG CGG-3′ (FRAG. NO：1824) (SEQ. ID NO：1837)

5′-G GCG GGG GGG CC-3′ (FRAG. NO：1825) (SEQ. ID NO：1838)

5′-CCC GGG CCG CC-3′ (FRAG. NO： 1826) (SEQ. ID NO： 1839)

5′-GG CCG TGT-3′ (FRAG. NO：1827) (SEQ. ID NO：1840)

5

-GGG GTG GGT BGG CCG TGT CTG GGG-3(FRAG. NO：1246)(SEQ. ID NO：1255)

5

-GTT GGC CBT GTT GGT TGC C-3(FRAG. NO：1247)(SEQ. ID NO：1256)

5

-TCT TGG TGG TGC GCC GGG C-3

(FRAG. NO：1248)(SEQ. ID NO：1257)

5-GCG TCT TGG CTT TCT TCT CCT TCG GGC CCT CGG GCC GGT GCT TGT GG-3

(FRAG. NO：1249)(SEQ. IDNO：1258)

5-GCT CCT CCC GGG CGG CCT CCC CGG GCG GGG GCT TCT TG-3

(FRAG. NO：1250)(SEQ. ID NO：1259)

5

-GCG CTG GCG GGG GGG CCT CCT CC-3(FRAG. NO：1251)(SEQ. ID NO：1260)

5

-GCT CTG TGG CTG GGC GTT CCT TGG TGT TCT GGG TGG C-3

(FRAG. NO：1252)(SEQ. ID NO：1261)

5-TGG CGG GCG TGG TGG CCT CTG TGG TGG-3(FRAG. NO：1253)(SEQ. ID NO：1262)

5-GGG CCC GCG GCT GCB GGG G-3

(FRAG. NO：1254)(SEQ. ID NO：1263)

5

-TTG CCT GTC TGC TTC GTC-3

(FRAG. NO：1255)(SEQ. ID NO：1264)

5-CTT TGC GCT CCC GGG CCG CC-3

(FRAG. NO：1256)(SEQ. ID NO：1265)

5′-GGG GTG GGT AGG CCG TGT CTG GGG-3′ (FRAG. NO：1257) (SEQ. ID NO：1266)

5′-GTT GGC CAT GTT GGT TGC C-3′ (FRAG. NO：1258) (SEQ. ID NO：1267)

5′-GGG CCC GCG GCT GCA GGG G-3′ (FRAG. NO：1259) (SEQ. ID NO：1268)

Human fibronectin^*Antisense oligonucleotide fragment

5′-CGG TTT CCT TTG CGG TC TTG GCC CGG GCT CCG GGT G CCC GCC CGC CCG CCG GCC GCC GC CCC GCC GGGCTG TCC CCG CCC CGC CCC GGC CCG GGG CGC GGG GG CGG CCC TCC CGC CCC TCT GG GCC GGC GCG GGC GTC GGCCG CTC GCG CCT GGG GTT CCC TCT CCT CCC CCT GTG C GCC TGC CTC TTG CTC TTCTGC GTC CGC TGC CTT CTCCC CTC TCC TCG GCC GTT GCC TGT GC TGT CCG TCC TGT CGC CCT TCC GTG GTG C TGT TGT CTC TTC TGC CCT CGGT GTG CTG GTG CTG GTG GTG GTG CCT CTG CCC GTG CTC GCCCTG CCT GGG CTG GCC TCT TCG GGT GTG GCTTTG GGG CTC TCT TGG TTG CCC TTT CTT CTC GTG GTG CCT CTC CTC CCT GGC TTG GTC GT TGT CTG GGG TGG TGCTCC TCT CCC TTT CCC TGC TGG CCG TTT GT CCT GTT TTC TGT CTT CCT CT TTC CTC CTG TTT CTC CGT TTG GCTTGC TGC TTG CGG GGC TGT CTC C CTT GCC CCT GTG GGC TTT CCC TGG TCC GGT CTT CTC CTT GGG GGT C GCC CTTCTT GGT GGG CTGGCT CGT CTG TCT TTT TCC TTC C TGG GGG TGG CCG TTG TGG GCG GTG TGG TCC GCC T TGC CTCTGC TGG TCT TTC-3′ (FRAG. NO：1828) (SEQ. ID NO： 1841)

5′-GGCCCGGGC-3′ (FRAG. NO：1829) (SEQ. ID NO： 1842)

5′-GCCGGCGCGGGCG-3′ (FRAG. NO：1830) (SEQ. ID NO：1843)

5′-GCCTGGGCTGGCC-3′ (FRAG. NO：1831) (SEQ. ID NO： 1844)

5′-GGGGG TGGCCG-3′ (FRAG. NO：1832) (SEQ. ID NO： 1845)

5′-GG GGG TGG CCG TTG TGG GCG G-3′ (FRAG. NO：1833) (SEQ. ID NO： 1846)

5

-CGG TTT CCT TTG CGG TC-3(FRAG. NO：1260)(SEQ. ID NO：1269)

5-TTG GCC CGG GCT CCG GGT G-3(FRAG. NO：1261)(SEQ. ID NO：1270)

5

-CCC GCC CGC CCG CCG GCC GCC GC-3

(FRAG. NO：1262)(SEQ. ID NO：1271)

5

-CCC GCC GGG CTG TCC CCG CCC CGC CCC-3

(FRAG. NO：1263)(SEQ. ID NO：1272)

5-GGC CCG GGG CGC GGG GG-3

(FRAG. NO：1264)(SEQ. ID NO：1273)

5

-CGG CCC TCC CGC CCC TCT GG-3(FRAG. NO：1265)(SEQ. ID NO：1274)

5

-GCC GGC GCG GGC GTC GG-3

(FRAG. NO：1266)(SEQ. ID NO：1275)

5-CCG CTC GCG CCT GGG GTT CCC TCT CCT CCC CCT GTG C-3

(FRAG. NO：1267)(SEQ. ID NO：1276)

5

-GCC TGC CTC TTG CTC TTC-3(FRAG. NO：1268)(SEQ. ID NO：1277)

5

-TGC GTC CGC TGC CTT CTC CC-3

(FRAG. NO：1269)(SEQ. ID NO：1278)

5

CTC TCC TCG GCC GTT GCC TGT GC-3(FRAG. NO：1270)(SEQ. ID NO：1279)

5-TGT CCG TCC TGT CGC CCT TCC GTG GTG C-3(FRAG. NO：1271)(SEQ. ID NO：1280)

5

-TGT TGT CTC TTC TGC CCT C-3(FRAG. NO：1272)(SEQ. ID NO：1281)

5

-GGT GTG CTG GTG CTG GTG GTG GTG-3

(FRAG. NO：1273)(SEQ. ID NO：1282)

5-CCT CTG CCC GTG CTC GCC-3

(FRAG. NO：1274)(SEQ. ID NO：1283)

5-CTG CCT GGG CTG GCC TCT TCG GGT-3

(FRAG. NO：1275)(SEQ. ID NO：1284)

5

-GTG GCT TTG GGG CTC TCT TGG TTG CCC TTT-3(FRAG. NO：1276)(SEQ. ID NO：1285)

5

-CTT CTC GTG GTG CCT CTC CTC CCT GGC TTG GTC GT-3

(FRAG. NO：1277)(SEQ. ID NO：1286)

5

-TGT CTG GGG TGG TGC TCC TCT CCC-3

(FRAG. NO：1278)(SEQ. ID NO：1287)

5

-TTT CCC TGC TGG CCG TTT GT-3(FRAG. NO：1279)(SEQ. ID NO：1288)

5

-CCT GTT TTC TGT CTT CCT CT-3

(FRAG. NO：1280)(SEQ. ID NO：1289)

5

-TTC CTC CTG TTT CTC CGT-3

(FRAG. NO：1281)(SEQ. ID NO：1290)

5

-TTG GCT TGC TGC TTG CGG GGC TGT CTC C-3

(FRAG. NO：1282)(SEQ. ID NO：1291)

5

-CTT GCC CCT GTG GGC TTT CCC-3

(FRAG. NO：1283)(SEQ. ID NO：1292)

5

-TGG TCC GGT CTT CTC CTT GGG GGT C-3

(FRAG. NO：1284)(SEQ. ID NO：1293)

5

-GCC CTT CTT GGT GGG CTG-3

(FRAG. NO：1285)(SEQ. ID NO：1294)

5

-GCT CGT CTG TCT TTT TCC TTC C-3(FRAG. NO：1286)(SEQ. ID NO：1295)

5-TGG GGG TGG CCG TTG TGG GCG GTG TGG TCC GCC T-3

(FRAG. NO：1287)(SEQ. ID NO：1296)

5-TGC CTC TGC TGG TCT TTC-3

(FRAG. NO：1288)(SEQ. ID NO：1297)

Human interleukin-1 (IL-1) nucleic acids and antisense oligonucleotide fragments

5′-AAGCTTCTAC CCTAGTCTGG TGCTACACTT ACATTGCTTA CATCCAAGTG TGGTTATTTC TGTGGCTCCTGTTATAACTA TTATAGCACC AGGTCTATGA CCAGGAGAAT TAGACTGGCA TTAAATCAGA ATAAGAGATTTTGCACCTGC AATAGACCTT ATGACACCTA ACCAACCCCA TTATTTACAA TTAAACAGGA ACAGAGGGAATACTTTATCC AACTCACACA AGCTGTTTTC CTCCCAGATC CATGCTTTTT TGCGTTTATT ATTTTTTAGA GATGGGGGCTTCACTATGTT GCCCACACTG GACTAAAACT CTGGGCCTCA AGTGATTGTC CTGCCTCAGC CTCCTGAATA GCTGGGACTACAGGGGCATG CCATCACACC TAGTTCATTT CCTCTATTTA AAATATACAT GGCTTAAACT CCAACTGGGAACCCAAAACA TTCATTTGCT AAGAGTCTGG TGTTCTACCA CCTGAACTAG GCTGGCCACA GGAATTATAAAAGCTGAGAA ATTCTTTAAT AATAGTAACC AGGCAACATC ATTGAAGGCT CATATGTAAA AATCCATGCC TTCCTTTCTCCCAATCTCCA TTCCCAAACT TAGCCACTGG TTCTGGCTGA GGCCTTACGC ATACCTCCCG GGGCTTGCAC ACACCTTCTTCTACAGAAGA CACACCTTGG GCATATCCTA CAGAAGACCA GGCTTCTCTC TGGTCCTTGG TAGAGGGCTACTTTACTGTA ACAGGGCCAG GGTGGAGAGT TCTCTCCTGA AGCTCCATCC CCTCTATAGG AAATGTGTTG ACAATATTCAGAAGAGTAAG AGGATCAAGA CTTCTTTGTG CTCAAATACC ACTGTTCTCT TCTCTACCCT GCCCTAACCA GGAGCTTGTCACCCCAAACT CTGAGGTGAT TTATGCCTTA ATCAAGCAAA CTTCCCTCTT CAGAAAAGAT GGCTCATTTT CCCTCAAAAGTTGCCAGGAG CTGCCAAGTA TTCTGCCAAT TCACCCTGGA GCACAATCAA CAAATTCAGC CAGAACACAACTACAGCTAC TATTAGAACT ATTATTATTA ATAAATTCCT CTCCAAATCT AGCCCCTTGA CTTCGGATTT CACGATTTCTCCCTTCCTCC TAGAAACTTG ATAAGTTTCC CGCGCTTCCC TTTTTCTAAG ACTACATGTT TGTCATCTTA TAAAGCAAAGGGGTGAATAA ATGAACCAAA TCAATAACTT CTGGAATATC TGCAAACAAC AATAATATCA GCTATGCCATCTTTCACTAT TTTAGCCAGT ATCGAGTTGA ATGAACATAG AAAAATACAA AACTGAATTC TTCCCTGTAA ATTCCCCGTTTTGACGACGC ACTTGTAGCC ACGTAGCCAC GCCTACTTAA GACAATTACA AAAGGCGAAG AAGACTGACTCAGGCTTAAG CTGCCAGCCA GAGAGGGAGT CATTTCATTG GCGTTTGAGT CAGCAAAGGT ATTGTCCTCACATCTCTGGC TATTAAAGTA TTTTCTGTTG TTGTTTTTCT CTTTGGCTGT TTTCTCTCAC ATTGCCTTCT CTAAAGCTACAGTCTCTCCT TTCTTTTCTT GTCCCTCCCT GGTTTGGTAT GTGACCTAGA ATTACAGTCA GATTTCAGAA AATGATTCTCTCATTTTGCT GATAAGGACT GATTCGTTTT ACTGAGGGAC GGCAGAACTA GTTTCCTATG AGGGCATGGGTGAATACAAC TGAGGCTTCT CATGGGAGGG AATCTCTACT ATCCAAAATT ATTAGGAGAA AATTGAAAATTTCCAACTCT GTCTCTCTCT TACCTCTGTG TAAGGCAAAT ACCTTATTCT TGTGGTGTTT TTGTAACCTC TTCAAACTTTCATTGATTGA ATGCCTGTTC TGGCAATACA TTAGGTTGGG CACATAAGGA ATACCAACAT AAATAAAACATTCTAAAAGA AGTTTACGAT CTAATAAAGG AGACAGGTAC ATAGCAAACT AATTCAAAGG AGCTAGAAGATGGAGAAAAT GCTGAATGTG GACTAAGTCA TTCAACAAAG TTTTCAGGAA GCACAAAGAG GAGGGGCTCCCCTCACAGAT ATCTGGATTA GAGGCTGGCT GAGCTGATGG TGGCTGGTGT TCTCTGTTGC AGAAGTCAAGATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGGTA AGGAATAAGA TTTATCTCTTGTGATTTAAT GAGGGTTTCA AGGCTCACCA GAATCCAGCT AGGCATAACA GTGGCCAGCA TGGGGGCAGGCCGGCAGAGG TTGTAGAGAT GTGTACTAGT CCTGAAGTCA GAGCAGGTTC AGAGAAGACC CAGAAAAACTAAGCATTCAG CATGTTAAAC TGAGATTACA TTGGCAGGGA GACCGCCATT TTAGAAAAAT TATTTTTGAGGTCTGCTGAG CCCTACATGA ATATCAGCAT CAACTTAGAC ACAGCCTCTG TTGAGATCAC ATGCCCTGATATAAGAATGG GTTTTACTGG TCCATTCTCA GGAAAACTTG ATCTCATTCA GGAACAGGAA ATGGCTCCACAGCAAGCTGG GCATGTGAAC TCACATATGCAGGCAAATCT CACTCAGATG TAGAAGAAAG GTAAATGAACACAAAGATAA AATTACGGAA CATATTAAAC TAACATGATG TTTCCATTAT CTGTAGTAAA TACTAACACAAACTAGGCTG TCAAAATTTT GCCTGGATAT TTTACTAAGT ATAAATTATG AAATCTGTTT TAGTGAATAC ATGAAAGTAATGTGTAACAT ATAATCTATT TGGTTAAAAT AAAAAGGAAG TGCTTCAAAA CCTTTCTTTT CTCTAAAGGA GCTTAACATTCTTCCCTGAA CTTCAATTAA AGCTCTTCAA TTTGTTAGCC AAGTCCAATT TTTACAGATA AAGCACAGGT AAAGCTCAAAGCCTGTCTTG ATGACTACTA ATTCCAGATT AGTAAGATAT GAATTACTCT ACCTATGTGT ATGTGTAGAA GTCCTTAAATTTCAAAGATG ACAGTAATGG CCATGTGTAT GTGTGTGACC CACAACTATC ATGGTCATTA AAGTACATTGGCCAGAGACC ACATGAAATA ACAACAATTA CATTCTCATC ATCTTATTTT GACAGTGAAA ATGAAGAAGACAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGGTAAGC AAATGACTGT AATTCTCATG GGACTGCTAT TCTTACACAGTGGTTTCTTC ATCCAAAGAG AACAGCAATG ACTTGAATCT TAAATACTTT TGTTTTACCC TCACTAGAGA TCCAGAGACCTGTCTTTCAT TATAAGTGAG ACCAGCTGCC TCTCTAAACT AATAGTTGAT GTGCATTGGC TTCTCCCAGA ACAGAGCAGAACTATCCCAA ATCCCTGAGA ACTGGAGTCT CCTGGGGCAG GCTTCATCAG GATGTTAGTT ATGCCATCCTGAGAAAGCCC CGCAGGCCGC TTCACCAGGT GTCTGTCTCC TAACGTGATG TGTTGTGGTT GTCTTCTCTG ACACCAGCATCAGAGGTTAG AGAAAGTCTC CAAACATGAA GCTGAGAGAG AGGAAGCAAG CCAGCTGAAA GTGAGAAGTCTACAGCCACT CATCAATCTG TGTTATTGTG TTTGGAGACC ACAAATAGAC ACTATAAGTA CTGCCTAGTA TGTCTTCAGTACTGGCTTTA AAAGCTGTCC CCAAAGGAGT ATTTCTAAAA TATTTTGAGC ATTGTTAAGC AGATTTTTAA CCTCCTGAGAGGGAACTAAT TGGAAAGCTA CCACTCACTA CAATCATTGT TAACCTATTT AGTTACAACA TCTCATTTTT GAGCATGCAAATAAATGAAA AAGTCTTCCT AAAAAAATCA TCTTTTTATC CTGGAAGGAG GAAGGAAGGT GAGACAAAAGGGAGAGAGGG AGGGAAGCCT AATGAAACAC CAGTTACCTA AGACCAGAAT GGAGATCCTC CTCACTACCTCTGTTGAATA CAGCACCTAC TGAAAGAACT TTCATTCCCT GACCATGAAC AGCCTCTCAG CTTCTGTTTT CCTTCCTCACAGAAATCCTT CTATCATGTA AGCTATGGCC CACTCCATGA AGGCTGCATG GATCAATCTG TGTCTCTGAG TATCTCTGAAACCTCTAAAA CATCCAAGCT TACCTTCAAG GAGAGCATGG TGGTAGTAGC AACCAACGGG AAGGTTCTGAAGAAGAGACG GTTGAGTTTA AGCCAATCCA TCACTGATGA TGACCTGGAG GCCATCGCCA ATGACTCAGAGGAAGGTAAG GGGTCAAGCA CAATAATATC TTTCTTTTAC AGTTTTAAGC AAGTAGGGAC AGTAGAATTTAGGGGAAAAT TAAACGTGGA GTCAGAATAA CAAGAAGACA ACCAAGCATT AGTCTGGTAA CTATACAGAGGAAAATTAAT TTTTATCCTT CTCCAGGAGG GAGAAATGAG CAGTGGCCTG AATCGAGAAT ACTTGCTCACAGCCATTATT TCTTAGCCAT ATTGTAAAGG TCGTGTGACT TTTAGCCTTT CAGGAGAAAG CAGTAATAAG ACCACTTACGAGCTATGTTC CTCTCATACT AACTATGCCT CCTTGGTCAT GTTACATAAT CTTTTCGTGA TTCAGTTTCC TCTACTGTAAAATGGAGATA ATCAGAATCC CCCACTCATT GGATTGTTGT AAAGATTAAG AGTCTCAGGC TTTACAGACTGAGCTAGCTG GGCCCTCCTG ACTGTTATAA AGATTAAATG AGTCAACATC CCCTAACTTC TGGACTAGAATAATGTCTGG TACAAAGTAA GCACCCAATA AATGTTAGCT ATTACTATCA TTATTATTAT TATTTTATTT TTTTTTTTTGAGATGGAGTC TGGCTCTGTC ACCCAGGCTG GAGTGCAGTG GCACAATCTC GGCTCACTGC AAGCTCTGCCTCCTGGGTTC ATGCCATTCT CCTGCCTCAG CCTCCCGAGT AAGCTGGGAA TACAGGCACC CGCCACTGTT CCCGGCTAATTTTTTGTATT TTTAGTAGAG ACGGAGTTTC ACCGTGGTCT CCATCTCCTC GTGATCCACC CACCTTGGCC TCCCAAAGTGCCGGGATTAC AGGCGTGAGC CACCGCGCCC GGCCTATTAT TATTATTATT ACTACTACTA CTACCTATAT GAATACTACCAGCAATACTA ATTTATTAAT GACTGGATTA TGTCTAAACC TCACAAGAAT CCTACCTTCT CATTTTACAT AAAAGGAAACTAAGCTCATT GAGATAGGTA AACTGCCCAA TGGCATACAT CTGTAAGTGG GAGAGCCTCA AATCTAATTCAGTTCTACCT GAGTAAAAAA ATCATGGTTT CTCCTCCATC CCTTTACTGT ACAAGCCTCC ACATGAACTA TAAACCCAATATTCCTGTTT TTAAGATAAT ACCTAAGCAA TAACGCATGT TCACCTAGAA GGTTTTAAAA TGTAACAAAATATAAGAAAA TAAAAATCAC TCATATCGTC AGTGAGAGTT TACTACTGCC AGCACTATGG TATGTTTCCT TAAAATCTTTGCTATACACA TACCTACATG TGAACAAATA TGTCTAACAT CAAGACCACA CTATTTACAA CTTTATATCC AGCTTTTCTTACTTAGCAAT GTATTGAGGA CATTTTAGAG TGCCCGTTTT TCACCATTAT AAGCAATGCA ACAATGAACA TCTGTATAAATAAATATTCA TTTCTCTCAC CCTTTATTTC CTTAGAATAT ATTCCTAGAA GTAGAATTTC CCAGAGCCAT GAGGATTTGTGACGCTATTG ATATGTGCCA CTTTGCACTC TCTGTGACAT ATATAATTAT TTTTAATGCA TTCATTTTTT TCTCAGAGTGCATTCGTTTG AAAACATAGA CGGGAAATAC TGGTAGTCTT CCTTGTCAGT TAGAAACACC CAAACAATGAAAAATGAAAA AGTTGCACAA ATAGTCTCTA AAAACAATGA AACTATTGCC TGAGGAATTG AAGTTTAAAAAGAAGCACAT AAGCAACAAC AAGGATAATC CTAGAAAACC AGTTCTGCTG ACTGGGTGAT TTCACTTCTC TTTGCTTCCTCATCTGGATT GGAATATTCCTAATACCCCC TCCAGAACTA TTTTCCCTGT TTGTACTAGA CTGTGTATAT CATCTGTGTTTGTACATAGA CATTAATCTG CACTTGTGAT CATGGTTTTA GAAATCATCA AGCCTAGGTC ATCACCTTTT AGCTTCCTGAGCAATGTGAA ATACAACTTT ATGAGGATCA TCAAATACGA ATTCATCCTG AATGACGCCC TCAATCAAAGTATAATTCGA GCCAATGATC AGTACCTCAC GGCTGCTGCA TTACATAATC TGGATGAAGC AGGTACATTAAAATGGCACC AGACATTTCT GTCATCCTCC CCTCCTTTCA TTTACTTATT TATTTATTTC AATCTTTCTG CTTGCAAAAAACATACCTCT TCAGAGTTCT GGGTTGCACA ATTCTTCCAG AATAGCTTGA AGCACAGCAC CCCCATAAAAATCCCAAGCC AGGGCAGAAG GTTCAACTAA ATCTGGAAGT TCCACAAGAG AGAAGTTTCC TATCTTTGAGAGTAAAGGGT TGTGCACAAA GCTAGCTGAT GTACTACCTC TTTGGTTCTT TCAGACATTC TTACCCTCAA TTTTAAAACTGAGGAAACTG TCAGACATAT TAAATGATTT ACTCAGATTT ACCCAGAAGC CAATGAAGAA CAATCACTCTCCTTTAAAAA GTCTGTTGAT CAAACTCACA AGTAACACCA AACCAGGAAG ATCTTTATTA TCTCTGATAA CATATTTGTGAGGCAAAACC TCCAATAAGC TACAAATATG GCTTAAAGGA TGAAGTTTAG TGTCCAAAAA CTTTTATCACACACATCCAA TTTTCATGGC GGACATGTTT TAGTTTCAAC AGTATACATA TTTTCAAAGG TCCAGAGAGG CAATTTTGCAATAAACAAGC AAGACTTTTT CTGATTGGAT GCACTTCAGC TAACATGCTT TCAACTCTAC ATTTACAAAT TATTTTGTGTTCTATTTTTC TACTTAATAT TATTTCTGCA ATTTTCCCAA TATTGACATC GTGTATGTAT TTGCCATTTT TAATATCACTAGACAATTCA ATCAGGTTGC TACGTTGGTC CCTTGGGTTT ACTCTAAATA GCTTGATTGC AAATATCTTT GTATATATTATTGTTTTTTC TCCTATCTTG TAATTTCTTT GAGCACATCC CAAAGAGGAA TGCCTAGATC AATGGGCACA AATAATTTGACAGCTCTTAT TAAACATTAT TCTGTAAGTA AAAACTGAAC TACTTTTCAG TATCACTAGC AACATATGAG TGTATCAGCTTCCTAAACCC CTCCATGTTA GGTCATTATG AACTTATGAT CTAACAAATT ACAGGGTCTT ATCCCACTAA TGAAATTATAAGAGATTCAA CACTTATTCA GCCCCGAAGG ATTCATTCAA CGTAGAAAAT TCTAAGAACA TTAACCAAGTATTTACCTGC CTAGTGAGTG TGGAAGACAT TGTGAAGGAC ACAAAGATGT ATAGAATTCC ATTCCTGACT TCCAGGTATTTACACCATAG GTGGGGACCT AACTACACAC ACACACACAC ACACACACAC ACACACACAC ACCATGCACACACAATCTAC ATCAACACTT GATTTTATAC AAATACAATG AATTTACTTT CTTTTTGGTT CTTCTCTTCA CCAGTGAAATTTGACATGGG TGCTTATAAG TCATCAAAGG ATGATGCTAA AATTACCGTG ATTCTAAGAA TCTCAAAAAC TCAATTGTATGTGACTGCCC AAGATGAAGA CCAACCAGTG CTGCTGAAGG TCAGTTGTCC TTTGTCTCCA ACTTACCTTC ATTTACATCTCATATGTTTG TAAATAAGCC CAATAGGCAG ACACCTCTAA CAAGGTGACA CTGTCCTCTT TCCTTCCTAC CACAGCCCCCACCTACCCAC CCCACTCCCA TTGATTCCAG AGGCGTGCCT AGGCAGGATC TATGAGAAAA TATAACAGAGAGTAAGAGGA AAATTACCTT CTTTCTTTTT CCTTTCCCTG CCTGACCTTA TTCACCTCCC ATCCCAGAGC ATCCATTTATTCCATTGATC TTTACTGACA TCTATTATCT GACCTACACA ATACTAGACA TTAGGACAAT GTGGCCTGCC TCCAAGAAACTCAAATAAGC CAACTGAGAT CAGAGAGGAT TAATCACCTG CCAATGGGCA CAAAGCAACA AGCTGGGAGCCAAGTCCCAA AATGGGGCCT GCTGCTTCCA GTTCCCCTCT CTCTGCATTG ATGTCAGCAT TATCCTTCGT CCCAGTCCTGTCTCCACTAC CACTTTCCCC CTCAAACACA CACACACACA ACAGCCTTAG ATGTTTTCTC CACTGATAAG TAGGTGACTCAATTTGTAAG TATATAATCC AAGACCTTCT ATTCCCAAGT AGAATTTATG TGCCTGCCTG TGCTTTTCTA CCTGGATCAAGTGATGTCTA CAGAGTAGGG CAGTAGCTTC ATTCATGAAC TCATTCAACA AGCATTATTC ACTGAGAGCC TTGTATTTTTCAGGCATAGT GCCAACAGCA GTGTGGACAG TGGTGCATCA AAGCCTCTAG TCTCATAGAA CTTAGTCTTCTGGAGGATAT GGAAAACAGA CAACCCAAAC AACCAACAAA AGAGCAAGAT GCTGCAAAAA AAAAAAAAATGAATAGGGTG CTAAGATAGA GAAAAGTGGG AGAGTGCTAT TTAGACAAAG TGGTAAAAAC AAAGCCCCTTGTGAGATGAG AGCTGCCGAC AGAGGGGGCG GGTCATGGTT GTGGGTTTTT GGGTAGGACA TTCAGAGGAGGGGGCGGGTC GTGGTTGTGG GTTTTTGGGT AGGACATTCA GAGGAGGGGG CGGGTCGTGG TTGTGGGTTTTTGGGTAGGA CATTCAGAGG AGGGGGCGGG TCGTGGTTGT GGGTTTTTGG GTAGGACATT CAGAGGAGGGGGCGGGTCGT GGTTGTGGGT TTTTGGGACA TTCAGAGGAG TCTGAATGCA CCCAGGCCTA CAACTTCAAGATGGTAAAGG ACAGCTCCAA GGATCAGAAG AAGCATTCTT GGAACTGGGG CATTTTGAGA AGGAGGAAAAATATGCAGAG ACTAGTGCTT GCAGAGCTTG CATTTGGATT TCATTTGAGG TACAATGAAA ACCCATTAAT GGGTTTCACACAGTGCAATG GCCTGACCTC ACTTATATTT CCTAAAATAG AAAACAGATC AGAAGGAAGG CAATAGAGAAGCAGAAAGTC CAATGAGGAG GTTTCACAGC AGTCATGGGG GTGGGGTAAG GAAAAGAAGT GGAAAGAAACAGACAGAATT GGGTTATATT TTGGAGATAG AACCAACAGA AGGAAGAGGA GAAACAACAT TTACTGAGAAGGGAAAAAGT AGGAGAGGAA TAGGTTTGGG AAATAAATCC TGCTGACATT GGAAACCCCA AGGAAGCCTCAAAAGTATAT TTACTTGCTT TAGATTTAAA AGAATAGGAA AGAAGCATCT CAACTTGGAA TTTGAAATCT ATTTTTCCATAAAAGTATTG TTAAATTCTA CTCATACTCA CAAGAAAAGT ACATTCTAAA GAGTATATTG AAAGAGTTTA CTGATATACTTAGGAATTTT GTGTGTATGT GTGTGTGTGT ATGTGTGTGT GTGTGTTTAA CCTTCAATTG TTGACTTAAA TACTGAGATAAATGTCATCT AAATGCTAAA TTGATTTCCC AAAGGTATGA TTTGTTCACT TGGAGATCAA AATGTTTAGG GGGCTTAGAATCACTGTAGT GCTCAGATTT GATGCAAAAT GTCTTAGGCC TATGTTGAAG GCAGGACAGA AACAATGTTT CCCTCCTACCTGCCTGGATA CAGTAAGATA CTAGTGTCAC TGACAATCTT CATAACTAAT TTAGATCTCT CTCCAATCAA CTAAGGAAATCAACTCTTAT TAATAGACTG GGCCACACAT CTACTAGGCA TGTAATAAAT GCTTGCTGAA TGAACAAATGAATGAAGAGC CTATAGCATC ATGTTACAGC CATAGTCCTA AAGTGGTGTT TCTCATGAAG GCCAAATGCTAAGGGATTGA GCTTCAGTCC TTTTTCTAAC ATCTTGTTCT CTAACAGAAT TCTCTTCTTT TCTTCATAGG AGATGCCTGAGATACCCAAA ACCATCACAG GTAGTGAGAC CAACCTCCTC TTCTTCTGGG AAACTCACGG CACTAAGAACTATTTCACAT CAGTTGCCCA TCCAAACTTG TTTATTGCCA CAAAGCAAGA CTACTGGGTG TGCTTGGCAGGGGGGCCACC CTCTATCACT GACTTTCAGA TACTGGAAAA CCAGGCGTAG GTCTGGAGTC TCACTTGTCT CACTTGTGCAGTGTTGACAG TTCATATGTA CCATGTACAT GAAGAAGCTA AATCCTTTAC TGTTAGTCAT TTGCTGAGCA TGTACTGAGCCTTGTAATTC TAAATGAATG TTTACACTCT TTGTAAGAGT GGAACCAACA CTAACATATA ATGTTGTTAT TTAAAGAACACCCTATATTT TGCATAGTAC CAATCATTTT AATTATTATT CTTCATAACA ATTTTAGGAG GACCAGAGCT ACTGACTATGGCTACCAAAA AGACTCTACC CATATTACAG ATGGGCAAAT TAAGGCATAA GAAAACTAAG AAATATGCACAATAGCAGTT GAAACAAGAA GCCACAGACC TAGGATTTCA TGATTTCATT TCAACTGTTT GCCTTCTGCT TTTAAGTTGCTGATGAACTC TTAATCAAAT AGCATAAGTT TCTGGGACCT CAGTTTTATC ATTTTCAAAA TGGAGGGAAT AATACCTAAGCCTTCCTGCC GCAACAGTTT TTTATGCTAA TCAGGGAGGT CATTTTGGTA AAATACTTCT CGAAGCCGAG CCTCAAGATGAAGGCAAAGC ACGAAATGTT ATTTTTTAAT TATTATTTAT ATATGTATTT ATAAATATAT TTAAGATAAT TATAATATACTATATTTATG GGAACCCCTT CATCCTCTGA GTGTGACCAG GCATCCTCCA CAATAGCAGA CAGTGTTTTC TGGGATAAGTAAGTTTGATT TCATTAATAC AGGGCATTTT GGTCCAAGTT GTGCTTATCC CATAGCCAGG AAACTCTGCA TTCTAGTACTTGGGAGACCT GTAATCATAT AATAAATGTA CATTAATTAC CTTGAGCCAG TAATTGGTCC GATCTTTGAC TCTTTTGCCATTAAACTTAC CTGGGCATTC TTGTTTCATT CAATTCCACC TGCAATCAAG TCCTACAAGC TAAAATTAGA TGAACTCAACTTTGACAACC ATGAGACCAC TGTTATCAAA ACTTTCTTTT CTGGAATGTA ATCAATGTTT CTTCTAGGTT CTAAAAATTGTGATCAGACC ATAATGTTAC ATTATTATCA ACAATAGTGA TTGATAGAGT GTTATCAGTC ATAACTAAAT AAAGCTTGCAACAAAATTCT CTGACACATA GTTATTCATT GCCTTAATCA TTATTTTACT GCATGGTAAT TAGGGACAAA TGGTAAATGTTTACATAAAT AATTGTATTT AGTGTTACTT TATAAAATCA AACCAAGATT TTATATTTTT TTCTCCTCTT TGTTAGCTGCCAGTATGCAT AAATGGCATT AAGAATGATA ATATTTCCGG GTTCACTTAA AGCTCATATT ACACATACACAAAACATGTG TTCCCATCTT TATACAAACT CACACATACA GAGCTACATT AAAAACAACT AATAGGCCAGGCACGGTGGC TCAGACCTGT AATCCCAGCA CTTTGGGAGG ACCAACCTCT TCGAGGCACA AGGCACAACAGGCTGCTCTG GGATTCTCTT CAGCCAATCT TCATTGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TGAGCTCGCCAGTGAAATGA TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGATGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCACCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTGGTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTTCGACACATGG GATAACGAGG CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGACTCACAGCAAA AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATATGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGCCTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTGGAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAATCAATAACAA GCTGGAATTT GAGTCTGCCC AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAACATGCCCGTC TTCCTGGGAG GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCTTCCTAAAGAG AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGGGAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCT GCCTTAGGGTAGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA GCTCTCTCCT TTCAGGGCCA ATCCCCAGCC CTTTTGTTGAGCCAGGCCTC TCTCACCTCT CCTACTCACT TAAAGCCCGC CTGACAGAAA CCACGGCCAC ATTTGGTTCTAAGAAACCCT CTGTCATTCG CTCCCACATT CTGATGAGCA ACCGCTTCCC TATTTATTTA TTTATTTGTT TGTTTGTTTTATTCATTGGTCTAATTTATT CAAAGGGGGC AAGAAGTAGC AGTGTCTGTA AAAGAGCCTA GTTTTTAATAGCTATGGAAT CAATTCAATT TGGACTGGTG TGCTCTCTTT AAATCAAGTC CTTTAATTAA GACTGAAAAT ATATAAGCTCAGATTATTTA AATGGGAATA TTTATAAATG AGCAAATATC ATACTGTTCA ATGGTTCTGA AATAAACTTC TCTGAAGAGAAAGAAAG AGAGAGAGAA AGAAAAGAAA GAGGAAGGAA GGAAGGAAGG AAGAAAGACA GGCTCTGAGGAAGGTGGCAG TTCCTACAAC GGGAGAACCA GTGGTTAATT TGCAAAGTGG ATCCTGTGGA GGCANNCAGAGGAGTCCCCT AGGCCACCCA GACAGGGCTT TTAGCTATCT GCAGGCCAGA CACCAAATTT CAGGAGGGCTCAGTGTTAGG AATGGATTAT GGCTTATCAA ATTCACAGGA AACTAACATG TTGAACAGCT TTTAGATTTCCTGTGGAAAA TATAACTTAC TAAAGATGGA GTTCTTGTGA CTGACTCCTG ATATCAAGAT ACTGGGAGCCAAATTAAAAA TCAGAAGGCT GCTTGGAGAG CAAGTCCATG AAATGCTCTT TTTCCCACAG TAGAACCTATTTCCCTCGTG TCTCAAATAC TTGCACAGAG GCTCACTCCC TTGGATAATG CAGAGCGAGC ACGATACCTGGCACATACTA ATTTGAATAA AATGCTGTCA AATTCCCATT CACCCATTCA AGCAGCAAAC TCTATCTCAC CTGAATGTACATGCCAGGCA CTGTGCTAGA CTTGGCTCAA AAAGATTTCA GTTTCCTGGA GGAACCAGGA GGGCAAGGTTTCAACTCAGT GCTATAAGAA GTGTTACAGG CTGGACACGG TGGCTCACGC CTGTAATCCC AACATTTGGGAGGCCGAGGC GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCTCTACTAAAAA TACAAAAAAT TAGCCGGGCG TTGGCGGCAG GTGCCTGTAG TCCCAGCTGC TGGGGAGGCTGAGGCAGGAG AATGGTGTGA ACCCGGGAGG CGGAACTTGC AGGGGGCCGA GATCGTGCCA CTGCACTCCAGCCTGGGCGA CAGAGTGAGA CTCTGTCTCA AAAAAAAAAA AAAAGTGTTA TGATGCAGAC CTGTCAAAGAGGCAAAGGAG GGTGTTCCTA CACTCCAGGC ACTGTTCATA ACCTGGACTC TCATTCATTC TACAAATGGAGGGCTCCCCT GGGCAGATCC CTGGAGCAGG CACTTTGCTG GTGTCTCGGT TAAAGAGAAA CTGATAACTCTTGGTATTAC CAAGAGATAG AGTCTCAGAT GGATATTCTT ACAGAAACAA TATTCCCACT TTTCAGAGTTCACCAAAAAA TCATTTTAGG CAGAGCTCAT CTGGCATTGA TCTGGTTCAT CCATGAGATT GGCTAGGGTAACAGCACCTG GTCTTGCAGG GTTGTGTGAG CTTATCTCCA GGGTTGCCCC AACTCCGTCA GGAGCCTGAACCCTGCATAC CGTATGTTCT CTGCCCCAGC CAAGAAAGGT CAATTTTCTC CTCAGAGGCT CCTGCAATTG ACAGAGAGCTCCCGAGGCAG AGAACAGCAC CCAAGGTAGA GACCCACACC CTCAATACAG ACAGGGAGGG CTATTGGCCCTTCATTGTAC CCATTTATCC ATCTGTAAGT GGGAAGATTC CTAAACTTAA GTACAAAGAA GTGAATGAAGAAAAGTATGT GCATGTATAA ATCTGTGTGT CTTCCACTTT GTCCCACATA TACTAAATTT AAACATTCTT CTAACGTGGGAAAATCCAGT ATTTTAATGT GGACATCAAC TGCACAACGA TTGTCAGGAA AACAATGCAT ATTTGCATGGTGATACATTT GCAAAATGTG TCATAGTTTG CTACTCCTTG CCCTTCCATG AACCAGAGAA TTATCTCAGT TTATTAGTCCCCTCCCCTAA GAAGCTTCCA CCAATACTCT TTTCCCCTTT CCTTTAACTT GATTGTGAAA TCAGGTATTC AACAGAGAAATTTCTCAGCC TCCTACTTCT GCTTTTGAAA GCTATAAAAA CAGCGAGGGA GAAACTGGCA GATACCAAACCTCTTCGAGG CACAAGGCAC AACAGGCTGC TCTGGGATTC TCTTCAGCCA ATCTTCATTG CTCAAGTATG ACTTTAATCTTCCTTACAAC TAGGTGCTAA GGGAGTCTCT CTGTCTCTCT GCCTCTTTGT GTGTATGCAT ATTCTCTCTC TCTCTCTCTTTCTTTCTCTG TCTCTCCTCT CCTTCCTCTC TGCCTCCTCT CTCAGCTTTT TGCAAAAATG CCAGGTGTAA TATAATGCTTATGACTCGGG AAATATTCTG GGAATGGATA CTGCTTATCT AACAGCTGAC ACCCTAAAGG TTAGTGTCAAAGCCTCTGCT CCAGCTCTCC TAGCCAATAC ATTGCTAGTT GGGGTTTGGT TTAGCAAATG CTTTTCTCTA GACCCAAAGGACTTCTCTTT CACACATTCA TTCATTTACT CAGAGATCAT TTCTTTGCAT GACTGCCATG CACTGGATGC TGAGAGAAATCACACATGAA CGTAGCCGTC ATGGGGAAGT CACTCATTTT CTCCTTTTTA CACAGGTGTC TGAAGCAGCCATGGCAGAAG TACCTGAGCT CGCCAGTGAA ATGATGGCTT ATTACAGGTC AGTGGAGACG CTGAGACCAGTAACATGAGC AGGTCTCCTC TTTCAAGAGT AGAGTGTTAT CTGTGCTTGG AGACCAGATT TTTCCCCTAA ATTGCCTCTTTCAGTGGCAA ACAGGGTGCC AAGTAAATCT GATTTAAAGA CTACTTTCCC ATTACAAGTC CCTCCAGCCTTGGGACCTGG AGGCTATCCA GATGTGTTGT TGCAAGGGCT TCCTGCAGAG GCAAATGGGG AGAAAAGATTCCAAGCCCAC AATACAAGGA ATCCCTTTGC AAAGTGTGGC TTGGAGGGAG AGGGAGAGCT CAGATTTTAGCTGACTCTGC TGGGCTAGAG GTTAGGCCTC AAGATCCAAC AGGGAGCACC AGGGTGCCCA CCTGCCAGGCCTAGAATCTG CCTTCTGGAC TGTTCTGCGC ATATCACTGT GAAACTTGCC AGGTGTTTCA GGCAGCTTTG AGAGGCAGGCTGTTTGCAGT TTCTTATGAA CAGTCAAGTC TTGTACACAG GGAAGGAAAA ATAAACCTGT TTAGAAGACATAATTGAGAC ATGTCCCTGT TTTTATTACA GTGGCAATGA GGATGACTTG TTCTTTGAAG CTGATGGCCC TAAACAGATGAAGGTAAGAC TATGGGTTTA ACTCCCAACC CAAGGAAGGG CTCTAACACA GGGAAAGCTC AAAGAAGGGAGTTCTGGGCC ACTTTGATGC CATGGTATTT TGTTTTAGAA AGACTTTAAC CTCTTCCAGT GAGACACAGG CTGCACCACTTGCTGACCTG GCCACTTGGT CATCATATCA CCACAGTCAC TCACTAACGT TGGTGGTGGT GGCCACACTT GGTGGTGACAGGGGAGGAGT AGTGATAATG TTCCCATTTC ATAGTAGGAA GACAACCAAG TCTTCAACAT AAATTTGATT ATCCTTTTAAGAGATGGATT CAGCCTATGC CAATCACTTG AGTTAAACTC TGAAACCAAG AGATGATCTT GAGAACTAACATATGTCTAC CCCTTTTGAG TAGAATAGTT TTTTGCTACC TGGGGTGAAG CTTATAACAA CAAGACATAG ATGATATAAACAAAAAGATG AATTGAGACT TGAAAGAAAA CCATTCACTT GCTGTTTGAC CTTGACAAGT CATTTTACCC GCTTTGGACCTCATCTGAAA AATAAAGGGC TGAGCTGGAT GATCTCTGAG ATTCCAGCAT CCTGCAACCT CCAGTTCTGA AATATTTTCAGTTGTAGCTA AGGGCATTTG GGCAGCAAAT GGTCATTTTT CAGACTCATC CTTACAAAGA GCCATGTTAT ATTCCTGCTGTCCCTTCTGT TTTATATGAT GCTCAGTAGC CTTCCTAGGT GCCCAGCCAT CAGCCTAGCT AGGTCAGTTG TGCAGGTTGGAGGCAGCCAC TTTTCTCTGG CTTTATTTTA TTCCAGTTTG TGATAGCCTC CCCTAGCCTC ATAATCCAGT CCTCAATCTTGTTAAAAACA TATTTCTTTA GAAGTTTTAA GACTGGCATA ACTTCTTGGC TGCAGCTGTG GGAGGAGCCC ATTGGCTTGTCTGCCTGGCC TTTGCCCCCC ATTGCCTCTT CCAGCAGCTT GGCTCTGCTC CAGGCAGGAA ATTCTCTCCT GCTCAACTTTCTTTTGTGCA CTTACAGGTC TCTTTAACTG TCTTTCAAGC CTTTGAACCA TTATCAGCCT TAAGGCAACC TCAGTGAAGCCTTAATACGG AGCTTCTCTG AATAAGAGGA AAGTGGTAAC ATTTCACAAA AAGTACTCTC ACAGGATTTGCAGAATGCCT ATGAGACAGT GTTATGAAAA AGGAAAAAAA AGAACAGTGT AGAAAAATTG AATACTTGCTGAGTGAGCAT AGGTGAATGG AAAATGTTAT GGTCATCTGC ATGAAAAAGC AAATCATAGT GTGACAGCATTAGGGATACA AAAAGATATA GAGAAGGTAT ACATGTATGG TGTAGGTGGG GCATGTACAA AAAGATGACAAGTAGAATCG GGATTTATTC TAAAGAATAG CCTGTAAGGT GTCCAGAAGC CACATTCTAG TCTTGAGTCT GCCTCTACCTGCTGTGTGCC CTTGAGTACA CCCTTAACCT CCTTGAGCTT CAGAGAGGGA TAATCTTTTT ATTTTATTTT ATTTTATTTTGTTTTGTTTT GTTTTGTTTT GTTTTATGAG ACAGAGTCTC ACTCTGTTGC CCAGGCTGGA GTGCAGTGGT ACAATCTTGGCTTACTGCAT CCTCCACCTC CTGAGTTCAA GCGATTCTCC TTCCTCAGTC TCCTGAATAG CTAGGATTAC AGGTGCACCCCACCACACCC AGCTAATTTT TGTATTTTTA GTAGAGAAGG GGTTTCGCCA TGTTGGCCAG GCTGGTTTTG AAGTCCTGACCTAAATGATT CATCCACCTC GGCTTCCCAA AGTGCTGGGA TTACAGGCAT GAGCCACCAC GCCTGGCCCAGAGAGGGATG ATCTTTAGAA GCTCGGGATT CTTTCAAGCC CTTTCCTCCT CTCTGAGCTT TCTACTCTCT GATGTCAAAGCATGGTTCCT GGCAGGACCA CCTCACCAGG CTCCCTCCCT CGCTCTCTCC GCAGTGCTCC TTCCAGGACC TGGACCTCTGCCCTCTGGAT GGCGGCATCC AGCTACGAAT CTCCGACCAC CACTACAGCA AGGGCTTCAG GCAGGCCGCGTCAGTTGTTG TGGCCATGGA CAAGCTGAGG AAGATGCTGG TTCCCTGCCC ACAGACCTTC CAGGAGAATGACCTGAGCAC CTTCTTTCCC TTCATCTTTG AAGAAGGTAG TTAGCCAAGA GCAGGCAGTA GATCTCCACT TGTGTCCTCTTGGAAGTCAT CAAGCCCCAG CCAACTCAAT TCCCCCAGAG CCAAAGCCCT TTAAAGGTAG AAGGCCCAGCGGGGAGACAA AACAAAGAAG GCTGGAAACC AAAGCAATCA TCTCTTTAGT GGAAACTATT CTTAAAGAAGATCTTGATGG CTACTGACAT TTGCAACTCC CTCACTCTTT CTCAGGGGCC TTTCACTTAC ATTGTCACCA GAGGTTCGTAACCTCCCTGT GGGCTAGTGT TATGACCATC ACCATTTTAC CTAAGTAGCT CTGTTGCTCG GCCACAGTGA GCAGTAATAGACCTGAAGCT GGAACCCATG TCTAATAGTG TCAGGTCCAG TGTTCTTAGC CACCCCACTC CCAGCTTCAT CCCTACTGGTGTTGTCATCA GACTTTGACC GTATATGCTC AGGTGTCCTC CAAGAAATCA AATTTTGCCA CCTCGCCTCA CGAGGCCTGCCCTTCTGATT TTATACCTAA ACAACATGTG CTCCACATTT CAGAACCTAT CTTCTTCGAC ACATGGGATA ACGAGGCTTATGTGCACGAT GCACCTGTAC GATCACTGAA CTGCACGCTC CGGGACTCAC AGCAAAAAAG CTTGGTGATGTCTGGTCCAT ATGAACTGAA AGCTCTCCAC CTCCAGGGAC AGGATATGGA GCAACAAGGT AAATGGAAACATCCTGGTTT CCCTGCCTGG CCTCCTGGCA GCTTGCTAAT TCTCCATGTT TTAAACAAAG TAGAAAGTTA ATTTAAGGCAAATGATCAAC ACAAGTGAAA AAAAATATTA AAAAGGAATA TACAAACTTT GGTCCTAGAA ATGGCACATTTGATTGCACT GGCCAGTGCA TTTGTTAACA GGAGTGTGAC CCTGAGAAAT TAGACGGCTC AAGCACTCCCAGGACCATGT CCACCCAAGT CTCTTGGGCA TAGTGCAGTG TCAATTCTTC CACAATATGG GGTCATTTGA TGGACATGGCCTAACTGCCT GTGGGTTCTC TCTTCCTGTT GTTGAGGCTG AAACAAGAGT GCTGGAGCGA TAATGTGTCC ATCCCCCTCCCCAGTCTTCC CCCCTTGCCC CAACATCCGT CCCACCCAAT GCCAGGTGGT TCCTTGTAGG GAAATTTTAC CGCCCAGCAGGAACTTATAT CTCTCCGCTG TAACGGGCAA AAGTTTCAAG TGCGGTGAAC CCATCATTAG CTGTGGTGAT CTGCCTGGCATCGTGCCACA GTAGCCAAAG CCTCTGCACA GGAGTGTGGG CAACTAAGGC TGCTGACTTT GAAGGACAGCCTCACTCAGG GGGAAGCTAT TTGCTCTCAG CCAGGCCAAG AAAATCCTGT TTCTTTGGAA TCGGGTAGTAAGAGTGATCC CAGGGCCTCC AATTGACACT GCTGTGACTG AGGAAGATCA AAATGAGTGT CTCTCTTTGGAGCCACTTTC CCAGCTCAGC CTCTCCTCTC CCAGTTTCTT CCCATGGGCT ACTCTCTGTT CCTGAAACAG TTCTGGTGCCTGATTTCTGG CAGAAGTACA GCTTCACCTC TTTCCTTTCC TTCCACATTG ATCAAGTTGT TCCGCTCCTG TGGATGGGCACATTGCCAGC CAGTGACACA ATGGCTTCCT TCCTTCCTTC CTTCAGCATT TAAAATGTAG ACCCTCTTTC ATTCTCCGTTCCTACTGCTA TGAGGCTCTG AGAAACCCTC AGGCCTTTGA GGGGAAACCC TAAATCAACA AAATGACCCTGCTATTGTCT GTGAGAAGTC AAGTTATCCT GTGTCTTAGG CCAAGGAACC TCACTGTGGG TTCCCACAGA GGCTACCAATTACATGTATC CTACTCTCGG GGCTAGGGGT TGGGGTGACC CTGCATGCTG TGTCCCTAAC CACAAGACCC CCTTCTTTCTTCAGTGGTGT TCTCCATGTC CTTTGTACAA GGAGAAGAAA GTAATGACAA AATACCTGTG GCCTTGGGCCTCAAGGAAAA GAATCTGTAC CTGTCCTGCG TGTTGAAAGA TGATAAGCCC ACTCTACAGC TGGAGGTAAGTGAATGCTAT GGAATGAAGC CCTTCTCAGC CTCCTGCTAC CACTTATTCC CAGACAATTC ACCTTCTCCC CGCCCCCATCCCTAGGAAAA GCTGGGAACA GGTCTATTTG ACAAGTTTTG CATTAATGTA AATAAATTTA ACATAATTTT TAACTGCGTGCAACCTTCAA TCCTGCTGCA GAAAATTAAA TCATTTTGCC GATGTTATTA TGTCCTACCA TAGTTACAAC CCCAACAGATTATATATTGT TAGGGCTGCT CTCATTTGAT AGACACCTTG GGAAATAGAT GACTTAAAGG GTCCCATTAT CACGTCCACTCCACTCCCAA AATCACCACC ACTATCACCT CCAGCTTTCT CAGCAAAAGC TTCATTTCCA AGTTGATGTC ATTCTAGGACCATAAGGAAA AATACAATAA AAAGCCCCTG GAAACTAGGT ACTTCAAGAA GCTCTAGCTT AATTTTCACCCCCCCAAAAA AAAAAAATTC TCACCTACAT TATGCTCCTC AGCATTTGGC ACTAAGTTTT AGAAAAGAAGAAGGGCTCTT TTAATAATCA CACAGAAAGT TGGGGGCCCA GTTACAACTC AGGAGTCTGG CTCCTGATCATGTGACCTGC TCGTCAGTTT CCTTTCTGGC CAACCCAAAG AACATCTTTC CCATAGGCAT CTTTGTCCCT TGCCCCACAAAAATTCTTCT TTCTCTTTCG CTGCAGAGTG TAGATCCCAA AAATTACCCA AAGAAGAAGA TGGAAAAGCG ATTTGTCTTCAACAAGATAG AAATCAATAA CAAGCTGGAA TTTGAGTCTG CCCAGTTCCC CAACTGGTAC ATCAGCACCTCTCAAGCAGA AAACATGCCC GTCTTCCTGG GAGGGACCAA AGGCGGCCAG GATATAACTG ACTTCACCATGCAATTTGTG TCTTCCTAAA GAGAGCTGTA CCCAGAGAGT CCTGTGCTGA ATGTGGACTC AATCCCTAGGGCTGGCAGAA AGGGAACAGA AAGGTTTTTG AGTACGGCTA TAGCCTGGAC TTTCCTGTTG TCTACACCAATGCCCAACTG CCTGCCTTAG GGTAGTGCTA AGAGGATCTC CTGTCCATCA GCCAGGACAG TCAGCTCTCT CCTTTCAGGGCCAATCCCCA GCCCTTTTGTTGAGCCAGGC CTCTCTCACC TCTCCTACTC ACTTAAAGCC CGCCTGACAG AAACCACGGCCACATTTGGT TCTAAGAAAC CCTCTGTCAT TCGCTCCCAC ATTCTGATGA GCAACCGCTT CCCTATTTAT TTATTTATTTGTTTGTTTGT TTTGATTCAT TGGTCTAATT TATTCAAAGG GGGCAAGAAG TAGCAGTGTC TGTAAAAGAG CCTAGTTTTTAATAGCTATG GAATCAATTC AATTTGGACT GGTGTGCTCT CTTTAAATCA AGTCCTTTAA TTAAGACTGA AAATATATAAGCTCAGATTA TTTAAATGGG AATATTTATA AATGAGCAAA TATCATACTG TTCAATGGTT CTGAAATAAA CTTCACTGAAGAAAAAAAAA AAAGGGTCTC TCCTGATCAT TGACTGTCTG GATTGACACT GACAGTAAGC AAACAGGCTGTGAGAGTTCT TGGGACTAAG CCCACTCCTC ATTGCTGAGT GCTGCAAGTA CCTAGAAATA TCCTTGGCCACCGAAGACTA TCCTCCTCAC CCATCCCCTT TATTTCGTTG TTCAACAGAA GGATATTCAG TGCACATCTG GAACAGGATCAGCTGAAGCA CTGCAGGGAG TCAGGACTGG TAGTAACAGC TACCATGATT TATCTATCAA TGCACCAAACATCTGTTGAG CAAGCGCTAT GTACTAGGAG CTGGGAGTAC AGAGATGAGA ACAGTCACAA GTCCCTCCTCAGATAGGAGA GGCAGCTAGT TATAAGCAGA ACAAGGTAAC ATGACAAGTA GAGTAAGATA GAAGAACGAAGAGGAGTAGC CAGGAAGGAG GGAGGAGAAC GACATAAGAA TCAAGCCTAA AGGGATAAAC AGAAGATTTCCACACATGGG CTGGGCCAAT TGGGTGTCGG TTACGCCTGT AATCCCAGCA CTTTGGGTGG CAGGGGCAGAAAGATCGCTT GAGCCCAGGA GTTCAAGACC AGCCTGGGCA ACATAGTGAG ACTCCCATCT CTACAAAAAATAAATAAATA AATAAAACAA TCAGCCAGGC ATGCTGGCAT GCACCTGTAG TCCTAGCTAC TTGGGAAGCTGACACTGGAG GATTGCTTGA GCCCAGAAGT TCAAGACTGC AGTGAGCTTA TCCGTTGACC TGCAGGTCGA CACAAACCTTT TCGAGGCAAA AGGCAAAAAA GGCTGCTCTG GGATTCTCTT CAGCCAATCT TCAATGCTCAAGTGTCTGAA GCAGCCATGG CAGAAGTACC TAAGCTCGCC AGTGAAATGA TGGCTTATTA CAGTGGCAATGAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA TGAAGTGCTC CTTCCAGGAC CTGGACCTCTGCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGCGTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAATGACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG CTTATGTGCACGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA AAAGCTTGGT GATGTCTGGTCCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA TGGAGCAACA AGTGGTGTTC TCCATGTCCTTTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCTGTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAGAAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCCAGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG GGACCAAAGGCGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG AGCTGTACCC AGAGAGTCCTGTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG GAACAGAAAG GTTTTTGAGT ACGGCTATAGCCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCCAGGACAGTCA GCTCTCTCCT TTCAGGGCCA ATCCCAGCCC TTTTGTTGAG CCAGGCCTCT CTCACCTCTC CTACTCACTTAAAGCCCGCC TGACAGAAAC CAGGCCACAT TTTGGTTCTA AGAAACCCTC CTCTGTCATT CGCTCCCACATTCTGATGAG CAACCGCTTC CCTATTTATT TATTTATTTG TTTGTTTGTT TTGATTCATT GGTCTAATTT ATTCAAAGGGGGCAAGAAGT AGCAGTGTCT GTAAAAGAGC CTAGTTTTTA ATAGCTATGG AATCAATTCA ATTTGGACTG GTGTGCTCTCTTTAAATCAA GTCCTTTAAT TAAGACTGAA AATATATAAG CTCAGATTAT TTAAATGGGA ATATTTATAA ATGAGCAAATATCATACTGT TCAATGGTTC TCAAATAAAC TTCACT CTGGCAGGAG TAGCAGCTGC CCCTTGGCGC GACTGCTGGAGCCGCGAACT AGAGAAACAC AGACACGCCT CATAGAGCAA CGGCGTCTCT CGGAGCGTGG AGCCCGCCAAGCTCGAGCTG AGCTTTCGCT TGCCGTCCAC CACTGCCCAC ACTGTCGTTT GCTGCCATCG CAGACCTGCT GCTGACTTCCATCCCTCTGG ATCCGGCAAG GGCCTGCGAT TTTGACAATG TCAAGATTTA CCGTATATCC CTGTTTGTTT GGATACACCAGTGACGTCCA CTTCTAGAAG ACAAAGTTAT ATTACTTAAA CAACCAAAGA TATGAAACTA TCCATGAAGAACAATATTAT CAATACACAG CAGTCTTTTG TAACCATGCC CAATGTGATT GTACCAGATA TTGAAAAGGAAATACGAAGG ATGGAAAATG GAGCATGCAG CTCCTTTTCT GAGGATGATG ACAGTGCCTC TACATCTGAAGAATCAGAGA ATGAAAACCC TCATGCAAGG GGTTCCTTTA GTTATAAGTC ACTCAGAAAG GGAGGACCATCACAGAGGGA GCAGTACCTG CCTGGTGCCA TTGCCATTTT TAATGTGAAC AACAGCGACA ATAAGGACCAGGAACCAGAA GAAAAAAAGA AAAAGAAAAA AGAAAAGAAG AGCAAGTCAG ATGATAAAAA CGAAAATAAAAACGACCCAA AGAAGAAGAT GGAAAAGCGA ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACTGTTACAGTGA AAATGAAGAA GACAGTTCCT CCATTGATCA TCTGTCTCTG AATCAGAAAT CCTTCTATCA TGTAAGCTATGGCCCACTCC ATGAAGGCTG CATGGATCAA TCTGTGTCTC TGAGTATCTC TGAAACCTCT AAAACATCCA AGCTTACCTTCAAGGAGAGC ATGGTGGTAG TAGCAACCAA CGGGAAGGTT CTGAAGAAGA GACGGTTGAG TTTAAGCCAATCCATCACTG ATGATGACCT GGAGGCCATC GCCAATGACT CAGAGGAAGA AATCATCAAG CCTAGGTCAGCACCTTTTAG CTTCCTGAGC AATGTGAAAT ACAACTTTAT GAGGATCATC AAATACGAAT TCATCCTGAA TGACGCCCTCAATCAAAGTA TAATTCGAGC CAATGATCAG TACCTCACGG CTGCTGCATT ACATAATCTG GATGAAGCAGTGAAATTTGA CATGGGTGCT TATAAGTCAT CAAAGGATGA TGCTAAAATT ACCGTGATTC TAAGAATCTCAAAAACTCAA TTGTATGTGA CTGCCCAAGA TGAAGACCAA CCAGTGCTGC TGAAGGAGAT GCCTGAGATACCCAAAACCA TCACAGGTAG TGAGACCAAC CTCCTCTTCT TCTGGGAAAC TCACGGCACT AAGAACTATTTCACATCAGT TGCCCATCCA AACTTGTTTA TTGCCACAAA GCAAGACTAC TGGGTGTGCT TGGCAGGGGGGCCACCCTCT ATCACTGACT TTCAGATACT GGAAAACCAG GCGTAGGTCT GGAGTCTCAC TTGTCTCACT TGTGCAGTGTTGACAGTTCA TATGTACCAT GTACATGAAG AAGCTAAATC CTTTACTGTT AGTCATTTGC TGAGCATGTA CTGAGCCTTGTAATTCTAAA TGAATGTTTA CACTCTTTGT AAGAGTGGAA CCAACACTAA CATATAATGT TGTTATTTAA AGAACACCCTATATTTTGCA TAGTACCAAT CATTTTAATT ATTATTCTTC ATAACAATTT TAGGAGGACC AGAGCTACTG ACTATGGCTACCAAAAAGAC TCTACCCATA TTACAGATGG GCAAATTAAG GCATAAGAAA ACTAAGAAAT ATGCACAATAGCAGTTGAAA CAAGAAGCCA CAGACCTAGG ATTTCATGAT TTCATTTCAA CTGTTTGCCT TCTGCTTTTA AGTTGCTGATGAACTCTTAA TCAAATAGCA TAAGTTTCTG GGACCTCAGT TTTATCATTT TCAAAATGGA GGGAATAATA CCTAAGCCTTCCTGCCGCAA CAGTTTTTTA TGCTAATCAG GGAGGTCATT TTGGTAAAAT ACTTCTCGAA GCCGAGCCTCAAGATGAAGG CAAAGCACGA AATGTTATTT TTTAATTATT ATTTATATAT GTATTTATAA ATATATTTAA GATAATTATAATATACTATA TTTATGGGAA CCCCTTCATC CTCTGAGTGT GACCAGGCAT CCTCCACAAT AGCAGACAGT GTTTTCTGGGATAAGTAAGT TTGATTTCAT TAATACAGGG CATTTTGGTC CAAGTTGTGC TTATCCCATA GCCAGGAAAC TCTGCATTCTAGTACTTGGG AGACCTGTAA TCATATAATA AATGTACATT AATTACCTTG AGCCAGTAAT TGGTCCGATC TTTGACTCTTTTGCCATTAA ACTTACCTGG GCATTCTTGT TTCATTCAAT TCCACCTGCA ATCAAGTCCT ACAAGCTAAA ATTAGATGAACTCAACTTTG ACAACCATAG ACCACTGTTA TCAAAACTTT CTTTTCTGGA ATGTAATCAA TGTTTCTTCT AGGTTCTAAAAATTGTGATC AGACCATAAT GTTACATTAT TATCAACAAT AGTGATTGAT AGAGTGTTAT CAGTCATAAC TAAATAAAGCTTGCAAGTGA GGGAGTCATT TCATTGGCGT TTGAGTCAGC AAAGAAGTCA AG AGCTGCCAGC CAGAGAGGGAGTCATTTCAT TGGCGTTTGA GTCAGCAAAG AAGTCAAGAT GGCCAAAGTT CCAGACATGT TTGAAGACCTGAAGAACTGT TACAGTGAAA ATGAAGAAGA CAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGAAATCCTTCTATCATG TAAGCTATGG CCCACTCCAT GAAGGCTGCA TGGATCAATC TGTGTCTCTG AGTATCTCTG AAACCTCTAAAACATCCAAG CTTACCTTCA AGGAGAGCAT GGTGGTAGTA GCAACCAACG GGAAGGTTCT GAAGAAGAGACGGTTGAGTT TAAGCCAATC CATCACTGAT GATGACCTGG AGGCCATCGC CAATGACTCA GAGGAAGAAATCATCAAGCC TAGGTCATCA CCTTTTAGCT TCCTGAGCAA TGTGAAATAC AACTTTATGA GGATCATCAA ATACGAATTCATCCTGAATG ACGCCCTCAA TCAAAGTATA ATTCGAGCCA ATGATCAGTA CCTCACGGCT GCTGCATTACATAATCTGGA TGAAGCAGTG AAATTTGACA TGGGTGCTTA TAAGTCATCA AAGGATGATG CTAAAATTACCGTGATTCTA AGAATCTCAA AAACTCAATT GTATGTGACT GCCCAAGATG AAGACCAACC AGTGCTGCTGAAGGAGATGC CTGAGATACC CAAAACCATC ACAGGTAGTG AGACCAACCT CCTCTTCTTC TGGGAAACTCACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAA CTTGTTTATT GCCACAAAGC AAGACTACTG GGTGTGCTTGGCAGGGGGGC CACCCTCTAT CACTGACTTT CAGATACTGG AAAACCAGGC GTAGGTCTGG AGTCTCACTTGTCTCACTTG TGCAGTGTTG ACAGTTCATA TGTACCATGT ACATGAAGAA GCTAAATCCT TTACTGTTAG TCATTTGCTGAGCATGTACT GAGCCTTGTA ATTCTAAATG AATGTTTACA CTCTTTGTAA GAGTGGAACC AACACTAACA TATAATGTTGTTATTTAAAG AACACCCTAT ATTTTGCATA GTACCAATCA TTTTAATTAT TATTCTTCAT AACAATTTTA GGAGGACCAGAGCTACTGAC TATGGCTACC AAAAAGACTC TACCCATATT ACAGATGGGC AAATTAAGGC ATAAGAAAACTAAGAAATAT GCACAATAGC AGTCGAAACA AGAAGCCACA GACCTAGGAT TTCATGATTT CATTTCAACTGTTTGCCTTC TGCTTTTAAG TTGCTGATGA ACTCTTAATC AAATAGCATA AGTTTCTGGG ACCTCAGTTT TATCATTTTCAAAATGGAGG GAATAATACC TAAGCCTTCC TGCCGCAACA GTTTTTTATG CTAATCAGGG AGGTCATTTTGGTAAAATAC TTCTCGAAGC CGAGCCTCAA GATGAAGGCA AAGCACGAAA TGTTATTTTT TAATTATTAT TTATATATGTATTTATAAAT ATATTTAAGA TAATTATAAT ATACTATATT TATGGGAACC CCTTCATCCT CTGAGTGTGA CCAGGCATCCTCCACAATAGCAGACAGTGT TTTCTGGGAT AAGTAAGTTT GATTTCATTA ATACAGGGCA TTTTGGTCCA AGTTGTGCTTATCCCATAGC CAGGAAACTC TGCATTCTAG TACTTGGGAG ACCTGTAATC ATATAATAAA TGTACATTAA TTACCTTGAGCCAGTAATTG GTCCGATCTT TGACTCTTTT GCCATTAAAC TTACCTGGGC ATTCTTGTTT CATTCAATTC CACCTGCAATCAAGTCCTAC AAGCTAAAAT TAGATGAACT CAACTTTGAC AACCATGAGA CCACTGTTAT CAAAACTTTC TTTTCTGGAATGTAATCAAT GTTTCTTCTA GGTTCTAAAA ATTGTGATCA GACCATAATG TTACATTATTATCAACAATA GTGATTGATAGAGTGTTATC AGTCATAACT AAATAAAGCT TGCAACAAAA TTCTCTG-3′(FRAG. NO：_)(SEQ. ID NO：2517)

5′-AAGCTTCTAC CCTAGTCTGG TGCTACACTT ACATTGCTTA CATCCAAGTG TGGTTATTTC TGTGGCTCCTGTTATAACTA TTATAGCACC AGGTCTATGA CCAGGAGAAT TAGACTGGCA TTAAATCAGA ATAAGAGATTTTGCACCTGC AATAGACCTT ATGACACCTA ACCAACCCCA TTATTTACAA TTAAACAGGA ACAGAGGGAATACTTTATCC AACTCACACA AGCTGTTTTC CTCCCAGATC CATGCTTTTT TGCGTTTATT ATTTTTTAGA GATGGGGGCTTCACTATGTT GCCCACACTG GACTAAAACT CTGGGCCTCA AGTGATTGTC CTGCCTCAGC CTCCTGAATA GCTGGGACTACAGGGGCATG CCATCACACC TAGTTCATTT CCTCTATTTA AAATATACAT GGCTTAAACT CCAACTGGGAACCCAAAACA TTCATTTGCT AAGAGTCTGG TGTTCTACCA CCTGAACTAG GCTGGCCACA GGAATTATAAAAGCTGAGAA ATTCTTTAAT AATAGTAACC AGGCAACATC ATTGAAGGCT CATATGTAAA AATCCATGCC TTCCTTTCTCCCAATCTCCA TTCCCAAACT TAGCCACTGG TTCTGGCTGA GGCCTTACGC ATACCTCCCG GGGCTTGCAC ACACCTTCTTCTACAGAAGA CACACCTTGG GCATATCCTA CAGAAGACCA GGCTTCTCTC TGGTCCTTGG TAGAGGGCTACTTTACTGTA ACAGGGCCAG GGTGGAGAGT TCTCTCCTGA AGCTCCATCC CCTCTATAGG AAATGTGTTG ACAATATTCAGAAGAGTAAG AGGATCAAGA CTTCTTTGTG CTCAAATACC ACTGTTCTCT TCTCTACCCT GCCCTAACCA GGAGCTTGTCACCCCAAACT CTGAGGTGAT TTATGCCTTA ATCAAGCAAA CTTCCCTCTT CAGAAAAGAT GGCTCATTTT CCCTCAAAAGTTGCCAGGAG CTGCCAAGTA TTCTGCCAAT TCACCCTGGA GCACAATCAA CAAATTCAGC CAGAACACAACTACAGCTAC TATTAGAACT ATTATTATTA ATAAATTCCT CTCCAAATCT AGCCCCTTGA CTTCGGATTT CACGATTTCTCCCTTCCTCC TAGAAACTTG ATAAGTTTCC CGCGCTTCCC TTTTTCTAAG ACTACATGTT TGTCATCTTA TAAAGCAAAGGGGTGAATAA ATGAACCAAA TCAATAACTT CTGGAATATC TGCAAACAAC AATAATATCA GCTATGCCATCTTTCACTAT TTTAGCCAGT ATCGAGTTGA ATGAACATAG AAAAATACAA AACTGAATTC TTCCCTGTAA ATTCCCCGTTTTGACGACGC ACTTGTAGCC ACGTAGCCAC GCCTACTTAA GACAATTACA AAAGGCGAAG AAGACTGACTCAGGCTTAAG CTGCCAGCCA GAGAGGGAGT CATTTCATTG GCGTTTGAGT CAGCAAAGGT ATTGTCCTCACATCTCTGGC TATTAAAGTA TTTTCTGTTG TTGTTTTTCT CTTTGGCTGT TTTCTCTCAC ATTGCCTTCT CTAAAGCTACAGTCTCTCCT TTCTTTTCTT GTCCCTCCCT GGTTTGGTAT GTGACCTAGA ATTACAGTCA GATTTCAGAA AATGATTCTCTCATTTTGCT GATAAGGACT GATTCGTTTT ACTGAGGGAC GGCAGAACTA GTTTCCTATG AGGGCATGGGTGAATACAAC TGAGGCTTCT CATGGGAGGG AATCTCTACT ATCCAAAATT ATTAGGAGAA AATTGAAAATTTCCAACTCT GTCTCTCTCT TACCTCTGTG TAAGGCAAAT ACCTTATTCT TGTGGTGTTT TTGTAACCTC TTCAAACTTTCATTGATTGA ATGCCTGTTC TGGCAATACA TTAGGTTGGG CACATAAGGA ATACCAACAT AAATAAAACATTCTAAAAGA AGTTTACGAT CTAATAAAGG AGACAGGTAC ATAGCAAACT AATTCAAAGG AGCTAGAAGATGGAGAAAAT GCTGAATGTG GACTAAGTCA TTCAACAAAG TTTTCAGGAA GCACAAAGAG GAGGGGCTCCCCTCACAGAT ATCTGGATTA GAGGCTGGCT GAGCTGATGG TGGCTGGTGT TCTCTGTTGC AGAAGTCAAGATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGGTA AGGAATAAGA TTTATCTCTTGTGATTTAAT GAGGGTTTCA AGGCTCACCA GAATCCAGCT AGGCATAACA GTGGCCAGCA TGGGGGCAGGCCGGCAGAGG TTGTAGAGAT GTGTACTAGT CCTGAAGTCA GAGCAGGTTC AGAGAAGACC CAGAAAAACTAAGCATTCAG CATGTTAAAC TGAGATTACA TTGGCAGGGA GACCGCCATT TTAGAAAAAT TATTTTTGAGGTCTGCTGAG CCCTACATGA ATATCAGCAT CAACTTAGAC ACAGCCTCTG TTGAGATCAC ATGCCCTGATATAAGAATGG GTTTTACTGG TCCATTCTCA GGAAAACTTG ATCTCATTCA GGAACAGGAA ATGGCTCCACAGCAAGCTGG GCATGTGAAC TCACATATGC AGGCAAATCT CACTCAGATG TAGAAGAAAG GTAAATGAACACAAAGATAA AATTACGGAA CATATTAAAC TAACATGATG TTTCCATTAT CTGTAGTAAA TACTAACACAAACTAGGCTG TCAAAATTTT GCCTGGATAT TTTACTAAGT ATAAATTATG AAATCTGTTT TAGTGAATAC ATGAAAGTAATGTGTAACAT ATAATCTATT TGGTTAAAAT AAAAAGGAAG TGCTTCAAAA CCTTTCTTTT CTCTAAAGGA GCTTAACATTCTTCCCTGAA CTTCAATTAA AGCTCTTCAA TTTGTTAGCC AAGTCCAATT TTTACAGATA AAGCACAGGT AAAGCTCAAAGCCTGTCTTG ATGACTACTA ATTCCAGATT AGTAAGATAT GAATTACTCT ACCTATGTGT ATGTGTAGAA GTCCTTAAATTTCAAAGATG ACAGTAATGG CCATGTGTAT GTGTGTGACC CACAACTATC ATGGTCATTA AAGTACATTGGCCAGAGACC ACATGAAATA ACAACAATTA CATTCTCATC ATCTTATTTT GACAGTGAAA ATGAAGAAGACAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGGTAAGC AAATGACTGT AATTCTCATG GGACTGCTAT TCTTACACAGTGGTTTCTTC ATCCAAAGAG AACAGCAATG ACTTGAATCT TAAATACTTT TGTTTTACCC TCACTAGAGA TCCAGAGACCTGTCTTTCAT TATAAGTGAG ACCAGCTGCC TCTCTAAACT AATAGTTGAT GTGCATTGGC TTCTCCCAGA ACAGAGCAGAACTATCCCAA ATCCCTGAGA ACTGGAGTCT CCTGGGGCAG GCTTCATCAG GATGTTAGTT ATGCCATCCTGAGAAAGCCC CGCAGGCCGC TTCACCAGGT GTCTGTCTCC TAACGTGATG TGTTGTGGTT GTCTTCTCTG ACACCAGCATCAGAGGTTAG AGAAAGTCTC CAAACATGAA GCTGAGAGAG AGGAAGCAAG CCAGCTGAAA GTGAGAAGTCTACAGCCACT CATCAATCTG TGTTATTGTG TTTGGAGACC ACAAATAGAC ACTATAAGTA CTGCCTAGTA TGTCTTCAGTACTGGCTTTA AAAGCTGTCC CCAAAGGAGT ATTTCTAAAA TATTTTGAGC ATTGTTAAGC AGATTTTTAA CCTCCTGAGAGGGAACTAAT TGGAAAGCTA CCACTCACTA CAATCATTGT TAACCTATTT AGTTACAACA TCTCATTTTT GAGCATGCAAATAAATGAAA AAGTCTTCCT AAAAAAATCA TCTTTTTATC CTGGAAGGAG GAAGGAAGGT GAGACAAAAGGGAGAGAGGG AGGGAAGCCT AATGAAACAC CAGTTACCTA AGACCAGAAT GGAGATCCTC CTCACTACCTCTGTTGAATA CAGCACCTAC TGAAAGAACT TTCATTCCCT GACCATGAAC AGCCTCTCAG CTTCTGTTTT CCTTCCTCACAGAAATCCTT CTATCATGTA AGCTATGGCC CACTCCATGA AGGCTGCATG GATCAATCTG TGTCTCTGAG TATCTCTGAAACCTCTAAAA CATCCAAGCT TACCTTCAAG GAGAGCATGG TGGTAGTAGC AACCAACGGG AAGGTTCTGAAGAAGAGACG GTTGAGTTTA AGCCAATCCA TCACTGATGA TGACCTGGAG GCCATCGCCA ATGACTCAGAGGAAGGTAAG GGGTCAAGCA CAATAATATC TTTCTTTTAC AGTTTTAAGC AAGTAGGGAC AGTAGAATTTAGGGGAAAAT TAAACGTGGA GTCAGAATAA CAAGAAGACA ACCAAGCATT AGTCTGGTAA CTATACAGAGGAAAATTAAT TTTTATCCTT CTCCAGGAGG GAGAAATGAG CAGTGGCCTG AATCGAGAAT ACTTGCTCACAGCCATTATT TCTTAGCCAT ATTGTAAAGG TCGTGTGACT TTTAGCCTTT CAGGAGAAAG CAGTAATAAG ACCACTTACGAGCTATGTTC CTCTCATACT AACTATGCCT CCTTGGTCAT GTTACATAAT CTTTTCGTGA TTCAGTTTCC TCTACTGTAAAATGGAGATA ATCAGAATCC CCCACTCATT GGATTGTTGT AAAGATTAAG AGTCTCAGGC TTTACAGACTGAGCTAGCTG GGCCCTCCTG ACTGTTATAA AGATTAAATG AGTCAACATC CCCTAACTTC TGGACTAGAATAATGTCTGG TACAAAGTAA GCACCCAATA AATGTTAGCT ATTACTATCA TTATTATTAT TATTTTATTT TTTTTTTTTGAGATGGAGTC TGGCTCTGTC ACCCAGGCTG GAGTGCAGTG GCACAATCTC GGCTCACTGC AAGCTCTGCCTCCTGGGTTC ATGCCATTCT CCTGCCTCAG CCTCCCGAGT AAGCTGGGAA TACAGGCACC CGCCACTGTT CCCGGCTAATTTTTTGTATT TTTAGTAGAG ACGGAGTTTC ACCGTGGTCT CCATCTCCTC GTGATCCACC CACCTTGGCC TCCCAAAGTGCCGGGATTAC AGGCGTGAGC CACCGCGCCC GGCCTATTAT TATTATTATT ACTACTACTA CTACCTATAT GAATACTACCAGCAATACTA ATTTATTAAT GACTGGATTA TGTCTAAACC TCACAAGAAT CCTACCTTCT CATTTTACAT AAAAGGAAACTAAGCTCATT GAGATAGGTA AACTGCCCAA TGGCATACAT CTGTAAGTGG GAGAGCCTCA AATCTAATTCAGTTCTACCT GAGTAAAAAA ATCATGGTTT CTCCTCCATC CCTTTACTGT ACAAGCCTCC ACATGAACTA TAAACCCAATATTCCTGTTT TTAAGATAAT ACCTAAGCAA TAACGCATGT TCACCTAGAA GGTTTTAAAA TGTAACAAAATATAAGAAAA TAAAAATCAC TCATATCGTC AGTGAGAGTT TACTACTGCC AGCACTATGG TATGTTTCCT TAAAATCTTTGCTATACACA TACCTACATG TGAACAAATA TGTCTAACAT CAAGACCACA CTATTTACAA CTTTATATCC AGCTTTTCTTACTTAGCAAT GTATTGAGGA CATTTTAGAG TGCCCGTTTT TCACCATTAT AAGCAATGCA ACAATGAACA TCTGTATAAATAAATATTCA TTTCTCTCAC CCTTTATTTC CTTAGAATAT ATTCCTAGAA GTAGAATTTC CCAGAGCCAT GAGGATTTGTGACGCTATTG ATATGTGCCA CTTTGCACTC TCTGTGACAT ATATAATTAT TTTTAATGCA TTCATTTTTT TCTCAGAGTGCATTCGTTTG AAAACATAGA CGGGAAATAC TGGTAGTCTT CCTTGTCAGT TAGAAACACC CAAACAATGAAAAATGAAAA AGTTGCACAA ATAGTCTCTA AAAACAATGA AACTATTGCC TGAGGAATTG AAGTTTAAAAAGAAGCACAT AAGCAACAAC AAGGATAATC CTAGAAAACC AGTTCTGCTG ACTGGGTGAT TTCACTTCTC TTTGCTTCCTCATCTGGATT GGAATATTCC TAATACCCCC TCCAGAACTA TTTTCCCTGT TTGTACTAGA CTGTGTATAT CATCTGTGTTTGTACATAGA CATTAATCTG CACTTGTGAT CATGGTTTTA GAAATCATCA AGCCTAGGTC ATCACCTTTT AGCTTCCTGAGCAATGTGAA ATACAACTTT ATGAGGATCA TCAAATACGA ATTCATCCTG AATGACGCCC TCAATCAAAGTATAATTCGA GCCAATGATC AGTACCTCAC GGCTGCTGCA TTACATAATC TGGATGAAGC AGGTACATTAAAATGGCACC AGACATTTCT GTCATCCTCC CCTCCTTTCA TTTACTTATT TATTTATTTC AATCTTTCTG CTTGCAAAAAACATACCTCT TCAGAGTTCT GGGTTGCACA ATTCTTCCAGAATAGCTTGA AGCACAGCAC CCCCATAAAAATCCCAAGCC AGGGCAGAAG GTTCAACTAA ATCTGGAAGT TCCACAAGAG AGAAGTTTCC TATCTTTGAGAGTAAAGGGT TGTGCACAAA GCTAGCTGAT GTACTACCTC TTTGGTTCTT TCAGACATTC TTACCCTCAA TTTTAAAACTGAGGAAACTG TCAGACATAT TAAATGATTT ACTCAGATTT ACCCAGAAGC CAATGAAGAA CAATCACTCTCCTTTAAAAA GTCTGTTGAT CAAACTCACA AGTAACACCA AACCAGGAAG ATCTTTATTA TCTCTGATAA CATATTTGTGAGGCAAAACC TCCAATAAGC TACAAATATG GCTTAAAGGA TGAAGTTTAG TGTCCAAAAA CTTTTATCACACACATCCAA TTTTCATGGC GGACATGTTT TAGTTTCAAC AGTATACATA TTTTCAAAGG TCCAGAGAGG CAATTTTGCAATAAACAAGC AAGACTTTTT CTGATTGGAT GCACTTCAGC TAACATGCTT TCAACTCTAC ATTTACAAAT TATTTTGTGTTCTATTTTTC TACTTAATAT TATTTCTGCA ATTTTCCCAA TATTGACATC GTGTATGTAT TTGCCATTTT TAATATCACTAGACAATTCA ATCAGGTTGC TACGTTGGTC CCTTGGGTTT ACTCTAAATA GCTTGATTGC AAATATCTTT GTATATATTATTGTTTTTTC TCCTATCTTG TAATTTCTTT GAGCACATCC CAAAGAGGAA TGCCTAGATC AATGGGCACA AATAATTTGACAGCTCTTAT TAAACATTAT TCTGTAAGTA AAAACTGAAC TACTTTTCAG TATCACTAGC AACATATGAG TGTATCAGCTTCCTAAACCC CTCCATGTTA GGTCATTATG AACTTATGAT CTAACAAATT ACAGGGTCTT ATCCCACTAA TGAAATTATAAGAGATTCAA CACTTATTCA GCCCCGAAGG ATTCATTCAA CGTAGAAAAT TCTAAGAACA TTAACCAAGTATTTACCTGC CTAGTGAGTG TGGAAGACAT TGTGAAGGAC ACAAAGATGT ATAGAATTCC ATTCCTGACT TCCAGGTATTTACACCATAG GTGGGGACCT AACTACACAC ACACACACAC ACACACACAC ACACACACAC ACCATGCACACACAATCTAC ATCAACACTT GATTTTATAC AAATACAATG AATTTACTTT CTTTTTGGTT CTTCTCTTCA CCAGTGAAATTTGACATGGG TGCTTATAAG TCATCAAAGG ATGATGCTAA AATTACCGTG ATTCTAAGAA TCTCAAAAAC TCAATTGTATGTGACTGCCC AAGATGAAGA CCAACCAGTG CTGCTGAAGG TCAGTTGTCC TTTGTCTCCA ACTTACCTTC ATTTACATCTCATATGTTTG TAAATAAGCC CAATAGGCAG ACACCTCTAA CAAGGTGACA CTGTCCTCTT TCCTTCCTAC CACAGCCCCCACCTACCCAC CCCACTCCCA TTGATTCCAG AGGCGTGCCT AGGCAGGATC TATGAGAAAA TATAACAGAGAGTAAGAGGA AAATTACCTT CTTTCTTTTT CCTTTCCCTG CCTGACCTTA TTCACCTCCC ATCCCAGAGC ATCCATTTATTCCATTGATC TTTACTGACA TCTATTATCT GACCTACACA ATACTAGACA TTAGGACAAT GTGGCCTGCC TCCAAGAAACTCAAATAAGC CAACTGAGAT CAGAGAGGAT TAATCACCTG CCAATGGGCA CAAAGCAACA AGCTGGGAGCCAAGTCCCAA AATGGGGCCT GCTGCTTCCA GTTCCCCTCT CTCTGCATTG ATGTCAGCAT TATCCTTCGT CCCAGTCCTGTCTCCACTAC CACTTTCCCC CTCAAACACA CACACACACA ACAGCCTTAG ATGTTTTCTC CACTGATAAG TAGGTGACTCAATTTGTAAG TATATAATCC AAGACCTTCT ATTCCCAAGT AGAATTTATG TGCCTGCCTG TGCTTTTCTA CCTGGATCAAGTGATGTCTA CAGAGTAGGG CAGTAGCTTC ATTCATGAAC TCATTCAACA AGCATTATTC ACTGAGAGCC TTGTATTTTTCAGGCATAGT GCCAACAGCA GTGTGGACAG TGGTGCATCA AAGCCTCTAG TCTCATAGAA CTTAGTCTTCTGGAGGATAT GGAAAACAGA CAACCCAAAC AACCAACAAA AGAGCAAGAT GCTGCAAAAA AAAAAAAAATGAATAGGGTG CTAAGATAGA GAAAAGTGGG AGAGTGCTAT TTAGACAAAG TGGTAAAAAC AAAGCCCCTTGTGAGATGAG AGCTGCCGAC AGAGGGGGCG GGTCATGGTT GTGGGTTTTT GGGTAGGACA TTCAGAGGAGGGGGCGGGTC GTGGTTGTGG GTTTTTGGGT AGGACATTCA GAGGAGGGGG CGGGTCGTGG TTGTGGGTTTTTGGGTAGGA CATTCAGAGG AGGGGGCGGG TCGTGGTTGT GGGTTTTTGG GTAGGACATT CAGAGGAGGGGGCGGGTCGT GGTTGTGGGT TTTTGGGACA TTCAGAGGAG TCTGAATGCA CCCAGGCCTA CAACTTCAAGATGGTAAAGG ACAGCTCCAA GGATCAGAAG AAGCATTCTT GGAACTGGGG CATTTTGAGA AGGAGGAAAAATATGCAGAG ACTAGTGCTT GCAGAGCTTG CATTTGGATT TCATTTGAGG TACAATGAAA ACCCATTAAT GGGTTTCACACAGTGCAATG GCCTGACCTC ACTTATATTT CCTAAAATAG AAAACAGATC AGAAGGAAGG CAATAGAGAAGCAGAAAGTC CAATGAGGAG GTTTCACAGC AGTCATGGGG GTGGGGTAAG GAAAAGAAGT GGAAAGAAACAGACAGAATT GGGTTATATT TTGGAGATAG AACCAACAGA AGGAAGAGGA GAAACAACAT TTACTGAGAAGGGAAAAAGT AGGAGAGGAA TAGGTTTGGG AAATAAATCC TGCTGACATT GGAAACCCCA AGGAAGCCTCAAAAGTATAT TTACTTGCTT TAGATTTAAA AGAATAGGAA AGAAGCATCT CAACTTGGAA TTTGAAATCT ATTTTTCCATAAAAGTATTG TTAAATTCTA CTCATACTCA CAAGAAAAGT ACATTCTAAA GAGTATATTG AAAGAGTTTA CTGATATACTTAGGAATTTT GTGTGTATGT GTGTGTGTGT ATGTGTGTGT GTGTGTTTAA CCTTCAATTG TTGACTTAAA TACTGAGATAAATGTCATCT AAATGCTAAA TTGATTTCCC AAAGGTATGA TTTGTTCACT TGGAGATCAA AATGTTTAGG GGGCTTAGAATCACTGTAGT GCTCAGATTT GATGCAAAAT GTCTTAGGCC TATGTTGAAG GCAGGACAGA AACAATGTTT CCCTCCTACCTGCCTGGATA CAGTAAGATA CTAGTGTCAC TGACAATCTT CATAACTAAT TTAGATCTCT CTCCAATCAA CTAAGGAAATCAACTCTTAT TAATAGACTG GGCCACACAT CTACTAGGCA TGTAATAAAT GCTTGCTGAA TGAACAAATGAATGAAGAGC CTATAGCATC ATGTTACAGC CATAGTCCTA AAGTGGTGTT TCTCATGAAG GCCAAATGCTAAGGGATTGA GCTTCAGTCC TTTTTCTAAC ATCTTGTTCT CTAACAGAAT TCTCTTCTTT TCTTCATAGG AGATGCCTGAGATACCCAAA ACCATCACAG GTAGTGAGAC CAACCTCCTC TTCTTCTGGG AAACTCACGG CACTAAGAACTATTTCACAT CAGTTGCCCA TCCAAACTTG TTTATTGCCA CAAAGCAAGA CTACTGGGTG TGCTTGGCAGGGGGGCCACC CTCTATCACT GACTTTCAGA TACTGGAAAA CCAGGCGTAG GTCTGGAGTC TCACTTGTCT CACTTGTGCAGTGTTGACAG TTCATATGTA CCATGTACAT GAAGAAGCTA AATCCTTTAC TGTTAGTCAT TTGCTGAGCA TGTACTGAGCCTTGTAATTC TAAATGAATG TTTACACTCT TTGTAAGAGT GGAACCAACA CTAACATATA ATGTTGTTAT TTAAAGAACACCCTATATTT TGCATAGTAC CAATCATTTT AATTATTATT CTTCATAACA ATTTTAGGAG GACCAGAGCT ACTGACTATGGCTACCAAAA AGACTCTACC CATATTACAG ATGGGCAAAT TAAGGCATAA GAAAACTAAG AAATATGCACAATAGCAGTT GAAACAAGAA GCCACAGACC TAGGATTTCA TGATTTCATT TCAACTGTTT GCCTTCTGCT TTTAAGTTGCTGATGAACTC TTAATCAAAT AGCATAAGTT TCTGGGACCT CAGTTTTATC ATTTTCAAAA TGGAGGGAAT AATACCTAAGCCTTCCTGCC GCAACAGTTT TTTATGCTAA TCAGGGAGGT CATTTTGGTA AAATACTTCT CGAAGCCGAG CCTCAAGATGAAGGCAAAGC ACGAAATGTT ATTTTTTAAT TATTATTTAT ATATGTATTT ATAAATATAT TTAAGATAAT TATAATATACTATATTTATG GGAACCCCTT CATCCTCTGA GTGTGACCAG GCATCCTCCA CAATAGCAGA CAGTGTTTTC TGGGATAAGTAAGTTTGATT TCATTAATAC AGGGCATTTT GGTCCAAGTT GTGCTTATCC CATAGCCAGG AAACTCTGCA TTCTAGTACTTGGGAGACCT GTAATCATAT AATAAATGTA CATTAATTAC CTTGAGCCAG TAATTGGTCC GATCTTTGAC TCTTTTGCCATTAAACTTAC CTGGGCATTC TTGTTTCATT CAATTCCACC TGCAATCAAG TCCTACAAGC TAAAATTAGA TGAACTCAACTTTGACAACC ATGAGACCAC TGTTATCAAA ACTTTCTTTT CTGGAATGTA ATCAATGTTT CTTCTAGGTT CTAAAAATTGTGATCAGACC ATAATGTTAC ATTATTATCA ACAATAGTGA TTGATAGAGT GTTATCAGTC ATAACTAAAT AAAGCTTGCAACAAAATTCT CTGACACATA GTTATTCATT GCCTTAATCA TTATTTTACT GCATGGTAAT TAGGGACAAA TGGTAAATGTTTACATAAAT AATTGTATTT AGTGTTACTT TATAAAATCA AACCAAGATT TTATATTTTT TTCTCCTCTT TGTTAGCTGCCAGTATGCAT AAATGGCATT AAGAATGATA ATATTTCCGG GTTCACTTAA AGCTCATATT ACACATACACAAAACATGTG TTCCCATCTT TATACAAACT CACACATACA GAGCTACATT AAAAACAACTAATAGGCCAGGCACGGTGGC TCAGACCTGT AATCCCAGCA CTTTGGGAGG-3′(FRAG. NO：_)(SEQ. ID NO：2510)

5′-ACCAACCTCT TCGAGGCACA AGGCACAACA GGCTGCTCTG GGATTCTCTT CAGCCAATCT TCATTGCTCAAGTGTCTGAA GCAGCCATGG CAGAAGTACC TGAGCTCGCC AGTGAAATGA TGGCTTATTA CAGTGGCAATGAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA TGAAGTGCTC CTTCCAGGAC CTGGACCTCTGCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGCGTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAATGACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG CTTATGTGCACGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA AAAGCTTGGT GATGTCTGGTCCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA TGGAGCAACA AGTGGTGTTC TCCATGTCCTTTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCTGTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAGAAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCCAGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG GGACCAAAGGCGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG AGCTGTACCC AGAGAGTCCTGTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG GAACAGAAAG GTTTTTGAGT ACGGCTATAGCCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCCAGGACAGTCA GCTCTCTCCT TTCAGGGCCA ATCCCCAGCC CTTTTGTTGA GCCAGGCCTC TCTCACCTCT CCTACTCACTTAAAGCCCGC CTGACAGAAA CCACGGCCAC ATTTGGTTCT AAGAAACCCT CTGTCATTCG CTCCCACATTCTGATGAGCA ACCGCTTCCC TATTTATTTA TTTATTTGTT TGTTTGTTTT ATTCATTGGT CTAATTTATT CAAAGGGGGCAAGAAGTAGC AGTGTCTGTA AAAGAGCCTA GTTTTTAATA GCTATGGAAT CAATTCAATT TGGACTGGTG TGCTCTCTTTAAATCAAGTC CTTTAATTAA GACTGAAAAT ATATAAGCTC AGATTATTTA AATGGGAATA TTTATAAATGAGCAAATATC ATACTGTTCA ATGGTTCTGA AATAAACTTC TCTGAAG-3′ (FRAG. NO：_)(SEQ. ID NO：2511)

5′-AGAAAGAAAG AGAGAGAGAA AGAAAAGAAA GAGGAAGGAA GGAAGGAAGG AAGAAAGACA GGCTCTGAGGAAGGTGGCAG TTCCTACAAC GGGAGAACCA GTGGTTAATT TGCAAAGTGG ATCCTGTGGA GGCANNCAGAGGAGTCCCCT AGGCCACCCA GACAGGGCTT TTAGCTATCT GCAGGCCAGA CACCAAATTT CAGGAGGGCTCAGTGTTAGG AATGGATTAT GGCTTATCAA ATTCACAGGA AACTAACATG TTGAACAGCT TTTAGATTTCCTGTGGAAAA TATAACTTAC TAAAGATGGA GTTCTTGTGA CTGACTCCTG ATATCAAGAT ACTGGGAGCCAAATTAAAAA TCAGAAGGCT GCTTGGAGAG CAAGTCCATG AAATGCTCTT TTTCCCACAG TAGAACCTATTTCCCTCGTG TCTCAAATAC TTGCACAGAG GCTCACTCCC TTGGATAATG CAGAGCGAGC ACGATACCTGGCACATACTA ATTTGAATAA AATGCTGTCA AATTCCCATT CACCCATTCA AGCAGCAAAC TCTATCTCAC CTGAATGTACATGCCAGGCA CTGTGCTAGA CTTGGCTCAA AAAGATTTCA GTTTCCTGGA GGAACCAGGA GGGCAAGGTTTCAACTCAGT GCTATAAGAA GTGTTACAGG CTGGACACGG TGGCTCACGC CTGTAATCCC AACATTTGGGAGGCCGAGGC GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCTCTACTAAAAA TACAAAAAAT TAGCCGGGCG TTGGCGGCAG GTGCCTGTAG TCCCAGCTGC TGGGGAGGCTGAGGCAGGAG AATGGTGTGA ACCCGGGAGG CGGAACTTGC AGGGGGCCGA GATCGTGCCA CTGCACTCCAGCCTGGGCGA CAGAGTGAGA CTCTGTCTCA AAAAAAAAAA AAAAGTGTTA TGATGCAGAC CTGTCAAAGAGGCAAAGGAG GGTGTTCCTA CACTCCAGGC ACTGTTCATA ACCTGGACTC TCATTCATTC TACAAATGGAGGGCTCCCCT GGGCAGATCC CTGGAGCAGG CACTTTGCTG GTGTCTCGGT TAAAGAGAAA CTGATAACTCTTGGTATTAC CAAGAGATAG AGTCTCAGAT GGATATTCTT ACAGAAACAA TATTCCCACT TTTCAGAGTTCACCAAAAAA TCATTTTAGG CAGAGCTCAT CTGGCATTGA TCTGGTTCAT CCATGAGATT GGCTAGGGTAACAGCACCTG GTCTTGCAGG GTTGTGTGAG CTTATCTCCA GGGTTGCCCC AACTCCGTCA GGAGCCTGAACCCTGCATAC CGTATGTTCT CTGCCCCAGC CAAGAAAGGT CAATTTTCTC CTCAGAGGCT CCTGCAATTG ACAGAGAGCTCCCGAGGCAG AGAACAGCAC CCAAGGTAGA GACCCACACC CTCAATACAG ACAGGGAGGG CTATTGGCCCTTCATTGTAC CCATTTATCC ATCTGTAAGT GGGAAGATTC CTAAACTTAA GTACAAAGAA GTGAATGAAGAAAAGTATGT GCATGTATAA ATCTGTGTGT CTTCCACTTT GTCCCACATA TACTAAATTT AAACATTCTT CTAACGTGGGAAAATCCAGT ATTTTAATGT GGACATCAAC TGCACAACGA TTGTCAGGAA AACAATGCAT ATTTGCATGGTGATACATTT GCAAAATGTG TCATAGTTTG CTACTCCTTG CCCTTCCATG AACCAGAGAA TTATCTCAGT TTATTAGTCCCCTCCCCTAA GAAGCTTCCA CCAATACTCT TTTCCCCTTT CCTTTAACTT GATTGTGAAA TCAGGTATTC AACAGAGAAATTTCTCAGCC TCCTACTTCT GCTTTTGAAA GCTATAAAAA CAGCGAGGGA GAAACTGGCA GATACCAAACCTCTTCGAGG CACAAGGCAC AACAGGCTGC TCTGGGATTC TCTTCAGCCA ATCTTCATTG CTCAAGTATG ACTTTAATCTTCCTTACAAC TAGGTGCTAA GGGAGTCTCT CTGTCTCTCT GCCTCTTTGT GTGTATGCAT ATTCTCTCTC TCTCTCTCTTTCTTTCTCTG TCTCTCCTCT CCTTCCTCTC TGCCTCCTCT CTCAGCTTTT TGCAAAAATG CCAGGTGTAA TATAATGCTTATGACTCGGG AAATATTCTG GGAATGGATA CTGCTTATCT AACAGCTGAC ACCCTAAAGG TTAGTGTCAAAGCCTCTGCT CCAGCTCTCC TAGCCAATAC ATTGCTAGTT GGGGTTTGGT TTAGCAAATG CTTTTCTCTA GACCCAAAGGACTTCTCTTT CACACATTCA TTCATTTACT CAGAGATCAT TTCTTTGCAT GACTGCCATG CACTGGATGC TGAGAGAAATCACACATGAA CGTAGCCGTC ATGGGGAAGT CACTCATTTT CTCCTTTTTA CACAGGTGTC TGAAGCAGCCATGGCAGAAG TACCTGAGCT CGCCAGTGAA ATGATGGCTT ATTACAGGTC AGTGGAGACG CTGAGACCAGTAACATGAGC AGGTCTCCTC TTTCAAGAGT AGAGTGTTAT CTGTGCTTGG AGACCAGATT TTTCCCCTAA ATTGCCTCTTTCAGTGGCAA ACAGGGTGCC AAGTAAATCT GATTTAAAGA CTACTTTCCC ATTACAAGTC CCTCCAGCCTTGGGACCTGG AGGCTATCCA GATGTGTTGT TGCAAGGGCT TCCTGCAGAG GCAAATGGGG AGAAAAGATTCCAAGCCCAC AATACAAGGA ATCCCTTTGC AAAGTGTGGC TTGGAGGGAG AGGGAGAGCT CAGATTTTAGCTGACTCTGC TGGGCTAGAG GTTAGGCCTC AAGATCCAAC AGGGAGCACC AGGGTGCCCA CCTGCCAGGCCTAGAATCTG CCTTCTGGAC TGTTCTGCGC ATATCACTGT GAAACTTGCC AGGTGTTTCA GGCAGCTTTG AGAGGCAGGCTGTTTGCAGT TTCTTATGAA CAGTCAAGTC TTGTACACAG GGAAGGAAAA ATAAACCTGT TTAGAAGACATAATTGAGAC ATGTCCCTGT TTTTATTACA GTGGCAATGA GGATGACTTG TTCTTTGAAG CTGATGGCCC TAAACAGATGAAGGTAAGAC TATGGGTTTA ACTCCCAACC CAAGGAAGGG CTCTAACACA GGGAAAGCTC AAAGAAGGGAGTTCTGGGCC ACTTTGATGC CATGGTATTT TGTTTTAGAA AGACTTTAAC CTCTTCCAGT GAGACACAGG CTGCACCACTTGCTGACCTG GCCACTTGGT CATCATATCA CCACAGTCAC TCACTAACGT TGGTGGTGGT GGCCACACTT GGTGGTGACAGGGGAGGAGT AGTGATAATG TTCCCATTTC ATAGTAGGAA GACAACCAAG TCTTCAACAT AAATTTGATT ATCCTTTTAAGAGATGGATT CAGCCTATGC CAATCACTTG AGTTAAACTC TGAAACCAAG AGATGATCTT GAGAACTAACATATGTCTAC CCCTTTTGAG TAGAATAGTT TTTTGCTACC TGGGGTGAAG CTTATAACAA CAAGACATAG ATGATATAAACAAAAAGATG AATTGAGACT TGAAAGAAAA CCATTCACTT GCTGTTTGAC CTTGACAAGT CATTTTACCC GCTTTGGACCTCATCTGAAA AATAAAGGGC TGAGCTGGAT GATCTCTGAG ATTCCAGCAT CCTGCAACCT CCAGTTCTGA AATATTTTCAGTTGTAGCTA AGGGCATTTG GGCAGCAAAT GGTCATTTTT CAGACTCATC CTTACAAAGA GCCATGTTAT ATTCCTGCTGTCCCTTCTGT TTTATATGAT GCTCAGTAGC CTTCCTAGGT GCCCAGCCAT CAGCCTAGCT AGGTCAGTTG TGCAGGTTGGAGGCAGCCAC TTTTCTCTGG CTTTATTTTA TTCCAGTTTG TGATAGCCTC CCCTAGCCTC ATAATCCAGT CCTCAATCTTGTTAAAAACA TATTTCTTTA GAAGTTTTAA GACTGGCATA ACTTCTTGGC TGCAGCTGTG GGAGGAGCCC ATTGGCTTGTCTGCCTGGCC TTTGCCCCCC ATTGCCTCTT CCAGCAGCTT GGCTCTGCTC CAGGCAGGAA ATTCTCTCCT GCTCAACTTTCTTTTGTGCA CTTACAGGTC TCTTTAACTG TCTTTCAAGC CTTTGAACCA TTATCAGCCT TAAGGCAACC TCAGTGAAGCCTTAATACGG AGCTTCTCTG AATAAGAGGA AAGTGGTAAC ATTTCACAAA AAGTACTCTC ACAGGATTTGCAGAATGCCT ATGAGACAGT GTTATGAAAA AGGAAAAAAA AGAACAGTGT AGAAAAATTG AATACTTGCTGAGTGAGCAT AGGTGAATGG AAAATGTTAT GGTCATCTGC ATGAAAAAGC AAATCATAGT GTGACAGCATTAGGGATACA AAAAGATATA GAGAAGGTAT ACATGTATGG TGTAGGTGGG GCATGTACAA AAAGATGACAAGTAGAATCG GGATTTATTC TAAAGAATAG CCTGTAAGGT GTCCAGAAGC CACATTCTAG TCTTGAGTCT GCCTCTACCTGCTGTGTGCC CTTGAGTACA CCCTTAACCT CCTTGAGCTT CAGAGAGGGA TAATCTTTTT ATTTTATTTT ATTTTATTTTGTTTTGTTTT GTTTTGTTTT GTTTTATGAG ACAGAGTCTC ACTCTGTTGC CCAGGCTGGA GTGCAGTGGT ACAATCTTGGCTTACTGCAT CCTCCACCTC CTGAGTTCAA GCGATTCTCC TTCCTCAGTC TCCTGAATAG CTAGGATTAC AGGTGCACCCCACCACACCC AGCTAATTTT TGTATTTTTA GTAGAGAAGG GGTTTCGCCA TGTTGGCCAG GCTGGTTTTG AAGTCCTGACCTAAATGATT CATCCACCTC GGCTTCCCAA AGTGCTGGGA TTACAGGCAT GAGCCACCAC GCCTGGCCCAGAGAGGGATG ATCTTTAGAA GCTCGGGATT CTTTCAAGCC CTTTCCTCCT CTCTGAGCTT TCTACTCTCT GATGTCAAAGCATGGTTCCT GGCAGGACCA CCTCACCAGG CTCCCTCCCT CGCTCTCTCC GCAGTGCTCC TTCCAGGACC TGGACCTCTGCCCTCTGGAT GGCGGCATCC AGCTACGAAT CTCCGACCAC CACTACAGCA AGGGCTTCAG GCAGGCCGCGTCAGTTGTTG TGGCCATGGA CAAGCTGAGG AAGATGCTGG TTCCCTGCCC ACAGACCTTC CAGGAGAATGACCTGAGCAC CTTCTTTCCC TTCATCTTTG AAGAAGGTAG TTAGCCAAGA GCAGGCAGTA GATCTCCACT TGTGTCCTCTTGGAAGTCAT CAAGCCCCAG CCAACTCAAT TCCCCCAGAG CCAAAGCCCT TTAAAGGTAG AAGGCCCAGCGGGGAGACAA AACAAAGAAG GCTGGAAACC AAAGCAATCA TCTCTTTAGT GGAAACTATT CTTAAAGAAGATCTTGATGG CTACTGACAT TTGCAACTCC CTCACTCTTT CTCAGGGGCC TTTCACTTAC ATTGTCACCA GAGGTTCGTAACCTCCCTGT GGGCTAGTGT TATGACCATC ACCATTTTAC CTAAGTAGCT CTGTTGCTCG GCCACAGTGA GCAGTAATAGACCTGAAGCT GGAACCCATG TCTAATAGTG TCAGGTCCAG TGTTCTTAGC CACCCCACTC CCAGCTTCAT CCCTACTGGTGTTGTCATCA GACTTTGACC GTATATGCTC AGGTGTCCTC CAAGAAATCA AATTTTGCCA CCTCGCCTCA CGAGGCCTGCCCTTCTGATT TTATACCTAA ACAACATGTG CTCCACATTT CAGAACCTAT CTTCTTCGAC ACATGGGATA ACGAGGCTTATGTGCACGAT GCACCTGTAC GATCACTGAA CTGCACGCTC CGGGACTCAC AGCAAAAAAG CTTGGTGATGTCTGGTCCAT ATGAACTGAA AGCTCTCCAC CTCCAGGGAC AGGATATGGA GCAACAAGGT AAATGGAAACATCCTGGTTT CCCTGCCTGG CCTCCTGGCA GCTTGCTAAT TCTCCATGTT TTAAACAAAG TAGAAAGTTA ATTTAAGGCAAATGATCAAC ACAAGTGAAA AAAAATATTA AAAAGGAATA TACAAACTTT GGTCCTAGAA ATGGCACATTTGATTGCACT GGCCAGTGCA TTTGTTAACA GGAGTGTGAC CCTGAGAAAT TAGACGGCTC AAGCACTCCCAGGACCATGT CCACCCAAGT CTCTTGGGCA TAGTGCAGTG TCAATTCTTC CACAATATGG GGTCATTTGA TGGACATGGCCTAACTGCCT GTGGGTTCTC TCTTCCTGTT GTTGAGGCTG AAACAAGAGT GCTGGAGCGA TAATGTGTCC ATCCCCCTCCCCAGTCTTCC CCCCTTGCCC CAACATCCGT CCCACCCAAT GCCAGGTGGT TCCTTGTAGG GAAATTTTAC CGCCCAGCAGGAACTTATAT CTCTCCGCTG TAACGGGCAA AAGTTTCAAG TGCGGTGAAC CCATCATTAG CTGTGGTGAT CTGCCTGGCATCGTGCCACA GTAGCCAAAG CCTCTGCACA GGAGTGTGGG CAACTAAGGC TGCTGACTTT GAAGGACAGCCTCACTCAGG GGGAAGCTAT TTGCTCTCAG CCAGGCCAAG AAAATCCTGT TTCTTTGGAA TCGGGTAGTAAGAGTGATCC CAGGGCCTCC AATTGACACT GCTGTGACTG AGGAAGATCA AAATGAGTGT CTCTCTTTGGAGCCACTTTC CCAGCTCAGC CTCTCCTCTC CCAGTTTCTT CCCATGGGCT ACTCTCTGTT CCTGAAACAG TTCTGGTGCCTGATTTCTGG CAGAAGTACA GCTTCACCTC TTTCCTTTCC TTCCACATTG ATCAAGTTGT TCCGCTCCTG TGGATGGGCACATTGCCAGC CAGTGACACA ATGGCTTCCT TCCTTCCTTC CTTCAGCATT TAAAATGTAG ACCCTCTTTC ATTCTCCGTTCCTACTGCTA TGAGGCTCTG AGAAACCCTC AGGCCTTTGA GGGGAAACCC TAAATCAACA AAATGACCCTGCTATTGTCT GTGAGAAGTC AAGTTATCCT GTGTCTTAGG CCAAGGAACC TCACTGTGGG TTCCCACAGA GGCTACCAATTACATGTATC CTACTCTCGG GGCTAGGGGT TGGGGTGACC CTGCATGCTG TGTCCCTAAC CACAAGACCC CCTTCTTTCTTCAGTGGTGT TCTCCATGTC CTTTGTACAA GGAGAAGAAA GTAATGACAA AATACCTGTG GCCTTGGGCCTCAAGGAAAA GAATCTGTAC CTGTCCTGCG TGTTGAAAGA TGATAAGCCC ACTCTACAGC TGGAGGTAAGTGAATGCTAT GGAATGAAGC CCTTCTCAGC CTCCTGCTAC CACTTATTCC CAGACAATTC ACCTTCTCCC CGCCCCCATCCCTAGGAAAA GCTGGGAACA GGTCTATTTG ACAAGTTTTG CATTAATGTA AATAAATTTA ACATAATTTT TAACTGCGTGCAACCTTCAA TCCTGCTGCA GAAAATTAAA TCATTTTGCC GATGTTATTA TGTCCTACCA TAGTTACAAC CCCAACAGATTATATATTGT TAGGGCTGCT CTCATTTGAT AGACACCTTG GGAAATAGAT GACTTAAAGG GTCCCATTAT CACGTCCACTCCACTCCCAA AATCACCACC ACTATCACCT CCAGCTTTCT CAGCAAAAGC TTCATTTCCA AGTTGATGTC ATTCTAGGACCATAAGGAAA AATACAATAA AAAGCCCCTG GAAACTAGGT ACTTCAAGAA GCTCTAGCTT AATTTTCACCCCCCCAAAAA AAAAAAATTC TCACCTACAT TATGCTCCTC AGCATTTGGC ACTAAGTTTT AGAAAAGAAGAAGGGCTCTT TTAATAATCA CACAGAAAGT TGGGGGCCCA GTTACAACTC AGGAGTCTGG CTCCTGATCATGTGACCTGC TCGTCAGTTT CCTTTCTGGC CAACCCAAAG AACATCTTTC CCATAGGCAT CTTTGTCCCT TGCCCCACAAAAATTCTTCT TTCTCTTTCG CTGCAGAGTG TAGATCCCAA AAATTACCCA AAGAAGAAGA TGGAAAAGCG ATTTGTCTTCAACAAGATAG AAATCAATAA CAAGCTGGAA TTTGAGTCTG CCCAGTTCCC CAACTGGTAC ATCAGCACCTCTCAAGCAGA AAACATGCCC GTCTTCCTGG GAGGGACCAA AGGCGGCCAG GATATAACTG ACTTCACCATGCAATTTGTG TCTTCCTAAA GAGAGCTGTA CCCAGAGAGT CCTGTGCTGA ATGTGGACTC AATCCCTAGGGCTGGCAGAA AGGGAACAGA AAGGTTTTTG AGTACGGCTA TAGCCTGGAC TTTCCTGTTG TCTACACCAATGCCCAACTG CCTGCCTTAG GGTAGTGCTA AGAGGATCTC CTGTCCATCA GCCAGGACAG TCAGCTCTCT CCTTTCAGGGCCAATCCCCA GCCCTTTTGT TGAGCCAGGC CTCTCTCACC TCTCCTACTC ACTTAAAGCC CGCCTGACAG AAACCACGGCCACATTTGGT TCTAAGAAAC CCTCTGTCAT TCGCTCCCAC ATTCTGATGA GCAACCGCTT CCCTATTTAT TTATTTATTTGTTTGTTTGT TTTGATTCAT TGGTCTAATT TATTCAAAGG GGGCAAGAAG TAGCAGTGTC TGTAAAAGAG CCTAGTTTTTAATAGCTATG GAATCAATTC AATTTGGACT GGTGTGCTCTCTTTAAATCA AGTCCTTTAA TTAAGACTGA AAATATATAAGCTCAGATTA TTTAAATGGG AATATTTATA AATGAGCAAA TATCATACTG TTCAATGGTT CTGAAATAAA CTTCACTGAAGAAAAAAAAA AAAGGGTCTC TCCTGATCAT TGACTGTCTG GATTGACACT GACAGTAAGC AAACAGGCTGTGAGAGTTCT TGGGACTAAG CCCACTCCTC ATTGCTGAGT GCTGCAAGTA CCTAGAAATA TCCTTGGCCACCGAAGACTA TCCTCCTCAC CCATCCCCTT TATTTCGTTG TTCAACAGAA GGATATTCAG TGCACATCTG GAACAGGATCAGCTGAAGCA CTGCAGGGAG TCAGGACTGG TAGTAACAGC TACCATGATT TATCTATCAA TGCACCAAACATCTGTTGAG CAAGCGCTAT GTACTAGGAG CTGGGAGTAC AGAGATGAGA ACAGTCACAA GTCCCTCCTCAGATAGGAGA GGCAGCTAGT TATAAGCAGA ACAAGGTAAC ATGACAAGTA GAGTAAGATA GAAGAACGAAGAGGAGTAGC CAGGAAGGAG GGAGGAGAAC GACATAAGAA TCAAGCCTAA AGGGATAAAC AGAAGATTTCCACACATGGG CTGGGCCAAT TGGGTGTCGG TTACGCCTGT AATCCCAGCA CTTTGGGTGG CAGGGGCAGAAAGATCGCTT GAGCCCAGGA GTTCAAGACC AGCCTGGGCA ACATAGTGAG ACTCCCATCT CTACAAAAAATAAATAAATA AATAAAACAA TCAGCCAGGC ATGCTGGCAT GCACCTGTAG TCCTAGCTAC TTGGGAAGCTGACACTGGAG GATTGCTTGA GCCCAGAAGTTCAAGACTGCAGTGAGCTTATCCGTTGACCTGCAGGTCGAC-3′ (FRAG.NO：_)(SEQ. ID NO：2512)

5′-ACAAACCTTT TCGAGGCAAA AGGCAAAAAA GGCTGCTCTG GGATTCTCTT CAGCCAATCT TCAATGCTCAAGTGTCTGAA GCAGCCATGG CAGAAGTACC TAAGCTCGCC AGTGAAATGA TGGCTTATTA CAGTGGCAATGAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA TGAAGTGCTC CTTCCAGGAC CTGGACCTCTGCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGCGTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAATGACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG CTTATGTGCACGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA AAAGCTTGGT GATGTCTGGTCCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA TGGAGCAACA AGTGGTGTTC TCCATGTCCTTTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCTGTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAGAAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCCAGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG GGACCAAAGGCGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG AGCTGTACCC AGAGAGTCCTGTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG GAACAGAAAG GTTTTTGAGT ACGGCTATAGCCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCCAGGACAGTCA GCTCTCTCCT TTCAGGGCCA ATCCCAGCCC TTTTGTTGAG CCAGGCCTCT CTCACCTCTC CTACTCACTTAAAGCCCGCC TGACAGAAAC CAGGCCACAT TTTGGTTCTA AGAAACCCTC CTCTGTCATT CGCTCCCACATTCTGATGAG CAACCGCTTC CCTATTTATT TATTTATTTG TTTGTTTGTT TTGATTCATT GGTCTAATTT ATTCAAAGGGGGCAAGAAGT AGCAGTGTCT GTAAAAGAGC CTAGTTTTTA ATAGCTATGG AATCAATTCA ATTTGGACTG GTGTGCTCTCTTTAAATCAA GTCCTTTAAT TAAGACTGAA AATATATAAG CTCAGATTAT TTAAATGGGA ATATTTATAA ATGAGCAAATATCATACTGT TCAATGGTTC TCAAATAAAC TTCACT-3′(FRAG. NO：_)(SEQ. ID NO：2513)

5′-CTGGCAGGAG TAGCAGCTGC CCCTTGGCGC GACTGCTGGA GCCGCGAACT AGAGAAACAC AGACACGCCTCATAGAGCAA CGGCGTCTCT CGGAGCGTGG AGCCCGCCAA GCTCGAGCTG AGCTTTCGCT TGCCGTCCACCACTGCCCAC ACTGTCGTTT GCTGCCATCG CAGACCTGCT GCTGACTTCC ATCCCTCTGG ATCCGGCAAG GGCCTGCGATTTTGACAATG TCAAGATTTA CCGTATATCC CTGTTTGTTT GGATACACCA GTGACGTCCA CTTCTAGAAG ACAAAGTTATATTACTTAAA CAACCAAAGA TATGAAACTA TCCATGAAGA ACAATATTAT CAATACACAG CAGTCTTTTGTAACCATGCC CAATGTGATT GTACCAGATA TTGAAAAGGA AATACGAAGG ATGGAAAATG GAGCATGCAGCTCCTTTTCT GAGGATGATG ACAGTGCCTC TACATCTGAA GAATCAGAGA ATGAAAACCC TCATGCAAGGGGTTCCTTTA GTTATAAGTC ACTCAGAAAG GGAGGACCAT CACAGAGGGA GCAGTACCTG CCTGGTGCCATTGCCATTTT TAATGTGAAC AACAGCGACA ATAAGGACCA GGAACCAGAA GAAAAAAAGA AAAAGAAAAAAGAAAAGAAG AGCAAGTCAG ATGATAAAAA CGAAAATAAAAACGACCCAA AGAAGAAGATGGAAAAGCGA-3′ (FRAG.NO：_)(SEQ. ID NO：2514)

5′-ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGTGA AAATGAAGAA GACAGTTCCTCCATTGATCA TCTGTCTCTG AATCAGAAAT CCTTCTATCA TGTAAGCTAT GGCCCACTCC ATGAAGGCTG CATGGATCAATCTGTGTCTC TGAGTATCTC TGAAACCTCT AAAACATCCA AGCTTACCTT CAAGGAGAGC ATGGTGGTAGTAGCAACCAA CGGGAAGGTT CTGAAGAAGA GACGGTTGAG TTTAAGCCAA TCCATCACTG ATGATGACCTGGAGGCCATC GCCAATGACT CAGAGGAAGA AATCATCAAG CCTAGGTCAG CACCTTTTAG CTTCCTGAGCAATGTGAAAT ACAACTTTAT GAGGATCATC AAATACGAAT TCATCCTGAA TGACGCCCTC AATCAAAGTATAATTCGAGC CAATGATCAG TACCTCACGG CTGCTGCATT ACATAATCTG GATGAAGCAG TGAAATTTGACATGGGTGCT TATAAGTCAT CAAAGGATGA TGCTAAAATT ACCGTGATTC TAAGAATCTC AAAAACTCAATTGTATGTGA CTGCCCAAGA TGAAGACCAA CCAGTGCTGC TGAAGGAGAT GCCTGAGATA CCCAAAACCATCACAGGTAG TGAGACCAAC CTCCTCTTCT TCTGGGAAAC TCACGGCACT AAGAACTATT TCACATCAGT TGCCCATCCAAACTTGTTTA TTGCCACAAA GCAAGACTAC TGGGTGTGCT TGGCAGGGGG GCCACCCTCT ATCACTGACT TTCAGATACTGGAAAACCAG GCGTAGGTCT GGAGTCTCAC TTGTCTCACT TGTGCAGTGT TGACAGTTCA TATGTACCATGTACATGAAG AAGCTAAATC CTTTACTGTT AGTCATTTGC TGAGCATGTA CTGAGCCTTG TAATTCTAAA TGAATGTTTACACTCTTTGT AAGAGTGGAA CCAACACTAA CATATAATGT TGTTATTTAA AGAACACCCT ATATTTTGCA TAGTACCAATCATTTTAATT ATTATTCTTC ATAACAATTT TAGGAGGACC AGAGCTACTG ACTATGGCTA CCAAAAAGAC TCTACCCATATTACAGATGG GCAAATTAAG GCATAAGAAA ACTAAGAAAT ATGCACAATA GCAGTTGAAA CAAGAAGCCACAGACCTAGG ATTTCATGAT TTCATTTCAA CTGTTTGCCT TCTGCTTTTA AGTTGCTGAT GAACTCTTAA TCAAATAGCATAAGTTTCTG GGACCTCAGT TTTATCATTT TCAAAATGGA GGGAATAATA CCTAAGCCTT CCTGCCGCAA CAGTTTTTTATGCTAATCAG GGAGGTCATT TTGGTAAAAT ACTTCTCGAA GCCGAGCCTC AAGATGAAGG CAAAGCACGAAATGTTATTT TTTAATTATT ATTTATATAT GTATTTATAA ATATATTTAA GATAATTATA ATATACTATA TTTATGGGAACCCCTTCATC CTCTGAGTGT GACCAGGCAT CCTCCACAAT AGCAGACAGT GTTTTCTGGG ATAAGTAAGT TTGATTTCATTAATACAGGG CATTTTGGTC CAAGTTGTGC TTATCCCATA GCCAGGAAAC TCTGCATTCT AGTACTTGGG AGACCTGTAATCATATAATA AATGTACATT AATTACCTTG AGCCAGTAAT TGGTCCGATC TTTGACTCTT TTGCCATTAA ACTTACCTGGGCATTCTTGT TTCATTCAAT TCCACCTGCA ATCAAGTCCT ACAAGCTAAA ATTAGATGAA CTCAACTTTG ACAACCATAGACCACTGTTA TCAAAACTTT CTTTTCTGGA ATGTAATCAA TGTTTCTTCT AGGTTCTAAA AATTGTGATC AGACCATAATGTTACATTATTATCAACAAT AGTGATTGAT AGAGTGTTAT CAGTCATAAC TAAATAAAGC TTGCAAGTGAGGGAGTCATT TCATTGGCGT TTGAGTCAGC AAAGAAGTCA AG-3′ (FRAG. NO：_)(SEQ. ID NO：2515)

5′-AGCTGCCAGC CAGAGAGGGA GTCATTTCAT TGGCGTTTGA GTCAGCAAAG AAGTCAAGAT GGCCAAAGTTCCAGACATGT TTGAAGACCT GAAGAACTGT TACAGTGAAA ATGAAGAAGA CAGTTCCTCC ATTGATCATCTGTCTCTGAA TCAGAAATCC TTCTATCATG TAAGCTATGG CCCACTCCAT GAAGGCTGCA TGGATCAATC TGTGTCTCTGAGTATCTCTG AAACCTCTAA AACATCCAAG CTTACCTTCA AGGAGAGCAT GGTGGTAGTA GCAACCAACGGGAAGGTTCT GAAGAAGAGA CGGTTGAGTT TAAGCCAATC CATCACTGAT GATGACCTGG AGGCCATCGCCAATGACTCA GAGGAAGAAA TCATCAAGCC TAGGTCATCA CCTTTTAGCT TCCTGAGCAA TGTGAAATACAACTTTATGA GGATCATCAA ATACGAATTC ATCCTGAATG ACGCCCTCAA TCAAAGTATA ATTCGAGCCAATGATCAGTA CCTCACGGCT GCTGCATTAC ATAATCTGGA TGAAGCAGTG AAATTTGACA TGGGTGCTTATAAGTCATCA AAGGATGATG CTAAAATTAC CGTGATTCTA AGAATCTCAA AAACTCAATT GTATGTGACTGCCCAAGATG AAGACCAACC AGTGCTGCTG AAGGAGATGC CTGAGATACC CAAAACCATC ACAGGTAGTGAGACCAACCT CCTCTTCTTC TGGGAAACTC ACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAA CTTGTTTATTGCCACAAAGC AAGACTACTG GGTGTGCTTG GCAGGGGGGC CACCCTCTAT CACTGACTTT CAGATACTGGAAAACCAGGC GTAGGTCTGG AGTCTCACTT GTCTCACTTG TGCAGTGTTG ACAGTTCATA TGTACCATGTACATGAAGAA GCTAAATCCT TTACTGTTAG TCATTTGCTG AGCATGTACT GAGCCTTGTA ATTCTAAATG AATGTTTACACTCTTTGTAA GAGTGGAACC AACACTAACA TATAATGTTG TTATTTAAAG AACACCCTAT ATTTTGCATA GTACCAATCATTTTAATTAT TATTCTTCAT AACAATTTTA GGAGGACCAG AGCTACTGAC TATGGCTACC AAAAAGACTC TACCCATATTACAGATGGGC AAATTAAGGC ATAAGAAAAC TAAGAAATAT GCACAATAGC AGTCGAAACA AGAAGCCACAGACCTAGGAT TTCATGATTT CATTTCAACT GTTTGCCTTC TGCTTTTAAG TTGCTGATGA ACTCTTAATC AAATAGCATAAGTTTCTGGG ACCTCAGTTT TATCATTTTC AAAATGGAGG GAATAATACC TAAGCCTTCC TGCCGCAACA GTTTTTTATGCTAATCAGGG AGGTCATTTT GGTAAAATAC TTCTCGAAGC CGAGCCTCAA GATGAAGGCA AAGCACGAAATGTTATTTTT TAATTATTAT TTATATATGT ATTTATAAAT ATATTTAAGA TAATTATAAT ATACTATATT TATGGGAACCCCTTCATCCT CTGAGTGTGA CCAGGCATCC TCCACAATAG CAGACAGTGT TTTCTGGGAT AAGTAAGTTT GATTTCATTAATACAGGGCA TTTTGGTCCA AGTTGTGCTT ATCCCATAGC CAGGAAACTC TGCATTCTAG TACTTGGGAG ACCTGTAATCATATAATAAA TGTACATTAA TTACCTTGAG CCAGTAATTG GTCCGATCTT TGACTCTTTT GCCATTAAAC TTACCTGGGCATTCTTGTTT CATTCAATTC CACCTGCAAT CAAGTCCTAC AAGCTAAAAT TAGATGAACT CAACTTTGAC AACCATGAGACCACTGTTAT CAAAACTTTC TTTTCTGGAA TGTAATCAAT GTTTCTTCTA GGTTCTAAAA ATTGTGATCA GACCATAATGTTACATTATT ATCAACAATA GTGATTGATA GAGTGTTATC AGTCATAACT AAATAAAGCT TGCAACAAAA TTCTCTG-3′(FRAG. NO： )(SEQ. ID NO：2516)

Human interleukin-1 receptor (IL-1R) nucleic acids and antisense oligonucleotide fragments

5′-GCCACGTGCT GCTGGGTCTC AGTCCTCCAC TTCCCGTGTC CTCTGGAAGT TGTCAGGAGC AATGTTGCGCTTGTACGTGT TGGTAATGGG AGTTTCTGCC TTCACCCTTC AGCCTGCGGC ACACACAGGG GCTGCCAGAA GCTGCCGGTTTCGTGGGAGG CATTACAAGC GGGAGTTCAG GCTGGAAGGG GAGCCTGTAG CCCTGAGGTG CCCCCAGGTGCCCTACTGGT TGTGGGCCTC TGTCAGCCCC CGCATCAACC TGACATGGCA TAAAAATGAC TCTGCTAGGACGGTCCCAGG AGAAGAAGAG ACACGGATGT GGGCCCAGGA CGGTGCTCTG TGGCTTCTGC CAGCCTTGCAGGAGGACTCT GGCACCTACG TCTGCACTAC TAGAAATGCT TCTTACTGTG ACAAAATGTC CATTGAGCTC AGAGTTTTTGAGAATACAGA TGCTTTCCTG CCGTTCATCT CATACCCGCA AATTTTAACC TTGTCAACCT CTGGGGTATT AGTATGCCCTGACCTGAGTG AATTCACCCG TGACAAAACT GACGTGAAGA TTCAATGGTA CAAGGATTCT CTTCTTTTGGATAAAGACAA TGAGAAATTT CTAAGTGTGA GGGGGACCAC TCACTTACTC GTACACGATG TGGCCCTGGAAGATGCTGGC TATTACCGCT GTGTCCTGAC ATTTGCCCAT GAAGGCCAGC AATACAACAT CACTAGGAGTATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT TTCCCCCCTC AAGACCATATCAGCTTCTCT GGGGTCAAGA CTGACAATCC CGTGTAAGGT GTTTCTGGGA ACCGGCACAC CCTTAACCACCATGCTGTGG TGGACGGCCA ATGACACCCA CATAGAGAGC GCCTACCCGG GAGGCCGCGT GACCGAGGGGCCACGCCAGG AATATTCAGA AAATAATGAG AACTACATTG AAGTGCCATT GATTTTTGAT CCTGTCACAAGAGAGGATTT GCACATGGAT TTTAAATGTG TTGTCCATAA TACCCTGAGT TTTCAGACAC TACGCACCACAGTCAAGGAA GCCTCCTCCACGTTCTCCTG GGGCATTGTG CTGGCCCCAC TTTCACTGGC CTTCTTGGTT TTGGGGGGAATATGGATGCA CAGACGGTGC AAACACAGAA CTGGAAAAGC AGATGGTCTG ACTGTGCTAT GGCCTCATCATCAAGACTTT CAATCCTATC CCAAGTGAAA TAAATGGAAT GAAATAATTC AAACACAAAA AAAAAAAAAA AAAAAAAAGCCGGAGCCG ACTCGGAGCG CGCGGCGCGG CCGGGAGGAG CCGAGCGCGC CGGGCGCGGC GTGGGGGCGCCGGCTGCCCC GCGCGCCCAG GGAGCGGCAG GAATGTGACA ATCGCGCGCC CGCACCGTAG CACTCCTCGCTCGGCTCCTA GGGCTCTCGC CCTCTGAGCT GAGCCGGGTT CCGCCCGGGC TGGGATCCCA TCACCCTCCACGGCCGTCCG TCCAGGTAGA CGCACCCTCT GAAGATGGTG ACTCCCTCCT GAGAAGCTGG ACCCCTTGGTAAAAGACAAG GCCTTCTCCA AGAAGAATAT GAAAGTGTTA CTCAGACTTA TTTGTTTCAT AGCTCTACTG ATTTCTTCTCTGGAGGCTGA TAAATGCAAG GAACGTGAAG AAAAAATAAT TTTAGTGTCA TCTGCAAATG AAATTGATGTTCGTCCCTGT CCTCTTAACC CAAATGAACA CAAAGGCACT ATAACTTGGT ATAAAGATGA CAGCAAGACACCTGTATCTA CAGAACAAGC CTCCAGGATT CATCAACACA AAGAGAAACT TTGGTTTGTT CCTGCTAAGGTGGAGGATTC AGGACATTAC TATTGCGTGG TAAGAAATTC ATCTTACTGC CTCAGAATTA AAATAAGTGCAAAATTTGTG GAGAATGAGC CTAACTTATG TTATAATGCA CAAGCCATAT TTAAGCAGAA ACTACCCGTTGCAGGAGACG GAGGACTTGT GTGCCCTTAT ATGGAGTTTT TTAAAAATGA AAATAATGAG TTACCTAAATTACAGTGGTA TAAGGATTGC AAACCTCTAC TTCTTGACAA TATACACTTT AGTGGAGTCA AAGATAGGCT CATCGTGATGAATGTGGCTG AAAAGCATAG AGGGAACTAT ACTTGTCATG CATCCTACAC ATACTTGGGC AAGCAATATCCTATTACCCG GGTAATAGAA TTTATTACTC TAGAGGAAAA CAAACCCACA AGGCCTGTGA TTGTGAGCCCAGCTAATGAG ACAATGGAAG TAGACTTGGG ATCCCAGATA CAATTGATCT GTAATGTCAC CGGCCAGTTGAGTGACATTG CTTACTGGAA GTGGAATGGG TCAGTAATTG ATGAAGATGA CCCAGTGCTA GGGGAAGACTATTACAGTGT GGAAAATCCT GCAAACAAAA GAAGGAGTAC CCTCATCACA GTGCTTAATA TATCGGAAATTGAAAGTAGA TTTTATAAAC ATCCATTTAC CTGTTTTGCC AAGAATACAC ATGGTATAGA TGCAGCATAT ATCCAGTTAATATATCCAGT CACTAATTTC CAGAAGCACA TGATTGGTAT ATGTGTCACG TTGACAGTCA TAATTGTGTG TTCTGTTTTCATCTATAAAA TCTTCAAGAT TGACATTGTG CTTTGGTACA GGGATTCCTG CTATGATTTT CTCCCAATAA AAGCTTCAGATGGAAAGACC TATGACGCAT ATATACTGTA TCCAAAGACT GTTGGGGAAG GGTCTACCTC TGACTGTGAT ATTTTTGTGTTTAAAGTCTT GCCTGAGGTC TTGGAAAAAC AGTGTGGATA TAAGCTGTTC ATTTATGGAA GGGATGACTACGTTGGGGAA GACATTGTTG AGGTCATTAA TGAAAACGTA AAGAAAAGCA GAAGACTGAT TATCATTTTAGTCAGAGAAA CATCAGGCTT CAGCTGGCTG GGTGGTTCAT CTGAAGAGCA AATAGCCATG TATAATGCTCTTGTTCAGGA TGGAATTAAA GTTGTCCTGC TTGAGCTGGA GAAAATCCAA GACTATGAGA AAATGCCAGAATCGATTAAA TTCATTAAGC AGAAACATGG GGCTATCCGC TGGTCAGGGG ACTTTACACA GGGACCACAGTCTGCAAAGA CAAGGTTCTG GAAGAATGTC AGGTACCACA TGCCAGTCCA GCGACGGTCA CCTTCATCTAAACACCAGTT ACTGTCACCA GCCACTAAGG AGAAACTGCA AAGAGAGGCT CACGTGCCTC TCGGGTAGCATGGAGAAGTT GCCAAGAGTT CTTTAGGTGC CTCCTGTCTT ATGGCGTTGC AGGCCAGGTT ATGCCTCATG CTGACTTGCAGAGTTCATGG AATGTAACTA TATCATCCTT TATCCCTGAG GTCACCAGGA ATCAGG-3′ (FRAG NO：_)(SEQ. IDNO：2520)

5′-GCCACGTGCT GCTGGGTCTC AGTCCTCCAC TTCCCGTGTC CTCTGGAAGT TGTCAGGAGC AATGTTGCGCTTGTACGTGT TGGTAATGGG AGTTTCTGCC TTCACCCTTC AGCCTGCGGC ACACACAGGG GCTGCCAGAA GCTGCCGGTTTCGTGGGAGG CATTACAAGC GGGAGTTCAG GCTGGAAGGG GAGCCTGTAG CCCTGAGGTG CCCCCAGGTGCCCTACTGGT TGTGGGCCTC TGTCAGCCCC CGCATCAACC TGACATGGCA TAAAAATGAC TCTGCTAGGACGGTCCCAGG AGAAGAAGAG ACACGGATGT GGGCCCAGGA CGGTGCTCTG TGGCTTCTGC CAGCCTTGCAGGAGGACTCT GGCACCTACG TCTGCACTAC TAGAAATGCT TCTTACTGTG ACAAAATGTC CATTGAGCTC AGAGTTTTTGAGAATACAGA TGCTTTCCTG CCGTTCATCT CATACCCGCA AATTTTAACC TTGTCAACCT CTGGGGTATT AGTATGCCCTGACCTGAGTG AATTCACCCG TGACAAAACT GACGTGAAGA TTCAATGGTA CAAGGATTCT CTTCTTTTGGATAAAGACAA TGAGAAATTT CTAAGTGTGA GGGGGACCAC TCACTTACTC GTACACGATG TGGCCCTGGAAGATGCTGGC TATTACCGCT GTGTCCTGAC ATTTGCCCAT GAAGGCCAGC AATACAACAT CACTAGGAGTATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT TTCCCCCCTC AAGACCATATCAGCTTCTCT GGGGTCAAGA CTGACAATCC CGTGTAAGGT GTTTCTGGGA ACCGGCACAC CCTTAACCACCATGCTGTGG TGGACGGCCA ATGACACCCA CATAGAGAGC GCCTACCCGG GAGGCCGCGT GACCGAGGGGCCACGCCAGG AATATTCAGA AAATAATGAG AACTACATTG AAGTGCCATT GATTTTTGAT CCTGTCACAAGAGAGGATTT GCACATGGAT TTTAAATGTG TTGTCCATAA TACCCTGAGT TTTCAGACAC TACGCACCACAGTCAAGGAA GCCTCCTCCA CGTTCTCCTG GGGCATTGTG CTGGCCCCAC TTTCACTGGC CTTCTTGGTT TTGGGGGGAATATGGATGCA CAGACGGTGC AAACACAGAA CTGGAAAAGC AGATGGTCTG ACTGTGCTAT GGCCTCATCATCAAGACTTT CAATCCTATC CCAAGTGAAA TAAATGGAAT GAAATAATTC AAACACAAAA AAAAAAAAAAAAAAAAAA-3′ (FRAG. NO：_)(SEQ. ID NO：2518)

5′-GCCGGAGCCG ACTCGGAGCG CGCGGCGCGG CCGGGAGGAG CCGAGCGCGC CGGGCGCGGC GTGGGGGCGCCGGCTGCCCC GCGCGCCCAG GGAGCGGCAG GAATGTGACA ATCGCGCGCC CGCACCGTAG CACTCCTCGCTCGGCTCCTA GGGCTCTCGC CCTCTGAGCT GAGCCGGGTT CCGCCCGGGC TGGGATCCCA TCACCCTCCACGGCCGTCCG TCCAGGTAGA CGCACCCTCT GAAGATGGTG ACTCCCTCCT GAGAAGCTGG ACCCCTTGGTAAAAGACAAG GCCTTCTCCA AGAAGAATAT GAAAGTGTTA CTCAGACTTA TTTGTTTCAT AGCTCTACTG ATTTCTTCTCTGGAGGCTGA TAAATGCAAG GAACGTGAAG AAAAAATAAT TTTAGTGTCA TCTGCAAATG AAATTGATGTTCGTCCCTGT CCTCTTAACC CAAATGAACA CAAAGGCACT ATAACTTGGT ATAAAGATGA CAGCAAGACACCTGTATCTA CAGAACAAGC CTCCAGGATT CATCAACACA AAGAGAAACT TTGGTTTGTT CCTGCTAAGGTGGAGGATTC AGGACATTAC TATTGCGTGG TAAGAAATTC ATCTTACTGC CTCAGAATTA AAATAAGTGCAAAATTTGTG GAGAATGAGC CTAACTTATG TTATAATGCA CAAGCCATAT TTAAGCAGAA ACTACCCGTTGCAGGAGACG GAGGACTTGT GTGCCCTTAT ATGGAGTTTT TTAAAAATGA AAATAATGAG TTACCTAAATTACAGTGGTA TAAGGATTGC AAACCTCTAC TTCTTGACAA TATACACTTT AGTGGAGTCA AAGATAGGCT CATCGTGATGAATGTGGCTG AAAAGCATAG AGGGAACTAT ACTTGTCATG CATCCTACAC ATACTTGGGC AAGCAATATCCTATTACCCG GGTAATAGAA TTTATTACTC TAGAGGAAAA CAAACCCACA AGGCCTGTGA TTGTGAGCCCAGCTAATGAG ACAATGGAAG TAGACTTGGG ATCCCAGATA CAATTGATCT GTAATGTCAC CGGCCAGTTGAGTGACATTG CTTACTGGAA GTGGAATGGG TCAGTAATTG ATGAAGATGA CCCAGTGCTA GGGGAAGACTATTACAGTGT GGAAAATCCT GCAAACAAAA GAAGGAGTAC CCTCATCACA GTGCTTAATA TATCGGAAATTGAAAGTAGA TTTTATAAAC ATCCATTTAC CTGTTTTGCC AAGAATACAC ATGGTATAGA TGCAGCATAT ATCCAGTTAATATATCCAGT CACTAATTTC CAGAAGCACA TGATTGGTAT ATGTGTCACG TTGACAGTCA TAATTGTGTG TTCTGTTTTCATCTATAAAA TCTTCAAGAT TGACATTGTG CTTTGGTACA GGGATTCCTG CTATGATTTT CTCCCAATAA AAGCTTCAGATGGAAAGACC TATGACGCAT ATATACTGTA TCCAAAGACT GTTGGGGAAG GGTCTACCTC TGACTGTGAT ATTTTTGTGTTTAAAGTCTT GCCTGAGGTC TTGGAAAAAC AGTGTGGATA TAAGCTGTTC ATTTATGGAA GGGATGACTACGTTGGGGAA GACATTGTTG AGGTCATTAA TGAAAACGTA AAGAAAAGCA GAAGACTGAT TATCATTTTAGTCAGAGAAA CATCAGGCTT CAGCTGGCTG GGTGGTTCAT CTGAAGAGCA AATAGCCATG TATAATGCTCTTGTTCAGGA TGGAATTAAA GTTGTCCTGC TTGAGCTGGA GAAAATCCAA GACTATGAGA AAATGCCAGAATCGATTAAA TTCATTAAGC AGAAACATGG GGCTATCCGC TGGTCAGGGG ACTTTACACA GGGACCACAGTCTGCAAAGA CAAGGTTCTG GAAGAATGTC AGGTACCACA TGCCAGTCCA GCGACGGTCA CCTTCATCTAAACACCAGTT ACTGTCACCA GCCACTAAGG AGAAACTGCA AAGAGAGGCT CACGTGCCTC TCGGGTAGCATGGAGAAGTT GCCAAGAGTT CTTTAGGTGC CTCCTGTCTT ATGGCGTTGC AGGCCAGGTT ATGCCTCATG CTGACTTGCAGAGTTCATGG AATGTAACTA TATCATCCTT TATCCCTGAG GTCACCAGGA ATCAGG-3′ (FRAG. NO：_)(SEQ. IDNO：2519)

Human interleukin-8^*Fragment antisense oligonucleotide fragment

5′-GBTGTTTGTT BCCBBBGCBT CBBGBBTBGC TTTGCTBTCT BBGGBTCBCB TTTBGBCBTB GGBBBBCGCTGTBGGTCBGBB BGBTGTGCTT BCCTTCBCBC BGBGCTGCBG BBBTCBGGBBGG CTGCCBBGBGBG CCBCGGCCBGCTTGGBGTCBT GTTTBCBCBC BGTGBGGTGC TCCGGTGGCT TTTTGCTTGT GTGCTCTGCT GTCTCTG TTC CTTCCGGTGGTTTCTTCCTG GCTCTTGTCC TTTCTCTTGG CCCTTGGCCC-3′ (FRAG. NO：1834) (SEQ. ID NO：1847)

5′-G CTC CGG-3′ (FRAG. NO：1835) (SEQ. ID NO：1848)

5′-CBBGBBTBGC-3′ (FRAG. NO：1836) (SEQ. ID NO：1849)

5′-CBCBC BGTGBGGTGC-3′ (FRAG. NO：1837) (SEQ. ID NO：1850)

5′-BCCBBBGCBT CBBGBBTBGC-3′ (FRAG. NO：1838) (SEQ. ID NO：1851)

5′-GCCBBGBGBG CCBCGGCCBGC-3′(FRAG. NO：1839) (SEQ. ID NO：1852)

5

-GTG CTC CGG TGG CTT TTT-3

(FRAG. NO：1289)(SEQ.ID NO：1298)

5

-GCT TGT GTG CTC TGC TGT CTC TG-3

(FRAG.NO：1290)(SEQ.ID NO：1299)

5′-′TTC CTT CCG GTG GTT TCT TCC TGG CTC TTG TCC T-3(FRAG.NO：1291)(SEQ.ID NO：1300)

5

-TTC TCT TGG CCC TTG GCC C-3

(FRAG.NO：1292)(SEQ.ID NO：1301)

5′-GBTGTTTGTT BCCBBBGCBT CBBGBBTBGC TTTGCTBTCT BBGGBTCBCB TTTBGBCBTB GGBBBBCGCTGTBGGTCBGBB BGBTGTGCTT BCCTTCBCBC BGBGCTGCBG BBBTCBGGBBGG CTGCCBBGBGBG CCBCGGCCBGCTTGGBGTCBT GTTTBCBCBC BGTGBGGTGC TCCGGTGGCT TTTTGCTTGT-3′(FRAG. NO：1840)(SEQ. ID NO：1853)

Human IL-8 receptor antisense oligonucleotide fragments

5′-ACAGGGGCTG TAATCTTCATC TGCAGGTGGC ATGCCAGTGA AATTTAGATC ATCAAAATCC CACATCTGTGGATCTGTAAT ATTTGACATG TCCTCTTCAG TTTCAGCAAT GGTTTGATCT AACTGAAGCA CCGGCCAGGB CBGGGGCTGTBBTCTTCBTC TGCBGGTGGC BTGCCBGTGB BBTTTBGBTC BTCBBBBTCC CBCBTCTGTG GBTCTGTBBT BTTTGBCBTGTCCTCTTCBG TTTCBGCBB TGGTTTGBTC TBBCTGBBGC BCCGGCCBGG TGGCTCGGTG CTTCTGCCCC TGTTGTTGCGGCGCTCGGTT GGTGTGGCCC CTGTGGTGCT TCGTTTCCCC CTCTTTCTCT TTGTTCGGGG GTTCTTGTGG CGGGCTGCTTGTCTCGTTCC-3′(FRAG.NO：1841)(SEQ. ID NO：1854)

5′-CBGGGGC-3′ (FRAG. NO：1842) (SEQ. ID NO：1855)

5′-GCBGGTGGC-3′ (FRAG. NO：1843) (SEQ. ID NO：1856)

5′-GCGGCGCTC-3′ (FRAG. NO： 1844) (SEQ. ID NO：1857)

5′-TGGCTCGGTGCTTCTGCCCC (FRAG. NO：1293)(SEQ. ID NO： 1302)

5′-TGTTGTTGCGGCGCTC (FRAG. NO：1294)(SEQ. ID NO：1303)

5′-GGTTGGTGTGGCCCCTG (FRAG. NO：1295)(SEQ. ID NO：1304)

5′-TGGTGCTTCGTTTCC (FRAG. NO：1296)(SEQ. ID NO：1305)

5′-CCCTCTTTCTCTTTGTTC (FRAG. NO： 1297)(SEQ. ID NO： 1306)

5′-GGGGGTTCTTGTGGC (FRAG. NO：1298)(SEQ. ID NO： 1307)

5′-GGGCTGCTTGTCTCGTTCC (FRAG. NO：1299)(SEQ. ID NO：1308)

5′-ACAGGGGCTG TAATCTTCATC TGCAGGTGGC ATGCCAGTGA AATTTAGATC ATCAAAATCC CACATCTGTGGATCTGTAAT ATTTGACATG TCCTCTTCAG TTTCAGCAAT GGTTTGATCT AACTGAAGCA CCGGCCAGG-3′ (FRAG.NO：1845) (SEQ. ID NO：1858)

5′-B CBGGGGCTGT BBTCTTCBTC TGCBGGTGGC BTGCCBGTGB BBTTTBGBTC BTCBBBBTCC CBCBTCTGTGGBTCTGTBBT BTTTGBCBTG TCCTCTTCBG TTTCBGCBB TGGTTTGBTC TBBCTGBBGC BCCGGCCBGG-3′ (FRAG. NO：1846)(SEQ. ID NO：1859)

Interleukin-11 (IL-11) nucleic acids and antisense oligonucleotide fragments

5′-GCTCAGGGCA CATGCCTCCC CTCCCCAGGC CGCGGCCCAG CTGACCCTCG GGGCTCCCCC GGCAGCGGACAGGGAAGGGT TAAAGGCCCC CGGCTCCCTG CCCCCTGCCC TGGGGAACCC CTGGCCCTGT GGGGACATGAACTGTGTTTG CCGCCTGGTC CTGGTCGTGC TGAGCCTGTG GCCAGATACA GCTGTCGCCC CTGGGCCACC ACCTGGCCCCCCTCGAGTTT CCCCAGACCC TCGGGCCGAG CTGGACAGCA CCGTGCTCCT GACCCGCTCT CTCCTGGCGGACACGCGGCA GCTGGCTGCA CAGCTGAGGG ACAAATTCCC AGCTGACGGG GACCACAACC TGGATTCCCTGCCCACCCTG GCCATGAGTG CGGGGGCACT GGGAGCTCTA CAGCTCCCAG GTGTGCTGAC AAGGCTGCGAGCGGACCTAC TGTCCTACCT GCGGCACGTG CAGTGGCTGC GCCGGGCAGG TGGCTCTTCC CTGAAGACCCTGGAGCCCGA GCTGGGCACC CTGCAGGCCC GACTGGACCG GCTGCTGCGC CGGCTGCAGC TCCTGATGTCCCGCCTGGCC CTGCCCCAGC CACCCCCGGA CCCGCCGGCG CCCCCGCTGG CGCCCCCCTC CTCAGCCTGGGGGGGCATCA GGGCCGCCCA CGCCATCCTG GGGGGGCTGC ACCTGACACT TGACTGGGCC GTGAGGGGACTGCTGCTGCT GAAGACTCGG CTGTGACCCG GGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTA TTTATTTATTTATTTCAGTA CTGGGGGCGA AACAGCCAGG TGATCCCCCC GCCATTATCT CCCCCTAGTT AGAGACAGTCCTTCCGTGAG GCCTGGGGGA CATCTGTGCC TTATTTATAC TTATTTATTT CAGGAGCAGG GGTGGGAGGC AGGTGGACTCCTGGGTCCCC GAGGAGGAGG GGACTGGGGT CCCGGATTCT TGGGTCTCCA AGAAGTCTGT CCACAGACTTCTGCCCTGGC TCTTCCCCAT CTAGGCCTGG GCAGGAACAT ATATTATTTA TTTAAGCAAT TACTTTTCAT GTTGGGGTGGGGACGGAGGG GAAAGGGAAG CCTGGGTTTT TGTACAAAAA TGTGAGAAAC CTTTGTGAGA CAGAGAACAGGGAATTAAAT GTGTCATACA TATCC CAGCTGCGGC ATCCTCTGTC TCAGAGTCTT GGTGTCTCTG TTCCTTTCCCCTCGGGGTCT CCCTGGGTCT CCCCAAGTCC CTCCTGCTGT CTTCCTCCCG CTCTCTGATC TCTGACTCCC AGAACCTCTCCCTCTGTCTC CAGGGCTGCC CCTCTGATCC TCTTTGCTTC TCTGGTGTGT CTCTCTGGCT GCCTCCATCT CTGTGGATCTCCGTCTCCCT GTCTCTGTCT CAGTCTGTCC TTCACTCTGT GTGTGTGTGT GTCTCTCTCT CTCTCTCTCC TTCCCTTCCACTCCCTCTTC CTCCTGCCTC CACCTCTCCA GGCCCCTGTC TTGTCCCTCC GTCCGGCCTT TCTCTGCCTT TCCGTCCTCCTGCCTCCCCA TCTCTCTCTG CTAGTCCTGT CCAGCCGGAC CCCCACCCAC AGTCGGGCCC CAGCGCTTGA GCCTGAGTGTCTGCTCCGGC CCGTGGAGGT GGAGGGAGGG GACGCCAATG ACCTCACCAG CCCCTCTCCG ACCACCCCCCCCTTTCCCTT TTCAACTTTT CCAACTTTTC CTTCCGTGCC CTCCTCCGAG CGCGGCGGCG TGAGCCCTGC AAGGCAGCCGCTCCGTCTGA ATGGAAAAGG CAGGCAGGGA GGGTGAGTCA GGATGTGTCA GGCCGGCCCT CCCCTGCCGCCTGCCCCCCG CCCGCCCGCC CCAGGCCCCC TATATAACCC CCCAGGCGTC CACACTCCCT CACTGCCGCGGGCCCTGCTG CTCAGGGCAC ATGCCTCCCC TCCCCAGCCG CGGGCCCAGC TGACCCTCGG GGCTCCCCCGGCAGCGGACA GGGAAGGGTT AAAGGCCCCC GGCTCCCTGC CCCCTGCCCT GGGGAACCCC TGGCCCTGTGGGGACATGAA CTGTAAGTTG GTTCATGGGG AGGGTGGAGG GGACAGGGAG GCAGGGAGGA GAGGGACCCACGGCGGGGGT GGGAGCAGAC CCCGCTGAGT CGCACAGAGA GGGACCCGGA GACAGGCAGC CGGGGAGGAGAGCAGCTTCG GAGACAGGAG GCGGCGGAGG AGATGGGCAG AGAGAGACAC AGACAGGAGC GGATGGAGGCAGCCAATCAG AGGCGCCGCA GGAGGGACGG GCCAGACAGG GCCCGAGAGG AGCGAGACGC GAGACCGAGCAGGGGCAGGG ACGCAGGGAC TGGTGCCGGG AGGGAGGTGA CCCCCATCGA CCCAGGCCCC AGGGAGCCCGCGGGGACCGG GAGACTCCCT GGGATTCCGG CAGAGAGGCT CCGGAGGGAA ACTGAGGCAG GGTCCGCGGAGAGCGGAGCA AGCCAGGGAG TAGCGACCCC AGCCGGGGGG AGGAGAGAGA CTGGGCGCCG GGGGAAAGCGGGGAGAGCCG GGCAGATGCG GCCGACGGAG GCGCGGACAG ACCGACGGCT GGCGGGCCCG GGGGGCGGGCTGGGGGTGTG CGAGGCGCGG GCGGCCGGGG AGCGCTGATT GGCTGGCGGG TGGCCGGGTG GGCGGGGCGGCCGGGGTGGG CTGCGGGGAG CGAGCTCCGG ACCCCCGCGC CCCCGGCGCC CCCCGCGCCC CCCGCCGCCAGCTCTCCCGC TCCCGGCGCC CGGCCGGGCC ATGGCTCTGC CCCTCTCCGC CCAGGTGCGC TGCGGCCCGGGCTTCTGCCG CCCACCCGGC GGGCTCCTGG GAGGGCGTCT AAGGGGTCTC CCGTGGGAGA GGTCCGTGTCTCCCGGACTC CGTCCTGGGC TTTTGGCTCC TTCCCCTGCT CCCAGCCAGC TCGGGCTCCC GCGGCCCGGGGAGGGGGCAG GTTCTGGCCT GTGCCTCCCC CACCATCCGC GCCCCGGGGC CCAGATTCCG GCGTCCGGGGGCGGACGGGA GACGCCCGGG CCGCGTCTGC TCCGACGGGC GGGGCAGCCA GAGCCAGGGA GGGAGAGGGAAGCCCGCCTG GCCCTGCGAC CTGCCCGCGG GCGTTCCACC CTGGGACTTA AGACCTCCAG CTCCATCCTCCCTAAGGCCG GGAGTCCAGG CCCCAGACCC TCCTCCCCGA GACCCAGGAG TCCAGACCCC AGGCCTTCCTCCCTCAGACC TAGGAGTCCA GGCCCCCAGC CTCTCCTCCC TCAGACCCAG GAGGAGTCCA GACCCCAGTTCCTCCTCCCT CAGACCCGGG AGTCCAGCCC AGGCCCTCCT CTCTCAGACC CGGAGTCCAG CCTGAGCTCT CTGCCTTATCCTGCCCCCAG GTGTTTGCCG CCTGGTCCTG GTCGTGCTGA GCCTGTGGCC AGATACAGCT GTCGCCCCTGGGCCACCACC TGGCCCCCCT CGAGTTTCCC CAGACCCTCG GGCCGAGCTG GACAGCACCG TGCTCCTGACCCGCTCTCTC CTGGCGGACA CGCGGCAGCT GGCTGCACAG CTGGTAGGAG AGACTGGGCT GGGGCCAGCACAGGAGTGAG AGGCAGAGAG GAACGGAGAG GAGTCTGCGG GCAGCCACTT GGAGGGGTTC TGGGCTCTCAGGTGGCAGAG TGAGGGAGGG GAAGAGTTGG GGGCCTGGCG TGGGGGATGG AGGGAGCCCC GAGGCTGGGCAGGGGCCACC TCACAGCTTT TTTCCCTGCC AGAGGGACAA ATTCCCAGCTGACGGGGACC ACAACCTGGATTCCCTGCCC ACCCTGGCCA TGAGTGCAGG GGCACTGGGA GCTCTACAGG TAAGGGCAAG GGAGTGGGCTGGGGACAAGG TGGGAGGCAG GCAGTGAAGG GGGCGGGGAG GATGAGGGGC ACTGGTCGGG TGTTCTCTGATGTCCCGGCT CTATCCCCAG CTCCCAGGTG TGCTGACAAG GCTGCGAGCG GACCTACTGT CCTACCTGCGGCACGTGCAG TGGCTGCGCC GGGCAGGTGG CTCTTCCCTG AAGACCCTGG AGCCCGAGCT GGGCACCCTGCAGGCCCGAC TGGACCGGCT GCTGCGCCGG CTGCAGCTCC TGGTATGTCC TGGCCCCAAG ACCTGACACCCCAGACCCCC ACCCCTGGCC CCAAAATCCT GTGGCCTGAG TCCTTGAAGC CTGAGACCCC AGACCCGAGTGCAACAGCCC CGCTCTGAGA CCCTGACACC CTAACAGCCC GCTCTGAGAC CCTGACACCG TAACAGCCCCGCTCTGAGAC CCTGACCCTA ACAGTCCTGC TCTGAGACCC TGACCCTGCA GTCCCAAGAT CCTGTGGCCCTGAGACCCTG AGGCCCTAGA CCCCCAAATC CTGCCCAGAA ACTTCAAATT CTCACCCAAG ACCCTGAGACTCCATCATCC ATGACCTCAA AGTCCCCAGA TCCCAGCCCC TAAGACCCAA GACCCCATCC TGAAGCCCAAAGCCTTGAGA ATTCAAATCC TCACCTCAAG ACTTGGAGAC CCTGGCCCCA TGACATTGAA AACCATGGACCTGGCCAGGC GTGGTGGCTC ACGCCTGTAA TCCCAGCACT TTGGGAGGCC GAGGCAAGTG GATCACCTGAGGTCGGGAGT TCAAGACCAG CCAGACCAAC ATGGTGAAAC CCTGTCTCTA CTAAAAATAC AAAATTAGCCAGGCGTGGTG GTGCATGCCT GTAATCCCAG CTACTTGGGA GGCTGAGGCA GGAGAATCGC TTGAACCTGGGAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCATTACAC TCCAGCCTGG GCAACAAGAG CAAAACTCCCTCTCTCTCAA AAAAAAAAAA AAAAAAAAAA AAGAAGGAAA AGAAAACCAT GGACCTCCAG ACCCTGAGACCCCAGGCCCC AGCCCTGAGA TCCTGACATC TTAAAGATCC CAGGCCCTAA GATACAAGAC CTTGACCCAAAGCCAGCCTT GGGACCCTGG CTGTACAAAC CCAAGACCTC CAGGACCTAG ACCCCGAGCC CTGAGGCCCTATGTCTCACT CCCAACATCG AAAACCCTGA CACCTCAGAT CCTGAGCCTG CGCCTGTACG ACTCCAAGACCCTCACTTCC AAAGCCAGGC CCAAAGCCCT GAGACCAGAA GACTTCAAAC CCTGGTTCTT GGGCCTAACTCCAAAGACCC TGGATCTCAA ATTCCAACTT CTAGCTCTGA GACTCCAGCC CTCACCCATG AGTTCCTGAA CTTGAACCCAGAGACCCCAT CTCTAAGACT TCAGCCTTGA GATCCAGGGC CTGACCCTAG ACTCGAGCCC ACAGACCTCAGATACTGTCT GTAAAACCCC AGCTCTGGTG GGGAGCAGTG GCTCACTCCT GTAATCCCAA GGCAGGGGAGGCCAAGGCAG AAGGACCTCT TGAGGCCATG AGTTTGAGAC AGCCTGGGCA GCATAGCAAG ACTCTGTTTCTTAATTATTA TTATTATTAT TATTTTTTGG AGACAGAGTC TCGCGCTCTG TTGCCCAGGC TAGAGTGCAA TGGTGCCATTTCGGCTTGCT GGAACCTCCG CCTCCTGGGC TCAAGCGATT CTCCTGCCTC AGCCTCCTGA GTAGCTGGGA CTTCAGGTGCACACTGCCAC ACCCGGATAA TTTTTTTGTA TTTTAGTAGA CACAGGGTTT CACCGTGTTG CCCAGGCTGG TCACAAACTCCTGAGCTCAG GCCATCCGCC CGCCTCGGCC TCCCAAAGCG CTGGGATAAC AGGCGTGACG CCGCGCCTGGCTTCTTAATT GTTCTAACAG CAGCGACAAC AACAAAAACC CAGCTCTGAG ATTCCAGCCC CGGCGACTCTAACAGTCCCA GGCCCGATCC CTCACCTAGA ACCGAGATGC CAGCCCTGAC TCCACAGACT TCACCCCCAACCCCCACACT CAGCTCTGGA AGCCCGTCCT GACTCCAGCC TCCATTTTCG GAACCCCACA GCCTGAAGAGCTCCCGGCCT AAACACTTCA CCCCACGCGC CACAGTCCCC CTGTGAATAT GCAGCCCCGA TTCAGCTGCAGCTCCACAGC ACCCCTGCCC TGCACCCCCG CTGCACCCCC TACCTGTGAC TCACCTCTCT CCTCTCCCCA CAGATGTCCCGCCTGGCCCT GCCCCAGCCA CCCCCGGACC CGCCGGCGCC CCCGCTGGCG CCCCCCTCCT CAGCCTGGGGGGGCATCAGG GCCGCCCACG CCATCCTGGG GGGGCTGCAC CTGACACTTG ACTGGGCCGT GAGGGGACTGCTGCTGCTGA AGACTCGGCT GTGACCCGGG GCCCAAAGCC ACCACCGTCC TTCCAAAGCC AGATCTTATT TATTTATTTATTTCAGTACT GGGGGCGAAA CAGCCAGGTG ATCCCCCCGC CATTATCTCC CCCTAGTTAG AGACAGTCCTTCCGTGAGGC CTGGGGGGCA TCTGTGCCTT ATTTATACTT ATTTATTTCA GGAGCAGGGG TGGGAGGCAG GTGGACTCCTGGGTCCCCGA GGAGGAGGGG ACTGGGGTCC CGGATTCTTG GGTCTCCAAG AAGTCTGTCC ACAGACTTCTGCCCTGGCTC TTCCCCATCT AGGCCTGGGC AGGAACATAT ATTATTTATT TAAGCAATTA CTTTTCATGT TGGGGTGGGGACGGAGGGGA AAGGGAAGCC TGGGTTTTTG TACAAAAATG TGAGAAACCT TTGTGAGACA GAGAACAGGGAATTAAATGT GTCATACATA TCCACTTGAG GGCGATTTGT CTGAGAGCTG GGGCTGGATG CTTGGGTAACTGGGGCAGGG CAGGTGGAGG GGAGACCTCC ATTCAGGTGG AGGTCCCGAG TGGGCGGGGC AGCGACTGGGAGATGGGTCG GTCACCCAGA CAGCTCTGTG GAGGCAGGGT CTGAGCCTTG CCTGGGGCCC CGCACTGCATAGGGCCGTTT GTTTGTTTTT TGAGATGGAG TCTCGCTCTG TTGCCTAGGC TGGAGTGCAG TGAGGCAATC TAAGGTCACTGCAACCTCCA CCTCCCGGGT TCAAGCAATT CTCCTGCCTC AGCCTCCCGA TTAGCTGGGA TCACAGGTGTGCACCACCAT GCCCAGCTAA TTATTTATTT CTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGTTTCGAACTCC TGACCTCAGG TGATCCTCCT GCCTCGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCCACCACACCTG ACCCATAGGT CTTCAATAAA TATTTAATGG AAGGTTCCAC AAGTCACCCT GTGATCAACAGTACCCGTAT GGGACAAAGC TGCAAGGTCA AGATGGTTCA TTATGGCTGT GTTCACCATA GCAAACTGGAAACAATCTAG ATATCCAACA GTGAGGGTTA AGCAACATGG TGCATCTGTG GATAGAACGC CACCCAGCCGCCCGGAGCAG GGACTGTCAT TCAGGGAGGC TAAGGAGAGA GGCTTGCTTG GGATATAGAA AGATATCCTGACATTGGCCA GGCATGGTGG CTCACGCCTG TAATCCTGGC ACTTTGGGAG GACGAAGCGA GTGGATCACTGAAGTCCAAG AGTTTGAGAC CGGCCTGCGA GACATGGCAA AACCCTGTCT CAAAAAAGAA AGAATGATGTCCTGACATGA AACAGCAGGC TACAAAACCA CTGCATGCTG TGATCCCAAT TTTGTGTTTT TCTTTCTATA TATGGATTAAAACAAAAATC CTAAAGGGAA ATACGCCAAA ATGTTGACAA TGACTGTCTC CAGGTCAAAG GAGAGAGGTGGGATTGTGGG TGACTTTTAA TGTGTATGAT TGTCTGTATT TTACAGAATT TCTGCCATGA CTGTGTATTT TGCATGACACATTTTAAAAA TAATAAACAC TATTTTTAGA ATAACAGAAT ATCAGCCTCC TCCTCTCCAA AAATAAGCCCTCAGGAGGGG ACAAAGTTGA CCGCTGATTG AGCCTGTCAG GGCTGTGCAC-3′(FRAG. NO：_)(SEQ. ID NO：2523)

5′-GCTCAGGGCA CATGCCTCCC CTCCCCAGGC CGCGGCCCAG CTGACCCTCG GGGCTCCCCC GGCAGCGGACAGGGAAGGGT TAAAGGCCCC CGGCTCCCTG CCCCCTGCCC TGGGGAACCC CTGGCCCTGT GGGGACATGAACTGTGTTTG CCGCCTGGTC CTGGTCGTGC TGAGCCTGTG GCCAGATACA GCTGTCGCCC CTGGGCCACC ACCTGGCCCCCCTCGAGTTT CCCCAGACCC TCGGGCCGAG CTGGACAGCA CCGTGCTCCT GACCCGCTCT CTCCTGGCGGACACGCGGCA GCTGGCTGCA CAGCTGAGGG ACAAATTCCC AGCTGACGGG GACCACAACC TGGATTCCCTGCCCACCCTG GCCATGAGTG CGGGGGCACT GGGAGCTCTA CAGCTCCCAG GTGTGCTGAC AAGGCTGCGAGCGGACCTAC TGTCCTACCT GCGGCACGTG CAGTGGCTGC GCCGGGCAGG TGGCTCTTCC CTGAAGACCCTGGAGCCCGA GCTGGGCACC CTGCAGGCCC GACTGGACCG GCTGCTGCGC CGGCTGCAGC TCCTGATGTCCCGCCTGGCC CTGCCCCAGC CACCCCCGGA CCCGCCGGCG CCCCCGCTGG CGCCCCCCTC CTCAGCCTGGGGGGGCATCA GGGCCGCCCA CGCCATCCTG GGGGGGCTGC ACCTGACACT TGACTGGGCC GTGAGGGGACTGCTGCTGCT GAAGACTCGG CTGTGACCCG GGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTA TTTATTTATTTATTTCAGTA CTGGGGGCGA AACAGCCAGG TGATCCCCCC GCCATTATCT CCCCCTAGTT AGAGACAGTCCTTCCGTGAG GCCTGGGGGA CATCTGTGCC TTATTTATAC TTATTTATTT CAGGAGCAGG GGTGGGAGGC AGGTGGACTCCTGGGTCCCC GAGGAGGAGG GGACTGGGGT CCCGGATTCT TGGGTCTCCA AGAAGTCTGT CCACAGACTTCTGCCCTGGC TCTTCCCCAT CTAGGCCTGG GCAGGAACAT ATATTATTTA TTTAAGCAAT TACTTTTCAT GTTGGGGTGGGGACGGAGGG GAAAGGGAAG CCTGGGTTTT TGTACAAAAA TGTGAGAAAC CTTTGTGAGA CAGAGAACAGGGAATTAAAT GTGTCATACA TATCC-3′ (FRAG. NO：_)(SEQ. ID NO：2521)

5′-CAGCTGCGGC ATCCTCTGTC TCAGAGTCTT GGTGTCTCTG TTCCTTTCCC CTCGGGGTCT CCCTGGGTCTCCCCAAGTCC CTCCTGCTGT CTTCCTCCCG CTCTCTGATC TCTGACTCCC AGAACCTCTC CCTCTGTCTC CAGGGCTGCCCCTCTGATCC TCTTTGCTTC TCTGGTGTGT CTCTCTGGCT GCCTCCATCT CTGTGGATCT CCGTCTCCCT GTCTCTGTCTCAGTCTGTCC TTCACTCTGT GTGTGTGTGT GTCTCTCTCT CTCTCTCTCC TTCCCTTCCA CTCCCTCTTC CTCCTGCCTCCACCTCTCCA GGCCCCTGTC TTGTCCCTCC GTCCGGCCTT TCTCTGCCTT TCCGTCCTCC TGCCTCCCCA TCTCTCTCTGCTAGTCCTGT CCAGCCGGAC CCCCACCCAC AGTCGGGCCC CAGCGCTTGA GCCTGAGTGT CTGCTCCGGCCCGTGGAGGT GGAGGGAGGG GACGCCAATG ACCTCACCAG CCCCTCTCCG ACCACCCCCC CCTTTCCCTT TTCAACTTTTCCAACTTTTC CTTCCGTGCC CTCCTCCGAG CGCGGCGGCG TGAGCCCTGC AAGGCAGCCG CTCCGTCTGAATGGAAAAGG CAGGCAGGGA GGGTGAGTCA GGATGTGTCA GGCCGGCCCT CCCCTGCCGC CTGCCCCCCGCCCGCCCGCC CCAGGCCCCC TATATAACCC CCCAGGCGTC CACACTCCCT CACTGCCGCG GGCCCTGCTGCTCAGGGCAC ATGCCTCCCC TCCCCAGCCG CGGGCCCAGC TGACCCTCGG GGCTCCCCCG GCAGCGGACAGGGAAGGGTT AAAGGCCCCC GGCTCCCTGC CCCCTGCCCT GGGGAACCCC TGGCCCTGTG GGGACATGAACTGTAAGTTG GTTCATGGGG AGGGTGGAGG GGACAGGGAG GCAGGGAGGA GAGGGACCCA CGGCGGGGGTGGGAGCAGAC CCCGCTGAGT CGCACAGAGA GGGACCCGGA GACAGGCAGC CGGGGAGGAG AGCAGCTTCGGAGACAGGAG GCGGCGGAGG AGATGGGCAG AGAGAGACAC AGACAGGAGC GGATGGAGGC AGCCAATCAGAGGCGCCGCA GGAGGGACGG GCCAGACAGG GCCCGAGAGG AGCGAGACGC GAGACCGAGC AGGGGCAGGGACGCAGGGAC TGGTGCCGGG AGGGAGGTGA CCCCCATCGA CCCAGGCCCC AGGGAGCCCG CGGGGACCGGGAGACTCCCT GGGATTCCGG CAGAGAGGCT CCGGAGGGAA ACTGAGGCAG GGTCCGCGGA GAGCGGAGCAAGCCAGGGAG TAGCGACCCC AGCCGGGGGG AGGAGAGAGA CTGGGCGCCG GGGGAAAGCG GGGAGAGCCGGGCAGATGCG GCCGACGGAG GCGCGGACAG ACCGACGGCT GGCGGGCCCG GGGGGCGGGC TGGGGGTGTGCGAGGCGCGG GCGGCCGGGG AGCGCTGATT GGCTGGCGGG TGGCCGGGTG GGCGGGGCGG CCGGGGTGGGCTGCGGGGAG CGAGCTCCGG ACCCCCGCGC CCCCGGCGCC CCCCGCGCCC CCCGCCGCCA GCTCTCCCGCTCCCGGCGCC CGGCCGGGCC ATGGCTCTGC CCCTCTCCGC CCAGGTGCGC TGCGGCCCGG GCTTCTGCCGCCCACCCGGC GGGCTCCTGG GAGGGCGTCT AAGGGGTCTC CCGTGGGAGA GGTCCGTGTC TCCCGGACTCCGTCCTGGGC TTTTGGCTCC TTCCCCTGCT CCCAGCCAGC TCGGGCTCCC GCGGCCCGGG GAGGGGGCAGGTTCTGGCCT GTGCCTCCCC CACCATCCGC GCCCCGGGGC CCAGATTCCG GCGTCCGGGG GCGGACGGGAGACGCCCGGG CCGCGTCTGC TCCGACGGGC GGGGCAGCCA GAGCCAGGGA GGGAGAGGGA AGCCCGCCTGGCCCTGCGAC CTGCCCGCGG GCGTTCCACC CTGGGACTTA AGACCTCCAG CTCCATCCTC CCTAAGGCCGGGAGTCCAGG CCCCAGACCC TCCTCCCCGA GACCCAGGAG TCCAGACCCC AGGCCTTCCT CCCTCAGACCTAGGAGTCCA GGCCCCCAGC CTCTCCTCCC TCAGACCCAG GAGGAGTCCA GACCCCAGTT CCTCCTCCCTCAGACCCGGG AGTCCAGCCC AGGCCCTCCT CTCTCAGACC CGGAGTCCAG CCTGAGCTCT CTGCCTTATCCTGCCCCCAG GTGTTTGCCG CCTGGTCCTG GTCGTGCTGA GCCTGTGGCC AGATACAGCT GTCGCCCCTGGGCCACCACC TGGCCCCCCT CGAGTTTCCC CAGACCCTCG GGCCGAGCTG GACAGCACCG TGCTCCTGACCCGCTCTCTC CTGGCGGACA CGCGGCAGCT GGCTGCACAG CTGGTAGGAG AGACTGGGCT GGGGCCAGCACAGGAGTGAG AGGCAGAGAG GAACGGAGAG GAGTCTGCGG GCAGCCACTT GGAGGGGTTC TGGGCTCTCAGGTGGCAGAG TGAGGGAGGG GAAGAGTTGG GGGCCTGGCG TGGGGGATGG AGGGAGCCCC GAGGCTGGGCAGGGGCCACC TCACAGCTTT TTTCCCTGCC AGAGGGACAA ATTCCCAGCT GACGGGGACC ACAACCTGGATTCCCTGCCC ACCCTGGCCA TGAGTGCAGG GGCACTGGGA GCTCTACAGG TAAGGGCAAG GGAGTGGGCTGGGGACAAGG TGGGAGGCAG GCAGTGAAGG GGGCGGGGAG GATGAGGGGC ACTGGTCGGG TGTTCTCTGATGTCCCGGCT CTATCCCCAG CTCCCAGGTG TGCTGACAAGGCTGCGAGCG GACCTACTGT CCTACCTGCGGCACGTGCAG TGGCTGCGCC GGGCAGGTGG CTCTTCCCTG AAGACCCTGG AGCCCGAGCT GGGCACCCTGCAGGCCCGAC TGGACCGGCT GCTGCGCCGG CTGCAGCTCC TGGTATGTCC TGGCCCCAAG ACCTGACACCCCAGACCCCC ACCCCTGGCC CCAAAATCCT GTGGCCTGAG TCCTTGAAGC CTGAGACCCC AGACCCGAGTGCAACAGCCC CGCTCTGAGA CCCTGACACC CTAACAGCCC GCTCTGAGAC CCTGACACCG TAACAGCCCCGCTCTGAGAC CCTGACCCTA ACAGTCCTGC TCTGAGACCC TGACCCTGCA GTCCCAAGAT CCTGTGGCCCTGAGACCCTG AGGCCCTAGA CCCCCAAATC CTGCCCAGAA ACTTCAAATT CTCACCCAAG ACCCTGAGACTCCATCATCC ATGACCTCAA AGTCCCCAGA TCCCAGCCCC TAAGACCCAA GACCCCATCC TGAAGCCCAAAGCCTTGAGA ATTCAAATCC TCACCTCAAG ACTTGGAGAC CCTGGCCCCA TGACATTGAA AACCATGGACCTGGCCAGGC GTGGTGGCTC ACGCCTGTAA TCCCAGCACT TTGGGAGGCC GAGGCAAGTG GATCACCTGAGGTCGGGAGT TCAAGACCAG CCAGACCAAC ATGGTGAAAC CCTGTCTCTA CTAAAAATAC AAAATTAGCCAGGCGTGGTG GTGCATGCCT GTAATCCCAG CTACTTGGGA GGCTGAGGCA GGAGAATCGC TTGAACCTGGGAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCATTACAC TCCAGCCTGG GCAACAAGAG CAAAACTCCCTCTCTCTCAA AAAAAAAAAA AAAAAAAAAA AAGAAGGAAA AGAAAACCAT GGACCTCCAG ACCCTGAGACCCCAGGCCCC AGCCCTGAGA TCCTGACATC TTAAAGATCC CAGGCCCTAA GATACAAGAC CTTGACCCAAAGCCAGCCTT GGGACCCTGG CTGTACAAAC CCAAGACCTC CAGGACCTAG ACCCCGAGCC CTGAGGCCCTATGTCTCACT CCCAACATCG AAAACCCTGA CACCTCAGAT CCTGAGCCTG CGCCTGTACG ACTCCAAGACCCTCACTTCC AAAGCCAGGC CCAAAGCCCT GAGACCAGAA GACTTCAAAC CCTGGTTCTT GGGCCTAACTCCAAAGACCC TGGATCTCAA ATTCCAACTT CTAGCTCTGA GACTCCAGCC CTCACCCATG AGTTCCTGAA CTTGAACCCAGAGACCCCAT CTCTAAGACT TCAGCCTTGA GATCCAGGGC CTGACCCTAG ACTCGAGCCC ACAGACCTCAGATACTGTCT GTAAAACCCC AGCTCTGGTG GGGAGCAGTG GCTCACTCCT GTAATCCCAA GGCAGGGGAGGCCAAGGCAG AAGGACCTCT TGAGGCCATG AGTTTGAGAC AGCCTGGGCA GCATAGCAAG ACTCTGTTTCTTAATTATTA TTATTATTAT TATTTTTTGG AGACAGAGTC TCGCGCTCTG TTGCCCAGGC TAGAGTGCAA TGGTGCCATTTCGGCTTGCT GGAACCTCCG CCTCCTGGGC TCAAGCGATT CTCCTGCCTC AGCCTCCTGA GTAGCTGGGA CTTCAGGTGCACACTGCCAC ACCCGGATAA TTTTTTTGTA TTTTAGTAGA CACAGGGTTT CACCGTGTTG CCCAGGCTGG TCACAAACTCCTGAGCTCAG GCCATCCGCC CGCCTCGGCC TCCCAAAGCG CTGGGATAAC AGGCGTGACG CCGCGCCTGGCTTCTTAATT GTTCTAACAG CAGCGACAAC AACAAAAACC CAGCTCTGAG ATTCCAGCCC CGGCGACTCTAACAGTCCCA GGCCCGATCC CTCACCTAGA ACCGAGATGC CAGCCCTGAC TCCACAGACT TCACCCCCAACCCCCACACT CAGCTCTGGA AGCCCGTCCT GACTCCAGCC TCCATTTTCG GAACCCCACA GCCTGAAGAGCTCCCGGCCT AAACACTTCA CCCCACGCGC CACAGTCCCC CTGTGAATAT GCAGCCCCGA TTCAGCTGCAGCTCCACAGC ACCCCTGCCC TGCACCCCCG CTGCACCCCC TACCTGTGAC TCACCTCTCT CCTCTCCCCA CAGATGTCCCGCCTGGCCCT GCCCCAGCCA CCCCCGGACC CGCCGGCGCC CCCGCTGGCG CCCCCCTCCT CAGCCTGGGGGGGCATCAGG GCCGCCCACG CCATCCTGGG GGGGCTGCAC CTGACACTTG ACTGGGCCGT GAGGGGACTGCTGCTGCTGA AGACTCGGCT GTGACCCGGG GCCCAAAGCC ACCACCGTCC TTCCAAAGCC AGATCTTATT TATTTATTTATTTCAGTACT GGGGGCGAAA CAGCCAGGTG ATCCCCCCGC CATTATCTCC CCCTAGTTAG AGACAGTCCTTCCGTGAGGC CTGGGGGGCA TCTGTGCCTT ATTTATACTT ATTTATTTCA GGAGCAGGGG TGGGAGGCAG GTGGACTCCTGGGTCCCCGA GGAGGAGGGG ACTGGGGTCC CGGATTCTTG GGTCTCCAAG AAGTCTGTCC ACAGACTTCTGCCCTGGCTC TTCCCCATCT AGGCCTGGGC AGGAACATAT ATTATTTATT TAAGCAATTA CTTTTCATGT TGGGGTGGGGACGGAGGGGA AAGGGAAGCC TGGGTTTTTG TACAAAAATG TGAGAAACCT TTGTGAGACA GAGAACAGGGAATTAAATGT GTCATACATA TCCACTTGAG GGCGATTTGT CTGAGAGCTG GGGCTGGATG CTTGGGTAACTGGGGCAGGG CAGGTGGAGG GGAGACCTCC ATTCAGGTGG AGGTCCCGAG TGGGCGGGGC AGCGACTGGGAGATGGGTCG GTCACCCAGA CAGCTCTGTG GAGGCAGGGT CTGAGCCTTG CCTGGGGCCC CGCACTGCATAGGGCCGTTT GTTTGTTTTT TGAGATGGAG TCTCGCTCTG TTGCCTAGGC TGGAGTGCAG TGAGGCAATC TAAGGTCACTGCAACCTCCACCTCCCGGGT TCAAGCAATT CTCCTGCCTC AGCCTCCCGA TTAGCTGGGA TCACAGGTGTGCACCACCAT GCCCAGCTAA TTATTTATTT CTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGTTTCGAACTCC TGACCTCAGG TGATCCTCCT GCCTCGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCCACCACACCTG ACCCATAGGT CTTCAATAAA TATTTAATGG AAGGTTCCAC AAGTCACCCT GTGATCAACAGTACCCGTAT GGGACAAAGC TGCAAGGTCA AGATGGTTCA TTATGGCTGT GTTCACCATA GCAAACTGGAAACAATCTAG ATATCCAACA GTGAGGGTTA AGCAACATGG TGCATCTGTG GATAGAACGC CACCCAGCCGCCCGGAGCAG GGACTGTCAT TCAGGGAGGC TAAGGAGAGA GGCTTGCTTG GGATATAGAA AGATATCCTGACATTGGCCA GGCATGGTGG CTCACGCCTG TAATCCTGGC ACTTTGGGAG GACGAAGCGA GTGGATCACTGAAGTCCAAG AGTTTGAGAC CGGCCTGCGA GACATGGCAA AACCCTGTCT CAAAAAAGAA AGAATGATGTCCTGACATGA AACAGCAGGC TACAAAACCA CTGCATGCTG TGATCCCAAT TTTGTGTTTT TCTTTCTATA TATGGATTAAAACAAAAATC CTAAAGGGAA ATACGCCAAA ATGTTGACAA TGACTGTCTC CAGGTCAAAG GAGAGAGGTGGGATTGTGGG TGACTTTTAA TGTGTATGAT TGTCTGTATT TTACAGAATT TCTGCCATGA CTGTGTATTT TGCATGACACATTTTAAAAA TAATAAACAC TATTTTTAGA ATAACAGAAT ATCAGCCTCC TCCTCTCCAA AAATAAGCCCTCAGGAGGGG ACAAAGTTGA CCGCTGATTG AGCCTGTCAG GGCTGTGCAC-3′ (FRAG. NO：_)(SEQ. ID NO：2522)

Human GM-CSF nucleic acids and antisense oligonucleotide fragments

5′-CTTGBGCBGG BBGCTCTGGG GCBGGGBGCT GGCBGGGCCC BGGGGGGTGG CTTCCTGCBC TGTCCBGBGTGCBCTGTGCC BCBGCBGCBG CTGCBGGGCC BTCBGCTTCB TGGGGCTCTG GGTGGCBGGT CCBGCCBTGG GTCTGGGTGGGGCTGGGCTG CBGGCTCCGG GCGGTCCBGC CBTGGGTCTG GGGGCTGGG CTGCBGGCTC CGGGCGGGCG GGTGCGGGCTGCGTGCTGGG GGCTGCCCCG CAGGCCCTGC GGTCCBGCCB TGGGTCTGGG GGCTGGGCTG CBGGCTCCGGGCGGGCGGGT GCGGGCTGCG TGCTGGGGGC TGCCCCGCAG GCCCTGC-3′ (FRAG. NO：1847) (SEQ. ID NO： 1860)

5′-GBGCBGG BBG-3′ (FRAG. NO：1848) (SEQ. ID NO： 1861)

5′-GCCBCBGCBGCBGC-3′ (FRAG. NO：1849) (SEQ. ID NO： 1862)

5′-GGG TGC GGG C-3′ (FRAG. NO：1850) (SEO. ID NO： 1863)

5

-GGT CCB GCC BTG GGT CTG GG-3(FRAG.NO：1300)(SEQ.ID NO：1309)

5-GGC TGG GCT GCB GGC TCC GG-3(FRAG.NO：1301)(SEQ.ID NO：1310)

5

-GCG GGC GGG TGC GGG CTG CGT GCT GGG-3(FRAG.NO：1302)(SEQ.ID NO：1311)

5

-GGC TGC CCC GCA GGC CCT GC-3

(FRAG.NO：1303)(SEQ.ID NO：1312)

5′-CTTGBGCBGG BBGCTCTGGG GCBGGGBGCT GGCBGGGCCC BGGGGGGTGG CTTCCTGCBC TGTCCBGBGTGCBCTGTGCC BCBGCBGCBG CTGCBGGGCC BTCBGCTTCB TGGGGCTCTG GGTGGCBGGT CCBGCCBTGG GTCTGGGTGGGGCTGGGCTG CBGGCTCCGG GC-3′ (FRAG. NO：1851) (SEQ. ID NO：1864)

Human bone tumor factor

Antisense oligonucleotide fragment

5′-GCBCCGCCTG GBGCCCTGGG GCCCCCCTGT CTTCTTGGGG BGCGCCTCCT CGGCCBGCTC CBCGTCCCGGBTCBTGCTTT CBGTGCTCBT GGTGTCCTTT CCBGGGGBGB GBGGGGCTGG TCCTCTGCTG TCCTTGCTGG TGCTCBTGGTGTCCTTTCCG CCCTGGGGCC CCCCTGTCTT CTTGGGGCCT CTTCCCTCTG GGGGCCGTCT CTCTCCCTCT CTTGCGTCTCTCTCTTTCTC TCTCTCTCTT CCCCTTTCCC GCTCTTTCTG TCTCGGTGTC TGGTTTTCTC TCTCCGCTGG CTGCCTGTCTGGCCTGCGCT CTTGGCCTGT GCTGTTCCTC CTCCGGTTCC TGTCCTCTCT GTCTGTCGCC CCCTCTGGGG TCTCCCTCTGGGTGGTGGTC TTGTTGCTTG GGCTGGGCTC CGTGTCTCCB GTGCTCBTGG TGTCCGCTGB GGGBGCGTCT GCTGGCGCTGGTCCTCTGCTGTC CTTGCTGGTG CTCBTGGTGT CCTTTCCGCC CTGGGGCCCC CCTGTCTTCT TGGGGCCTCTTCCCTCTGGG GGCCGTCTC TCTCCCTCTC TTGCGTCTCT CTCTTTCTCT CTCTCTCTTC CCCTTTCCCG CTCTTTCTGTCTCGGTGTCT GGTTTTCTCT CTCCGCTGGC TGCCTGTCTG GCCTGCGCTC TTGGCCTGTG CTGTTCCTCC TCCGGTTCCTGTCCTCTCTG TCTGTCGCCC CCTCTGGGGT CTCCCTCTGG CGTGGTGGTC TTGTTGCTTG GGCTGGGCTC CGTGTCTCCBGTGCTCBTGG TGTCCGCTGB GGGBGCGTCT GCTGGC-3′ (FRAG. NO：1852)(SEQ. ID NO：1865)

5′-GGGGCCCCCC-3′ (FRAG. NO：1853) (SEQ. ID NO：1866)

5′- GGG GGC CG TCT-3′ (FRAG. NO：1854) (SEQ. ID NO：1867)

5′-CCBGGGGBGB GBGGGGCTGG-3′ (FRAG. NO：1855) (SEQ. ID NO：1868)

5′-GCBCCGCCTG GBGCCCTGGG GCCCCCCTGT CTTCTTGGGG BGCGCCTCCT CGGCCBGCTC CBCGTCCCGGBTCBTGCTTT CBGTGCTCBT GGTGTCCTTT CCBGGGGBGB GBGGG-3′(FRAG. NO：1304) (SEQ. ID NO：1313)

5′-GCT GGT CCT CTG CTG TCC TTG CTG GTG CTC BTG GTG TCC TTT CC GCC CTG GGG CCC CCC TGT CTT CTTGGG G CCT CTT CCC TCT GGG GGC CG TCT CTC TCC CTC TCT TGC GTC TCT C TCT TTC TCT CTC TCT CTT CCC C TTTCCC GCT CTT TCT GTC TC GGT GTC TGG TTT TCT CTC TCC GCT GGC TGC CTG TCT GGC CTG CGC TCT T GGC CTGTGC TGT TCC TCC TCC GGT TCC TGT CCT CTC TGT CTG TC GCC CCC TCT GGG GTC TCC CTC TGG C GTG GTG GTCTTG TTG CTT GGG CTG GGC TCC GTG TCT C CBG TGC TCB TGG TGT CC-3′(FRAG. NO：1305) (SEQ. ID NO：1314)

5′-GCT GBG GGB GCG TCT GCT GGC GCT GGT CCT CTG CTG TCC TTG CTG GTG CTC BTG GTG TCC TTT CC GCCCTG GGG CCC CCC TGT CTT CTT GGG G CCT CTT CCC TCT GGG GGC CG TCT CTC TCC CTCTCT TGC GTC TCT C TCTTTC TCT CTC TCT CTT CCC C TTT CCC GCT CTT TCT GTC TC GGT GTC TGG TTT TCT CTC TCC GCT GGC TGC CTG TCTGGC CTG CGC TCT T GGC CTG TGC TGT TCC TCC TCC GGT TCC TGT CCT CTC TGT CTG TC GCC CCC TCT GGG GTCTCC CTC TGG C GTG GTG GTC TTG TTG CTT GGG CTG GGC TCC GTG TCT C CBG TGC TCB TGG TGT CC GCT GBG GGBGCG TCT GCT GGC-3′(FRAG. NO：1306)(SEQ. ID NO：1315)

5

-GCT GGT CCT CTG CTG TCC TTG CTG-3

(FRAG. NO：1655)(SEQ. ID NO：1664)

5-GTG CTC BTG GTG TCC TTT CC-3(FRAG. NO：1656)(SEQ. ID NO：1665)

5

-GCC CTG GGG CCC CCC TGT CTT CTT GGG G-3

(FRAG. NO：1657)(SEQ. ID NO：1666)

5

-CCT CTT CCC TCT GGG GGC CG-3

(FRAG. NO：1658)(SEQ. ID NO：1667)

5

-TCT CTC TCC CTC TCT TGC GTC TCT C-3(FRAG. NO：1659)(SEQ. ID NO：1668)

5

-TCT TTC TCT CTC TCT CTT CCC C-3(FRAG. NO：1660)(SEQ. ID NO：1669)

5

-TTT CCC GCT CTT TCT GTC TC-3

(FRAG.NO：1661)(SEQ.ID NO：1670)

5

-GGT GTC TGG TTT TCT CTC TCC-3

(FRAG. NO：1662)(SEQ. ID NO：1671)

5

-GCT GGC TGC CTG TCT GGC CTG CGC TCT T-3

(FRAG. NO：1663)(SEQ. ID NO：1672)

5

-GGC CTG TGC TGT TCC TCC-3

(FRAG. NO：1664)(SEQ. ID NO：1673)

5-TCC GGT TCC TGT CCT CTC TGT CTG TC-3(FRAG. NO：1665)(SEQ. ID NO：1674)

5

-GCC CCC TCT GGG GTC TCC CTC TGG C-3

(FRAG. NO：1666)(SEQ. ID NO：1675)

5-GTG GTG GTC TTG TTG CTT-3

(FRAG. NO：1667)(SEQ. ID NO：1676)

5

-GGG CTG GGC TCC GTG TCT C-3

(FRAG. NO：1668)(SEQ. ID NO：1677)

5-CBG TGC TCB TGG TGT CC-3′ (FRAG. NO：1669)(SEQ. ID NO：1678)

5

-GCT GBG GGB GCG TCT GCT GGC-3

(FRAG. NO：1670)(SEQ. ID NO：1679)

Human leukotriene C4 nucleic acids and antisense oligonucleotide fragments

5′-CTCGGTBGBC GCGCTCGBBC TCGGGTGGGC CGGTGGTGBG CGGCGGCGBCB CGCGGBBGGC CCTGCGCGCCGBGBTCBCCTG CBGGGBGBBG TBGGCTTGCB GCBGGBCTCC CBGGBGGGTG BCBGCBGCCB GTBGBGCTBC CTCGTCCTTCBTGGTBCCGT CGGTGTGGTG GCBCGGGCTG TGTGTGBBGG CGBGCTGGGC CCCGTCTGCT GCTCCTCGTG CCGCCTCGTCCTTCA TGG TA CCGTCGGTGT GGTGGCCTCG GGTGGGCCGG TGGTGGGGCG CGCGCGCTCG CGTGGCTCCGGCTCTTCTTT CCCGGCTCCGT CGGCCCGGGG GCCTTGGTCT CCCTCGTCCT TCBTGGTBCC G-3′ (FRAG. NO： 1856) (SEQ IDNO： 1869)

5′-GCB GCBGGBC-3′ (FRAG. NO：1857) (SEQ ID NO： 1870)

5′-CCCGGCTCCG-3′ (FRAG. NO：1858) (SEQ ID NO： 1871)

5′-CGGCCCGGGG GCC-3′ (FRAG. NO：1859) (SEQ ID NO：1872)

5′-CB CGCGG-3′ (FRAG. NO：1860) (SEQ ID NO： 1873)

5

-GCC CCG TCT GCT GCT CCT CGT GCC G-3

(FRAG. NO：1307)(SEQ. ID NO：1316)

5

-CCT CGT CCT TCA TGG TAC CGT CGG TGT GGT GGC-3

(FRAG. NO：1308)(SEQ. ID NO：1317)

5

-CTC GGG TGG GCC GGT GGT G-3

(FRAG. NO：1309)(SEQ. ID NO：1318)

5-GGG CGC GCG CGC TCG CGT-3

(FRAG. NO：1310)(SEQ. ID NO：1319)

5-GGC TCC GGC TCT TCT TTC CCG GCT CCG TCG GCC CGG GGG CCT TGG TCT C-3

(FRAG. NO：1311)(SEQ. ID NO：1320)

5′-CCT CGT CCT TCB TGG TBC CG-3(FRAG. NO：1312)(SEQ. ID NO：1321)

5′-CTCGGTBGBC GCGCTCGBBC TCGGGTGGGC CGGTGGTGBG CGGCGGCGBCB CGCGGBBGGC CCTGCGCGCCGBGBTCBCCTG CBGGGBGBBG TBGGCTTGCB GCBGGBCTCC CBGGBGGGTG BCBGCBGCCB GTBGBGCTBC CTCGTCCTTCBTGGTBCCGT CGGTGTGGTG GCBCGGGCTG TGTGTGBBGG CGBGCTGG-3′ (FRAG. NO：1861) (SEQ ID NO：1874)

Human endothelin-1 nucleic acids and antisense oligonucleotide fragments

5′-BCCGGCGGBG CCGCCBGGGT GGBCTGGGBG TGGGTTTCTC CCCGCCGTTC TCBCCCBCCG CGCTGBGCTCBGCGCCTBBG BCTGCTGTTT CTGGBGCTCC TTGGCBBGCC BCBBBCBGCB GBGBGBBBBT CBTGBGCBBB TBBTCCBTTCTGBBBBBBBG GGBTCBBBBB CCTCCCGTTC CCCGTTCGCC TGGCGCGCGC TGCGGGTTCC TCGTGGGTTT CTCCCCGCCGTTCTCCGGTC TGTTGCCTTT GTGGGCTTCT TGTCTTTTTG GCTGTTCTTT TCCTGCTTGG CGTCTTTTCC TTTCTTTGTGCTCGGTTGTG GGTCCGCTGG TCCTTTGCCC TGTGTGTTTC TGCTGCCCGT TCGCCTGGCG CGCGCTGCGG GTTCCTCGTGGGTTTCTCCC CGCCGTTCTC CGGTCTGTTG CCTTTGTGGG CTTCTTGTCT TTTTGGCTGT TCTTTTCCTG CTTGGCGTCTTTTCCTTTCT TTGTGCTCGG TTGTGGGTCC GCTGGTCCTT TGCCCTGTGT GTTTCTGCTG-3′ (FRAG. NO：1862) (SEQ. IDNO：1875)

5′-CCGGCGGBG CCGCCBGGGT GGBC-3′ (FRAG. NO：1863) (SEQ. ID NO：1876)

5′-CCGCCBGGG-3′ (FRAG. NO：1864) (SEQ. ID NO：1877)

5′-GGCGCGCGC-3′ (FRAG. NO：1865) (SEQ. ID NO：1878)

5′-GTGGGTCCGC-3′ (FRAG.NO：1866) (SEQ. ID NO：1879)

5′-CCCGTTCGCCTGGCGC-3′ (FRAG. NO：1313)(SEQ. ID NO：1322)

5′-GCGCTGCGGGTTCCTC-3′ (FRAG. NO：1314)(SEQ. ID NO：1323)

5′-GTGGGTTTCTCCCCGCCGTTCTC-3′ (FRAG. NO：1315)(SEQ. ID NO：1324)

5′-CGGTCTGTTGCCTTTGTGGG -3′ (FRAG. NO：1316)(SEQ. ID NO：1325)

5′-CTTCTTGTCTTTTTGGCT-3′ (FRAG. NO：1317)(SEQ. ID NO：1326)

5′-GTTCTTTTCCTGCTTGGC-3′ (FRAG. NO：1318)(SEQ. ID NO：1327)

5′-GTCTTTTCCTTTCTT-3′ (FRAG. NO：1319)(SEQ. ID NO：1328)

5′-TGTGCTCGGTTGTGGGTC-3′ (FRAG. NO：1320)(SEQ. ID NO：1329)

5′-CGCTGGTCCTTTGCC-3′ (FRAG. NO：1321)(SEQ. ID NO：1330)

5′-CTGTGTGTTTCTGCTG-3′ (FRAG. NO：1322)(SEQ. ID NO：1331)

5′-CCCGTTCGCCTGGCGC-3′ (FRAG. NO：1323)(SEQ. ID NO：1332)

5′-GCGCTGCGGGTTCCTC-3′ (FRAG. NO：1324)(SEQ. ID NO：1333)

5′-GTGGGTTTCTCCCCGCCGTTCTC-3′ (FRAG. NO：1325(SEQ. ID NO：1334)

5′-CGGTCTGTTGCCTTTGTGGG-3′ (FRAG. NO：1326)(SEQ. ID NO：1335)

5′-CTTCTTGTCTTTTTGGCT-3′ (FRAG. NO：1327)(SEQ. ID NO：1336)

5′-GTTCTTTTCCTGCTTGGC-3′ (FRAG. NO：1328)(SEQ. ID NO：1337)

5′-GTCTTTTCCTTTCTT-3′ (FRAG. NO：1329)(SEQ. ID NO：1338)

5′-TGTGCTCGGTTGTGGGTC-3′ (FRAG. NO：1330)(SEQ. ID NO：1339)

5′-CGCTGGTCCTTTGCC-3′ (FRAG. NO：1331)(SEQ. ID NO：1340)

5′-CTGTGTGTTTCTGCTG-3′ (FRAG. NO：1332)(SEQ. ID NO：1341)

Endothelin receptor ET-B nucleic acids and antisense oligonucleotide fragments

5′-GCCCTGTCGG GCGGGAAGCC TCTCTCCTCT CCCCAGATC CGCGACAGGC CGCAGGCAAG AACCAGCGCAACCAGGGCGC GTCCGCACAG ACTTGGAGGC GGCTGCATGC TGCTACCTGC TCCAGAAGCG TCCGGTGGCC GCCGCGCCCTGTCGGGCG GGBBGCCTCT CTCCTCTCCC CBGBTCCGCG BCBGGCCGCB GGCBBGBBCC BGCGCBBCCB GGGCGCGTCCGCBCBGBCTT GGBGGCGGCT GCBTGCTGCT BCCTGCTCGGGCG GGBBGCCTCCG GTGGCCGCCG CGCGTCCGGTGGCCGCCGCG CCTCTCTCCT CTCCCCGTGG CCCTGTCGGG CGGGTCCTGC CGTCCTGTCT CCTTTTCTTT TGCTGTCTTGTCTTCCCGTC TCTGCTTT-3′ (FRAG. NO： 1867) (SEQ. ID NO′. 1880)

5′-CGGGCG GGBBGCC-3′ (FRAG. NO： 1868) (SEQ. ID NO： 1881)

5′-CGGGCGGG-3′ (FRAG. NO： 1869) (SEQ. ID NO： 1882)

5′-CCGCBCBGBC-3′ (FRAG. NO： 1870) (SEQ. ID NO： 1883)

5′-GCGTCCGGTGGCCGCCGC-3′ (FRAG. NO：1333)(SEQ. ID NO：1342)

5′-GCCTCTCTCCTCTCCCC-3′ (FRAG. NO：1334)(SEQ. ID NO：1343)

5′-GTGGCCCTGTCGGGCGGG-3′ (FRAG. NO：1335)(SEQ. ID NO：1344)

5′-TCCTGCCGTCCTGTCTCCTTT-3′ (FRAG. NO：1336)(SEQ. ID NO：1345)

5′-TCTTTTGCTGTCTTGT-3′ (FRAG. NO：1337)(SEQ. ID NO：1346)

5′-CTTCCCGTCTCTGCTTT-3′ (FRAG. NO：1338)(SEQ. ID NO：1347)

5′-GCCCTGTCGG GCGGGAAGCC TCTCTCCTCT CCCCAGATC CGCGACAGGC CGCAGGCAAG AACCAGCGCAACCAGGGCGC GTCCGCACAG ACTTGGAGGC GGCTGCATGC TGCTACCTGC TCCAGAAGCG TCCGGTGGCC GCCGC-3′(FRAG. NO： 1871) (SEQ. ID NO： 1884)

5′-GCCCTGTCGG GCGGGBBGCC TCTCTCCTCT CCCCBGBTCC GCGBCBGGCC GCBGGCBBGB BCCBGCGCBBCCBGGGCGC GTCCGCBCBG BCTTGGBGGC GGCTGCBTGC TGCTBCCTGC TCCBGBBGCG TCCGGTGGCC GCCGC-3′(FRAG. NO： 1872) (SEQ. ID NO： 1885)

Endothelin ETA receptor nucleic acids and antisense oligonucleotide fragments

5′-GTCTGTCCTC CCCGTCTCCT CCCACTGCTT CTCCCGGGGG CTTCCCCGGC TTCGGGTGGC CGGTGTCCCGGGCTCCGGCG CGGCGGCGGC TTCGGCTGCG GGTGGGTGGC GCGGGCTGCC GGGTCCGCGC GGCGCCTGGGCCCTTGTGCT GCTTTTTGCT TGTTCCGTTC TGGCTGCTCC GGTCTGTGTT GTGGTTGTTT TGTTTCTTCT TGGGTGTGGGCCTTGCGGTT TTGGCTGTGG GCCCTTTGGG GCCTTGGCTT CTGGCTCGTC TGTCCTCCCC GTCTCCTCCC ACTGCTTCTCCCGGGGGCT TCCCCGGCTT CGGGTGGCCG GTGTCCCGGG CTCCGGCGCG GCGGCGGCTT CGGCTGCGGGTGGGTGGCGC GGGCTGCCGG GTCCGCGCGG CGCCTGGGCC CTTGTGCTGC TTTTTGCTTG TTCCGTTCTG GCTGCTCCGGTCTGTGTTGT GGTTGTTTTG TTTCTTCTTG GGTGTGGGCC TTGCGGTTTT GGCTGTGGGC CCTTTGGGGC CTTGGCTTCTGGCTCCAT CCACATGATT GCTTAGATTT GTGCTGTATC TCTCAGGATT ATCACTGATT ACACATCCAA CCAGTGCCAGCCAAAAGGAT GCCCTGAGGC AAAGGGTTTC CATCTTGAGG CAAATTTGAG GACBTCCBC BTGBTTGCTT BGBTTTGTGCTGTBTCTCTC BGGBTTBTCB CTGBTTBCBC BTCCBBCCBG TGCCBGCCBB BBGGBTGCCC TGBGGCBBBG GGTTTCCBTCTTGBGGCBBB TTTGBGGB-3′ (FRAG. NO：1873) (SEQ. ID NO：1886)

5′-GBGGCBBBGGG-3′ (FRAG. NO：1874) (SEQ. ID NO：1887)

5′-GCCBGCCBB BBGGB-3′ (FKAG. NO：1875) (SEQ. ID NO：1888)

5′-CGCCTGGGCC C-3′ (FRAG. NO：1876) (SEQ. ID NO：1889)

5′-GTCTGTCCTCCCCGTCTCCTCCC-3′ (FRAG. NO：1339)(SEQ. ID NO：1348)

5′-ACTGCTTCTCCCGGGG-3′ (FRAG. NO：1340)(SEQ. ID NO：1349)

5′-GCTTCCCCGGCTTC-3′ (FRAG. NO：1341)(SEQ. ID NO：1350)

5′-GGGTGGCCGGTGTCCCGGGCTCCGGCGCGGCGGC-3′ (FRAG. NO：1342)(SEQ. ID NO：1351)

5′-GGCTTCGGCTGC-3′ (FRAG. NO：1343)(SEQ. ID NO：1352)

5′-GGGTGGGTGGCGCGG-3′ (FRAG. NO：1344)(SEQ. ID NO：1353)

5′-GCTGCCGGGTCCGCGCGGCGCCTGGGCC-3′ (FRAG. NO：1345)(SEQ. ID NO：1354)

5′-CTTGTGCTGCTTTT-3′ (FRAG. NO：1346(SEQ. ID NO：1355)

5′-TGCTTGTTCCGTTC-3′ (FRAG. NO：1347)(SEQ. ID NO：1356)

5′-TGGCTGCTCCGGTCTGTGTTGTGGTTGTTTTG-3′ (FRAG. NO：1348)(SEQ. ID NO：1357)

5′-TTTCTTCTTGGGTGTGGG-3′ (FRAG. NO：1349)(SEQ. ID NO：1358)

5′-CCTTGCGGTTTTGG-3′ (FRAG. NO：1350)(SEQ. ID NO：1359)

5′-CTGTGGGCCCTTTG-3′ (FRAG. NO：1351)(SEQ. ID NO：1360)

5′-GGGCCTTGGCTTCTGGCTC-3′ (FRAG. NO：1352)(SEQ. ID NO：1361)

5′-CATCCACATG ATTGCTTAGA TTTGTGCTGT ATCTCTCAGG ATTATCACTG ATTACACATC CAACCAGTGCCAGCCAAAAG GATGCCCTGA GGCAAAGGGT TTCCATCTTG AGGCAAATTT GAGGA-3′ (FRAG.NO：1353) (SEQ.IDNO： 1362)

5′-CBTCCBCBTG BTTGCTTBGB TTTGTGCTGT BTCTCTCBGG BTTBTCBCTG BTTBCBCBTC CBBCCBGTGCCBGCCBBBBG GBTGCCCTGB GGCBBBGGGT TTCCBTCTTG BGGCBBBTTT GBGGB-3′ (FRAG. NO：1354)(SEQ. ID NO：1363)

Endothelin receptor A nucleic acids and antisense oligonucleotide fragments

5′-GCCACCATGG AAACCCTTTG CCTCAGGGCA TCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATAATCCTGAGAG ATACAGCACA AATCTAAGCA ATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCTCAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTC CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGCAGACTAAAAT TACTTCAGCT TTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAATGCAACTCTGC TCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTCTTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA TGGCTGGGCG CTGGCCTTTT GATCACAATGACTTTGGCGT ATTTCTTTGC AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCTCTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGG AATTGGGATT CCTTTGGTAA CTGCCATTGAAATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATT CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATAGGGGTGGACA GCATAAAACC TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAAGGACTGGTGG CTCTTCGGGT TCTATTTCTG TATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGATGTTGAACAG AAGGAATGGC AGCTTGAGAA TTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGCAAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGC TGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTGTGTATAACGA GATGGACAAG AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCAACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAAT TGTTTCCAGT CATGCCTCTGCTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC CCCATGAACG GAACAAGCAT CCAGTGGAAGAACCACGATC AAAACAACCA CAACACAGAC CGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAGAAGCACTCCT GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCAAATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATCCTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTTACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGACTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCAACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTGCCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGATCACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCTCTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTGCCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTTGAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAGATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACTTGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAGAAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAGAAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAACTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCATGCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCAGTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCACCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCCGGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGACTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGCACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTTTGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCATGAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCTCAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC GAATTCGGGA AAAAGTGAAG GTGTAAAAGCAGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGGCACTGGTTGG ATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGATTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATGGCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACTATTTTCATCG TGGGAATGGT GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGAATGGCCCCAA CGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTTAAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAAGTCCTCGGTG GGGATCACCG TCCTCAACCT CTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTGTTCAGGGAAT TGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCTGAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATGCCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTGTGCACTGCGA TCTTCTACAC CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTGCCCTCAGTGA ACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGGTTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTTCTTACTGCTC ATGGATTACA TCGGTATTAA CTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGAGCAAGAAATT TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCCATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATAAGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAATCACAAGGCAA CTGTGAGTCC GGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTTTCCAAAACCG CAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATATTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACCAGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTTCAATGGGAAC TGGTCACCAT GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTCAGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC-3′ (FRAG.NO：___) (SEQ ID NO：3014)

5′-GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTCAAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATCCTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTTACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGACTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCAACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTGCCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGATCACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCTCTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTGCCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTTGAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAGATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACTTGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAGAAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAGAAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAACTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCATGCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCAGTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCACCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCCGGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGACTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGCACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTTTGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCATGAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCTCAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC-3′(FRAG. NO：___)(SEQ ID NO：2482)

5′-GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTCAAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATCCTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTTACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGACTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCAACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTGCCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGATCACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCTCTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTGCCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTTGAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAGATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACTTGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAGAAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAGAAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAACTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCATGCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCAGTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCACCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCCGGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGACTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGCACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTTTGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCATGAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCTCAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC-3′(FRAG. NO：__)(SEQ ID NO：2470)

5′-GCCACCATGG AAACCCTTTG CCTCAGGGCA TCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATAATCCTGAGAG ATACAGCACA AATCTAAGCA ATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCTCAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTC CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGCAGACTAAAAT TACTTCAGCT TTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAATGCAACTCTGC TCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTCTTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA TGGCTGGGCG CTGGCCTTTT GATCACAATGACTTTGGCGT ATTTCTTTGC AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCTCTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGG AATTGGGATT CCTTTGGTAA CTGCCATTGAAATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATT CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATAGGGGTGGACA GCATAAAACC TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAAGGACTGGTGG CTCTTCGGGT TCTATTTCTG TATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGATGTTGAACAG AAGGAATGGC AGCTTGAGAA TTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGCAAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGC TGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTGTGTATAACGA GATGGACAAG AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCAACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAAT TGTTTCCAGT CATGCCTCTGCTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC CCCATGAACG GAACAAGCAT CCAGTGGAAGAACCACGATC AAAACAACCA CAACACAGAC CGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAGAAGCACTCCT-3′ (FRAG. NO：__) (SEQ ID NO：2469)

Substance P antisense nucleic acids and oligonucleotide antisense oligonucleotide fragments

5′-CTGCTGBGGC TTGGGTCTCC GGGCGBTTCT CTGCBGBBGB TGCTCBBBGG GCTCCGGCBG TTCCTCCTTGBTCTGGTCGCT GTCGTBCCBG TCGGBCCBGT BBTTCBGBTC BTCBTTGGCT CCTBTTTCTT CTGCBBBCBG CTGBGTGGBGBCBBGBBBBB BGBCTGCCBB GGCCBCGBGG BTTTTCBTGT TGGBTTTTGC GBCGGBCBGT CCCGCGGGGT GCTGAGTTTCTCTGGTTCCT CCGBGCGCBC GTGGTCGCTC CGCGTTTCTC TGGTTCCTCC GGTCCCGCGG GGTGCTGTCT GGTCGCTGTCGTGGCTTGGG TCTCCGGGCG GTTTCCTTCC TTTTCCGC-3′ (FRAG. NO：1877) (SEQ ID NO：1890)

5′-CTCC GGGCGB-3′ (FRAG. NO：1878) (SEQ ID NO：1891)

5′-GGCCBCGBGG-3′ (FRAG. NO：1879) (SEQ ID NO：1892)

5′-GGGTCTCCGGGCG-3′ (FRAG. NO：1880) (SEQ ID NO：1893)

5′-GGG TCTCCGGGCG G-3′ (FRAG. NO：1881) (SEQ ID NO：1894)

5′-CGTGGTCGCTCCGC-3′ (FRAG. NO：1355)(SEQ. ID NO：1364)

5′-GTTTCTCTGGTTCCTCCG-3′ (FRAG. NO：1356)(SEQ. ID NO：1365)

5′-GTCCCGCGGGGTGCTG-3′ (FRAG. NO：1357)(SEQ. ID NO：1366)

5′-TCTGGTCGCTGTCGT-3′ (FRAG. NO：1358)(SEQ. ID NO：1367)

5′-GGCTTGGGTCTCCGGGCG-3′ (FRAG. NO：1359)(SEQ. ID NO：1368)

5′-GTTTCCTTCCTTTTCCGC-3′ (FRAG. NO：1360)(SEQ. ID NO：1369)

5′-CTGCTGBGGC TTGGGTCTCC GGGCGBTTCT CTGCBGBBGB TGCTCBBBGG GCTCCGGCBG TTCCTCCTTGBTCTGGTCGCT GTCGTBCCBG TCGGBCCBGT BBTTCBGBTC BTCBTTGGCT CCTBTTTCTT CTGCBBBCBG CTGBGTGGBGBCBBGBBBBB BGBCTGCCBB GGCCBCGBGG BTTTTCBTGT TGGBTTTTGC GBCGGBCBGT CCCGCGGGGT GCTGAGTTTCTCTGGTTCCT CCGBGCGCB-3′ (FRAG. NO：1882) (SEQ ID NO：1895)

Substance P receptor nucleic acids and antisense oligonucleotide fragments

5′-GGGCTBBGBT GBTCCBCBTC BCTBCCBCGT TGCCCBCCBC BGBGGTCBCC BCBBTGBCCG TGTBGGCBGCTGCCCBBBGG BCBBTTTGCC BGGCTGGTTG CBCGBBCTGB TTGGGTTCCG BGGTGTTBGT GGBGBTGTTT GGGGBGBGGTCTGBGTCCBC CGGGBGGBCG TTBTCCBTTT CGBBGCTBGG CGGTBBBGCC CTBCTBTCTG TBCBCBBCCC CCCTCTGCBGCBGBGTCCTG TCGTGGCGCC TGGGGCTCBG GGTCCGGGC TAAGATGATC CACATCACTA CCACGTTGCC CACCACAGAGGTCACCACAA TGACCGTGTA GGCAGCTGCC CAAAGGACAA TTTGCCAGGC TGGTTGCACG AACTGATTGGGTTCCGAGGT GTTAGTGGAG ATGTTTGGGG AGAGGTCTGA GTCCACCGGG AGGACGTTAT CCATTTCGAAGCTAGGCGGT AAAGCCCTAC TATCTGTACA CAACCCCCCT CTGCAGCAGA GTCCTGTCGT GGCGCCTGGGGCTCAGGGTC CGTCCTGTCG TGGCGCCTGG GGCTCTTCTT TTGTGGGCTC TTTGGTGGCT GTGGCTGTGG TCTCTGTGGTTGCTGCCCTG GGTCTGGGGG TGTGGCCTTG GGGCCGTCCT CTGGCTCCTC CTCGTGGGCC CCC-3′(FRAG. NO：1883)(SEQ. ID NO：1896)

5′-GGGBGGBCG-3′ (FRAG. NO：1884) (SEQ. ID NO：1897)

5′-GGGTC CG-3′ (FRAG. NO：1885) (SEQ. ID NO：1898)

5-′GGGCC CCC-3′ (FRAG. NO：1886) (SEQ. ID NO：1899)

5′-GTCCTGTCGTGGCGCCTGGGGCTC-3′ (FRAG. NO：1361)(SEQ. ID NO：1370)

5′-TTCTTTTGTGGGCT-3′ (FRAG. NO：1362)(SEQ. ID NO：1371)

5′-CTTTGGTGGCTGTGGCTG-3′ (FRAG. NO：I363)(SEQ. ID NO：1372)

5′-TGGTCTCTGTGGTTG-3′ (FRAG. NO：1364)(SEQ. ID NO：1373)

5′-CTGCCCTGGGTCTGG-3′ (FRAG. NO：1365)(SEQ. ID NO：1374)

5′-GGGTGTGGCCTTGGGGCCGTCCTCTGGCTCCTCCTCGTGGGCCCCC (FRAG.NO：1366)(SEQ.ID NO：1375)

5′-GGGCTAAGAT GATCCACATC ACTACCACGT TGCCCACCAC AGAGGTCACC ACAATGACCG TGTAGGCAGCTGCCCAAAGG ACAATTTGCC AGGCTGGTTG CACGAACTGA TTGGGTTCCG AGGTGTTAGT GGAGATGTTTGGGGAGAGGT CTGAGTCCAC CGGGAGGACG TTATCCATTTC GAAGCTAGGC GGTAAAGCCC TACTATCTGTACACAACCCCC CTCTGCAGCA GAGTCCTGTC GTGGCGCCTG GGGCTCAGGGTCC-3′(FRAG.NO：1367)(SEQ.ID NO：1376)

5′-GGGCTBBGBT GBTCCBCBTC BCTBCCBCGT TGCCCBCCBC BGBGGTCBCC BCBBTGBCCG TGTBGGCBGCTGCCCBBBGG BCBBTTTGCC BGGCTGGTTG CBCGBBCTGB TTGGGTTCCG BGGTGTTBGT GGBGBTGTTT GGGGBGBGGTCTGBGTCCBCC GGGBGGBCGT TBTCCBTTTC GBBGCTBGGC GGTBBBGCCC TBCTBTCTGTB CBCBBCCCCC CTCTGCBGCBGBGTCCTGTC GTGGCGCCTG GGGCTCBGGG TCC-3′ (FRAG. NO：1368) (SEQ. ID NO：1377)

Chymosin antisense nucleic acids and oligonucleotide antisense oligonucleotide fragments

5′-GGBGCTGBTB CTGCBGATTT CBGBGGGBBG BBCCCTGBTB CTCBCCBGCT TCBGCTCTGG BGCBCBBGBGBBBGBGCBGC BGGGGGBGBG GBBGBBGCBG CBTCTTCCCB GBGBGGCTGC CTGBGCBBBT GCTGGTTTTC CTTTCCBGTCTTGGGTTTTB TBBCTCCCBG BBGGCBBGBG BGGGGCBBGG CGTTTTCTTC TCTCGCTGGT TTTCCTTTCC TGGCAGTGGGTGGGGGTGGG GGTGGGGTGG CTTCCTTGTT CCTGGGGGTG TCCTCTTGCT CTGGGCTTTT CTCCCCTTTT CCTTCCTGTCTGTTTTCCTG GGGCTCTCCT CTGTCTCTGT GTCCTTGCCC TGGCCCTCTT CCCTCTCCTG TCTCCTGTCC CTGTGTTCCGCCCGTCTTCC

CTCTCCTGAC CTCCTTTTCC TCCGCTGGGT GGGGCCCTGC CTGTTCTCTG CTCCCTGGCT TGGGGTTTCTTCTGTGTGTC TTCTTCCTCT GTTGGCTGGC TTTCTCCTTC TTTTGTCTTC CTGGGTGCCC CTTCTTCCTT TCTTGGGTCCTTGGTGCTTG GGCTGGG TCCCAGTTAA TACATAATCA ATATGCAATT TATTAATACA TCTCTCCATG TCCACTCCCCCTGTATCTTG CCATTCTTGA CCTGCATTTC CATCCTCCTT ACCTTCCCTA GAGGCCAACT CATTTTCTTT GAAAAACCTGGCATTTCCCA GAAAAAAAAG TGAAGGGCTG GGAGCTGTCC GTTGTCCTGA TTTGCTCCCT CTGCCCTTGC TTCCAAATGTGGTTGGAAAG AAGCACTATT GAAAAATCCC TAAACGCACC CCTGCAGGGT TGGCTCTACC CTGTAGCCATGGACACATGC TGTTGATACC ACCTGCCTCA TGAGTCTCAC ATAATTTGCC CTTTCACACT ATCTACCCCA TCAGCCTTACCAAAACCATA CCTGCATCCT GGGCAGCATC TGCCCTTCAA GAGACTAAGG AATCTCCTTG CAACCAAGAATGACTAGACC AATGAGACAC CCTTTAAGGC CCCAGCACAA TATAGAAATC CCACAATATG GTAATCCCAGTAAGGAGCTA TCAAGCCATT GCAGGACCAT CTAGAATACA ACTAGAGTAT AGTTCCTTTC AATCCAGGAACTATACTCTA ACAGCTTGGC TCACAGGAAC CAGAAGTGAA GATGATGAGG ATCAGGGCTG AGCCTGTGAGCACCAGCTCC ACCACTGACA CCAACCACAG ATTAAACAAG CATCTTGTGG ACCCCTGGGA TGGAAAGAATAGTTGTTGCC TTATCAACCT CCCCCACAGC CCACACAGAA AAGATAAAAT CATCATGGCT ACAGTGTTACAGAAGATGAT GACCCAAGGA GTAGGCCTGC CTGAGTGAAT GCTGAGAGTG ATAATGGGAG CAGTAGCATCTCAGAGACTA CAGCAGAAAC CATCCACATA AAGAGCTTTG CCCAAACTTA TGATAAAGGG CACCCTCAGAGACTCTCCCT ACTTTAATAT TAGCCCATTG CAGAAATGGT GAGTGGAAAG AGAAATCTTA GGAAGAACCCCTTAAAAAAG CAAAATGCTT TTTAGGTTTG TGCTGAAGAG CCTGGAAAAG AAATAAGGAC ACACACGCTGAGAAATCTTC CTCCTGCCCC AACACTGGGA TAATCTCCAA GGATCTCTCC ATATCTCATT CTCCTGGATA CACTGTCCACTCAGAAATAT TGTGCAGAGT GCAGTAATTC AAAAGTGAGC TATTGTGTTA GGAGTGAAGG CAAGAGTATCGTAAAATAAA TCAAATTTGA AATGAATTCT CTTAAATTGC TTTATAGATG TTTAATGTAA GCCAGCAGCT ATTAAACGATAAACCTTAAA TTCGAGAAAA ACTTGGTCAT TCAGAAACTA TAGAAACAGG CAGGACTTAT TGCGAGGGCAAACACAGAGT GAGCTCCAGC CTGCTTCAGG AAAATCTGCC AGTGCCATGA AGGATGTACT CTGTCTGCTCCACTGCACTA CTGCTCAGTA TGAGCCCATG CCATCAGCTG TCCCTGACCC ACAGGAGTTC TTTAGAAGAGACTGGTCAAC AAAAGTTTCT AGGGTGTTTT ATACCTGCCA ACTCGAGGGT TAAAACAAGT TGCATAGAAATGCTCAATCA AGAAAGACAC AGTCATTACT CAGAGAATAA TAAACAGCCT GGCAGCACAT GAATGAATAGAAAAAAGATG TTACATGCAA AGCATGAAAT AACCAAATTC CATAACAGAT GTTAATCTGT AATGTGTTTAGGAGAATTTA GAGGAAGTAT AAGATTTATT CTTTCATCAA AAAAATTATA GCCAATGAGG ATATATCTATCAATTATCCA TCAAGTGGTG ATATGGCAGC ACAAGGTAAA ACACAAAGGA ATAAAACCAA CGTTTATTAAGAACCAATCA TGTGGCATTT CACATTGAGC ATCATATTTA ATTCTGAAAA AAATCCTTGT ACTGTATCAT TCTTCATATTTTATGGATGC AGTAACTAAG GCTGAGAACT TTAAAATTTT TCCTAAGTTC AGACACATAG CTAAGTGGCAGAACCAAGAT TCAAACTCAC CCCATCTAAC TGCAGAGCAA ACTGCATGCC TTAAATGTCA AAGTGAATACTAGCACAGTT AATACAATGT TTGGAAACTC AGAGAAGGAA TGATCCCTCT GCATTATAGT TACTAAGGAATCATTGCCAT TATTTAAATG CCAGTGCTTC TACATCAGGC CCAAATTTTC TGTCCTACTA ACTGTGAATC AAGACTTGATTCAACCTCTA CTTGAGTATC TGCCGCAATG AGAAATCACT TACCTCCACT AACCACACAT TTATTTTATA ACAACAGATTGTTAGTAAGT CCTTTCTTAT ACATACTCAA CAGCTGCTTC CCAAGATGCT GTAGGATTAT GTCTAGAGTC AAACTAGCCAGAAGCAATGT CCAAAATACA CCATAACACT GTGCAGCAAA GGTCCTACTA CCACTTGTTT GGCCCAAACATTCTAGGCAG CACTGGATAT CTGAATCATC AATTATTTCC ACAAACACTG ACCCCTCTAC CAGTCACCCT CACTAGAAGAATTAATTCCA CATGATAATA GCTCCCTCAT GTTACTCCCT TCTAAGTCAA ATTGTACACC CCTTTATCTG ATTAACAGAGTCTAAGTCAC ATGACCTAAA TGCAAGAGAA CTGGGAATGG ACGTTTGTGG ATTCTACCTT AGTAAGGCAAAGTTATCATT GGGAATTCCT CTAATACAGG AAGGGTGTTC CAGAGACATT AAGGAGCCAT ATAAATGGAAAATGTCCACT ACAATCCATC ACTTGGTTGC CCCACATCAA CATTCATTCT TTTGCCACAC TTAAAGTTTC CAAGAACAAAAATTATCCCA CTGAACATAA TCTTTACTAT CTTTTATATA AAGGAAAATT AGACTTGACT CAGCAGAACT GAAATAACCCAGCTCTAACA GTTACTGCTT TTAACTTCAA GTACTGTGTC TCTAGGTGAT ACCTGCTCCA ACAATAGTTT GGTCACATTTTCAATTTGAT ATTCTCTAGT CTCCCAACTT GATAACTGTA CCCTAAACCA TAAAGTTCAC TACCAACATG CTATATATAAAATAACCAAA GGGGGAAGAA GAAAGAGAAA AAGGAAATCT CTTAAAATAC ACAGGTATAC ATATGACAAAGCAAAGAAGG AAATGTGAGC AGATAGTGCA GTCCTCGTTT CTGAAATTGG TCCCCTGACT GGGGCTATACCTATTCCATT TCCTCACCCT CAGCCAGGCA GGTGGAGCAA AAACTTAAGT CTTGGTGGAT CTGAATCTTG ATGCTGTGGAGCTGTCTTAC TAGCCCCAGA CTACCTGCCT CTCAATTTCT AATTATATCA GTGAAAGCAA ACAGCTTTGA TTTGTTTAAGCCTCTGATTT TTTGGTCTAA CTGATGTAAG ACCACAAGGA CAAGAGTTCT CCAGCTCCGG ATTCTCTTCT GTTCTGTTAATGGTGAAATG CCCGAGAGAA GAGTTGCCAA CTTTGGCAAA TAAAAAATAC AGGATTCCAG TTAAATTCAAATTTAGATAA ACAACAATTT TTTAGTATTA GTGTGTCCCA TTCAATATTT GGACATACTT AACTAAAAAA TGATTTGTTGTTCATCTGAA ATACAAATTT AACTGGGCAT TCTGAATATT CTCTGGCAAC CCCCGAGAGA GTGAAGAAAGTGGTACAAGG ACACTTAAGA AGACCAGATT TGAAAAGACA TTACGGATGT GTTTAAATGT CTTATTCTAGAGAGAGTTAG AGCTGTAGGT AGAACTTGGG AAATTAAGTT AAAAGCAGAC ACAGAGACCT GGCCAATATATACTAAGGAG TGGATCACTC TGGTCACAAG CCCAACCTGA GACCAAGGGC ATAGTGAGAT GATTTGGGAAAGGCACTTAT ACACTACTCA TCCCCGTCTT TGAACTAAAT GCCTTATAAA TCTCCAAGAG AAATGACAGT CCACCATGTGGACTGCTTTC TGTAAGTCCA GGGAAAATAA AAGCTATGTG CTTGAAACCC ACTTCTGATA TTATAAGGTG TGTGATCTTTGTCATGTTAA TGGGTCTGAG TATCAATTCT ACAATTGTAA AGTGACAGTA ATGGTGTGTC CCCAGGTTGT TGTGGAAAGCTTGATTCTTA ATGCAACAGT AGGAAACCCC AGCCTCTCTG GAGCAAACAC CCTTCTACAT CTTTACTTCC CCTGCACATTGGCAGGACTC TATTCCTCTA TTTCTCTCTA GTGCTAGAGC AGAAAGGGAC CTTGATTTGA TATCAGGAAA ATCTATTTCTGAACCATAAG CTATGATAGC TGATTTAAAA AATTGACTAT CATGACATGA TAATGATCAT AATGGTAATACATATTGATA GGGTTGCCGT GAAAGTAATA ATATATCTAA GAGTTGTGAC AATATATGAT ACGCCTAGACTCTCAGAAAA TGCTAATTCC AATCCCAATT GCTCTTTGCA TAAAGTTCTG TCCTAGGGTC TGTTCTTTTC CCACATCTACCCTCCTTGGA TCTCTCTTCT GTCTTTTTCA TGTGGTTCAG AGGAGGAGAG AGATCCAGGT CAATGTTTTT CAAATTACAAGGAATTATCA TTTAAATGGG GAAGAAGCTC AAGTTTTGAC GTGTAGTGGA ATTGGAGTGG AGTGGAGTGGAATGGAAACT AACAGGAAGA CACTGCACAT GGTTAAGATA AAGATTGTTT CCTGAAACCT TTAATTTGTGCTTACATACT CACACATACA TATGTGCATG CACTGGGACT CTGCAATATG CATTTCTGAC TATGGAACAT AGCCATAAAAGTCTTTGCAC TGAACGTTCA GTGGGCCTTT CACAAGCTGC CCTAATTGGG AAAGAAAAAC ATGGTCCCTC CATTTCCTGCCCCCAACTCC AGAAAAGTCA CCATAGTTGA GGGTACATCT GAGAAGCCAG CACTTGGGAG TTCAGGGCTCAAGTTCCTTT CTAGAAAAAC ACTGGGTGAT TCTAGGGGAA CTTCCGATCA GAAACAGCCA ATTCAGAGTGAGAGAAGAAA ACGTGACCAT GCAGTTCCTG TGGTTACCAG CCTTGCCCCT CTCTTGCCTT CTGGGAGTTATAAAACCCAA GACTGGAAAG GAAAACCAGC ATTTGCTCAG GCAGCCTCTCTGGGAAGATG CTGCTTCTTCCTCTCCCCCT GCTGCTCTTT CTCTTGTGCT CCAGAGCTGA AGCTGGTGAG TATCAGGGTT CTTCCCTCTG AAATCTGCAGTATCAGCTCC TGAAACAAAG ATGTTTAGTC TGAAATAGCT GACTCCTAAA CAGGGTTCCA AGATCTCTCT TCAAGAGTCCCACAGAGGAA ATTTCCACTT GGGATGTGTG CCACCCCACC CCCACCCCCA CCCACTGCCA TTCTCTACAGCCTAGGACAC CCCCAGGAAC AAGGAATTTC ACCTCAATTG TAGAAAAGCC CAGAGCAAGT GGAAGGAAAAGGGGTATCCC CAGGAAAACA GACATGTCCT CTTAATCTTC TGAGCATCAG GGCTACCCAT TACTTTGTGA CTTTCTCACTCTGTGACCAT GCTCAAGAGC TATGGAGAAA TCTAAAACAG GAACCTGGAC AGTGGGTCCT ACACAGAGACAGAGGAGAGT GGGCCAGGGC AAGGTGGGAG TGGGAGAAGT CTGAGATGAA AACATCAGAA TGGAGCAGAGGCAAGAATGA GATTTCACCT GGGAGGTTAT GGGTGGGGAA AGATACGAAA TACAGGAGAC AGGAGAGGGAAGATGGGCGG AACACAGGGT GAGAATGAGA TTCCAGGGAA GCCTAGCTCA GCTTTAACCC AATTTGTCCATTCATTGGAG AGAGTATCTA TGGCCGTGTT CAAACCCTGG GGTGCTCTGT TCCAGGGGAG ATCATCGGGGGCACAGAATG CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCA ACGGTCCCTCAAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTGAGACAACAGGG TCTATTTATC TCCAAATGGG AGATGAACAA CCAGAGTAGC ATCCAGGAAT ACACCTGCACTGGGGACTGA AGAGGGGGTC CTGGGTCTTG TCAACTTTCA GGAGAGGGAA GACTTTGGGC TGAAAGACTTTAGTCTGTGT TTGAATAGTT CCTTGAGCCT CAGTCACTGA GCTAAGCTCC CTTCGGAGGA AAAGGAGGTCCTGTCCGAAG GTCCCTCTTG TTGCAGTAGC ACCCCTCACC CCTACCCAAC TCAAGACACA CGGCTCACTT TTCAGGGCCCCACCCAGTCT CAGGGCCACT TCCTCTATGG CCTTTTCAAG AACACTGGCT CTAGTTCTCA GGGTCCTGAA CCCATCATTTTATGGGAGCA GAGAACAGGT CTACATAAGA CCCCCACTTT CCCGTTTTAA CTGATATCTC CTGCTTCAGG GGCTGGCCCTCATGCAGGGT TCCCTGAATT AGGAAGTGTG AACCCTGTCC CCTGAGTCCT CCCTGGCCTG TTCAGTCCCC AGCAATTCCAGGGGTCGTAG AAATTGTGTC TGTTTCCTGA GAAAGCTCTT TCATGAGTTA AGCCTGAGCC CTCAAATGCCACAAGTGGCC CATGAAAAGG GAGATGGGTAGAGTCCGGCN ACCCAGTGAC AGAGTTTAGT CCTCTTTTCTCAGAATGAGC TCACCTCAGA AGAAACCCCA AGCCATCACT GTCGCCTCCT TTTCCTTCCT TCTTCCTCAC AGCAGGTCTATAACAGTCAC CCTTGGAGCC CATAACATAA CAGAGGAAGA AGACACATGG CAGAAGCTTG AGGTTATAAAGCAATTCCGT CATCCAAAAT ATAACACTTC TACTCTTCAC CACGATATCA TGTTACTAAA GGTGACAACA CCTCTCTTCTCCCTTTCCAC TTCCCATTCT CCTAAGCTTC TCCTTCAGGT CCTCATTGCC CTGAATTTTT CTTAGGACTT GGCTATAACATGAAGCTACT CACCCTGTCC CTCCCTGATC ACCTCCAACT GTCCAGAGCC CATTTCGAGG ACTGACAGTC CTTCATTCCCTTCACAGTTG AAGGAGAAAG CCAGCCTGAC CCTGGCTGTG GGGACACTCC CCTTCCCATC ACAATTCAACTTTGTCCCAC CTGGGAGAAT GTGCCGGGTG GCTGGCTGGG GAAGAACAGG TGTGTTGAAG CCGGGCTCAGACACTCTGCA AGAGGTGAAG CTGAGACTCA TGGATCCCCA GGCCTGCAGC CACTTCAGAG ACTTTGACCACAATCTTCAG CTGTGTGTGG GCAATCCCAG GAAGACAAAA TCTGCATTTA AGGTGATCCT CCAACTAGGT TTCCTCTCCAAAACTCACTG TTCAGGGACC TGAATGCTCT TAGAAGGAGA TGGGGTCAGC AGGTTGTCAG TCAGGTGACAGGGTGAGCAT CACAGGAATT GCTGTCCTCC CGTGGTCCAA GACAGCCTCT GACCATCCAT TCCAGTCTACTGCACTGGGG GCATGGGGTG ACTGTGGAGA ATGTGGATGA CGGTCCCAAG AAAGGAAGAA GGGGCATCAGAACTAGATGT ATAAGTGAGG AGCTCCACCT CCTGGGTCTG ACTTTAGGTC TCACTGTGAC TCCAAGCTGGCTGGCAGACA GGAGTGGAGG ACTTCCCGGG CTCACCTTCT TCTCTCTCTC CTCCCCCTAC AGGGAGACTC TGGGGGCCCTCTTCTGTGTG CTGGGGTGGC CCAGGGCATC GTATCCTATG GACGGTCGGA TGCAAAGCCC CCTGCTGTCT TCACCCGAATCTCCCATTAC CGGCCCTGGA TCAACCAGAT CCTGCAGGCA AATTAATCCT GGATCCTGAG CCAGCCTGAAGGGAAGCTGG AACTGGACCT TAGCAGCAAA GTGTGTGCAA CTCATTCTGG TTCTACCCTT GGTTCCCTCAGCCACAACCC TAAGCCTCCA AGAGGTCTCC TACAGGTAAC AGAACTTTCA ATAAACTTCA GTGAAGACACAGCTTCTAGT CGTGAGTGTG TGTCCCTCTC TGCTGCTCTC TTCTCCTGCA CATGTGACCT GATTCCCAGC CCAAGCACCAAGGA ATCATCGGGG GCACAGAATC CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCAACGGTCCCTC AAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTCTATAACAGTCA CCCTTGGAGC CCATAACATA ACAGAGGAAG AAGACACATG GCAGAAGCTT GAGGTTATAAAGCAATTCCG TCATCCAAAA TATAACACTT CTACTCTTCA CCACGATATC ATGTTACTAA AGTTGAAGGAGAAAGCCAGC CTGACCCTGG CTGTGGGGAC ACTCCCCTTC CCATCACAAT TCAACTTTGT CCCACCTGGGAGAATGTGCC GGGTGGCTGG CTGGGGAAGA ACAGGTGTGT TGAAGCCGGG CTCAGACACT CTGCAAGAGGTGAAGCTGAG ACTCATGGAT CCCCAGGCCT GCAGCCACTT CAGAGACTTT GACCACAATC TTCAGCTGTGTGTGGGCAAT CCCAGGAAGA CAAAATCTGC ATTTAAGGGA GACTCTGGGG GCCCTCTTCT GTGTGCTGGGGTGGCCCAGG GCATCGTATC CTATGGACGG TCGGATGCAA AGCCCCCTGC TGTCTTCACC CGAATCTCCCATTACCGGCC CTGGATCAAC CAGATCCTGC AGGCAAATTA A-3′(FRAG. NO：1887)(SEQ. ID NO：3015)

5′-ATCATCGGGG GCACAGAATC CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCAACGGTCCCTC AAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTCTATAACAGTCA CCCTTGGAGC CCATAACATA ACAGAGGAAG AAGACACATG GCAGAAGCTT GAGGTTATAAAGCAATTCCG TCATCCAAAA TATAACACTT CTACTCTTCA CCACGATATC ATGTTACTAA AGTTGAAGGAGAAAGCCAGC CTGACCCTGG CTGTGGGGAC ACTCCCCTTC CCATCACAAT TCAACTTTGT CCCACCTGGGAGAATGTGCC GGGTGGCTGG CTGGGGAAGA ACAGGTGTGT TGAAGCCGGG CTCAGACACT CTGCAAGAGGTGAAGCTGAG ACTCATGGAT CCCCAGGCCT GCAGCCACTT CAGAGACTTT GACCACAATC TTCAGCTGTGTGTGGGCAAT CCCAGGAAGA CAAAATCTGC ATTTAAGGGA GACTCTGGGG GCCCTCTTCT GTGTGCTGGGGTGGCCCAGG GCATCGTATC CTATGGACGG TCGGATGCAA AGCCCCCTGC TGTCTTCACC CGAATCTCCCATTACCGGCC CTGGATCAAC CAGATCCTGC AGGCAAATTA A-3′(FRAG. NO：)(SEQ. ID NO：2468)

5′-TCCCAGTTAA TACATAATCA ATATGCAATT TATTAATACA TCTCTCCATG TCCACTCCCC CTGTATCTTGCCATTCTTGA CCTGCATTTC CATCCTCCTT ACCTTCCCTA GAGGCCAACT CATTTTCTTT GAAAAACCTG GCATTTCCCAGAAAAAAAAG TGAAGGGCTG GGAGCTGTCC GTTGTCCTGA TTTGCTCCCT CTGCCCTTGC TTCCAAATGTGGTTGGAAAG AAGCACTATT GAAAAATCCC TAAACGCACC CCTGCAGGGT TGGCTCTACC CTGTAGCCATGGACACATGC TGTTGATACC ACCTGCCTCA TGAGTCTCAC ATAATTTGCC CTTTCACACT ATCTACCCCA TCAGCCTTACCAAAACCATA CCTGCATCCT GGGCAGCATC TGCCCTTCAA GAGACTAAGG AATCTCCTTG CAACCAAGAATGACTAGACC AATGAGACAC CCTTTAAGGC CCCAGCACAA TATAGAAATC CCACAATATG GTAATCCCAGTAAGGAGCTA TCAAGCCATT GCAGGACCAT CTAGAATACA ACTAGAGTAT AGTTCCTTTC AATCCAGGAACTATACTCTA ACAGCTTGGC TCACAGGAAC CAGAAGTGAA GATGATGAGG ATCAGGGCTG AGCCTGTGAGCACCAGCTCC ACCACTGACA CCAACCACAG ATTAAACAAG CATCTTGTGG ACCCCTGGGA TGGAAAGAATAGTTGTTGCC TTATCAACCT CCCCCACAGC CCACACAGAA AAGATAAAAT CATCATGGCT ACAGTGTTACAGAAGATGAT GACCCAAGGA GTAGGCCTGC CTGAGTGAAT GCTGAGAGTG ATAATGGGAG CAGTAGCATCTCAGAGACTA CAGCAGAAAC CATCCACATA AAGAGCTTTG CCCAAACTTA TGATAAAGGG CACCCTCAGAGACTCTCCCT ACTTTAATAT TAGCCCATTG CAGAAATGGT GAGTGGAAAG AGAAATCTTA GGAAGAACCCCTTAAAAAAG CAAAATGCTT TTTAGGTTTG TGCTGAAGAG CCTGGAAAAG AAATAAGGAC ACACACGCTGAGAAATCTTC CTCCTGCCCC AACACTGGGA TAATCTCCAA GGATCTCTCC ATATCTCATT CTCCTGGATA CACTGTCCACTCAGAAATAT TGTGCAGAGT GCAGTAATTC AAAAGTGAGC TATTGTGTTA GGAGTGAAGG CAAGAGTATCGTAAAATAAA TCAAATTTGA AATGAATTCT CTTAAATTGC TTTATAGATG TTTAATGTAA GCCAGCAGCT ATTAAACGATAAACCTTAAA TTCGAGAAAA ACTTGGTCAT TCAGAAACTA TAGAAACAGG CAGGACTTAT TGCGAGGGCAAACACAGAGT GAGCTCCAGC CTGCTTCAGG AAAATCTGCC AGTGCCATGA AGGATGTACT CTGTCTGCTCCACTGCACTA CTGCTCAGTA TGAGCCCATG CCATCAGCTG TCCCTGACCC ACAGGAGTTC TTTAGAAGAGACTGGTCAAC AAAAGTTTCT AGGGTGTTTT ATACCTGCCA ACTCGAGGGT TAAAACAAGT TGCATAGAAATGCTCAATCA AGAAAGACAC AGTCATTACT CAGAGAATAA TAAACAGCCT GGCAGCACAT GAATGAATAGAAAAAAGATG TTACATGCAA AGCATGAAAT AACCAAATTC CATAACAGAT GTTAATCTGT AATGTGTTTAGGAGAATTTA GAGGAAGTAT AAGATTTATT CTTTCATCAA AAAAATTATA GCCAATGAGG ATATATCTATCAATTATCCA TCAAGTGGTG ATATGGCAGC ACAAGGTAAA ACACAAAGGA ATAAAACCAA CGTTTATTAAGAACCAATCA TGTGGCATTT CACATTGAGC ATCATATTTA ATTCTGAAAA AAATCCTTGT ACTGTATCAT TCTTCATATTTTATGGATGC AGTAACTAAG GCTGAGAACT TTAAAATTTT TCCTAAGTTC AGACACATAG CTAAGTGGCAGAACCAAGATTCAAACTCAC CCCATCTAAC TGCAGAGCAA ACTGCATGCC TTAAATGTCA AAGTGAATACTAGCACAGTT AATACAATGT TTGGAAACTC AGAGAAGGAA TGATCCCTCT GCATTATAGT TACTAAGGAATCATTGCCAT TATTTAAATG CCAGTGCTTC TACATCAGGC CCAAATTTTC TGTCCTACTA ACTGTGAATC AAGACTTGATTCAACCTCTA CTTGAGTATC TGCCGCAATG AGAAATCACT TACCTCCACT AACCACACAT TTATTTTATA ACAACAGATTGTTAGTAAGT CCTTTCTTAT ACATACTCAA CAGCTGCTTC CCAAGATGCT GTAGGATTAT GTCTAGAGTC AAACTAGCCAGAAGCAATGT CCAAAATACA CCATAACACT GTGCAGCAAA GGTCCTACTA CCACTTGTTT GGCCCAAACATTCTAGGCAG CACTGGATAT CTGAATCATC AATTATTTCC ACAAACACTG ACCCCTCTAC CAGTCACCCT CACTAGAAGAATTAATTCCA CATGATAATA GCTCCCTCAT GTTACTCCCT TCTAAGTCAA ATTGTACACC CCTTTATCTG ATTAACAGAGTCTAAGTCAC ATGACCTAAA TGCAAGAGAA CTGGGAATGG ACGTTTGTGG ATTCTACCTT AGTAAGGCAAAGTTATCATT GGGAATTCCT CTAATACAGG AAGGGTGTTC CAGAGACATT AAGGAGCCAT ATAAATGGAAAATGTCCACT ACAATCCATC ACTTGGTTGC CCCACATCAA CATTCATTCT TTTGCCACAC TTAAAGTTTC CAAGAACAAAAATTATCCCA CTGAACATAA TCTTTACTAT CTTTTATATA AAGGAAAATT AGACTTGACT CAGCAGAACT GAAATAACCCAGCTCTAACA GTTACTGCTT TTAACTTCAA GTACTGTGTC TCTAGGTGAT ACCTGCTCCA ACAATAGTTT GGTCACATTTTCAATTTGAT ATTCTCTAGT CTCCCAACTT GATAACTGTA CCCTAAACCA TAAAGTTCAC TACCAACATG CTATATATAAAATAACCAAA GGGGGAAGAA GAAAGAGAAA AAGGAAATCT CTTAAAATAC ACAGGTATAC ATATGACAAAGCAAAGAAGG AAATGTGAGC AGATAGTGCA GTCCTCGTTT CTGAAATTGG TCCCCTGACT GGGGCTATACCTATTCCATT TCCTCACCCT CAGCCAGGCA GGTGGAGCAA AAACTTAAGT CTTGGTGGAT CTGAATCTTG ATGCTGTGGAGCTGTCTTAC TAGCCCCAGA CTACCTGCCT CTCAATTTCT AATTATATCA GTGAAAGCAA ACAGCTTTGA TTTGTTTAAGCCTCTGATTT TTTGGTCTAA CTGATGTAAG ACCACAAGGA CAAGAGTTCT CCAGCTCCGG ATTCTCTTCT GTTCTGTTAATGGTGAAATG CCCGAGAGAA GAGTTGCCAA CTTTGGCAAA TAAAAAATAC AGGATTCCAG TTAAATTCAAATTTAGATAA ACAACAATTT TTTAGTATTA GTGTGTCCCA TTCAATATTT GGACATACTT AACTAAAAAA TGATTTGTTGTTCATCTGAA ATACAAATTT AACTGGGCAT TCTGAATATT CTCTGGCAAC CCCCGAGAGA GTGAAGAAAGTGGTACAAGG ACACTTAAGA AGACCAGATT TGAAAAGACA TTACGGATGT GTTTAAATGT CTTATTCTAGAGAGAGTTAG AGCTGTAGGT AGAACTTGGG AAATTAAGTT AAAAGCAGAC ACAGAGACCT GGCCAATATATACTAAGGAG TGGATCACTC TGGTCACAAG CCCAACCTGA GACCAAGGGC ATAGTGAGAT GATTTGGGAAAGGCACTTAT ACACTACTCA TCCCCGTCTT TGAACTAAAT GCCTTATAAA TCTCCAAGAG AAATGACAGT CCACCATGTGGACTGCTTTC TGTAAGTCCA GGGAAAATAA AAGCTATGTG CTTGAAACCC ACTTCTGATA TTATAAGGTG TGTGATCTTTGTCATGTTAA TGGGTCTGAG TATCAATTCT ACAATTGTAA AGTGACAGTA ATGGTGTGTC CCCAGGTTGT TGTGGAAAGCTTGATTCTTA ATGCAACAGT AGGAAACCCC AGCCTCTCTG GAGCAAACAC CCTTCTACAT CTTTACTTCC CCTGCACATTGGCAGGACTC TATTCCTCTA TTTCTCTCTA GTGCTAGAGC AGAAAGGGAC CTTGATTTGA TATCAGGAAA ATCTATTTCTGAACCATAAG CTATGATAGC TGATTTAAAA AATTGACTAT CATGACATGA TAATGATCAT AATGGTAATACATATTGATA GGGTTGCCGT GAAAGTAATA ATATATCTAA GAGTTGTGAC AATATATGAT ACGCCTAGACTCTCAGAAAA TGCTAATTCC AATCCCAATT GCTCTTTGCA TAAAGTTCTG TCCTAGGGTC TGTTCTTTTC CCACATCTACCCTCCTTGGA TCTCTCTTCT GTCTTTTTCA TGTGGTTCAG AGGAGGAGAG AGATCCAGGT CAATGTTTTT CAAATTACAAGGAATTATCA TTTAAATGGG GAAGAAGCTC AAGTTTTGAC GTGTAGTGGA ATTGGAGTGG AGTGGAGTGGAATGGAAACT AACAGGAAGA CACTGCACAT GGTTAAGATA AAGATTGTTT CCTGAAACCT TTAATTTGTGCTTACATACT CACACATACA TATGTGCATG CACTGGGACT CTGCAATATG CATTTCTGAC TATGGAACAT AGCCATAAAAGTCTTTGCAC TGAACGTTCA GTGGGCCTTT CACAAGCTGC CCTAATTGGG AAAGAAAAAC ATGGTCCCTC CATTTCCTGCCCCCAACTCC AGAAAAGTCA CCATAGTTGA GGGTACATCT GAGAAGCCAG CACTTGGGAG TTCAGGGCTCAAGTTCCTTT CTAGAAAAAC ACTGGGTGAT TCTAGGGGAA CTTCCGATCA GAAACAGCCA ATTCAGAGTGAGAGAAGAAA ACGTGACCAT GCAGTTCCTG TGGTTACCAG CCTTGCCCCT CTCTTGCCTT CTGGGAGTTATAAAACCCAA GACTGGAAAG GAAAACCAGC ATTTGCTCAG GCAGCCTCTC TGGGAAGATG CTGCTTCTTCCTCTCCCCCT GCTGCTCTTT CTCTTGTGCT CCAGAGCTGA AGCTGGTGAG TATCAGGGTT CTTCCCTCTG AAATCTGCAGTATCAGCTCC TGAAACAAAG ATGTTTAGTC TGAAATAGCT GACTCCTAAA CAGGGTTCCA AGATCTCTCT TCAAGAGTCCCACAGAGGAA ATTTCCACTT GGGATGTGTG CCACCCCACC CCCACCCCCA CCCACTGCCA TTCTCTACAGCCTAGGACAC CCCCAGGAAC AAGGAATTTC ACCTCAATTG TAGAAAAGCC CAGAGCAAGT GGAAGGAAAAGGGGTATCCC CAGGAAAACA GACATGTCCT CTTAATCTTC TGAGCATCAG GGCTACCCAT TACTTTGTGA CTTTCTCACTCTGTGACCAT GCTCAAGAGC TATGGAGAAA TCTAAAACAG GAACCTGGAC AGTGGGTCCT ACACAGAGACAGAGGAGAGT GGGCCAGGGC AAGGTGGGAG TGGGAGAAGT CTGAGATGAA AACATCAGAA TGGAGCAGAGGCAAGAATGA GATTTCACCT GGGAGGTTAT GGGTGGGGAA AGATACGAAA TACAGGAGAC AGGAGAGGGAAGATGGGCGG AACACAGGGT GAGAATGAGA TTCCAGGGAA GCCTAGCTCA GCTTTAACCC AATTTGTCCATTCATTGGAG AGAGTATCTA TGGCCGTGTT CAAACCCTGG GGTGCTCTGT TCCAGGGGAG ATCATCGGGGGCACAGAATG CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCA ACGGTCCCTCAAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTGAGACAACAGGG TCTATTTATC TCCAAATGGG AGATGAACAA CCAGAGTAGC ATCCAGGAAT ACACCTGCACTGGGGACTGA AGAGGGGGTC CTGGGTCTTG TCAACTTTCA GGAGAGGGAA GACTTTGGGC TGAAAGACTTTAGTCTGTGT TTGAATAGTT CCTTGAGCCT CAGTCACTGA GCTAAGCTCC CTTCGGAGGA AAAGGAGGTCCTGTCCGAAG GTCCCTCTTG TTGCAGTAGC ACCCCTCACC CCTACCCAAC TCAAGACACA CGGCTCACTT TTCAGGGCCCCACCCAGTCT CAGGGCCACT TCCTCTATGG CCTTTTCAAG AACACTGGCT CTAGTTCTCA GGGTCCTGAA CCCATCATTTTATGGGAGCA GAGAACAGGT CTACATAAGA CCCCCACTTT CCCGTTTTAA CTGATATCTC CTGCTTCAGG GGCTGGCCCTCATGCAGGGT TCCCTGAATT AGGAAGTGTG AACCCTGTCC CCTGAGTCCT CCCTGGCCTG TTCAGTCCCC AGCAATTCCAGGGGTCGTAG AAATTGTGTC TGTTTCCTGA GAAAGCTCTT TCATGAGTTA AGCCTGAGCC CTCAAATGCCACAAGTGGCC CATGAAAAGG GAGATGGGTA GAGTCCGGCN ACCCAGTGAC AGAGTTTAGT CCTCTTTTCTCAGAATGAGC TCACCTCAGA AGAAACCCCA AGCCATCACT GTCGCCTCCT TTTCCTTCCT TCTTCCTCAC AGCAGGTCTATAACAGTCAC CCTTGGAGCC CATAACATAA CAGAGGAAGA AGACACATGG CAGAAGCTTG AGGTTATAAAGCAATTCCGT CATCCAAAAT ATAACACTTC TACTCTTCAC CACGATATCA TGTTACTAAA GGTGACAACA CCTCTCTTCTCCCTTTCCAC TTCCCATTCT CCTAAGCTTC TCCTTCAGGT CCTCATTGCC CTGAATTTTT CTTAGGACTT GGCTATAACATGAAGCTACT CACCCTGTCC CTCCCTGATC ACCTCCAACT GTCCAGAGCC CATTTCGAGG ACTGACAGTC CTTCATTCCCTTCACAGTTG AAGGAGAAAG CCAGCCTGAC CCTGGCTGTG GGGACACTCC CCTTCCCATC ACAATTCAACTTTGTCCCAC CTGGGAGAAT GTGCCGGGTG GCTGGCTGGG GAAGAACAGG TGTGTTGAAG CCGGGCTCAGACACTCTGCA AGAGGTGAAG CTGAGACTCA TGGATCCCCA GGCCTGCAGC CACTTCAGAG ACTTTGACCACAATCTTCAG CTGTGTGTGG GCAATCCCAG GAAGACAAAA TCTGCATTTA AGGTGATCCT CCAACTAGGT TTCCTCTCCAAAACTCACTG TTCAGGGACC TGAATGCTCT TAGAAGGAGA TGGGGTCAGC AGGTTGTCAG TCAGGTGACAGGGTGAGCAT CACAGGAATT GCTGTCCTCC CGTGGTCCAA GACAGCCTCT GACCATCCAT TCCAGTCTACTGCACTGGGG GCATGGGGTG ACTGTGGAGA ATGTGGATGA CGGTCCCAAG AAAGGAAGAA GGGGCATCAGAACTAGATGT ATAAGTGAGG AGCTCCACCT CCTGGGTCTG ACTTTAGGTC TCACTGTGAC TCCAAGCTGGCTGGCAGACA GGAGTGGAGG ACTTCCCGGG CTCACCTTCT TCTCTCTCTC CTCCCCCTAC AGGGAGACTC TGGGGGCCCTCTTCTGTGTG CTGGGGTGGC CCAGGGCATC GTATCCTATG GACGGTCGGA TGCAAAGCCC CCTGCTGTCT TCACCCGAATCTCCCATTAC CGGCCCTGGA TCAACCAGAT CCTGCAGGCA AATTAATCCT GGATCCTGAG CCAGCCTGAAGGGAAGCTGG AACTGGACCT TAGCAGCAAA GTGTGTGCAA CTCATTCTGG TTCTACCCTT GGTTCCCTCAGCCACAACCC TAAGCCTCCA AGAGGTCTCC TACAGGTAAC AGAACTTTCA ATAAACTTCA GTGAAGACACAGCTTCTAGT CGTGAGTGTG TGTCCCTCTC TGCTGCTCTC TTCTCCTGCA CATGTGACCT GATTCCCAGC CCAAGCACCAAGGA-3′ (FRAG. NO：) (SEQ. ID NO：2467)

5′-GGBGCBCBBG-3′ (FRAG. NO：1888) (SEQ. ID NO：1901)

5′-GBBGCBGC-3′ (FRAG. NO：1889) (SEQ. ID NO：1902)

5′-GGGGCBBGG CG-3′ (FRAG. NO：1890) (SEQ. ID NO：1903)

5′-CGTTTTCTTCTCTC-3′ (FRAG. NO：1369)(SEQ. ID NO：1378)

5′-GCTGGTTTTCCTTTCC-3′ (FRAG. NO：1370)(SEQ. ID NO：1379)

5′-TGGCAGTGGGTGGGGGTGGGGGTGGGGTGGC-3′ (FRAG. NO：1371)(SEQ. ID NO：1380)

5′-TTCCTTGTTCCTGGGGGTGTCCT-3′ (FRAG. NO：1372)(SEQ. ID NO：1381)

5′-CTTGCTCTGGGCTTTTCT-3′ (FRAG. NO：1373)(SEQ. ID NO：1382)

5′-CCCCTTTTCCTTCC-3′ (FRAG. NO：1374)(SEQ. ID NO：1383) [

5′-TGTCTGTTTTCCTGGGG-3′ (FRAG. NO：1375)(SEQ. ID NO：1384)

5′-CTCTCCTCTGTCTCTGTGT-3′ (FRAG. NO：1376)(SEQ. ID NO：1385)

5′-CCTTGCCCTGGCCC-3′ (FRAG. NO：1377)(SEQ. ID NO：1386)

5′-TCTTCCCTCTCCTGTCTCCTGT-3′ (FRAG. NO： 1378)(SEQ. ID NO：1387)

5′-CCCTGTGTTCCGCCC-3′ (FRAG. NO：1379)(SEQ. ID NO： 1388)

5′-GTCTTCCCTCTCCTG-3′ (FRAG. NO： 1380)(SEQ. ID NO： 1389)

5′-ACCTCCTTTTCCTCCG-3′ (FRAG. NO：I381)(SEQ. ID NO：1390)

5′-CTGGGTGGGGCCCTG-3′ (FRAG. NO：1382)(SEQ. ID NO：1391)

5′-CCTGTTCTCTGCTCCC-3′ (FRAG. NO：1383)(SEQ. ID NO：1392)

5′-TGGCTTGGGGTTTCTTCTG-3′ (FRAG. NO：1384)(SEQ. ID NO：1393)

5′-TGTGTCTTCTTCCTCTGTT-3′ (FRAG. NO：1385)(SEQ. ID NO：1394)

5′-GGCTGGCTTTCTCCTTC-3′ (FRAG. NO：1386)(SEQ. ID NO：1395)

5′-TTTTGTCTTCCTGGG-3′ (FRAG. NO：1387)(SEQ. ID NO：1396) [1397)]

5′-TGCCCCTTCTTCCTTTCTTGGG-3′ (FRAG. NO：1388)(SEQ. ID NO：1397)

5′-TCCTTGGTGCTTGGGCTGGG-3′ (FRAG. NO：1389)(SEQ. ID NO：1398)

5′-GGBGCTGBTB CTGCBGATTT CBGBGGGBBG BBCCCTGBTB CTCBCCBGCT TCBGCTCTGG BGCBCBBGBGBBBGBGCBGC BGGGGGBGBG GBBGBBGCBG CBTCTTCCCB GBGBGGCTGC CTGBGCBBBT GCTGGTTTTC CTTTCCBGTCTTGGGTTTTB TBBCTCCCBG BBGGCBBGBG BGGGGCBBGG-3′ (FRAG. NO：1891) (SEQ. ID NO：1904)

Endothelial nitric oxide synthase nucleic acids and antisense oligonucleotide fragments

5′-GCGTCTTGGG GTGCBGGGCC CBTCCTGCTG CGCCTGGGCG CTGCTGTGCG TCCGTCTGCT GGGGGGCCGGGGTGGCTGGG CCCTGCTTGC CGCACGACCC CGGGCCGACC CGAGGCTCGG GGGGCTGTGT TCTGGCGCTGGTGGGCTTGG GCCCCTCTGG GGGCTGGGTT TCCTGCTGCG CCTGGGCGCT GGCGTCTTGG GGTGCGGGGCCGGGGGGCCG GGGGGCCGCT GTTCGTGGGC CTGGGGGTGC CTGTGGCTGC CGGTTGCCCC GGTTGGTGGCGCCGTCCTGC TGCCGGTCGT TGGCTGGGTC CCCCCGCCCG TTTCCTGGGG TCCGCGTGGG GTGCTCCGGT TCCTCGTGCCGCTGCTGCCT TGTCTTTCCG GCCGTGGCGG CGTGGTGGTC CGCCCCCCCT GGCCTTCTGC TCGGGGTCTG GCTGGTTGCCGGTGCCCTTG GCGGCGGTCT TCTTCCTGGT GGCTCTGGGC CCGGCCGGTC TCGGGCGTCT CGTGTTCGCT CTTGTGCTGTTCCGGCCGCT CCTTCCTCTT CCGCCGCCGC CGCTCCCCGC CCGCTCGTCG CCCTGGCCCG GCCTCCTCCT GGCCGCTGTCTCGGGCGGCG GCCTTGGCGC TCCGTTTGGG GCTGCCTCTG GCGCTTCCGG CCCTCGGCCT GGGCGCTCTC TTCCGCCTGTGCTGGTGGCC CTCGTGGGCC CCTCCTGGCC TCCGGTGTCC TGTGGTCCCC CGGCTGGTGG CCGGGCCGGTTGGGCGGGCG TGGGCGCCGG CGGGTCCTCC GGGCTGCCCT TCTCCGCCGG GGGTCCCGCG CTCCTGCTGTTCCCTGGGCT CTTCTGCCTC TCTCCTGGGT GGGTGCTGGG TGCCGGGGTC TCCGGGCTTG CCCCGCGCTG CTGGGCGTTCTGCGGTCTTG GGGTTGTCTG TGGCCCCGCT CGTGTCGCCC TCCGTCGCCC GTCGCCGGCC TCGTCCCCTC CTGGGTGCGCGGCGGGCTGG TCCTGGCGTT TTGCTCCTTC CTGGGCGTCT TGGGGTGCBG GGCCCBTCCT GCTGCGCCTG GGCGCTGCTGTGCGTCCGTC TGCTGGGGGG CCGGGGTGGC TGGGCCCTGC TTGCCGCACG ACCCCGGGCC GACCCGAGGCTCGGGGGGCT GTGTTCTGGC GCTGGTGGGC TTGGGCCCCT CTGGGGGCTG GGTTTCCTGC TGCGCCTGGG CGCTGGCGTCTTGGGGTGCG GGGCCGGGGG GCCGGGGGGC CGCTGTTCGT GGGCCTGGGG GTGCCTGTGG CTGCCGGTTGCCCCGGTTGG TGGCGCCGTC CTGCTGCCGG TCGTTGGCTG GGTCCCCCCG CCCGTTTCCT GGGGTCCGCG TGGGGTGCTCCGGTTCCTCG TGCCGCTGCT GCCTTGTCTT TCCGGCCGTG GCGGCGTGGT GGTCCGCCCC CCCTGGCCTT CTGCTCGGGGTCTGGCTGGT TGCCGGTGCC CTTGGCGGCG GTCTTCTTCC TGGTGGCTCT GGGCCCGGCC GGTCTCGGGC GTCTCGTGTTCGCTCTTGTG CTGTTCCGGC CGCTCCTTCC TCTTCCGCCG CCGCCGCTCC CCGCCCGCTC GTCGCCCTGG CCCGGCCTCCTCCTGGCCGC TGTCTCGGGC GGCGGCCTTG GCGCTCCGTT TGGGGCTGCC TCTGGCGCTT CCGGCCCTCG GCCTGGGCGCTCTCTTCCGC CTGTGCTGGT GGCCCTCGTG GGCCCCTCCT GGCCTCCGGT GTCCTGTGGT CCCCCGGCTG GTGGCCGGGCCGGTTGGGCG GGCGTGGGCG CCGGCGGGTC CTCCGGGCTG CCCTTCTCCG CCGGGGGTCC CGCGCTCCTGCTGTTCCCTG GGCTCTTCTG CCTCTCTCCT GGGTGGGTGC TGGGTGCCGG GGTCTCCGGG CTTGCCCCGC GCTGCTGGGCGTTCTGCGGT CTTGGGGTTG TCTGTGGCCC CGCTCGTGTC GCCCTCCGTC GCCCGTCGCC GGCCTCGTCC CCTCCTGGGTGCGCGGCGGG CTGGTCCTGG CGTTTTGCTC CTTCCTGG-3′ (FRAG. NO：1892) (SEQ. ID NO：1905)

5′-GCGGGGCCG-3′ (FRAG. NO：1893) (SEQ. ID NO：1906)

5′-CGGGGGGC-3′ (FRAG. NO：1894) (SEQ. ID NO：1907)

5′-GCGCGGCGGGC-3′ (FRAG. NO：1895) (SEQ. ID NO：1908)

5′-CTGTGCGTCCGTCTGCTGG (FRAG. NO：1390)(SEQ. ID NO：1399)

GGGGCCGGGGTGGCTGGGCCCTGCTTGCCGC (FRAG. NO：1391)(SEQ. ID NO：1400)

ACGACCCCGGGCCGACCCGAG (FRAG. NO：1392)(SEQ. ID NO：1401)

GCTCGGGGGGCTGTGTTCTGGCGCTGGTGGG (FRAG. NO：1393)(SEQ. ID NO：1402)

CTTGGGCCCCTCTGGGGGCTGGGTT (FRAG. NO：1394)(SEQ. ID NO：1403)

TCCTGCTGCGCCTGGGCGCTG (FRAG. NO：1395)(SEQ. ID NO：1404)

GCGTCTTGGGGTGC (FRAG. NO：1396)(SEQ. ID NO：1405)

GGGGCCGGGGGGCCGGGGG (FRAG. NO：1397)(SEQ. ID NO：1406)

GCCGCTGTTCGTGGGCCTGGG (FRAG. NO：1398)(SEQ. ID NO：1407)

GGTGCCTGTGGCTGCC (FRAG. NO：1399)(SEQ. ID NO：1408)

GGTTGCCCCGGTTGGTGGC (FKAG. NO：1400)(SEQ. ID NO：1409)

GCCGTCCTGCTGCCGGT (FRAG. NO：1401)(SEQ. ID NO：1410)

CGTTGGCTGGGTCCCCCCGC (FRAG. NO：1402)(SEQ. ID NO：1411)

CCGTTTCCTGGGGTCC (FRAG. NO：1403)(SEQ. ID NO：1412)

GCGTGGGGTGCTCC (FRAG. NO：1404)(SEQ. ID NO：1413)

GGTTCCTCGTGCCG (FRAG. NO：1405)(SEQ. ID NO：1414)

CTGCTGCCTTGTCTTTCC (FRAG. NO：1406)(SEQ. ID NO：1415)

GGCCGTGGCGGCGTGGTGGTCC (FRAG. NO：1407)(SEQ. ID NO：1416)

GCCCCCCCTGGCCTTCTGCTC (FRAG. NO：1408)(SEQ. ID NO：1417)

GGGGTCTGGCTGGT (FRAG. NO：1409)(SEQ. ID NO：1418)

TGCCGGTGCCCTTGGCGGC (FRAG. NO：1410)(SEQ. ID NO：1419)

GGTCTTCTTCCTGGTG (FRAG. NO：1411)(SEQ. ID NO：1420)

GCTCTGGGCCCGGCCGGTCTCGG (FRAG. NO：1412)(SEQ. ID NO：1421)

GCGTCTCGTGTTCG (FRAG. NO： 1413)(SEQ. ID NO：1422)

CTCTTGTGCTGTTCCGGCCG (FRAG. NO： 1414)(SEQ. ID NO：1423)

CTCCTTCCTCTTCCGCCGCC (FRAG. NO：1415)(SEQ. ID NO：1424)

GCCGCTCCCCGCCC (FRAG. NO：1416)(SEQ. ID NO：1425)

GCTCGTCGCCCTGGCCC (FRAG. NO：1417)(SEQ. ID NO：1426)

GGCCTCCTCCTGGCCGC (FRAG. NO：1418)(SEQ. ID NO：1427)

TGTCTCGGGCGGCGGCCTTGGC (FRAG. NO：1419)(SEQ. ID NO：1428)

GCTCCGTTTGGGGCTG (FRAG. NO：1420)(SEQ. ID NO：1429)

CCTCTGGCGCTTCC (FRAG. NO：1421)(SEQ. ID NO：1430)

GGCCCTCGGCCTGGGCGCTC (FRAG. NO：1422)(SEQ. ID NO：1431)

TCTTCCGCCTGTGC (FRAG. NO： 1423)(SEQ. ID NO：1432)

TGGTGGCCCTCGTGG (FRAG. NO：1424)(SEQ. ID NO：1433)

GCCCCTCCTGGCCTCCGGTGTCC (FRAG. NO：1425)(SEQ. ID NO：1434)

TGTGGTCCCCCGGCTGGT (FRAG. NO：1426)(SEQ. ID NO：1435)

GGCCGGGCCGGTTGGGCGGGC (FRAG. NO：1427)(SEQ. ID NO：1436)

GTGGGCGCCGGCGGGTCCTCC (FRAG. NO：1428)(SEQ. ID NO：1437)

GGGCTGCCCTTCTCC (FRAG. NO：1429)(SEQ. ID NO：1438)

GCCGGGGGTCCCGC (FRAG. NO：1430)(SEQ. ID NO：1439)

GCTCCTGCTGTTCCCTGGGCTCTTCTGCC (FRAG. NO：1431)(SEQ. ID NO：1440)

TCTCTCCTGGGTGGGTGCTGGGTGCCG (FRAG. NO：1432)(SEQ. ID NO：1441)

GGGTCTCCGGGCTTG (FRAG. NO：1433)(SEQ. ID NO：1442)

CCCCGCGCTGCTGGGCGTTCTGC (FRAG. NO：1434)(SEQ. ID NO：1443)

GGTCTTGGGGTTGTC (FRAG. NO：1435)(SEQ. ID NO：1444)

TGTGGCCCCGCTCG (FRAG. NO：1436)(SEQ. ID NO：1445)

TGTCGCCCTCCGTCGCC (FRAG. NO：1437)(SEQ. ID NO：1446)

CGTCGCCGGCCTCGTCC (FRAG. NO：1438)(SEQ. ID NO：1447)

CCTCCTGGGTGCGC (FRAG. NO：1439)(SEQ. ID NO：1448)

GGCGGGCTGGTCCT (FRAG. NO：1440)(SEQ. ID NO：1449)

GGCGTTTTGCTCCTTCCTGG (FRAG. NO：1441)(SEQ. ID NO：1450)

5′-GCGTCTTGGGGTGCBGGGCCCBTCCTGCTGCGCCTGGGCGCTG-3′(FRAG. NO：1896) (SEQ. ID NO：1909)

Inducible nitroxide synthase nucleic acids and antisense oligonucleotide fragments

5′-CTGCCCCBGT TTTTGBTCCT CBCBTGCCGT GGGGBGGBCB BTGGCTGCCT CCCCGGGGTT TCTGCTGCTTGCTGCTTCTT TCCCGTCTCC CTTCTTTCCC GTCTCCTTTT TGCCTCTTTG GGTTCCTGTT GTTTCTGGCC TGCTTGGTGGCGGCTTGTGC GTTTCCTCTC TCTTCTCTTG GGTCTCCGCT TCTCGTCCTG CCTTTTCCTG TCTCTGTCGC GCCGTTCCTCCTCCGGCGTC CTCCTGCCCT GTGCTGTTTG CCTCGGGTGG TGCGGGTCCC GGTGCTCCCC CGGCGGGCCG GCTGGTTGCCTGGGCCTGTC TGGTGGGGTG TGGGGCCGCT GGGTTGGGGG TGTGGTGGGC TCTTCTGTGG CCTGTGGGGC TGTTGGTGTCTCTGTGGGCGTGTGCTGGGT CTTGGGGCTT CCTCCCTTGT GCTGGGTGCG GCCTCCCCGC CCCCCTTCTG GGCCGGTGGCCTGGCTCCTT GTGGGCGCTT CTGGCTCTTG CCCTGTCCTT CTTCGCCTCG TGGCTGCTGG GCTGC CATATGTATGGGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAAC CCTTGTAATC CTAGCACTTTGAGAGGCTGA AGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCCAGTCTCTACC AAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGGAGGCTGAGGT GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCGCTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA TAAATGAAATGAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT TATAAGGGAA GGAATTTAAT CCTACCTGCCATTCCACCAA AGCTTACCTA GTGCTAAAGG ATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTGTGCCAATAGC CTTCCTTCCT TTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATCTAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTT CCTGGACTCCTGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAG GAAAAAATCTCCCAGATGCT GAAAGTGAGG CCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAGCAGCCACCCT GCTGATGAAC TGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCACCACACAGAGT GATGTAACAG CAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTAACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGA CCTTTATGCAAAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACT TCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGAAAACTGAGGC TCCGGCCGCA GAGAACTCAG CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGAGGGGACTGGG CAGTTCTAGA CAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTTACCCCGGGGA GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C CATATGTATG GGAATACTGT ATTTCAGGCATTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAAC CCTTGTAATC CTAGCACTTT GAGAGGCTGAAGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCC AGTCTCTACCAAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGG AGGCTGAGGTGGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCG CTCCAGTCTTGGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA TAAATGAAAT GAAATTATAAGAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT TATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAAAGCTTACCTA GTGCTAAAGG ATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCTTTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATC TAATATCACT GGCCTTCTGGAACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTGAGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGGCCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAAC TGCCACCTTGGACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT GATGTAACAG CAAGATCAGGTCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTA ACTGTACACA AGCTGGGGAC ACTCCCTTTGGAAACCAAAA AAAAAAAAAA AAAAAAGAGA CCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAGTATAAATACT TCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCAGAGAACTCAG CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGACAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGA GGCAGTGCAGCCAGCTGCAA GGTGAGTTGC C-3′ (FRAG. NO：_)(SEQ. ID NO：3016)

5′-CTGCTTTAAA ATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTA GACAGTCCCG AAGTTCTCAAGGCACAGGTC TCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGC AGCCAGCTGC AAGCCCCACAGTGAAGAACA TCTGAGCTCA AATCCAGATA AGTGACATAA GTGACCTGCT TTGTAAAGCC ATAGAGATGGCCTGTCCTTG GAAATTTCTG TTCAAGACCA AATTCCACCA GTATGCAATG AATGGGGAAA AAGACATCAACAACAATGTG GAGAAAGCCC CCTGTGCCAC CTCCAGTCCA GTGACACAGG ATGACCTTCA GTATCACAACCTCAGCAAGC AGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAA GAAGTCTCCA GAATCTCTGGTCAAGCTGGA TGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAA AACTGGGGCA GCGGGATGACTTTCCAAGAC ACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGT CCAAATCTTG CCTGGGGTCC ATTATGACTCCCAAAAGTTT GACCAGAGGA CCCAGGGACA AGCCTACCCC TCCAGATGAG CTTCTACCTC AAGCTATCGAATTTGTCAAC CAATATTACG GCTCCTTCAA AGAGGCAAAA ATAGAGGAAC ATCTGGCCAG GGTGGAAGCGGTAACAAAGG AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTC GCCACCAAGCAGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCA GTGGTCCAAC CTGCAGGTCT TCGATGCCCGCAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGC AGACACGTGC GTTACTCCAC CAACAATGGCAACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTG ATGGCAAGCA CGACTTCCGG GTGTGGAATGCTCAGCTCAT CCGCTATGCT GGCTACCAGA TGCCAGATGG CAGCATCAGA GGGGACCCTG CCAACGTGGAATTCACTCAG CTGTGCATCG ACCTGGGCTG GAAGCCCAAG TACGGCCGCT TCGATGTGGT CCCCCTGGTCCTGCAGGCCA ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCT TGTGCTTGAG GTGGCCATGGAACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCC CTGCCTGCAG TGGCCAACATGCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCT GGTACATGGG CACAGAGATCGGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC TGGAGGAAGT GGGCAGGAGA ATGGGCCTGGAAACGCACAA GCTGGCCTCG CTCTGGAAAG ACCAGGCTGT CGTTGAGATC AACATTGCTG TGATCCATAGTTTTCAGAAG CAGAATGTGA CCATCATGGA CCACCACTCG GCTGCAGAAT CCTTCATGAA GTACATGCAGAATGAATACC GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGT CCCTCCCATG TCTGGGAGCATCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATC AGGTAGAGGC CTGGAAAACCCATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG AGATTCCATT GAAAGTCTTG GTCAAAGCTGTGCTCTTTGC CTGTATGCTG ATGCGCAAGA CAATGGCGTC CCGAGTCAGA GTCACCATCC TCTTTGCGACAGAGACAGGA AAATCAGAGG CGCTGGCCTG GGACCTGGGG GCCTTATTCA GCTGTGCCTT CAACCCCAAGGTTGTCTGCA TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCT GCTGTTGGTG GTGACCAGTACGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCG CTCTTCATGC TGAAAGAGCTCAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACC CTCGGTTCTG CGCCTTTGCT CATGACATTGATCAGAAGCT GTCCCACCTG GGGGCCTCTC AGCTCACCCC GATGGGAGAA GGGGATGAGC TCAGTGGGCAGGAGGACGCC TTCCGCAGCT GGGCCGTGCA AACCTTCAAG GCAGCCTGTG AGACGTTTGA TGTCCGAGGCAAACAGCACA TTCAGATCCC CAAGCTCTAC ACCTCCAATG TGACCTGGGA CCCGCACCAC TACAGGCTCGTGCAGGACTC ACAGCCTTTG GACCTCAGCA AAGCCCTCAG CAGCATGCAT GCCAAGAACG TGTTCACCATGAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCC AGCCGTGCCA CCATCCTGGT GGAACTCTCCTGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGC ACCTTGGGGT TTGCCCAGGC AACCAGCCGGCCCTGGTCCA AGGCATCCTG GAGCGAGTGG TGGATGGCCC CACACCCCAC CAGACAGTGC GCCTGGAGGACCTGGATGAG AGTGGCAGCT ACTGGGTCAG TGACAAGAGG CTGCCCCCCT GCTCACTCAG CCAGGCCCTCACCTACTCCC CGGACATCAC CACACCCCCA ACCCAGCTGC TGCTCCAAAA GCTGGCCCAG GTGGCCACAGAAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCC CTCAGAGTAC AGCAAGTGGA AGTTCACCAACAGCCCCACA TTCCTGGAGG TGCTAGAGGA GTTCCCGTCC CTGCGGGTGT CTGCTGGCTT CCTGCTTTCC CAGCTCCCCATTCTGAAGCC CAGGTTCTAC TCCATCAGCT CCTCCCGGGA TCACACGCCC ACGGAGATCC ACCTGACTGTGGCCGTGGTC ACCTACCACA CCGGAGATGG CCAGGGTCCC CTGCACCACG GTGTCTGCAG CACATGGCTCAACAGCCTGA AGCCCCAAGA CCCAGTGCCC TGCTTTGTGC GGAATGCCAG CGCCTTCCAC CTCCCCGAGGATCCCTCCCA TCCTTGCATC CTCATCGGGC CTGGCACAGG CATCGTGCCC TTCCGCAGTT TCTGGCAGCA ACGGCTCCATGACTCCCAGC ACAAGGGAGT GCGGGGAGGC CGCATGACCT TGGTGTTTGG GTGCCGCCGC CCAGATGAGGACCACATCTA CCAGGAGGAG ATGCTGGAGA TGGCCCAGAA GGGGGTGCTG CATGCGGTGC ACACAGCCTATTCCCGCCTG CCTGGCAAGC CCAAGGTCTA TGTTCAGGAC ATCCTGCGGC AGCAGCTGGC CAGCGAGGTGCTCCGTGTGC TCCACAAGGA GCCAGGCCAC CTCTATGTTT GCGGGGATGT GCGCATGGCC CGGGACGTGGCCCACACCCT GAAGCAGCTG GTGGCTGCCA AGCTGAAATT GAATGAGGAG CAGGTCGAGG ACTATTTCTTTCAGCTCAAG AGCCAGAAGC GCTATCACGA AGATATCTTC GGTGCTGTAT TTCCTTACGA GGCGAAGAAGGACAGGGTGG CGGTGCAGCC CAGCAGCCTG GAGATGTCAG CGCTCTGAGG GCCTACAGGA GGGGTTAAAGCTGCCGGCAC AGAACTTAAG GATGGAGCCA GCTCTGCATT ATCTGAGGTC ACAGGGCCTG GGGAGATGGAGGAAAGTGAT ATCCCCCAGC CTCAAGTCTT ATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGAC CTCCTAACAAGTAGCACCCT GGATTGATCG GAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGG AGACAAAATCTTAAATGCCA GGCCTGGCGA GTGGGTGAAA GATGGAACTTGCTGCTGAGT GCACCACTTC AAGTGACCACCAGGAGGTGC TATCGCACCA CTGTGTATTT AACTGCCTTG TGTACAGTTA TTTATGCCTC TGTATTTAAA AAACTAACACCCAGTCTGTT CCCCATGGCC ACTTGGGTCT TCCCTGTATG ATTCCTTGAT GGAGATATTT ACATGAATTG CATTTTACTTTAATC GAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGG GCAACTTGAA GAGCGTGGCCCAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCT GTGCGGCAAG CAGGGCCCAGCCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT ACTCCCACCA GCGCCAGAAC ACAGCCCCCCGAGCTCCCCG CTAACCCAGC CCCCAGAGGG GCCCAAGTTC CCTCGTGTGA AGAACTGGGA GGTGGGGAGCATCACCTATG ACACCCTCAG CGCCCAGGCG CAGCAGGATG GGCCCTGCAC CCCAAGACGC TGCCTGGGCTCCCTGGTATT TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCG GCCCCTGAGC AGCTGCTGAGTCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCG GCTCCCAGGC CCACGAACAGCGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCT TAGGGAGAGC GAGCTGGTGTTCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT GGGCCGGATC CAGTGGGGGA AGCTGCAGGTGTTCGATGCC CGGGACTGCA GGTCTGCACA GGAAATGTTC ACCTACATCT GCAACCACAT CAAGTATGCCACCAACCGGG GCAACCTTCG CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGA GGAGACTTCCGAATCTGGAA CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGAC GGCTCTGTGC GGGGGGACCCAGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAG GAAACGGTCG CTTCGACGTGCTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCT GCCCCCCGAG CTGGTCCTTG AGGTGCCCCTGGAGCACCCC ACGCTGGAGT GGTTTGCAGC CCTGGGCCTG CGCTGGTACG CCCTCCCGGC AGTGTCCAACATGCTGCTGG AAATTGGGGG CCTGGAGTTC CCCGCAGCCC CCTTCAGTGG CTGGTACATG AGCACTGAGATCGGCACGAG GAACCTGTGT GACCCTCACC GCTACAACAT CCTGGAGGAT GTGGCTGTCT GCATGGACCTGGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCA GCAGTGGAAA TCAACGTGGC CGTGCTGCACAGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACG CCGCCACGGC CTCTTTCATG AAGCACCTGGAGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTG GGCCTGGATC GTGCCCCCCA TCTCGGGCAGCCTCACTCCT GTTTTCCATC AGGAGATGGT CAACTATTTC CTGTCCCCGG CCTTCCGCTA CCAGCCAGAC CCCTGGAAGGGGAGTGCCGCCAAGGGCACC GGCATCACCA GGAAGAAGAC CTTTAAAGAA GTGGCCAACG CCGTGAAGATCTCCGCCTCG CTCATGGGCA CGGTGATGGC GAAGCGAGTG AAGGCGACAA TCCTGTATGG CTCCGAGACCGGCCGGGCCC AGAGCTACGC ACAGCAGCTG GGGAGACTCT TCCGGAAGGC TTTTGATCCC CGGGTCCTGTGTATGGATGA GTATGACGTG GTGTCCCTCG AACACGAGAC GCTGGTGCTG GTGGTAACCA GCACATTTGGGAATGGGGAT CCCCCGGAGA ATGGAGAGAG CTTTGCAGCT GCCCTGATGG AGATGTCCGG CCCCTACAACAGCTCCCCTC GGCCGGAACA GCACAAGAGT TATAAGATCC GCTTCAACAG CATCTCCTGC TCAGACCCACTGGTGTCCTC TTGGCGGCGG AAGAGGAAGG AGTCCAGTAA CACAGACAGT GCAGGGGCCC TGGGCACCCTCAGGTTCTGT GTGTTCGGGC TCGGCTCCCG GGCATACCCC CACTTCTGCG CCTTTGCTCG TGCCGTGGAC ACACGGCTGGAGGAACTGGG CGGGGAGCGG CTGCTGCAGC TGGGCCAGGG CGACGAGCTG TGCGGCCAGG AGGAGGCCTTCCGAGGCTGG GCCCAGGCTG CCTTCCAGGC CGCCTGTGAG ACCTTCTGTG TGGGAGAGGA TGCCAAGGCCGCCGCCCGAG ACATCTTCAG CCCCAAACGG AGCTGGAAGC GCCAGAGGTA CCGGCTGAGC GCCCAGGCCGAGGGCCTGCA GTTGCTGCCA GGTCTGATCC ACGTGCACAG GCGGAAGATG TTCCAGGCTA CAATCCGCTCAGTGGAAAAC CTGCAAAGCA GCAAGTCCAC GAGGGCCACC ATCCTGGTGC GCCTGGACAC CGGAGGCCAGGAGGGGCTGC AGTACCAGCC GGGGGACCAC ATAGGTGTCT GCCCGCCCAA CCGGCCCGGC CTTGTGGAGGCGCTGCTGAG CCGCGTGGAG GACCCGCCGG CGCCCACTGA GCCCGTGGCA GTAGAGCAGC TGGAGAAGGGCAGCCCTGGT GGCCCTCCCC CCGGCTGGGT GCGGGACCCC CGGCTGCCCC CGTGCACGCT GCGCCAGGCTCTCACCTTCT TCCTGGACAT CACCTCCCCA CCCAGCCCTC AGCTCTTGCG GCTGCTCAGC ACCTTGGCAG AAGAGCCCAGGGAACAGCAG GAGCTGGAGG CCCTCAGCCA GGATCCCCGA CGCTACGAGG AGTGGAAGTG GTTCCGCTGCCCCACGCTGC TGGAGGTGCT GGAGCAGTTC CCGTCGGTGG CGCTGCCTGC CCCACTGCTC CTCACCCAGC TGCCTCTGCTCCAGCCCCGG TACTACTCAG TCAGCTCGGC ACCCAGCACC CACCCAGGAG AGATCCACCT CACTGTAGCTGTGCTGGCAT ACAGGACTCA GGATGGGCTG GGCCCCCTGC ACTATGGAGT CTGCTCCACG TGGCTAAGCCAGCTCAAGCC CGGAGACCCT GTGCCCTGCT TCATCCGGGG GGCTCCCTCC TTCCGGCTGC CACCCGATCCCAGCTTGCCC TGCATCCTGG TGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTG GCAGGAGCGGCTGCATGACA TTGAGAGCAA AGGGCTGCAG CCCACTCCCA TGACTTTGGT GTTCGGCTGC CGATGCTCCCAACTTGACCA TCTCTACCGC GACGAGGTGC AGAACGCCCA GCAGCGCGGG GTGTTTGGCC GAGTCCTCACCGCCTTCTCC CGGGAACCTG ACAACCCCAA GACCTACGTG CAGGACATCC TGAGGACGGA GCTGGCTGCGGAGGTGCACC GCGTGCTGTG CCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACC ATGGCAACCAACGTCCTGCA GACCGTGCAG CGCATCCTGG CGACGGAGGG CGACATGGAG CTGGACGAGG CCGGCGACGTCATCGGCGTG CTGCGGGATC AGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCG CACCCAGGAGGTGACAAGCC GCATACGCAC CCAGAGCTTT TCCTTGCAGG AGCGTCAGTT GCGGGGCGCA GTGCCCTGGGCGTTCGACCC TCCCGGCTCA GACACCAACA GCCCCTGAGA GCCGCCTGGC TTTCCCTTCC AGTTCCGGGAGAGCGGCTGC CCGACTCAGG TCCGCCCGAC CAGGATCAGC CCCGCTCCTC CCCTCTTGAG GTGGTGCCTTCTCACATCTG TCCAGAGGCT GCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCC CTCTCTAGGCCTGTTGCCTC GGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCC AGGGCCTACTGCCACCCGCT TCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT CTCAGGAGTA TCTTACCTGT AAAGTCTAATCTCTAAATCA AGTATTTATT ATTGAAGATT TACCATAAGG GACTGTGCCA GATGTTAGGA GAACTACTAA AGTGCCTACCCCAGCTC-3′ (FRAG. NO：1897)(SEQ. ID NO：3017)

5′-CATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAACCCTTGTAATC CTAGCACTTT GAGAGGCTGA AGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCATGGACAACAT GGTGAAACCC AGTCTCTACC AAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCCTGTAGTCCCA GCTACTCAGG AGGCTGAGGT GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGAGCAGAGATCG TGCCACTCCG CTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAAATAAATAAAA TAAATGAAAT GAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCATTATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGG ATGAGGTGTTAGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCT TTCCCTTCCA AAAACCTCAA GTGACTAGTTCAGAGGCCTG TCTGGAATAA TGGCATCATC TAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATACTGTCAATATT CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAACCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT TGGCCAAATAAAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAAC TGCCACCTTG GACTTGGGACCAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT GATGTAACAG CAAGATCAGG TCACCCACAGGCCCTGGCAG TCACAGTCAT AAATTAGCTA ACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAAAAAAAAAAAA AAAAAAGAGA CCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACTTCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCA GAGAACTCAG CCTCATTCCTGCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGA CAGTCCCGAA GTTCTCAAGGCACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGA GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C-3′(FRAG.NO：_)(SEQ. ID NO：2506)

5′-CTGCTTTAAA ATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTA GACAGTCCCG AAGTTCTCAAGGCACAGGTC TCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGC AGCCAGCTGC AAGCCCCACAGTGAAGAACA TCTGAGCTCA AATCCAGATA AGTGACATAA GTGACCTGCT TTGTAAAGCC ATAGAGATGGCCTGTCCTTG GAAATTTCTG TTCAAGACCA AATTCCACCA GTATGCAATG AATGGGGAAA AAGACATCAACAACAATGTG GAGAAAGCCC CCTGTGCCAC CTCCAGTCCA GTGACACAGG ATGACCTTCA GTATCACAACCTCAGCAAGC AGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAA GAAGTCTCCA GAATCTCTGGTCAAGCTGGA TGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAA AACTGGGGCA GCGGGATGACTTTCCAAGAC ACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGT CCAAATCTTG CCTGGGGTCC ATTATGACTCCCAAAAGTTT GACCAGAGGA CCCAGGGACA AGCCTACCCC TCCAGATGAG CTTCTACCTC AAGCTATCGAATTTGTCAAC CAATATTACG GCTCCTTCAA AGAGGCAAAA ATAGAGGAAC ATCTGGCCAG GGTGGAAGCGGTAACAAAGG AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTC GCCACCAAGCAGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCA GTGGTCCAAC CTGCAGGTCT TCGATGCCCGCAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGC AGACACGTGC GTTACTCCAC CAACAATGGCAACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTG ATGGCAAGCA CGACTTCCGG GTGTGGAATGCTCAGCTCAT CCGCTATGCT GGCTACCAGA TGCCAGATGG CAGCATCAGAGGGGACCCTG CCAACGTGGAATTCACTCAG CTGTGCATCG ACCTGGGCTG GAAGCCCAAG TACGGCCGCT TCGATGTGGT CCCCCTGGTCCTGCAGGCCA ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCT TGTGCTTGAG GTGGCCATGGAACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCC CTGCCTGCAG TGGCCAACATGCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCT GGTACATGGG CACAGAGATCGGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC TGGAGGAAGT GGGCAGGAGA ATGGGCCTGGAAACGCACAA GCTGGCCTCG CTCTGGAAAG ACCAGGCTGT CGTTGAGATC AACATTGCTG TGATCCATAGTTTTCAGAAG CAGAATGTGA CCATCATGGA CCACCACTCG GCTGCAGAAT CCTTCATGAA GTACATGCAGAATGAATACC GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGT CCCTCCCATG TCTGGGAGCATCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATC AGGTAGAGGC CTGGAAAACCCATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG AGATTCCATT GAAAGTCTTG GTCAAAGCTGTGCTCTTTGC CTGTATGCTG ATGCGCAAGA CAATGGCGTC CCGAGTCAGA GTCACCATCC TCTTTGCGACAGAGACAGGA AAATCAGAGG CGCTGGCCTG GGACCTGGGG GCCTTATTCA GCTGTGCCTT CAACCCCAAGGTTGTCTGCA TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCT GCTGTTGGTG GTGACCAGTACGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCG CTCTTCATGC TGAAAGAGCTCAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACC CTCGGTTCTG CGCCTTTGCT CATGACATTGATCAGAAGCT GTCCCACCTG GGGGCCTCTC AGCTCACCCC GATGGGAGAA GGGGATGAGC TCAGTGGGCAGGAGGACGCC TTCCGCAGCT GGGCCGTGCA AACCTTCAAG GCAGCCTGTG AGACGTTTGA TGTCCGAGGCAAACAGCACA TTCAGATCCC CAAGCTCTAC ACCTCCAATG TGACCTGGGA CCCGCACCAC TACAGGCTCGTGCAGGACTC ACAGCCTTTG GACCTCAGCA AAGCCCTCAG CAGCATGCAT GCCAAGAACG TGTTCACCATGAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCC AGCCGTGCCA CCATCCTGGT GGAACTCTCCTGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGC ACCTTGGGGT TTGCCCAGGC AACCAGCCGGCCCTGGTCCA AGGCATCCTG GAGCGAGTGG TGGATGGCCC CACACCCCAC CAGACAGTGC GCCTGGAGGACCTGGATGAG AGTGGCAGCT ACTGGGTCAG TGACAAGAGG CTGCCCCCCT GCTCACTCAG CCAGGCCCTCACCTACTCCC CGGACATCAC CACACCCCCA ACCCAGCTGC TGCTCCAAAA GCTGGCCCAG GTGGCCACAGAAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCC CTCAGAGTAC AGCAAGTGGA AGTTCACCAACAGCCCCACA TTCCTGGAGG TGCTAGAGGA GTTCCCGTCC CTGCGGGTGT CTGCTGGCTT CCTGCTTTCC CAGCTCCCCATTCTGAAGCC CAGGTTCTAC TCCATCAGCT CCTCCCGGGA TCACACGCCC ACGGAGATCC ACCTGACTGTGGCCGTGGTC ACCTACCACA CCGGAGATGG CCAGGGTCCC CTGCACCACG GTGTCTGCAG CACATGGCTCAACAGCCTGA AGCCCCAAGA CCCAGTGCCC TGCTTTGTGC GGAATGCCAG CGCCTTCCAC CTCCCCGAGGATCCCTCCCA TCCTTGCATC CTCATCGGGC CTGGCACAGG CATCGTGCCC TTCCGCAGTT TCTGGCAGCA ACGGCTCCATGACTCCCAGC ACAAGGGAGT GCGGGGAGGC CGCATGACCT TGGTGTTTGG GTGCCGCCGC CCAGATGAGGACCACATCTA CCAGGAGGAG ATGCTGGAGA TGGCCCAGAA GGGGGTGCTG CATGCGGTGC ACACAGCCTATTCCCGCCTG CCTGGCAAGC CCAAGGTCTA TGTTCAGGAC ATCCTGCGGC AGCAGCTGGC CAGCGAGGTGCTCCGTGTGC TCCACAAGGA GCCAGGCCAC CTCTATGTTT GCGGGGATGT GCGCATGGCC CGGGACGTGGCCCACACCCT GAAGCAGCTG GTGGCTGCCA AGCTGAAATT GAATGAGGAG CAGGTCGAGG ACTATTTCTTTCAGCTCAAG AGCCAGAAGC GCTATCACGA AGATATCTTC GGTGCTGTAT TTCCTTACGA GGCGAAGAAGGACAGGGTGG CGGTGCAGCC CAGCAGCCTG GAGATGTCAG CGCTCTGAGG GCCTACAGGA GGGGTTAAAGCTGCCGGCAC AGAACTTAAG GATGGAGCCA GCTCTGCATT ATCTGAGGTC ACAGGGCCTG GGGAGATGGAGGAAAGTGAT ATCCCCCAGC CTCAAGTCTT ATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGAC CTCCTAACAAGTAGCACCCT GGATTGATCG GAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGG AGACAAAATCTTAAATGCCA GGCCTGGCGA GTGGGTGAAA GATGGAACTT GCTGCTGAGT GCACCACTTC AAGTGACCACCAGGAGGTGC TATCGCACCA CTGTGTATTT AACTGCCTTG TGTACAGTTA TTTATGCCTC TGTATTTAAA AAACTAACACCCAGTCTGTT CCCCATGGCC ACTTGGGTCT TCCCTGTATG ATTCCTTGAT GGAGATATTT ACATGAATTG CATTTTACTTTAATC-3′ (FRAG. NO：_)(SEQ. ID NO：2507)

5′-GAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGG GCAACTTGAA GAGCGTGGCCCAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCT GTGCGGCAAG CAGGGCCCAGCCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT ACTCCCACCA GCGCCAGAAC ACAGCCCCCCGAGCTCCCCG CTAACCCAGC CCCCAGAGGG GCCCAAGTTC CCTCGTGTGA AGAACTGGGA GGTGGGGAGCATCACCTATG ACACCCTCAG CGCCCAGGCG CAGCAGGATG GGCCCTGCAC CCCAAGACGC TGCCTGGGCTCCCTGGTATT TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCG GCCCCTGAGC AGCTGCTGAGTCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCG GCTCCCAGGC CCACGAACAGCGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCT TAGGGAGAGC GAGCTGGTGTTCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT GGGCCGGATC CAGTGGGGGA AGCTGCAGGTGTTCGATGCC CGGGACTGCA GGTCTGCACA GGAAATGTTC ACCTACATCT GCAACCACAT CAAGTATGCCACCAACCGGG GCAACCTTCG CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGA GGAGACTTCCGAATCTGGAA CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGAC GGCTCTGTGC GGGGGGACCCAGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAG GAAACGGTCG CTTCGACGTGCTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCT GCCCCCCGAG CTGGTCCTTG AGGTGCCCCTGGAGCACCCC ACGCTGGAGT GGTTTGCAGC CCTGGGCCTG CGCTGGTACG CCCTCCCGGC AGTGTCCAACATGCTGCTGG AAATTGGGGG CCTGGAGTTC CCCGCAGCCC CCTTCAGTGG CTGGTACATG AGCACTGAGATCGGCACGAG GAACCTGTGT GACCCTCACC GCTACAACAT CCTGGAGGAT GTGGCTGTCT GCATGGACCTGGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCA GCAGTGGAAA TCAACGTGGC CGTGCTGCACAGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACG CCGCCACGGC CTCTTTCATG AAGCACCTGGAGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTG GGCCTGGATC GTGCCCCCCA TCTCGGGCAGCCTCACTCCT GTTTTCCATC AGGAGATGGT CAACTATTTC CTGTCCCCGG CCTTCCGCTA CCAGCCAGAC CCCTGGAAGGGGAGTGCCGC CAAGGGCACC GGCATCACCA GGAAGAAGAC CTTTAAAGAA GTGGCCAACG CCGTGAAGATCTCCGCCTCG CTCATGGGCA CGGTGATGGC GAAGCGAGTG AAGGCGACAA TCCTGTATGG CTCCGAGACCGGCCGGGCCC AGAGCTACGC ACAGCAGCTG GGGAGACTCT TCCGGAAGGC TTTTGATCCC CGGGTCCTGTGTATGGATGA GTATGACGTG GTGTCCCTCG AACACGAGAC GCTGGTGCTG GTGGTAACCA GCACATTTGGGAATGGGGAT CCCCCGGAGA ATGGAGAGAG CTTTGCAGCT GCCCTGATGG AGATGTCCGG CCCCTACAACAGCTCCCCTC GGCCGGAACA GCACAAGAGT TATAAGATCC GCTTCAACAG CATCTCCTGC TCAGACCCACTGGTGTCCTC TTGGCGGCGG AAGAGGAAGG AGTCCAGTAA CACAGACAGT GCAGGGGCCC TGGGCACCCTCAGGTTCTGT GTGTTCGGGC TCGGCTCCCG GGCATACCCC CACTTCTGCG CCTTTGCTCG TGCCGTGGAC ACACGGCTGGAGGAACTGGG CGGGGAGCGG CTGCTGCAGC TGGGCCAGGG CGACGAGCTG TGCGGCCAGG AGGAGGCCTTCCGAGGCTGG GCCCAGGCTG CCTTCCAGGC CGCCTGTGAG ACCTTCTGTG TGGGAGAGGA TGCCAAGGCCGCCGCCCGAG ACATCTTCAG CCCCAAACGG AGCTGGAAGC GCCAGAGGTA CCGGCTGAGC GCCCAGGCCGAGGGCCTGCA GTTGCTGCCA GGTCTGATCC ACGTGCACAG GCGGAAGATG TTCCAGGCTA CAATCCGCTCAGTGGAAAAC CTGCAAAGCA GCAAGTCCAC GAGGGCCACC ATCCTGGTGC GCCTGGACAC CGGAGGCCAGGAGGGGCTGC AGTACCAGCC GGGGGACCAC ATAGGTGTCT GCCCGCCCAA CCGGCCCGGC CTTGTGGAGGCGCTGCTGAG CCGCGTGGAG GACCCGCCGG CGCCCACTGA GCCCGTGGCA GTAGAGCAGC TGGAGAAGGGCAGCCCTGGT GGCCCTCCCC CCGGCTGGGT GCGGGACCCC CGGCTGCCCC CGTGCACGCT GCGCCAGGCTCTCACCTTCT TCCTGGACAT CACCTCCCCA CCCAGCCCTC AGCTCTTGCG GCTGCTCAGC ACCTTGGCAG AAGAGCCCAGGGAACAGCAG GAGCTGGAGG CCCTCAGCCA GGATCCCCGA CGCTACGAGG AGTGGAAGTG GTTCCGCTGCCCCACGCTGC TGGAGGTGCT GGAGCAGTTC CCGTCGGTGG CGCTGCCTGC CCCACTGCTC CTCACCCAGC TGCCTCTGCTCCAGCCCCGG TACTACTCAG TCAGCTCGGC ACCCAGCACC CACCCAGGAG AGATCCACCT CACTGTAGCTGTGCTGGCAT ACAGGACTCA GGATGGGCTG GGCCCCCTGC ACTATGGAGT CTGCTCCACG TGGCTAAGCCAGCTCAAGCC CGGAGACCCT GTGCCCTGCT TCATCCGGGG GGCTCCCTCC TTCCGGCTGC CACCCGATCCCAGCTTGCCC TGCATCCTGG TGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTG GCAGGAGCGGCTGCATGACA TTGAGAGCAA AGGGCTGCAG CCCACTCCCA TGACTTTGGT GTTCGGCTGC CGATGCTCCCAACTTGACCA TCTCTACCGC GACGAGGTGC AGAACGCCCA GCAGCGCGGG GTGTTTGGCC GAGTCCTCACCGCCTTCTCC CGGGAACCTG ACAACCCCAA GACCTACGTG CAGGACATCC TGAGGACGGA GCTGGCTGCGGAGGTGCACC GCGTGCTGTG CCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACC ATGGCAACCAACGTCCTGCA GACCGTGCAG CGCATCCTGG CGACGGAGGG CGACATGGAG CTGGACGAGG CCGGCGACGTCATCGGCGTG CTGCGGGATC AGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCG CACCCAGGAGGTGACAAGCC GCATACGCAC CCAGAGCTTT TCCTTGCAGG AGCGTCAGTT GCGGGGCGCA GTGCCCTGGGCGTTCGACCC TCCCGGCTCA GACACCAACA GCCCCTGAGA GCCGCCTGGC TTTCCCTTCC AGTTCCGGGAGAGCGGCTGC CCGACTCAGG TCCGCCCGAC CAGGATCAGC CCCGCTCCTC CCCTCTTGAG GTGGTGCCTTCTCACATCTG TCCAGAGGCT GCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCC CTCTCTAGGCCTGTTGCCTC GGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCC AGGGCCTACTGCCACCCGCT TCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT CTCAGGAGTA TCTTACCTGT AAAGTCTAATCTCTAAATCA AGTATTTATT ATTGAAGATT TACCATAAGG GACTGTGCCA GATGTTAGGA GAACTACTAA AGTGCCTACCCCAGCTC-3′ (FRAG. NO：_) (SEQ. ID NO：2508)

5′-CCCCGGGG-3′ (FRAG. NO：1898) (SEQ. ID NO：1911)

5′-GGGGCCGCTGGG-3′ (FRAG. NO：1899) (SEQ. ID NO：1912)

5′-GGGGGTGTGG-3′ (FRAG. NO：1900) (SEQ. ID NO：1913)

5′-CTGCCTCCCCGGGGT-3′ (FRAG. NO：1442)(SEQ. ID NO：1451)

5′-TTCTGCTGCTTGCTG-3′ (FRAG. NO：1443)(SEQ. ID NO：1452)

5′-CTTCTTTCCCGTCTCC-3′ (FRAG. NO：1444)(SEQ. ID NO：1453)

5′-CTTCTTTCCCGTCTCC-3′ (FRAG. NO：1445)(SEQ. ID NO：1454)

5′-TTTTTGCCTCTTTG-3′ (FRAG. NO：1446)(SEQ. ID NO： 1455)

5′-GGTTCCTGTTGTTTCT-3′ (FRAG. NO：1447)(SEQ. ID NO：1456)

5′-GGCCTGCTTGGTGGCG-3′ (FRAG. NO：1448)(SEQ. ID NO：1457)

5′-GCTTGTGCGTTTCC-3′ (FRAG. NO：1449)(SEQ. ID NO：1458)

5′-TCTCTCTTCTCTTGGGTCTCCGCTTCTCGTCCTGCC-3′(FRAG. NO：1450)(SEQ. ID NO：1459)

5′-TTTTCCTGTCTCTGTCGC-3′ (FRAG. NO：1451)(SEQ. ID NO：1460)

5′-GCCGTTCCTCCTCC-3′ (FRAG. NO：1452)(SEQ. ID NO：1461)

5′-GGCGTCCTCCTGCCC-3′ (FRAG. NO： 1453)(SEQ. ID NO： 1462)

5′-TGTGCTGTTTGCCTCGG-3′ (FRAG. NO：1454)(SEQ. ID NO：1463)

5′-GTGGTGCGGGTCCC-3′ (FRAG. NO：1455)(SEQ. ID NO：1464)

5′-GGTGCTCCCCCGGC-3′ (FRAG. NO：1456)(SEQ. ID NO：1465)

5′-GGGCCGGCTGGTTGCCTGGGC-3′ (FRAG. NO：1457)(SEQ. ID NO：1466)

5′-CTGTCTGGTGGGGTGTGGGGCC-3′ (FRAG. NO：1458)(SEQ. ID NO：1467)

5′-GCTGGGTTGGGGGTGTGGTG-3′ (FRAG. NO：1459)(SEQ. ID NO：1468)

5′-GGCTCTTCTGTGGCC-3′ (FRAG. NO：1460)(SEQ. ID NO：1469)

5′-TGTGGGGCTGTTGGTG-3′ (FRAG. NO：1461)(SEQ. ID NO：1470)

5′-TCTCTGTGGGCGTGTG-3′ (FRAG. NO：1462)(SEQ. ID NO：1471)

5′-CTGGGTCTTGGGGCTTC-3′ (FRAG. NO：1463)(SEQ. ID NO：1472)

5′-CTCCCTTGTGCTGGG-3′ (FRAG. NO：1464)(SEQ. ID NO：1473)

5′-TGCGGCCTCCCCGC-3′ (FRAG. NO： 1465)(SEQ. ID NO： 1474)

5′-CCCCCTTCTGGGCC-3′ (FRAG. NO：1466)(SEQ. ID NO：1475)

5′-GGTGGCCTGGCTCCTTGTGG-3′ (FRAG. NO：1467)(SEQ. ID NO： 1476)

5′-GCGCTTCTGGCTCTTG-3′ (FRAG. NO：1468)(SEQ. ID NO：1477)

5′-CCCTGTCCTTCTTCGCCTCGT-3′ (FRAG. NO：1469)(SEQ. ID NO：1478)

5′-GGCTGCTGGGCTGC-3′ (FRAG. NO：1470)(SEQ. ID NO：1479)

5′-CTGCCCCBGTTTTTGBTCCTCBCBTGCCGTGGGGBGGBCBBTGG-3′(FRAG. NO：1901)(SEQ. ID NO：1914)

NF-kB nucleic acids and antisense oligonucleotide fragments

5′-CGGCCCTTCT CACTGGAGGC ACCGGGCAGT CCTCCATGGG AGGGTTGGGC TTGGCCGGGG CTGCCCGGTGCCTCCTCTTG GCTGGTCCCT CGTTGTCCTT GGGCCCCGC TCCCGCTGCT CGGCCTCCGT GTTCTTTGGC CTCTTGCTCCGCCTGCTGTC TTGTCCCGTC CCCTCCTCGC TTGCGTTTCC CTCTTCCTTG TCTTCCAGGC CTTCCTCCGC TTCCGCTGCTGGGGCCCGCG CCGGGGGGGC GCTCGGCTCC GCGGCTTCCT CCCCGGCTGG GGGGTCCTGG TCTCCGGGGCCTGCGGCTCG CGGGCTCGGG GCTGCGTGCG CCGCGCGCGG CGTCCGCGGT GGGTGGCGCT GTCCCGCCGTGGTGTGTCTC CGTTCTCGTC CTGCGCCGTC CTGGTCTGCC CGTGGGGTCC TGGGCGTGGT GGGGGGCGTC TGGTGCCTCGTCTGCCCCGT GGGGCTTCGG GCTCGGGGCT GTTCGTCCCC CCTGCCGCTC TGTGGCCTCC GGGGCTCCTC GTTTTCGCTGCTTCGGGTGT CCTTCTCGGC GTGTGGCCCC GGGTCCCGGC CCTGCTGGGC TGGGCGGGGT CGCTGCCCTG GGCTTCTGGCCCGTCTGGTT GTCTGTCGGT GCTTGTCTCG GGTTTCTGGC CTCTGTGCTG GGCGCTTCTC TGCCTCCTGC TCCGCCCTCCTGGTGGCTCG GCTGGGGGTG CCCGTGCGGG GGTGGGTGTG GGGTGTTTTC GGGGTCCTCC CCTTCCC-3′ (FRAG. NO：1902)(SEQ. ID NO：1915)

5′-GGGCGGGGTCGC-3′ (FRAG. NO：1903) (SEQ. ID NO：1916)

5′-GCGCCGTCC-3′ (FRAG. NO：1904) (SEQ. ID NO：1917)

5′-GGGCGTGGTGG-3′ (FRAG. NO：1905) (SEQ. ID NO：1918)

5′-GTTGGGCTTGGCCGGGG-3′ (FRAG. NO：1471)(SEQ. ID NO：1480)

5′-CTGCCCGGTGCCTCC-3′ (FRAG. NO：1472)(SEQ. ID NO：1481)

5′-TCTTGGCTGGTCCCTCGT-3′ (FRAG. NO：1473)(SEQ. ID NO：1482)

5′-TGTCCTTGGGCCCC-3′ (FRAG. NO：1474)(SEQ. ID NO：1483)

5′-GCTCCCGCTGCTCGGCCTCCGT-3′ (FRAG. NO：1475)(SEQ. ID NO：1484)

5′-GTTCTTTGGCCTCTTGCTCC-3′ (FRAG. NO：1476)(SEQ. ID NO：1485)

5′-GCCTGCTGTCTTGTCC-3′ (FRAG. NO：1477)(SEQ. ID NO：1486)

5′-CGTCCCCTCCTCGCTTGCGTTTC-3′ (FRAG. NO：1478)(SEQ. ID NO：1487)

5′-CCTCTTCCTTGTCTTCCA-3′ (FRAG. NO：1479)(SEQ. ID NO：1488)

5′-GGCCTTCCTCCGCTTCCGCTGC-3′ (FRAG. NO：1480)(SEQ. ID NO：1489)

5′-TGGGGCCCGCGCCGG-3′ (FRAG. NO：1481)(SEQ. ID NO：1490)

5′-GGGGGCGCTCGGCTCCGCGGCTTCCTCCCCGG-3′ (FRAG. NO：1482)(SEQ. ID NO：1491)

5′-CTGGGGGGTCCTGG-3′ (FRAG. NO：1483)(SEQ. ID NO：1492)

5′-TCTCCGGGGCCTGCGGCTCGC-3′ (FRAG. NO：1484)(SEQ. ID NO：1493)

5′-GGGCTCGGGGCTGCGTGCGCC-3′ (FRAG. NO：1485)(SEQ. ID NO：1494)

5′-GCGCGCGGCGTCCGCGGTG-3′ (FRAG. NO：1486)(SEQ. ID NO：1495)

5′-GGTGGCGCTGTCCCGCC-3′ (FRAG. NO：1487)(SEQ. ID NO：1496)

5′-GTGGTGTGTCTCCGTTCTCGTCCTGCGCCGTC-3′ (FRAG. NO：1488)(SEQ. ID NO：1497)

5′-CTGGTCTGCCCGTGG-3′ (FRAG. NO：1489)(SEQ. ID NO：1498)

5′-GGTCCTGGGCGTGGTGG-3′ (FRAG. NO： 1490)(SEQ. ID NO： 1499)

5′-GGGGCGTCTGGTGC-3′ (FRAG. NO： 1491)(SEQ. ID NO： 1500)

5′-CTCGTCTGCCCCGTG-3′ (FRAG. NO：1492)(SEQ. ID NO：1501)

5′-GGGCTTCGGGCTCGG-3′ (FRAG. NO：1493)(SEQ. ID NO： 1502)

5′-GGCTGTTCGTCCCCCCTGCCGCTCTGTGGCCTCC-3′ (FRAG. NO： 1494)(SEQ. ID NO： 1503)

5′-GGGGCTCCTCGTTTTC-3′ (FRAG. NO：1495)(SEQ. ID NO：1504)

5′-GCTGCTTCGGGTGTCCTTCTC-3′ (FRAG. NO：1496)(SEQ. ID NO：1505)

5′-GGCGTGTGGCCCCGG-3′ (FRAG. NO：1497)(SEQ. ID NO：1506)

5′-GTCCCGGCCCTGCTGGGCTGGGCGGGGTC-3′ (FRAG. NO：1498)(SEQ. ID NO：1507)

5′-GCTGCCCTGGGCTTCTGGCCCGTCT-3′ (FRAG. NO： 1499)(SEQ. ID NO： 1508)

5′-GGTTGTCTGTCGGT-3′ (FRAG. NO： 1500)(SEQ. ID NO： 1509)

5′-GCTTGTCTCGGGTTTCTGG-3′ (FRAG. NO：1501)(SEQ. ID NO：1510)

5′-CCTCTGTGCTGGGC-3′ (FRAG. NO： 1502)(SEQ. ID NO： 1511)

5′-GCTTCTCTGCCTCCTGCTCC-3′ (FRAG. NO：1503)(SEQ. ID NO：1512)

5′-GCCCTCCTGGTGGCTC-3′ (FRAG. NO：1504)(SEQ. ID NO：1513)

5′-GGCTGGGGGTGCCCGTGCG-3′ (FRAG. NO： 1505)(SEQ. ID NO： 1514)

5′-GGGGTGGGTGTGGGGTGTT-3′ (FRAG. NO：1506)(SEQ. ID NO：1515)

5′-TTCGGGGTCCTCCCCTTCCC-3′ (FRAG. NO：1507)(SEQ. ID NO： 1516)

5′-CGGCCCTTCTCACTGGAGGCACCGGGCAGTCCTCCATGGGAGG-3′ (FRAG.NO： 1906)(SEQ.ID NO： 1919)

Human major basic protein nucleic acids and antisense oligonucleotide fragments

5′-GTT TCA TCT TGG CTT TAT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCT CCCTCC CCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGA GTTTCA TCT TGG GTT TCB TCT TGG CTT TBT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCTCCC TCC CCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGBGTT TCB TCT TGG-3′ (FRAG. ID：1907) (SEQ. ID NO：1920)

5′-GGG GGA GTT-3′ (FRAG. ID：1908) (SEQ. ID NO：1921)

5′-G CCC TGG GCC C-3′ (FRAG. ID：1909) (SEQ. ID NO：1922)

5′-GTT TCA TCT TGG CTT TAT CC-3′ (FRAG. NO：1508) (SEQ. ID NO：1517)

5′-TCT CCC CTT GTT CCT CCC C-3′ (FRAG. NO：1509)(SEQ. ID NO：1518)

5′-TCT CCT GCT CTG GRG TCT CCT C-3′ (FRAG. NO：1510)(SEQ. ID NO：1519)

5′-TTC CCT CCC TCC CCT GCC-3′ (FRAG. NO：1511)(SEQ. ID NO：1520)

5′-GTG TTG TCT GTG GGT GTC C-3′ (FRAG. NO：1512)(SEQ. ID NO：1521)

5′-GTT TCG CTC TTG TTG CCC-3′ (FRAG. NO：1513)(SEQ. ID NO：1522)

5′-TGG GCC CTT CCC TGC TGG-3′ (FRAG. NO：1514)(SEQ. ID NO：1523)

5′-GGG GGA GTT TCA TCT TGG-3′ (FRAG. NO：1515)(SEQ. ID NO：1524)

5′-GTT TCA TCT TGG CTT TAT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCT CCCTCC CCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGA GTTTCA TCT TGG-3′ (FRAG. ID：1910) (SEQ. ID NO：1923)

5′-GTT TCB TCT TGG CTT TBT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCT CCCTCC CCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGB GTTTCB TCT TGG-3′ (FRAG. ID：1911) (SEQ. ID NO：1924)

Nucleic acid and antisense oligonucleotide fragments of major basic protein of human eosinophils

5′-GGG GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1516)(SEQ. ID NO：1525)

5′-GGGGGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1517)(SEQ. ID NO： 1526)

5′-GGG GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1518)(SEQ. ID NO：1527)

5′-GGG GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1519)(SEQ. ID NO： 1528)

5′-GGG GGB GTT TCB TCT TGG-3′ (FRAG. NO：1520)(SEQ. ID NO： 1529)

5′-GGG GGB GTT TCB TCT TG-3′ (FRAG. NO：1521)(SEQ. ID NO： 1530)

5′-GGG GGB GTT TCB TCT T-3′ (FRAG. NO：1522)(SEQ. ID NO： 1531)

5′-GGG GGB GTT TCB TCT-3′ (FRAG. NO：1523)(SEQ. ID NO： 1532)

5′-GGG GGB GTT TCB TC-3′ (FRAG. NO：1524)(SEQ. ID NO： 1533)

5′-GGG GGB GTT TCB T-3′ (FRAG. NO：1525)(SEQ. ID NO： 1534)

5′-GGG GGB GTT TCB-3′ (FRAG. NO：1526)(SEQ. ID NO： 1535)

5′-GG GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1527)(SEQ. ID NO： 1536)

5′-GG GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1528)(SEQ. ID NO： 1537)

5′-GG GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1529)(SEQ. ID NO： 1538)

5′-GG GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1530)(SEQ. ID NO： 1539)

5′-GG GGB GTT TCB TCT TGG-3′ (FRAG. NO：1531)(SEQ. ID NO： 1540)

5′-GG GGB GTT TCB TCT TG-3′ (FRAG. NO：1532)(SEQ. ID NO： 1541)

5′-GG GGB GTT TCB TCT T-3′ (FRAG. NO：1533)(SEQ. ID NO： 1542)

5′-GG GGB GTT TCB TCT-3′ (FRAG. NO：1534)(SEQ. ID NO： 1543)

5′-GG GGB GTT TCB TC-3′ (FRAG. NO：1535)(SEQ. ID NO： 1544)

5′-GG GGB GTT TCB T-3′ (FRAG. NO：1536)(SEQ. ID NO： 1545)

5′-G GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1537)(SEQ. ID NO： 1546)

5′-G GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1538)(SEQ. ID NO： 1547)

5′-G GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1539)(SEQ. ID NO： 1548)

5′-G GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1540)(SEQ. ID NO： 1549)

5′-G GGB GTT TCB TCT TGG-3′ (FRAG. NO：1541)(SEQ. ID NO： 1550)

5′-G GGB GTT TCB TCT TG-3′ (FRAG. NO：1542)(SEQ. ID NO： 1551)

5′-G GGB GTT TCB TCT T-3′ (FRAG. NO：1543)(SEQ. ID NO： 1552)

5′-G GGB GTT TCB TCT-3′ (FRAG. NO：1544)(SEQ. ID NO： 1553)

5′-G GGB GTT TCB TC-3′ (FRAG. NO：1545)(SEQ. ID NO： 1554)

5′-GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1546)(SEQ. ID NO： 1555)

5′-GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1547)(SEQ. ID NO： 1556)

5′-GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1548)(SEQ. ID NO： 1557)

5′-GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1549)(SEQ. ID NO： 1558)

5′-GGB GTT TCB TCT TGG-3′ (FRAG. NO：1550)(SEQ. ID NO： 1559)

5′-GGB GTT TCB TCT TG-3′ (FRAG. NO：1551)(SEQ. ID NO： 1560)

5′-GGB GTT TCB TCT T-3′ (FRAG. NO：1552)(SEQ. ID NO： 1561)

5′-GGB GTT TCB TCT-3′ (FRAG. NO：1553)(SEQ. ID NO： 1562)

5′-GB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1554)(SEQ. ID NO： 1563)

5′-GB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1555)(SEQ. ID NO： 1564)

5′-GB GTT TCB TCT TGG CT-3′ (FRAG. NO：1556)(SEQ. ID NO： 1565)

5′-GB GTT TCB TCT TGG C-3′ (FRAG. NO：1557)(SEQ. ID NO： 1566)

5′-GB GTT TCB TCT TGG-3′ (FRAG. NO：1558)(SEQ. ID NO： 1567)

5′-GB GTT TCB TCT TG-3′ (FRAG. NO：1559)(SEQ. ID NO： 1568)

5′-GB GTT TCB TCT T-3′ (FRAG. NO：1560)(SEQ. ID NO： 1569)

5′-B GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1561)(SEQ. ID NO： 1570)

5′-B GTT TCB TCT TGG CTT-3′ (FRAG. NO：1562)(SEQ. ID NO： 1571)

5′-B GTT TCB TCT TGG CTT-3′ (FRAG. NO：1563)(SEQ. ID NO： 1572)

5′-B GTT TCB TCT TGG CT-3′ (FRAG. NO：1564)(SEQ. ID NO： 1573)

5′-B GTT TCB TCT TGG C-3′ (FRAG. NO：1565)(SEQ. ID NO： 1574)

5′-B GTT TCB TCT TGG-3′ (FRAG. NO：1565)(SEQ. ID NO： 1575)

5′-B GTT TCB TCT TG-3′ (FRAG. NO：1567)(SEQ. ID NO： 1576)

5′-GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1568)(SEQ. ID NO： 1577)

5′-GTT TCB TCT TGG CTT-3′ (FRAG. NO：1569)(SEQ. ID NO： 1578)

5′-GTT TCB TCT TGG CT-3′ (FRAG. NO：1570)(SEQ. ID NO： 1579)

5′-GTT TCB TCT TGG C-3′ (FRAG. NO：1571)(SEQ. ID NO： 1580)

5′-GTT TCB TCT TGG-3′ (FRAG. NO：1572)(SEQ. ID NO： 1581)

5′-TT TCB TCT TGG CTT T-3′ (FRAG. NO：1573)(SEQ. ID NO： 1582)

5′-TT TCB TCT TGGCTT-3′ (FRAG. NO：1574)(SEQ. ID NO： 1583)

5′-TT TCB TCT TGG CT-3′ (FRAG. NO：1575)(SEQ. ID NO： 1584)

5′-TT TCB TCT TGG C-3′ (FRAG. NO：1576)(SEQ. ID NO： 1585)

5′-T TCB TCT TGG CTT T-3′ (FRAG. NO：1577)(SEQ. ID NO： 1586)

5′-T TCB TCT TGG CTT-3′ (FRAG. NO：1578)(SEQ. ID NO： 1587)

5′-T TCB TCT TGG CT-3′ (FRAG. NO：1579)(SEQ. ID NO： 1588)

5′-TCB TCT TGG CTT T-3′ (FRAG. NO：1580)(SEQ. ID NO： 1589)

5′-TCB TCT TGG CTT-3′ (FRAG. NO：1581)(SEQ. ID NO： 1590)

5′-GGG GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1582)(SEQ. ID NO： 1591)

5′-GG GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1583)(SEQ. ID NO： 1592)

5′-G GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1584)(SEQ. ID NO： 1593)

5′-GGB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1585)(SEQ. ID NO： 1594)

5′-GB GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1586)(SEQ. ID NO： 1595)

5′-B GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1587)(SEQ. ID NO： 1596)

5′-GTT TCB TCT TGG CTT T-3′ (FRAG. NO：1588)(SEQ. ID NO： 1597)

5′-TT TCB TCT TGG CTT T-3′ (FRAG. NO：1589)(SEQ. ID NO： 1598)

5′-T TCB TCT TGG CTT T-3′ (FRAG. NO：1590)(SEQ. ID NO： 1599)

5′-TCB TCT TGG CTT T-3′ (FRAG. NO：1591)(SEQ. ID NO： 1600)

5′-CB TCT TGG CTT T-3′ (FRAG. NO：1592)(SEQ. ID NO： 1601)

5′-GGG GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1593)(SEQ. ID NO： 1602)

5′-GG GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1594)(SEQ. ID NO： 1603)

5′-G GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1595)(SEQ. ID NO： 1604)

5′-GGB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1596)(SEQ. ID NO： 1605)

5′-GB GTT TCB TCT TGG CTT-3′ (FRAG. NO：1597)(SEQ. ID NO： 1606)

5′-B GTT TCB TCT TGG CTT-3′ (FRAG. NO：1598)(SEQ. ID NO： 1607)

5′-GTT TCB TCT TGG CTT-3′ (FRAG. NO：1599)(SEQ. ID NO： 1608)

5′-TT TCB TCT TGG CTT-3′ (FRAG. NO：1600)(SEQ. ID NO： 1609)

5′-T TCB TCT TGG CTT-3′ (FRAG. NO：1601)(SEQ. ID NO： 1610)

5′-TCB TCT TGG CTT-3′ (FRAG. NO：1602)(SEQ. ID NO： 1611)

5′-GGG GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1603)(SEQ. ID NO： 1612)

5′-GG GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1604)(SEQ. ID NO： 1613)

5′-G GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1605)(SEQ. ID NO： 1614)

5′-GGB GTT TCB TCT TGG CT-3′ (FRAG. NO：1606)(SEQ. ID NO： 1615)

5′-GB GTT TCB TCT TGG CT-3′ (FRAG. NO：1607)(SEQ. ID NO： 1616)

5′-B GTT TCB TCT TGG CT-3′ (FRAG. NO：1608)(SEQ. ID NO： 1617)

5′-GTT TCB TCT TGG CT-3′ (FRAG. NO：1609)(SEQ. ID NO： 1618)

5′-TT TCB TCT TGG CT-3′ (FRAG. NO：1610)(SEQ. ID NO： 1619)

5′-T TCB TCT TGG CT-3′ (FRAG. NO：1611)(SEQ. ID NO： 1620)

5′-GGG GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1612)(SEQ. ID NO： 1621)

5′-GG GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1613)(SEQ. ID NO： 1622)

5′-G GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1614)(SEQ. ID NO： 1623)

5′-GGB GTT TCB TCT TGG C-3′ (FRAG. NO：1615)(SEQ. ID NO： 1624)

5′-GB GTT TCB TCT TGG C-3′ (FRAG. NO：1616)(SEQ. ID NO： 1625)

5′-B GTT TCB TCT TGG C-3′ (FRAG. NO：1617)(SEQ. ID NO： 1626)

5′-GTT TCB TCT TGG C-3′ (FRAG. NO：1618)(SEQ. ID NO： 1627)

5′-TT TCB TCT TGG C-3′ (FRAG. NO：1619)(SEQ. ID NO： 1628)

5′-GGG GGB GTT TCB TCT TGG-3′ (FRAG. NO：1620)(SEQ. ID NO： 1629)

5′-GG GGB GTT TCB TCT TGG-3′ (FRAG. NO：1621)(SEQ. ID NO： 1630)

5′-G GGB GTT TCB TCT TGG-3′ (FRAG. NO：1622)(SEQ. ID NO： 1631)

5′-GGB GTT TCB TCT TGG-3′ (FRAG. NO：1623)(SEQ. ID NO： 1632)

5′-GB GTT TCB TCT TGG-3′ (FRAG. NO：1624)(SEQ. ID NO： 1633)

5′-B GTT TCB TCT TGG-3′ (FRAG. NO：1625)(SEQ. ID NO： 1634)

5′-GTT TCB TCT TGG-3′ (FRAG. NO：1626)(SEQ. ID NO： 1635)

5′-GGG GGB GTT TCB TCT TG-3′ (FRAG. NO：1627)(SEQ. ID NO： 1636)

5′-GG GGB GTT TCB TCT TG-3′ (FRAG. NO：1628)(SEQ. ID NO： 1637)

5′-G GGB GTT TCB TCT TG-3′ (FRAG. NO：1629)(SEQ. ID NO： 1638)

5′-GGB GTT TCB TCT TG-3′ (FRAG. NO：1630)(SEQ. ID NO： 1639)

5′-GB GTT TCB TCT TG-3′ (FRAG. NO：1631)(SEQ. ID NO： 1640)

5′-B GTT TCB TCT TG-3′ (FRAG. NO：1632)(SEQ. ID NO： 1641)

5′-GGG GGB GTT TCB TCT T-3′ (FRAG. NO：1633)(SEQ. ID NO： 1642)

5′-GG GGB GTT TCB TCT T-3′ (FRAG. NO：1634)(SEQ. ID NO： 1643)

5′-G GGB GTT TCB TCT T-3′ (FRAG. NO：1635)(SEQ. ID NO： 1644)

5′-G GGB GTT TCB TCT T-3′ (FRAG. NO：1636)(SEQ. ID NO： 1645)

5′-GGB GTT TCB TCT T-3′ (FRAG. NO：1637)(SEQ. ID NO： 1646)

5′-GB GTT TCB TCT T-3′ (FRAG. NO：1638)(SEQ. ID NO： 1647)

5′-GGG GGB GTT TCB TCT-3′ (FRAG. NO：1639)(SEQ. ID NO： 1648)

5′-GG GGB GTT TCB TCT-3′ (FRAG. NO：1640)(SEQ. ID NO： 1649)

5′-G GGB GTT TCB TCT-3′ (FRAG. NO：1641)(SEQ. ID NO： 1650)

5′-GGB GTT TCB TCT-3′ (FRAG. NO：1642)(SEQ. ID NO： 1651)

5′-GGG GGB GTT TCB TC-3′ (FRAG. NO：1643)(SEQ. ID NO： 1652)

5′-GG GGB GTT TCB TC-3′ (FRAG. NO：1644)(SEQ. ID NO： 1653)

5′-G GGB GTT TCB TC-3′ (FRAG. NO：1645)(SEQ. ID NO： 1654)

5′-GGG GGB GTT TCB T-3′ (FRAG. NO：1646)(SEQ. ID NO： 1655)

5′-GG GGB GTT TCB T-3′ (FRAG. NO：1647)(SEQ. ID NO： 1656)

5′-GGG GGB GTT TCB-3′ (FRAG. NO：1648)(SEQ. ID NO： 1657)

5′-TCT CCC CTT GTT CCT CCC C-3′ (FRAG. NO：1649)(SEQ. ID NO： 1658)

5′-TCT CCT GCT CTG GTG TCT CCT C-3′ (FRAG. NO：1650)(SEQ. ID NO： 1659)

5′-TTC CCT CCC TCC CCT GCC-3′ (FRAG. NO：1651)(SEQ. ID NO：1660)

5′-GTG TTG TCT GTG GGT GTC C-3′ (FRAG. NO：1652)(SEQ. ID NO： 1661)

5′-GTT TCG CTC TTG TTG CCC-3′ -3′ (FRAG. NO：1653)(SEQ. ID NO： 1661)

5′-TGG GCC CTT CCC TGC TGG-3′ (FRAG. NO：1654)(SEQ. ID NO： 1663)

5′-GGG GGB G-3′ (FRAG. NO：1912)(SEQ. ID NO：1925)

5′-GTG GGT GTC C-3′ (FRAG. NO：1913) (SEQ. ID NO：1926)

BP-1 nucleic acids and antisense oligonucleotide fragments

5′-CCGTGTTGTC BGTGGTGCTG CCCGTTTGBG GTBTGGCGCT CCBCCBBTTC CCTTTTCTCC TTGTTTTCCGTTTCTCTTGC CGTCTGTGGT T-3′ (FRAG. NO：1914) (SEQ. ID NO：1927)

5′-CCCGTTTGBGGTBTGGC-3′(FRAG. NO：1915) (SEQ. ID NO：1928)

5′-GCTCCBCCBBTTCCCTTTTCTCC-3′(FRAG. NO：1916) (SEQ. ID NO：1929)

5′-TTGTTTTCCGTTTCTCTTG-3′(FRAG. NO：1917) (SEQ. ID NO：1930)

5′-CCGTCTGTGGTT-3′(FRAG. NO： 1918 ) (SEQ. ID NO：1931)

5′-CCCGTTTGAGGTATGGC-3′(FRAG. NO：1919) (SEQ. ID NO：1932)

5 '-GCTCCBCCAATTCCCTTTTTCTCC-3' (FRAG. NO: 1920) (SEQ. ID NO: 1933) C/EBP nucleic acid and antisense oligonucleotide fragments

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGCCCC GGCC-3′ (FRAG. NO：1921) (SEQ. ID NO： 1934)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGCCCC GGC-3′ (FRAG. NO：1922) (SEQ. ID NO： 1935)

5′-GGGCCCB GCCCCGCCGCCTTTTCTBGCCCCGG-3′ (FRAG. NO：1923) (SEQ. ID NO： 1936)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGCCCCG-3′ (FRAG. NO：1924) (SEQ. ID NO： 1937)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGCCCC-3′ (FRAG. NO：1925) (SEQ. ID NO： 1938)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGCCC-3′ (FRAG. NO：1926) (SEQ. ID NO： 1939)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGCC-3′ (FRAG. NO：1927) (SEQ. ID NO： 1940)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBGC-3′ (FRAG. NO：1928) (SEQ. ID NO： 1941)

5′-GGGCCCBGCCCCGCCGCCTTTTCTBG-3′ (FRAG. NO：1929) (SEQ. ID NO： 1942)

5′-GGGCCCBGCCCCGCCGCCTTTTCTB-3′ (FRAG. NO：1930) (SEQ. ID NO： 1943)

5′-GGGCCCBGCCCCGCCGCCTTTTCT-3′ (FRAG. NO：1931) (SEQ. ID NO： 1942) 1944)

5′-GGGCCCBGCCCCGCCGCCTTTTC-3′ (FRAG. NO：1932) (SEQ. ID NO： 1945)

5′-GGGCCCBGCCCCGCCGCCTTTT-3′ (FRAG. NO：1933) (SEQ. ID NO： 1946)

5′-GGGCCCBGCCCCGCCGCCTTT-3′ (FRAG. NO：1934) (SEQ. ID NO： 1947) [1945)]

5′-GGGCCCBGCCCCGCCGCCTT-3′ (FRAG. NO：1935) (SEQ. 1D NO： 1948)

5′-GGGCCCBGCCCCGCCGCCT-3′ (FRAG. NO：1936) (SEQ. ID NO： 1949)

5′-GGGCCCBGCCCCGCCGCC-3′ (FRAG. NO：1937) (SEQ. ID NO： 1950)

5′-GGGCCCBGCCCCGCCGC-3′ (FRAG. NO：1938) (SEQ. ID NO： 1951)

5′-GGGCCCBGCCCCGCCG-3′ (FRAG. NO：1939) (SEQ. ID NO： 1952)

5′-GGGCCCBGCCCCGCC-3′ (FRAG. NO：1940) (SEQ. ID NO： 1953)

5′-GGGCCCBGCCCCGC-3′ (FRAG. NO：1941) (SEQ. ID NO： 1954)

5′-GGGCCCBGCCCCG-3′ (FRAG. NO：1942) (SEQ. ID NO： 1955)

5′-GGGCCCBGCCCC-3′ (FRAG. NO：1943) (SEQ. ID NO： 1956)

5′-GGGCCCBGCCC-3′ (FRAG. NO：1944) (SEQ. ID NO： 1957)

5′-GGCCCBGCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO： 1945) (SEQ. ID NO： 1958)

5′-GCCCBGCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1946) (SEQ. ID NO： 1959)

5′-CCCBGCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1947) (SEQ. ID NO： 1960)

5′-CCBGCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1948) (SEQ. 1D NO： 1961)

5′-CBGCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1948) (SEQ. ID NO： 1962)

5′-BGCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1950) (SEQ. ID NO： 1963)

5′-GCCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1951) (SEQ. ID NO： 1964)

5′-CCCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1952) (SEQ. ID NO： 1965)

5′-CCCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1953) (SEQ. 1D NO： 1966)

5′-CCGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1954) (SEQ. ID NO： 1967)

5′-CGCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1955) (SEQ. ID NO： 1968)

5′-GCCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1956) (SEQ. ID NO： 1969)

5′-CCGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1957) (SEQ. ID NO： 1970)

5′-CGCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1958) (SEQ. ID NO： 1971)

5′-GCCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1959) (SEQ. ID NO： 1972)

5′-CCTTTTCTBGCCCCGGC-3′ (FRAG. NO：1960) (SEQ. ID NO： 1973)

5′-CTTTTCTBGCCCCGGC-3′ (FRAG. NO：1961) (SEQ. ID NO： 1974)

5′-TTTTCTBGCCCCGGC-3′ (FRAG. NO：1962) (SEQ. ID NO： 1975)

5′-TTTCTBGCCCCGGC-3′ (FRAG. NO：1963) (SEQ. ID NO： 1976)

5′-TTCTBGCCCCGGC-3′ (FRAG. NO：1964) (SEQ. ID NO： 1977)

5′-TCTBGCCCCGGC-3′ (FRAG. NO：1965) (SEQ. ID NO： 1978)

5′-CTBGCCCCGGC-3′ (FRAG. NO：1966) (SEQ. ID NO： 1979)

5′-GCGBGGCTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO：1967) (SEQ. ID NO： 1980)

5′-GCGBGGCTGTCBCCTCGCTGGGCC-3′ (FRAG. NO：1968) (SEQ. ID NO： 1981)

5′-GCGBGGCTGTCBCCTCGCTGGGC-3′ (FRAG. NO：1969) (SEO. ID NO： 1982)

5′-GCGBGGCTGTCBCCTCGCTGGG-3′ (FRAG. NO： 1970) (SEQ. ID NO： 1983)

5′-GCGBGGC TGTCBCCTCGCTGG-3′ (FRAG. NO： 1971) (SEQ. ID NO： 1984)

5′-GCGBGGCTGTCBCCTCGCTG-3′ (FRAG. NO：1972) (SEQ. ID NO：1985)

5′-GCGBGGCTGTCBCCTCGCT-3′ (FRAG. NO：1973) (SEQ. ID NO：1986)

5′-GCGBGGCTGTCBCCTCGC-3′ (FRAG. NO：1974) (SEQ. ID NO：1987)

5′-GCGBGGCTGTCBCCTCG-3′ (FRAG. NO：1975) (SEQ. ID NO：1988)

5′-GCGBGGCTGTCBCCTC-3′ (FRAG. NO：1976) (SEQ. ID NO：1989)

5′-GCGBGGCTGTCBCCT-3′ (FRAG. NO：1977) (SEQ. ID NO：1990)

5′-GCGBGGCTGTCBCC-3′ (FRAG. NO：1978) (SEQ. ID NO：1991)

5′-GCGBGGCTGTCBC-3′ (FRAG. NO：1979) (SEQ. ID NO：1992)

5′-GCGBGGCTGTCB-3′ (FRAG. NO：1980) (SEQ. ID NO：1993)

5′-GCGBGGCTGTC-3′ (FRAG. NO：1981) (SEQ. ID NO：1994)

5′-GCGBGGCTGT-3′ (FRAG. NO：1982) (SEQ. ID NO：1995)

5′-CGBGGCTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO： 1983) (SEQ. ID NO： 1996)

5′-GBGGCTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO： 1984) (SEQ. ID NO： 1997)

5′-BGGCTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO： 1985) (SEQ. ID NO： 1998)

5′-GGCTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO： 1986) (SEQ. ID NO： 1999)

5′-GCTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO：1987) (SEQ. ID NO：2000)

5′-CTGTCBCCTCGCTGGGCCC-3′ (FRAG. NO：1988) (SEQ. ID NO：2001)

5′-TGTCBCCTCGCTGGGCCC-3′ (FRAG. NO：1989) (SEQ. ID NO：2002)

5′-GTCBCCTCGCTGGGCCC-3′ (FRAG. NO：1990) (SEQ. ID NO：2003)

5′-TCBCCTCGCTGGGCCC-3′ (FRAG. NO： 1991) (SEQ. 1D NO：2004)

5′-CBCCTCGCTGGGCCC-3′ (FRAG. NO： 1992) (SEQ. ID NO：2005)

5′-BCCTCGCTGGGCCC-3′ (FRAG. NO：1993) (SEQ. ID NO：2006)

5′-CCTCGCTGGGCCC-3′ (FRAG. NO：1994) (SEQ. ID NO：2007)

5′-CTCGCTGGGCCC-3′ (FRAG. NO： 1995) (SEQ. ID NO：2008)

5′-TCGCTGGGCCC-3′ (FRAG. NO：1996) (SEQ. ID NO：2009)

5′-CGCTGGGCCC-3′ (FRAG. NO：1997) (SEQ. ID NO：2010)

5′-GCGCGGCCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：1998) (SEQ. ID NO：2011)

5′-GCGCGGCCGTCBTGGCGGCGTCGGGCCGGG-3′ (FRAG. NO：1999) (SEQ. ID NO：2012)

5′-GCGCGGCCGTCBTGGCGGCGTCGGGCCGG-3′ (FRAG. NO：2000) (SEQ. ID NO：2013)

5′-GCGCGGCCGTCBTGGCGGCGTCGGGCCG-3′ (FRAG. NO：2001) (SEQ. ID NO：2014)

5′-GCGCGGCCGTCBTGGCGGCGTCGGGCC-3′ (FRAG. NO：2002) (SEQ. ID NO：2015)

5′-GCGCGGCCGTCBTGGCGGCGTCGGGC-3′ (FRAG. NO：2003) (SEQ. ID NO：2016)

5′-GCGCGGCCGTCBTGGCGGCGTCGGG-3′ (FRAG. NO：2004) (SEQ. ID NO：2017)

5′-GCGCGGCCGTCBTGGCGGCGTCGG-3′ (FRAG. NO：2005) (SEQ. ID NO：2018)

5′-GCGCGGCCGTCBTGGCGGCGTCG-3′ (FRAG. NO：2006) (SEQ. ID NO：2019)

5′-GCGCGGCCGTCBTGGCGGCGTC-3′ (FRAG. NO：2007) (SEQ. ID NO：2020

5′-GCGCGGCCGTCBTGGCGGCGT-3′ (FRAG. NO：2008) (SEQ. ID NO：2021)

5′-GCGCGGCCGTCBTGGCGGCG-3′ (FRAG. NO：2009) (SEQ. ID NO：2022)

5′-GCGCGGCCGTCBTGGCGGC-3′ (FRAG. NO：2010) (SEQ. ID NO：2023)

5′-GCGCGGCCGTCBTGGCGG-3′ (FRAG. NO：2011) (SEQ. ID NO：2024)

5′-GCGCGGCCGTCBTGGCG-3′ (FRAG. NO：2012) (SEQ. ID NO：2025)

5′-GCGCGGCCGTCBTGGC-3′ (FRAG. NO：2013) (SEQ. ID NO：2026)

5′-GCGCGGCCGTCBTGG-3′ (FRAG. NO：2014) (SEQ. ID NO：2027)

5′-GCGCGGCCGTCBTG-3′ (FRAG. NO：2015) (SEQ. ID NO：2028)

5′-GCGCGGCCGTCBT-3′ (FRAG. NO：2016) (SEQ. ID NO：2029)

5′-GCGCGGCCGTCB-3′ (FRAG. NO：2017) (SEQ. ID NO：2030)

5′-GCGCGGCCGTC-3′ (FRAG. NO：2018) (SEQ. ID NO：2031)

5′-GCGCGGCCGT-3′ (FRAG. NO：2019)(SEQ. ID NO：2032)

5′-CGCGGCCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2020) (SEQ. ID NO：2033)

5′-GCGGCCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2021) (SEQ. ID NO：2034)

5′-CGGCCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2022) (SEQ. ID NO：2035)

5′-GGCCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2023) (SEQ. ID NO：2036)

5′-GCCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2024) (SEQ. ID NO：2037)

5′-CCGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2025) (SEQ. ID NO：2038)

5′-CGTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2026) (SEQ. ID NO：2039)

5′-GTCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2027) (SEQ. ID NO：2040)

5′-TCBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2028) (SEQ. ID NO：2041)

5′-CBTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2029) (SEQ. ID NO：2042)

5′-BTGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2030) (SEQ. ID NO：2043)

5′-TGGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2031) (SEQ. ID NO：2044)

5′-GGCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2032) (SEQ. ID NO：2045)

5′-GCGGCGTCGGGCCGGGC-3′ (FRAG. NO：2033) (SEQ. ID NO：2046)

5′-CGGCGTCGGGCCGGGC-3′ (FRAG. NO：2034) (SEQ. ID NO：2047)

5′-GGCGTCGGGCCGGGC-3′ (FRAG. NO：2035) (SEQ. ID NO：2048)

5′-GCGTCGGGCCGGGC-3′ (FRAG. NO：2036) (SEQ. ID NO：2049)

5′-CGTCGGGCCGGGC-3′ (FRAG. NO：2037) (SEQ. ID NO：2050)

5′-GTCGGGCCGGGC-3′(FRAG. NO：2038) (SEQ. ID NO：2051)

5′-TCGGGCCGGGC-3′ (FRAG. NO：2039) (SEQ. ID NO：2052)

5′-CGGGCCGGGC-3′ (FRAG. NO：2040) (SEQ. ID NO：2053)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2041) (SEQ. ID NO：2054)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCCGGGCC-3′ (FRAG. NO：2042) (SEQ. ID NO：2055)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCCGGGC-3′ (FRAG. NO：2043) (SEQ. ID NO：2056)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCCGGG-3′ (FRAG. NO：2044) (SEQ. ID NO：2057)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCCGG-3′ (FRAG. NO：2045) (SEQ. ID NO：2058)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCCG-3′ (FRAG. NO：2046) (SEQ. ID NO：2059)

5′-CCGCBGGCCBGGGCGCGCCGCCGGCC-3′ (FRAG. NO：2047) (SEQ. ID NO：2060)

5′-CCGCBGGCCBGGGCGCGCCGCCGGC-3′ (FRAG. NO：2048) (SEQ. ID NO：2061)

5′-CCGCBGGCCBGGGCGCGCCGCCGG-3′ (FRAG. NO：2049) (SEQ. ID NO：2062)

5′-CCGCBGGCCBGGGCGCGCCGCCG-3′ (FRAG. NO：2050) (SEQ. ID NO：2063)

5′-CCGCBGGCCBGGGCGCGCCGCC-3′ (FRAG. NO：2051) (SEQ. ID NO：2064)

5′-CCGCBGGCCBGGGCGCGCCGC-3′ (FRAG. NO：2052) (SEQ. ID NO：2065)

5′-CCGCBGGCCBGGGCGCGCCG-3′ (FRAG. NO：2053) (SEQ. ID NO：2066)

5′-CCGCBGGCCBGGGCGCGCC-3′ (FRAG. NO：2054) (SEQ. ID NO：2067)

5′-CCGCBGGCCBGGGCGCGC-3′ (FRAG. NO：2055) (SEQ. ID NO：2068)

5′-CCGCBGGCCBGGGCGCG-3′ (FRAG. NO：2056) (SEQ. ID NO：2069)

5′-CCGCBGGCCBGGGCGC-3′ (FRAG. NO：2057) (SEQ. ID NO：2070)

5′-CCGCBGGCCBGGGCG-3′ (FRAG. NO：2058) (SEQ. ID NO：2071)

5′-CCGCBGGCCBGGGC-3′ (FRAG. NO：2059) (SEQ. ID NO：2072)

5′-CCGCBGGCCBGGG-3′ (FRAG. NO：2060) (SEQ. ID NO：2073)

5′-CCGCBGGCCBGG-3′ (FRAG. NO：2061) (SEQ. ID NO：2074)

5′-CCGCBGGCCBG-3′ (FRAG. NO：2062) (SEQ. ID NO：2075)

5′-CCGCBGGCCB-3′ (FRAG. NO：2063) (SEQ. ID NO：2076)

5′-CCGCBGGCC-3′ (FRAG. NO：2064) (SEQ. ID NO：2077)

5′-CGCBGGCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2065) (SEQ. ID NO：2078)

5′-GCBGGCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2066) (SEQ. ID NO：2079)

5′-CBGGCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2067) (SEQ. ID NO：2080)

5′-BGGCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FKAG. NO：2068) (SEQ. ID NO：2081)

5′-GGCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2069) (SEQ. ID NO：2082)

5′-GCCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2070) (SEQ. ID NO：2083)

5′-CCBGGGCGCGCCGCCGGCCGGGCCG-3′ (FKAG. NO：2071) (SEQ. ID NO：2084)

5′-CBGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2072) (SEQ. ID NO：2085)

5′-BGGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2073) (SEQ. ID NO：2086)

5′-GGGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2074) (SEQ. ID NO：2087)

5′-GGCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2075) (SEQ. ID NO：2088)

5′-GCGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2076) (SEQ. ID NO：2089)

5′-CGCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2077) (SEQ. ID NO：2090)

5′-GCGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2078) (SEQ. ID NO：2091)

5′-CGCCGCCGGCCGGGCCG-3′ (FRAG. NO：2079) (SEQ. ID NO：2092)

5′-GCCGCCGGCCGGGCCG-3′ (FRAG. NO：2080) (SEQ. ID NO：2093)

5′-CCGCCGGCCGGGCCG-3′ (FRAG. NO：2081) (SEQ. ID NO：2094)

5′-CGCCGGCCGGGCCG-3′ (FRAG. NO：2082) (SEQ. ID NO：2095)

5′-GCCGGCCGGGCCG-3′ (FRAG. NO：2083) (SEQ. ID NO：2096)

5′-CCGGCCGGGCCG-3′ (FRAG. NO：2084) (SEQ. ID NO：2097)

5′-CGGCCGGGCCG-3′ (FRAG. NO：2085) (SEQ. ID NO：2098)

5′-GGCCGGGCCG-3′ (FRAG. NO：2086) (SEQ. ID NO：2099)

5′-GGGCGCBGGCTCCGCB-3′ (FRAG. NO：2087) (SEQ. ID NO：2100)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′(FRAG.NO：2O88)(SEQ.ID NO：2101)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCG-3′ (FRAG.NO：2089)(SEQ.ID NO：2102)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCC-3′ (FRAG.NO：2090) (SEQ.ID NO：2103)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCC-3′ (FRAG. NO：2091) (SEQ. ID NO：2104)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGC-3′ (FRAG. NO：2092) (SEQ. ID NO：2105)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGG-3′ (FRAG. NO：2093) (SEQ. ID NO：2106)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCG-3′ (FRAG. NO：2094) (SEQ. ID NO：2107)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCC-3′ (FRAG. NO：2095) (SEQ. ID NO：2108)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCC-3′ (FRAG. NO：2096) (SEQ. ID NO：2109)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGC-3′ (FRAG. NO：2097) (SEQ. ID NO：2110)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCG-3′ (FRAG. NO：2098) (SEQ. ID NO：2111)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCC-3′ (FRAG. NO：2099) (SEQ. ID NO：2112)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCC-3′ (FRAG. NO：2100) (SEQ. ID NO：2113)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGC-3′ (FRAG. NO：2101) (SEQ. ID NO：2114)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTTG-3′ (FRAG. NO：2102) (SEQ. ID NO：2115)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCTT-3′ (FRAG. NO：2103) (SEQ. ID NO：2116)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGCT-3′ (FRAG. NO：2104) (SEQ. ID NO：2117)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGGC-3′ (FRAG. NO：2105) (SEQ. ID NO：2118)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCGG-3′ (FRAG. NO：2106) (SEQ. ID NO：2119)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCCG-3′ (FRAG. NO：2107) (SEQ. ID NO：2120)

5′-GGGCCCCTGGCTCGGCCCCGCGGCCC-3′ (FRAG. NO：2108) (SEQ. ID NO：2121)

5′-GGGCCCCTGGCTCGGCCCCGCGGCC-3′ (FRAG. NO：2109) (SEQ. ID NO：2122)

5′-GGGCCCCTGGCTCGGCCCCGCGGC-3′ (FRAG. NO：2110) (SEQ. ID NO：2123)

5′-GGGCCCCTGGCTCGGCCCCGCGG-3′ (FRAG. NO：2111) (SEQ. ID NO：2124)

5′-GGGCCCCTGGCTCGGCCCCGCG-3′ (FRAG. NO：2112) (SEQ. ID NO：2125)

5′-GGGCCCCTGGCTCGGCCCCGC-3′ (FRAG. NO：2113) (SEQ. ID NO：2126)

5′-GGGCCCCTGGCTCGGCCCCG-3′ (FRAG. NO：2114) (SEQ. ID NO：2127)

5′-GGGCCCCTGGCTCGGCCCC-3′ (FRAG. NO：2115) (SEQ. ID NO：2128)

5′-GGGCCCCTGGCTCGGCCC-3′ (FRAG. NO：2116) (SEQ. ID NO：2129)

5′-GGGCCCCTGGCTCGGCC-3′ (FRAG. NO：2117) (SEQ. ID NO：2130)

5′-GGGCCCCTGGCTCGGC-3′ (FRAG. NO：2118) (SEQ. ID NO：2131)

5′-GGGCCCCTGGCTCGG-3′ (FRAG. NO：2119) (SEQ. ID NO：2132)

5′-GGGCCCCTGGCTCG-3′ (FRAG. NO：2120) (SEQ. ID NO：2133)

5′-GGGCCCCTGGCTC-3′ (FR.AG. NO：2121) (SEQ. ID NO：2134)

5′-GGGCCCCTGGCT-3′ (FRAG. NO：2122) (SEQ. ID NO：2135)

5′-GGCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′(FRAG.NO：2123)(SEQ.ID NO：2136)

5′-GCCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2124) (SEQ. ID NO：2137)

5′-CCCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2125) (SEQ. ID NO：2138)

5′-CCCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2126) (SEQ. ID NO：2139)

5′-CCTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2127) (SEQ. ID NO：2140)

5′-CTGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2128) (SEQ. ID NO：2141)

5′-TGGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2129) (SEQ. ID NO：2142)

5′-GGCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2130) (SEQ. ID NO：2143)

5′-GCTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2131) (SEQ. ID NO：2144)

5′-CTCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2132) (SEQ. ID NO：2145)

5′-TCGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2133) (SEQ. ID NO：2146)

5′-CGGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2134) (SEQ. 1D NO：2147)

5′-GGCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2135) (SEQ. ID NO：2148)

5′-GCCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2136) (SEQ. ID NO：2149)

5′-CCCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2137) (SEQ. ID NO：2150)

5′-CCCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2138) (SEQ. ID NO：2151)

5′-CCGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2139) (SEQ. ID NO：2152)

5′-CGCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2140) (SEQ. ID NO：2153)

5′-GCGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2141) (SEQ. ID NO：2154)

5′-CGGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2142) (SEQ. ID NO：2155)

5′-GGCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2143 ) (SEQ. ID NO：2156)

5′-GCCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2144) (SEQ. ID NO：2157)

5′-CCCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2145) (SEQ. ID NO：2158)

5′-CCGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2146) (SEQ. ID NO：2159)

5′-CGGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2147) (SEQ. ID NO：2160)

5′-GGCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2148) (SEQ. ID NO：2161)

5′-GCTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2149) (SEQ. ID NO：2162)

5′-CTTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2150) (SEQ. ID NO：2163)

5′-TTGCCCGCCCGGCCCGG-3′ (FRAG. NO：2151) (SEQ. ID NO：2164)

5′-TGCCCGCCCGGCCCGG-3′ (FRAG. NO：2152) (SEQ. ID NO：2165)

5′-GCCCGCCCGGCCCGG-3′ (FRAG. NO：2153) (SEQ. ID NO：2166)

5′-CCCGCCCGGCCCGG-3′ (FRAG. NO：2154) (SEQ. ID NO：2167)

5′-CCGCCCGGCCCGG-3′ (FRAG. NO：2155) (SEQ. ID NO：2168)

5′-CGCCCGGCCCGG-3′ (FRAG. NO：2156) (SEQ. ID NO：2169)

5′-GCCCGGCCCGG-3′ (FRAG. NO：2157) (SEQ. ID NO：2170)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2158) (SEQ. ID NO：2171)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBGGGCCC-3′ (FRAG. NO：2159) (SEQ. ID NO：2172)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBGGGCC-3′ (FRAG. NO：2160) (SEQ. ID NO：2173)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBGGGC-3′ (FRAG. NO：2161) (SEQ. ID NO：2174)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBGGG-3′ (FRAG. NO：2162) (SEQ. ID NO：2175)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBGG-3′ (FRAG. NO：2163) (SEQ. 1D NO：2176)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTBG-3′ (FKAG. NO：2164) (SEQ. ID NO：2177)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCTB-3′ (FRAG. NO：2165) (SEQ. ID NO：2178)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCCT-3′ (FRAG. NO：2166) (SEQ. ID NO：2179)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGCC-3′ (FRAG. NO：2167) (SEQ. ID NO：2180)

5′-GGCGGGGGCGGCGGCGCCTGGCTCGC-3′ (FRAG. NO：2168) (SEQ. ID NO：2181)

5′-GGCGGGGGCGGCGGCGCCTGGCTCG-3′ (FRAG. NO：2169) (SEQ. ID NO：2182)

5′-GGCGGGGGCGGCGGCGCCTGGCTC-3′ (FRAG. NO：2170) (SEQ. ID NO：2183)

5′-GGCGGGGGCGGCGGCGCCTGGCT-3′ (FRAG. NO：2171) (SEQ. ID NO：2184)

5′-GGCGGGGGCGGCGGCGCCTGGC-3′ (FRAG. NO：2172) (SEQ. ID NO：2185)

5′-GGCGGGGGCGGCGGCGCCTGG-3′ (FRAG. NO：2173) (SEQ. ID NO：2186)

5′-GGCGGGGGCGGCGGCGCCTG-3′ (FRAG. NO：2174) (SEQ. ID NO：2187)

5′-GGCGGGGGCGGCGGCGCCT-3′ (FRAG. NO：2175) (SEQ. ID NO：2188)

5′-GGCGGGGGCGGCGGCGCC-3′ (FRAG. NO：2176) (SEQ. ID NO：2189)

5′-GGCGGGGGCGGCGGCGC-3′ (FRAG. NO：2177) (SEQ. ID NO：2190)

5′-GGCGGGGGCGGCGGCG-3′ (FRAG. NO：2178) (SEQ. ID NO：2191)

5′-GGCGGGGGCGGCGGC-3′ (FRAG. NO：2179) (SEQ. ID NO：2192)

5′-GGCGGGGGCGGCGG-3′ (FRAG. NO：2180) (SEQ. ID NO：2193)

5′-GGCGGGGGCGGCG-3′ (FRAG. NO：2181) (SEQ. ID NO：2194)

5′-GGCGGGGGCGGC-3′ (FRAG. NO：2182) (SEQ. ID NO：2195)

5′-GGCGGGGGCGG-3′ (FRAG. NO：2183) (SEQ. ID NO：2196)

5′-GCGGGGGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2184) (SEQ. ID NO：2197)

5′-CGGGGGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2185) (SEQ. IDNO：2198)

5′-GGGGGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2186) (SEQ. ID NO：2199)

5′-GGGGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2187) (SEQ. ID NO：2200)

5′-GGGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2188) (SEQ. ID NO：2201)

5′-GGCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2189) (SEQ. ID NO：2202)

5′-GCGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2190) (SEQ. ID NO：2203)

5′-CGGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2191) (SEQ. ID NO：2204)

5′-GGCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2192) (SEQ. ID NO：2205)

5′-GCGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2193) (SEQ. ID NO：2206)

5′-CGGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2194) (SEQ. ID NO：2207)

5′-GGCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2195) (SEQ. ID NO：2208)

5′-GCGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2196) (SEQ. 1D NO：2209)

5′-CGCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2197) (SEQ. ID NO：2210)

5′-GCCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2198) (SEQ. ID NO：2211)

5′-CCTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2199) (SEQ. ID NO：2212)

5′-CTGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2200) (SEQ. ID NO：2213)

5′-TGGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2201) (SEQ. ID NO：2214)

5′-GGCTCGCCTBGGGCCCC-3′ (FRAG. NO：2202) (SEQ. ID NO：2215)

5′-GCTCGCCTBGGGCCCC-3′ (FRAG. NO：2203) (SEQ. ID NO：2216)

5′-CTCGCCTBGGGCCCC-3′ (FRAG. NO：2204) (SEQ. ID NO：2217)

5′-TCGCCTBGGGCCCC-3′ (FRAG. NO：2205) (SEQ. ID NO：2218)

5′-CGCCTBGGGCCCC-3′ (FRAG. NO：2206) (SEQ. ID NO：2219)

5′-GCCTBGGGCCCC-3′ (FRAG. NO：2207) (SEQ. ID NO：2220)

5′-CCTBGGGCCCC-3′ (FRAG. NO：2208) (SEQ. ID NO：2221)

5′-CTBGGGCCCC-3′ (FRAG. NO：2209) (SEQ. ID NO：2222)

5′-GGGTGGGCBCGGCGGCC-3′ (FRAG. NO：2210) (SEQ. ID NO：2223)

5′-GGTCGGCGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2211) (SEQ. ID NO：2224)

5′-GGTCGGCGBBGBGCTCGTCGTGG-3′ (FRAG. NO：2212) (SEQ. ID NO：2225)

5′-GGTCGGCGBBGBGCTCGTCGTG-3′ (FRAG. NO：2213) (SEQ. ID NO：2226)

5′-GGTCGGCGBBGBGCTCGTCGT-3′ (FRAG. NO：2214) (SEQ. ID NO：2227)

5′-GGTCGGCGBBGBGCTCGTCG-3′ (FRAG. NO：2215) (SEQ. ID NO：2228)

5′-GGTCGGCGBBGBGCTCGTC-3′ (FRAG. NO：2216) (SEQ. ID NO：2229)

5′-GGTCGGCGBBGBGCTCGT-3′ (FRAG. NO：2217) (SEQ. ID NO：2230)

5′-GGTCGGCGBBGBGCTCG-3′ (FRAG. NO：2218) (SEQ. ID NO：2231)

5′-GGTCGGCGBBGBGCTC-3′ (FRAG. NO：2219) (SEQ. ID NO：2232)

5′-GGTCGGCGBBGBGCT-3′ (FRAG. NO：2220) (SEQ. ID NO：2233)

5′-GGTCGGCGBBGBGC-3′ (FRAG. NO：2221) (SEQ. ID NO：2234)

5′-GGTCGGCGBBGBG-3′ (FRAG. NO：2222) (SEQ. ID NO：2235)

5′-GGTCGGCGBBGB-3′ (FRAG. NO：2223) (SEQ. ID NO：2236)

5′-GGTCGGCGBBG-3′ (FRAG. NO：2224) (SEQ. ID NO：2237)

5′-GTCGGCGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2225) (SEQ. ID NO：2238)

5′-TCGGCGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2226) (SEQ. ID NO：2239)

5′-CGGCGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2227) (SEQ. ID NO：2240)

5′-GGCGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2228) (SEQ. ID NO：2241)

5′-GCGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2229) (SEQ. 1D NO：2242)

5′-CGBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2230) (SEQ. ID NO：2243)

5′-GBBGBGCTCGTCGTGGC-3′ (FRAG. NO：2231) (SEQ. ID NO：2244)

5′-BBGBGCTCGTCGTGGC-3′ (FRAG. NO：2232) (SEQ. ID NO：2245)

5′-BGBGCTCGTCGTGGC-3′ (FRAG. NO：2233) (SEQ. ID NO：2246)

5′-GBGCTCGTCGTGGC-3′ (FRAG. NO：2234) (SEQ. ID NO：2247)

5′-BGCTCGTCGTGGC-3′ (FRAG. NO：2235) (SEQ. ID NO：2248)

5′-GCTCGTCGTGGC-3′ (FRAG. NO：2236) (SEQ. ID NO：2249)

5′-CTCGTCGTGGC-3′ (FRAG. NO：2237) (SEQ. ID NO：2250)

5′-TCGTCGTGGC-3′ (FRAG. NO：2238) (SEQ. ID NO：2251)

5′-GGGGCCCCGCGCCGCCCGCC-3′ (FRAG. NO：2239) (SEQ. ID NO：2252)

5′-GGGGCCCCGCGCCGCCCGC-3′ (FRAG. NO：2240) (SEQ. ID NO：2253)

5′-GGGGCCCCGCGCCGCCCG-3′ (FRAG. NO：2241) (SEQ. ID NO：2254)

5′-GGGGCCCCGCGCCGCCC-3′ (FRAG. NO：2242) (SEQ. ID NO：2255)

5′-GGGGCCCCGCGCCGCC-3′ (FRAG. NO：2243) (SEQ. ID NO：2256)

5′-GGGGCCCCGCGCCGC-3′ (FRAG. NO：2244) (SEQ. ID NO：2257)

5′-GGGGCCCCGCGCCG-3′ (FRAG. NO：2245) (SEQ. ID NO：2258)

5′-GGGGCCCCGCGCC-3′ (FRAG. NO：2246) (SEQ. ID NO：2259)

5′-GGGGCCCCGCGC-3′ (FRAG. NO：2247) (SEQ. ID NO：2260)

5′-GGGCCCCGCGCCGCCCGCC-3′ (FRAG. NO：2248) (SEQ. ID NO：2261)

5′-GGCCCCGCGCCGCCCGCC-3′ (FRAG. NO：2249) (SEQ. ID NO：2262)

5′-GCCCCGCGCCGCCCGCC-3′ (FRAG. NO：2250) (SEQ. ID NO：2263)

5′-CCCCGCGCCGCCCGCC-3′ (FRAG. NO：2251) (SEQ. ID NO：2264)

5′-CCCGCGCCGCCCGCC-3′ (FRAG. NO：2252) (SEQ. ID NO：2265)

5′-CCGCGCCGCCCGCC-3′ (FRAG. NO：2253) (SEQ. ID NO：2266)

5′-CGCGCCGCCCGCC-3′ (FRAG. NO：2254) (SEQ. ID NO：2267)

5′-GCGCCGCCCGCC-3′ (FRAG. NO：2255) (SEQ. ID NO：2268)

5′-CGCCGCCCGCC-3′ (FRAG. NO：2256) (SEQ. ID NO：2269)

5′-GCCGCCCGCC-3′ (FRAG. NO：2257) (SEQ. ID NO：2270)

5′-GGGGCGCGCGGGGCCGCCGGG-3′ (FRAG. NO：2258) (SEQ. ID NO：2271)

5′-GGCGGGGBGCGGCBGGGCCCGGGCCC-3′ (FRAG. NO：2259) (SEQ. ID NO：2272)

5′-GGCGCGTCGCCGTCGCCCCBGTCGGGCTCGCGC-3′ (FRAG. NO：2260) (SEQ. ID NO：2273)

5′-GCGCGGGCBBCBGCGBGCCGGGCGCG-3′ (FRAG. NO：2261) (SEQ. ID NO：2274)

5′-GCGCBCGGGCCCBCCTGCGCGGGC-3′ (FRAG. NO：2262) (SEQ. ID NO：2275)

5′-GGGCGGGGTGGGCTGCCCTGCGGCCGCC-3′ (FRAG. NO：2263) (SEQ. ID NO：2276)

5′-GGGCTGCTGCGCGGCGGCTCCGGCGA-3′ (FRAG. NO：2264) (SEQ. ID NO：2277)

5′-CTCCCGGGCGGGGCCGGGCGCGGGG-3′ (FRAG. NO：2265) (SEQ. ID NO：2278)

5′-GGGCTGCCGCGGTCCGGGCCCCTCTTGCCGGCG-3′ (FRAG. NO：2266) (SEQ. ID NO：2279)

5′-GCGCTCGCGCCGCTGCCGG-3′ (FRAG. NO：2267) (SEQ. ID NO：2280)

5′-GCGCCGCTTGGCCTTGTCGCGGC-3′ (FRAG. NO：2268) (SEQ. ID NO：2281)

5′-GCTGCTCCBCGCGCTGG-3′ (FRAG. NO：2269) (SEQ. ID NO：2282)

5′-GCCGGBGGCCGGCCBGGTCCCGCG-3′ (FRAG. NO：2270) (SEQ. ID NO：2283)

5′-CCCGGCGGCCGGCBGGBBGGGCGGGCTGGGC-3′ (FRAG. NO：2271) (SEQ. ID NO：2284)

5′-GTCTCTCCCGCCCCGGCCGCGCG-3′ (FRAG. NO：2272) (SEQ. ID NO：2285)

5′-GGGCGTCCGCTCCGGGCCGTCGGG-3′ (FRAG. NO：2273) (SEQ. ID NO：2286)

5′-GCGGGCACGCGGCGGCTCTGGCGTCGGC-3′ (FRAG. NO：2274) (SEQ. ID NO：2287)

Bradykinin receptor nucleic acids and antisense oligonucleotide fragments

5′-GGTGBCBTTG BGCBTGTCGG CGCGGTCCCG TTBBGBGTGG GCCCGCCAGC CCAGCCACTC CACTTGGGGGCGGGTGGCCA GCACGAACAG CACCCAGAGG AAGGGGGGCG GCCCAGAAGG GCAGCCCGCA GGCCAGGATCAGGTCTGCTG CGGCCGGAGA TAATGGCATT CACCACGCGG CGGCCCAGCG CACGCCGCGC ATCCGGCCCGGGTTCTGACC TGCAGCCCCC GTCTCCTTGG CATTCCTGGG CCCCAGTCAC TCCTCTCCCT GCCCCCCTTG CTGGGGCAGGGACGGGGTG BCBTTGBGCB TGTCGGCGCG GTCCCGTTBB GBGTGGGCCC GCCAGCCCAG CCACTCCACT TGGGGGCGGGTGGCCAGCAC GAACAGCACC CAGAGGAAGG GGGGCGGCCC AGAAGGGCAG CCCGCAGGCC AGGATCAGGTCTGCTGCGGC CGGAGATAAT GGCATTCACC ACGCGGCGGC CCAGCGCACG CCGCGCATCC GGCCCGGGTTCTGACCTGCA GCCCCCGTCT CCTTGGCATT CCTGGGCCCC AGTCACTCCT CTCCCTGCCC CCCTTGCTGG GGCAGGGACGGCCGTGTTGT CBGTGGTGCT GCCCGTTTGB GGTBTGGCGC TCCBCCBBTT CCCTTTTCTC CTTGTTTTCC GTTTCTCTTGCCGTCTGTGG TT CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCTGCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACATCTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCAATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACAGCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGGGGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGATCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTATTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACAACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAATAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGGAGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGCTGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCAGCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTAAAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCAGACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAATCAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTTCCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCATGTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAGTGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCCTGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTAGAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGATAAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGGAGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCTAAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGGCTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCTGGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTAGAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGAGGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAACCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACATGGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTCCCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAATTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGAGCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACCAAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAGGAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGTGACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCTCACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGCAAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCTGTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTGTTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGGAAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGCACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGCATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCTGGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATCTGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGTGAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTAGGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGACTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGTCCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGCCTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCTAAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGTCCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTCGAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAGCCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTAGTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCACAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCAGTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTGAGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATCTAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGAAGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAGTTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGACAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTGGAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATTCCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAAGTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGCTGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCAGAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCCACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGGGCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCCAGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTCTCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGTAGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCTGGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCAAGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGGCCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCCTTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCACACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTTTTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAGAGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCACGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAACAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAATGCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCACAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAGGGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAAACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCCTAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTCCTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGGGCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAACTTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAAAGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCATGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCTGCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACAACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTAGTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTTACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGCAGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCCAATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAGAAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTTAATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCGGTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC AACACTTGAGATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAGGCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCGGGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGGACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATGTCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGGCTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCGTCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCTGATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCCGCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTGGCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGATCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGAGGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCGTGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAACGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTGCTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTGCCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTCAACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGTGCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCATCTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGGGCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGACATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGCAGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTACTGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGGAGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAGGAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCTAGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGAGACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCACATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATCTCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAATACTATTGCA CACCACCTGT CCTGCCTC GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGACTGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTCTGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTGTGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGACACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTCAGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGCCAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCCACCCATAAAC TGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGTTATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCCCCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGTCCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAACTGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTGTCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCGTACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGCGTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAAGAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAGGGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGCCTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCACAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGGCTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGGCTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACTGAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCTGCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGTGGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGG CAGATTCACA AACTGCAGGA CTGGGCAGGGAGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTCAGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAAAACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCACGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCCAGGAGTGGAG GAGGCCTGGG GGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTGCCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAGTGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCCCTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTCTGTGCCAAAG AAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGCAAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGGCACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGAAGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTTTTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGGTGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTGAGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCTGGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCACACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATATTTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGGGAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGTTTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGGCAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGGAGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAGAACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGGCTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTGGAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAGAACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAAGGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAACATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGCTAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAATTTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGCCTCAGTAAGT ATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAATGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGCAGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCATGTGGGGATCC ACACCTGGTC TGAGGGGCAA CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAGATGCCCTGAT AAAGAACATC TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTTCACATCCAAA CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTTGCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGTGCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCGAGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGGCAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTTGCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAAAAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCCCAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGTTCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAAACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCCCTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGTGCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACACACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACAGCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAAGAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGTTTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAAGGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGAGGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATACTCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCTCCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCTCCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCCCCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGCACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATGGGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTCACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGTTCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTTTTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGCCATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCTCCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTGTTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCTGTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTTAGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGAAGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGGAGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTTATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCCAGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGGTGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCAGAGTAGAAGCAGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCTCTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGCACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGCCAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGTTAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAAATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGGCTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTTGGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAGGTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAAGCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCCTGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAAGAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTCTTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCCCTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCCAGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATCCTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCTGCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTGGTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAGGATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAACGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGCCTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAAAATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTGCAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAACATAGAAGCTC AGAGAGATCA AGCAATTTGCCCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCAAGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGTCTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGTTGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTTTGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGTTCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGTAGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGGTAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTCCAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTTGAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCATCACGGAAGC TTCAAGGAGG TCAAGGGTCC AACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCAAGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGGGCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCTCGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCTGAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGACCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCTCTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGGTGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGCCATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACCTGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTCCATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTCCTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTTGTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTGAGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGGAGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCTGCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAGCGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTC AACCCACTGGTGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGT GCCAGAAAGGGGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCAT CTCCGTGGAACGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGAATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGA CATCTATGCACGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGCAGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTACTGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGGAGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAGGAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCTAGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGAGACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCACATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATCTCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAATACTATTGCA CACCACCTGT CCTGCCTC CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGGTTGTCCTTAA CCCCTGTCTC CTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCACTTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCCCAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCACCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTACCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCCAACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCTGTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGCTGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTGAGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGTGCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCTCACTGATGGA CAAGGGAGGT CTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATATGCAGTATTGA GCACTGTAGG CAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAGACTCAAGTGG GAACGACTGG CACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTGTGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCTGTCCCTGCCT CAGTTCCCTC TTCTGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAAGTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTTACTATAAGGA AAAGACACTG AGGTCTAGA TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGTCATTGTGGTT CAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTGAACCCAGTAG GACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCTGATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCATGGTCTCCAA GCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACACGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAATCCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATACTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGGCTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCGGCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGGGGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCTTTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTGGGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGGCAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCATCACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCCTTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACAC CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACCACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTCCGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCCCATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT CTGCTGGGAGGACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTTGCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCAATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTT CAGAGGGCTTGTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCC AGATTAAGGAGCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCACTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGACTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGAAGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTTCTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAGCCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCCTTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACACCCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAATCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTCAGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATTCACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACGGGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGCAGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGTGCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAGATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACGGTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAGGGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTCCTTCCGGAGG GAGG CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCTGCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACATCTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCAATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACAGCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGGGGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGATCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTATTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACAACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAATAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGGAGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGCTGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCAGCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTAAAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCAGACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAATCAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTTCCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCATGTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAGTGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCCTGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGTATGAGCCCTAGAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGATAAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGGAGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCTAAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGGCTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCTGGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTAGAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGAGGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAACCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACATGGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTCCCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAATTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGAGCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACCAAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAGGAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGTGACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCTCACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGCAAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCTGTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTGTTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGGAAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGCACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGCATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCTGGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATCTGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGTGAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTAGGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGACTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGTCCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGCCTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCTAAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGTCCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTCGAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAGCCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTAGTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCACAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCAGTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTGAGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATCTAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGAAGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAGTTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGACAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTGGAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATTCCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAAGTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGCTGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCAGAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCCACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGGGCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCCAGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTCTCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGTAGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCTGGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCAAGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGGCCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCCTTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCACACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTTTTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAGAGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCACGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAACAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAATGCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCACAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAGGGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAAACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCCTAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTCCTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGGGCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAACTTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAAAGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCATGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCTGCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACAACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTAGTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTTACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGCAGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCCAATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAGAAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTTAATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCGGTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC AACACTTGAGATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAGGCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCGGGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGGACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATGTCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGGCTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCGTCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCTGATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCTCTTTGGGGAG ACGCTCTGCCGCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTGGCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGATCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGAGGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCGTGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAACGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTGCTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTGCCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTCAACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGTGCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCATCTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGGGCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGACATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGCAGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTACTGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGGAGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAGGAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCTAGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGAGACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCACATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATCTCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAATACTATTGCA CACCACCTGT CCTGCCTC TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGTCATTGTGGTT CAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTGAACCCAGTAG GACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCTGATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCATGGTCTCCAA GCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACACGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAATCCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATACTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGGCTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCGGCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGGGGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCTTTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTGGGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGGCAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCATCACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACAC CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACCACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTCCGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATCGATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGATCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAGGTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATTCACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTAAGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCCCATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT CTGCTGGGAGGACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTTGCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCAATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTT CAGAGGGCTTGTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCC AGATTAAGGAGCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCACTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGACTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGAAGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTTCTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAGCCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCCTTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACACCCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAATCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTCAGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATTCACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACGGGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGCAGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGTGCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAGATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACGGTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCCCAGCACAGAGGGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTCCTTCCGGAGG GAGG-3′ (FRAG. NO：2275)(SEQ. ID NO：3018)

5′- GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTTCAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCCAGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGGAGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAACTGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAAGTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCACTGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTTTCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAACTGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTGTCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCGTACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGCGTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAAGAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAGGGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGCCTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCACAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGGCTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGGCTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACTGAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCTGCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGTGGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGG-3′(FRAG.NO：2275)(SEQ.ID NO：2461)

5′- GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT -3′(FRAG.NO：2275) (SEQ. ID NO：2460)

5′- GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCC CATGCCGCTT GCTCCGGAGAAGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT CTGCTGGGAG GACAAACTGT CCCAGCACAGAGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTT-3′(FRAG. NO：2275)(SEQ. IDNO：2459)

5′- ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC ACGGCCTCTTTCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATGCCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTGGCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGATCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCATCTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCAGCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCGGATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCACCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCAGCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATCACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGACGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACCTTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCACACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAAGCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCCATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGCAGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGGGACAGTTGCT T-3′(FRAG. NO：2275)(SEQ. ID NO：2458)

5′- ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACC ACGGCCTCTTTCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATGCCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTGGCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGATCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCATCTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCAGCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCGGATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCACCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCAGCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATCACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGACGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACCTTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCACACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAAGCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCCATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGCAGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGGGACAGTTGCT T-3′(FRAG. NO：2275)(SEQ. ID NO：2457)

5′- TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT CAAGGACGTTAAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG AACCCAGTAG GACTATCTGGCTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCT GATAGAAGGT ACGGAAATACGATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAA GCCAGACTGGAATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACA CGGCTTTGAG AGGCTCAAAGGTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAAT CCTCCCATCA CGGAAGCTTCAAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATA CTGCAGAATA TCCAGTGGAGCCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGG CTCTGTAAGA CCCAGGGGAGTCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCG GCTTCTCCTT GCCCTGGCTGGTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGG GGTAACAGCC TCTTTTCCACTTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCCCAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCACCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTACCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCCAACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACAC CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCQAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA -3′(FRAG. NO：2275)(SEQ. ID NO：2456)

5′- CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAA CCCCTGTCTCCTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATGCTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGTGGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTCCTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC CTGGCCGCAGCAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCG ACTGGCTCTTTGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGAGCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAAGCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATGAAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC ATCTGGGAAGTGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT GTCATCACCT TCTGCACGAT GCAGATCATGCAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAGTCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTCGGCATCCTCTCCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC TTCATGGCCTACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC TTCCGAAAGA AGTCTTGGGAGGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA GAACCCATTC AGATGGAGAA CTCCATGGGCACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGTGAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCCCAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAGACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCAAGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCCAGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTGCCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAGTGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCCCTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGGAGGTCTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATAT GCAGTATTGA GCACTGTAGGCAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAG ACTCAAGTGG GAACGACTGGCACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGAAGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTCTTCTGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGGTGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGA-3′(FRAG. NO：2275)(SEQ. ID NO：2455)

5′- AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTCACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCTGGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTGTGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCCAAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAAAAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAGGAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCCTTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACTTCATTTCCTG TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTCCCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGGGATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACACACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCACTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCATGGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCCCATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAAGGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCACCTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTCAAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAACCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGTTCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCTGCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAATCCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGTCCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCCTCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGCGCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTATTAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAGCACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTGTATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCCCACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCCTCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACTCCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGACAAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGAAGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTGGAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGCCTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAATTTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACAGCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGATGAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTCAGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGCTGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAGCCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTACCCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGAGCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGAAACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCCATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAAAGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGTCCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGGGGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTCAGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTCTCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCCCTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCAACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGGGCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGCAGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAGTCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGATGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGCCCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACTTTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCGATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGCCCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATGAATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGAGCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAAAATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACCCTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTGACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCCCCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCCAGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAATGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGGGAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCCAACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGAAGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCACTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGTCTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGACATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGGAGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTTGTCCTCAGCGTCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCGCAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCTCTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGGTGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGCCAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACCATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGGAAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATCATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGCTAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGCCTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGGCCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTGGGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATGGGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGACAGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGGGCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCGGAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAGCCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTGGAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGCAAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTGTTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGGGTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCAAAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGGAAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCCACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGAGCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTC-3′(FRAG. NO：2275)(SEQ. ID NO：2454)

5′- CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATTTGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGGGAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGTTCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGAGGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGAACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGACCAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATATTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCCATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGAGACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAATAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAACAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTGGGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGGAGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCATTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAGTCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACCCCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCAACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGTATGAGCCCTA GAAGAGTGTGAAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATATTTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAACCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAGCTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTGGAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGGAATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAGGGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAACCTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGCTAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGCCCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACCCCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA-3′ (FRAG. NO：2275)(SEQ. IDNO：2453)

5′- GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTTCAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCCAGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGGAGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAACTGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAAGTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCACTGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTTTCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAACTGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTGTCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCGTACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGCGTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAAGAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAGGGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGCCTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCACAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGGCTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGGCTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACTGAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCTGCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGTGGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGG-3′(FRAG.. NO：2275) (SEQ. ID NO：2452)

5′- GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT-3′(FRAG. NO：2275)(SEQ. ID NO：2451)

5′- GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCC CATGCCGCTT GCTCCGGAGAAGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT CTGCTGGGAG GACAAACTGT CCCAGCACAGAGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTT-3′(FRAG. NO：2275)(SEQ. IDNO：2450)

5′- ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC ACGGCCTCTTTCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATGCCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTGGCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGATCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCATCTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCAGCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCGGATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCACCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCAGCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATCACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGACGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACCTTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCACACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAAGCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCCATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGCAGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGGGACAGTTGCT T-3′ (FRAG. NO：2275)(SEQ. ID NO：2449)

5′- ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACC ACGGCCTCTTTCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATGCCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTGGCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGATCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCATCTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCAGCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCGGATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCACCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCAGCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATCACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGACGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACCTTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCACACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAAGCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCCATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGCAGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGGGACAGTTGCT T-3′ (FRAG. NO：2275)(SEQ. ID NO：2448)

5′- TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT CAAGGACGTTAAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG AACCCAGTAG GACTATCTGGCTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCT GATAGAAGGT ACGGAAATACGATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAA GCCAGACTGGAATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACA CGGCTTTGAG AGGCTCAAAGGTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAAT CCTCCCATCACGGAAGCTTCAAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATA CTGCAGAATA TCCAGTGGAGCCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGG CTCTGTAAGA CCCAGGGGAGTCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCG GCTTCTCCTT GCCCTGGCTGGTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGG GGTAACAGCC TCTTTTCCACTTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCCCAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCACCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTACCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCCAACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACACCTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA-3′ (FRAG. NO：2275)(SEQ. ID NO：2447)

5′- CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAA CCCCTGTCTCCTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATGCTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGTGGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTCCTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC CTGGCCGCAGCAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCG ACTGGCTCTTTGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGAGCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAAGCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATGAAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC ATCTGGGAAGTGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT GTCATCACCT TCTGCACGAT GCAGATCATGCAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAGTCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTCGGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC TTCATGGCCTACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC TTCCGAAAGA AGTCTTGGGAGGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA GAACCCATTC AGATGGAGAA CTCCATGGGCACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGTGAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCCCAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAGACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCAAGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCCAGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTGCCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAGTGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCCCTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGGAGGTCTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATAT GCAGTATTGA GCACTGTAGGCAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAG ACTCAAGTGG GAACGACTGGCACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGAAGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTCTTCTGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGGTGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGA-3′ (FRAG. NO：2275) (SEQ. ID NO：2446)

5′- AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTCACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCTGGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTGTGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCCAAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAAAAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAGGAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCCTTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACTTCATTTCCTG TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTCCCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGGGATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACACACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCACTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCATGGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCCCATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAAGGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCACCTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTCAAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAACCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGTTCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCTGCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAATCCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGTCCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCCTCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGCGCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTATTAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAGCACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTGTATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCCCACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCCTCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACTCCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGACAAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGAAGAGGGGCTC AGGGAGGAGA AGGGCACATTCCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTGGAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGCCTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAATTTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACAGCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGATGAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTCAGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGCTGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAGCCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTACCCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGAGCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGAAACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCCATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAAAGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGTCCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGGGGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTCAGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTCTCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCCCTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCAACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGGGCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGCAGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAGTCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGATGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGCCCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACTTTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCGATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGCCCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATGAATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGAGCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAAAATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACCCTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTGACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCCCCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCCAGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAATGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGGGAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCCAACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGAAGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCACTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGTCTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGACATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGGAGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTTGTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCGCAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCTCTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGGTGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGCCAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACCATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGGAAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATCATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGCTAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGCCTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGGCCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTGGGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATGGGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGACAGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGGGCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCGGAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAGCCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTGGAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGCAAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTGTTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGGGTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCAAAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGGAAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCCACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGAGCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTC-3′(FRAG. NO：2275)(SEQ. D NO：2445)

5′-CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATTTGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGGGAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGTTCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGAGGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGAACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGACCAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATATTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCCATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGAGACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAATAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAACAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTGGGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGGAGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCATTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAGTCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACCCCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCAACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTGAAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATATTTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAACCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAGCTAGAAGCTG GAGGACTAGA ACCTGGAGGGCTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTGGAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGGAATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAGGGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAACCTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGCTAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGCCCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACCCCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA-3′ (FRAG. NO：2275)(SEQ. IDNO：2444)

5′- GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTTCAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCCAGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGGAGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAACTGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAAGTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCACTGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTTTCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCT GCAGATAGTTAGTAAGTCTT TGAGCAAAACTGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTGTCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCGTACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGCGTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAAGAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAGGGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGCCTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCACAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGGCTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGGCTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACTGAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCTGCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGTGGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGG-3′(FRAG. NO：2275) (SEQ. ID NO：2443)

5′- GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGACGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTGCTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTCCCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT-3′(FRAG. NO：2275)(SEQ. ID NO：2442)

5′- AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTCACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCTGGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTGTGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCCAAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAAAAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAGGAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCCTTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACTTCATTTCCTG TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTCCCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGGGATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACACACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCACTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCATGGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCCCATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAAGGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCACCTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTCAAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAACCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGTTCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCTGCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAATCCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGTCCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCCTCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGCGCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTATTAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAGCACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTGTATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCCCACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCCTCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACTCCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGACAAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGAAGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTGGAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGCCTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAATTTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACAGCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGATGAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTCAGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGCTGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAGCCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTACCCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGAGCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGAAACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCCATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAAAGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGTCCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGGGGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTCAGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTCTCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCCCTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCAACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGGGCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGCAGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAGTCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGATGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGCCCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACTTTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCGATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGCCCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATGAATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGAGCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAAAATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACCCTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTGACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCCCCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCCAGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAATGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGGGAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCCAACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGAAGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCACTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGTCTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGACATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGGAGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTTGTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCGCAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCTCTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGGTGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGCCAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACCATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGGAAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATCATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGCTAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGCCTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGGCCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTGGGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATGGGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGACAGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGGGCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCGGAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAGCCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTGGAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGCAAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTGTTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGGGTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCAAAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGGAAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCCACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGAGCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTC-3′(FRAQ. NO：_)(SEQ. ID NO2441)

5′-CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATTTGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGGGAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGTTCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGAGGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGAACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGACCAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATATTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCCATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGAGACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAATAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAACAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTGGGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGGAGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCATTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAGTCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACCCCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCAACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTGAAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATATTTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAACCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAGCTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTGGAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGGAATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAGGGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAACCTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGCTAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGCCCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACCCCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA -3′ (FRAQ. NO：_)(SEQ. ID NO2431)

5′-GGTGBCBTTGBGCBTGTCGGCGC-3′ (FRAG. NO：2276) (SEQ. ID NO：2289)

5′-GGTCCCGTTBBGBGTGGGCCC-3′ (FRAG. NO：2277) (SEQ. ID NO：2290)

5′-GCCAGCCCAGCCACTCCACTTGGGGGC-3′ (FRAG. NO：2278) (SEQ. ID NO：2291)

5′-GGGTGGCCAGCACGAACAGCACCCAGAGGAAGGGGGGC-3′ (FRAG. NO：2279) (SEQ. ID NO：2292)

5′-GGCCCAGAAGGGCAGCCCGCAGGCCAGGATCAGGTCTGCTGCGGCC-3′(FRAG.NO：2280)(SEQ.ID NO：2293)

5′-GGAGATAATGGCATTCACCACGCGGC-3′ (FRAG. NO：2281) (SEQ. ID NO：2294)

5′-GGCCCAGCGCACGCCGCGCATCCGGCCC-3′ (FRAG. NO：2282) (SEQ. ID NO：2295)

5′-GGGTTCTGACCTGCAGCCCCC-3′ (FRAG. NO：2283) (SEQ. ID NO：2296)

5′-GTCTCCTTGGCATTCCTGGGCCC-3′ (FRAG. NO：2284) (SEQ. ID NO：2297)

5′-CAGTCACTCCTCTCCCTGCCCCC-3′ (FRAG. NO：2285) (SEQ. ID NO：2298)

5′-CTTGCTGGGGCAGGGACGG-3′ (FRAG. NO：2286) (SEQ. ID NO：2299)

5′-GGTGBCBTTGBGCBTGTCGGCGC-3′ (FRAG. NO：2287) (SEQ. ID NO：2300)

5′-GGTCCCGTTBBGBGTGGGCCC-3′ (FRAG. NO：2288) (SEQ. ID NO：2301)

5′-GCCAGCCCAGCCACTCCACTTGGGGGC-3′ (FRAG. NO：2289) (SEQ. ID NO：2302)

5′-GGGTGGCCAGCACGAACAGCACCCAGAGGAAGGGGGGC-3′ (FRAG. NO：2290) (SEQ. ID NO：2303)

5′-GGCCCAGAAGGGCAGCCCGCAGGCCAGGATCAGGTCTGCTGCGGCC-3′(FRAG.NO：229 I)(SEQ.ID NO：2304)

5′-GGAGATAATGGCATTCACCACGCGGC-3′ (FRAG. NO：2292) (SEQ. ID NO：2305)

5′-GGCCCAGCGCACGCCGCGCATCCGGCCC-3′ (FRAG. NO：2293) (SEQ. ID NO：2306)

5′-GGGTTCTGACCTGCAGCCCCC-3′ (FRAG. NO：2294) (SEQ. ID NO：2307)

5′-GTCTCCTTGGCATTCCTGGGCCC-3′ (FRAG. NO：2295) (SEQ. ID NO：2308)

5′-CAGTCACTCCTCTCCCTGCCCCC-3′ (FRAG. NO：2296) (SEQ. ID NO：2309)

5′-CTTGCTGGGGCAGGGACGG-3′ (FRAG. NO：2297) (SEQ. ID NO：2310)

5′-CCGTGTTGTCBGTGGTGCTG-3′ (FRAG. NO：2298) (SEQ. ID NO：2311)

5′-CCCGTTTGBGGTBTGGC-3′ (FRAG. NO：2299) (SEQ. ID NO：2312)

5′-GCTCCBCCBBTTCCCTTTTCTCC-3′ (FRAG. NO：2300) (SEQ. ID NO：2313)

5′-TTGTTTTCCGTTTCTCTTG-3′ (FRAG. NO：2301) (SEQ. ID NO：2314)

5′-CCGTCTGTGGTT-3′ (FRAG. NO：2302) (SEQ. ID NO：2315)

β 2 adrenoreceptor kinase nucleic acids and antisense oligonucleotide fragments

5′- GCCGCCGCCG CCAAGATGGC GGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG GCCATGGAGAAGAGCAAGGC CACGCCGGCC GCGCGCGCCA GCAAGAAGAT ACTGCTGCCC GAGCCCAGCA TCCGCAGTGTCATGCAGAAG TACCTGGAGG ACCGGGGCGA GGTGACCTTT GAGAAGATCT TTTCCCAGAA GCTGGGGTACCTGCTCTTCC GAGACTTCTG CCTGAACCAC CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGATCAAGAAGTA CGAGAAGCTG GAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCT TCGACTCATACATCATGAAG GAGCTGCTGG CCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCACCTGGGGAAGA AGCAGGTGCC TCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA AACCTCCGAGGGGACGTGTT CCAGAAATTC ATTGAGAGCG ATAAGTTCAC ACGGTTTTGC CAGTGGAAGA ATGTGGAGCTCAACATCCAC CTGACCATGA ATGACTTCAG CGTGCATCGC ATCATTGGGC GCGGGGGCTT TGGCGAGGTCTATGGGTGCC GGAAGGCTGA CACAGGCAAG ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGATGAAGCAGGG GGAGACCCTG GCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCCATTCATTGTC TGCATGTCAT ACGCGTTCCA CACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAACGGTGGGGACC TGCACTACCA CCTCTCCCAG CACGGGGTCT TCTCAGAGGC TGACATGCGC TTCTATGCGGCCGAGATCAT CCTGGGCCTG GAGCACATGC ACAACCGCTT CGTGGTCTAC CGGGACCTGA AGCCAGCCAACATCCTTCTG GACGAGCATG GCCACGTGCG GATCTCGGAC CTGGGCCTGG CCTGTGACTT CTCCAAGAAGAAGCCCCATG CCAGCGTGGG CACCCACGGG TACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACGACAGCAGTGC CGACTGGTTC TCTCTGGGGT GCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCGGCAGCACAAG ACCAAAGACA AGCATGAGAT CGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGACTCCTTCTCCC CTGAACTACG CTCCCTGCTG GAGGGGTTGC TGCAGAGGGA TGTCAACCGG AGATTGGGCTGCCTGGGCCG AGGGGCTCAG GAGGTGAAAG AGAGCCCCTT TTTCCGCTCC CTGGACTGGC AGATGGTCTTCTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGG GAGGTGAACG CGGCCGACGC CTTCGACATTGGCTCCTTCG ATGAGGAGGA CACAAAAGGA ATCAAGTTAC TGGACAGTGA TCAGGAGCTC TACCGCAACTTCCCCCTCAC CATCTCGGAG CGGTGGCAGC AGGAGGTGGC AGAGACTGTC TTCGACACCA TCAACGCTGAGACAGACCGG CTGGAGGCTC GCAAGAAAGC CAAGAACAAG CAGCTGGGCC ATGAGGAAGA CTACGCCCTGGGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGG GCAACCCCTT CCTGACCCAG TGGCAGCGGCGGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGG CGAGGGCGAG GCCCCGCAGA GCCTGCTGACCATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAG GAGCGCAAGT GCCTGCTCCT CAAGATCCGCGGTGGGAAAC AGTTCATTTT GCAGTGCGAT AGCGACCCTG AGCTGGTGCA GTGGAAGAAG GAGCTGCGCGACGCCTACCG CGAGGCCCAG CAGCTGGTGC AGCGGGTGCC CAAGATGAAG AACAAGCCGC GCTCGCCCGTGGTGGAGCTG AGCAAGGTGC CGCTGGTCCA GCGCGGCAGT GCCAACGGCC TCTGACCCGC CCACCCGCCTCCAGGAAGCT ACCTGGAGGA GGTGAGTCTT AGCGGATGAG TAGGAGTTGT CCACGGAGGA AGGTACACAGAAGGGCTTCC AGGCCCAGGA AACAGCAGAG GCACAGAAGT GAGAATGGGT GGGTGAGTTG GTGGGGAAACTCCAGGTGCA GAGGATGGTA GCGAAACAAA CTGGAGCATTAAGGTCCAAG TCCTCCAAGA TCTTGACTTGCAGATTAAGG AGTTTGTTCA CCTAATCTGC TTTGGGCAGA GTGTGGTGAG TCCTAGAGAC CCCTCTAGGT CTCTCCTCTCAGTAGCCCCA GAAGGCCTGG AGAGCTGCTT CTGGGTGCCA AGCAGGCAGT GACTCCATCA GATCTAGATTTGGGAAAAGC ATCCCTGGTC AGGGCCTGCA TCAGGGCAGT GGCTGGCCAT GAGGACCCTG AGAAGTAGACAGATTCACGG AGATTCTCAG GAGGCCAGAC AGGAGACTAT GGTGACAAAT TAGATTAGAG AAGGGGAGAGAATGAAGGAG CAGTTGGGGT AAAAGAAAAC TGAGGCTGAC ATGGGTATAT GGGTGGCGAG TGACTCACCACCCACTGAGA GGAGAACCTC ACAAGCTCTG ACATGCTCTG GTTCCAGGTT CTGTTGGGGC TGATCCAAGATGGTAGCCTA GAGGTGCACA GAGATGGGGG CCTTGCTTTG CAAAAGGATG CTGGCTGCTG GCCCACAGCATGGTAATGAG ATTTGAGCTT TATGTGCCCA GGGCTGGGAG GAGGGTCCTG TCACTTTGAA AGCAAAGAGAGGCTCTAGAG AGGGGCATGT TGAGATAGGA ATGCTGCCTT GAGACACCTG GCTTTCCCCA CTCTGGGTGGCTCTCAGCAG GGTGGGTTTC CCCTGCCAGG CAGCACTGAA CCTCTGTGCG CTTCCGGCTG GGAGAGTTTT TACCGTAACTACATGTGGAA CCATCCTGAA GGAACATCTG GATGGGATGG GGTACAGGGA AGGGAGCTGC CAAGAGTGCTGGCCAGGGAC CTGGGTCTAT GAGCTGGTTG GGGGGTGGGG TTGGGTGCAG GGTACTTGAT CCTGAGTGGGCCTTCTGCGG CCAGGATTGG TTCTAGAGTA GGAGGGGTGG GATCGGGGAT GGGGGAAGCC TGTAACTGCGCTGCAGTTGT CAGGTCCCAG GTTCTGGGTG ACCTACTAAG GATTCTGGGT CCAGTGTGGG TCCCAGGTTA GACGTCCTAGTCCTGAGTCC GTGTCCACAG TTCTGGGTGT TGAGTCTAGG ACAGTGATCT GGAGTTGACA GTCCAATCTA GGTCTGAGTCCTGACCCCAA GTCTAGAGTT CAGGGTCATG GTAGTAGCCT AGGGTCAGAA TCAAGGTTGG GGTCAGTAACCAGGATGGGA TCGAGGTCAT GGTCCAAAAT CTGGATCTGG GGACCTGTTG GGGGTCTGAG GTGAGTGTCGCAGTCTGGGT ATGGCGTTGG AGACCCAGGG CTGTGATCTG AGGTCATGGT TAGAGTCTCA GGTGGTGGGCCAAGGTTTGA GTCTGGGGTC CTGTTTGGAG TCTGGTGTCA GGTCGTGGAC TGCGTCCAAG GTCAGGGAGTCCGGGGTTAT AGCCAGGGTC TGAGATGAAA GTCCCAGATG GTGTTCAGAG GTCTGAATCT GTGTCTTGGTGAGCGTCCAG GTTCCCTGTG ATCACGTTTG GTGTCAGGGC TGCGGCCCGA CTGGGGAGCC TGGGATCCAGAGATGTGACC CGAGGTTGTG GTCAGAGAAT GGGTCTCGGG TCGTCTTCGT GCCGGGTCCC TGTCGTGTTCCAGGCCCGGG TCTCCGTCCA GCATCGAGGG CCGAGGTCAC GGCCAGGGTC TGAGCCCGCG GTCGCAGGTCTGGTTCGGGGTCAGATTCCG CGCGGCCTCC AGGGGGCGCC GTCGCCGCCC GGCTCGGCCC CTCGCGGGCTCGCTGGCGTT GTGCGCGGCA GGCGGGGCCG GAGGCGGCGG CGGCTCCGGG GGCGCGGGCC GGGCGGCGGCGGCGGCGGCG CCCCGACTGC AGTCCCGGCG GGAGCGGAGC GCGAAGCGCG GGGCCGGGCC CGGAGCCGGCGCCATGGGGC GGCGCCGCCT GTGAGCGGCG GCGAGCGGAG CCGCGGGCGC CGAGCAGGGC CAGGCGGGAGCGTCGGCGCC CGAGGCCGAG CGAGCCGCGG CCGGGCCGGG CCGAGCGCCG AGCGAGCAGG AGCGGCGGCGGCGGCGGCGG CGGCGGGAGG AGGCAGCGCC GCCGCCAAGA TGGCGGACCT GGAGGCGGTG CTGGCCGACGTGAGCTACCT GATGGCCATG GAGAAGAGCA AGGCCACGCC GGCCGCGCGC GCCAGCAAGA AGATACTGCTGCCCGAGCCC AGGTGAGGAG AAGCT-3′(FRAG. NO：_)(SEQ. ID NO：2430)

5′-CCAGGAAGCT ACCTGGAGGA GGTGAGTCTT AGCGGATGAG TAGGAGTTGT CCACGGAGGA AGGTACACAGAAGGGCTTCC AGGCCCAGGA AACAGCAGAG GCACAGAAGT GAGAATGGGT GGGTGAGTTG GTGGGGAAACTCCAGGTGCA GAGGATGGTA GCGAAACAAA CTGGAGCATT AAGGTCCAAG TCCTCCAAGA TCTTGACTTGCAGATTAAGG AGTTTGTTCA CCTAATCTGC TTTGGGCAGA GTGTGGTGAG TCCTAGAGAC CCCTCTAGGT CTCTCCTCTCAGTAGCCCCA GAAGGCCTGG AGAGCTGCTT CTGGGTGCCA AGCAGGCAGT GACTCCATCA GATCTAGATTTGGGAAAAGC ATCCCTGGTC AGGGCCTGCA TCAGGGCAGT GGCTGGCCAT GAGGACCCTG AGAAGTAGACAGATTCACGG AGATTCTCAG GAGGCCAGAC AGGAGACTAT GGTGACAAAT TAGATTAGAG AAGGGGAGAGAATGAAGGAG CAGTTGGGGT AAAAGAAAAC TGAGGCTGAC ATGGGTATAT GGGTGGCGAG TGACTCACCACCCACTGAGA GGAGAACCTC ACAAGCTCTG ACATGCTCTG GTTCCAGGTT CTGTTGGGGC TGATCCAAGATGGTAGCCTA GAGGTGCACA GAGATGGGGG CCTTGCTTTG CAAAAGGATG CTGGCTGCTG GCCCACAGCATGGTAATGAG ATTTGAGCTT TATGTGCCCA GGGCTGGGAG GAGGGTCCTG TCACTTTGAA AGCAAAGAGAGGCTCTAGAG AGGGGCATGT TGAGATAGGA ATGCTGCCTT GAGACACCTG GCTTTCCCCA CTCTGGGTGGCTCTCAGCAG GGTGGGTTTC CCCTGCCAGG CAGCACTGAA CCTCTGTGCG CTTCCGGCTG GGAGAGTTTT TACCGTAACTACATGTGGAA CCATCCTGAA GGAACATCTG GATGGGATGG GGTACAGGGA AGGGAGCTGC CAAGAGTGCTGGCCAGGGAC CTGGGTCTAT GAGCTGGTTG GGGGGTGGGG TTGGGTGCAG GGTACTTGAT CCTGAGTGGGCCTTCTGCGG CCAGGATTGG TTCTAGAGTA GGAGGGGTGGGATCGGGGAT GGGGGAAGCC TGTAACTGCGCTGCAGTTGT CAGGTCCCAG GTTCTGGGTG ACCTACTAAG GATTCTGGGT CCAGTGTGGG TCCCAGGTTA GACGTCCTAGTCCTGAGTCC GTGTCCACAG TTCTGGGTGT TGAGTCTAGG ACAGTGATCT GGAGTTGACA GTCCAATCTA GGTCTGAGTCCTGACCCCAA GTCTAGAGTT CAGGGTCATG GTAGTAGCCT AGGGTCAGAA TCAAGGTTGG GGTCAGTAACCAGGATGGGA TCGAGGTCAT GGTCCAAAAT CTGGATCTGG GGACCTGTTG GGGGTCTGAG GTGAGTGTCGCAGTCTGGGT ATGGCGTTGG AGACCCAGGG CTGTGATCTG AGGTCATGGT TAGAGTCTCA GGTGGTGGGCCAAGGTTTGA GTCTGGGGTC CTGTTTGGAG TCTGGTGTCA GGTCGTGGAC TGCGTCCAAG GTCAGGGAGTCCGGGGTTAT AGCCAGGGTC TGAGATGAAA GTCCCAGATG GTGTTCAGAG GTCTGAATCT GTGTCTTGGTGAGCGTCCAG GTTCCCTGTG ATCACGTTTG GTGTCAGGGC TGCGGCCCGA CTGGGGAGCC TGGGATCCAGAGATGTGACC CGAGGTTGTG GTCAGAGAAT GGGTCTCGGG TCGTCTTCGT GCCGGGTCCC TGTCGTGTTCCAGGCCCGGG TCTCCGTCCA GCATCGAGGG CCGAGGTCAC GGCCAGGGTC TGAGCCCGCG GTCGCAGGTCTGGTTCGGGG TCAGATTCCG CGCGGCCTCC AGGGGGCGCC GTCGCCGCCC GGCTCGGCCC CTCGCGGGCTCGCTGGCGTT GTGCGCGGCA GGCGGGGCCG GAGGCGGCGG CGGCTCCGGG GGCGCGGGCC GGGCGGCGGCGGCGGCGGCG CCCCGACTGC AGTCCCGGCG GGAGCGGAGC GCGAAGCGCG GGGCCGGGCC CGGAGCCGGCGCCATGGGGC GGCGCCGCCT GTGAGCGGCG GCGAGCGGAG CCGCGGGCGC CGAGCAGGGC CAGGCGGGAGCGTCGGCGCC CGAGGCCGAG CGAGCCGCGG CCGGGCCGGG CCGAGCGCCG AGCGAGCAGG AGCGGCGGCGGCGGCGGCGG CGGCGGGAGG AGGCAGCGCC GCCGCCAAGA TGGCGGACCT GGAGGCGGTG CTGGCCGACGTGAGCTACCT GATGGCCATG GAGAAGAGCA AGGCCACGCC GGCCGCGCGC GCCAGCAAGA AGATACTGCTGCCCGAGCCC AGGTGAGGAG AAGCT-3′(FRAG. NO：_)(SEQ. ID NO：2429)

5′-GCCGCCGCCG CCAAGATGGC GGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG GCCATGGAGAAGAGCAAGGC CACGCCGGCC GCGCGCGCCA GCAAGAAGAT ACTGCTGCCC GAGCCCAGCA TCCGCAGTGTCATGCAGAAG TACCTGGAGG ACCGGGGCGA GGTGACCTTT GAGAAGATCT TTTCCCAGAA GCTGGGGTACCTGCTCTTCC GAGACTTCTG CCTGAACCAC CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGATCAAGAAGTA CGAGAAGCTG GAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCT TCGACTCATACATCATGAAG GAGCTGCTGG CCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCACCTGGGGAAGA AGCAGGTGCC TCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA AACCTCCGAGGGGACGTGTT CCAGAAATTC ATTGAGAGCG ATAAGTTCAC ACGGTTTTGC CAGTGGAAGA ATGTGGAGCTCAACATCCAC CTGACCATGA ATGACTTCAG CGTGCATCGC ATCATTGGGC GCGGGGGCTT TGGCGAGGTCTATGGGTGCC GGAAGGCTGA CACAGGCAAG ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGATGAAGCAGGG GGAGACCCTG GCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCCATTCATTGTC TGCATGTCAT ACGCGTTCCA CACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAACGGTGGGGACC TGCACTACCA CCTCTCCCAG CACGGGGTCT TCTCAGAGGC TGACATGCGC TTCTATGCGGCCGAGATCAT CCTGGGCCTG GAGCACATGC ACAACCGCTT CGTGGTCTAC CGGGACCTGA AGCCAGCCAACATCCTTCTG GACGAGCATG GCCACGTGCG GATCTCGGAC CTGGGCCTGG CCTGTGACTT CTCCAAGAAGAAGCCCCATG CCAGCGTGGG CACCCACGGG TACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACGACAGCAGTGC CGACTGGTTC TCTCTGGGGT GCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCGGCAGCACAAG ACCAAAGACA AGCATGAGAT CGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGACTCCTTCTCCC CTGAACTACG CTCCCTGCTG GAGGGGTTGC TGCAGAGGGA TGTCAACCGG AGATTGGGCTGCCTGGGCCG AGGGGCTCAG GAGGTGAAAG AGAGCCCCTT TTTCCGCTCC CTGGACTGGC AGATGGTCTTCTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGG GAGGTGAACG CGGCCGACGC CTTCGACATTGGCTCCTTCG ATGAGGAGGA CACAAAAGGA ATCAAGTTAC TGGACAGTGA TCAGGAGCTC TACCGCAACTTCCCCCTCAC CATCTCGGAG CGGTGGCAGC AGGAGGTGGC AGAGACTGTC TTCGACACCA TCAACGCTGAGACAGACCGG CTGGAGGCTC GCAAGAAAGC CAAGAACAAG CAGCTGGGCC ATGAGGAAGA CTACGCCCTGGGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGG GCAACCCCTT CCTGACCCAG TGGCAGCGGCGGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGG CGAGGGCGAG GCCCCGCAGA GCCTGCTGACCATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAG GAGCGCAAGT GCCTGCTCCT CAAGATCCGCGGTGGGAAAC AGTTCATTTT GCAGTGCGAT AGCGACCCTG AGCTGGTGCA GTGGAAGAAG GAGCTGCGCGACGCCTACCG CGAGGCCCAG CAGCTGGTGC AGCGGGTGCC CAAGATGAAG AACAAGCCGC GCTCGCCCGTGGTGGAGCTG AGCAAGGTGC CGCTGGTCCA GCGCGGCAGT GCCAACGGCC TCTGACCCGC CCACCCGCCT-3′ (FRAG.NO：_)(SEQ. ID NO：2428)

CCR-2CC chemokine receptor nucleic acids and antisense oligonucleotide fragments

5′-CTTTGTGAAG AAGGAATTGG CAACACTGAA ACCTCCAGAA CAAAGGCTGT CACTAAGGTC CCGCTGCCTTGATGGATTAT ACACTTGACC TCAGTGTGAC AACAGTGACC GACTACTACT ACCCTGATAT CTTCTCAAGC CCCTGTGATGCGGAACTTAT TCAGACAAAT GGCAAGTTGC TCCTTGCTGT CTTTTATTGC CTCCTGTTTG TATTCAGTCT TCTGGGAAACAGCCTGGTCA TCCTGGTCCT TGTGGTCTGC AAGAAGCTGA GGAGCATCAC AGATGTATAC CTCTTGAACC TGGCCCTGTCTGACCTGCTT TTTGTCTTCT CCTTCCCCTT TCAGACCTAC TATCTGCTGG ACCAGTGGGT GTTTGGGACT GTAATGTGCAAAGTGGTGTC TGGCTTTTAT TACATTGGCT TCTACAGCAG CATGTTTTTC ATCACCCTCA TGAGTGTGGA CAGGTACCTGGCTGTTGTCC ATGCCGTGTA TGCCCTAAAG GTGAGGACGA TCAGGATGGG CACAACGCTG TGCCTGGCAGTATGGCTAAC CGCCATTATG GCTACCATCC CATTGCTAGT GTTTTACCAA GTGGCCTCTG AAGATGGTGT TCTACAGTGTTATTCATTTT ACAATCAACA GACTTTGAAG TGGAAGATCT TCACCAACTT CAAAATGAAC ATTTTAGGCT TGTTGATCCCATTCACCATC TTTATGTTCT GCTACATTAA AATCCTGCAC CAGCTGAAGA GGTGTCAAAA CCACAACAAGACCAAGGCCA TCAGGTTGGT GCTCATTGTG GTCATTGCAT CTTTACTTTT CTGGGTCCCA TTCAACGTGG TTCTTTTCCTCACTTCCTTG CACAGTATGC ACATCTTGGA TGGATGTAGC ATAAGCCAAC AGCTGACTTA TGCCACCCATGTCACAGAAA TCATTTCCTT TACTCACTGC TGTGTGAACC CTGTTATCTA TGCTTTTGTT GGGGAGAAGT TCAAGAAACACCTCTCAGAA ATATTTCAGA AAAGTTGCAG CCAAATCTTC AACTACCTAG GAAGACAAAT GCCTAGGGAGAGCTGTGAAA AGTCATCATC CTGCCAGCAG CACTCCTCCC GTTCCTCCAG CGTAGACTAC ATTTTGTGAGGATCAATGAA GACTAAATAT AAAAAACATT TTCTTGAATG GCATGCTAGT AGCAGTGAGC AAAGGTGTGGGTGTGAAAGG TTTCCAAAAA AAGTTCAGCA TGAAGGATGC CGTGTGTGTT GTTGCCAACA CTTGGAACACAATGACTGGA GACATAGTTG TGCATGCCTG GCACAACATC AAGCCTGTGA TTGTGTTTAT TGATGATGTTGAACAAGTGG TGGCTTTGAG GGATTCTGTA TGCCAAGTGG AAAAAAAAGA TGTCTCCGGA ATTCGACAGG TTATCA-3′(FRAG. NO：_)(SEQ. ID NO：2462)

CCR-4CC chemokine receptor nucleic acids and antisense oligonucleotide fragments

5' -TTTCATCTCT CCGGGCTTAT TTGCTGGTTT CTCCGAATGC GGGCCTTGTC TGGTTCACGC TGGATCCCCAACGCCTAGAA CAGTGCGTGG CACGCAGTTC GTCCTTCTAT AAATATCGGA CTAAATGCAT CTCTGTGATGGTAATACCCA CACGGTGTTG TGAGAATGAA TGAGTGATTC TGTGCAAGTT CCTAGTGATC TGTTACAAAAAGTACTGGTC GCTAAATTAC TCTTATAATA AAGCATACTT TTAGGATAAT AAAGCACTAT TCGCGAATTG GTTACCGCTATTATGAAATT ACTGAGCAAT ACATATCTAC ATCTGATCAG TCTCCAGAAT TATGCCAAAT CCTACCTTCT TCTGAAAGTATCTCCTAATT ATCTGCACCT GACCCTAGTG ATGCTGTGAA TGTGCAAGTA TAGCTACATC CTCCGAAGGA AGGATCTTTACTCCTTTTAC CTCCTGAATG GGCTGCGTCT GCTGAAAGCG CGGGGGAATG GGCGGTTGGA AGCTTGGCCCTACTTCCAGC ATTGCCGCCT ACTGGTTGGG TTACTCCAGC AAGTCACTCC CCTTCCCTGG GCCTCAGTGT CTCTACTGTAGCATTCCCAG GTCTGGAATT CCATCCACTT TAGCAAGGAT GGACGCGCCA CAGAGAGACG CGTTCCTAGCCCGCGCTTCC CACCTGTCTT CAGGCGCATC CCGCTTCCCT CAAACTTAGG AAATGCCTCT GGGAGGTCCT GTCCGGCTCCGGACTCACTA CCGACCACCC GCAAACAGCA GGGTCCCCTG GGCTTCCCAA GCCGCGCACC TCTCCGCCCCGCCCCTGCGC CCTCCTTCCT CGCGTCTGCC CCTCTCCCCC ACCCCGCCTT CTCCCTCCCC GCCCCAGCGG CGCATGCGCCGCGCTCGGAG CGTGTTTTTA TAAAAGTCCG GCCGCGGCCA GAAACTTCAG TTTGTTGGCT GCGGCAGCAGGTAGCAAAGT GACGCCGAGG GCCTGAGTGC TCCAGTAGCC ACCGCATCTG GAGAACCAGC GGTTACCATGGAGGGGATCA GTGTAAGTCC AGTTTCAACC TGCTTTGTCA TAAATGTACA AACGTTTGAA CTTAGAGCGC AGCCCCTCTCCGAGCGGGCA GAAGCGGCCA GGACATTGGA GGTACCCGTA CTCCAAAAAA GGGTCACCGA AAGGAGTTTTCTTGACCATG CCTATATAGT GCGGGTGGGT GGGGGGGGAG CAGGATTGGA ATCTTTTTCT CTGTGAGTCGAGGAGAAACG ACTGGAAAGA GCGTTCCAGT GGCTGCATGT GTCTCCCCCT TGAGTCCCGC CGCGCGCGGCGGCTTGCACG CTGTTTGCAA ACGTAAGAAC ATTCTGTGCA CAAGTGCAGA GAAGGCGTGC GCGCTGCCTCGGGACTCAGA CCACCGGTCT CTTCCTTGGG GAAGCGGGGA TGTCTTGGAG CGAGTTACAT TGTCTGAATTTAGAGGCGGA GGGCGGCGTG CCTGGGCTGA CTTCCCAGGA GGAGATTGCG CCCGCTTTAA CTTCGGGGTTAAGCGCCTGG TGACTGTTCT TGACACTGGG TGCGTGTTTG TTAAACTCTG TGCGGCCGAC GGAGCTGTGC CAGTCTCCCAGCACAGTAGG CAGAGGGCGG GAGAGGCGGG TGGACCCACC GCGCCGATCC TCTGAGGGGA TCGAGTGGTGGCAGCAGCTA GGAGTTGATC CGCCCGCGCG CTTTGGGTTT GAGGGGGAAA CCTTCCCGCC GTCCGAAGCGCGCCTCTTCC CCACGGCCGC GAGTGGGTCC TGCAGTTCGA GAGTTTGGGG TCGTGCAGAG GTCAGCGGAGTGGTTTGACC TCCCCTTTGA CACCGCGCAG CTGCCAGCCC TGAGATTTGC GCTCCGGGGA TAGGAGCGGGTACGGGGTGA GGGGCGGGGG CGGTTAAGAC CGCACCTGGG CTGCCAGGTC GCCGCCGCGA AGACTGGCAGGTGCAAGTGG GGAAACCGTT TGGCTCTCTC CGAGTCCAGT TGTGATGTTT AACCGTCGGT GGTTTCCAGA AACCTTTTGAAACCCTCTTG CTAGGGAGTT TTTGGTTTCC TGCAGCGGCG CGCAATTCAA AGACGCTCGC GGCGGAGCCGCCCAGTCGCT CCCCAGCACC CTGTGGGACA GAGCCTGGCG TGTCGCCCAG CGGAGCCCCT GCAGCGCTGCTTGCGGGCGG TTGGCGTGGG TGTAGTGGGC AGCCGCGGCG GCCCGGGGCT GGACGACCCG GCCCCCCGCGTGCCCACCGC CTGGAGGCTT CCAGCTGCCC ACCTCCGGCC GGGTTAACTG GATCAGTGGC GGGGTAATGGGAAGCCACCC GGGAGAGTGA GGAAATGAAA CTTGGGGCGA GGACCACGGG TGCAGACCCC GTTACCTTCTCCACCCAGGA AAATGCCCCG CTCCCTAACG TCCCAAACGC GCCAAGTGAT AAACACGAGG ATGGCAAGAGACCCACACAC CGGAGGAGCG CCCGCTTGGG GGAGGAGGTG CCGTTTGTTC ATTTTCTGAC ACTCCCGCCCAATATACCCC AAGCACCGAA GGGCCTTCGT TTTAAGACCG CATTCTCTTT ACCCACTACA AGTTGCTTGA AGCCCAGAATGGTTTGTATT TAGGCAGGCG TGGGAAAATT AAGTTTTTGC GCTTTAGGAG AATGAGTCTT TGCAACGCCC CCGCCCTCCCCCCGTGATCC TCCCTTCTCC CCTCTTCCCT CCCTGGGCGA AAAACTTCTT ACAAAAAGTT AATCACTGCC CCTCCTAGCAGCACCCACCC CACCCCCCAC GCCGCCTGGG AGTGGCCTCT TTGTGTGTAT TTTTTTTTTC CTCCTAAGGA AGGTTTTTTTTCTTCCCTCT AGTGGGCGGG GCAGAGGAGT TAGCCAAGAT GTGACTTTGA AACCCTCAGC GTCTCAGTGC CCTTTTGTTCTAAACAAAGA ATTTTGTAAT TGGTTCTACC AAAGAAGGAT ATAATGAAGT CACTATGGGA AAAGATGGGGAGGAGAGTTG TAGGATTCTA CATTAATTCT CTTGTGCCCT TAGCCCACTA CTTCAGAATT TCCTGAAGAA AGCAAGCCTGAATTGGTTTT TTAAATTGCT TTAAAAATTT TTTTTAACTG GGTTAATGCT TGCTGAATTG GAAGTGAATG TCCATTCCTTTGCCTCTTTT GCAGATATAC ACTTCAGATA ACTACACCGA GGAAATGGGC TCAGGGGACT ATGACTCCATGAAGGAACCC TGTTTCCGTG AAGAAAATGC TAATTTCAAT AAAATCTTCC TGCCCACCAT CTACTCCATC ATCTTCTTAACTGGCATTGT GGGCAATGGA TTGGTCATCC TGGTCATGGG TTACCAGAAG AAACTGAGAA GCATGACGGACAAGTACAGG CTGCACCTGT CAGTGGCCGA CCTCCTCTTT GTCATCACGC TTCCCTTCTG GGCAGTTGAT GCCGTGGCAAACTGGTACTT TGGGAACTTC CTATGCAAGG CAGTCCATGT CATCTACACA GTCAACCTCT ACAGCAGTGT CCTCATCCTGGCCTTCATCA GTCTGGACCG CTACCTGGCC ATCGTCCACG CCACCAACAGTCAGAGGCCA AGGAAGCTGTTGGCTGAAAA GGTGGTCTAT GTTGGCGTCT GGATCCCTGC CCTCCTGCTG ACTATTCCCG ACTTCATCTT TGCCAACGTCAGTGAGGCAG ATGACAGATA TATCTGTGAC CGCTTCTACC CCAATGACTT GTGGGTGGTT GTGTTCCAGT TTCAGCACATCATGGTTGGC CTTATCCTGC CTGGTATTGT CATCCTGTCC TGCTATTGCA TTATCATCTC CAAGCTGTCA CACTCCAAGGGCCACCAGAA GCGCAAGGCC CTCAAGACCA CAGTCATCCT CATCCTGGCT TTCTTCGCCT GTTGGCTGCC TTACTACATTGGGATCAGCA TCGACTCCTT CATCCTCCTG GAAATCATCA AGCAAGGGTG TGAGTTTGAG AACACTGTGCACAAGTGGAT TTCCATCACC GAGGCCCTAG CTTTCTTCCA CTGTTGTCTG AACCCCATCC TCTATGCTTT CCTTGGAGCCAAATTTAAAA CCTCTGCCCA GCACGCACTC ACCTCTGTGA GCAGAGGGTC CAGCCTCAAG ATCCTCTCCAAAGGAAAGCG AGGTGGACAT TCATCTGTTT CCACTGAGTC TGAGTCTTCA AGTTTTCACT CCAGCTAACACAGATGTAAA AGACTTTTTT TTATACGATA AATAACTTTT TTTTAAGTTA CACATTTTTC AGATATAAAA GACTGACCAATATTGTACAG TTTTTATTGC TTGTTGGATT TTTGTCTTGT GTTTCTTTAG TTTTTGTGAA GTTTAATTGA CTTATTTATATAAATTTTTT TTGTTTCATA TTGATGTGTG TCTAGGCAGG ACCTGTGGCC AAGTTCTTAG TTGCTGTATG TCTCGTGGTAGGACTGTAGA AAAGGGAACT GAACATTCCA GAGCGTGTAG TGAATCACGT AAAGCTAGAA ATGATCCCCAGCTGTTTATG CATAGATAAT CTCTCCATTC CCGTGGAACG TTTTTCCTGT TCTTAAGACG TGATTTTGCT GTAGAAGATGGCACTTATAA CCAAAGCCCA AAGTGGTATA GAAATGCTGG TTTTTCAGTT TTCAGGAGTG GGTTGATTTC AGCACCTACAGTGTACAGTC TTGTATTAAG TTGTTAATAA AAGTACATGT TAAACTTACT TAGTGTTATG TTCTGATTTC TGTTGACATTCTTTTGGCTA GTAGAAGACA AAAGTAATAC ATTTATGGTA TGCAAAGCAC TATCCTAGGT ATTTCATTGT AATATTTTACTTACCCCTTA TCACAACTCT GATAGATTCT GCTTCTGTTA CTAATTACAT TTTATAGAAG AGGAAACGGA GGCACAGAAAGCCTAAGTAA CTTGGTTAAA GGCATGTAGT AAGTATCAAA TCCTGTATTT TAAACCAGGT AACATGACTTAACGAATCTG AAGCCTTCAC CACTTTAAAT TCAAATGGAA GTTTAGAAAT GGCCAGCCAG CACCTATTTGTATGAAAGGT CATCTTTCAG AGGATAAGCA TGTATAAAGA AGAAAAGGTA TGCAGTCGTG TTTGGATTTTACTCCACCAT C-3' (FRAG. NO.: _) (SEQ. ID NO: 2463) CD-34 nucleic acids and antisense oligonucleotide fragments

5′-AGGATGATGG TGATGGGGAA CTAAATGGGG AAATATGGAA GGTCACAGGA AAAGTTAACA CAAGTTAGCAAAAGTTAAC ATAACACAAA AAGGTCTTGC AGGAAAAAAA AAAGAAAAGA AAAGAAAGAA AAAGTCTCCAAGAATGGTTT GGACAGCCAA AATGAATACT TATAGTCACG TATACCTGCT CACTCCTGAC GCTTCACTCACACACAGCAC AGGATCTGGT GAGGCTATCA TAAATGTGC CACATTGTGG TTAAGTTTTA CCTGATTAAC GAAATGCTCACACTTCTAAA CTGAGGTCCT TACAGTAGAT TCCTTTTGC AAGATTGTTA CTGGCTTACA ACTTAAAAAT AAAGGAAAATCACAAGGAAAG AAAAGTGGGG AAAAAATCGG AGGAAACTTG CCCCTGCCCT GGCCACCGGC AAGGCTGCCACAAAGGGGTT AAAAGTTAAG TGGAAGTGGA GCTTGAAGAA GTGGGATGGG GCCTCTCCAG GAAAGCTGAACGAGGCATCT GGAGCCCGAA CAAACCTCCA CCTTTTTTGG CCTCGACGGC GGCAACCCAG CCTCCCTCCTAACGCCCTCC GCCTTTGGGA CCAACCAGGG GAGCTCAAGT TAGTAGCAGC CAAGGAGAGG CGCTGCCTTGCCAAGACTAA AAAGGGAGGG GAGAAGAGAG GAAAAAAGCA AGAATCCCCC ACCCCTCTCC CGGGCGGAGGGGGCGGGAAG AGCGCGTCCT GGCCAAGCCG AGTAGTGTCT TCCACTCGGT GCGTCTCTCT AGGAGCCGCGCGGGAAGGAT GCTGGTCCGC AGGGGCGCGC GCGCAGGGCC CAGGATGCCG CGGGGCTGGA CCGCGCTTTGCTTGCTGAGT TTGCTGC CCTTTTTTGG CCTCGACGGC GGCAACCCAG CCTCCCTCCT AACGCCCTCC GCCTTTGGGACCAACCAGGG GAGCTCAAGT TAGTAGCAGC CAAGGAGAGG CGCTGCCTTG CCAAGACTAA AAAGGGAGGGGAGAAGAGAG GAAAAAAGCA AGAATCCCCC ACCCCTCTCC CGGGCGGAGG GGGCGGGAAG AGCGCGTCCTGGCCAAGCCG AGTAGTGTCT TCCACTCGGT GCGTCTCTCT AGGAGCCGCG CGGGAAGGAT GCTGGTCCGCAGGGGCGCGC GCGAGGGCCC AGGATGCCGC GGGGCTGGAC CGCGCTTTGC TTGCTGAGTT TGCTGCCTTCTGGGTTCATG AGTCTTGACA ACAACGGTAC TGCTACCCCA GAGTTACCTA CCCAGGGAAC ATTTTCAAAT GTTTCTACAAATGTATCCTA CCAAGAAACT ACAACACCTA GTACCCTTGG AAGTACCAGC CTGCACCCTG TGTCTCAACATGGCAATGAG GCCACAACAA ACATCACAGA AACGACAGTC AAATTCACAT CTACCTCTGT GATAACCTCAGTTTATGGAA ACACAAACTC TTCTGTCCAG TCACAGACCT CTGTAATCAG CACAGTGTTC ACCACCCCAG CCAACGTTTCAACTCCAGAG ACAACCTTGA AGCCTAGCCT GTCACCTGGA AATGTTTCAG ACCTTTCAAC CACTAGCACTAGCCTTGCAA CATCTCCCAC TAAACCCTAT ACATCATCTT CTCCTATCCT AAGTGACATC AAGGCAGAAA TCAAATGTTCAGGCATCAGA GAAGTGAAAT TGACTCAGGG CATCTGCCTG GAGCAAAATA AGACCTCCAG CTGTGCGGAGTTTAAGAAGG ACAGGGGAGA GGGCCTGGCC CGAGTGCTGT GTGGGGAGGA GCAGGCTGAT GCTGATGCTGGGGCCCAGGT ATGCTCCCTG CTCCTTGCCC AGTCTGAGGT GAGGCCTCAG TGTCTACTGC TGGTCTTGGCCAACAGAACA GAAATTTCCA GCAAACTCCA ACTTATGAAA AAGCACCAAT CTGACCTGAA AAAGCTGGGGATCCTAGATT TCACTGAGCA AGATGTTGCA AGCCACCAGA GCTATTCCCA AAAGACCCTG ATTGCACTGGTCACCTCGGG AGCCCTGCTG GCTGTCTTGG GCATCACTGG CTATTTCCTG ATGAATCGCC GCAGCTGGAGCCCCACAGGA GAAAGGCTGG GCGAAGACCC TTATTACACG GAAAACGGTG GAGGCCAGGG CTATAGCTCAGGACCTGGGA CCTCCCCTGA GGCTCAGGGA AAGGCCAGTG TGAACCGAGG GGCTCAGAAA AACGGGACCGGCCAGGCCAC CTCCAGAAAC GGCCATTCAG CAAGACAACA CGTGGTGGCT GATACCGAAT TGTGACTCGGCTAGGTGGGG CAAGGCTGGG CAGTGTCCGA GAGAGCACCC CTCTCTGCAT CTGACCACGT GCTACCCCCATGCTGGAGGT GACATCTCTT ACGCCCAACC CTTCCCCACT GCACACACCT CAGAGGCTGT TCTTGGGGCC CTACACCTTGAGGAGGGGGC AGGTAAACTC CTGTCCTTTA CACATTCGGC TCCCTGGAGC CAGACTCTGG TCTTCTTTGG GTAAACGTGTGACGGGGGAA AGCCAAGGTC TGGAGAAGCT CCCAGGAACA ATCGATGGCC TTGCAGCACT CACACAGGACCCCCTTCCCC TACCCCCTCC TCTCTGCCGC AATACAGGAA CCCCCAGGGG AAAGATGAGC TTTTCTAGGC TACAATTTTCTCCCAGGAAG CTTTGATTTT TACCGTTTCT TCCCTGTATT TTCTTTCTCT ACTTTGAGGA AACCAAAGTA ACCTTTTGCACCTGCTCTCT TGTAATGATA TAGCCAGAAA AACGTGTTGC CTTGAACCAC TTCCCTCATC TCTCCTCCAA GACACTGTGGACTTGGTCAC CAGCTCCTCC CTTGTTCTCT AAGTTCCACT GAGCTCCATG TGCCCCCTCT ACCATTTGCA GAGTCCTGCACAGTTTTCTG GCTGGAGCCT AGAACAGGCC TCCCAAGTTT TAGGACAAAC AGCTCAGTTC TAGTCTCTCTGGGGCCACAC AGAAACTCTT TTTGGGCTCC TTTTTCTCCC TCTGGATCAA AGTAGGCAGG ACCATGGGACCAGGTCTTGG AGCTGAGCCT CTCACCTGTA CTCTTCCGAA AAATCCTCTT CCTCTGAGGC TGGATCCTAG CCTTATCCTCTGATCTCCAT GGCTTCCTCC TCCCTCCTGC CGACTCCTGG GTTGAGCTGT TGCCTCAGTC CCCCAACAGA TGCTTTTCTGTCTCTGCCTC CCTCACCCTG AGCCCCTTCC TTGCTCTGCA CCCCCATATG GTCATAGCCC AGATCAGCTC CTAACCCTTATCACCAGCTG CCTCTTCTGT GGGTGACCCA GGTCCTTGTT TGCTGTTGAT TTCTTTCCAG AGGGGTTGAG CAGGGATCCTGGTTTCAATG ACGGTTGGAA ATAGAAATTT CCAGAGAAGA GAGTATTGGG TAGATATTTT TTCTGAATACAAAGTGATGT GTTTAAATAC TGCAATTAAA GTGATACTGA AACAC-3′(FRAG. No：_)(SEQ. ID NO：2466)

5′-AGGATGATGG TGATGGGGAA CTAAATGGGG AAATATGGAA GGTCACAGGA AAAGTTAACA CAAGTTAGCAAAAAGTTAAC ATAACACAAA AAGGTCTTGC AGGAAAAAAA AAAGAAAAGA AAAGAAAGAA AAAGTCTCCAAGAATGGTTT GGACAGCCAA AATGAATACT TATAGTCACG TATACCTGCT CACTCCTGAC GCTTCACTCACACACAGCAC AGGATCTGGT GAGGCTATCA CTAAATGTGC CACATTGTGG TTAAGTTTTA CCTGATTAACGAAATGCTCA CACTTCTAAA CTGAGGTCCT TACAGTAGAT TCCTTTTGCA AGATTGTTAC TGGCTTACAA CTTAAAAATAAAGGAAAATC ACAAGGAAAG AAAAGTGGGG AAAAAATCGG AGGAAACTTG CCCCTGCCCT GGCCACCGGCAAGGCTGCCA CAAAGGGGTT AAAAGTTAAG TGGAAGTGGA GCTTGAAGAA GTGGGATGGG GCCTCTCCAGGAAAGCTGAA CGAGGCATCT GGAGCCCGAA CAAACCTCCA CCTTTTTTGG CCTCGACGGC GGCAACCCAGCCTCCCTCCT AACGCCCTCC GCCTTTGGGA CCAACCAGGG GAGCTCAAGT TAGTAGCAGC CAAGGAGAGGCGCTGCCTTG CCAAGACTAA AAAGGGAGGG GAGAAGAGAG GAAAAAAGCA AGAATCCCCC ACCCCTCTCCCGGGCGGAGG GGGCGGGAAG AGCGCGTCCT GGCCAAGCCG AGTAGTGTCT TCCACTCGGT GCGTCTCTCTAGGAGCCGCG CGGGAAGGAT GCTGGTCCGC AGGGGCGCGC GCGCAGGGCC CAGGATGCCG CGGGGCTGGACCGCGCTTTG CTTGCTGAGT TTGCTGC-3′(FRAG. NO：_)(SEQ. ID NO：2464)

5′-CCTTTTTTGG CCTCGACGGC GGCAACCCAG CCTCCCTCCT AACGCCCTCC GCCTTTGGGA CCAACCAGGGGAGCTCAAGT TAGTAGCAGC CAAGGAGAGG CGCTGCCTTG CCAAGACTAA AAAGGGAGGG GAGAAGAGAGGAAAAAAGCA AGAATCCCCC ACCCCTCTCC CGGGCGGAGG GGGCGGGAAG AGCGCGTCCT GGCCAAGCCGAGTAGTGTCT TCCACTCGGT GCGTCTCTCT AGGAGCCGCG CGGGAAGGAT GCTGGTCCGC AGGGGCGCGCGCGAGGGCCC AGGATGCCGC GGGGCTGGAC CGCGCTTTGC TTGCTGAGTT TGCTGCCTTC TGGGTTCATGAGTCTTGACA ACAACGGTAC TGCTACCCCA GAGTTACCTA CCCAGGGAAC ATTTTCAAAT GTTTCTACAA ATGTATCCTACCAAGAAACT ACAACACCTA GTACCCTTGG AAGTACCAGC CTGCACCCTG TGTCTCAACA TGGCAATGAGGCCACAACAA ACATCACAGA AACGACAGTC AAATTCACAT CTACCTCTGT GATAACCTCA GTTTATGGAAACACAAACTC TTCTGTCCAG TCACAGACCT CTGTAATCAG CACAGTGTTC ACCACCCCAG CCAACGTTTCAACTCCAGAG ACAACCTTGA AGCCTAGCCT GTCACCTGGA AATGTTTCAG ACCTTTCAAC CACTAGCACTAGCCTTGCAA CATCTCCCAC TAAACCCTAT ACATCATCTT CTCCTATCCT AAGTGACATC AAGGCAGAAA TCAAATGTTCAGGCATCAGA GAAGTGAAATTGACTCAGGG CATCTGCCTG GAGCAAAATA AGACCTCCAG CTGTGCGGAGTTTAAGAAGG ACAGGGGAGA GGGCCTGGCC CGAGTGCTGT GTGGGGAGGA GCAGGCTGAT GCTGATGCTGGGGCCCAGGT ATGCTCCCTG CTCCTTGCCC AGTCTGAGGT GAGGCCTCAG TGTCTACTGC TGGTCTTGGCCAACAGAACA GAAATTTCCA GCAAACTCCA ACTTATGAAA AAGCACCAAT CTGACCTGAA AAAGCTGGGGATCCTAGATT TCACTGAGCA AGATGTTGCA AGCCACCAGA GCTATTCCCA AAAGACCCTG ATTGCACTGGTCACCTCGGG AGCCCTGCTG GCTGTCTTGG GCATCACTGG CTATTTCCTG ATGAATCGCC GCAGCTGGAGCCCCACAGGA GAAAGGCTGG GCGAAGACCC TTATTACACG GAAAACGGTG GAGGCCAGGG CTATAGCTCAGGACCTGGGA CCTCCCCTGA GGCTCAGGGA AAGGCCAGTG TGAACCGAGG GGCTCAGAAA AACGGGACCGGCCAGGCCAC CTCCAGAAAC GGCCATTCAG CAAGACAACA CGTGGTGGCT GATACCGAAT TGTGACTCGGCTAGGTGGGG CAAGGCTGGG CAGTGTCCGA GAGAGCACCC CTCTCTGCAT CTGACCACGT GCTACCCCCATGCTGGAGGT GACATCTCTT ACGCCCAACC CTTCCCCACT GCACACACCT CAGAGGCTGT TCTTGGGGCC CTACACCTTGAGGAGGGGGC AGGTAAACTC CTGTCCTTTA CACATTCGGC TCCCTGGAGC CAGACTCTGG TCTTCTTTGG GTAAACGTGTGACGGGGGAA AGCCAAGGTC TGGAGAAGCT CCCAGGAACA ATCGATGGCC TTGCAGCACT CACACAGGACCCCCTTCCCC TACCCCCTCC TCTCTGCCGC AATACAGGAA CCCCCAGGGG AAAGATGAGC TTTTCTAGGC TACAATTTTCTCCCAGGAAG CTTTGATTTT TACCGTTTCT TCCCTGTATT TTCTTTCTCT ACTTTGAGGA AACCAAAGTA ACCTTTTGCACCTGCTCTCT TGTAATGATA TAGCCAGAAA AACGTGTTGC CTTGAACCAC TTCCCTCATC TCTCCTCCAA GACACTGTGGACTTGGTCAC CAGCTCCTCC CTTGTTCTCT AAGTTCCACT GAGCTCCATG TGCCCCCTCT ACCATTTGCA GAGTCCTGCACAGTTTTCTG GCTGGAGCCT AGAACAGGCC TCCCAAGTTT TAGGACAAAC AGCTCAGTTC TAGTCTCTCTGGGGCCACAC AGAAACTCTT TTTGGGCTCC TTTTTCTCCC TCTGGATCAA AGTAGGCAGG ACCATGGGACCAGGTCTTGG AGCTGAGCCT CTCACCTGTA CTCTTCCGAA AAATCCTCTT CCTCTGAGGC TGGATCCTAG CCTTATCCTCTGATCTCCAT GGCTTCCTCC TCCCTCCTGC CGACTCCTGG GTTGAGCTGT TGCCTCAGTC CCCCAACAGA TGCTTTTCTGTCTCTGCCTC CCTCACCCTG AGCCCCTTCC TTGCTCTGCA CCCCCATATG GTCATAGCCC AGATCAGCTC CTAACCCTTATCACCAGCTG CCTCTTCTGT GGGTGACCCA GGTCCTTGTT TGCTGTTGAT TTCTTTCCAG AGGGGTTGAG CAGGGATCCTGGTTTCAATG ACGGTTGGAA ATAGAAATTT CCAGAGAAGA GAGTATTGGG TAGATATTTT TTCTGAATACAAAGTGATGT GTTTAAATAC TGCAATTAAA GTGATACTGA AACAC-3′(FRAG. No：_)(SEQ. ID NO：2465)

Eosinophil toxin antisense nucleic acids and oligonucleotide fragments

5′-GCATTTTTTC AAGTTTTATG ATTTATTTAA CTTGTGGAAC AAAAATAAAC CAGAAACCAC CACCTCTCACGCCAAAGCTC ACACCTTCAG CCTCCAACAT GAAGGTCTCC GCAGCACTTC TGTGGCTGCT GCTCATAGCA GCTGCCTTCAGCCCCCAGGG GCTCGCTGGG CCAGCTTCTG TCCCAACCAC CTGCTGCTTT AACCTGGCCA ATAGGAAGATACCCCTTCAG CGACTAGAGA GCTACAGGAG AATCACCAGT GGCAAATGTC CCCAGAAAGC TGTGATCTTCAAGACCAAAC TGGCCAAGGA TATCTGTGCC GACCCCAAGA AGAAGTGGGT GCAGGATTCC ATGAAGTATCTGGACCAAAA ATCTCCAACT CCAAAGCCAT AAATAATCAC CATTTTTGAA ACCAAACCAG AGCCTGAGTGTTGCCTAATT TGTTTTCCCT TCTTACAATG CATTCTGAGG TAACCTCATT ATCAGTCCAA AGGGCATGGG TTTTATTATATATATATATA TTTTTTTTTT AAAAAAAAAC GTATTGCATT TAATTTATTG AGGCTTTAAA ACTTATCCTC CATGAATATCAGTTATTTTT AAACTGTAAA GCTTTGTGCA GATTCTTTAC CCCCTGGGAG CCCCAATTCG ATCCCCTGTC ACGTGTGGGCAATGTTCCCC CTCTCCTCTC TTCCTCCCTG GAATCTTGTA AAGGTCCTGG CAAAGATGAT CAGTATGAAA ATGTCATTGTTCTTGTGAAC CCAAAGTGTG ACTCATTAAA TGGAAGTAAA TGTTGTTTTA GGAATAC ATGAAGGTCT CCGCAGCACTTCTGTGGCTG CTGCTCATAG CAGCTGCCTT CAGCCCCCAG GGGCTCGCTG GGCCAGCTTC TGTCCCAACC ACCTGCTGCTTTAACCTGGC CAATAGGAAG ATACCCCTTC AGCGACTAGA GAGCTACAGG AGAATCACCA GTGGCAAATGTCCCCAGAAA GCTGTGATCT TCAAGACCAA ACTGGCCAAG GATATCTGTG CCGACCCCAA GAAGAAGTGGGTGCAGGATT CCATGAAGTA TCTGGACCAA AAATCTCCAA CTCCAAAGCC ATAA CCACATATTC CCCTCCTTTTCCAAGGCAAG ATCCAGATGG ATTAAAAAAT GTACCAAGTC CCTCCTACTA GCTTGCCTCT CTTCTGTTCT GCTTGACTTCCTAGGATCTG GAATCTGGTC AGCAATCAGG AATCCCTTCA TCGTGACCCC CGCATGGGCA AAGGCTTCCCTGGAATCTCC CACACTGTCT GCTCCCTATA AAAGGCAGGC AGATGGGCCA GAGGAGCAGA GAGGCTGAGACCAACCCAGA AACCACCACC TCTCACGCCA AAGCTCACAC CTTCAGCCTC CAACATGAAG GTCTCCGCAGCACTTCTGTG GCTGCTGCTC ATAGCAGCTG CCTTCAGCCC CCAGGGGCTC GCTGGGCCAG GTAAGCCCCCCAACTCCTTA CAGGAAAGGT AAGGTAACCACCTCCAGGCT ACTAGGTCAG CAAGAATCTT TACAGACTCACTGCAAATTC TCCATTTGAA AAATAGGGAA ACAGGTTTTG TGGGTGGACA AGAAATGCCT CAACCGTCACATCCAGTCAC TGGAAGAGCC AGAACTAGAA AGCTCCCGAG TCTTTTCCCC ACATTCAAGA GGGCCGCTGGGTGCATCCTT ACCCAGCTAT CCTTACAGTG TTTGGGAATG GGGAATGGCT CTGTCTTACT GTGGGCATGG TGGGCATTTTTGGCAGTGGG AGAGAAGGAA AATCTGTTGA TTAGAAGCTC AGTATGTTAA TTCGACTCCA GGACAGCTTTCAGAGACAGT GGCTAAGAGA AGAACGAGGT CCCAGGGGAT CTCTTGAGGT GACTTATTTT GACACTCTTTGGGAAAGTTA TCTAGGAGAT TTGTTCCATA ACTCATTTTC CCATACTCTG GTGACAAATT TACTGAGTGT ATCGGTCCCACTGAGCCAGT GCATAGCATG GTAACAAACA GTTCTAAATT ATCAATGACT TAACAGAATT AACTAAATTAACAAAAGTTA CTTTCTCACT TGTACTAAAT ATCTATAATG TATGGGCTCA GGCTTCTGCA TTTTATACTC AGGATTCTAGACTGATGGAG AAGTTGCCAT GTGGGGGAAC ATTGATGGAT ACTGTGATAA AGCAGAAGAA AGCTCTCAGGAGTCTTGCAT AGGCAATGCA CTGTGGCTCA AAAATGACAC CCATCACTTT GTCTCCTTCT TTATTGATCA AAACTAATTAATGCCTCCAA CCAAACAAAA GTGGCCAAGA AATGCAAGTC TACCTTGTGT CTCAAAACAG AGGATGGAGAATATTTGGTG AAAATTACCA TGACCATCAC ATGGCCACGT AGGTCTTTAT AATGACAGAG CTAGCATTTG TCACATTGACCAAGCTTTGT CCATACACTC TACAGTAATG ATGAGTCCTC AGTGCACAGG GGAGGATGCT GAAGACACAGGACAGCATCC TCCAGACACA TAAGACTTCA GAGCAGAGGG ATTCTCCCTC CACCTCTCGC AATTCCTTGC TTTCTCCTAACTTCCTTTAC AAAGTCATGC TTGGAAATGT CTATGTATCA TCATGTGGCT CATTTTTTTC TCTGTTCATT TTTTTTCCCCAAAATTCAGC TTCTGTCCCA ACCACCTGCT GCTTTAACCT GGCCAATAGG AAGATACCCC TTCAGCGACTAGAGAGCTAC AGGAGAATCA CCAGTGGCAA ATGTCCCCAG AAAGCTGTGA TGTAAGTAAA TAAAGTTCACCCTCCCCTAG ACAAAAAAAT AATGTCTAGG GCACAGAGTC AAGAACTGTG GGAGTCATAG ACTCTGATAGTTTGACCTCT ATGGTCCAAT TCATTAATTT TCACAAGTGA GTGTTCACTC CCAGCTCCCT GCCTGGGAGA TTGCTGTAGTCATATCAATT TCTTCAAGTC AAGAGCAAAG ATGGTTTTAC TGGGCCTTTA AGAGCAGCAA CTAACCCAAGAGTCTCATCC TTCCTCCTCT CCGTAGCAAC CCTTTGTCCA GGGGCAGATG GTCCTTAAAT ATTTAGGGTC AAATGGGCAGAATTTTCAAA AACAATCCTT CCAATTGCAT CCTGATTCTC CCCACAGCTT CAAGACCAAA CTGGCCAAGG ATATCTGTGCCGACCCCAAG AAGAAGTGGG TGCAGGATTC CATGAAGTAT CTGGACCAAA AATCTCCAAC TCCAAAGCCATAAATAATCA CCATTTTTGA AACCAAACCA GAGCCTGAGT GTTGCCTAAT TTGTTTTCCC TTCTTACAAT GCATTCTGAGGTAACCTCAT TATCAGTCCA AAGGGCATGG GTTTTATTAT ATATATATAT ATATATTTTT TTTTAAAAAA AAACGTATTGCATTTAATTT ATTGAGGCTT TAAAACTTAT CCTCCATGAA TATCAGTTAT TTTTAAACTG TAAAGCTTTG TGCAGATTCTTTACCCCCTG GGAGCCCCAA TTCGATCCCC TGTCACGTGT GGGCAATGTT CCCCCTCTCC TCTCTTCCTC CCTGGAATCTTGTAAAGGTC CTGGCAAAGA TGATCAGTAT GAAAATGTCA TTGTTCTTGT GAACCCAAAG TGTGACTCATTAAATGGAAG TAATGTTGTT TTAGGAATAC ATAAAGTATG TGCATATTTT ATTATAGTCA CTAGTTGTAA TTTTTTTGTGGGAAATCCACACTGAGCTGAGGGGG-3′ (FRAG. NO：_) (SEQ. ID NO：2494)

5′-GCATTTTTTC AAGTTTTATG ATTTATTTAA CTTGTGGAAC AAAAATAAAC CAGAAACCAC CACCTCTCACGCCAAAGCTC ACACCTTCAG CCTCCAACAT GAAGGTCTCC GCAGCACTTC TGTGGCTGCT GCTCATAGCA GCTGCCTTCAGCCCCCAGGG GCTCGCTGGG CCAGCTTCTG TCCCAACCAC CTGCTGCTTT AACCTGGCCA ATAGGAAGATACCCCTTCAG CGACTAGAGA GCTACAGGAG AATCACCAGT GGCAAATGTC CCCAGAAAGC TGTGATCTTCAAGACCAAAC TGGCCAAGGA TATCTGTGCC GACCCCAAGA AGAAGTGGGT GCAGGATTCC ATGAAGTATCTGGACCAAAA ATCTCCAACT CCAAAGCCAT AAATAATCAC CATTTTTGAA ACCAAACCAG AGCCTGAGTGTTGCCTAATT TGTTTTCCCT TCTTACAATG CATTCTGAGG TAACCTCATT ATCAGTCCAA AGGGCATGGG TTTTATTATATATATATATA TTTTTTTTTT AAAAAAAAAC GTATTGCATT TAATTTATTG AGGCTTTAAA ACTTATCCTC CATGAATATCAGTTATTTTT AAACTGTAAA GCTTTGTGCA GATTCTTTAC CCCCTGGGAG CCCCAATTCG ATCCCCTGTC ACGTGTGGGCAATGTTCCCC CTCTCCTCTC TTCCTCCCTG GAATCTTGTA AAGGTCCTGG CAAAGATGAT CAGTATGAAA ATGTCATTGTTCTTGTGAAC CCAAAGTGTG ACTCATTAAA TGGAAGTAAA TGTTGTTTTA GGAATAC-3′ (FRAG. NO：_)(SEQ. IDNO：2491)

5′-ATGAAGGTCT CCGCAGCACT TCTGTGGCTG CTGCTCATAG CAGCTGCCTT CAGCCCCCAG GGGCTCGCTGGGCCAGCTTC TGTCCCAACC ACCTGCTGCT TTAACCTGGC CAATAGGAAG ATACCCCTTC AGCGACTAGAGAGCTACAGG AGAATCACCA GTGGCAAATG TCCCCAGAAA GCTGTGATCT TCAAGACCAA ACTGGCCAAGGATATCTGTG CCGACCCCAA GAAGAAGTGG GTGCAGGATT CCATGAAGTA TCTGGACCAA AAATCTCCAACTCCAAAGCC ATAA-3′ (FRAG. NO：_) (SEQ. IDNO：2492)

5′-CCACATATTC CCCTCCTTTT CCAAGGCAAG ATCCAGATGG ATTAAAAAAT GTACCAAGTC CCTCCTACTAGCTTGCCTCT CTTCTGTTCT GCTTGACTTC CTAGGATCTG GAATCTGGTC AGCAATCAGG AATCCCTTCA TCGTGACCCCCGCATGGGCA AAGGCTTCCC TGGAATCTCC CACACTGTCT GCTCCCTATA AAAGGCAGGC AGATGGGCCAGAGGAGCAGA GAGGCTGAGA CCAACCCAGA AACCACCACC TCTCACGCCA AAGCTCACAC CTTCAGCCTCCAACATGAAG GTCTCCGCAG CACTTCTGTG GCTGCTGCTC ATAGCAGCTG CCTTCAGCCC CCAGGGGCTCGCTGGGCCAG GTAAGCCCCC CAACTCCTTA CAGGAAAGGT AAGGTAACCA CCTCCAGGCT ACTAGGTCAGCAAGAATCTT TACAGACTCA CTGCAAATTC TCCATTTGAA AAATAGGGAA ACAGGTTTTG TGGGTGGACAAGAAATGCCT CAACCGTCAC ATCCAGTCAC TGGAAGAGCC AGAACTAGAA AGCTCCCGAG TCTTTTCCCCACATTCAAGA GGGCCGCTGG GTGCATCCTT ACCCAGCTAT CCTTACAGTG TTTGGGAATG GGGAATGGCT CTGTCTTACTGTGGGCATGG TGGGCATTTT TGGCAGTGGG AGAGAAGGAA AATCTGTTGA TTAGAAGCTC AGTATGTTAATTCGACTCCA GGACAGCTTT CAGAGACAGT GGCTAAGAGA AGAACGAGGT CCCAGGGGAT CTCTTGAGGTGACTTATTTT GACACTCTTT GGGAAAGTTA TCTAGGAGAT TTGTTCCATA ACTCATTTTC CCATACTCTG GTGACAAATTTACTGAGTGT ATCGGTCCCA CTGAGCCAGT GCATAGCATG GTAACAAACA GTTCTAAATT ATCAATGACTTAACAGAATT AACTAAATTA ACAAAAGTTA CTTTCTCACT TGTACTAAAT ATCTATAATG TATGGGCTCA GGCTTCTGCATTTTATACTC AGGATTCTAG ACTGATGGAG AAGTTGCCAT GTGGGGGAAC ATTGATGGAT ACTGTGATAAAGCAGAAGAA AGCTCTCAGG AGTCTTGCAT AGGCAATGCA CTGTGGCTCA AAAATGACAC CCATCACTTTGTCTCCTTCT TTATTGATCA AAACTAATTA ATGCCTCCAA CCAAACAAAA GTGGCCAAGA AATGCAAGTC TACCTTGTGTCTCAAAACAG AGGATGGAGA ATATTTGGTG AAAATTACCA TGACCATCAC ATGGCCACGT AGGTCTTTATAATGACAGAG CTAGCATTTG TCACATTGAC CAAGCTTTGT CCATACACTC TACAGTAATG ATGAGTCCTCAGTGCACAGG GGAGGATGCT GAAGACACAG GACAGCATCC TCCAGACACA TAAGACTTCA GAGCAGAGGGATTCTCCCTC CACCTCTCGC AATTCCTTGC TTTCTCCTAA CTTCCTTTAC AAAGTCATGC TTGGAAATGT CTATGTATCATCATGTGGCT CATTTTTTTC TCTGTTCATT TTTTTTCCCC AAAATTCAGC TTCTGTCCCA ACCACCTGCT GCTTTAACCTGGCCAATAGG AAGATACCCC TTCAGCGACT AGAGAGCTAC AGGAGAATCA CCAGTGGCAA ATGTCCCCAGAAAGCTGTGA TGTAAGTAAA TAAAGTTCAC CCTCCCCTAG ACAAAAAAAT AATGTCTAGG GCACAGAGTCAAGAACTGTG GGAGTCATAG ACTCTGATAG TTTGACCTCT ATGGTCCAAT TCATTAATTT TCACAAGTGA GTGTTCACTCCCAGCTCCCT GCCTGGGAGA TTGCTGTAGT CATATCAATT TCTTCAAGTC AAGAGCAAAG ATGGTTTTAC TGGGCCTTTAAGAGCAGCAA CTAACCCAAG AGTCTCATCC TTCCTCCTCT CCGTAGCAAC CCTTTGTCCA GGGGCAGATGGTCCTTAAAT ATTTAGGGTC AAATGGGCAG AATTTTCAAA AACAATCCTT CCAATTGCAT CCTGATTCTC CCCACAGCTTCAAGACCAAA CTGGCCAAGG ATATCTGTGC CGACCCCAAG AAGAAGTGGG TGCAGGATTC CATGAAGTATCTGGACCAAA AATCTCCAAC TCCAAAGCCA TAAATAATCA CCATTTTTGA AACCAAACCA GAGCCTGAGTGTTGCCTAAT TTGTTTTCCC TTCTTACAAT GCATTCTGAG GTAACCTCAT TATCAGTCCA AAGGGCATGG GTTTTATTATATATATATAT ATATATTTTT TTTTAAAAAA AAACGTATTG CATTTAATTT ATTGAGGCTT TAAAACTTAT CCTCCATGAATATCAGTTAT TTTTAAACTG TAAAGCTTTG TGCAGATTCT TTACCCCCTG GGAGCCCCAA TTCGATCCCC TGTCACGTGTGGGCAATGTT CCCCCTCTCC TCTCTTCCTC CCTGGAATCT TGTAAAGGTC CTGGCAAAGA TGATCAGTAT GAAAATGTCATTGTTCTTGT GAACCCAAAG TGTGACTCAT TAAATGGAAG TAATGTTGTT TTAGGAATAC ATAAAGTATG TGCATATTTTATTATAGTCA CTAGTTGTAA TTTTTTTGTG GGAAATCCAC ACTGAGCTGA GGGGG-3′(FRAG. NO：_) (SEQ. IDNO：2493)

FK-506 binding protein nucleic acids and oligonucleotide fragments

5′- GCCAGGTCGC TGTTGGTCCA CGCCGCCCGT CGCGCCGCCC GCCCGCTCAG CGTCCGCCGC CGCCATGGGAGGCCGGAGCC GAGCCGGGGT CGGGCAGCAG CAGGGACCCC CCAGAGGCGG GGCCTGTGGG ACCGCTATGGGCGTGGAGAT CGAGACCATC TCCCCCGGAG ACGGAAGGAC ATTCCCCAAG AAGGGCCAAA CGTGTGTGGTGCACTACACA GGAATGCTCC AAAATGGGAA GAAGTTTGAT TCATCCAGAG ACAGAAACAA ACCTTTCAAGTTCAGAATTG GCAAACAGGA AGTCATCAAA GGTTTTGAAG AGGGTGCAGC CCAGATGAGC TTGGGGCAGAGGGCGAAGCT GACCTGCACC CCTGATGTGG CATATGGAGC CACGGGCCAC CCCGGTGTCA TCCCTCCCAATGCCACCCTC ATCTTTGACG TGGAGCTGCT CAACTTAGAG TGAAGGCAGG AAGGAACTCA AGGTGGCTGGAGATGGCTGC TGCTCACCCT CCTAGCCTGC TCTGCCACTG GGACGGCTCC TGCTTTTGGG GCTCTTGATC AGTGTGCTAACCTCACTGCC TCATGGCATC ATCCATTCTC TCTGCCCAAG TTGCTCTGTA TGTGTTCGTC AGTGTTCATG CGAATTCTTGCTTGAGGAAA CTTCGGTTGC AGATTGAAGC ATTTCAGGTT GTGCATTTTG TGTGATGCAT GTAGTAGCCT TTCCTGATGACAGAACACAG ATCTCTTGTT CGCACAATCT ACACTGCCTT ACCTTCACTT AAACCACACA CACAAGGTGCTCAGACATGA AATGTACATG GCGTACCGTA CACAGAGGGA CTTGAGCCAG TTACCTTTGC TGTCACTTTC TCTCTTATAAATTCTGTTAG CTGCTCACTT AAACAATGTC CTCTTTGAGA AAATGTAAAA TAAAGGCTCT GTGCTTGACAGAATTCGGGC CGCCGCCAGG TCGCTGTTGG TCCACGCCGC CCGTCGCGCC GCCCGCCCGC TCAGCGTCCGCCGCCGCCAT GGGAGTGCAG GTGGAAACCA TCTCCCCAGG AGACGGGCGC ACCTTCCCCA AGCGCGGCCAGACCTGCGTG GTGCACTACA CCGGGATGCT TGAAGATGGA AAGAAATTTG ATTCCTCCCG GGACAGAAACAAGCCCTTTA AGTTTATGCT AGGCAAGCAG GAGGTGATCC GAGGCTGGGA AGAAGGGGTT GCCCAGATGAGTGTGGGTCA GAGAGCCAAA CTGACTATAT CTCCAGATTA TGCCTATGGT GCCACTGGGC ACCCAGGCATCATCCCACCA CATGCCACTC TCGTCTTCGA TGTGGAGCTT CTAAAACTGG AATGACAGGA ATGGCCTCCT CCCTTAGCTCCCTGTTCTTG GATCTGCCAT GGAGGGATCT GGTGCCTCCA GACATGTGCA CATGAGTCCA TATGGAGCTT TTCCTGATGTTCCACTCCAC TTTGTATAGA CATCTGCCCT GACTGAATGT GTTCTGTCAC TCAGCTTTGC TTCCGACACC TCTGTTTCCTCTTCCCCTTT CTCCTCGTAT GTGTGTTTAC CTAAACTATA TGCCATAAAC CTCAAGTTAT TCATTTTATT TTGTTTTCATTTTGGGGTGA AGATTCAGTT TCAGTCTTTT GGATATAGGT TTCCAATTAA GTACATGGTC AAGTATTAAC AGCACAAGTGGTAGGTTAAC ATTAGAATAG GAATTGGTGT TGGGGGGGGG GTTTGCAAGA ATATTTTATT TTAATTTTTT GGATGAAATTTTTATCTATT ATATATTAAA CATTCTTGCT GCTGCGCTGC AAAGCCATAG CAGATTTGAG GCGCTGTTGA GGACTGAATTACTCTCCAAG TTGAGAGATG TCTTTGGGTT AAATTAAAAG CCCTACCTAA AACTGAGGTG GGGATGGGGAGAGCCTTTGC CTCCACCATT CCCACCCACC CTCCCCTTAA ACCCTCTGCC TTTGAAAGTA GATCATGTTC ACTGCAATGCTGGACACTAC AGGTATCTGT CCCTGGGCCA GCAGGGACCT CTGAAGCCTT CTTTGTGGCC TTTTTTTTTT TTCATCCTGTGGTTTTTCTA ATGGACTTTC AGGAATTTTG TAATCTCATA ACTTTCCAAG CTCCACCACT TCCTAAATCT TAAGAACTTTAATTGACAGT TTCAATTGAA GGTGCTGTTT GTAGACTTAA CACCCAGTGA AAGCCCAGCC ATCATGACAAATCCTTGAAT GTTCTCTTAA GAAAATGATG CTGGTCATCG CAGCTTCAGC ATCTCCTGTT TTTTGATGCT TGGCTCCCTCTGCTGATCTC AGTTTCCTGG CTTTTCCTCC CTCAGCCCCT TCTCACCCCT TTGCTGTCCT GTGTAGTGAT TTGGTGAGAAATCGTTGCTG CACCCTTCCC CCAGCACCAT TTATGAGTCT CAAGTTTTAT TATTGCAATA AAAGTGCTTT ATGCCCGAATTC GCCGCCGCCA TGGGAGTGCA GGTGGAAACC ATCTCCCCAG GAGACGGGCG CACCTTCCCC AAGCGCGGCCAGACCTGCGT GGTGCACTAC ACCGGGATGC TTGAAGATGG AAAGAAATTT GATTCCTCCC GGGACAGAAACAAGCCCTTT AAGTTTATGC TAGGCAAGCA GGAGGTGATC CGAGGCTGGG AAGAAGGGGT TGCCCAGATGAGTGTGGGTC AGAGAGCCAA ACTGACTATA TCTCCAGATT ATGCCTATGG TGCCACTGGG CACCCAGGCATCATCCCACC ACATGCCACT CTCGTCTTCG ATGTGGAGCT TCTAAAACTG GAATGACAGG AATGGCCTCC TCCCTTAGCTCCCTGTTCTT GGATCTGCCR TGGAGGGATC TGGTGCCTCC AGACATGTGC ACATGARTCC ATATGGAGCT TTTCCTGATGTTCCACTCCA CTTTGTATAG ACATCTGCCC TGACTGAATG TGTTCTGTCA CTCAGCTTTG CTTCCGACAC CTCTGTTTCCTCTTCCCCTT TCTCCTCGTA TGTGTGTTTA CCTAAACTAT ATGCCATAAA CCTCAAGTTA TTCA-3′ (FRAG.NO：_)(SEQ. ID NO：2499)

5′-GCCAGGTCGC TGTTGGTCCA CGCCGCCCGT CGCGCCGCCC GCCCGCTCAG CGTCCGCCGC CGCCATGGGA-3′(FRAG. No：_)(SEQ. ID NO：2495)

5′-GGCCGGAGCC GAGCCGGGGT CGGGCAGCAG CAGGGACCCC CCAGAGGCGG GGCCTGTGGG CCGCTATGGGCGTGGAGAT CGAGACCATC TCCCCCGGAG ACGGAAGGAC ATTCCCCAAG AAGGGCCAAA CGTGTGTGGTGCACTACACA GGAATGCTCC AAAATGGGAA GAAGTTTGAT TCATCCAGAG ACAGAAACAA ACCTTTCAAGTTCAGAATTG GCAAACAGGA AGTCATCAAA GGTTTTGAAG AGGGTGCAGC CCAGATGAGC TTGGGGCAGAGGGCGAAGCT GACCTGCACC CCTGATGTGG CATATGGAGC CACGGGCCAC CCCGGTGTCA TCCCTCCCAATGCCACCCTC ATCTTTGACG TGGAGCTGCT CAACTTAGAG TGAAGGCAGG AAGGAACTCA AGGTGGCTGGAGATGGCTGC TGCTCACCCT CCTAGCCTGC TCTGCCACTG GGACGGCTCC TGCTTTTGGG GCTCTTGATC AGTGTGCTAACCTCACTGCC TCATGGCATC ATCCATTCTC TCTGCCCAAG TTGCTCTGTA TGTGTTCGTC AGTGTTCATG CGAATTCTTGCTTGAGGAAA CTTCGGTTGC AGATTGAAGC ATTTCAGGTT GTGCATTTTG TGTGATGCAT GTAGTAGCCT TTCCTGATGACAGAACACAG ATCTCTTGTT CGCACAATCT ACACTGCCTT ACCTTCACTT AAACCACACA CACAAGGTGCTCAGACATGA AATGTACATG GCGTACCGTA CACAGAGGGA CTTGAGCCAG TTACCTTTGC TGTCACTTTC TCTCTTATAAATTCTGTTAG CTGCTCACTT AAACAATGTC CTCTTTGAGA AAATGTAAAA TAAAGGCTCT GTGCTTGACA-3′ (FRAG.NO：_) (SEQ. ID NO：2496)

5′-GAATTCGGGC CGCCGCCAGG TCGCTGTTGG TCCACGCCGC CCGTCGCGCC GCCCGCCCGC TCAGCGTCCGCCGCCGCCAT GGGAGTGCAG GTGGAAACCA TCTCCCCAGG AGACGGGCGC ACCTTCCCCA AGCGCGGCCAGACCTGCGTG GTGCACTACA CCGGGATGCT TGAAGATGGA AAGAAATTTG ATTCCTCCCG GGACAGAAACAAGCCCTTTA AGTTTATGCT AGGCAAGCAG GAGGTGATCC GAGGCTGGGA AGAAGGGGTT GCCCAGATGAGTGTGGGTCA GAGAGCCAAA CTGACTATAT CTCCAGATTA TGCCTATGGT GCCACTGGGC ACCCAGGCATCATCCCACCA CATGCCACTC TCGTCTTCGA TGTGGAGCTT CTAAAACTGG AATGACAGGA ATGGCCTCCT CCCTTAGCTCCCTGTTCTTG GATCTGCCAT GGAGGGATCT GGTGCCTCCA GACATGTGCA CATGAGTCCA TATGGAGCTT TTCCTGATGTTCCACTCCAC TTTGTATAGA CATCTGCCCT GACTGAATGT GTTCTGTCAC TCAGCTTTGC TTCCGACACC TCTGTTTCCTCTTCCCCTTT CTCCTCGTAT GTGTGTTTAC CTAAACTATA TGCCATAAAC CTCAAGTTAT TCATTTTATT TTGTTTTCATTTTGGGGTGA AGATTCAGTT TCAGTCTTTT GGATATAGGT TTCCAATTAA GTACATGGTC AAGTATTAAC AGCACAAGTGGTAGGTTAAC ATTAGAATAG GAATTGGTGT TGGGGGGGGG GTTTGCAAGA ATATTTTATT TTAATTTTTT GGATGAAATTTTTATCTATT ATATATTAAA CATTCTTGCT GCTGCGCTGC AAAGCCATAG CAGATTTGAG GCGCTGTTGA GGACTGAATTACTCTCCAAG TTGAGAGATG TCTTTGGGTT AAATTAAAAG CCCTACCTAA AACTGAGGTG GGGATGGGGAGAGCCTTTGC CTCCACCATT CCCACCCACC CTCCCCTTAA ACCCTCTGCC TTTGAAAGTA GATCATGTTC ACTGCAATGCTGGACACTAC AGGTATCTGT CCCTGGGCCA GCAGGGACCT CTGAAGCCTT CTTTGTGGCC TTTTTTTTTT TTCATCCTGTGGTTTTTCTA ATGGACTTTC AGGAATTTTG TAATCTCATA ACTTTCCAAG CTCCACCACT TCCTAAATCT TAAGAACTTTAATTGACAGT TTCAATTGAA GGTGCTGTTT GTAGACTTAA CACCCAGTGA AAGCCCAGCC ATCATGACAAATCCTTGAAT GTTCTCTTAA GAAAATGATG CTGGTCATCG CAGCTTCAGC ATCTCCTGTT TTTTGATGCT TGGCTCCCTCTGCTGATCTC AGTTTCCTGG CTTTTCCTCC CTCAGCCCCT TCTCACCCCT TTGCTGTCCT GTGTAGTGAT TTGGTGAGAAATCGTTGCTG CACCCTTCCC CCAGCACCAT TTATGAGTCT CAAGTTTTAT TATTGCAATA AAAGTGCTTT ATGCCCGAATTC-3′ (FRAG. NO：_) (SEQ. ID NO：2497)

5′ GCCGCCGCCA TGGGAGTGCA GGTGGAAACC ATCTCCCCAGGAGACGGGCG CACCTTCCCC AAGCGCGGCC AGACCTGCGT GGTGCACTACACCGGGATGC TTGAAGATGG AAAGAAATTT GATTCCTCCC GGGACAGAAACAAGCCCTTT AAGTTTATGC TAGGCAAGCA GGAGGTGATC CGAGGCTGGGAAGAAGGGGT TGCCCAGATG AGTGTGGGTC AGAGAGCCAAACTGACTATA TCTCCAGATT ATGCCTATGG TGCCACTGGG CACCCAGGCATCATCCCACC ACATGCCACT CTCGTCTTCG ATGTGGAGCT TCTAAAACTGGAATGACAGG AATGGCCTCC TCCCTTAGCT CCCTGTTCTT GGATCTGCCRTGGAGGGATC TGGTGCCTCC AGACATGTGC ACATGARTCC ATATGGAGCTTTTCCTGATG TTCCACTCCA CTTTGTATAG ACATCTGCCC TGACTGAATGTGTTCTGTCA CTCAGCTTTG CTTCCGACAC CTCTGTTTCC TCTTCCCCTTTCTCCTCGTA TGTGTGTTTA CCTAAACTAT ATGCCATAAA CCTCAAGTTATTCA-3′ (FRAG. NO：_) (SEQ. ID NO：2498)

Where B is adenosine or more preferably in place of adenosine, and is an "equivalent" or is a universal base, and an agonist or only a minimally capable antagonist of the adenosine A2a receptor, an antagonist of the adenosine A3, A2B or A1 receptor. Similarly, adenosine a can often be replaced by a small number of "substitute", "equivalent" and/or "universal" bases described above in the presence of an adenosine receptor, preferably with adenosine activity less than 0.3.

In a preferred embodiment, the linkage between adjacent mononucleotides is a phosphodiester linkage. In another preferred embodiment, at least one mononucleotide phosphodiester residue of the antisense oligonucleotide is substituted with a methyl phosphonate, phosphotriester, phosphorothioate, phosphorodithioate, boranophosphate, formaldol, thiazaldiol, thioester, carbonate, carbamate, sulfate, sulfonate, sulfamate, sulfonamide, sulfone, sulfite, sulfoxide, sulfide, hydroxylamine, 2' -O-methyl, methylene (methylimino), methyleneoxy (methylimino), phosphoramidate residue, and combinations thereof. Oligonucleotides in which one or more phosphodiester residues are substituted with one or more other residues are generally longer in duration because these residues are more resistant to hydrolysis than phosphodiester residues. In some embodiments, up to about 10%, 30%, 50%, 75% or even all of the phosphodiester residues are substituted (100%). Generally, the multi-target antisense oligonucleotides of the invention comprise at least about 7 mononucleotides, in some cases up to 60 or more mononucleotides, preferably 10-36, and most preferably 12-21 mononucleotides. However, oligonucleotides of other lengths may be used, depending on the length of the target macromolecule. The MTA oligonucleotides according to the invention are shown in Table 3 and comprise 94 sequences (SEQ ID NO: 2316 to 2410).

Table 3; MTA oligonucleotide, target position and target MTA oligonucleotide SEQ ID position Compound target

No.HUMNFKBP65A ASCCC GGC CCC GCC TCG TGC C 3019 5′＝1 EPI2192CGT CCB TGC CGC GGG CCC 3020 5′＝28(AUG)EPI2193GCCCCGCTGCTTGGGCTG CTC TGC CGG G 3021 5′＝65 EPI2194TCT GTG CTC CTC TCG CCT GGG 3022 5′＝137 EPI2195TGG TGG GGT GGG TCT TGG TGG 3023 5′＝159 EPI2196CTG TCC CTG GTC CTG TG 3024 5′＝196 EPI2197GGT CCC GCT TCT TC 3025 5′＝362 EPI2198GGG GTT GTT GTT GGT CTG G 3026 5′401 EPI2199TGT CCT CTT TCT GC 30265 ' ═ 656 EPI2200GCC TCG GGC CTC CC 30275 ' ═ 697 EPI2201GGC TGG GGT CTG CGT 30285 ' ═ 769 EPI2202GGC CGG GGG TCG GTG GGT CCG CTG 30295 ' ═ 953 EPI2203GGG CTG GGG TGC TGG CTT GGG G30305 ' ═ 1022 EPI2204GGG GCT GGG GCC TGG GCC 30315 ' ═ 1208 EPI2205GCC TGG GTG GGC TTG GGG GC 30325 ' ═ 1272 EPI2206GCT GGG TCT GTG CTG TTG CC 30335 ' ═ 1362 EPI2207GTT GTG TGG GGG GCC 30345 ' ═ 1451 EPI2208GCT GGG TCG GGG GGC CTC TGG GCT GTC ' ═ 1511 EPI2209GCC 22045 30365 ' ═ 1550 EPI TGG 8530375 ' ═ 1772 EPI2211GCT CCC CCC TTT CC 30385 ' ═ EPI2212CGG ACG AAG ACA GAG A ' ═ 1979 EPI2213gg 2213 ' ═ gci 2213 bbi 2213 ' ═ 2011 2214 ' ═ ebi 2213 C3042 intron EPI2192-01A HSU50136C4SynthCCC GGC CCC GCC BCG 3043 intron EPI2192-01BCCC GGC CCC GCC BCG BBC 30445 'Untr EPI2192-02A HUMLIPOX5LOCCC GGC CCC GCC BCG 3045S' Untr EPI2192-02BCCC GBC CCC GCC TCB BG3046 Trans EPI2192-03AHSNFKBS subunit CCC GBC CCC GCC TC 3047 Trans EPI2192-03BCCG GCC CCG CCT C30485' Untr EPI2192-04 TGF

R1CCC GBB CCC GCB TBG TGC 30495 ' trans-EPI 2192-05A HSU58198I1 enhanCCC GCB TBG TGC 30505 ' Untr EPI 2192-05BCCC GGB CCC BCC BBG TGC 30513 ' trans-EPI 2192-06 HSVECADCBG BBC CCG CCT CGT GCC 3052 intron EPI2192-07A NFKB2C CCG CCT CGT GCC 3053 intron EPI 2192-07B NFKB2CCG GCB CCG CCT CBT GCC 30545 'trans EPI 2192-08 CarboxypepCCG GCC CCG CBT GCC 30553' trans EPI2192-09 HuDRA 2C2AdrKidCCC GBC CCC GBC TCG 3056 5′Untr EPI2192-10 HUMFK506BCCC GGC CBC GBC TCG 3057 5′Untr EPI2192-11 HSNBARKS1

AdrKinCCC GGC CCB GCC TBG 30585 'UTR EPI 2192-12 HSNFXN1(NFKB1) CCC GGC BCB GBC TCG TBC 30593' UTR EPI 2192-13 HSILF (trans crp).

Factor ILF)CCC GGC CCC GCC BCG 3060 EPI-2192-14 NFKB/C4Syn/5-LO/

TGFBrec1 MTACCC GGC CCC GCC BCG 3061 EPI-2192-15NFKB/C4Syn/5-LOMTATCC BTG CGG GC 30623 ' trans EpI-2193-01 METOncogeneTCC BTG CCB CGG GCC 30633 ' trans EPI-2193-02 HSFGR2(IG) TCC BTG CCB CGG GCC 3064 mid cod EPI-2193 and 035-LOBTG CCB CBG GCC 3065 mid cod EPI-2193-04 HUMTK14GTC GBC GCG G63 ' trans EPI-2193-HUMTNFRTC CBG GCG C3067 AUG probl 3063063067 HUMPTCH

cardiacK＋channelTCT GBG CTC CTC TBB CCT GGG 3068 intr EPI-2195-01 humCSPAcytotox.

Ser.ProteaseCTG TGC BCC TBB CBC CTG GG 3069 intr EPI-2195-02 HSINOSX08induc.NOSTGT GBT CCB CTB GBC TGG G 3070 EPI-2195-03 HUMACHRM2musc.m2

acetylch.rec.TCT GTB CTC BBC TCB CCT G 3071 EPI-2195-04 s86371s1

Neurokinin3ReceptTGC TCC TCB CBB CTG GG 3072 EPI-2195-05 HUMMIP1 Amacro inflammatory factor CTC CTC TBG CCT GG 3073 EPI-2195-06 HSNBARKS4

-Adr Rec KinaseGTG CTC CBB TCB BCT GGG 3074 EPI-2195-07 HSTNFR2SO6TNF R2GTG CBC CBB TCB CCT GGG 3075 EPI-2195-08 humfkbp fk506

binding prot. TCT GTG CBC CTC TBG BCT 3076 exon EPI-2195-09HSNBARKS1-Adr

Recept KinaseCTG TBB TCC TBB CBC CTG G3077 intron EPI-2195-10 HUMIL8TGT GCT BBT CBC BCB TGG 3078 EPI-2195-11 HSU50157 PDE4GTG CBC TCB CCT G3079 intron/exon EPI-2195-12 IL-2 RCTG TGC BCC BCT C30803' UTR EPI-2203-05 IL-6R HSBG 6RCBG TGC BCT CBC CTG 3081 intron/exon EPI-2203-06A HSIL2rG6G TGC BCC CTG 3082 intron/exon EPI-2203-06 HSB 2rG6CBC CTC TCB CCT GG 83 coding EPI-303-HUL 3507A GCMIL 71GCT 84 CCT GCT 84-TCB GCT 2203-06 HSB CTC 5 coding EPI-30G 83 coding EPI-3007A HUL 71C GCT G8-TCG 8-2203-TCG 8 CTC 7 CT R HSI6RECTGC TCC TCB CGC C3086 intron PDGF A EPI-2303-09 Chain HUMPDGFABGTT GTT GBT CTG G30873' utr EPI-2199-01 GATA-4 trans crop.

Factor for IL-5GGT TGB BBT TGG TCT TGG 3088 encodes EPI-2199-02 TNF

HUMTNFAGGT TGT TGB TGB TCT G3089 Far 5' UTR EPI-2199-03 HSSUBP1G (Sub Pr) GGG TTB BBG TTG BTC TGG 3090 encodes EPI-2199-04 NeutrophilaAdh.

R HUMNARIAGGG TTB BBG TTG BTC TGG 3091 HSHM2 EPI-2199-05 m2 Muscarinic RTTG TTG TBG BTC TGG 3092 HUML1CAM EPI-2199-06L 1 LeukadhProtGGG TBG BGT CCG CTG 3093 code EPI-2203-01 HUMGATA2AGGG TCB GBG GBT CBG CTG 3094S 71424S2 EPI-2203-02 IGE epsGGG TBG GTG GGT C3095 code EPI-2203-03 HSGCSFR2GGG TCG GBG GGT CBG C3096 HUMITGF-2203-04 TGF

3GGG TGG GCT T 3097 HUMNK65pRO EPI-2206-01NFKB/NK&

T cells

Activating ProtGGG TGG GCT TGG G 3098 HUMPEREEB EPI 2206-02 NFKB/Prostagl.

EP3 RecCCTGGGTGGGBBTGGG 3099 EPI 2206-03 HSNF2B/GCSF

NFKB/GranuLocCSF/

FactorNF2BCCTGGBTGGGCBTGGG 3100 EPI-2206-04 HUMLAP/NFKB

Leuk.Adhes.ProtGCCTGBGTGBBCTTGGG 3101 EPI2206-05 NFKB/Endothel

N2 S63833CCCAVGVCCVCCCAGGC 3102 EPI 2206-06 NFKBAS13/B Lymph

SerThrProt.KinaseAGCCCACCCAGGC 3103 EPI2206-07 NFKBAS13/GCSF1

HSGCSFR1RecBCCTGGGTGGGCTB 3104 EPI2206-08 NFKBAS13/GCSF1/

NK7TCELLACT.ProtGGTGGGCTTGGG 3105 EPI 2206-09 NFKBAS13/

HSTGFB1 TGFBCCBBGGTGGGCTTGGG 3106 EPI 2206-10 NFKBAS13/

HSTGFB1 TGFB1CTGGGTGGGBBTGGG 3107 EPI 2206-11 NFKBAS13/

HSGCSFR1 GCSFR1CCBGGGTGGGCTTGG 3108 EPI 2206-12 NFKBAS13/HUMCD30A

LymphActAntiig codes for GGGTGGGCTTGG 3109 EPI-2206-12B NFKBAS13/HUMCD30 ACCTGGBGTGBGCBTGGG 3110 EPI 2206-13 NFKBAS13/HUMCAM1V

Vasc.Endoth.Cell

Molecb: universal bases

The MTA oligonucleotides of table 3 can be used for two or more of the targets listed in table 4.

Table 4: TABLE 3 targets of MAT oligonucleotides

Compound (I)	Target
		EPI 2010	Adenosine a1 receptor
EPI 2045	Adenosine a3 receptor
		EPI 2873，EPI 2193	NFκB
EPI 1873	Interleukin-1
		EPI 1857	Interleukin-5
EPI 2945	Interleukin-4
		EPI 2977	Interleukin-8
EPI 2031	5-lipoxygenase
		EPI 1898	Leukotriene C-4 synthase
EPI 1856	Haemophilus toxin
		EPI 1131	ICAM
EPI 1085	VCAM
		EPI 2085	TNF
EPI 1908	PAF
		EPI 1925	IL-4 receptor
EPI 2643	β 2 adrenergic receptor kinase
		EPI 2934	Tryptase
EPI 2033	Major basic proteins
		EPI 2795	Eosinophil peroxidase

Nf κ B: nuclear factor kappa B

ICAM: intercellular adhesion molecules

VCAM: vascular cell adhesion molecules

TNF: tumor necrosis factor

PAF: platelet activating factor

Whether existing targets or those that may be found in the future, the mRNA sequence of the targeted protein is derived from the nucleic acid sequence of the gene expressing the protein. The sequences of many genes of different systems are known today and are found in the gene bank data of the entire gene sequence of NIH. Those gene sequences which have not yet been completely uncovered can also be obtained by using the existing techniques mentioned in the literature. Once the sequence of the gene, its RNA and/or protein is known, antisense oligonucleotides can be prepared as described above, administered in vivo to activate the target, and the reduction in production of the targeted protein and its specific function detected according to standard techniques. As described, the antisense oligonucleotide can be of any size in length, from 7 to 60 nucleotides in length, depending on the particular target to be bound and the mode of delivery thereafter. The antisense oligonucleotide is preferably targeted directly to the mRNA including the region joining the intron and exon or near the joining region. When the antisense oligonucleotide is directed to the intron/exon junction region, it may either completely overlap the junction region or be sufficiently close to the junction region to prevent insertion of the exon hinge during processing of the pre-mRNA into a mature mRNA. E.g., the 3 'or 5' end of the antisense oligonucleotide is positioned at 10, 5,3, or 2 nucleotides of an intron/exon junction. Another method that may be advantageously employed is to take the antisense oligonucleotide overlapping the start codon, more usually the coding region of the target mRNA. In the practice of the invention, the matched antisense oligonucleotide may be in proximity to the species to which it is to be administered. When administered to humans, it is desirable to use human antisense oligonucleotides. Antisense oligonucleotides of endogenous sequences of other species may also be used.

Another aspect of the invention is a pharmaceutical composition comprising an antisense oligonucleotide given above. The composition prevents translation by specifically binding cell membranes to mRNA encoding an adenosine A1 or A3 receptor in cells, which is effective in reducing the expression of an A1 or A3 adenosine receptor. Such compositions are provided in a suitable pharmaceutically acceptable carrier, such as a sterile pyrogen-free saline solution. The formulations of the present invention may be formulated with hydrophobic vehicles capable of penetrating cell membranes, such as liposomes, as well as liposomes loaded with pharmacologically acceptable aqueous vehicles. The oligonucleotide may be coupled to an agent that inactivates the mRNA, such as a ribozyme. Such oligonucleotides may be administered to a patient in need of treatment to inhibit activation of a target, such as an adenosine receptor, which is required by the patient for any reason. Pharmacological agents may also be comprised of chimeric molecules including antisense oligonucleotides attached to molecules known to be internalised by cells. These oligonucleotide linkers utilize cellular uptake pathways to increase the concentration of oligonucleotides within the cell. Macromolecules used in this way include, for example, transferrin, asialoglycoprotein (attached to an oligonucleotide via a polylysine), and streptavidin. In pharmacological formulations, the antisense oligonucleotide compound may be encapsulated within lipid particles or vesicles, such as liposomes or microcrystals. The particle structure may be in any suitable manner, such as a single sheet or multiple sheets, so long as the antisense oligonucleotide can be contained therein. In one embodiment, the antisense oligonucleotide is encapsulated in a liposome. Positively charged lipids such as N- (1- (2, 3-dioleoyloxy) propyl) -N, N, N-trimethylammoniummethylsulfate, or DOTAP are particularly useful as such particles and vesicles. Methods for preparing lipid particles are described in U.S. Pat. Nos. 4,880,635 to Janoff et al 4,906,477 to Kurono et al, Wallach 4,911,928, Wallach 4,917,951, Allen et al 4,920,016, Wheatley et al 4,921,757.

The active composition can be administered to the patient by any means that conducts the antisense oligonucleotide to the lungs. The antisense oligonucleotide compounds specifically disclosed herein may be delivered to the lungs of a patient in any suitable manner, but preferably by generating an aerosol comprising respirable particles that the patient inhales comprises the antisense compound. The respirable particles may be liquid or solid, and the particles may optionally also contain other therapeutic ingredients. The particles used in the present invention contain antisense oligonucleotides and should include particles of respirable size that are small enough to pass smoothly through the mouth, larynx to the bronchi and alveoli once absorbed. Respirable particles are typically 0.5-10 microns in diameter. It is desirable to minimize the number of non-respirable particles contained in the aerosol because non-respirable particles tend to settle in the throat and may be swallowed. For nasal administration, the desired particle size is in the range of 10-500 microns to ensure retention in the nostril. Thus, particles of about 4, 10, 25, 50, 75, 100, 250, 500 microns and other specific ranges of sizes may be employed. Others are also contemplated and included within the scope of the present invention.

Liquid pharmaceutical compositions of the active compounds which form an aerosol can be prepared by combining the antisense oligonucleotide with a suitable carrier, such as sterile pyrogen-free water. Other therapeutic compounds may also optionally be included. Solid particulate compositions comprising respirable dry particles of ground antisense compounds can be prepared by grinding the dried antisense compound in a mortar and pestle, passing the ground composition into small particles through a sieve having a size of about 400 mesh, separating or dispersing large agglomerates of the particles. The solid particulate composition comprising the antisense compound may also optionally include a dispersant, which is used to facilitate aerosol formation. Lactose may be mixed with the antisense compound in a suitable ratio, e.g. 1: 1 by volume, and is a suitable dispersing agent. In addition, other therapeutic agents may also be included in the composition.

The dosage of antisense compound used will generally vary with the disease to be treated, the condition of the patient, the particular formulation, the route of administration, and the time of administration to the patient. Generally, the desired concentration of oligonucleotide in the cell is about 0.01, 0.05, 0.1, 0.2, 1 to 5uM, 50uM, 100uM or more, often 0.2-0.5 uM. Such as for human administration, at a dosage of from about 0.01, 0.1 or about 1mg/kg to about 50, about 100 or about 150mg/kg, and even higher, depending on the known route of administration. The daily dose can be administered in doses of one to several units, depending on the dissolution capacity of the active compound granule formulation used. Antisense compounds can be used therapeutically or prophylactically. The liquid particle aerosol comprising the antisense compound can be prepared by any suitable means, such as a nebulizer or the like. See U.S. Pat. No. 4,501,729. Nebulizers are commercially available devices that nebulize therapeutic aerosols by accelerating a compressed gas, typically air or oxygen, such as through a narrow flow meter orifice or by ultrasonically agitating a conductive solution or suspension formulation. Suitable formulations for use in a nebulizer include the active ingredient in a liquid carrier, the active ingredient constituting 40% (W/W) of the formulation, but most preferably less than 20%. The liquid carrier is typically water or a dilute aqueous alcoholic solution, preferably isotonic with body fluids with the addition of, for example, sodium chloride. Optional additives such as methyl-hydroxybenzoate, antioxidants, flavoring agents, volatile oils, buffering agents and surfactants may be included if the formulation does not sterilize well.

In a preferred embodiment, the pharmaceutical composition comprises a nucleic acid comprising the aforementioned antisense oligonucleotide and one or more surfactants. Suitable surfactants or surfactant compounds for enhancing the uptake of the antisense oligonucleotides of the invention include: synthetic or natural and wholly or truncated forms of surfactant protein a, surfactant protein B, surfactant protein C, surfactant protein D and surfactant protein E, di-saturated phosphatidyl choline (non-dipalmitoyl), dipalmitoylphosphatidylcholine, phosphatidyl choline, phosphatidyl glycerol, phosphatidyl inositol, phosphatidyl ethanolamine, phosphatidyl serine, phosphatidic acid, ubiquinone, lysophosphatidyl choline, lysophosphatidyl ethanolamine, palmitoyl-lysophosphatidyl choline, dehydroepiandrosterone, dolichol, sulfatide, glycerol-3-phosphate, dihydroxyacetone phosphate, glycerol-3-choline phosphate, dehydrohydroxyacetone, palmitic acid, Cytidine Diphosphate (CDP) diacylglycerol, CDP choline, choline phosphate; and human or natural surface active ingredient natural carriers, omega-3 fatty acids, polyenoic acids, lecithin, palmitic acid, non-ionic block copolymers of ethylene oxide or propane, polyoxypropylene, monomers and multimers, polyoxyethylene, monomers and multimers, poly (vinylamine) dextran and/or alkanoyl side chains, Brij35, triton x-100, and synthetic surfactants ALEC, Exosurf, Survan, atoquinome, and others. These surfactants can be used alone or as part of a variety of ingredients in formulations, or covalently added to the 3 'or 5' end of antisense oligonucleotides. Aerosols comprising solid particles of the active compound may similarly be produced with any solid particulate medicament aerosol generator. Dispensing solid particulate medicament into an aerosol generator of a patient produces respirable particles as described above, producing a quantity of aerosol comprising a predetermined dose of medicament suitable for a human dosage level. One solid particulate aerosol generator commonly described is an insufflator. Suitable formulations for administration by insufflation include finely divided powders which can be delivered through an insufflator or absorbed into the nostrils by vigorous inhalation. In an insufflator, fine powders (e.g., a metered dose sufficient to effectively accomplish the process described herein) are packaged in capsules and cartridges, typically made of gelatin or plastic, that are perforated or opened in situ and the powder delivered by air through the instrument or by a manually operated pump upon inhalation. The powder for use in the insufflator comprises either the active ingredient alone or a fine powder mixture of the active ingredient, a suitable fine powder diluent such as lactose and a suitable surfactant. The content of the active ingredient in the formulation is usually from 0.01 to 100 weight ratio (W/W). A second type of aerosol generator is a countable dose inhaler. Countable metered dose inhalers are sealed aerosol dispensers, typically containing a liquefied propellant, containing a suspension or solution formulation of the active ingredient. During use, the device releases the medicament through a vacuum tube, typically delivered in a dose of 10-150 microliters, to form a fine granular spray containing the active ingredient. Suitable propellants include, for example, amounts of chlorofluorocarbons such as dichlorodifluoromethane, trichlorofluoromethane, dichlorotetrafluoroethane and mixtures thereof. In addition, the formulation may also include one or more co-solvents such as ethanol, surfactants such as oleic acid or sorbitan trioleate, antioxidants and suitable flavouring agents. The aerosol, whether a fixed or liquid particle aerosol, may be formed by an aerosol generator at a rate of from about 10, 30, 70 to about 100, 150 litres per minute, suitably 30-150 litres per minute and most suitably 60 litres per minute. Aerosol formulations containing large amounts of a drug are administered at a faster rate than currently known modes of administration.

All references to scientific publications and patents cited in this patent are expressly incorporated by reference, especially in connection with methods of preparation and techniques which permit the invention to be practiced. The following examples are provided to illustrate the present invention and it should not be understood that the present invention is limited to only those described herein. Examples

In the following examples: m stands for micromoles, ml for ml: m represents micrometers, mm represents millimeters, cm represents centimeters, EC represents degrees celsius: g means microgram, mg means milligram, g means gram, kg means kilogram, M means mole, h or hrs means hour. Example 1: design and synthesis of antisense oligonucleotides

The design of antisense oligonucleotides directed against the a1 and A3 adenosine receptors may require solutions of complex secondary structures of the target a1 receptor mRNA and the target A3 receptor mRNA. After generation of this structure, antisense oligonucleotides are designed for the target region of the mRNA, which region confers functional activity or stability to the mRNA, most preferably with possible overlap of the start codon. Other target sites are also readily available. As a proof of the specificity of the effect of antisense oligonucleotides, other oligonucleotides which are not completely complementary to the target mRNA but contain an equivalent amount of nucleotide composition by weight were used as controls in the antisense experiment.

The adenosine a1 receptor mRNA secondary structure was analyzed and used as described above to design a phosphorothioate antisense oligonucleotide. The synthetic antisense oligonucleotide was designed as HAdA1AS with the following sequence: 5'-GAT GGA GGG CGG CAT GGC GGG-3' (SEQ ID NO: 1). As a control, a mismatched phosphorothioate antisense oligonucleotide was designedas HAdA1MM1, and the sequence synthesized was as follows: 5'-GTA GCA GGC GGG GAT GGGGGC-3' (SEQ ID NO: 2). The content of each oligonucleotide base is equal, and the sequence structure is universal. Homology studies with GENBANK (release 85) and EMBL (release 40) indicate that antisense oligonucleotides specifically correspond to the human and rabbit adenosine a1 receptor genes, and that mismatched controls do not hybridize to any known gene sequences.

The secondary structure of the adenosine A3 receptor mRNA was also analyzed according to the above method and 2 phosphorothioate antisense oligonucleotides were designed. The first synthetic antisense oligonucleotide (HAdA3AS1) had the following sequence: 5'-GTT GTT GGG CAT CTT GCC-3' (SEQ ID NO: 3). As a control, a synthetic mismatching phosphorothioate oligonucleotide (HAdA3MM1) has the following sequence: 5'-GTA CTT GCG GAT CTA GGC-3' (SEQ ID NO: 4). A second synthetic phosphorothioate antisense oligonucleotide (HAdA3AS2) was designed with the following sequence: 5'-GTG GGC CTA GCT CTC GCC-3' (SEQ ID NO: 5). The sequence of its control oligonucleotide (HAdA3MM2) is: 5'-GTC GGG GTACCT GTC GGC-3' (SEQ ID NO: 6). Phosphorothioate oligonucleotides were synthesized using a model 396 biosystems oligonucleotide synthesizer and oligonucleotides were purified using a NENSORB chromatograph (DuPont, MD). Example 2: in vivo assay of adenosine A1 receptor antisense oligonucleotides

The efficacy of the human adenosine A1 receptor antisense oligonucleotide was tested in vivo using lung adenocarcinoma HTB-54 cells. Receptor probes synthesized using standard Northern blotting procedures and laboratory design confirmed that lung adenocarcinoma HTB-54 cells expressed the a1 adenosine receptor.

HTB-54 human lung adenocarcinoma cells (106/100MM tissue culture dish) were exposed to 5. mu.M HAdA1AS or HAdA1MM1 for 24 hours, and the medium and oligonucleotides were replaced once after 12 hours of incubation. Following 24 hours of exposure to the oligonucleotide, cells and extracted RNA were collected using standard procedures. A21 nucleotide probe (identical to the antisense oligonucleotide but without phosphorothioate) corresponding to the antisense oligonucleotide target mRNA region was synthesized and used for northern blot probing of RNA prepared from HAdA1AS, HAdA1MM1 treated and untreated HTB-54 cells. These blots clearly show that HAdA1AS, but not HAdA1MM1, was effective in reducing more than 50% of human adenosine receptor mRNA. The present results indicate that HAdA1AS is a good candidate anti-asthma drug because it uses up intracellular mRNA from the adenosine a1 receptor, whereas the a1 receptor is associated with asthma. Example 3: in vivo efficacy of adenosine A1 receptor antisense oligonucleotides

The unexpected homology of human and rabbit DNA sequences in the overlapping start codon portions of the adenosine a1 gene allowed phosphorothioate antisense oligonucleotides originally designed for the human adenosine a1 receptor to be used in rabbit experimental animal studies. Newborn New Zealand white sterile (Pasteurella-free) rabbits were immunized intraperitoneally within 24 hours of their birth with 312 units/ml house dust mite extract (Berkeley Biologicals, Berkeley, Calif.) mixed with 10% kaolin. Immunization was repeated weekly for the first month and bi-weekly for the second month. At 3-4 months of age, eight sensitized rabbits were anesthetized and relaxed by intramuscular injection of a mixture of 44 mg/kg ketamine hydrochloride and 0.4 mg/kg acetylphenothiazine maleic acid. A rabbit was supine in a comfortable position on a small molded flat animal plate and a 4mm endotracheal tube (Mallinkrodt, inc., Glens Falls NY) was inserted. A latex-coated 2.4mm outer diameter polyethylene tube was fed to the oesophagus and kept the same distance from the mouth to this approximately 16 cm throughout the experiment. The insertion catheter was connected to a heated Fleisch pulmonary respiration rate recorder (00 size: DOM Medical, Richmond, VA). Respiration rates were determined by a Validyne differential pressure sensor (model DP-45161927, Validyne engineering Corp., Northridge, CA) driven by a Gould vector amplifier (model 11-4113; Gould Electronic, Cleveland, OH). The esophago bulb is connected on one side of the differential pressure sensor and the outlet of the interpolated catheter is connected on the other side of the differential pressure sensor to allow recording of the lung change pressure. The combined flow rate gives a continuous fluctuation, total lung Resistance (RL) and dynamic compliance (Cdyn) values calculated with an automatic respiratory system analyzer (model 6: Buxco, Sharon, CT) at isochoric and flow zero, respectively. Animals were randomly selected and the first day PC50 pretreatment values were obtained for aerosolized adenosine. The antisense oligonucleotide HAdA1AS or the mismatched control HAdA1MM oligonucleotide was dissolved in sterile saline at a concentration of 5000 micrograms (5mg) per 1 ml. The aerosolized antisense or mismatch oligonucleotide (approximately 1ml in 5000. mu.g) was then administered to the animal by insertion into a catheter, twice daily for two days. Aerosol droplets of adenosine or antisense or missense oligonucleotides were made by ultrasonic nebulizer (DeVILBISS, Somerset, PA) as a salt, with 80% of the droplets being less than 5 μm (microns) in diameter. In the first part of the experiment, four randomly selected allergic rabbits were dosed with antisense oligonucleotides and four were dosed with mismatched control oligonucleotides. On the third morning, PC50 values (certain mg/ml concentrations of aerosolized adenosine required to reduce bronchial airway dynamic compliance values by 50% from baseline values) were obtained, compared to PC50 values obtained from animals previously exposed to oligonucleotides. After one week of the interval, animals are crossed, i.e., the antisense oligonucleotide is now administered to animals previously administered the mismatched control oligonucleotide, and the mismatched control oligonucleotide is administered to animals administered the oligonucleotide. The treatment and measurements were as in the first part of the experiment. It must be noted that adenosine-mediated bronchoconstriction was not obtained in six of 8 animals given antisense oligonucleotides up to the adenosine solubility limit of 20 mg/ml. For calculation, the PC50 values for these animals were fixed at 20 mg/ml. The values given thus represent the lowest values for the efficacy of the antisense oligonucleotides. The actual effect is higher. The results of this experiment are shown in Table 5 below.

TABLE 5 Rabbit adenosine A with asthma₁Receptor antisense oligonucleotides

Effect on PC50 values

Mismatch contrast			A1Receptor antisense oligonucleotides
						Pre-oligonucleotides	Rear oligonucleotide	Pre-oligonucleotides	Rear oligonucleotide
3.56±1.02	5.16±1.03	2.36±0.68	＞19.5±0.34**

The results here are mean (n ═ 8) ± SEM

Significance was determined using a differential repeated computational analysis (ANOVA) and a Twkey protection test.

^**The difference from other groups is significant, and P is less than 0.01

In both parts of the experiment, the animals receiving the antisense oligonucleotides showed a sequence of increasing gradients in the aerosolized adenosine dose required to reduce the pulmonary dynamic compliance value by 50%. On PC50, no effect of mismatching control oligonucleotides was observed. No toxicity was observed in any animals that received either the antisense oligonucleotide or the mismatch control oligonucleotide. These results clearly indicate that the lung has a unique potential as a target for antisense oligonucleotide-based therapeutic regimens in pulmonary diseases. Further elucidation in experimental models similar to human asthma, the down-regulation of the adenosine a1 receptor largely abolished adenosine-mediated bronchoconstriction of asthmatic airways. Bronchial hyperresponsiveness is the best point for antisense mediation in allergic animal models of human asthma, since the tissues involved in this response are close to the point of contact with aerosolized oligonucleotides, whereas animal models closely mimic an important human disease. Example 4: specificity of A1-adenosine receptor antisense oligonucleotides

In conclusion of the cross-over experiment of example 3 aboveAll rabbits were quantified for airway flattening muscle adenosine a1 receptor number. The number of otherwise unaffected adenosine a2 receptors was also analyzed as a control for antisense oligonucleotide specificity. Stripping the airway from each rabbitMuscle tissue is relaxed and the cell membrane fraction is prepared according to the method of Kleinstein et al. (Kleinstein, J. and Glossmann, H., Nauyn-Schmiedeberg's Arch. Pharmacol.305: 191-200(1978)), the relevant sections are incorporated by reference with slight modifications. The crude protoplast preparation was stored at 70 ℃ until assay. Protein content was determined according to the Bradford method (M.Bradford, anal.biochem.72,240-254(1976), relevant part of the literature). Frozen plasma membranes were melted at room temperature and incubated with 0.2U/ml adenosine deaminase for 30 minutes at 37 deg.C to remove endogenous adenosine. Measured according to the method previously described in Ali et al³H]DPCPX (A1 receptor-specific) or [ 2]³H]CGS-21680 (specific for A1 receptor). (Ali, S. et al, J.Pharmacol. exp. Ther.268, am.J.physiol 266, L271-277(1994), relevant sections are incorporated by reference). Animals treated with adenosine a1 antisense oligonucleotide in crossover experiments reduced the number of adenosine receptors by 75% compared to controls as analyzed by the specific binding force of a 1-specific antagonists. A2 receptor agonist 2- [ p- (2-carboxyethyl) -phenethylamine]The number of adenosine A2 receptors was unchanged as measured by the specific binding of-5' - (N-ethylformamide) adenosine (CGS-21680). See table 6. TABLE 6 specificity of the action of the adenosine A1 receptor antisense oligonucleotides

	Mismatch control oligonucleotide	A1 receptor antisense oligonucleotide
			A1Specific binding force	1105±48**	293±18
A2Specific binding force	302±22	442±171

The result is the mean value (n ═ 8). + -. SEM

Significance was determined using differential repeated computational analysis (ANOVA) and Tukey protected test

^**The difference between the two mismatching controls is significant, and P is less than 0.01

The above results describe the effect of antisense oligonucleotides in the management of airway disease. Because the antisense oligonucleotides described above eliminate the receptor system responsible for adenosine-mediated bronchoconstriction, it may be less necessary to eliminate adenosine therefrom. However, it would be preferable to eliminate adenosine even in these oligonucleotides to reduce the dose required to maintain the same effect. Described above are other antisense oligonucleotides that target the mRNA for proteins associated with inflammation. Adenosine has been eliminated from their nucleotide content to prevent release during degradation. Example 5: antisense oligonucleotides directed against other target nucleic acids

This experiment serves to illustrate that the present invention is broadly applicable to antisense oligonucleotides specific for a wide range of nucleic acid targets. The following experimental studies indicate that the methods of the invention are broadly applicable to the use of antisense oligonucleotides designed as taught in this application and to target any and all adenosine receptor mRNAs. To this end, various antisense oligonucleotides to adenosine receptor mRNAs exemplified by A1, A2b and A3 receptor mRNAs were prepared. The antisense oligonucleotide I has been disclosed in the above description (SEQ ID NO: 1). Five antisense phosphorothioate oligonucleotides were additionally designed and synthesized as shown above.

1-oligonucleotide II (SEQ ID NO: 7) also targets the adenosine A1 receptor, but differs from the oligonucleotide I region.

2-oligonucleotide V (SEQ ID NO: 10) targets the adenosine A2b receptor.

3-oligonucleotides III (SEQ ID NO: 8) and IV (SEQ ID NO: 9) target different regions of the adenosine A3 receptor.

4-oligonucleotide I-PD (SEQ ID NO: 1681) (a phosphodiester oligonucleotide having the same sequence as oligonucleotide I).

These antisense oligonucleotides are designed to treat the selected species expressed above and are generally directed against that species, unless the target mRNA segments of other species happen to contain the same sequence. All antisense oligonucleotides were prepared in vivo in experimental rabbits for bronchoconstriction, inflammation and hypersensitivity, these respiratory distress and pulmonary airway obstruction diseases or conditions, as in the case of diseases such as asthma which were confirmed as described above. Example 6: design and sequence of other antisense oligonucleotides

Six oligonucleotides of experimental rabbits and their effects were studied, as reported in the results and discussed below. Five of the oligonucleotides were selected for this study to complement the data for oligonucleotide 1(SEQ ID NO: 1) provided in examples 1-4. This oligonucleotide is an antisense oligonucleotide to a region of the adenosine a1 receptor mRNA. Tests have shown that antisense oligonucleotides I (SEQ ID NO: 1) and II (SEQ ID NO: 7) target different regions of the adenosine A1 receptor mRNA, that antisense oligonucleotide V (SEQ ID NO: 8) targets the adenosine A2b receptor mRNA, and that antisense oligonucleotides III and IV (SEQ ID NO: 9 and 10) target 2 different regions of the adenosine A3 receptor mRNA. The sixth oligonucleotide (Oligo I-PD) is a phosphodiester form of oligonucleotide I (SEQ ID NO: 1). These antisense oligonucleotides were designed and synthesized as in example 1.

(I) Antisense oligonucleotide I:

the antisense oligonucleotides of examples 1-4 target human adenosine a1 receptor mRNA (EPI 2010). Antisense oligonucleotide I has a length of 21 nucleotides, overlaps with the start codon, and has the following sequence: 5'-GAT GGA GGG CGG CAT GGC GGG-3' (SEQ ID NO: 1). As previously it has been shown that oligonucleotide I abolishes adenosine-mediated bronchial vasoconstriction in allergic rabbits, reducing allergen-induced airway dysfunction and bronchial hyper-response (BHR) as described above and Nyce, J.W and Metzger, w.j., nature, 385: 721(1977), relevant parts are incorporated by reference.

(II) antisense oligonucleotide II:

phosphorothioate antisense oligonucleotides (SEQ ID NO: 7) were designed according to the present invention to target the +936 to +956 regions of the rabbit adenosine A1 receptor mRNA associated with the start codon (start site). Antisense oligonucleotide II has a length of 21 nucleotides and the sequence is as follows: 5'-CTC GTC GCCGTC GCC GGC GGG-3' (SEQ ID NO: 7).

(III) antisense oligonucleotide III:

the region from +3 to +22 relative to the start site of the start codon for mRNA targeting the antisense A3 receptor designed according to the method of the invention differs from the phosphorothioate antisense oligonucleotide of example 1(SEQ ID NO: 8). Antisense oligonucleotide III has a length of 20 nucleotides and the sequence is as follows: 5'-GGG TGG TGC TAT TGT CGG GC-3' (SEQ ID NO: 8).

(IV) antisense oligonucleotide IV:

another phosphorothioate antisense oligonucleotide (SEQ ID NO: 9) targeting the +386 to +401 region of the adenosine A3 receptor mRNA associated with the start codon (start site) was designed according to the method of the present invention. Antisense oligonucleotide IV has a length of 15 nucleotides and the sequence is as follows: 5'-GGC CCA GGG CCA GCC-3' (SEQ ID NO: 9).

(V) antisense oligonucleotide V:

phosphorothioate antisense oligonucleotides (SEQ ID NO: 10) targeting the-21 to-1 region of the mRNA of adenosine A2b receptor with respect to the start codon (start site) were designed according to the method of the present invention. The antisense oligonucleotide V has a length of 21 nucleotides and the sequence is as follows: 5'-GGC CGG GCCAGC CGG GCC CGG-3' (SEQ ID NO: 10).

(VI) a1 mismatch oligonucleotide:

two mismatch oligonucleotides having the following sequences were used as controls for antisense oligonucleotide I (SEQ ID NO: 1) in example 5. A1MM 2: 5'-GTA GGT GGC GGG CAAGGC GGG-3' (SEQ ID NO: 2421) and A1MM 3: 5'-GAT GGA GGC GGGCAT GGC GGG-3' (SEQ ID NO: 2422). The antisense oligonucleotide I and the two mismatched antisense oligonucleotides have the same base content and the general sequence structure. Homology studies with GENBANK (release 85) and EMBL (release 40) show that antisense nucleotide I specifically corresponds to the human and rabbit adenosine a1 receptor genes, and that mismatched controls do not have conditions for hybridization to any known human or animal gene sequences.

(VII) antisense oligonucleotide A₁-PD (oligonucleotide VI)

A phosphodiester antisense oligonucleotide (oligonucleotide VI; SEQ ID NO: 2420) having the same nucleotide sequence as antisense oligonucleotide I was designed according to the same method as that used above. The antisense oligonucleotide I-PD is 21 nucleotides long, overlaps with the initiation codon, and has the following sequence: 5'-GAT GGA GGG CGG CAT GGC GGG-3' (seq id No. 2420).

(III) control

5.0ml of aerosolized sterile salt was administered to each rabbit in the same procedure as for antisense oligonucleotides (II), (III) and (IV) above. Example 7: synthesis of antisense oligonucleotides

Phosphorothioate antisense oligonucleotides having the above sequences were synthesized using a model 396 biosystem oligonucleotide synthesizer and purified using a NENSORB chromatograph (DuPont, Md.). TETD (tetraethylthiuram disulfide) acts as a curative during the synthesis. Antisense oligonucleotide II (SEQ ID NO: 7), antisense oligonucleotide III (SEQ ID NO: 8), and antisense oligonucleotide IV (SEQ ID NO: 9) were each synthesized and purified according to this method. Example 8: preparation of allergic rabbits

Newborn New Zealand white sterile rabbits were immunized intraperitoneally within 24 hours of their birth with an extract of 312 antigenic units/ml house dust mite (D.Farinae) 0.5 ml (Berkeley Biologicals, Berkeley, CA) mixed with 10% kaolin (Metzger, W.J., in Late Phase Allergic Reaction, Dorsch, W.d., CRC Handbook, pp.347-362, CRC Press, Boca Raton (1990); Ali, S.j., Metzger, W.J., and Mustafa, S.J., am.Resp.Crit.Care Med.149: 908(1994)), as described previously. Immunization was repeated weekly for the first month and two more weeks up to 4 months in size. These rabbits preferably produce allergen-specific IgE antibodies, which typically exhibit bronchial hyper-response (BHR) in response to gaseous phase allergen stimulation in the early and late phase of the asthma response. Continuing the stimulation and maintenance of the allergy-specific IgE antibodies and BHR with the monthly intraperitoneal administration of the allergen (312 units of house dust mite allergen as above). Allergic rabbits were prepared at4 months of age for aerosolized formulation as described by Ali et al (Ali, s., Metzger, w.j. and Mustafa, s., j., am.j. resp. crit. care med.149(1994), relevant sections incorporated by reference). Dose-response study example 9: establishment of the experiment

Aerosol formulations of either adenosine (0-20mg/m1) or antisense oligonucleotides or one of the two mis-matched oligonucleotides (5mg/ml) were prepared separately using an ultrasonic nebulizer (Model 646, DeVilbiss, Somerset, Pa.) to produce aerosol droplets of which 80% were less than 5 microns in diameter. Equal amounts of aerosol are administered directly to the lungs by insertion into a catheter. Animals were randomly administered aerosolized adenosine. The first day adenosine sensitivity pretreatment values were calculated as the adenosine dose that resulted in a 50% loss of compliance (PC50 adenosine). The animals were then given either a dancing antisense oligonucleotide or a mismatching antisense oligonucleotide (5mg/1.0ml) by catheterization 2 times daily for 2 minutes each for two days (total dose of 20 mg). Post-treatment PC50 values (post-treatment stimuli) were recorded on the third morning. The results are shown in example 21. Example 10: cross reaction

In some experiments using antisense oligonucleotide I (SEQ ID NO: 1) and the corresponding mismatch control oligonucleotide A1MM2, two weeks later, animals were crossed, i.e.the antisense oligonucleotide I was now administered to animals previously administered mismatch control oligonucleotide A1MM2, and the mismatch control oligonucleotide A1MM2 was administered to animals administered oligonucleotide I. The number of animals per group was as follows. For mismatch A1MM2 (control 1), n ═ 7, one animal was lost in the second part of the experiment due to technical difficulties; for the mismatch A1MM3, n-4 (control 2) and for the A1AS antisense oligonucleotide I, n-8. A1MM3 oligonucleotide-treated animals were analyzed individually and not as part of a crossover experiment. The treatment used after the crossover experiment and the method of determination are similar tothose in the first part of the experiment. In six of 8 animals treated with antisense oligonucleotide I (SEQ ID NO: 1), PC50 values could not be obtained up to an adenosine dose of 20mg/ml, the adenosine solubility limit. Accordingly, the PC50 value for these animals was assumed to be 20mg/ml for calculation purposes. The values given here represent the lowest values for the effect of the antisense oligonucleotides of the invention. Other groups of allergic rabbits (n ═ 4 per group) were administered in a manner and following the procedure described above with a dose of 0.5 or 0.05 mg of antisense oligonucleotide I (SEQ id no: 1) or A1MM2 oligonucleotide (total dose 2.0 or 0.2 mg). The results of these studies are given in example 22. Example 11: antisense oligonucleotide formulations

Each antisense oligonucleotide was dissolved separately in an aqueous solution and administered by insertion into a catheter in a nebulizer manner as described above for antisense oligonucleotide I (SEQ ID NO: 1) four times in a 5mg full dose (total dose 20 mg). The resulting antisense oligonucleotide I and its mismatch control results confirmed that the mismatch control corresponded to saline solution, see example 19 and Nyce and Metzger, nature 385: 721, 725(1997) table 1. As a result of this finding, saline was used as a control in lung function studies using antisense oligonucleotides II, III and IV (SEQ ID NOS: 7, 8, 9). Example 12: specificity of antisense oligonucleotide I for adenosine A1 receptor (receptor binding Studies)

20mg of oligonucleotide I (SEQ ID NO: 1) was administered to the rabbit in four divided doses over 48 hours as described above, and the mild muscle tissue of the airway of the rabbit was dissected from the rabbit to the primary, secondary and tertiary bronchi. The cell membrane fraction was prepared according to the human method of Ali et al. (Ali, s., et al, am.j.resp.crit.care med.149: 908(1994)), relevant membrane preparation techniques are incorporated herein by reference in their entirety. Protein content was determined according to the Bradford method. The plasma membrane was incubated with 0.2U/ml adenosine deaminase at 37 ℃ for 30 minutes to remove endogenous adenosine (Bradford, M.M. anal. biochem.72,240-254(1976), relevant sections incorporated by reference). Measured according to the method described in Jarvis et al³H]DPCPX，[³H]NPC17731 or [ solution]³H]The binding force of CGS-21680. See Jarvis, M.F., et al, Pharmacol, Exptl, ther.251, 888-. The results of this study are discussed in Table 8 and example 20. Example 13: measurement of pulmonary function (compliance C_DYNResistance and harmony)

At4 months of age, the immunized animals were anesthetized and 1.5ml ketamine hydrochloride (35mg/kg) and acetylphenothiazine cisThe mixture of butenedioic acid (1.5mg/kg) was injected intramuscularly to rabbits for relaxation. After anaesthesia, allergic rabbits were placed comfortably supine on a soft, molded animal plate. The eyes were coated with ointment to prevent dryness and they closed the eyes. Animals were inserted into a 4mm medium high-low cuff Murphy's (Murphy)1 catheter (Mallinkrodt, Inc., Glens Falls NY), as previously described by Zavala and Rhodes. See Zavala and Rhodes, proc.soc.exp.bio.med.144: 509-512(1973), the relevant part of which is incorporated by reference. A polyethylene catheter (Beckton Dickinson, Clay Adams, Parsippany NY) with a 2.4mm outer diameter attached to a thin-walled latex ball was fed to the esophagus and maintained the same distance from the mouth to this approximately 16 cm throughout the experiment. The insertion catheter was connected to a heated Fleisch pulmonary respiration rate recorder (00 size: DOM Medical, Richmond, Va.). Respiration rates were determined by a Validyne differential pressure sensor (model DP-45161927, Validyne Engineering Corp., Northridge, CA) driven by a Gould vector amplifier (model 11-4113; Gould Electronic, Cleveland, OH). The esophago bulb is connected to one side of the differential pressure sensor and the other side is connected to the outlet of the catheter to obtain the transpulmonary pressure change (P)_tp). The combined flow rate gives a continuous fluctuation, total lung resistance value (R)_t) And compliance value (C)_dyn) At equal volume and flow rateAnd (4) zero point calculation. The flow, volume and pressure were recorded by an eight-lane Gould 2000-watt high frequency recorder. Differential pressure P with total volume and zero flow_tyCalculating C_dyn，R_tIs P_tyAnd the volume V at isochronal in lung capacity. These calculations can be automated as described by Giles et al using a Buxcon automated pulmonary respiratory system analyzer (type 6: Buxco, Sharon, CT), see Giles et al, arch. 213-&232(1971), relevant parts are incorporated by reference. The results of oligonucleotide II administration to allergic rabbits are given in example 26 and discussed therein. Example 14: determination of bronchial hyper-responsiveness (BHR)

Histamine was administered to each allergic rabbit smoke to determine their baseline hyper-response. Each dose was a smoke of salt or histamine generated 30 seconds later and 2 minutes later with a DeVilbiss nebulizer (DeVilbiss, Somerset, Pa.)An aerosol. The ultrasonic nebulizer made aerosol droplets of which 80% were less than 5 microns in diameter. The lung function values were recorded for each dose by increasing the histamine aerosol dose concentration (0.156 to 80 mg/ml). From baseline by calculation (PC)_{50 Histamine}) C decreased by 50%_dynThe desired histamine concentration (mg/ml) was used to determine the BHR. Example 15: cardiovascular effects of antisense oligonucleotides I

Cardiac output and other cardiovascular parameters were measured using the thermodilution principle with CardiomaxJ, which monitors the temperature change of the heart blood after each intravenous injection of a known amount of cold saline. A single bolus injection of cold saline through the right jugular vein may reach the right atrium. The corresponding changes in temperature of the mixed injectate and aortic arch blood were recorded through the carotid artery vessel with a small temperature sensitive probe. Allergic rabbits were treated with the aerosol of oligonucleotide I (EPI 2010; SEQ ID NO: 1) as described above, and 12 hours later, the animals were anesthetized with a solution containing 80% ketamine and 20% xylazine at 0.3 ml/kg. This time point is exactly the same as the time shown for SEQ ID NO: 1, as is clear from the aforementioned report by Nyce Metzger (1997), the relevant portions of which are incorporated by reference. A thermocouple was inserted into the left aortic arch of each rabbit, advanced 6.5cm forward, and secured with a wire ligature. The perforated right stem vein was inserted into a polyethylene tube and fixed. Sterile saline was injected at 20 degrees celsius and a thermal dilution curve was established according to CardiomaxJ II (columbus instruments, Ohio) to determine the correction of the thermocouple probe position. After the position of the corrective thermocouple is determined, the femoral artery and vein are isolated. The femoral vein was used as the drug injection inlet and the femoral artery was used to measure blood pressure and heart rate. After establishing the cardiovascular parameter baseline, the measured values of blood pressure, heart rate, heart blood volume, total peripheral resistance and cardiac contractility cardiomax j can be obtained. Example 16: duration of action of oligonucleotide I (SEQ ID NO: 1)

Eight allergic rabbits received an initial log dose of increased adenosine by insertion of a catheter using a nebulizer, establishing a baseline from theinitial o.156mg/ml until the compliance decreased by 50% (PC50 adenosine). Six rabbits then received four aerosolizations of SEQ ID NO: 1, or a pharmaceutically acceptable salt thereof, wherein,the dosage is 5mg each time. Two rabbits received an equal amount of saline vehicle as a control. Starting 18 hours after the previous treatment, PC was again measured_{50 adenosine value}. After this point, all animals were tested daily for up to 10 days. The results are given in example 25 below. Example 17: reduction of adenosine A2b receptor number by antisense oligonucleotide V

Sprague Dawley mice were administered 2.0mg of respirable antisense oligonucleotide V (SEQ ID NO: 10) three times two days via an inhalation chamber as described above. 12 hours after the last dose, lung parenchyma was dissected and analyzed for adenosine A2b receptor binding using [311]-NECA as described above for Nyce and Metzger (1997). Animals were given an equal volume of saline as a control. The student paired t test showed significant p<0.05, as discussed in example 28 below. Example 18: comparison of oligonucleotide I with the corresponding phosphodiester oligonucleotide VI (SEQ ID NO: 1681)

Oligonucleotide I (SEQ ID NO: 1) is resistant to the action of adenosine, which diminishes sensitivity to the action of adenosine up to 20mg/5.0ml (limit of adenosine solubility). When tested in the same manner, oligonucleotide V (SEQ ID NO: 1681) of the phosphodiester type of the oligonucleotide sequence was completely ineffective. The two compounds are identical in sequence except for the presence of a phosphorothioate residue in oligonucleotide I (SEQ ID NO: 1), both of which can be used as an aerosol as described above and by the Nyce and Metzger methods described above. Students paired with t test, the difference significance p is less than 0.001. The results are given in example 29 below. Results obtained for antisense oligonucleotide I (SEQ ID NO: 1): example 19: result of prior work

The above provides data on the nucleotide sequence of an antisense oligonucleotide (SEQ ID NO: 1) specific to the adenosine A1 receptor, and the like. Experimental data showing the effect of oligonucleotide I in down-regulating receptor number and activity are also provided above. Additional details of the characteristics and activities of antisense oligonucleotides I are found in Nyee, J.W, Metzger, w.j., nature 385: 721(1997), the part relating to the results of this experiment is incorporated herein by reference. The Nyce, Metzger (1997) publication provides data indicating that antisense oligonucleotide I (SEQ ID NO: 1):

(1) as can be seen from Table 5, antisense oligonucleotide I reduced the number of adenosine A1 receptors in mild bronchial muscle of allergic rabbits in a dose-dependent manner.

(2) Antisense oligonucleotide I attenuates adenosine-induced bronchial vasoconstriction and allergen-induced bronchial vasoconstriction.

(3) E.g. by standard assay methods for assessing hyper-responsiveness PC_{50 Histamine}The results of the assay, in which oligonucleotide I attenuates bronchial hyper-response, clearly indicate the anti-inflammatory activity of antisense oligonucleotide I as shown in Table 5.

(4) As expected, antisense oligonucleotide I was completely specific for the adenosine a1 receptor by being designed to target the a1 adenosine receptor, and had no effect on either the very similar related adenosine a2 receptor or the related bradykinin B2 receptor under any dosage conditions. See table 5 below.

(5) In sharp contrast to the effect of oligonucleotide I described above, mismatch control molecules MM2 and MM3 (SEQ ID NO: 1682 and 1683) have the same base composition and molecular weight but are mismatched at only positions 6 and 2, respectively, as compared to antisense oligonucleotide I (SEQ ID NO: 1). These mismatched oligonucleotides, although with little probability, retain the same base composition and absolutely no effect on any target receptor (A1, A2, or B2).

These results, together with the complete lack of available technology in the use of antisense oligonucleotides such as oligonucleotide I targeting the adenosine a1 receptor, are unexpected results. All that is presented herein clearly confers and demonstrates the ability of the formulations and methods of the present application to treat diseases or conditions associated with pulmonary airways, such as bronchial constriction, inflammation, allergy and the like, for future use. Example 20: oligonucleotide I significantly reduced response to adenosine stimulation

Example 12 describes a receptor binding assay and the results are shown in Table 5 below, which shows the binding characteristics of adenosine A1-selective ligand [3H]DPCPX and bradykinin B2-selective ligand [3H]NPC17731 in cell membranes isolated from airway smooth muscle of A1 adenosine receptor, B2 bradykinin receptor antisense and mismatch treated allergic rabbits.

TABLE 5 binding characteristics of three antisense oligonucleotides

Treatment 1A₁Receptor B2 receptor

Kd B_{Maximum of}Kd B_{Large amount of}Adenosine A₁Receptor 20mg 0.36. + -. 0.029nM 19. + -. 1.52 fmoles 0.39. + -. 0.031nM 14.8. + -. 0.99fmoles2mg 0.38. + -. 0.030nM 32. + -. 2.56fmoles 0.41. + -. 0.028nM 15.5. + -. 1.08fmoles0.2mg 0.37. + -. 0.030nM 49. + -. 3.43fmoles 0.34. + -. 0.024nM 15.0. + -. 1.06fmoles₁MM₁(control) 20mg 0.34. + -. 0.027nM 52.0. + -. 3.64fmoles 0.35. + -. 0.024nM 14.0. + -. 1.0fmoles2mg 0.37.37. +-. 0.033nM 51.8. + -. 3.88 fmoles 0.38. + -. 0.028nM 14.6. + -. 1.02fmoles B₂A (bradykinin receptor) 20mg 0.36. + -. 0.028nM 45.0. + -. 3.15fmoles 0.38. + -. 0.027nM 8.7. + -. 0.62fmoles2mg 0.39.39. + -. 0.035nM 44.3. + -. 2.90fmoles 0.34. + -. 0.024nM 11.9. + -. 0.76fmoles0.2mg 0.40. + -. 0.028nM 47.0. + -. 3.76fmoles 0.35. + -. 0.028nM 15.1. + -. 1.05fmoles B₂MM (control) 20mg 0.39. + -. 0.031nM 42.0. + -. 2.94fmoles 0.41. + -. 0.029nM 14.0. + -. 0.98fmoles2mg 0.41.41. + -. 0.035nM 40.0. + -. 3.20fmoles 0.37. + -. 0.020nM 14.8. + -. 0.99fmoles0.2mg 0.37. + -. 0.029nM 43.0. + -. 3.14fmoles 0.36. + -. 0.025nM 15.1. + -. 1.35fmoles saline solution control 0.37. + -. 0.04146.0. + -. 5.210.39. + -. 0.047nM 14.2. + -. 1.35fmoles1 means total oligonucleotides administered in divided doses over a 48 hour period. The processing and analysis steps have been described in the methods, and significance was determined by repeated assay for differences (ANOVA) and Tukey protective tests. Each group n is 4-6.^*The significance difference between the mismatching control group and the saline solution treatment group is that P is less than 0.001;^**the significance of the mismatched control and saline solution treatment groups was different, P<0.05.Example 21: dose response Effect of oligonucleotide I

Antisense oligonucleotide I (SEQ ID NO: 1) was found to reduce the effect of adenosine administration to animals in a dose-dependent manner within the dose range tested as shown in Table 6 below.

TABLE 6 dose-response Effect on antisense oligonucleotides I

Total dose (mg) PC₅₀Adenosine (mg adenosine)

Antisense oligonucleotide I

0.2 8.32±7.2

2.0 14.0±7.2

20 19.5±0.34 A₁MM₂Oligonucleotides (control)

0.2 2.51±0.46

2.0 3.13±0.71

20 3.25±0.34

The statistics/difference of the student pairing t test shows that the result is that P is 0.05

The antisense adenosine A1 receptor oligonucleotide, oligonucleotide I (SEQ ID NO: 1), acts specifically on the adenosine A1 receptor but not on the adenosine A2 receptor. These results were derived from treatment of rabbits dosed with either antisense oligonucleotide I (SEQ ID NO: 1) or a mismatch control oligonucleotide (SEQ ID NO: 1682: A1MM2) as described in example 9, Nyce and Metzger (1997) and supra-referenced (insertion of the catheter by spraying 5mg of the formulation four times at 8-12 hour intervals through a nebulizer), peripheral bronchial gently musculature and determination of the number of adenosine A1 and adenosine A2 receptors as reported by the Nyce and Metzger (1997) methods and supra-referenced. Example 22: specificity of oligonucleotide I (SEQ ID NO: 1) for target Gene products

Oligonucleotide I (SEQ ID NO: 1) is specific for the adenosine A1 receptorThe mismatch control of (2) had no effect. FIG. 1 depicts example 10, Nyce&Metzger (1997) reported and referred to the results of the cross-over experiments described in the methods above. Two mismatch controls (SEQ ID NO: 1682 and 1683) vs PC_{50 adenosine}The values do not show any significance. In contrast, the dispensing treatment of antisense oligonucleotide I (SEQ ID NO: 1) showed PC_{50 adenosine}Value 7The fold increase. The results clearly indicate that antisense oligonucleotide I (SEQ ID NO: 1) reduced theresponse to exogenously administered adenosine (decreased sensitivity) compared to the saline solution control. The results presented in Table 6 above clearly establish that the effect of antisense oligonucleotide I is dose-dependent (see column three of Table 5). Antisense oligonucleotide I has also been shown to exhibit complete specificity for the adenosine A1 receptor (see top three columns) and no effect on the closely related adenosine A2 receptor or bradykinin B2 receptor (see lines 8-10 of Table 6 above). In addition, the results shown in Table 6 establish that antisense oligonucleotide I (SEQ ID NO: 1) decreases sensitivity to adenosine in a dose-dependent manner and is an antisense oligonucleotide-dependent manner. Since both mismatch control oligonucleotides (A1MM 2; SEQ ID NO: 1682 and A1MM 3; SEQ ID NO: 1683) did not serve any purpose in PC50 adenosine values or in reducing the number of adenosine A1 receptors. Example 23: effects on gas phase allergen-induced bronchial constriction and inflammation

Antisense oligonucleotide I (SEQ ID NO: 1) was shown to significantly reduce histamine induction in experimental rabbits compared to control mismatched oligonucleotides. Allergy rabbits were used to evaluate the effect of antisense oligonucleotide I (SEQ ID NO: 1) and the mismatch oligonucleotide (A1MM 2; SEQ ID NO: 1682 and A1MM 3; SEQ ID NO: 1683) on allergen-induced airway dysfunction and bronchial hyper-response. From the area under the flat curve, antisense oligonucleotide I significantly prevented allergen-induced airway obstruction compared to the mis-matched control (55%, p<0.05; duplicate ANOVA and Tukey t test). The mismatch oligonucleotide A1MM2 (control) was completely devoid of effects on allergen-induced airway disorders. The effect of antisense oligonucleotide I (SEQ ID NO: 1) on allergen-induced BPH was determined as described above. From PC_{50 Histamine}The values were calculated to show that antisense oligonucleotide I (SEQ ID NO) in allergic rabbitsID NO: 1) significantly inhibited allergen-induced BHR compared to the miscompare control (61%, p<0.05; duplicate assay ANOVA and Tukey t test). It was observed that the A1MM mis-matched control had no effect at all on allergen-induced BHR. The results indicate that antisense oligonucleotide I (SEQ ID NO: 1) is effective in preventing allergen-induced bronchoconstriction (house dust mite). In addition, antisense oligonucleotide I (SEQ ID NO: 1) was also found to be a potential inhibitor of dust mite-induced bronchial hyperresponsiveness, as shown by the sensitivity effect on histamine indicating that antisense oligonucleotide I (SEQ ID NO: 1) has anti-inflammatory activity. Example 24: antisense oligonucleotide I has no toxic side effect

Antisense oligonucleotide I (SEQ ID NO: 1) was shown not to produce side effects that may be harmful to the subject. No changes in arterial blood pressure, cardiac output, stroke volume, heart rate, total peripheral resistance or contractility of the heart (dPdT) were observed with doses of 2.0 or 20mg of oligonucleotide (SEQ ID NO: 1). In addition, Cardiac Output (CO), cardiac Stroke Volume (SV), mean arterial blood pressure (MAP), Heart Rate (HR), Total Peripheral Resistance (TPR) and contractile force (dPdT) values were measured with a CardiomaxJ instrument (columbus instruments, Ohio). These results demonstrate that oligonucleotide I (SEQ ID NO: 1) has NO detrimental effect on key cardiovascular parameters. More particularly, this oligonucleotide does not cause hypotension. This finding is particularly important. As other phosphorothioate antisense oligonucleotides were found in the past to cause hypotension in some experimental animals. While the adenosine a1 receptor plays an important role in sinoatrial conduction in the heart. Attenuation of the adenosine A1 receptor by antisense oligonucleotide I (SEQ ID NO: 1) may be expected to result in deleterious additional lung activity in response to down-regulated receptors. This is not the case. Antisense oligonucleotide I (SEQ ID NO: 1) did not produce any harmful intrapulmonary effects and had NO unexpected, undesirable side effects that caused low doses of the antisense oligonucleotides. This demonstrates that when antisense oligonucleotide I (SEQ ID NO: 1) is used directly in the lung, it fails to reach the heart in amounts that produce deleterious effects. This is in sharp contrast to conventional adenosine receptor antagonists such as theophylline, which can be detached from the lung and produce deleterious and even life-threatening effects outside the lung. Example 25: long lasting action of oligonucleotide I

Antisense oligonucleotide I (SEQ ID NO: 1) showed a long duration of action as shown by the PC50 and the resistance values obtained by administering the antisense oligonucleotide prior to adenosine stimulation. The duration of action on PC50 of adenosine antisense oligonucleotide I was determined by catheter-directed nebuliser spray as described above, four times with 5mg aliquots each. The preparation has obvious effect after being taken for 1 to 8 days. When the effect of antisense oligonucleotide I (SEQ ID NO: 1) was lost, the animals were sprayed with a saline aerosol (control) and all animals were re-tested for PC50 adenosine values. Saline treated animals showed baseline PC50 adenosine values (n ═ 6). Six allergic rabbits were administered 20mg of antisense oligonucleotide (SEQ ID NO: 1) as above, and their duration of action in terms of resistance was determined by measuring airway resistance of the six allergic rabbits as described above. The mean duration of action was calculated to be 8.3 days for PC50 adenosine (p<0.05) and resistance (p<0.05). These results indicate that antisense oligonucleotide I (SEQ ID NO: 1) has a very long duration of action, which is completely unexpected. Example 26: antisense oligonucleotide II

Antisense oligonucleotides II targeting different regions of the adenosine a1 receptor mRNA were found to be highly active against adenosine a1 mediated effects. The effect of antisense oligonucleotide II (SEQ ID NO: 7) on compliance and resistance was determined experimentally in two groups of allergic rabbits using 20mg of antisense oligonucleotide II or saline (control) as described above. Compliance and resistance values were determined after adenosine or saline was used as described in example 13. Detecting the compliance value by a statistical significance formula, and performing a pairing t-test, wherein p is less than 0.05; the resistance value p<0.01 indicates that the antisense oligonucleotides of the invention act differently from the control. The results show that antisense oligonucleotide II (SEQ ID NO: 7) targeting the adenosine A1 receptor is effective in maintaining compliance values and reducing resistance after stimulation with adenosine. Example 27: antisense oligonucleotides III and IV

Antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9) were shown to actually target the adenosine A3 receptor, and 20mg of antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9), which act to reduce the number of inflammatory and inflamed cells, were administered to allergic rabbits, respectively, as described above. The number of inflamed cells was determined by counting at least 100 visible cells per lavage 3 hours after bronchial lavage of the fluid. The effect of antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9) on crystal particles and total bronchial lavage cells was determined after exposure to dust mite allergen. The results showed that antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9) are extremely potent anti-inflammatory agents in pulmonary asthma after exposure to dermatophagoides pteronyssinus allergen. As is known in the art, crystalline particles, particularly eosinophils, are the major inflammatory cells of asthma. The use of antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9) reduced the number of inflammatory cells by approximately 40% and 66%, respectively. Furthermore, antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9) also reduced the total cell number of bronchial lavage fluid by 40% and 80%, respectively. The antisense adenosine a3 preparation of the present invention is an important indicator of anti-inflammatory activity. Asthma inflammation is known to consist of bronchial hyper-responsiveness and allergen-induced bronchial vasoconstriction. Antisense oligonucleotide III (SEQ ID NO: 8) and antisense oligonucleotide VI (SEQ ID NO: 9) targeting the adenosine A3 receptor represent a new cluster of anti-inflammatory agents that might be designed to specifically target each of the pulmonary receptors. Example 28: antisense oligonucleotide V

Antisense oligonucleotide V (SEQ ID NO: 10) targeting the adenosine A2b receptor mRNA was shown to be effective against adenosine A2b mediation, reducing the number of adenosine A2b receptors present to at least half. Example 29: unexpected advantages of oligonucleotide I-DS (SEQ ID NO: 1681) with over-substitution of phosphodiester residues

Antisense oligonucleotide I (SEQ ID NO: 1) and antisense oligonucleotide I-DS (SEQ ID NO: 1681) were administered to allergic rabbits, respectively, following the procedure described above, which were then challenged with adenosine. The statistically significant effect of phosphodiester oligonucleotide I-DS (SEQ ID NO: 1681) against the effect of adenosine was low while oligonucleotide I (SEQ ID NO: 1) showed very high potency, as indicated by 20mg of PC50 adenosine. Example 30: antisense oligonucleotide VI

In this work, another antisense phosphorothioate diester oligonucleotide (oligonucleotide VI) targeting the adenosine a1 receptor was designed. The oligonucleotides are designed to treat the alternative species described in this patent application, usually specifically directed to a particular species, unless other species of adenosine mRNA receptor fragments happen to have the same sequence. The antisense oligonucleotides were prepared as described below and used in the in vivo assay of dyspnea and obstructed airway disease such as asthma, e.g., bronchoconstriction, inflammation and pulmonary allergy in experimental rabbits, as verified above. Another oligonucleotide and its effect on rabbits were studied. The results of the study are reported below and discussed therein. The oligonucleotide (antisense oligonucleotide VI) of this study was selected to complement SEQ ID NO: 1 (oligonucleotide I) data which is a previously demonstrated antisense oligonucleotide to the adenosine a1 receptor mRNA used in this patent. This other oligonucleotide is antisense oligonucleotide VI, targeting a region of the adenosine A1 receptor mRNA different from oligonucleotide I. Design synthesis of the antisense oligonucleotides was in accordance with the teachings of the present invention, particularly as taught in example 1. Antisense oligonucleotide VI is a phosphorothioate, targeting the region coding for region +964 to +984 of the rabbit adenosine A1 receptor mRNA associated with the start codon (start site). Antisense oligonucleotide VI prepared as indicated for the application was 20 nucleotides in length. Antisense oligonucleotide VI directly targets the adenosine a1 receptor gene and has the following sequence: 5'-CGC CGG CGG GTG CGG GCC GG-3' are provided. (SEQ ID NO: SEQ ID NO). Phosphorothioate antisense oligonucleotides VI have the sequence described in (5) and oligonucleotides were synthesized using a model 396 biosystem oligonucleotide synthesizer and purified using NENSORB chromatography (DuPont, DE). TETD (tetraethylthiuram disulfide) is used as a curative during the synthesis. Example 31: preparation of allergic rabbits

Newborn New Zealand white sterile rabbits were immunized intraperitoneally with 0.5 ml of 312 antigen units/ml house dust mite (D.Farinae) extract mixed with 10% kaolin (Berkeley Biologicals, Berkeley, Calif.) as described previously (Metzger, W.J., in Late Phase Allergic Reaction, Dorsch, W.Ed., CRC Handbook, pp.347-362, CRC Press, Boca Raton (1990); all, S.Metzger, W.J. and Mustafa, S.J., am.Resp.Crit.Care Med.149: 1994) within 24 hours of birth. Immunization was repeated weekly for the first month and two more weeks until the animals were 4 months old. These rabbits preferably produce allergen-specific IgE antibodies, which typically exhibit bronchial hyper-response (BHR) in response to gaseous phase allergen stimulation in the early and late phase of the asthma response. Continuing the stimulation and maintenance of allergen-specific IgE antibodies and BHR with allergen (312 units dust mite allergen above) administered intraperitoneally monthly. Allergic rabbits for aerosol preparation such as Ali and the above mentioned allergic rabbits are prepared at4 months of age. Example 32: preparation of adenosine aerosol

An adenosine aerosol (20mg/ml) was prepared using an ultrasonic nebulizer (Model 646, DeVibiss, Somerset, Pa.) to produce aerosol droplets of which 80% were less than 5 microns in diameter. Equal amounts of aerosol were administered directly to the lungs of all three rabbits by insertion of a catheter. Animals were administered aerosolized adenosine. Day one pretreatment values for adenosine sensitivity were calculated as adenosine dose resulting in 50% loss of compliance (PC)_{50 adenosine}). The animals were administered aerosolized antisense oligonucleotide (5mg/1.0ml) 2 minutes at a time, 2 times a day for two days (total dose of 20mg) by catheterizing. Post-treatment PC50 values (post-treatment stimuli) were recorded on the third morning.The results of the study are shown in (9) below. Example 33: antisense oligonucleotide formulations

Each antisense oligonucleotide was dissolved in an aqueous solution separately and administered by inserting a catheter into a nebulizer as described above in the method for antisense oligonucleotide I (e), 4 times in an integer amount of 5mg (total dose 20 mg). Example 34: oligonucleotide VI equal to or higher than oligonucleotide I reduced response to adenosine stimulation

The identity of oligonucleotide VI was tested in three allergic rabbits as already mentioned in (7) above and in the patent application. Oligonucleotide VI targets the adenosine a1 receptor differently from the coding region of oligonucleotide I. These target sequences are randomly selected from a number of possible target sequence coding regions. Three rabbits were treated identically as for oligonucleotide I previously. Briefly, 5mg of oligonucleotide VISpraying to rabbit, and taking twice a day for two days at intervals of 8 hours. Thereafter, PC was performed in the morning of the third day_{50 adenosine}Study, comparison with pretreatment PC50 values. This method is described in detail in Nyee and Metzger (Nyce Metzger, Nature 385: 721-. The results obtained from three rabbits are shown in table 7 below.

TABLE 7 aerosolized adenosine pre-and post-treatment PC₅₀Adenosine (I)

Processing time PC₅₀Adenosine (mg)

Before treatment, 3.0 +/-2.1

After treatment>20.0^*

^*The maximum dose available is due to the inability of adenosine to dissolve in saline

All three rabbits treated with oligonucleotide VI all abolished the ability to be sensitive to preparations up to measurable levels of adenosine, as shown in table 7 above. That is, the use of oligonucleotide VI abolished adenosine-induced bronchoconstriction in three allergic rabbits. The true efficacy of oligonucleotide VI is greater than that which can be determined in the experimental system. By comparison with the results obtained with the previous oligonucleotide I, it can be seen that oligonucleotide VI is equivalent to or more effective than oligonucleotide I. Example 34: conclusion

The results discussed in the described work and examples clearly indicate that all antisense oligonucleotides designed in accordance with the teachings of the applications demonstrated above were found to be highly effective against or reduce the receptor-mediated effects to which they are targeted. Each and all of the two antisense oligonucleotides targeting the adenosine a1 receptor mRNA, 1 targeting the adenosine A2b receptor mRNA, and the 2 nd targeting the adenosine A3 receptor mRNA were shown to be resistant to the effects of exogenously administered adenosine mediated by the specific receptor they target. The antisense oligonucleotides of the invention have specific activity against a target and are virtually unable to inhibit other targets. In addition, the results also indicate that the use of the formulation results in minimal or no adverse side effects or toxicity. It represents 100% success in developing highly effective, specific agents for the treatment of bronchial vascular constriction and/or inflammation. The invention is broadly applicable in the same manner to all genes involved in or associated with airway-related diseases and to the corresponding mRNA encoding proteins. A comparison of the phosphodiester oligonucleotide with the same oligonucleotide substituted at the phosphodiester bond site with a phosphorothioate bond shows that phosphorothioate has an unexpected advantage over phosphodiester antisense oligonucleotides. Example 35: response of Living bodies to adenosine stimulation with or without oligonucleotide I Pre-treatment

Two super-responsive monkeys (ascaris sensitive) were stimulated with inhaled adenosine either with antisense oligonucleotide I (seq id No. 1) pretreatment or without treatment. From the data collected, PC40 adenosine values, an amount of adenosine expressed in mg equal to 40% reduction in kinetic compliance in the hyper-responsive airways, were calculated. Oligonucleotide I (SEQ ID NO: 1; EPI2010) was administered continuously by inhalation, 10mg daily, for 2 days. On the third day, PC adenosine values were again determined. PC before oligonucleotide I treatment₄₀Adenosine values and PC after administration of oligonucleotide I₄₀Adenosine values were compared (not shown). The results of the experiments performed with both types showed that any sensitivity to adenosine was completely abolished by the use of the oligonucleotide in one animal, whereas the sensitivity to adenosine was reduced in the second animal. Example 36: popularization of Experimental results

Examples of such are human A2a adenosine receptor, human A2b adenosine receptor, human IgE β receptor, human Fc-epsilon receptor CD23 antigen, human histidine decarboxylase, human β trypsin, human trypsin-I, human prostaglandin D synthase, human cyclooxygenase-2, human eosinophil cationin, human eosinophil-derived neurotoxin, human eosinophil peroxidase, human intercellular adhesion molecule-1 (ICAM-1), human vascular cell adhesion molecule-1 (VCAM-1), human endothelial leukocyte adhesion molecule-1 (ELAM-1), human P-selectin, human endothelial single cell activator, human IL-3, human IL-4, human IL-5, human IL-6, human monocyte-derived neutrophil-factor, human neutrophil elastase, human neutrophil-inducible factor, human neutrophil-peroxidase, human caspase α, human interleukin receptor GM-3, human macrophage-3, human interleukin-3, human IL-6, human monocyte-derived neutrophil elastase, human neutrophil-inducible, human caspase, human interleukin-358, human interleukin-binding to human macrophage receptors GM-3, human TNF-3, human macrophage-3, human interleukin-3.

The foregoing is a description of the invention and is not to be construed as being limited to only those mentioned. The invention is defined by the following claims, with equivalents of the claims to be included therein.

Sequence listing

(1) General data

(i) The applicant: university of east Carolina, etc

(ii) The invention name is as follows: low adenosine oligonucleotide reagents, compositions, kits and treatments

(iii) Sequence number: 3110

(iv)CORRESPONDENCE ADDRESS：

(A)ADDRESSEE：ARTER&HADDEN (B)STREET：725 South Figueroa St，#3400

(C)CITY： Los Angeles

(D)STATE： CA

(E)COUNTRY： USA

(F)ZIP： 90071

(v) Computer-readable form:

(A) type of medium: magnetic disk

(B) A computer: compatible with IBM

(C) Operating the system: DOS

(D) Software: FastSEQ for Windows Version 2.O

(vi) Data of the present application:

(A) application No.: PCT/US99

(B) Application date: 8/3/1999

(C) And (4) classification: UNKNOWN (vii) priority:

(A) application No.: 60/095,212

(B) Application date: 8/3/1999

(viii)ATTORNEY/AGENT INFORMATION：

(A)NAME： Amzel，Viviana

(B)REGISTRATION NUMBER： 30,930

(C)REFERENCE/DOCKET NUMBER： EPI-109

(ix)TELECOMMUNICATION INFORMATION：

(A)TELEPHONE： 213-430-3520

(B)TELEFAX： 213-617-9255

(C)TELEX：

(2) SEQ ID NO: 1, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1 sequence description: GATGGAGGGC GGCATGGCGG G21

(2) SEQ ID NO: 2, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 2 sequence description: GTAGCAGGCG GGGATGGGGG C21

(2) SEQ ID NO: 3, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 3 sequence description: GTTGTTGGGC ATCTTGCC 18

(2) SEQ ID NO: 4, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 4 sequence description: GTACTTGCGG ATCTAGGC 18

(2) SEQ ID NO: 5, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 5 sequence description: GTGGGCCTAG CTCTCGCC 18

(2) SEQ ID NO: data of 6:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 6 sequence description: GTCGGGGTAC CTGTCGGC 18

(2) SEQ ID NO: 7,data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 7 sequence description: CTCGTCGCCG TCGCCGGCGG G21

(2) SEQ ID NO: data of 8:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 8 sequence description: GGGTGGTGCT ATTGTCGGGC 20

(2) SEQ ID NO: 9, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 9 sequence description: GGCCCAGGGC CAGCC 15

(2) SEQ ID NO: data of 10:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 10 sequence description: GGCCGGGCCA GCCGGGCCCG G21

(2) SEQ ID NO: data of 11:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 11 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 50

(2) SEQ ID NO: data of 12:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 12 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 49

(2) SEQ ID NO: 13, data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 13 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 48

(2) SEQ ID NO: 14, data of:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 14 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 47

(2) SEQ ID NO: 15, data of:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 15 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 46

(2) SEQ ID NO: data of 16:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 16 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 45

(2) SEQ ID NO: 17 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 17 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 44

(2) SEQ ID NO: data of 18:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 18 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 43

(2) SEQ ID NO: data of 19:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 19 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 42

(2) SEQ ID NO: 20, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 20 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C41

(2) SEQ ID NO: data of 21:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 21: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 40

(2) SEQ ID NO: 22 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 22 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 39

(2) SEQ ID NO: data of 23:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 23 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 38

(2) SEQ ID NO: data of 24:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 24 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 37

(2) SEQ ID NO: 25, data of:

(i) sequence characteristics:

(A)length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 25 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 36

(2) SEQ ID NO: data of 26:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 26 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 35

(2) SEQ ID NO: data of 27:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 27 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 34

(2) SEQ ID NO: data of 28:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 28 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 33

(2) SEQ ID NO: 29 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 29 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 32

(2) SEQ ID NO: data of 30:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 30 description of the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C31

(2) SEQ ID NO: 31 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 31 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 30

(2) SEQ ID NO: 32 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 32 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 29

(2) SEQ ID NO: 33 data of:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 33 sequence description: AGGGCGGCAT GGCGGGCACA GGCTGGGC 28

(2) SEQ ID NO: 34, data of:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 34 description of the sequence: GGGCGGCATG GCGGGCACAG GCTGGGC 27

(2) SEQ ID NO: data of 35:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 35 sequence description: GGCGGCATGG CGGGCACAGG CTGGGC 26

(2) SEQ ID NO: 36 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 36 sequence description: GCGGCATGGC GGGCACAGGC TGGGC 25

(2) SEQ ID NO: data of 37:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 37 sequence description: CGGCATGGCG GGCACAGGCT GGGC 24

(2) SEO ID NO: 38 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 38 sequence description: GGCATGGCGG GCACAGGCTG GGC 23

(2) SEQ ID NO: 39 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 39 sequence description: GCATGGCGGG CACAGGCTGG GC 22

(2) SEQ ID NO: data of 40:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 40 sequence description: CATGGCGGGC ACAGGCTGGG C21

(2) SEQ ID NO: data of 41:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 41 sequence description: ATGGCGGGCA CAGGCTGGGC 20

(2) SEQ ID NO: 42, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 42 description of the sequence: TGGCGGGCAC AGGCTGGGC 19

(2) SEQ ID NO: 43 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 43 sequence description: GGCGGGCACA GGCTGGGC 18

(2) SEQ ID NO: data of 44:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 44 sequence description: GCGGGCACAG GCTGGGC 17

(2) SEQ ID NO: 45, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 45 sequence description: CGGGCACAGG CTGGGC 16

(2) SEQ ID NO: 46 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 46 sequence description: GGGCACAGGC TGGGC 15

(2) SEQ ID NO: data of 47:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 47 sequence description: GGCACAGGCT GGGC 14

(2) SEQ ID NO: 48, data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 48 sequence description: GCACAGGCTG GGC 13

(2) SEQ ID NO: 49 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 49 sequence description: CACAGGCTGG GC 12

(2) SEQ ID NO: data of 50:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 50 sequence description: ACAGGCTGGG C11

(2) SEQ ID NO: 51, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 51 sequence description: CAGGCTGGGC 10

(2) SEQ ID NO: data of 52:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 52 description of the sequence: AGGCTGGGC 9

(2) SEQ ID NO: 53 data:

(i) sequence characteristics:

(A) length: 51 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 53 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C51

(2) SEQ ID NO: 54 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 54 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG 50

(2) SEQ ID NO: data of 55:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 55 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGG 49

(2) SEQ ID NO: data of 56:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 56 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTG 48

(2) SEQ ID NO: data of 57:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 57 description of the sequence: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCT 47

(2) SEQ ID NO: 58, data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 58 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGC 46

(2) SEQ ID NO: data of 59:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 59 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGG 45

(2) SEQ ID NO: data of 60:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 60: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAG 44

(2) SEQ ID NO: data of 61:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 61 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACA 43

(2) SEQ ID NO: 62, data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 62: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC AC 42

(2) SEQ ID NO: 63, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 63: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC A41

(2) SEQ ID NO: data of 64:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 64 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC 40

(2) SEQ ID NO: 65 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 65 description of the sequence: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGG 39

(2) SEQ ID NO: 66 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 66 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGG 38

(2) SEQ ID NO: 67 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 67 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCG 37

(2) SEQ ID NO: 68 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 68 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGC 36

(2) SEQ ID NO: 69 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 69 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGG 35

(2) SEQ ID NO: 70, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 70 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATG 34

(2) SEQ ID NO: 71 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 71 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CAT 33

(2) SEQ ID NO: data of 72:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 72 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CA 32

(2) SEQ ID NO: 73, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 73 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG C31

(2) SEQ ID NO: 74 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 74 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG 30

(2) SEQ ID NO: 75, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 75 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCG 29

(2) SEQ ID NO: data of 76:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 76 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGC 28

(2) SEQ ID NO: 77 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 77: GGCGGCCTGG AAAGCTGAGA TGGAGGG 27

(2) SEQ ID NO: 78 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 78 description of the sequence: GGCGGCCTGG AAAGCTGAGA TGGAGG 26

(2) SEQ ID NO: 79 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 79 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAG 25

(2) SEQ ID NO: 80, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 80 sequence description: GGCGGCCTGG AAAGCTGAGA TGGA 24

(2) SEQ ID NO: data of 81:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 81: GGCGGCCTGG AAAGCTGAGA TGG 23

(2) SEQ ID NO: 82, data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 82 sequence description: GGCGGCCTGG AAAGCTGAGA TG 22

(2) SEQ ID NO: 83 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 83 sequence description: GGCGGCCTGG AAAGCTGAGA T21

(2) SEQ ID NO: data of 84:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 84 sequence description: GGCGGCCTGG AAAGCTGAGA 20

(2) SEQ ID NO: 85 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 85 sequence description: GGCGGCCTGG AAAGCTGAG 19

(2) SEQ ID NO: data of 86:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 86 sequence description: GGCGGCCTGG AAAGCTGA 18

(2) SEQ ID NO: 87 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 87 sequence description: GGCGGCCTGG AAAGCTG 17

(2) SEQ ID NO: 88 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 88 sequence description: GGCGGCCTGG AAAGCT 16

(2) SEQ ID NO: 89, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 89 sequence description: GGCGGCCTGG AAAGC 15

(2) SEQ ID NO: data of 90:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 90 sequence description: GGCGGCCTGG AAAG 14

(2) SEQ ID NO: 91, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 91 sequence description: GGCGGCCTGG AAA 13

(2) SEQ ID NO: 92 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 92 sequence description: GGCGGCCTGG AA 12

(2) SEQ ID NO: 93 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 93 to seq id no: GGCGGCCTGG A11

(2) SEQ ID NO: data of 94:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 94 sequence description: GGCGGCCTGG 10

(2) SEQ ID NO: 95 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 95 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 50

(2) SEQ ID NO: 96 of the data:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 96 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGG 49

(2) SEQ ID NO: 97 data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 97 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGG 48

(2) SEQ ID NO: data of 98:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 98 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTG 47

(2) SEQ ID NO: 99 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 99 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCT 46

(2) SEQ ID NO: 100 of the data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 100 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGC 45

(2) SEQ ID NO: 101, data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 101 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGG 44

(2) SEQ ID NO: 102, data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 102 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAG 43

(2) SEQ ID NO: 103, data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 103 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CA 42

(2) SEQ ID NO: 104, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 104 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA C41

(2) SEQ ID NO: 105 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 105 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA 40

(2) SEQ ID NO: 106 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 106 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGC 39

(2) SEQ ID NO: data of 107:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 107 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGG 38

(2) SEQ ID NO: 108 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 108 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGG 37

(2) SEQ ID NO: 109 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 109 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCG 36

(2) SEQ ID NO: 110, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 110 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGC 35

(2) SEQ ID NO: data of 111:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 111 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGG 34

(2) SEQ ID NO: 112, data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 112 describes the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATG 33

(2) SEQ ID NO: 113 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 113 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC AT 32

(2) SEQ ID NO: 114, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 114 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC A31

(2) SEQ ID NO: 115 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 115 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC 30

(2) SEQ ID NO: 116, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 116 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGG 29

(2) SEQ ID NO: 117 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 117 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCG 28

(2) SEQ ID NO: 118 of the data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 118 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGC 27

(2) SEQ ID NO: data of 119:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 119 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGG 26

(2) SEQ ID NO: 120, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 120 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGG 25

(2) SEQ ID NO: 121, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 121 describes the sequence: GCGGCCTGGA AAGCTGAGAT GGAG 24

(2) SEQ ID NO: 122, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 122 describes the sequence: GCGGCCTGGA AAGCTGAGAT GGA 23

(2) SEQ ID NO: data of 123:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 123 sequence description: GCGGCCTGGA AAGCTGAGAT GG 22

(2) SEQ ID NO: 124 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 124 description of the sequence: GCGGCCTGGA AAGCTGAGAT G21

(2) SEQ ID NO: 125 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 125 sequence description: GCGGCCTGGA AAGCTGAGAT 20

(2) SEQ ID NO: 126 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 126 describes the sequence: GCGGCCTGGA AAGCTGAGA 19

(2) SEQ ID NO: 127 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 127 sequence description: GCGGCCTGGA AAGCTGAG 18

(2) SEQ ID NO: data of 128:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 128 describes the sequence: GCGGCCTGGA AAGCTGA 17

(2) SEQ ID NO: 129 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 129 describes the sequence: GCGGCCTGGA AAGCTG 16

(2) SEQ ID NO: 130, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 130 sequence description: GCGGCCTGGA AAGCT 15

(2) SEQ ID NO: 131 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 131 describes the sequence: GCGGCCTGGA AAGC 14

(2) SEQ ID NO: 132:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 132 sequence description: GCGGCCTGGA AAG 13

(2) SEQ ID NO: 133, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 133 sequence description: GCGGCCTGGA AA 12

(2) SEQ ID NO: 134 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 134 describes the sequence: GCGGCCTGGA A11

(2) SEQ ID NO: 135 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 135 by the sequence: GCGGCCTGGA 10

(2) SEQ ID NO: 136 of the data:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 136 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 49

(2) SEQ ID NO: 137 data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 137 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGG 48

(2) SEQ ID NO: 138 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 138 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGG 47

(2) SEQ ID NO: 139 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 139 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTG 46

(2) SEQ ID NO: 140 of data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 140 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCT 45

(2) SEQ ID NO: 141 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 141 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGC 44

(2) SEQ ID NO: 142, data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 142 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGG 43

(2) SEQ ID NO: 143 of the data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 143 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AG 42

(2) SEQ ID NO: 144, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 144 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC A41

(2) SEQ ID NO: 145 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 145 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC 40

(2) SEQ ID NO: 146 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 146 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCA 39

(2) SEQ ID NO: 147 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 147 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGC 38

(2) SEQ ID NO: 148 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 148 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGG 37

(2) SEQ ID NO: 149 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 149 to seq id no: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGG 36

(2) SEQ ID NO: 150 of the data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 150 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCG 35

(2) SEQ ID NO: 151 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 151 describes the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGC 34

(2) SEQ ID NO: 152 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 152 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGG 33

(2) SEQ ID NO: 153 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 153 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TG 32

(2) SEQ ID NO: 154 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 154 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA T31

(2) SEQ ID NO: 155, data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 155 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA 30

(2) SEQ ID NO: 156 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 156 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGC 29

(2) SEQ ID NO: 157 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 157 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGG 28

(2) SEQ ID NO: 158 of the following documents:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 158 describes: CGGCCTGGAA AGCTGAGATG GAGGGCG 27

(2) SEQ ID NO: 159 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 159 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGC 26

(2) SEQ ID NO: 160, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 160 sequence description: CGGCCTGGAA AGCTGAGATG GAGGG 25

(2) SEQ ID NO: data 161:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 161 sequence description: CGGCCTGGAA AGCTGAGATG GAGG 24

(2) SEQ ID NO: 162 of the following documents:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 162 sequence description: CGGCCTGGAA AGCTGAGATG GAG 23

(2) SEQ ID NO: 163 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 163 sequence description: CGGCCTGGAA AGCTGAGATG GA 22

(2) SEQ ID NO: 164 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 164 sequence description: CGGCCTGGAA AGCTGAGATG G21

(2) SEQ ID NO: 165 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 165 sequence description: CGGCCTGGAA AGCTGAGATG 20

(2) SEQ ID NO: 166 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 166 description of the sequence: CGGCCTGGAA AGCTGAGAT 19

(2) SEQ ID NO: 167 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 167 description of the sequence: CGGCCTGGAA AGCTGAGA 18

(2) SEQ ID NO: 168 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 168 sequence description: CGGCCTGGAA AGCTGAG 17

(2) SEQ ID NO: 169 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 169 sequence description: CGGCCTGGAA AGCTGA 16

(2) SEQ ID NO: 170 of the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 170 sequence description: CGGCCTGGAA AGCTG 15

(2) SEQ ID NO: 171 of the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 171 describes: CGGCCTGGAA AGCT 14

(2) SEQ ID NO: data of 172:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 172 describes the sequence: CGGCCTGGAA AGC 13

(2) SEQ ID NO: 173, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 173 describes the sequence: CGGCCTGGAA AG 12

(2) SEQ ID NO: 174, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 174 describes the sequence: CGGCCTGGAA A11

(2) SEQ ID NO: data of 175:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 175 sequence description: CGGCCTGGAA 10

(2) SEQ ID NO: data of 176:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 176, sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 48

(2) SEQ ID NO: 177 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 177 description of the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGG 47

(2) SEQ ID NO: 178:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 178 description of the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGG 46

(2) SEQ ID NO: 179 data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 179 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTG 45

(2) SEQ ID NO: 180 of the data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 180 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCT 44

(2) SEQ ID NO: data of 181:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 181 of seq id no: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGC 43

(2) SEQ ID NO: 182 data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 182 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GG 42

(2) SEQ ID NO: 183 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 183 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA G41

(2) SEQ ID NO: 184 of the data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 184 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA 40

(2) SEQ ID NO: 185 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 185 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCAC 39

(2) SEQ ID NO: 186 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 186 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCA 38

(2) SEQ ID NO: 187 of the data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 187 describes the sequence: GCCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGC 37

(2) SEQ ID NO: 188 materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 188 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGG 36

(2) SEQ ID NO: 189 data of:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 189 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGG 35

(2) SEQ ID NO: 190 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 190 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCG 34

(2) SEQ ID NO: 191, data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 191 describes the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGC 33

(2) SEQ ID NO: 192 of the following materials:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 192 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GG 32

(2) SEQ ID NO: 193 of the document:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 193 describes: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT G31

(2) SEQ ID NO: 194 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 194 description of the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT 30

(2) SEQ ID NO: 195, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 195 by sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCA 29

(2) SEQ ID NO: 196, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 196 describes the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGC 28

(2) SEQ ID NO: 197 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 197 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGG 27

(2) SEQ ID NO: 198 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 198 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCG 26

(2) SEQ ID NO: 199 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 199 sequence description: GGCCTGGAAA GCTGAGATGG AGGGC 25

(2) SEQ ID NO: 200 of the data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 200 sequence description: GGCCTGGAAA GCTGAGATGG AGGG 24

(2) SEQ ID NO: data of 201:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 201 sequence description: GGCCTGGAAA GCTGAGATGG AGG 23

(2) SEQ ID NO: 202 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 202 description of the sequence: GGCCTGGAAA GCTGAGATGG AG 22

(2) SEQ ID NO: 203, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 203 sequence description: GGCCTGGAAA GCTGAGATGG A21

(2) SEQ ID NO: 204 of data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 204 description of the sequence: GGCCTGGAAA GCTGAGATGG 20

(2) SEQ ID NO: 205 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 205 sequence description: GGCCTGGAAA GCTGAGATG 19

(2) SEQ ID NO: 206 of thedata:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 206 description of the sequence: GGCCTGGAAA GCTGAGAT 18

(2) SEQ ID NO: 207 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 207 sequence description: GGCCTGGAAA GCTGAGA 17

(2) SEQ ID NO: 208 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 208 sequence description: GGCCTGGAAA GCTGAG 16

(2) SEQ ID NO: 209 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 209 describes the sequence: GGCCTGGAAA GCTGA 15

(2) SEQ ID NO: 210, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 210 sequence description: GGCCTGGAAA GCTG 14

(2) SEQ ID NO: 211, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 211 sequence description: GGCCTGGAAA GCT 13

(2) SEQ ID NO: 212, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 212 describes the sequence: GGCCTGGAAA GC 12

(2) SEQ ID NO: 213 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 213 sequence description: GGCCTGGAAA G11

(2) SEQ ID NO: 214 of the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 214 description of the sequence: GGCCTGGAAA 10

(2) SEQ ID NO: 215 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 215 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 47

(2) SEQ ID NO: 216 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 216 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGG 46

(2) SEQ ID NO: 217 data:

(i) sequence characteristics:

(A) length: 45 basepairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 217 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGG 45

(2) SEQ ID NO: 218 of the data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 218 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTG 44

(2) SEQ ID NO: data for 219:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 219: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCT 43

(2) SEQ ID NO: 220, data of:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQID NO: 220 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GC 42

(2) SEQ ID NO: 221 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 221 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG G41

(2) SEQ ID NO: 222, data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 222 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG 40

(2) SEQ ID NO: 223 of the documents:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 223 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACA 39

(2) SEQ ID NO: 224 of the data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 224 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCAC 38

(2) SEQ ID NO: 225 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 225 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCA 37

(2) SEQ ID NO: 226 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 226 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGC 36

(2) SEQ ID NO: 227, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 227, sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGG 35

(2) SEQ ID NO: 228 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 228 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGG 34

(2) SEQ ID NO: 229, data of:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 229 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCG 33

(2) SEQ ID NO: 230 of the data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 230 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GC 32

(2) SEQ ID NO: data of 231:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 231 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG G31

(2) SEQ ID NO: 232, data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 232 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG 30

(2) SEQ ID NO: 233 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 233 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCAT 29

(2) SEQ ID NO: 234 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 234 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCA 28

(2) SEQ ID NO: 235 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 235 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGC 27

(2) SEQ ID NO: 236 of the data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 236 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGG 26

(2) SEQ ID NO: data of 237:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 237 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCG 25

(2) SEQ ID NO: 238 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 238 sequence description: GCCTGGAAAG CTGAGATGGA GGGC 24

(2) SEQ ID NO: 239, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 239, sequence description: GCCTGGAAAG CTGAGATGGA GGG 23

(2) SEQ ID NO: data of 240:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 240 sequence description: GCCTGGAAAG CTGAGATGGA GG 22

(2) SEQ ID NO: 241, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 241 description of the sequence: GCCTGGAAAG CTGAGATGGA G21

(2) SEQ ID NO: 242 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 242 describes the sequence: GCCTGGAAAG CTGAGATGGA 20

(2) SEQ ID NO: 243, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 243 describes: GCCTGGAAAG CTGAGATGG 19

(2) SEQ ID NO: 244 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID N0: 244 sequence description: GCCTGGAAAG CTGAGATG 18

(2) SEQ ID NO: 245 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 245 sequence description: GCCTGGAAAG CTGAGAT 17

(2) SEQ ID NO: 246 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 246 description of the sequence: GCCTGGAAAG CTGAGA 16

(2) SEQ ID NO: 247 data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 247 sequence description: GCCTGGAAAG CTGAG 15

(2) SEQ ID NO: 248 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(i) SEQ ID NO: 248 sequence description: GCCTGGAAAG CTGA 14

(2) SEQ ID NO: 249:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 249: GCCTGGAAAG CTG 13

(2) SEQ ID NO: 250, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 250 sequence description: GCCTGGAAAG CT 12

(2) SEQ ID NO: 251, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 251 sequence description: GCCTGGAAAG C11

(2) SEQ ID NO: 252 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 252 describes the sequence: GCCTGGAAAG 10

(2) SEQ ID NO: 253 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 253 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 46

(2) SEQ ID NO: 254 data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 254 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGG 45

(2) SEQ ID NO: 255 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 255: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGG 44

(2) SEQ ID NO: 256 data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 256 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTG 43

(2) SEQ ID NO: data at 257:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQID NO: 257 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CT 42

(2) SEQ ID NO: 258 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 258 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG C41

(2) SEQ ID NO: 259 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 259 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG 40

(2) SEQ ID NO: 260 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 260 describes the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAG 39

(2) SEQ ID NO: 261 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 261 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACA 38

(2) SEQ ID NO: 262 of the data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 262 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCAC 37

(2) SEQ ID NO: 263 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 263 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCA 36

(2) SEQ ID NO: 264 of the data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 264 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGC 35

(2) SEQ ID NO: 265 of the data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 265 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGG 34

(2) SEQ ID NO: 266 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 266 describes: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGG 33

(2) SEQ ID NO: 267 of the following data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 267 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CG 32

(2) SEQ ID NO: 268 of data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 268 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG C31

(2) SEQ ID NO: 269 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 269 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG 30

(2) SEQ ID NO: 270:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 270 describes: CCTGGAAAGC TGAGATGGAG GGCGGCATG 29

(2) SEQ ID NO: 271, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 271 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCAT 28

(2) SEQ ID NO: 272 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 272 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCA 27

(2) SEQ ID NO: 273 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 273 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGC 26

(2) SEQ ID NO: 274 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 274 sequence description: CCTGGAAAGC TGAGATGGAG GGCGG 25

(2) SEQ ID NO: 275 on the background:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 275 sequence description: CCTGGAAAGCTGAGATGGAG GGCG 24

(2) SEQ ID NO: 276 data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 276 description of the sequence: CCTGGAAAGC TGAGATGGAG GGC 23

(2) SEQ ID NO: 277 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 277, sequence description: CCTGGAAAGC TGAGATGGAG GG 22

(2) SEQ ID NO: 278 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 278 description of the sequence: CCTGGAAAGC TGAGATGGAG G21

(2) SEQ ID NO: 279 of the materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 279 description of the sequence: CCTGGAAAGC TGAGATGGAG 20

(2) SEQ ID NO: 280 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 280 sequence description: CCTGGAAAGC TGAGATGGA 19

(2) SEQ ID NO: 281, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 281 description of the sequence: CCTGGAAAGC TGAGATGG 18

(2) SEQ ID NO: 282 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 282 sequence description: CCTGGAAAGC TGAGATG 17

(2) SEQ ID NO: 283 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 283 sequence description: CCTGGAAAGC TGAGAT 16

(2) SEQ ID NO: 284, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 284 sequence description: CCTGGAAAGC TGAGA 15

(2) SEQ ID NO: 285 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 285 describes the sequence: CCTGGAAAGC TGAG 14

(2) SEQ ID NO: 286 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 286 description of the sequence: CCTGGAAAGC TGA 13

(2) SEQ ID NO: 287 of the following:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 287 sequence description: CCTGGAAAGC TG 12

(2) SEQ ID NO: 288:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 288 sequence description: CCTGGAAAGC T11

(2) SEQ ID NO: 289 on the basis of the following data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 289 description of the sequence: CCTGGAAAGC 1O

(2) SEQ ID NO: 290, data of:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 290 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 45

(2) SEQ ID NO: 291 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 291 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGG 44

(2) SEQ ID NO: 292 of data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 292 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGG 43

(2) SEQ ID NO: 293 data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 293 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TG 42

(2) SEQ ID NO: 294 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 294 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC T41

(2) SEQ ID NO: 295 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 295 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC 40

(2) SEQ ID NO: 296 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 296 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGG 39

(2) SEQ ID NO: 297 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 297 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAG 38

(2) SEQ ID NO: 298 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 298 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACA 37

(2) SEQ ID NO: 299 the following data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 299 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCAC 36

(2) SEQ ID NO: 300, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 300 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCA 35

(2) SEQ ID NO: data of 301:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 301 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGC 34

(2) SEQ ID NO: 302 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 302 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGG 33

(2) SEQ ID NO: 303:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 303 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GG 32

(2) SEQ ID NO: 304 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 304 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC G31

(2) SEQ ID NO: 305 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 305 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC 30

(2) SEQ ID NO: 306 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 306 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGG 29

(2) SEQ ID NO: 307 of data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 307 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATG 28

(2) SEQ ID NO: 308, data of:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 308 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGCAT 27

(2) SEQ ID NO: 309 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 309 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCA 26

(2) SEQ ID NO: 310, data:

(i) sequence characteristics:

(A)length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 310 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGC 25

(2) SEQ ID NO: 311 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 311 sequence description: CTGGAAAGCT GAGATGGAGG GCGG 24

(2) SEQ ID NO: 312, data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 312 sequence description: CTGGAAAGCT GAGATGGAGG GCG 23

(2) SEQ ID NO: 313 of data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 313 sequence description: CTGGAAAGCT GAGATGGAGG GC 22

(2) SEQ ID NO: 314 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 314 sequence description: CTGGAAAGCT GAGATGGAGG G21

(2) SEQ ID NO: 315:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 315 sequence description: CTGGAAAGCT GAGATGGAGG 20

(2) SEQ ID NO: 316, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 316 sequence description: CTGGAAAGCT GAGATGGAG 19

(2) SEQ ID NO: data of 317:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 317 sequence description: CTGGAAAGCT GAGATGGA 18

(2) SEQ ID NO: 318 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 318 description of the sequence: CTGGAAAGCT GAGATGG 17

(2) SEQ ID NO: 319 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 319 sequence description: CTGGAAAGCT GAGATG 16

(2) SEQ ID NO: 320 of data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 320 sequence description: CTGGAAAGCT GAGAT 15

(2) SEQ ID NO: 321, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 321 sequence description: CTGGAAAGCT GAGA 14

(2) SEQ ID NO: 322 of the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 322 describes: CTGGAAAGCT GAG 13

(2) SEQ ID NO: 323 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 323 sequence description: CTGGAAAGCT GA 12

(2) SEQ ID NO: 324 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 324 sequence description: CTGGAAAGCT G11

(2) SEQ ID NO: 325 of the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 325 describes: CTGGAAAGCT 10

(2) SEQ ID NO: 326 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 326, sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 44

(2) SEQ ID NO: 327, data of:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 327, sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GGG 43

(2) SEQ ID NO: 328 of the data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 328 describes: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GG 42

(2) SEQ ID NO: 329, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 329 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT G41

(2) SEQ ID NO: 330 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 330 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT 40

(2) SEQ ID NO: 331, data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 331 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGC 39

(2) SEQ ID NO: 332, data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 332 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGG 38

(2) SEQ ID NO: 333 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 333 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAG 37

(2) SEQ ID NO: 334, data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 334 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACA 36

(2) SEQ ID NO: 335 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 335 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCAC 35

(2) SEQ ID NO: 336 of the data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 336 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCA 34

(2) SEQ ID NO: 337 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 337 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGC 33

(2) SEQ ID NO: 338 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 338 description of the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GG 32

(2) SEQ ID NO: 339 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 339 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG G31

(2) SEQ ID NO: 340, data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 340 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG 30

(2) SEQ ID NO: 341 data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 341 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGC 29

(2) SEQ ID NO: 342, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 342 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGG 28

(2) SEQ ID NO: 343 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: lineshape

(xi) SEQ ID NO: 343 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATG 27

(2) SEQ ID NO: 344 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 344 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCAT 26

(2) SEQ ID NO: 345 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 345 sequence description: TGGAAAGCTG AGATGGAGGG CGGCA 25

(2) SEQ ID NO: 346, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 346 sequence description: TGGAAAGCTG AGATGGAGGG CGGC 24

(2) SEQ ID NO: 347 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 347, sequence description: TGGAAAGCTG AGATGGAGGG CGG 23

(2) SEQ ID NO: 348 details of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 348 sequence description: TGGAAAGCTG AGATGGAGGG CG 22

(2) SEQ ID NO: 349 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 349 description of the sequence: TGGAAAGCTG AGATGGAGGG C21

(2) SEQ ID NO: data of s:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 350 sequence description: TGGAAAGCTG AGATGGAGGG 20

(2) SEQ ID NO: 351, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 351 describes the sequence: TGGAAAGCTG AGATGGAGG l9

(2) SEQ ID NO: 352:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 352 describes the sequence: TGGAAAGCTG AGATGGAG 18

(2) SEQ ID NO: 353, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 353 description of the sequence: TGGAAAGCTG AGATGGA 17

(2) SEQ ID NO: 354 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 354 sequence description: TGGAAAGCTG AGATGG 16

(2) SEQ ID NO: 355 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 355 sequence description: TGGAAAGCTG AGATG 15

(2) SEQ ID NO: 356, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 356 sequence description: TGGAAAGCTG AGAT 14

(2) SEQ ID NO: 357, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 357 describes the sequence: TGGAAAGCTG AGA 13

(2) SEQ ID NO: 358 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 358 sequence description: TGGAAAGCTG AG 12

(2) SEQ ID NO: 359 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 359 sequence description: TGGAAAGCTG A11

(2) SEQ ID NO: 360 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 360 sequence description: TGGAAAGCTG 1O

(2) SEQ ID NO: 361:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 361: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 43

(2) SEQ ID NO: 362 data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 362 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG GG 42

(2) SEQ ID NO: 363 of:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 363 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG G41

(2) SEQ ID NO: 364 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 364 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG 40

(2) SEQ ID NO: 365 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 365 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCT 39

(2) SEQ ID NO: 366 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 366, sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGC 38

(2) SEQ ID NO: 367:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 367: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGG 37

(2) SEQ ID NO: 368 materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 368 is described by the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAG 36

(2) SEQ ID NO: 369 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 369 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACA 35

(2) SEQ ID NO: 370, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 370 describes: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCAC 34

(2) SEQ ID NO: 371 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 371 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCA 33(2) SEQ ID NO: 372 of the data: (i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 372 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GC 32

(2) SEQ ID NO: 373 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 373 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG G31

(2) SEQ ID NO: 374 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 374 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG 30

(2) SEQ ID NO: 375 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 375 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCG 29

(2) SEQ ID NO: 376 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 376 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGC 28

(2) SEQ ID NO: 377 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 377 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGG 27

(2) SEQ ID NO: 378 of the data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 378 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATG 26

(2) SEQ ID NO: 379 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 379 sequence description: GGAAAGCTGA GATGGAGGGC GGCAT 25

(2) SEQ ID NO: 380 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 380 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCA 24

(2) SEQ ID NO: 381 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 381 sequence description: GGAAAGCTGA GATGGAGGGC GGC 23

(2) SEQ ID NO: 382 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 382 description of the sequence: GGAAAGCTGA GATGGAGGGC GG 22

(2) SEQ ID NO: 383 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 383 sequence description: GGAAAGCTGA GATGGAGGGC G21

(2) SEQ ID NO: 384 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 384 sequence description: GGAAAGCTGA GATGGAGGGC 20

(2) SEQ ID NO: 385 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 385 description of the sequence: GGAAAGCTGA GATGGAGGG 19

(2) SEQ ID NO: 386 of data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 386 sequence description: GGAAAGCTGA GATGGAGG 18

(2) SEQ ID NO: 387 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 387: GGAAAGCTGA GATGGAG 17

(2) SEQ ID NO: 388, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 388 sequence description: GGAAAGCTGA GATGGA 16

(2) SEQ ID NO: 389 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 389 sequence description: GGAAAGCTGA GATGG 15

(2) SEQ ID NO: 390 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 390 sequence description: GGAAAGCTGA GATG 14

(2) SEQ ID NO: 391 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 391 sequence description: GGAAAGCTGA GAT 13

(2) SEQ ID NO: 392 of the data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 392 of the sequence description: GGAAAGCTGA GA 12

(2) SEQ ID NO: 393 of the data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 393 of the sequence description: GGAAAGCTGA G11

(2) SEQ ID NO: 394 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 394 sequence description: GGAAAGCTGA 10

(2) SEQ ID NO: 395 the data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 395 to sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 42

(2) SEQ ID NO: 396, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 396 for sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG G41

(2) SEQ ID NO: 397 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 397 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG 40

(2) SEQ ID NO: 398, data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 398 description of the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTG 39

(2) SEQ ID NO: 399, data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 399 description of the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCT 38

(2) SEQ ID NO: 400 of the data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 400 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGC 37

(2) SEQ ID NO: 401 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 401 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGG 36

(2) SEQ ID NO: 402, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 402 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAG 35

(2) SEQ ID NO: 403, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 403 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACA 34

(2) SEQ ID NO: 404 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 404 describes the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CAC 33

(2) SEQ ID NO: 405 data:

(i) sequence characteristics:

(A) length: 32 base pair (B) type: nucleic acid (C) strand type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 405 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CA 32

(2) SEQ ID NO: 406 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 406 describes the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG C31

(2) SEQ ID NO: 407 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 407 describes: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG 30

(2) SEQ ID NO: 408 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 408 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGG 29

(2) SEQ ID NO: 409 of the data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 409 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCG 28

(2) SEQ ID NO: 410, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 410sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGC 27

(2) SEQ ID NO: data of 411:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 411 to seq id no: GAAAGCTGAG ATGGAGGGCG GCATGG 26

(2) SEQ ID NO: data of 412:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 412 describes the sequence: GAAAGCTGAG ATGGAGGGCG GCATG 25

(2) SEQ ID NO: 413 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 413 description of the sequence: GAAAGCTGAG ATGGAGGGCG GCAT 24

(2) SEQ ID NO: 414 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 414 sequence description: GAAAGCTGAG ATGGAGGGCG GCA 23

(2) SEQ ID NO: 415 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 415 sequence description: GAAAGCTGAG ATGGAGGGCG GC 22

(2) SEQ ID NO: 416, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 416 sequence description: GAAAGCTGAG ATGGAGGGCG G21

(2) SEQ ID NO: 417 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 417 sequence description: GAAAGCTGAG ATGGAGGGCG 20

(2) SEQ ID NO: 418 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 418 sequence description: GAAAGCTGAG ATGGAGGGC 19

(2) SEQ ID NO: 419 of data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 419 description of the sequence: GAAAGCTGAG ATGGAGGG 18

(2) SEQ ID NO: 420, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 420 sequence description: GAAAGCTGAG ATGGAGG 17

(2) SEQ ID NO: 421 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 421 sequence description: GAAAGCTGAG ATGGAG 16

(2) SEQ ID NO: 422 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 422 sequence description: GAAAGCTGAG ATGGA 15

(2) SEQ ID NO: 423 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 423 sequence description: GAAAGCTGAG ATGG 14

(2) SEQ ID NO: 424 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 424 describes: GAAAGCTGAG ATG 13

(2) SEQ ID NO: 425 of the following materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 425 sequence description: GAAAGCTGAG AT 12

(2) SEQ ID NO: 426 of data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 426 description of the sequence: GAAAGCTGAG A11

(2) SEQ ID NO: 427 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 427 sequence description: GAAAGCTGAG 10

(2) SEQ ID NO: 428 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 428 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C41

(2) SEQ ID NO: 429 in the data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 429 in sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG 40

(2) SEQ ID NO: 430 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 430 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGG 39

(2) SEQ ID NO: 431 of:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 431 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTG 38

(2) SEQ ID NO: 432, data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 432 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCT 37

(2) SEQ ID NO: 433 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 433 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGC 36

(2) SEQ ID NO: 434 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 434 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGG 35

(2) SEQ ID NO: 435 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 435 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAG 34

(2) SEQ ID NO: 436 of the following materials:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 436 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACA 33

(2) SEQ ID NO: 437:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 437 by seq id no: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC AC 32

(2) SEQ ID NO: 438:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 438 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC A31

(2) SEQ ID NO: 439 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 439 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC 30

(2) SEQ ID NO: data of 440:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 440 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGG 29

(2) SEQ ID NO: 441 of the following documents:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 441 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGG 28

(2) SEQ ID NO: 442:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 442 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCG 27

(2) SEQ ID NO: 443 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 443 to seq id no: AAAGCTGAGA TGGAGGGCGG CATGGC 26

(2) SEQ ID NO: 444 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 444 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGG 25

(2) SEQ ID NO: 445 of the data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 445 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATG 24

(2) SEQ ID NO: 446 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 446 sequence description: AAAGCTGAGA TGGAGGGCGG CAT 23

(2) SEQ ID NO: 447 data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 447 sequence description: AAAGCTGAGA TGGAGGGCGG CA 22

(2) SEQ ID NO: 448 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 448, sequence description: AAAGCTGAGA TGGAGGGCGG C21

(2) SEQ ID NO: 449 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 449 sequence description: AAAGCTGAGA TGGAGGGCGG 20

(2) SEQ ID NO: 450 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 450 sequence description: AAAGCTGAGA TGGAGGGCG 19

(2) SEQ ID NO: 451 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 451 SEQ ID NO: AAAGCTGAGA TGGAGGGC 18

(2) SEQ ID NO: 452 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 452 sequence description: AAAGCTGAGA TGGAGGG 17

(2) SEQ ID NO: 453, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 453, sequence description: AAAGCTGAGA TGGAGG 16

(2) SEQ ID NO: 454 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 454 describes the sequence: AAAGCTGAGA TGGAG 15

(2) SEQ ID NO: 455 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 455 describes the sequence: AAAGCTGAGA TGGA 14

(2) SEQ ID NO: 456 of data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 456 describes the sequence: AAAGCTGAGA TGG 13

(2) SEQ ID NO: 457 to date:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 457 sequence description: AAAGCTGAGA TG 12

(2) SEQ ID NO: 458 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 458 describes the sequence: AAAGCTGAGA T11

(2) SEQ ID NO: 459 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 459 describes the sequence: AAAGCTGAGA 10

(2) SEQ ID NO: 460 of data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 460 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 40

(2) SEQ ID NO: data of 461:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 461: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGG 39

(2) SEQ ID NO: 462, data of:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 462 description of the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGG 38

(2) SEQ ID NO: 463 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 463 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTG 37

(2) SEQ ID NO: 464 of the following materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 464 description of the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCT 36

(2) SEQ ID NO: 465, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 465 describes the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGC 35

(2) SEQ ID NO: 466 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 466 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGG 34

(2) SEQ ID NO: 467 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 467 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAG 33

(2) SEQ ID NO: 468 of the data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 468 describes the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CA 32

(2) SEQ ID NO: 469 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 469 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGCGCA C31

(2) SEQ ID NO: 470, the data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 470 describes the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA 30

(2) SEQ ID NO: 471 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 471 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGC 29

(2) SEQ ID NO: 472 of the data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 472 sequence description: AAGCTGAGAT GGAGCGCGGC ATGGCGGG 28

(2) SEQ ID NO: 473, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 473 description of the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGG 27

(2) SEQ ID NO: 474 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 474 describes: AAGCTGAGAT GGAGGGCGGC ATGGCG 26

(2) SEQ ID NO: 475, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 475 by sequence description: AAGCTGAGAT GGAGGGCGGC ATGGC 25

(2) SEQ ID NO: 476 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 476, sequence description: AAGCTGAGAT GGAGGGCGGC ATGG 24

(2) SEQ ID NO: 477 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 477 sequence description: AAGCTGAGAT GGAGGGCGGC ATG 23

(2) SEQ ID NO: 478 of the reference:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 478 of seq id no: AAGCTGAGAT GGAGGGCGGC AT 22

(2) SEQ ID NO: 479 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 479 sequence description: AAGCTGAGAT GGAGGGCGGC A21

(2) SEQ ID NO: 480, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 480 sequence description: AAGCTGAGAT GGAGGGCGGC 20

(2) SEQ ID NO: 481 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 481 sequence description: AAGCTGAGAT GGAGGGCGG 19

(2) SEQ ID NO: 482 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 482 sequence description: AAGCTGAGAT GGAGGGCG 18

(2) SEQ ID NO: 483 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 483 the sequence describes: AAGCTGAGAT GGAGGGC 17

(2) SEQ ID NO: 484 details:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 484 sequence description: AAGCTGAGAT GGAGGG 16

(2) SEQ ID NO: 485, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 485 sequence description: AAGCTGAGAI GGAGG 15

(2) SEQ ID NO: 486 of the following materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 486 sequence description: AAGCTGAGAT GGAG 14

(2) SEQ ID NO: 487 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 487 description of the sequence: AAGCTGAGAT GGA 13

(2) SEQ ID NO: data 488:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 488: AAGCTGAGAT GG 12

(2) SEQ ID NO: 489 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 489 sequence description: AAGCTGAGAT G11

(2) SEQ ID NO: 490 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 490 sequence description: AAGCTGAGAT 10

(2) SEQ ID NO: 491 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 491 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 39

(2) SEQ ID NO: 492:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 492 description of the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGG 38

(2) SEQ ID NO: 493 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 493 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGG 37

(2) SEQ ID NO: 494 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 494 the sequence describes: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTG 36

(2) SEQ ID NO: 495 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 495 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCT 35

(2) SEQ ID NO: 496, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 496 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGC 34

(2) SEQ ID NO: 497 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 497 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGG 33

(2) SEQ ID NO: 498 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 498, sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AG 32

(2) SEQ ID NO: 499 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 499 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC A31

(2) SEQ ID NO: 500 of data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 500 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC 30

(2) SEQ ID NO: 501, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) The method comprises the following steps SEQ ID NO: 501 description of the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGGCA 29

(2) SEQ ID NO: 502 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 502 describes the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGGC 28

(2) SEQ ID NO: 503 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 503 description of the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGG 27

(2) SEQ ID NO: data of 504:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 504 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGG 26

(2) SEQ ID NO: 505 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 505 describes the sequence: AGCTGAGATG GAGGGCGGCA TGGCG 25

(2) SEQ ID NO: 506 of the data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 506 describes the sequence: AGCTGAGATG GAGGGCGGCA TGGC 24

(2) SEQ ID NO: 507 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 507 description of the sequence: AGCTGAGATG GAGGGCGGCA TGG 23

(2) SEQ ID NO: 508, data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 508 sequence description: AGCTGAGATG GAGGGCGGCA TG 22

(2) SEQ ID NO: 509 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 509 sequence description: AGCTGAGATG GAGGGCGGCA T21

(2) SEQ ID NO: 510, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 510 describes the sequence: AGCTGAGATG GAGGGCGGCA 20

(2) SEQ ID NO: 511, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 511 description of the sequence: AGCTGAGATG GAGGGCGGC 19

(2) SEQ ID NO: 512 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 512 sequence description: AGCTGAGATG GAGGGCGG 18

(2) SEQ ID NO: 513 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 513 sequence description: AGCTGAGATG GAGGGCG 17

(2) SEQ ID NO: 514 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 514 describes the sequence: AGCTGAGATG GAGGGC 16

(2) SEQ ID NO: 515 data:

(i) sequence characteristics:

(A) length:15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 515 sequence description: AGCTGAGATG GAGGG 15

(2) SEQ ID NO: 516 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 516 sequence description: AGCTGAGATG GAGG 14

(2) SEQ ID NO: 517 and the materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 517 description of the sequence: AGCTGAGATG GAG 13

(2) SEQ ID NO: 518 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 518 description of the sequence: AGCTGAGATG GA 12

(2) SEQ ID NO: 519, data of:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 519, sequence description: AGCTGAGATG G11

(2) SEQ ID NO: 520, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 520 sequence description: AGCTGAGATG 10

(2) SEQ ID NO: 521, data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 521: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 38

(2) SEQ ID NO: 522 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 522 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGG 37

(2) SEQ ID NO: 523 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 523 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGG 36

(2) SEQ ID NO: 524, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 524 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTG 35

(2) SEQ ID NO: 525 of the data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 525 description of the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCT 34

(2) SEQ ID NO: 526 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 526 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGC 33

(2) SEQ ID NO: 527 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 527 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GG 32

(2) SEQ ID NO: 528, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 528 description of the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCACA G31

(2) SEQ ID NO: data of 529:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 529 describes the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCACA 30

(2) SEQ ID NO: 530 of the data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 530 describes the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCAC 29

(2) SEQ ID NO: 531 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 531 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCA 28

(2) SEQ ID NO: 532, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 532 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGC 27

(2) SEQ ID NO: 533 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 533 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGG 26

(2) SEQ ID NO: 534 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 534, sequence description: GCTGAGATGG AGGGCGGCAT GGCGG 25

(2) SEQ ID NO: 535 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 535 description of the sequence: GCTGAGATGG AGGGCGGCAT GGCG 24

(2) SEQ ID NO: 536 data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 536 describes the sequence: GCTGAGATGG AGGGCGGCAT GGC 23

(2) SEQ ID NO: 537 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 537 description of the sequence: GCTGAGATGG AGGGCGGCAT GG 22

(2) SEQ ID NO: 538 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 538 description of the sequence: GCTGAGATGG AGGGCGGCAT G21

(2) SEQ ID NO: 539 information:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 539 sequence description: GCTGAGATGG AGGGCGGCAT 20

(2) SEQ ID NO: 540 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 540 sequence description: GCTGAGATGG AGGGCGGCA 19

(2) SEQ ID NO: 541, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 541, sequence description: GCTGAGATGG AGGGCGGC 18

(2) SEQ ID NO: 542 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 542 sequence description: GCTGAGATGG AGGGCGG 17

(2) SEQ ID NO: 543, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 543 description of the sequence: GCTGAGATGG AGGGCG 16

(2) SEQ ID NO: 544 of the following documents:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 544 describes: GCTGAGATGG AGGGC 15

(2) SEQ ID NO: 545 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 545 description of the sequence: GCTGAGATGG AGGG 14

(2) SEQ ID NO: 546, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 546 description of the sequence: GCTGAGATGG AGG 13

(2) SEQ ID NO: 547 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 547 sequence description: GCTGAGATGG AG 12

(2) SEQ ID NO: 548 of data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi)SEQ ID NO: 548 describes the sequence: GCTGAGATGG A11

(2) SEQ ID NO: 549 data:

(i) sequence characteristics:

(A) length: 1O base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 549 sequence description: GCTGAGATGG 10

(2) SEQ ID NO: data of 550:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 550 description of the sequence: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 37

(2) SEQ ID NO: 551 materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 551 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGG 36

(2) SEQ ID NO: 552 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 552 description of the sequence: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGG 35

(2) SEQ ID NO: 553 of data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 553 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTG 34

(2) SEQ ID NO: data of 554:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 554: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCT 33

(2) SEQ ID NO: 555 materials:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 555 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GC 32

(2) SEQ ID NO: 556 of the data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 556: CTGAGATGGA GGGCGGCATG GCGGGCACAG G31

(2) SEQ ID NO: 557 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 557 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG 30

(2) SEQ ID NO: 558. data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 558 describes the sequence: CTGAGATGGA GGGCGGCATG GCGGGCACA 29

(2) SEQ ID NO: 559 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 559 the sequence is described: CTGAGATGGA GGGCGGCATG GCGGGCAC 28

(2) SEQ ID NO: 560 of the data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 560 describes the sequence: CTGAGATGGA GGGCGGCATG GCGGGCA 27

(2) SEQ ID NO: 561, data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 561 describes the sequence: CTGAGATGGA GGGCGGCATG GCGGGC 26

(2) SEQ ID NO: 562 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 562 description of the sequence: CTGAGATGGA GGGCGGCATG GCGGG 25

(2) SEQ ID NO: 563 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 563 sequence description: CTGAGATGGA GGGCGGCATG GCGG 24

(2) SEQ ID NO: 564 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 564 description of the sequence: CTGAGATGGA GGGCGGCATG GCG 23

(2) SEQ ID NO: 565:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 565: CTGAGATGGA GGGCGGCATG GC 22

(2) SEQ ID NO: 566 of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 566 description of the sequence: CTGAGATGGA GGGCGGCATG G21

(2) SEQ ID NO: 567 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 567 description of the sequence: CTGAGATGGA GGGCGGCATG 20

(2) SEQ ID NO: 568 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 568 description of the sequence: CTGAGATGGA GGGCGGCAT 19

(2) SEQ ID NO: 569 data of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 569 description of the sequence: CTGAGATGGA GGGCGGCA 18

(2) SEQ ID NO: 570 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 570 sequence description: CTGAGATGGA GGGCGGC 17

(2) SEQ ID NO: 571 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 571 description of the sequence: CTGAGATGGA GGGCGG 16

(2) SEQ ID NO: 572 of data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 572 describes the sequence: CTGAGATGGA GGGCG 15

(2) SEQ ID NO: 573 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 573 sequence description: CTGAGATGGA GGGC 14

(2) SEQ ID NO: 574 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 574 sequence description: CTGAGATGGA GGG 13

(2) SEQ ID NO: 575 is given:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 575 is: CTGAGATGGA GG 12

(2) SEQ ID NO: data at 576:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 576: CTGAGATGGA G11

(2) SEQ ID NO: 577, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 577 sequence description: CTGAGATGGA 1O

(2) SEQ ID NO: 578 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 578 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 36

(2) SEQ ID NO: 579 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 579 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGG 35

(2) SEQ ID NO: 580, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 580 describes the sequence: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGG 34

(2) SEQ ID NO: 581, data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 581 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTG 33

(2) SEQ ID NO: 582 of the data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 582 with sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CT 32

(2) SEQ ID NO: 583 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 583 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG C31

(2) SEQ ID NO: 584 of the data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 584 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG 30

(2) SEQ ID NO: 585 information:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 585: TGAGATGGAG GGCGGCATGG CGGGCACAG 29

(2) SEQ ID NO: 586 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 586 to sequence description: TGAGATGGAG GGCGGCATGG CGGGCACA 28

(2) SEQ ID NO: 587 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 587 sequence description: TGAGATGGAG GGCGGCATGG CGGGCAC 27

(2) SEQ ID NO: 588 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 588 sequence description: TGAGATGGAG GGCGGCATGG CGGGCA 26

(2) SEQ ID NO: 589 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 589 sequence description: TGAGATGGAG GGCGGCATGG CGGGC 25

(2) SEQ ID NO: data at 590:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 590 by sequence number: TGAGATGGAG GGCGGCATGG CGGG 24

(2) SEQ ID NO: 591 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 591 sequence description: TGAGATGGAG GGCGGCATGG CGG 23

(2) SEQ ID NO: 592, data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 592 the sequence describes: TGAGATGGAG GGCGGCATGG CG 22

(2) SEQ ID NO: 593 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 593 sequence description: TGAGATGGAG GGCGGCATGG C21

(2) SEQ ID NO: 594 of the data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 594 to seq id no: TGAGATGGAG GGCGGCATGG 20

(2) SEQ ID NO: 595 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 595 description of the sequence: TGAGATGGAG GGCGGCATG 19

(2) SEQ ID NO: 596 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 596 sequence description: TGAGATGGAG GGCGGCAT 18

(2) SEQ ID NO: 597 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 597 sequence description: TGAGATGGAG GGCGGCA 17

(2) SEQ ID NO: 598 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 598 sequence description: TGAGATGGAG GGCGGC 16

(2) SEQ ID NO: 599 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 599 sequence description: TGAGATGGAG GGCGG 15

(2) SEQ ID NO: data of 600:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 600 sequence description: TGAGATGGAG GGCG 14

(2) SEQ ID NO: 601, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 601 describes the sequence: TGAGATGGAG GGC 13

(2) SEQ ID NO: information of 602:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 602 sequence description: TGAGATGGAG GG 12

(2) SEQ ID NO: 603 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 603 sequence description: TGAGATGGAG G11

(2) SEQ ID NO: 604, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 604 sequence description: TGAGATGGAG 10

(2) SEQ ID NO: 605 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 605 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 35

(2) SEQ ID NO: 606, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 606 describes the sequence: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGG 34

(2) SEQ ID NO: 607 materials:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 607 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGG 33

(2) SEQ ID NO: 608 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 608: GAGATGGAGG GCGGCATGGC GGGCACAGGC TG 32

(2) SEQ ID NO: 609:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 609 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGGC T31

(2) SEQ ID NO: data of 610:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 610 describes the sequence: GAGATGGAGG GCGGCATGGC GGGCACAGGC 30

(2) SEQ ID NO: 611 of the data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 611 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGG 29

(2) SEQ ID NO: 612 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 612 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCACAG 28

(2) SEQ ID NO: 613, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 613 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCACA 27

(2) SEQ ID NO: 614 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 614 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCAC 26

(2) SEQ ID NO: 615 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 615 sequence description: GAGATGGAGG GCGGCATGGC GGGCA 25

(2) SEQ ID NO: 616 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 616 sequence description: GAGATGGAGG GCGGCATGGC GGGC 24

(2) SEQ ID NO: 617 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 617 description of the sequence: GAGATGGAGG GCGGCATGGC GGG 23

(2) SEQ ID NO: 618 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 618 description of the sequence: GAGATGGAGG GCGGCATGGC GG 22

(2) SEQ ID NO: 619 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 619 description of the sequence: GAGATGGAGG GCGGCATGGC G21

(2) SEQ ID NO: data of 620:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 620 describes the sequence: GAGATGGAGG GCGGCATGGC 20

(2) SEQ ID NO: data of 621:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 621: GAGATGGAGG GCGGCATGG 19

(2) SEQ ID NO: 622, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 622 describes the sequence: GAGATGGAGG GCGGCATG 18

(2) SEQ ID NO: 623 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 623 sequence description: GAGATGGAGG GCGGCAT 17

(2) SEQ ID NO: 624 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 624 sequence description: GAGATGGAGG GCGGCA 16

(2) SEQ ID NO: 625, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 625 describes: GAGATGGAGG GCGGC 15

(2) SEQ ID NO: 626 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 626 description of the sequence: GAGATGGAGG GCGG 14

(2) SEQ ID NO: 627 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 627 description of the sequence: GAGATGGAGG GCG 13

(2) SEQ ID NO: 628 of the data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 628 description of the sequence: GAGATGGAGG GC 12

(2) SEQ ID NO: 629 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 629 sequence description: GAGATGGAGG G11

(2) SEQ ID NO: the data of 630:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 630 sequence description: GAGATGGAGG 10

(2) SEQ ID NO: 631, data of:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 631 description of the sequence: AGATGGAGGGCGGCATGGCG GGCACAGGCT GGGC 34

(2) SEQ ID NO: 632 of the data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 632 to seq id no: AGATGGAGGG CGGCATGGCG GGCACAGGCT GGG 33

(2) SEQ ID NO: 633 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 633 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGCT GG 32

(2) SEQ ID NO: 634 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 634 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGCT G31

(2) SEQ ID NO: 635 of the data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 635: AGATGGAGGG CGGCATGGCG GGCACAGGCT 30

(2) SEQ ID NO: 636, data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 636, sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGC 29

(2) SEQ ID NO: 637 information:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 637 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGG 28

(2) SEQ ID NO: 638 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 638 sequence description: AGATGGAGGG CGGCATGGCG GGCACAG 27

(2) SEQ ID NO: 639 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 639 sequence description: AGATGGAGGG CGGCATGGCG GGCACA 26

(2) SEQ ID NO: 640 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 640 describes the sequence: AGATGGAGGG CGGCATGGCG GGCAC 25

(2) SEQ ID NO: 641, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 641, sequence description: AGATGGAGGG CGGCATGGCG GGCA 24

(2) SEQ ID NO: 642 to the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 642 to seq id no: AGATGGAGGG CGGCATGGCG GGC 23

(2) SEQ ID NO: 643 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 643 sequence description: AGATGGAGGG CGGCATGGCG GG 22

(2) SEQ ID NO: 644 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 644 describes the sequence: AGATGGAGGG CGGCATGGCG G21

(2) SEQ ID NO: 645 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 645 description of the sequence: AGATGGAGGG CGGCATGGCG 20

(2) SEQ ID NO: 646 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 646 by seq id no: AGATGGAGGG CGGCATGGC 19

(2) SEQ ID NO: 647 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 647 sequence description: AGATGGAGGG CGGCATGG 18

(2) SEQ ID NO: 648:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 648 sequence description: AGATGGAGGG CGGCATG 17

(2) SEQ ID NO: 649 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 649 sequence description: AGATGGAGGG CGGCAT 16

(2) SEQ ID NO: 650 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 650 sequence description: AGATGGAGGG CGGCA 15

(2) SEQ ID NO: 651, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 651, sequence description: AGATGGAGGG CGGC 14

(2) SEQ ID NO: 652 of the following documents:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 652 description of the sequence: AGATGGAGGG CGG 13

(2) SEQ ID NO: 653 data:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 653 sequence description: AGATGGAGGG CG 12

(2) SEQ ID NO: 654, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 654 sequence description: AGATGGAGGG C11

(2) SEQ ID NO: 655 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 655: AGATGGAGGG 10

(2) SEQ ID NO: 656 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 656, sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 33

(2) SEQ ID NO: 657 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 657 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG GG 32

(2) SEQ ID NO: 658, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 658, sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG G31

(2) SEQ ID NO: 659 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 659 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG 30

(2) SEQ ID NO: 660 of data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 660 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCT 29

(2) SEQ ID NO: 661 materials:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 661 description of the sequence: GATGGAGGGC GGCATGGCGG GCACAGGC 28

(2) SEQ ID NO: 662 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 662 sequence description: GATGGAGGGC GGCATGGCGG GCACAGG 27

(2) SEQ ID NO: 663 of the following documents:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 663 sequence description: GATGGAGGGC GGCATGGCGG GCACAG 26

(2) SEQ ID NO: 664 the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 664 description of the sequence: GATGGAGGGC GGCATGGCGG GCACA 25

(2) SEQ ID NO: 665 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 665 sequence description: GATGGAGGGC GGCATGGCGG GCAC 24

(2) SEQ ID NO: 666 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 666 sequence description: GATGGAGGGC GGCATGGCGG GCA 23

(2) SEQ ID NO: 667 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 667 sequence description: GATGGAGGGC GGCATGGCGG GC 22

(2) SEQ ID NO: 668 data of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 668 sequence description: GATGGAGGGC GGCATGGCGG G21

(2) SEQ ID NO: 669 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 669 sequence description: GATGGAGGGC GGCATGGCGG 20

(2) SEQ ID NO: 670 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 670 describes the sequence: GATGGAGGGC GGCATGGCG 19

(2) SEQ ID NO: 671 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 671 sequence description: GATGGAGGGC GGCATGGC 18

(2) SEQ ID NO: 672 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 672 description of the sequence: GATGGAGGGC GGCATGG 17

(2) SEQ ID NO: 673 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 673 sequence description: GATGGAGGGC GGCATG 16

(2) SEQ ID NO: 674 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 674 describes the sequence: GATGGAGGGC GGCAT 15

(2) SEQ ID NO: 675 of the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 675 describes the sequence: GATGGAGGGC GGCA 14

(2) SEQ ID NO: 676 on the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 676 description of the sequence: GATGGAGGGC GGC 13

(2) SEQ ID NO: 677 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 677 sequence description: GATGGAGGGC GG 12

(2) SEQ ID NO: 678 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 678 sequence description: GATGGAGGGC G11

(2) SEQ ID NO: 679 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 679 sequence description: GATGGAGGGC 10

(2) SEQ ID NO: 680, data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 680, description of the sequence: ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 32

(2) SEQ ID NO: 681 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 681 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCTGG G31

(2) SEQ ID NO: 682 for data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 682: ATGGAGGGCG GCATGGCGGG CACAGGCTGG 30

(2) SEQ ID NO: 683 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 683 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCTG 29

(2) SEQ ID NO: 684 materials:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 684 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCT 28

(2) SEQ ID NO: 685 of the raw materials:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 685 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGC 27

(2) SEQ ID NO: 686 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of (a): 686ATGGAGGGCG GCATGGCGGG CACAGG 26

(2) SEQ ID NO: 687 for data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 687 the sequence of SEQ ID NO: ATGGAGGGCG GCATGGCGGG CACAG 25

(2) SEQ ID NO: 688 materials:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 688 sequence description: ATGGAGGGCG GCATGGCGGG CACA 24

(2) SEQ ID NO: 689 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 689 the sequence of seq id no: ATGGAGGGCG GCATGGCGGG CAC 23

(2) SEQ ID NO: 690:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 690 sequence description: ATGGAGGGCG GCATGGCGGG CA 22

(2) SEQ ID NO: 691 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 691 sequence description: ATGGAGGGCG GCATGGCGGG C21

(2) SEQ ID NO: 692 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 692 sequence description: ATGGAGGGCG GCATGGCGGG 20

(2) SEQ ID NO: 693 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 693 sequence description: ATGGAGGGCG GCATGGCGG 19

(2) SEQ ID NO: 694 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 694 sequence description: ATGGAGGGCG GCATGGCG 18

(2) SEQ ID NO: 695 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 695 sequence description: ATGGAGGGCG GCATGGC 17

(2) SEQ ID NO: 696 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 696 sequence description: ATGGAGGGCG GCATGG 16

(2) SEQ ID NO: 697 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 697 sequence description: ATGGAGGGCG GCATG 15

(2) SEQ ID NO: 698 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 698 description of the sequence: ATGGAGGGCG GCAT 14

(2) SEQ ID NO: 699 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 699 sequence description: ATGGAGGGCG GCA 13

(2) SEQ ID NO: 700, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 700 sequence description: ATGGAGGGCG GC 12

(2) SEQ ID NO: 701 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 701 sequence description: ATGGAGGGCG G11

(2) SEQ ID NO: data of 702:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 702 description of the sequence: ATGGAGGGCG 10

(2) SEQ ID NO: 703 of the data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 703 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C31

(2) SEQ ID NO: 704 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 704 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTGGG 30

(2) SEQ ID NO: 705 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 705 sequence description: TGGAGGGCGG CATGGCGGGC ACAGGCTGG 29

(2) SEQ ID NO: 706, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 706 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTG 28

(2) SEQ ID NO: 707, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 707 description of the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCT 27

(2) SEQ ID NO: 708, data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 708 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGC 26

(2) SEQ ID NO: 709, data of:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 709 description of the sequence: TGGAGGGCGG CATGGCGGGC ACAGG 25

(2) SEQ ID NO: 710 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 710 sequence description: TGGAGGGCGG CATGGCGGGC ACAG 24

(2) SEQ ID NO: 711 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 711 sequence description: TGGAGGGCGG CATGGCGGGC ACA 23

(2) SEQ ID NO: 712 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 712 sequence description: TGGAGGGCGG CATGGCGGGC AC 22

(2) SEQ ID NO: 713 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 713 sequence description: TGGAGGGCGG CATGGCGGGC A21

(2) SEQ ID NO: 714 of the data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 714 describes the sequence: TGGAGGGCGG CATGGCGGGC 20

(2) SEQ ID NO: 715 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 715 sequence description: TGGAGGGCGG CATGGCGGG 19

(2) SEQ ID NO: 716 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 716 describes the sequence: TGGAGGGCGG CATGGCGG 18

(2) SEQ ID NO: 717:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 717 the sequence describes: TGGAGGGCGG CATGGCG 17

(2) SEQ ID NO: 718, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 718 sequence description: TGGAGGGCGG CATGGC 16

(2) SEQ ID NO: 719, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 719 sequence description: TGGAGGGCGG CATGG 15

(2) SEQ ID NO: 720 of data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 720 sequence description: TGGAGGGCGG CATG 14

(2) SEQ ID NO: 721, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 721 describes the sequence: TGGAGGGCGG CAT 13

(2) SEQ ID NO: 722, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 722 describes the sequence: TGGAGGGCGG CA 12

(2) SEQ ID NO: 723, the data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 723 to seq id no: TGGAGGGCGG C11

(2) SEQ ID NO: 724 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 724 sequence description: TGGAGGGCGG 10

(2) SEQ ID NO: 725, data of:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 725 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 30

(2) SEQ ID NO: 726 of the following documents:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 726 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGCTGGG 29

(2) SEQ ID NO: 727 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 727: GGAGGGCGGC ATGGCGGGCA CAGGCTGG 28

(2) SEQ ID NO: 728:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 728: GGAGGGCGGC ATGGCGGGCA CAGGCTG 27

(2) SEQ ID NO: 729, data of:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 729 description of the sequence: GGAGGGCGGC ATGGCGGGCA CAGGCT 26

(2) SEQ ID NO: 730:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 730 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGC 25

(2) SEQ ID NO: 731 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 731 sequence description: GGAGGGCGGC ATGGCGGGCA CAGG 24

(2) SEQ ID NO: 732 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 732 sequence description: GGAGGGCGGC ATGGCGGGCA CAG 23

(2) SEQ ID NO: 733, data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 733 describes: GGAGGGCGGC ATGGCGGGCA CA 22

(2) SEQ ID NO: 734 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 734 sequence description: GGAGGGCGGC ATGGCGGGCA C21

(2) SEQ ID NO: 735 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 735 description of the sequence: GGAGGGCGGC ATGGCGGGCA 20

(2) SEQ ID NO: 736 is as follows:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 736 for the sequence description: GGAGGGCGGC ATGGCGGGC 19

(2) SEQ ID NO: 737 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 737 sequence description: GGAGGGCGGC ATGGCGGG 18

(2) SEQ ID NO: 738 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 738 describes the sequence: GGAGGGCGGC ATGGCGG 17

(2) SEQ ID NO: 739 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 739 sequence description: GGAGGGCGGC ATGGCG 16

(2) SEQ ID NO: 740 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 740 sequence description: GGAGGGCGGC ATGGC 15

(2) SEQ ID NO: 741 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 741 has the sequence depicted: GGAGGGCGGC ATGG 14

(2) SEQ ID NO: 742 in the following steps:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 742 describes the sequence: GGAGGGCGGC ATG 13

(2) SEQ ID NO: 743 of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 743 describes: GGAGGGCGGC AT 12

(2) SEQ ID NO: 744 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 744 description of the sequence: GGAGGGCGGC A11

(2) SEQ ID NO: 745 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 745 sequence description: GGAGGGCGGC 10

(2) SEQ ID NO: 746 data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQID NO: 746 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 29

(2) SEQ ID NO: 747 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 747 description of the sequence: GAGGGCGGCA TGGCGGGCAC AGGCTGGG 28

(2) SEQ ID NO: 748 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 748 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCTGG 27

(2) SEQ ID NO: 749 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 749 description of the sequence: GAGGGCGGCA TGGCGGGCAC AGGCTG 26

(2) SEQ ID NO: data of 750:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 750 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCT25

(2) SEQ ID NO: 751, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 751 describes the sequence: GAGGGCGGCA TGGCGGGCAC AGGC 24

(2) SEQ ID NO: 752 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 752 sequence description: GAGGGCGGCA TGGCGGGCAC AGG 23

(2) SEQ ID NO: 753 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 753 sequence description: GAGGGCGGCA TGGCGGGCAC AG 22

(2) SEQ ID NO: 754, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 754, sequence description: GAGGGCGGCA TGGCGGGCAC A21

(2) SEQ ID NO: 755 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 755: GAGGGCGGCA TGGCGGGCAC 20

(2) SEQ ID NO: 756 information:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 756 describing the sequence: GAGGGCGGCA TGGCGGGCA 19

(2) SEQ ID NO: 757 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 757 sequence description: GAGGGCGGCA TGGCGGGC 18

(2) SEQ ID NO: 758 of the disclosure:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 758 sequence description: GAGGGCGGCA TGGCGGG 17

(2) SEQ ID NO: 759 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 759 sequence description: GAGGGCGGCA TGGCGG 16

(2) SEQ ID NO: 760 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 760 sequence description: GAGGGCGGCA TGGCG 15

(2) SEQ ID NO: 761 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 761 sequence description: GAGGGCGGCA TGGC 14

(2) SEQ ID NO: 762 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 762 sequence description: GAGGGCGGCA TGG 13

(2) SEQ ID NO: 763 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 763 sequence description: GAGGGCGGCA TG 12

(2) SEQ ID NO: 764 of the literature:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 764 to seq id no: GAGGGCGGCA T11

(2) SEQ ID NO: 765 the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 765 sequence description: GAGGGCGGCA 10

(2) SEQ ID NO: 766 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 766 sequence description: AGGGCGGCAT GGCGGGCACA GGCTGGGC 28

(2) SEQ ID NO: 767 materials:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 767 sequence description: AGGGCGGCAT GGCGGGCACA GGCTGGG 27

(2) SEQ ID NO: 768 of the data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 768 description of the sequence: AGGGCGGCAT GGCGGGCACA GGCTGG 26

(2) SEQ ID NO: 769 materials:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 769 description of the sequence: AGGGCGGCAT GGCGGGCACA GGCTG 25

(2) SEQ ID NO: 770, data of:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 770 sequence description: AGGGCGGCAT GGCGGGCACA GGCT 24

(2) SEQ ID NO: 771 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 771 sequence description: AGGGCGGCAT GGCGGGCACA GGC 23

(2) SEQ ID NO: 772of the study:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 772 of the sequence description: AGGGCGGCAT GGCGGGCACA GG 22

(2) SEQ ID NO: 773 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 773 sequence description: AGGGCGGCAT GGCGGGCACA G21

(2) SEQ ID NO: 774 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 774 sequence description: AGGGCGGCAT GGCGGGCACA 20

(2) SEQ ID NO: 775 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 775 sequence description: AGGGCGGCAT GGCGGGCAC 19

(2) SEQ ID NO: 776 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 776 sequence description: AGGGCGGCAT GGCGGGCA 18

(2) SEQ ID NO: 777 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 777 sequence description: AGGGCGGCAT GGCGGGC 17

(2) SEQ ID NO: 778 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 778 sequence description: AGGGCGGCAT GGCGGG 16

(2) SEQ ID NO: 779 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 779 sequence description: AGGGCGGCAT GGCGG 15

(2) SEQ ID NO: 780 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 780 description of the sequence: AGGGCGGCAT GGCG 14

(2) SEQ ID NO: 781, materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 781 sequence description: AGGGCGGCAT GGC 13

(2) SEQ ID NO: 782 of material:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 782 description of the sequence: AGGGCGGCAT GG 12

(2) SEQ ID NO: 783 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 783 sequence description: AGGGCGGCAT G11

(2) SEQ ID NO: 784 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 784 sequence description: AGGGCGGCAT 1O

(2) SEQ ID NO: 785 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 785 sequence description: GGGCGGCATG GCGGGCACAG GCTGGGC 27

(2) SEQ ID NO: 786 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 786 sequence description: GGGCGGCATG GCGGGCACAG GCTGGG 26

(2) SEQ ID NO: 787 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 787 sequence description: GGGCGGCATG GCGGGCACAG GCTGG 25

(2) SEQ ID NO: 788 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 788 sequence description: GGGCGGCATG GCGGGCACAG GCTG 24

(2) SEQ ID NO: 789 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 789 sequence description: GGGCGGCATG GCGGGCACAG GCT 23

(2) SEQ ID NO: 790 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 790 sequence description: GGGCGGCATG GCGGGCACAG GC 22

(2) SEQ ID NO: 791 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 791 sequence description: GGGCGGCATG GCGGGCACAG G21

(2) SEQ ID NO: 792 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 792 sequence description: GGGCGGCATG GCGGGCACAG 20 (2) SEQ ID NO: 793 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 793 sequence description: GGGCGGCATG GCGGGCACA 19

(2) SEQ ID NO: 794 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 794 sequence description: GGGCGGCATG GCGGGCAC 18

(2) SEQ ID NO: 795 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 795 sequence description: GGGCGGCATG GCGGGCA 17

(2) SEQ ID NO: 796 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 796 sequence description: GGGCGGCATG GCGGGC 16

(2) SEQ ID NO: 797 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 797 sequence description: GGGCGGCATG GCGGG 15

(2) SEQ ID NO: 798 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 798 sequence description: GGGCGGCATG GCGG 14

(2) SEQ ID NO: 799 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 799 sequence description: GGGCGGCATG GCG 13

(2) SEQ ID NO: 800, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 800 sequence description: GGGCGGCATG GC 12

(2) SEQ ID NO: 801 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO:801 sequence description: GGGCGGCATG G11

(2) SEQ ID NO: 802, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 802 description of the sequence: GGGCGGCATG 10

(2) SEQ ID NO: 803, data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 803 sequence description: GGCGGCATGG CGGGCACAGG CTGGGC 26

(2) SEQ ID NO: 804:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 804 sequence description: GGCGGCATGG CGGGCACAGG CTGGG 25

(2) SEQ ID NO: 805 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 805 sequence description: GGCGGCATGG CGGGCACAGG CTGG 24

(2) SEQ ID NO: 806 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 806 sequence description: GGCGGCATGG CGGGCACAGG CTG 23

(2) SEQ ID NO: 807 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 807 sequence description: GGCGGCATGG CGGGCACAGG CT 22

(2) SEQ ID NO: 808, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 808: GGCGGCATGG CGGGCACAGG C21

(2) SEQ ID NO: 809 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 809 description of the sequence: GGCGGCATGG CGGGCACAGG 20

(2) SEQ ID NO: 810, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 810 sequence description: GGCGGCATGG CGGGCACAG 19

(2) SEQ ID NO: 811, data of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 811 sequence description: GGCGGCATGG CGGGCACA 18

(2) SEQ ID NO: data at 812:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 812 sequence description: GGCGGCATGG CGGGCAC 17

(2) SEQ ID NO: 813 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 813 sequence description: GGCGGCATGG CGGGCA 16

(2) SEQ ID NO: 814:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 814 description of the sequence: GGCGGCATGG CGGGC 15

(2) SEQ ID NO: 815 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 815 sequence description: GGCGGCATGG CGGG 14

(2) SEQ ID NO: 816, data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 816 description of the sequence: GGCGGCATGG CGG 13

(2) SEQ ID NO: 817 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 817 sequence description: GGCGGCATGG CG 12

(2) SEQ ID NO: 818 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 818 description of the sequence: GGCGGCATGG C11

(2) SEQ ID NO: 819 of the information:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 819 of the sequence: GGCGGCATGG 10

(2) SEQ ID NO: 820 of data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 820 sequence description: GCGGCATGGC GGGCACAGGC TGGGC 25

(2) SEQ ID NO: 821 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 821 description of the sequence: GCGGCATGGC GGGCACAGGC TGGG 24

(2) SEQ ID NO: 822, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 822 description of the sequence: GCGGCATGGC GGGCACAGGC TGG 23

(2) SEQ ID NO: 823 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 823 sequence description: GCGGCATGGC GGGCACAGGC TG 22

(2) SEQ ID NO: 824 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 824, sequence description: GCGGCATGGC GGGCACAGGC T21

(2) SEQ ID NO: 825 as follows:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 825 sequence description: GCGGCATGGC GGGCACAGGC 20

(2) SEQ ID NO: 826 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 826 sequence description: GCGGCATGGC GGGCACAGG 19

(2) SEQ ID NO: 827 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 827 sequence description: GCGGCATGGC GGGCACAG 18

(2) SEQ ID NO: 828 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 828 sequence description: GCGGCATGGC GGGCACA 17

(2) SEQ ID NO: 829 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 829 sequence description: GCGGCATGGC GGGCAC 16

(2) SEQ ID NO: 830 of materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 830 describes the sequence: GCGGCATGGC GGGCA 15

(2) SEQ ID NO: 831 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chaintype: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 831 description of the sequence: GCGGCATGGC GGGC 14

(2) SEQ ID NO: 832 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 832 sequence description: GCGGCATGGC GGG 13

(2) SEQ ID NO: 833 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 833 sequence description: GCGGCATGGC GG 12

(2) SEQ ID NO: 834 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 834 sequence description: GCGGCATGGC G11

(2) SEQ ID NO: 835 data of:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 835 sequence description: GCGGCATGGC 10

(2) SEQ ID NO: 836:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 836 to seq id no: CGGCATGGCG GGCACAGGCT GGGC 24

(2) SEQ ID NO: 837, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 837 description of the sequence: CGGCATGGCG GGCACAGGCT GGG 23

(2) SEQ ID NO: 838 of the following materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 838 to seq id no: CGGCATGGCG GGCACAGGCT GG 22

(2) SEQ ID NO: 839, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 839 description of the sequence: CGGCATGGCG GGCACAGGCT G21

(2) SEQ ID NO: 840:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 840 sequence description: CGGCATGGCG GGCACAGGCT 20

(2) SEQ ID NO: 841 for data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 841 description of the sequence: CGGCATGGCG GGCACAGGC 19GGCCTGGAAA GCTGAGATGG 20

(2) SEQ ID NO: 205 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 205 sequence description: GGCCTGGAAA GCTGAGATG 19

(2) SEQ ID NO: 206 of the data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 206 description of the sequence: GGCCTGGAAA GCTGAGAT 18

(2) SEQ ID NO: 207 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 207 sequence description: GGCCTGGAAA GCTGAGA 17

(2) SEQ ID NO: 208 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 208 sequence description: GGCCTGGAAA GCTGAG 16

(2) SEQ ID NO: 209 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 209 describes the sequence: GGCCTGGAAA GCTGA 15

(2) SEQ ID NO: 210, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type:cDNA

(xi) SEQ ID NO: 210 sequence description: GGCCTGGAAA GCTG 14

(2) SEQ ID NO: 211, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 211 sequence description: GGCCTGGAAA GCT 13

(2) SEQ ID NO: 212, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 212 describes the sequence: GGCCTGGAAA GC 12

(2) SEQ ID NO: 213 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 213 sequence description: GGCCTGGAAA G11

(2) SEQ ID NO: 214 of the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 214 description of the sequence: GGCCTGGAAA 10

(2) SEQ ID NO: 215 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 215 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 47

(2) SEQ ID NO: 216 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 216 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGG 46

(2) SEQ ID NO: 217 data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 217 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGG 45

(2) SEQ ID NO: 218 of the data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 218 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTG 44

(2) SEQ ID NO: data for 219:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 219: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCT 43

(2) SEQ ID NO: 220, data of:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 220 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GC 42

(2) SEQ ID NO: 221 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 221 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG G41

(2) SEQ ID NO: 222, data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 222 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG 40

(2) SEQ ID NO: 223 of the documents:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 223 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACA 39

(2) SEQ ID NO: 224 of the data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 224 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCAC 38

(2) SEQ ID NO: 225 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 225 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCA 37

(2) SEQ ID NO: 226 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 226 describes the sequence:

sequence listing

(1) General data

(i) The applicant: university of east Carolina, etc

(ii) The invention name is as follows: low adhesion oligonucleotide reagents, compositions, kits and treatments

(iii) Sequence number: 3110

(iv)CORRESPONDENCE ADDRESS：

(A)ADDRESSEE：ARTER&HADDEN (B)STREET：725 South Figueroa St，#3400

(C)CITY： Los Angeles

(D)STATE： CA

(E)COUNTRY： USA

(F)ZIP： 90071

(v) Computer-readable form:

(A) type of medium: magnetic disk

(B) A computer: compatible with IBM

(C) Operating the system: DOS

(D) Software: FastSEQ for Windows Version 2.0

(vi) Data of the present application:

(A) application No.: PCT/US99

(B) Application date: 8/3/1999

(C) And (4) classification: UNKNOWN (vii) priority:

(A) application No.: 60/095, 212

(B) Application date: 8/3/1999

(viii)ATTORNEY/AGENT INFORMATION：

(A)NAME： Amzel，Viviana

(B)REGISTRATION NUMBER： 30，930

(C)REFERENCE/DOCKET NUMBER：EPI-109

(ix)TELECOMMUNICATION INFORMATION：

(A)TELEPHONE： 213-430-3520

(B)TELEFAX： 213-617-9255

(C)TELEX：

(2) SEQ ID NO: 1, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1 sequence description: GATGGAGGGC GGCATGGCGG G21

(2) SEQ ID NO: 2, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 2 sequence description: GTAGCAGGCG GGGATGGGGG C21

(2) SEQ ID NO: 3, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 3 sequence description: GTTGTTGGGC ATCTTGCC 18

(2) SEQ ID NO: 4, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 4 sequence description: GTACTTGCGG ATCTAGGC 18

(2) SEQ ID NO: 5, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 5 sequence description: GTGGGCCTAG CTCTCGCC 18

(2) SEQ ID NO: data of 6:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 6 sequence description: GTCGGGGTAC CTGTCGGC 18

(2) SEQ ID NO: 7, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 7 sequence description: CTCGTCGCCG TCGCCGGCGG G21

(2) SEQ ID NO: data of 8:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 8 sequence description: GGGTGGTGCT ATTGTCGGGC 20

(2) SEQ ID NO: 9, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 9 sequence description: GGCCCAGGGC CAGCC 15

(2) SEQ ID NO: data of 10:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 10 sequence description: GGCCGGGCCA GCCGGGCCCG G21

(2) SEQ ID NO: data of 11:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 11 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 50

(2) SEQ ID NO: data of 12:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 12 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 49

(2) SEQ ID NO: 13, data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 13 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 48

(2) SEQ ID NO: 14, data of:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 14 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 47

(2) SEQ ID NO: 15, data of:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 15 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 46

(2) SEQ ID NO: data of 16:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 16 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 45

(2) SEQ ID NO: 17 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 17 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 44

(2) SEQ ID NO: data of 18:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 18 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 43

(2) SEQ ID NO: data of 19:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 19 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 42

(2) SEQ ID NO: 20, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 20 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C41

(2) SEQ ID NO: data of 21:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 21: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 40

(2) SEQ ID NO: 22 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 22 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 39

(2) SEQ ID NO: data of 23:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 23 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 38

(2) SEQ ID NO: data of 24:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 24 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 37

(2) SEQ ID NO: 25, data of:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 25 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 36

(2) SEQ ID NO: data of 26:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 26 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 35

(2) SEQ ID NO: data of 27:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 27 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 34

(2) SEQ ID NO: data of 28:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 28 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 33

(2) SEQ ID NO: 29 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 29 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 32

(2) SEQ ID NO: data of 30:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 30 description of the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C31

(2) SEQ ID NO: 31 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 31 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 30

(2) SEQ ID NO: 32 data i

(i) Sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 32 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 29

(2) SEQ ID NO: 33 data of:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 33 sequence description: AGGGCGGCAT GGCGGGCACA GGCTGGGC 28

(2) SEQ ID NO: 34, data of:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 34 description of the sequence: GGGCGGCATG GCGGGCACAG GCTGGGC 27

(2) SEQ ID NO: data of 35:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 35 sequence description: GGCGGCATGG CGGGCACAGG CTGGGC 26

(2) SEQ ID NO: 36 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 36 sequence description: GCGGCATGGC GGGCACAGGC TGGGC 25

(2) SEQ ID NO: data of 37:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 37 sequence description: CGGCATGGCG GGCACAGGCT GGGC 24

(2) SEQ ID NO: 38 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 38 sequence description: GGCATGGCGG GCACAGGCTG GGC 23

(2) SEQ ID NO: 39 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 39 sequence description: GCATGGCGGG CACAGGCTGG GC 22

(2) SEQ ID NO: data of 40:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 40 sequence description: CATGGCGGGC ACAGGCTGGG C21

(2) SEQ ID NO: data of 41:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 41 sequence description: ATGGCGGGCA CAGGCTGGGC 20

(2) SEQ ID NO: 42, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 42 description of the sequence: TGGCGGGCAC AGGCTGGGC 19

(2) SEQ ID NO: 43 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 43 sequence description: GGCGGGCACA GGCTGGGC 18

(2) SEQ ID NO: data of 44:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 44 sequence description: GCGGGCACAG GCTGGGC 17

(2) SEQ ID NO: 45, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 45 sequence description: CGGGCACAGG CTGGGC 16

(2) SEQ ID NO: 46 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 46 sequence description: GGGCACAGGC TGGGC 15

(2) SEQ ID NO: data of 47:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 47 sequence description: GGCACAGGCT GGGC 14

(2) SEQ ID NO: 48, data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 48 sequence description: GCACAGGCTG GGC 13

(2) SEQ ID NO: 49 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 49 sequence description: CACAGGCTGG GC 12

(2) SEQ ID NO: data of 50:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 50 sequence description: ACAGGCTGGG C11

(2) SEQ ID NO: 51, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 51 sequence description: CAGGCTGGGC 10

(2) SEQ ID NO: data of 52:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 52 description of the sequence: AGGCTGGGC 9

(2) SEQ ID NO: 53 data:

(i) sequence characteristics:

(A) length: 51 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 53 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C51

(2) SEQ ID NO: 54 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 54 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGC ACAGGCTGGG 50

(2) SEQ ID NO: data of 55:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 55 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGG 49

(2) SEQ ID NO: data of 56:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 56 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTG 48

(2) SEQ ID NO: data of 57:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 57 description of the sequence: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCT 47

(2) SEQ ID NO: 58, data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 58 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGC 46

(2) SEQ ID NO: data of 59:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 59 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGG 45

(2) SEQ ID NO: data of 60:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 60: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAG 44

(2) SEQ ID NO: data of 61:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 61 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACA 43

(2) SEQ ID NO: 62, data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 62: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC AC 42

(2) SEQ ID NO: 63, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 63: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC A41

(2) SEQ ID NO: data of 64:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 64 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC 40

(2) SEQ ID NO: 65 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 65 description of the sequence: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGG 39

(2) SEQ ID NO: 66 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 66 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGG 38

(2) SEQ ID N0: 67 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 67 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCG 37

(2) SEQ ID NO: 68 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 68 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGC 36

(2) SEQ ID NO: 69 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 69 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGG 35

(2) SEQ ID NO: 70, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 70 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATG 34

(2) SEQ ID NO: 71 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 71 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CAT 33

(2) SEQ ID NO: data of 72:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 72 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CA 32

(2) SEQ ID NO: 73, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 73 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG C31

(2) SEQ ID NO: 74 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 74 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG 30

(2) SEQ ID NO: 75, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 75 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCG 29

(2) SEQ ID NO: data of 76:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 76 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGC 28

(2) SEQ ID NO: 77 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 77: GGCGGCCTGG AAAGCTGAGA TGGAGGG 27

(2) SEQ ID NO: 78 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 78 description of the sequence: GGCGGCCTGG AAAGCTGAGA TGGAGG 26

(2) SEQ ID NO: 79 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 79 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAG 25

(2) SEQ ID NO: 80, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 80 sequence description: GGCGGCCTGG AAAGCTGAGA TGGA 24

(2) SEQ ID NO: data of 81:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 81: GGCGGCCTGG AAAGCTGAGA TGG 23

(2) SEQ ID NO: 82, data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 82 sequence description: GGCGGCCTGG AAAGCTGAGA TG 22

(2) SEQ ID NO: 83 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 83 sequence description: GGCGGCCTGG AAAGCTGAGA T21

(2) SEQ ID NO: data of 84:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 84 sequence description: GGCGGCCTGG AAAGCTGAGA 20

(2) SEQ ID NO: 85 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 85 sequence description: GGCGGCCTGG AAAGCTGAG 19

(2) SEQ ID NO: data of 86:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 86 sequence description: GGCGGCCTGG AAAGCTGA 18

(2) SEQ ID NO: 87 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 87 sequence description: GGCGGCCTGG AAAGCTG 17

(2) SEQ ID NO: 88 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 88 sequence description: GGCGGCCTGG AAAGCT 16

(2) SEQ ID NO: 89, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 89 sequence description: GGCGGCCTGG AAAGC 15

(2) SEQ ID NO: data of 90:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 90 sequence description: GGCGGCCTGG AAAG 14

(2) SEQ ID NO: 91, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 91 sequence description: GGCGGCCTGG AAA 13

(2) SEQ ID NO: 92 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 92 sequence description: GGCGGCCTGG AA 12

(2) SEQ ID NO: 93 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 93 to seq id no: GGCGGCCTGG A11

(2) SEQ ID NO: data of 94:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 94 sequence description: GGCGGCCTGG 10

(2) SEQ ID NO: 95 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 95 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 50

(2) SEQ ID NO: 96 of the data:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 96 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGG 49

(2) SEQ ID NO: 97 data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 97 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGG 48

(2) SEQ ID NO: data of 98:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 98 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTG 47

(2) SEQ ID NO: 99 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 99 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCT 46

(2) SEQ ID NO: 100 of the data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 100 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGC 45

(2) SEQ ID NO: 101, data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 101 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGG 44

(2) SEQ ID NO: 102, data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 102 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAG 43

(2) SEQ ID NO: 103, data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 103 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CA 42

(2) SEQ ID NO: 104, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 104 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA C41

(2) SEQ ID NO: 105 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 105 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA 40

(2) SEQ ID NO: 106 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 106 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGGC 39

(2) SEQ ID NO: data of 107:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 107 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGGG 38

(2) SEQ ID NO: 108 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 108 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCGG 37

(2) SEQ ID NO: 109 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 109 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGCG 36

(2) SEQ ID NO: 110, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 110 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGGC 35

(2) SEQ ID NO: data of 111:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 111 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATGG 34

(2) SEQ ID NO: 112, data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 112 describes the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC ATG 33

(2) SEQ ID NO: 113 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 113 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC AT 32

(2) SEQ ID NO: 114, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 114 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC A31

(2) SEQ ID NO: 115 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 115 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGGC 30

(2) SEQ ID NO: 116, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 116 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGCGG 29

(2) SEQ ID NO: 117 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 117 description of the sequence: GCGGCCTGGA AAGCTGAGAT GGAGGGCG 28

(2) SEQ ID NO: 118 of the data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 118 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGGC 27

(2) SEQ ID NO: data of 119:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 119 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGGG 26

(2) SEQ ID NO: 120, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 120 sequence description: GCGGCCTGGA AAGCTGAGAT GGAGG 25

(2) SEQ ID NO: 121, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 121 describes the sequence: GCGGCCTGGA AAGCTGAGAT GGAG 24

(2) SEQ ID NO: 122, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 122 describes the sequence: GCGGCCTGGA AAGCTGAGAT GGA 23

(2) SEQ ID NO: data of 123:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Moleculartype: cDNA

(xi) SEQ ID NO: 123 sequence description: GCGGCCTGGA AAGCTGAGAT GG 22

(2) SEQ ID NO: 124 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 124 description of the sequence: GCGGCCTGGA AAGCTGAGAT G21

(2) SEQ ID NO: 125 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 125 sequence description: GCGGCCTGGA AAGCTGAGAT 20

(2) SEQ ID NO: 126 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 126 describes the sequence: GCGGCCTGGA AAGCTGAGA 19

(2) SEQ ID NO: 127 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 127 sequence description: GCGGCCTGGA AAGCTGAG 18

(2) SEQ ID NO: data of 128:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 128 describes the sequence: GCGGCCTGGA AAGCTGA 17

(2) SEQ ID NO: 129 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 129 describes the sequence: GCGGCCTGGA AAGCTG 16

(2) SEQ ID NO: 130, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 130 sequence description: GCGGCCTGGA AAGCT 15

(2) SEQ ID NO: 131 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 131 describes the sequence: GCGGCCTGGA AAGC 14

(2) SEQ ID NO: 132:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 132 sequence description: GCGGCCTGGA AAG 13

(2) SEQ ID NO: 133, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 133 sequence description: GCGGCCTGGA AA 12

(2) SEQ ID NO: 134 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 134 describes the sequence: GCGGCCTGGA A11

(2) SEQ ID NO: 135 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 135 by the sequence: GCGGCCTGGA 10

(2) SEQ ID NO: 136 of the data:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 136 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 49

(2) SEQ ID NO: 137 data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 137 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGG 48

(2) SEQ ID NO: 138 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 138 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGG 47

(2) SEQ ID NO: 139 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 139 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTG 46

(2) SEQ ID NO: 140 of data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 140 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCT 45

(2) SEQ ID NO: 141 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 141 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGC 44

(2) SEQ ID NO: 142, data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 142 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGG 43

(2) SEQ ID NO: 143 of the data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 143 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AG 42

(2) SEQ ID NO: 144, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 144 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC A41

(2) SEQ ID NO: 145 data:

(i) sequence characteristics:

(A) length:40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 145 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCAC 40

(2) SEQ ID NO: 146 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 146 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGCA 39

(2) SEQ ID NO: 147 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 147 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGGC 38

(2) SEQ ID NO: 148 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 148 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGGG 37

(2) SEQ ID NO: 149 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 149 to seq id no: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCGG 36

(2) SEQ ID NO: 150 of the data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 150 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGCG 35

(2) SEQ ID NO: 151 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 151 describes the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGGC 34

(2) SEQ ID NO: 152 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 152 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TGG 33

(2) SEQ ID NO: 153 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 153 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA TG 32

(2) SEQ ID NO: 154 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 154 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGCGGCA T31

(2) SEQ ID NO: 155, data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 155 sequence description: CGGCCTGGAA AGCTGAGATGGAGGGCGGCA 30

(2) SEQ ID NO: 156 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 156 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGGC 29

(2) SEQ ID NO: 157 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 157 description of the sequence: CGGCCTGGAA AGCTGAGATG GAGGGCGG 28

(2) SEQ ID NO: 158 of the following documents:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 158 describes: CGGCCTGGAA AGCTGAGATG GAGGGCG 27

(2) SEQ ID NO: 159 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 159 sequence description: CGGCCTGGAA AGCTGAGATG GAGGGC 26

(2) SEQ ID NO: 160, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: GDNA

(xi) SEQ ID NO: 160 sequence description: CGGCCTGGAA AGCTGAGATG GAGGG 25

(2) SEQ ID NO: data 161:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 161 sequence description: CGGCCTGGAA AGCTGAGATG GAGG 24

(2) SEQ ID NO: 162 of the following documents:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 162 sequence description: CGGCCTGGAA AGCTGAGATG GAG 23

(2) SEQ ID NO: 163 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: GDNA

(xi) SEQ ID NO: 163 sequence description: CGGCCTGGAA AGCTGAGATG GA 22

(2) SEQ ID NO: 164 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 164 sequence description: CGGCCTGGAA AGCTGAGATG G21

(2) SEQ ID NO: 165 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 165 sequence description: CGGCCTGGAA AGCTGAGATG 20

(2) SEQ ID NO: 166 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 166 description of the sequence: CGGCCTGGAA AGCTGAGAT 19

(2) SEQ ID NO: 167 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 167 description of the sequence: CGGCCTGGAA AGCTGAGA 18

(2) SEQ ID NO: 168 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 168 sequence description: CGGCCTGGAA AGCTGAG 17

(2) SEQ ID NO: 169 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 169 sequence description: CGGCCTGGAA AGCTGA 16

(2) SEQ ID NO: 170 of the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 170 sequence description: CGGCCTGGAA AGCTG 15

(2) SEQ ID NO: 171 of the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 171 describes: CGGCCTGGAA AGCT 14

(2) SEQ ID NO: data of 172:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 172 describes the sequence: CGGCCTGGAA AGC 13

(2) SEQ ID NO: 173, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 173 describes the sequence: CGGCCTGGAA AG 12

(2) SEQ ID NO: 174, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 174 describes the sequence: CGGCCTGGAA A11

(2) SEQ ID NO: data of 175:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 175 sequence description: CGGCCTGGAA 10

(2) SEQ ID NO: data of 176:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 176, sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 48

(2) SEQ ID NO: 177 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 177 description of the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGG 47

(2) SEQ ID NO: 178:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 178 description of the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGG 46

(2) SEQ ID NO: 179 data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 179 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTG 45

(2) SEQ ID NO: 180 of the data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 180 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCT 44

(2) SEQ ID NO: data of 181:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 181 of seq id no: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGC 43

(2) SEQ ID NO: 182 data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 182 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA GG 42

(2) SEQ ID NO: 183 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 183 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA G41

(2) SEQ ID NO: 184 of the data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 184 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCACA 40

(2) SEQ ID NO: 185 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 185 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCAC 39

(2) SEQ ID NO: 186 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 186 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGCA 38

(2) SEQ ID NO: 187 of the data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: GDNA

(xi) SEQ ID NO: 187 describes the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGGC 37

(2) SEQ ID NO: 188 materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 188 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGGG 36

(2) SEQ ID NO: 189 data of:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 189 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCGG 35

(2) SEQ ID NO: 190 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 190 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGCG 34

(2) SEQ ID NO: 191, data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type:cDNA

(xi) SEQ ID NO: 191 describes the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GGC 33

(2) SEQ ID NO: 192 of the following materials:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 192 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT GG 32

(2) SEQ ID NO: 193 of the document:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 193 describes: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT G31

(2) SEQ ID NO: 194 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 194 description of the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGCAT 30

(2) SEQ ID NO: 195, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 195 by sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGGCA 29

(2) SEQ ID NO: 196, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 196 describes the sequence: GGCCTGGAAA GCTGAGATGG AGGGCGGC 28

(2) SEQ ID NO: 197 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 197 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCGG 27

(2) SEQ ID NO: 198 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 198 sequence description: GGCCTGGAAA GCTGAGATGG AGGGCG 26

(2) SEQ ID NO: 199 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 199 sequence description: GGCCTGGAAA GCTGAGATGG AGGGC 25

(2) SEQ ID NO: 200 of the data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 200 sequence description: GGCCTGGAAA GCTGAGATGG AGGG 24

(2) SEQ ID NO: data of 201:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 201 sequence description: GGCCTGGAAA GCTGAGATGG AGG 23

(2) SEQ ID NO: 202 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 202 description of the sequence: GGCCTGGAAA GCTGAGATGG AG 22

(2) SEQ ID NO: 203, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 203 sequence description: GGCCTGGAAA GCTGAGATGG A21

(2) SEQ ID NO: 204 of data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 204 description of the sequence: GGCCTGGAAA GCTGAGATGG 20

(2) SEQ ID NO: 205 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 205 sequence description: GGCCTGGAAA GCTGAGATG 19

(2) SEQ ID NO: 206 of the data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 206 description of the sequence: GGCCTGGAAA GCTGAGAT 18

(2) SEQ ID NO: 207 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 207 sequence description: GGCCTGGAAA GCTGAGA 17

(2) SEQ ID NO: 208 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 208 sequence description: GGCCTGGAAA GCTGAG 16

(2) SEQ ID NO: 209 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 209 describes the sequence: GGCCTGGAAA GCTGA 15

(2) SEQ ID NO: 210, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 210 sequence description: GGCCTGGAAA GCTG 14

(2) SEQ ID NO: 211, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 211 sequence description: GGCCTGGAAA GCT 13

(2) SEQ ID NO: 212, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 212 describes the sequence: GGCCTGGAAA GC 12

(2) SEQ ID NO: 213 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 213 sequence description: GGCCTGGAAA G11

(2) SEQ ID NO: 214 of the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 214 description of the sequence: GGCCTGGAAA 10

(2) SEQ ID NO: 215 data:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 215 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 47

(2) SEQ ID NO: 216 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 216 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGG 46

(2) SEQ IDNO: 217 data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 217 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGG 45

(2) SEQ ID NO: 218 of the data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 218 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTG 44

(2) SEQ ID NO: data for 219:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 219: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GCT 43

(2) SEQ ID NO: 220, data of:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 220 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG GC 42

(2) SEQ ID NO: 221 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 221 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCACAG G41

(2) SEQ ID NO: 222, data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 222 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCG6CATG GCGGGCACAG 40

(2) SEQ ID NO: 223 of the documents:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 223 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATGGCGGGCACA 39

(2) SEQ ID NO: 224 of the data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 224 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCAC 38

(2) SEQ ID NO: 225 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 225 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGCA 37

(2) SEQ ID NO: 226 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 226 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGGC 36

(2) SEQ ID NO: 227, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 227, sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGGG 35

(2) SEQ ID NO: 228 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 228 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCGG 34

(2) SBQ ID NO: 229, data of:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 229 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GCG 33

(2) SEQ ID NO: 230 of the data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 230 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGGCATG GC 32

(2) SEQ ID NO: data of 231:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 231 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG G31

(2) SEQ ID NO: 232, data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 232 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCATG 30

(2) SEQ ID NO: 233 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 233 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCAT 29

(2) SEQ ID NO: 234 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 234 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGCA 28

(2) SEQ ID NO: 235 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 235 sequence description: GCCTGGAAAG CTGAGATGGA GGGCGGC 27

(2) SEQ ID NO: 236 of the data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 236 describes the sequence: GCCTGGAAAG CTGAGATGGA GGGCGG 26

(2) SEQ ID NO: data of 237:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 237 description of the sequence: GCCTGGAAAG CTGAGATGGA GGGCG 25

(2) SEQ ID NO: 238 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 238 sequence description: GCCTGGAAAG CTGAGATGGA GGGC 24

(2) SEQ ID NO: 239, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 239, sequence description: GCCTGGAAAG CTGAGATGGA GGG 23

(2) SEQ ID NO: data of 240:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 240 sequence description: GCCTGGAAAG CTGAGATGGA GG 22

(2) SEQ ID NO: 241, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 241 description of the sequence: GCCTGGAAAG CTGAGATGGA G21

(2) SEQ ID NO: 242 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 242 describes the sequence: GCCTGGAAAG CTGAGATGGA 20

(2) SEQ ID NO: 243, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 243 describes: GCCTGGAAAG CTGAGATGG 19

(2) SEQ ID NO: 244 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 244 sequence description: GCCTGGAAAG CTGAGATG 18

(2) SEQ ID NO: 245 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 245 sequence description: GCCTGGAAAG CTGAGAT 17

(2) SEQ ID NO: 246 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 246 description of the sequence: GCCTGGAAAG CTGAGA 16

(2) SEQ ID NO: 247 data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 247 sequence description: GCCTGGAAAG CTGAG 15

(2) SEQ ID NO: 248 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 248 sequence description: GCCTGGAAAG CTGA 14

(2) SEQ ID NO: 249:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 249: GCCTGGAAAG CTG 13

(2) SEQ ID NO: 250, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 250 sequence description: GCCTGGAAAG CT 12

(2) SEQ ID NO: 251, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 251 sequence description: GCCTGGAAAG C11

(2) SEQ ID NO: 252 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 252 describes the sequence:GCCTGGAAAG 10

(2) SEQ ID NO: 253 data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 253 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 46

(2) SEQ ID NO: 254 data:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 254 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGG 45

(2) SEQ ID NO: 255 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: sequence description of 255: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGG 44

(2) SEQ ID NO: 256 data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 256 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CTG 43

(2) SEQ ID NO: data at 257:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 257 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG CT 42

(2) SEQ ID NO: 258 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 258 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG C41

(2) SEQ ID NO: 259 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 259 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAGG 40

(2) SEQ ID NO: 260 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 260 describes the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACAG 39

(2) SEQ ID NO: 261 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 261 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCACA 38

(2) SEQ ID NO: 262 of the data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 262 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCAC 37

(2) SEQ ID NO: 263 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 263 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGCA 36

(2) SEQ ID NO: 264 of the data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 264 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGGC 35

(2) SEQ ID NO: 265 of the data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 265 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGGG 34

(2) SEQ ID NO: 266 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 266 describes: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CGG 33

(2) SEQ ID NO: 267 of the following data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 267 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCATGG CG 32

(2) SEQ ID NO: 268 of data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 268 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG C31

(2) SEQ ID NO: 269 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 269 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCATGG 30

(2) SEQ ID NO: 270:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 270 describes: CCTGGAAAGC TGAGATGGAG GGCGGCATG 29

(2) SEQ ID NO: 271, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 271 description of the sequence: CCTGGAAAGC TGAGATGGAG GGCGGCAT 28

(2) SEQ ID NO: 272 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 272 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGCA 27

(2) SEQ ID NO: 273 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 273 sequence description: CCTGGAAAGC TGAGATGGAG GGCGGC 26

(2) SEQ ID NO: 274 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 274 sequence description: CCTGGAAAGC TGAGATGGAG GGCGG 25

(2) SEQ ID NO: 275 on the background:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: GDNA

(xi) SEQ ID NO: 275 sequence description: CCTGGAAAGC TGAGATGGAG GGCG 24

(2) SEQ ID NO: 276 data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 276 description of the sequence: CCTGGAAAGC TGAGATGGAG GGC 23

(2) SEQ ID NO: 277 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 277, sequence description: CCTGGAAAGC TGAGATGGAG GG 22

(2) SEQ ID NO: 278 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 278 description of the sequence: CCTGGAAAGC TGAGATGGAG G21

(2) SEQ ID NO: 279 of the materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 279 description of the sequence: CCTGGAAAGC TGAGATGGAG 20

(2) SEQ ID NO: 280 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: GDNA

(xi) SEQ ID NO: 280 sequence description: CCTGGAAAGC TGAGATGGA 19

(2) SEQ ID NO: 281, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 281 description of the sequence: CCTGGAAAGC TGAGATGG 18

(2) SEQ ID NO: 282 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 282 sequence description: CCTGGAAAGC TGAGATG 17

(2) SEQ ID NO: 283 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 283 sequence description: CCTGGAAAGC TGAGAT 16

(2) SEQ ID NO: 284, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 284 sequence description: CCTGGAAAGC TGAGA 15

(2) SEQ ID NO: 285materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 285 describes the sequence: CCTGGAAAGC TGAG 14

(2) SEQ ID NO: 286 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 286 description of the sequence: CCTGGAAAGC TGA 13

(2) SEQ ID NO: 287 of the following:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 287 sequence description: CCTGGAAAGC TG 12

(2) SEQ ID NO: 288:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 288 sequence description: CCTGGAAAGC T11

(2) SEQ ID NO: 289 on the basis of the following data:

(i) sequence characteristics:

(A) length: 1O base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 289 description of the sequence: CCTGGAAAGC 10

(2) SEQ ID NO: 290, data of:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 290 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 45

(2) SEQ ID NO: 291 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 291 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGG 44

(2) SEQ ID NO: 292 of data:

(i) sequence characteristics:

(A)length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 292 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TGG 43

(2) SEQ ID NO: 293 data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 293 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC TG 42

(2) SEQ ID NO: 294 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 294 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC T41

(2) SEQ ID NO: 295 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 295 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGGC 40

(2) SEQ ID NO: 296 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 296 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAGG 39

(2) SEQ ID NO: 297 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 297 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACAG 38

(2) SEQ ID NO: 298 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 298 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCACA 37

(2) SEQ ID NO: 299 the following data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 299 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCAC 36

(2) SEQ ID NO: 300, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 300 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGCA 35

(2) SEQ ID NO: data of 301:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 301 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGGC 34

(2) SEQ ID NO: 302 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 302 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GGG 33

(2) SEQ ID NO: 303:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 303 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC GG 32

(2) SEQ ID NO: 304 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 304 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC G31

(2) SEQ ID NO: 305 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 305 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGGC 30

(2) SEQ ID NO: 306 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 306 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATGG 29

(2) SEQ ID NO: 307 ofdata:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 307 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCATG 28

(2) SEQ ID NO: 308, data of:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 308 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGCAT 27

(2) SEQ ID NO: 309 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 309 sequence description: CTGGAAAGCT GAGATGGAGG GCGGCA 26

(2) SEQ ID NO: 310, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 310 describes the sequence: CTGGAAAGCT GAGATGGAGG GCGGC 25

(2) SEQ ID NO: 311 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 311 sequence description: CTGGAAAGCT GAGATGGAGG GCGG 24

(2) SEQ ID NO: 312, data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 312 sequence description: CTGGAAAGCT GAGATGGAGG GCG 23

(2) SEQ ID NO: 313 of data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 313 sequence description: CTGGAAAGCT GAGATGGAGG GC 22

(2) SEQ ID NO: 314 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 314 sequence description: CTGGAAAGCT GAGATGGAGG G21

(2) SEQ ID NO: 315:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 315 sequence description: CTGGAAAGCT GAGATGGAGG 20

(2) SEQ ID NO: 316, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 316 sequence description: CTGGAAAGCT GAGATGGAG 19

(2) SEQ ID NO: data of 317:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 317 sequence description: CTGGAAAGCT GAGATGGA 18

(2) SEQ ID NO: 318 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 318 description of the sequence: CTGGAAAGCT GAGATGG 17

(2) SEQ ID NO: 319 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 319 sequence description: CTGGAAAGCT GAGATG 16

(2) SEQ ID NO: 320 of data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 320 sequence description: CTGGAAAGCT GAGAT 15

(2) SEQ ID NO: 321, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 321 sequence description: CTGGAAAGCT GAGA 14

(2) SEQ ID NO: 322 of the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 322 describes: CTGGAAAGCT GAG 13

(2) SEQ ID NO: 323 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 323 sequence description: CTGGAAAGCT GA 12

(2) SEQ ID NO: 324 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 324 sequence description: CTGGAAAGCT G11

(2) SEQ ID NO: 325 of the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 325 describes: CTGGAAAGCT 10

(2) SEQ ID NO: 326 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 326, sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 44

(2) SEQ ID NO: 327, data of:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 327, sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GGG 43

(2) SEQ ID NO: 328 of the data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 328 describes: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT GG 42

(2) SEQ ID NO: 329, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 329 sequence description: TGGAAAGCTGAGATGGAGGG CGGCATGGCG GGCACAGGCT G41

(2) SEQ ID NO: 330 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 330 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGCT 40

(2) SEQ ID NO: 331, data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 331 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGGC 39

(2) SEQ ID NO: 332, data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 332 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAGG 38

(2) SEQ ID NO: 333 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 333 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACAG 37

(2) SEQ ID NO: 334, data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 334 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCACA 36

(2) SEQ ID NO: 335 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 335 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCAC 35

(2) SEQ ID NO: 336 of the data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 336 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGCA 34

(2) SEQ ID NO: 337 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 337 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GGC 33

(2) SEQ ID NO: 338 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 338 description of the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGGCG GG 32

(2) SEQ ID NO: 339 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 339 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG G31

(2) SEQ ID NO: 340, data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 340 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGCG 30

(2) SEQ ID NO: 341 data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 341 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATGGC 29

(2) SEQ ID NO: 342, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 342 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCATGG 28

(2) SEQ ID NO: 343 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 343 sequence description: TGGAAAGCTG AGATGGAGGG CGGCATG 27

(2) SEQ ID NO: 344 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 344 describes the sequence: TGGAAAGCTG AGATGGAGGG CGGCAT 26

(2) SEQ ID NO: 345 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 345 sequence description: TGGAAAGCTG AGATGGAGGG CGGCA 25

(2) SEQ ID NO: 346, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 346 sequence description: TGGAAAGCTG AGATGGAGGG CGGC 24

(2) SEQ ID NO: 347 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 347, sequence description: TGGAAAGCTG AGATGGAGGG CGG 23

(2) SEQ ID NO: 348 details of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 348 sequence description: TGGAAAGCTG AGATGGAGGG CG 22

(2) SEQ ID NO: 349 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 349 description of the sequence: TGGAAAGCTG AGATGGAGGG C21

(2) SEQ ID NO: data of s:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 350 sequence description: TGGAAAGCTG AGATGGAGGG 20

(2) SEQ ID NO: 351, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 351 describes the sequence: TGGAAAGCTG AGATGGAGG 19

(2) SEQ ID NO: 352:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 352 describes the sequence: TGGAAAGCTG AGATGGAG 18

(2) SEQ ID NO: 353, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 353 description of the sequence: TGGAAAGCTG AGATGGA 17

(2) SEQ ID NO: 354 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 354 sequence description: TGGAAAGCTG AGATGG 16

(2) SEQ ID NO: 355 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 355 sequence description: TGGAAAGCTG AGATG 15

(2) SEQ ID NO: 356, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 356 sequence description: TGGAAAGCTG AGAT 14

(2) SEQ ID NO: 357, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 357 describes the sequence: TGGAAAGCTG AGA 13

(2) SEQ ID NO: 358 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 358 sequence description: TGGAAAGCTG AG 12

(2) SEQ ID NO: 359 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 359 sequence description: TGGAAAGCTG A11

(2) SEQ ID NO: 360 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 360 sequence description: TGGAAAGCTG 10

(2) SEQ ID NO: 361:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 361: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 43

(2) SEQ ID NO: 362 data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 362 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG GG 42

(2) SEQ ID NO: 363 of:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 363 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG G41

(2) SEQ ID NO: 364 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 364 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCTG 40

(2) SEQ ID NO: 365 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 365 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGCT 39

(2) SEQ ID NO: 366 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 366, sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGGC 38

(2) SEQ ID NO: 367:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 367: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAGG 37

(2) SEQ ID NO: 368 materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 368 is described by the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACAG 36

(2) SEQ ID NO: 369 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 369 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCACA 35

(2) SEQ ID NO: 370, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 370 describes: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCAC 34

(2) SEQ ID NO: 371 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 371 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GCA 33(2) SEQ ID NO: 372 of the data: (i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 372 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG GC 32

(2) SEQ ID NO: 373 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 373 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGCGG G31

(2) SEQ ID NO: 374 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 374 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCGG 30

(2) SEQ ID NO: 375 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 375 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGGCG 29

(2) SEQ ID NO: 376 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 376 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCATGGC 28

(2) SEQ ID NO: 377 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 377 sequence description: GGAAAGCTGA GATGGAGGGC GGCATGG 27

(2) SEQ ID NO: 378 of the data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 378 description of the sequence: GGAAAGCTGA GATGGAGGGC GGCATG 26

(2) SEQ ID NO: 379 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 379 sequence description: GGAAAGCTGA GATGGAGGGC GGCAT 25

(2) SEQ ID NO: 380 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 380 describes the sequence: GGAAAGCTGA GATGGAGGGC GGCA 24

(2) SEQ ID NO: 381 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 381 sequence description: GGAAAGCTGA GATGGAGGGC GGC 23

(2) SEQ ID NO: 382 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 382 description of the sequence: GGAAAGCTGA GATGGAGGGC GG 22

(2) SEQ ID NO: 383 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 383 sequence description: GGAAAGCTGA GATGGAGGGC G21

(2) SEQ ID NO: 384 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B)Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 384 sequence description: GGAAAGCTGA GATGGAGGGC 20

(2) SEQ ID NO: 385 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 385 description of the sequence: GGAAAGCTGA GATGGAGGG 19

(2) SEQ ID NO: 386 of data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 386 sequence description: GGAAAGCTGA GATGGAGG 18

(2) SEQ ID NO: 387 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 387: GGAAAGCTGA GATGGAG 17

(2) SEQ ID NO: 388, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 388 sequence description: GGAAAGCTGA GATGGA 16

(2) SEQ ID NO: 389 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 389 sequence description: GGAAAGCTGA GATGG 15

(2) SEQ ID NO: 390 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 390 sequence description: GGAAAGCTGA GATG 14

(2) SEQ ID NO: 391 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 391 sequence description: GGAAAGCTGA GAT 13

(2) SEQ ID NO: 392 of the data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 392 of the sequence description: GGAAAGCTGA GA 12

(2) SEQ ID NO: 393 of the data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 393 of the sequence description: GGAAAGCTGA G11

(2) SEQ ID NO: 394 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 394 sequence description: GGAAAGCTGA 10

(2) SEQ ID NO: 395 the data:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 395 to sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 42

(2) SEQ ID NO: 396, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 396 for sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG G41

(2) SEQ ID NO: 397 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 397 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTGG 40

(2) SEQ ID NO: 398, data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 398 description of the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCTG 39

(2) SEQ ID NO: 399, data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 399 description of the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGCT 38

(2) SEQ ID NO: 400 of the data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi)SEQ ID NO: 400 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGGC 37

(2) SEQ ID NO: 401 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 401 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAGG 36

(2) SEQ ID NO: 402, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 402 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACAG 35

(2) SEQ ID NO: 403, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 403 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CACA 34

(2) SEQ ID NO: 404 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 404 describes the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CAC 33

(2) SEQ ID NO: 405 data:

(i) sequence characteristics:

(A) length: 32 base pair (B) type: nucleic acid (C) strand type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 405 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG CA 32

(2) SEQ ID NO: 406 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 406 describes the sequence: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG C31

(2) SEQ ID NO: 407 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 407 describes: GAAAGCTGAG ATGGAGGGCG GCATGGCGGG 30

(2) SEQ ID NO: 408 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 408 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCGG 29

(2) SEQ ID NO: 409 of the data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 409 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGCG 28

(2) SEQ ID NO: 410, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 410 sequence description: GAAAGCTGAG ATGGAGGGCG GCATGGC 27

(2) SEQ ID NO: data of 411:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 411 to seq id no: GAAAGCTGAG ATGGAGGGCG GCATGG 26

(2) SEQ ID NO: data of 412:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 412 describes the sequence: GAAAGCTGAG ATGGAGGGCG GCATG 25

(2) SEQ ID NO: 413 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 413 description of the sequence: GAAAGCTGAG ATGGAGGGCG GCAT 24

(2) SEQ ID NO: 414 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 414 sequence description: GAAAGCTGAG ATGGAGGGCG GCA 23

(2) SEQ ID NO: 415 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 415 sequence description: GAAAGCTGAG ATGGAGGGCG GC 22

(2) SEQ ID NO: 416, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 416 sequence description: GAAAGCTGAG ATGGAGGGCG G27

(2) SEQ ID NO: 417 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 417 sequence description: GAAAGCTGAG ATGGAGGGCG 20

(2) SEQ ID NO: 418 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 418 sequence description: GAAAGCTGAG ATGGAGGGC 19

(2) SEQ ID NO: 419 of data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 419 description of the sequence: GAAAGCTGAG ATGGAGGG 18

(2) SEQ ID NO: 420, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 420 sequence description: GAAAGCTGAG ATGGAGG 17

(2) SEQ ID NO: 421 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 421 sequence description: GAAAGCTGAG ATGGAG 16

(2) SEQ ID NO: 422, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 422 sequence description: GAAAGCTGAG ATGGA 15

(2) SEQ ID NO: 423 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 423 sequence description: GAAAGCTGAG ATGG 14

(2) SEQ ID NO: 424 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 424 describes: GAAAGCTGAG ATG 13

(2) SEQ ID NO: 425 of the following materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 425 sequence description: GAAAGCTGAG AT 12

(2) SEQ ID NO: 426 of data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 426 description of the sequence: GAAAGCTGAG A11

(2) SEQ ID NO: 427 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 427 sequence description: GAAAGCTGAG 10

(2) SEQ ID NO: 428 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 428 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C41

(2) SEQ ID NO: 429 in the data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 429 in sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG 40

(2) SEQ ID NO: 430 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 430 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGG 39

(2) SEQ ID NO: 431 of:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 431 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTG 38

(2) SEQ ID NO: 432, data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 432 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCT 37

(2) SEQ ID NO: 433 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 433 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGC 36

(2) SEQ ID NO: 434 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 434 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGG 35

(2) SEQ ID NO: 435 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 435 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAG 34

(2) SEQ ID NO: 436 of the following materials:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 436 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACA 33

(2) SEQ ID NO: 437:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 437 by seq id no: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC AC 32

(2) SEQ ID NO: 438:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 438 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC A31

(2) SEQ ID NO: 439 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 439 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGGGC 30

(2) SEQ ID NO: data of 440:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 440 sequence description: AAAGCTGAGA TGGAGGGCGG CATGGCGGG 29

(2) SEQ ID NO: 441 of the following documents:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 441 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCGG 28

(2) SEQ ID NO: 442:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 442 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGGCG 27

(2) SEQ ID NO: 443 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 443 to seq id no: AAAGCTGAGA TGGAGGGCGG CATGGC 26

(2) SEQ ID NO: 444 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 444 describes the sequence: AAAGCTGAGA TGGAGGGCGG CATGG 25

(2) SEQ ID NO: 445 of the data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 445 description of the sequence: AAAGCTGAGA TGGAGGGCGG CATG 24

(2) SEQ ID NO: 446 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 446 sequence description: AAAGCTGAGA TGGAGGGCGG CAT 23

(2) SEQ ID NO: 447 data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 447 sequence description: AAAGCTGAGA TGGAGGGCGG CA 22

(2) SEQ ID NO: 448 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 448, sequence description: AAAGCTGAGA TGGAGGGCGG C21

(2) SEQ ID NO: 449 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 449 sequence description: AAAGCTGAGA TGGAGGGCGG 20

(2) SEQ ID NO: 450 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 450 sequence description: AAAGCTGAGA TGGAGGGCG 19

(2) SEQ ID NO: 451 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 451 SEQ ID NO: AAAGCTGAGA TGGAGGGC 18

(2) SEQ ID NO: 452 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 452 sequence description: AAAGCTGAGA TGGAGGG 17

(2) SEQ ID NO: 453, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 453, sequence description: AAAGCTGAGA TGGAGG 16

(2) SEQ ID NO: 454 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 454 describes the sequence: AAAGCTGAGA TGGAG 15

(2) SEQ ID NO: 455 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 455 describes the sequence: AAAGCTGAGA TGGA 14

(2) SEQ ID NO: 456 of data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 456 describes the sequence: AAAGCTGAGA TGG 13

(2) SEQ ID NO: 457 to date:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi)SEQ ID NO: 457 sequence description: AAAGCTGAGA TG 12

(2) SEQ ID NO: 458 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 458 describes the sequence: AAAGCTGAGA T11

(2) SEQ ID NO: 459 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 459 describes the sequence: AAAGCTGAGA 10

(2) SEQ ID NO: 460 of data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 460 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 40

(2) SEQ ID NO: data of 461:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 461: AAGCTGAGATGGAGGGCGGC ATGGCGGGCA CAGGCTGGG 39

(2) SEQ ID NO: 462, data of:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 462 description of the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTGG 38

(2) SEQ ID NO: 463 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 463 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCTG 37

(2) SEQ ID NO: 464 of the following materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 464 description of the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGCT 36

(2) SEQ ID NO: 465, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 465 describes the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGGC 35

(2) SEQ ID NO: 466 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 466 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAGG 34

(2) SEQ ID NO: 467 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 467 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CAG 33

(2) SEQ ID NO: 468 of the data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 468 describes the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA CA 32

(2) SEQ ID NO: 469 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 469 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA C31

(2) SEQ ID NO: 470, the data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 470 describes the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGGGCA 30

(2) SEQ ID NO: 471 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 471 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGGC 29

(2) SEQ ID NO: 472 of the data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 472 sequence description: AAGCTGAGAT GGAGGGCGGC ATGGCGGG 28

(2) SEQ ID NO: 473, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 473 description of the sequence: AAGCTGAGAT GGAGGGCGGC ATGGCGG 27

(2) SEQ ID NO: 474 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 474 describes: AAGCTGAGAT GGAGGGCGGC ATGGCG 26

(2) SEQ ID NO: 475, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 475 by sequence description: AAGCTGAGAT GGAGGGCGGC ATGGC 25

(2) SEQ ID NO: 476 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 476, sequence description: AAGCTGAGAT GGAGGGCGGC ATGG 24

(2) SEQ ID NO: 477 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 477 sequence description: AAGCTGAGAT GGAGGGCGGC ATG 23

(2) SEQ ID NO: 478 of the reference:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 478 of seq id no: AAGCTGAGAT GGAGGGCGGC AT 22

(2) SEQ ID NO: 479 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 479 sequence description: AAGCTGAGAT GGAGGGCGGC A21

(2) SEQ ID NO: 480, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 480 sequence description: AAGCTGAGAT GGAGGGCGGC 20

(2) SEQ ID NO: 481 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 481 sequence description: AAGCTGAGAT GGAGGGCGG 19

(2) SEQ ID NO: 482 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 482 sequence description: AAGCTGAGAT GGAGGGCG 18

(2) SEQ ID NO: 483 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 483 the sequence describes: AAGCTGAGAT GGAGGGC 17

(2) SEQ ID NO: 484 details:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 484 sequence description: AAGCTGAGAT GGAGGG 16

(2) SEQ ID NO: 485, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 485 sequence description: AAGCTGAGAT GGAGG 15

(2) SEQ ID NO: 486 of the following materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 486 sequence description: AAGCTGAGAT GGAG 14

(2) SEQ ID NO: 487 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 487 description of the sequence: AAGCTGAGAT GGA 13

(2) SEQ ID NO: data 488:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 488: AAGCTGAGAT GG 12

(2) SEQ ID NO: 489 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 489 sequence description: AAGCTGAGAT G11

(2) SEQ ID NO: 490 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 490 sequence description: AAGCTGAGAT 10

(2) SEQ ID NO: 491 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 491 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 39

(2) SEQ ID NO: 492:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 492 description of the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGGG 38

(2) SEQ ID NO: 493 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 493 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTGG 37

(2) SEQ ID NO: 494 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type(2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 494 the sequence describes: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCTG 36

(2) SEQ ID NO: 495 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 495 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGCT 35

(2) SEQ ID NO: 496, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 496 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGGC 34

(2) SEQ ID NO: 497 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 497 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AGG 33

(2) SEQ ID NO: 498 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 498, sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC AG 32

(2) SEQ ID NO: 499 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 499 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC A31

(2) SEQ ID NO: 500 of data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 500 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGGGCAC 30

(2) SEQ ID NO: 501, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 501 description of the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGGCA 29

(2) SEQ ID NO: 502 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 502 describes the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGGC 28

(2) SEQ ID NO: 503 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 503 description of the sequence: AGCTGAGATG GAGGGCGGCA TGGCGGG 27

(2) SEQ ID NO: data of 504:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 504 sequence description: AGCTGAGATG GAGGGCGGCA TGGCGG 26

(2) SEQ ID NO: 505 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 505 describes the sequence: AGCTGAGATG GAGGGCGGCA TGGCG 25

(2) SEQ ID NO: 506 of the data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 506 describes the sequence: AGCTGAGATG GAGGGCGGCA TGGC 24

(2) SEQ ID NO: 507 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 507 description of the sequence: AGCTGAGATG GAGGGCGGCA TGG 23

(2) SEQ ID NO: 508, data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 508 sequence description: AGCTGAGATG GAGGGCGGCA TC 22

(2) SEQ ID NO: 509 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 509 sequence description: AGCTGAGATG GAGGGCGGCA T21

(2) SEQ ID NO: 510, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C)Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 510 describes the sequence: AGCTGAGATG GAGGGCGGCA 20

(2) SEQ ID NO: 511, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 511 description of the sequence: AGCTGAGATG GAGGGCGGC 19

(2) SEQ ID NO: 512 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 512 sequence description: AGCTGAGATG GAGGGCGG 18

(2) SEQ ID NO: 513 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 513 sequence description: AGCTGAGATG GAGGGCG 17

(2) SEQ ID NO: 514 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 514 describes the sequence: AGCTGAGATG GAGGGC 16

(2) SEQ ID NO: 515 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 515 sequence description: AGCTGAGATG GAGGG 15

(2) SEQ ID NO: 516 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 516 sequence description: AGCTGAGATG GAGG 14

(2) SEQ ID NO: 517 and the materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 517 description of the sequence: AGCTGAGATG GAG 13

(2) SEQ ID NO: 518 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 518 description of the sequence: AGCTGAGATG GA 12

(2) SEQ ID NO: 519, data of:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 519, sequence description: AGCTGAGATG G11

(2) SEQ ID NO: 520, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 520 sequence description: AGCTGAGATG 10

(2) SEQ ID NO: 521, data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 521: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGGGC 38

(2) SEQ ID NO: 522 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 522 sequence description: GCTGAGATGGAGGGCGGCAT GGCGGGCACA GGCTGGG 37

(2) SEQ ID NO: 523 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 523 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTGG 36

(2) SEQ ID NO: 524, data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 524 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCTG 35

(2) SEQ ID NO: 525 of the data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 525 description of the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGCT 34

(2) SEQ ID NO: 526 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 526 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GGC 33

(2) SEQ ID NO: 527 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 527 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCACA GG 32

(2) SEQ ID NO: 528, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 528 description of the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCACA G31

(2) SEQ ID NO: data of 529:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 529 describes the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCACA 30

(2) SEQ ID NO: 530 of the data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 530 describes the sequence: GCTGAGATGG AGGGCGGCAT GGCGGGCAC 29

(2) SEQ ID NO: 531 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 531 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGCA 28

(2) SEQ ID NO: 532, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 532 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGGC 27

(2) SEQ ID NO: 533 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 533 sequence description: GCTGAGATGG AGGGCGGCAT GGCGGG 26

(2) SEQ ID NO: 534 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 534, sequence description: GCTGAGATGG AGGGCGGCAT GGCGG 25

(2) SEQ ID NO: 535 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 535 description of the sequence: GCTGAGATGG AGGGCGGCAT GGCG 24

(2) SEQ ID NO: 536 data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 536 describes the sequence: GCTGAGATGG AGGGCGGCAT GGC 23

(2) SEQ ID NO: 537 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 537 description of the sequence: GCTGAGATGG AGGGCGGCAT GG 22

(2) SEQ ID NO: 538 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 538 description of the sequence: GCTGAGATGG AGGGCGGCAT G21

(2) SEQ ID NO: 539 information:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 539 sequence description: GCTGAGATGG AGGGCGGCAT 20

(2) SEQ ID NO: 540 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 540 sequence description: GCTGAGATGG AGGGCGGCA 19

(2) SEQ ID NO: 541, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 541, sequence description: GCTGAGATGG AGGGCGGC 18

(2) SEQ ID NO: 542 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 542 sequence description: GCTGAGATGG AGGGCGG 17

(2) SEQ ID NO: 543, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 543 description of the sequence: GCTGAGATGG AGGGCG 16

(2) SEQ ID NO: 544 of the following documents:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 544 describes: GCTGAGATGG AGGGC 15

(2) SEQ ID NO: 545 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 545 description of the sequence: GCTGAGATGG AGGG 14

(2) SEQ ID NO: 546, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 546 description of the sequence: GCTGAGATGG AGG 13

(2) SEQ ID NO: 547 materials:

(i) sequencecharacteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 547 sequence description: GCTGAGATGG AG 12

(2) SEQ ID NO: 648:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 548 describes the sequence: GCTGAGATGG A11

(2) SEQ ID NO: 549 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 549 sequence description: GCTGAGATGG 10

(2) SEQ ID NO: data of 550:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 550 description of the sequence: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGGC 37

(2) SEQ ID NO: 551 materials:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 551 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGGG 36

(2) SEQ ID NO: 552 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 552 description of the sequence: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTGG 35

(2) SEQ ID NO: 553 of data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 553 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCTG 34

(2) SEQ ID NO: data of 554:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 554: CTGAGATGGA GGGCGGCATG GCGGGCACAG GCT 33

(2) SEQ ID NO: 555 materials:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 555 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG GC 32

(2) SEQ ID NO: 556 of the data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 556: CTGAGATGGA GGGCGGCATG GCGGGCACAG G31

(2) SEQ ID NO: 557 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 557 sequence description: CTGAGATGGA GGGCGGCATG GCGGGCACAG 30

(2) SEQ ID NO: 558. data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 558 describes the sequence: CTGAGATGGA GGGCGGCATG GCGGGCACA 29

(2) SEQ ID NO: 559 data:

(i) sequence characteristics:

(A)length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 559 the sequence is described: CTGAGATGGA GGGCGGCATG GCGGGCAC 28

(2) SEQ ID NO: 560 of the data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 560 describes the sequence: CTGAGATGGA GGGCGGCATG GCGGGCA 27

(2) SEQ ID NO: 561, data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 561 describes the sequence: CTGAGATGGA GGGCGGCATG GCGGGC 26

(2) SEQ ID NO: 562 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 562 description of the sequence: CTGAGATGGA GGGCGGCATG GCGGG 25

(2) SEQ ID NO: 563 data:

(i) sequence characteristics:

(A)length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 563 sequence description: CTGAGATGGA GGGCGGCATG GCGG 24

(2) SEQ ID NO: 564 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 564 description of the sequence: CTGAGATGGA GGGCGGCATG GCG 23

(2) SEQ ID NO: 565:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 565: CTGAGATGGA GGGCGGCATG GC 22

(2) SEQ ID NO: 566 of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 566 description of the sequence: CTGAGATGGA GGGCGGCATG G21

(2) SEQ ID NO: 567 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 567 description of the sequence: CTGAGATGGA GGGCGGCATG 20

(2) SEQ ID NO: 568 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 568 description of the sequence: CTGAGATGGA GGGCGGCAT 19

(2) SEQ ID NO: 569 data of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 569 description of the sequence: CTGAGATGGA GGGCGGCA 18

(2) SEQ ID NO: 570 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 570 sequence description: CTGAGATGGA GGGCGGC 17

(2) SEQ ID NO: 571 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 571 description of the sequence: CTGAGATGGA GGGCGG 16

(2) SEQ ID NO: 572 of data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 572 describes the sequence: CTGAGATGGA GGGCG 15

(2) SEQ ID NO: 573 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 573 sequence description: CTGAGATGGA GGGC 14

(2) SEQ ID NO: 574 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 574 sequence description: CTGAGATGGA GGG 13

(2) SEQ ID NO: 575 is given:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 575 is: CTGAGATGGA GG 12

(2) SEQ ID NO: data at 576:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 576: CTGAGATGGA G11

(2) SEQ ID NO: 577, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 577 sequence description: CTGAGATGGA 10

(2) SEQ ID NO: 578 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 578 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGGC 36

(2) SEQ ID NO: 579 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 579 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGGG 35

(2) SEQ ID NO: 580, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 580 describes the sequence: TGAGATGGAG GGCGGCATGG CGGGCACAGG CTGG 34

(2) SEQ ID NO: 581, data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 581 sequence description: TGAGATGGAG GGCGGCATGG CGGCACAGG CTG 33

(2) SEQ ID NO: 582 of the data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 582 with sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG CT 32

(2) SEQ ID NO: 583 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 583 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG C31

(2) SEQ ID NO: 584 of the data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 584 sequence description: TGAGATGGAG GGCGGCATGG CGGGCACAGG 30

(2) SEQ ID NO: 585 information:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 585: TGAGATGGAG GGCGGCATGG CGGGCACAG 29

(2) SEQ ID NO: 586 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 586 to sequence description: TGAGATGGAG GGCGGCATGG CGGGCACA 28

(2) SEQ ID NO: 587 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 587 sequence description: TGAGATGGAG GGCGGCATGG CGGGCAC 27

(2) SEQ ID NO: 588 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 588 sequence description: TGAGATGGAG GGCGGCATGG CGGGCA 26

(2) SEQ ID NO: 589 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 589 sequence description: TGAGATGGAG GGCGGCATGG CGGGC 25

(2) SEQ ID NO: data at 590:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 590 by sequence number: TGAGATGGAG GGCGGCATGG CGGG 24

(2) SEQ ID NO: 591 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 591 sequence description: TGAGATGGAG GGCGGCATGG CGG 23

(2) SEQ ID NO: 592, data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 592 the sequence describes: TGAGATGGAG GGCGGCATGG CG 22

(2) SEQ ID NO: 593 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 593 sequence description: TGAGATGGAG GGCGGCATGG C21

(2) SEQ ID NO: 594 of the data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 594 to seq id no: TGAGATGGAG GGCGGCATGG 20

(2) SEQ ID NO: 595 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 595 description of the sequence: TGAGATGGAG GGCGGCATG 19

(2) SEQ ID NO: 596 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 596 sequence description: TGAGATGGAG GGCGGCAT 18

(2) SEQ ID NO: 597 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 597 sequence description: TGAGATGGAG GGCGGCA 17

(2) SEQ ID NO: 598 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 598 sequence description: TGAGATGGAG GGCGGC 16

(2) SEQ ID NO: 599 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 599 sequence description: TGAGATGGAG GGCGG 15

(2) SEQ ID NO: data of 600:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 600 sequence description: TGAGATGGAG GGCG 14

(2) SEQ ID NO: 601, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 601 describes the sequence: TGAGATGGAG GGC 13

(2) SEQ ID NO: information of 602:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 602 sequence description: TGAGATGGAG GG 12

(2) SEQ ID NO: 603 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 603 sequence description: TGAGATGGAG G11

(2) SEQ ID NO: 604, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 604 sequence description: TGAGATGGAG 10

(2) SEQ ID NO: 605 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 605 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGGC 35

(2) SEQ ID NO: 606, data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 606 describes the sequence: GAGATGGAGG GCGGCATGGC GGGCACAGGC TGGG 34

(2) SEQ ID NO: 607 materials:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 607 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGGCTGG 33

(2) SEQ ID NO: 608 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 608: GAGATGGAGG GCGGCATGGC GGGCACAGGC TG 32

(2) SEQ ID NO: 609:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 609 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGGC T31

(2) SEQ ID NO: data of 610:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 610 describes the sequence: GAGATGGAGG GCGGCATGGC GGGCACAGGC 30

(2) SEQ ID NO: 611 of the data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 611 sequence description: GAGATGGAGG GCGGCATGGC GGGCACAGG 29

(2) SEQ ID NO: 612 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 612 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCACAG 28

(2) SEQ ID NO: 613, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 613 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCACA 27

(2) SEQ ID NO: 614 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 614 description of the sequence: GAGATGGAGG GCGGCATGGC GGGCAC 26

(2) SEQ ID NO: 615 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 615 sequence description: GAGATGGAGG GCGGCATGGC GGGCA 25

(2) SEQ ID NO: 616 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 616 sequence description: GAGATGGAGG GCGGCATGGC GGGC 24

(2) SEQ ID NO: 617 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 617 description of the sequence: GAGATGGAGG GCGGCATGGC GGG 23

(2) SEQ ID NO: 618 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 618 description of the sequence: GAGATGGAGG GCGGCATGGC GG 22

(2) SEQ ID NO: 619 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 619 description of the sequence: GAGATGGAGG GCGGCATGGC G21

(2) SEQ ID NO: data of 620:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 620 describes the sequence: GAGATGGAGG GCGGCATGGC 20

(2) SEQ ID NO: data of 621:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 621: GAGATGGAGG GCGGCATGG 19

(2) SEQ ID NO: 622, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 622 describes the sequence: GAGATGGAGG GCGGCATG 18

(2) SEQ ID NO: 623 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 623 sequence description: GAGATGGAGG GCGGCAT 17

(2) SEQ ID NO: 624 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D)Topology: line shape

(xi) SEQ ID NO: 624 sequence description: GAGATGGAGG GCGGCA 16

(2) SEQ ID NO: 625, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 625 describes: GAGATGGAGG GCGGC 15

(2) SEQ ID NO: 626 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 626 description of the sequence: GAGATGGAGG GCGG 14

(2) SEQ ID NO: 627 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 627 description of the sequence: GAGATGGAGG GCG 13

(2) SEQ ID NO: 628 of the data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQID NO: 628 description of the sequence: GAGATGGAGG GC 12

(2) SEQ ID NO: 629 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 629 sequence description: GAGATGGAGG G11

(2) SEQ ID NO: the data of 630:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 630 sequence description: GAGATGGAGG 10

(2) SEQ ID NO: 631, data of:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 631 description of the sequence: AGATGGAGGG CGGCATGGCG GGCACAGGCT GGGC 34

(2) SEQ ID NO: 632 of the data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 632 to seq id no: AGATGGAGGG CGGCATGGCG GGCACAGGCT GGG 33

(2) SEQ ID NO: 633 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 633 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGCT GG 32

(2) SEQ ID NO: 634 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 634 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGCT G31

(2) SEQ ID NO: 635 of the data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 635: AGATGGAGGG CGGCATGGCG GGCACAGGCT 30

(2) SEQ ID NO: 636, data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 636, sequence description: AGATGGAGGG CGGCATGGCG GGCACAGGC29

(2) SEQ ID NO: 637 information:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 637 sequence description: AGATGGAGGG CGGCATGGCG GGCACAGG 28

(2) SEQ ID NO: 638 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 638 sequence description: AGATGGAGGG CGGCATGGCG GGCACAG 27

(2) SEQ ID NO: 639 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 639 sequence description: AGATGGAGGG CGGCATGGCG GGCACA 26

(2) SEQ ID NO: 640 of the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 640 describes the sequence: AGATGGAGGG CGGCATGGCG GGCAC 25

(2) SEQ ID NO: 641, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 641, sequence description: AGATGGAGGG CGGCATGGCG GGCA 24

(2) SEQ ID NO: 642 to the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 642 to seq id no: AGATGGAGGG CGGCATGGCG GGC 23

(2) SEQ ID NO: 643 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 643 sequence description: AGATGGAGGG CGGCATGGCG GG 22

(2) SEQ ID NO: 644 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 644 describes the sequence: AGATGGAGGG CGGCATGGCG G21

(2) SEQ ID NO: 645 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 645 description of the sequence: AGATGGAGGG CGGCATGGCG 20

(2) SEQ ID NO: 646 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 646 by seq id no: AGATGGAGGG CGGCATGGC 19

(2) SEQ ID NO: 647 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 647 sequence description: AGATGGAGGG CGGCATGG 18

(2) SEQ ID NO: 648:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 648 sequence description: AGATGGAGGG CGGCATG 17

(2) SEQ ID NO: 649 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 649 sequence description: AGATGGAGGG CGGCAT 16

(2) SEQ ID NO: 650 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 650 sequence description: AGATGGAGGG CGGCA 15

(2) SEQ ID NO: 651, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 651, sequence description: AGATGGAGGG CGGC 14

(2) SEQ ID NO: 652 of the following documents:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 652 description of the sequence: AGATGGAGGG CGG 13

(2) SEQ ID NO: 653 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 653 sequence description: AGATGGAGGG CG 12

(2) SEQ ID NO: 654, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 654 sequence description: AGATGGAGGG C11

(2) SEQ ID NO: 655 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 655: AGATGGAGGG 10

(2) SEQ ID NO: 656 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 656, sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG GGC 33

(2) SEQ ID NO: 657 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 657 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG GG 32

(2) SEQ ID NO: 658, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 658, sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG G31

(2) SEQ ID NO: 659 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 659 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCTG 30

(2) SEQ ID NO: 660 of data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 660 sequence description: GATGGAGGGC GGCATGGCGG GCACAGGCT 29

(2) SEQ ID NO: 661 materials:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 661 description of the sequence: GATGGAGGGC GGCATGGCGG GCACAGGC 28

(2) SEQ ID NO: 662 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 662 sequence description: GATGGAGGGC GGCATGGCGG GCACAGG 27

(2) SEQ ID NO: 663 of the following documents:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 663 sequence description: GATGGAGGGC GGCATGGCGG GCACAG 26

(2) SEQ ID NO: 664 the data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 664 description of the sequence: GATGGAGGGC GGCATGGCGG GCACA 25

(2) SEQ ID NO: 665 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 665 sequence description: GATGGAGGGC GGCATGGCGG GCAC 24

(2) SEQ ID NO: 666 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 666 sequence description: GATGGAGGGC GGCATGGCGG GCA 23

(2) SEQ ID NO: 667 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 667 sequence description: GATGGAGGGC GGCATGGCGG GC 22

(2) SEQ ID NO: 668 data of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 668 sequence description: GATGGAGGGC GGCATGGCGG G21

(2) SEQ ID NO: 669 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 669 sequence description: GATGGAGGGC GGCATGGCGG 20

(2) SEQ ID NO: 670 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 670 describes the sequence: GATGGAGGGC GGCATGGCG 19

(2) SEQ ID NO: 671 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 671 sequence description: GATGGAGGGC GGCATGGC 18

(2) SEQ ID NO: 672 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 672 description of the sequence: GATGGAGGGC GGCATGG 17

(2) SEQ ID NO: 673 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 673 sequence description: GATGGAGGGC GGCATG 16

(2) SEQ ID NO: 674 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 674 describes the sequence: GATGGAGGGC GGCAT 15

(2) SEQ ID NO: 675 of the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 675 describes the sequence: GATGGAGGGC GGCA 14

(2) SEQ ID NO: 676 on the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 676 description of the sequence: GATGGAGGGC GGC 13

(2) SEQ ID NO: 677 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 677 sequence description: GATGGAGGGC GG 12

(2) SEQ ID NO: 678 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 678 sequence description: GATGGAGGGC G11

(2) SEQ ID NO: 679 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 679 sequence description: GATGGAGGGC 10

(2) SEQ ID NO: 680, data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 680, description of the sequence: ATGGAGGGCG GCATGGCGGG CACAGGCTGG GC 32

(2) SEQ ID NO: 681 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 681 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCTGG G31

(2) SEQ ID NO: 682 for data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 682: ATGGAGGGCG GCATGGCGGG CACAGGCTGG 30

(2) SEQ ID NO: 683 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 683 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCTG 29

(2) SEQ ID NO: 684 materials:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 684 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGCT 28

(2) SEQ ID NO: 685 of the raw materials:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 685 sequence description: ATGGAGGGCG GCATGGCGGG CACAGGC 27

(2) SEQ ID NO: 686 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of (a): 686ATGGAGGGCG GCATGGCGGG CACAGG 26

(2) SEQ ID NO: 687 for data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 687 the sequence of SEQ ID NO: ATGGAGGGCG GCATGGCGGG CACAG 25

(2) SEQ ID NO: 688 materials:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 688 sequence description: ATGGAGGGCG GCATGGCGGG CACA 24

(2) SEQ ID NO: 689 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 689 the sequence of seq id no: ATGGAGGGCG GCATGGCGGG CAC 23

(2) SEQ ID NO:690:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 690 sequence description: ATGGAGGGCG GCATGGCGGG CA 22

(2) SEQ ID NO: 691 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 691 sequence description: ATGGAGGGCG GCATGGCGGG C21

(2) SEQ ID NO: 692 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 692 sequence description: ATGGAGGGCG GCATGGCGGG 20

(2) SEQ ID NO: 693 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 693 sequence description: ATGGAGGGCG GCATGGCGG 19

(2) SEQ ID NO: 694 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 694 sequence description: ATGGAGGGCG GCATGGCG 18

(2) SEQ ID NO: 695 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 695 sequence description: ATGGAGGGCG GCATGGC 17

(2) SEQ ID NO: 696 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 696 sequence description: ATGGAGGGCG GCATGG 16

(2) SEQ ID NO: 697 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 697 sequence description: ATGGAGGGCG GCATG 15

(2) SEQ ID NO: 698 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 698 description of the sequence: ATGGAGGGCG GCAT 14

(2) SEQ ID NO: 699 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 699 sequence description: ATGGAGGGCG GCA 13

(2) SEQ ID NO: 700, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 700 sequence description: ATGGAGGGCG GC 12

(2) SEQ ID NO: 701 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 701 sequence description: ATGGAGGGCG G11

(2) SEQ ID NO: data of 702:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 702 description of the sequence: ATGGAGGGCG 10

(2) SEQ ID NO: 703 of the data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 703 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C31

(2) SEQ ID NO: 704 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 704 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTGGG 30

(2) SEQ ID NO: 705 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 705 sequence description: TGGAGGGCGG CATGGCGGGC ACAGGCTGG 29

(2) SEQ ID NO: 706, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 706 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCTG 28

(2) SEQ ID NO: 707, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 707 description of the sequence: TGGAGGGCGG CATGGCGGGC ACAGGCT 27

(2) SEQ ID NO: 708, data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 708 describes the sequence: TGGAGGGCGG CATGGCGGGC ACAGGC 26

(2) SEQ ID NO: 709, data of:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 709 description of the sequence: TGGAGGGCGG CATGGCGGGC ACAGG 25

(2) SEQ ID NO: 710 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: singlestrand

(D) Topology: line shape

(xi) SEQ ID NO: 710 sequence description: TGGAGGGCGG CATGGCGGGC ACAG 24

(2) SEQ ID NO: 711 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 711 sequence description: TGGAGGGCGG CATGGCGGGC ACA 23

(2) SEQ ID NO: 712 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 712 sequence description: TGGAGGGCGG CATGGCGGGC AC 22

(2) SEQ ID NO: 713 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 713 sequence description: TGGAGGGCGG CATGGCGGGC A21

(2) SEQ ID NO: 714 of the data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 714 describes the sequence: TGGAGGGCGG CATGGCGGGC 20

(2) SEQ ID NO: 715 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 715 sequence description: TGGAGGGCGG CATGGCGGG 19

(2) SEQ ID NO: 716 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 716 describes the sequence: TGGAGGGCGG CATGGCGG 18

(2) SEQ ID NO: 717:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 717 the sequence describes: TGGAGGGCGG CATGGCG 17

(2) SEQ ID NO: 718, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 718 sequence description: TGGAGGGCGG CATGGC 16

(2) SEQ ID NO: 719, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 719 sequence description: TGGAGGGCGG CATGG 15

(2) SEQ ID NO: 720 of data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 720 sequence description: TGGAGGGCGG CATG 14

(2) SEQ ID NO: 721, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 721 describes the sequence: TGGAGGGCGG CAT 13

(2) SEQ ID NO: 722, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 722 describes the sequence: TGGAGGGCGG CA 12

(2) SEQ ID NO: 723, the data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 723 to seq id no: TGGAGGGCGG C11

(2) SEQ ID NO: 724 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 724 sequence description: TGGAGGGCGG 10

(2) SEQ ID NO: 725, data of:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 725 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGCTGGGC 30

(2) SEQ ID NO: 726 of the following documents:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 726 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGCTGGG 29

(2) SEQ ID NO: 727 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 727: GGAGGGCGGC ATGGCGGGCA CAGGCTGG 28

(2) SEQ ID NO: 728:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 728: GGAGGGCGGC ATGGCGGGCA CAGGCTG 27

(2) SEQ ID NO: 729, data of:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 729 description of the sequence: GGAGGGCGGC ATGGCGGGCA CAGGCT 26

(2) SEQ ID NO: 730:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 730 sequence description: GGAGGGCGGC ATGGCGGGCA CAGGC 25

(2) SEQ ID NO: 731 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 731 sequence description: GGAGGGCGGC ATGGCGGGCA CAGG 24

(2) SEQ ID NO: 732 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 732 sequence description: GGAGGGCGGC ATGGCGGGCA CAG 23

(2) SEQ ID NO: 733, data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 733 describes: GGAGGGCGGC ATGGCGGGCA CA 22

(2) SEQ ID NO: 734 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 734 sequence description: GGAGGGCGGC ATGGCGGGCA C21

(2) SEQ ID NO: 735 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 735 description of the sequence: GGAGGGCGGC ATGGCGGGCA 20

(2) SEQ ID NO: 736 is as follows:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 736 for the sequence description: GGAGGGCGGC ATGGCGGGC 19

(2) SEQ ID NO: 737 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 737 sequence description: GGAGGGCGGC ATGGCGGG 18

(2) SEQ ID NO: 738 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 738 describes the sequence: GGAGGGCGGC ATGGCGG 17

(2) SEQ ID NO: 739 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 739 sequence description: GGAGGGCGGC ATGGCG 16

(2) SEQ ID NO: 740 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 740 sequence description: GGAGGGCGGC ATGGC 15

(2) SEQ ID NO: 741 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 741 has the sequence depicted: GGAGGGCGGC ATGG 14

(2) SEQ ID NO: 742 in the following steps:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 742 describes the sequence: GGAGGGCGGC ATG 13

(2) SEQ ID NO: 743 of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 743 describes: GGAGGGCGGC AT 12

(2) SEQ ID NO: 744 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 744 description of the sequence: GGAGGGCGGC A11

(2) SEQ ID NO: 745 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 745 sequence description: GGAGGGCGGC 10

(2) SEQ ID NO: 746 data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 746 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCTGGGC 29

(2) SEQ ID NO: 747 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 747 description of the sequence: GAGGGCGGCA TGGCGGGCAC AGGCTGGG 28

(2) SEQ ID NO: 748 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 748 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCTGG 27

(2) SEQ ID NO: 749 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 749 description of the sequence: GAGGGCGGCA TGGCGGGCAC AGGCTG 26

(2) SEQ ID NO: data of 750:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 750 sequence description: GAGGGCGGCA TGGCGGGCAC AGGCT 25

(2) SEQ ID NO: 751, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 751 describes the sequence: GAGGGCGGCA TGGCGGGCAC AGGC 24

(2) SEQ ID NO: 752 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 752 sequence description: GAGGGCGGCA TGGCGGGCAC AGG 23

(2) SEQ ID NO: 753 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 753 sequence description: GAGGGCGGCA TGGCGGGCAC AG 22

(2) SEQ ID NO: 754, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 754, sequence description: GAGGGCGGCA TGGCGGGCAC A21

(2) SEQ ID NO: 755 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 755: GAGGGCGGCA TGGCGGGCAC 20

(2) SEQ ID NO: 756 information:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 756 describing the sequence: GAGGGCGGCA TGGCGGGCA 19

(2) SEQ ID NO: 757 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 757 sequence description: GAGGGCGGCA TGGCGGGC 18

(2) SEQ ID NO: 758 of the disclosure:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 758 sequence description: GAGGGCGGCA TGGCGGG 17

(2) SEQ ID NO: 759 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 759 sequence description: GAGGGCGGCA TGGCGG 16

(2) SEQ ID NO: 760 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 760 sequence description: GAGGGCGGCA TGGCG 15

(2) SEQ ID NO: 761 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 761 sequence description: GAGGGCGGCA TGGC 14

(2) SEQ ID NO: 762 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 762 sequence description: GAGGGCGGCA TGG 13

(2) SEQ ID NO: 763 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 763 sequence description: GAGGGCGGCA TG 12

(2) SEQ ID NO: 764 ofthe literature:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 764 to seq id no: GAGGGCGGCA T11

(2) SEQ ID NO: 765 the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 765 sequence description: GAGGGCGGCA 10

(2) SEQ ID NO: 766 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 766 sequence description: AGGGCGGCAT GGCGGGCACA GGCTGGGC 28

(2) SEQ ID NO: 767 materials:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 767 sequence description: AGGGCGGCAT GGCGGGCACA GGCTGGG 27

(2) SEQ ID NO: 768 of the data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 768 description of the sequence: AGGGCGGCAT GGCGGGCACA GGCTGG 26

(2) SEQ ID NO: 769 materials:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 769 description of the sequence: AGGGCGGCAT GGCGGGCACA GGCTG 25

(2) SEQ ID NO: 770, data of:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 770 sequence description: AGGGCGGCAT GGCGGGCACA GGCT 24

(2) SEQ ID NO: 771 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 771 sequence description: AGGGCGGCAT GGCGGGCACA GGC 23

(2) SEQ ID NO: 772 of the study:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 772 of the sequence description: AGGGCGGCAT GGCGGGCACA GG 22

(2) SEQ ID NO: 773 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 773 sequence description: AGGGCGGCAT GGCGGGCACA G21

(2) SEQ ID NO: 774 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 774 sequence description: AGGGCGGCAT GGCGGGCACA 20

(2) SEQ ID NO: 775 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 775 sequence description: AGGGCGGCAT GGCGGGCAC 19

(2) SEQ ID NO: 776 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 776 sequence description: AGGGCGGCAT GGCGGGCA 18

(2) SEQ ID NO: 777 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 777 sequence description: AGGGCGGCAT GGCGGGC 17

(2) SEQ ID NO: 778 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 778 sequence description: AGGGCGGCAT GGCGGG 16

(2) SEQ ID NO: 779 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 779 sequence description: AGGGCGGCAT GGCGG 15

(2) SEQ ID NO: 780 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 780 description of the sequence: AGGGCGGCAT GGCG 14

(2) SEQ ID NO: 781, materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 781 sequence description: AGGGCGGCAT GGC 13

(2) SEQ ID NO: 782 of material:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 782 description of the sequence: AGGGCGGCAT GG 12

(2) SEQ ID NO: 783 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 783 sequence description: AGGGCGGCAT G11

(2) SEQ ID NO: 784 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 784 sequence description: AGGGCGGCAT 10

(2) SEQ ID NO: 785 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 785 sequence description: GGGCGGCATG GCGGGCACAG GCTGGGC 27

(2) SEQ ID NO: 786 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 786 sequence description: GGGCGGCATG GCGGGCACAG GCTGGG 26

(2) SEQ ID NO: 787 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 787 sequence description: GGGCGGCATG GCGGGCACAG GCTGG 25

(2) SEQ ID NO: 788 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 788 sequence description: GGGCGGCATG GCGGGCACAG GCTG 24

(2) SEQ ID NO: 789 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 789 sequence description: GGGCGGCATG GCGGGCACAG GCT 23

(2) SEQ ID NO: 790 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 790 sequence description: GGGCGGCATG GCGGGCACAG GC 22

(2) SEQ ID NO: 791 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 791 sequence description: GGGCGGCATG GCGGGCACAG G21

(2) SEQ ID NO: 792 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 792 sequence description: GGGCGGCATG GCGGGCACAG 20

(2) SEQ ID NO: 842:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 842 description of the sequence: CGGCATGGCG GGCACAGG 18

(2) SEQ ID NO: 843, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 843 description of the sequence: CGGCATGGCG GGCACAG 17

(2) SEQ ID NO: 844 of the sample:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 844 sequence description: CGGCATGGCG GGCACA 16

(2) SEQ ID NO: 845 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 845 sequence description: CGGCATGGCG GGCAC 15

(2) SEQ ID NO: 846 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 846 description of the sequence: CGGCATGGCG GGCA 14

(2) SEQ ID NO: 847 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 847 sequence description: CGGCATGGCG GGC 13

(2) SEQ ID NO: 848 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 848 description of the sequence: CGGCATGGCG GG 12

(2) SEQ ID NO: 849 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 849 description of the sequence: CGGCAIGGCG G11

(2) SEQ ID NO: 850 of the document:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 850 sequence description: CGGCATGGCG 10

(2) SEQ ID NO: 851, data of:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 851, sequence description: GGCATGGCGG GCACAGGCTG GGC 23

(2) SEQ ID NO: 852 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 852 sequence description: GGCATGGCGG GCACAGGCTG GG 22

(2) SEQ ID NO: 853 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 853 sequence description: GGCATGGCGG GCACAGGCTG G21

(2) SEQ ID NO: 854 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 854 description of the sequence: GGCATGGCGG GCACAGGCTG 20

(2) SEQ ID NO: 855 materials of:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 855 sequence description: GGCATGGCGG GCACAGGCT 19

(2) SEQ ID NO: 856 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 856: GGCATGGCGG GCACAGGC 18

(2) SEQ ID NO: 857 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 857 description of the sequence: GGCATGGCGG GCACAGG 17

(2) SEQ ID NO: 858 in:

(i) sequence characteristics:

(A) length: 16 basepairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 858 sequence description: GGCATGGCGG GCACAG 16

(2) SEQ ID NO: 859 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 859 description of the sequence: GGCATGGCGG GCACA 15

(2) SEQ ID NO: 860:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 860 is described in sequence: GGCATGGCGG GCAC 14

(2) SEQ ID NO: 861 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 861: GGCATGGCGG GCA 13

(2) SEQ ID NO: 862 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 862 describes the sequence: GGCATGGCGG GC 12

(2) SEQ ID NO: 863, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 863 sequence description: GGCATGGCGG G11

(2) SEQ ID NO: 864 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 864 sequence description: GGCATGGCGG 10

(2) SEQ ID NO: 865 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 865 sequence description: GCATGGCGGG CACAGGCTGG GC 22

(2) SEQ ID NO: 866 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 866 sequence description: GCATGGCGGG CACAGGCTGG G21

(2) SEQ ID NO: 867, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 867, sequence description: GCATGGCGGG CACAGGCTGG 20

(2) SEQ ID NO: 868 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 868 sequence description: GCATGGCGGG CACAGGCTG 19

(2) SEQ ID NO: 869, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 869 sequence description: GCATGGCGGG CACAGGCT 18

(2) SEQ ID NO: 870 of the above:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 870 description of the sequence: GCATGGCGGG CACAGGC 17

(2) SEQ ID NO: 871 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 871 description of the sequence: GCATGGCGGG CACAGG 16

(2) SEQ ID NO: 872 of the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 872, sequence description: GCATGGCGGG CACAG 15

(2) SEQ ID NO: 873, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 873 description of the sequence: GCATGGCGGG CACA 14

(2) SEQ ID NO: 874 of the document:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 874 sequence description: GCATGGCGGG CAC 13

(2) SEQ ID NO: 875 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 875 sequence description: GCATGGCGGG CA 12

(2) SEQ ID NO: 876 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 876 description of the sequence: GCATGGCGGG C11

(2) SEQ ID NO: 877 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 877 sequence description: GCATGGCGGG 10

(2) SEQ ID NO: 878, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 878 description of the sequence: CATGGCGGGC ACAGGCTGGG C21

(2) SEQ ID NO: 879data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 879 description of the sequence: CATGGCGGGC ACAGGCTGGG 20

(2) SEQ ID NO: information at 880:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 880 description of the sequence: CATGGCGGGC ACAGGCTGG 19

(2) SEQ ID NO: 881 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 881 sequence description: CATGGCGGGC ACAGGCTG 18

(2) SEQ ID NO: 882 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 882 sequence description: CATGGCGGGC ACAGGCT 17

(2) SEQ ID NO: 883 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 883 sequence description: CATGGCGGGC ACAGGC 16

(2) SEQ ID NO: 884 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 884 sequence description: CATGGCGGGC ACAGG 15

(2) SEQ ID NO: 885 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 885 sequence description: CATGGCGGGC ACAG 14

(2) SEQ ID NO: 886 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 886 sequence description: CATGGCGGGC ACA 13

(2) SEQ ID NO: 887 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 887 sequence description: CATGGCGGGC AC 12

(2) SEQ ID NO: 888:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 888: CATGGCGGGC A11

(2) SEQ ID NO: 889 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 889 sequence description: CATGGCGGGC 10

(2) SEQ ID NO: 890 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 890 sequence description: ATGGCGGGCA CAGGCTGGGC 20

(2) SEQ ID NO: 891 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 891 sequence description: ATGGCGGGCA CAGGCTGGG 19

(2) SEQ ID NO: 892 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 892 sequence description: ATGGCGGGCA CAGGCTGG 18

(2) SEQ ID NO: 893, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 893 sequence description: ATGGCGGGCA CAGGCTG 17

(2) SEQ ID NO: 894 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 894 sequence description: ATGGCGGGCA CAGGCT 16

(2) SEQ ID NO: 895 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 895 sequence description: ATGGCGGGCA CAGGC 15

(2) SEQ ID NO: 896 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 896 sequence description: ATGGCGGGCA CAGG 14

(2) SEQ ID NO: 897 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 897 sequence description: ATGGCGGGCA CAG 13

(2) SEQ ID NO: 898, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 898 sequence description: ATGGCGGGCA CA 12

(2) SEQ ID NO: 899 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 899 sequence description: ATGGCGGGCA C11

(2) SEQ ID NO: 900 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 900 sequence description: ATGGCGGGCA 10

(2) SEQ ID NO: 901 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 901: TGGCGGGCAC AGGCTGGGC 19

(2) SEQ ID NO: 902 of the following materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 902 describes the sequence: TGGCGGGCAC AGGCTGGG 18

(2) SEQ ID NO: 903 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 903 sequence description: TGGCGGGCAC AGGCTGG 17

(2) SEQ ID NO: 904, the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 904 describes the sequence: TGGCGGGCAC AGGCTG 16

(2) SEQ ID NO: 905 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 905 sequence description: TGGCGGGCAC AGGCT 15

(2) SEQ ID NO: 906 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 906 sequence description: TGGCGGGCAC AGGC 14

(2) SEQ ID NO: 907, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 907 sequence description: TGGCGGGCAC AGG 13

(2) SEQ ID NO: 908, data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 908 sequence description: TGGCGGGCAC AG 12

(2) SEQ ID NO: data of 909:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 909 describes: TGGCGGGCAC A11

(2) SEQ ID NO: 910, data of:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 910 describes the sequence: TGGCGGGCAC 10

(2) SEQ ID NO: 911 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 911 sequence description: GGCGGGCACA GGCTGGGC 18

(2) SEQ ID NO: 912, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 912, sequence description: GGCGGGCACA GGCTGGG 17

(2) SEQ ID NO: 913 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 913 sequence description: GGCGGGCACA GGCTGG 16

(2) SEQ ID NO: 914 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 914 description of the sequence: GGCGGGCACA GGCTG 15

(2) SEQ ID NO: 915 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 915 sequence description: GGCGGGCACA GGCT 14

(2) SEQ ID NO: 916, data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 916 description of the sequence: GGCGGGCACA GGC 13

(2) SEQ ID NO: 917 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 917 sequence description: GGCGGGCACA GG 12

(2) SEQ ID NO: 918, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 918 sequence description: GGCGGGCACA G11

(2) SEQ ID NO: 919 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 919 sequence description: GGCGGGCACA 10

(2) SEQ ID NO: 920, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 920 sequence description: GCGGGCACAG GCTGGGC 17

(2) SEQ ID NO: 921 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 921 sequence description: GCGGGCACAG GCTGGG 16

(2) SEQ ID NO: 922, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 922 sequence description: GCGGGCACAG GCTGG 15

(2) SEQ ID NO: 923:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 923: GCGGGCACAG GCTG 14

(2) SEQ ID NO: 924 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 924 sequence description: GCGGGCACAG GCT 13

(2) SEQ ID NO: 925 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 925 describes the sequence: GCGGGCACAG GC 12

(2) SEQ ID NO: 926 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 926 sequence description: GCGGGCACAG G11

(2) SEQ ID NO: 927 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 927 sequence description: GCGGGCACAG 10

(2) SEQ ID NO: 928 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 928 sequence description: CGGGCACAGG CTGGGC 16

(2) SEQ ID NO: 929 data:

(i)sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 929 sequence description: GGGCACAGGC TGGG 14

(2) SEQ ID NO: 930, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 930 sequence description: CGGGCACAGG CTGG 14

(2) SEQ ID NO: 931 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 931 sequence description: CGGGCACAGG CTG 13

(2) SEQ ID NO: 932, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 932 is described in sequence: CGGGCACAGG CT 12

(2) SEQ ID NO: 933 materials:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 933 sequence description: CGGGCACAGG C11

(2) SEQ ID NO: 934 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 934 sequence description: CGGGCACAGG 10

(2) SEQ ID NO: 935 of the following materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 935 sequence description: GGGCACAGGC TGGGC 15

(2) SEQ ID NO: 936 of:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 936: GGGCACAGGC TGGG 14

(2) SEQ ID NO: 937 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 937 sequence description: GGGCACAGGC TGG 13

(2) SEQ ID NO: 938, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 938 description of the sequence: GGGCACAGGC TG 12

(2) SEQ ID NO: 939 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 939 sequence description: GGGCACAGGC T11

(2) SEQ ID NO: 940, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 940 sequence description: GGGCACAGGC 10

(2) SEQ ID NO: 941 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology:line shape

(xi) SEQ ID NO: 941 sequence description: GGCACAGGCT GGGC 14

(2) SEQ ID NO: 942 of the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 942 sequence description: GGCACAGGCT GGG 13

(2) SEQ ID NO: 943 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 943 sequence description: GGCACAGGCT GG 12

(2) SEQ ID NO: 944 materials:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description at 944: GGCACAGGCT G11

(2) SEQ ID NO: 945 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 945 sequence description: GGCACAGGCT 10

(2) SEQ ID NO: 946 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 946 sequence description: GCACAGGCTG GGC 13

(2) SEQ ID NO: 947 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 947 sequence description: GCACAGGCTG GG 12

(2) SEQ ID NO: 948 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 948 sequence description: GCACAGGCTG G11

(2) SEQ ID NO: 949 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 949 sequence description: GCACAGGCTG 10

(2) SEQ ID NO: 950 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 950 sequence description: CACAGGCTGG GC 12

(2) SEQ ID NO: 951 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 951 sequence description: CACAGGCTGG G11

(2) SEQ ID NO: 952 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 952 description of the sequence: CACAGGCTGG 10

(2) SEQ ID NO: 953 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 953 sequence description: ACAGGCTGGG C11

(2) SEQ ID NO: 954:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 954: ACAGGCTGGG 10

(2) SEQ ID NO: 955 the data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 955 sequence description: CAGGCTGGGC 10

(2) SEQ ID NO: 956 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 956 sequence description: TTTTCCTTCC TTTGTCTCTC TTC 23

(2) SEQ ID NO: 957 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 957 description of the sequence: GCTCCCGGCT GCCTG 15

(2) SEQ ID NO: 958 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 958 description of the sequence: CTCGGCCGTG CGGCTCTGTC GCTCCCGGT 29

(2) SEQ ID NO: 959 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 959 description of the sequence: CCGCCGCCCT CCGGGGGGTC 20

(2) SEQ ID NO: 960 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 960 sequence description: TGCTGCCGTT GGCTGCCC 18

(2) SEQ ID NO: 961, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 961 sequence description: CTTCTGCGGG TCGCCGG 17

(2) SEQ ID NO: 962 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 962 description of the sequence: TGCTGGGCTT GTGGC 15

(2) SEQ ID NO: 963 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 963 sequence description: GGCCTCTCTT CTGGG 15

(2) SEQ ID NO: 964 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 964 sequence description: CCTGGTCCCT CCGT 14

(2) SEQ ID NO: 965, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 965 sequence description: GGTGGCTCCT CTGC 14

(2) SEQ ID NO: 966 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 966 sequence description: GCTTGGTCCT GGGGCTGC 18

(2) SEQ ID NO: 967 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 967 sequence description: TGCTCTCCTC TCCTT 15

(2) SEQ ID NO: 968 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 968 sequence description: TGCTTTTCTT TTCTGGGCCT C21

(2) SEQ ID NO: 969 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 969 sequence description: TGTGGTCTGT TTTTTTCTG 19

(2) SEQ ID NO: 970 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 970, sequence description: GCCCTGCTGG GGCGCTCTCC 20

(2) SEQ ID NO: 971 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 971 sequence description: GCCGCCCGCC TGGCTCCC 18

(2) SEQ ID NO: 972 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 972 sequence description: GGBGCCCBTG BTGGGCBTGC C21

(2) SEQ ID NO: 973 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 973 sequence description: GTGGTTCTTG CCCTCCTTTG GCTG 24

(2) SEQ ID NO: 974 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 974 sequence description: CCGTGCCCGC TCCCCGGC 18

(2) SEQ ID NO: 975 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 975 sequence description: CTCCTGGCGG GTGGCCGTTG 20

(2) SEQ ID NO: 976 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 976 sequence description: GGCCCGTGTT CCCCTGGG 18

(2) SEQ ID NO: 977 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 977 sequence description: GCCTGGGGCT CCCTTCTCTC 20

(2) SEQ ID NO: 978 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 978 sequence description: GCCCTTCTTG CTGGGCCTC 19

(2) SEQ ID NO: 979 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 979 sequence description: TGCTGCTGCT GGTGCTGTGG CCCCC 25

(2) SEQ ID NO: 980, data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 980 sequence description: GTACACCGAG GAGCCCATGA TGGGCATGCC ACAGACGACA GGC 43

(2) SEQ ID NO: 981 data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 981 sequence description: GTBCBCCGBG GBGCCCBTGB TGGGCBTGCC BCBGBCGBCB GGC 43

(2) SEQ ID NO: 982 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 982 sequence description: GGCGCCGTGC CGCGTCTTGG TGGCGGCGG 29

(2) SEQ ID NO: 983 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 983 sequence description: GTTCGCGCCC GCGCGGGGCC CCTCCGGTCC 30

(2) SEQ ID NO: 984 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 984 sequence description: GTTCGCGCCC GCGCGGGGCC CCTCCGGTCC 30

(2) SEQ ID NO: 985 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 985 sequence description: CGGGTCGGGG CCCCCCGCGG CC 22

(2) SEQ ID NO: 986 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 986 sequence description: GCCTCGGGGC TGGGGCGCTG GTGGCCGGG 29

(2) SEQ ID NO: 987 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 987 sequence description: CCGCGCCTCC GCCTGCCGCT TCTG 24

(2) SEQ ID NO: 988 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 988 sequence description: GCTGGGCCCC GGGCGCCCCC T21

(2) SEQ ID NO: 989 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 989 sequence description: CCCCTCTTGC TCGGGTCCCC GTG 23

(2) SEQ ID NO: 990:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 990 sequence description: ACAGCGCGTC CTGTGTCTCC AGCAGCATGG CCGGGCCAGC TGGGCCCC 48

(2) SEQ ID NO: 991 of the data:

(i) sequence characteristics:

(A) length: 48 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 991 sequence description: BCBGCGCGTC CTGTGTCTCC BGCBGCBTGGGCCBGC TGGGCCCC 48

(2) SEQ ID NO: 992 of the data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 992 sequence description: ACAGAGCATG CTGTTGTTGG GCATCTTGCC TTCCCAGGG 39

(2) SEQ ID NO: 993 data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 993 sequence description: BCBGBGCBTG CTGTTGTTGG GCBTCTTGCC TTCCCGGG 39

(2) SEQ ID NO: 994 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 994 sequence description: CCCTTTTCTG GTGGGGTG 18

(2) SEQ ID NO: 995 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 995 sequence description: GTGCTGTTGT TGGGC 15

(2) SEQ ID NO: 996 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 996 sequence description: TTTCTTCTGT TCCC 14

(2) SEQ ID NO: 997 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 997 sequence description: CCCTTTTCTG GTGGGGTG 18

(2) SEQ ID NO: 998 of the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 998 sequence description: GTGCTGTTGT TGGGC 15

(2) SEQ ID NO: 999 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 999 sequence description: TTTCTTCTGT TCCC 14

(2) SEQ ID NO: data of 1000:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1000 sequence description: TTTCCCCTGG GTCTTCC 17

(2) SEQ ID NO: 1001 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1001 sequence description: CTCCTGCTCT TTTTTC 16

(2) SEQ ID NO: 1002, data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1002 description of the sequence: ATTTGCTCTC CTATTACTTT CTGTGTCCAT TTTTTCATTA ACCGAGCTGT 50

(2)SEQ ID NO: 1003, data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1003 sequence description: BTTTGCTCTC CTBTTBCTT CTGTGTCCBT TTTCBTTB BCCGBGCTGT 50

(2) SEQ ID NO: 1004, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1004 describes the sequence: GCCTGTGTCT GTCCTCCT 18

(2) SEQ ID NO: 1005 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1005 sequence description: GCTTCGTTCC TCTCGTTC 18

(2) SEQ ID NO: 1006 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1006 sequence description: CTGCTTGGTG CCCTTGCCG19

(2) SEQ ID NO: 1007 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1007 sequence description: GTCCTGCTCC TCCGGGCTGT GG 22

(2) SEQ ID NO: 1008 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1008 sequence description: GTCGTGGCCC TGGCTCCGGC TGGTGGGCTC CCCTGG 36

(2) SEQ ID NO: 1009 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1009: CCTTCGCTGG CTGGCGGCGT GC 22

(2) SEQ ID NO: data of 1010:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence at 1010: GGGTCTTGCT CTGGGCCTGGCTGT 24

(2) SEQ ID NO: 1011 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1011 sequence description: GGCCGTGGTT GGGGGTCTTC 20

(2) SEQ ID NO: 1012, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1012 describes the sequence: GCTGCCTCCG TTTGGGTGGC 20

(2) SEQ ID NO: 1013 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1013 sequence description: TCTCTGAATA TTGACCTTCC TCCATGGCGG TCCTGCTTGG ATTCTCCCGA 50

(2) SEQ ID NO: 1014, data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1014 descriptionof the sequence: TCTCTGBBTB TTGBCCTTCC TCCBTGGCGG TCCTGCTTGG BTTCTCCCGB 50

(2) SEQ ID NO: 1015 of the data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1015 of seq id no: GCCTTTCCTG GTTCTCTTGT TGTTTTTGGG GTTTGGCTT 39

(2) SEQ ID NO: 1016 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1016 describes the sequence: ACAGTAGAGT AGGGGATTCC ATGGCAGGAG CCATCTTCTT CATGGACTCC 50

(2) SEQ ID NO: 1017 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1017 description of the sequence: TTCAAGGAGA CCTTAGGTTT CTGAGGGACT GCTAACACGC CATCTGGAGC 50

(2) SEQ ID NO: 1018 materials:

(i) sequence characteristics:

(A) length: 77 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1018 sequence description: BCBGTBGBGT BGGGGBTTCC BTGGCBGGCBGGBG CCBTCTTCTT CBTGGBCTCC TTCBBGGBGB 60 CCTTTBGGTTT CTGBGGG 77

(2) SEQ ID NO: 1019 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1019 description of the sequence: BCTGCTBBCB CGCCBTCTGG BGC 23

(2) SEQ ID NO: 1020 of the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1020 describes the sequence: GTTGTTTTTG GGGTTTGGCT T21

(2) SEQ ID NO: 1021:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1021 sequence description: GCCTTTCCTG GTTCTCTT 18

(2) SEQ ID NO: 1022 materials:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1022 description of the sequence: BCBGTBGBGT BGGGGBTTCC BTGGCBGGCBGGBG CCBTCTTCTT CBTGGBCTCC 50

(2) SEQ ID NO: 1023 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1023 sequence description: TTCBBGGBGB CCTTTBGGTTT CTGBGGGBCT GCTBBCGC CBTCTGGBGC 50

(2) SEQ ID NO: 1024 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 1024: GCCTGTGTCT GTCCTCCT 18

(2) SEQ ID NO: 1025 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1025 sequence description: GCTTCGTTCC TCTCGTTC 18

(2) SEQ ID NO: 1026 of the raw material:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1026 sequence description: CTGCTTGGTG CCCTTGCCG 19

(2) SEQ ID NO: 1027 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1027 sequence description: GTCCTGCTCC TCCGGGCTGT GG 22

(2) SEQ ID NO: 1028 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1028 to seq id no: GTCCTCGCCC TGGCTCCGGC TGGTGGGCTC CCCTGG 36

(2) SEQ ID NO: 1029 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1029 sequence description: CCTTCGCTGG CTGGCGGCGT GC 22

(2) SEQ ID NO: 1030, materials:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1030 sequence description: CCCGBBCGB GBCCCGGGBCC GBCB 24

(2) SEQ ID NO: 1031 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1031 sequence description: GGCCGTGGTT GGGGGTCTTC 20

(2) SEQ ID NO: 1032:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1032 describes the sequence: GCTGCCTCCG TTTGGGTGGC 20

(2) SEQ ID NO: 1033 data:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1033 sequence description: GBTCTGBB TBTTGBCCTT CCBTGGCGGT CCTGCTTGGB 40

(2) SEQ ID NO: 1034 the following data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1034 description of the sequence: TCTCCCTTGG GCTCTGGCTC CTTCTC 26

(2) SEQ ID NO: 1035 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1035 sequence description: TCTCTCTCCC TCTCTCTCTG T21

(2) SEQ ID NO: 1036 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence 1036: CGCCTCCGCC CTGGCTGCTG GGGTGGTGGT GC 32

(2) SEQ ID NO: 1037 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1037 sequence description: TTTTGTTCTT CCTTGCTGCC 20

(2) SEQ ID NO: 1038 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1038 sequence description: GCCCCGCTGC TTGTCTTCCT CG 22

(2) SEQ ID NO: 1039 data:

(i) sequence characteristics:

(A) length: 50 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1039 sequence description: CTCTGTCCCT CTCTCTCTGT BCTCCTCBGG CTCCBTCBTC TCCCTTGGC 50

(2) SEQ ID NO: 1040, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1040 sequence description: CTTGCTCCTG GGGGCCTCCT G21

(2) SEQ ID NO: data of 1041:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1041 description of the sequence: GTCCCTCCGG GTGTTCCCGG C21

(2) SEQ ID NO: 1042:

(i) sequence characteristics:

(A) length: 81 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1042 description of the sequence: GGGCCTGGCC TGGGGCBGGG GCCGCGTBGG CGCGGCTCGC CBGGBCGGGC BGCGCCBGCB 60GCBGCBGBTT CBGCBTCCTG G81

(2) SEQ ID NO: data of 1043:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1043 description of the sequence: CTTGCTCCTG GGGGCCTCCT G21

(2) SEQ ID NO: 1044 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1044 sequence description: GTCCCTCTGG CTGTTCCCGG C21

(2) SEQ ID NO: 1045, data:

(i) sequence characteristics:

(A) length: 90 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1045 description of the sequence: CCTGGGBCTGG GGCBGGGGCC GCGTBGGCGC GGCTCGCCBG GBCGGGCBGC GCCBGCBGCB 60GCBGGCTCBG CBTCCTGGCC BCGGBBTTCC 90

(2) SEQ ID NO: 1046 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1046 description of the sequence: GGTGTGCGGG GCCTGGTGCC 20

(2) SEQ ID NO: 1047 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1047 description of the sequence: CCTGGGCCTC GGGTGCTGCC TGT 23

(2) SEQ ID NO: 1048, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1048 description of the sequence: GCGCTGCCTT CTTCTCCTGG 20

(2) SEQ ID NO: 1049 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1049 description of the sequence: GTCCTCGCCG GGGCCCTTGC TGCCCTGGCT GT 32

(2) SEQ ID NO: 1050, materials:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1050 description of the sequence: GCCCTGGGGG TCTGGGTTCG GCTGT 25

(2) SEQ ID NO: 1051 data:

(i) sequence characteristics:

(A) length: 60 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1051 describes the sequence: CCCCCBGCBGG BCCBGTCCCB TCCBCBGCGT GTGBTGBGTB GCCBTTCTCC TGCBGCCGBG 60

(2) SEQ ID NO: 1052 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1052 sequence description: GGGCGCGGGC GBGCBTCGC 19

(2) SEQ ID NO: 1053 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1053 describes the sequence: TTTGGGCTTT TCTCCTTTGG TT 22

(2) SEQ ID NO: 1054 data:

(i) sequence characteristics:

(A) length: 60 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1054 describes the sequence: TGBGCGCCBG GBCCGCGCBC BGCBGCBGGGCGCGGGCGBG CBTCGCBGCG GCGGGCBGGGG 60

(2) SEQ ID NO: 1055 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1055 describes the sequence: GCCCTGCTGC TCTTTCTGCT 20

(2) SEQ ID NO: 1056 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1056 describes the sequence: TCCCTTGGTG GGTTGGGCC 19

(2) SEQ ID NO: 1057, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1057 describes the sequence: TTGCTGCCCC TTCTGTCCC 19

(2) SEQ ID NO: 1058 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1058 describes the sequence: GCT GGT TGT TCT GGG GTT C19

(2) SEQ ID NO: 1059 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1059 describes the sequence: TGTTTGCTGG TGTCTGCGC 19

(2) SEQ ID NO: 1060 data:

(i) sequence characteristics:

(A) length: 60 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1060 description of the sequence: CCCCCBBCBGB BGBBGCBGBC BBBTTTGGGB BGTGBBCBGT TTTGGBBCCB TGTTTCCTGT 60

(2) SEQ ID NO: 1061 data: (i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1061 sequence description: GCGCTCGGCC TGGTCCCGG 19

(2) SEQ ID NO: 1062 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1062 sequence description: GGGTCTCCTC TTGTTGTTGC 20

(2) SEQ ID NO: 1063 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1063 sequence description: TTGCGCCTCC TGCTGGGGGT CC 22

(2) SEQ ID NO: 1064 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1064 sequence description: CTCTGTTCTT GTTTTGGGGG C21

(2) SEQ ID NO: 1065 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1065 sequence description: GGGCCCGGCC GTTGTCTTG 19

(2) SEQ ID NO: 1066 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1066 sequence description: GTTTGGGGGT TTCCGTTG 18

(2) SEQ ID NO: 1067 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1067 sequence description: GGGTTCTCCT GGCCCGGGCC TTGCCC 26

(2) SEQ ID NO: 1068 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1068 sequence description: GGCCGTGGTC CCGGCTTCGT TGC 23

(2) SEQ ID NO: 1069 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1069 sequence description: CCTGTCTCCG TCTCGGCTCT TCTG 24

(2) SEQ ID NO: 1070 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1070, the sequence describes: GGGCCTTGCG CTGTCTTTGG TG 22

(2) SEQ ID NO: 1071 data:

(i) sequence characteristics:

(A) length: 60 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1071 sequence description: GCBCCGTCCB GTGBTGGTGC GGTBCTTGTC GCTGCBGCGC TCGGCCTGGGT CCCGGGBGBGC 60

(2) SEQ ID NO: 1072 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi)SEQ ID NO: 1072 description of the sequence: GCGCGGGCCG GGGGCTGCTG GG 22

(2) SEQ ID NO: 1073 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1073 description of the sequence: GGTTGGCCCG GGGTGCCCC 19

(2) SEQ ID NO: 1074 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1074 description of the sequence: GCCGCTGGGT GCCCTCGTCC TCTGCGGTC 29

(2) SEQ ID NO: 1075 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1075 description of the sequence: GTGTCTCCTG GCTCTGGTTC CCC 23

(2) SEQ ID NO: 1076 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1076 description of the sequence: GCTGCGCCCG TTGTCCTCTG GGGTGGCCTT C31

(2) SEQ ID NO: 1077 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1077 description of the sequence: GCTCCCGGGT CTGGTTCTTG TGT 23

(2) SEQ ID NO: 1078 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1078 description of the sequence: TGGGGGTCCC TTTTTGGGCC TGTTGT 26

(2) SEQ ID NO: 1079 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1079 description of the sequence: GGCGTGGCTT GTGTGTTCGG TTTC 24

(2) SEQ ID NO: 1080, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1080 sequence description: TGCCCTGTCC TCCGGCGTCC C21

(2) SEQ ID NO: 1081 data:

(i) sequence characteristics:

(A) length: 142 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: sequence description of 1081: CGGBGCCTCC CCGGGGGGCBGGBTGBCTTTTG BGGGGGGGBCBC BGBTGTCTGGGCBTTGCCBG 60 GTCCTGGGGBB CBGBGCCCCG BGCBGGBCCB GGBGTGCGGGCGGGCGGGGCGGGCCTGC 120TGGGBGCCBT BGCGBGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCG

(2) SEQ ID NO: 1082 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1082 sequence description: CCTCTTTTCT GTTTTTCCC 19

(2) SEQ ID NO: 1083, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1083 sequence description: CTCTGCCTTT GTTTGGGTTC G21

(2) SEQ ID NO: 1084 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1084 sequence description: CTTCCTTTCT GCTTCTTCC 19

(2) SEQ ID NO: 1085, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1085 sequence description: CTGTGTCTCC TGTCTCCGCT TTTTTCTTC 29

(2) SEQ ID NO: 1086 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1086 sequence description: GTCTTTGTTG TTTTCTCTTC CTTG 24

(2) SEQ ID NO: 1087 data:

(i) sequence characteristics:

(A) length: 130 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1087 sequence description: CTGBGCBBGB TBTCTBGBTT CTGGGGGGTGGT CTCGBTTTTB BBBGCTTGBG BBGCTGCBBB 60CBTTBTCCBB BGTBTBTBTBTTTG BGGCTCCBBG GBTCBCCC BTCTTCCCBG GCBTTTTBBG 120TTGCTGTCGT 130

(2) SEQ ID NO: 1088 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1088 sequence description: GTTCTTGGCT TCTTCTGTC 19

(2) SEQ ID NO: 1089 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1089 description of the sequence: CGTTGGCTTC TCGTTGTCCC 20

(2) SEQ ID NO: 1090 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1090 description of the sequence: TGTGGGCTTC TCGTTGTCCC 20

(2) SEQ ID NO: 1091 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1091 sequence description: CCCTTCGGGG GCTGGTGG 18

(2) SEQ ID NO: 1092 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1092 sequence description: GGCTGGTGG 9

(2) SEQ ID NO: 1093 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1093 sequence description: GGCCGTCCTT GCCTGCTGG 19

(2) SEQ ID NO: 1094 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1094 sequence description: TTTTCTCTTT CGCTTTCTTT TCGTCTCCTG TTCCTCCTTT T41

(2) SEQ ID NO: 1095 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1095 sequence description: TTGCTGTTTT TTCTCCTTCT TCTCTCCTTT CTTTTC 36

(2) SEQ ID NO: 1096 data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1096 sequence description: TTTTCTCTTT CGCTTTCTTT TCGTCTCCTG TTCCTCCTTT T41

(2) SEQ ID NO: 1097 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1097 sequence description: TTGCTGTTTT TTCTCCTTCT TCTCTCCTTT CTTTTC 36

(2) SEQ ID NO: 1098 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1098 sequence description: CTCTGTCTTG TTCTGGTCCT TCGTGGGGCT CTG 33

(2) SEQ ID NO: 1099 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1099 sequence description: TGTCGCGTGG GTGCGGCCGT GGCC 24

(2) SEQ ID NO: 1100, data:

(i) sequence characteristics:

(A) length: 69 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1100 sequence description: GGCGGBCCBG GBGTTGGBGC BGGBCGGGCBGGCGGGCGGGCG GCTCBTGTTT GGBTCGGCBG 60 GBGGCBCTC 69

(2) SEQ ID NO: 1101, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1101 sequence description: TCTGGGGTGT CCTG 14(2) SEQ ID NO: 1102 material:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1102 sequence description: GCCTTCGTGG TTCC 14

(2) SEQ ID NO: 1103, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1103 describes the sequence: TCTTCCTTCG TTTGC 15

(2) SEQ ID NO: 1104 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1104 sequence description: GGCTGCGCTC CTGCCCCGC 19

(2) SEQ ID NO: 1105, information:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1105 sequence description: CGTCCGCGGG GGCCCCCGGG CCT 23

(2) SEQ ID NO: 1106 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1106 describes the sequence: CTCTTTCCCG GGCTCTT 17

(2) SEQ ID NO: information of 1107:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1107: GCGCTGGGGG GTGCTCC 17

(2) SEQ ID NO: 1108 the data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 1108: CGTGTGTTTG CGCCCTCCTC CTGGTCGC 28

(2) SEQ ID NO: 1109 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1109 sequence description: GCTTGTCGTT TTGG 14(2) SEQ ID NO: 1110 in the following data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1110 sequence description: GGCCGGCTTT GCCCGCCTCC C21

(2) SEQ ID NO: 1111 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1111 sequence description: GGCGCCTGGC CCGGCC 16

(2) SEQ ID NO: 1112 of the information:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1112 sequence description: TTCCTGGGCT GCGTGCGC 18

(2) SEQ ID NO: 1113 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1113 sequence description: GTTCTGTTCT TCTTCCTGGC 20

(2) SEQ ID NO: 1114 of the following documents:

(i) sequence characteristics:

(A) length: 78 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1114 describes the sequence: GCBGGBGBCB GGGCBGGGCG BTCBGGBGCB GCGTGBGCCB BBGGBGGBCC BTCGGGBBCG 60CBGCTCCGGB BCGCBGGB 78

(2) SEQ ID NO: 1115 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1115 sequence description: CTCTGGTTGG CTTCCTTC 18

(2) SEQ ID NO: 1116, data:

(i) sequence characteristics:

(A) length: 70 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1116 description of the sequence: GCCGGCBCBT GCTBGCBGGB BGBBCBGBGGGBBGCBGT TGGGBGGTGB GBCCCBTBB 60TBGGTGTCGB 70

(2) SEQ ID NO: 1117 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1117 sequence description: TCTGCGCGCC CCTGCTCC 18

(2) SEQ ID NO: 1118:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1118 sequence description: CGCCCGGCTT CTCT 14

(2) SEQ ID NO: 1119 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1119 description of the sequence: CGTGTGGGCT TCGG 14

(2) SEQ ID NO: 1120 data of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1120 description of the sequence: CCCCGCGCCT CCGTTGTTCT C21

(2) SEQ ID NO: 1121 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1121 sequence description: TGCTCGCTGG GCTTG 15

(2) SEQ ID NO: 1122 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1122 description of the sequence: GGTTTCCTGG GGCCCTGGGT TTC 23

(2) SEQ ID NO: 1123, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1123 description of the sequence: TCTGCCGGGT CGTTTTC 17

(2) SEQ ID NO: 1124 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1124 by the sequence description: GGGTGCTGGC TGCG 14

(2) SEQ ID NO: 1125 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1125 sequence description: CTTGGTGCTG GGGCTCC 17

(2) SEQ ID NO: 1126 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1126 sequence description: GGCGGCTGCG GGCTGGGTTG GG 22

(2) SEQ ID NO: 1127, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1127 description of the sequence: CTTGGCTGGT TCCTGGCCTC GGG 23

(2) SEQ ID NO: 1128 of the data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1128 description of the sequence: CCTCCTCCTC CTCCTCGCTC CCTTTTTCTT CCTCT 35

(2) SEQ ID NO: 1129 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1129 description of the sequence: TCCCTGCTGC TCTC 14

(2) SEQ ID NO: 1130 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 1130: TGCCCTCCCT TCCCTCCTGG 20

(2) SEQ ID NO: 1131, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1131 sequence description: GGTGCCTCCT TGGGCCCTGC 20

(2) SEQ ID NO: 1132:

(i) sequence characteristics:

(A) Length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1132, sequence description: GGCTGCTCCT TGCCCC 16

(2) SEQ ID NO: 1133, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1133 sequence description: CTCTGGGTCG GGCTGGC 17

(2) SEQ ID NO: 1134, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1134 sequence description: GGGGCGTCTC TGTGC 15

(2) SEQ ID NO: 1135, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1135 sequence description: CTGGCCTGGGTGCC 14

(2) SEQ ID NO: 1136, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1136 sequence description: GCCTCTCCTG GGGGGGTGGC TCCCTGTCC 29

(2) SEQ ID NO: 1137, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1137 sequence description: CCTTTTCCCC CGGCTCC 17

(2) SEQ ID NO: 1138, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1138 sequence description: GTGGGGGCTT TGGC 14

(2) SEQ ID NO: 1139, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1139 sequence description: GGGGGTCTGT GGCCTGCTCC TGGGG 25

(2) SEQ ID NO: 1140, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1140 describes the sequence: AGGGGTCTGG GGCCCTC 17

(2) SEQ ID NO: 1141, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1141 sequence description: TTTTGGGGGT CTGGCTTG 18

(2) SEQ ID NO: 1142, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1142 sequence description: GCCTGGCTGC CTTCC 15

(2) SEQ ID NO: 1143, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1143 sequence description: GGGGCCTGCC GTGGGGC 17

(2) SEQ ID NO: 1144, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1144 sequence description: TGTCCTCTGT TGCTCCCCTT 20

(2) SEQ ID NO: 1145, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1145 sequence description: TGCCTGCTGT CTGG 14

(2) SEQ ID NO: 1146 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1146 sequence description: GGTTCCCGCC TTCCCT 16

(2) SEQ ID NO: 1147, data:

(i) sequence characteristics:

(A) length: 100 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1147 sequence description: GTTCCCAGAG CTTGCCACCT GCAGCAGGAC CAGGCAGCTC ACAGGGAACA GGAGCCCAGA 60GCAAAGCCAC CCCATTGGGA GATGCCAAGG CACCAGGCTG 100

(2) SEQ ID NO: 1148, data:

(i) sequence characteristics:

(A) length: 100 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1148 sequence description: GTTCCCBGBG CTTGCCBCCT GCBGCBGGBC CBGGCBGCTC BCBGGGBBCB GGBGCCCGBGB 60GCBBBGCCBC CCCGTGGGB GBTGCCBBGG CBCCBGTG 100

(2) SEQ ID NO: 1149 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1149 sequence description: TCCCTGTTTC CCCCCTTT 18

(2) SEQ ID NO: 1150:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1150 sequence description: CGTTCTGCGT TTGCCTTTGG C21

(2) SEQ ID NO: 1151 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1151 sequence description: GTTTTTTGTT TGTTTTCT 18

(2) SEQ ID NO: 1152 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1152 sequence description: CTCTCCGTCT TTCTTCTCC 19

(2) SEQ ID NO: 1153 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1153 sequence description: CCTCCTGCCT GTGTCCCTGC TCCCC 25

(2) SEQ ID NO: 1154 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1154 sequence description: GAGGGTTTCTGGCTTCCTCT CT 22

(2) SEQ ID NO: 1155 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1155 sequence description: TGTCTCTCTG TCCTTTTGTT 20

(2) SEQ ID NO: 1156 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1156 sequence description: TGTTGTGCGG CCTGGTGCTG CCCTGCCCCG GG 32

(2) SEQ ID NO: 1157 data:

(i) sequence characteristics:

(A) length: 89 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1157 sequence description: GTGGGBBTTT CTGTGGGGBT GGCBTBBCG TBGGCBGCTC CBBGBGBGCTBG CBBBCTCBBB 60 TGCBGBBGCB TCCTCBGC TCTGBBBCG 89

(2) SEQ ID NO: 1158 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1158 sequence description: CCGTGTCTGT CGTGTCT 17(2) SEQ ID NO: 1159 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1159 sequence description: TTCCTTTGCT CTTG 14

(2) SEQ ID NO: 1160, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1160 for sequence description: GTGTGTCTTT GCTGT 15

(2) SEQ ID NO: 1161 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1161 sequence description: GCCCTGCCTC TCTGC 15

(2) SEQ ID NO: 1162 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1162 sequence description: GGGGGTGGCT TCCTGCC 17

(2) SEQ ID NO: 1163 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1163 sequence description: GCGTCTCTGG GCCGTCCC 18

(2) SEQ ID NO: 1164 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1164 sequence description: GTCCCTCGGC CCCGCGCCGC GCTCGGCTCC TCTCCC 36

(2) SEQ ID NO: 1165 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1165 sequence description: TCTGGCCCGG CTC 13

(2) SEQ ID NO: 1166 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1166 sequence description: GGGGCGGGGC GGGGCGGTGG GCGGGC 26

(2) SEQ ID NO: 1167 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1167 sequence description: GGCGCTGCCC TGCGC 15

(2) SEQ ID NO: 1168 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: singlestrand

(D) Topology: line shape

(xi) SEQ ID NO: 1168 sequence description: GCGGCGCTGG CCCC 14

(2) SEQ ID NO: 1169 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1169 sequence description: TGCTGGCCGT CGGCTGCGCG CTGCTGGCTG CCCT 34

(2) SEQ ID NO: 1170 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 1170 describes: GCTGGCCGCG CCGGG 15

(2) SEQ ID NO: 1171 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1171 sequence description: GCCTGTCCGC CTCTGCGGG 19

(2) SEQ ID NO: 1172 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1172 sequence description: CGCTGTCTCC TGGC 14

(2) SEQ ID NO: 1173 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1173 sequence description: TTGTCTTCCG GCTCT 15

(2) SEQ ID NO: 1174 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1174 sequence description: TCTGCTGGGG TGGG 14

(2) SEQ ID NO: 1175 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 1175 sequence description: GCTGGGCGGC CGGCCCGGT 19

(2) SEQ ID NO: 1176 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1176 sequence description: GCTGGGGCTC CTCGGGGGG 19

(2) SEQ ID NO: 1177 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1177 sequence description: GGGGGCTCTT CCGG 14

(2) SEQ ID NO: 1178 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1178 sequence description: GCTGTCTCCC TCCGGG 16

(2) SEQ ID NO: 1179 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1179 description of the sequence: GCGGGGGTTT CTGGCC 16

(2) SEQ ID NO: 1180 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1180 sequence description: GTGGGGGTCT TGCC 14

(2) SEQ ID NO: 1181 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1181 sequence description: TGGCCTCCGG GCTCC 15

(2) SEQ ID NO: 1182 data on:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1182 description of the sequence: TGCTTGTCTT GCCTTCCTTC 20

(2) SEQ ID NO: 1183 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1183 description of the sequence: TCTGGTCGGT TGTGGCTCG 19

(2) SEQ ID NO: 1184 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1184 description of the sequence: GGGCTCCGTG GGTCCCTGGC 20

(2) SEQ ID NO: 1185 data on:

(i) sequencecharacteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1185 description of the sequence: GCCCGTTTGT GTTTTGTC 18

(2) SEQ ID NO: 1186 data on:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1186 description of the sequence: TTTTCCCCTG GCGT 14

(2) SEQ ID NO: 1187 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1187 description of the sequence: CCCTGTGCCC CTCTCCTCTC CTTCCTCTGC TTCTC 35

(2) SEQ ID NO: 1188 data on:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1188 description of the sequence: GCTCTCCTTT GTGGG 15

(2) SEQ ID NO: 1189 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1189 description of the sequence: GCCCTCCCTG CTGCT 15

(2) SEQ ID NO: 1190 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1190 describes the sequence: CTTGGTTTTG GGCT 14

(2) SEQ ID NO: 1191 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1191 sequence description: TTTTTTCTCT TCCTCCTTTT TC 22

(2) SEQ ID NO: 1192 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1192 sequence description: GTGCGTGGGC CTCC 14

(2) SEQ ID NO: 1193 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1193 sequence description: CCCGGCGC 8

(2) SEQ ID NO: 1194 data:

(i) sequence characteristics:

(A) length: 150 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1194 description of the sequence: GCACGCCTCT TGCCACCTCC TGCGCAGGGC AGCGCCTTGG GGCCAGCGCC GCTCCCGGCG 60CGGCCAGCAG GGCAGCCAGC AGCGCGCAGC CGACGGCCAG CATGCTTCCT CCTCGGCTAC 120CACTCCATGG TCCCGCAGAG GCGGACAGGC 150

(2) SEQ ID NO: 1195 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1195 sequence description: GGCCBGCBGG 10

(2) SEQ ID NO: 1196 data:

(i) sequence characteristics:

(A) length: 150 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1196 sequence description: GCBCGCCTCT TGCCBCCTCC TGCGCBGGGC BGCGCCTTGGG GGCCBGCGCC GCTCCCGGCG 60CGGCCBGCBG GGCBGCCBGC BGCGCGCGCBGC CGBCGGCCBG CBTGCTTCCT CCTCCGGCTBC 120 CBCTCCBTGGG TCCCGCBGBG 150

(2) SEQ ID NO: 1197 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1197 sequence description: GCTTCTCTTT CGTTCCCGGT GGGCTCG 27

(2) SEQ ID NO: 1198 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1198 sequence description: GTGGCTGTCT GTGTGGGGCG GCT 23

(2) SEQ ID NO: 1199 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1199 sequence description: GTGCCTCTTT GCTGCTTTC 19

(2) SEQ ID NO: the data of 1200:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1200: GATTCTTTGC CTTTTTCTGC 20

(2) SEQ ID NO: 1201 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1201 describes the sequence: GCTTGTGTGC TCTGCTGTCT CT 22

(2) SEQ ID NO: 1202 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1202 description of the sequence: TGGTTCCTTC CGGTGGTTTC TTCCTGGCTC TTGTCCT 37

(2) SEQ ID NO: 1203 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1203: TTCTCTTGGC CCTTGGC 17

(2) SEQ ID NO: 1204, data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1204 sequence description: TGGTGGGGCT GGGGCTCCGG GGTCTCTGCC CCTCCGTGC 39

(2) SEQ ID NO: data on 1205:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1205 sequence description: CGCGTGGGGC CGCGCTCGCC GGCCCCCC 28

(2) SEQ ID NO: 1206 of data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1206 sequence description: CCTGCCGGGT GGGCTCCCGC CGCG 24

(2) SEQ ID NO: 1207 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1207 sequence description: CGCCGGCCTG CCGGCCCCTC 20

(2) SEQ ID NO: 1208 of the following documents:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1208 describe the sequence: GTGGGTCCTG CTGGCCGGGT CCGGGTCCCG GGGGTGGGG 39

(2) SEQ ID NO: 1209 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1209 sequence description: CGCGBGTCGG CGGCCGBGGG TC 22

(2) SEQ ID NO: 1210, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1210 sequence description: GGCCTCCCBCC BGGGBCBTG 19

(2) SEQ ID NO: 1211:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1211 sequence description: GTCCTTCTTG TCCGCTGCC 19

(2) SEQ ID NO: 1212 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1212 sequence description: TCTCTGGGGT TTTCGGTCTG GGTGG 25

(2) SEQ ID NO: 1213 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1213 sequence description: GCTTTCCTCC TGGGGCTGCT GCTG 24

(2) SEQ ID NO: 1214, data of:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1214 the sequence describes: GGCTCTTCTT TTTGTTTCTG GCCTGGTG 28

(2) SEQ ID NO: 1215 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1215 sequence description: CTCTCTCGTG CCCTTTCC 18

(2) SEQ ID NO: 1216 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1216 sequence description: CTTGGGTGTC TTGTTTTTGT 20

(2) SEQ ID NO: 1217 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1217 sequence description: GGCCTCCCBCC BGGGBCBTG 19

(2) SEQ ID NO: 1218 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1218 description of the sequence: GTGGGGCCTG CTCTCCCGGC CTCCG 25

(2) SEQ ID NO: 1219 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1219 sequence description: TGTGTTGCTG GGTGTTTTCC CGTCTCTGG 29

(2) SEQ ID NO: 1220, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1220, sequence description: TCTGCCTTCG GGGGTCGT 18

(2) SEQ ID NO: 1221 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1221 sequence description: GGGTCCTCBT GGCTGGGG 18

(2) SEQ ID NO: 1222 materials of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1222 sequence description of: GCCTGGGCCT GCBGGGCC 18

(2) SEQ ID NO: 1223 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1223 sequence description: GCTCTTGCCT GGBGTGGCTC 20

(2) SEQ ID NO: 1224 data of:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1224 description of the sequence: GCCCBGBGTC TTCCCTGGT 19

(2) SEQ ID NO: 1225 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1225 sequence description: GGGTCCTCBTGGCTGGGGTC 20

(2) SEQ ID NO: 1226 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1226 sequence description: CCTCTCTCCC GTCCT 15

(2) SEQ ID NO: 1227 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1227 sequence description: GTCTTTGTTT CTGGGCTCGT GCC 23

(2) SEQ IDNO: 1228 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1228 sequence description: CCBTCCCGGC TTCTCTCTGG TTCC 24

(2) SEQ ID NO: 1229 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1229 sequence description: GTCCTCTGTG GTGTTTGG 18

(2) SEQ ID NO: data of 1230:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 1230 describes: CCCTGCTTCC TTTTGCCTGT T21

(2) SEQ ID NO: data of 1231:

(i) sequence characteristics:

(A) length: 85 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1231: GAGGGGGCAG CAGTTGGGCC CCAAAGGCCC TCTCGTTCAC CTTCTGGCAC GGAGTTGCAT 60CCCCATAGTC AAACTCTGTG GTCGT 85

(2) SEQ ID NO: data of 1232:

(i) sequence characteristics:

(A) length: 59 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1232: GTCATAGTCC TCTGTGGTGT TTGGAGTTTC CATCCCGGCT TCTCTCTGGT TCCAAGGGA 59

(2) SEQ ID NO: 1233 data:

(i) sequence characteristics:

(A) length: 86 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: sequence description of 1233: GBGGGGGCBG CBGTTGGGCC CCBBBGGCCC TCTCGTTCBC CTTCTGGCBC GGBGTTGCBT 60 CCCCCCCBTBGTC BBBCTCTGTG GTCGTG 86

(2) SEQ ID NO: information on 1234:

(i) sequence characteristics:

(A) length: 58 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: sequence description of 1234: TCBTBGTCCT CTGTGGTGTT TGGBGTTTCC BTCCCGGCTT CTCTCTCTCTGGTT CCBBGGGB 58

(2) SEQ ID NO: 1235 data:

(i) sequence characteristics:

(A) length: 84 base pairs

(B) Type (2):nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: sequence description of 1235: GGGCBCGGGG CBGTGGGCGG GCBBTGTBGG CBBBGCBGCB GGGTGTGTGGTG TCCGBGGBBT 60BTGGGGBGGC BGBTGCGB 84

(2) SEQ ID NO: 1236 data:

(i) sequence characteristics:

(A) length: 78 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: sequence description of 1236: BGBGBGGGCBGT BGCBBTGBGG BTGBGCGB GGCGTGCCGC GGBGBCCTTC BTGGTBCCTG 60 TGGBGGCT GTCGGBGGG 78

(2) SEQ ID NO: 1237 data:

(i) sequence characteristics:

(A) length: 70 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1237: GGGTGTGGTG TCCGCTTGGC GGTTCTTTCG GGTGTTTCTT CTCTGGGTTG GCCTGCTGCT 60CGTCGTGGTC 70

(2) SEQ ID NO: 1238 data:

(i) sequence characteristics:

(A) length: 71 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1238 sequence description: GCTCCGCTCC CGGGTTCGTC TCGCTCTGTC GCCCCTTCCT TCCTTGTCGT GTTCCTCCCT 60TCCTTGCCTC T71

(2) SEQ ID NO: 1239 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1239: GGGTGTGGTG TCCG 14

(2) SEQ ID NO: 1240 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1240: CTTGGCGGTT CTTTCGGGTG 20

(2) SEQ ID NO: 1241 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1241 sequence description: TTTCTTCTCT GGGTTGGC 18

(2) SEQ ID NO: 1242 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1242 sequence description: CTGCTGCTCG TCGTGGTC 18

(2) SEQ ID NO: 1243 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1243 sequence description: GCTCCGCTCC CGGGTTC 17

(2) SEQ ID NO: 1244 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1244 sequence description: GTCTCGCTCT GTCGCCC 17

(2) SEQ ID NO: 1245 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1245 sequence description: CTTCCTTCCT TGTC 14

(2) SEQ ID NO: 1246 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1246 sequence description: GTGTTCCTCC CTTCCTTGCC TCT 23

(2) SEQ ID NO: 1247 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1247 sequence description: GTTCBTGGTG GCTBGGTGGG GC 22

(2) SEQ ID NO: 1248 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1248 description of the sequence: GCTGCCCGGC GGGGTGTGCG CTTGGC 26

(2) SEQ ID NO: 1249 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1249 description of the sequence: GCTCCCGTGC TCGGTTCTCT GTCTCCCGGT 30

(2) SEQ ID NO: data of 1250:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of1250: CCCCCTTTGC CTGGCGTCTC GG 22

(2) SEQ ID NO: 1251 materials:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1251 sequence description: GCCTTCGTCC TCTTCCTCTT CTTCCTTCC 29

(2) SEQ ID NO: 1252 materials:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1252 sequence description: GCTCCGTGGG GGCTGCTTGG TGGGGGCCTG TGCCTCGGGG TCC 43

(2) SEQ ID NO: 1253 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1253 sequence description: CGGGGCTTCT GGCCCTTGCC 20

(2) SEQ ID NO: 1254 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1254 sequence description: GTTCATGGTGGCTAGGTGGG GC 22

(2) SEQ ID NO: 1255 materials:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1255 sequence description: GGGGTGGGTB GGCCGTGTCT GGGG 24

(2) SEQ ID NO: 1256 materials:

(i) sequence characteristics: (A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1256 sequence description: GTTGGCCBTG TTGGTTGCC 19

(2) SEQ ID NO: 1257 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1257 sequence description: TCTTGGTGGT GCGCCGGGC 19

(2) SEQ ID NO: 1258 materials:

(i) sequence characteristics:

(A) length: 47 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1258 sequence description: GCGTCTTGGC TTTCTTCTCC TTCGGGCCCT CGGGCCGGTG CTTGTGG 47

(2) SEQ ID NO: 1259 materials:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1259 sequence description: GCTCCTCCCG GGCGGCCTCC CCGGGCGGGG GCTTCTTG 38

(2) SEQ ID NO: 1260 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1260 description of the sequence: GCGCTGGCGG GGGGGCCTCC TCC 23

(2) SEQ ID NO: 1261 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1261 sequence description: GCTCTGTGGC TGGGCGTTCC TTGGTGTTCT GGGTGGC 37

(2) SEQ ID NO: 1262 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1262 sequence description: TGGCGGGCGT GGTGGCCTCT GTGGTGG 27

(2) SEQ ID NO: 1263 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1263 sequence description: GGGCCCGCGG CTGCBGGGG 19

(2) SEQ ID NO: 1264 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1264 sequence description: TTGCCTGTCT GCTTCGTC 18

(2) SEQ ID NO: 1265 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1265 sequence description: CTTTGCGCTC CCGGGCCGCC 20

(2) SEQ ID NO: 1266 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology:line shape

(xi) SEQ ID NO: 1266 sequence description: GGGGTGGGTA GGCCGTGTCT GGGG 24

(2) SEQ ID NO: 1267 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1267 sequence description: GTTGGCCATG TTGGTTGCC 19

(2) SEQ ID NO: 1268 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1268 sequence description: GGGCCCGCGG CTGCAGGGG 19

(2) SEQ ID NO: 1269 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1269 sequence description: CGGTTTCCTT TGCGGTC 17

(2) SEQ ID NO: 1270 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1270 describes the sequence: TTGGCCCGGG CTCCGGGTG 19

(2) SEQ ID NO: 1271, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1271 sequence description: CCCGCCCGCC CGCCGGCCGC CGC 23

(2) SEQ ID NO: 1272, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1272 sequence description: CCCGCCGGGC TGTCCCCGCC CCGCCCC 27

(2) SEQ ID NO: 1273, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1273 sequence description: GGCCCGGGGC GCGGGGG 17

(2) SEQ ID NO: 1274 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1274 describes the sequence: CGGCCCTCCC GCCCCTCTGG 20

(2) SEQ ID NO: 1275 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1275 sequence description: GCCGGCGCGG GCGTCGG 17

(2) SEQ ID NO: 1276 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1276 sequence description: CCGCTCGCGC CTGGGGTTCC CTCTCCTCCC CCTGTGC 37

(2) SEQ ID NO: 1277 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1277 sequence description: GCCTGCCTCT TGCTCTTC 18

(2) SEQ ID NO: 1278 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1278 describes the sequence: TGCGTCCGCT GCCTTCTCCC 20

(2) SEQ ID NO: 1279 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1279 sequence description: CTCTCCTCGG CCGTTGCCTG TGC 23

(2) SEQ ID NO: 1280 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 1280 describes: TGTCCGTCCT GTCGCCCTTC CGTGGTGC 28

(2) SEQ ID NO: data on 1281:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1281: TGTTGTCTCT TCTGCCCTC 19

(2) SEQ ID NO: data on 1282:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1282: GGTGTGCTGG TGCTGGTGGT GGTG 24

(2) SEQ IDNO: 1283 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1283: CCTCTGCCCG TGCTCGCC 18

(2) SEQ ID NO: 1284 materials:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1284: CTGCCTGGGC TGGCCTCTTC GGGT 24

(2) SEQ ID NO: 1285 materials:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1285: GTGGCTTTGG GGCTCTCTTG GTTGCCCTTT 30

(2) SEQ ID NO: 1286 materials:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 1286: CTTCTCGTGG TGCCTCTCCT CCCTGGCTTG GTCGT 35

(2) SEQ ID NO: data on 1287:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1287: TGTCTGGGGT GGTGCTCCTC TCCC 24

(2) SEQ ID NO: 1288 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 1288: TTTCCCTGCT GGCCGTTTGT 20

(2) SEQ ID NO: 1289 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1289 sequence description: CCTGTTTTCT GTCTTCCTCT 20

(2) SEQ ID NO: 1290 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1290 sequence description: TTCCTCCTGT TTCTCCGT 18

(2) SEQ ID NO: 1291 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1291 sequence description: TTGGCTTGCT GCTTGCGGGG CTGTCTCC 28

(2) SEQ ID NO: 1292 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1292 sequence description: CTTGCCCCTG TGGGCTTTCC C21

(2) SEQ ID NO: 1293 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1293 sequence description: TGGTCCGGTC TTCTCCTTGG GGGTC 25

(2) SEQ ID NO: 1294 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1294 description of the sequence: GCCCTTCTTG GTGGGCTG 18

(2) SEQ ID NO: 1295 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1295 sequence description: GCTCGTCTGT CTTTTTCCTT CC 22

(2) SEQ ID NO: 1296 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1296 description of the sequence: TGGGGGTGGC CGTTGTGGGC GGTGTGGTCC GCCT 34

(2) SEQ ID NO: 1297 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1297 sequence description: TGCCTCTGCT GGTCTTTC 18

(2) SEQ ID NO: 1298 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1298 description of the sequence: GTGCTCCGGT GGCTTTTT 18

(2) SEQ ID NO: 1299 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1299 description of the sequence: GCTTGTGTGC TCTGCTGTCT CTG 23

(2) SEQ ID NO: 1300 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1300 sequence description: TTCCTTCCGG TGGTTTCTTC CTGGCTCTTG TCCT 34

(2) SEQ ID NO: 1301, materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1301 sequence description: TTCTCTTGGC CCTTGGCCC 19

(2) SEQ ID NO: 1302, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1302 description of the sequence: TGGCTCGGTG CTTCTGCCCC 20

(2) SEQ ID NO: 1303 of the document:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1303 sequence description: TGTTGTTGCG GCGCTC 16

(2) SEQ ID NO: 1304 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1304: GGTTGGTGTG GCCCCTG 17

(2) SEQ ID NO: 1305 of the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1305 sequence description: TGGTGCTTCG TTTCC 15

(2) SEQ ID NO: 1306, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1306 sequence description: CCCTCTTTCT CTTTGTTC 18

(2) SEQ ID NO: 1307 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1307 sequence description: GGGGGTTCTT GTGGC 15

(2) SEQ ID NO: 1308 of the data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1308, sequence description: GGGCTGCTTG TCTCGTTCC 19

(2) SEQ ID NO: 1309 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1309 description of the sequence: GGTCCBGCCB TGGGTCTGGG 20

(2) SEQ ID NO: 1310 of data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1310 description of the sequence: GGCTGGGCTG CBGGCTCCGG 20

(2) SEQ ID NO: 1311 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1311 sequence description: GCGGGCGGGT GCGGGCTGCG TGCTGGG 27

(2) SEQ ID NO: 1312, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1312 sequence description: GGCTGCCCCG CAGGCCCTGC 20

(2) SEQ ID NO: 1313 data:

(i) sequence characteristics:

(A) length: 115 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1313 sequence description: GCBCCGCCTG GBGCCCTGGG GCCCCCCTGT CTTCTTGGGG BGCGCCTCCCTCTC CGGCCBGCTC 60 CBCGTCCCGG BTCBTGCTTT CBGTGCTCBT GGTGTCCTTT CCBGGGGBGB GBGGG 115

(2) SEQ ID NO: 1314 data:

(i) sequence characteristics:

(A) length: 331 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1314 describes the sequence: GCTGGTCCTC TGCTGTCCTT GCTGGTGCTC BTGGTGTCCT TTCCGCCCTG GGGCCCCCCT 60GTCTTCTTGG GGCCTCTTCC CTCTGGGGGC CGTCTCTCTC CCTCTCTTGC GTCTCTCTCT 120TTCTCTCTCT CTCTTCCCCT TTCCCGCTCT TTCTGTCTCG GTGTCTGGTT TTCTCTCTCC 180GCTGGCTGCC TGTCTGGCCT GCGCTCTTGG CCTGTGCTGT TCCTCCTCCG GTTCCTGTCC 240TCTCTGTCTG TCGCCCCCTC TGGGGTCTCC CTCTGGCGTG GTGGTCTTGT TGCTTGGGCT 300 GGGCTCCGTG TCTCCBGTGC TCBTGGTGTC C331

(2) SEQ ID NO: 1315 data:

(i) sequence characteristics:

(A) length: 373 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1315 sequence description: GCTGBGGGBG CGTCTGCTGG CGCTGGTCCT CTGCTGTCCT TGCTGGTGCT CBTGGTGTGTCC 60TTTCCGCCCT GGGGCCCCCC TGTCTTCTTG GGGCCTCTTC CCTCTGGGGG CCGTCTCTCT 120CCCTCTCTTG CGTCTCTCTC TTTCTCTCTC TCTCTTCCCC TTTCCCGCTC TTTCTGTCTC 180GGTGTCTGGT TTTCTCTCTC CGCTGGCTGC CTGTCTGGCC TGCGCTCTTG GCCTGTGCTG 240TTCCTCCTCC GGTTCCTGTC CTCTCTGTCT GTCGCCCCCT CTGGGGTCTC CCTCTGGCGT 300GGTGGTCTTG TTGCTTGGGC TGGGCTCCGT GTCTCCBGTG CTCBTGGTGT CCGCTGBGGGG 360BGCGTCTGCT GGC 373

(2) SEQ ID NO: 1316 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1316 description of the sequence: GCCCCGTCTG CTGCTCCTCG TGCCG 25

(2) SEQ ID NO: 1317 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1317 sequence description: CCTCGTCCTT CATGGTACCG TCGGTGTGGT GGC 33

(2) SEQ ID NO: 1318 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1318 sequence description: CTCGGGTGGG CCGGTGGTG 19

(2) SEQ ID NO: 1319 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1319 sequence description: GGGCGCGCGC GCTCGCGT 18

(2) SEQ ID NO: 1320 material:

(i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1320 sequence description: GGCTCCGGCT CTTCTTTCCC GGCTCCGTCG GCCCGGGGGC CTTGGTCTC 49

(2) SEQ ID NO: 1321 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1321 sequence description: CCTCGTCCTT CBTGGTBCCG 20

(2) SEQ ID NO: 1322 for the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1322 description of the sequence: CCCGTTCGCC TGGCGC 16

(2) SEQ ID NO: 1323, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1323 sequence description: GCGCTGCGGG TTCCTC 16

(2) SEQ ID NO: 1324 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1324 sequence description: GTGGGTTTCT CCCCGCCGTT CTC 23

(2) SEQ ID NO: 1325 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1325 sequence description: CGGTCTGTTG CCTTTGTGGG 20

(2) SEQ ID NO: 1326 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1326 description of the sequence: CTTCTTGTCT TTTTGGCT 18

(2) SEQ ID NO: 1327 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1327 sequence description: GTTCTTTTCC TGCTTGGC 18

(2) SEQ ID NO: 1328 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1328 sequence description: GTCTTTTCCT TTCTT 15

(2) SEQ ID NO: 1329 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1329 description of the sequence: TGTGCTCGGT TGTGGGTC 18

(2) SEQ ID NO: 1330 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1330 describes the sequence: CGCTGGTCCT TTGCC 15

(2) SEQ ID NO: 1331 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1331 sequence description: CTGTGTGTTT CTGCTG 16

(2) SEQ ID NO: 1332, materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1332 description of the sequence: CCCGTTCGCC TGGCGC 16

(2) SEQ ID NO: 1333 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1333 description of the sequence: GCGCTGCGGG TTCCTC 16

(2) SEQ ID NO: 1334 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1334 description of the sequence: GTGGGTTTCT CCCCGCCGTT CTC 23

(2) SEQ ID NO: 1335 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1335 description of the sequence: CGGTCTGTTG CCTTTGTGGG 20

(2) SEQ ID NO: 1336 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1336 description of the sequence: CTTCTTGTCT TTTTGGCT 18

(2) SEQ ID NO: 1337 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1337 description of the sequence: GTTCTTTTCC TGCTTGGC 18

(2) SEQ ID NO: 1338 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1338 description of the sequence: GTCTTTTCCT TTCTT 15

(2) SEQ ID NO: 1339 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1339 description of the sequence: TGTGCTCGGT TGTGGGTC 18

(2) SEQ ID NO: 1340:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1340 description of the sequence: CGCTGGTCCT TTGCC 15

(2) SEQ ID NO: 1341 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1341: CTGTGTGTTT CTGCTG 16

(2) SEQ ID NO: 1342 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1342 sequence description: GCGTCCGGTG GCCGCCGC 18

(2) SEQ ID NO: 1343 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1343 sequence description: GCCTCTCTCC TCTCCCC 17

(2) SEQ ID NO: 1344 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1344 sequence description: GTGGCCCTGT CGGGCGGG 18

(2) SEQ ID NO: 1345 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type:single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1345 sequence description: TCCTGCCGTC CTGTCTCCTT T21

(2) SEQ ID NO: 1346 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1346 sequence description: TCTTTTGCTG TCTTGT 16

(2) SEQ ID NO: 1347 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1347: CTTCCCGTCT CTGCTTT 17

(2) SEQ ID NO: 1348 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1348 sequence description: GTCTGTCCTC CCCGTCTCCT CCC 23

(2) SEQ ID NO: 1349 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1349 sequence description: ACTGCTTCTC CCGGGG 16

(2) SEQ ID NO: 1350 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1350 sequence description: GCTTCCCCGG CTTC 14

(2) SEQ ID NO: 1351, materials:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1351 sequence description: GGGTGGCCGG TGTCCCGGGC TCCGGCGCGG CGGC 34

(2) SEQ ID NO: 1352, materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1352 sequence description: GGCTTCGGCT GC 12

(2) SEQ ID NO: 1353, materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1353 sequence description: GGGTGGGTGG CGCGG 15

(2) SEQ ID NO: 1354, materials:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1354 sequence description: GCTGCCGGGT CCGCGCGGCG CCTGGGCC 28

(2) SEQ ID NO: 1355, materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1355 sequence description: CTTGTGCTGC TTTT 14

(2) SEQ ID NO: 1356, materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1356 sequence description: TGCTTGTTCC GTTC 14

(2) SEQ ID NO: 1357, materials:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1357 sequence description: TGGCTGCTCC GGTCTGTGTT GTGGTTGTTT TG 32

(2) SEQ ID NO: 1358, materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1358 sequence description: TTTCTTCTTG GGTGTGGG 18

(2) SEQ ID NO: 1359, materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1359 sequence description: CCTTGCGGTT TTGG 14

(2) SEQ ID NO: 1360 of the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1360 description of the sequence: CTGTGGGCCC TTTG 14

(2) SEQ ID NO: 1361 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1361 sequence description: GGGCCTTGGC TTCTGGCTC 19

(2) SEQ ID NO: 1362 data:

(i) sequence characteristics:

(A) length: 125 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1362 sequence description: CATCCACATG ATTGCTTAGA TTTGTGCTGT ATCTCTCAGG ATTATCACTG ATTACACATC 60CAACCAGTGC CAGCCAAAAG GATGCCCTGA GGCAAAGGGT TTCCATCTTG AGGCAAATTT 120GAGGA 125

(2) SEQ ID NO: 1363 data:

(i) sequence characteristics:

(A) length: 125 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1363 sequence description: CBTCCBCBTG BTTGCTTBGB TTTGTGCTGT BTCTCTCBGG BTTBTCBCTG BTTBBCBTC 60CBBCCBGTGC CBGCCBBBBG GBTGCCCTGB GGCBBBGGGT TTCCBTCTTG BGBBBTTT 120GBGGB 125

(2) SEQ ID NO: 1364 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1364 sequence description: CGTGGTCGCT CCGC 14

(2) SEQ ID NO: 1365 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type(2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1365 sequence description: GTTTCTCTGG TTCCTCCG 18

(2) SEQ ID NO: 1366 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1366 sequence description: GTCCCGCGGG GTGCTG 16

(2) SEQ ID NO: 1367 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1367 sequence description: TCTGGTCGCT GTCGT 15

(2) SEQ ID NO: 1368 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1368 sequence description: GGCTTGGGTC TCCGGGCG 18

(2) SEQ ID NO: 1369 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C)Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1369 sequence description: GTTTCCTTCC TTTTCCGC 18

(2) SEQ ID NO: 1370, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1370 sequence description: GTCCTGTCGT GGCGCCTGGG GCTC 24

(2) SEQ ID NO: 1371, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1371 description of the sequence: TTCTTTTGTG GGCT 14

(2) SEQ ID NO: 1372, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1372 description of the sequence: CTTTGGTGGC TGTGGCTG 18

(2) SEQ ID NO: 1373, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D)Topology: line shape

(xi) SEQ ID NO: 1373 description of the sequence: TGGTCTCTGT GGTTG 15

(2) SEQ ID NO: 1374, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1374 description of the sequence: CTGCCCTGGG TCTGG 15

(2) SEQ ID NO: 1375, data:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1375 description of the sequence: GGGTGTGGCC TTGGGGCCGT CCTCTGGCTC CTCCTCGTGG GCCCCC 46

(2) SEQ ID NO: 1376, data:

(i) sequence characteristics:

(A) length: 265 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1376 description of the sequence: GGGCTAAGAT GATCCACATC ACTACCACGT TGCCCACCAC AGAGGTCACC ACAATGACCG 60TGTAGGCAGC TGCCCAAAGG ACAATTTGCC AGGCTGGTTG CACGAACTGA TTGGGTTCCG 120AGGTGTTAGT GGAGATGTTT GGGGAGAGGT CTGAGTCCAC CGGGAGGACG TTATCCATTT 180CGAAGCTAGG CGGTAAAGCC CTACTATCTG TACACAACCC CCCTCTGCAG CAGAGTCCTG 240TCGTGGCGCC TGGGGCTCAG GGTCC 265

(2) SEQ ID NO: 1377, data:

(i) sequence characteristics:

(A) length: 265 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1377 description of the sequence: GGGCTBBGBT GBTCCBTC BCTBCCBCCBC TGCCBCCBC BGGTCBCC BCBBTGBCCG 60TGTBGGCBGC TGCCBBBGG BCBBTTTGCC BGGCTGGTTG CBCGBBCTGB TTGGGTTCCG 120 BGGTGTGTTBGTTBGT GGBGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGCGGGCGGGCGGGBCCGGGBCCGTTBCCGBCBCBCBCBCBCBCBCBCBCBCBCBCBCBCBCCGBCCCCTGCCBG CBGBGTCCGTCCGTCCTG 240TCGTGGCGCC TGGGGCTCBG GGTCC 265

(2) SEQ ID NO: 137B data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1378 description of the sequence: CGTTTTCTTC TCTC 14

(2) SEQ ID NO: 1379, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1379 description of the sequence: GCTGGTTTTC CTTTCC 16

(2) SEQ ID NO: 1380 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 1380 describes: TGGCAGTGGG TGGGGGTGGG GGTGGGGTGG C31

(2) SEQ ID NO: 1381 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1381 sequence description: TTCCTTGTTC CTGGGGGTGT CCT 23

(2) SEQ ID NO: 1382 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1382 sequence description: CTTGCTCTGG GCTTTTCT 18

(2) SEQ ID NO: 1383 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1383 sequence description: CCCCTTTTCC TTCC 14

(2) SEQ ID NO: 1384 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: singlestrand

(D) Topology: line shape

(xi) SEQ ID NO: 1384 sequence description: TGTCTGTTTT CCTGGGG 17

(2) SEQ ID NO: 1385 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1385 sequence description: CTCTCCTCTG TCTCTGTGT 19

(2) SEQ ID NO: 1386 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1386 sequence description: CCTTGCCCTG GCCC 14

(2) SEQ ID NO: 1387 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1387 sequence description: TCTTCCCTCT CCTGTCTCCT GT 22

(2) SEQ ID NO: 1388 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1388 sequence description: CCCTGTGTTC CGCCC 15

(2) SEQ ID NO: 1389 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1389 sequence description: GTCTTCCCTC TCCTG 15

(2) SEQ ID NO: 1390 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1390 sequence description: ACCTCCTTTT CCTCCG 16

(2) SEQ ID NO: 1391 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1391 sequence description: CTGGGTGGGG CCCTG 15

(2) SEQ ID NO: 1392 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1392 sequence description: CCTGTTCTCT GCTCCC 16

(2) SEQ ID NO: 1393 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1393 sequence description: TGGCTTGGGG TTTCTTCTG 19

(2) SEQ ID NO: data for 1394:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1394: TGTGTCTTCT TCCTCTGTT 19

(2) SEQ ID NO: 1395 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1395 sequence description: GGCTGGCTTT CTCCTTC 17

(2) SEQ ID NO: 1396 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1396 sequence description: TTTTGTCTTC CTGGG 15

(2) SEQ ID NO: 1397 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1397 sequence description: TGCCCCTTCT TCCTTTCTTG GG 22

(2) SEQ ID NO: 1398 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1398 sequence description: TCCTTGGTGC TTGGGCTGGG 20

(2) SEQ ID NO: 1399 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1399 description of the sequence: CTGTGCGTCC GTCTGCTGG 19

(2) SEQ ID NO: 1400 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: the sequence of 1400 describes: GGGGCCGGGG TGGCTGGGCC CTGCTTGCCG C31

(2) SEQ ID NO: 1401, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1401 description of the sequence: ACGACCCCGG GCCGACCCGA G21

(2) SEQ ID NO: 1402, data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1402 sequence description: GCTCGGGGGG CTGTGTTCTG GCGCTGGTGG G31

(2) SEQ ID NO: 1403 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1403 description of the sequence: CTTGGGCCCC TCTGGGGGCT GGGTT 25

(2) SEQ ID NO: 1404 in the text:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1404 by sequence description: TCCTGCTGCG CCTGGGCGCT G21

(2) SEQ ID NO: 1405, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1405 describes: GCGTCTTGGG GTGC 14

(2) SEQ ID NO: 1406 of the data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1406 sequence description: GGGGCCGGGG GGCCGGGGG 19

(2) SEQ ID NO: 1407 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence 1407: GCCGCTGTTC GTGGGCCTGG G21

(2) SEQ ID NO: 1408 of the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1408 description of the sequence: GGTGCCTGTG GCTGCC 16

(2) SEQ ID NO: 1409 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence 1409: GGTTGCCCCG GTTGGTGGC 19

(2) SEQ ID NO: 1410 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1410 sequence description: GCCGTCCTGC TGCCGGT 17

(2) SEQ ID NO: data of 1411:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1411: CGTTGGCTGG GTCCCCCCGC 20

(2) SEQ ID NO: data of 1412:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1412: CCGTTTCCTG GGGTCC 16

(2) SEQ ID NO: data of 1413:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1413: GCGTGGGGTG CTCC 14

(2) SEQ ID NO: 1414, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1414 describes the sequence: GGTTCCTCGT GCCG 14

(2) SEQ ID NO: data of 1415:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1415: CTGCTGCCTT GTCTTTCC 18

(2) SEQ ID NO: data of 1416:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1416: GGCCGTGGCG GCGTGGTGGT CC 22

(2) SEQ ID NO: data of 1417:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1417: GCCCCCCCTG GCCTTCTGCT C21

(2) SEQ ID NO: data of 1418:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1418: GGGGTCTGGC TGGT 14

(2) SEQ ID NO: data of 1419:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1419: TGCCGGTGCC CTTGGCGGC 19

(2) SEQ ID NO: 1420 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1420 sequence description: GGTCTTCTTC CTGGTG 16

(2) SEQ ID NO: 1421 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1421 sequence description: GCTCTGGGCC CGGCCGGTCT CGG 23

(2) SEQ ID NO: 1422 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1422 sequence description: GCGTCTCGTG TTCG 14

(2) SEQ ID NO: 1423 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1423 sequence description: CTCTTGTGCT GTTCCGGCCG 20

(2) SEQ ID NO: 1424 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1424 sequence description: CTCCTTCCTC TTCCGCCGCC 20

(2) SEQ ID NO: 1425 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1425 sequence description: GCCGCTCCCC GCCC 14

(2) SEQ ID NO: 1426 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1426 sequence description: GCTCGTCGCC CTGGCCC 17

(2) SEQ ID NO: 1427 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1427 sequence description: GGCCTCCTCC TGGCCGC 17

(2) SEQ ID NO: 1428 for data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1428 sequence description: TGTCTCGGGC GGCGGCCTTG GC 22

(2) SEQ ID NO: 1429 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1429 sequence description: GCTCCGTTTG GGGCTG 16

(2) SEQ ID NO: 1430 of the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1430 description of the sequence: CCTCTGGCGC TTCC 14

(2) SEQ ID NO: data at 1431:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1431: GGCCCTCGGC CTGGGCGCTC 20

(2) SEQ ID NO: data at 1432:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1432: TCTTCCGCCT GTGC 14

(2) SEQ ID NO: data at 1433:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1433: TGGTGGCCCT CGTGG 15

(2) SEQ ID NO: data at 1434:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1434: GCCCCTCCTG GCCTCCGGTG TCC 23

(2) SEQ ID NO: data at 1435:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1435: TGTGGTCCCC CGGCTGGT 18

(2) SEQ ID NO: data at 1436:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1436: GGCCGGGCCG GTTGGGCGGG C21

(2) SEQ ID NO: data at 1437:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1437: GTGGGCGCCG GCGGGTCCTC C21

(2) SEQ ID NO: 1438 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1438: GGGCTGCCCT TCTCC 15

(2) SEQ ID NO: 1439 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1439: GCCGGGGGTC CCGC 14

(2) SEQ ID NO: 1440 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1440 sequence description: GCTCCTGCTG TTCCCTGGGC TCTTCTGCC 29

(2) SEQ ID NO: 1441 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1441: TCTCTCCTGG GTGGGTGCTG GGTGCCG 27

(2) SEQ ID NO: 1442 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1442: GGGTCTCCGG GCTTG 15

(2) SEQ ID NO: 1443 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1443: CCCCGCGCTG CTGGGCGTTC TGC 23

(2) SEQ ID NO: 1444 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1444 sequence description: GGTCTTGGGG TTGTC 15(2) SEQ ID NO: 1445 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1445: TGTGGCCCCG CTCG 14

(2) SEQ ID NO: 1446 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1446: TGTCGCCCTC CGTCGCC 17

(2) SEQ ID NO: 1447 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1447 sequence description: CGTCGCCGGC CTCGTCC 17

(2) SEQ ID NO: 1448 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1448 sequence description: CCTCCTGGGT GCGC 14

(2) SEQ ID NO: 1449 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1449 sequence description: GGCGGGCTGG TCCT 14

(2) SEQ ID NO: 1450 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1450 sequence description: GGCGTTTTGC TCCTTCCTGG 20

(2) SEQ ID NO: 1451 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1451 sequence description: CTGCCTCCCC GGGGT 15

(2) SEQ ID NO: 1452, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1452 sequence description: TTCTGCTGCT TGCTG 15

(2) SEQ ID NO: 1453, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1453 sequence description: CTTCTTTCCC GTCTCC 16

(2) SEQ ID NO: 1454 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1454 sequence description: CTTCTTTCCC GTCTCC 16

(2) SEQ ID NO: 1455, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1455 sequence description: TTTTTGCCTC TTTG 14

(2) SEQ ID NO: 1456 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1456 sequence description: GGTTCCTGTT GTTTCT 16

(2) SEQ ID NO: 1457 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1457 sequence description: GGCCTGCTTG GTGGCG 16

(2) SEQ ID NO: 1458, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1458 sequence description: GCTTGTGCGT TTCC 14

(2) SEQ ID NO: 1459 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1459 sequence description: TCTCTCTTCT CTTGGGTCTC CGCTTCTCGT CCTGCC 36

(2) SEQ ID NO: 1460 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1460 sequence description: TTTTCCTGTC TCTGTCGC 18

(2) SEQ ID NO: 1461 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1461 sequence description: GCCGTTCCTC CTCC 14

(2) SEQ ID NO: 1462 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1462 sequence description: GGCGTCCTCC TGCCC 15

(2) SEQ ID NO: 1463 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1463 sequence description: TGTGCTGTTT GCCTCGG 17

(2) SEQ ID NO: 1464 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1464 sequence description: GTGGTGCGGG TCCC 14

(2) SEQ ID NO: 1465 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1465 sequence description: GGTGCTCCCC CGGC 14

(2) SEQ ID NO: 1466 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1466 sequence description: GGGCCGGCTG GTTGCCTGGG C21

(2) SEQ ID NO: 1467 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1467 sequence description: CTGTCTGGTG GGGTGTGGGG CC 22

(2) SEQ ID NO: 1468 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1468 sequence description: GCTGGGTTGG GGGTGTGGTG 20

(2) SEQ ID NO: 1469 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1469 sequence description: GGCTCTTCTG TGGCC 15

(2) SEQ ID NO: 1470 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1470 sequence description: TGTGGGGCTG TTGGTG 16

(2) SEQ IDNO: 1471 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1471 sequence description: TCTCTGTGGG CGTGTG 16

(2) SEQ ID NO: 1472 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1472 sequence description: CTGGGTCTTG GGGCTTC 17

(2) SEQ ID NO: 1473 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1473 sequence description: CTCCCTTGTG CTGGG 15

(2) SEQ ID NO: 1474 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1474 sequence description: TGCGGCCTCC CCGC 14

(2) SEQ ID NO: 1475 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1475 sequence description: CCCCCTTCTG GGCC 14

(2) SEQ ID NO: 1476 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1476 sequence description: GGTGGCCTGG CTCCTTGTGG 20

(2) SEQ ID NO: 1477 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1477 sequence description: GCGCTTCTGG CTCTTG 16

(2) SEQ ID NO: 1478 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1478 sequence description: CCCTGTCCTT CTTCGCCTCG T21

(2) SEQ ID NO: 1479 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1479 sequence description: GGCTGCTGGG CTGC 14

(2) SEQ ID NO: 1480 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1480 sequence description: GTTGGGCTTG GCCGGGG 17

(2) SEQ ID NO: 1481 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1481 sequence description: CTGCCCGGTG CCTCC 15

(2) SEQ ID NO: 1482 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1482 sequence description: TCTTGGCTGGTCCCTCGT 18

(2) SEQ ID NO: 1483 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1483 sequence description: TGTCCTTGGG CCCC 14

(2) SEQ ID NO: 1484 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1484 sequence description: GCTCCCGCTG CTCGGCCTCC GT 22

(2) SEQ ID NO: 1485 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1485 sequence description: GTTCTTTGGC CTCTTGCTCC 20

(2) SEQ ID NO: 1486 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1486 sequence description: GCCTGCTGTC TTGTCC 16

(2) SEQ ID NO: 1487 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1487 sequence description: CGTCCCCTCC TCGCTTGCGT TTC 23

(2) SEQ ID NO: 1488 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1488 sequence description: CCTCTTCCTT GTCTTCCA 18

(2) SEQ ID NO: 1489 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1489 sequence description: GGCCTTCCTC CGCTTCCGCT GC 22

(2) SEQ ID NO: 1490, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1490 sequence description: TGGGGCCCGC GCCGG 15

(2) SEQ ID NO: 1491, data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1491 sequence description: GGGGGCGCTC GGCTCCGCGG CTTCCTCCCC GG 32

(2) SEQ ID NO: 1492, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1492 sequence description: CTGGGGGGTC CTGG 14

(2) SEQ ID NO: 1493, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1493 sequence description: TCTCCGGGGC CTGCGGCTCG C21

(2) SEQ ID NO: 1494, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1494 sequence description: GGGCTCGGGG CTGCGTGCGC C21

(2) SEQ ID NO: 1495, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1495 sequence description: GCGCGCGGCG TCCGCGGTG 19

(2) SEQ ID NO: 1496, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1496 sequence description: GGTGGCGCTG TCCCGCC 17

(2) SEQ ID NO: 1497, data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1497 sequence description: GTGGTGTGTC TCCGTTCTCG TCCTGCGCCG TC 32

(2) SEQ ID NO: 1498, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D)Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1498 sequence description: CTGGTCTGCC CGTGG 15

(2) SEQ ID NO: 1499, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1499 sequence description: GGTCCTGGGC GTGGTGG 17

(2) SEQ ID NO: 1500 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1500 sequence description: GGGGCGTCTG GTGC 14

(2) SEQ ID NO: 1501 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1501 describes the sequence: CTCGTCTGCC CCGTG 15

(2) SEQ ID NO: 1502 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: cDNA

(xi) SEQ ID NO: 1502 sequence description: GGGCTTCGGG CTCGG 15

(2) SEQ ID NO: 1503:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1503 describes the sequence: GGCTGTTCGT CCCCCCTGCC GCTCTGTGGC CTCC 34

(2) SEQ ID NO: 1504 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1504 sequence description: GGGGCTCCTC GTTTTC 16

(2) SEQ ID NO: 1505 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1505 sequence description: GCTGCTTCGG GTGTCCTTCT C21

(2) SEQ ID NO: 1506 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1506 sequence description: GGCGTGTGGC CCCGG 15

(2) SEQ ID NO: 1507 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1507 sequence description: GTCCCGGCCC TGCTGGGCTG GGCGGGGTC 29

(2) SEQ ID NO: data of 1508:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1508 sequence description: GCTGCCCTGG GCTTCTGGCC CGTCT 25

(2) SEQ ID NO: 1509 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1509 sequence description: GGTTGTCTGT CGGT 14

(2) SEQ ID NO: 1510 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1510 sequence description: GCTTGTCTCG GGTTTCTGG 19

(2) SEQ ID NO: 1511 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1511 sequence description: CCTCTGTGCT GGGC 14

(2) SEQ ID NO: 1512 of the data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1512: GCTTCTCTGC CTCCTGCTCC 20

(2) SEQ ID NO: 1513 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1513 sequence description: GCCCTCCTGG TGGCTC 16

(2) SEQ ID NO: 1514 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1514 describes the sequence: GGCTGGGGGT GCCCGTGCG 19

(2) SEQ ID NO: 1515 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1515 sequence description: GGGGTGGGTG TGGGGTGTT 19

(2) SEQ ID NO: 1516 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1516 sequence description: TTCGGGGTCC TCCCCTTCCC 20

(2) SEQ ID NO: 1517 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1517 sequence description: GTTTCATCTT GGCTTTATCC 20

(2) SEQ ID NO: 1518 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1518 sequence description: TCTCCCCTTG TTCCTCCCC 19

(2) SEQ ID NO: 1519 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1519 sequence description: TCTCCTGCTC TGGRGTCTCCTC 22

(2) SEQ ID NO: 1520, data of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1520: TTCCCTCCCT CCCCTGCC 18

(2) SEQ ID NO: 1521 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1521 sequence description: GTGTTGTCTG TGGGTGTCC 19

(2) SEQ ID NO: 1522 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1522 sequence description: GTTTCGCTCT TGTTGCCC 18

(2) SEQ ID NO: 1523 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1523 sequence description: TGGGCCCTTC CCTGCTGG 18

(2) SEQ ID NO: 1524 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1524 sequence description: GGGGGAGTTT CATCTTGG 18

(2) SEQ ID NO: 1525 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1525 sequence description: GGGGGBGTTT CBTCTTGGCT TT 22

(2) SEQ ID NO: 1526 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1526 sequence description:GGGGGBGTTT CBTCTTGGCT T21

(2) SEQ ID NO: 1527 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1527 sequence description: GGGGGBGTTT CBTCTTGGCT 20

(2) SEQ ID NO: 1528 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1528 sequence description: GGGGGBGTTT CBTCTTGGC 19

(2) SEQ ID NO: 1529 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1529 sequence description: GGGGGBGTTT CBTCTTGG 18

(2) SEQ ID NO: 1530 of:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1530 sequence description: GGGGGBGTTT CBTCTTG 17

(2) SEQ ID NO: 1531 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1531 sequence description: GGGGGBGTTT CBTCTT 16

(2) SEQ ID NO: 1532 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1532 sequence description: GGGGGBGTTT CBTCT 15

(2) SEQ ID NO: 1533 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1533 sequence description: GGGGGBGTTT CBTC 14

(2) SEQ ID NO: 1534 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1534 sequence description: GGGGGBGTTT CBT 13

(2) SEQ ID NO: 1535 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1535 sequence description: GGGGGBGTTT CB 12

(2) SEQ ID NO: 1536 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1536 sequence description: GGGGBGTTTC BTCTTGGCTT 21

(2) SEQ ID NO: 1537 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1537 sequence description: GGGGBGTTTC BTCTTGGCTT 20

(2) SEQ ID NO: 1538 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1538 sequence description: GGGGBGTTTC BTCTTGGCT 19

(2) SEQ ID NO: 1539 data:

(i) sequence characteristics:

(A) length: 18 basepairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1539 sequence description: GGGGBGTTTC BTCTTGGC 18

(2) SEQ ID NO: 1540 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1540 sequence description: GGGGBGTTTC BTCTTGG 17

(2) SEQ ID NO: 1541 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1541 sequence description: GGGGBGTTTC BTCTTG 16

(2) SEQ ID NO: 1542 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1542 sequence description: GGGGBGTTTC BTCTT 15

(2) SEQ ID NO: 1543 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1543 sequence description: GGGGBGTTTC BTCT 14

(2) SEQ ID NO: 1544 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1544 sequence description: GGGGBGTTTC BTC 13

(2) SEQ ID NO: 1545 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1545 sequence description: GGGGBGTTTC BT 12

(2) SEQ ID NO: 1546 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1546 sequence description: GGGBGTTTCB TCTTGGCTTT 20

(2) SEQ ID NO: 1547 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1547 sequence description: GGGBGTTTCB TCTTGGCTT 19

(2) SEQ ID NO: 1548 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1548 sequence description: GGGBGTTTCB TCTTGGCT 18

(2) SEQ ID NO: 1549 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1549 sequence description: GGGBGTTTCB TCTTGGC 17

(2) SEQ ID NO: information of 1550:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1550: GGGBGTTTCB TCTTGG 16

(2) SEQ ID NO: 1551 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1551 sequence description: GGGBGTTTCB TCTTG 15

(2) SEQ ID NO: 1552 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1552 sequence description: GGGBGTTTCB TCTT 14

(2) SEQ ID NO: 1553 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1553 sequence description: GGGBGTTTCB TCT 13

(2) SEQ ID NO: 1554 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1554 sequence description: GGGBGTTTCB TC 12

(2) SEQ ID NO: 1555 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1555 sequence description: GGBGTTTCBT CTTGGCTTT 19

(2) SEQ ID NO: 1556 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1556 sequence description: GGBGTTTCBT CTTGGCTT 18

(2) SEQ ID NO: 1557 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1557 sequence description: GGBGTTTCBT CTTGGCT 17

(2) SEQ ID NO: 1558 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1558 sequence description: GGBGTTTCBT CTTGGC 16

(2) SEQ ID NO: 1559 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1559 sequence description: GGBGTTTCBT CTTGG 15

(2) SEQ ID NO: 1560 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1560 sequence description: GGBGTTTCBT CTTG 14

(2) SEQ ID NO: 1561 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1561 sequence description: GGBGTTTCBT CTT 13

(2) SEQ ID NO: 1562 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1562 description of the sequence: GGBGTTTCBT CT 12

(2) SEQ ID NO: 1563, materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1563 description of the sequence: GBGTTTCBTC TTGGCTTT 18

(2) SEQ ID NO: 1564 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1564 description of the sequence: GBGTTTCBTC TTGGCTT 17

(2) SEQ ID NO: 1565 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1565 description of the sequence: GBGTTTCBTC TTGGCT 16

(2) SEQ ID NO: 1566 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1566 description of the sequence: GBGTTTCBTC TTGGC 15

(2) SEQ ID NO: 1567 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1567 description of the sequence: GBGTTTCBTC TTGG 14

(2) SEQ ID NO: 1568 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1568 description of the sequence: GBGTTTCBTC TTG 13

(2) SEQ ID NO: 1569 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1569 description of the sequence: GBGTTTCBTC TT 12

(2) SEQ ID NO: 1570 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1570 sequence description: BGTTTCBTCT TGGCTTT 17

(2) SEQ ID NO: 1571 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1571 description of the sequence: BGTTTCBTCT TGGCTT 16

(2) SEQ ID NO: 1572 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1572 description of the sequence: BGTTTCBTCT TGGCTT 16

(2) SEQ ID NO: 1573 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1573 description of the sequence: BGTTTCBTCT TGGCT 15

(2) SEQ ID NO: 1574 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1574 description of the sequence: BGTTTCBTCT TGGC 14

(2) SEQ ID NO: 1575 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1575 description of the sequence: BGTTTCBTCT TGG 13

(2) SEQ ID NO: 1576 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1576 description of the sequence: BGTTTCBTCT TG 12

(2) SEQ ID NO: 1577 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1577 description of the sequence: GTTTCBTCTT GGCTTT 16

(2) SEQ ID NO: 1578 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1578 description of the sequence: GTTTCBTCTT GGCTT 15

(2) SEQ ID NO: 1579 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1579 description of the sequence: GTTTCBTCTT GGCT 14

(2) SEQ ID NO: 1580 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1580 sequence description: GTTTCBTCTT GGC 13

(2) SEQ ID NO: 1581 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1581 sequence description: GTTTCBTCTT GG 12

(2) SEQ ID NO: 1582 data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1582 sequence description: TTTCBTCTTG GCTTT 15

(2) SEQ ID NO: 1583 data of:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1583 sequence description: TTTCBTCTTG GCTT 14

(2) SEQ ID NO: 1584 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1584 sequence description: TTTCBTCTTG GCT 13

(2) SEQ ID NO: 1585 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1585 sequence description: TTTCBTCTTG GC 12

(2) SEQ ID NO: 1586 data of:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1586 sequence description: TTCBTCTTGG CTTT 14

(2) SEQ ID NO: 1587 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1587 sequence description: TTCBTCTTGG CTT 13

(2) SEQ ID NO: 1588 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1588 sequence description: TTCBTCTTGG CT 12

(2) SEQ ID NO: 1589 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1589 sequence description: TCBTCTTGGC TTT 13

(2) SEQ ID NO: 1590 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1590 sequence description: TCBTCTTGGC TT 12

(2) SEQ ID NO: 1591 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1591 sequence description: GGGGGBGTTT CBTCTTGGCT TT 22

(2) SEQ ID NO: 1592 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1592 sequence description: GGGGBGTTTC BTCTTGGCTT 21

(2) SEQ ID NO: 1593 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1593 sequence description: GGGBGTTTCB TCTTGGCTTT 20

(2) SEQ ID NO: 1594 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1594 sequence description: GGBGTTTCBT CTTGGCTTT 19

(2) SEQ ID NO: 1595 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1595 description of the sequence: GBGTTTCBTC TTGGCTTT 18

(2) SEQ ID NO: 1596 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1596 sequence description: BGTTTCBTCT TGGCTTT 17

(2) SEQ ID NO: 1597 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1597 sequence description: GTTTCBTCTT GGCTTT 16

(2) SEQ ID NO: 1598 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1598 sequence description: TTTCBTCTTG GCTTT 15

(2) SEQ ID NO: 1599 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1599 sequence description: TTCBTCTTGG CTTT 14

(2) SEQ ID NO: 1600, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1600 describes the sequence: TCBTCTTGGC TTT 13

(2) SEQ ID NO: 1601 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1601 by sequence description: CBTCTTGGCT TT 12

(2) SEQ ID NO: data 1602:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1602 sequence description: GGGGGBGTTT CBTCTTGGCT T21

(2) SEQ ID NO: 1603, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1603 sequence description: GGGGBGTTTC BTCTTGGCTT 20

(2) SEQ ID NO: 1604 of the data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1604 of the sequence description: GGGBGTTTCB TCTTGGCTT 19

(2) SEQ ID NO: 1605, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1605 sequence description: GGBGTTTCBT CTTGGCTT 18

(2) SEQ ID NO: 1606 information:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1606 sequence description: GBGTTTCBTC TTGGCTT 17

(2) SEQ ID NO: 1607, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1607 sequence description: BGTTTCBTCT TGGCTT 16

(2) SEQ ID NO: 1608 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1608 description of the sequence: GTTTCBTCTT GGCTT 15

(2) SEQ ID NO: 1609 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1609 sequence description: TTTCBTCTTG GCTT 14

(2) SEQ ID NO: 1610 of the database:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1610, description of the sequence: TTCBTCTTGG CTT 13

(2) SEQ ID NO: 1611 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1611 sequence description: TCBTCTTGGC TT 12

(2) SEQ ID NO: 1612 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1612: GGGGGBGTTT CBTCTTGGCT 20

(2) SEQ ID NO: 1613 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1613 sequence description: GGGGBGTTTC BTCTTGGCT 19

(2) SEQ ID NO: 1614 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1614 sequence description: GGGBGTTTCB TCTTGGCT 18

(2) SEQ ID NO: 1615 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1615 sequence description: GGBGTTTCBT CTTGGCT 17

(2) SEQ ID NO: 1616 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1616 sequence description: GBGTTTCBTC TTGGCT 16

(2) SEQ ID NO: 1617 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1617 sequence description: BGTTTCBTCT TGGCT 15

(2) SEQ ID NO: 1618 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1618 sequence description: GTTTCBTCTT GGCT 14

(2) SEQ ID NO: 1619 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1619 sequence description: TTTCBTCTTG GCT 13

(2) SEQ ID NO: 1620:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1620, sequence description: TTCBTCTTGG CT 12

(2) SEQ ID NO: 1621, materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1621 sequence description: GGGGGBGTTT CBTCTTGGC 19

(2) SEQ ID NO: 1622, materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1622 sequence description: GGGGBGTTTC BTCTTGGC 18

(2) SEQ ID NO: 1623, data of:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1623 sequence description: GGGBGTTTCB TCTTGGC 17

(2) SEQ ID NO: 1624, data of:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1624 description of the sequence: GGBGTTTCBT CTTGGC 16

(2) SEQ ID NO: 1625, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1625 sequence description: GBGTTTCBTC TTGGC 15

(2) SEQ ID NO: 1626 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1626 sequence description: BGTTTCBTCT TGGC 14

(2) SEQ ID NO: 1627 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1627 sequence description: GTTTCBTCTT GGC 13

(2) SEQ ID NO: 1628, data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of (a): 1628TTTCBTCTTG GC 12

(2) SEQ ID NO: 1629 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1629 sequence description: GGGGGBGTTT CBTCTTGG 18

(2) SEQ ID NO: 1630data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1630 the sequence description: GGGGBGTTTC BTCTTGG 17

(2) SEQ ID NO: 1631 for data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1631 the sequence description: GGGBGTTTCB TCTTGG 16

(2) SEQ ID NO: 1632 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1632 the sequence description: GGBGTTTCBT CTTGG 15

(2) SEQ ID NO: 1633 for data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1633 the sequence description: GBGTTTCBTC TTGG 14

(2) SEQ ID NO: 1634 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1634 the sequence description: BGTTTCBTCT TGG 13

(2) SEQ ID NO: 1635 for data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1635 the sequence description: GTTTCBTCTT GG 12

(2) SEQ ID NO: 1636 for data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1636 the sequence description: GGGGGBGTTT CBTCTTG 17

(2) SEQ ID NO: 1637 for data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1637 the sequence description: GGGGBGTTTC BTCTTG 16

(2) SEQ ID NO: 1638 for data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1638 the sequence is described: GGGBGTTTCB TCTTG 15

(2) SEQ ID NO: 1639 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1639 the sequence description: GGBGTTTCBT CTTG 14

(2) SEQ ID NO: 1640 of the following materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1640 sequence description: GBGTTTCBTC TTG 13

(2) SEQ ID NO: 1641 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1641 sequence description: BGTTTCBTCT TG 12

(2) SEQ ID NO: 1642 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1642 sequence description: GGGGGBGTTT CBTCTT 16

(2) SEQ ID NO: 1643 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1643 sequence description: GGGGBGTTTC BTCTT 15

(2) SEQ ID NO: 1644 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1644 sequence description: GGGBGTTTCB TCTT 14

(2) SEQ ID NO: 1645 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1645 sequence description: GGGBGTTTCB TCTT 14

(2) SEQ ID NO: 1646 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1646 sequence description: GGBGTTTCBT CTT 13

(2) SEQ ID NO: 1647 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1647 sequence description: GBGTTTCBTC TT 12

(2) SEQ ID NO: 1648 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1648 sequence description: GGGGGBGTTT CBTCT 15

(2) SEQ ID NO: 1649 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1649 description of the sequence: GGGGBGTTTC BTCT 14

(2) SEQ ID NO: 1650 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO 1650: description of the sequence of (a): GGGBGTTTCB TCT 13

(2) SEQ ID NO: 1651 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1651 sequence description: GGBGTTTCBT CT 12

(2) SEQ ID NO: 1652 data of:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1652 sequence description: GGGGGBGTTT CBTC 14

(2) SEQ ID NO: 1653 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1653 sequence description: GGGGBGTTTC BTC 13

(2) SEQ ID NO: 1654 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1654 sequence description:GGGBGTTTCB TC 12

(2) SEQ ID NO: 1655 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1655 sequence description: GGGGGBGTTT CBT 13

(2) SEQ ID NO: 1656 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1656 sequence description: GGGGBGTTTC BT 12

(2) SEQ ID NO: 1657 data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1657 sequence description: GGGGGBGTTT CB 12

(2) SEQ ID NO: 1658 data of:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1658 sequence description: TCTCCCCTTG TTCCTCCCC 19

(2) SEQ ID NO: 1659 data of:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1659 sequence description: TCTCCTGCTC TGGTGTCTCC TC 22

(2) SEQ ID NO: 1660 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1660 sequence description: TTCCCTCCCT CCCCTGCC 18

(2) SEQ ID NO: 1661 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1661 sequence description: GTGTTGTCTG TGGGTGTCC 19

(2) SEQ ID NO: 1662 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1662 sequence description: GTTTCGCTCT TGTTGCCC 18

(2) SEQ ID NO: 1663 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1663 sequence description: TGGGCCCTTC CCTGCTGG 18

(2) SEQ ID NO: 1664 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1664 sequence description: GCTGGTCCTC TGCTGTCCTT GCTG 24

(2) SEQ ID NO: 1665 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1665 sequence description: GTGCTCBTGG TGTCCTTTCC 20

(2) SEQ ID NO: 1666 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1666 sequence description: GCCCTGGGGC CCCCCTGTCT TCTTGGGG 28

(2) SEQ ID NO: 1667 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1667 sequence description: CCTCTTCCCT CTGGGGGCCG 20

(2) SEQ ID N0: 1668 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1668 sequence description: TCTCTCTCCC TCTCTTGCGT CTCTC 25

(2) SEQ ID NO: 1669 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1669 sequence description: TCTTTCTCTC TCTCTCTTCC CC 22

(2) SEQ ID NO: 1670 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1670 sequence description: TTTCCCGCTC TTTCTGTCTC 20

(2) SEQ ID NO: 1671 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1671 sequence description: GGTGTCTGGT TTTCTCTCTC C21

(2) SEQ ID NO: 1672 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1672 sequence description: GCTGGCTGCC TGTCTGGCCT GCGCTCTT 28

(2) SEQ ID NO: 1673 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1673 sequence description: GGCCTGTGCT GTTCCTCC 18

(2) SEQ ID NO: 1674 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1674 sequence description: TCCGGTTCCT GTCCTCTCTG TCTGTC 26

(2) SEQ ID NO: 1675 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1675 sequence description: GCCCCCTCTG GGGTCTCCCT CTGGC 25

(2) SEQ ID NO: 1676 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1676 sequence description: GTGGTGGTCT TGTTGCTT 18

(2) SEQ ID NO: 1677 data of:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1677 sequence description: GGGCTGGGCT CCGTGTCTC 19

(2) SEQ ID NO: 1678 data of:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1678 sequence description: CBGTGCTCBT GGTGTCC 17

(2) SEQ ID NO: 1679 data of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1679 sequence description: GCTGBGGGBG CGTCTGCTGG C21

(2) SEQ ID NO: 1680 data:

(i) sequence characteristics:

(A) length: 329 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1680 sequence description: TGCTTTTCTT TTCTGGGCCT CTGTGGTCTG TTTTTTTCTG GCCCTGCTGG GGCGCTCTCC 60GCCGCCCGCC TGGCTCCCGG BGCCCBTGBT GGGCBTGCCG TGGTTCTTGC CCTCCTTTGG 120CTGCCGTGCC CGCTCCCCGG CCTCCTGGCG GGTGGCCGTT GGGCCCGTGT TCCCCTGGGG 180CCTGGGGCTC CCTTCTCTCG CCCTTCTTGC TGGGCCTCTG CTGCTGCTGG TGCTGTGGCC 240CCCGTACACC GAGGAGCCCA TGATGGGCAT GCCACAGACG ACAGGCTBC BCCGBGGBGC 300CCBTGBTGGG CBTGCCBCBG BCGBCBGGC 329

(2) SEQ ID NO: 1681 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1681 sequence description: CTGGGCCTC 9

(2) SEQ ID NO: 1682 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1682 sequence description: GCCGCCCGCC TG 12

(2) SEQ ID NO: 1683 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1683 sequence description: GCCCGCTCCC CGGC 14

(2) SEQ ID NO: 1684 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1684 sequence description: CBCCGBGGBG CCC 13

(2) SEQ ID NO: 1685 data:

(i) sequence characteristics:

(A) length: 304 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1685 sequence description: GGCGCCGTGC CGCGTCTTGG TGGCGGCGGG TTCGCGCCCG CGCGGGGCCC CTCCGGTCCG 60TTCGCGCCCG CGCGGGGCCC CTCCGGTCCC GGGTCGGGGC CCCCCGCGGC CGCCTCGGGG 120CTGGGGCGCT GGTGGCCGGG CCGCGCCTCC GCCTGCCGCT TCTGGCTGGG CCCCGGGCGC 180CCCCTCCCCT CTTGCTCGGG TCCCCGTGAC AGCGCGTCCT GTGTCTCCAG CAGCATGGCC 240GGGCCAGCTG GGCCCCBCBG CGCGTCCTGT GTCTCCBGCB GCBTGGCCGG GCCBGCTGGG 300CCCC 304

(2) SEQ ID NO: 1686 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type(2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1686 sequence description: GCGCGTCCTG 10

(2) SEQ ID NO: 1687 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1687 sequence description: GCTGGGCCCC GG 12

(2) SEQ ID NO: 1688 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1688 sequence description: CGGGTCGGGG CCCCCC 16

(2) SEQ ID NO: 1689 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1689 sequence description: CGCGCCCGCG 10

(2) SEQ ID NO: 1690 data of:

(i) sequence characteristics:

(A) length: 213 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1690 sequence description: ACAGAGCAGT GCTGTTGTTG GGCATCTTGC CTTCCCAGGG BCBGBGCBTG CTGTTGTTGG 60GCBTCTTGCC TTCCCGGGC CCTTTTCTGG TGGGGTGGTG CTGTTGTTGG GCTTTCTTCT 120GTTCCCBCBG BGCBGTGCTG TTGTTGGGCB TCTTGCCTTC CCBGGGCCCT TTTCTGGTGG 180GGTGGTGCTG TTGTTGGGCT TTCTTCTGTT CCC 213

(2) SEQ ID NO: 1691 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1691 sequence description: GBGCBTGC 8

(2) SEQ ID NO: 1692 materials:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 1692 sequence description: TTGTTGGGC 9

(2) SEQ ID NO: 1693 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1693 sequence description: TGCCTTCCCB GGG 13

(2) SEQ ID NO: 1694 data:

(i) sequence characteristics:

(A) length: 133 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1694 sequence description: TTTCCCCTGG GTCTTCCCTC CTGCTCTTTT TTCATTTGCT CTCCTATTAC TTTCTGTGTC 60CATTTTTTCA TTAACCGAGC TGTBTTTGCT CTCCTTBTTBC TTTCTGTGTC CBTTTTTTCB 120TTBBCCGBGC TGT 133

(2) SEQ ID NO: 1695 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1695 sequence description: CCCCTGGG 8

(2) SEQ ID NO: 1696 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1696 sequence description: GCTCTCCTBT T11

(2) SEQ ID NO: 1697 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1697 sequence description: CBTTBBCCGB GCTG 14

(2) SEQ ID NO: 1698 data:

(i) sequence characteristics:

(A) length: 299 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1698 description of the sequence: GCCTGTGTCT GTCCTCCTGC TTCGTTCCTC TCGTTCCTGC TTGGTGCCCT TGCCGGTCCT 60GCTCCTCCGG GCTGTGGGTC GTGGCCCTGG CTCCGGCTGG TGGGCTCCCC TGGCCTTCGC 120TGGCTGGCGG CGTGCGGGTC TTGCTCTGGG CCTGGCTGTG GCCGTGGTTG GGGGTCTTCG 180CTGCCTCCGT TTGGGTGGCT CTCTGAATAT TGACCTTCCT CCATGGCGGT CCTGCTTGGA 240TTCTCCCGAT CTCTGBBTBT TGBCCTTCCT CCBTGGCGGT CCTGCTTGGB TTCTCCCGB 299

(2) SEQ ID NO: 1699 materials:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1699 sequence description: GTCCTCTC 8

(2) SEQ ID NO: 1700 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1700: TGTGTCTGTC CTCC 14

(2) SEQ ID NO: 1701 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1701 sequence description: GTGGCCCTGG C11

(2) SEQ ID NO: 1702, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1702 sequence description: CGTGGTTGGG G11

(2) SEQ ID NO: 1703, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1703 sequence description: TCTCTGBBTB TTGBCC 16

(2) SEQ ID NO: 1704, data:

(i) sequence characteristics:

(A) length: 378 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1704 sequence description: GCCTTTCCTG GTTCTCTTGT TGTTTTTGGG GTTTGGCTTA CAGTAGAGTA GGGGATTCCA 60TGGCAGGAGC CATCTTCTTC ATGGACTCCT TCAAGGAGAC CTTAGGTTTC TGAGGGACTG 120 39120 120CTAACACGCC ATCTGGAGCB CBGTBGBGTB GGGGBTTCCB TGGCBGGBGC CBTCTTCTTC 180BTGGBCTCCT TCBBGGBGBC CTTBGGTTTC TGBGGGBCTG CTBBCBCGCC BTCTGGBGCG 240TTGTTTTTGG GGTTTGGCTT GCCTTTCCTG GTTCTCTTBC BGTBGBGTBG GGGBTTCCBT 300GGCBGGBGCC BTCTTCTTCB TGGBCTCCTT CBGBBGGBGBGBGBGBBGCC TTBGGTTTCT GBGGGBCTGC 360 TBBCGCCB TCTGGBGC 378

(2) SEQ ID NO: 1705, data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1705 sequence description: TGGBCTCC 8

(2) SEQ ID NO: 1706 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1706 sequence description: CCBTCTGGB 9

(2) SEQ ID NO: 1707, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1707 sequence description: CTGCTBBCBC G11

(2) SEQ ID NO: 1708, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1708 sequence description: GTTTTTGGGG TTTG 14

(2) SEQ ID NO: 1709 data:

(i) sequence characteristics:

(A) length: 279 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1709 sequence description: GCCTGTGTCT GTCCTCCTGC TTCGTTCCTC TCGTTCCTGC TTGGTGCCCT TGCCGGTCCT 60GCTCCTCCGG GCTGTGGGTC CTCGCCCTGG CTCCGGCTGG TGGGCTCCCC TGGCCTTCGC 120TGGCTGGCGG CGTGCCCCBG BBCGBGBCCC GGBCCGBCBG GCCGTGGTTG GGGGTCTTCG 180CTGCCTCCGT TTGGGTGGCG ATCTCTGAAT ATTGACCTTC CATGGCGGTC CTGCTTGGAG 240 BTCTGBBT BTTGBCCTTC CBTGGCGGTC CTGCTTGGB 279

(2) SEQ ID NO: 1710, data of:

(i) sequence characteristics:

(A) length: 291 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 1710: GCCTGTGTCT GTCCTCCTGC TTCGTTCCTC TCGTTCCTGC TTGGTGCCCT TGCCGGTCCT 60GCTCCTCCGG GCTGTGGGTC CTCGCCCTGG CTCCGGCTGG TGGGCTCCCC TGGCCTTCGC 120TGGCTGGCGG CGTGCCCCBG BBCGBGBCCC GGBCCGBCBG GCCGTGGTTG GGGGTCTTCG 180CTGCCTCCGT TTGGGTGGCG ATCTCTGAAT ATTGACCTTC CATGGCGGTC CTGCTTGGAG 240 BTCTGBBT BTTGBCCTTC CBTGGCGGTC CTGCTTGGBT CGTTCCTCTC G291

(2) SEQ ID NO: 1711, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1711 sequence description: BGBBCGBGBC 10

(2) SEQ ID NO: 1712, data of:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1712 sequence description: TGBBTBTTGB 10

(2) SEQ ID NO: 1713, data of:

(i) sequence characteristics:

(A) length: 171 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1713 sequence description: TCTCCCTTGG GCTCTGGCTC CTTCTCTCTC TCTCCCTCTC TCTCTGTCGC CTCCGCCCTG 60GCTGCTGGGG TGGTGGTGCT TTTGTTCTTC CTTGCTGCCG CCCCGCTGCT TGTCTTCCTC 120GCTCTGTCCC TCTCTCTCTG TBCCTCCTCBG GCTCCBBT CTCCCTTGGG C171

(2) SEQ ID NO: 1714, data of:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1714 sequence description: GGCTCTGGC 9

(2) SEQ ID NO: 1715, data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1715 sequence description: CCCTTGG 7

(2) SEQ ID NO: 1716, data of:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1716 sequence description: TTTGTTCTTC C11

(2) SEQ ID NO: 1717, data:

(i) sequence characteristics:

(A) length: 123 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1717 sequence description: CTTGCTCCTG GGGGCCTCCT GGTCCCTCCG GGTGTTCCCG GCGGGCCTGG CCTGGGGGCBG 60GGGCCGCGTB GGCGCGCGGCTC GCCBGGBCGGGCBGCGCCBG CBGCBGCBGB TTCBGCBTCC 120TGG 123

(2) SEQ ID NO: 1718, data of:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1718 sequence description: GCTCCTGGGG GCCT 14

(2) SEQ ID NO: 1719 materials:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology:line shape

(xi) SEQ ID NO: 1719 sequence description: CGTBGGCGC 9

(2) SEQ ID NO: data of 1720:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1720: TGGCCTGGGG 10

(2) SEQ ID NO: 1721 data:

(i) sequence characteristics:

(A) length: 132 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1721 sequence description: CTTGCTCCTG GGGGUUTCCT GGTCCUTCTG GCTGGTTCCG GCCCTGGGBCT GGGGGGCBGGGGGG 60CCGCGTBGGC GCGGCTCGCC BGGBCGGGCB GCGCGCCBGCBG CBGCBGGCTC BGCBTCCTGG 120CCBCGGBBTT CC 132

(2) SEQ ID NO: 1722 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1722 sequence description: CTCCTGGGGG CCTCCTG 17

(2) SEQ ID NO: 1723 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1723 sequence description: BTCCTGGCCB CGGBBTTCC 19

(2) SEQ ID NO: 1724 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1724 sequence description: GTCCCTC 7

(2) SEQ ID NO: 1725 data:

(i) sequence characteristics:

(A) length: 180 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1725 sequence description: GGTGTGCGGG GCCTGGTGCC CCTGGGCCTC GGGTGCTGCC TGTGCGCTGC CTTCTTCTCC 60TGGGTCCTCG CCGGGGCCCT TGCTGCCCTG GCTGTGCCCT GGGGGTCTGG GTTCGGCTGT 120 CCCCCBGCBGG BCCBGTCCCBB TCCBGCGT GTGBTGBGTB GCCBTTCTCC TGCBGCCGBG 180

(2) SEQ ID NO: 1726 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1726 sequence description: TTCTCCTGCB GCCGBG 16

(2) SEQ ID NO: 1727 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1727 sequence description: CTTGCTGCCC TGGCTGT 17

(2) SEQ ID NO: 1728 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(G) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1728 sequence description: TCTTCTCCTG G11

(2) SEQ ID NO: 1729 data:

(i) sequence characteristics:

(A) length: 101 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1729 sequence description: GGGCGCGGGC GBGCBTCGCT TTGGGCTTTT CTCCTTTGGT TTGBGCGCGCCB GGBCCGCGCB 60 CBGCBGCBGGGCGCGGGCGB GCBTCGCBGC GGCGGGCBGG G101

(2) SEQ ID NO: 1730 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1730 sequence description: GGCBGGG 7

(2) SEQ ID NO: 1731 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1731: TCCTTTGGTT 10

(2) SEQ ID NO: 1732 data:

(i) sequence characteristics:

(A) length: 81 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1732: CCTCCTTCCT GGTCTGTCTG CCBGBCBBBT TTGGGBBGTG BBCBGTTTTG GBBCCBTGTT 60TCCCBGTCTC TGBGCTGTGG C81

(2) SEQ ID NO: 1733 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1733 sequence description: TTCTCCTTTG GTT 13

(2) SEQ ID NO: 1734 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1734 sequence description: TTTCTCCTTT GGTT 14

(2) SEQ ID NO: 1735 data:

(i) sequence characteristics:

(A) length: 156 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1735 sequence description: GCCCTGCTGC TCTTTCTGCT TCCCTTGGTG GGTTGGGCCG CTGGTTGTTC TGGGGTTCTT 60GCTGCCCCTT CTGTCCCTGT TTGCTGGTGT CTGCGCCCCC BBCBGBBGBB GCBGBCBBBT 120TTGGGBBGTG BBCBGTTTTG GBBCCBTGTT TCCTGT 156

(2) SEQ ID NO: 1736 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1736 sequence description: TTCCTGT 7

(2) SEQ ID NO: 1737 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1737: CTCTTTCTGC T11

(2) SEQ ID NO: 1738 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1738 sequence description: CCCCTTCTGT CCC 13

(2) SEQ ID NO: 1739 data:

(i) sequence characteristics:

(A) length: 272 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1739 sequence description: GCGCTCGGCC TGGTCCCGGG GGTCTCCTCT TGTTGTTGCT TGCGCCTCCT GCTGGGGGTC 60CCTCTGTTCT TGTTTTGGGG GCGGGCCCGG CCGTTGTCTT GGTTTGGGGG TTTCCGTTGG 120GGTTCTCCTG GCCCGGGCCT TGCCCGGCCG TGGTCCCGGC TTCGTTCCTG TCTCCGTCTC 180GGCTCTTCTG GGGCCTTGCG CTGTCTTTGG TGGCBCCGTC CBGTGBTGGT GCGGTBCTG 240TCGCTGCBGC GCTCGGCCTG GTCCCGGGBGB GC 272

(2) SEQ ID NO: 1740 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1740 sequence description: TCGGCCTGGT CCCGG 15

(2) SEQ ID NO: 1741 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1741 description of the sequence: TGGGGGTTTC CGTTG 15

(2) SEQ ID NO: 1742 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1742 description of the sequence: TGGTCCCGGB GBGC 14

(2) SEQ ID NO: 1743 data:

(i) sequence characteristics:

(A) length: 360 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1743 description of the sequence: GCGCGGGCCG GGGGCTGCTG GGGGTTGGCC CGGGGTGCCC CGCCGCTGGG TGCCCTCGTC 60CTCTGCGGTC GTGTCTCCTG GCTCTGGTTC CCCGCTGCGC CCGTTGTCCT CTGGGGTGGC 120 39120 120CTTCGCTCCC GGGTCTGGTT CTTGTGTTGG GGGTCCCTTT TTGGGCCTGT TGTGGCGTGG 180CTTGTGTGTT CGGTTTCTGC CCTGTCCTCC GGCGTCCCCG GBGCCTCCCC GGGGGGCBGGBT 240GBCTTTTGBG GGGGBCBCBCBG BTGTCTGGGC BTTGCCBGGT CCTGGGGBBCB GBGCCCCGGGG 300 CBGGBCCBGGGGBCG BGTGCGGGCB GCGCGGGCCG GGGGCTGCTG GGBGCCBTBG CGBGGCTGBG 360

(2) SEQ ID NO: 1744 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1744 description of the sequence: GGGGGCTGCT GGG 13

(2) SEQ ID NO: 1745 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1745 description of the sequence: TGTCCTCCGG CGTCCC 16

(2) SEQ IDNO: 1746 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1746 description of the sequence: GCCBTBGCGB GGCTGBG 17

(2) SEQ ID NO: 1747 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1747 description of the sequence: CTCTGGGGTG GCCTTC 16

(2) SEQ ID NO: 1748 materials:

(i) sequence characteristics:

(A) length: 242 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1748 description of the sequence: CCTCTTTTCT GTTTTTCCCC TCTGCCTTTG TTTGGGTTCG CTTCCTTTCT GCTTCTTCCC 60TGTGTCTCCT GTCTCCGCTT TTTTCTTCGT CTTTGTTGTT TTCTCTTCCT TGCTGBGCBB 120GBTBTCTBGB TTCTGGGGTG GTCTCGBTTT TBBBBGCTTG BGBBGCTGCB BBCBBBTTBTCC 180 BBBGTBTBTBTT TGBGGCTCCB BGGBGBTCBCGB CCBTCTTCCC BGGCBTTTTB BGTTGCTGTC 240GT 242

(2) SEQ ID NO: 1749 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1749 description of the sequence: CTGTCGT 7

(2) SEQ ID NO: 1750 for data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1750 sequence description: TGCTTCTTCC 10

(2) SEQ ID NO: 1751 for data:

(i) sequence characteristics:

(A) length: 249 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1751 sequence description: BBGTGBGBGC TGBGBGBBBC TGTGBBGCBB TCBTGBCTTC BBGBGTTCTT TTCBCCCGTT 60CTTGGCTTCT TCTGTCCGTT GGCTTCTCGT TGTCCCTGTG GGCTTCTCGT TGTCCCCCCT 120TCGGGGGCTG GTGGGGCCGT CCTTGCCTGC TGGGTTCTTG GCTTCTTCTG TCCGTTGGCT 180TCTCGTTGTC CCTGTGGGCT TCTCGTTGTC CCCCCTTCGG GGGCTGGTGG GGCCGTCCTT 240GCCTGCTGG 249

(2) SEQ ID NO: 1752 for data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1752 sequence description: CCTTGCCTGC TGG 13

(2) SEQ ID NO: 1753 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1753 sequence description: GTTGTCCC 8

(2) SEQ ID NO: 1754 data:

(i) sequence characteristics:

(A) length: 77 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1754 sequence description: TTTTCTCTTT CGCTTTCTTT TCGTCTCCTG TTCCTCCTTT TTTGCTGTTT TTTCTCCTTC 60TTCTCTCCTT TCTTTTC 77

(2) SEQ ID NO: 1755 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1755 sequence description: TCCTTTCTTT TC 12

(2) SEQ ID NO: 1756 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1756 sequence description: CTCCTTTT 8

(2) SEQ ID NO: 1757 data:

(i) sequence characteristics:

(A) length: 77 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1757 sequence description: TTTTCTCTTT CGCTTTCTTT TCGTCTCCTG TTCCTCCTTT TTTGCTGTTT TTTCTCCTTC 60TTCTCTCCTT TCTTTTC 77

(2) SEQ ID NO: 1758 materials:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1758 sequence description: CCTTTCTTTT C11

(2) SEQ ID NO: 1759 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1759 sequence description: CTGTTCCTCC TTTT 14

(2) SEQ ID NO: 1760 data:

(i) sequence characteristics:

(A) length: 126 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1760 sequence description: CTCTGTCTTG TTCTGGTCCT TCGTGGGGCT CTGTGTCGCG TGGGTGCGGC CGTGGCCGGC 60GGBCCBGGBG TTGGBGCBGGBCGGCGGGCGBGGCGGCT CBTGTTGGGB TCGGCBGGBG 120GCBCTC 126

(2) SEQ ID NO: 1761 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1761 sequence description: GGBGGCBCTC 10

(2) SEQ ID NO: 1762, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1762 sequence description: GTGGGGCTCT G11

(2) SEQ ID NO: 1763, data:

(i) sequence characteristics:

(A) length: 648 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1763 sequence description: TCTGGGGTGT CCTGGCCTTC GTGGTTCCTC TTCCTTCGTT TGCCGTCCGC GGGGGCCCCC 60GGGCCTGGCT GCGCTCCTGC CCCGCCTCTT TCCCGGGCTC TTGCGCTGGG GGGTGCTCCC 120GTGTGTTTGC GCCCTCCTCC TGGTCGCGCT TGTCGTTTTG GGGCCGGCTT TGCCCGCCTC 180CCGGCGCCTG GCCCGGCCTT CCTGGGCTGC GTGCGCGTTC TGTTCTTCTT CCTGGCTCTG 240GGGTGTCCTG GCCTTCGTGG TTCCTCTTCC TTCGTTTGCC GTCCGCGGGG GCCCCCGGGC 300CTGGCTGCGC TCCTGCCCCG CCTCTTTCCC GGGCTCTTGC GCTGGGGGGT GCTCCCGTGT 360GTTTGCGCCC TCCTCCTGGT CGCGCTTGTC GTTTTGGGGC CGGCTTTGCC CGCCTCCCGG 420CGCCTGGCCC GGCCTTCCTG GGCTGCGTGC GCGTTCTGTT CTTCTTCCTG GCGCAGGAGA 480CAGGGCAGGG CGATCAGGAG CAGCGTGAGC CAAAGGAGGA CCATCGGGAA CGCAGCTCCG 540GAACGCAGGA CAGAGGTGCC GCBGGBGBCB GGGCBGGGCG BTCBGGBGCB GCGTGBGCCB 600BBGGBGGBCC BTCGGGBBCG CBGCTCCGGB BCGCBGGBCB GBGGTGCC 648

(2) SEQ ID NO: 1764 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1764 sequence description: GBGGTGCC 8

(2) SEQ ID NO: 1765, data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1765 sequence description: GCCCCGC 7

(2) SEQ ID NO: 1766 data:

(i) sequence characteristics:

(A) length: 88 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1766 sequence description: CTCTGGTTGG CTTCCTTCGC CGGCBCBTGC TBGCBGGBBG BBCBGBGGGGGG GBBGCBGTTG 60GGBGGTGBGB CCCBBTTBB GGTGTCGB 88

(2) SEQ ID NO: 1767, data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1767 sequence description: GCCGGCBCB 9

(2) SEQ ID NO: 1768 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1768 sequence description: TTCCTTC 7

(2) SEQ ID NO: 1769 data:

(i) sequence characteristics:

(A) length: 562 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1769 sequence description: TCTGCCCTGT CCGCCGGCTC TTCGGTGGCT CGGCCCCGCT CCTTGTCTTG CCGCGGGTTG 60GTTCCTGGGC CTGGTTCTTG CGGGCGTTTC GGTCTGCTGG CTGGTCTGGG CCCGCGGTGC 120GGCGGGTGGC TTGCTGTTCT GCCTGGGCTC TCCCCTCTCC TCCTTTTCTC CCTTCCTCTG 180TCTTGCCTCC TTCCTCTGGG TCCTCTTGGC CTGGGCGCTC TTCCCCTCGG GCGGCTGCGG 240GCGCTCGTGC TGCCTGGTCC GCTCCCTGGG GGTGCTCCTT CCCTTTCCCC GCTCGTGGGG 300TTTGCGGGGC TGGGCTGCCC TGGGGGGTCT GGGCCTTTTG GGGTCGGCTG GCTGCTGCTT 360CGGGCCGCCT GGGCTTCCCT GTGCCCCTTT CCTCTGCTGG GTCCCCCTCC CGTTCCAAGC 420TGCACCGCAC AGACCGGCGC TACAGGACAG AGCCAGGCAA GCACCCATGG GGATCCAGGC 480CCAGCTGTTC CBBGCTGCBC CGCBCBGBCC GGCGCTBCBG GBCBGBGCCB GGCBBGCBCC 540CBTGGGGBTC CBGGCCCGBC TG 562

(2) SEQ ID NO: 1770 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1770 description of the sequence: TCTGCGC 7

(2) SEQ ID NO: 1771 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1771 sequence description: CCTGCTCCTG GGG 13

(2) SEQ ID NO: 1772 data:

(i) sequence characteristics:

(A) length: 257 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1772 description of the sequence: TCCCTGTTTC CCCCCTTTCG TTCTGCGTTT GCCTTTGGCG TTTTTTGTTT GTTTTCTCTC 60TCCGTCTTTC TTCTCCCCTG TGGGBBTTTC TGTGGGGBTG GCBTBCGT BGGCBGCCC 120BBGBGCTBGC BBBCTCBBBT GCBGBBGCBT CCTCCBTGGCT CTGBCGGT GGGAATTTCT 180 GTGGGGGGBTGG CATACACGTA GGCAGCTCCA AGAGCTAGCA AACTCAAATG CAGAAGCATC 240CTCATGGCTC TGAAACG 257

(2) SEQ ID NO: 1773 materials:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1773 sequence description: GCCCCGGG 8

(2) SEQ ID NO: 1774 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1774 description of the sequence: GGGTTTCT 8

(2) SEQ ID NO: 1775 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1775 sequence description: GTGGGGBTGG C11

(2) SEQ ID NO: 1776 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1776 description of the sequence: CCBBGBGCTB GC 12

(2) SEQ ID NO: 1777 data:

(i) sequence characteristics:

(A) length: 89 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1777 sequence description: GTGGGAATTT CTGTGGGGBT GGCATACACG TAGGCAGCTC CAAGAGCTAG CAAACTCAAA 60TGCAGAAGCA TCCTCATGGC TCTGAAACG 89

(2) SEQ ID NO: 1778 data:

(i) sequence characteristics:

(A) length: 249 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1778 description of the sequence: CTCAGTGGCC CCCAAAAGGA TGAGTAATAC ATGCGCCACG ATGATCATAT CCTTTTTACT 60ATGAGGCCGT GTCTGTCGTG TCTTTCCTTT GCTCTTGGTG TGTCTTTGCT GTGCCCTGCC 120TCTCTGCCCG TGTCTGTCGT GTCTTTCCTT TGCTCTTGGT GTGTCTTTGC TGTGCCCTGC 180CTCTCTGCCC GTGTCTGTCG TGTCTTTCCT TTGCTCTTGG TGTGTCTTTG CTGTGCCCTG 240CCTCTCTGC 249

(2) SEQ ID NO: 1779 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1779 description of the sequence: CCGTGTGTC

(2) SEQ ID NO: 1780 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1780 sequence description: GCCCTGCC 8

(2) SEQ ID NO: 1781 data:

(i) sequence characteristics:

(A) length: 66 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1781 sequence description: CTCBGTGGCC CCCBBBBBGGB TGBGTBBTBC BTGCGCCBCG BTGBTCBTBT CCTTTTTTBCT 60 BTGBGGG 66

(2) SEQ ID NO: 1782 data:

(i) sequence characteristics:

(A) length: 869 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1782 sequence description: GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGC GCCGCGCTCG 60GCTCCTCTCC CTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCC 120TGCGCGCGGC GCTGGCCCCT GCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC 180GCGCCGGGGC CTGTCCGCCT CTGCGGGCGC TGTCTCCTGG CTTGTCTTCC GGCTCTTCTG 240CTGGGGTGGG GCTGGGCGGC CGGCCCGGTG CTGGGGCTCC TCGGGGGGGG GGGCTCTTCC 300GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGG GTCTTGCCTG GCCTCCGGGC 360TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTG 420GCGCCCGTTT GTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCT 480CTGCTTCTCG CTCTCCTTTG TGGGGCCCTC CCTGCTGCTC TTGGTTTTGG GCTTTTTTTC 540TCTTCCTCCT TTTTCGTGCG TGGGCCTCCG CACGCCTCTT GCCACCTCCT GCGCAGGGCA 600GCGCCTTGGG GCCAGCGCCG CTCCCGGCGC GGCCAGCAGG GCAGCCAGCA GCGCGCAGCC 660GACGGCCAGC ATGCTTCCTC CTCGGCTACC ACTCCATGGT CCCGCAGAGG CGGACAGGCG 720CBCGCCTCTT GCCBCCTCTC GCGCBGGGCB GCGCGCCTTGGGG GCCBGCCG CTCCCGGGCGC 780 GGCCBGCGBGCGCGGCBGCGCGGCCBGC BTGCTTCCGCCGGCTBCC 840BCTCCBTGGT CCCGGCBGG CGGBCBGGC 869

(2) SEQ ID NO: 1783 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1783 description of the sequence: GCBGCCBGCB GCG 13

(2) SEQ ID NO: 1784 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1784 description of the sequence: CGCBGCCGBC GGCC 14 (2) SEQ ID NO: 1785 data:

(i) sequence characteristics:

(A) length: 869 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1785 sequence description: GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGC GCCGCGCTCG 60GCTCCTCTCC CTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCC 120TGCGCGCGGC GCTGGCCCCT GCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC 180GCGCCGGGGC CTGTCCGCCT CTGCGGGCGC TGTCTCCTGG CTTGTCTTCC GGCTCTTCTG 240CTGGGGTGGG GCTGGGCGGC CGGCCCGGTG CTGGGGCTCC TCGGGGGGGG GGGCTCTTCC 300GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGG GTCTTGCCTG GCCTCCGGGC 360TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTG 420GCGCCCGTTT GTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCT 480CTGCTTCTCG CTCTCCTTTG TGGGGCCCTC CCTGCTGCTC TTGGTTTTGG GCTTTTTTTC 540TCTTCCTCCT TTTTCGTGCG TGGGCCTCCG CACGCCTCTT GCCACCTCCT GCGCAGGGCA 600GCGCCTTGGG GCCAGCGCCG CTCCCGGCGC GGCCAGCAGG GCAGCCAGCA GCGCGCAGCC 660GACGGCCAGC ATGCTTCCTC CTCGGCTACC ACTCCATGGT CCCGCAGAGG CGGACAGGCG 720CBCGCCTCTT GCCBCCTCTC GCGCBGGGCB GCGCGCCTTGGGG GCCBGCCG CTCCCGGGCGC 780 GGCCBGCGBGCGCGGCBGCGCGGCCBGC BTGCTTCCGCCGGCTBCC 840BCTCCBTGGT CCCGGCBGG CGGBCBGGC 869

(2) SEQ ID NO: 1786 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1786 description of the sequence: GGGGCBGG 8

(2) SEQ ID NO: 1787 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1787 sequence description: GBBGGCBGCB GGC 13

(2) SEQ ID NO: 1788 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1788 sequence description: CCBGGBGCBG CCCC 14

(2) SEQ ID NO: 1789 and data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1789 sequence description: BGGGBGBBGG CBBC 14

(2) SEQ ID NO: 1790 data:

(i) sequence characteristics:

(A) length: 128 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1790 sequence description: CTCCTGGGGG TBCTGGGGCB GGGBBGGCBG CBGGCBBCBC CBGGBGCBGC CCCBGGGBGB 60BGGCBBCTGG BCCGBBGGG CTTGGBGB BGGBGTTCBT BGCTGGGCTC CTGGBGGGGB 120GBTBGBGC 128

(2) SEQ ID NO: 1791 materials:

(i) sequence characteristics:

(A) length: 244 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1791 sequence description: GGGGTGGBBB GGTTTGGBGT BTGTCTTTBT GCBCTGBCBT CTBBGTTCTT TBGCBCTCCT 60 TGGCBBBBCTBC GCBCCTTCBC BCBGBGCTGC BGBBBTCBGG BBGGCTGCCB BGBGBGBGBGBGBGCCBC 120GGCCBGCTTG GBBGTCBTGT TTBCGT TGBCBG TGBTTT CCTTCCGGGC TTGTGTGCTC 180TGCTGTCTCT TGGTTCCTTC CGGTGGTTTC TTCCTGGCTC TTGTCCTTTC TCTTGGCCCT 240TGGC 244

(2) SEQ ID NO: 1792 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1792 sequence description: GGBGTBTG 8

(2) SEQ ID NO: 1793 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1793 description of the sequence: GCBCTGBCBT CT 12

(2) SEQ ID NO: 1794 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1794 description of the sequence: CCGGTGG 7

(2) SEQ ID NO: 1795 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1795 sequence description: GGCCCTTGGC 10

(2) SEQ ID NO: 1796 data:

(i) sequence characteristics:

(A) length: 87 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1796 description of the sequence: GGGGTGGBBB GGTTTGGBGT BTGTCTTTBT GCBCTGBCBT CTBBGTTCTT TBGCBCTCCT 60 TGGCBBBBBBCT GCBCCTTCBC BCBGBGC 87

(2) SEQ ID NO: 1797 materials:

(i) sequence characteristics:

(A) length: 489 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1797 description of the sequence: GGGCTCCCGC CGCGBGBGGT TBTGGGCTCC CBGGBCCBCC CGCBCCGCGC GGBCGTTTBC BTTCGCCBCG CBGTGCGCGG CCGBCBTGBC GBBGTTGGGC GCBBTCBGGG TGGCGCCGCB 120GBBGTGGCCT CCGCBGCT GCBGGGBCBC CBTGBBGGGC CBCGCGCGTGGGG GCCGCGCTCG 180CCGGCCCCCC BCBBTCTCCG BGGCCBGCGC GGTGCCCCCC BGCBGCBBGG CCGGCBGGBC 240 BCBGGCGBGCGBGGGCGGCC GBGGGTCBTG GTGGGGCTGG GGCTCCGGGG TCTCTGCCCC TCCGTGCTGG TGGGGCTGGG GCTCCGGGGT CTCTGCCCCT CCGTGCCGCG TGGGGCCGCG CTCGCCGGCC CCCCCCTGCC GGGTGGGCTC CCGCCGCGCG CCGGCCTGCC GGCCCCTCGT GGGTCCTGCT GGCCGGGTCC GGGTCCCGGG GGTGGGGCGC GBGTCGGCGGGGGCGGGCGGGCGGGCGGGCCGGGGTC 489

(2) SEQ ID NO: 1798 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1798 sequence description: GGTGGGGC 8

(2) SEQ ID NO: 1799 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1799 description of the sequence: GGGGCCG 7

(2) SEQ ID NO: 1800 of the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1800 sequence description: GGCCGGGTCC GGG 13

(2) SEQ ID NO: 1801 materials:

(i) sequence characteristics:

(A) length: 317 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1801 description of the sequence: GGGCTCCCGC CGCGBGBGGT TBTGGGCTCC CBGGBCCBCC CGCBCCGCGC GGBCGTTTBC 60BTTCGCCBCG CBGTGCGCGG CCGBCBTGBC GBBGTTGGGC GCBBTCBGGG TGGCGCCGCB 120GBBGTGGCCT CCGCBGCT GCBGGGBCBC CBTGBBGGGC CBCGCGCGTGGGG GCCGCGCGCTCG 180CCGGCCCCCC BCBBTCTCCG BGGCCBGCGC GGTGCCCCCC BGCBGCBBGG CCGGCBGGBC 240 BCBGGCGBGGCGGGGCGGCGGTCBTG GTGGGGCTGG GGCTCCGGGG 300TCTCTGCCCC TCCGTGC 317

(2) SEQ ID NO: 1802 data:

(i) sequence characteristics:

(A) length: 308 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(ii) Molecular type: genomic DNA

(xi) SEQ ID NO: 1802 sequence description: CGGGBGTGGGTCCTGGBC GGCBCTGBBG GCBTCCBGGGCTCCTTCCB GTCCTTCTTTG 60TCCGCTGCCB GCBCCCCTTC BTTCCBGGGGCTGBGCCT CCBCCBGGGB CBTGBTTBGG 120 TBGBGBGBCTBG GBGGCCGGCC TCCBCCBGGGBCBTGGTCCT TCTTGTCCGC TGCCTCTCTG 180GGGTTTTCGG TCTGGGTGGG CTTTCCTCCT GGGGCTGCTG CTGGGCTCTT CTTTTTGTTT 240CTGGCCTGGT GCTCTCTCGT GCCCTTTCCC TTGGGTGTCT TGTTTTTGTG GCCTCCBCCB 300GGGBCBTG 308

(2) SEQ ID NO: 1803 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1803 description of the sequence: CGGGBGTGGG 12

(2) SEQ ID NO: 1804, the data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1804, sequence description: GCCBGCBCCC C11

(2) SEQ ID NO: 1805 materials:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1805 description of the sequence: CCBCCBG 7

(2) SEQ ID NO: 1806 materials:

(i) sequence characteristics:

(A) length: 136 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1806 description of the sequence: CGGGBGTGGGGGTCCTGGBC GGCBCTGBBG GCBTCCBGGGCTCCTTCCB GTCCTTCTTTG 60TCCGCTGCCB GCBCCCCTTC BTTCCBGGG CTGBTGGCCT CCBCCBGGGB CBTGBTTBGG 120 TBGBGBGBCTBG GBGGCC 136

(2) SEQ ID NO: 1807 materials:

(i) sequence characteristics:

(A) length: 233 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1807 description of the sequence: CCCTCBCBT CTGCTCTGBC CTGCTGGBCT CTGGBTCTGB BGBTBCGCCB TGTBGGGGCG 60GGBGTGGGGC CTGCTCCC GGCCTCCGTT GBTCCCTT GCCTCBGCCC CBGTGGGTBG 120 GBGBGBBBGGCC BGCBGBBGBGCB GGTGGCTG CBTCTTTCCT GGTGGGGCCT GCTCTCCCGG 180CCTCCGTGTG TTGCTGGGTG TTTTCCCGTC TCTGGTCTGC CTTCGGGGGT CGT 233

(2) SEQ ID NO: 1808 materials:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1808 description of the sequence: GBBGBTBCGC C11

(2) SEQ ID NO: 1809 materials:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1809 description of the sequence: CBGCCCCGB 9

(2) SEQ ID NO: 1810 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1810 description of the sequence: TCCCGTCTCT GG 12

(2) SEQ ID NO: 1811 data:

(i) sequence characteristics:

(A) length: 150 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1811 description of the sequence: CCCTCBCBT CTGCTCTGBC CTGCTGGBCT CTGGBTCTGB BGBTBCGCCB TGTBGGGGCG 60GGBGTGGGGC CTGCTCCC GGCCTCCGTT GBTCCCTT GCCTCBGCCC CBGTGGGTBG 120 GBGBGBBBGGCC BGCBGBBGGGTGGCTG 150

(2) SEQ ID NO: 1812 data:

(i) sequence characteristics:

(A) length: 222 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1812 sequence description: CCGGGGCTGC BGCBBCCTCB TCBGCTCTTG CCTGGBGTGG CTCBGCCTGG GCCTGCBGGG 60CCBCCBGGBG BBTGGCBGCB BGGBTGGCGB GGGTCCTCCBT GGCTGGGGTC BCBGBTCCTC 120TBGCTBGGCB GGGTGBCCBG BGBGGGCGGG TCCTCBTGGC TGGGGGCCTG GGCCTGCGGGG 180GCCGCTCTTG CCTGGBGTGG CTCGCCCBGB GTCTTCCCTG GT 222

(2) SEQ ID NO: 1813 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1813 sequence description: CCGGGGC 7

(2) SEQ ID NO: 1814data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1814 description of the sequence: GGGCCTGCBG GGCC 14

(2) SEQ ID NO: 1815 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1815 sequence description: GGCBGCBBGG 10

(2) SEQ ID NO: 1816 data:

(i) sequence characteristics:

(A) length: 147 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1816 description of the sequence: CCGGGGCTGC BGCBBCCTCB TCBGCTCTTG CCTGGBGTGG CTCBGCCTGG GCCTGCBGGG 60CCBCCBGGBG BBTGGCBGCB BGGBTGGCGB GGGTCCTCCBT GGCTGGGGTC BCBGBTCCTC 120TBGCTBGGCB GGGTGBCCBG BGBGGGC 147

(2) SEQ ID NO: 1817 data:

(i) sequence characteristics:

(A) length: 180 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1817 description of the sequence: CGCTGCBBTC TGCTCCGGGGG CTGCBGCBBC CTCBTCBGCT CTTGCCTGGGB GTGGCTCBGC 60CTGGGCCTGC BGGGCCBCCB GGBGBBTGGC BGCBBGGBTG GCGBGGGTCC TCBTGGCTGG 120 GGTCBCCTGGG BGGBGGGB GCBGGGGGTC CTCBTGGCTG GGGTCCCTCT CTCCCGTCCT 180

(2) SEQ ID NO: 1818 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1818 description of the sequence: GGCBGCBBGG 10

(2) SEQ ID NO: 1819 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1819 description of the sequence: GGCTGGGG 8

(2) SEQ ID NO: 1820 materials:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1820 sequence description: GGGGTCBCC 9

(2) SEQ ID NO: 1821 materials:

(i) sequence characteristics:

(A) length: 145 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1821 sequence description: CGCTGCBBTC TGCTCCGGGG CTGCBGCBBC CTCBTCBGCT CTTGCCTGGGB GTGGCTCBGC 60CTGGGCCTGC BGGGCCBCCB GGBGBBTGGC BGCBBGGBTG GCGBGGGTCC TCBTGGCTGG 120GGTCBCCTGG BGGBGGGB GCBGG 145

(2) SEQ ID NO: 1822 materials:

(i) sequence characteristics:

(A) length: 374 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1822 sequence description: GTCTTTGTTT CTGGGCTCGT GCCCCBBTCCC GGCTTCTCTC TGGTTCCGTC CTCTGTGGTG 60TTTGGCCCTG CTTCCTTTTG CCTGTTGAGG GGGCAGCAGT TGGGCCCCAA AGGCCCTCTC 120GTTCACCTTC TGGCACGGAG TTGCATCCCC ATAGTCAAAC TCTGTGGTCG TGTCATAGTC 180CTCTGTGGTG TTTGGAGTTT CCATCCCGGC TTCTCTCTGG TTCCAAGGGA GBGGGGGGGCBG 240CBGTTGGGCC CCBBBGGCCC TCTCGTTCBC CTTCTGGCBC GGBGTTGCBT CCCBTBGTC 300BBBCTCTGTG GTCGTGTCBT BGTCCTCTGT GGTGTTTGGB GTTTCCBTCC CGGCTTCTCT 360CTGGTTCCBB GGGB 374

(2) SEQ ID NO: 1823 materials:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1823 sequence description: GGGCCCC 7

(2) SEQ ID NO: 1824 materials:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1824 sequence description: GGGGGCBGC 9

(2) SEQ ID NO: 1825 materials:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1825 sequence description: CCCGGCTTC 9

(2) SEQ ID NO: 1826 materials:

(i) sequence characteristics:

(A) length: 303 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1826 sequence description: GGGCBCGGGG CBGTGGGCGG GCBBTGTBGG CBBBGCBGCB GGGTGTGGTG TCCGBGGBBT 60BTGGGGBGGC BGBTGCBGGB GCGCBGBGGG CBGTBGCBGTBGCBBT GBGGGBGGBTGBCB GCGBGGCGTG 120CCGCGGBGBC CTTCBTGGTB CCTGTGGTB CGGGBGB GCGTCGGB GGGGGTGTGG TGTCCGCTTG 180GCGGTTCTTT CGGGTGTTTC TTCTCTGGGT TGGCCTGCTG CTCGTCGTGG TCGCTCCGCT 240CCCGGGTTCG TCTCGCTCTG TCGCCCCTTC CTTCCTTGTC GTGTTCCTCC CTTCCTTGCC 300TCT 303 GGBGB GGCGGTCGGB GGGGGTGTGG TGTCCGCTTG GCGGTTCTTT CGGGTGTTTC TTCTCTGGGT TGGCCTGCTG CTCGTCGTGG TCGCTCCGCT

(2) SEQ ID NO: 1827 materials:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1827 sequence description: GGGTTGGC 8

(2) SEQ ID NO: 1828 materials:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1828 sequence description: CGGGGCBG 8

(2) SEQ ID NO: 1829 materials:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1829 sequence description: CCCGGGTTCG 10

(2) SEQ ID NO: data of 1830:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1830 sequence description: GGGTGTGGTG 10

(2) SEQ ID NO: data of s:

(i) sequence characteristics:

(A) length: 162 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1831 sequence description: GGGCBCGGGG CBGTGGGCGG GCBBTGTBGG CBBBGCBGCB GGGTGTGGTG TCCGBGGBBT 60BTGGGGBGGC BGBTGCBGGB GCGCBGBGGG CBGTBGCBGTBGCBBT GBGGGBGGBTGBCB GCGBGGCGTG 120CCGCGGBGBC CTTCBTGGTB CCTGTGGTGGBGB GGCTGTCGGB 162

(2) SEQ ID NO: 1832 data:

(i) sequence characteristics:

(A) length: 213 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1832 sequence description: GCTGCCCGGC GGGGTGTGCG CTTGGCGCTC CCGTGCTCGG TTCTCTGTCT CCCGGTCCCC 60CTTGCCTGGC GTCTCGGGCC TTCGTCCTCT TCCTCTTCTT CCTTCCGCTC CGTGGGGGCT 120GCTTGGTGGG GGCCTGTGCC TCGGGGTCCC GGGGCTTCTG GCCCTTGCCG TTCATGGTGG 180CTAGGTGGGG CGTTCBTGGT GGCTBGGTGG GGC 213

(2) SEQ ID NO: 1833 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1833 sequence description: GGTGGGGC 8

(2) SEQ ID NO: 1834 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1834 description of the sequence: GCCCGGCGGG G11

(2) SEQ ID NO: 1835 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type(2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1835 sequence description: CGGGGCTTCT GGCCC 15

(2) SEQ ID NO: 1836 data:

(i) sequence characteristics:

(A) length: 347 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1836 sequence description: GGGGTGGGTB GGCCGTGTCT GGGGGTTGGC CBTGTTGGTT GCCTCTTGGT GGTGCGCCGG 60GCGCGTCTTG GCTTTCTTCT CCTTCGGGCC CTCGGGCCGG TGCTTGTGGG CTCCTCCCGG 120GCGGCCTCCC CGGGCGGGGG CTTCTTGGCG CTGGCGGGGG GGCCTCCTGC TCTGTGGCTG 180GGCGTTCCTT GGTGTTCTGG GTGGTGGCGG GCGTGGTGGC CTCTGTGGGG GCCCGCGGCT 240GCBGGGGTTG CCTGTCTGCT TCGTCCTTTG CGCTCCCGGG CCGCCGGGGT GGGTAGGCCG 300TGTCTGGGGG TTGGCCATGT TGGTTGCCGG GCCCGCGGCT GCAGGGG 347

(2) SEQ ID NO: 1837 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1837 sequence description: CCCGGGCGG 9

(2) SEQ ID NO: 1838 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1838 description of the sequence: GGCGGGGGGG CC 12

(2) SEQ ID NO: 1839 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1839 description of the sequence: CCCGGGCCGC C11

(2) SEQ ID NO: 1840 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1840 sequence description: GGCCGTGT 8

(2) SEQ ID NO: 1841 data:

(i) sequence characteristics:

(A) length: 664 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1841 sequence description: CGGTTTCCTT TGCGGTCTTG GCCCGGGCTC CGGGTGCCCG CCCGCCCGCC GGCCGCCGCC 60CCGCCGGGCT GTCCCCGCCC CGCCCCGGCC CGGGGCGCGG GGGCGGCCCT CCCGCCCCTC 120TGGGCCGGCG CGGGCGTCGG CCGCTCGCGC CTGGGGTTCC CTCTCCTCCC CCTGTGCGCC 180TGCCTCTTGC TCTTCTGCGT CCGCTGCCTT CTCCCCTCTC CTCGGCCGTT GCCTGTGCTG 240TCCGTCCTGT CGCCCTTCCG TGGTGCTGTT GTCTCTTCTG CCCTCGGTGT GCTGGTGCTG 300GTGGTGGTGC CTCTGCCCGT GCTCGCCCTG CCTGGGCTGG CCTCTTCGGG TGTGGCTTTG 360GGGCTCTCTT GGTTGCCCTT TCTTCTCGTG GTGCCTCTCC TCCCTGGCTT GGTCGTTGTC 420TGGGGTGGTG CTCCTCTCCC TTTCCCTGCT GGCCGTTTGT CCTGTTTTCT GTCTTCCTCT 480TTCCTCCTGT TTCTCCGTTT GGCTTGCTGC TTGCGGGGCT GTCTCCCTTG CCCCTGTGGG 540CTTTCCCTGG TCCGGTCTTC TCCTTGGGGG TCGCCCTTCT TGGTGGGCTG GCTCGTCTGT 600CTTTTTCCTT CCTGGGGGTG GCCGTTGTGG GCGGTGTGGT CCGCCTTGCC TCTGCTGGTC 660TTTC 664

(2) SEQ ID NO: 1842 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1842 sequence description: GGCCCGGGC 9

(2) SEQ ID NO: 1843 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1843 sequence description: GCCGGCGCGG GCG 13

(2) SEQ ID NO: 1844 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1844 sequence description: GCCTGGGCTG GCC 13

(2) SEQ ID NO: 1845 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1845 sequence description: GGGGGTGGCC G11

(2) SEQ ID NO: 1846 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1846 sequence description: GGGGGTGGCC GTTGTGGGCG G21

(2) SEQ ID NO: 1847 data:

(i) sequence characteristics:

(A) length: 266 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1847 sequence description: GBTGTTTGTT BCCBBBGCBT CBBGBBTBGC TTTGCTBTCT BBGGBTCBCB TTTBGBCBTB 60GGBBBBCGCT GTBGGTBGGTGTCBGB BBGBTGCT TBCTTCBCB CBGBGCTGCB GBTCBGGB 120BGGCTGCCBB GBGBGCGCGCCBCG GCCBGCTTGGBGTCBTGTTT BCBCBCBGTG BGGTGCTCCG 180GTGGCTTTTT GCTTGTGTGC TCTGCTGTCT CTGTTCCTTC CGGTGGTTTC TTCCTGGCTC 240TTGTCCTTTC TCTTGGCCCT TGGCCC 266

(2) SEQ ID NO: 1848 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1848 sequence description: GCTCCGG 7

(2) SEQ ID NO: 1849 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1849 sequence description: CBBGBBTBGC 10

(2) SEQ ID NO: 1850 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1850 sequence description: CBCBCBCBGTGB GGTGC 15

(2) SEQ ID NO: 1851 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1851 sequence description: BCCBBBGCBT CBBGBBTBGC 20

(2) SEQ ID NO: 1852 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1852 sequence description: GCCBBGBGBG CCBCGGCCBG C21

(2) SEQ ID NO: 1853 data:

(i) sequence characteristics:

(A) length: 196 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1853 sequence description: GBTGTTTGTT BCCBBBGCBT CBBGBBTBGC TTTGCTBTCT BBGGBTCBCB TTTBGBCBTB 60GGBBBBCGCT GTBGGTBGGTGTCBGB BBGBTGCT TBCTTCBCB CBGBGCTGCB GBTCBGGB 120BGGCTGCCBB GBGBGCGCGCCBCG GCCBGCTTGGBGTCBTGTTT BCBCBCBCBGTG BGGTGCTCCG 180GTGGCTTTTT GCTTGT 196

(2) SEQ ID NO: 1854 data:

(i) sequence characteristics:

(A) length: 400 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1854 sequence description: ACAGGGGCTG TAATCTTCAT CTGCAGGTGG CATGCCAGTG AAATTTAGAT CATCAAAATC 60CCACATCTGT GGATCTGTAA TATTTGACAT GTCCTCTTCA GTTTCAGCAA TGGTTTGATC 120TAACTGAAGC ACCGGCCAGG BCBGGGGCTG TBBTCTTCBT CTGCBGGTGG CBTGCCBGTG 180BBBTTTBGBT CBTCBBBBTC CCBCBTCTGT GGBTCTGTBB TBTTTGBCBT GTCCTCTTCB 240GTTTCBGCBB TGGTTTGBTC TBBCTGBBGC BCCGGCCBGG TGGCTCGGTG CTTCTGCCCC 300TGTTGTTGCG GCGCTCGGTT GGTGTGGCCC CTGTGGTGCT TCGTTTCCCC CTCTTTCTCT 360TTGTTCGGGG GTTCTTGTGG CGGGCTGCTT GTCTCGTTCC 400

(2) SEQ ID NO: 1855 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1855 sequence description: CBGGGGC 7

(2) SEQ ID NO: 1856 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1856 sequence description: GCBGGTGGC 9

(2) SEQ ID NO: 1857 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1857 sequence description: GCGGCGCTC 9

(2) SEQ ID NO: 1858 data:

(i) sequence characteristics:

(A) length: 140 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1858 sequence description: ACAGGGGCTG TAATCTTCAT CTGCAGGTGG CATGCCAGTG AAATTTAGAT CATCAAAATC 60CCACATCTGT GGATCTGTAA TATTTGACAT GTCCTCTTCA GTTTCAGCAA TGGTTTGATC 120TAACTGAAGC ACCGGCCAGG 140

(2) SEQ ID NO: 1859 data:

(i) sequence characteristics:

(A) length: 140 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1859 sequence description: BCBGGGGCTG TBBTCTTCBT CTGCBGGTGG CBTGCCBGTG BBBTTTBGBT CBTCBBBBTC 60CCBCBTCTGT GGBTCTGTBB TBTTTGBCBT GTCCTCTTCGB GTTTCBGCBB TGGTTTGBTC 120TBBCTGBBGC BCCGGCCBGG 140

(2) SEQ ID NO: 1860 data:

(i) sequence characteristics:

(A) length: 346 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1860 sequence description: CTTGBGCBGG BBGCTCTGGG GCBGGG GG GTGG CTTCCTGCBC 60 TGTCGBGT GCBCTGC BCTGC BCBGCBGCBG CTGCBGGGC BTCBGCTTCB TGGGGCTCTG 120GGTGGCBGGT CCBGGGC BTCCBTCGGGC GCTTGGC GTCTGGGTGG GGCTGGGCTG CBGGCTCCGGC GCGGTCCBGC 180CBTGGGTCTG GGGGGCTGGGC CBGGC GGGCGGGCGG GTGCGGGCTG CGTGCTGGGG 240GCTGCCCCGC AGGCCCTGCG GTCCBGCCBT GGGTCTGGGG GCTGGGCTGC BGGCTCCGGGG 300CGGGCGGGTG CGGGCTGCGT GCTGGGGGCT GCCCCGCAGG CCCTGC 346

(2) SEQ ID NO: 1861 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1861 sequence description: GBGCBGGBBG 10

(2) SEQ ID NO: 1862 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1862 sequence description: GCCBCBCBGCBG CBGC 14

(2) SEQ ID NO: 1863 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1863 sequence description: GGGTGCGGGC 10

(2) SEQ ID NO: 1864 data:

(i) sequence characteristics:

(A) length: 172 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1864 sequence description: CTTGBGCBGG BBGCTCTGGG GCBGGGBGCT GGCBGGGCCC BGGGGGGTGG CTTCCTGCBC 60TGTCCBGBGT GCBCTGCC BCBGCBGCBG CTGCBGGGCC BTCBGCTTCB TGGGGCTCTG 120GGTGGCBGGT CCBGGGCGCGCGGGCGCGCGCGGGCGCGCGGGCGGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGAGAGG 172

(2) SEQ ID NO: 1865 data:

(i) sequence characteristics:

(A) length: 818 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1865 sequence description: GCBCCGCCTG GBGCCCTGGG GCCCCCCTGT CTTCTTGGGG BGCGCCTCCCTCTC CGGCCBGCTC 60CBCGTCCCGG BTCBTGCTTT CBGTGCTCBT GGTGTCCTTT CCBGGGGBGB GBGGGGGGCTGG 120TCCTCTGCTG TCCTTGCTGG TGCTCBTGGT GTCCTTTCCG CCCTGGGGCC CCCCTGTCTT 180CTTGGGGCCT CTTCCCTCTG GGGGCCGTCT CTCTCCCTCT CTTGCGTCTC TCTCTTTCTC 240 35240 240TCTCTCTCTT CCCCTTTCCC GCTCTTTCTG TCTCGGTGTC TGGTTTTCTC TCTCCGCTGG 300CTGCCTGTCT GGCCTGCGCT CTTGGCCTGT GCTGTTCCTC CTCCGGTTCC TGTCCTCTCT 360GTCTGTCGCC CCCTCTGGGG TCTCCCTCTG GGTGGTGGTC TTGTTGCTTG GGCTGGGCTC 420CGTGTCTCCB GTGCTCBTGGTGTCCGCTGB GGGCGTGCGCGTGCGCGTCT GCTGGCGCTG GTCCTCTGCT 480GTCCTTGCTG GTGCTCBTGG TGTCCTTTCC GCCCTGGGGC CCCCCTGTCT TCTTGGGGCC 540TCTTCCCTCT GGGGGCCGTC TCTCTCCCTC TCTTGCGTCT CTCTCTTTCT CTCTCTCTCT 600TCCCCTTTCC CGCTCTTTCT GTCTCGGTGT CTGGTTTTCT CTCTCCGCTG GCTGCCTGTC 660TGGCCTGCGC TCTTGGCCTG TGCTGTTCCT CCTCCGGTTC CTGTCCTCTC TGTCTGTCGC 720CCCCTCTGGG GTCTCCCTCT GGCGTGGTGG TCTTGTTGCT TGGGCTGGGC TCCGTGTCTC 780CBGTGCTCBT GGTGTCCGCT GBGGGCGT CTGCTGGCTGGCGTGCTGGCTGGCTGGC 818

(2) SEQ ID NO: 1866 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1866 sequence description: GGGGCCCCCC 10

(2) SEQ ID NO: 1867 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1867 sequence description: GGGGGCCGTC T11

(2) SEQ ID NO: 1868 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1868 sequence description: CCBGGGGBGB GBGGGGGGCTGG 20

(2) SEQ ID NO: 1869 data:

(i) sequence characteristics:

(A) length: 364 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1869 sequence description: CTCGGTBGBC GCGCGCTCGBBC TCGGGTGGGC CGGTGGTGBG CGGCGGCGBC BCGCGGBBGG 60CCCTGCGCGC CGBGBTCBCC TGCBGGGBGB BGTBGGCTTG CBGCBGGBCT CCCBGGBGGG 120TGBCBGCBGC CBGTBGCT BCCTCGTCCT TCBTGGTBCC GTCGGTGTGGGGGGGCBCGGGC 180TGTGTGTGBB GGCGBGCTGGG GCCCCGTCTG CTGCTCCTCG TGCCGCCTCG TCCTTCATGG 240TACCGTCGGT GTGGTGGCCT CGGGTGGGCC GGTGGTGGGG CGCGCGCGCT CGCGTGGCTC 300CGGCTCTTCT TTCCCGGCTC CGTCGGCCCG GGGGCCTTGG TCTCCCTCGT CCTTCGBTGGT 360BCCG 364

(2) SEQ ID NO: 1870 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1870 sequence description: GCBGCBGGBC 10

(2) SEQ ID NO: 1871 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1871 sequence description: CCCGGCTCCG 10

(2) SEQ ID NO: 1872 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1872 description of the sequences: CGGCCCGGGG GCC 13

(2) SEQ ID NO: 1873 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1873 description of the sequences: CBCGCGG 7

(2) SEQ ID NO: 1874 data:

(i) sequence characteristics:

(A) length: 200 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1874 description of the sequences: CTCGGTBGBC GCGCGCTCGBBC TCGGGTGGGC CGGTGGTGBG CGGCGGCGBC BCGCGGBBGG 60CCCTGCGCGC CGBGBTCBCC TGCBGGGBGB BGTBGGCTTG CBGCBGGBCT CCCBGGBGGG 120TGBCBGCBGC CBGTBGCT BCCTCGTCCT TCBTGGTBCC GTCGGTGTGGGGGCBCGGGC 180TGTGTGTGBB GGCGBGCTGGG 200

(2) SEQ ID NO: 1875 data:

(i) sequence characteristics:

(A) length: 530 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1875 description of the sequences: BCCGGCGGBG CCGCCBGGGT GGBCTGGGBG TGGGTTTCTC CCCGCCGTTC TCBCCCBCCG 60CGCTGBGCTC BGCGCCTTBBG BCTGCTGTTT CTGGBGCTCC TTGGCBBGCC BCBBBCBGCB 120 GBGBGBGBGBGBBBBT CBTGBGBB TBBTTC TGBBBBBBBBBG GGBTCBBB CCTCCGTTTC 180CCCGTTCGCC TGGCGCGCGC TGCGGGTTCC TCGTGGGTTT CTCCCCGCCG TTCTCCGGTC 240TGTTGCCTTT GTGGGCTTCT TGTCTTTTTG GCTGTTCTTT TCCTGCTTGG CGTCTTTTCC 300TTTCTTTGTG CTCGGTTGTG GGTCCGCTGG TCCTTTGCCC TGTGTGTTTC TGCTGCCCGT 360TCGCCTGGCG CGCGCTGCGG GTTCCTCGTG GGTTTCTCCC CGCCGTTCTC CGGTCTGTTG 420 63420 420CCTTTGTGGG CTTCTTGTCT TTTTGGCTGT TCTTTTCCTG CTTGGCGTCT TTTCCTTTCT 480TTGTGCTCGG TTGTGGGTCC GCTGGTCCTT TGCCCTGTGT GTTTCTGCTG 530

(2) SEQ ID NO: 1876 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1876 description of the sequences: CCGGCGGBGC CGCCBGGGTG GBC 23

(2) SEQ ID NO: 1877 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1877 description of the sequences: CCGCCBGGG 9

(2) SEQ ID NO: 1878 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1878 description of the sequences: GGCGCGCGC 9

(2) SEQ ID NO: 1879 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1879 description of the sequences: GTGGGTCCGC 10

(2) SEQ ID NO: 1880 data:

(i) sequence characteristics:

(A) length: 399 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1880 sequence description: GCCCTGTCGG GCGGGAAGCC TCTCTCCTCT CCCCAGATCC GCGACAGGCC GCAGGCAAGA 60ACCAGCGCAA CCAGGGCGCG TCCGCACAGA CTTGGAGGCG GCTGCATGCT GCTACCTGCT 120CCAGAAGCGT CCGGTGGCCG CCGCGCCCTG TCGGGCGGGB BGCCTCTCTCTCTCTCCTCCCBG 180BTCCGCGBCB GGCCGCBGGC BBGBBCCBGC GCBBCCBGGGCGCGTCCGCB CBGBCTTGGB 240GGCGGCTGCB TGCTGCTBCC TGCTCGGGCG GGBBGCCTCC GGTGGCCGCC GCGCGTCCGG 300TGGCCGCCGC GCCTCTCTCC TCTCCCCGTG GCCCTGTCGG GCGGGTCCTG CCGTCCTGTC 360TCCTTTTCTT TTGCTGTCTT GTCTTCCCGT CTCTGCTTT 399

(2) SEQ ID NO: 1881 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1881 sequence description: CGGGCGGGBB GCC 13

(2) SEQ ID NO: 1882 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1882 sequence description: CGGGCGGG 8

(2) SEQ ID NO: 1883 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1883 sequence description: CCGCBCBGBC 10

(2) SEQ ID NO: 1884 data:

(i) sequence characteristics:

(A) length: 144 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1884 sequence description: GCCCTGTCGG GCGGGAAGCC TCTCTCCTCT CCCCAGATCC GCGACAGGCC GCAGGCAAGA 60ACCAGCGCAA CCAGGGCGCG TCCGCACAGA CTTGGAGGCG GCTGCATGCT GCTACCTGCT 120CCAGAAGCGT CCGGTGGCCG CCGC 144

(2) SEQ ID NO: 1885 data:

(i) sequence characteristics:

(A) length: 144 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1885 sequence description: GCCCTGTCGG GCGGGBBGCC TCTCTCCTCT CCCCBGBTCC GCGBCBGGCC GCBGGCBBGB 60BCCBGCGCBB CCBGGGCGCG TCCGCBGB CTTGGBGGCG GCTGCBTGCT GCTBCCTGCT 120CCBGBBGCGT CCGGTGGCCG CCGC 144

(2) SEQ ID NO: 1886 data:

(i) sequence characteristics:

(A) length: 784 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1886 sequence description: GTCTGTCCTC CCCGTCTCCT CCCACTGCTT CTCCCGGGGG CTTCCCCGGC TTCGGGTGGC 60CGGTGTCCCG GGCTCCGGCG CGGCGGCGGC TTCGGCTGCG GGTGGGTGGC GCGGGCTGCC 120GGGTCCGCGC GGCGCCTGGG CCCTTGTGCT GCTTTTTGCT TGTTCCGTTC TGGCTGCTCC 180 CGGTGTCCCG GGCTCCGGCG CGGCGGCGGC TTCGGCTGCG GGTGGGTGGC GCGGGCTGCC 180GGTCTGTGTT GTGGTTGTTT TGTTTCTTCT TGGGTGTGGG CCTTGCGGTT TTGGCTGTGG 240GCCCTTTGGG GCCTTGGCTT CTGGCTCGTC TGTCCTCCCC GTCTCCTCCC ACTGCTTCTC 300CCGGGGGCTT CCCCGGCTTC GGGTGGCCGG TGTCCCGGGC TCCGGCGCGG CGGCGGCTTC 360GGCTGCGGGT GGGTGGCGCG GGCTGCCGGG TCCGCGCGGC GCCTGGGCCC TTGTGCTGCT 420TTTTGCTTGT TCCGTTCTGG CTGCTCCGGT CTGTGTTGTG GTTGTTTTGT TTCTTCTTGG 480GTGTGGGCCT TGCGGTTTTG GCTGTGGGCC CTTTGGGGCC TTGGCTTCTG GCTCCATCCA 540CATGATTGCT TAGATTTGTG CTGTATCTCT CAGGATTATC ACTGATTACA CATCCAACCA 600GTGCCAGCCA AAAGGATGCC CTGAGGCAAA GGGTTTCCAT CTTGAGGCAA ATTTGAGGAC 660BTCCBCBTGB TTGCTTBGBT TTGTGCTGTB TCTCTCTCBGGB TTBTCBCTGB TTBCBCBTCC 720 BBCGB BGCCBGGCBGGGTTCCBGTTGB GGCBBBTTTG 780BGGB 784

(2) SEQ ID NO: 1887 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1887 sequence description: GBGGCBBBGG G11

(2) SEQ ID NO: 1888 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1888 sequence description: GCCBGCCBBB BGGB 14

(2) SEQ ID NO: 1889 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1889 sequence description: CGCCTGGGCC C11

(2) SEQ ID NO: 1890 data:

(i) sequence characteristics:

(A) length: 349 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1890 sequence description: CTGCTGBGGC TTGGGTCTCC GGGCGBTTCT CTGCBGBBGB TGCTCBBBGG GCTCCGGCBG 60TTCCTCCTTG BTCTGGTCGC TGTCGTBCCB GTCGGBCCBG TBBTTCBGBT CBTCBTTGGC 120TCCTBTTTCT TCTGCBCB GCTGBGTGGB GBCBBGBBBB BBGBCTGCCB BGGCCGBG 180GBTTTTCBTG TTGGBTTTTG CGBCGGBCBG TCCCGCGGGG TGCTGAGTTT CTCTGGTTCC 240TCCGBGCGCB CGTGGTCGCT CCGCGTTTCT CTGGTTCCTC CGGTCCCGCG GGGTGCTGTC 300TGGTCGCTGT CGTGGCTTGG GTCTCCGGGC GGTTTCCTTC CTTTTCCGC 349

(2) SEQ ID NO: 1891 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1891 sequence description: CTCCGGGCGB 10

(2) SEQ ID NO: 1892 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1892 the sequence depicted: GGCCBCGBGG 10

(2) SEQ ID NO: 1893 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1893 sequence description: GGGTCTCCGG GCG 13

(2) SEQ ID NO: 1894 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1894 sequence description: GGGTCTCCGG GCGG 14

(2) SEQ ID NO: 1895 data:

(i) sequence characteristics:

(A) length: 250 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1895 sequence description: CTGCTGBGGC TTGGGTCTCC GGGCGBTTCT CTGCBGBBGB TGCTCBBBGG GCTCCGGCBG 60TTCCTCCTTG BTCTGGTCGC TGTCGTBCCB GTCGGBCCBG TBBTTCBGBT CBTCBTTGGC 120TCCTBTTTCT TCTGCBCB GCTGBGTGGB GBCBBGBBBB BBGBCTGCCB BGGCCGBG 180GBTTTTCBTG TTGGBTTTTG CGBCGGBCBG TCCCGCGGGG TGCTGAGTTT CTCTGGTTCC 240TCCGBGCGCB 250

(2) SEQ ID NO: 1896 data:

(i) sequence characteristics:

(A) length: 662 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1896 sequence description: GGGCTBBGBT GBTCCBTC BCTBCCBCCBC TGCCBCCBC BGGTCBCC BCBBTGBCCG 60TGTBGGCBGC TGCCBBBGG BCBBTTTGCC BGGCTGGTTG CBCGBBCTGB TTGGGTTCCG 120 BGGTGTGTTBGTTBGT GGBGBTGTTT GGGGGGBGGT CTGBGTCCGGBGGBCG TTBTTT 180 CGBBGCGGTBCGGTCGBCCC BGCTBCTBTG TBTCBTBCBBCCCC CCCTGCCGCTGCGGCGGTCGGTCCGTCGG 240 BGP 300ACCACAGAGG TCACCACAAT GACCGTGTAG GCAGCTGCCC AAAGGACAAT TTGCCAGGCT 36360 36420 39480 AACCCCCCTC TGCAGCAGAG TCCTGTCGTG GCGCCTGGGG CTCAGGGTCC GTCCTGTCGT GGCGCCTGGG GCTCTTCTTT TGTGGGCTCT TTGGTGGCTG TGGCTGTGGT CTCTGTGGTT GCTGCCCTGG GTCTGGGGGT GTGGCCTTGG GGCCGTCCTC TGGCTCCTCC TCGTGGGCCC CC 662 TCGTCGTCG 662 TGBCG 120 BGGTGTGTGTGTGTGTTBGTTBGTGT 2 GGCGGTCGGTCGCTCGCTCGBCCGBCCGBCBCCGBCBCCGBCBCBCCGBCCG

(2) SEQ ID NO: 1897 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1897 sequence description: GGGBGGBCG 9

(2) SEQ ID NO: 1898 data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1898 description of the sequence: GGGTCCG 7

(2) SEQ ID NO: 1899 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1899 description of the sequence: GGGCCCCC 8

(2) SEQ ID NO: data of 1900:

(i) sequence characteristics:

(A) length: 567 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 1900 sequence description: GGBGCTGBTB CTGCBGATTT CBGBGGGBBG BBCCCTTGBTB CTCBCCBGCT TCBGCTCTGG 60 BGCBBGBG BBBGBGBGBGBGGGGGGGBGBG GBBGBBGCBG CBBGTTTCTCTCTCCCCB GBGBGBGGCTGC 120CTGBGCBBBT GCTGGTTTTC CTTTCCBGTC TTGGGTTTTB TBBCCCBG BBGGCBBGBG 180 BGGGGCGGGGCGGG CGTTTTCTTC TCTCGCTGGT TTTCCTTTCC TGGCAGTGGG TGGGGGTGGG 240GGTGGGGTGG CTTCCTTGTT CCTGGGGGTG TCCTCTTGCT CTGGGCTTTT CTCCCCTTTT 300CCTTCCTGTC TGTTTTCCTG GGGCTCTCCT CTGTCTCTGT GTCCTTGCCC TGGCCCTCTT 360CCCTCTCCTG TCTCCTGTCC CTGTGTTCCG CCCGTCTTCC CTCTCCTGAC CTCCTTTTCC 420TCCGCTGGGT GGGGCCCTGC CTGTTCTCTG CTCCCTGGCT TGGGGTTTCT TCTGTGTGTC 480TTCTTCCTCT GTTGGCTGGC TTTCTCCTTC TTTTGTCTTC CTGGGTGCCC CTTCTTCCTT 540TCTTGGGTCC TTGGTGCTTG GGCTGGG 567

(2) SEQ ID NO: 1901 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1901 sequence description: GGBGCBCBBG 10

(2) SEQ ID NO: 1902 of the data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1902 the sequence of which describes: GBBGCBGC 8

(2) SEQ ID NO: 1903 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1903 sequence description: GGGGCBBGGC G11

(2) SEQ ID NO: 1904 data:

(i) sequence characteristics:

(A) length: 190 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1904 sequence description: GGBGCTGBTB CTGCBGATTT CBGBGGGBBG BBCCCTTGBTB CTCBCCBGCT TCBGCTCTGG 60 BGCBBGBG BBBGBGBGBGBGBGGGGGGGBGBG GBBGBBGCBG CBTCTTCCCB GBGBGBGBGGCTGC 120CTGBGCBBBT GCTGGTTTTC CTTTCCBGTC TTGGGTTTTB TBBCCCBG BBGGCBBGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGBBGCGGGCGGGCGGBBGCGGBBGB 60BGCB

(2) SEQ ID NO: 1905 data:

(i) sequence characteristics:

(A) length: 2028 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1905 sequence description: GCGTCTTGGG GTGCBGGGCC CBTCCTGCTG CGCCTGGGCG CTGCTGTGCG TCCGTCTGCT GGGGGGCCGG GGTGGCTGGG CCCTGCTTGC CGCACGACCC CGGGCCGACC CGAGGCTCGG 120GGGGCTGTGT TCTGGCGCTG GTGGGCTTGG GCCCCTCTGG GGGCTGGGTT TCCTGCTGCG 180 GGGGCTGTGT TCTGGCGCTG GTGGGCTTGG GCCCCTCTGG GGGCTGGGTT TCCTGCTGCG CCTGGGCGCT GGCGTCTTGG GGTGCGGGGC CGGGGGGCCG GGGGGCCGCT GTTCGTGGGC 240CTGGGGGTGC CTGTGGCTGC CGGTTGCCCC GGTTGGTGGC GCCGTCCTGC TGCCGGTCGT 300TGGCTGGGTC CCCCCGCCCG TTTCCTGGGG TCCGCGTGGG GTGCTCCGGT TCCTCGTGCC 360GCTGCTGCCT TGTCTTTCCG GCCGTGGCGG CGTGGTGGTC CGCCCCCCCT GGCCTTCTGC TCGGGGTCTG GCTGGTTGCC GGTGCCCTTG GCGGCGGTCT TCTTCCTGGT GGCTCTGGGC 480CCGGCCGGTC TCGGGCGTCT CGTGTTCGCT CTTGTGCTGT TCCGGCCGCT CCTTCCTCTT CCGCCGCCGC CGCTCCCCGC CCGCTCGTCG CCCTGGCCCG GCCTCCTCCT GGCCGCTGTC 600TCGGGCGGCG GCCTTGGCGC TCCGTTTGGG GCTGCCTCTG GCGCTTCCGG CCCTCGGCCT 660GGGCGCTCTC TTCCGCCTGT GCTGGTGGCC CTCGTGGGCC CCTCCTGGCC TCCGGTGTCC TGTGGTCCCC CGGCTGGTGG CCGGGCCGGT TGGGCGGGCG TGGGCGCCGG CGGGTCCTCC 780GGGCTGCCCT TCTCCGCCGG GGGTCCCGCG CTCCTGCTGT TCCCTGGGCT CTTCTGCCTC 840TCTCCTGGGT GGGTGCTGGG TGCCGGGGTC TCCGGGCTTG CCCCGCGCTG CTGGGCGTTC TGCGGTCTTG GGGTTGTCTG TGGCCCCGCT CGTGTCGCCC TCCGTCGCCC GTCGCCGGCC 960TCGTCCCCTC CTGGGTGCGC GGCGGGCTGG TCCTGGCGTT TTGCTCCTTC CTGGGCGTCT 1020TGGGGTGCBG GGCCCTC GCTGCGCCTG GGCGCTGCTG TGCGTCCGTC TGCTGGGGGG 1080CCGGGGTGGC TGGGCCCTGC TTGCCGCACG ACCCCGGGCC GACCCGAGGC TCGGGGGGCT1140GTGTTCTGGC GCTGGTGGGC TTGGGCCCCT CTGGGGGCTG GGTTTCCTGC TGCGCCTGGG 1200CGCTGGCGTC TTGGGGTGCG GGGCCGGGGG GCCGGGGGGC CGCTGTTCGT GGGCCTGGGG 1260GTGCCTGTGG CTGCCGGTTG CCCCGGTTGG TGGCGCCGTC CTGCTGCCGG TCGTTGGCTG 6861320 9 GGGGTCCGCG TGGGGTGCTC CGGTTCCTCG TGCCGCTGCT 1380GCCTTGTCTT TCCGGCCGTG GCGGCGTGGT GGTCCGCCCC CCCTGGCCTT CTGCTCGGGG 1440TCTGGCTGGT TGCCGGTGCC CTTGGCGGCG GTCTTCTTCC TGGTGGCTCT GGGCCCGGCC 1500GGTCTCGGGC GTCTCGTGTT CGCTCTTGTG CTGTTCCGGC CGCTCCTTCC TCTTCCGCCG 1560CCGCCGCTCC CCGCCCGCTC GTCGCCCTGG CCCGGCCTCC TCCTGGCCGC TGTCTCGGGC 1620GGCGGCCTTG GCGCTCCGTT TGGGGCTGCC TCTGGCGCTT CCGGCCCTCG GCCTGGGCGC 1680TCTCTTCCGC CTGTGCTGGT GGCCCTCGTG GGCCCCTCCT GGCCTCCGGT GTCCTGTGGT 1740CCCCCGGCTG GTGGCCGGGC CGGTTGGGCG GGCGTGGGCG CCGGCGGGTC CTCCGGGCTG 1800CCCTTCTCCG CCGGGGGTCC CGCGCTCCTG CTGTTCCCTG GGCTCTTCTG CCTCTCTCCT 1860GGGTGGGTGC TGGGTGCCGG GGTCTCCGGG CTTGCCCCGC GCTGCTGGGC GTTCTGCGGT 1920CTTGGGGTTG TCTGTGGCCC CGCTCGTGTC GCCCTCCGTC GCCCGTCGCC GGCCTCGTCC 1980CCTCCTGGGT GCGCGGCGGG CTGGTCCTGG CGTTTTGCTC CTTCCTGG 2028

(2) SEQ ID NO: 1906 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1906 sequence description: GCGGGGCCG 9

(2) SEQ ID NO: 1907 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1907 sequence description: CGGGGGGC 8

(2) SEQ ID NO: 1908 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1908 sequence description: GCGCGGCGGG C11

(2) SEQ ID NO: 1909 data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1909 sequence description: GCGTCTTGGG GTGCBGGGCC CBTCCTGCTG CGCCTGGGCG CTG 43

(2) SEQ ID NO: 1910 of the data:

(i) sequence characteristics:

(A) length: 535 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1910 sequence description: CTGCCCCGTT TTTTTTGBTCCT CBCBCBTGCCGT GGGGGGBGGBCB BTGGCTGCCT CCCCCCGGGTT 60TCTGCTGCTT GCTGCTTCTT TCCCGTCTCC CTTCTTTCCC GTCTCCTTTT TGCCTCTTTG 120GGTTCCTGTT GTTTCTGGCC TGCTTGGTGG CGGCTTGTGC GTTTCCTCTC TCTTCTCTTG 180GGTCTCCGCT TCTCGTCCTG CCTTTTCCTG TCTCTGTCGC GCCGTTCCTC CTCCGGCGTC 240CTCCTGCCCT GTGCTGTTTG CCTCGGGTGG TGCGGGTCCC GGTGCTCCCC CGGCGGGCCG 300GCTGGTTGCC TGGGCCTGTC TGGTGGGGTG TGGGGCCGCT GGGTTGGGGG TGTGGTGGGC 360TCTTCTGTGG CCTGTGGGGC TGTTGGTGTC TCTGTGGGCG TGTGCTGGGT CTTGGGGCTT 420CCTCCCTTGT GCTGGGTGCG GCCTCCCCGC CCCCCTTCTG GGCCGGTGGC CTGGCTCCTT 480GTGGGCGCTT CTGGCTCTTG CCCTGTCCTT CTTCGCCTCG TGGCTGCTGG GCTGC 535

(2) SEQ ID NO: 1911 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1911 sequence description: CCCCGGG 8

(2) SEQ ID NO: 1912, data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1912 sequence description: GGGGCCGCTG GG 12

(2) SEQ ID NO: 1913 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1913 sequence description: GGGGGTGTGG 10

(2) SEQ ID NO: 1914 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1914 sequence description: CTGCCCCGTT TTTTTTGBTCCT CBCBTGCCGT GGGGBGGBCB BTGG 44

(2) SEQ ID NO: 1915, data of:

(i) sequence characteristics:

(A) length: 756 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1915 sequence description: CGGCCCTTCT CACTGGAGGC ACCGGGCAGT CCTCCATGGG AGGGTTGGGC TTGGCCGGGG 60CTGCCCGGTG CCTCCTCTTG GCTGGTCCCT CGTTGTCCTT GGGCCCCGCT CCCGCTGCTC 120GGCCTCCGTG TTCTTTGGCC TCTTGCTCCG CCTGCTGTCT TGTCCCGTCC CCTCCTCGCT 180TGCGTTTCCC TCTTCCTTGT CTTCCAGGCC TTCCTCCGCT TCCGCTGCTG GGGCCCGCGC 240CGGGGGGGCG CTCGGCTCCG CGGCTTCCTC CCCGGCTGGG GGGTCCTGGT CTCCGGGGCC 300TGCGGCTCGC GGGCTCGGGG CTGCGTGCGC CGCGCGCGGC GTCCGCGGTG GGTGGCGCTG 360TCCCGCCGTG GTGTGTCTCC GTTCTCGTCC TGCGCCGTCC TGGTCTGCCC GTGGGGTCCT 420GGGCGTGGTG GGGGGCGTCT GGTGCCTCGT CTGCCCCGTG GGGCTTCGGG CTCGGGGCTG 480TTCGTCCCCC CTGCCGCTCT GTGGCCTCCG GGGCTCCTCG TTTTCGCTGC TTCGGGTGTC 540CTTCTCGGCG TGTGGCCCCG GGTCCCGGCC CTGCTGGGCT GGGCGGGGTC GCTGCCCTGG 600GCTTCTGGCC CGTCTGGTTG TCTGTCGGTG CTTGTCTCGG GTTTCTGGCC TCTGTGCTGG 660GCGCTTCTCT GCCTCCTGCT CCGCCCTCCT GGTGGCTCGG CTGGGGGTGC CCGTGCGGGG 720GTGGGTGTGG GGTGTTTTCG GGGTCCTCCC CTTCCC 756

(2) SEQ ID NO: 1916 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1916 sequence description: GGGCGGGGTC GC 12

(2) SEQ ID NO: 1917 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1917 sequence description: GCGCCGTCC 9

(2) SEQ ID NO: 1918 data of:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1918 sequence description: GGGCGTGGTG G11

(2) SEQ ID NO: 1919 data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1919 sequence description: CGGCCCTTCT CACTGGAGGC ACCGGGCAGT CCTCCATGGG AGG 43

(2) SEQ ID NO: 1920 data:

(i) sequence characteristics:

(A) length: 302 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1920 sequence description: GTTTCATCTT GGCTTTATCC TCTCCCCTTG TTCCTCCCCT CTCCTGCTCT GGRGTCTCCT 60CTTCCCTCCC TCCCCTGCCG TGTTGTCTGT GGGTGTCGTT TCGCTCTTGT TGCCCTGGGC 120CCTTCCCTGC TGGGGGGGAG TTTCATCTTG GGTTTCBTCT TGGCTTTBTC CTCTCCCTT 180GTTCCTCCCC TCTCCTGCTC TGGRGTCTCC TCTTCCCTCC CTCCCCTGCC GTGTTGTCTG 240TGGGTGTCGT TTCGCTCTTG TTGCCCTGGG CCCTTCCCTG CTGGGGGGGGGB GTTTCBTCTT 300GG 302

(2) SEQ ID NO: 1921, data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1921 sequence description: GGGGGAGTT 9

(2) SEQ ID NO: 1922, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1922 sequence description: GCCCTGGGCC C11

(2) SEQ ID NO: 1923, data:

(i) sequence characteristics:

(A) length: 151 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1923 sequence description: GTTTCATCTT GGCTTTATCC TCTCCCCTTG TTCCTCCCCT CTCCTGCTCT GGRGTCTCCT 60CTTCCCTCCC TCCCCTGCCG TGTTGTCTGT GGGTGTCGTT TCGCTCTTGT TGCCCTGGGC 120CCTTCCCTGC TGGGGGGGAG TTTCATCTTG G151

(2) SEQ ID NO: 1924, data:

(i) sequence characteristics:

(A) length: 151 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology:line shape

(xi) SEQ ID NO: 1924 sequence description: GTTTCBTCTT GGCTTTBTCC TCTCCCCTTG TTCCTCCCCT CTCCTGCTCT GGRGTCTCCT 60CTTCCCTCCC TCCCCTGCCG TGTTGTCTGT GGGTGTCGTT TCGCTCTTGT TGCCCTGGGC 120CCTTCCCTGC TGGGGGGGBG TTTCBTCTTG G151

(2) SEQ ID NO: 1925, data:

(i) sequence characteristics:

(A) length: 7 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1925 sequence description: GGGGGBG 7

(2) SEQ ID NO: 1926, data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1926 sequence description: GTGGGTGTCC 10

(2) SEQ ID NO: 1927, data:

(i) sequence characteristics:

(A) length: 91 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1927 sequence description: CCGTGTTGTC BGTGGTGCTG CCCGTTTGBG GTBTGGCGCT CCBCCBBTTC CCTTTTCTCC 60TTGTTTTCCG TTTCTCTTGC CGTCTGTGGT T91

(2) SEQ ID NO: 1928, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1928 sequence description: CCCGTTGBG GTBTGGC 17

(2) SEQ ID NO: 1929, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1929 sequence description: GCTCCBCCBB TTCCCTTTTC TCC 23

(2) SEQ ID NO: 1930 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1930 the sequence describes: TTGTTTTCCG TTTCTCTTG 19

(2) SEQ ID NO: 1931 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1931 the sequence describes: CCGTCTGTGG TT 12

(2) SEQ ID NO: 1932 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C)Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1932 the sequence describes: CCCGTTTGAG GTATGGC 17

(2) SEQ ID NO: 1933 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1933 the sequence describes: GCTCCBCCAA TTCCCTTTTC TCC 23

(2) SEQ ID NO: 1934 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1934 the sequence describes: GGGCCCBGCC CCGCCGCCTT TTCTBGCCCC GGCC 34

(2) SEQ ID NO: 1935 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1935 the sequence describes: GGGCCCBGCC CCGCCGCCTT TTCTBGCCCC GGC 33

(2) SEQ ID NO: 1936 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1936 the sequence describes: GGGCCCBGCC CCGCCGCCTT TTCTBGCCCC GG 32

(2) SEQ ID NO: 1937 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1937 the sequence describes: GGGCCCBGCC CCGCCGCCTT TTCTBGCCCC G31

(2) SEQ ID NO: 1938 data of:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1938 the sequence describes: GGGCCCBGCC CCGCCGCCTT TTCTBGCCCC 30

(2) SEQ ID NO: 1939 data of:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1939 the sequence describes: GGGCCCBGCC CCGCCGCCTT TTCTBGCCC 29

(2) SEQ ID NO: 1940 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1940 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TTCTBGCC 28

(2) SEQ ID NO: 1941 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1941 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TTCTBGC 27

(2) SEQ ID NO: 1942 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1942 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TTCTBG 26

(2) SEQ ID NO: 1943 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1943 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TTCTB 25

(2) SEQ ID NO: 1944 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1944 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TTCT 24

(2) SEQ ID NO: 1945 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1945 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TTC 23

(2) SEQ ID NO: 1946 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1946 the sequence depicted: GGGCCCBGCC CCGCCGCCTT TT 22

(2) SEQ ID NO: 1947 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1947 the sequence depicted: GGGCCCBGCC CCGCCGCCTT T21

(2) SEQ ID NO: 1948 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1948 the sequence depicted: GGGCCCBGCC CCGCCGCCT 20

(2) SEQ ID NO: 1949 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1949 the sequence depicted: GGGCCCBGCC CCGCCGCCT 19

(2) SEQ ID NO: 1950 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1950 sequence description: GGGCCCBGCC CCGCCGCC 18

(2) SEQ ID NO: 1951, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1951 description of the sequence: GGGCCCBGCC CCGCCGC 17

(2) SEQ ID NO: 1952, data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1952 description of the sequence: GGGCCCBGCC CCGCCG 16

(2) SEQ ID NO: 1953, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1953 description of the sequence: GGGCCCBGCC CCGCC 15

(2) SEQ ID NO: 1954, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1954 description of the sequence: GGGCCCBGCC CCGC 14

(2) SEQ ID NO: 1955, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1955 sequence description: GGGCCCBGCC CCG 13

(2) SEQ ID NO: 1956, data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 1956 description of the sequence: GGGCCCBGCC CC 12

(2) SEQ ID NO: 1957, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1957 description of the sequence: GGGCCCBGCC C11

(2) SEQ ID NO: 1958, data of:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1958 sequence description: GGCCCGGCCCCCCC CGCCGCCTTT TCTBGCCCCG GC 32

(2) SEQ ID NO: 1959, data of:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1959 description of the sequence: GCCCBGCCCC GCCGCCTTTT CTBGCCCCCGG C31

(2) SEQ ID NO: 1960 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1960 description of the sequence: CCCGBCCCCCGCTTTTTC TBGCCCCGGC 30

(2) SEQ ID NO: 1961, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1961 description of the sequence: CCBGCCCCCCGC CGCCTTTTTCT BGCCCCCGGC 29

(2) SEQ ID NO: 1962, data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1962 description of the sequence: CBGCCCCGCC GCCTTTTCTB GCCCCGGC 28

(2) SEQ ID NO: 1963, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1963 description of the sequence: BGCCCCGCCGCCTGTTTCTBG CCCCCGGC 27

(2) SEQ ID NO: 1964, data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1964 description of the sequence: GCCCCGCCGC CTTTTCTBGC CCCGGC 26

(2) SEQ ID NO: 1965, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1965 description of the sequence: CCCCGCCGCC TTTTCTBGCC CCGGC 25

(2) SEQ ID NO: 1966 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1966 description of the sequence: CCCGCCGCCT TTTCTBGCCC CGGC 24

(2) SEQ ID NO: 1967, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1967 description of the sequence: CCGCCGCCTT TTCTBGCCCC GGC 23

(2) SEQ ID NO: 1968, data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1968 description of the sequence: CGCCGCCTTT TCTBGCCCCG GC22

(2) SEQ ID NO: 1969, data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1969 description of the sequence: GCCGCCTTTT CTBGCCCCGG C21

(2) SEQ ID NO: 1970:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1970 sequence description: CCGCCTTTTC TBGCCCCGGC 20

(2) SEQ ID NO: 1971 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1971 sequence description: CGCCTTTTCT BGCCCCGGC 19

(2) SEQ ID NO: 1972 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1972 sequence description: GCCTTTTCTB GCCCCGGC 18

(2) SEQ ID NO: 1973:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1973 sequence description: CCTTTTTCTBG CCCCCGGC 17

(2) SEQ ID NO: 1974:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1974 sequence description: CTTTTCTBGC CCCGGC 16

(2) SEQ ID NO: 1975 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1975 sequence description: TTTTCTBGCC CCGGC 15

(2) SEQ ID NO: 1976:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1976 description of the sequence: TTTCTBGCCC CGGC 14

(2) SEQ ID NO: 1977:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1977 sequence description: TTCTBGCCCC GGC 13

(2) SEQ ID NO: 1978:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1978 sequence description: TCTBGCCCCG GC 12

(2) SEQ ID NO: 1979 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1979 sequence description: CTBGCCCCCGG C11

(2) SEQ ID NO: 1980 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1980 description of the sequence: GCGBGGCTGT CBCCTCGCTG GGCCC 25

(2) SEQ ID NO: 1981 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1981 description of the sequence: GCGBGGCTGT CBCCTCGCTG GGCC 24

(2) SEQ ID NO: 1982 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1982 description of the sequence: GCGBGGCTGT CBCCTCGCTG GGC 23

(2) SEQ ID NO: 1983 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1983 description of the sequence: GCGBGGCTGT CBCCTCGCTG GG 22

(2) SEQ ID NO: 1984 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1984 description of the sequence: GCGBGGCTGT CBCCTCGCTG G21

(2) SEQ ID NO: 1985 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1985 description of the sequence: GCGBGGCTGT CBCCTCGCTG 20

(2) SEQ ID NO: 1986 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1986 description of the sequence: GCGBGGCTGT CBCCTCGCT 19

(2) SEQ ID NO: 1987 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1987 sequence description: GCGBGGCTGT CBCCTCGC 18

(2) SEQ ID NO: 1988 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1988 description of the sequence: GCGBGGCTGT CBCCTCG 17

(2) SEQ ID NO: 1989 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1989 description of the sequence: GCGBGGCTGT CBCCTC 16

(2) SEQ ID NO: 1990 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 1990: GCGBGGCTGT CBCCT 15

(2) SEQ ID NO: 1991:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1991 sequence description: GCGBGGCTGT CBCC 14

(2) SEQ ID NO: 1992, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1992 sequence description: GCGBGGCTGT CBC 13

(2) SEQ ID NO: 1993 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1993 description of the sequence: GCGBGGCTGT CB 12

(2) SEQ ID NO: 1994, data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1994, sequence description: GCGBGGCTGT C11

(2) SEQ ID NO: 1995 data:

(i) sequence characteristics:

(A) length: 1O base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1995 sequence description: GCGBGGCTGT 10

(2) SEQ ID NO: 1996 materials:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1996, sequence description: CGBGGCTGTC BCCTCGCTGG GCCC 24

(2) SEQ ID NO: 1997 of the data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi)SEQ ID NO: 1997 description of the sequence: GBGGCTGTCB CCTCGCTGGG CCC 23

(2) SEQ ID NO: 1998 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1998 sequence description: BGGCTGTCBC CTCGCTGGGC CC 22

(2) SEQ ID NO: 1999, data from:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 1999 description of the sequence: GGCTGTCBCC TCGCTGGGCC C21

(2) SEQ ID NO: 2000, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2000 sequence description: GCTGTCBCCT CGCTGGGCCC 20

(2) SEQ ID NO: 2001 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2001,sequence description: CTGTCBCCTC GCTGGGCCC 19

(2) SEQ ID NO: 2002:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NQ: 2002 describes the sequence: TGTCBCCTCG CTGGGCCC 18

(2) SEQ ID NO: 2003:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2003: GTCBCCTCGC TGGGCCC 17

(2) SEQ ID NO: data 2004:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2004: TCBCCTCGCT GGGCCC 16

(2) SEQ ID NO: 2005 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2005 sequence description: CBCCTCGCTG GGCCC 15

(2) SEQID NO: data of 2006:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2006: BCCTCGCTGG GCCC 14

(2) SEQ ID NO: 2007 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2007: CCTCGCTGGG CCC 13

(2) SEQ ID NO: 2008, data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2008: CTCGCTGGGC CC 12

(2) SEQ ID NO: 2009 of the reference:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2009 description of the sequence: TCGCTGGGCC C11

(2) SEQ ID NO: 2010, material:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: description of the sequence of 2010: CGCTGGGCCC 10

(2) SEQ ID NO: 2011 materials:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2011 describes the sequence: GCGCGGCCGT CBTGGCGGCG TCGGGCCGGG C31

(2) SEQ ID NO: 2012:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2012 sequence description: GCGCGGCCGT CBTGGCGGCG TCGGGCCGGG 30

(2) SEQ ID NO: 2013, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2013 sequence description: GCGCGGCCGT CBTGGCGGCG TCGGGCCGG 29

(2) SEQ ID NO: 2014:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2014 sequence description: GCGCGGCCGT CBTGGCGGCG TCGGGCCG 28

(2) SEQ ID NO: data in 2015:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2015: GCGCGGCCGT CBTGGCGGCG TCGGGCC 27

(2) SEQ ID NO: 2016 for data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2016, sequence description: GCGCGGCCGT CBTGGCGGCG TCGGGC 26

(2) SEQ ID NO: 2017, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2017 sequence description: GCGCGGCCGT CBTGGCGGCG TCGGG 25

(2) SEQ ID NO: 2018, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2018 sequence description: GCGCGGCCGT CBTGGCGGCG TCGG 24

(2) SEQ ID NO: 2019, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2019 sequence description: GCGCGGCCGT CBTGGCGGCG TCG 23

(2) SEQ ID NO: data of 2020:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2020: GCGCGGCCGT CBTGGCGGCG TC 22

(2) SEQ ID NO: 2021 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2021 sequence description: GCGCGGCCGT CBTGGCGGCG T21

(2) SEQ ID NO: 2022 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2022 description of the sequence: GCGCGGCCGT CBTGGCGGCG 20

(2) SEQ ID NO: 2023 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2023 description of the sequence: GCGCGGCCGT CBTGGCGGC 19

(2) SEQ ID NO: 2024 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2024 description of the sequence: GCGCGGCCGT CBTGGCGG 18

(2) SEQ ID NO: 2025 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2025 sequence description: GCGCGGCCGT CBTGGCG 17

(2) SEQ ID N0: 2026 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2026 sequence description: GCGCGGCCGT CBTGGC 16

(2) SEQ ID NO: 2027 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2027 sequence description: GCGCGGCCGT CBTGG 15

(2) SEQ ID NO: 2028 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2028 description of the sequence: GCGCGGCCGT CBTG 14

(2) SEQ ID NO: 2029 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2029 description of the sequence: GCGCGGCCGT CBT 13

(2) SEQ ID NO: 2030:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C)Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2030 sequence description: GCGCGGCCGT CB 12

(2) SEQ ID NO: 2031 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2031 sequence description: GCGCGGCCGT C11

(2) SEQ ID NO: 2032 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2032 sequence description: GCGCGGCCGT 10

(2) SEQ ID NO: 2033 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2033 sequence description: CGCGGCCGTC BTGGCGGCGT CGGGCCGGGC 30

(2) SEQ ID NO: 2034 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2034 sequence description: GCGGCCGTCB TGGCGGCGTC GGGCCGGGC 29

(2) SEQ ID NO: 2035 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2035 sequence description: CGGCCGTCBT GGCGGCGTCG GGCCGGGC 28

(2) SEQ ID NO: 2036 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2036 sequence description: GGCCGTCBTG GCGGCGTCGG GCCGGGC 27

(2) SEQ ID NO: 2037 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2037 sequence description: GCCGTCBTGG CGGCGTCGGG CCGGGC 26

(2) SEQ ID NO: 2038 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2038 sequence description: CCGTCBTGGC GGCGTCGGGC CGGGC 25

(2) SEQ ID NO: 2039 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2039 sequence description: CGTCBTGGCG GCGTCGGGCC GGGC 24

(2) SEQ ID NO: 2040 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2040 sequence description: GTCBTGGCGG CGTCGGGCCG GGC 23

(2) SEQ ID NO: 2041 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2041 sequence description: TCBTGGCGGC GTCGGGCCGG GC 22

(2) SEQ ID NO: 2042 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO:2042 sequence description: CBTGGCGGCG TCGGGCCGGG C21

(2) SEQ ID NO: 2043 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2043 sequence description: BTGGCGGCGT CGGGCCGGGC 20

(2) SEQ ID NO: 2044 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2044 sequence description: TGGCGGCGTC GGGCCGGGC 19

(2) SEQ ID NO: 2045 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2045 sequence description: GGCGGCGTCG GGCCGGGC 18

(2) SEQ ID NO: 2046 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2046 sequence description: GCGGCGTCGG GCCGGGC 17

(2) SEQ ID NO: 2047 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2047 sequence description: CGGCGTCGGG CCGGGC 16

(2) SEQ ID NO: 2048 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2048 sequence description: GGCGTCGGGC CGGGC 15

(2) SEQ ID NO: 2049 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2049 sequence description: GCGTCGGGCC GGGC 14

(2) SEQ ID NO: 2050 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2050 sequence description: CGTCGGGCCG GGC 13

(2) SEQ ID NO: 2051 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2051 sequence description: GTCGGGCCGG GC 12

(2) SEQ ID NO: 2052 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2052 sequence description: TCGGGCCGGG C11

(2) SEQ ID NO: 2053 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2053 sequence description: CGGGCCGGGC 10

(2) SEQ ID NO: 2054 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2054 sequence description: CCGCBGGCCB GGGCGCGCCG CCGGCCGGGC CG 32

(2) SEQ ID NO: 2055 data:

(i) sequence characteristics:

(A)length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2055 description of the sequence: CCGCBGGCCB GGGCGCGCCG CCGGCCGGGC C31

(2) SEQ ID NO: 2056 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2056 sequence description: CCGCBGGCCB GGGCGCGCCG CCGGCCGGGC 30

(2) SEQ ID NO: 2057 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2057 sequence description: CCGCBGGCCB GGGCGCGCCG CCGGCCGGG 29

(2) SEQ ID NO: 2058 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2058 description of the sequence: CCGCBGGCCB GGGCGCGCCG CCGGCCGG 28

(2) SEQ ID NO: 2059 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2059 description of the sequence: CCGCBGGCCB GGGCGCGCCG CCGGCCG 27

(2) SEQ ID NO: 2060 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2060 sequence description: CCGCBGGCCB GGGCGCGCCG CCGGCC 26

(2) SEQ ID NO: 2061 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2061 sequence description: CCGCBGGCCB GGGCGCGCCG CCGGC 25

(2) SEQ ID NO: 2062 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2062 sequence description: CCGCBGGCCB GGGCGCGCCG CCGG 24

(2) SEQ ID NO: 2063 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2063 sequence description: CCGCBGGCCB GGGCGCGCCG CCG 23

(2) SEQ ID NO: 2064 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2064 sequence description: CCGCBGGCCB GGGCGCGCCG CC 22

(2) SEQ ID NO: 2065 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2065 sequence description: CCGCBGGCCB GGGCGCGCCG C21

(2) SEQ ID NO: 2066 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2066 sequence description: CCGCBGGCCB GGGCGCGCCG 20

(2) SEQ ID NO: 2067 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2067 sequence description: CCGCBGGCCB GGGCGCGCGCC 19

(2) SEQ ID NO: 2068 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2068 sequence description: CCGCBGGCCB GGGCGCGCGC 18

(2) SEQ ID NO: 2069 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2069 sequence description: CCGCBGGCCB GGGCGCGCG 17

(2) SEQ ID NO: 2070 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2070 sequence description: CCGCBGGCCB GGGCGC 16

(2) SEQ ID NO: 2071 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2071 sequence description: CCGCBGGCCB GGGCG 15

(2) SEQ ID NO: 2072 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2072 sequence description: CCGCBGGCCB GGGC 14

(2) SEQ ID NO: 2073 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2073 sequence description: CCGCBGGCCB GGG 13

(2) SEQ ID N0: 2074 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2074 description of the sequence: CCGCBGGCCB GG 12

(2) SEQ ID NO: 2075 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2075 sequence description: CCGCBGGCCB G11

(2) SEQ ID NO: 2076 data:

(i) sequence characteristics:

(A) length: 1O base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2076 description of the sequence: CCGCBGGCCB 10

(2) SEQ ID NO: 2077 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2077 sequence description: CCGCBGGCC 9

(2) SEQ ID NO: 2078 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2078 sequence description: CGCBGGCCBG GGCGCGCCGC CGGCCGGGCC G31

(2) SEQ ID NO: 2079 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2079 descriptionof the sequence: GCBGGCCBGG GCGCGCCGCC GGCCGGGCCG 30

(2) SEQ ID NO: 2080 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2080 sequence description: CBGGCCBGGG CGCGCCGCCG GCCGGGCCG 29

(2) SEQ ID NO: 2081 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2081 sequence description: BGGCCBGGGC GCGCCGCCGG CCGGGCCG 28

(2) SEQ ID NO: 2082 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2082 sequence description: GGCCBGGGCG CGCCGCCGGC CGGGCCG 27

(2) SEQ ID NO: 2083 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2083 sequence description: GCCBGGGCGC GCCGCCGGCC GGGCCG 26

(2) SEQ ID NO: 2084 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2084 sequence description: CCBGGGCGCG CCGCCGGCCG GGCCG 25

(2) SEQ ID NO: 2085 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2085, sequence description: CBGGGCGCGC CGCCGGCCGG GCCG 24

(2) SEQ ID NO: 2086 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2086 sequence description: BGGGCGCGCGCC GCCGGCCGGG CCG 23

(2) SEQ ID NO: 2087 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2087 sequence description: GGGCGCGCCG CCGGCCGGGC CG 22

(2) SEQ ID NO: 2088 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2088 sequence description: GGCGCGCCGC CGGCCGGGCC G21

(2) SEQ ID NO: 2089 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2089 sequence description: GCGCGCCGCC GGCCGGGCCG 20

(2) SEQ ID NO: 2090 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2090 sequence description: CGCGCCGCCG GCCGGGCCG 19

(2) SEQ ID NO: 2091 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2091 sequence description: GCGCCGCCGG CCGGGCCG 18

(2) SEQ ID NO: 2092 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2092 sequence description: CGCCGCCGGC CGGGCCG 17

(2) SEQ ID NO: 2093 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2093 sequence description: GCCGCCGGCC GGGCCG 16

(2) SEQ ID NO: 2094 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2094 sequence description: CCGCCGGCCG GGCCG 15

(2) SEQ ID NO: 2095 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2095 sequence description: CGCCGGCCGG GCCG 14

(2) SEQ ID NO: 2096 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2096 sequence description: GCCGGCCGGG CCG 13

(2) SEQ ID NO: 2097 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2097 sequence description: CCGGCCGGGC CG 12

(2) SEQ ID NO: 2098 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2098 sequence description: CGGCCGGGCC G11

(2) SEQ ID NO: 2099 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2099 sequence description: GGCCGGGCCG 10

(2) SEQ ID NO: 2100 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2100 sequence description: GGGCGCGCBGGC TCCGCB 16

(2) SEQ ID NO: 2101 materials:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2101 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG GCCCGG 46

(2) SEQ ID NO: 2102 information:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2102 description of the sequence: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG GCCCG 45

(2) SEQ ID NO: 2103, materials:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2103 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG GCCC 44

(2) SEQ ID NO: 2104 data:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2104 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG GCC 43

(2) SEQ ID NO: 2105, materials:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2105 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG GC 42

(2) SEQ ID NO: 2106 materials:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2106 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG G41

(2) SEQ ID NO: 2107 materials:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2107 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG 40

(2) SEQ ID NO: 2108, data:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2108 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCCC 39

(2) SEQ ID NO: 2109 materials:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2109 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGCC 38

(2) SEQ ID NO: 2110 data:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2110 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCGC 37

(2) SEQ ID NO: 2111 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2111 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCCG 36

(2) SEQ ID NO: 2112 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2112 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCCC 35

(2) SEQ ID NO: 2113 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2113 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGCC 34

(2) SEQ ID NO: 2114 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2114 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TGC 33

(2) SEQ ID NO: 2115 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2115 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT TG 32

(2) SEQ ID NO: 2116 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2116 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT T31

(2) SEQ ID NO: 2117 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2117 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGCT 30

(2) SEQ ID NO: 2118 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2118 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGGC 29

(2) SEQ ID NO: 2119 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2119 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCGG 28

(2) SEQ ID NO: 2120 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2120 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCCG 27

(2) SEQ ID NO: 2121 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2121 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCCC 26

(2) SEQ ID NO: 2122 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2122 sequence description: GGGCCCCTGG CTCGGCCCCG CGGCC 25

(2) SEQ ID NO: 2123 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2123 sequence description: GGGCCCCTGG CTCGGCCCCG CGGC 24

(2) SEQ ID NO: 2124 data:

(i) sequence characteristics:

(A)length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2124 sequence description: GGGCCCCTGG CTCGGCCCCG CGG 23

(2) SEQ ID NO: 2125 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2125 sequence description: GGGCCCCTGG CTCGGCCCCG CG 22

(2) SEQ ID NO: 2126 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2126 sequence description: GGGCCCCTGG CTCGGCCCCG C21

(2) SEQ ID NO: 2127 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2127 sequence description: GGGCCCCTGG CTCGGCCCCG 20

(2) SEQ ID NO: 2128 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2128 sequence description: GGGCCCCTGG CTCGGCCCC 19

(2) SEQ ID NO: 2129 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2129 sequence description: GGGCCCCTGG CTCGGCCC 18

(2) SEQ ID NO: 2130 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2130 sequence description: GGGCCCCTGG CTCGGCC 17

(2) SEQ ID NO: 2131 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2131 sequence description: GGGCCCCTGG CTCGGC 16

(2) SEQ ID NO: 2132 data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2132 sequence description: GGGCCCCTGG CTCGG 15

(2) SEQ ID NO: 2133 data of:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2133 sequence description: GGGCCCCTGG CTCG 14

(2) SEQ ID NO: 2134 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2134 sequence description: GGGCCCCTGG CTC 13

(2) SEQ ID NO: 2135 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2135 sequence description: GGGCCCCTGG CT 12

(2) SEQ ID NO: 2136 data of:

(i) sequence characteristics:

(A) length: 45 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2136 sequence description: GGCCCCTGGC TCGGCCCCGC GGCCCGGCTT GCCCGCCCGG CCCGG 45

(2) SEQ ID NO: 2137 data:

(i) sequence characteristics:

(A) length: 44 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2137 sequence description: GCCCCTGGCT CGGCCCCGCG GCCCGGCTTG CCCGCCCGGC CCGG 44

(2) SEQ ID NO: 2138 data of:

(i) sequence characteristics:

(A) length: 43 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2138 sequence description: CCCCTGGCTC GGCCCCGCGG CCCGGCTTGC CCGCCCGGCC CGG 43

(2) SEQ ID NO: 2139 data of:

(i) sequence characteristics:

(A) length: 42 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2139 sequence description: CCCTGGCTCG GCCCCGCGGC CCGGCTTGCC CGCCCGGCCC GG 42

(2) SEQ ID NO: 2140, data:

(i) sequence characteristics:

(A) length: 41 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2140 sequence description: CCTGGCTCGG CCCCGCGGCC CGGCTTGCCC GCCCGGCCCG G41

(2) SEQ ID NO: 2141, data of:

(i) sequence characteristics:

(A) length: 40 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2141 sequence description: CTGGCTCGGC CCCGCGGCCC GGCTTGCCCG CCCGGCCCGG 40

(2) SEQ ID NO: 2142, data of:

(i) sequence characteristics:

(A) length: 39 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2142 sequence description: TGGCTCGGCC CCGCGGCCCG GCTTGCCCGC CCGGCCCGG 39

(2) SEQ ID NO: 2143, data of:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2143 sequence description: GGCTCGGCCC CGCGGCCCGG CTTGCCCGCC CGGCCCGG 38

(2) SEQ ID NO: 2144, data of:

(i) sequence characteristics:

(A) length: 37 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2144 sequence description: GCTCGGCCCC GCGGCCCGGC TTGCCCGCCC GGCCCGG 37

(2) SEQ ID NO: 2145, data of:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2145 sequence description: CTCGGCCCCG CGGCCCGGCT TGCCCGCCCG GCCCGG 36

(2) SEQ ID NO: 2146, data of:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2146 sequence description: TCGGCCCCGC GGCCCGGCTT GCCCGCCCGG CCCGG 35

(2) SEQ ID NO: 2147, data of:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2147 sequence description: CGGCCCCGCG GCCCGGCTTG CCCGCCCGGC CCGG 34

(2) SEQ ID NO: 2148, data of:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2148 sequence description: GGCCCCGCGG CCCGGCTTGC CCGCCCGGCC CGG 33

(2) SEQ ID NO: 2149, data of:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2149 sequence description: GCCCCGCGGC CCGGCTTGCC CGCCCGGCCC GG 32

(2) SEQ ID NO: 2150 of the following:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2150 sequence description: CCCCGCGGCC CGGCTTGCCC GCCCGGCCCG G31

(2) SEQ ID NO: 2151 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2151 sequence description: CCCGCGGCCC GGCTTGCCCG CCCGGCCCGG 30

(2) SEQ ID NO: 2152 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2):nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2152 sequence description: CCGCGGCCCG GCTTGCCCGC CCGGCCCGG 29

(2) SEQ ID NO: 2153 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2153 sequence description: CGCGGCCCGG CTTGCCCGCC CGGCCCGG 28

(2) SEQ ID NO: 2154 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2154 sequence description: GCGGCCCGGC TTGCCCGCCC GGCCCGG 27

(2) SEQ ID NO: 2155 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2155 sequence description: CGGCCCGGCT TGCCCGCCCG GCCCGG 26

(2) SECQID NO: 2156 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2156 sequence description: GGCCCGGCTT GCCCGCCCGG CCCGG 25

(2) SEQ ID NO: 2157 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2157 sequence description: GCCCGGCTTG CCCGCCCGGC CCGG 24

(2) SEQ ID NO: 2158 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2158 sequence description: CCCGGCTTGC CCGCCCGGCC CGG 23

(2) SEQ ID NO: 2159 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2159 sequence description: CCGGCTTGCC CGCCCGGCCC GG 22

(2) SEQ ID NO: 2160 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2160 describes: CGGCTTGCCC GCCCGGCCCG G21

(2) SEQ ID NO: 2161 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2161 description of the sequence: GGCTTGCCCG CCCGGCCCGG 20

(2) SEQ ID NO: 2162 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2162 description of the sequence: GCTTGCCCGC CCGGCCCGG 19

(2) SEQ ID NO: 2163 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2163 description of the sequence: CTTGCCCGCC CGGCCCGG 18

(2) SEQ ID NO: 2164 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2164 description of the sequence: TTGCCCGCCC GGCCCGG 17

(2) SEQ ID NO: 2165 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2165 description of the sequence: TGCCCGCCCG GCCCGG 16

(2) SEQ ID NO: 2166 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2166 description of the sequence: GCCCGCCCGG CCCGG 15

(2) SEQ ID NO: 2167 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2167 description of the sequence: CCCGCCCGGC CCGG 14

(2) SEQ ID NO: 2168 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2168 description of the sequence: CCGCCCGGCC CGG 13

(2) SEQ ID NO: 2169 materials:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2169 description of the sequence: CGCCCGGCCC GG 12

(2) SEQ ID NO: 2170 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2170 sequence description: GCCCGGCCCG G11

(2) SEQ ID NO: 2171 data:

(i) sequence characteristics:

(A) length: 36 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2171 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG GGCCCC 36

(2) SEQ ID NO: 2172 data:

(i) sequence characteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2172 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG GGCCC 35

(2) SEQ ID NO: 2173 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2173 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG GGCC 34

(2) SEQ ID NO: 2174 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2174 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG GGC 33

(2) SEQ ID NO: 2175 data:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2175 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG GG 32

(2) SEQ ID NO: 2176 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2176 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG G31

(2) SEQ ID NO: 2177 data:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2177 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTBG 30

(2) SEQ ID NO: 2178 data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2178 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCTB 29

(2) SEQ ID NO: 2179 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2179 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCCT 28

(2) SEQ ID NO: 2180 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2180 sequence description: GGCGGGGGCG GCGGCGCCTG GCTCGCC 27

(2) SEQ ID NO: 2181 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2181 description of the sequence: GGCGGGGGCG GCGGCGCCTG GCTCGC 26

(2) SEQ ID NO: 2182 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2182 description of the sequence: GGCGGGGGCG GCGGCGCCTG GCTCG 25

(2) SEQ ID NO: 2183 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2183 description of the sequence: GGCGGGGGCG GCGGCGCCTG GCTC 24

(2) SEQ ID NO: 2184 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2184 description of the sequence: GGCGGGGGCG GCGGCGCCTG GCT 23

(2) SEQ ID NO: 2185 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2185 description of the sequence: GGCGGGGGCG GCGGCGCCTG GC 22

(2) SEQ ID NO: 2186 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2186 description of the sequence: GGCGGGGGCG GCGGCGCCTG G21

(2) SEQ ID NO: 2187 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2187 description of the sequence: GGCGGGGGCG GCGGCGCCTG 20

(2) SEQ ID NO: 2188 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2188 description ofthe sequence: GGCGGGGGCG GCGGCGCCT 19

(2) SEQ ID NO: 2189 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2189 description of the sequence: GGCGGGGGCG GCGGCGCC 18

(2) SEQ ID NO: 2190 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2190 description of the sequence: GGCGGGGGCG GCGGCGC 17

(2) SEQ ID NO: 2191 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2191 sequence description: GGCGGGGGCG GCGGCG 16

(2) SEQ ID NO: 2192 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2192 sequence description: GGCGGGGGCG GCGGC 15

(2)SEQ ID NO: 2193 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2193 sequence description: GGCGGGGGCG GCGG 14

(2) SEQ ID NO: 2194 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2194 description of the sequence: GGCGGGGGCG GCG 13

(2) SEQ ID NO: 2195 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2195 sequence description: GGCGGGGGCG GC 12

(2) SEQ ID NO: 2196 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2196 sequence description: GGCGGGGGCG G11

(2) SEQ ID NO: 2197 data:

(i) sequencecharacteristics:

(A) length: 35 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2197 sequence description: GCGGGGGCGG CGGCGCCTGG CTCGCCTGGGCCCC 35

(2) SEQ ID NO: 2198 data:

(i) sequence characteristics:

(A) length: 34 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2198 sequence description: CGGGGGCGGC GGCGCCTGGC TCGCCTBGGG CCCC 34

(2) SEQ ID NO: 2199 data:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2199 sequence description: GGGGGCGGCG GCGCCTGGCT CGCCTGGGC CCC33

(2) SEQ ID NO: 2200 materials:

(i) sequence characteristics:

(A) length: 32 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2200 sequence description: GGGGCGGCGG CGCCTGGCTC GCCTBGGGCC 32

(2) SEQ ID NO: 2201 data:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2201 sequence description: GGGCGGCGGC GCCTGGCTCG CCTBGGCCC C31

(2) SEQ ID NO: 2202 information:

(i) sequence characteristics:

(A) length: 30 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2202 sequence description: GGCGGCGGCG CCTGGCTCGC CTBGGGCCCC 30

(2) SEQ ID NO: 2203, data:

(i) sequence characteristics:

(A) length: 29 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2203 sequence description: GCGGCGGCGC CTGGCTCGCC TBGGGCCCC 29

(2) SEQ ID NO: 2204:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2204 sequence description: CGGCGGCGCC TGGCTCGCCT BGGGCCCC 28

(2) SEQ ID NO: 2205, data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2205 sequence description: GGCGGCGCCT GGCTCGCCTB GGGCCCC 27

(2) SEQ ID NO: 2206 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2206 sequence description: GCGGCGCCTG GCTCGCCTBG GGCCCC 26

(2) SEQ ID NO: 2207, data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2207 sequence description: CGGCGCCTGG CTCGCCTBGG GCCCC 25

(2) SEQ ID NO: 2208, data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2208 sequence description: GGCGCCTGGC TCGCCTBGGG CCCC 24

(2) SEQ ID NO: 2209 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2209 sequence description: GCGCCTGGCT CGCCTBGGGC CCC 23

(2) SEQ ID NO: 2210 of the data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2210 sequence description: CGCCTGGCTC GCCTBGGGCC CC22

(2) SEQ ID NO: 2211 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2211 sequence description: GCCTGGCTCG CCTBGGGCCC C21

(2) SEQ ID NO: 2212 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2212 sequence description: CCTGGCTCGC CTBGGGCCCC 20

(2) SEQ ID NO: 2213 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2213 sequence description: CTGGCTCGCC TBGGGCCCC 19

(2) SEQ ID NO: 2214 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2214 sequence description: TGGCTCGCCT BGGGCCCC 18

(2) SEQ ID NO: 2215 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2215 sequence description: GGCTCGCCTB GGGCCCC 17

(2) SEQ ID NO: 2216 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2216 sequence description: GCTCGCCTBG GGCCCC 16

(2) SEQ ID NO: 2217 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2217 sequence description: CTCGCCTGGGCCCC 15

(2) SEQ ID NO: 2218 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2218 sequence description: TCGCCTBGGG CCCC 14

(2) SEQ ID NO: 2219 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2219 sequence description: CGCCTGGGC CCC 13

(2) SEQ ID N0: 2220 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2220 sequence description: GCCTBGGGCC 12

(2) SEQ ID NO: 2221 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2221 sequence description: CCTGGGCCC C11

(2) SEQ ID NO: 2222 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2222 sequence description: CTBGGGCCCC 10

(2) SEQ ID NO: 2223 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2223 sequence description: GGGTGGGCBC GGCGGCC 17

(2) SEQ ID NO: 2224 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2224 sequence description: GGTCGGCGBB GBGCTCGTCG TGGC 24

(2) SEQ ID No: 2225 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi)SEQ ID NO: 2225 sequence description: GGTCGGCGBB GBGCTCGTCG TGG 23

(2) SEQ ID NO: 2226 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2226 sequence description: GGTCGGCGBB GBGCTCGTCG TG22

(2) SEQ ID NO: 2227 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2227 sequence description: GGTCGGCGBB GBGCTCGTCG T21

(2) SEQ ID NO: 2228 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2228 sequence description: GGTCGGCGBB GBGCTCGTCG 20

(2) SEQ ID NO: 2229 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2229 sequence description: GGTCGGCGBB GBGCTCGTC 19

(2) SEQ ID NO: 2230 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2230 describes the sequence: GGTCGGCGBB GBGCTCGT 18

(2) SEQ ID NO: 2231 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2231 sequence description: GGTCGGCGBB GBGCTCG 17

(2) SEQ ID NO: 2232 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2232 sequence description: GGTCGGCGBB GBGCTC 16

(2) SEQ ID NO: 2233 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2233 sequence description: GGTCGGCGBB GBGCT 15

(2) SEQ ID NO: 2234 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2234 sequence description: GGTCGGCGBB GBGC 14

(2) SEQ ID NO: 2235 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2235 sequence description: GGTCGGCGBB GBG 13

(2) SEQ ID NO: 2236 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2236 sequence description: GGTCGGCGBB GB 12

(2) SEQ ID NO: 2237 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2237 sequence description: GGTCGGCGBB G11

(2) SEQ ID No: 2238 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2238 sequence description: GTCGGCGBBG BGCTCGTCGT GGC 23

(2) SEQ ID NO: 2239 materials:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2239 sequence description: TCGGCGBBGB GCTCGTCGTG GC 22

(2) SEQ ID NO: 2240 for data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2240 sequence description: CGGCGBBGBG CTCGTCGTGG C21

(2) SEQ ID NO: 2241, data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2241 sequence description: GGCGBBGBGC TCGTCGTGGC 20

(2) SEQ ID NO: 2242, materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2242 sequence description: GCGBBGBGCT CGTCGTGGC 19

(2) SEQ ID NO: 2243, materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2243 sequence description: CGBBGBGCTC GTCGTGGC 18

(2) SEQ ID NO: 2244 for data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2244 sequence description: GBBGBGCTCG TCGTGGC 17

(2) SEQ ID NO: 2245 for data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2245 sequence description: BBGBGCTCGT CGTGGC 16

(2) SEQ ID NO: 2246 for data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type(2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2246 sequence description: BGBGBGBGCTCGTC GTGGC 15

(2) SEQ ID NO: 2247, data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2247 sequence description: GBGCTCGTCG TGGC 14

(2) SEQ ID NO: 2248, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2248 sequence description: BGCTCGTCGT GGC 13

(2) SEQ ID NO: 2249 for data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2249 sequence description: GCTCGTCGTG GC 12

(2) SEQ ID NO: 2250 for data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2250 describes the sequence: CTCGTCGTGG C11

(2) SEQ ID NO: 2251 for data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2251 the sequence describes: TCGTCGTGGC 10

(2) SEQ ID NO: 2252 materials:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2252 the sequence describes: GGGGCCCCGC GCCGCCCGCC 20

(2) SEQ ID NO: 2253, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2253 the sequence describes: GGGGCCCCGC GCCGCCCGC 19

(2) SEQ ID NO: 2254 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology:line shape

(xi) SEQ ID NO: 2254 the sequence describes: GGGGCCCCGC GCCGCCCG 18

(2) SEQ ID NO: 2255 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2255 describes the sequence: GGGGCCCCGC GCCGCCC 17

(2) SEQ ID NO: 2256 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2256 the sequence describes: GGGGCCCCGC GCCGCC 16

(2) SEQ ID NO: 2257 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2257 the sequence describes: GGGGCCCCGC GCCGC 15

(2) SEQ ID NO: 2258 for data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2258 the sequence describes: GGGGCCCCGC GCCG 14

(2) SEQ ID NO: 2259 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2259 the sequence describes: GGGGCCCCGC GCC 13

(2) SEQ ID NO: 2260 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2260 sequence description: GGGGCCCCGC GC 12

(2) SEQ ID NO: 2261, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2261 sequence description: GGGCCCCGCG CCGCCCGCC 19

(2) SEQ ID No: 2262 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2262 sequence description: GGCCCCGCGC CGCCCGCC 18

(2) SEQ ID NO: 2263, data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2263 sequence description: GCCCCGCGCC GCCCGCC 17

(2) SEQ ID NO: 2264 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2264 sequence description: CCCCGCGCCG CCCGCC 16

(2) SEQ ID NO: 2265 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2265 sequence description: CCCGCGCCGC CCGCC 15

(2) SEQ ID NO: 2266 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2266 sequence description: CCGCGCCGCC CGCC 14

(2) SEQ ID NO: 2267 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2267 sequence description: CGCGCCGCCC GCC 13

(2) SEQ ID NO: 2268 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2268 sequence description: GCGCCGCCCG CC12

(2) SEQ ID NO: 2269 data:

(i) sequence characteristics:

(A) length: 11 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2269 sequence description: CGCCGCCCGC C11

(2) SEQ ID NO: 2270 data:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2270 sequence description: GCCGCCCGCC 10

(2) SEQ ID NO: 2271 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2271 sequence description: GGGGCGCGCG GGGCCGCCGG G21

(2) SEQ ID NO: 2272 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2272 sequence description: GGCGGGGBGC GGCBGGGCCC GGGCCC 26

(2) SEQ ID NO: 2273 materials:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2273 sequence description: GGCGCGTCGC CGTCGCCCCB GTCGGGCTCG CGC 33

(2) SEQ ID NO: 2274 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2274 sequence description: GCGCGGGCBB CBGCGBGCCG GGCGCG 26

(2) SEQ ID NO: 2275 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2275 sequence description: GCGCBCGGGC CCBCCTGCGC GGGC 24

(2) SEQ ID NO: 2276 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2276 sequence description: GGGCGGGGTG GGCTGCCCTG CGGCCGCC 28

(2) SEQ ID NO: 2277 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2277 the sequence description: GGGCTGCTGC GCGGCGGCTC CGGCGA 26

(2) SEQ ID NO: 2278 data:

(i) sequence characteristics:

(A) length: 25 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2278 sequence description: CTCCCGGGCG GGGCCGGGCG CGGGG 25

(2) SEQ ID NO: 2279 data of:

(i) sequence characteristics:

(A) length: 33 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2279 sequence description: GGGCTGCCGC GGTCCGGGCC CCTCTTGCCG GCG 33

(2) SEQ ID NO: 2280 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain s

(D) Topology: line shape

(xi) SEQ ID NO: 2280 sequence description: GCGCTCGCGC CGCTGCCGG 19

(2) SEQ ID NO: 2281 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2281 sequence description: GCGCCGCTTG GCCTTGTCGC GGC 23

(2) SEQ ID NO: 2282 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2282 sequence description: GCTGCTCCBC GCGCGCTGG 17

(2) SEQ ID NO: 2283 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2283 sequence description: GCCGGBGGCC GGCCBGGTCC CGCG 24

(2) SEQ ID NO: 2284 data of:

(i) sequence characteristics:

(A) length: 31 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2284 sequence description: CCCGGCGGCC GGCBGGBBGG GCGGGCTGGG C31

(2) SEQ ID NO: 2285 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2285 sequence description: GTCTCTCCCG CCCCGGCCGC GCG 23

(2) SEQ ID NO: 2286 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2286 sequence description: GGGCGTCCGC TCCGGGCCGT CGGG 24

(2) SEQ ID NO: 2287 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2287 sequence description: GCGGGCACGC GGCGGCTCTG GCGTCGGC 28

(2) SEQ ID NO: 2288 data:

(i) sequence characteristics:

(A) length: 681 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2288 sequence description: GGTGBCBTTG BGCBTGTCGG CGCGGTCCCG TTBBGBGTGG 56 GCCCGCCAGC CCAGCCACTC CACTTGGGGG CGGGTGGCCA GCACGAACAG CACCCAGAGG AAGGGGGGCG GCCCAGAAGG GCAGCCCGCA GGCCAGGATC AGGTCTGCTG CGGCCGGAGA TAATGGCATT CACCACGCGG CGGCCCAGCG CACGCCGCGC ATCCGGCCCG GGTTCTGACC TGCAGCCCCC GTCTCCTTGG 240 GACGGGGTGB 300CBTTGBGCBT GTCGGCGG TCCCGTTBBG BGTGGGCCCG CCAGCCCAGC CACTCCACTT 360GGGGGCGGGT GGCCAGCACG AACAGCACCC AGAGGAAGGG GGGCGGCCCA GAAGGGCAGC 420CCGCAGGCCA GGATCAGGTC TGCTGCGGCC GGAGATAATG GCATTCACCA CGCGGCGGCC 480CAGCGCACGC CGCGCATCCG GCCCGGGTTC TGACCTGCAG CCCCCGTCTC CTTGGCATTC CTGGGCCCCA GTCACTCCTC TCCCTGCCCC CCTTGCTGGG GCAGGGACGG CCGTGTTGTC BGTGGTGCTG CCCGTTGBG GTBTGGCGCT CCBCCBTC CCTTTTCTCC TTGTTTTCCG TTTCTCTTGC CGTCTGTGGT T681

(2) SEQ ID No: 2289 the information:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2289 sequence description: GGTGBCBTTG BGCBTGTCGG CGC 23

(2) SEQ ID NO: 2290 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2290 sequence description: GGTCCCGTTB BGBGBGTGGGCC C21

(2) SEQ ID NO: 2291 materials:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2291 sequence description: GCCAGCCCAG CCACTCCACT TGGGGGC 27

(2) SEQ ID NO: 2292 data:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2292 sequence description: GGGTGGCCAG CACGAACAGC ACCCAGAGGA AGGGGGGC 38

(2) SEQ ID NO: 2293 materials:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2293 sequence description: GGCCCAGAAG GGCAGCCCGC AGGCCAGGAT CAGGTCTGCT GCGGCC 46

(2) SEQ ID NO: 2294 data:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2294 sequence description: GGAGATAATG GCATTCACCA CGCGGC 26

(2) SEQ ID NO: 2295 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2295 sequence description: GGCCCAGCGC ACGCCGCGCA TCCGGCCC 28

(2) SEQ ID NO: 2296 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2296 sequence description: GGGTTCTGAC CTGCAGCCCC C21

(2) SEQ ID NO: 2297 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2297 the sequence description: GTCTCCTTGG CATTCCTGGG CCC 23

(2) SEQ ID NO: 2298 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2298 sequence description: CAGTCACTCC TCTCCCTGCC CCC 23

(2) SEQ ID NO: 2299 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2299 sequence description: CTTGCTGGGG CAGGGACGG 19

(2) SEQ ID NO: 2300, data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2300, sequence description: GGTGBCBTTG BGCBTGTCGG CGC 23

(2) SEQ ID NO: 2301 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2301 sequence description: GGTCCCGTTB BGBGBGTGGGCC C21

(2) SEQ ID NO: 2302:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2302 sequence description: GCCAGCCCAG CCACTCCACT TGGGGGC 27

(2) SEQ ID NO: 2303 materials:

(i) sequence characteristics:

(A) length: 38 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2303 sequence description: GGGTGGCCAG CACGAACAGC ACCCAGAGGA AGGGGGGC 38

(2) SEQ ID NO: 2304 materials:

(i) sequence characteristics:

(A) length: 46 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2304 sequence description: GGCCCAGAAG GGCAGCCCGC AGGCCAGGAT CAGGTCTGCT GCGGCC 46

(2) SEQ ID No: 2305 materials:

(i) sequence characteristics:

(A) length: 26 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2305 sequence description: GGAGATAATG GCATTCACCA CGCGGC 26

(2) SEQ ID NO: 2306 materials:

(i) sequence characteristics:

(A) length: 28 basepairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2306 sequence description: GGCCCAGCGC ACGCCGCGCA TCCGGCCC 28

(2) SEQ ID NO: 2307 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2307 sequence description: GGGTTCTGAC CTGCAGCCCC C21

(2) SEQ ID NO: 2308 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain s

(D) Topology: line shape

(xi) SEQ ID NO: 2308 sequence description: GTCTCCTTGG CATTCCTGGG CCC 23

(2) SEQ ID NO: 2309 materials:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2309 sequence description: CAGTCACTCC TCTCCCTGCC CCC 23

(2) SEQ ID NO: 2310 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2310 sequence description: CTTGCTGGGG CAGGGACGG 19

(2) SEQ ID NO: 2311 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2311 sequence description: CCGTGTTGTC BGTGGTGCTG 20

(2) SEQ ID NO: 2312 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2312 sequence description: CCCGTTGBG GTBTGGC 17

(2) SEQ ID NO: 2313 data:

(i) sequence characteristics:

(A) length: 23 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain s

(D) Topology: line shape

(xi) SEQ ID NO: 2313 sequence description: GCTCCBCCBB TTCCCTTTTC TCC 23

(2) SEQ ID NO: 2314 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2314 sequence description: TTGTTTTCCG TTTCTCTTG 19

(2) SEQ ID NO: 2315 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2315 sequence description: CCGTCTGTGG TT 12

(2) SEQ ID NO: 2316 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2316 sequence description: CCCGGCCCCG CCTCGTGCC 19

(2) SEQ ID NO: 2317 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2317 sequence description: CGTCCBTGCC GCGGGCCC 18

(2) SEQ ID NO: 2318 data:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2318 sequence description: GCCCCGCTGC TTGGGCTGCT CTGCCGGG 28

(2) SEQ ID NO: 2319 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2319 sequence description: TCTGTGCTCC TCTCGCCTGG G21

(2) SEQ ID NO: 2320 for the data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2320 sequence description: TGGTGGGGTG GGTCTTGGTG G21

(2) SEQ ID NO: 2321 for the following:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2321 sequence description: CTGTCCCTGG TCCTGTG 17

(2) SEQ ID NO: 2322 for the following:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2322 sequence description: GGTCCCGCTT CTTC 14

(2) SEQ ID NO: 2323 for the following:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2323 sequence description: GGGGTTGTTG TTGGTCTGG 19

(2) SEQ ID NO: 2324 for the following:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2324 sequence description: TGTCCTCTTT CTGC 14

(2) SEQ ID NO: 2325 for the following:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2325 sequence description: GCCTCGGGCC TCCC 14

(2) SEQ ID NO: 2326 for the following:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2326 sequence description: GGCTGGGGTC TGCGT 15

(2) SEQ ID NO: 2327 for the following:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2327 sequence description: GGCCGGGGGT CGGTGGGTCC GCTG 24

(2) SEQ ID NO: 2328 for the following:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2328 sequence description: GGGCTGGGGT GCTGGCTTGG GG 22

(2) SEQ ID NO: 2329 for the following:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2329 sequence description: GGGGCTGGGG CCTGGGCC 18

(2) SEQ ID NO: 2330 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2330 sequence description: GCCTGGGTGG GCTTGGGGGC 20

(2) SEQ ID NO: 2331 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2331 sequence description: GCTGGGTCTG TGCTGTTGCC 20

(2) SEQ ID NO: 2332 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2332 sequence description: GTTGTGTGGG GGGCC15

(2) SEQ ID NO: 2333 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2333 sequence description: GCTGGGTCGG GGGGCCTCTG GGCTGTC 27

(2) SEQ ID NO: 2334 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2334 sequence description: GCCCCGGGGC CCCC 14

(2) SEQ ID NO: 2335 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2335 sequence description: TGGCTCCCCC CTCC 14

(2) SEQ ID NO: 2336 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2336 sequence description: GCTCCCCCCT TTCC 14

(2) SEQ ID NO: 2337 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2337 sequence description: CGGACGAAGA CAGAGA 16

(2) SEQ ID NO: 2338 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2338 sequence description: GGCTTTGTGG GCTC 14

(2) SEQ ID NO: 2339 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2339 sequence description: GCCTGCTCTC CCCC 14

(2) SEQ ID NO: 2340 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2340 sequence description: CCCGGCCCCG CCBCGBBCC 19

(2) SEQ ID NO: 2341 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2341 sequence description: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 2342 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2342 sequence description: CCCGGCCCCG CCBCGBBCC 19

(2) SEQ ID NO: 2343 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2343 sequence description: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 2344 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2344 sequence description: CCCGBCC CCTCCBBG 17

(2) SEQ ID NO: 2345 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2345 sequence description: CCCGBCCCTC 14

(2) SEQ ID NO: 2346 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2346 sequence description: CCGGCCCCGC CTC 13

(2) SEQ ID NO: 2347 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2347 sequence description: CCCGBCCCG CBTBGTGCC 19

(2) SEQ ID NO: 2348 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2348 sequence description: CCCGCTBTBGT GCC 13

(2) SEQ ID NO: 2349 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2349 sequence description: CCCGGCBCCCB CCBBGTGCC 19

(2) SEQ ID NO: 2350, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2350 sequence description: CBGBBCCCGC CTCGTGCC 18

(2) SEQ ID NO: 2351, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2351 description of the sequence: CCCGCCTCGT GCC 13

(2) SEQ ID NO: 2352, data of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2352 description of the sequence: CCGGCBCCGC CTCBTGCC 18

(2) SEQ ID NO: 2353, data of:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2353 description of the sequence: CCGGCCCCGC CBCBTGCC 18

(2) SEQ ID NO: 2354, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2354 description of the sequence: CCCGBCTCG 15

(2) SEQ ID NO: 2355, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2355 description of the sequence: CCCGGCCCBCG BCTCG 15

(2) SEQ ID NO: 2356, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2356 description of the sequence: CCCGGCCCBG CCTGBG 15

(2) SEQ ID NO: 2357, data of:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2357 description of the sequence: CCCGGCCBG BCTCGTBCC 19

(2) SEQ ID NO: 2358, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2358 description of the sequence: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 2359, data of:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D)Topology: line shape

(xi) SEQ ID NO: 2359 description of the sequence: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 2360 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2360 sequence description: TCCBTGCCGC GGGC 14

(2) SEQ ID NO: 2361 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2361 sequence description: TCCBTGCCBC GGGCC15

(2) SEQ ID NO: 2362 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2362 sequence description: TCCBTGCCBC GGGCC15

(2) SEQ ID NO: 2363 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2363 sequence description: TCCBTGCCBC BGGCC 15

(2) SEQ ID NO: 2364 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2364 sequence description: GTCCBTGBCG CGG 13

(2) SEQ ID NO: 2365 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2365 sequence description: TCCBTGBCGC GGG 13

(2) SEQ ID NO: 2366 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2366 sequence description: TCTGBGCTCC TCTBBCCTGG G21

(2) SEQ ID NO: 2367 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2367 sequence description: CTGTGCBCCT BBCBCCTGGG 20

(2) SEQ ID NO: 2368 the following data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2368 sequence description: TGTGBTCCBC TBGBCTGGG 19

(2) SEQ ID NO: 2369 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2369 sequence description: TCTGTBCBTCB BCTCBCCTG 19

(2) SEQ ID NO: 2370 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2370 sequence description: TGCTCCTCBC BBCTGGG 17

(2) SEQ ID NO: 2371 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2371 sequence description: CTCCTCTGBC CTGG 14

(2) SEQ ID NO: 2372 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2372 description of the sequence: GTGCTCCBBT CBBCTGGG 18

(2) SEQ ID NO: 2373 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2373 the sequence is described: GTGCBCCBBT CBCCTGGG 18

(2) SEQ ID NO: 2374 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2374 sequence description: TCTGTGTGCBCC TCTBGBCT 18

(2) SEQ ID NO: 2375 the information:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2375 sequence description: TBBTCCTBBC BCCTGG 16

(2) SEQ ID NO: 2376 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2376 sequence description: TGTGCTBBTC BCBCBCBTGGG 19

(2) SEQ ID NO: 2377 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2377 the sequence is as follows: GTGCBCCBCT CBCCTG 16

(2) SEQ ID NO: 2378 data of:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2378 sequence description: CTGTGCBCCT CTC 13

(2) SEQ ID NO: 2379 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2379 sequence description: CBGTGCBCCB CTCBCCTG 18

(2) SEQ ID NO: 2380 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2380 sequence description: GTGCBCCBCT CBCCTG 16

(2) SEQ ID NO: 2381 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2381 sequence description: CBCCTCTCTCBC CTGGG 15

(2) SEQ ID NO: 2382 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2382 sequence description: CCTCCBCCT GGG 13

(2) SEQ ID NO: 2383 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2383 the sequence is as follows: GCTCCBCTCG CCT 13

(2) SEQ ID NO: 2384 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2384 sequence description: TGCTCCTCBC GCC 13

(2) SEQ ID NO: 2385 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2385 sequence description: GTTGTTGBTC TGG 13

(2) SEQ ID NO: 2386 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2386 the sequence is as follows: GGTTGBBBTT GGTCTTGG 18

(2) SEQ ID NO: 2387 the following materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2387 sequence description: GGTTGTTGBT GBTCTG 16

(2) SEQ ID NO: 2388 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2388 sequence description: GGGTTBBBGT TGBTCTGG 18

(2) SEQ ID NO: 2389 the following data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2389 sequence description: GGGTTBBBGT TGBTCTGG 18

(2) SEQ ID NO: 2390 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2390 sequence description: TTGTTGTBGB TCTGG 15

(2) SEQ ID NO: 2391 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2391 sequence description: GGGTBGBBGB GTCCGCTG 18

(2) SEQ ID NO: 2392 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2392 sequence description: GGGTCBGBGG BTCBGCTG 18

(2) SEQ ID NO: 2393 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2393 sequence description: GGGTBGGTGG GTC 13

(2) SEQ ID NO: 2394 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2394 sequence description: GGGTCGGBGG GTCBGC 16

(2) SEQ ID NO: 2395 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2395 sequence description: CCTGGGTGGG CTT 13

(2) SEQ ID NO: 2396 materials:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2396 description of the sequence: GGGTGGGCTT GGG 13

(2) SEQ ID NO: 2397 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2397 the sequence is described: CCTGGGTGGG BBTGGG 16

(2) SEQ ID NO: 2398 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2398 sequence description: CCTGGGBTGGG CBTGGG 16

(2) SEQ ID NO: 2399 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2399 description of the sequence: GCCTGBGTGB BCTTGGG 17

(2) SEQ ID NO: 2400 data of:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2400 sequence description: CCCAVGVCCV CCCAGGC 17

(2) SEQ ID NO: 2401 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2401 sequence description: AGCCCACCCA GGC 13

(2) SEQ ID NO: 2402 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2402 sequence description: BCCTGGGTGG GCTB 14

(2) SEQ ID NO: 2403 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2403 sequence description: GGTGGGCTTG GG 12

(2) SEQ ID NO: 2404 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2404 sequence description: CCBBGGTGGG CTTGGG 16

(2) SEQ ID NO: 2405 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2405 sequence description: CTGGGTGGGB BTGGG 15

(2) SEQ ID NO: 2406 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2406 sequence description: CCBGGGTGGG CTTGG 15

(2) SEQ ID NO: 2407 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2407 sequence description: GGGTGGGCTT GG 12

(2) SEQ ID NO: 2408 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2408 sequence description: CCTGGBGTGBG CBTGGG 16

(2) SEQ ID N0: 2409 data:

(i) sequence characteristics:

(A) length: 7800 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2409 sequence description: GGCGGCCTGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG CTGCTTTTCT 60TTTCTGGGCC TCTGTGGTCT GTTTTTTTCT GGCCCTGCTG GGGCGCTCTC CGCCGCCCGC 120CTGGCTCCCG GBGCCCBTGB TGGGCBTGCC GTGGTTCTTG CCCTCCTTTG GCTGCCGTGC CCGCTCCCCG GCCTCCTGGC GGGTGGCCGT TGGGCCCGTG TTCCCCTGGG GCCTGGGGCT 240CCCTTCTCTC GCCCTTCTTG CTGGGCCTCT GCTGCTGCTG GTGCTGTGGC CCCCGTACAC CGAGGAGCCC ATGATGGGCA TGCCACAGAC GACAGGCGTB CBCCGBGGBG CCCTGBTGG 360GCBTGCCBCB GBCGBCBGGC GGCGCCGTGC CGCGTCTTGG TGGCGGCGGG TTCGCGCCCG 420CGCGGGGCCC CTCCGGTCCG TTCGCGCCCG CGCGGGGCCC CTCCGGTCCC GGGTCGGGGC 63540 TCTGGCTGGG CCCCGGGCGC CCCCTCCCCT CTTGCTCGGG TCCCCGTGAC AGCGCGTCCT 600 GGCCCCCBG CGTCCTGT GTCTCCBGCB 660 GCBTGGCCGGGCCBGCTGGG CCCCACAGAG CAGTGCTGTT GTTGGGCATC TTGCCTTCCC AGGGBCBGBGBG CBTGCTGTTG TTGGGCBTCT CCTTCCTGB GGGCCCTTTT CTGGTGGGGT 3636 GGTGCTGTTG TTGGGCTTTC TTCTGTTCCC BCBGBGBGBGTGGCTGTGGTTTGTTGGTCGGTCGTGGCBTTTCTTCTGGC 840 CTTCCCBGGGGCTGG 37900 AGCTTCBTGGGCTGGCTGGTCTGTCCTTGCCTGTBCCGBCCGBCCGTGGCTGGT 80 GCTGGTGCTGGTGCTGCTGTCTGTCTGTCTTCBTCGGGGCTGGCTGGT 80 GCTGGT 30 GCTGGTGCTGCTTCTGGCTGGTGCTGCTTCTGGCTGGT 960 GCTGGCTGGTCTTCTGGTGCTGGT 960 GCTGCTGTGCTGGCTGGCTGCTGTGCTGCTGTGCTGGCTGCTTCTGCTGTGCTGGT 80 TTCTCTTGTT GTTTTTGGGG TTTGGCTTAC AGTAGAGTAG TGGAGCGBC BGTBGBGTBG GGGBTTCCBT GGCBGGBGCC 1500BTCTTCTTCB TGGBCTCCTT CBBGGBGBGBGBCC TTBGGTTTCT GBGGGBCTGC TBBCGCCB 1560TCTGGBGCGT TGTTTTTGGG GTTTGGCTTG CCTTTCCTGG TTCTTBBCB GTBGBGBGBGBGTBGBBGGGBTTCCBTG GCBGGBGBGCCB TCTTTTCTTCTTCTBT GGBCCTTC TBBCCT GGTTTCTG 1680 BGGGBCTGCGTGCT BBCGCTBCBT BCCGBT 1920 CTGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCC TGTGTCTGTC CTCCTGCTTC GTTCCTCTCG TTCCTGCTTG GTGCCCTTGC CGGTCCTGCT CCTCCGGGCT GTGGGTCCTC GCCCTGGCTC GCCCCGBGBBC GBCGBCGGBCB 1860 CCGBGBGBGBGBGGCC GTGGTTGGGG GTCTTCGCTG CCTCCGTTTG GGTGGCGATC TCTGAATATT CTGBGBGBGTGCGBGTCGGTCGGGCGGTCGGGCGGTCGGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGCGCGGCGGCGCGCGCGCG CGCTCCTTGT CTTGCCGCGG GTTGGTTCCT 2700GGGCCTGGTT CTTGCGGGCG TTTCGGTCTG CTGGCTGGTC TGGGCCCGCG GTGCGGCGGG 2760TGGCTTGCTG TTCTGCCTGG GCTCTCCCCT CTCCTCCTTT TCTCCCTTCC TCTGTCTTGC 2820CTCCTTCCTC TGGGTCCTCT TGGCCTGGGC GCTCTTCCCC TCGGGCGGCT GCGGGCGCTC 2880GTGCTGCCTG GTCCGCTCCC TGGGGGTGCT CCTTCCCTTT CCCCGCTCGT GGGGTTTGCG 2940GGGCTGGGCT GCCCTGGGGG GTCTGGGCCT TTTGGGGTCG GCTGGCTGCT GCTTCGGGCC 3000GCCTGGGCTT CCCTGTGCCC CTTTCCTCTG CTGGGTCCCC CTCCCGTTCC AAGCTGCACC 3060GCACAGACCG GCGCTACAGG ACAGAGCCAG GCAAGCACCC ATGGGGATCC AGGCCCAGCT 3120GTTCCBBGCT GCBCCGCBCB GBCCGGCGCT BCBGGBCBGB GCCBGGCBBG CBCCCBBTGGG 3180GBTCCBGGCC CBGCTGCTCA GTGGCCCCCA AAAGGATGAG TAATACATGC GCCACGATGA 3240TCATATCCTT TTTACTATGA GGCCGTGTCT GTCGTGTCTT TCCTTTGCTC TTGGTGTGTC 3300TTTGCTGTGC CCTGCCTCTC TGCCCGTGTC TGTCGTGTCT TTCCTTTGCT CTTGGTGTGT 3360CTTTGCTGTG CCCTGCCTCT CTGCCCGTGT CTGTCGTGTC TTTCCTTTGC TCTTGGTGTG 3420TCTTTGCTGT GCCCTGCCTC TCTGCGGGGG TGGCTTCCTG CCGCGTCTCT GGGCCGTCCC 3480 3540GGGCGGTGGG CGGGCGGCGC TGCCCTGCGC GCGGCGCTGG CCCCTGCTGG CCGTCGGCTG 393600 CGCGCTGCTG GCTGCCCTGC TGGCCGCGCC GGGGCCTGTC CGCCTCTGCG GGCGCTGTCT CCTGGCTTGT CTTCCGGCTC TTCTGCTGGG GTGGGGCTGG GCGGCCGGCC CGGTGCTGGG 3720GCTCCTCGGG GGGGGGGGCT CTTCCGGGCT GTCTCCCTCC GGGGCGGGGG TTTCTGGCCG 3780 463848 TGGCTCGGGG CTCCGTGGGT CCCTGGCGCC CGTTTGTGTT TTGTCTTTTC CCCTGGCGTC 390583960 TGCTCTTGGT TTTGGGCTTT TTTTCTCTTC CTCCTTTTTC GTGCGTGGGC CTCCGCACGC 4020CTCTTGCCAC CTCCTGCGCA GGGCAGCGCC TTGGGGCCAG CGCCGCTCCC GGCGCGGCCA 4080GCAGGGCAGC CAGCAGCGCG CAGCCGACGG CCAGCATGCT TCCTCCTCGG CTACCACTCC 4140 AGGCGCBCGC CTTGCCBC CTCCTGGCB GGGCBGCGCC 4200 TTGGCCBG CGCCGCTCGCTCCC GGCGCGGCCB GCBGGGCGGGCGGCBGCGGCGGCGGCGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGGTBGCGTGCGGGGGCGGGGCGGGCGGCGGGGCGGGCGGCGGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGTGGGTGGGTBGGGGTBGGGCGGGCGGGCGGGCGTGCGTGGCBGTGGGGCGGTGGCGGTGGCGTGCGTGCGGGCGGGCGGGCGTGCGGGCGTGCGGGCGGGCGTGCGGGCGGGCGTGCGGGCGTGCGGGCGGGCGTGCGGGCGGGCGGGCGTGCGTGCGGGCGGGCGTGCGGGCGTCGGCGTGCGGGCGTGCGTGCGGGCGGGCGGGCGTGCGTGCGTGCGTGCGGGCGGGCGGGCGTCGGCGGGCGGGCGGGCGTGCGTGCGTGCGTGCGTGCGGGCGGGCGTGCGTGCGGGCGGGCGGGCGTGCGTGCGTGCGGGCGGGCGGGCGTGCGGGCGTGCGTGCGTGCGTGCGGGCGGGCGT 5340 GGGBBGBGCCTC TCCTCTCTCC CCBGBTCCGC 5460GBCBGGCCGC BGGCBBGBBC CBGCBBCGCGCGCGCGCGCGCGCGCGGGCGGC 5520TGCBTGCTGC TBCTGCTCG GGCGGGCGGGGCGGCGGGGCGGCGGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGCGGCGGGCGGGCGGGCGGCGGCGGGCGGGCGGGCGGCGGGGCGGGCGGGCGGCGGGGCGGGCGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCG BCBBCCCCCCC TCTGCBGCBG BGTCCTGTCG TGGCGCCTGGGCCTCBGGGT 6720CCGGGCTAAG ATGATCCACA TCACTACCAC GTTGCCCACC ACAGAGGTCA CCACAATGAC 6780CGTGTAGGCA GCTGCCCAAA GGACAATTTG CCAGGCTGGT TGCACGAACT GATTGGGTTC 6840CGAGGTGTTA GTGGAGATGT TTGGGGAGAG GTCTGAGTCC ACCGGGAGGA CGTTATCCAT 6900TTCGAAGCTA GGCGGTAAAG CCCTACTATC TGTACACAAC CCCCCTCTGC AGCAGAGTCC 69660 TGTCGTGGCG CCTGGGGCTC AGGGTCCGTC CTGTCGTGGC GCCTGGGGCT CTTCTTTTGT 7020GGGCTCTTTG GTGGCTGTGG CTGTGGTCTC TGTGGTTGCT GCCCTGGGTC TGGGGGTGTG 7080GCCTTGGGGC CGTCCTCTGG CTCCTCCTCG TGGGCCCCCG GTGBCBTTGB GCBTGTCGGC 7140 827200 7225 7260GGTCTGCTGC GGCCGGAGAT AATGGCATTC ACCACGCGGC GGCCCAGCGC ACGCCGCGCA 7320 7337 7380CCTCTCCCTG CCCCCCTTGC TGGGGCAGGG ACGGGGGGTGBC BTTGBGCBTG TCGGCGCGGT 7440 CCCGTTBGB GTGGGCCCGC CAGCCCAGCC ACTCCACTTG GGGGCGGGTG GCCAGCACGA 7500 397560 397620 587626 CCCTGCCCCC CTTGCTGGGG CAGGGACGGC CGTGTTGTCB GTGGTGCTGC GTTTGBGGGTGTGTTTGBGG 7740 TGGCTC CBCCBBTTCC 2 7800

(2) SEQ ID NO: 2410 data: (i) sequence characteristics:

(A) length: 6225 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2410 description of the sequence: CTTGCTCCTG GGGGCCTCCT GGTCCCTCTG GCTGTTCCCG GCCCTGGGGGGGCGGGGGGGGGGGGGCGCGCGCGCGGGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGCGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGCGCGGGCGGGCGGGCGGGCGGGCGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGCGCGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGCGCGCGCGGGCGGGCGGGCGGGCGGGCGGGCGCGCGGGCGGGCGGGCGGGCGGGCGCGCGCGCGCGGGCGGGCGGGCGGGCGCGCGCGCGCGGGCGGG CCBGBGBGTCTT CCCTTGGTCGC TGCBBTCTGC TCCGGGGCTG 1380CBGCBBCCTC BTGCTCTT GCTCTT GCCTGGBGTG TCBGCCTG GGCCTGGCBGG CBCCBGGB 1440 GBBTGGCBGGCBGCBBGGBTGGCG BGGGTCCTCB TGGCTGGGGT CBCCTGGGGGGT CBCCTGGGGGBGG BGGGBGGGBGBGBGBGBGBGBGBGBGBGBGBGBGGGGCBGG GGGGGTCCTC BTGGCTGGGG TCCCTCTCTC CCGTCCTCGG TTTCCTTTGC GGTCTTGGCC CGGGCTCCGG GTGCCCGCCC GCCCGCCGGC CGCCGCCCCG CCGGGCTGTC CCCGCCCCGC 8651620 361680 361740 CTGCCTTCTC CCCTCTCCTC GGCCGTTGCC TGTGCTGTCC GTCCTGTCGC CCTTCCGTGG 461800 7 1860CGCCCTGCCT GGGCTGGCCT CTTCGGGTGT GGCTTTGGGG CTCTCTTGGT TGCCCTTTCT TCTCGTGGTG CCTCTCCTCC CTGGCTTGGT CGTTGTCTGG GGTGGTGCTC CTCTCCCTTT 1987325 CCCTGCTGGC CGTTTGTCCT GTTTTCTGTC TTCCTCTTTC CTCCTGTTTC TCCGTTTGGC 2040TTGCTGCTTG CGGGGCTGTC TCCCTTGCCC CTGTGGGCTT TCCCTGGTCC GGTCTTCTCC 2100TTGGGGGTCG CCCTTCTTGG TGGGCTGGCT CGTCTGTCTT TTTCCTTCCT GGGGGTGGCC 2160 CCTCGGGTBGCGGTCGGTCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGGCGGGCBGCGGTCGGCBGCGGCBGCGGTCGGCGGGCGGGCBGTGCGCGCGGTCGCGCGCGCGCGCGCGGTCGGTCGCGGCGGCGGTCGGCGGCGGCGGCGCGCGCGGTCGGTCGGTCGGCGGCGGCGGCGCGCGGTCGCGGTCGCGCGCGCGCGGCGGCGCGCGGTCGCGCGCGCGCGCGCGCGCGCGCGGTCGCGCGCGCGGTCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGTCGGGCGCGCGCGCGCGCGCGCGCGCGGTCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCG BBGCCBCBCBBB CBGCBGBG BBTCBTGB 2700GCBBBTBBTC CBTTCTGBBB BBBBGGGBTC BBBBBBBCCTCC CGTTCCCCGT TCGCCTGGCG 2760CGCGCTGCGG GTTCCTCGTG GGTTTCTCCC CGCCGTTCTC CGGTCTGTTG CCTTTGTGGG 2820CTTCTTGTCT TTTTGGCTGT TCTTTTCCTG CTTGGCGTCT TTTCCTTTCT TTGTGCTCGG 2880TTGTGGGTCC GCTGGTCCTT TGCCCTGTGT GTTTCTGCTG CCCGTTCGCC TGGCGCGCGC 2940TGCGGGTTCC TCGTGGGTTT CTCCCCGCCG TTCTCCGGTC TGTTGCCTTT GTGGGCTTCT 8530625 3060GGTCCGCTGG TCCTTTGCCC TGTGTGTTTC TGCTGGGBGC TGBTTGCB GATTTCBG 3120GGBBGBBCCC TGBCBC CBGCTTGCTGGCBC GBGBGBGBGBGBGBBGGB GCBGGGGG 3180 GBGBGBGGBBGB BGGGGB BGTTGCTGGCBGTGGBGCBGTTCGGGGB 3240 CGCTCGCGCGCGCGCGGGGCTGCCTGCGCGBCGGBCGBTGCBTGBBTGBCGBTGCGGGGGGTTTCTGTC 3240 CBGTCTGCGGGCBGGTGBGCBGGGGBBGGBBGGBBGBBB BGBBGGGGGGGGGBGCGGGGGBGTGGGCBGG 33080 GCBGTTGCBGG 3300CTGGTTTTCC TTTCCTGGCA GTGGGTGGGG GTGGGGGTGG GGTGGCTTCC TTGTTCCTGG 3360 3627 3620 3420 36563480 3540 BGGGGGGGGGGGGGGGGGGGGG 348 GBGTTTCGGTCGGTCGGTCGGTCGGTCGB 3240 393540 39583936 GTTCCTCGTG 4020CCGCTGCTGC CTTGTCTTTC CGGCCGTGGC GGCGTGGTGG TCCGCCCCCC CTGGCCTTCT 4080GCTCGGGGTC TGGCTGGTTG CCGGTGCCCT TGGCGGCGGT CTTCTTCCTG GTGGCTCTGG 4140GCCCGGCCGG TCTCGGGCGT CTCGTGTTCG CTCTTGTGCT GTTCCGGCCG CTCCTTCCTC 4200TTCCGCCGCC GCCGCTCCCC GCCCGCTCGT CGCCCTGGCC CGGCCTCCTC CTGGCCGCTG 4260TCTCGGGCGG CGGCCTTGGC GCTCCGTTTG GGGCTGCCTC TGGCGCTTCC GGCCCTCGGC 4320CTGGGCGCTC TCTTCCGCCT GTGCTGGTGG CCCTCGTGGG CCCCTCCTGG CCTCCGGTGT 4380CCTGTGGTCC CCCGGCTGGT GGCCGGGCCG GTTGGGCGGG CGTGGGCGCC GGCGGGTCCT 4440CCGGGCTGCC CTTCTCCGCC GGGGGTCCCG CGCTCCTGCT GTTCCCTGGG CTCTTCTGCC 4500TCTCTCCTGG GTGGGTGCTG GGTGCCGGGG TCTCCGGGCT TGCCCCGCGC TGCTGGGCGT 4560TCTGCGGTCT TGGGGTTGTC TGTGGCCCCG CTCGTGTCGC CCTCCGTCGC CCGTCGCCGG 4620CCTCGTCCCC TCCTGGGTGC GCGGCGGGCT GGTCCTGGCG TTTTGCTCCT TCCTGGGCGT 4680CTTGGGGTGC BGGGCCCBTC CTGCTGCGCC TGGGCGCTGC TGTGCGTCCG TCTGCTGGGG 4740GGCCGGGGTG GCTGGGCCCT GCTTGCCGCA CGACCCCGGG CCGACCCGAG GCTCGGGGGG 4800CTGTGTTCTG GCGCTGGTGG GCTTGGGCCC CTCTGGGGGC TGGGTTTCCT GCTGCGCCTG 4860GGCGCTGGCG TCTTGGGGTG CGGGGCCGGG GGGCCGGGGG GCCGCTGTTC GTGGGCCTGG 4920GGGTGCCTGT GGCTGCCGGT TGCCCCGGTT GGTGGCGCCG TCCTGCTGCC GGTCGTTGGC 4980TGGGTCCCCC CGCCCGTTTC CTGGGGTCCG CGTGGGGTGC TCCGGTTCCT CGTGCCGCTG 5040CTGCCTTGTC TTTCCGGCCG TGGCGGCGTG GTGGTCCGCC CCCCCTGGCC TTCTGCTCGG 5100GGTCTGGCTG GTTGCCGGTG CCCTTGGCGG CGGTCTTCTT CCTGGTGGCT CTGGGCCCGG 5160CCGGTCTCGG GCGTCTCGTG TTCGCTCTTG TGCTGTTCCG GCCGCTCCTT CCTCTTCCGC 5220CGCCGCCGCT CCCCGCCCGC TCGTCGCCCT GGCCCGGCCT CCTCCTGGCC GCTGTCTCGG 5280GCGGCGGCCT TGGCGCTCCG TTTGGGGCTG CCTCTGGCGC TTCCGGCCCT CGGCCTGGGC 5340GCTCTCTTCC GCCTGTGCTG GTGGCCCTCG TGGGCCCCTC CTGGCCTCCG GTGTCCTGTG 5400GTCCCCCGGC TGGTGGCCGG GCCGGTTGGG CGGGCGTGGG CGCCGGCGGG TCCTCCGGGC 5460TGCCCTTCTC CGCCGGGGGT CCCGCGCTCC TGCTGTTCCC TGGGCTCTTC TGCCTCTCTC 5520CTGGGTGGGT GCTGGGTGCC GGGGTCTCCG GGCTTGCCCC GCGCTGCTGG GCGTTCTGCG 5580GTCTTGGGGT TGTCTGTGGC CCCGCTCGTG TCGCCCTCCG TCGCCCGTCG CCGGCCTCGT 5640CCCCTCCTGG GTGCGCGGCG GGCTGGTCCT GGCGTTTTGC TCCTTCCTGG CTGCCCCGBT 5700 TTTTTTGBTCCT CBCBTGCCGT GGGGGGBGGBCB BTGGCTGCCT CCCCGGGGTT TCTGCTGCTT 5760GCTGCTTCTT TCCCGTCTCC CTTCTTTCCC GTCTCCTTTT TGCCTCTTTG GGTTCCTGTT 5820GTTTCTGGCC TGCTTGGTGG CGGCTTGTGC GTTTCCTCTC TCTTCTCTTG GGTCTCCGCT 5880TCTCGTCCTG CCTTTTCCTG TCTCTGTCGC GCCGTTCCTC CTCCGGCGTC CTCCTGCCCT 5940GTGCTGTTTG CCTCGGGTGG TGCGGGTCCC GGTGCTCCCC CGGCGGGCCG GCTGGTTGCC 6000TGGGCCTGTC TGGTGGGGTG TGGGGCCGCT GGGTTGGGGG TGTGGTGGGC TCTTCTGTGG 6060CCTGTGGGGC TGTTGGTGTC TCTGTGGGCG TGTGCTGGGT CTTGGGGCTT CCTCCCTTGT 6120GCTGGGTGCG GCCTCCCCGC CCCCCTTCTG GGCCGGTGGC CTGGCTCCTT GTGGGCGCTT 6180CTGGCTCTTG CCCTGTCCTT CTTCGCCTCG TGGCTGCTGG GCTGC 6225

(2) SEQ ID NO: 2411 data:

(i) sequence characteristics:

(A) length: 7033 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2411 description of the sequence: CCTCCTTCCT GGTCTGTCTG CCBGBCBBBT TTGGGBBGTG BBCBGTTTTG GBBCEBTGTT 60TCCCBGTCTC TGBGCTGTGG CGCCCTGCTG CTCTTTCTGC TTCCCTTGGT GGGTTGGGCC GCTGGTTGTT CTGGGGTTCT TGCTGCCCCT TCTGTCCCTG TTTGCTGGTG TCTGCGCCCC CBBCBGBBGB BGCBBGCBGBCBBB TTTGGGBBGT GBGBBCBGTTTT GGBBCCBTGT TTCCTGTGGGGGCG 240 GCG CTCGGCCTGG TCCCGGGGGT CTCCTCTTGT TGTTGCTTGC GCCTCCTGCT GGGGGTCCCT 82360 TCTCCTGGCC CGGGCCTTGC CCGGCCGTGG TCCCGGCTTC GTTCCTGTCT CCGTCTCGGC 420 CBCgtCCGTGGGGTGCG GTBCTTGTCG 480 CTGCCGCGGCCTGGTC CCGGGGBGGGBGGGBGGGBGTTGGCGBGTTGGCGBGCGBGCGBGCGBGCGBGCGBGCGBGTTGGCGBGTTGGCGGTCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGGTCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGGTCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGGTCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGBCGGCGGTCGBCGGCGBCGGBCGGBCGGCGBCGGCGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGCGGTCGBCGGCGBCGGCGBCGGCGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGGBCGG GGGCCGTCCT TGCCTGCTGG TTTTCTCTTT CGCTTTCTTT 1380TCGTCTCCTG TTCCTCCTTT TTTGCTGTTT TTTCTCCTTC TTCTCTCCTT TCTTTTCTTT 1440TCTCTTTCGC TTTCTTTTCG TCTCCTGTTC CTCCTTTTTT GCTGTTTTTT CTCCTTCTTC 1500TCTCCTTTCT TTTCCTCTGT CTTGTTCTGG TCCTTCGTGG GGCTCTGTGT CGCGTGGGTG 1560CGGCCGTGGC CGGCGGBCCB GGBGTTGGBG CBGGBGCBGG BCGGGCBGGC GGCTCBTGTT TGGBTCGGCB GGBGGCBCTC CTCTGGTTGG CTTCCTTCGC CGGCBCBTGC TBGCBGGBGBGBBG1680 BBCBGBGGGGGBBGCBGTTG GGBGGTGBGBGB CCBTTBBTB GGTGTCGBTC CCTGTTCCC 1740CCCTTTCGTT CTGCGTTTGC CTTTGGCGTT TTTTGTTTGT TTTCTCTCTC CGTCTTTCTT CTCCCCTGTG GGBBTTTCTG TGGGGBTGGC BTBCBCGTBG GCBGCTCCBB GBGCTBGCBB 1860BCTCBBBTGC BGGCBTCC TCBTGGCTGBGBGBGTCGGTGAATTTCTGT GGGGBTGGGCCA 1920TACACGTAGG CAGCTCCAAG AGCTAGCAAA CTCAAATGCA GAAGCATCCT CATGGCTCTG 198 AAACGGGGGG TGGCTTCCTG CCGCGTCTCT GGGCCGTCCC GTCCCTCGGC CCCGCGCCGC 2040 204 GCTCGGCTCC TCTCCCTCTG GCCCGGCTCG GGGCGGGGCG GGGCGGTGGG CGGGCGGCGC TGCCCTGCGC GCGGCGCTGG CCCCTGCTGG CCGTCGGCTG CGCGCTGCTG GCTGCCCTGC 2160TGGCCGCGCC GGGGCCTGTC CGCCTCTGCG GGCGCTGTCT CCTGGCTTGT CTTCCGGCTC 6860 7370 TTCTGCTGGG GTGGGGCTGG GCGGCCGGCC CGGTGCTGGG GCTCCTCGGG GGGGGGGGCT 22352340 CCCTGGCGCC CGTTTGTGTT TTGTCTTTTC CCCTGGCGTC CCTGTGCCCC TCTCCTCTCC 2460 2520 392542 GGGCAGCGCC TTGGGGCCAG CGCCGCTCCC GGCGCGGCCA GCAGGGCAGC CAGCAGCGCG 4640 CAGCCGACGG CCAGCATGCT TCCTCCTCGG GCGCGCBCGC CTTGCCBC CTCCTGGCGCB GGGCBGCGCGCC TTGGGGCCBG CGCCGCTCGCTCCC 2760 GGCGCGCGGCCB GCBGGGCBGC CBGCBGCGCGCGCGCGCGGGCGGCCGCGCGCGGGCGGCCGGGCGGGCGGCGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCG TCGCTCCGCT 4020CCCGGGTTCG TCTCGCTCTG TCGCCCCTTC CTTCCTTGTC GTGTTCCTCC CTTCCTTGCC 4080TCTGBTGTTT GTTBCBBBG CBTCBBGBBT BGCTTTGCTB TCTBBGGBTC BCBTTTBGBC 4140 BTGBGBBBBC GCTGTBGGTC BGBBBTGT GCTTBCTTBCCTTC BCBCBGBGBGCGCTC GCBGBBBTCB 4200GGBBGGCTGC CBBGBGBGBGBGBGBGBGGGCCBGTGGBGTGTCGTGBCTG GTTBBCB GTGBGGTGCT 424660 4320CTCTTGTCCT TTCTCTTGGC CCTTGGCCCC TTGBGCBGGGGGGGGCTGBGGGGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGC 5340CGCTGGCTGC CTGTCTGGCC TGCGCTCTTG GCCTGTGCTG TTCCTCCTCC GGTTCCTGTC 5400CTCTCTGTCT GTCGCCCCCT CTGGGGTCTC CCTCTGGCGT GGTGGTCTTG TTGCTTGGGC 5460TGGGCTCCGT GTCTCCBGTG CTCBTGGTGT CCGCTGBGGG BGCGTCTGCT GGCCTGCTGB 5520GGCTTGGGTC TCCGGGCGBT TCTCTGCBGB BGBTGCTCBB BGGGCTCCGG CBGTTCCTCC 5580TTGBTCTGGT CGCTGTCGTB CCBGTCGGBC CBGTBBTTCB GBTCBTTT GGCTCCTTT 5640TCTTCTGCBB BCBGCTGBGT GGBGBCBBBBBBBGBGBGBGBGBGBGBCTG CCBBGGCCBC GBGGBTTTTC 5700BTGTTGGBTT TTGCGBCGGB CBGTCCCGGCG GGGTGCTGAG TTTCTCTGGT TCCTCCGBGC 5760GCBCGTGGTC GCTCCGCGTT TCTCTGGTTC CTCCGGTCCC GCGGGGTGCT GTCTGGTCGC 5820TGTCGTGGCT TGGGTCTCCG GGCGGTTTCC TTCCTTTTCC GCCGGCCCTT CTCACTGGAG GCACCGGGCA GTCCTCCATG GGAGGGTTGG GCTTGGCCGG GGCTGCCCGG TGCCTCCTCT 585940 TGGCTGGTCC CTCGTTGTCC TTGGGCCCCG CTCCCGCTGC TCGGCCTCCG TGTTCTTTGG 6000CCTCTTGCTC CGCCTGCTGT CTTGTCCCGT CCCCTCCTCG CTTGCGTTTC CCTCTTCCTT 6060 60GTCTTCCAGG CCTTCCTCCG CTTCCGCTGC TGGGGCCCGC GCCGGGGGGG CGCTCGGCTC 616320 6189 6180GGCTGCGTGC GCCGCGCGCG GCGTCCGCGG TGGGTGGCGC TGTCCCGCCG TGGTGTGTCT 6240 6300 63 CTGGTGCCTC GTCTGCCCCG TGGGGCTTCG GGCTCGGGGC TGTTCGTCCC CCCTGCCGCT 6360CTGTGGCCTC CGGGGCTCCT CGTTTTCGCT GCTTCGGGTG TCCTTCTCGG CGTGTGGCCC 6420 366480 TGTCTGTCGG TGCTTGTCTC GGGTTTCTGG CCTCTGTGCT GGGCGCTTCT CTGCCTCCTG 6542 6600 46664660 CCTGCTCTGG 6660 5940TGGCTGGTCC CTCGTTGTCC TTGGGCCCCG CTCCCGCTGC TCGGCCTCCG TGTTCTTTGG 60008 6060 6030 618 6180GGCTGCGTGC GCCGCGCGCG GCGTCCGCGG TGGGTGGCGC TGTCCCGCCG TGGTGTGTCT 6240 639 6300 639 6342 6360CTGTGGCCTC CGGGGCTCCT CGTTTTCGCT GCTTCGGGTG TCCTTCTCGG CGTGTGGCCC 6420 3680 64 RGTCTCCTCT TCCCTCCCTC CCCTGCCGTG TTGTCTGTGG GTGTCGTTTC 6720GCTCTTGTTG CCCTGGGCCC TTCCCTGCTG GGGGGGAGTT TCATCTTGGG TTTCBTCTTG 6780GCTTTBTCCT CTCCCCTTGT TCCTCCCCTC TCCTGCTCTG GRGTCTCCTC TTCCCTCCCT 6840CCCCTGCCGT GTTGTCTGTG GGTGTCGTTT CGCTCTTGTT GCCCTGGGCC CTTCCCTGCT 6900GGGGGGGBGT TTCBTCTTGGGGGGGGGGGBGTTT CBTCTTGGCT TTCCGTTG TCBGTGGTGC 6960TGCCCGTTTG BGGTBTGGCG CTCCBCCBBT TCCCTTTTCT CCTTGTTTTC CGTTTCTCTT 7020GCCGTCTGTG GTT 7033

(2) SEQ ID NO: 2412, data of:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2412 description of the sequence: GATGGAGGGC GGCATGGCGG G21

(2) SEQ ID NO: 2413, data of:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2413 description of the sequence: GCGGGTCGCC GG 12

(2) SEQ ID NO: 2414 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2414 description of the sequence: GGCGGGCBCB GGC 13

(2) SEQ ID NO: 2415, data of:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2415 description of the sequence: GGCGGGCBC 9

(2) SEQ ID NO: 2416 data:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2416 description of the sequence: GCGGCCTGG 9

(2) SEQ ID NO: 2417, data of:

(i) sequence characteristics:

(A) length: 10 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2417 description of the sequence: GGBGGGCGGC 10

(2) SEQ ID NO: 2418, data of:

(i) sequence characteristics:

(A) length: 9 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2418 description of the sequence: GBTGGBGGG 9

(2) SEQ ID NO: 2419 data:

(i) sequence characteristics:

(A) length: 8 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2419 description of the sequence: GGCTGGGC 8(2) SEQ ID NO: 2420 data:

(i) sequence characteristics:

(A) length: 981 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2420 sequence description:

1 ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC

61 CTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG

121 CGGGATGCCA CCTTCTGCTT CATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC

181 CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC

241 CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA

301 ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC

361 CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG

421 ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC

481 AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG

541 GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC

601 CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC

661 GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC

721 TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC

781 CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC

841 TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT

901 AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA

961 GAAGAGAGGC CTGATGACTA G (2) SEQ ID NO: 2421 data:

(i) sequence characteristics:

(A) length: 2900 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2421 sequence description:

1 ATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT

61 GAGGCTGGCA GGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT

121 GCTGAAGGCG TCGAGGTGTG GGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG

181 CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGG CGGGAGCCGG AGGACTATGA

241 GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGG AGCTCTGTTC

301 CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTG

361 CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT

421 CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG

481 TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA

541 CCTTCTGCTT CATCGTGTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC

601 CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG

661 CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG

721 ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG

781 CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT

841 TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG

901 AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA

961 ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT

1021 TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA

1081 AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG

1141 CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC

1201 ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA

1261 ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA

1321 ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC

1381 CTGATGACTA GACCCCGCCT TCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA

1441 GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCT GCCCCAGCTG GGCTGTTGGC

1501 TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTC CACTAGGAGT

1561 TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGG

1621 GACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC

1681 AGTCCAGCGC TTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT

1741 GGGCTGGGAG AAGGTGCTTG GGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT

1801 GTTGGTGGTG CAGCCCCAGG ACCAAGCTTA AGGAGAGGAG AGCATCTGCT CTGAGACGGA

1861 TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTA GGAGAGACTG GCCAGAGGCA

1921 GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTG GACCCCAGGC

1981 CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGG

2041 GAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC

2101 ACGCCCTGGG GAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA

2161 GCTCTGAGCC CTCCTTCTTG CCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT

2221 GTCATCTGGG CCACCAGCTC CACTGGCCCC CGTTGCCGGG CCTGGACTGT CCTAGGTGAC

2281 CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACA CTAGACATGC CAACTCGGGA

2341 GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGAC TCAGTGTTGA

2401 CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCC

2461 TGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG

2521 GCTGGGTTTT CAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG

2581 GGATCTGGGA TCTGGGGAAG GACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG

2641 GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGG GCGAGGCGGG GGAGCCTGGA

2701 GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGG GGGCGAGGGA

2761 GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCA

2821 AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT

2881 AATAAAAAAC TGTGAACCCT (2) SEQ ID NO: 2422 data:

(i) sequence characteristics:

(A) length: 1942 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2422 sequence description:

1 CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGA

61 AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT

121 GTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG

181 TCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC

241 CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC

301 TGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCT

361 GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTG

421 CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCA

481 TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGA

541 AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG

601 ATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA

661 CCTACTTCCA CACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA

721 TCCTGGCCCTGCTGGCAATT GCTGTGGACC GCTACCTCCG GGTCAAGATC CCTCTCCGGT

781 ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCAT AGCCGGCTGC TGGATCCTCT

841 CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGG

901 CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA

961 TCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC

1021 TCATGGTCCT CATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG

1081 TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGT

1141 CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACT

1201 GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT

1261 TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT

1321 TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCA

1381 TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG

1441 CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT

1501 GAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA

1561 CAGAGTGTGG TCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC

1621 CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC

1681 CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCA GGTCCTGGGG

1741 AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGA

1801 GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA

1861 GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT

1921 TCTGTAGGAG AGACTGGCCA GA (2) SEQ ID NO: 2423 data:

(i) sequence characteristics:

(A) length: 5904 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2423 sequence description: ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTGTGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTTATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAACATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCTCCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGATGGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTGCCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGGAGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGTGTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAGCTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCAAGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCACCCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAACTCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGAATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCAGGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTGGGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGGAGCGCTGCGG CGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCGCGCGGCCCGG AGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGGATGGTGCTTG CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCTCCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAACGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCGCTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCACAGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGCCCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACCCCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGTTTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGATCAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTGCCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGAAGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGCCCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGCCCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGAACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCTTCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCTCCCTGAGCCT GCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGTGTGGTCCCTC CACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGTCCTACGGAGG GACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGCAGTCCAGCGC TTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAGAAGGTGCTTG GGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGGACCAAGCTTA AGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGCCTGTTCTGTA GGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCTGAGGACTCTG GACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGATTGTACGTGG GAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCCACGCCCTGGG GAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCCCTCCTTCTTG CCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTCCACTGGCCCC CGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGAGAGGAGAACA CTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGTCTGTAAGGAC TCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGGAGTACCCCCC TGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTGGCTGGGTTTT CAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGATCTGGGGAAG GACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCCTGGAGCCCCT GTGTGGGAGG GCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGATCCTGGAGCCC CTGTGTCGGG GGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTCAACTCCAGGA CTTGCTTCCA AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGCCCATGTGACT AATAAAAAAC TGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAGTCTTGAAGAG AGACAAAGGA AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGTTTGGGTTGTT GTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAGTCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTGGAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGTGGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCTCGTGCCCCTT GGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTTCCAGGCCGCC TACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATCTGGGCGGTGA AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTGATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCACACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATTGCTGTGGACC GCTACCTCCG GGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGGCGGTGGCCAT AGCCGGCTGC TGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAATCTGAGTGCG GTGGAGCGGG CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTCGAGAAGGTCA TCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCCCCGCTTCTCC TCATGGTCCT CATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGGTGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGT CGCTGGCCCTCATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACT GCATCACCCT CTTCTGCCCGTCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCG GCCATGAACCCCATTGTCTA TGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCGCTGCCAGCCT GCACCTCCCA TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCCGCTCCCACCG CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCTGAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGGTCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTACGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTCCAGAGCTTCA GGGCTGGGCA GGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGGTGCTTGGGCT TCTGCGGTGA GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCAAGCTTAAGGA GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGTTCTGTAGGAG AGACTGGCCA GA GAT GGA GGG CGG CAT GGC GGG G CGG GTC GCC GG GGC GGG CBCBGG C GGC GGG CBC GC GGC CTG G GGB GGG CGG C GBT GGB GGG GG CTG GGC GC GGC CTG GAAAGC TGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC (2) SEQ ID NO: 2424 data:

(i) sequence characteristics:

(A) length: 1687 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2424 sequence description:

1 CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC

61 CGGCGGGTCT CACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC

121 CCAGCTGGCC CGGCCATGCT GCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG

181 GTCATCGCCG CGCTTTCGGT GGCGGGCAAC GTGCTGGTGT GCGCCGCGGT GGGCACGGCG

241 AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCC TGGCTGCGGC CGACGTGGCC

301 GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTG CACTGACTTC

361 TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGC

421 CTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT

481 TTGGTCACGG GGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC

541 ATCGGATTGA CTCCATTCCT GGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA

601 GAACCCTGGG ATGGAACCAC GAATGAAAGC TGCTGCCTTG TGAAGTGTCT CTTTGAGAAT

661 GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCT GCCCCCACTG

721 CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC

781 ACTGAGCTGA TGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCA

841 CTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT

901 GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC

961 ATTCTTCTGT CACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA

1021 GACTTCCGCT ACACTTTTCA CAAAATTATC TCCAGGTATC TTCTCTGCCA AGCAGATGTC

1081 AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCG GTGTGGGCCT ATGATCTAGG

1141 CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGAC ACGGCTGGTT

1201 TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCC

1261 CTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA

1321 AATATATTTA TGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG

1381 GATTCTAACA GACTCTTTTG TTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA

1441 AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCA AATACTTTTT AACTTAGAGG

1501 CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAG GAAGGTGACC

1561 TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGC

1621 ACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA

1681 TATAGTG

(2) SEQ ID NO: 2425 data:

(i) sequence characteristics:

(A) length: 1733 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2425 sequence description:

1 GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG

61 CCCCGCGCGG GCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA

121 CGGGCGGGCG CGCGGGCCAA TGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG

181 GTCCCGGCCA CCAGCGCCCC AGCCCCGAGG CTCAGAAGCG GCAGGCGGAG GCGCGGTCCG

241 GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCC CTCGCCCGGC GCGCCTTCGG

301 TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAG GACGCGCTGT

361 ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCG

421 CCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG

481 CTGCGGCCGA CGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG

541 GCTTCTGCAC TGACTTCTAC GGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC

601 AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCC

661 CGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCT

721 GGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG

781 CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA

841 AGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT

901 GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT

961 GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGA

1021 TCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG

1081 TGCATGCTGT TAACTGTGTC ACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT

1141 GGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTC AGTTGTCAAT CCCATTGTCT

1201 ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCC AGGTATCTTC

1261 TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTG

1321 TGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA

1381 AGAGGACACG GCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC

1441 CTCTCTTGAG CACTTCCCTG GAGCTACCAC GTATCTAGCT AATATGTATG TGTCAGTAGT

1501 AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTAC TGTGTGGATT

1561 ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT

1621 ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA

1681 TACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG (2) SEQ ID NO: 2426 data:

(i) sequence characteristics:

(A) length: 2470 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2426 sequence description:

1 GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA

61 TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC

121 ACAAACCCCT TTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTC

181 ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA

241 GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCC

301 TCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACA

361 GTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG

421 CAGGGATGTG GGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA

481 GGACTGCCCT TTTTAATGTC TGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGG

541 ACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGAT ACAGGGTGGG GGTCGGGAGT

601 GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGAT GAGCCCCAGG

661 CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT

721 TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG

781 ATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCT

841 AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGA ACCAAGTGGG

901 TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCA

961 GCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGA

1021 GGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC

1081 CTTCTTTCTG TATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAG GTTGGACATT

1141 GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGA GAAAGAGAGG

1201 TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG

1261 GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG

1321 CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA

1381 GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA

1441 GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCAC

1501 CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC

1561 GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT

1621 TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCT GAAGAGGGTT

1681 GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTT GAGGACATCT

1741 GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAG

1801 CATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT

1861 GAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG

1921 AGCAAGTTGG GAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG

1981 AGCTAGGCCC ACTGGCCCTACAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTC

2041 CCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTAC

2101 ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGC

2161 GTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC

2221 CTGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC

2281 ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCAC

2341 GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACC

2401 GTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA

2461 AAGCCAGAGC (2) SEQ ID NO: 2427 data:

(i) sequence characteristics:

(A) length: 1771 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2427 sequence description:

1 CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA

61 TATAGAGCTG TCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG

121 AAGTGACCCA CCTGTGATGA GCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC

181 CAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACT GTCACTGCAC ATGGACCTCT

241 GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTT GCTGGCTC^C

301 CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCA

361 TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC

421 AACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT

481 TTCATTGTCT CTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCAT GCCTTTGGCC

541 ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTA

601 CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC

661 TTGCGGGTCA AGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG

721 GCCCTGGGCC TTTGCTGGCT GGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG

781 AACATGAAAC TGACCTCAGA GTACCACAGA AATGTCACCT TCCTTTCATG CCAATTTGTT

841 TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGAT TTTCATCCCC

901 CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT

961 CTGAACTTAT CTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT

1021 AAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCAT GGCTGCCTTT ATCTCTCATC

1081 AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACAT GGGCATCCTG

1141 CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTC

1201 AAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG

1261 GACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG

1321 ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCC AAGGGATTTT

1381 TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTC

1441 CCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA

1501 GTGTTTTGGA GGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC

1561 TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAA

1621 GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATT

1681 GAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT

1741 GAGTTTAAGG GGGACTTAAA CTGCTGAATT C (2) SEQ ID NO: 2428 data:

(i) sequence characteristics:

(A) length: 2100 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2428 sequence description:

1 GCCGCCGCCG CCAAGATGGC GGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG

61 GCCATGGAGA AGAGCAAGGC CACGCCGGCC GCGCGCGCCA GCAAGAAGAT ACTGCTGCCC

121 GAGCCCAGCA TCCGCAGTGT CATGCAGAAG TACCTGGAGG ACCGGGGCGA GGTGACCTTT

181 GAGAAGATCT TTTCCCAGAA GCTGGGGTAC CTGCTCTTCC GAGACTTCTG CCTGAACCAC

241 CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGA TCAAGAAGTA CGAGAAGCTG

301 GAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCT TCGACTCATA CATCATGAAG

361 GAGCTGCTGG CCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCAC

421 CTGGGGAAGA AGCAGGTGCC TCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA

481 AACCTCCGAG GGGACGTGTT CCAGAAATTC ATTGAGAGCG ATAAGTTCAC ACGGTTTTGC

541 CAGTGGAAGA ATGTGGAGCT CAACATCCAC CTGACCATGA ATGACTTCAG CGTGCATCGC

601 ATCATTGGGC GCGGGGGCTT TGGCGAGGTC TATGGGTGCC GGAAGGCTGA CACAGGCAAG

661 ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGA TGAAGCAGGG GGAGACCCTG

721 GCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCC ATTCATTGTC

781 TGCATGTCAT ACGCGTTCCA CACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAAC

841 GGTGGGGACC TGCACTACCA CCTCTCCCAG CACGGGGTCT TCTCAGAGGC TGACATGCGC

901 TTCTATGCGG CCGAGATCAT CCTGGGCCTG GAGCACATGC ACAACCGCTT CGTGGTCTAC

961 CGGGACCTGA AGCCAGCCAA CATCCTTCTG GACGAGCATG GCCACGTGCG GATCTCGGAC

1021 CTGGGCCTGG CCTGTGACTT CTCCAAGAAG AAGCCCCATG CCAGCGTGGG CACCCACGGG

1081 TACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACG ACAGCAGTGC CGACTGGTTC

1141 TCTCTGGGGT GCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCG GCAGCACAAG

1201 ACCAAAGACA AGCATGAGAT CGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGAC

1261 TCCTTCTCCC CTGAACTACG CTCCCTGCTG GAGGGGTTGC TGCAGAGGGA TGTCAACCGG

1321 AGATTGGGCT GCCTGGGCCG AGGGGCTCAG GAGGTGAAAG AGAGCCCCTT TTTCCGCTCC

1381 CTGGACTGGC AGATGGTCTT CTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGG

1441 GAGGTGAACG CGGCCGACGC CTTCGACATT GGCTCCTTCG ATGAGGAGGA CACAAAAGGA

1501 ATCAAGTTAC TGGACAGTGA TCAGGAGCTC TACCGCAACT TCCCCCTCAC CATCTCGGAG

1561 CGGTGGCAGC AGGAGGTGGC AGAGACTGTC TTCGACACCA TCAACGCTGA GACAGACCGG

1621 CTGGAGGCTC GCAAGAAAGC CAAGAACAAG CAGCTGGGCC ATGAGGAAGA CTACGCCCTG

1681 GGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGG GCAACCCCTT CCTGACCCAG

1741 TGGCAGCGGC GGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGG CGAGGGCGAG

1801 GCCCCGCAGA GCCTGCTGAC CATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAG

1861 GAGCGCAAGT GCCTGCTCCT CAAGATCCGC GGTGGGAAAC AGTTCATTTT GCAGTGCGAT

1921 AGCGACCCTG AGCTGGTGCA GTGGAAGAAG GAGCTGCGCG ACGCCTACCG CGAGGCCCAG

1981 CAGCTGGTGC AGCGGGTGCC CAAGATGAAG AACAAGCCGC GCTCGCCCGT GGTGGAGCTG

2041 AGCAAGGTGC CGCTGGTCCA GCGCGGCAGT GCCAACGGCC TCTGACCCGC CCACCCGCCT (2) SEQ ID NO: 2429 data:

(i) sequence characteristics:

(A) length: 2375 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2429 sequence description:

1 CCAGGAAGCT ACCTGGAGGA GGTGAGTCTT AGCGGATGAG TAGGAGTTGT CCACGGAGGA

61 AGGTACACAG AAGGGCTTCC AGGCCCAGGA AACAGCAGAG GCACAGAAGT GAGAATGGGT

121 GGGTGAGTTG GTGGGGAAAC TCCAGGTGCA GAGGATGGTA GCGAAACAAA CTGGAGCATT

181 AAGGTCCAAG TCCTCCAAGA TCTTGACTTG CAGATTAAGG AGTTTGTTCA CCTAATCTGC

241 TTTGGGCAGA GTGTGGTGAG TCCTAGAGAC CCCTCTAGGT CTCTCCTCTC AGTAGCCCCA

301 GAAGGCCTGG AGAGCTGCTT CTGGGTGCCA AGCAGGCAGT GACTCCATCA GATCTAGATT

361 TGGGAAAAGC ATCCCTGGTC AGGGCCTGCA TCAGGGCAGT GGCTGGCCAT GAGGACCCTG

421 AGAAGTAGAC AGATTCACGG AGATTCTCAG GAGGCCAGAC AGGAGACTAT GGTGACAAAT

481 TAGATTAGAG AAGGGGAGAG AATGAAGGAG CAGTTGGGGT AAAAGAAAAC TGAGGCTGAC

541 ATGGGTATAT GGGTGGCGAG TGACTCACCA CCCACTGAGA GGAGAACCTCACAAGCTCTG

601 ACATGCTCTG GTTCCAGGTT CTGTTGGGGC TGATCCAAGA TGGTAGCCTA GAGGTGCACA

661 GAGATGGGGG CCTTGCTTTG CAAAAGGATG CTGGCTGCTG GCCCACAGCA TGGTAATGAG

721 ATTTGAGCTT TATGTGCCCA GGGCTGGGAG GAGGGTCCTG TCACTTTGAA AGCAAAGAGA

781 GGCTCTAGAG AGGGGCATGT TGAGATAGGA ATGCTGCCTT GAGACACCTG GCTTTCCCCA

841 CTCTGGGTGG CTCTCAGCAG GGTGGGTTTC CCCTGCCAGG CAGCACTGAA CCTCTGTGCG

901 CTTCCGGCTG GGAGAGTTTT TACCGTAACT ACATGTGGAA CCATCCTGAA GGAACATCTG

961 GATGGGATGG GGTACAGGGA AGGGAGCTGC CAAGAGTGCT GGCCAGGGAC CTGGGTCTAT

1021 GAGCTGGTTG GGGGGTGGGG TTGGGTGCAG GGTACTTGAT CCTGAGTGGG CCTTCTGCGG

1081 CCAGGATTGG TTCTAGAGTA GGAGGGGTGG GATCGGGGAT GGGGGAAGCC TGTAACTGCG

1141 CTGCAGTTGT CAGGTCCCAG GTTCTGGGTG ACCTACTAAG GATTCTGGGT CCAGTGTGGG

1201 TCCCAGGTTA GACGTCCTAG TCCTGAGTCC GTGTCCACAG TTCTGGGTGT TGAGTCTAGG

1261 ACAGTGATCT GGAGTTGACA GTCCAATCTA GGTCTGAGTC CTGACCCCAA GTCTAGAGTT

1321 CAGGGTCATG GTAGTAGCCT AGGGTCAGAA TCAAGGTTGG GGTCAGTAAC CAGGATGGGA

1381 TCGAGGTCAT GGTCCAAAAT CTGGATCTGG GGACCTGTTG GGGGTCTGAG GTGAGTGTCG

1441 CAGTCTGGGT ATGGCGTTGG AGACCCAGGG CTGTGATCTG AGGTCATGGT TAGAGTCTCA

1501 GGTGGTGGGC CAAGGTTTGA GTCTGGGGTC CTGTTTGGAG TCTGGTGTCA GGTCGTGGAC

1561 TGCGTCCAAG GTCAGGGAGT CCGGGGTTAT AGCCAGGGTC TGAGATGAAA GTCCCAGATG

1621 GTGTTCAGAG GTCTGAATCT GTGTCTTGGT GAGCGTCCAG GTTCCCTGTG ATCACGTTTG

1681 GTGTCAGGGC TGCGGCCCGA CTGGGGAGCC TGGGATCCAG AGATGTGACC CGAGGTTGTG

1741 GTCAGAGAAT GGGTCTCGGG TCGTCTTCGT GCCGGGTCCC TGTCGTGTTC CAGGCCCGGG

1801 TCTCCGTCCA GCATCGAGGG CCGAGGTCAC GGCCAGGGTC TGAGCCCGCG GTCGCAGGTC

1861 TGGTTCGGGG TCAGATTCCG CGCGGCCTCC AGGGGGCGCC GTCGCCGCCC GGCTCGGCCC

1921 CTCGCGGGCT CGCTGGCGTT GTGCGCGGCA GGCGGGGCCG GAGGCGGCGG CGGCTCCGGG

1981 GGCGCGGGCC GGGCGGCGGC GGCGGCGGCG CCCCGACTGC AGTCCCGGCG GGAGCGGAGC

2041 GCGAAGCGCG GGGCCGGGCC CGGAGCCGGC GCCATGGGGC GGCGCCGCCT GTGAGCGGCG

2101 GCGAGCGGAG CCGCGGGCGC CGAGCAGGGC CAGGCGGGAG CGTCGGCGCC CGAGGCCGAG

2161 CGAGCCGCGG CCGGGCCGGG CCGAGCGCCG AGCGAGCAGG AGCGGCGGCG GCGGCGGCGG

2221 CGGCGGGAGG AGGCAGCGCC GCCGCCAAGA TGGCGGACCT GGAGGCGGTG CTGGCCGACG

2281 TGAGCTACCT GATGGCCATG GAGAAGAGCA AGGCCACGCC GGCCGCGCGC GCCAGCAAGA

2341 AGATACTGCT GCCCGAGCCC AGGTGAGGAG AAGCT (2) SEQ ID NO: 2430 data:

(i) sequence characteristics:

(A) length: 4382 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain (D) topology: line shape

(xi) SEQ ID NO: 2430 sequence description: GCCGCCGCCG CCAAGATGGC GGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG GCCATGGAGAAGAGCAAGGC CACGCCGGCC GCGCGCGCCA GCAAGAAGAT ACTGCTGCCC GAGCCCAGCA TCCGCAGTGTCATGCAGAAG TACCTGGAGG ACCGGGGCGA GGTGACCTTT GAGAAGATCT TTTCCCAGAA GCTGGGGTACCTGCTCTTCC GAGACTTCTG CCTGAACCAC CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGATCAAGAAGTA CGAGAAGCTG GAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCTTCGACTCATACATCATGAAG GAGCTGCTGG CCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCACCTGGGGAAGA AGCAGGTGCC TCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA AACCTCCGAGGGGACGTGTT CCAGAAATTC ATTGAGAGCG ATAAGTTCAC ACGGTTTTGC CAGTGGAAGA ATGTGGAGCTCAACATCCAC CTGACCATGA ATGACTTCAG CGTGCATCGC ATCATTGGGC GCGGGGGCTT TGGCGAGGTCTATGGGTGCC GGAAGGCTGA CACAGGCAAG ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGATGAAGCAGGG GGAGACCCTG GCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCCATTCATTGTC TGCATGTCAT ACGCGTTCCA CACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAACGGTGGGGACC TGCACTACCA CCTCTCCCAG CACGGGGTCT TCTCAGAGGC TGACATGCGC TTCTATGCGGCCGAGATCAT CCTGGGCCTG GAGCACATGC ACAACCGCTT CGTGGTCTAC CGGGACCTGA AGCCAGCCAACATCCTTCTG GACGAGCATG GCCACGTGCG GATCTCGGAC CTGGGCCTGG CCTGTGACTT CTCCAAGAAGAAGCCCCATG CCAGCGTGGG CACCCACGGG TACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACGACAGCAGTGC CGACTGGTTC TCTCTGGGGT GCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCGGCAGCACAAG ACCAAAGACA AGCATGAGAT CGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGACTCCTTCTCCC CTGAACTACG CTCCCTGCTG GAGGGGTTGC TGCAGAGGGA TGTCAACCGG AGATTGGGCTGCCTGGGCCG AGGGGCTCAG GAGGTGAAAG AGAGCCCCTT TTTCCGCTCC CTGGACTGGC AGATGGTCTTCTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGG GAGGTGAACG CGGCCGACGC CTTCGACATTGGCTCCTTCG ATGAGGAGGA CACAAAAGGA ATCAAGTTAC TGGACAGTGA TCAGGAGCTC TACCGCAACTTCCCCCTCAC CATCTCGGAG CGGTGGCAGC AGGAGGTGGC AGAGACTGTC TTCGACACCA TCAACGCTGAGACAGACCGG CTGGAGGCTC GCAAGAAAGC CAAGAACAAG CAGCTGGGCC ATGAGGAAGA CTACGCCCTGGGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGG GCAACCCCTT CCTGACCCAG TGGCAGCGGCGGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGG CGAGGGCGAG GCCCCGCAGA GCCTGCTGACCATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAG GAGCGCAAGT GCCTGCTCCT CAAGATCCGCGGTGGGAAAC AGTTCATTTT GCAGTGCGAT AGCGACCCTG AGCTGGTGCA GTGGAAGAAG GAGCTGCGCGACGCCTACCG CGAGGCCCAG CAGCTGGTGC AGCGGGTGCC CAAGATGAAG AACAAGCCGC GCTCGCCCGTGGTGGAGCTG AGCAAGGTGC CGCTGGTCCA GCGCGGCAGT GCCAACGGCC TCTGACCCGC CCACCCGCCTCCAGGAAGCT ACCTGGAGGA GGTGAGTCTT AGCGGATGAG TAGGAGTTGT CCACGGAGGA AGGTACACAGAAGGGCTTCC AGGCCCAGGA AACAGCAGAG GCACAGAAGT GAGAATGGGT GGGTGAGTTG GTGGGGAAACTCCAGGTGCA GAGGATGGTA GCGAAACAAA CTGGAGCATT AAGGTCCAAG TCCTCCAAGA TCTTGACTTGCAGATTAAGG AGTTTGTTCA CCTAATCTGC TTTGGGCAGA GTGTGGTGAG TCCTAGAGAC CCCTCTAGGTCTCTCCTCTC AGTAGCCCCA GAAGGCCTGG AGAGCTGCTT CTGGGTGCCA AGCAGGCAGT GACTCCATCAGATCTAGATT TGGGAAAAGC ATCCCTGGTC AGGGCCTGCA TCAGGGCAGT GGCTGGCCAT GAGGACCCTGAGAAGTAGAC AGATTCACGG AGATTCTCAG GAGGCCAGAC AGGAGACTAT GGTGACAAAT TAGATTAGAGAAGGGGAGAG AATGAAGGAG CAGTTGGGGT AAAAGAAAAC TGAGGCTGAC ATGGGTATAT GGGTGGCGAGTGACTCACCA CCCACTGAGA GGAGAACCTC ACAAGCTCTG ACATGCTCTG GTTCCAGGTT CTGTTGGGGCTGATCCAAGA TGGTAGCCTA GAGGTGCACA GAGATGGGGG CCTTGCTTTG CAAAAGGATG CTGGCTGCTGGCCCACAGCA TGGTAATGAG ATTTGAGCTT TATGTGCCCA GGGCTGGGAG GAGGGTCCTG TCACTTTGAAAGCAAAGAGA GGCTCTAGAG AGGGGCATGT TGAGATAGGA ATGCTGCCTT GAGACACCTG GCTTTCCCCACTCTGGGTGG CTCTCAGCAG GGTGGGTTTC CCCTGCCAGG CAGCACTGAA CCTCTGTGCG CTTCCGGCTGGGAGAGTTTT TACCGTAACT ACATGTGGAA CCATCCTGAA GGAACATCTG GATGGGATGG GGTACAGGGAAGGGAGCTGC CAAGAGTGCT GGCCAGGGAC CTGGGTCTAT GAGCTGGTTG GGGGGTGGGG TTGGGTGCAGGGTACTTGAT CCTGAGTGGG CCTTCTGCGG CCAGGATTGG TTCTAGAGTA GGAGGGGTGG GATCGGGGATGGGGGAAGCC TGTAACTGCG CTGCAGTTGT CAGGTCCCAG GTTCTGGGTG ACCTACTAAG GATTCTGGGTCCAGTGTGGG TCCCAGGTTA GACGTCCTAG TCCTGAGTCC GTGTCCACAG TTCTGGGTGT TGAGTCTAGGACAGTGATCT GGAGTTGACA GTCCAATCTA GGTCTGAGTC CTGACCCCAA GTCTAGAGTT CAGGGTCATGGTAGTAGCCT AGGGTCAGAA TCAAGGTTGG GGTCAGTAAC CAGGATGGGA TCGAGGTCAT GGTCCAAAATCTGGATCTGG GGACCTGTTG GGGGTCTGAG GTGAGTGTCG CAGTCTGGGT ATGGCGTTGG AGACCCAGGGCTGTGATCTG AGGTCATGGT TAGAGTCTCA GGTGGTGGGC CAAGGTTTGA GTCTGGGGTC CTGTTTGGAGTCTGGTGTCA GGTCGTGGAC TGCGTCCAAG GTCAGGGAGT CCGGGGTTAT AGCCAGGGTC TGAGATGAAAGTCCCAGATG GTGTTCAGAG GTCTGAATCT GTGTCTTGGT GAGCGTCCAG GTTCCCTGTG ATCACGTTTGGTGTCAGGGC TGCGGCCCGA CTGGGGAGCC TGGGATCCAG AGATGTGACC CGAGGTTGTG GTCAGAGAATGGGTCTCGGG TCGTCTTCGT GCCGGGTCCC TGTCGTGTTC CAGGCCCGGG TCTCCGTCCA GCATCGAGGGCCGAGGTCAC GGCCAGGGTC TGAGCCCGCG GTCGCAGGTC TGGTTCGGGG TCAGATTCCG CGCGGCCTCCAGGGGGCGCC GTCGCCGCCC GGCTCGGCCC CTCGCGGGCT CGCTGGCGTT GTGCGCGGCA GGCGGGGCCGGAGGCGGCGG CGGCTCCGGG GGCGCGGGCC GGGCGGCGGC GGCGGCGGCG CCCCGACTGC AGTCCCGGCGGGAGCGGAGC GCGAAGCGCG GGGCCGGGCC CGGAGCCGGC GCCATGGGGC GGCGCCGCCT GTGAGCGGCGGCGAGCGGAG CCGCGGGCGC CGAGCAGGGC CAGGCGGGAG CGTCGGCGCC CGAGGCCGAG CGAGCCGCGGCCGGGCCGGG CCGAGCGCCG AGCGAGCAGG AGCGGCGGCG GCGGCGGCGG CGGCGGGAGG AGGCAGCGCCGCCGCCAAGA TGGCGGACCT GGAGGCGGTG CTGGCCGACG TGAGCTACCT GATGGCCATG GAGAAGAGCAAGGCCACGCC GGCCGCGCGC GCCAGCAAGA AGATACTGCT GCCCGAGCCC AGGTGAGGAG AAGCT4382

(2) SEQ ID No: 2431 data:

(i) sequence characteristics:

(A) length: 2599 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2431 sequence description: 1 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT 61 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC 121 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG 181 ACTAATTCCT GCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA 241 CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT 301 GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGA GGAGTGACTG 361 AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG 421 AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT 481 CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC

541 CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA

601 CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG

661 CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGG

721 AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAASC TGTTCGACGA

781 GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA

841 GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA

901 TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG

961 TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA

1021 AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC

1081 GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCA

1141 TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT

1201 GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG

1261 AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG

1321 GCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT

1381 TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT

1441 TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG

1501 GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAA

1561 CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT

1621 AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA

1681 ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA

1741 ACCTAGAAGG GCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG

1801 AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA

1861 GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC

1921 TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGGCAGGCTAGAA CCTGGCAAGC

1981 TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT

2041 GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA

2101 AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC

2161 CTCAGTAAGT ATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT

2221 AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC

2281 TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC

2341 TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAA

2401 CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC

2461 TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA

2521 CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT

2581 GCAAAAAAAA AAAAAAAAA (2) SEQ ID NO: 2432 data:

(i) sequence characteristics:

(A) length: 981 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2432 sequence description:

1 ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC

61 CTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG

121 CGGGATGCCA CCTTCTGCTT CATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC

181 CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC

241 CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA

301 ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC

361 CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG

421 ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC

481 AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG

541 GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC

601 CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC

661 GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC

721 TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC

781 CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC

841 TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT

901 AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA

961 GAAGAGAGGC CTGATGACTA G (2) SEQ ID NO: 2433 data:

(i) sequence characteristics:

(A) length: 2900 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2433 sequence description:

1 ATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT

61 GAGGCTGGCA GGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT

121 GCTGAAGGCG TCGAGGTGTG GGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG

181 CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGG CGGGAGCCGG AGGACTATGA

241 GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGG AGCTCTGTTC

301 CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTG

361 CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT

421 CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG

481 TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA

541 CCTTCTGCTT CATCGTGTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC

601 CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG

661 CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG

721 ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG

781 CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT

841 TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG

901 AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA

961 ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT

1021 TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA

1081 AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG

1141 CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC

1201 ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA

1261 ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA

1321 ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC

1381 CTGATGACTA GACCCCGCCT TCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA

1441 GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCT GCCCCAGCTG GGCTGTTGGC

1501 TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTC CACTAGGAGT

1561 TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGG

1621 GACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC

1681 AGTCCAGCGC TTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT

1741 GGGCTGGGAG AAGGTGCTTG GGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT

1801 GTTGGTGGTG CAGCCCCAGG ACCAAGCTTA AGGAGAGGAG AGCATCTGCT CTGAGACGGA

1861 TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTA GGAGAGACTG GCCAGAGGCA

1921 GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTG GACCCCAGGC

1981 CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGG

2041 GAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC

2101 ACGCCCTGGG GAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA

2161 GCTCTGAGCC CTCCTTCTTG CCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT

2221 GTCATCTGGG CCACCAGCTC CACTGGCCCC CGTTGCCGGG CCTGGACTGT CCTAGGTGAC

2281 CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACA CTAGACATGC CAACTCGGGA

2341 GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGAC TCAGTGTTGA

2401 CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCC

2461 TGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG

2521 GCTGGGTTTT CAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG

2581 GGATCTGGGA TCTGGGGAAG GACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG

2641 GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGG GCGAGGCGGG GGAGCCTGGA

2701 GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGG GGGCGAGGGA

2761 GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCA

2821 AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT

2881 AATAAAAAAC TGTGAACCCT (2) SEQ ID NO: 2434 data:

(i) sequence characteristics: (A) length: 1942 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2434 sequence description:

1 CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGA

61 AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT

121 GTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG

181 TCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC

241 CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC

301 TGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCT

361 GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTG

421 CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCA

481 TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGA

541 AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG

601 ATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA

661 CCTAGTTCCA CACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA

721 TCCTGGCCCT GCTGGCAATT GCTGTGGACC GCTACCTCCG GGTCAAGATC CCTCTCCGGT

781 ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCAT AGCCGGCTGC TGGATCCTCT

841 CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGG

901 CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA

961 TCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC

1021 TCATGGTCCT CATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG

1081 TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGT

1141 CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACT

1201 GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCT

1261 TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT

1321 TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCA

1381 TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG

1441 CCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT

1501 GAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA

1561 CAGAGTGTGG TCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC

1621 CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCC

1681 CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCA GGTCCTGGGG

1741 AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGA

1801 GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA

1861 GAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT

1921 TCTGTAGGAG AGACTGGCCA GA (2) SEQ ID NO: 2435 data:

(i) sequence characteristics:

(A) length: 1687 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2435 sequence description:

1 CCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC

61 CGGCGGGTCT CACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC

121 CCAGCTGGCC CGGCCATGCT GCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG

181 GTCATCGCCG CGCTTTCGGT GGCGGGCAAC GTGCTGGTGT GCGCCGCGGT GGGCACGGCG

241 AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCC TGGCTGCGGC CGACGTGGCC

301 GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTG CACTGACTTC

361 TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGC

421 CTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT

481 TTGGTCACGG GGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC

541 ATCGGATTGA CTCCATTCCT GGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA

601 GAACCCTGGG ATGGAACCAC GAATGAAAGC TGCTGCCTTG TGAAGTGTCT CTTTGAGAAT

661 GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCT GCCCCCACTG

721 CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGC

781 ACTGAGCTGA TGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCA

841 CTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT

901 GTCACTCTTT TCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC

961 ATTCTTCTGT CACATGCCAA TTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA

1021 GACTTCCGCT ACACTTTTCA CAAAATTATC TCCAGGTATC TTCTCTGCCA AGCAGATGTC

1081 AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCG GTGTGGGCCT ATGATCTAGG

1141 CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGAC ACGGCTGGTT

1201 TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCC

1261 CTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA

1321 AATATATTTA TGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG

1381 GATTCTAACA GACTCTTTTG TTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA

1441 AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCA AATACTTTTT AACTTAGAGG

1501 CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAG GAAGGTGACC

1561 TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGC

1621 ACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA

1681 TATAGTG (2) SEQ ID NO: 2436 data:

(i) sequence characteristics:

(A) length: 1733 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2436 the sequence of which describes:

1 GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGG

61 CCCCGCGCGG GCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA

121 CGGGCGGGCG CGCGGGCCAA TGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG

181 GTCCCGGCCA CCAGCGCCCC AGCCCCGAGG CTCAGAAGCG GCAGGCGGAG GCGCGGTCCG

241 GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCC CTCGCCCGGC GCGCCTTCGG

301 TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAG GACGCGCTGT

361 ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCG

421 CCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG

481 CTGCGGCCGA CGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG

541 GCTTCTGCAC TGACTTCTAC GGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC

601 AGAGCTCCAT CTTCAGCCTT CTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCC

661 CGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAG AGGGGTCATT GCTGTCCTCT

721 GGGTCCTTGCCTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGT AAAGACAGTG

781 CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGA

841 AGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT

901 GTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT

961 GCAGGCAGCT TCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGA

1021 TCCATGCAGC CAAGTCACTG GCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG

1081 TGCATGCTGT TAACTGTGTC ACTCTTTTCC AGCCAGCTCA GGGTAAAAAT AAGCCCAAGT

1141 GGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTC AGTTGTCAAT CCCATTGTCT

1201 ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCC AGGTATCTTC

1261 TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTG

1321 TGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA

1381 AGAGGACACG GCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC

1441 CTCTCTTGAG CACTTCCCTG GAGCTACCAC GTATCTAGCT AATATGTATG TGTCAGTAGT

1501 AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAG CTGCTTTTAC TGTGTGGATT

1561 ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTC TGCCTTGTTT

1621 ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAA

1681 TACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG (2) SEQ ID NO: 2437 data:

(i) sequence characteristics:

(A) length: 2470 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2437 sequence description:

1 GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA

61 TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC

121 ACAAACCCCT TTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTC

181 ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA

241 GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCC

301 TCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACA

361 GTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG

421 CAGGGATGTG GGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA

481 GGACTGCCCT TTTTAATGTC TGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGG

541 ACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGAT ACAGGGTGGG GGTCGGGAGT

601 GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGAT GAGCCCCAGG

661 CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT

721 TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG

781 ATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCT

841 AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGA ACCAAGTGGG

901 TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCA

961 GCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGA

1021 GGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC

1081 CTTCTTTCTG TATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAG GTTGGACATT

1141 GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGA GAAAGAGAGG

1201 TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG

1261 GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG

1321 CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA

1381 GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA

1441 GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCAC

1501 CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC

1561 GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT

1621 TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCT GAAGAGGGTT

1681 GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTT GAGGACATCT

1741 GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAG

1801 CATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT

1861 GAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG

1921 AGCAAGTTGG GAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG

1981 AGCTAGGCCC ACTGGCCCTA CAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTC

2041 CCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTAC

2101 ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGC

2161 GTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC

2221 CTGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC

2281 ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCAC

2341 GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACC

2401 GTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA

2461 AAGCCAGAGC (2) SEQ ID NO: 2438 data:

(i) sequence characteristics:

(A) length: 1350 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2438 sequence description:

1 CTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCC

61 CTCAAGCCAC TGTGTGGGTT GGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT

121 GGTTAAAATA ATCCCTTTGG ATGGTGCTGA GAAGCACCTG AACCAAGTGG GTCCCCAAAT

181 AACTATGGCG TGCAAGTGTC TGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGA

241 GAGGGGCTGA TTCCCAGACA GTCGCCTGTT CCTGCTGGGA TGGGGCTGAG GCTTGGGGAA

301 TGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCC TTCTTTCTGT

361 ATGTCTGGTC ATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC

421 AGCATAAGTG CCAGTGTGAT TTTGCTAGGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA

481 GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGGGAATCTTTGC

541 TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG

601 CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC

661 AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG

721 CTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCAC CTGATCCTGC

781 ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC

841 TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTC

901 TGTACTTCCT CTTGGCCCAT CTCACTTCCT GAAACACCCC TGAAGAGGGT TGCTTATCTT

961 GATGGAACTC AAAAAGCCAA AAAGCTGCAG GCAGAGGCGT TGAGGACATC TGTTTGGGGA

1021 ACTAAGAGCA GCAGCACTTT CAGATTCAGT CCATATAGAG CTGTCCTACA GCATTCTGGA

1081 AACTTGAGGA TGTGCGGTGC ATAAAGGGGC TGGAAGTGAC CCACCTGTGA TGAGCCCTTT

1141 CTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAA GGGTAGGAAT GAGCAAGTTG

1201 GGAATTTTAG ACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGA GAGCTAGGCC

1261 CACTGGCCCT ACAGACGGAT CTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAA

1321 GGCAAGATGC CCAACAACAG CACTGCTCTG (2) SEQ ID NO: 2439 data:

(i) sequence characteristics:

(A) length: 1771 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2439 sequence description:

1 CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA

61 TATAGAGCTG TCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG

121 AAGTGACCCA CCTGTGATGA GCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC

181 CAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACT GTCACTGCAC ATGGACCTCT

241 GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTT GCTGGCTCAC

301 CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCA

361 TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC

421 AACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT

481 TTCATTGTCT CTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCAT GCCTTTGGCC

541 ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTA

601 CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC

661 TTGCGGGTCA AGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG

721 GCCCTGGGCC TTTGCTGGCT GGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG

781 AACATGAAAC TGACCTCAGA GTACCACAGA AATGTCACCT TCCTTTCATG CCAATTTGTT

841 TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGAT TTTCATCCCC

901 CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT

961 CTGAACTTAT CTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT

1021 AAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCAT GGCTGCCTTT ATCTCTCATC

1081 AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACAT GGGCATCCTG

1141 CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTC

1201 AAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG

1261 GACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG

1321 ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCC AAGGGATTTT

1381 TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTC

1441 CCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA

1501 GTGTTTTGGA GGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC

1561 TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAA

1621 GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATT

1681 GAGCAGAGAA CCTGCTCTCG GAGGATGCCT ASGAGATGTT GGGAACAGAA GAAATAAACT

1741 GAGTTTAAGG GGGACTTAAA CTGCTGAATT C (2) SEQ ID NO: 2440 data:

(i) sequence characteristics:

(A) length: 2100 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2440 sequence description:

1 GCCGCCGCCG CCAAGATGGC GGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG

61 GCCATGGAGA AGAGCAAGGC CACGCCGGCC GCGCGCGCCA GCAAGAAGAT ACTGCTGCCC

121 GAGCCCAGCA TCCGCAGTGT CATGCAGAAG TACCTGGAGG ACCGGGGCGA GGTGACCTTT

181 GAGAAGATCT TTTCCCAGAA GCTGGGGTAC CTGCTCTTCC GAGACTTCTG CCTGAACCAC

241 CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGA TCAAGAAGTA CGAGAAGCTG

301 GAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCT TCGACTCATA CATCATGAAG

361 GAGCTGCTGG CCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCAC

421 CTGGGGAAGA AGCAGGTGCC TCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA

481 AACCTCCGAG GGGACGTGTT CCAGAAATTC ATTGAGAGCG ATAAGTTCAC ACGGTTTTGC

541 CAGTGGAAGA ATGTGGAGCT CAACATCCAC CTGACCATGA ATGACTTCAG CGTGCATCGC

601 ATCATTGGGC GCGGGGGCTT TGGCGAGGTC TATGGGTGCC GGAAGGCTGA CACAGGCAAG

661 ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGA TGAAGCAGGG GGAGACCCTG

721 GCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCC ATTCATTGTC

781 TGCATGTCAT ACGCGTTCCA CACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAAC

841 GGTGGGGACC TGCACTACCA CCTCTCCCAG CACGGGGTCT TCTCAGAGGC TGACATGCGC

901 TTCTATGCGG CCGAGATCAT CCTGGGCCTG GAGCACATGC ACAACCGCTT CGTGGTCTAC

961 CGGGACCTGA AGCCAGCCAA CATCCTTCTG GACGAGCATG GCCACGTGCG GATCTCGGAC

1021 CTGGGCCTGG CCTGTGACTT CTCCAAGAAG AAGCCCCATG CCAGCGTGGG CACCCACGGG

1081 TACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACG ACAGCAGTGC CGACTGGTTC

1141 TCTCTGGGGT GCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCG GCAGCACAAG

1201 ACCAAAGACA AGCATGAGAT CGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGAC

1261 TCCTTCTCCC CTGAACTACG CTCCCTGCTG GAGGGGTTGC TGCAGAGGGA TGTCAACCGG

1321 AGATTGGGCT GCCTGGGCCG AGGGGCTCAG GAGGTGAAAG AGAGCCCCTT TTTCCGCTCC

1381 CTGGACTGGC AGATGGTCTT CTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGG

1441 GAGGTGAACG CGGCCGACGC CTTCGACATT GGCTCCTTCG ATGAGGAGGA CACAAAAGGA

1501 ATCAAGTTAC TGGACAGTGA TCAGGAGCTC TACCGCAACT TCCCCCTCAC CATCTCGGAG

1561 CGGTGGCAGC AGGAGGTGGC AGAGACTGTC TTCGACACCA TCAACGCTGA GACAGACCGG

1621 CTGGAGGCTC GCAAGAAAGC CAAGAACAAG CAGCTGGGCC ATGAGGAAGA CTACGCCCTG

1681 GGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGG GCAACCCCTT CCTGACCCAG

1741 TGGCAGCGGC GGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGG CGAGGGCGAG

1801 GCCCCGCAGA GCCTGCTGAC CATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAG

1861 GAGCGCAAGT GCCTGCTCCT CAAGATCCGC GGTGGGAAAC AGTTCATTTT GCAGTGCGAT

1921 AGCGACCCTG AGCTGGTGCA GTGGAAGAAG GAGCTGCGCG ACGCCTACCG CGAGGCCCAG

1981 CAGCTGGTGC AGCGGGTGCC CAAGATGAAG AACAAGCCGC GCTCGCCCGT GGTGGAGCTG

2041 AGCAAGGTGC CGCTGGTCCA GCGCGGCAGT GCCAACGGCC TCTGACCCGC CCACCCGCCT (2) SEQ ID NO: 2441 data: (i) sequence characteristics:

(A) length: 7328 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2441 sequence description:

1 AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT

61 GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT121 CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA 181 AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG 241 GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC 301 CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC 361 GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC 421 TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT 481 TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCT 541 GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG 601 TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA 661 TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT 721 GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC 781 ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGC 841 ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT 901 GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA 961 CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC1021 CATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC1081 GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG1141 GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC1201 TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA1261 GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT1321 GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC1381 CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG1441 CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT1501 CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC1561 AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC1621 CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG1681 CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA1741 CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC1801 TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT1861 TAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC1921 CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT1981 CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATC2041 TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT2101 CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC2161 CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG2221 GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA2281 AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG2341 GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA2401 AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG2461 GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC2521 CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA2581 AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG2641 GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT2701 CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG2761 GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA2821 TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC2881 TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA2941 AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA3001 ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCT3061 GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT3121 CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC3181 CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC3241 ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA3301 AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC3361 TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT3421 TTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG3481 ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG3541 CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC3601 TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC3661 AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC3721 CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC3781 CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC3841 CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT3901 TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG3961 GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC4021 TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT4081 GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC4141 CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC4201 TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG4261 CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAA4321 AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA4381 GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA4441 ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA4501 GCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT4561 AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT4621 TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTT4681 ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA4741 TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC4801 CCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT4861 CACGATGCCA CAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC4921 CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTT AATAAATTAA4981 CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCG5041 GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC5101 AACACTTGAG ATTGTTAGTG CTGTTG6TGG ATACTGGCCA AGGAAATATC CCAGTGGAGC5161 CTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG5221 ACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT5281 CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTT5341 GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC5401 ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC5461 CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG5521 TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGC5581 AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCC5641 TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG5701 ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC5761 CTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG5821 ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC5881 CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAAC5941 GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC6001 CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC6061 ATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG6121 GCCACGGTGC TAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG6181 ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAG6241 CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTC6301 AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC6361 CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG6421 GGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA6481 GGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG6541 ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG6601 AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGC6661 AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA6721 ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG6781 GAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC6841 CTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG6901 CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA6961 AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGA7021 GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC

7081 CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG

7141 AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT

7201 GGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA

7261 TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT

7321 CCTGCTC (2) SEQ ID NO: 2442 data:

(i) sequence characteristics:

(A) length: 275 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain (D) topology: line shape

(xi) SEQ ID N0: 2442 sequence description:

1 GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA

61 GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC

121 TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC

181 GCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC

241 AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT (2) SEQ ID N0: 2443 data:

(i) sequence characteristics:

(A) length: 1464 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2443 sequence description:

1 GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA

61 CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA

121 CTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC

181 AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT

241 TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC

301 CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA

361 GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC

421 CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA

481 AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT

541 GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC

601 TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA

661 GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG

721 TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA

781 CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC

841 AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC

901 TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG

961 GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC

1021 AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT

1081 GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG

1141 CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT

1201 GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC

1261 CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG

1321 GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG

1381 GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA

1441 AGTTCCCTTC CTTCCGGAGG GAGG (2) SEQ ID NO: 2444 data:

(i) sequence characteristics:

(A) length: 2599 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2444 sequence description:

1 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT

61 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC

121 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG

181 ACTAATTCCT GCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA

241 CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT

301 GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGA GGAGTGACTG

361 AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG

421 AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT

481 CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC

541 CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA

601 CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG

661 CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGG

721 AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGA

781 GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA

841 GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA

901 TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG

961 TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA

1021 AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC

1081 GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCA

1141 TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT

1201 GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG

1261 AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG

1321 GCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT

1381 TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT

1441 TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG

1501 GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAA

1561 CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT

1621 AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA

1681 ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA

1741 ACCTAGAAGG GCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG

1801 AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA

1861 GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC

1921 TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGC

1981 TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT

2041 GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA

2101 AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC

2161 CTCAGTAAGT ATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT

2221 AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC

2281 TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC

2341 TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAA

2401 CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC

2461 TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA

2521 CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT

2581 GCAAAAAAAA AAAAAAAAA (2) SEQ ID NO: 2445 data:

(i) sequence characteristics:

(A) length: 7328 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2445 sequence description:

1 AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT

61 GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT

121 CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA

181 AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG

241 GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC301 CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC 361 GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC 421 TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT 481 TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCT 541 GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG 601 TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA 661 TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT 721 GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC 781 ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGC 841 ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT 901 GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA 961 CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC1021 CATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC1081 GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG1141 GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC1201 TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA1261 GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT1321 GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC1381 CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG1441 CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT1501 CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC1561 AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC1621 CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG1681 CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA1741 CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC1801 TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT1861 TAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGCCATTGTATAC1921 CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT1981 CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATC2041 TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT2101 CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC2161 CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG2221 GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA2281 AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG2341 GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA2401 AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG2461 GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC2521 CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA2581 AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG2641 GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT2701 CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG2761 GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA2821 TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC2881 TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA2941 AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA3001 ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCT3061 GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT3121 CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC3181 CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC3241 ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA3301 AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC3361 TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT3421 TTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG3481 ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG3541 CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC3601 TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC3661 AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC3721 CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC3781 CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC3841 CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT3901 TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG3961 GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC4021 TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT4081 GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC4141 CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC4201 TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG4261 CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAA4321 AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA4381 GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA4441 ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA4501 GCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT4561 AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT4621 TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTT4681 ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA4741 TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC4801 CCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT4861 CACGATGCCA CAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC4921 CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTT AATAAATTAA4981 CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCG5041 GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC5101 AACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC5161 CTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG5221 ACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT5281 CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTT5341 GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC5401 ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC5461 CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG5521 TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGC5581 AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCC5641 TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG5701 ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC5761 CTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG5821 ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC5881 CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAAC5941 GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC6001 CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC6061 ATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG6121 GCCACGGTGC TAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG6181 ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAG6241 CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTC6301 AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC6361 CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG6421 GGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA6481 GGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG6541 ACAGTTGCTT TTCAGATGGG GCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG6601 AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGC6661 AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA6721 ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG6781 GAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC6841 CTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG6901 CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA6961 AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGA7021 GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC7081 CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG7141 AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT7201 GGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA

7261 TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT

7321 CCTGCTC (2) SEQ ID NO: 2446 data:

(i) sequence characteristics:

(A) length: 2239 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2446 sequence description:

1 CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAA

61 CCCCTGTCTC CTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC

121 TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT

181 AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC

241 ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC

301 CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC

361 CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC

421 AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC

481 ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC

541 CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC

601 TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATG

661 AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC

721 ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT

781 GTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG

841 TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA

901 TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC

961 GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC

1021 TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC

1081 TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA

1141 GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC

1201 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT

1261 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC

1321 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG

1381 ACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA

1441 CGCACAGCCA AGGACTCCAA AATCACAACA GCATIACTGT TCTTATTTGC TGCCACACCT

1501 GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTG

1561 AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG

1621 AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT

1681 CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC

1741 CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA

1801 CAAGGGAGGT CTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATAT

1861 GCAGTATTGA GCACTGTAGG CAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG

1921 GAACTCAAAG ACTCAAGTGG GAACGACTGG CACTGCCACC ACCAGAAAGC TGTTCGACGA

1981 GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA

2041 GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTC TTCTGTAACA

2101 TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG

2161 TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA

2221 AAAGACACTG AGGTCTAGA (2) SEQ ID NO: 2447 data:

(i) sequence characteristics:

(A) length: 2478 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2447 sequence description:

1 TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT

61 CAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG

121 AACCCAGTAG GACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA

181 ATCATCTTCA GTGCTTTGCT GATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG

241 AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAA GCCAGACTGG AATCTCCAGG

301 TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACA CGGCTTTGAG

361 AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAAT

421 CCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG

481 TTGGTGGATA CTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA

541 GATCCAAGGA TCAGAGGGGG CTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG

601 GCTGCAGAAA ACAGCCTGAG CTCCACCTCG GCTTCTCCTT GCCCTGGCTG GTTGTCCTTA

661 ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGG GGTAACAGCC

721 TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT

781 AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC

841 ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC

901 CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC

961 CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC

1021 AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC

1081 ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC

1141 CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC

1201 TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATG

1261 AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC

1321 ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT

1381 GTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG

1441 TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA

1501 TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC

1561 GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC

1621 TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC

1681 TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA

1741 GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC

1801 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT

1861 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC

1921 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTGTTGA TGTCTCCGGT AAAACACCGG

1981 AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGG CTGTGAGGAT GGGGTGAACT

2041 CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTT GCTGCCACAC

2101 CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACT

2161 GAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA

2221 GAACTGCCAT CCACGTTTGG TGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT

2281 TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC

2341 CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCC TCACTGATGG

2401 ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAG

2461 TATTGAGCAC TGTAGGCA (2) SEQ ID NO: 2448 data:

(i) sequence characteristics:

(A) length: 1231 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2448 sequence description:

1 ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACC

61 ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG

121 ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG

181 CCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC

241 GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC

301 GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC

361 TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC

421 CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG

481 AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG

541 ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG

601 TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG

661 GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC

721 ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG

781 GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC

841 ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC

901 CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG

961 GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA

1021 AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC

1081 ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT

1141 CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG

1201 AATTTGTGTA AGGATTGAGG GACAGTTGCT T (2) SEQ ID NO: 2449 data:

(i) sequence characteristics:

(A) length: 1231 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2449 sequence description:

1 ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC

61 ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG

121 ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG

181 CCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC

241 GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC

301 GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC

361 TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC

421 CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG

481 AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG

541 ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG

601 TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG

661 GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC

721 ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG

781 GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC

841 ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC

901 CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG

961 GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA

1021 AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC

1081 ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT

1141 CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG

1201 AATTTGTGTA AGGATTGAGG GACAGTTGCT T (2) SEQ ID NO: 2450 data:

(i) sequence characteristics:

(A) length: 266 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2450 the sequence of which describes:

1 GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA

61 GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCC

121 CATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT

181 CTGCTGGGAG GACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG

241 AAGTTTCCCT GTGGTCGTGG GGAGTT (2) SEQ ID NO: 2451 for data:

(i) sequence characteristics:

(A) length: 275 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2451 sequence description:

1 GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA

61 GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC

121 TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC

181 GCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC

241 AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT (2) SEQ ID NO: 2452 for data:

(i) sequence characteristics:

(A) length: 1464 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2452 sequence description:

1 GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA

61 CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA

121 CTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC

181 AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT

241 TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC

301 CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA

361 GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC

421 CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA

481 AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT

541 GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC

601 TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA

661 GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG

721 TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA

781 CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC

841 AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC

901 TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG

961 GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC

1021 AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT

1081 GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG

1141 CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT

1201 GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC

1261 CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG

1321 GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG

1381 GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA

1441 AGTTCCCTTC CTTCCGGAGG GAGG (2) SEQ ID NO: 2453 for data:

(i) sequence characteristics:

(A) length: 2599 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2453 the sequence description:

1 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT

61 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC

121 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG

181 ACTAATTCCT GCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA

241 CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT

301 GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGA GGAGTGACTG

361 AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG

421 AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT

481 CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC

541 CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA

601 CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG

661 CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGG

721 AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGA

781 GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA

841 GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA

901 TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG

961 TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA

1021 AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC

1081 GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCA

1141 TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT

1201 GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG

1261 AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG

1321 GCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT

1381 TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT

1441 TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG

1501 GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAA

1561 CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT

1621 AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA

1681 ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA

1741 ACCTAGAAGG GCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG

1801 AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA

1861 GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC

1921 TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGC

1981 TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT

2041 GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA

2101 AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC

2161 CTCAGTAAGT ATCTGGAGGAAGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT

2221 AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC

2281 TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC

2341 TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAA

2401 CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC

2461 TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA

2521 CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT

2581 GCAAAAAAAA AAAAAAAAA (2) SEQ ID NO: 2454 data:

(i) sequence characteristics:

(A) length: 7328 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2454 the sequence description:

1 AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT

61 GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT

121 CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA

181 AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG

241 GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC

301 CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC

361 GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC

421 TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT

481 TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCT

541 GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG

601 TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA

661 TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT

721 GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC

781 ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGC

841 ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT 901 GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA 961 CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC1021 CATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC1081 GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG1141 GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC1201 TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA1261 GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT1321 GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC1381 CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG1441 CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT1501 CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC1561 AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC1621 CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG1681 CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA1741 CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC1801 TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT1861 TAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC1921 CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT1981 CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATC2041 TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT2101 CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC2161 CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG2221 GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA2281 AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG2341 GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA2401 AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG2461 GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC2521 CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA2581 AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG2641 GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT2701 CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG2761 GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA2821 TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC2881 TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA 2924 3001 ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCT3061 5931242 CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC3181 CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC3241 ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA3301 AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC 8461 TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT3421 TTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG3481 ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG3541 CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC3601 TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC3721 CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC3781 CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC3841 CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT3901 TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG3961 GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC4021 TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT4081 GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC4141 CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC4201 TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG4261 CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAA4321 AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA 433981 4441 ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA 4501 GCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT 4561 AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT 4621 TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTT 4681 ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA 4741 TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC 4801 CCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT 4861 CACGATGCCA CAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC 496321 4928 49 CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCG 5041 GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC 5101 AACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC 5161 CTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG 5221 ACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT 523981 5341 GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC 5401 ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC 5461 CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG 5521 TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGC 5581 568 6341 5701 ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC 5761 CTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG 5821 ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC 5881 CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAAC 5941 3660027 6001 CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC 6061 6184 GCCACGGTGC TAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG 6181 ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAG 6241 CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTC 6301 AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC 6361 CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG 6421 GGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA 6481 GGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG 6541 ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG 6601 AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGC 6661 AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA 6721 ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG 6781 GAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC 6841 CTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG 6901 CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA 6961 AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGA 7021 GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC 7081 CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG 7141 AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT 7201 GGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA 7261 TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT 7321 CCTGCCTC (2) SEQ ID NO: 2455, data of:

(i) sequence characteristics:

(A) length: 2239 base pairs

(B) Type (2): nucleic acid (C) strand type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2455 sequence description:

1 CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAA 61 CCCCTGTCTC CTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC 121 TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT 181 721 ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT 781 181 AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC 241 ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC 301 CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC 361 CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC 421 AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC 481 ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC 541 CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC 601 TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATG 661 AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC 721 ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT 781 GTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG 841 TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA 901 TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC 961 GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC 1021 TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC 1081 TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA 1141 GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC 1201 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT 1261 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC 1321 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG 1381 ACTAATTCCT GNCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA 1441 CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT 1501 GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGCAGGGAGA GGAGTGACTG 1561 AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG 1621 AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT 1681 CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC 1741 CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA 1801 CAAGGGAGGT CTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATAT 1861 GCAGTATTGA GCACTGTAGG CAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG 1921 GAACTCAAAG ACTCAAGTGG GAACGACTGG CACTGCCACC ACCAGAAAGC TGTTCGACGA 1981 GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA 2041 GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTC TTCTGTAACA 2101 TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG 2161 TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA 2221 AAAGACACTG AGGTCTAGA (2) SEQ ID NO: 2456 data: (i) sequence characteristics:

(A) length: 2478 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2456 the sequence of SEQ ID NO:

1 TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT 61 CAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG 121 AACCCAGTAG GACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA 181 721 TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT 781 181 ATCATCTTCA GTGCTTTGCT GATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG 241 AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAA GCCAGACTGG AATCTCCAGG 301 TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACA CGGCTTTGAG 361 AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAAT 421 CCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG 481 TTGGTGGATA CTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA 541 GATCCAAGGA TCAGAGGGGG CTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG 601 GCTGCAGAAA ACAGCCTGAG CTCCACCTCG GCTTCTCCTT GCCCTGGCTG GTTGTCCTTA 661 ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTGTGACCTGAGG GGTAACAGCC 721 TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT 781 AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC 841 ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC 901 CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC 961 CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC 1021 AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC 1081 ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC 1141 CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC 1201 TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATG 1261 AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC 1321 ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT 1381 GTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG 1441 TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA 1501 TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC 1561 GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC 1621 TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC 1681 TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA 1741 GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC 1801 CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT 1861 GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC 1921 AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTGTTGA TGTCTCCGGT AAAACACCGG 1981 AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGG CTGTGAGGAT GGGGTGAACT 2041 CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTT GCTGCCACAC 2101 CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACT 2161 GAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA 2221 GAACTGCCAT CCACGTTTGG TGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT 2281 TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC 2341 CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCC TCACTGATGG 2401 ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAG 2461 TATTGAGCAC Tgtaggcca (2) SEQ ID NO: 2457 data: (i) sequence characteristics:

(A) length: 1231 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2457 sequence description:

1 ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTC CGTGCCCACC 61 ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG 121 ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG 181 721 ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG 781 181 CCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC 241 GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC 301 GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC 361 TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC 421 CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG 481 AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG 541 ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG 601 TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG 661 GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC 721 ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG 781 GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC 841 ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC 901 CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG 961 GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA 1021 AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC 1081 ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT 1141 CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG1201 AATTTGTGTA AGGATTGAGG GACAGTTGCT T (2) ) SEQ ID NO: 2458 the data: (i) sequence characteristics:

(A) length: 1231 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2458 the sequence of SEQ ID NO:

1 ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC 61 ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG 121 ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG 181 721 ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG 781 181 CCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC 241 GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC 301 GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC 361 TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC 421 CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG 481 AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG 541 ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG 601 TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG 661 GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC 721 ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG 781 GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC 841 ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC 901 CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG 961 GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA 1021 AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC 1081 ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT 1141 CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG1201 AATTTGTGTA AGGATTGAGG GACAGTTGCT T (2) SEQ ID NO: 2459 data: (i) sequence characteristics:

(A) length: 266 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID No: 2459 the sequence of SEQ ID NO:

1 GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA 61 GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGA CTGAAGTGCC 121 CATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCT 181 CTGCTGGGAG GACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG 241 AAGTTTCCCT GTGGTCGTGG GGAGTT (2) SEQ ID NO: 2460 data: (i) sequence characteristics:

(A) length: 275 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2460 the sequence description:

1 GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA 61 GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC 121 TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC 181 GCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC 241 AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT (2) SEQ ID NO: 2461 data: (i) sequence characteristics:

(A) length: 1464 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2461 sequence description:

1 GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA 61 CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA 121 CTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC 181 721 TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA 781 181 AGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT 241 TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC 301 CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA 361 GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCC 421 CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA 481 AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT 541 GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC 601 TTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA 661 GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG 721 TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA 781 CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTC 841 AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC 901 TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG 961 GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC 1021 AGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT 1081 GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG 1141 CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT 1201 GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCC 1261 CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG 1321 GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG 1381 GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA 1441 AGTTCCCTTC CTTCCGGAGG GAGG (2) SEQ ID NO: 2462 data: (i) sequence characteristics:

(A) length: 1426 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2462 sequence description:

1 CTTTGTGAAG AAGGAATTGG CAACACTGAA ACCTCCAGAA CAAAGGCTGT CACTAAGGTG 61 CCGCTGCCTT GATGGATTAT ACACTTGACC TCAGTGTGAC AACAGTGACC GACTACTACT 121 ACCCTGATAT CTTCTCAAGC CCCTGTGATG CGGAACTTAT TCAGACAAAT GGCAAGTTGC 181 721 GCTACATTAA AATCCTGCAC CAGCTGAAGA GGTGTCAAAA CCACAACAAG ACCAAGGCCA 781 181 TCCTTGCTGT CTTTTATTGC CTCCTGTTTG TATTCAGTCT TCTGGGAAAC AGCCTGGTCA 241 TCCTGGTCCT TGTGGTCTGC AAGAAGCTGA GGAGCATCAC AGATGTATAC CTCTTGAACC 301 TGGCCCTGTC TGACCTGCTT TTTGTCTTCT CCTTCCCCTT TCAGACCTAC TATCTGCTGG 361 ACCAGTGGGT GTTTGGGACT GTAATGTGCA AAGTGGTGTC TGGCTTTTAT TACATTGGCT 421 TCTACAGCAG CATGTTTTTC ATCACCCTCA TGAGTGTGGA CAGGTACCTG GCTGTTGTCC 481 ATGCCGTGTA TGCCCTAAAG GTGAGGACGA TCAGGATGGG CACAACGCTG TGCCTGGCAG 541 TATGGCTAAC CGCCATTATG GCTACCATCC CATTGCTAGT GTTTTACCAA GTGGCCTCTG 601 AAGATGGTGT TCTACAGTGT TATTCATTTT ACAATCAACA GACTTTGAAG TGGAAGATCT 661 TCACCAACTT CAAAATGAAC ATTTTAGGCT TGTTGATCCC ATTCACCATC TTTATGTTCT 721 GCTACATTAA AATCCTGCAC CAGCTGAAGA GGTGTCAAAA CCACAACAAG ACCAAGGCCA 781 TCAGGTTGGT GCTCATTGTG GTCATTGCAT CTTTACTTTT CTGGGTCCCA TTCAACGTGG 841 TTCTTTTCCT CACTTCCTTG CACAGTATGC ACATCTTGGA TGGATGTAGC ATAAGCCAAC 901 AGCTGACTTA TGCCACCCAT GTCACAGAAA TCATTTCCTT TACTCACTGC TGTGTGAACC 961 CTGTTATCTA TGCTTTTGTT GGGGAGAAGT TCAAGAAACA CCTCTCAGAA ATATTTCAGA 1021 AAAGTTGCAG CCAAATCTTC AACTACCTAG GAAGACAAAT GCCTAGGGAG AGCTGTGAAA 1081 AGTCATCATC CTGCCAGCAG CACTCCTCCC GTTCCTCCAG CGTAGACTAC ATTTTGTGAG 1141 GATCAATGAA GACTAAATAT AAAAAACATT TTCTTGAATG GCATGCTAGT AGCAGTGAGC 1201 AAAGGTGTGG GTGTGAAAGG TTTCCAAAAA AAGTTCAGCA TGAAGGATGC CGTGTGTGTT 1261 GTTGCCAACA CTTGGAACAC AATGACTGGA GACATAGTTG TGCATGCCTG GCACAACATC 1321 AAGCCTGTGA TTGTGTTTAT TGATGATGTT GAACAAGTGG TGGCTTTGAG GGATTCTGTA 1381 TGCCAAGTGG AAAAAAAAGA TGTCTCCGGA ATTCGACAGG TTATCA (2) SEQ ID NO: 2463 data: (i) sequence characteristics:

(A) length: 5161 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2463 sequence description:

1 TTTCATCTCT CCGGGCTTAT TTGCTGGTTT CTCCGAATGC GGGCCTTGTC TGGTTCACGC

61 TGGATCCCCA ACGCCTAGAA CAGTGCGTGG CACGCAGTTC GTCCTTCTAT AAATATCGGA

121 CTAAATGCAT CTCTGTGATG GTAATACCCA CACGGTGTTG TGAGAATGAA TGAGTGATTC

181 TGTGCAAGTT CCTAGTGATC TGTTACAAAA AGTACTGGTC GCTAAATTAC TCTTATAATA

241 AAGCATACTT TTAGGATAAT AAAGCACTAT TCGCGAATTG GTTACCGCTA TTATGAAATT

301 ACTGAGCAAT ACATATCTAC ATCTGATCAG TCTCCAGAAT TATGCCAAAT CCTACCTTCT

361 TCTGAAAGTA TCTCCTAATT ATCTGCACCT GACCCTAGTG ATGCTGTGAA TGTGCAAGTA

421 TAGCTACATC CTCCGAAGGA AGGATCTTTA CTCCTTTTAC CTCCTGAATG GGCTGCGTCT

481 GCTGAAAGCG CGGGGGAATG GGCGGTTGGA AGCTTGGCCC TACTTCCAGC ATTGCCGCCT

541 ACTGGTTGGG TTACTCCAGC AAGTCACTCC CCTTCCCTGG GCCTCAGTGT CTCTACTGTA

601 GCATTCCCAG GTCTGGAATT CCATCCACTT TAGCAAGGAT GGACGCGCCA CAGAGAGACG

661 CGTTCCTAGC CCGCGCTTCC CACCTGTCTT CAGGCGCATC CCGCTTCCCT CAAACTTAGG

721 AAATGCCTCT GGGAGGTCCT GTCCGGCTCC GGACTCACTA CCGACCACCC GCAAACAGCA

781 GGGTCCCCTG GGCTTCCCAA GCCGCGCACC TCTCCGCCCC GCCCCTGCGC CCTCCTTCCT

841 CGCGTCTGCC CCTCTCCCCC ACCCCGCCTT CTCCCTCCCC GCCCCAGCGG CGCATGCGCC

901 GCGCTCGGAG CGTGTTTTTA TAAAAGTCCG GCCGCGGCCA GAAACTTCAG TTTGTTGGCT

961 GCGGCAGCAG GTAGCAAAGT GACGCCGAGG GCCTGAGTGC TCCAGTAGCC ACCGCATCTG 1021 GAGAACCAGC GGTTACCATG GAGGGGATCA GTGTAAGTCC AGTTTCAACC TGCTTTGTCA 1081 TAAATGTACA AACGTTTGAA CTTAGAGCGC AGCCCCTCTC CGAGCGGGCA GAAGCGGCCA 1141 GGACATTGGA GGTACCCGTA CTCCAAAAAA GGGTCACCGA AAGGAGTTTT CTTGACCATG 1201 CCTATATAGT GCGGGTGGGT GGGGGGGGAG CAGGATTGGA ATCTTTTTCT CTGTGAGTCG 1261 AGGAGAAACG ACTGGAAAGA GCGTTCCAGT GGCTGCATGT GTCTCCCCCT TGAGTCCCGC 1321 CGCGCGCGGC GGCTTGCACG CTGTTTGCAAACGTAAGAAC ATTCTGTGCA CAAGTGCAGA 1381 GAAGGCGTGC GCGCTGCCTC GGGACTCAGA CCACCGGTCT CTTCCTTGGG GAAGCGGGGA 1441 TGTCTTGGAG CGAGTTACAT TGTCTGAATT TAGAGGCGGA GGGCGGCGTG CCTGGGCTGA 1501 CTTCCCAGGA GGAGATTGCG CCCGCTTTAA CTTCGGGGTT AAGCGCCTGG TGACTGTTCT 1561 TGACACTGGG TGCGTGTTTG TTAAACTCTG TGCGGCCGAC GGAGCTGTGC CAGTCTCCCA 1621 GCACAGTAGG CAGAGGGCGG GAGAGGCGGG TGGACCCACC GCGCCGATCC TCTGAGGGGA 1681 168 1681 TCGAGTGGTG GCAGCAGCTA GGAGTTGATC CGCCCGCGCG CTTTGGGTTT GAGGGGGAAA 1741 CCTTCCCGCC GTCCGAAGCG CGCCTCTTCC CCACGGCCGC GAGTGGGTCC TGCAGTTCGA 1801 GAGTTTGGGG TCGTGCAGAG GTCAGCGGAG TGGTTTGACC TCCCCTTTGA CACCGCGCAG 1861 CTGCCAGCCC TGAGATTTGC GCTCCGGGGA TAGGAGCGGG TACGGGGTGA GGGGCGGGGG 1921 192 1921 CGGTTAAGAC CGCACCTGGG CTGCCAGGTC GCCGCCGCGA AGACTGGCAG GTGCAAGTGG 1981 GGAAACCGTT TGGCTCTCTC CGAGTCCAGT TGTGATGTTT AACCGTCGGT GGTTTCCAGA 2041 AACCTTTTGA AACCCTCTTG CTAGGGAGTT TTTGGTTTCC TGCAGCGGCG CGCAATTCAA 2101 AGACGCTCGC GGCGGAGCCG CCCAGTCGCT CCCCAGCACC CTGTGGGACA GAGCCTGGCG 2161 TGTCGCCCAG CGGAGCCCCT GCAGCGCTGC TTGCGGGCGG TTGGCGTGGG TGTAGTGGGC 2221 AGCCGCGGCG GCCCGGGGCT GGACGACCCG GCCCCCCGCG TGCCCACCGC CTGGAGGCTT 2281 CCAGCTGCCC ACCTCCGGCC GGGTTAACTG GATCAGTGGC GGGGTAATGG GAAGCCACCC 2341 GGGAGAGTGA GGAAATGAAA CTTGGGGCGA GGACCACGGG TGCAGACCCC GTTACCTTCT 2401 CCACCCAGGA AAATGCCCCG CTCCCTAACG TCCCAAACGC GCCAAGTGAT AAACACGAGG 2461 ATGGCAAGAG ACCCACACAC CGGAGGAGCG CCCGCTTGGG GGAGGAGGTG CCGTTTGTTC 2521 ATTTTCTGAC ACTCCCGCCC AATATACCCC AAGCACCGAA GGGCCTTCGT TTTAAGACCG 2581 CATTCTCTTT ACCCACTACA AGTTGCTTGA AGCCCAGAAT GGTTTGTATT TAGGCAGGCG 2641 TGGGAAAATT AAGTTTTTGC GCTTTAGGAG AATGAGTCTT TGCAACGCCC CCGCCCTCCC 2701 CCCGTGATCC TCCCTTCTCC CCTCTTCCCT CCCTGGGCGA AAAACTTCTT ACAAAAAGTT 2761 AATCACTGCC CCTCCTAGCA GCACCCACCC CACCCCCCAC GCCGCCTGGG AGTGGCCTCT 2821 TTGTGTGTAT TTTTTTTTTC CTCCTAAGGA AGGTTTTTTT TCTTCCCTCT AGTGGGCGGG 2881 GCAGAGGAGT TAGCCAAGAT GTGACTTTGA AACCCTCAGC GTCTCAGTGC CCTTTTGTTC 2941 TAAACAAAGA ATTTTGTAAT TGGTTCTACC AAAGAAGGAT ATAATGAAGT CACTATGGGA 3001 AAAGATGGGG AGGAGAGTTG TAGGATTCTA CATTAATTCT CTTGTGCCCT TAGCCCACTA 3061 CTTCAGAATT TCCTGAAGAA AGCAAGCCTG AATTGGTTTT TTAAATTGCT TTAAAAATTT 3121 TTTTTAACTG GGTTAATGCT TGCTGAATTG GAAGTGAATG TCCATTCCTT TGCCTCTTTT 3181 GCAGATATAC ACTTCAGATA ACTACACCGA GGAAATGGGC TCAGGGGACT ATGACTCCAT 3241 GAAGGAACCC TGTTTCCGTG AAGAAAATGC TAATTTCAAT AAAATCTTCC TGCCCACCAT 3301 CTACTCCATC ATCTTCTTAA CTGGCATTGT GGGCAATGGA TTGGTCATCC TGGTCATGGG 3361 TTACCAGAAG AAACTGAGAA GCATGACGGA CAAGTACAGG CTGCACCTGT CAGTGGCCGA 3421 CCTCCTCTTT GTCATCACGC TTCCCTTCTG GGCAGTTGAT GCCGTGGCAA ACTGGTACTT 3481 TGGGAACTTC CTATGCAAGG CAGTCCATGT CATCTACACA GTCAACCTCT ACAGCAGTGT 3541 CCTCATCCTG GCCTTCATCA GTCTGGACCG CTACCTGGCC ATCGTCCACG CCACCAACAG 3601 TCAGAGGCCA AGGAAGCTGT TGGCTGAAAA GGTGGTCTAT GTTGGCGTCT GGATCCCTGC 3661 CCTCCTGCTG ACTATTCCCG ACTTCATCTT TGCCAACGTC AGTGAGGCAG ATGACAGATA 3721 TATCTGTGAC CGCTTCTACC CCAATGACTT GTGGGTGGTT GTGTTCCAGT TTCAGCACAT 3781 CATGGTTGGC CTTATCCTGC CTGGTATTGT CATCCTGTCC TGCTATTGCA TTATCATCTC 3841 CAAGCTGTCA CACTCCAAGG GCCACCAGAA GCGCAAGGCC CTCAAGACCA CAGTCATCCT 3901 CATCCTGGCT TTCTTCGCCT GTTGGCTGCC TTACTACATT GGGATCAGCA TCGACTCCTT 3961 CATCCTCCTG GAAATCATCA AGCAAGGGTG TGAGTTTGAG AACACTGTGC ACAAGTGGAT 4021 TTCCATCACC GAGGCCCTAG CTTTCTTCCA CTGTTGTCTG AACCCCATCC TCTATGCTTT 4081 CCTTGGAGCC AAATTTAAAA CCTCTGCCCA GCACGCACTC ACCTCTGTGA GCAGAGGGTC 4141 CAGCCTCAAG ATCCTCTCCA AAGGAAAGCG AGGTGGACAT TCATCTGTTT CCACTGAGTC 4201 TGAGTCTTCA AGTTTTCACT CCAGCTAACA CAGATGTAAA AGACTTTTTT TTATACGATA 4261 AATAACTTTT TTTTAAGTTA CACATTTTTC AGATATAAAA GACTGACCAA TATTGTACAG 4321 TTTTTATTGC TTGTTGGATT TTTGTCTTGT GTTTCTTTAG TTTTTGTGAA GTTTAATTGA 4381 CTTATTTATA TAAATTTTTT TTGTTTCATA TTGATGTGTG TCTAGGCAGG ACCTGTGGCC 4441 AAGTTCTTAG TTGCTGTATG TCTCGTGGTA GGACTGTAGA AAAGGGAACT GAACATTCCA 4501 GAGCGTGTAG TGAATCACGT AAAGCTAGAA ATGATCCCCA GCTGTTTATG CATAGATAAT 4561 CTCTCCATTC CCGTGGAACG TTTTTCCTGT TCTTAAGACG TGATTTTGCT GTAGAAGATG 4621 GCACTTATAA CCAAAGCCCA AAGTGGTATA GAAATGCTGG TTTTTCAGTT TTCAGGAGTG 4681 GGTTGATTTC AGCACCTACA GTGTACAGTC TTGTATTAAG TTGTTAATAA AAGTACATGT 4741 TAAACTTACT TAGTGTTATG TTCTGATTTC TGTTGACATT CTTTTGGCTA GTAGAAGACA 4801 AAAGTAATAC ATTTATGGTA TGCAAAGCAC TATCCTAGGT ATTTCATTGT AATATTTTAC 4861 TTACCCCTTA TCACAACTCT GATAGATTCT GCTTCTGTTA CTAATTACAT TTTATAGAAG 4921 49 4921 AGGAAACGGA GGCACAGAAA GCCTAAGTAA CTTGGTTAAA GGCATGTAGT AAGTATCAAA 4981 TCCTGTATTT TAAACCAGGT AACATGACTT AACGAATCTG AAGCCTTCAC CACTTTAAAT 5041 TCAAATGGAA GTTTAGAAAT GGCCAGCCAG CACCTATTTG TATGAAAGGT CATCTTTCAG 5101 AGGATAAGCA TGTATAAAGA AGAAAAGGTA TGCAGTCGTG TTTGGATTTT ACTCCACCAT 5161C (2) SEQ ID NO: 2464 data:

(i) sequence characteristics:

(A) length: 877 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2464 sequence description:

1 AGGATGATGG TGATGGGGAA CTAAATGGGG AAATATGGAA GGTCACAGGA AAAGTTAACA

61 CAAGTTAGCA AAAAGTTAAC ATAACACAAA AAGGTCTTGC AGGAAAAAAA AAAGAAAAGA

121 AAAGAAAGAA AAAGTCTCCA AGAATGGTTT GGACAGCCAA AATGAATACT TATAGTCACG

181 TATACCTGCT CACTCCTGAC GCTTCACTCA CACACAGCAC AGGATCTGGT GAGGCTATCA

241 CTAAATGTGC CACATTGTGG TTAAGTTTTA CCTGATTAAC GAAATGCTCA CACTTCTAAA

301 CTGAGGTCCT TACAGTAGAT TCCTTTTGCA AGATTGTTAC TGGCTTACAA CTTAAAAATA

361 AAGGAAAATC ACAAGGAAAG AAAAGTGGGG AAAAAATCGG AGGAAACTTG CCCCTGCCCT

421 GGCCACCGGC AAGGCTGCCA CAAAGGGGTT AAAAGTTAAG TGGAAGTGGA GCTTGAAGAA 481 GTGGGATGGG GCCTCTCCAG GAAAGCTGAA CGAGGCATCT GGAGCCCGAA CAAACCTCCA 541 CCTTTTTTGG CCTCGACGGC GGCAACCCAG CCTCCCTCCT AACGCCCTCC GCCTTTGGGA 601 CCAACCAGGG GAGCTCAAGT TAGTAGCAGC CAAGGAGAGG CGCTGCCTTG CCAAGACTAA 661 AAAGGGAGGG GAGAAGAGAG GAAAAAAGCA AGAATCCCCC ACCCCTCTCC CGGGCGGAGG 721 GGGCGGGAAGAGCGCGTCCT GGCCAAGCCG AGTAGTGTCT TCCACTCGGT GCGTCTCTCT 781 AGGAGCCGCG CGGGAAGGAT GCTGGTCCGC AGGGGCGCGC GCGCAGGGCC CAGGATGCCG 841 CGGGGCTGGA CCGCGCTTTG CTTGCTGAGT TTGCTGC (2) SEQ ID NO: 2465 data: (i) sequence characteristics:

(A) length: 2615 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2465 sequence description: 1 CCTTTTTTGG CCTCGACGGC GGCAACCCAG CCTCCCTCCT AACGCCCTCC GCCTTTGGGA 61 CCAACCAGGG GAGCTCAAGT TAGTAGCAGC CAAGGAGAGG CGCTGCCTTG CCAAGACTAA 121 AAAGGGAGGG GAGAAGAGAG GAAAAAAGCA AGAATCCCCC ACCCCTCTCC CGGGCGGAGG 181 721 CATCTCCCAC TAAACCCTAT ACATCATCTT CTCCTATCCT AAGTGACATC AAGGCAGAAA 781 181 GGGCGGGAAG AGCGCGTCCT GGCCAAGCCG AGTAGTGTCT TCCACTCGGT GCGTCTCTCT 241 AGGAGCCGCG CGGGAAGGAT GCTGGTCCGC AGGGGCGCGC GCGAGGGCCC AGGATGCCGC 301 GGGGCTGGAC CGCGCTTTGC TTGCTGAGTT TGCTGCCTTC TGGGTTCATG AGTCTTGACA 361 ACAACGGTAC TGCTACCCCA GAGTTACCTA CCCAGGGAAC ATTTTCAAAT GTTTCTACAA 421 ATGTATCCTA CCAAGAAACT ACAACACCTA GTACCCTTGG AAGTACCAGC CTGCACCCTG 481 TGTCTCAACA TGGCAATGAG GCCACAACAA ACATCACAGA AACGACAGTC AAATTCACAT 541 CTACCTCTGT GATAACCTCA GTTTATGGAA ACACAAACTC TTCTGTCCAG TCACAGACCT 601 CTGTAATCAG CACAGTGTTC ACCACCCCAG CCAACGTTTC AACTCCAGAG ACAACCTTGA 661 AGCCTAGCCT GTCACCTGGA AATGTTTCAG ACCTTTCAAC CACTAGCACT AGCCTTGCAA 721 CATCTCCCAC TAAACCCTAT ACATCATCTT CTCCTATCCT AAGTGACATC AAGGCAGAAA 781 TCAAATGTTC AGGCATCAGA GAAGTGAAAT TGACTCAGGG CATCTGCCTG GAGCAAAATA 841 AGACCTCCAG CTGTGCGGAG TTTAAGAAGG ACAGGGGAGA GGGCCTGGCC CGAGTGCTGT 901 GTGGGGAGGA GCAGGCTGAT GCTGATGCTG GGGCCCAGGT ATGCTCCCTG CTCCTTGCCC 961 AGTCTGAGGT GAGGCCTCAG TGTCTACTGC TGGTCTTGGC CAACAGAACA GAAATTTCCA1021 GCAAACTCCA ACTTATGAAA AAGCACCAAT CTGACCTGAA AAAGCTGGGG ATCCTAGATT1081 TCACTGAGCA AGATGTTGCA AGCCACCAGA GCTATTCCCA AAAGACCCTG ATTGCACTGG1141 TCACCTCGGG AGCCCTGCTG GCTGTCTTGG GCATCACTGG CTATTTCCTG ATGAATCGCC1201 GCAGCTGGAG CCCCACAGGA GAAAGGCTGG GCGAAGACCC TTATTACACG GAAAACGGTG1261 GAGGCCAGGG CTATAGCTCA GGACCTGGGA CCTCCCCTGA GGCTCAGGGA AAGGCCAGTG1321 TGAACCGAGG GGCTCAGAAA AACGGGACCG GCCAGGCCAC CTCCAGAAAC GGCCATTCAG1381 1441 CAGTGTCCGA GAGAGCACCC CTCTCTGCAT CTGACCACGT GCTACCCCCA TGCTGGAGGT1501 GACATCTCTT ACGCCCAACC CTTCCCCACT GCACACACCT CAGAGGCTGT TCTTGGGGCC1561 CTACACCTTG AGGAGGGGGC AGGTAAACTC CTGTCCTTTA CACATTCGGC TCCCTGGAGC1621 CAGACTCTGG TCTTCTTTGG GTAAACGTGT GACGGGGGAA AGCCAAGGTC TGGAGAAGCT1681 CCCAGGAACA ATCGATGGCC TTGCAGCACT CACACAGGAC CCCCTTCCCC TACCCCCTCC1741 TCTCTGCCGC AATACAGGAA CCCCCAGGGG AAAGATGAGC TTTTCTAGGC TACAATTTTC 18027 1861 19229 1921 CTTGAACCAC TTCCCTCATC TCTCCTCCAA GACACTGTGG ACTTGGTCAC CAGCTCCTCC1981 CTTGTTCTCT AAGTTCCACT GAGCTCCATG TGCCCCCTCT ACCATTTGCA GAGTCCTGCA2041 CAGTTTTCTG GCTGGAGCCT AGAACAGGCC TCCCAAGTTT TAGGACAAAC AGCTCAGTTC2101 TAGTCTCTCT GGGGCCACAC AGAAACTCTT TTTGGGCTCC TTTTTCTCCC TCTGGATCAA2161 AGTAGGCAGG ACCATGGGAC CAGGTCTTGG AGCTGAGCCT CTCACCTGTA CTCTTCCGAA2221 AAATCCTCTT CCTCTGAGGC TGGATCCTAG CCTTATCCTC TGATCTCCAT GGCTTCCTCC22 TCCCTCCTGC CGACTCCTGG GTTGAGCTGT TGCCTCAGTC CCCCAACAGA TGCTTTTCTG2341 TCTCTGCCTC CCTCACCCTG AGCCCCTTCC TTGCTCTGCA CCCCCATATG GTCATAGCCC2401 AGATCAGCTC CTAACCCTTA TCACCAGCTG CCTCTTCTGT GGGTGACCCA GGTCCTTGTT2461 TGCTGTTGAT TTCTTTCCAG AGGGGTTGAG CAGGGATCCT GGTTTCAATG ACGGTTGGAA2521 ATAGAAATTT CCAGAGAAGA GAGTATTGGG TAGATATTTT TTCTGAATAC AAAGTGATGT25 GTTTAAATAC TGCAATTAAA GTGATACTGA AACAC.

(2) SEQ ID NO: 2466 data:

(i) sequence characteristics:

(A) length: 3422 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain (D) topology: line shape

(xi) SEQ ID N0: 2466 sequence description: AGGATGATGG TGATGGGGAA CTAAATGGGG AAATATGGAA GGTCACAGGA AAAGTTAACA CAAGTTAGCAAAAGTTAAC ATAACACAAA AAGGTCTTGC AGGAAAAAAA AAAGAAAAGA AAAGAAAGAA AAAGTCTCCAAGAATGGTTT GGACAGCCAA AATGAATACT TATAGTCACG TATACCTGCT CACTCCTGAC GCTTCACTCACACACAGCAC AGGATCTGGT GAGGCTATCA TAAATGTGC CACATTGTGG TTAAGTTTTA CCTGATTAACGAAATGCTCA CACTTCTAAA CTGAGGTCCT TACAGTAGAT TCCTTTTGCA AGATTGTTAC TGGCTTACAACTTAAAAATA AAGGAAAATC ACAAGGAAAG AAAAGTGGGG AAAAAATCGG AGGAAACTTG CCCCTGCCCTGGCCACCGGC AAGGCTGCCA CAAAGGGGTT AAAAGTTAAG TGGAAGTGGA GCTTGAAGAA GTGGGATGGGGCCTCTCCAG GAAAGCTGAA CGAGGCATCT GGAGCCCGAA CAAACCTCCA CCTTTTTTGG CCTCGACGGCGGCAACCCAG CCTCCCTCCT AACGCCCTCC GCCTTTGGGA CCAACCAGGG GAGCTCAAGT TAGTAGCAGCCAAGGAGAGG CGCTGCCTTG CCAAGACTAA AAAGGGAGGG GAGAAGAGAG GAAAAAAGCA AGAATCCCCCACCCCTCTCC CGGGCGGAGG GGGCGGGAAG AGCGCGTCCT GGCCAAGCCG AGTAGTGTCT TCCACTCGGTGCGTCTCTCT AGGAGCCGCG CGGGAAGGAT GCTGGTCCGC AGGGGCGCGC GCGCAGGGCC CAGGATGCCGCGGGGCTGGA CCGCGCTTTG CTTGCTGAGT TTGCTGC CCTTTTTTGG CCTCGACGGC GGCAACCCAGCCTCCCTCCT AACGCCCTCC GCCTTTGGGA CCAACCAGGG GAGCTCAAGT TAGTAGCAGC CAAGGAGAGGCGCTGCCTTG CCAAGACTAA AAAGGGAGGG GAGAAGAGAG GAAAAAAGCA AGAATCCCCC ACCCCTCTCCCGGGCGGAGG GGGCGGGAAG AGCGCGTCCT GGCCAAGCCG AGTAGTGTCT TCCACTCGGT GCGTCTCTCTAGGAGCCGCG CGGGAAGGAT GCTGGTCCGC AGGGGCGCGC GCGAGGGCCC AGGATGCCGC GGGGCTGGACCGCGCTTTGC TTGCTGAGTT TGCTGCCTTC TGGGTTCATG AGTCTTGACA ACAACGGTAC TGCTACCCCAGAGTTACCTA CCCAGGGAAC ATTTTCAAAT GTTTCTACAA ATGTATCCTA CCAAGAAACT ACAACACCTAGTACCCTTGG AAGTACCAGC CTGCACCCTG TGTCTCAACA TGGCAATGAG GCCACAACAA ACATCACAGAAACGACAGTC AAATTCACAT CTACCTCTGT GATAACCTCA GTTTATGGAA ACACAAACTC TTCTGTCCAGTCACAGACCT CTGTAATCAG CACAGTGTTC ACCACCCCAG CCAACGTTTC AACTCCAGAG ACAACCTTGAAGCCTAGCCT GTCACCTGGA AATGTTTCAG ACCTTTCAAC CACTAGCACT AGCCTTGCAA CATCTCCCACTAAACCCTAT ACATCATCTT CTCCTATCCT AAGTGACATC AAGGCAGAAA TCAAATGTTC AGGCATCAGAGAAGTGAAAT TGACTCAGGG CATCTGCCTG GAGCAAAATA AGACCTCCAG CTGTGCGGAG TTTAAGAAGGACAGGGGAGA GGGCCTGGCC CGAGTGCTGT GTGGGGAGGA GCAGGCTGAT GCTGATGCTG GGGCCCAGGTATGCTCCCTG CTCCTTGCCC AGTCTGAGGT GAGGCCTCAG TGTCTACTGC TGGTCTTGGC CAACAGAACAGAAATTTCCA GCAAACTCCA ACTTATGAAA AAGCACCAAT CTGACCTGAA AAAGCTGGGG ATCCTAGATTTCACTGAGCA AGATGTTGCA AGCCACCAGA GCTATTCCCA AAAGACCCTG ATTGCACTGG TCACCTCGGGAGCCCTGCTG GCTGTCTTGG GCATCACTGG CTATTTCCTG ATGAATCGCC GCAGCTGGAG CCCCACAGGAGAAAGGCTGG GCGAAGACCC TTATTACACG GAAAACGGTG GAGGCCAGGG CTATAGCTCA GGACCTGGGACCTCCCCTGA GGCTCAGGGA AAGGCCAGTG TGAACCGAGG GGCTCAGAAA AACGGGACCG GCCAGGCCACCTCCAGAAAC GGCCATTCAG CAAGACAACA CGTGGTGGCT GATACCGAAT TGTGACTCGG CTAGGTGGGGCAAGGCTGGG CAGTGTCCGA GAGAGCACCC CTCTCTGCAT CTGACCACGT GCTACCCCCA TGCTGGAGGTGACATCTCTT ACGCCCAACC CTTCCCCACT GCACACACCT CAGAGGCTGT TCTTGGGGCC CTACACCTTGAGGAGGGGGC AGGTAAACTC CTGTCCTTTA CACATTCGGC TCCCTGGAGC CAGACTCTGG TCTTCTTTGGGTAAACGTGT GACGGGGGAA AGCCAAGGTC TGGAGAAGCT CCCAGGAACA ATCGATGGCC TTGCAGCACTCACACAGGAC CCCCTTCCCC TACCCCCTCC TCTCTGCCGC AATACAGGAA CCCCCAGGGG AAAGATGAGCTTTTCTAGGC TACAATTTTC TCCCAGGAAG CTTTGATTTT TACCGTTTCT TCCCTGTATT TTCTTTCTCTACTTTGAGGA AACCAAAGTA ACCTTTTGCA CCTGCTCTCT TGTAATGATA TAGCCAGAAA AACGTGTTGCCTTGAACCAC TTCCCTCATC TCTCCTCCAA GACACTGTGG ACTTGGTCAC CAGCTCCTCC CTTGTTCTCTAAGTTCCACT GAGCTCCATG TGCCCCCTCT ACCATTTGCA GAGTCCTGCA CAGTTTTCTG GCTGGAGCCTAGAACAGGCC TCCCAAGTTT TAGGACAAAC AGCTCAGTTC TAGTCTCTCT GGGGCCACAC AGAAACTCTTTTTGGGCTCC TTTTTCTCCC TCTGGATCAA AGTAGGCAGG ACCATGGGAC CAGGTCTTGG AGCTGAGCCTCTCACCTGTA CTCTTCCGAA AAATCCTCTT CCTCTGAGGC TGGATCCTAG CCTTATCCTC TGATCTCCATGGCTTCCTCC TCCCTCCTGC CGACTCCTGG GTTGAGCTGT TGCCTCAGTC CCCCAACAGA TGCTTTTCTGTCTCTGCCTC CCTCACCCTG AGCCCCTTCC TTGCTCTGCA CCCCCATATG GTCATAGCCC AGATCAGCTCCTAACCCTTA TCACCAGCTG CCTCTTCTGT GGGTGACCCA GGTCCTTGTT TGCTGTTGAT TTCTTTCCAGAGGGGTTGAG CAGGGATCCT GGTTTCAATG ACGGTTGGAA ATAGAAATTT CCAGAGAAGA GAGTATTGGGTAGATATTTT TTCGAATAC AAAGTGATGT GTTTAAATAC TGCAATTAAA GTGATACTGA AACAC

(2) SEQ ID NO: 2467 data:

(i) sequence characteristics:

(A) length: 8124 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2467 sequence description:

1 TCCCAGTTAA TACATAATCA ATATGCAATT TATTAATACA TCTCTCCATG TCCACTCCCC

61 CTGTATCTTG CCATTCTTGA CCTGCATTTC CATCCTCCTT ACCTTCCCTA GAGGCCAACT

121 CATTTTCTTT GAAAAACCTG GCATTTCCCA GAAAAAAAAG TGAAGGGCTG GGAGCTGTCC

181 GTTGTCCTGA TTTGCTCCCT CTGCCCTTGC TTCCAAATGT GGTTGGAAAG AAGCACTATT

241 GAAAAATCCC TAAACGCACC CCTGCAGGGT TGGCTCTACC CTGTAGCCAT GGACACATGC

301 TGTTGATACC ACCTGCCTCA TGAGTCTCAC ATAATTTGCC CTTTCACACT ATCTACCCCA

361 TCAGCCTTAC CAAAACCATA CCTGCATCCT GGGCAGCATC TGCCCTTCAA GAGACTAAGG

421 AATCTCCTTG CAACCAAGAA TGACTAGACC AATGAGACAC CCTTTAAGGC CCCAGCACAA

481 TATAGAAATC CCACAATATG GTAATCCCAG TAAGGAGCTA TCAAGCCATT GCAGGACCAT

541 CTAGAATACA ACTAGAGTAT AGTTCCTTTC AATCCAGGAA CTATACTCTA ACAGCTTGGC

601 TCACAGGAAC CAGAAGTGAA GATGATGAGG ATCAGGGCTG AGCCTGTGAG CACCAGCTCC

661 ACCACTGACA CCAACCACAG ATTAAACAAG CATCTTGTGG ACCCCTGGGA TGGAAAGAAT

721 AGTTGTTGCC TTATCAACCT CCCCCACAGC CCACACAGAA AAGATAAAAT CATCATGGCT

781 ACAGTGTTAC AGAAGATGAT GACCCAAGGA GTAGGCCTGC CTGAGTGAAT GCTGAGAGTG

841 ATAATGGGAG CAGTAGCATC TCAGAGACTA CAGCAGAAAC CATCCACATA AAGAGCTTTG

901 CCCAAACTTA TGATAAAGGG CACCCTCAGA GACTCTCCCT ACTTTAATAT TAGCCCATTG

961 CAGAAATGGT GAGTGGAAAG AGAAATCTTA GGAAGAACCC CTTAAAAAAG CAAAATGCTT

1021 TTTAGGTTTG TGCTGAAGAG CCTGGAAAAG AAATAAGGAC ACACACGCTG AGAAATCTTC

1081 CTCCTGCCCC AACACTGGGA TAATCTCCAA GGATCTCTCC ATATCTCATT CTCCTGGATA

1141 CACTGTCCAC TCAGAAATAT TGTGCAGAGT GCAGTAATTC AAAAGTGAGC TATTGTGTTA

1201 GGAGTGAAGG CAAGAGTATC GTAAAATAAA TCAAATTTGA AATGAATTCT CTTAAATTGC

1261 TTTATAGATG TTTAATGTAA GCCAGCAGCT ATTAAACGAT AAACCTTAAA TTCGAGAAAA

1321 ACTTGGTCAT TCAGAAACTA TAGAAACAGG CAGGACTTAT TGCGAGGGCA AACACAGAGT

1381 GAGCTCCAGC CTGCTTCAGG AAAATCTGCC AGTGCCATGA AGGATGTACT CTGTCTGCTC

1441 CACTGCACTA CTGCTCAGTA TGAGCCCATG CCATCAGCTG TCCCTGACCC ACAGGAGTTC

1501 TTTAGAAGAG ACTGGTCAAC AAAAGTTTCT AGGGTGTTTT ATACCTGCCA ACTCGAGGGT

1561 TAAAACAAGT TGCATAGAAA TGCTCAATCA AGAAAGACAC AGTCATTACT CAGAGAATAA

1621 TAAACAGCCT GGCAGCACAT GAATGAATAG AAAAAAGATG TTACATGCAA AGCATGAAAT

1681 AACCAAATTC CATAACAGAT GTTAATCTGT AATGTGTTTA GGAGAATTTA GAGGAAGTAT

1741 AAGATTTATT CTTTCATCAA AAAAATTATA GCCAATGAGG ATATATCTAT CAATTATCCA

1801 TCAAGTGGTG ATATGGCAGC ACAAGGTAAA ACACAAAGGA ATAAAACCAA CGTTTATTAA

1861 GAACCAATCA TGTGGCATTT CACATTGAGC ATCATATTTA ATTCTGAAAA AAATCCTTGT

1921 ACTGTATCAT TCTTCATATT TTATGGATGC AGTAACTAAG GCTGAGAACT TTAAAATTTT

1981 TCCTAAGTTC AGACACATAG CTAAGTGGCA GAACCAAGAT TCAAACTCAC CCCATCTAAC

2041 TGCAGAGCAA ACTGCATGCC TTAAATGTCA AAGTGAATAC TAGCACAGTT AATACAATGT

2101 TTGGAAACTC AGAGAAGGAA TGATCCCTCT GCATTATAGT TACTAAGGAA TCATTGCCAT

2161 TATTTAAATG CCAGTGCTTC TACATCAGGC CCAAATTTTC TGTCCTACTA ACTGTGAATC

2221 AAGACTTGAT TCAACCTCTA CTTGAGTATC TGCCGCAATG AGAAATCACT TACCTCCACT

2281 AACCACACAT TTATTTTATA ACAACAGATT GTTAGTAAGT CCTTTCTTAT ACATACTCAA

2341 CAGCTGCTTC CCAAGATGCT GTAGGATTAT GTCTAGAGTC AAACTAGCCA GAAGCAATGT

2401 CCAAAATACA CCATAACACT GTGCAGCAAA GGTCCTACTA CCACTTGTTT GGCCCAAACA

2461 TTCTAGGCAG CACTGGATAT CTGAATCATC AATTATTTCC ACAAACACTG ACCCCTCTAC

2521 CAGTCACCCT CACTAGAAGA ATTAATTCCA CATGATAATA GCTCCCTCAT GTTACTCCCT

2581 TCTAAGTCAA ATTGTACACC CCTTTATCTG ATTAACAGAG TCTAAGTCAC ATGACCTAAA

2641 TGCAAGAGAA CTGGGAATGG ACGTTTGTGG ATTCTACCTT AGTAAGGCAA AGTTATCATT

2701 GGGAATTCCT CTAATACAGG AAGGGTGTTC CAGAGACATT AAGGAGCCAT ATAAATGGAA

2761 AATGTCCACT ACAATCCATC ACTTGGTTGC CCCACATCAA CATTCATTCT TTTGCCACAC

2821 TTAAAGTTTC CAAGAACAAA AATTATCCCA CTGAACATAA TCTTTACTAT CTTTTATATA

2881 AAGGAAAATT AGACTTGACT CAGCAGAACT GAAATAACCC AGCTCTAACA GTTACTGCTT2941 TTAACTTCAA GTACTGTGTC TCTAGGTGAT ACCTGCTCCA ACAATAGTTT GGTCACATTT3001 TCAATTTGAT ATTCTCTAGT CTCCCAACTT GATAACTGTA CCCTAAACCA TAAAGTTCAC3061 TACCAACATG CTATATATAA AATAACCAAA GGGGGAAGAA GAAAGAGAAA AAGGAAATCT3121 CTTAAAATAC ACAGGTATAC ATATGACAAA GCAAAGAAGG AAATGTGAGC AGATAGTGCA3181 GTCCTCGTTT CTGAAATTGG TCCCCTGACT GGGGCTATAC CTATTCCATT TCCTCACCCT3241 CAGCCAGGCA GGTGGAGCAA AAACTTAAGT CTTGGTGGAT CTGAATCTTG ATGCTGTGGA3301 GCTGTCTTAC TAGCCCCAGA CTACCTGCCT CTCAATTTCT AATTATATCA GTGAAAGCAA3361 ACAGCTTTGA TTTGTTTAAG CCTCTGATTT TTTGGTCTAA CTGATGTAAG ACCACAAGGA3421 CAAGAGTTCT CCAGCTCCGG ATTCTCTTCT GTTCTGTTAA TGGTGAAATG CCCGAGAGAA3481 GAGTTGCCAA CTTTGGCAAA TAAAAAATAC AGGATTCCAG TTAAATTCAA ATTTAGATAA3541 ACAACAATTT TTTAGTATTA GTGTGTCCCA TTCAATATTT GGACATACTT AACTAAAAAA3601 TGATTTGTTG TTCATCTGAA ATACAAATTT AACTGGGCAT TCTGAATATT CTCTGGCAAC3661 CCCCGAGAGA GTGAAGAAAG TGGTACAAGG ACACTTAAGA AGACCAGATT TGAAAAGACA3721 TTACGGATGT GTTTAAATGT CTTATTCTAG AGAGAGTTAG AGCTGTAGGT AGAACTTGGG3781 AAATTAAGTT AAAAGCAGAC ACAGAGACCT GGCCAATATA TACTAAGGAG TGGATCACTC3841 TGGTCACAAG CCCAACCTGA GACCAAGGGC ATAGTGAGAT GATTTGGGAA AGGCACTTAT3901 ACACTACTCA TCCCCGTCTT TGAACTAAAT GCCTTATAAA TCTCCAAGAG AAATGACAGT39 CCACCATGTG GACTGCTTTC TGTAAGTCCA GGGAAAATAA AAGCTATGTG CTTGAAACCC ACTTCTGATA TTATAAGGTG TGTGATCTTT GTCATGTTAA TGGGTCTGAG TATCAATTCT4081 ACAATTGTAA AGTGACAGTA ATGGTGTGTC CCCAGGTTGT TGTGGAAAGC TTGATTCTTA4141 ATGCAACAGT AGGAAACCCC AGCCTCTCTG GAGCAAACAC CCTTCTACAT CTTTACTTCC4201 CCTGCACATT GGCAGGACTC TATTCCTCTA TTTCTCTCTA GTGCTAGAGC AGAAAGGGAC4261 CTTGATTTGA TATCAGGAAA ATCTATTTCT GAACCATAAG CTATGATAGC TGATTTAAAA4321 AATTGACTAT CATGACATGA TAATGATCAT AATGGTAATA CATATTGATA GGGTTGCCGT4381 4386581 4381 GAAAGTAATA ATATATCTAA GAGTTGTGAC AATATATGAT ACGCCTAGAC TCTCAGAAAA4441 TGCTAATTCC AATCCCAATT GCTCTTTGCA TAAAGTTCTG TCCTAGGGTC TGTTCTTTTC4501 CCACATCTAC CCTCCTTGGA TCTCTCTTCT GTCTTTTTCA TGTGGTTCAG AGGAGGAGAG4561 AGATCCAGGT CAATGTTTTT CAAATTACAA GGAATTATCA TTTAAATGGG GAAGAAGCTC4621 AAGTTTTGAC GTGTAGTGGA ATTGGAGTGG AGTGGAGTGG AATGGAAACT AACAGGAAGA4681 CACTGCACAT GGTTAAGATA AAGATTGTTT CCTGAAACCT TTAATTTGTG CTTACATACT4741 CACACATACA TATGTGCATG CACTGGGACT CTGCAATATG CATTTCTGAC TATGGAACAT4801 AGCCATAAAA GTCTTTGCAC TGAACGTTCA GTGGGCCTTT CACAAGCTGC CCTAATTGGG4861 AAAGAAAAAC ATGGTCCCTC CATTTCCTGC CCCCAACTCC AGAAAAGTCA CCATAGTTGA4921 GGGTACATCT GAGAAGCCAG CACTTGGGAG TTCAGGGCTC AAGTTCCTTT CTAGAAAAAC4981 ACTGGGTGAT TCTAGGGGAA CTTCCGATCA GAAACAGCCA ATTCAGAGTG AGAGAAGAAA5041 ACGTGACCAT GCAGTTCCTG TGGTTACCAG CCTTGCCCCT CTCTTGCCTT CTGGGAGTTA5101 TAAAACCCAA GACTGGAAAG GAAAACCAGC ATTTGCTCAG GCAGCCTCTC TGGGAAGATG5161 8561 5161 CTGCTTCTTC CTCTCCCCCT GCTGCTCTTT CTCTTGTGCT CCAGAGCTGA AGCTGGTGAG5221 TATCAGGGTT CTTCCCTCTG AAATCTGCAG TATCAGCTCC TGAAACAAAG ATGTTTAGTC5281 52 5281 TGAAATAGCT GACTCCTAAA CAGGGTTCCA AGATCTCTCT TCAAGAGTCC CACAGAGGAA5341 ATTTCCACTTGGGATGTGTG CCACCCCACC CCCACCCCCA CCCACTGCCA TTCTCTACAG5401 CCTAGGACAC CCCCAGGAAC AAGGAATTTC ACCTCAATTG TAGAAAAGCC CAGAGCAAGT5461 GGAAGGAAAA GGGGTATCCC CAGGAAAACA GACATGTCCT CTTAATCTTC TGAGCATCAG5521 GGCTACCCAT TACTTTGTGA CTTTCTCACT CTGTGACCAT GCTCAAGAGC TATGGAGAAA5581 TCTAAAACAG GAACCTGGAC AGTGGGTCCT ACACAGAGAC AGAGGAGAGT GGGCCAGGGC5641 5841 5641 AAGGTGGGAG TGGGAGAAGT CTGAGATGAA AACATCAGAA TGGAGCAGAG GCAAGAATGA5701 GATTTCACCT GGGAGGTTAT GGGTGGGGAA AGATACGAAA TACAGGAGAC AGGAGAGGGA5761 AGATGGGCGG AACACAGGGT GAGAATGAGA TTCCAGGGAA GCCTAGCTCA GCTTTAACCC5821 AATTTGTCCA TTCATTGGAG AGAGTATCTA TGGCCGTGTT CAAACCCTGG GGTGCTCTGT5881 TCCAGGGGAG ATCATCGGGG GCACAGAATG CAAGCCACAT TCCCGCCCCT ACATGGCCTA5941 CCTGGAAATT GTAACTTCCA ACGGTCCCTC AAAATTTTGT GGTGGTTTCC TTATAAGACG6001 GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTGA GACAACAGGG TCTATTTATC6061 TCCAAATGGG AGATGAACAA CCAGAGTAGC ATCCAGGAAT ACACCTGCAC TGGGGACTGA6121 AGAGGGGGTC CTGGGTCTTG TCAACTTTCA GGAGAGGGAA GACTTTGGGC TGAAAGACTT6181 TAGTCTGTGT TTGAATAGTT CCTTGAGCCT CAGTCACTGA GCTAAGCTCC CTTCGGAGGA6241 AAAGGAGGTC CTGTCCGAAG GTCCCTCTTG TTGCAGTAGC ACCCCTCACC CCTACCCAAC6301 TCAAGACACA CGGCTCACTT TTCAGGGCCC CACCCAGTCT CAGGGCCACT TCCTCTATGG6361 CCTTTTCAAG AACACTGGCT CTAGTTCTCA GGGTCCTGAA CCCATCATTT TATGGGAGCA6421 GAGAACAGGT CTACATAAGA CCCCCACTTT CCCGTTTTAA CTGATATCTC CTGCTTCAGG6481 GGCTGGCCCT CATGCAGGGT TCCCTGAATT AGGAAGTGTG AACCCTGTCC CCTGAGTCCT6541 CCCTGGCCTG TTCAGTCCCC AGCAATTCCA GGGGTCGTAG AAATTGTGTC TGTTTCCTGA6601 GAAAGCTCTT TCATGAGTTA AGCCTGAGCC CTCAAATGCC ACAAGTGGCC CATGAAAAGG6661 GAGATGGGTA GAGTCCGGCN ACCCAGTGAC AGAGTTTAGT CCTCTTTTCT CAGAATGAGC6721 TCACCTCAGA AGAAACCCCA AGCCATCACT GTCGCCTCCT TTTCCTTCCT TCTTCCTCAC6781 6841 826901 CACGATATCA TGTTACTAAA GGTGACAACA CCTCTCTTCT CCCTTTCCAC TTCCCATTCT696 7027 8621 TGAAGCTACT CACCCTGTCC CTCCCTGATC ACCTCCAACT GTCCAGAGCC CATTTCGAGG7081 7141 GGGACACTCC CCTTCCCATC ACAATTCAAC TTTGTCCCAC CTGGGAGAAT GTGCCGGGTG 7272 GCTGGCTGGG GAAGAACAGG TGTGTTGAAG CCGGGCTCAG ACACTCTGCA AGAGGTGAAG7261 CTGAGACTCA TGGATCCCCA GGCCTGCAGC CACTTCAGAG ACTTTGACCA CAATCTTCAG7321 CTGTGTGTGG GCAATCCCAG GAAGACAAAA TCTGCATTTA AGGTGATCCT CCAACTAGGT7381 TTCCTCTCCA AAACTCACTG TTCAGGGACC TGAATGCTCT TAGAAGGAGA TGGGGTCAGC7441 AGGTTGTCAG TCAGGTGACA GGGTGAGCAT CACAGGAATT GCTGTCCTCC CGTGGTCCAA7501 GACAGCCTCT GACCATCCAT TCCAGTCTAC TGCACTGGGG GCATGGGGTG ACTGTGGAGA7561 ATGTGGATGA CGGTCCCAAG AAAGGAAGAA GGGGCATCAG AACTAGATGT ATAAGTGAGG7621 AGCTCCACCT CCTGGGTCTG ACTTTAGGTC TCACTGTGAC TCCAAGCTGG CTGGCAGACA7681 GGAGTGGAGG ACTTCCCGGG CTCACCTTCT TCTCTCTCTC CTCCCCCTAC AGGGAGACTC7741 TGGGGGCCCT CTTCTGTGTG CTGGGGTGGC CCAGGGCATC GTATCCTATG GACGGTCGGA7801 TGCAAAGCCC CCTGCTGTCT TCACCCGAAT CTCCCATTAC CGGCCCTGGA TCAACCAGAT7861 CCTGCAGGCA AATTAATCCT GGATCCTGAG CCAGCCTGAA GGGAAGCTGG AACTGGACCT7921 TAGCAGCAAA GTGTGTGCAA CTCATTCTGG TTCTACCCTT GGTTCCCTCA GCCACAACCC7981 TAAGCCTCCA AGAGGTCTCC TACAGGTAAC AGAACTTTCA ATAAACTTCA GTGAAGACAC8041 AGCTTCTAGT CGTGAGTGTG TGTCCCTCTC TGCTGCTCTC TTCTCCTGCA CATGTGACCT8101 GATTCCCAGC CCAAGCACCA AGGA (2) SEQ ID NO: 2468 data: (i) sequence characteristics:

(A) length: 681 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2468 sequence description: 1 ATCATCGGGG GCACAGAATC CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT 61 GTAACTTCCA ACGGTCCCTC AAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG 121 CTGACGGCTG CTCATTGTGC AGGAAGGTCT ATAACAGTCA CCCTTGGAGC CCATAACATA 181 ACAGAGGAAG AAGACACATG GCAGAAGCTT GAGGTTATAA AGCAATTCCG TCATCCAAAA 241 TATAACACTT CTACTCTTCA CCACGATATC ATGTTACTAA AGTTGAAGGA GAAAGCCAGC 301 CTGACCCTGG CTGTGGGGAC ACTCCCCTTC CCATCACAAT TCAACTTTGT CCCACCTGGG 361 AGAATGTGCC GGGTGGCTGG CTGGGGAAGA ACAGGTGTGT TGAAGCCGGG CTCAGACACT 421 CTGCAAGAGG TGAAGCTGAG ACTCATGGAT CCCCAGGCCT GCAGCCACTT CAGAGACTTT 481 GACCACAATC TTCAGCTGTG TGTGGGCAAT CCCAGGAAGA CAAAATCTGC ATTTAAGGGA 541 GACTCTGGGG GCCCTCTTCT GTGTGCTGGG GTGGCCCAGG GCATCGTATC CTATGGACGG 601 TCGGATGCAA AGCCCCCTGC TGTCTTCACC CGAATCTCCC ATTACCGGCC CTGGATCAAC 661 CAGATCCTGC AGGCAAATTA A (2) SEQ ID NO: 2469 data: (i) sequence characteristics:

(A) length: 1310 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2469 sequence description: 1 GCCACCATGG AAACCCTTTG CCTCAGGGCA TCCTTTTGGC TGGCACTGGT TGGATGTGTA 61 ATCAGTGATA ATCCTGAGAG ATACAGCACA AATCTAAGCA ATCATGTGGA TGATTTCACC 121 ACTTTTCGTG GCACAGAGCT CAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTC 181 721 TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG 781 181 CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGC AGACTAAAAT TACTTCAGCT 241 TTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAAT 301 GCAACTCTGC TCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG 361 ATAGCCAGTC TTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA 421 TTTAAGCTGC TGGCTGGGCG CTGGCCTTTT GATCACAATG ACTTTGGCGT ATTTCTTTGC 481 AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCT 541 CTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGG AATTGGGATT 601 CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATT 661 CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACA GCATAAAACC 721 TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG 781 CTCTTCGGGT TCTATTTCTG TATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG 841 ACTGGTGAGA TGTTGAACAG AAGGAATGGC AGCTTGAGAA TTGCCCTCAG TGAACATCTT 901 AAGCAGCGTC GAGAAGTGGC AAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGC 961 TGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTG TGTATAACGA GATGGACAAG 1021 AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCA 1081 ACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAAT 1141 TGTTTCCAGT CATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC 1201 CCCATGAACG GAACAAGCAT CCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGAC 1261 CGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAG AAGCACTCCT (2) SEQ ID NO:2470 data: (i) sequence characteristics:

(A) length: 1868 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2470 sequence description:

1 GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA 61 AATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG 121 ATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA 181 TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAA 241 TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC 301 TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT 361 GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA 421 CGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT 481 CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATT 541 TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCT 601 CTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT 661 TGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT 721 GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGG GTGAACAGCA 781 TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGA 841 CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC 901 CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA 961 ACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC 1021 TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGAT 1081 GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAA 1141 CTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT 1201 TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC 1261 CTCGGTCCCC ATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAA ACAACCACAA 1321 CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGG1381 TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCC GGGAATCTCT 1441 TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG 1501 CAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT 1561 AATTTACATA TTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCT GGGGGAGAAT 1621 GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTC 1681 AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCAT

1741 GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC

1801 AGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC

1861 CCGAATTC

(2) SEQ ID NO: 2471 data:

(i) sequence characteristics:

(A) length: 2008 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2471 sequence description: TACCAGTCCA AAAGTCTGAT GACCTCGGTC CCCATGAACG GAACAAGCAT CCAGTGGAAG AACCACGATCAAAACAACCA CAACACAGAC CGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAG AAGCACTCCTGAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTCAAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATCCTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAGCTTCCTGGTT ACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGCCCACAGCAGA CTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCGTGGGAATGGT GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAACGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTTAAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCTTTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCT CTGCGCTCTT AGTGTTGACA GGTACAGAGCAGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATCTGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGGGTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGACTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACTTGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAGAAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCGTATATTGAAG AAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTCATGGATTACA TCGGTATTAA CTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGAGCAAGAAATT TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGACCTCGGTCCCC ATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGGAGCAGCCATA AGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGGAGAAAAAAAT CACAAGGCAA CTGTGAGTCC GGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCCACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAATCGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCTGGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTCAAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCAT GAAACTTTAGAGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCTCAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC

(2) SEQ ID NO: 2472 data:

(i) sequence characteristics:

(A) length: 362 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2472 sequence description:

1 GCTCAGCCTC CAAAGGAGCC AGCCTCTCCC CAGTTCCTGA AATCCTGAGT GTTGCCTGCC

61 AGTCGCCATG AGAACTTCCT ACCTTCTGCT GTTTACTCTC TGCTTACTTT TGTCTGAGAT

121 GGCCTCAGGT GGTAACTTTC TCACAGGCCT TGGCCACAGA TCTGATCATT ACAATTGCGT

181 CAGCAGTGGA GGGCAATGTC TCTATTCTGC CTGCCCGATC TTTACCAAAA TTCAAGGCAC

241 CTGTTACAGA GGGAAGGCCA AGTGCTGCAA GTGAGCTGGG AGTGACCAGA AGAAATGACG

301 CAGAAGTGAA ATGAACTTTT TATAAGCATT CTTTTAATAA AGGAAAATTG CTTTTGAAGT

361 AT

(2) SEQ ID NO: 2473 for data:

(i) sequence characteristics:

(A) length: 4655 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2473 the sequence description: 4081 AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTG GAACAAAATG4141 CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGC4201 TCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC4261 AATCTTTATC CTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA4321 TATCCTTGAA ACACCTTTTT CTGCTCTCCA GGAAGGGGTC AGGGCTGCCA CAGCGGGGCT4381 TGGAGTGCTT TCCAGGGTCA CAGGCATCTG TATTCTTTGG ATTCCTTGAC CTTCCCCATT4441 TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCC TGCATCCTCC CCTTGCATGC4501 CCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGAC CAGTTCCCTC4561 ATGGAATCAT AGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGAC4621 TCCCTTCTTC TGGCTAAGGT TTCTTATGCA ATTAT (2) SEQ ID NO: 2474 data: (i) sequence characteristics:

(A) length: 2030 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2474 sequence description: 1 CTGCAGTGGT AAAAAGATTC TATATCTGCT GTTTGATGAA TGCAGCACCC ACTAGCCACA 61 TAGTGCTCGT GAGCACTTGC AATGCGGCTA GGGTGATTTC AATTAACCTA AAAGAGAACA 121 GCCACAGGGA GCATGTGGCT GCCATATTGG ATGGTGCTGC TTTGAGAACA AAATGAGAGA 181 721 CCAATCTCTT CTTATAAGGA TGCAAGTCTT ATGGATCAGA GCACACCCCA ATGACCGTGT 781 181 AATGAAGCCT CTATTTACCT TGGTTGGCGG AACACATTGA AGGGACTCTG TATTGATACC 241 AGGCTTCAAA CTTTGGGAAG TGTACTGGCC AACTTAAACA CATCCACAGG AGAATGAAGA 301 GGTTTGGGAA GGGACCAGAA ACCAGGCATT GAGGACAATG AGAAGAGTTT TTCAAAAGTG 361 GAATTACTGC AAAAAGTGGA AAAATAGCCT TTGGATGGAA GTTACTGATG AGACAATTTC 421 CATCGGTGTG AAAGCCATCT TTCCAACAGA GATCTGCAAC ATGAGAATGT ACTGTCTCCT 481 AGGGTAGCGA TGGCCTCTTG TATTAGTCCG CTCAGGCTAC CAGATTTATC GTTTAAACTG 541 CCCATAAACA GACCAGGCAG TTTAAACAAC AGAAATTTAT TTCCTCGCAG TCCTGGAGGC 601 AGGAAGTCTG CGATCAAGGT GGAAGCAGGG TTGGCTTCTT CTCAGGTGTC TGTCCTTGGC 661 TGGTAGATGA CCGCCGCCTC CCTGGGTCCT CACATGGTCT TTCCTCTGTG TGTGTCTGTC 721 CCAATCTCTT CTTATAAGGA TGCAAGTCTT ATGGATCAGA GCACACCCCA ATGACCGTGT 781 TTAACTTGAA TCACCTCTTT AAAGTTTCTC TCTCCAAATA CAATCACCTC CTGAGGCACT 841 GTTAGGGCTT CGACACAGGA ATTCTTTTCC TAGGGGATTC AGTTCAGTCC AAAACGCCTA 901 CCAGTGGAGA CTTGCAACAT GGCGGCCTGC TGGTCCCTCG CCAGGAATAT CACAGGCGAC 961 TGTTCCCTGT TGCATGGAAT AGAAGGCTAT TCCAGAGTAC TGTCTCTATT TATCAGATCT1021 GGGATACTGG GAGAAGGGCA AAATAAAGTC CAAGTAGAAA AAAAAACTAT GAAAGTTTTA1081 GAGAGTAACC ATAATTTCAG CCCGATGTGA AACGATCCTA GATTTCAGCT GAAATAGTGA1141 TGTGGGAAGT GAGGGGGCCG GGATTCAAGG CAGAGGGAAC AGCGTAACTG AAGGCATGGA1201 AGGAGGGAAG TGTAGGCTGT GTTTGAAGAG TGGCAGCTGC TTCCACATTT CTAAAACACA1261 GGATGTGATT TTGGGGTGTG TTGAGACAAG GCAGAAAACT TGTTTGGAAA AATAACTTGA1321 ATTCCCTGCA CATTTAAAAT CTCTCAGCAG AAGAAAACCC CACTCAGAAC CCCACTGTTC1381 ATTCCTTGGC TTGTATTTGG SCACAGCTGG CATAGCCCCA GACTGAGTAA GCTCTTCAGA1441 CACCTCATTT CATGAGTAGC CCCAAAGATC AATCATGGGC CAATTTCTTG GAAGAGAAGA1501 CTCTCCGGTG TTTTGCAGTT ATTTGTTCTG CTTTCGCGAG ATGTTCTCAA ATCGTTGCAG1561 CTACAAGCCA TGAGTCTGAA GTGTTTGTGT TCCCTCCTTA CAGGTGGTAA CTTTCTCACA1621 GGCCTTGGCC ACAGATCTGA TCATTACAAT TGCGTCAGCA GTGGAGGGCA ATGTCTCTAT1681 TCTGCCTGCC CGATCTTTAC CAAAATTCAA GGCACCTGTT ACAGAGGGAA GGCCAAGTGC1741 TGCAAGTGAG CTGAGAGTGA CCAGAAGAAA TGACGCAGAA GTGAAATGAA CTTTTTATAA1801 GCATTCTTTT AATAAAGGAA AATTGCTTTT GAAGTATACC TCCTTTGGGC CAAAATGAAT1861 CTTGTGTCTC AATTGGAAGA GGTAAAGAAG TAGGGGGTTA GGGTGCATGG GTTGGAACGT1921 GAGACAGGTC GAACCACAAA GCCTGCCTGG AAAAGGGGAG TGACGTCCTA GGCTTCAGTG1981 ATGTCACCTC CACTTTGTTT GATCCACAAA CCAACAGGTG ACTGATTTTG (2) SEQ ID NO: 2475 data: (i) sequence characteristics:

(A) length: 322 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2475 sequence description:

1 GTCAGCTCAG CCTCCAAAGG AGCCAGCCTC TCCCCAGTTC CTGAAATCCT GAGTGTTGCC

61 TGCCAGTCGC CATGAGAACT TCCTACCTTC TGCTGTTTAC TCTCTGCTTA CTTTTGTCTG

121 AGATGGCCTC AGGTGGTAAC TTTCTCACAG GCCTTGGCCA CAGATCTGAT CATTACAATT

181 GCGTCAGCAG TGGAGGGCAA TGTCTCTATT CTGCCTGCCC GATCTTTACC AAAATTCAAG

241 GCACCTGTTA CAGAGGGAAG GCCAAGTGCT GCAAGTGAGC TGGGAGTGAC CAGAAGAAAT

301 GACGCAGAAG TGAAATGAAC TT (2) SEQ ID NO: 2476 data:

(i) sequence characteristics: (A) length: 4799 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2476 sequence description:

1 GAATTCACAT TTCTCACCTT TTGATGTATT AAGAAAGTAT GGAGAAATAT ATCCTCTATC

61 AAATTTTCAT GCCTTCAATA ATTTCTAATT CATCAGTCAG TGTTTTTCCA TCCTTTACTG

121 TGATGATGCC CTTTCTTCCA AACTTTTTCA TTGCATCAGA GATGATGTTA CCAATTTCTT

181 TGTCTCCATT TGCAGAAATT GTAGCAACCT GTGCAATTTC TTCAGGTTTG GTCACAGGTT

241 TAGACTGCTT TTTAAGTTCA GCAATTACAG CATCAACAGC TAACATCACA CCTCTCTTGA

301 TTTCCACTGG ATTAGCACCT TTGCTAACCT TCTGGAAGGC TTATTTGGAA ATAGAGCATA

361 CCAGTACAGC AGCAGTGATA GTGCCATCCC CCAGTCTCTC CATTTGTGTT ATTGGCAACA

421 TCTTGGACAA GTTTAGCTCC AATGCTTTTA TATTTATCCT TTAAGTCAAT TGACTTTGCA

481 TCAGTCACAC CATCTTTTGT TACTTTGGGA CTTCCCCAGC TATGTTCAAT AATTACTGTT

541 CTTCCCTTTG GCCCCATTGT AATGGCTACA GCATCGACAA AAAGTCTACA CTTTGAAGCA

601 TTAAGGCTCA GACATCAGCA CCAAATTTTA CATCTTTACC ATCACTTCAA GTGAGGTGAG

661 GAGCCAGTAG CCTGGACACT GGTCTCATCT GGTGAAAGAC TGTGGGTAAT GGAAGCATTT

721 CTGTGGGGTG GTGGCAGGAC ATGTGCATGG TGAGGCAGGT CATCAGCAGC AAGTGAGAGC

781 TGCCTCTTAC TTTCTAAAGG TGACATAGCA AGTATACAAA AAAAAATAAA ATATTAATTT

841 AGGCAGAGCA CATAAAGGCT TTATTTCATA TTCCATTTCT CTGTATGCTT TCTTCACCAG

901 GAAGAAATAG TTTTAGTGTC AGGAATGAAT GAGTCTGCCC CTCAATTCCA GCCTGCTCAG

961 CACACAAGGA AACAAAGCCC TGACAATCAG AGTGACTCCC TGGTGACTAA GCTCCAGTCC 1021 TGGATGCATA TTTGTTTAGC AGTTCTGACA GCATCTGACC CAGCCCTCTC TTTGCATACC 1081 CCACCAGAAC CTTCTTTTTT TTTTTTTTTC TTTGAGACTG AGTCTTGCTC TGTCGGAAGC 1141 GATTCCCGTG CCTCAGCCTC CCAAATACCT GGAATTATAG GCGTAAGCCA TCATGCCTGG 1201 CTAATTTTTG TATTTTTCAT GGAGATGGGG TTTTGCCATG TTGGTCAAAT TGGTCTCACA 1261 CTCCTGACCT CATGTGATCC ACCTGCCTCA GCCTCCCAAA GTGCTGGGAT GACAGGTGTA 1321 AGCCACCATG CTAGGCTCAG AAATTTCCTT TTATAAAAAT GTCATTAAGG ATCTTGGCTG 1381 CACAATATCG TTACCAGCTT CCTTTAAATC CACCTCTGGC CTGCCAGGAA TCAGGGTTCT 1441 TCAGAACCTG ACATTTTAAA TGAAGAGGTC AGGCAGGTCA TGAGGAAAGC CTCATTGTCC 1501 CCATGTCTCT GTCACTGCTG CACCCCTGAG ACATCACAGA CATGGACACT GGGGGCTGCT 1561 TGTTTCTCAA ACTGCCCTTA GATCGAAAGA GGGAGGAACC AGGATGAATG CCACTCATTT 1621 TCCCAAGAAA GGCCCTCTCC TGAGTGCCCG GGATGGGGCT CTGTCCATTG CCTGGGGCCG 1681 168 1681 CCAATTGCTA CTCTGGGTTA CGGAAGAAGG ACAGGGTCCT GAGAGACACC AGAGACCTGA 1741 CACAGCCCTG AAAACATGGG GCTCCTTCAT AAGTGTTTCC CATCACCAAC AGGGAGACCA 1801 CGTGGAGGCC TTGCAGCCCT ACTCGGTGCT TCTCCACCAA ATCCCAAGGG CAGTGACGCT 1861 GACGTCTGTG GAAAGCAGAG AAAGCCCTGG CTCCCAAAGC CCTGAAGTCC TGTGGAGCTG 1921 192 1921 ACATTCCCTG AGTGACGGTG TGAATGGAAG GAACTCAAGT GCGGGTGGTA GGCCACCTCC 1981 TGGCCCAGGC CTGGGTGAAC TCTGAGGGGA CACATGTAGT CACAATCCCA TCCTCCCATT 2041 CTCCTTCTCA GAGGAAGGAA GTGGGCATCC ATCTGCCTCA TCTCTCTCCC GTGGGGAAGA 2101 TGGGGAGTTT CAGGGGAACT TTCACATAAA TTTCACCAGC TCAGATCTCC TGTGAGGATG 2161 GGGCCCACCA TGCTCCCGGT GCTGCCAGAG GCCCTGAGCC CCTCCAGGGT CCCTGGGTTT 2221 GAGCCAGCCC TGTATCATCC CCAGGAGCTG AATGTCCGAA CAATGGATAG AATTAGATGG 2281 AAAGAGCTCT CAATTTGGCC TGAGACTGTC CCCAGATACT CAGGAAAAAC AGGACGTCGC 2341 ACAGAGTGGG CAGCAGGTGA GTGGCAGGTT ATAGGTCCTG AGTTTGAGTT TGTTCTCACG 2401 TGAGACAGAC CCAGCCCCTC ACTCCATTCA CACACTGGGT TTTAAATGGT GCAAGATAGG 2461 AGGAATTTTC TGGTCCCAAG AGCAGGAGGA AGGGATTTTC TGGGGTTTCC TGAGTCCAGA 2521 TTTGCATAAG ATCTCCTGAG TGTGCATTGT TCTTTGAGGA CCATTCTCTG ACTCACCAGG 2581 TAAGTGGCTG AATTCTAACC TCTGTAATGA GCATTGCACC CAATACCAGT TCTGAACTCT 2641 ACCTGGTGAC CAGGGACCAG GACCTTTATA AGGTGGAAGG CTTGATGTCC TCCCCAGACT 2701 CAGCTCCTGG TGAAGCTCCC AGCCATCAGC CATGAGGGTC TTGTATCTCC TCTTCTCGTT 2761 CCTCTTCATA TTCCTGATGC CTCTTCCAGG TGAGATGGGC CAGGGAAATA GGAGGGTTGG 2821 CCAAATGGAA GAATGGCGTA GAAGTTCTCT GTCTCCTCTC ATTCCCCTCC ACCTATCTCT 2881 CCCTCATCCC TCTCTCTCCT TCCTCTCTCT GTGTGTCCCC TCCATCCTTT TCTCCTGCTT 2941 CTCTCTCTTC TTCCCTCTCT CTCTTTTTTT CTGTCTTTCT TTTTCCTCTC TCCCTAGAGC 3001 ATGTCTTTCT TTCTTTCTCT TTCCTTTCTT CTACCCACAC TTTTAGACTG AGTAGACTGA 3061 ATGCCCTATT TAATTGAACC AAGCATTGCT TCCTTCAATA GAAAAGGAGT TTGAGAACCC 3121 AATGGACAAC TCACTCGTTC TTCTAAGCCA ATATGAAGGA GCCCAGTAGT TTGTAAATAT 3181 CATCTCTTCA CTGCTTTCCA TGCTACAACT GCTGAGACTA TGGTTGAAAC CTGTTAGGTG 3241 ACTTTTTAAA TAAAAGGCAG AAATTTTGAT TTTATCTAAA GAAAGTAGTA TAGAATGTCA 3301 TTTTCTAAAT TTTTATATTT AAAGAGTAGA TACTGCAACC TAGAGAATTC CAGATAATCT 3361 TAAGGCCCAG CCTATACTGT GAGAACTACT GCAGCAGACA CTCTGCCCCC AGGACTTTTC 3421 TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCA CAGGACAGGG 3481 ACAGCCCATT GAAACCAACT TTTAAACCTG GATGCCTAAC CTTCATTTTC TCCTTGATAT 3541 TATGAAAATA AAATAAAAAC CATGAAAGGA TAAAAGAGGG AGAGTGGAAG GGAAGGATGG 3601 AGAAAGGGAA AAAGAAAATT TGAGAGTAAA TCCTAAAACA ATTAATCTAA TAGATATCAT 3661 CTTGTGAAAT CCTCATTTTA CCAATCTTAT TTATGAGTCC TGGGTTTTGT GAGAACAATG 3721 GGGTTCTGAG AGGCACCAGA GACCTCATAT TTTCCAAAAC CTAGAACAGT ATAATGAAGG 3781 AAGGAGGGAA GGAGGGAGGG AGGGAGGGAA GGAGGGAAGG AGGGAGGGAG GGAGGGAAAC 3841 AAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT 3901 TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAA 3961 ACAATTTCAG TAAGTTGCAT CTTTTTTATC CCATCTCAGA TCAAATACTT AACAGACTAA 4021 ATGATTTGAA AAAGCAAAAG TTTACTGGCT TGTGTGTGTT AAAATGGAGG TATGGTGGCT 4081 TTGATATTAT CTTCTTGTGG TGGAGCTGAA TTCACAAGAG ATCGTTGCTG AGCTCCTGCC 4141 AGACCCCACC TGGAGGCCCC AGTCACTCAG GAGAGATCAG GGTCTTTCAC AATCAGGTTC 4201 TACAAAAATA AACATCCCCC AAACCACAGC AGTGCCAGTT TCCATGTCAG AAACTTAGAT 4261 CCAAATGACT GACTCGCGTC TCATTATCAT GATGGAAAAG CCCAGGCTTG AGAAAGAAGC 4321 CCGCTGCGGA TTTACTCAAG GCGATACTGA CACAGGGTTT GTGTTTTTCC AACATGAGTT 4381 TTGAGTTCTT ACACGCTGTT TGCTCTTTTT GTGTGTTTTT TCCCTGTTAG GTGTTTTTGG 4441 TGGTATAGGC GATCCTGTTA CCTGCCTTAA GAGTGGAGCC ATATGTCATC CAGTCTTTTG 4501 CCCTAGAAGG TATAAACAAA TTGGCACCTG TGGTCTCCCT GGAACAAAAT GCTGCAAAAA 4561 GCCATGAGGA GGCCAAGAAG CTGCTGTGGC TGATGCGGAT TCAGAAAGGG CTCCCTCATC 4621 AGAGACGTGC GACATGTAAA CCAAATTAAA CTATGGTGTC CAAAGATACG CAATCTTTAT 4681 CCTAGTAATT GTGGTCATTG GGTGATGTTG GTTTGGGCAG GCCATCTCTA ATATCCTTGA 4741 AACACCTTTT TCTGCTCTCC AGGAAGGGGT CAGGGCTGCC ACAGCGGGGC TTGGAGTGC (2) SEQ ID NO: 2477 data: (i) sequence characteristics:

(A) length: 3710 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2477 the sequence description:

1 GAATTCCCTG TAAGCCCTGT TACAGGGGCT GCACCCCAGA TACAACCTGA CCTGTGTCCA 51 AGGCGGGCAA CTCAACCCTT AGATATTGAA TGGGTCCCAT GGCACCAATG CTTAAACACC 121 AGCAGCCCTC ACAACCACAG ATCGTGTTTT AAGGATGAGG AGGTAGTTCT CTGGATGCAC 181 AGGCTTCAAT CCAAATGGGC TCATGACGCC GCAGCACACA CCCAGTCTGC AGCCTGAAGA 241 GTTGGAGCAT TGCATTCACA GAAAGCATCC AGACATGATC ATGGGCTCAG GGATACACCT 301 GTTCTCCGAT GTGTACCAGT GAAGGATGGA AACTCCTATG CCTCCCAGAA AGCACCACTC 361 AAGCTTTTGC TGAATGCTTC TCTGAAGGCC CACAAGGCTG AGAGGCTGTG CAACACCAGC 421 AGTAAAGTGA ATGCCCAGAC TCCCACCTCC TTTCTTGGGT GGCCATCTGG AAAGGCCACT 481 CCCACCCTGA TGGCTAATGC CTCAGACCAG TTCTTGGCCC AGATGATCCT AGACAATTGT 541 TTAAGCTTAA ACTGTTCATT GGCCAAGCAA ACAGGTGATA GTACCTCTGG GGAACCACAT 601 GCCGCGTGTA CATCCAGATC TCAGGAGAAC CCAAAAATGT CTGTTCCACA TAGCAACAGA 661 AGCCCAGGTA GCACTCAGTC TCACCTGGGT GTTCTCCAAC ATCCCAGCTC AGCCAAATGG 721 CTTTCATTAG TTTTTATGGT TAGACCCCAG GTCCTCGGGA CACTGCTTTA GAAACACATT 781 CCAAATCCTC CTCTGTGTGC AGGTGGCATT CCTATCCCAA TCTCTTTGCA GGGCGTATAC 841 TGTGATACGC AGCCAGGCTG TCCCAGAGGC CTTAAATATT CCCTTGGTGC AGGTAGTTCA 901 GCTTAGCCAC AGCCAATGCA TCACAGGGTC AACTGTGTTA GGAGCCATTG AGAATCCATA 961 GTTGGTTGCT GCCTGGGCCT GGCCAGGGCT GACCAAGGTA GATGAGAGGT TCCTCTGTGG1021 AGTTCTACTT TAACCTCACC TTCCCACCAA ATTTCTCAAC TGTCCTTGCC ACCACAATTA1081 TTTAATGGAC CCAACAGAAA GTAACCCCGG AAATTAGGAC ACCTCATCCC AAAAGACCTT1141 TAAATAGGGG AAGTCCACTT GTGCACGGCT GCTCCTTGCT ATAGAAGACC TGGGACAGAG1201 GACTGCTGTC TGCCCTCTCT GGTCACCCTG CCTAGCTAGA GGATCTGTAA GTACTACAAA1261 ACTTAAACTT TACACTGAGT TTTCATCATT GAAGCTATGC CTCCAATCTG ACCTCTGACT1321 GTGGGGCCGC CCCAGAGGGA CCCAGCGGGT GAATCCCTGC TAGGAACGTC TGTCCGGACC1381 TCTGGTGACT GCTGGGGACG ATGGCTTCCA GCTAACTTAA TAGAGAAACT CAAGCAGTTT1441 CCTTCTAAAT ACACATGTCA CATGTCCTGG TTGACATGTC CAGTAAGAAG ACTATCACAG1501 GTCTTTGGAA CATTCTTTTG AGAGAAACCT ATTTAGGTCC TTGGTCTGTT TTTCAATCAG1561 GTTGTTTGAT TTTTGCTATT GAGTTGTTGG AATTCCTTAT GTATTCAGAT ATTTGCCCCT1621 TCTGCCATGT AGGTTTTGCA AATATTTTCT CTCATTTTCT GGGTTATCTT TTCACTCGGT1681 TGATTGTTTC CTTTGCTGTG CAGATGCTTT AGCGTTAAAT GAAGCCACAC TTGTCTATTT1741 TCCCTTTTAT TGCCTGTGCC TTTGGTGTCA TAGCCAAGAA ATCATTACCT ACATCAATGT1801 CAAAAGCTTT ATCCTTCTAT ACACTTCTAG TAGTTTATGG TTTCAGTTGT TACATTTAGG1861 TTTTCAATTC ATTCTGAGTT GATGTTCCTA CATGGTGTGA GATAAAGATT TAAATACATA1921 CATATATAAA ATCATGAGGT AGTGTACACT ATAAATATAC AATTGTTAAT TGTTACTCAA1981 GTCTAAGTAG AGGTGGAAAT AATAAACTTT CTTTTTTTTA CTTAAACCAC TCTGTGTCAC2041 TGAGCTGATT TCACCTTTAG CCTGATAAAA TCATTGTCCT CTCCACCCTG ATTCCTACAG2101 GAGACTACTC ACCCCATAAC CTCAAAAACC TCTTCATGAG GATGGTAAGT CACCTGAATC2161 CTGAAGTGAA TTACTCGCTA TTCCATTGGA ACTCATATAG GACACCAGAA TCTAGACCTC2221 CAGAGAACAG CAGGACCCAT CTTCAGAAAA TAAGAAGCAT TTGTTCCCTG AGCCTGTTGA2281 ATCAAAGTGC AATTTCTATT CTTTTTGGAA TGTTAAAAAG TGAATCATAA TATTTAAGCA2341 GGTGAACCCA CGAGTAACAT AGCAGGGTCT TTCTTGTCAT TATTAGCTCC AACCTAGCAC2401 AGACATTAAA GGTACAGATG TATACTAGCA TGAAACTGGG AGAACAGGAG CATTCGAGCA2461 ACCTTGAGAC CAATGGGCCT CTCTTATAAA ATGCACACCT CCTCTCACTG AGATTGAGGA2521 AGGTTTCTTG TCTCCGAGCC TTCTCCCAGT AGAGCTATAA ATCCAGGCTG GCTCCTCCCT2581 CCCCACACAG CTGCTCCTGC TCTCCCTCCT CCAGGTGACC CCAGCCATGA GGACCCTCGC2641 CATCCTTGCT GCCATTCTCC TGGTGGCCCT GCAGGCCCAG GCTGAGCCAC TCCAGGCAAG2701 AGCTGATGAG GTTGCTGCAG CCCCGGAGCA GATTGCAGCG GACATCCCAG AAGTGGTTGT2761 TTCCCTTGCA TGGGACGAAA GCTTGGCTCC AAAGCATCCA GGTGAGAGAG GCAGGCATGC2821 AGAGCTGCTA AGTCTAGAGG GAAGGACGGG AGAGAGGTTC CAGAGTTGGG TCTCAGCAGT2881 CTATGTCACT GAGGTGGCTT CACTTAGAAT CTCTGGGCAT TGATTTTCTC ATCTAGAAAT2941 TGAACAGAGA GCCAAATAAA CCTGAGAAAC TTTATTTCTC CAAAGACTTG ATTCCAAGAA3001 ACATCTGTGA AATTCACTAA GTTTAAGATA TGAAGAGACA GACTAGTTAT TTCTGGATCT3061 AAACAAGTAG ACTTAGTTGT AAAGAGAACA TTTTACTCTA TCTACAGAAG AGCTTTTAAA3121 AACTGCAGCC AAGCCTGAGG GTAAGTTCAG GTGTGTGTGT GATGGGGCAG GAATGCAAAA3181 ATGAGAGCAA AGGAGAATGA GTCTCAAATT CTGTGTGACA AGCACTGCTC TGCGTGTTTA3241 TTCCTATCGA CTGAGGTTGT TCGTGCTACC GGCTGCAATG CAGCCAGCAT CACCTGTCAG3301 CTAGCATGTG ACTTCCCCGA GATTCTTTTT CTTACCCACT GCTAACTCCA TACTCAATTT3361 CTCATGCTCT CCCTGTCCCA GGCTCAAGGA AAAACATGGA CTGCTATTGC AGAATACCAG3421 CGTGCATTGC AGGAGAACGT CGCTATGGAA CCTGCATCTA CCAGGGAAGA CTCTGGGCAT3481 TCTGCTGCTG AGCTTGCAGA AAAAGAAAAA TGAGCTCAAA ATTTGCTTTG AGAGCTACAG3541 GGAATTGCTA TTACTCCTGT ACCTTCTGCT CAATTTCCTT TCCTCATCTC AAATAAATGC3601 CTTGTTACAA GATTTCTGTG TTTCCACCTC TTTAATGTGT GATATGTGTC TGTGTCAAGA3661 CACTTGGGAT ACACGTACCA AAACGCAAAA TCAAATTTTT GAACAATATA (2) SEQ ID NO: 2478 data: (i) sequence characteristics:

(A) length: 464 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2478 the sequence description:

1 CCTACCTTGC TATAGAAGAC CTGGGACAGA GGACTGCTGT CTGCCCTCTC TGGTCACCCT 61 GCCTAGCTAG AGGATCTGTG ACCCCAGCCA TGAGGACCCT CGCCATCCTT GCTGCCATTC 121 TCCTGGTGGC CCTGCAGGCC CAGGCTGAGC CACTCCAGGC AAGAGCTGAT GAGGTTGCTG 181 CAGCCCCGGA GCAGATTGCA GCGGACATCC CAGAAGTGGT TGTTTCCCTT GCATGGGACG 241 AAAGCTTGGC TCCAAAGCAT CCAGGCTCAA GGAAAAACAT GGACTGCTAT TGCAGAATAC 301 CAGCGTGCAT TGCAGGAGAA CGTCGCTATG GAACCTGCAT CTACCAGGGA AGACTCTGGG 361 CATTCTGCTG CTGAGCTTGC AGAAAAAGAA AAATGAGCTC AAAATTTGCT TTGAGAGCTA 421 CAGGGAATTG CTATTACTCC TGTACCTTCT GCTCAATTTC CTTT (2) SEQ ID NO: 2479 data: (i) sequence characteristics:

(A) length: 3834 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2479 sequence description:

1 CCTGAGACAG AGGCAGCAGT GATACCCACC TGAGAGATCC TGTGTTTGAA CAACTGCTTC 61 CCAAAACGGA AAGTATTTCA AGCCTAAACC TTTGGGTGAA AAGAACTCTT GAAGTCATGA 121 TTGCTTCACA GTTTCTCTCA GCTCTCACTT TGGTGCTTCT CATTAAAGAG AGTGGAGCCT 181 721 ACAATTCTTC CTGCTCTATC AGCTGTGATA GGGGTTACCT GCCAAGCAGC ATGGAGACCA 781 181 GGTCTTACAA CACCTCGACG GAAGCTATGA CTTATGATGA GGCCAGTGCT TATTGTCAGC 241 AAAGGTACAC ACACCTGGTT GCAATTCAAA ACAAAGAAGA GATTGAGTAC CTAAACTCCA 301 TATTGAGCTA TTCACCAAGT TATTACTGGA TTGGAATCAG AAAAGTCAAC AATGTGTGGG 361 TCTGGGTAGG AACCCAGAAA CCTCTGACAG AAGAAGCCAA GAACTGGGCT CCAGGTGAAC 421 CCAACAATAG GCAAAAAGAT GAGGACTGCG TGGAGATCTA CATCAAGAGA GAAAAAGATG 481 TGGGCATGTG GAATGATGAG AGGTGCAGCA AGAAGAAGCT TGCCCTATGC TACACAGCTG 541 CCTGTACCAA TACATCCTGC AGTGGCCACG GTGAATGTGT AGAGACCATC AATAATTACA 601 CTTGCAAGTG TGACCCTGGC TTCAGTGGAC TCAAGTGTGA GCAAATTGTG AACTGTACAG 661 CCCTGGAATC CCCTGAGCAT GGAAGCCTGG TTTGCAGTCA CCCACTGGGA AACTTCAGCT 721 ACAATTCTTC CTGCTCTATC AGCTGTGATA GGGGTTACCT GCCAAGCAGC ATGGAGACCA 781 TGCAGTGTAT GTCCTCTGGA GAATGGAGTG CTCCTATTCC AGCCTGCAAT GTGGTTGAGT 841 GTGATGCTGT GACAAATCCA GCCAATGGGT TCGTGGAATG TTTCCAAAAC CCTGGAAGCT 901 TCCCATGGAA CACAACCTGT ACATTTGACT GTGAAGAAGG ATTTGAACTA ATGGGAGCCC 961 AGAGCCTTCA GTGTACCTCA TCTGGGAATT GGGACAACGA GAAGCCAACG TGTAAAGCTG 1021 TGACATGCAG GGCCGTCCGC CAGCCTCAGA ATGGCTCTGT GAGGTGCAGC CATTCCCCTG 1081 CTGGAGAGTT CACCTTCAAA TCATCCTGCA ACTTCACCTG TGAGGAAGGC TTCATGTTGC 1141 AGGGACCAGC CCAGGTTGAA TGCACCACTC AAGGGCAGTG GACACAGCAA ATCCCAGTTT 1201 GTGAAGCTTT CCAGTGCACA GCCTTGTCCA ACCCCGAGCG AGGCTACATG AATTGTCTTC 1261 CTAGTGCTTC TGGCAGTTTC CGTTATGGGT CCAGCTGTGA GTTCTCCTGT GAGCAGGGTT 1321 TTGTGTTGAA GGGATCCAAA AGGCTCCAAT GTGGCCCCAC AGGGGAGTGG GACAACGAGA 1381 AGCCCACATG TGAAGCTGTG AGATGCGATG CTGTCCACCA GCCCCCGAAG GGTTTGGTGA 1441 GGTGTGCTCA TTCCCCTATT GGAGAATTCA CCTACAAGTC CTCTTGTGCC TTCAGCTGTG 1501 AGGAGGGATT TGAATTATAT GGATCAACTC AACTTGAGTG CACATCTCAG GGACAATGGA 1561 CAGAAGAGGT TCCTTCCTGC CAAGTGGTAA AATGTTCAAG CCTGGCAGTT CCGGGAAAGA 1621 TCAACATGAG CTGCAGTGGG GAGCCCGTGT TTGGCACTGT GTGCAAGTTC GCCTGTCCTG 1681 AAGGATGGAC GCTCAATGGC TCTGCAGCTC GGACATGTGG AGCCACAGGA CACTGGTCTG 1741 GCCTGCTACC TACCTGTGAA GCTCCCACTG AGTCCAACAT TCCCTTGGTA GCTGGACTTT 1801 CTGCTGCTGG ACTCTCCCTC CTGACATTAG CACCATTTCT CCTCTGGCTT CGGAAATGCT 1861 TACGGAAAGC AAAGAAATTT GTTCCTGCCA GCAGCTGCCA AAGCCTTGAA TCAGACGGAA 1921 GCTACCAAAA GCCTTCTTAC ATCCTTTAAG TTCAAAAGAA TCAGAAACAG GTGCATCTGG 1981 GGAACTAGAG GGATACACTG AAGTTAACAG AGACAGATAA CTCTCCTCGG GTCTCTGGCC 2041 CTTCTTGCCT ACTATGCCAG ATGCCTTTAT GGCTGAAACC GCAACACCCA TCACCACTTC 2101 AATAGATCAA AGTCCAGCAG GCAAGGACGG CCTTCAACTG AAAAGACTCA GTGTTCCCTT 2161 TCCTACTCTC AGGATCAAGA AAGTGTTGGC TAATGAAGGG AAAGGATATT TTCTTCCAAG 2221 CAAAGGTGAA GAGACCAAGA CTCTGAAATC TCAGAATTCC TTTTCTAACT CTCCCTTGCT 2281 CGCTGTAAAA TCTTGGCACA GAAACACAAT ATTTTGTGGC TTTCTTTCTT TTGCCCTTCA 2341 CAGTGTTTCG ACAGCTGATT ACACAGTTGC TGTCATAAGA ATGAATAATA ATTATCCAGA 2401 GTTTAGAGGA AAAAAATGAC TAAAAATATT ATAACTTAAA AAAATGACAG ATGTTGAATG 2461 CCCACAGGCA AATGCATGGA GGGTTGTTAA TGGTGCAAAT CCTACTGAAT GCTCTGTGCG 2521 AGGGTTACTA TGCACAATTT AATCACTTTC ATCCCTATGG GATTCAGTGC TTCTTAAAGA 2581 GTTCTTAAGG ATTGTGATAT TTTTACTTGC ATTGAATATA TTATAATCTT CCATACTTCT 2641 TCATTCAATA CAAGTGTGGT AGGGACTTAA AAAACTTGTA AATGCTGTCA ACTATGATAT 2701 GGTAAAAGTT ACTTATTCTA GATTACCCCC TCATTGTTTA TTAACAAATT ATGTTACATC 2761 TGTTTTAAAT TTATTTCAAA AAGGGAAACT ATTGTCCCCT AGCAAGGCAT GATGTTAACC 2821 AGAATAAAGT TCTGAGTGTT TTTACTACAG TTGTTTTTTG AAAACATGGT AGAATTGGAG 2881 AGTAAAAACT GAATGGAAGG TTTGTATATT GTCAGATATT TTTTCAGAAA TATGTGGTTT 2941 CCACGATGAA AAACTTCCAT GAGGCCAAAC GTTTTGAACT AATAAAAGCA TAAATGCAAA 3001 CACACAAAGG TATAATTTTA TGAATGTCTT TGTTGGAAAA GAATACAGAA AGATGGATGT 3061 GCTTTGCATT CCTACAAAGA TGTTTGTCAG ATGTGATATG TAAACATAAT TCTTGTATAT 3121 TATGGAAGAT TTTAAATTCA CAATAGAAAC TCACCATGTA AAAGAGTCAT CTGGTAGATT 3181 TTTAACGAAT GAAGATGTCT AATAGTTATT CCCTATTTGT TTTCTTCTGT ATGTTAGGGT 3241 GCTCTGGAAG AGAGGAATGC CTGTGTGAGC AAGCATTTAT GTTTATTTAT AAGCAGATTT 3301 AACAATTCCA AAGGAATCTC CAGTTTTCAG TTGATCACTG GCAATGAAAA ATTCTCAGTC 3661 AGTAATTGCC AAAGCTGCTC TAGCCTTGAG GAGTGTGAGA ATCAAAACTC TCCTACACTT 3421 CCATTAACTT AGCATGTGTT GAAAAAAAAA GTTTCAGAGA AGTTCTGGCT GAACACTGGC 3481 3584 393542 3601 ATGGAATACA GTGTTATTTT CTTTGAAATT GTTTAAGTGT TGTAAATATT TATGTAAACT 3661 GCATTAGAAA TTAGCTGTGT GAAATACCAG TGTGGTTTGT GTTTGAGTTT TATTGAGAAT 3721 TTTAAATTAT AACTTAAAAT ATTTTATAAT TTTTAAAGTA TATATTTATT TAAGCTTATG 3781 TCAGACCTAT TTGACATAAC ACTATAAAGG TTGACAATAA ATGTGCTTAT GTTT (2) SEQ ID NO: 2480 data: (i) sequence characteristics:

(A) length: 141589 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2480 sequence description:

1 GATCAAAATT TTTACCTATT ATGCATTTGA TATATAAATA AGTATATAAA TGCACACACA 61 GACACAGCAA TGATGGTGAA CAGTCTTCAT ACAATTATAT GGATGAATCT CATAAAATGC 121 TGAGTTAAAG AAATCAGACC AAAGAACATA TACTGAAAGA TTCTCTCTAT ATACAAAGTT 181 721 AGGAGAAATT TGGTGCCTAT TTCCTACCAG GCACCAATAA GTGGGACCAA TAGGTGGGAT 781 181 CAAAAATAGG TGGACCAATT CATGGTGGTG TTAGAAATCA GAAGAGAGGC TACCTTTGTG 241 GGGAGGGGAC AGTTTAATGC CCAGAAGCGG TAAATAAGGA ATCCTCTGGG GAGTGGTAAT 301 GATCTGGATG CTGGCTACAG GATGTGTTGG TTGTAAAAAT GCATTTTTTT ATATCTAGCT 361 TTTTCCATGT GTATATTATA CTTCAAAGAA GTTCAGTTAA TAATTTCTCA TGTCACTGTA 421 GAGTAGCTCA GTTAGCCCCA GCAAGCCTCT GGCTTAATCT TGTTTTACCT TAAGCCATCA 481 GTCATTTACA AGTAGGAAAA TTCACAGGGA AAGTTAGAGT ATAAAATCCA GAATGAAGGT 541 TTACTGGGTA AGAGTCTCTC CATTTTCCAA AGCCCGTTTA TTTCTTGATT CCAGTTCTTA 601 AGAAGTCTCA GCATTGTGTC TTTTTCATGT ATCTTACAAG AAGACAGCAT GTGCTTCTAA 661 CACCTGATAC ATTGTATCTA CCAGCACTTG GTAAACAGAA AAGAACCACA TTTTTCTTGT 721 AGGAGAAATT TGGTGCCTAT TTCCTACCAG GCACCAATAA GTGGGACCAA TAGGTGGGAT 781 TAAAGATACA GTAGAAAGTA TTTAAAACTT GCCAGGGGGC AATAGTCTGA AAATAAGTAA 841 ATTGGTGCTA TAGAATGGAA GTTACAGGCT TCTTTCTTTT TTCCCACAAG ATCTGCTCCT 901 TGAGCCCCTA GAGACTTTTC TGTCTGTTAC TGTTTCTTCA TTCCTCATCT GCAGAGCCAG 961 CCCTGAGAAG TGCAGACCAA AGCCAGGGAA GGCTCTGCAA AGATGTACAA ATGGAAGTCA 1021 CCTTAATAAC CTCTGACTGC TGCGCATAAT ACATTTCACT CAAAAGAGGG GTTAAACAAT 1081 GGAACAGAAT ACAGAGGCCA GAAATAATGC TGAACACTGA CAACCATCTG ATCTTTGACA 1141 AAATCCACAA AAACAAGCAA TGGAGAAAGG ACTCCCTATT CCATAATGGT GCTGGGATAA 1201 CTGTCTAGCT ATATACAGAA GATTGAACCT GGGCCCCTTC CTTACATCAT ATACAAAAAA 1261 TAACTCAAGA TGGAGTAAAG ACTTAAATCT AAAACCAAAC ACTATAAAAA CCCTGGAAGA 1321 TAGCCTGGGA AATACCATTC TGGACATAGG ACCTGGCAAA GACTTCATGA CAAGACACCA1381 AAAGCAATAG CAACAAAAAC CAAATTGACT AATGAAACTA ATGAAACTCT TTAGTTGTAC1441 AACAGATAGT TTATCTGTAC AACAAAATAA ACTATCAACA GAGTAAACAA CCTACAGAAT1501 GGAAAAATTT TTTGCAAACT ATGCATCTGA CAAAGGTCTA ATATCCAGAA TCTATAAGGA1561 ATTTAAACAA ATTTACAAGC AAAAAAATGA CCTCATTAAA AAGTGGGCAA AGGACATGAA1621 CAGATGCTTT TCAAAATAAG ACATTCACAC ATCCAACAAC CATATGAAAA GATGTTTAAC1681 ATCACTAATC ATTAGAGGAA TACAAATCAA AAGCATAATA AGATACCATC TAATACCAGT1741 AGGAATGACT ACTATTAAAA AGTCAGACAA TAACAGATGC TGGTGAAGGT TGTGGAGAAA1801 AGGGAATGTT TATGCACTGC TAGTGGGAAT GTAAACTAGT TCAGCCATTG TGGAAGAGAG1861 TGTGGTGATT CCTCAAAGAA TGTAAAACCGAACTGCCTTT CAATCCAGCA ATCCCATTAT1921 TGGATATACA CCAAAAGGAA TAGAAATTGT TTTACCGTAA AGGCGCATGC ATGCATATGT1981 TCATTACAGC ACTATTTACG ATAGCAAAGA CATGGAATCG TCTAAATGCC CATCAGTGGT2041 AGACTAGCTA AAAAAAAAAA AATGTGGTAC ATATACATCA CAGAATAGTA TGCAGCCATA2101 AAAATGAACA AGATCATCAT GTCCTTTGCA GCAACATGGA TGTAGTTGGA GGCCATTATC2161 CTAAGCAAAT TAATGCAGGA ACAGAAAGCC AAATACCACA TGTTCTCATT TATAAGTGAC2221 AGCTAAATAT TGAGTACACA TGGACACAAA GAAGGGAACA ATAGACATGG GACCTACTTG2281 AGAATAGAGG GTGGGAGGAG GGTGAGGATC AAAAAGTACC CATAGGACAC TGTGCTTATT2341 24053 2401 AAAACCTGTG CATGTACCCC TGAACCTAAA AGTTAATGGT GGGGGGGTGG GGTTAAGCTA2461 CTTTGTGGTA TAAATCTGAG CATTCATATT AAAATAAAAT ATTTACCTCA TTAGAGTAAT2521 TAACATTTAT TAAGCAAAGA GCCAAGTACC TTACACACAT GATGTTTAAT CTCACAATGA TCTTTAATCT CATAACAACC GTCCATTGTA TGTACATATG TGGAAATTGA GCCTTGGAGA2641 GATTAAATGC ATGGGGCATG CCATTTGACT AGAAACTGGA AGCATCAGGA TTTAAACTCA2701 GTTCTGAATG GTTTTGTAGG CTTTGTTTTT TCCACATTAT AGCATGGCCT GCCATGAAGA2761 ACAGGTCCTT TCTGGTGTTT GTCTTGTTTG GTTTAAGTGA AGCAAATATT TATTTAAATA2821 2827 2881 CCAAATAACT CTTATTCAAT GCTTAGTTGA GAAATTTTAT GGAGTAGTTC TCAATTTTTA2941 TGTAGTTCCA CTGCAAAGGT AAGTCTTATG GAAAGATTCA CTGTAATTTT TTTTCCTCAT3001 TTGGACATCA GCTTTTTCTT TTCCTCAGAC CCGCTGAAAG ATAATTTTTA AAATAAAAAC3061 CTTGTTTTTA TATCAAGTGG GGACATTTTT TCCAAATGAA AACCGTGTAT TCATTTTATA3121 TGATAAAATC AATGTTATTA TTTTTAAAAT TTTGATTTAA AAATCATTAA AAATAAATTT3181 TCAGATATTA CCTGAAATTC TACCATCCAG AGATAATAGT GCTTAAAGAT TTGATATATA3241 GACACACACA CATATATACA TATATATCAT CCTAAACTTC TTTGTATAAA TGTATATAAA3301 GTTTTTAATA AAAACTAGGA GATTAATGCC CTTTGAATGA AAATAAATAC AATGTGTATG3361 CTTTAACATC TTGCCTTTAC TTTATAACAT TTATCACAGC AGTCATGAGA TAATGATTTA3421 CATGGTCATT GTTAGTAAGC TAATAGCTAA GTGCATGAAC TCTGGAGCTA GCCTCCCTGG3481 ATTTTAATCC CAGATCTGTC ACTGACCAGC TGAGCAATAC TAGGTAAATT GCTCTTGTTC3541 CTTAGTTTCT TCATCTGTAA AATAGAGATA AAAATAATAT CCACCTCATA GGATTGGTGT3601 GAGCATTAAA TGAGCATACG TATGTAGGCC ACTTAACAAC AATGCCTTCA CATACTGAAC36 ACAAATATAC GAGCTGTTGT CTTATTGGGC TCATGTTTTT CCTACCACTA AGCCGCATGC3721 ATGCAAGGAC CATGTTGGTT TTGTTCCACA TTGCATCCCC AACCTGGTAT ACAGTGTGCA TTCAATAGTT GTTGACTATT ATTACTAGTG GCATTTAACA AATATCTGTT AAATGAGTGA3841 AGAAATACCC ATTTACTGCA AGTGTGTCTA ATATTGATGG CATAATGGGG GAAACTCAAA 861 CTCTGGAGTC AAACAGGTTT TAAAACCTTA TTCCCTCATC CTCAGTTATT GACGTTTTTT3961 TTTTGGCAGG TGTGTGTGTG GGACAACTTA TTGAACTTTT CTGAATTTCC AGCTTCGCAT4021 364081 TTTATCAATA AATAGTAGCT ATTTTTGTAT AAGTATTACA TATAATATCC AGGCCACTGC4141 TTTGCATAAC CCAAAAGGGG CACCATTCAT GCAGAATACA ACATAAATGG TGTCCCTGGA4201 GCAGTGCAGT ATAGGAACCC TGAGGGGACC TACAGTATAC TTTATAGTTC ATAGATTACA4261 AATTATCCCT TTATCAGAGT CTCTCAAGGT TGGATGTATT TGAGGTCCAT AAGAGCAATT4321 TAGGATTAAC AGTAGCTGCA GAAACCATCT GCAGTGATAT TCTCATTTTA AATCCGCGGG4381 AAAGAAGACA GCTATAAACT TGGGACCTGG GTTTAAGCAT TTTAAATGCC AAGTTCACCA4441 TTTTCTAAAA CACAACAAAT ACCCAGTGAG AGAGGGAGAA GGGAAGTAAA TGCCTCTGAA4501 TAAGCAAGTT AATGTCAGTA GTTGTACTGT ATGCATATTG ATGAACAATA GAGGAACCAA4561 TGTCCAATCA GATGAGCAGG ATATTTGGCA ATAACAAGTT GCCTTTGAGG AAAAATGATT4621 TTCTTGGCAA GTTCTTTATC AGCATTACAA AGCTAAAAGC TACGCTTATC ATCACTTATA4681 CTAGCATACC CTGTTGTGCA AATGCTGTCT GTGTTTGCAT CTGCTATTGT TGATGCCTGG4741 TGCATGAATC AGGACTCCAG CCCACAAGTT TTCCCAGAAC TTTCTTATGG CCATCATCTT4801 TAAGTGTCTG GTGAACAGTC ATAGTTTGGT ACACAAAAGG GTCAACCTGG GGGATGGCTA4861 GGGTTTGACT CAGTCGTTAC ATTTCAATAG AGCAGGAAGG GGAAATGGTG GCCTGTAACC4921 TCAGGGAATT TTGCCAGTTG GTCCACCCCA CTCTCTCTCT CCTGCTCTGA GGAAGTGGCA4981 CAGCCTAGAA CAGCACCACA GGTGAGAGAA ATGCAAACCC TAACCAGAGA AGCAGACTCT5041 TTGCCAGTAG TAATAGTTCA GGACCACCAC CAGCTTTTAT TAAAATTTTT AATAACACTC5101 AAGTATTGGC AGAAAGAAAT AATCTTGGGT TAACTATAAC TAGAATATTG ACTCTTCCTC5161 TGTGGAAGAA TCAGCCAATC ACATTTGTTT ACATCAGTTC CCCTGAAGAA GAAAAATACA5221 CTGATGTTGC AGCAAGACAA ATTTAAGCTA GATGTAAATA ACTTCCTTTA GCCTGTAATG5281 CTAGGCTAAT TACATATTGG AACTATTTTT TCAGGGAAGA ATTGTGTAGG GTTTCAGGGA5341 54 5341 AGAATTCTGA AGAAAATATA GAGCTGAAAT GATCTTGCAG CTCACTGAAA CTGCAGGGTT5401 54 5401 TAGATCCACA CTGATACTCG TTCTATTATC ACTGTAATGA AGGCTGATGG AATAAGTAAA5461 54 5461 AATGTTTTGT ATTAGTATGT TTTTACACTT ATTTGCAAGG CATAAATAGG TTAGGTTTTG5521 55 5521 ATCTTAATTT AATTCTAACA TGTATTGTGC ACAAGCTGTG AGCAGTTTTC AGGAGTTAGG5581 TATCTGGCCA TGACTGATTT TTCAGGAGTT AATCATCTGG TAGAAGGGTC ATACACAATA5641 GGAAGATGTG TGTGACAGGT TGTGATCATT ACTATAATCA CACAGAGAGC TGTAGAATTT5701 TAGGCTGGCA GGGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCCA AGGCAGGCGG5761 ATCAAGAGGT CAGGAGATGG AGACCATCCT GGCTAACACG GTGAAACCCC GTCTGTACTA5821 AAAATACAAA AAAAAAAAAA AGCCAGGCGT GGTGGTGGGC GCCTGTAGTC CCAGCTACTT 58395941 TCGCATCACT GCAATCCAAC CTGGGCGACA GAGGGAGACT CAGTCTCAAA AAAAAAAAAA6001 AAAAAAAGTC ATGTTAGATC CAGAGGGGTA GCAACTGGGG CTGGGCTGTC AGTCAACTCA6061 GTCAACTCAG TCAACTCTGC TCCCCCACAG GAGATGCCAG TGATGCATTT TCATGGCCAA6121 CATTGTCAGT CAGCATCATT GAATTACTCC TGATTATAGA GACACAGCTG CAAACGATTC6181 CCCATTAAAT ATGATGTTTC TTGCAATGTT TGGAAGGTAC TCCTTTTTAG TAAGGGAAAT6241 CCCCTCTTCT GGCTTGCTGA AAGTTTTTTC TTTCCATTTT AAAAATCGTG AATTCCTTTT6301 TGCAATATTG AGGTGGTTAT ATGGTTTCTC TTCTCTAATC TGTTAATATG GTGATTTAAT6361 GGTTAGAAAT TTTCTAATGT AAATTCCACT CATATTGCAG AAATAAACCT AAACTGAGCA6421 TGAGGCTATA TTTTTTATTT GCTTCTATAT TTGGTTGCTA TACAGTATTA TGTTTAAGAT6481 TTGTTCACAT ATATTTGTGA ATGGGATTGG ACTATTTTTC CTTCTTGCCG ATTTTTATCT6541 66662 6601 TAATTTTTTG GGGAATTTGT TTTGGCTATT TTGAGTATTA CCCAATATAT TTTAATTAAG 8461 TTATTCTTAA TGTTTTCTTA ATTAAAAAAA TTACCTACTC TAGAGATATT CTTTATGTAC6721 TCCAGATTTT GTCTATTTAT ACCACTTTTC TTTTTTCCTC GATGAGTGTC ATAGATGTTC6781 ATCTATTTTT TTATCTTCTT TGATCTTCTC TTATTCCTTG TTTCTATTAA CTTCTGAAGT6841 TTATTATTTT CTTTTTTCCA CTTCCTTATG GTTTATTCTT TCAATTTTTC TCTAACTTCT6901 366961 AATTTTCCTT GTTATTCTTT TGCTGCACCC CAAATTGTTG ATATTTCTAT TGTCTAATTT7021 CTATTCAATT AGAATACTTT AAAGTTTCTT TTTGGTTTTT AAAAACTAAC TTTTTAAATT7081 GACAAATAAA AATTGTGTAT ATTTATTGTG CACAGCATAT GGCTTTGAAA TATATGTACA7141 TTGTGGAATG GCTAAATTTA GCTTATTAAT GTATGCATTA TCTCACATAC TTATCATTTT7201 TTGTGGTGAG AGCTATGTGA CTTTTGAACT TATGAGTTAT TTAAATATTT TTAAATTATT7261 AAGCATATTG GGATTTTAAG TAATTTACCT TTTTATTATT AACTTATAAC AAGTAGAACA7321 GTTAACCTGT ATGATTCTAC ATCATTGAAA TTTATTGACA TTTGCTTCAT AGTCTATTAT7381 ATGGTCTACT TTTGTTCATG TTACATCTGT AGTAGAATTG GCTAATAGTT GAGTAAAGTA7441 CACATATGTC TATGAAATCA AGTGTAATCC AGAGAAAAAG AGAAATTTAC TGAATATATT7501 GTTCTAGGTG CTATTATATG TTGTCATGTT TAATCCTCAC CACAATTGTA TGAGGCAGCC7561 ATAATTAATT CCACTTTACA CATGAGGAGC CTGAGGGTTA AAAAAAAAGC TAGCTCTACT7621 ATTTGTAAAG AATGAAGCAA AGATACAAAT GAAGGCCCAC ATATCCTATA ACTAGATATT7681 76 7681 TAAGCATTTT AATTCAAGCT TTAAAACTGC TAAATAAAAT GTGCTCCAAT TTCTATATTG7741 ACAGACATAC CTTCCTAATG AGCTGGGGTT CGAATTTAGA AATCTTTGAT GCTTCAGAGT7801 CCACACTGAA ATGTGGAGGC ACATAGTGAG TTGGTCCCCA GCCTTCAGTC CACCCACCTT7861 CTCTTTACTA AATCACCTTT CACATACATG TATGAACACC CCAGCCTCCA AGTCCAAACC7921 CTAAACAAAA TGGGACACCC TTGTGCATAC ACAGAGACAC AGCCCATCCT CAGGAAAACC7981 TGGAAAAGTC CATACAAGTT CTGGAAGCAA GCTTGGGACG GTTTCAGTAG TGTGGTCTAT8041 AAGGGAGGCC TCAGAAGACA GGTTTTCTTA ATTCTGTGAA CTTCTCCCAC AGTAGAAAGG8101 GTGCTGGAGG AGGGTCAGAG TGAGGACTTC TAAAGCATGG GTCCTGAGTA GGGGCCACTC8161 TTGCCCAAGT CTAAGAAGGG TACTAGAATA GCACACTACT ACTAGATACT AGAACCCAGA8221 TACAAGCACA GGTCTTCTGA AATTAATAAT AATAATAACT ATTACCATTA TTATACCAGT8281 AGCTGTCATT TATTTAGTGC TTATTATTTG CCAGTCACTG TTCTAAATTC TTTACATGTA 8341 TTATACAACT GCCATATAAC TGCCATATGA GGGATGTACC CTCATTGTCA CCATTTTACC 8401 GATGAGAAAA CTGGCATAAA ACGTTTAAGT AACTTGTCCA AGTTACAGAG CTTAGTGAAG 8461 CCACAATGTT GCTCAATTTG CTCTCAAACT TCAAAGGGAT GGGAAGGACA CCTAAGTCAT 8521 AGAGTCTTTA AGAATCAGAG CTAGAAGGAA TCTTAGATGT TATCTAGTCA GCCTCCTCCC 8581 ATTACAGTCC AAGAGAAGAT GGCCCTGAGT TACTTGTAGC TATTTTTGCA TGTGAATTGC 8641 AAGTGAATAT ACATTCTACT GAAGATAAAA GATATTTAAA GATATCGCTG GATATAGGAA 8701 CAGTGGTTTT AAATCTCTAG GCTTTAACTT TTCTCAGAAC AAGAAATCCT TTTTGGTTTT 8761 AATCTATATG CACATCTGTA TTTTTCTCAA TTATCGGGTA GTAAAATATA ACTTTTCTTC 8821 TGTAATATTT TTTAACTTTA ATGAGTGTTC CTCATAATAG AAAAGTTTGG AAACCATTGC 8881 TATGGGTATA TACTTTCTAA AGGGATAGTA ATTTCTCTAG AATATTCATT TAATGCTCCA 8941 GAAGTAATTA GCACAATTGT GCAAGTCTGT GCATCATCAA CTATACATTC TGCCTGTTTA 9001 CTCCAAATCC ACATGAAACT GATTATACAG TCAAAGGCGA GCCCAGTGGA GAGGCATTTT 9061 TGGAGACTTC CTGGTACATT GAGACAGGGT CGGCCAGTCT GCGTTAGGGT CTTGGTCAAA 9121 ACTGCATTTC TGAAACTAAA CTCAGATTGC TTTCTTTTAA GGGGTCAGAA CTGATTCAAA 9181 TCTACATTTT TAAAAGCCTT AGATGTGGGG CTTTTCCTAT TCCCAGTCTC CGCTATTGGT 9241 CTTTGTGAAT CCACAGGCAA TTTGGCCACA TCCTTGACTC TCTCTTATAT TAAGAATTAA 9301 ACAGCTAAGT TCATGCAGAG GAAATATAAC AAAGGAGGGA CTTTCCTACA AGATCTTTGA 9361 AAAATGGAAC ATTTGCATAA GTCATATTTA GCCAGAACTG TTGTTTTATA TTTTCCTTTC 9421 TGAATACTTT GTTACACCTC CTCCCAGCCA ACCCCCCCCC TCCCTGACCC CAACTAGTCA 9481 GAGACCAAAG CCTTCACAAT GGTTTACACT TGAACCTTCC TGGCCCCACC CTCATCATCA 9541 CGCCTGAATA ATTACATTCA CTGACTGGTC TCCCCTGCTT CCGTTTATCT CCACTCCTAA 9601 ACCCTCTGAC ACCTTAATCT TCCCAGAATA CCATTGTGAT CCTGTTCCAC TCTTGCTCAA 9661 GTTTTCCCAG AAACTAGAGT ACAAACTTTA TAAGCTTTAG AGTTGAAAGC CACTCTATCT 9721 CTTTTTCATC CCCAGGTCTC TGCCAAGGCA GTATAACCTG TCCAACATCT CTAACTTCAA 9781 TACCTTTGTC TTAGATACTA GACTCTCCTC CTGGTTTCTA ATTAAACCTG ATCTAGGATC 9841 TAATTTTGCC TCTGAATTCT GTTGCCCTTT GCCAAGTGAT CTCTTCCTCC TCTGAGCCGC 9901 99 AGCATCTCTG AGCTTGCACA CTTAGCATAG CCATAGCACA CACAGCCTTA GCTTGCAGTT 9961 CAGGGTGTTT ACCTTCCCTC CCCTTCCAGA TGCTGGATCC CCAGGGATAG GAACTCTGCC10021 CTTATGTGTC CATAGCCCCT GGTAGTATGT CTTGCAGTCG TACATTTTCA GCAAATGTTT10081 AATTGGTTAA TTGAAGACAA CTGTCCCATG CCTTAAGCCT CTCTTTTTGC TAAACATGCC10141 TGTGTCCTTT GTCATTGAAC AACTATTTTG ATCTATTTTC TTCCTGACAT AGGGGTCAGT10201 TCCGAGGATG CTGAAATCAA GAGACATAGC TTATTCTCTC AAAATTGCTT TCAAGAGTGA10261 TTTTGTTGTG AATTGAGAAC TGGCTGCCTA CTTTTGGACT ACCCACTTCA GCAAGAGTGT10321 TTGAAACCAA ATCTATTCTA AGTAATTTTT TATTCCCTTT TCTCTATGGC ATTAGACACA10381 CAGCTCTTTT AAACTACCTT TCGTTATCTA TTAAACAGAC ATTCAGTAAC TCTATAGACA10441 CTGTCTAGCT ATATGAACTT AGACAAACTA ATATCTCTGA GCTTCAGTTT CTTAAAATTT10501 AAAATGAGGA CAATACCATC TATGGCCGGG GATTAAATGC TATGAGGAAT GTAAACCAGA10561 TGTCAGGTAC CATCTCTCTA AAATCCAGAT AAAATGAATT AAAAATACTG GCCGCAAACC10621 CTCTCTAAGA GTTCTCAAAA TTCTCAGAGA GCTTAATTTT CATGCTCACC ATAGCACCGA10681 10741 TATTTCTTCA TATCCACTTT CCCAAACTAA AGAAGCAGCC CCTTCACCTT AAACTCCTCC10801 TTCAAAGCAA CCTAAATACA GGTCTGGGTT TGTATTCCTA GTGGGATGTT ACAGAGGTTA10861 GTGTGATGCA GAGGAGGAGT CATGCTGTTT AAATCCATAC TAGTCCCCAG AGGCCAGGCT10921 GCTTCTGCCA CCCCTACCCC TCCCGCCACA GAGCTCTTCA GCTTCTCACA TTTCTAGTTC10981 TTCTCTCTCT ACTTTCATTA CCTTCTCTCT TTTTTTTTTT CTTCTCATGT GCTCACGGGA11041 GCAGAGAAAA TTAACTCCTC TAAGTTTTCT TAACACAGAG TGCCTTAATT ACATATTACT11101 ATTGTTTGAG TTCCTGCCAA CACTACGTCT GTAGGGTCAC ACCTGCTATA TTAGAGGCTT11161 ATCAAAAAAA GATAGCTTTC TCCTAAAAAG GGATTTGGAT GCCTACTAAG ATAACTGGAT11221 GCCAAGATAA GTTTAACCTA ACAAACTTTA TTATTATTAT TATTATTATT ATTAGAGATA11281 GGTACTTATT CTGTCACCCA GACTGCAGTG CAGGGATGCA ATAATAGCTC ACTGCAGCCT11341 CAAAGTCCTG AGTTCATGCA ATCCTTCTGC TTCAGCTCCC TGAGTAGCTA GGACTACAGG11401 CATATGCTAC TCTGCCCAGC TACTTTTAAA AAAATAATTA GGGATGGGGT CTTGTTGTAT11461 TGCCCAGGCT CGTCTCAAAC TTCTGGTTTC AAGCAATCCT CCTGCCTTTT ACCTCCCTAA11521 TTGTTGGAGT TACAGGCATG AGCCACAGCA CTCAACCAAG ATTTAAAAAC TTTTAAAAGA11581 AATCACATTA CTTACTGTTA TCATCATTAT GGTTACTACC AGTGTTAAAA CAATTGGTAT11641 TGAAAACACC ACTACCAGAT CAAGCTTCAA ACCAAGATGT CAAGTAAATA TTATTGTCAG11701 ACCTCTGAGC CCAAGCCTGC AGGTATACAC CCAGATGGCC TGAAGC ^ AGT GAAGAATCAC11761 AAAAGAACTG AAAATGGCCG GTTCCTGCCT TAACTGATGA CATTCCACCA TTGTGATTTG11821 TTCCTGCCCC ACCTTGACTG AGGGATTAAC CTTGTGAAAT TCCTTCCCCT GGCTCAGAAG11881 CTCCCCGACT GAGTACCTTG TGACCCCCAC CCCTGCCCAC AAGTGAAAAA CCCCCTTTGA11941 CTGTAATTTT CCACTACCCA CCCAAATCCT ATAAAACAGC CTCACCCCTA TCTCCCTTCG12001 CTGACTCTCT TTTCAGACTC AACCTGCCTG CACCTAGGTG ATTCAAAAGC TTTATTGCTC 8661 12121 AGATCGGGGA ACCTCCCTTG GGAGATCAGT CCCCTGTCAT CCTGCTCTTT GCTCCATGAG12181 AAAGATCCAC CTATGACCTC TGGTCCTCAG ACCAACCAGC CCAAGGAACA TCTCACCAAT12241 TTTAAATTGG GTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCA CTATCCCTCA 1233672 12421 TTTAAATTGG GTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCA CTATCCCTCA 12481 TTTAAATTGG GTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCA CTATCCCTCA TATTCACCCA CATTTCAGAG CTGTCTGATC ACTGCAGGGA CGCCTGCCTG12541 GATCCTTCAC CTTAGTGGCA AGTACCACTT TGCCTGGGTG GCAAGCACCA CCTCTCCTGG12601 GGGGCAAGCA CCACCTCTCC TGGGGGGCAA GTACCCCCCA ACCCCTTCTC TCCATGTCTC12661 CACCCTCTCT TCTCTGGGCT TGCCTCCTTC ACTATGGGCC ACCTTCCACC CTCCATTCCT12721 CCCTTTTCTC CCTTAGCCTG TGTTCTCAAG AACTTAAAAC CTCTTCAACT CACGTCTGAC12781 CTAAAACCTA AATGCCTTAC TTTCTTCTGC AATACCGCTT GACCCCAATA CAAACTCAAC12841 AATGGTTCCA AATAGCCTGA AAACGGCACT TTCAATTTCT CCATCCCACA AGATCTAAAT12901 AATTCTTGTC GTAAAATGGA CAAATGGTCT GAGGTGCCTG ACATCTGGGC ATTCTTTTAC12961 ACGTCGGTCC CTCCCTAGTC TCTGTTCCCA ATGCAACTCA TCCCAAATCC TCCTTCTTTC13021 13048 57381 1315 13141 CCGCCAGGCT GAATCAGGCT CCAATTCTTC CTCAGCGTCC GCTCCTCCAC CCTATAATCC13201 TTCTATCACC TCCCCTCCTC ACACCTGGTC CAGCTTACAG TTTCATTCTG TGACTAGCCC13261 TCCCCCACCT GCCCAACAAT TTCCTCTTAA AGAGGTGGCT GGAGCTAAAG GCATAGTCAA13321 GGTTAATGCT CCTTTTTCTT TATCCAACCT CTCCCATCTC AGTTAGTATT TAGGCTTTTT13381 TTCATCAAAT ATGAATACCT AGCCCACTCC ATGGCTCATT TGGCAGCAAC TCCTAGACAT13441 TTTACAGCCT TGGACCCAGA GGGGCCAGAA GGTCATCTTA TTCTCAATAT GCATTTTATT13501 ACCCAATCCA CTCCCAACAT TAGAAAAAGC TCCAAAAGTT AGACTCCGGC CCTCAAACCC13561 CACAACAGGA CTTAATTAAC CTTGCCTTCA AAGCGTACAA TAATAGAGTA GAGGCAGCCA AGTAGCAACA TATTTCTGAG TTGCAATTCC TTGCCTCCAC TGTGAGAGAA ACCCCAGCCA13681 CATCTCCAGT ACACAAGAAC TTCAAAATGC CTAAGCCACA GTGGTCAAGC ATTCCTACAG13741 GACCTCCTCC ATCAGGATCT TGCTTCAAGT GCCAGAAATC TGGCCACTGG GCCAAGGAAT13801 GCCCTCAGCC TGGGATTCCT CCTAAGCCAT GTTCCATCTG TGTGGGACCC CACTGGAAAT13861 CGGACTGTCC AACTTGCCCA GCACCCACTC CCAGAGCCCC TGGAACTCTG GCCCAAGGCT13921 CTCTGACTGA CTCCTTCCCA GATCTTCTTG GCTTAGTGGC TGAAGACTGA TGCTGCCTGA13981 TCGCCTCAGA AGCCTCCTGG ACCATCACAG ATGCTTTTGG TAACTCTTAC AGTGGAGGGT14041 AAGTCCGTCC CCTTCTTAAT CAATGCAGAG GCTACCCACT CCACATTACC TTCTCTTCAA14101 GGTCCTGTTT CCCTTGTCTT CATAAATGTT GTGGGTATTG ATGGCCAGGC TTCTAAACCC14161 CTTAAAACTC CCCAACTCTG GTGCCGATTT AAACAACATT CTTTTATACA CTTCTTTTTA14221 GTTATCCCCA CCTGCCCAGT TCCCTTATTA GGCTGAGACA TTTTAACCAA ATTATTTGCT14281 TCCCTGACTA TTCCTGGACT ACAGCCACAT CTCATTGCTG CCCTTCTTCC CAACCCAAAA14341 GTGGCAACTC CTTTGCCACT TCCTCTCATA TCCCCCTACC TTAACCCACA GGTATGGGAC14401 ACCTCTACTC CCTCCCTGGC AACAAATCAC ACCCTCATTA CTATCCCATT AAAACCTAAT14461 CACCCTTACC TGGGTCAACG CCAGTATCCC ATCCCACAAC AGGCTTTAAA GGGATTAAAG14521 CCTGTTATCA CTTGCCTGTT ACAACATGTC CTTTTAAAGC CTGTAAACTC TCCTTACAAT14581 TCCCCCATTT TACCTGTCCA AAAACTGGAC ATGCCTTACA GGTTAGTTCA GGATCTGTGC14641 CTTATCAACC AAATTGTCTT GCCTATCCAC GCCATGGTGC CAAACCCATA TACTCTCCTA14701 TCCTCAATAC CTCCCTCCAA AACCCCTCCA TAACCCTTAT TCTGTTCTGG ATCTCAAAAC14761 ATGCTTTCTT TACTATTCAT TTGCACCCTT CATCCCAGCC TCTCTTCACT TTCACTTGGA14821 CTGACCCTGA CACCCATCAG CCTCAGCAAC TTACCTGGGC TGTACTGCCG CAAGGCTTCA14881 TGGACAGCCC CCATTACCTC AGTCAACCCA AATTTCTTCT TCATCCATTA CCTATCCAGG14941 CATAGTTCTT CATGAAAACA CACGTGCTCT CCCTGCTGAT CATGTCCAGC TAATCTCCCC15001 AACCCCAGGA CTGGCAAATT GACTTTACTC ACATGCCCCA AATCAGGACA CTAAAGTACC15061 TCTTGGTCTG GGTAGACACT TTCACTGGAT AGGTAGATGC CTTTCCCACA GGGCCTAAGA15121 AGGCCACCGT GGTCATTTCT TCCCTTCTGT CAGACATAAT TCCTTGGTTT GGCCTTCCCA 8681 CCTCTATACA GTCTGATAAT GGACAAGCCT TTACTAGTCA AAGCACGCAA GCAGTTTCTC15241 AGGCTCTTGG TATTCAGTGA AACCTTCATA CCCCTTACCG TCCTCAATCC TTAGGAAAGG15301 TAGAACTGAT TAATGGTCTT TTAAAAACAC ACCTCACCAA GCTCAGCCTC CAACTTAAAA AGGACTGGAC AGTACTTTTA CCACTTGCCA TTCTCAGAAT TCGGGCCTGT CCTCGAAATG15421 CTACAAGGTA CAGCCCATTT AAGATTCTGT ATGGACGCTC CTTTTTATTA GGCCCCAGTC15481 TCATTCCAGA CACCAGCCCA ACTTGAACTG TGCCCCAAAA ACTTGTCATC CCTACAATCT15541 TCTGTCTAGT CATACTCCTA TTCACCATTC TCAACTACTT GTAAATGCCC TGCCCTTTTT15601 TACAGTGCTG ATTTATACTT TTCCTCCAAA CCATCATAAC TGATATCTCC TGGTTTTACC15661 TCAAACCGCC ACCCTTAAGT CTCTCTTAAA GTGGATAGAA GATCTTCAGT GACAAGGTAC15721 ACTCCAATAC TTTCACCCTA ATAAAGCCCT ATTCTTTACT TTTATATTCA CTCTTATTCT15781 15841 TCACTCACTC TCTCCTAGCC ATTTCTAATC CTTCTTTAAC AAACAATTGC TGGCTTTACA15901 ATTTCTCTTT CCTCCAAAAT CACCGAGTCC TCAATTTACT CACTGCTAAA AAAGGGGACT15961 CTGCATATTT TTAAATGAAG AGTGTTGTTT TTACCTAAAT CAATCTGGCC TGGTATATGA16021 CAACATAAAA AAAACTCAAG GATAGAGCCA AAAACCTTGC CAACCAAGCA AGTAATTATG16081 CTGAACCCCC TTGGGCACTC TAATTAGATG TCCTGGGTTC TCCCGATTCT TAATCCTTTA16141 ATACCTGTTT TTCTCCTTCT CTTATGCAGA CCTTGTGTCT TCCATTTAGT TTCTCAATTC16201 ATACAAAACC GTATCCAGGC CATCACCAAT CATTCTATAC GACAAATGTT TTAAGGGAGG16261 AGACCACCCC TCATATTGTC TTATGCCCAA TTTCTGCCTC CAAAGAAAGA AGTAAAAATG16321 AAAAGGCAGA AATGAAATCC ACAGGCAGAC AGCCTGATGC CACACCCTGG GCCTGGTGGT16381 16441 AAGCACTGTG AAAATCCCTG TCTTGTTCTG TTCCTCTAAT TACCAGTACA CGCAGCCCCT16501AGTCATGTAC CCCCTGCTTG CTCCCCCTGC TTGCTCAATC AGTCATGACC CTCTCACGCA16561 GACCCCCTTA GAGTTGTAAG CCCTTAAGAG GAAAAGGAAT TGTTCACTCG GAGAGCTCGG 1668621 16628 CAGTGTCTGA GGGGTTTTGT CTGTGTCTTG TCCTGCTACA GTTTCATCTA ACAACCCCAT16741 AATATCACCC CTTACCACAA AATCTTCCTT CAGCTTAATC TCTCCCACTC TAGGTTCTCA16801 CGCCACCCCT AATCCTGCTC GAAGCAGCCC TGAGAAACAT CGCCCGTTAT CTCTCCACAC16861 CACCCCCAAA AATTTTCACT GCCCCAACAC TTTACCACTA TTTCGTTTTA TTTTTCTTAT 169651 169675 TAATATAAGA AGATAGAAAT GTCAGGCCTC TGAGCCCAAG CCTGCACGTA TACATCCACA16981 TGGCCTGAAG CAAGTGAAGA ATCACAAAAG AAGTGAAAAT GGCTGGTTCC TGCCTTAACT17041 GATGATATTC CACCATTGTG ATTTGTTCCT GCGCCACCTT GACTGAGGGA TTAACCTTGT17101 GAAATTCCTT CCCCTGGCTC AGAAGCTCCC CCACTGAGCA CCTTGTGACC CCCACCCCTA17161 CCCACAAGTG AAAAACCCCC TTTGACTGTA ATTTTCCACT ACCCACCCAA ATCCTATAAA17221 ACAGCCCCAC CCCATCTCCC TTTGCTGACT CTATTTTTGG ACTCAGCCCA CCTGCACCCA17281 GGTGATTCAA AAGCTTCATT GCTCACACAA AGCCTGTTTG GTGGTCTCTT CACACCGACA17341 CGCGTGATAA TTATTATATT ACTTTTAACT AAAACCCTTT CAGAGTCTCG CAGGGAAGGC17401 TGTATATATC TCATAAAATG TTGGGGCCCA CTGGATCAGA CAAGGCCACA AAGGCCAAAG17461 5817521 5817524 17581 AACA6AAGGG AAAAATCAAA TTGCTGAAGT TGAAAGAGGG CAATGCAAAG AACTTTGGAG17641 AAAGAACTGT ACAGAGAAGT CAACTGGCAG ATGGGAGGAA GTTTAAGGGG AAAAATATAG17 ATGTCTAAAG AATACATTTA TTCATTTTCC ACAGTGCAAT TTGGACAAGA AGCCTCTTTC17761 TTGCTTCTTT CTATTCTCAT TAAATCATTA GAGCTCAAGC AATCCTTCTG CCTCAGCTTC17821 CCGACTAGCT AGGACTACAG GTATGTGCTA CTATGCCCAG CTAATTTTTT AAAAATTAGA17881 TTTTAATTTG GTGAACTATT TCTGTAGGAA ACTACAATAA TACAGCCCAG GCACATTGAT17941 CTTGGGTGAA CAAATCAGAA GGAATGAATA ATTCTGTGTT CCTGGGACTC TGACAATTTC180 ATGAACTTGG TACTCTGAGT AAAGCATAGG AGGAGTTATT TCATAAAATG TGGAGCACAA 18161 18121 1817 TCCCTGTCCC AGGCCCTTCC TCCTCCCGCA AGCAGAAGTG CAGGGGGCAG AGCTGACCCT18241 GTGCAGTGAA AATCTGAGGG CTGAGTTCCT ATTGGAACAC AAGTGAAAGA CTTCCTGGCT18301 TCTAATCTCA GGATAAGGAC TCAGAGCTCC ATCTGTTCCA GCCTTAGGAT AAGAACCAGA18361 ATCTTACACC ATGAAAGCAT GAAAGGTAAG ATTTGAGTGA GGAAAAAAAA AAAAAAAGTC18421 TGTGTTTCAG ATTCAGTTCA CAAAGCAGTT TCATACTTAA GGTACCATCA CAATAACCCT18481 GTGGGGTAAG CAAGGCAAAT TTCATTCTTG TTTTATGGGC ATAGGAAGTA AGTCTCAGGG18541 AGGTTAAGAC CAAGGTTTCT GGAGAATTTT ATATTATGAA TCTTGATTTA TGGGATTACT18601 ATTATGTAAT TCCTAAGATC ATATAGGAAT CCTAGAGCTT GAATATAGAA CTTTATTTTT18661 AAATCTATAT ACATCATAAT TACAAGGAGT AGTGTCCATT TGGGTTCCTT GGCCCTGATG18721 TGTTAGTGGA ATAAACATTT TTGTCAGGGT TGCCATGTGT GTCTGTGCAC GTGTGCACTG18781 TACACCTCCA GGGGATGTAC CCTAAACCAC ATGAATGTGA TTTGCACATC CAAGATTTAC18841 AGTGTACTAT AGGGAGAATC TTTTGCAACA GCTTTTGCTA TAATACAGAA TCTGAGATGT18901 CTTTGAGAAA GAAAAGTGTA ATCATTACCA AAAAATTATT CTCATAATGT GTGCAAATTT18961 19021 TCTATTCTCT CATAAGAATT CAGCTGTTGA CATTAGGTGA TATCTGCCCA GGTCATCAGA19081 TGCCATAGAG AAAGAGGGTT TGCTGAAACT TATATCAGCA GTGCACTGTA TGCTCTTTCT19141 GATTTATTTG AACATTCATT TATTGAGTGT CAAGTAATGC ACTAGATACT CCAGGGATCT192 GACACAAACT CTGCCCTGAA GGAGCATGTA ATCTCACTGG GGAGAAAACA AAACATATGA 19268661 1932 19321 ATGCAAAATT GCATGTTACA GGGTAACCTT TCAGTAAGAA GCCAGGAAGA GGAGCTCATC19381 ATGGGTTGGA TTAGTAAAGG ACTAGTTATA AAAGAAGTGG TGGGGTTGAG GGAGGCCTGA19441 GATGAAATTT AAAGAATATG TAGAATCTAG GTAAGTGGAT AAAAGGTCTG GGGGCAGGGG19501 AAAGGAGAGC ATTTCATTGT GAATCAAGGA ATTTCTCCAC CTGTTTTAAC TCTTCCATAT195 GACATCAAAG AGATGTCACT TGCAGCTAGC ATTTCAGTGA TGTTTTCTTA CTAATAATAT19621 CGTGATAAAA GAAACATTGA CTATAAGAAA TAGGAATGGG TCTCATAAAA GGAAACAGCA196 AAACCCCCAA ACTAAAAAAC AGCGCAGGCT ATTTCTCTCT TCTCTCCTTT TGCTTGGCAC19741 TCATGAGATG CTAGGTGTGG AAGTCAGCCA ACTGAAAAAG AGAGGTGGCT GAAGAAGGTG19801 GGGAGGCTGA AGCCAGTTAA ATAGGATGGT CCAATTCACA GACGGCGAGG CTACAGTGCA19861 AATAGGACTC TTTCAACTTG AGCAGGACCC CATTACTTCA CTGGAGTTAG AAAGAAAGGA19921 GAGCGTAGAC TTTTTGAACT TTCTATAAGA GTGTACCTCC ACAGTATACA GAAGACGACG19981 20041 ATTTAGAAGT GTCTGTCATC AAGTACAGCA CTGAATTGAA ACTGAAAACA AGAGTCAAGA20101 AAGAGCAAAG TCAGCCATCT TTATATTCCA CATGAATCCT TTCCCTTTAT GGTCTTATTT 461 GTTTCTCCTC AGAAAAGACA AAAAGCTGAG CTGTATAAAC ACCTGTGGGC TGGGGGTTGA20221 GGGATAAATG AGGGGCGAAA TGGAAGCTGA AGGAACTGTT GGTCAGGTAG AAATCTTCCC20281 AGATGCACTG AAGGAAACAC ACTTCATGTT TGACGTAGGA GGTGCCACCA CACAAAACGT20341 TTCATGGAAG GATTTAAAGG ATCTCATGAT TTTTAGTATT CCAAGAATTT TCTTTCACCA20401 AGGGCGATTT AATATGGGTC ATTCATACTG AAAGAAAAAC AAAAGATAAT AAGAGTTTAA20461 AAATTGCAAA ACTTGGAGTG TTAGTAGTAA AGGTAAATAT TCATTAGAGA TGAGAAGAGG20521 AGCAAGGAAA TGCTTTCAGC TGGAAATCTC AGACAAGAGG CCAGGCTTTA GGAACCTCTG 6381 AAGATGAACA AATGTAAGCA AACCCTAGTA GCAGCACTTC TCAGATTTTC ATGTGCTTAC20641 CACTCAGAGA TGGTGTTAAA ATGCAGACTC TGATTCAGTA GGTCTGAGTG GAGCCTGAGA20701 TTCTGCACCC CTAACAAGCT CTTTAGTGAT GCTTATGCCA CTGGCGCACA GACCCCACTT20761 GGAGAAATTT TTGTGGTGCA TACGGTCTTT GTCTCCAGAT CTAATGAGTC TGAAGGACAG20821 TGTAGATTGA TTTTTTAAAT TTATGTTTAT TTTAATTTAA TTTAATTTAA TTTATTTATT20881 TATTTATTTT TGAGATGGAG TCTCACTCTG TTGCCCAGTC CGGAGTGCAG TGGCACGGAG 8620941 GCAGCTCATG CAACCACGGC CTCCTGGGTT CAAGCGATTC TTCCGCCTCA ACTTCCTGAG21001 TAGCTGGGAA TACAGGCACG TGCCAGCACA CCCAGCTAAT TTTTGTATTT TTAGTAGAGA TGGGGTTTCA CCACATTGGC CAAGCTAATC TCAAACTCCT GACCTCATGA TCCACCTGCC21121 ACGGCCTCCG AAAGTGCTGG GATTACAGGC GTGAGCCACC GAGCCCAGCT GTAGATTGAT21181 TTTGAGCAGT GGAAAGTCAA GGAATTAGAA GGCATGCTTA AATGGAAAGT GAAATTGGAG21241 AAAATTTAAA CTCATGAAAT AGTGGTGGTT ATAAACTCGT GATAAATTAT ATCCTGGGAT21301 ATAATTTAAT GAGATGGTAA CACATTTAGT TTAAAGAAAT AAGTGACACT TTTTTTGTGT21361 GACACAACTG TCTTATTCTT GGAAAGGACA AGGAGAGAAT GAAATATGGT ATGTCTTCAC21421 AGCACCTTTC AAAGGGAGAA CCAGATTCTG AGGAGCTGGT CTCATGATGA ACTGTCAGGG21481 TAAACCACAG TTCAGCAGCT GCAAATGTGC TTGCCAAAAT AGAGACAAAA AAATGTTTCT21541 GAAAACAAAA TTTCACATAT GCCCTCCTCT GAGGTTGGCA TCATATCTTC CTGTGTATCT21601 TGGGTGTAGC TTCTATCCTG CCAGAATTTA GACAGTAGAA ACCAAATGAG GTGATAAACA21661 GAGTCATTTT GCAGAAGAGT CAAAATAACC CAGCAAGAAA TGAAACCACA AATGCCCAAG21721 GAGTCATTCA TTCACCATTC AAAAGCTAAT AGAAATGAAC ACAAACTACT ATGAAAATTC21781 ACCCAAGAAC TTAAAAAAAA AAAAAAAGGC TCATGGTGTT TAGTGTGATA GTATTCATTT21841 TACCTTTGAC TTGTTCTAAA AACACACCAT ACTTCTACCC CACCCTTCCT CAGTGCCGTC21901 ACACAATGGT TTCAGTGTGA AAAAAAAAAC CACGTTACTG GAAAAGGAGG GTGCCTGGGA21961 CTTGCCACTC TAAGCTGGTA GTCAAGGGTC TTGAGTTCTA AAAGCATACG CGTTAAGAGC22021 22028 TATTTTATTT CTCTGTGCCT GTTTCTTTAT CAGTAATGAA GATGTTCATA GACCCTTCTC22141 2222 22201 AACATGGAAT TAATATTTGA TAAAGGTTTA TGATTATTGT AACTAACTCT GTCACTTGCT22261 CAAGGCCTAT AGAAAACTTA CTTAATTAGT TCAACTACAA AAAGAGTTTG AATGTGATAT22321 CCACCAAGAT CATATTCAGA CCTAGAATTC TGTGATTCTT ATGAATTAAT ACAGCCTTGG 8681 TCAATAAATG AGAGCTGGGC AAATAATTCT TCTTTGCTAG GCCTTTCTAG ACCATCTGGT 2247 22501 TCCTCAATAA GCCATGGGCT CAAGAAAGTT CTGCTCAGTG GCCCCTGAAA AATGCTTTCA22561 TAGTCTCACT ACCATACCAC TGCTTACACA ATTTCCTTCC TACAGACTGC CTTCCTTTCC22621 TGCTTTTCTC CATATACCTA AATCCTATCT ATTCTTCATA AGCAACCTTC TTTATAACAT22681 TTTCTATAAC CACCAAGCCA AATGACCTTT TCCTTCTTAA ATATAGCACC CATTGGCCAT22741 TACCATGCTC TGCCTTGTAT TTTTCTGATT TTTTTCTTTC TATATTCCTG TCTTAACTCC22801 CCAGCTAGGT AATAATTTTC CTGAAATCAG GGACCAGGCT GACTCCTCTT GCTGTCTCAA22861 GAAAGCTTAG CAGTTTCCAA CACAAAAATG TTCAATAAAC AACTATTAAT TGACTGATTA22921 TAAAAAATCA GTGAACCATT AAACTTAATA TAGCAATTTG CTTAGCATGG TAATTAGCTT22981 TTTGCTAATA TTCTTCCAGC CAGTCTCTCC TCCTGTGCCT CAAGGACATC TTAAAAAAAA23041 AAAATCTAGT TGATCTGCTT CCATCTAGTG GCAATTAAAA CAGGTGGTTC CGGTAGCCAG23101 AAAACAGCTC TGGGTAGATT GTGCCAGAAA ATACTTTCAC TCAGTAGGTG CGAGTTTGAA23161 AGAAATCTTC ACATCTGTGG GTTTCCTGCC ACAGACATAG GGAGACCAGC CCAGAGAAAG23221 AAGCCTTTCC TCACTAGACT CCATTTGCAC TAGTAAAGAG AAGACAGAGT AATTAAAAAG23281 AATAAAAAGA ACCTCCACTG ATCGTACATC CTCATCCAGT TACCCCTGCC CCACTTCTCC233 TTCACAGCCA AACATTTTAA AAGAGATGAC TGCTTGTTCT GTCTCTACTT TCTCATCCTC23401 AGTAATGCTC AATGCTTGGC CGTCTGACCT CTGTCTTGAT GTCTGCACTG CAAATAGTCT23461 234 CCCCACTGAC ACCCTTGTTG CATCCAGGGG ATACTTACTG GTTCTCTTGG CAATGTTTGA23521 AACCGTTCCC CTTTCTTTGT TTCCTTGGCA TTCATTACCC CACACTCTTT CTCCTCTTCC23581 TTCTCCCTGC CTGGCAACAT CTTTTCATTT CTCTTTCCCT TAGGTGACTT ATTAGATAAT23 GATGTTCCTC TGGCTCCCAT ACTCTCTCCC AGGTCCTCTT CCATTCTTAA AGCACTCACA23701 CCCTCCCTGG ATGATAGTAC CCACTCCTGA GATGGCAGTT ACCTCCTGAA ATGTGAGGGA23761 CCCAAATCCA CTTCTCCTGC CATAGCCTCT GTGCTTTGGA TAGGTCCAAT GAGCCACAGT23821 GAATGATGTG CATACACCCA AAGCTCAGTA CAAAACTGAA CCCATGATCT TTACCTCCAA23881 AACCTCTCAT TCTTTTATGT TCCCTTCTCA GAAGTAAACA GGACTACCAT CCGCCAGTTT23941 CCAGGTGAGA AAGATGATAA TTTGATTCTT CTCTCTCACT TTTAGCCAAT TAACAGACAC24001 ATTCAGTTAATATCACCTCC TCTTATTTCA TGAACCCATT CTTACTACTA GTTCCCTAGA24061 CAGGCGCCAT CGGTTTTAAT CTAATAACTG CAAATGCCTC CAAAACAAGT CTCTTTGAAT24121 CCAGGCTCAC CTGTCTCCCA CACTTGCCAT ACTGCTCTGC AGGGTGACCT TATAAGATGC24181 24227 24241 AAAGCCCATA TCACATGGCT TATACATTAG TTTATGATCT GGCTTCTGGT GCCTCATTTT24301 TCCCCACTTT TTCCTTTGCA TTCTAAGCAA TGGCCCATAC TAAGTTTGTG ATTGGTAGGA24361 TGGTTGCCCA AACCAGCATC CAATCCCTTC AGAAATCATC TCACTTCATT TCTAGCATTT24421 TAAAGGAAGC TCAGTTGTCC AGCTGGGTAC TGAATATGTC ACCAAAGTCC TCCTTTCATA24481 GTTTATTTTA CTTAAACTCT CCTTCCTAAA ATTCCAGAGC AAGTCACTAA ACCCTAGATA 2456245641 CTGAGAAATA TTTTTCCATC TTCATTTCTG CCAGGTGGGC CATCAACTTT CACATGTCTG24601 CATCTCCTCC CACTGTGCTA TTTCTCCAGT AGAAGAAATT TGAGCTTCAA GACCAAACTG24661 AAAAATACTT GCCTCCTTGG GGAAGCTGTA GGTAGAATTC ATGCTCCCTA TCTTTCCCAC24721 24 ATTTCTGAAG GACAATGCCT GTTAGAGCAA TTGAATGCAA ATAGTCAATT GAATAAGCAT24781 TTATTCATTT CTCAATAAGT GCTTGTTCAA TTGAATATTT CTTAAATAAT ATATTTAAGA24841 ACAAGAAGAA CACACCACAA TGTTTTTAAC CCTCAGAAAA AATTCTGAGG TAATCAGAAA24901 AATCTCCCTT TACATAAACT GCCCTTTTCT AATAGGGATT ACTTGTTCGT TCATTCATTC24961 ATTCAGCTCC ACTAGCACCA AAAAGCACAG CTCTGAAAGG AAGCTAGTAG ATTTATCACC25021 TTATCTGGTC ATTTGGATGA GGACCCCAGG TAAATAAACT ACTATGGGGT TAATGTGTCT250 AGCTAGAGCA GGAAGTAACT TAAGGAAGTA GAGAATGAAT CAGCAGATGT GGAAACTCCT25141 CGCCACTAAT AAAACTTACC TTCTCTTGGA TTTCTTGCCT GAAAATAGAA AATAGAGAAA25201 AGGCATTAGC AAAAATTAGA CAATTTAAAG TTTTTCAAGT AAGGGAGAAG GAAGACTCCC25261 ACTCTCAAAA CTGTCTTTTG AAGTATATTA GGTATTTGTT AGGTGGACCC TATCTGTGTC25321 AAAGGAGATT TGAGGAACTG GCTTAATAAA CAGTGGTAGA CACTAATACA GAACAGACAT25381 GTTGATGCAG ATGCCTCCTG AGGTTCCATT CCATTCTCCG TGCTACTCAA GAAGACAGAA25 TTGCTAAATT GCCTGGTGGC AAGACCCAAT ATGTCCATTC AAGTGTTTAT CCCTTCCCAA25501 TCTGCCATCT CATCCTACCT GCAGATTCTT CCCTTGAGGG ACAGCTGCTA ATACTGTAAA25561 ACTATGTGCC ATTACAGCTC ACAGCATCAT CTCTATGAGA ATCCACAAGA GAATTTCACT25621 TTGGTCTTGT TGGTAGGAAT TGTGCAGCCT CATCTGAGTA ACTAATGTGT TTTTATCTTA25681 CAAACACAAG GAATATCACA TGGTTCTCCT TTGACTGGCT GTAAGGAAAC TCAGAGCTAG25741 ATCTGAGACC CTCTCCTACC AAGTATATAA AACTTTGTGA CATACATTTTTGTGCCATAA25801 CTTCAACCTT GGTTCCAAAT GATTTTTGTA CCCTAAGTTT AAATTTGGCT TTCTTTTTTT25861 TTTTTTTGTA CTCAATAAAA CATCAAGCTC ATTTATTATT GCGAAGAGCG AAACAACAAA25921 GCTTCCACAG CGTGGAAGGG GACCCGAGTG GGTTGCCCAA ATTGGCTTCT TTTTCTTACT25981 TTTTAATTAA TTTTAATTTG CTATACTGAA CACATTTTGT ACTGTTCTCA CATTCTTTTT26041 GAAAAAAGCA GAATATAAAT AAGTAGATAA CTTAAAAAAA ACTCTTTGAG CAGAAAGAAT26101 CATTTGGGAG GCAATATATT TCAGTGGCTG TAAAGTGGCA TTCTAGAATC ATCCTACCCA26161 GGTGAAAGCC CTATTTTGCC ACCTGTAGTG TAGTGTGTAT TTGAACAGCT ACTTTCTTTT26221 CTAAACTACA ATTTCTTCAT CTGTTAAAGA GGCATAATAA TTGTATCATC CTCATTGGGT26281 TGATAAAATA AAATATTTCC AAGTATTTAG TTCAGGTCCT AGCACGTAGA CAGTGTTGCA26341 TTACTGTTTT AATCCTTTAA AGTATTAAAG ACTACTATTT GAAATCTTTT CTTCTAAAAT26401 TCAGCCTGCT GATGACCAAG TGCACTTGAG CAGGGGGAAT CAAATCTGAA TTAATTTCAG26461 ATTCTGGTTA GCTTCACATA AATATTTTTT TTAGGGATGA TGAACCTAAC AGCAATAGAT26521 GAGTAAGAAT CTGTTCCTAC TGAGAGAGTT TCATTTTGAA GAAAAAGGAA CTAAGGGGGC 581 ATGTGTTCAG TTTCATGCCC TGGTCTAACC CTGTGTGTTG GTTCTGGTGG GAAATTCTTC26641 CAACCGAGGA AAAAACCAGT TCACAAATCT GAAGACCAGT GATTTTAGAA GATGTATCTG26701 GACTGGAGTC TAATCTCTGA CTCTGGGTCC TGCTGATATG GTATTTTTGA GATTTGGCCT26761 AAAACATCAT TGCCCTGGTT TCCTTATTTA CCAAACAGGG CCAATGGTAG TGACTAATCA26821 GAAAATGATA ATGCCTGGTG CACAAAATGT GTCTAGATGA GCCCATGCAC AAGGACACAT26881 GTTTCTGGAA CTGTTCCTTA TTCCTTTCCT AAAAGAAAGG AGGGAAAGTC TCCATACTAA26941 GACTACTAGG GCAGGGGACA AAGTGCTAGA GTCAGAAGAT TCATCTGAGG ACAGAAGAAT27001 AGGGGTGAAG GCTCTAGTCA CTTCATTGGC TACCATGCTC TAAATAGTTA CCTGTGCCCT27061 TTTTCTAACT ATTAGAACCC AAAAAGCCTA TAAATTCTCT CTCTCTCTCT CTCTCTCTCT27121 GTGTATATAT ATACATATAC ACACACACAT AGACACACAC ACACACCTAA ACACACACAT27181 AGAGATTTAT GACTTTTTAC TTTTATCCTT GTAAATGCCA TTAACTATAT TTTGTCTTAG27241 ATTTAGCCTG GGAATGTAGC CATTATTTCT ACCATTGCCT CCATAGGAAA AATACTCTTC27301 2763301 27301 ATGTTTTAAA GGACCAACCT ACAACTAAAA TCTTTGGAAA GCAGAATCAT TTGTAAGTTG27361 GTGAAAATGG AAGATGTTGT TTTATAAATG AAGACTTTTT TTTTTTTTTT TTTTGAGACA27421 GGGCCTCACT CTGTTGTGGA GTGCAGTGGT GCTGTCATGG CTTACTGCAG CCTTGACCTC27481 CTGGGTTCAA GTGATCCTCC CACCTCAGTC TCCTGGGTAG CTGGGACTAC ATGTGCATGC27541 TACCATGCCT GACTAATTTT TTGTATTTTT GTAGAGATGT GGTTTCGCCA TGTTGCCCAG27601 GCTGGTCTTG AACTCGTGGG CTCAAGTAAT CCTCCTGCCT CAGCCTCCAA AAGTGCTGGG27661 27 27661 ATTAGAGGTG ACAGCCAAGG TGCCTGGCCC ACAGATGAAG ACTATTTAAT GTTATCTTAA27721 276384 27721 AGATACCCTA AGCTTCCTAC CAAGCCAGTG ATCTTTTGGG GCTTCTGTTT TCTTTGTTGG27781 CATAACTGTA ACTAGCCTAA CTGCCCGTTA TCTGTTTCCT GTTTGCCCCA CACTGATTCC27841 CACAGCAGTT TTCAAGTTAT CGGTTTGAGA TCTTGTACAG AAATGACTCC AAGGTAAAAA27901 ATTTAAAAAC AACCCCTCTA ATTTTTTTAC CCTTGCTTAT AAAACAGCCT TAGCCAGCTA27961 ACCCCTCACT ACATGCAAAT GAGTTTGATT CTATTCTTTT GATTCTACAA ACACTTATTA28021 AAAGATTTTA GAATTCGGAA ATAAATAGCT TCCTTATTAA GGTGACTTAC AGCCCCAAAG28081 TCCTTAAAAT TATTTAGACA ATAGCCACCT TATCCCAGGG GGCAGTGTGT AATAACCCAC28141 CCTGTTCTCT ATCCGTCAGT TCTGCCATCA TCGCCCAAGG TAGGAAGAAA GACAGGACAA28201 CCGGGGTCAA GATTTGAAGT CTCAATGGAA AGAATAATCA GTGGTTGGAG AAAACTGTCA28261 TTCTTCTTTT GCCTTAATGC AGTACTTGAT ACTTATACTT AGTACTGTAT AGTACTTAGT28321 ACTGTATAAT ACTATAAGAT AGTGAGATTC AATCAGCACA GAATTTCTAA TAGCAAGGGC28381 AGAGACATTT TAACTGCTCA GTGCTCTCAG GTTATACATA GCTAATGAAG TTCTTGCATA28441 TCAACAATCC CCACCCCCCT CACACACTTT GTCTTTCTGG ATTGGTTAGA AAACTTACCT28501 AGCGCCCACT ATTCTCAAAT TTAAATGAAA GATAAGATCA GAGTGGCACG CAATTAGGGA28561 2827 28621 CATATTCAGT GAACAGAATA CGTACTAACT AATTTGATGG AAGGAAAATT AAAATGACAA28681 TCAACTGAGC CCACAGAAAG GCAACACAGA GCAGTTGGTT AGCAATTGTT TCGAGATCAT28741 CCCTGAACTT GAAACAGGTA TATCTTTTTT TTTTTTTTTT TTGAGACAGA GTCTCACTCT28801 GTCACCAGGC TGGAGTGCAA TGGTGCGGTC TCAGCTCACT GCAACCTCCG CCTCCCGGGT28861 TCAAGTGATT CTTCTGTCTC AGCCTCCCGA GTAGCTGGGA TTACAGGTGC CCGCCACCAC28921 GCCTGGCTAA TTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGT28981 CTTGAACTGC TGAGCTCATG ATCCGCCCGC CTCGGCCTCC CAAAGTGCTG GGATTACAGG29041 CATGAGCCAC CACACCTGGC CAAAACAGGT ATATCTTAAA AGCTGCCCAA TGTCCATGAA29101 TGTTACAGCC TTGAATGGTT CTTCCAGGTG AGTTTGGCCA AATGTGGCAC CATACACCCA29161 AGGCCTGCTG CAGGCTAGTG GGTTGCTCAC ACTTTAAAGC TGAGACACAC TCATGCCTTA29221 AGGTAAAGGG AGTGATAATC TGGGCAGCAG ATGTTAACTT CTCAAGGCAG TCCTCCTTCT29281 CTTTTCCTCT CCAGTGACGG ATGGTTGGAA AGCATATATG GTGCATTTGG TTAGAGCTGT29341 GCCCATGTGT TGGGAACCAG GTGACTCTTG AAGAGGTCAG GTATTTGGGA GCAGTGCCTT29461 GAAACCTTAG TGGACATTAG ACCCACTTCC TAGTGGAATT GTAGCATTGA AATCCAAGGC29521 ATGTAGGCTC TTAGAGGACA GAGATAGTGT GTCATTTTTT CAGAATTAAT TAAGAGCAGG29 CCAGGCGTGG TGGCTCACAC CTGTAATCCA AGCCCTTTGG GAGGCCAAGG CAGGCAGATC29641 ACGAGGTCAG GAGATCGAGA CCACTCTGGC TAACACAGTG AAACCCCGTG TCTACTAAAA29701 GAGGTGGGAG AATAGCTTGA ACCCAGAAGG CGGAGGTTGC AGTGAGCTGA AATTGCACCA29821 CTGCACTCTA GCCTGGTGAC AGAGTGAGGC TCTGTCTCAA AAAAAAAAAA GTATTAAAGA29881 ATTACATAAG AGCAAAGAAC CATTAGAATA TCTCACTTAG TTGTTATCAG CCTAGCAAGC29941 TGCCTTGAAG GTAATAGACA TTTTTAAAAG TTTATCAGAT GAAAAGCGAA AATCAGCCAA30001 CCTGTTTTAA TGAAGGTGTG TCCTGGGCTG ATTTACATGT CTCCAGGGAC TGATGGCTCT30061 AGAATGTAAA GCTTGGCATC CTGCTTGTGT TGAATCTATC ACATTTAATT TCCTGTGGGT30121 TTCTTTTTTT TTTCTTTTTC ACTTTAAAGT TGTGTTCTTT TCATGTGAAG TTAAACTCAC30181 ATACCTTTTT TTAATCTCCT TGCCAGCCAA ATGATAAATG CCAACCCAGA GAATGCAGTA30241 ACCATGACTG CCACTGGAAT GAAGAGGGGG TTATAATCAC CCTCCTTAAT CATTGAGAAA30301 CTTTTGTCCA ATTCTGAAAG AGAAATCAGT AAGGCACATA GCATGAGACC ACCAGCATTA30361 TTTCCTTAGT CTATCTCATG ATATTTGACT TTTTTCCTCC TTACATCTCC CAGTAGTAGC30421 CCATTTGATG CCATTTGACA GATGAGGAAA CTGGCATGGG AAGGCCCCTG ATGAGTCTAC30481 AGCATAGGCA AAGACTGGAC CAGCCTTGCT AGTCTAATGC CTACAGAATC TCAATGCCCA30541 GATTTGTGGT TCATAGAGTT CCTGAAAATG CACCTAAAAA TGTTGGCAAG AATGGTCATC30601 GTTGTATTTA GCTCCATGGA CTTGTTCAAT GACTGGAACT CTGAAACACA GAGAAGAGCT30661 3042 AATAA AAGCCAATGA TCTGAACTGG ATAATTCACC30 AGTCAAAGGA AATCATTAAT GCTTTTACTT TAAAGCAGTT GTGCAAAAAT AAGCACTTGA30781 TTTTTACATG CCAAGGACCT GCACTAATTT CTTTCCAATG CAGTAGTTAC CACTTCCCTC30841 TACTTCCTTC ACGAATAAGT AAAAGGGCAT GTTTAGAGAT ACTCTTGTAA GTGTAAACTA30901 AGTTCATTTG GGAGCCTCTA TTTGAAAATA CTGGTATAAA AAAAAATCTG TCTCCTGATA30961 CTAACATTTG AAGGAATCTA CTTTTTTACA TATTGGCAGA GGGTCTGATT CTATCCTTAG31021 TTCTTCCCAT TACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACAC CCAAATATAT 31172 31141 31201 TTCTTCCCAT TACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACAC CCAAATATAT 31261 3123672 TTCTTCCCAT TACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACAC CCAAATATAT CGCAGCACAC AGAGATCAGC ATTTCTGACA GCTTCTGTAG ATCCTACCAT31321 TTAAAGACTT TTGTCATCCA TGCAGATAGT CTCAGGAGCA GACACAGGTA GCTATTCTTT31381 CACATGCTAG CTTAACATGC ATTTGCTTTA GCACCTATTG CCAGGCACTG TGTCAGGTGG31441 AGGGTATACA AAGATGAACA AGACATGATT CTTCTCATAT ACAGATAGAT TTTGGAGGCA31501 TTAGCTTAGT GATGATTCAG GAGTATCCAT TATTTGGGGA AGTAGGTGGT CATTAGTGAC31561 CTTTTACAGG CATTTCAATG GGCTAACAGA GATGTTAGAT TGTAGTGGAA TAGAAGAATG31621 GGTAAAAAGT AAATCAGTGA GTTCAGATTT TAGGAGTTAA GATGGCAAGA GGTGAGAACA31681 AAAAAAGGAA ATGATTGTCA TTAAAGGAGG AGGAAAGACC AGCCAAAGAT TTTACAGTGA31741 GTTAAGCATA CAAATTTATT TCTAGGCCAC ATATTCTTAG CAAAACAACA TGTAAATGTT31801 TATGTATGTC TTTCCTCATA TCTGCTCATC CATCAGCTCC ATCGTTAAGA TTTCAGTTTT31861 CCAGGACAAA CTTACTCACT TTGACATATT GGACTAGGAT TTGACCAGAT TCCAGATGAT31921 TCACAAATGG TTTTCTTCTT CCCAATTAAC TCAGTTCCTT CTGAGCAGAT GAAGGTACAT31981 GCAGAGGTAA AGCTGAAGCT GGCCAGGGGA TGGCTACAGT TCATGATCCC CAAATCTGGT32041 GCTGATAGAG GCTCACACTG AATCACTTCA ATGAAAAAGA AAAAAAAAAA AAAGACAAAA32101 CAGTATTTCT GAGTAGAGAC CCTCCCTTGA GCAAAGGATT TTTAGCCAAA GCTGCCTGAC32161 TACATTACTT GTGATATTGC TTCCAGGCTT TATTTTCTTG AGAATGATGG TGGGTGGTGA32221 ATGAGAGATG AAGGCAAGGA AGCATTGAAA GCTGTGGGGA GAGGAGTAGC TACTCCAGGC322 TGCTGCCCTA GCTAAGGTGA CCCTCCCCTT CTGCTGGAAG TACCATGCCA TATGGCCTCT32341 GCATCAAGGG CTCTTATGGG ATATTCTCAG AGAATCTCTG CCGTTTCATC TGTTCTGATA32401 TCTACCCAAG CATTTTGAAA AACATCCCAA TTCACTGAAG CAAGTCCAAC TTCCGTAAAT32461 TCCAGTAGGT GGGTTGACAG TTTTATAATT TCAATAAGGG ATTTTGATAG CACTTCTAAG32521 AATTAAACTA CTTAAACTAA TGCATCAGGA GCATACTTGT AGAAAAGTTA ACCAAAACTT32581 CGTAAGTTCA GATGACATTG GTTTTCTCCC ATATGGAGAT AAGGTTGGCA GTTAAAAATG32641 AAAAAAAAAA AAAAACCTAC CTTATTTCAA ACTTGAAAAG ATCAAGAGAT TGTGTTTTTG32701 TTTTTCAGTT GTTATTCTCC TAAAAGTTTA TGCATGAGGA AAAGTAAAAG TGATTTTAAG32761 AATAAGCCAA ATAAAACAAC CAAGAAAGAC CTCCACTACC CTGGGAAGGA AACTGGTTGG32821 TATTAAGTAG GACACCACAT AAAACAGGTG TTATTGAGAG GAGAAGAACC AAAATGTAAC32881 TGAGGTTCAA CAAGACATTA TTTATGCAAT GGCAATGAGA AAAATAAAAA ACACAGTATA32941 ACCATGCTGT ATTGCTATAA GTCATGTTAC ACACTGGGAG ATGGCTTCAG GGGTATTTGG33001 TTTTTACTTT TTGTTTGGGA GGTTTTTCAA AAAAATTTAG TTAGAATAAG TCCTTTGAGA33061 AACATCACAG TAGGTTAAAC AAAGTTAGGT TAAATTAGGC TCCTAAGTTT GACTTCTCAG33121 CAAACTTCTA CTGAATGTTC TGACTGTAAG CCCAGGATTG CATGACAAAA CCTCTAGTCT33181 GAAGTTACTC ACCTTGACAG GTTGGTTCTG GAGATGACCA GTTTCCAAAT GGTCCACAGG33241 TGGTTTCTTC AATCCCAGTT AAGTTTGTTC CTTCAGAGCA GCTGAAGGCA CACTGTGAGC33301 TGAAGCTGAA GTTTCCCAAA GGGTGAGTAC AGTCCATGGT ACCCAGCTCT GGGGCCTCCA33361 AAGGCTCACA CTGAATCACT TCAATAGGGA AAGAAACAGT ATGGGGAAGA GTTAAGAGGA33421 ACTGACGCCT GGATTTGAAT CCTAGCCCTG CCACTTGATA ACCATGTGCC TTTAAACAAG33481 GTTACTTGAA CCCTCCAACT TCAGTTTCTT CATCTATATA AGAGGAATAA TGAAATTGTG33541 TTATCTTTAT CAAATTGATA TGGAAACTAA ATGTAATTCA ATTAGCATAA GTCAAGGACC33601 TTAGAACAAA GCCTGACTCA TCAGAAATTC TAAGTAAACA TTAGCTAGTC TTCATATTAT33661 TATCTTCAGC ATTATCTGTA GTGAGAATCC TTAAAGCCAA ATAGGTGTAA CTGGGAATGA33 CCAGCTTAGT CGGGAAATAA CTATCACATC AGAGCCCCTG AGTCTACTAG AGTATTGGGA33781 GCAAGATGTT CAGAGAAAGA GTGGGTCTCC ATAATAAGCC TTCTTTGCAA GGAGAGAATA33841 TAAAAGTCTA GGAAGCATTT TGACCTCAAT TCTGTCTTCT ATTCTAGCTC AGTTCCAGAA 3386901 TTTTAACTCT TTTGATTTTG ACAACCCTCT CCAGAAACTG TATCTATTTC CCTGTTCTGA33961 34021 3407 34081 GCCATTATTG CTACCTTGCT CTAGAGACTT CAAGGAAGAA TGGACTCAAG GAATCAGAAG34141 AATTTTTGTA TTTGGAAACT ATATGAGATG AGATTAGGGA GAAACATGGG AACTAAGAGA34201 AAATGTTATC TTTTTTCATT GATTTAAAGA GTATCTATTA TATATCAAGC ATTACTCTGG34261 GGCTTGAAGA GCTTAGATTT CACCCTGTAG GACAAAATGG TAGGTAGAAA TTAATGGGTG34321 GATTGTCATG TATGTGTGAT GTGTTTTAAT TGCTTTTAAT TGATCAGTCT CCCTGTAGTA34381 TGAATAATGT ATTTGAGGGG AGCTAATTTA AAATTGTGGA ACTCATCTAA TAAACTATTG34441 CAAGAATCTA GAAGAAAGAT AATGACGGCA ATGGTAGTAG AGTTGACAAG TGGAAGACAA34501 ATTAGAAAAA CACTAAGTTG TAAAAATTGG TAGAATGTTA CCCTGCATAA ATGTTGGGGG34561 AGTTAAGAGA GTCTCATACC AGGGTGCCCA TGTAAATGGT GATTCCACAT ACTGAGATAA34621 GAAATACGAA GAGAAAAGCT GACTGGGAAC AATTGGTTTT ATAGTCTTTT AAACATCCCA34681 AAGGACATCC TTAGCATATT TGAGTTCAGA GCTGGAGATA GGCTTATCAG TCCAAAGATC34741 ACATAGATTT GTGAGTCCGC AAAAGTCAGT AAGTTTGACC AAAGGATACA TGTAGATTAG34801 AGTCAGAAGA GCAATATACA AAAGACAAAA GCTGAGAAAT TATAGTAGTT TATGGTCCTG34861 GATAAGTGCT CATGAAGGAT CTCAGGAGAA ATGATCACAG GTAGAAAGAA TGAGAAAAGA34921 GTGATATGAG AGAAACCAAG ACAAAGAAAA GTAAAATGTT AAAAATGAGT GAAATAGGCA34981 TACCAATAAT TAAAAATGAG TAAAATAGGC ATACCAATAA CATAAGGGTT AAAAAATAGA35041 35026 35041 GTTCAAAAAT GGGGTGAGGG TAAAGTATTA GGAAGGAGTC ATGGCCCAGG GATCAAGTGA35101 AATGAGTTAG ATCTATAGAT CTATTTCAGT TGGTTGACAT TTAAATGTAT TTTGGTTTTA35161 35 35161 ATTCTTTATT GTTTACAAAC ATTGCTTTTT TAAAAAATTA AATTGTCCAA TTCAATTCAG35221 35281 35221 GCTCACAAGC AAGTGCCTCA TATATACAGG CATTTTGTGG ATCCCAAAGA TGCAATGATA35281 AATAGGACAC TTACTGATCT CAAGAAGTTT TCAGTACCAG AGGAGACGGA CAAGTGAACA35341 GATGACTTCA ACATAAGTGG GAGAAATGAG GAAGAAATAT GTGGAGCTAT CAGAACTAAG35401 35 35401 AAAGCTTCCT AGAAGAAACT GTCTTTGAAC AATGTCTTAA AGATGACATG TTTTTTGGCC35461 ATGTGCAAAA TGAGAGAGAA GGCCACCAGC AAAGTCAGTG TGCTACAGAG CACATGTGTT35521 35 35521 AAGTGTGGAG AACTGCAAGA AGGAAAGGAA CTACTAGAAG GAAAAAGCAA GATACTTTCT35581 35 35581 GGGTAACTCA GCCTCCTAAT GATAAATGGC ATAGTTTCTT CCAGACCTTA GAGTTCTAAT35641 TAATCTAACA AGCTCATTAG ATCGTGAGCT TCTTGAGAGC GGGAATCTAC CATGCTAATT35701 35761 ACTTGTTGAG AAGTGAGTCG AAACTTCATG CTGACTTATG AAATCTTTAC GGAAAGGTAA35821 CAATATTGTG AAAGCAGAGC TTTCTGATCA AAACTTCCCA TTTCTCAGAG TGGCTAGTAT35881 CATTTTGTTC CAACCAGCTT CATGATAAGC TATAATGATT CCTGTGACTT TACCTAAGAA35941 GAAGCAAAGA AAGGAAAGAG ACTTACCAAA CTGACACTGG GGCCCATAGT ACCCCACATC36001 ACAGTTGCAG GTGTAATTAT TGATGATTTC TACACATTCT CCATGGCCAC TGCATGACCA36061 GGGCTGGCAA GAAGCTTTAA GGAGGTCAGA AAAAAAATAT TTTAATGTGA TTACATTTTA36121 GTACTCAAAG TCATTTCTTT AGACATAGAT AACCTTTTGT CTGAGATGAT TTAAATAATC36 AGGAAAGGTT TATTTGTAAA TTCATAGCAT AAAAATCATA TGCTAAAATT TTTACGTATA36241 AAATACACTA AGCATATAGT CATAGGCATT TATTTGCTTT TGGAATGAAA TTACCAATAC36301 TAATATTCTG TAACACTTAT AGGAAACTTA GTGGCATACC TTGAAACTCT TGAAATTACT36361 TGTTTTTAAT GAGTGAGAAG GTTAAATGAT GACCTGACCT CAATCATTTC TGCATGCAAT 59 TATTTCTTGG CAATCCCTTT CTTTATAGAA ATCAAAGATT AAAAAGTCCA AATTTGCTAA36481 AACGGTAGAG TCCAATTTAT AAGAGACCAA ATTAACTATG GTTCATTATT AAAACATCAC36541 TTGGAAAATG CTGGCTGTTT TGGAATTGTA GAAGATTTTA CAGAAATATT CATACACCAA36601 AGATAGTGCA ATTTTTATAT AAAATTATAT AAGGTTAGAC CAAGAAGGAA GCACGCAGCA36661 CCACACTCTC TACTTCACAA TGTGAAAACT GAGGTGATGT GAGCCTAAGT TTCCAACTGG36721 CCCCAGCTGT CAGCTTCTCC TCCCCTGCCT TATTATCAAA GGCACTGATT GTCTAGCTCT36781 TCCTCTGTAC TTCCTACGTA GATCTATCAT TTTGATGTAA CTTGATTTAG GGGTATAGCT36841 TTTGTGCACA GGGACAAATC TTACACACCA AAAATTCTTA GGAGTGACAC GATGCAAGAT369 TATATAGAGG GCTAGATGTA TTTTAGAATG AACCAGAAGC TGTTCTCATC CCCCCACCTT TCCATGGGGT AAATCTGAGT ATTCTCTTAA CCGTGGCCCT TCCTGAGTCT GAGGCAGCAT37021 AGCCGTCTTG TCACTCCCTA CCTGTGTAAC AGAGGGCTGC CTTTAGTTTG TGGCAGGCGT37081 CATCGTTCCA TTTGCCTGCA TCTTTGTTTC TCTTGATATA GATCTCCACG CAGTCCTCCT37141 TGTTCTTCTT GTTGTTGGGC TCACCATCTC CCCAGTTCTC TGCTTCTTCA GTAAGAGATT37201 TGTTGGTTCC CACCCACGTC CATATTCCTC CTATCTTCCG GATTCCTATC CAGTAGTAAG37261 AACGACTGAA AGGCAGAGTC TTCTCCAGAT ACTCAATTTC CGCCTTGTTT TGTATGGCAA37321 CTAAATCTGT GTAATTGTCT CGGCAGAATC TTCTAGCCCT TTGCCAGTTC ATGGGTTTTT37381 CAGAATAATG GTAAGTCCAG CAGTCGGTTC CATGATGTGC CAGGAAATCT GCAAGACATC37441 AGTGTGACCT ATGCAGACTT ACATAATGTT ACAGCTAAAA AGAACCTAGC ACTACTCCAG37501 GCTGAGCTAG ACACTTAGAG ATGAGGAAAC AGAGCCTAAG AGTGTATGTG ACCATCTCAG37561 GATCACAGAA TAGTTGTTTG CAGATTTGAA GTAGAACCTA GACCTTCTGG CTTGAATATA37621 AGATGCTTTT ATCTAAGGTT CTATTTGAAA CAAATTTAGT GGTTTTCTAG GTTTATTTTC37681 TTATTAATTT TTTTCTCAAA ATTATTTCAG GTGAAATTTA ACCAACATAT TTTAGACATT37741 37 37741 CATATTTCTT TTTCTTTGTA GCTGTTAATG ATTTACAACT AATTACCGTG TAATATCATA37801 TAACTATACA ATTTACGTAT ACTTTTTAAT CCTGGAATCA TTTCTTGAAG GCCAACACAT37861 ATGTACCTAT GGGAGAAGCA TAATAAGGAC AGGAAGAACA GTGACATACT TTTAAGTAAC37921 CTCTTTTACA TAAAAAACAT TTTATTTTAC CATAGGAAGA ACTGCTTCTG GAAAAGCCCA37981 ATATACCACT CAACTCTTAT ATATCTAACT GTATAATTTT TAAAAAGAAC AATTTACAAA38041 GCCAAATGGT ATAGGATTAT GAAATTCATT AGATCATGTT CTATACACAA AGAGACTCAA38101 CTGATGATGT TTAATAAACA TATGGACCCA TCAAATATGA GGGCTTTGAA GATATCTAAT38161 TAAACACATA ATTACACAAT GACTTCATAA TAATATATGG CATTCTAAGC ATGGTATGAT38221 CTACATGAAT CACTATTTAA TACAGTAAAG AAACAGATAT AATTGATGGT AAAGAGCATC38281 ATAAAATAAA CATTTTGAAC AGAGTTTTGA ATGAGCATTC CACTAGAATG CAAGTTCTAA38341 GAGGGAAAAA ACTGTTGTGT CCACTGCTGT ATCCTTAGTG CCTAGCATAA ATTTCACACA38401 38 38401 TTGTAGGGAC TCAGAAAATA CCTGTTGTAT GAAAAGAGCA CTAAGTTTCT ATGTGACACA38461 GTGCAGACAT GGCATAAGGA ATGTGTGAAC GGGAGAGTTA GCATGTTTGC TTGGCTAGAG38521 CTGAAAATCC AGGCTAGGGA GAAAGAAGAC ATTAGTTTAC TTAGGAAATG AAAAACCAAG38581 TTCAAAGCTA TTGCTGGAGA GTCTTCAAGA ATCAGATATA AAATTTGTCA CAACAATGGG38641 AGAAGGACCA AAAAATGATA AACCCCCGTC CCTTAATAAG CTCGTATTGT AATTGTAGAA38701 ATGACATTAA TGTACACTGA ACTATGAATA AAAAATAGAA AATGAGGTGC TAAATATTTG38761 GTACAGATTG TAAGTACCTT AACAGAGATT TCTTAATTAA CATTATTCCT TTATAATTGA38821 39821 38881 TAGTGTTCAG GAGTTTCTGG GGAAGAACTA AAGGTAAGAA GAAAAGAGAT GTTTACAGAA38941 GGGATAGAAT TAACAGCTCT GTGAAATAAT TTTCCCTTAG ACTATGTATA ACTAGTGGAT39001 ATTTAAGAAA AATGAATATA AGTAAAATAG ACTTAGCGAT ATATAAATAT CATAACATAC39061 CACAACAGAG CATTGTCCAC CCCCACAACT TGAAGATGTT CCATAAGTCC CTCTGGGTGC39121 TCTGACATTT CCATGGAAAT ATCTGCAAAT GAAATACAAA ATTATATTTA GATGTATACT39181 CTTAAACCAC ACATTTATAG CCTTTGAGGT GGTGCTTACA ACTTTCTTAA TAATCAGAAT39241 AAAACACATA TGTCTACTAA CCCTGTCTGA GGTAACAGGT TTCTCAGACA TAGATGAAAA39301 ATTACTTCAA ATTTACATCA GAACTGATGC ACAGTTTTGT TTTGTTCTAT TTTATTTTTA39361 CGCTTTAGTC TCAAGTTGCT AATCGGTACT GCCCTGAATT TTTTCTATGG TTTGGTAATT39421 TTTATACCTG CTTTTCTGCT GAGCTATTAG ATAAAACTAT TTAATATTTA CTATGTATAT39481 TTTTTAAAGT ATTGTTGCTG CTTAATTAAC TATTGATGCT TATATTTAAT GTTATAGCCT39541 82601 CAGACACCAG GAAAGAAAAG TATTTCTTTT TTTAATAAAA AGAAATACCT TTTTGAGCAA39661 CTGAAATGAC AAAGTCACAA ATTTCCTGCA CACCTTAAAA TATACTTAAT GTAAATGACG 39393973 39393939393939393977 3979 39901 TCAAGAGTCT CCCCAGAGAC AAAGTCAAGA AGAGGAAATC AGCATATCTG AGAAGAAAGA39961 TTTCAGGATC ACTTTTTTTG AGGGTCTGAG AAAATGTTTA GTTTCTATAT TATTTAAAAC40021 CAGAATTGAA ATGGGGTGAT TCCTATCCTT GCCACCTGCC TCTACAACCC CAAGAGTTTC40081 TATCTGAGCA TCTAAACGTC TTTTAGGCTG AAAGGCTCAC CATGGCTTTG CTTGGTCCTT40141 CTCTAGTTCT TCTGCAGCCC ATTGAGCCTC TTGACTTAGC ACAAGGGTCT CAGGTCCTTG40201 CCCAAAGGGA GTGTGCTGTG CTGCAGGTAG ACTGCACTGA ATGTCAACAG AAAGCCTTGC40261 TTTCTTTCAT TTCTCTAACC CAGTCTCACA TCCTCCTCCT CCTCCCCTTT TCCCTCCCCT40321 TCCTCCTGCA CTTCTCTTTC CTCTTTCCCC ACCCCTTTCC TAGACTGGCC TCTATTGCCT 4681 CCCACTGAGA CAAAAATGAA CTGCTGATCA GAAAGTAATG TGACTAGATT CTCTCTTCCT40441 TCCCTCCTTT CTATCCTTCC TTCCATTCTC CTATGCATCT TTCCTTACCC TCCTCCTCCT40501 TCACTCATTG TTGTTGCTGT TCTTCTTCCT CTTCTTTTTC CTCCTGCTCC TCTTCTTCTA40561 CTTGTTCTTG TTCTTGTTTT TGTTTGGTTC TTGTTCTCCT CTTCCTCCTT CTCTCTCTCC40621 TCCTCCTCCT TCTTTTCCAC CACCCTCCCC TATCTTTTTC ATAAATGCTA AACTAACTCT40681 TGGCTACCTG TGGTAAATGG CCCTTGGAAA TTGCAAATAC TACAAATCAA AACTGCATTT40741 CAGACATATT TATGATGTTT GCAAAACTTC AGTAGAGCTA AGCAGTGGAC TTGACTCGTT40801 TCGGTTCCTT CACCTCCGTC TTTCCTTGCT CACCACCTAG TGGACGTCCT TGTTAGTGGC40861 ACTTCCTGAA GTTAACCCCT GAAGAGAGCC CATGCTCTCT AGCTTTTCAC CGTGTAGGTT40921 TGGGAGCCTA CAAGTACCTT TAATATTCTT GGACTATAAA ATGAGATGGT TTTATAAGAC40981 41041 AGTCAATGAG TCAAATGCAA ATCAGATTTG CATTTTTAGG AAAATAATAA TAACAACAAC 41141101 AAAAACTCTG AAGCTCAGCG CCCCATATTT ATTATATTGT TTAATCTTTA TAACAGCTCT41161 CTGCTATAGA TATGATTATT ATCCCCATTC TAAAGAGTCT CAAAGAGGTT AAGAAACAAA41221 41 TTCAAAAACT AGCGAAAGAC AAGAAATAAC TAAGATCAGA GCAGAACCAT AGGAGGTAGA41281 GACACGAAAA AGCCTTCAAA AAATCAATAA ATCCAGGAGC TGCATTTTGA AAAGATTAAC41 AAAATAGATG GACCACTAGC TAGACTAATA AGAAAGAAGA ATCAATAGAC ACAATAAAAA41401 ATGGTAAAGG GGATATTACC ACTGATCCCG TAGAAATACA AACTACCATC AGAGATTACT41461 ATAAACATCT TTACACAAAT AAACTAGAAA ATCTAGAAGA AATGGATAAA TTCCTGGACA41521 CATACACCCT CCCAAGACTA AACCAGGAAG AAGTCAAATC CCTGAATAGA CTAATAACAA41581 GTTCTGAAAT TAAGGCAGCA ATTAATAGCC TACCAACTAA AAAAAGCCCA GGACCAGATG41641 GATTCACAGC CAAATTCTAC CAGAGGTACA AAGAGGTGCT GGTACCATTC CTTCTGAAAC41701 TATTCCAGAG AATAGAAAAA GAGGAACTCC TCCCTCACTC ATTTTATGAG GCCAGCATCA41761 TCCTGATACT AAAACCTGGC AGAGACACAA CAAAAAAAGA AAATTTCAGG CCAATATCCC41821 TGATGAACAT CATTGCGAAA ATACTCAATA AAATACGGCA AACTGAATCC AGCAGCACAT41881 CAAAAAGCTT ATCAACCACA ATCAAGTTGG CTTCATCCCT GGAATGCAAG GCTGGTTCAA41941 CATACACAAA TCAATAAACA GAATCCATTA CGTAAACAGA ACCAATCACA AAAACCACGT42001 GATTATCTCA ATAGATGCAG AAAAGGCCTT GGATAAAATT CAACACCCCT TCATGCTAAA42061 AACTCTCAAT AAACTAGGTA TTGATGGAAC GTATCTCAAA ATAATAAGAG CTATTTATGA42121 CAAACCCACA GCCAATAGCA TACTGAATGG GCAAAAACTG AAAGCGTTCC CTTTAAAAAC42181 42 42181 TGGCACAAGA CAAGTATGCC TCTCTCACCA CTCCTGTTCA ACATAGTATT GGAAGTTCTG42241 GCCAGGGCAA TCAGGCAAGA GAAAGAAATA AAGTGTATTC AAATAGAAGA GAGGAAGTCA42301 42 42301 AATTGTGTCT GTTTGCAGAT GACATGATTG TATATTTAGA AAATCCCATT GTCTCAGCCC42361 AAAATCTCCT TAAACTGATC AGCAACTTCA GCAAAGTCTC AGGTTACAAA ATCAATGTGA42421 AAAAATCACA AGAATTCCTA TACAGCAATA ATAGACAAAC AGAGAGCCAA ATCATGAGTG42481 AACTCCCATT CACGATTGCT ACAAAGAGAA TAAAATACCT AGGAATCCAA CTTACAAGGA42541 ATGTGAAGGA CCTATTCAAG GAGAACTACA AACCACTGCT CAAGGAAATA AGAGAGGACA42601 CAAATGAATG GAAAAACATT CCATGCTCAT GGGTAGGAAG AATCAATATC ATGAAAATGA42661 CCATACTGCC CAAGGTAATT TATAGATTCA GTGCTATCCC CATCAAGCTA CTACTGACTT42721 TTTTCACAGA ATTAGAAAAA AACTACTTTA AATTTCATAT GGAACCAAAA AAGAGCTTGT42781 ATAGCCAAGA CAATCCTAAG CAAAAAGAAC AAAGCTGGAG GCATCATGCT ACCTGACTTC42841 AAACTATACT ACAAGGCTAT AGTAACCAAA ACAGCATGGT GCTGGTACAA AAACAGATAT42901 ATGGACCAAC GGAACAGAAC AGAGGCATCA GAAATAACAC CACACATCTA CAACCATCTG42961 ATCTTTGACA AAGCTGACAA AAAGAAGCAA TTGGGAAAGG ATTCCCCATT TAATAAATGA43021 TGTTGGGAAA ACTGGCTAGC CATATGCAGA AAACTGAAAC TGGATCCCTT CCTTACACCT43081 4384 43141 ATTCTAGGAG AAAACCTAGG CAATACCATT CAGGACGTAG GTATGGGCAA AGACTTCATG43201 ACTAAAACAC CAAAAGCAAC AGCAACAAAA GCCAAAATTG ACAAATGGGA TCTAATTAAA43261 CTAAAGAGCT TCTGCACAGT AGAAAAAAAA AAACTATCAT CAAAGTGAAC AGGAAACCTA43321 CAGAATGGGA GAAAATTTTT GCAATCTATT CACCTGACAA AGGGCTAATA TCCAAAATCT43381 ACAAGAAACT TAAACAAATT TACAAGAAAA AACAAACAAC ACCATCAAAA AGTGAGTGAA43441 GGATATGAAC AGATGCTTCT CAAAAGAAGA AGTTTATGCA GTCAACAAAC ATATGAAAAA43501 AAGCTCATCA TCACTGGTCA TTAGAGAAAT GCAAATCAAA ACCACAATGA GATGCCATCT43561 CATGCCAGTT AGAATGGCGA TTATTAAAAA GTCAGGAAAC AACAGATGCT GGAGAGGATG43621 TGGAGAAATA AGAATGCTTT TTACAGTGTT GGTGGAAGTG TAAATTAGTT CAATCATTGT43681 GGAAGACAAT GTGGCGATTT CTCAAGGATC TATAACTAGA AAAACCATTT GACCCAGCAA43741 TCCCATTACT GGGTATATAC CCAAAGGATT ATAAATCATT CTACGATAAA GACACATGCA43801 CACTTATGTT TATTGAGGCA CTATTCACAA CAGCAAAGAG TTGGAACCAA CCCAAATGCC43861 CACCAATGAT AAACTGGATA AAGATGATGT GGCACATATA CATCATGGAA TACTATACAG43921 CCATAAAAAA GGATGAGTTC ATGTCCTTTG CAGGGACATG GATGAAGCTG GAAACCGTCA43981 8644027 44041 44 CAGGGGATGT GGGGCTAGGG GAGGAACAGC ATTAGGAGAA ATACCTAATG TAGATGACAG44161 GTTGATGAAT GCAGCAAACC ACCATGGCAC ATGTATACCT ATGTAACAAA CCTGCACGTT 44281 CTGCTCATGT ATCCCAGAAA TTAAAGTATA ATTTAAAAAA AGTTTAAAAA AAGAAAGTTG44281 CCTTAGTCAC ATAACTAGTA AGAGACATGG TTGGGAATTT GAACAGAGGC CAATCAGTTC44341 CAAATCCATG CTCTTGATCA TTAAGCTGAA CTTATGGCAG GAACTTGGAA GACATGGTAA44401 AATGGGGAAA AACGTGGAGC CAGGGAGACT TGTGAAAGTG CCAGTGCTCC CACTATACCC44461 TGAAAGAAGT ATCTAGACTT ACTTTTTTCT AAGTCCTCTC CTCTAATTCT CTCAATCTCT44521 CTCTCTCTTT CTCTAAGAGA TGGGAATGCT GCTCTGTCAC TCAGGCTAGA GTGCAGTGGT44 GCGATCATAG CTCATTGCAC TCAAGGAATC CTAGGGTCTA GTGCCCCTTC TCCCTCAGCC44641 TCCCATGTAG CTAAGACTAC AGGCACATGC CCCAACCCTC GACTAATTTT TTTATTTTTT44701 ATTTTTGTAG AGACAGGATC TCACTATGTT GCTCAGGCTG TAATTCTGTC TTGAAGCTTG44761 TCCAATCAGG CTTTCAGCCA CACCAATTCC CTGAGACTGC TCTCACCAAG GTCCTACACT44821 TCACTAACAC AAACAGCCTA TTCTCCATCC TCATCTTACT TCACCAGGGA GCTCCTGGTT44881 TTCCTCCTAC TTCACTGGCT ATTTCTTCTG TATCATGTGT TGATTCTCCC TCATCTCCCC44941 AACCTCCAAA CCCTTGGAGT ACTCCAGAGA TCACCGCTTT GCTCTTCTGT GTCTAACCTC45001 ACTAACTTGG TGGTCCAATT CACACTCTTG ACTTTGAATA CCATTTAAAT GCGAACGAAT45061 TCTAAATTCT GTACAACCAG AACCATTCTC CTGTAGCCAA ATGCCTACTC AACATCTCCA45121 TCCCCAAACA AATTTAGTTG TTCAATAAGC CTCTCATATT TTACATATCC CAAACTGAAC45 TTCTGAATTT CTCCTCCAAT CTGTAGGGCT CTTCCCACAG CCTTTCCATC TCAGTGGATT45241 ATAACTCCAT CCTTCCAGTT ACTCAGACCA AAACTTTTGG AGTTAACTGA GACACCTCTC45 TTTTTTTTCA CAAGTCATAT CCAATGTGTC AACAAATTTT GGTAGTGGAA ATATTGCGGG45361 ATTTTTTAAG AAATCAGAGA GACCGATGGG GTTCAGGAGG ATATTTATTA TTTAGGTGCA45421 CTGGCCAAGT CAGATTAACA TCCAAAGGAC TGAGCCCTGA ACAAAGAGTT AAGTTACCTT45481 TTAAGCATTT TGTGGGGTGG GAGAGAGGGG TATCTGTGCA GGGGGAAGCA TACTACAGAA45541 GTGAGAAATA AAGACAGTTA TTCAATTAAT TGAGACATGC ATTACATCAT TTCTTACTTT45 TCAAGAAGAA ACATGTTTTG CGACTTGAGT TTATCTGTCT AGTGACCTTG CAGCTGCACA45661 GCTAGAGAAA CAGGGTCTTC ACAATGCCTG GGAAAGGAGG AGAGGTAAGT CTCACTAGCC45721 ACAGAAAAAC AGGCAGTTAA TTTTTAAAGG GCTCCAGCTC TTTCTCTTTC TCAGGGGGAG45781 TTGGGTTTTG TTACATACAA CTGAGTTTCC GCTTACACAT TATTTAATTT CTTTTAATTC45 CTGTTCCAAA AGAAGCCAGA TACAAAAGGT TACATGTTGT CTGATTCCAT TTATATGAAA45901 CATATAGAAG AGGTAAATCC ATAGAGACAG AAAGTAGATT AGAGGTTCCC AGGGGCTGAG45961 GAAGAAATGG GGACTAACTG CTTATAGGGT ACAGAGTTTT CTTCTGATAA AAATATTTTG46021 GAACTAGATA GACATTTTGT TAGGCCATTC TTGCATTGTT ATAAAGAATT ACCTGAGACT46081 TGGTAATTTA TAAAGAAAAG ATGTTTAATT GGCTTACACT TCTGCAAGCT TTACAGGAAG46141 CATGGTGCCG ATATCTGCTC AGCTTCTGGT AAGGCCTCAG GAAGCTTACA ATCATGGCAG46201 46261 GAGGTGACAG TCACTTTTAA ACAGCCAGAT CTTGTGAGAA CTCATTCACT ATCATGAAGA46321 CAGTACCAAG AGGATGGTAC TAAATCATTC ATGAGAAACC CCACCCTCAT GATCAAATCA46381 CCTCCCACCA GGCCCCACCT CCAACACTGG GGATTACAAT TTGACATGAG ATTTGAGTGA46 GAACACGGAT CCAAACCATA TCAGAGATGG TGGTTATACA ATGCGATAAA CGTCACTGGA46 TTGTACACTT TAAGATGGTT GTTTTATGTT GTGTGAACTT CACCTCAATA AAAAAAAATA46561 TTTAATGTAC ATTCAGCCAA AAGAAGATTT GGAATAGGAA AGGTCATGGA GATATATTAA46621 CAGCCATTTG ATGGGTGGTA AGGAAAAGAG TGGTTATTAG ACTGTTTTGT GGCCCTCAAA46681 AGGTAGAACT AGATCGAGTT GGTGAGCATT ATAAAACCAT CACAAAACCC TGGAGAGAGG46741 ACCCAGTGCT GAAGAACCGT TTGCCTGCCA TGAGACATGA GGGAAGTACC AGTGAATGCC46801 ATTGAAAGCA GCATCCCTGG GTCCAAGGGA TGGTCAAAGG ACCACTACCC AACCCTTCCC46861 TAGCCTACGC CTCCATTACA GATGACCGCA AGATTTATTT GCTCATTGCT GCCAACCAAG46921 GCTGCACTCA CTGCAGTTGC TATCAGTTTA TCATGGGTAA AAGGAATGTG CAGTAGAGAA46981 47041 TCCTTACATT TGGCATGTAA GCCCCTCTTA CTGTCTGTCA TCTATCTCCT ACACAGTTCA 4758 CTGGGATTCC TGTCTTCACC ATCACCAAAC TCCCCTCAAT CTTCCAGTTT CCTGTTCAAA47221 CTTTTCTCCT ACCTCCTTGC TTTGTCATTA GCCCGACTGC CTCCCTAGGA CATCACTTCC47281 CCTGCAGATC TCTCAAGATG ACAATATTTA TTCTCCACAC AGCACATACT TCAGGGTTGG47341 AAGGCAGGGG CAATCTTCTC CTTTATAATG AGTGCCTCTT ATATATGTTT ATTCATCTGC47401 4729 47461 TGAAGCTTGT GACACTGAGA TAAACCATCT CACTGTCCTC ATTGTAGTGA CCTCTCAACT47521 4742 47581 TCATAGTCTT ACGGGACTTC ACCATCCATG GCACAACCAA TACCACAGCC CAGATCCTCA47641 GCTCTCCAAT GACATTTTCC TCCACTAGAC TTGAGCTACC TCCTTCCCTA GGCACAGCCT47701 CAACCTCGAC AACACCTAAG ACTGTACCGT CTCTAAAGTC ACATGTTCAA ACACTTCACT47761 57361 47 CTTTAACCAC TGTCTCCTAT TCTTGCAAGT GTATTGCTCA AGTATCTCAT TGCAATGCTT47821 TTTACTTCTA CCTCATTGAA CCTCCAGGCC ATTAAACATT TCCTTATTTC TAACCATCAG47881 GTTTCTCCTT ACTTGTTTGT TTGTTTATTT GTTTCTTTTT TTTTTTTTTT TTTGAGACAG47941 GGTCTCACTC TGTTGCCCAG GCTGGAGTGC AGTGGTATGA TCTCGGCTCA CTGCAGCCTC48001 CATCTCCCTG GTTCAAGTGA TTCTCATGTC TCAGCCTCCC GAGTAGCTGG GACTACAGGT48061 GCATGCCACT ACGCCTGGCT AAGATTTTGT ATTTTTATTA GAGAAGGGGT TTTGCCATGT48121 TGGCCAAGCT GGTCTCGAAC TCCTAACCTC AGGTGATCCA CCTGCCTCAG CCTCCCAAAG48181 TGCTGAGATT ATAGGCATGA GCCACTATGC CCCACCTGGT TTCTCCTTAT TTATTTCAAG48241 TCTATGCTGC ACTATTAAAA CTGCCTTGAC AAAAATTATA ATAGTGAGAA AATTATGACA48301 GTGAAAGAGA TCTGAAATAA TCAACCCCCA TCTTGCCTTT ACCTTCCAGA CTGCCCTTAA48361 TAATTCCTGA GCTTGGGCCA AGCTATCTTT GGCAGAAATT TAGTTTATAG TTTAAATGAT48421 AATAGCCCTT CTCCAAAACT AAACTGCCTT TGTAAAACTA ATAAAAGACC ACCAATGAAA48481 GGTTAGGAGG ATGAGAGGAG CCTGAATTCT GCTAAGGTGT AGATGTAAAC AATTACCAAC48541 TGTTATTCCG GAGGTCACAA GATTTGCAAC ATCGCCAATT ACTCCTGCAG ATAACAGCAC48601 TATCATAGAA TCTGATTGGC CTTTTGAGAT GTCTTTTCAG ATTCTTACAT TTCAACTGGT48661 GGCTCTACCT GGACCCATCA ACAAGTCCTG TGGCTCCACC CAGAAGCAGA CTTAACATGC48721 ACAAGGACCA TTTTCCACAC CGCTATGATT GCATCCCAAC CAATCAGCAG CAACCATTCC48781 TCTGCCTGCC AAATTATCCT TGAAAAATCT TAGCCTTAGA ATTTTGGGGG AGGCTGATTT48841 CAGTAATAAC AAAACCCCGG TCTCCCATTT GGCTGGCTCT GCATGAATTA AATTCTTTCT48901 CTATTGCAGT TCCCATCTTG ATAAATCACC TTTATCTGGG CAGCAAACAA AAGGAACCCA48961 TTGGACAGTT ACACTGTTGG CAGATATATC TTGCTTCCAA AATTGGATTT TTGTTTAATG49021 AATTTATTCT GTTTTCTTGA TATTTACAAC TGTGAATGTT GTGTCTGAAT TCTCTTTATT49081 TCTTGTTGAA AAGAACTATA TTGCTACAGC CAGTACATAC AGATGGATAG CTAATTACTC49141 AACACGGGGG GATGTGACCA TCACCGCACT GTGCAAATGA ATGTTACCCA TTGTCCACTT49201 TTCCCAAACT ACATAGTGTT ATATGGTATA TGACCCAATC AACGGTGGCA AAGCTCCAGA49261 AATACCACAT AGACATCAGG GACACTTTAA ACTAATCAGC CTATAGTCCT TTTTCAGTAA49321 5849324 49381 CACGCAACAT TCGCTCCCAA TCCTACTGAA TCAGAATATT TTGGGTTGGT TCAGGAACAT49441 TCAGGAGTTT TTCAGGGTCC AAGGTTTATA TAATTTGAGG TCTCTCTTTG AGAAAAGGAA49 CGTAAAAGCG TCTTGCTTTT ATAGATCTTA CAAAGATGTA TTACCATGTA AACACATTCC49561 TAGGACCCAG GCCCTTGTAA TTTAAAGGTT TATCTAAGTA ATGGGCCCTG AAGCTTAATT49621 TTCATTATCT TCAGGGCAAA TTACCTGTGG GTTAGGGTTT AGGAATATAT CTCTCTGTGT49681 ATGTGTGTGC ACATTAGCAT GTACGCTTGT GTGGATTTTT TTTTTTTTTT TTTTTTTTTC49741 TGAGACAGAG TCTCGCTCTG TCGCCAGGCT GGAGTGCAGT GGCGTGATCT CTGCTCACTG49801 CAAACTCCGC CTCCCAGGCT CAAGCGATTC TTCTGCCTCA GCCTCTTGAG TAGCTGGGAC49861 TATAGGCACG CACCACTATG CCCAGCTAAT TTTTGTATTT TTAGTAGAGT TGGGGTTTCG49921 CCATGTTGGC CAGGATGGTC TTGATCTCTT GACCTCGTGA TCCACCCGCC TCCACCTCCC49981 AAAGTGCTGG GATTACAGGC GTGAGTCACC ATGCCCAGCA CTTGTGTGGA TGTTTTAAGC50041 TCCCAGGTGA GTGAATACAA AACTAGATCT TTCCCTTCTG TAGCATCTGT ACTGTTTACT50101 CTATGCATCT CAATATTTTT TCTTTTAGTA TCTTTCCTTT TTCTCTCTTA TTACTTCCTC50161 TTGTGCTATT TTTACACCTC CTTTTTTAAA AAATTTTTTC CCTTTTATTT CTATTGACCT50221 TTAGCCCTCA CAATGATTCC TACAAGCCCC ATTTCTGTAA ATGGGGATTG AAATAATTGC50281 TGGACTTTTG AGAGATAGAT ATATTAAATT GCAAACTGGC AGTAGTGGGG GCAGTTGATA50341 CATAACTAGG TTTTAAAGTC TAGCCTTCTG AGACCACTCA TTCCATTTGT GAAAAGTGAT50401 TCTACTTCTT ATTATGAGCC AAAATATGCA TTCATTCACC CATGCATTGA TTTATTCATT50461 CAATAAATAT TTGTTGGATG TCCACTCTGT ATCAGGAATG TGCTAGGTTC TGGGAATACA50521 GCAATGAACA AGGTAATTTT TCCCTACCCC TAAGGAACTT AGAGTTTAGT GGGGAAGACA50581 GACATTAAAC AAACAATTGT GCAAGTAATA ATCTATAATT ATTTATTACA ATTAAAGGAA50641 GGAAGAGACA TATGGATTAT GAGGGCATTA AAGAGGAGAC CTAGTGTAAG TAGCCAGTTC50701 56 50701 TCGTGAAGGG ACATGTATTA GTTGGAGTTC TCCAGAGAAA CAGAACCAAT GGTGTGTGTG50761 TGTGTGTGTG CGTGTGTGCG TGTGTGTGTT GGGGTGTGGG GGTGTGGTAT TTTTTATAGA50821 AATTGTCTCA CACAATTATG GAAGCTGAGA AGTCCCATGG CCTGCTGTCT ACGAGCTGAG50881 AACCAGGAAA GCCAGTGGAA TACTTCAAAG TCCAAAGGCC CTGGAACCAA GAGTGCCAGT50941 GTTGGAAGGC AGGAGAAGAT GGGTGTCCCA GCTTAAAAAG ACAGTGAATT CACTCTTTTT51001 GCTCTACATA GGGCCTCAAT GGGTTGGATC ATGGCCACCC ACATTGGTGA AGGCAATCCT51061 510 51061 CTTAGTCTAC CAATTAAATA CTAATCTCTT TGGAAATACT CTCACAGACA CACTGAGAAA51121 51 51121 TAATGTTTTA TCAGGGTGAT AGAAATCTTC TGGAGTTAAA CAATGGTGAT AGCTGTACAA51181 51829 51181 TCACATACAT TTTTAAAGGG TGCGTTTTAT GGAAAGTGAG TTTTATCTAA ATAAAATTTC51241 TAAGAAAGAG ACTTAACACA GAGATAAACA TAAGCACATT TATTGTCAAC CTTTATAGTG51301 51 51301 TTATGTCAAA TAGGTCTGAC ATAAGCTTAA ATAAATATAT ACTTTAAAAA TTATAAAATA51361 TTTTAAGTTA TAATTTAAAA TTCTCAATAA AACTCAAACA CAAACCACAC TGGTATTTCA51421 51 51421 CACAGCTAAT TTCTAATGCA GTTTACATAA ATATTTACAA CACTTAAACA ATTTCAAAGA51481 AAATAACACT GTATTCCATA CATAGCCTGA TCACAGTAGT TGTTCTCTCT TATTTCCCAG51541 AGTTTTTCTG CCCCTTTAAA AGAACCTCTG CTGTTCTGAT CCTTATCACA TCTCTGTTTT51601 GACTGTTGGC TTTGTTGTTG CCAGTGTTCA GCCAGAACTT CTCTGAAACT TTTTTTTCAA51661 CACATGCTAA GTTAATGGAA GTGTAGGAGA GTTTTGATTC TCACACTCCT CAAGGCTAGA51721 GCAGCTTTGG CAATTACTGA CTGAGAATTT TTCATTGCCA GTGATCAACT GAAAACTGGA51781 GATTCCTTTG GAATTGTTAA ATCTGCTTAT AAATAAACAT AAATGCTTGC TCACACAGGC51841 ATTCCTCTCT TCCAGAGCAC CCTAACATAC AGAAGAAAAC AAATAGGGAA TAACTATTAG51901 5135901 51901 ACATCTTCAT TCGTTAAAAA TCTACCAGAT GACTCTTTTA CATGGTGAGT TTCTATTGTG51961 AATTTAAAAT CTTCCATAAT ATACAAGAAT TATGTTTACA TATCATATCT GACAAACATC52021 TTTGTAGGAA TGCAAAGCAC ATCCATCTTT CTGTATTCTT TTCCAACAAA GACATTCATA52081 AAATTATACC TTTGTGTGTT TGCATTTATG CTTTTATTAG TTCAAAACGT TTGGCCTCAT52141 GGAAGTTTTT CATCGTGGAA ACCACATATT TCTGAAAAAA TATCTGACAA TATACAAACC52201 TTCCATTCAG TTTTTACTCT CCAATTCTAC CATGTTTTCA AAAAACAACT GTAGTAAAAA52261 CACTCAGAAC TTTATTCTGG TTAACATCAT GCCTTGCTAG GGGACAATAG TTTCCCTTTT52321 TGAAATAAAT TTAAAACAGA TGTAACATAA TTTGTTAATA AACAATGAGG GGGTAATCTA52381 GAATAAGTAA CTTTTACCAT ATCATAGTTG ACAGCATTTA CAAGTTTTTT AAGTCCCTAC52441 CACACTTGTA TTGAATGAAG AAGTATGGAA GATTATAATA TATTCAATGC AAGTAAAAAT52501 ATCACAATCC TTAAGAACTC TTTAAGAAGC ACTGAATCCC ATAGGGATGA AAGTGATTAA52561 ATTGTGCATA GTAACCCTCG CACAGAGCAT TCAGTAGGAT TTGCACCATT AACAACCCTC52621 CATGCATTTG CCTGTGGGCA TTCAACATCT GTCATTTTTT TAAGTTATAA TATTTTTAGT52681 CATTTTTTTC CTCTAAACTC TGGATAATTA TTATTCATTC TTATGACAGC AACTGTGTAA52741 TCAGCTGTCG AAACACTGTG AAGGGCAAAA GAAAGAAAGC CACAAAATAT TGTGTTTCTG52801 TGCCAAGATT TTACAGCGAG CAAGGGAGAG TTAGAAAAGG AATTCTGAGA TTTCAGAGTC52861 TTGGTCTCTT CACCTTTGCT TGGAAGAAAA TATCCTTTCC CTTCATTAGC CAACACTTTC52921 TTGATCCTGA GAGTAGGAAA GGGAACACTG AGTCTTTTCA GTTGAAGGCC GTCCTTGCCT52981 GCTGGACTTT GATCTATTGA AGTGGTGATG GGTGTTGCGG TTTCAGCCAT AAAGGCATCT53041 GGCATAGTAG GCAAGAAGGG CCAGAGACCC GAGGAGAGTT ATCTGTCTCT GTTAACTTCA53101 5327 53161 AGAACACTTA ATATTCTGCA TACTGATCAT GACAACAAAA TGTACCTTCT AACACAGACA53221 CTCTCACTAG GATAGACCAT GTAGGAACAT CGAATTCTAT TCAGTTAGGA CAGTGATGAT53281 GTCTACATAT TATACCTCTG TCAAAACCTA CAGAATATAC AACACAGCAC AGAGTGAATT53341 CTAATGTAGC CTGTGGACAT TAATGAATAA TAATGTATCA ATATTGGCCC ATCAGTTGTA53401 ACACTAATAT AAGATGTTAA TAACAGGGGG AATTGAAGGG GTGGTGGGGA GATATGTTGG53461 AACTCTTTGT GCTTTCTGCT CAATTTTTCT GTAAACTTAA AACCGCACAC ACAAAAAAAG53521 TTATTTTAAT TTTTTAAAAA GTATTCAGAG GGACTTGACC TTTCCAAATT CTCTCAAAGC53581 AGGTCGGAGT AGTTAAGAAC ACAAATTTTA GAACCAGACT GCCAGAGTTT GAATCCTGGC53641 TACACCACTT ACTAGCTTTG AGATTTCAGA CAATTTACTT AACTTCTCTG TCTCATTTTC53701 TTCATCTGTG TGATAAGAAA TAAAGTAACA GGCCAGGCCC AGTGGCTCAC GCCTGTAATC53761 CCAGCACTTT GAGAGGCCAA GGCGGGTGGA TCAGGAGTTC AAGATCAGCC TGGCCAACAT53821 GACGAAAAAA TACAAAATCT CTACTAAAAA TACAAAAATT AGCTGGGTGT GGTGGCAGGC53881 ACCTGTAATC CCAGCTACTC AGGAGGCTGA GGCAGGAGAA TTGCTTGAAC GCAGGAGGTG53941 GAGGTTGCAG TGAGCCAAGA TCATGCCACT GCACTCCAGT CTAGGCAACA GAATGAGACT54001 CCATCTCAAA ATTAAAAAAA AAAAAAGTAA AAAGAAAAGA TAAGAAATAT AGTACCAGCC54061 CCTATCTCAG AGTTCCTAGC TTAGAAAAAT TCCCAGAATA TAATAAGTGC AATGTAAGGG54121 TCAGCTATCT TCATTATTAT TATCTATCAT AAATGAAATT ACACAATAAA GCTAGATCCG54181 86241 54 ATTTCTCCCC TGCTCCCTCC CTAAGATATT GGCAAGTTTG GAGGGTTCAA GGAGAAACAG54 AGCATGTAGA GAAGATACCT CTCTCATAAC CATTTGTGAT TTACAAGTCT TACCTGATTC54 TTTTGAACTT AAAGGATGTA AGAAGGCTTT TGGTAGCTTC CATCTGATTC AAGGCTTTGG54421 CAGCTGCTGT GGAATACATG AGAACACTAG GTAAAGCACT GTCTTCCAAC ATGAAGAGAG54481 AAAAATATGT GGAATGTTCA ATGGCATGCT TTGTATAAGA ATGCAACTTA CCTGGCAGGA54541 ACAAATTTCT TTGCTGCAAA AGAAAAGACA AACAACCATT AATTCAGACT AAATGACTTT54601 TAAGGATATA TTAAATCCAG ATACAATATG ACTTAATTCA TCAAGTGTTG CAAACTCGAT54661 GCTTCAGGGC CTCTGTAATA ATCAGAGCAC AAGCATGGCT CTGTGGCATC TAGGGTAAAA54721 3954781 GGGTCATCTT GCCCAATTCA GCTCCCAATT TTTCATGAGA AGTCCAAAGT CTTAATTTAA54841 ATGTGAGATT TCCTATTTTG TAAACGTCAG AACTTAACTC AAAAATGTTT TAAGTACTCT54901 TAAACATGTA AGCCAAACAA ACCATGAGTG TAGTCAGATG TGCTTCCATA TTCCTTATGA54961 GAGACTCTCA AATTTAAGCC TGTACTCCAA ATAAATCTCC TTAGGAAGAA TTTTATCCAT55021 TTTCCTTAGA GTGCTCATCA TGGCAGTTCC ATTGCACAAT TCCGGGAGGC ATCATATAAT55081 TCAACATGAA TAGCACCCCC TGGAGTTGTA CAATATTAGG CACGACTAAC ATTTTTATTT55141 55201 TTATACTGCA TTTTATCCAG ATTCTAATTA TTGTTTAAAT CAGTAAGCAA GACCATGACT55261 TATCAATGAG AAAGAAATGT ATTTTCAAAA ACATTTTTGA AGTACATTCA TAAACTTCCT55321 CACCTTTCCG TAAGCATTTC CGAAGCCAGA GGAGAAATGG TGCTAATGTC AGGAGGGAGA55381 GTCCAGCAGC AGAAAGTCCA GCTACCAAGG GAATGTTGGA CTCAGTGGGA GCTAAGGAAG55441 TAAGAGACGA AGAAAGGTCA TGAGGAAGAA TTGATGTTAA AGTCTCTCCG TCCTGTCCCT55501 TTGGCCTTTT TTCTGTACAT TCATTACTAG GAGCAGAAGA GCTATCTAGT TTAATACAAG55561 AAGCAGAGAT GTGGCATTAC AGGCCTTTGA GATCTGCTCC AAGCCACCTT TGAAGCTATT55621 TCCACCATTG GCAGGCAGAA CTCTAACTTG CCAAGCTCGT TCACAATACC ACACCACACC55681 TTGGTTAATA AACACTGCAC TTGCTTGCTC TCTTGCTCTC ACTCCCTCTT GTTTTCCATT55741 55801 CATCAACATG CAACTTCTGT TTTTTCTCTA TCCCCATACA ACTTAATATT CACAACTTGT55861 CAACCTGGGC GAACTTTCTG GTTTGGATAT AATGAATAGT TGATTACTGT AACAAGATAG55921 CTCCCCCTTT TTCTTTTTAA TCACCAGACA ACCACCATCA ATCAATGCAT CACCTTCACA55981 GGTAGGTAGC AGGCCAGACC AGTGTCCTGT GGCTCCACAT GTCCGAGCTG CAGAGCCATT56041 GAGCGTCCAT CCTTCAGGAC AGGCGAACTT GCACACAGTG CCAAACACGG GCTCCCCACT56101 GCAGCTCATG TTGATCTTTC CCGGAACTGC CAGGCTTGAA CATTTTACCA CTGCAAATGT56161 TAGGTACACA GGCAGAGTTT CAGAAAAATC TACTGGAAAA CTTCCAAAAC TTGCTTAAAA56221 GTCAACAATG AATGTAAAGT GTAAGCGCTA CTTAGTTTTC AGCATGTAGG AAATTAGGAC56281 CAAACCCCTT TGGGGCAATC TAGGTTCAGA AACTTTATGA AGTATTTGAC CTGTACCCTA 5656565641 AAAAAGTCTG CACTCAATTC TACCTTGGCA GGAAGGAACC TCTTCTGTCC ATTGTCCCTG56401 AGATGTGCAC TCAAGTTGAG TTGATCCATG TAATTCAAAT CCCTCCTCAC AGCTGAAGGC56461 ACAAGAGGAC TTGTAGGTGA ATTCTCCAAT AGGGGAATGA GCACACCTCA CCAAACCCTT56521 5624 56 GTTTGTTTGC ATCTCCAGCA ATACGTTTCC CAAGGTAACC AAGTTCCCAA GCTCTTCAAT56641 AGTTCTTTTT ATCTTAAAAT AAAATAAAAA CAAAGACTGT ACCTTCACAT GTGGGCTTCT56701 CGTTGTCCCA CTCCCCTGTG GGGCCACATT GGAGCCTTTT GGATCCCTTC AACACAAAAC56761 CCTGCTCACA GGAGAACTCA CAGCTGGACC CATAACGGAA ACTGCCAGAA GCACTAGGAA56821 GACAATTCAT GTAGCCTCGC TCGGGGTTGG ACAAGGCTGT GCACTGGAAA GCTGAGACAT56881 CAAAATGATG GTCAGAAAAT ATTGCAGTGG AACTAGAGAG TACTTGGCGT TTGTTGAGTG56941 AACCCAGTTC ATTCAAGCAA CACTTGGAGA ACTGAAGATT CTTTATAATT CCCTGGACAA57 ATGGGAAGAT GGCTGTGTTT TCTTTGAATT TCAGCCCCCT CACTGATCAT GGCACTAATT57 AAAAGACTAA TTAATCAGAA CATTAGTTCC TGAGCACTGT TCTTCTAACA CACAAAATAA 57061 57 ATTATGGTCC AAGGAAAGAT TTCACGCAGT CTGAGGACAA CATATGGGTC ATGGATGTTT57181 5758 57 TTTGGTTTTT GTGTTATGTT TTGCTACTGG AAATCATTCT GTGCTGGCTT TGGCTAGGAC57301 AAGGCCAGTG CCTGATAGTA AAAACTGCTT GTTTTCAATA TCCTTGCTCT CACTTTAAAG57361 TGAATTAAAA TTTACTGCTT ATATATGCAT CAATACTATC TCTGTAGCTG ACACCATGCT57421 TGAAACAGTC TCATCACTGC TAATTATGAG CCATTTCAGA AGACAGGTGT GATGAGAGTT57481 TTACATTCAA ATCATGTTCT CATTATTCTG CTTTCCGAAT TTTCTAATAT GATTCCTTTA57541 GATTAAGAAT TCTGTCTATT CCATGCTAAT GTCTACAAAG TTTTATCAGC ACATCACAGT57601 TAAAAAAAAA CAGCAAAGAA TTCATTCTTA ACACATATGA TCCTTTCCCT GGCCAAACAT57661 TAGTTCTTTT AAATGAATCT CAAAGATACG AGGGTTGCTC ATCAAATCTG ATTTCTATAG57 TTAAAGTGGG TATTGGTTTT TTTTTTCACT GTCCAAGTTT GAAGATGGTT GTTCTTTAAG57781 AAAGTATAAA TCGAAGGATC TCAAGCTTAC CTTCACAAAC TGGGATTTGC TGTGTCCACT57841 GCCCTTGAGT GGTGCATTCA ACCTGGGCTG GTCCCTGCAA CATGAAGCCT TCCTCACAGG57901 TGAAGTTGCA GGATGATTTG AAGGTGAACT CTCCAGCAGG GGAATGGCTG CACCTCACAG57961 AGCCATTCTG AGGCTGGCGG ACGGCCCTGC ATGTCACAGC TGTAACAAAT ATACGCATTG58021 ATATTAGCAC GGCCTAGAAT TAGCTTGCCC ATTTCCAGTA TGGGTTGAGA GAAAGAATGT58081 TCACAGTAAG TCTCCATGTG GAACAACTCT ACCTTTACAC GTTGGCTTCT CGTTGTCCCA58141 ATTCCCAGAT GAGGTACACT GAAGGCTCTG GGCTCCCATT AGTTCAAATC CTTCTTCACA58201 GTCAAATGTA CAGGTTGTGT TCCATGGGAA GCTTCCAGGG TTTTGGAAAC ATTCCACGAA58261 CCCATTGGCT GGATTTGTCA CAGCATCACA CTCAACCACT GAGGATTTTA AAGAGCACCA58321 TGAATTTTAC AGAAGAATGA TCTTTTCACT TCCTATTGAG CTGGGTGCCT AACAGAGTGA 381 GGAAGCTGCC TTCAAAGGGT AGATCCCAAA GTCCTATGTC AATTCTTAGG GACATGCACA58441 GCCAGAATAA AAGCTTTTAT TCTTTTTCAT GGATATTCTA TCTTTTCTGA TTTCCACTTT58501 GCCTATGCTG AGTGGTCTCT AATCTATGTT ATCATTTACG TGAGGTAAAA ATTTAAAAAA58 AATAGATTCC AGATTAGGAG TTATGACTAG TACTGACATA CGTAGGCTAT TCATTTATTT58621 TAGCCCATCA GAGCCTGAAG AACTGATTTT TCTTTTTTTG GCCTCTGGTT CAGAAAGATA58681 AAATTAAGAG AGAAAAAGAG ATACTAAGAC TGCTTGACTA TCATGGTCTT AAGTTAGTCC58741 CATGGCTTGG AAAAGTTAAA CAGGGAAACA AGATGAGAAA TCCATTGAGA TTTCTAGAGC58801 TTTATTGTTT TATGGTCTCC CTTACAAATC ACCAGAGCCT CAGAAACACC CATTTCAAGC58861 ATAGAATAAA AAAACCTCTC TCAACCCAAG CAGGTACTGG GTTGGCAATA TACATTGGCT58921 GAGAGAACAA ATTGTATTAA AAACAAAAAC AAAAAAAAAA CTTTCCCTGA AGTTTTGAAA58981 ATGTAAGTTG AATCAAAAAA CAGAAGCAAT GAGGGATGAG TTACAGAACG TTCTGTGCAT59041 TCTCAGAGGG ATTTACCATT GCAGGCTGGA ATAGGAGCAC TCCATTCTCC AGAGGACATA59101 CACTGCATGG TCTCCATGCT GCTTGGCAGG TAACCCCTAT CACAGCTGAT AGAGCAGGAA59161 GAATTGTAGC TGAAGTTTCC CAGTGGGTGA CTGCAAACCA GGCTTCCATG CTCAGGGGAT59221 TCCAGGGCTG TACAGTTCAC AACTGAAAAA GAAACCCAAA TCAGTTCTGC TCATCTCTCA59281 CCTTTAACAG ATAAGAACAC TGGAAACTAG AACTACAGTT TGGTTTTTTT TTTTTTTAGT59341 TTAAAAATTT ATAAAATTTC TAATGGAATT TGTAAAATTG ACTGTAATTC TACCCCTTTT59401 CTTTTATTCA AGAAAATGCT GATCCATAAC AACAACAACA AAAAAGCAGT GATGACAACC59461 ATAAAAAAGA AATATTGAGT GATATGGGGA GAGTAGTGTA ATTGTGTTTA CCTCAAAACT59521 GTTCAAATTA TATGAACAAA CACAGCAAAC TTAGGTACCA CAACAAATTT CTTGTTACTT59581 TTCTCACAAC TGCTAAAAAT ACTACAGTAA GCTTCCAACC AGGATGAGAA CCATTCACAA59641 AGCTATATTT CAAATTTAAG TACTAGAATA CATTACAAAT TTTAAAACCC TAATGCTGCA59701 695 59761 AATCAAATAA CATTTAAAAT TCAGTTCCTC AGTGTCACCA GCCACATTTC AAGTACTCAA59821 TAACCACATG TGGCTCATAG GTACACACTG GAAAACACAG CTATGGAACA TTTCCATTAT59881 CACAAAAGCT CTACTGCACA ACGCTGTGCT AAGGAATCTT GGAGAGAAGC TCATCTAACT59941 CTCTTAATGT ACAAATTTAG GAACTGAGAC CTCATTTCAT TCAAGTGACT TGCTCCATGC60001 87461 GTAACTCACT CATTTCTACT GCAACGTCTT GTTACCACCT AGATGAGGTG AGTACATGTT60121 CCTCGCAGGG ACACAGAATT ACAGTTTATT GAATGTGTCC TGTGTGCCAG GCACCATGTA60181 ACCATGAGCC TATGAAGTTC ACACTATTAT TATCCTCATT TTACAATGAG AAAACTGACA60241 TAGAGAGTTA AACTATCTTG TCAAGGTGCC AAAATAAATA ACTGGTGAAT CTAGGACTCA60301 6027 60361 CCAGGGAAGG GAAGGCATGC AGACCTGACT CTAATGCCAG CTAGGACGTG AGATGGTGCT60421 ACCATCTCAA GTGAAGAAAG AGGCAAGAAC CAGACTTACT TTGCTCACAC TTGAGTCCAC60481 TGAAGCCAGG GTCACACTTG CAAGTGTAAT TATTGATGGT CTCTACACAT TCACCGTGGC60541 CACTGCAGGA TGTATTGGTA CAGGCAGCTA CGGAAAATAC AAAGCATGAT GAGGAGGACT60601 ATTACTGTGC TTATACTGAG TGCCTTTGAT TTTAGAATCA ACAGTGTGCA ACAGAGACAT60661 CAGCAGTCCT ACAGAGTGCC ATAGACTTTA ACTGAAGTGT TTTACAAAGT TCCAAATCTG60721 AGTTTCAGGC CCACCTATCC TAAACCTTGA TGCTAATGTA TAGCTGTGGC TGGCACCTAC60781 CGTAGAAAAT TTACTTCTTC ACAAACTCTG AAGACAGTTC CCCTACCACA AATAAACAAG60841 TAATTAAAAT ATGTATTGTG TGTGTGCATT TTTATATGTA AAGAACTACA TATTTGCCTA60901 CAGTATTTAT ATATATTTTA TATATATACA TACACACATA TATGTGTGTA TATGTGTGTA60961 TGTATATATA TAAAATGTAT ATAAATGCTG TAGGCTATAT ATATATACAC ACACACATAT61021 ATGTGTGTGT GTATATATGT GTGTGTGTGT ATATATATAC ATATCCACAT ATTCTTGCCC61081 ACATTCACAC AAAACAGCAA AAGAGAGAAA CTTTAGCAGT TAAACAGAAT CTTTTGGAAC61141 ATAAAATGAC CACAATAGAG AGCAGTTTTT GCATGCTGTA AATTTGCCAA GATGCCCACA61201 CACTGAAACT ACCTCCCACT GCTGCCGCAA ACTCCCTACC TGTGTAGCAT AGGGCAAGCT61261 TCTTCTTGCT GCACCTCTCA TCATTCCACA TGCCCACATC TTTTTCTCTC TTGATGTAGA61321 TCTCCACGCA GTCCTCATCT TTTTGCCTAT TGTTGGGTTC ACCTGGAGCC CAGTTCTTGG61381 CTTCTTCTGT CAGAGGTTTC TGGGTTCCTA CCCAGACCCA CACATTGTTG ACTTTTCTGA61441 TTCCAATCCA GTAATAACTT GGTGAATAGC TCAATATGGA GTTTAGGTAC TCAATCTCTT 61561 CTTTGTTTTG AATTGCAACC AGGTGTGTGT ACCTTTGCTG ACAATAAGCA CTGGCCTCAT61 CATAAGTCAT AGCTTCCGTG GAGGTGTTGT AAGACCAGGC TCCACTCTCT TTAATGAGAA61621 GCACTAGTGG GAGAAAAAGA AAAGAAATGG TAGAGTTTGG TACTGTTGTG GTTTAACTCT61681 GACAACTGTG CTTTTTATTG TCTTATTTTT GGCAATGTTT GTGACATGGC CCAGACTTTT61741 CTCATCTTTT CAAAAGTAAG AAGTACGTAT GAAGAAACAG CGACTTATTG TTTATCTCTT61801 TTGTGACTGC CACCCACTAG GTACCTTATC CACACTCACT CACAACATTA TAGTATACCC61861 ATTTTGTAGT AGAATAATAA TCAGAATAAC TAAGCTTTAT TGAGCACTTA GTATGCACCA61921 AGAAGCACTG TATGAGGTAC TTTCCATGAA CCATGCTATT GAATCCTCAC AATGCATCTG61981 GGAAATAGGT CATTATGATC CACACTTTAC ACTTAAGGAA AGGGAGACAC CAAGAGGTAA62041 AGTAAATGAC CCCAAGCCCA GGGAAGAACA CATTGCAGGT AGAGGTCAAG GATGCTGCCA62101 GATATCCTGT GCAGGACAGC CCCAGACAAG CAAGGATATT TCAGTCTGAA ATATCTATAG62161 TGCGAGAATG AGAAATCTTG GTCTAATGGC ACTGACTTAC CCAAAGTGAG AGCTGAGAGA62221 AACTGTGAAG CAATCATGAC TTCAAGAGTT CTTTTCACCC AAAGGTTTAG GCTTGAAATA62281 CTTTCCTGGG GAGATAAAAC ACAAAATGAA TTAAAGAAGG AAATCGTGGG TAGCTAGTTA62 CATTATTCTA CCATGATGTT TAAGGCAGCA TCCTAAGATT TTGGGCAAAG GACACTAGTG62401 CAATAATCTT TATTTCAGAG TTTAATCAAA TAAATAAACA AATTTTAAGA CTTTCATTAT62461 TTAGGTCAAA GAGAAAAGAC AGGTTTTAGC TACAATACAA TAAGAGCTTG TACAGATGTG62521 GTTTTTATTA GAAGGCCTTT TGCATATCTG TGTTTCATGG CCCGAGGCTG CCCTTATAAA62581 GCGTTCTGCA CTTACCGTTT TGGGAAGCAG TTGTTCAAAC ACAGGATCTC TCAGGTGGGT62641 ATCACTGCTG CCTCTGTCTC AGGTCAGTAT AGGAGTTTTG ATGTGAAGTC AGCCAAGAAC62 AGCTGAACAC TACTTCGGCT GAGGCCCTTT TATAGGAGGG ATTGCTTCCT GTGAATAATA62761 GGAGGATATT GTCCACATCC AGTAAAGAGG AAATCCCCAA TGGCATCCAA AAACTTTCCC62821 GGGAATATCC ACGATGCTTA AAATTACAAT GATGTCAGAA ACTCTGTCTC TTGAAGCTAC62881 TTCACCTTTG TCCATGCCTT TATATCGTAT ATGCAATTTT ATTAATATGA CAAAAATGCA TGATTTTTAA TTATAATAAC ATAAAGTCTA TGTCTTTAAA AAGTTGTAAA ACTTTGCTTG63001 TTAGTAGTGT CTCTCATGTA GTTGTGGTAG TAATTAGAAT TTCAGAAACA GAAGGAAACC63061 AAGAATAGGT TTGTCATCCA TAGTCTACTA CCTTCAATTT CTCATTCATA GCTGTGGATA63121 ACCAATCACT ACTCATTTTT TCTTCCTTTT TCACCTGCCA ATTCAACATA TTTAACATGC63181 ACTGTCTCAC AGAGGAATGA CTCACAAGGT AGATATTAAT CTTCAGATTT TGCACGGCAG63241 TTATGCCTAA ATTAAAATAT TATCTAAAAA TAATATCTAA CACTCAAATG GTTAAAATAA63301 TGCCTTATTT TAAAAAAAGA AAAATGGGAA ATAGATATTT ACATCTGGGA AAGTTTCATG63361 GTTTGTTCAG TGAAAAAAAT AAAAAGGAGG CCAGGCACAG TGGCTCACGC CTGTAATCCC63421 ACCACTTTGG GAGGCCGAGG CAGGCGGATC ACCTGAGGCC GGGAGTTCAA GACCAGCCTG63481 ACCAACATGG AGAAACGCCA TCTCTACTAA AAATACAAAA TTAGCTGGGC ATGGTGGCGC63541 ATGCCTGTAA TCCCAGCTAC TCGGGAGGCT GAGGCAGGAG AATCGCTTGA ACCCGGGAAG63601 TGGAGGTTGC AGTGAGCCAA GATCACGCCA GTGCACTCCA GCCTGGGAAA CGAGTGAAAC63661 TCTGTCTTAA AAAAAAAAAA AAAAAAAGAA AAGAAAAGAA AAAAAATAAA ACGGAAAACT63721 ATATATATAT ATTTAATTGG TCAAAATTTT GTTTAAAATT TTTGAAATGT TAATGTGCAA63781 637 63781 AGAATAAAAA TTCTTCCACA ATGTTAACAG TGACTAACTC TGGATGGCAG GATTTGGGAT63841 AATTTTTATA TCCTTCATTA TTATTTTCAG GATTTTAAAG TTTTTTTCAA TTTCCCTTTT63901 63 63901 TTTCACCTTT ATAGTAACAA GAATACAGTT TAAAGAAACT TGTCTCTAGG CCAGGCATGA63961 TGGCTCATGC CTGTAATCCC AGCACTTTGG GAGGCTGAGG TGGGTGGATC ACCTGAGGTC64021 AGGAGTTCCA GACCAGCGTG GCCAATATGG TGAAACCCTG TCTCTACTAA AAATACAAAA64081 ATTAGCCGGG GTGTAGTGGC GCATGCCTGT AATCCCAGCT ACTGGGGAGC CTGATGCAAG64141 AGAATCGCTT GAACCCAGGA GGCAGAGGTT GCAGTGAGCT GAAATCACAC CATTGCACTC64201 CAGCCTGGGC GACAGAGCAA GACTCCATCT CAAAAAAAAA GAAAAAAAGA AAAAGAAAAG64261 AAAAGAAATT TGTTTCCAAA TGCAACAGAA GGAGATGTAT GTGGTATCCT ATATTCCTGC64321 TCTTCATTTT GACATTTCTT CTGGGTGATT GTATACATTC CCCATCTCTG CATCTTACCC64381 TATCTAAATG ATGGTAACAG TAAATGGGGA TCATTTTAAT TTCCATATTC TGTAGGTTTT64441 CAGAGCTCAA GTCAAGCTAA TATTCTATAT CTACAGCCTT TCAAAATAGG AGGTCTATCT64501 AAAAATGTAC TGTCAGCAGA CCTGAACGAG TAGTGGTAAA AGCCTCGTTT TTCTCTTTAC64561 TTGTTAGCAC TGGTCTTTCT GTGTTCATAA AGATGTCAAG ACCCAAAAAA AAAACAAGAA64621 AAGAGAAGAA AAATTCCAAA AAAGACAACT GATTAGAAAA AAATAACTTA ATTAACGAAT64681 TTAATTCAAC CCCTATCAAA AAGCATAGAA TTTATTCCCT CCACCTTACC ACTCTCTTAC64741 64801 TGTTGCTTCA ATAAATTCAG AAGAGTAATC ACTCATATAG TGTTTATTTA GATTTTAGGG64861 CAGAATGTCA AGTTGGGTTA ATACATTATC TGTATGTATT TTATTTTTAA TAAAGTATGA64921 ATACATAATC TGCTATTTTT AAAAAGCATG GTCAAATGTA TAGAGTAGCC AAATCTTAAA64981 AAACAATTTA TCTTCGATAT CAATAAAGTA CCTAATAATT ATATTGCTAA TAGAAATTAG65041 TCGTTAACAT CCCTAGATAA CTAACTTTAT TATTGCGAAT TTTTCATAAC TAAGTTTATA65101 GTTTATCTCT TCCCCTTTTT AAAATTAGTT CAAAGATATC TAAAAATAGC CCCAGTGGTG65161 ATGAAGTTTC TATTTTACTT ACATATATAT GTCCTGGACC CCCAATTATA ATCTCTAACA65221 TTTATTGAGT GCTTACTATG TGCCAGGCCA TATTCTGAGC ATTTTGTATG TTCACCTATT65281 GATTATTCAA TCCGTACAAC AGCCTATGAA ATAGGTACTC CTATTATCCC CATTTTACAG65341 ATGAGGAAAT TGAGAATCTG GGGATTTTAT CTCATTCAAA AGCACAGAGC TAAGGGTTGA65401 65 AACCAGGCAG TTGATATCCA GAGCCCACTC CCTTACCTGC TACTCCAAAC CATGATTTCT65461 TTTGTTGTTA TGCCCCGAGA TTCCTTGTTC TACCCAAGTT TCCTGTACTC TTCTTGCCCT65521 CTTCTTCCTG AGACATCCTT GACCATCACA GCTCTCCACT GAGATAACTG TGTCCTGGGT65581 TCTGAGACAT GGGGGCTGGA AGGGACCCCA GGGACAGTGA GCAGTAGGGA GAGGATGCAG65641 TGAGAACAGA CCCTGGATCC CCGGTGCATA GGCAGGGAGA AAGTGGACAA AGGAAAAAAC65 AAGCAAGGCA GGTGGAGCCA TGCCTAGGTA AAGTTGATCC CTAAGCCACA GTTCCCAGAA65761 GTTCCTGATT CAAAAGCAAA TTTTCTCTAA GGTCAAAGGG CAAACTGATT ATTCTAAATT65821 CTAAACTGAT TATTTCTAAA TTGAGAAAGC TTCAGGGAGA GATCCCAATA TTCGAAGGAT65881 AAGAGAAATG AGGAGTGGAA GAGATAGGTG AGTAACAGTA ACTTAAATGT AGACTATATA65941 TAATATATAA TATATGTAGA GTATATATAT ATAATTACAA TATATTATAT ATGTGGAATA66001 TATATATTAT TTATATATAT TTATATATTT TATATATATA GATATTTTTA TATTTTATAT66061 ATAAATATAG ATATTTTTAT ATTTTATATA TAAATATAGA TATTTTTATA TATATTATAT66121 ATAAATATAT GTAAAATACT GTGAAAGAAG AATAGAATCT TGAGACCTCA AATTCACTAT66181 GCCAAAGGGA AAGTTAAGCT TGGGAAATGA GTCATGCAAA AACTGCCTTC CTTTTGTTCC66241 CAAATACCTG TAATTTCACA TGCTTACTTT ATCTTATATA AAATGTAGAT GTACTGAGCA66301 TGAGATCCAT GCATAATTTC CCTCTAGTCC CTTCTTTTTA CATGTAAAGT GTAGACTCAC66361 TGAGTGTTAC AGAGCCTTGC CACAATGTAA ACACTTGTCT CATTGCCAAC CCATCTTTCG66421 TTTATTTTCT TCCCCTCCTG CTTGCTCTTT CCCCTCTAAA GATGGAAGTT CCCAAAACTC66481 TCTTTGGAAA AAGCGCAGGT CACAGATCCT ACAGTGATTT GTGTTTCTTT TACCTGGGAC66541 AAAATAAACC TCTAATCTGT TGAGATATGC TTCAGTTACT TTTTGGTTTA CAATATGTAC66601 ATGTATGTAT ATAATTTATA TGTATATAAT ATATGTACTT GTTTTAACCA GAGGTATGTT66661 ATTCAAAATC CATTCATCCT TACAATTACC TGCATTCTCC CACAGTATTT TCTGTGTCCC66721 TGCCCCCGAG GTTGTCACTG CAAATCAGGT ACATGGATAC TGGGAGCTGA TGGGCTCCCC66781 TCTGGCTACC TGGGCTGCTG AAGGGGCCAT AGACAGACCC AGCTTTCCTC TCGTGGAGAG66841 GCCCTGGGCC AGCGCTGCGT GGGAGTGGGA TTACAACCAG ACTATAGCTT CTTCACCTGC66901 TTTTTCCTAT CAGGATTTCA TAAGAGGCAA TTGCTTGTTT TTTGAGGGTG GGGGCAAATC66961 67021 AATATCATCT CCCTCTTCAA ATAATCCAAA ATATACCCCC AAGAAACAGG CTGATTAGAG67081 GTGCTTCAAG GCTCCACTGA ATCTCCCAAG CTCTGAAGAT GTAGCTAGCT GTTACCGGAT67141 TGCCGGTTTT CAAGCCTCGC CTCACATGGA CCCTCTTGGC AGTTTCTCGC ATGGGGGAAG67201 CATCCGCTAC ATAGATGGGA ATGAAAAGAG GAAAGAAGAC GGTGCAAACT CAGGCACACC67 CCGGTGTCTG CCACCAGTGC TATTTAATCT CTGAGGTGTC ACCCTTCCTG GCTTTATTGT67321 CTCTTCCTGG AAGTCTCTTG TCCTCTCCTC CACACCCTTT AATCAGGCAT CAAAGACTTT67 AACCAGTTTT GCTGTGTGCC CAGGCCCACT CATTCTCACT TTTATGGCAA AGGGAGTGGG67441 AGACAGAGAG ATAGCCAGAA AGAAGAGATT GGGGACCCCA AGACAAATGT TAGAATTTTA67501 ACCAAGGCCA CCCTGTGGAC AGGAGATTAT TGGGTTTAGT GGAAAGCAGC ACTGGCCACA67561 ACCACACGTG GCAAAAGCAT CTATCGAGGA GTGAAGTTAT ATTTGGTGAA TGTGACCGGG67621 AAGCAGGGGC AGTGGTGTCC TCCTGCCTTC CTGAGGCACT CTGTTCCCTT ACCTCTGCGA67681 AGGCTTATTT TACCCCTGAG TGCTTAGTTT TGAAAGCCTT AGTTCCCTCT CTCCCATAAA67741 3967842 67801 TCCCAATAAA GATTCCACCC TATCTGCAAA ATACAAACAT GGTATTTCTT GCATTCCCAA67861 AATTGTGAAA GAAAATGTGT ATCACCACAG TAGAGAATGG CATTTTTTGT TTGATCAAAA67921 CCTAAATATA TTTGATGAAA ATGTGTCTGG TTCTAAGTTT ATTTCCCAGA AAGCCATGTT67981 TACTCACTTG GAATTTATAG ACATCTTATA ATATCTGAGT CGAGTAGGAG CTCCGGGCTC68041 TACCTCACTC TTTTCTCCCA CACCCAGGGG GAAGTGTAGG GTTCTCAGAC TTTAGAATAA68101 AGAGGAATCA CCTGGACAAC TCACCTAAAA TGCACATCTT CAGGTCTCAT ACTCAGAGGC68161 TCTGACTCAA CAGGTCTGGG TGGCGCCCAA GAATTTGGGC TTTAAATGAG TATCTCAGAT68221 GATTCTAATA CAGAATGTGT AAGATGACCA GATCCTATCA CACTTAGATG TATTGGCCTA68281 GGGCCACCTA ACTTGGAGAA AATGTTAGTA AGACCCCGTG GTTGGTGCTC AGCTATAGGT68341 ACCAGAATTT TGATCAAAAT TTACTATCAT TGTGACACTT CTCTTCGGAA CTGGAAGGCC68401 6842 68461 GAATTCTTAC ACATGGAAAG TAAATGTATA AGAATTCTTA CCAATAAAAA AAAAGCAAGA68521 GAGAATAGCT GCTAAAGAAT TAACACAAAT ATGTATATAT TAGTTATTCT CTTTTCTCCT68581 CTGATTCCAG AGGACTTTGT AATTCCACTA ATTCTTCTTG AGCTTCCAGG ATGATCTGAG68641 ACTTGAATTT TTCATGTGCT TTTTGCTTCC TATTTGGCAG CATCTTATCT TGAAGTTTCC68 GCTTTCTGCT TGGGGACCTA AAAACTAACT AATGGGAATT TCTTCAAAAT GAGCAAACTC68761 TGGTGAATTC CCAAAGCGGA AGAAACAAGT GAGGATCGGG CTGGTTAATT AAGAGAACTT68821 TTCCTGAATG TAGCCAGACT GTTTGCCGAC TGTTGTTAAC ATGAGGGAAG AAATACCCCT6888 68881 GGATTTTAGA AGAGCCCCTT GTTTGTTTTC CTTGGCCATT TGTGCTGCTT GTTTTGTAAG68941 TCAGAAATTT CCTGAAGGAC TATTATTAGC TTTGTTCTCA CGTCAGAAAA CTTCTGCTCT69001 GGCCACTTTT AAACATATAA CTTGGATTTT ACTGTATTAG AAAATGTAAC AATTACAGAC69061 AGCACTAAAA GGACACCAAA GGGCAAAGAA AATGGGTAAC TTTTTTTTCT TCCCCAAATC69121 TAAAATAGGT GATTTTGGAG AAGTAGGAGA AAAACCTGGA TTTTCTAGAT CTCTTTAGAG69181 3969241 CGGATAACAA TGAATATTTA AATACAGTGA TTTGGCCAGG AGCAGTGGCT CATGCCTGTA69301 ATCCCAGCAT TTGGGGAGGC TGAGGCGGGT GGATCACCTA AGGCCGGGAG TTCCAGACCA69361 GCCTGGCCAA CATGGTGAAA CCCCATCTCT ACTAAAAATA CAAAATTAGC CAGGCGTGGT69421 GGTGCAAGAC TGTAATCCCA GCAACTCGGG AGGCTGAGGC AGGAGAATTG CTTGAACCCG69481 GGAGGCAGAG GTTGCAGTGA GCCAAGATCA CGCCATTGCA CTCCAGCCTG GGCAACAAGA69541 GCGAAATTCC ATCTCAATAA ATAAATAAAT AAATACAGTG ATTTAACACA AGAGATTTCT69601 ATTTCACACT AATGAGCTCT GTCACTGGGG CAAGCTTCTT TGCCTCATTA AGTCTCAGAT69661 TTCCCGAGAG CTTATTTATT TATACCAAGA GTGCTTTACT ACCGTCTCTG CTAGCTGTGA69721 CATAATATGA CAAAAGGTAT AAATATGGGA AAAGGCACTA ATTTATATCA AAGCGTTCTT69781 CGTTTTTCCT TGCTGTGAAG TTTTTAGCTA ATAATTCATA AGAATATACC ATATTTAGAG69841 TGTTTACTAT GCATGGGCCT GGCACTTCAC ATACATTGCT TCTTACAAAT TTTACAAAGT69901 GAAAGGTAGA TATTAATCTC ATTTTATGGA GGACAAGATA GAGATCTGGA GAGGTTACAT69961 AACTTGCCAG TGTTTTTTCA GTTAATAAAT GGTAGGGTGG AGATTCAATC TGTGTTACTC70021 TAAAGTCCGT GTCCTTTTTA TTGGCTCCAT GCCTACTCAG ATTTAAATCT CAGCAGGGAA70081 GTAAACCTTA GTTTTTACAT GAGAAAATGT TACAGCAGCC TTCTCGGCTT CCTTTACCCC70141 CATCCCAGTT TCACGAGCTT AGTGCCTTAG ATCGGGTTCC TTTAGAAGCA GACCTCGAAA70201 TAAGGATGTG GGTGCCAGTC ATTTATTGAA AAGATGATCC CAAGAAAGCC TAGTAGGAGA70261 GTGAGGAAGT GAGATGGGGA AAGGAAGAAA CTCCACAAGA AGTGTGTTAA TAAGCAGGTT70321 ACCGCTGTGG GCAGCCATGG GGCTCAGCTG CACTAACAAA CTCTGTCTAG TACAGAAAAC70381 CTCAGGGTCT CCCCAAGGAG GGGCAAGAAG TCTGCCTAGG GTATATATCC GCCAACTCAG70441 TCACTGGCTG AGAGCTGATC CTGGGAGGGC ATGGTTAATT CCTCTGCACT TTCAAGTGGA70501 TTCCTGTGGT CAGAAAAAGC CCTCTACAAT GAATTCCAGA TGCTTGTATT TAAATCTGAC70561 ATGATCTGAA TGCTGTGTTG GGACAGGGTG GGCGTTATTA GTTTTCTGTC ATTACTGTAA70621 CAGATTACTA CAAACCTGAT GGCTGCAAAC AACACATATT TATTATGTCA TAGTTTGTGT70681 GGGTCAGAAG TACAGGTTAG CTCAACTAGT TTCTCTGCTC TAGGTTTCAC ATTGCCAATA70741 TCAAGGTGTC ATCCAGTTGG GCTCTTCTTG GGAGGCTTGG GGATGAATCC ACTTTCAAGC70801 TCATTCAGAT TGTTGGCAGA ATCCAGTTCC TTGTGGTTGC AGGACCAAGG TCCCTGTTGC70861 CTTGCTGGCT GTTGGCCAGG AGTCATTCTT AGCTTCTAGA GACTACCTGT ACTCTCTGAC70921 TCGTGTCTCC ACTTCACCTT TCAAACCAGC AGCGGCTAGT CGAGTCCCTC TCTTCAAATG70981 TCTCCAACTG TGCCTTCACC TCATTTCTCC TCTGTGTACC ATGTCTGCCT CTACTGCTTG71041 TAAGGGCTCA TGGGATTACA TTGGATTTAT TCAATCCAGG ATAATCTCCA TATTTTAAGG71101 CTAGCTGACT AGTGATCTTA ATTCCATCTA CAAAGTCCCT TCCAATAGTA CTGTATTAGT71161 CCATTTTCAT GCTACTGATA AAGACATACC CAAGACTGGG CAATTCACAA AAGAAAGAGG71221 TTTAATTAGA TTTACAGTTC CACATGGCTG GGGAAGCCTC ACAATCATGG CAGAAGTCAA71281 GGAAGAGCAA GTCATGTCTT ACATAGATGG CAGCAGGCAA AGAGAGAGAG CTTGTGCAGG71341 GAACTCCTCT TTTTAAAACC ATCAGATCTC ATAATACTTA TTCACTATCA CAAGAACAGC71401 ATGGGAAAGT CTTGCCCCCA TGATTCAATT ACTCCCACCA GGTCCCTCCC ACAACATGCA71461 GGAATTCAAG ATGAGATTTG TGTGGGGACA CAGCCAAACC ATATCAAGTA CCTAGATTCA71521 TGTTTGATTA AACAACCAGG GAGCAGAAAT CTTCAGGAGT GGGGGGCATC TTTAGAATTC71581 TGCCCACCAA GGCTGGGCGC GGTGGCTCAC ACCTGTAATC CCAGCACTTT GGGAGGCCAA71641 GGTGGGTGGA TCATGAGGTC AAGAGATCGA GACCACCCTG GCCATGGTGA AACCCCATTT71701 701 71701 CTACTAAAAA TACAAAAATT AGCCAGGTAT 71701 GGTGGTGGGC ACCTGTAGTC CCAGCTACTC71761 AGGAGGCTGA GGTAGGAGAA TCACTTGAAC CCAGGAAGCG GAGGTTGCAG TGAGCCAAGA71821 TTGCGCCGCT GCACTCCAGC CTGGGAGACA GAGCAAGACT GTCTCAAAAA AAAAGAATTC71881 TGCCCATCAT AGTAGGCTGT CCTACAGAGA CATAACCCAG GAATTAGGTG AATGGCTAAC71941 CTAAATTAGC ACTGTGATGT GTTTTCTGAC TTGGTCCTTA TAGCTCCTCT GCTTAGATGT72001 GGAACTAATC CATGAATGCA AGGGTTTGTC TAGAGTTTTA AGTGGGAGTT AAATATCCAA72061 AGTACAGGAG ATATTATGGG TGCCTCATCC ATGTCCCCTT GGCATTTATC TTTCTTGGAT72121 AACCCAACTC TATTAGTTTT TATATCTCAC TTGTTCCTAT ACTCTGTGAA CTGATGTCCC72181 ATAAATAGAC ATTTCATTTT GCCAGTCTTC TTGAACAATA ATTACGATTA TTAATCTAGC72241 AGTTATCATT AATTGGCCAC TTCACATTAG ACACAGCACT TAGGACTTAA GAATACCATG72301 TCATTTGATC ATCATAATAT GGTCAGGAAT TAAGTATTGC TATCCAAATT TTACAAAGAA72361 GGCACTGAGG GTTAGAGTTT AAATAACTTG CTTAAGATGT CATAGCCTGT AAGTGACAAA72 ACTAGGACTC AAATACAGGT CCATCTGACT CCAAAGTCTA TGTTCTTGGC TACCACACTG72481 CCTCTCCTAC AAGTGACCTG TGGTTTTACT ACTATATTCA CACTCTACTA ACTTTACCAT72 CTCCCATGAG TCTGTCTAGA GGAGGGCACA CACAGCACAG AAAACACATG AATGCAAAAT72601 AAGGAAGGGC CTACTTACTA CACAGAGCCA TTCTAATACC TGATGTTTGC TCTAATCCAG72661 TTTTACTATT AATTAGTTGC TGGTGCCCAA GTTTTTACTG AGAAATGGGG ATAATTTTGG72721 AAGTCATAAT GATGCCTTCT TCTCATAGGG TATTTTATTT GTTGTTGTAT CTCCAGGCCC72781 CAACACAGCC TGGCTTTTAG TAAATGATCA AAAATACCTG TTGAATGAAT AAATGGAGTC72841 ACCTGAAACA TGTTAAACAT TTGTTCATGT GTCCTAATCG TGGATTTCAG GATAGTAAGC72901 ATCCTAAAAG GAAAGCATGC ACACTGTTCT TGCTACATTA ATTTCTCACA ATATAAAAAA72961 73021 ATATGGAGAA GCTAAGGGAG AGGGATGATG GGCCATGCCT CTAACCTCAT CATGGCAAAA73081 GTCCTGGGGG TCAGACCCGA GGAGAGCAGG AAGTGTCTTT TGAGGGATAC ATTTCCACAG 733672 TGGAAATAAT GAGACTTAAA TAAATATTAT ATACACAGTT CAACTGTTTT TATGTGTAAA73201 GGTAGTAGGT TTTCACAGTA AGGAAGCACT TCTTTTTTTT TTTGTTTGAG ACAGAGTCTC73261 GCTCTGTCTC CCAGCCTGGA GTACAGTGGT GCTATCTCGG CTCACTGCAA TCTCTGCCTC73321 CTGGATTCAA GTGATTCTCC TGCCTCAGCC TCCCGAGTAG CTGGGACAAC AGGTGTGTGC73381 CATTACACCT GGCTAATTTT TGTATTTTTA GCAGAGATGC GGTTTCACCA TGTTGGCCAG73441 GCTGATCTCG AACTCCTGAC CTCAGGTGTT CTGCCCGCCT CTGCCTCCCA ATGTGCTGGG73501 ATTACAGGCA TGAGCCACTG CACTCACCAA GCACTTCTAC TGATAGCATT TACAAACCCT73561 TCTTAGAATA TTTAAAAATT CTAAGAGAAG AGTAAATTGA GCCTTCCCAA CTAATACTAG73621 GAGGTTATAA CCTTCATACC AAAACTGGAC AATGCTTGCA CAAAAGAAGG AAGCCAATGA73681 GGCCACCTAG AAGGAAGACT GGGCATTGGG CCCAGTGAGT CCTGGAAACC TCATCTGTGC73741 CAGCCACCCC GGCATGGCCT GTATGAGTGG ATGAGGGTGA CTTGTCCACA GACAATAGCC73801 ATCTAGCTGT GATAAAGGAG TCAAGGTAGT CAGCTGCATC TCTTTCACCT GTTTGCCAAT73861 GTTACACAGG TTGAAAAGCT AAGGTTTATG TAAAGCAAGC ATCAAAGATG ATGAAATGAT73921 CAACCTGACA ATGAGTACTA TGCTGCATTG TCCAGAAAGG AACTGTGGAA GATTTTGGGC73981 TGAATTTCAA AACAGAATTT CCTCACTCTC TGGATGTTGG CTTACTTGGC CTTTGATGTT74041 CAGAGGTGGT GCCTTTGTGT TGTTGAACAA TGTTGATTTT GGAGAGAAAA CAGAGTTGAA74101 74 74101 AAACCCACAA GTCATTCCCT GGGGAGTATT ACCGGAATAC AGAGGATAAT TTCAGCAAGC74161 CAGCAAGGCC TCATCTCTGC TTCTAATAGA TAGGAAGAAA GGAAGAGAGG AACAATACTT74221 74 74221 TTTTAAGAAG CTCAGCTTTA TCGCCTTATC TCATAGAAAG ATGCCTCCAG TCTGTCTGGC74281 TAAAGGTAAT TGGCATGGGA AAGTCTTTAT CTGTGATTCT AACAAGTGGA ATGTTTCCCT74341 TCATTAAGAG AGCCTTGTCT GGCTTGGGGA AATGAAACAC TTTCTCCGATATGAGTGGGC74401 TGTAACCCCT GCTACTAAAT ACTCAGAAGA AATAAGGCGG TTGTGGAGCA GTCAGGAATG74461 74 74461 AGTCACTTGC CTCCCTGGAA TATTCAGAAA ACTGAATCAA AAGTACATTC TTCTGGGTTT74521 TCTTAGTCTA ATAGACTAAG GGTCTCTACT TTGTTAAATT TCTGGGAAAC AGCATAGAAT74581 74 74581 GGGAGAAAAA ACTGGTCACT GTAGTCATGC AAATCTGCAA AACAAACAAA AAAGTCTGGG74641 TATTGCTGCT AACTAGCTAT GTGACCTTAA GCAAGGTATT AACTCTCTCT GAATTTCAGG74701 TTCTTCATCT GTTAAATAGC ATATCTGTAA AATGGGAATT ATTTTCATAT CATAATGCTG74761 TAGCTTTAAA AAATAAAATA AAATGGATGA GATAATCAGA ATTAAAGAGC CTGGGATATA74821 TAGTTAATAT ATAGCAGCAT GTAAAGATCC TGTTAGAAAT GCTAATTTTA CAGTTAACCA74881 TTTGGAGATG ATCCGCCAAA GCTGCTAGTG TAGAGGCAAC TGAGAATTTG CCTGTCCTTC74941 AGAATATGAA TAAATAACTG TCAATGATGT CTCAAGCCTA GAAAAACCTA TCCATCTGGA75001 TGGGTGGGAA ATTTCTAGGC TAGTATTGAG AAGCCCATTT CTTGGGAAAT AGGTCCTGGA75061 CTGAGTGAAG GAAAAGAAAC AGTAAAACCC ATGGTAAAGC AGCAAGGCTC TCTAGAGGCT75121 CTGGAGAGGA TGAATTGAAT TCTAGAAGAT GAAGTAGGGA AGACGCTTTA CCTTCTTGTG75181 AAATGGATTC AAAGATTCAA AGACCTTCGG GAATCTCCAA TTGTATAAAT GGCACCATAG75241 CTGTATGTTC CATGGAACAC TACTTCCCAG AGATGCCCAG TGAAAAAAGA ATGCCACAGT75301 CAAATAAGTT TGGAAACACT CCATTATGTG GCCACCTCCT TGAAGACTCT AATGCACATT75361 AGCATGTTAA ACAGTCTTGA GAAGTCCTGC AGAGCAGAAA TTGCTTCACA TCTGCTAAGC75 CGGCAGTTTC CCAATATACT TGATTATGGA TAGTTTTTTC CTTACAACAC CATTCTCTGA75481 TATGCTTCCA ATGACATGAA ATAAATATAT ATGCATGAGG TTCTTCATTA GGGCATACTT75541 TTTAATAGAA AATATTGAGA ATAATCTAAA TATAAATGCA CAGCATTTAC CTTTTCTGCA75601 TAAACTATAT ACAGGCATAC CTTGGAGATA CTATGGGTTT GGTTCCCACA ATATCTCCAA75661 AACCACATTC GGTTTTATGA CCACTGCCAT AAAACCAGCC ACATGAATTT TTTGGTTTCC75721 CAATGTATAT CAAAGTTACA TTTTTACTAT ACCATAGTCT ATTATATATA CAATAGCATT75781 ATATCTAAAA AACAACGTAA ACACCTTAAT TTAAGGCTGT GGCTGGTTTG ATTTTCTACC 75901 75 TGTGATAGCA CTTTTCCTTT CCTTCAAGAA TTTTTCCTTT CTATTCACAA TTTGTTTGAT75961 ACAAGAGGAC TAGATTTTAG CTTATCTCAG TTTAAGGTGT TTACATTGTT AGCTAAAAAT76021 GCTAATGATC ATCTGAGACT TCAGCAAGTC ATAATCTTTT GCTGGTGGAA GGTCTTGCCT76081 CAGTGTTGAT GTCTGCTGAC TGGGTGGCTT TGGCAATTTC TTAAAGTAAG ACAACAATCA76141 AGTTTGACAT ATCAATTGAC CCTTCCTGTC ATAAATGATT TTTTTTTTCT CTGTAGCCTG76201 CAATGCTCTT TGATAGCATT TTACCCACAG TAGAATTTTC AAAATTGGAG TCAATCCTTT76261 CAAACTCTGG TGCTGTTTTA TCAACTAAGT TTATGGAGTA TTAGAAATCC CTTGTTGTCA76321 TTTCAACAAT GTTCACACCA TCTTCCCCAG GAGTATATTC TACCTCAAGA AACCACTTTC76381 TTTGCTCATC TATAAGAAGC AGCTCCTCAT CCACTAAAGT TTTATCCTGA GATTGCAACA76441 ATTCAGTTAC ATCTTCAGGC TCTACTTCTA ATTCTAGTTC TCTTGCTGTT TCTATCTCAT76501 TTGTGCTTAC TTTCTCCGCT GAAGTCTTGA ACCCCTTAAA GTCACTCATG AGGGTTGGAA76561 TCAACTTCTT ACAAACTCCT GTTGATGTTG ATATTTTGAC CTGCTCCCAT GATTCATGGG76621 TATTCTTAAT GGCATCTAGA ATGGTGAACG TTTTCAGAAG GTTTTCAGTT GGCTTTGCCC 7665 76681 GGATCCATCA GACGAATCCC TATCTATGGA AGCTATAGAT TTATAAAATG TATTTCTTTT76 TTTGTGGGGG CATAGCGTCT CACCCTGTCA CCCAACCTGG AATGCAGTGG CACAGTCATA76801 ACTCACTGAA GACTCAAACT CCTGGGCTCA AGTGATTCTT CCACCTTGGC CTCCCAAAAC76861 ACTGGATTAC AAGCTTGAGC CACTGTGTCT AGCCCAAAAT GTATATCATA ACTAATGAGG76921 CTTGAAAGTC AAAGTGACTC CTTGATCCAT GGGCTACAGA ATGGACGCTG GGTTACCAGA76981 CATGAAAACA ATACTCATCT CCTCATACAT CTCCTTCAGA GCTCCTGGGT GAGCAGGCCC77041 ATTGTCAAAT GAGCAGTAGT ATCTTGAAAG AAATTTTTTT TCTGAGCAGT AGATCTCCAC77101 AGTGGACTTA AAATAGTCAG TAAACTATGC TGTAAACAGA AGTGCTGTCA TCCAAGCTCT77161 GTTTTTCCAC TGATAGGGCA AAAGCAGAGT AGATTTGGCA TAATTCTCTA GGGCCTTAGG77221 ATTTTTGGAA TGGCAAATTG AGCATTGGCT TCAACTTTTT TTTTTTTTTT TTTTTTTGAG77281 ACAGAGTCTT GGTCTGTCAC CCAGGCTGGA GTGCAGTGGT GCAATCTCGG CCCACTGCAA77341 GCTCTGCCTC CTAGGTTCAC ACCATTCTCC TGCCTCTGCC TCCTGAGTAG CTGGGACTAC 77458 TGTTAGCCAG GATGGTCTCG ATCTCCTGAC CTCGTGATCC ACCCGCCTCG GCCTCCCAAA77521 GTGCTGGGAT TACAGGCGTG AGCCACAGCG CCCAGCCTGT CTTCAACTTA AAGTCGCCAG 7756 CTGTGTTAGC CTCTAATAAG AGAGTCTGCC TGTCCTTTCA AGCTTTGAAG CCAGGCATCA77641 TTCTCTTCTC TAGCTATGAA AATCTTAGAT AGCATCTTCT CCCAATAGGA AGCCATTTTT77701 TATGCCCTAA AAATCTGTCG TTTGGTGTAG CCACCTTCAT CATTGATCTT ACCTAGATCC77761 GCTGGATAAC TTACCACAGT GTCTACATCA TTACTTCTGC TTCACCTTGC ACTTTTATGT77821 TATGGGGATG GCTCCTTTCC TCTAACCTCA TAAACTAACC TCCACTAGCC TCACATTCTT77881 CTTTTACAGC TTCCTCGCCT CTCTCAGAGT TCACAGAATT GAAGAATGTT GGGCCTTGGA77941 TTACACTTTG GTTTAAGGGA ATGCTGTGGC TGGTTTGATT TTCTATCCAG AACACTAAAA78001 CTTTCTTCAT ATCAGCAATA AGACTGTTTC ACTTTCTTAC TATTTTTTGT GATAGCACTT78061 TTCCTTTCCT TCAAGAATTT TTCCTTTCTA TTCACAATTT GACCGTTTGA TATGAGAGGC78121 CTAGATTTTA GCCAATCTCA GTTTACACCA TGCCTTTTTC ACTAAGCTTC ATCATTTTAG78181 CTTTTTATTT AAAGTAAGAT GTGTGACCCT TCCTTTCATT TGAACACTTA CATGATGATG78241 CCTGGCTTCA AAGCTTGAAA GGACAGGCAG ACTCTCTTAT TAGGGGCTAA CACAGCTGGC78301 GACTTTTAAG TTGAAGCCAA TGCTCAATTT GCCATTAGAA GCCATTGTAG GGTTAATTAA78361 78 TTTGCCTAAT TTTAATATTA TGGTGTCTCA GGGAATAAGG AGGCCTGAGT AGAGGGAGGG78421 AGATGGGGAA ACAGCCAGTC ATCAGAGCAC ACACAACATT TATCAATTAA GTTTATCACC78481 TTGAGGGCAC AGGTCATGAT ACTTCAAAAC AATTACAATA ATAAAATAAA AAATCATTGA78541 TCGCAGATCA CCATAACAGA TATAATGATA ATGAAAAATT TGAAGTATTG TGAGAATTAC78601 CAAAACGTGA CACACAGACA CAAAGTGAGC ACATGTCATT GGAAAAGTGG TGCTGATAGA78661 CTTACTTCAT GCAGGGTTGC CACAAATACT CAATCTGTAA AAAATTCAAT TATCTACATA78721 GTACCATAAA AACAAGGTAT ACCTGTTTAT ATAATCAAGA CCAACAGAAC CCTAGAGAAA78781 ATAGCTCACT CCCTAGCTCG GAGACATTCT AACCAACATA CACTTACCTT TCTTTTTGCT78841 GTGTACAGAA TTCAAATCCC TGTCTCAGCA AAATTGCAAA GTATCAAATG TCATGTCCAT78901 CTAATACTCA AAACTGCAAA TGTTAAGTCT TGTAAGCCCA GAGACCACTG TATATACAAG78961 TGTTGCTATA AGCATTAGTT CTTCTCCAAA GAAAATAGTC CACTTGGTAG AAACAAACAA79021 AAAGAAAAAA AAAGAAAGAA AAAACATTTT TTACAAGAAG ATTCAGTCTC TTACCTACAT79081 AAGCAAAAAT ATGAGATGTT CTCTTATCAT TTTTCCATCT ATCTTATAAT CTTTGGTGCT79141 GACTTAGACA CTCATTTTCC TTTTTGTACG TGACCATGTA AAAGTTCAAG TCAAGAAAAA79201 CTTGTTTTGA CATTTGTTTT GCTGAGTGAT GGGTCCCTAA AAGAAATTTG GCTTTGCTTT79261 TGAAAAGTTC AGCATGATAT TGTGTGAATT TTTCATGGCT AATGATTTTT AGAACAGTTG79321 TGATGTGTTT AGGTGTTTTA AGAATATGAA GCATTCAGTG GTTTAAGTTG GTTGTTATAA79381 AATGAAAGAA TATGAAGGAA AGCCTTCTTG TCTTAGAACA CACTGATTCA CAAATAAGCA79441 GCTTCTCTCA AAATGTTGTA ATTACAAAAA TTCCAAGGCA AATATAATAA ACTCCTTGTC79501 GGTGCTATGT CTAGAAACTT AACAGCCCCA AAGAAAGTCC TGACAAGGCA AAAAATATAT79561 ATATATATAC AAATTGTGGA AGCAGGGTGT TGAAAGAAGA ATAAAGACTA TATAAGGACA79621 AACTGTTTAA AAGGGAGGGT ATCCTTGAAA GCTTGACACT TGACTCTTTT GACGAGGCTG79681 AGGGAAAACA CTCAGTTTCA TAGATTGCTG GTACGGATGT AAAATAGTGA CATCCCTATA79741 GAGAGGAATT TGGCAATATC TAGCAAAAGT GCTTATGCAT TTATTCTTTG ACCTAGTAAT79801 79 79801 CCCGCTTCTA GGATTAGTGG TGAAGATACA CCTCAACAAT AAAAATATAT ATACATTAGG79861 TTATTAGTTA TGGTTTAATT TTTAATAGCA AAATATTTAA AACAACCTAC ATGAACAAAT79921 AGGAGACTTA CTGAATAAAC TATGGTATAT CTGTACAATA AAGTGCAATT CACTTATGTT79981 79 79981 GTTAATTTGT TCCAAAAATC CAGAGCCAAA GAGTATTTGT TATGCTCTCT TTAGTATAAG80041 AAAGGGGAAA TAAGATATGT GTGCATCTGT TTATTTTTGT GAAAATAAGT ACAGAAAGGA80101 TAAGTAAGAA ACTAGTAAAA CTAGTTATCT CCTAGTGTTA GTAGAAATAG AATGAAAGTG80161 801 80161 AATTAGGCTT CTTTGAGTAT ATGTTTATAT ATAGTTTTGA CTTTTGAATT ATGTTTATGT80221 TTACATAGTC AAAAATATAA ATTAATCAAC AGAAATAACA AAAAAAGAAG AAATCACAAG80281 CTTTAAAATT TAATACAAAC AGAAATAATT GAATCTAACA GTATATCAAA GTGATAACGT80341 AAACTCAGAA GAAAAAAACA TAATCCAACA TACCAGTGGA ACACAATATT CTAACTGTAT80401 ACATTCAGTG GTTATAGTCT AAGGACAAGA AAAATTGCAA AAATATCTTG AACTTTAGCT80461 TGTAGGATTT TTATTGGTAG CAATACTAAT GTACTAATTC TGAAATTAAT GTTCGTGTAT80521 TATAGAATTG AGTAAATGAA TAAATATGTT GATGTTATTG GGAACTAAAA TTATCATTCT80581 GGGAGTAGAG AAATATAAAT ATGGACTTGG CAAATGAAAC AAAGACCTGC AGAGAGATAA80641 CCATATAAAC TCATTATTTT AAAAATTATA AGTGTCCTAG CTCTGTTACT GAAAAGGCCT80701 AGATTCAATC TTATCTTGAT AGACAGGAGG GCACCCCTTT CTCAGAACAT GGTTTCCAAA80761 TGCCATTCTC CATTAAAAGG AACAAGGTCT TCTTGGAGAA AAGACTGATT CTAGGTCTGG80821 ATTAGGTAAA GTACAACGTT AGTCTGGAAT TTCTTGCTGA ATCAGAAGTA AGAAAGTGCT80881 CAAAAACATG GGAACATGTC ACAAACACAC GTGAGGCAAC TTGAATCCTC ACTGGCCATA80941 TTTAGGACAA TCGAGCATCA AAAAAAAAAA AAATGTTGAG AATAATGGAT TCTAACACTT81001 AAAACAAAAA ATAATCCATA GCCCACAGAA GGGGAAGAGA GGGGGAGCTC TTATTTACAG81061 ATGAATATCA AATAGCAAAG ACAGAAGAAA TGACAGAATT AGAGAAACAT CATTTTGCAA81121 AACACCACTG TAATAATCAA TTCAGGCAAG TATTATTAAT GGATGTATTA CTATTGCGTA81181 AAACCAGTTG GGGAACAGGA TATTCATACA GTCTGAAGGT GTCACCCTAA ACATAACTTA81241 TTACAAGTGG AAAATGGTGC CTTTACAATG AAGAAATCTA GCAGAAACCA TCTTAATCTA81301 8128 81361 81421 AGGGTAAAGG CAGCTTTCTC ACTTACTAAT CAGAATTGTT GGTTTTAATT CATTTTGGAT 481 TTTAAGATTTCTTACTTTCT TGTCAGCTCA GAAATTTATT TAAGATGATT TTTATCTTTT81541 ATTCAATACT TTAGCTTGGA GAACCATTCA GAGTTTCTAA CTCATTGTAT TGCCAAAAAT81601 AGAAAACAGC ATGGTTTCTT TTGAAAATGT CTAACTTTAA AGTTACTTGT GTGTGTCACT 8186661 28 817817 81781 TAACAAAACA CTATTAACAC AAAGCATAGC AATTTGATTT GGGCAACCAA ACACTGGAAA CAACCTAAAT GTCCATTACA GGAATCATTT ATGAAGCAAA CACTAAAATA TTTATTGTGA81901 AGATTATGAG AACATAGAAG ACAGTTATGA GAGTAAATTT GAAAACCTGA ACACAAAACT81961 TACATATACT CCAATTGTAA CTTATAAAAA ATACGTGCAT ATAAGGATAA AACAGTACAA82021 ACAAAAAAAT AGTTGCGTTA GATTGGTAGA ATTATGGCTC CTTTTGCTGT CTTAATTTTT82081 TCCTTTTACA TTTTGATACA TTATTTTAAT TTTAATTTTA AAATTCAAAA GAATTTGCCA82141 CTCATCTTTG CCACTTCAAG GAAAAAAGAA ATGTGTTCGA TTATTCTGTT CTTAGTATAG82201 TTTTGGCAAT TTCCTCACGT GTAAAAAGAG AATACTATTA ATAATTTCAG TATCTATAAG82261 ACAATATAAA ATTAAAGAAT CTAGCCCAGT AACTGGTACA TGGAACGTAA TTAATAAATC82321 ATTATGGACT TTTTTTCTCA CACCCAAGTA GGGAGGAATC AGTGGTCCCC TAGAGGCCCA82381 GTGTAGAGGT GGCAGCACCA ATCCCTAGGG GAGAAGATCT TGGTGATGAT AATTCCTGAG82441 CAGACAGTTA GCTGAGAATT CAAGAGCAGA AAAGTAAGAA AGAAACAACT TCTTGCTAAC82501 ACCTTTCCAC CCACGTTTCC CTGTTCTGTT GTACTCTGCT TACCCTTTCA TGGATGGAGG82561 CAGAGGAAAG AGAACCAAGT TTGCTCTTAG TCATTCACTA TGTTGTTTAA TCTGCCTTCC82621 ATCTTTCTTA TCAGTTCAAA TTAGAATGTA GACCTGAATT TAAATCCCCG TTCTGTCAGT82681 TATAATGTGA CCCTAGACAA AACACATTCT CTGAACCTCA GAGAACATTC TTCATTTGTA82741 GAATGGGAAG ATTAATCTAT ATTCCACTTG GATGGCAAGT CTTTTATAAA CTTTATAACC82801 TAAACATGTG TGAGTTGCTA GTATCATTAT GTTGGTAAAG TTATTCTGAG ATATGATAAC82861 AGAACTGTTT TGTCTAACTC CACTAGCATG GTTCAGGTTT AGAGAGTGTG GAATTAAAAG82921 GCTTTATCCT CAAATATGAC TTAAATCCGA TTTTTCTCAT CCACTTTCCT CCACAAACAA829 ATCCTCAGGA AATGACAAAC TTTACATGGT TAAACATCAG TTTTGTTTAG TCTTTGACAT83041 CCACATGGTT AAATCATACA TTTGAAAACT GCTTATATTT GTGTTGTCTA TGTCTAAATT83 GAAAAGACTT ATTGAGGAAT AGAAGACTAC ACATTTTTCA GCAAACACTG CACGTTTTGC83161 AGAATTTCCC CAGGCACCAG TCTCCAGGAA TTTATTGGCT ACTAACAATA CTAAGATATG83 GATGAATGAG GAAATCAAAA TGGAGATCTT GCAAGTTTTG TGAGAATGGG TGAATGGTCC83281 AAATGAAGAG ATAAGTTGTG AAATATTAGT ACAAGTAAAA ATTATTTACA ATGAAAGACA83341 TTTTGTCAAT AGCTATGAGA ATTTTACCAT TGACCCAGAA ATTCCATTTC TTTCTTCAGA83401 AATACCCACG TAGGTATACA TATAAAAAGT TATTCATTAC AGTATCGTTT TTCATAGGAA83461 AAAGTTTTAA AAATCAGAAG CTATCTAAAC TATGGTATAT CTAGGTCATA GAAATCAAAT83521 GACTAAAAAT GTTAATATAA GCATATGTTT TTAAATTAAC TTGGCTTGGG TCTTCAGCAA83581 AATTGGCTTC TTAACATTGC ACTCCAGAGT TAGACTTACC CACTCAGTCA CTTATCATGC83641 AGGAGCAGAC TCCTAATACC ACATATCATA GAGCAGAGTA GGACACAGGT TCTCTGCAGG83701 CAGGCAAATC CCAAAGAGAA GGGAGGAAAG GGCTGAGACA CTGCATGGTC AATTTCTTCT83761 GAACTCTGCA ATGTACGGAG GTGGACAGTG TCCACAAAGA TTGCTCCCCT GGACCCACCA83821 TCATAATAAC ACAACGGCTT TGTTTTGTTT TTGTTTTTGT TTTTTGACAC GGAGTTTTGC83881 TCTTGTTGTC CAGGCTGGAG TGCAATGGTG TGATCTCGAC TCACCACAAC CTCCACTTCC83941 TGGGTTCAAG TGATTCTCCT GCCTCAGCCT CCTGAGTGGA TGGGATTACA GGCATGCACC84001 ACCATGCCCA GCTAATTTTG TATTTTTAGT AGAGACGAGG TTTCTCCACG TTGGCCAGGC84061 TGGTCTCAAA CTCTTAACCT CAGGTGATCC ACCCGTCTTG GCCTCCCAAA GTGCTGCGAT84121 TACAGGTGTG AGCCACCGCG CCCAGCCCAC AATGGCCTTT TGTTTACATC TCTAGTGCAG84181 CACTCATTTC ATGTTCTTTC AAGAAGAATA CATATTTCAT CTTTTTATTT TATACAGCAA84241 TTAGCACAGT GCCTGGCATA AGGAAAATGA TCATTAAAAG CTGGGTGAAA AACCTAATAA84301 AGCTACTGAG GATAGGAACT GCAGACCAGC ATGGAAAGAA AACTATGAGC CAGATATTGA84361 CATCATCCTG AAAGGCAGAA GATTTAGTAT AGGCAAGAAG TATGCTTTTG GAATATAGAA84421 AATCTGGATT ATGATAAGAA AAGAATCATA TTTGTCTTAT CTTACCTACT CACTTCTCAG84481 TTCCACATGT TTCTGAGGCT GTTTGTCCTT ACTTTCTTTT CTGTTTTATC CACTCTTTCT84541 GTTCTTTAGA TTGGATCATT CCTATTGAGC TGACATCAAG TTAACTGACC TTTTATTTTG84601 TCCAAACTGC TGTTAAATGC ATCCAGTGAA TTTTTAACTT TATATAGTAT ATCTTTTAGT84661 CCTAGAATTT CCACATGAGT TTTTTAAGTT TCCATTTCTC TGCTGAGATC TCCTATTTGT84721 TCATTCATTA TGACCATATT TTTCTCTACA TTATTGAGCA TAATTATAAC AGCTCTTCTA84781 AAATTCTTGT CTGCACATTC TAACACCTGA ATTATTCTGG GGTCAGTCTC TGTTACATTG84841 CCTTATTACA AAAACAGTAT AAGTCACATT GCCTTGTTTC TTAATATGCA AAATGATTTT84901 TGATTGCAGA CTAGACATTT TGAATTAAAC ATTATAGAGA TTCTGGATTC TCGAGAGAGT84961 ATTGACTTGT TTTTTCCATC AGGCAGGTAA CTTGACTGGA CTCAAACTCC AAACTCTAGG85021 TCCTCTGTAA TGGGCAACTG CAGTAATCTT TGTTTAGTTC TTTAAGACTTATTGGCCAGG85081 CACGGGGGCT CATGCCTGCA ATCCCAGCAC TGTGGGAGGC CAAGGTGGGA GGATCACCTG85141 AGGTCAGGAG TTCGAGACCA GCCTGGCCCA CATGGTGAAA CCCTGCCTCT ACTAAAAATA85201 CAAAAATTAG CCGGGTGTGG TGGTGGGCGC CTGTAGTCCC AGCTACTCAG AAGGCTAAGG85261 CAGAAGAATC ACTTGAACCT GGAAGGCAGA GGTTGCAGTG AGCCGAGATT GTGCCACTAT85321 ACTCCAGCCT GGGTGACAAA AGCGAGACTC CCTCTCAAAA AAAAATTTAT TGGCACTGCT85381 TGGCATCTGC TATGAATACA TGAAGTTCAT GGGTCAGCTA TAGATCTGGG CACGTTATAC85441 ACAGAATTTG GGTCTCCCTT TCTCTGGATT TCTCCTTTTC TGGATTTCTT TTCTCATTTT85501 CCAGCAGCTG TGGTTGCCCT AAACTCGGTC CTCTGTTTCT TTACGGCAGT AAGATTTGGG88561 AACTTTTAGG TTTTACCTGC CTCTCAGACA AAATAAAAAA TAATTTTCAT CTTGATGCTA85621 CTCCTTTCTT CCAGATGTAG ACACCTCTCT AATTTCCAGT TGCTTTTTAT TGCTCTCCAG85681 AGTCTAAAGA TTATCATTGT TTTCTGTGGG AGAGTTGGTC TGATAAAAAC TACTCCCCCA85741 AAACTGGAAG CTGGAAGCTT GTAATTATGA ATAGACTTTG AGTAGTATTC TTCTTTGGAA88801 88 88801 AAGGATTTTA ACTACTCCCT ATGTACTTCT TTATTTCCTG TTTTTCTCAT CCGTAATCTT85861 TTTATTTTCA TACTTCCTAA GTCAGACAAT TTTCCTACTT GAAGATTCAG TGACTGCTAT85921 CAAATGACCC CCATATTACT AAATACAATA TCCCCAACTG CATTTATAAA AAGAAAATTT85981 ACTGTTTATT AGTAAACAAT GTTGTAGAAT AGTAAAATAT TGCTGGGCTT TGGAGCCAGA86041 TAATCAAGGT TAGAATCCCA GATTCTAACT TACTAGCTGG TGTATTAGTC CTTTCTCATG86101 CTGCTAATAA AGACATACCC CAGACTGGGA GACTGGGTAA TTTATGAAGA AAAGAGGTTT86161 AATTGACTCA CAGTTCAGCA TGGCTGGGGA GGCCTTAGGA AACTTACAGT CATGGTGGCA86221 GCAAGGAGAA GTTCCAAGCA AAGAGGGAAA AGCCCCTTAT AAAACCATCT GATCTTATGA86281 GAACTCACTC ACTATCACGA GAACAGCATG AGGGTAACTG CCCTCACGTT TAATTACCTT86341 CCACCAGTTC CCCCCCATGA CACATGGGGA TTATGAAAGC TATAATTCAA GATGAGATTT86401 GGGTGGAGAA ATAGCCAAAC CATATAATTC CACCCCTGGC CCCTCTCAAA TCTCATGTCC86461 461 84 86521 GCATTAAGTC AAAAATCCAA GTTCAAAGTC TCATCTGAGA CAAGGCAAGT CCCTTCTGCC86581 TATGAGCCTA TAAAATCAAA AGCATGTTAG TTACTTCCTA GATACAGTGG GGGTACAGGC86641 GTTGGGTAAA TACACTGATT CCAAATGGGA GAAATTGCCA AAACAAAAGA GTTACAGACC86701 8648 86761 TTTGACTTCA TGTCTCACAT CCAGGTCACA CTGATGCAAG AGGTGGGCTT CCAATGGCCT86821 5886823 AGGCTGACAT TGAGTGTCTG TGGCTTTTCC ATGAGTATGG TGCAAGCTGT TGGTGGATTT86941 ACCATTCTGG GGTCTGGGCC AGGTGCAGTG GCTCATGCCT GTAATCCCAG CACTTTGGGA87001 GGCTGAGGTG GGGGATCACA AGGTCAGGAG ATCGAGACCA TCCTGGCTAA CACGGTAAAA87061 CCCAGTCTCT GCTTAAAAAA TACAAAAAAT TAGCCAGGCG TGGTGGTGGG TGCCTGTAGT87121 CCCAGATACT TGGGAGGCTG AGGCAGGAGA ATGGCGTGAA CCCAGGAGGT GGAGCTTGCA87181 GCGAGCTGAG ATTGTGCCAC TGCACTCCAG CCTGGGCGAC AGAGCAAGAC TCCATCAAAA87241 AAAAAAACAA AAAAACCATT CTGGGGTCTG GAGAATGGTA GCCCTTACAG CACCACCAGG87301 CAGTGCCCCA GTGGGGACTC TGTGTGGGGG CTCTGACCCC ACATTTCCCT TCTGCACGGC87361 CCTAGTAGAG GTTCTCCATG AGGGTTCTAC CCCTGCAGCA AACTTCTGCC TGGACATCCA87421 GGCATTTCCA TACATCCTCG GAAATCTAAG CCGCGGAGGT TCCCAAACTT CAATTCTTGA CTCCTGTGCA CCCACAGGCT CAATACCACA TGTAAGCCAC CAATGCTTGG TCAGGGCTTG87541 AACCCTCTGA AGCAATGGCC TGAGCTGTAC GTTGACACCT TTTAGCCTAG ACATCTAGGA87601 CACAGGGCAC CATGACCCGA AGCTTCATAA AGTGGGAGGG CCTTGGGACT AGCTGAGGAA87661 ACCATTTTTC CATCCTAGGC CTCCAGGCCT GTGATGGGAA GGGCAGCCAT GAAGGTGCCT87721 GACATGCCCT GGAGACGTTT TCCCCATTGT CTTGGTAACT AACATTCAGC TCCGTGTGCA87781 GCACCAACTT ACTTATGCAA ATTTCTGTCA CTGGTTTGAA TTTCTCCCCA GAAAACAGGA87841 TTTTTCTTTT CTATTGCATC ATCATGCTGC AAATTTTCAA ACTTTTATGC TATGCTTCCT87901 GTTGAAGACT TTGCGGCTTA GAAATTTCTT CCCCCAGATA CCCAAAATTA TCTCTCTCAA87961 GTTCAAAGTT CCACAGATAT CTAGGGGACA AAATGTTGCC AGTCTCTTTG CATAGCAAGA88021 GTGACCTTTA CTCCAGTTCC CAACAAGTTT CTCATCTCCA TATGAGACCA TCTCAGCTTG88081 GACTTAGTTG TCCATGTTAC TATCAACATT TTGGTCAAAG CCATTCAACA AGTCTCTATG88141 AAGTTTCAAA CTTCCCCATG TTTTCCTGTC TTCTAATAGC CCTCCAAATT TTTCCAACCT88201 CTGTCTGTTA CCCAGTTCTA AAGTCACTTC TACATTTTTG GGTATCTTTA CAGCAGTGGC88261 ACTCCCCATG GTACTAATTT ACTGTATTAG TCTGTTCTCA TGCTGCTAAT AAAGACTTAC88321 TCGAGACTGG GTAATTTATA AAGAACAGAG GTTCAACTGG CTCACAGTTC AGCATGGCTG88381 GGAGGCCTCA GGAAACTTAC AAACATGGTG GCAGCAAAGA GAAGTTCCAA GCAAAGAGGG88 AAAAGCCCCT TATAAAACCA TCAGATCTTG TGAGAATTCA CTATCATGAA AATAGCATGA88501 GGGTAACTGC CCCCATGATT AATTTACCTC CCACAGGGTC CCTCCCATGA CAGGTGGGGA88561 TTATGGGAAC TACAATTCAA GATGAGATTT GGGTGGGGAC ACAGCCATAC CATGCCAGCT88621 AGAGAGCCTT AAGAAAGTCA CCTAATCTCC ACAAATAAAA GGTTTCCTAT TTGTTCAACA88681681 AAAATAATGA CACCCCTTTT ATGGGATTTC TGTGAGGACA AATGATAACT AACATAGCCT88741 TGCATAGTGT CTGGCACAAA ATAGCTACTC AAAAAATAAT AGAAACAACA TTTAAAAAAT88801 GTAGACTTTA TTTTTTAGAG TTTTATGTAC AAAGCAAAAT TGAGCAGAAT GTACAGAGAG88861 TTTCCGTATA GCACTCCCTA CCCCCAAGCA CAGATAGCCT CCCCCAGTAT CAGCATCCCG88921 CACCAGAGTG GTACATTTAT TATAACTGAT GAATCTATAT TGACGTGTCA TTTTCATCCA88981 AAATCCATAG TTTATATTAG GGATGCCTCT TGGTGTTGTA CCTTCTATGG GTTTTGACAA89041 ATGTATAATG ACATGTATTC ACCATTACAG TATCATAAAG AATAGTTTCA CTGTCCTAAA89101 AATCTTTGAT CTTCTTCCTA TTCATCACTC CCTCCCCATT AATCCCTGAC AACTACTGCT89161 89 AATTTTCCTG TCTCCATTGT TTTGTCTTTT CCTGAATGTC ATATAGTTTA AATATACAGT89221 ATGTAGGATT TTCAAACTGG TTTATTTCAC TTAGTAATAT GCATTTGATG TTCTTCCATA89281 TCTTTTCAAA GCTTCATAGT TCAATATTTA TAGAATTGAA TAATATTCCA TTGTCTGGAT89341 GTACTACAGT TTATGTATTC ATTCACCTAT CAAAGAACAC CTTGGTTGCT TCCAAGTTTC89401 AACAATCATG AGTAAAGCTG CTATAAACAT CTATGTACAT GTTTTTTTGT GAATTGAACA89461 TTTTCAGCTT TTTTAGCTCC ATTCCTAGGA GTGCAATTGC TGGATTGTAT GATAAGGGTA89521 TGTTTAGTGT TGTAAGAAAC TGCCACGCTC TTCCTAACTG GATGTACTGT TTTGCATTCT89 CACCAGCAAT GAAAGAGTTC CTGTTGCTCC ACATACTCAC CAGCATTTGG TGTCGTCAAT89641 641 GTTTTGAGCA ATAGCATTTT GATCTAACTT TTCCTAGGTA TTCTTTTTGA AGGAAATAAT89701 ATGACAGATA ATAGAGAAAG GATATACGAG GACAGTTCTG TCCTTTATTT ATAGTCCATC89761 ATTTAATGAA GGACTCTGTC CACACTTGGT ATTTTTAACT CTGATCCTCC TCTCCCATGA89821 ACTCTGACAA TCTCCTAAAT CCCTGTTGCT GGCACACATG GTTGTGTATC AGGCCCCCTG89881 TGGTCTGTCT GAAGCATGGC TTTTTTTTTT TTTTTTTTTT TTTTTTTGAG ACGGAGTCTC89941 GCTCTGTCGC CCAGGCTGGA GTGCAGTGGC GCGATCTCGG CTCACTGCAA GCTCCGCCTC90001 90061 CACCACGCCT GGCTAATTTT TTGTATTTTT AGTAGAGGCG GGGTTTCACT GTGTTAGCCA90121 GGATGGTCTC GATCTCCTGA CCTTGTGATC CGCCCGCCTC TGCCTCCCAA AGTGCTGGGA90181 TTACAGGCGT GAGCCACCGC GCCCGGCCTT TTTTTTTTTT TTTTTTTTTT TTTGAGATGG90241 AGTCTGTCAC TCTGTCACCC AGGCTGGTGC AGTGATGCAA TCTTGGCTCA CTACAACCTC90301 CATCTTTCAG GTTCAAGTGA TTCTGCCACC TCAGCCTCCC AAGTACCTGG GATTACAGGT90361 GCCCGCCACC ACACCCAGCT ATTTTTTTGT ATTTTTAGTA GAGACGTAGT TTCACCATGT90421 TGGCCAGGCT GGTCTCATTC CTGACCTTGA GTGATCCACC TGCCTTGGCC TCCCAAAGTG90481 CTGGGATTAC AGGCATGGGT CATCACATGT GGCCTGAAGC ATGACTGTTG CTTTAATCAT90541 ATGAAATACT GCTCTGTATT GTTATCTATT TGAAATGCCA CACCTCCTGA GCTAAATTGC90601 AAGCTTTTAT GGAGCACAAA CCATATTTAT ATATATTAGC ATGATACCAT GACACATATC90661 AAAAGCTGTT ATATATTGTT ACGTGAATTG ATTCTTTCTC AGTTAAGAGG ACCTCTGTAG90721 TAGCACTTTC ATACCGTTAA TTTTTCATTT TGTGCCCAGC CCCTACTCTG TGAAAAATGA90781 AATGAATCCT GTTATCATTT CCCTCCCAGG CCTTTTCTCC TTGTGGACAA TGTGTGGCTC90841 AAGAGAAAAT TCAGTCAGTA AATTTGTTCA GTGCACAAAC TCTTTATCAC CTCTCACTGT90901 TCTCAAGTGA GATAGAACAG AACATCCATC CAGTGTCTTA CAAATTGTCT GGTATATAGT90961 AGGCACTCAA TAAATGTTTT TTGAATAAAT GCATACATGA ATCCTATTCC TATATATAGT91021 ATGGTAGACA GATCATTGAT ACCCAAAGAT GCCCAAATGC TGATCCCCAG AACTTGTGAA91081 TATGTTACAT TTCATGTCAA AAGGGACTTT GCTAATGTGA TTAAGGATTC AGACCCTTGG91141 ATTGTAAGAT TATCCCGGAT TAACCAGGGC CAATCTAATC ACATGAGACC TTAAAAAAGC91201 AGAAAACATT TCCCAGCTGG GTTAGAGAGA GATGAGACAG AGTAAAAAGG AAAGAGATTC91261 AGGGCATGAA AATGACTCTA CCCACTGTTG CTGGCTTTGA AGATAGAGGA ACTAGGCCAC91321 AAAACAAGGA GTATGAGTGG CCTTAAGAAA TAGGAAAAAG CCCTCATCTG ACAGCCAGCT91381 AGAAAGCAGT CCTCTGACCA CAAGAAATTG GATTCTGCCA ACCACTCAAA TGAGCAAGGA91 AATGGATTCT CCCCTAGAAC CTCCAGAAAG GAACACAGCT CTGTAATGCC TTGATTTTAG91501 CCAGGTGAGA CCTGTTTCAG ACTTTTGACC TATGGAAATA TAAGATAATA AAGTTTTATT91561 GTATGCTGCT AAATTTGCGG TAGTTTATTA CTGAAGCAAT GGAAAGCCAA TACAGACAGA91621 ATATACAGAG AGAAAGAGAA TGAGTTCTTT CCTGATAATT TGTAAATATT TGGGTCTTCA91681 681 CTGGACAAGC TTCACAGAGG ATTCACTGGT TCCCTAGCAA ACCAGCATGT CCAGTCCTGC91741 AGCCTCCCTT TCTTAGGCCC AGCATATGTC AGCTGTGTGC ATAGAAAAAT CAAAGCAGGA91 CCCTGAGTAG TTGGAAAGAA AAGATGGTTG GAAATGGGTT GCACTTCAAG TGAGGAAACA91861 AGAGGTAGGA GACCGGCATC TCTTTCTCAT ATGTCCCAGG CTGACTCTTG TGAGTTGTTT91921 TCCCTTGGAG GCTATCGATG ACAGTCACAG TAACCTGATG GAACCTGGAT CATGATGAAA91981 GAAGTAAGTG TCAATGGCTC CGACTTCCAA GGACTCTGAT GTCCCACAGC ACTAGCTAAA92041 CAAAGCCAGT TGGAAATGAG CTTAAATGGG GAATTTCCTG AATATATTCC CTATTGTTAG92101 GAAGCCAGGT TGGCTTCCTT GCCTACAATT ATGCCAAGCA GTCACACTAT AGAGTCCCTA92161 GGGACATGAT ATTAAGTGAT TCTTTTAACA CAAACAACTT AATAATCATT TATACTAATA92221 GCAAAACGGC CAACGGCTGA TATTCCACTT GAAGTAGAAT TGGCTATCCA ACTGGAAGAG92281 AAGACAGGAA GACGTGATCT CCAGGGAGCC ACTAAAAGGA TTGGCACCTG CCTCTGGATT92341 CCCCTTTTCC TTATATTACC TCTCAGCACT GGCAGGCCTT TATTTCAGGA TACAGTTTCA92401 CAAGTATTAT GTCACGTCTC TGAGAATTAT GTTGGTAGAT ATTTGCTCCT CTGGCCAGAA92461 92521 57348 92521 TAGCTAGTAA AAATAGTGAG TAATGGCCCT GAAATTCTAT TGAATGCCCA AAGTGCTGAC92581 CAGGAACAAG CATGCTCTAG CTTATCTCAC AAGGAACTTG ACAATTTTCT TCAAAAATCC92641 TAGTAGCTAA GATTTCTTAG TAACAAAGCC ACTAAGGCAC AATTATGATT AACTTGACCC92701 TTAGGTGACT TTTAAGGACT ATTCTATAAA ATATTACAAC TAATAGTGGA TCCAAGCCAG92761 CACACTCTGC TATATAAGAT TAATTGACAG TGTCCACACT GGTAAAATAA GTTGTTTCAT92821 AAATACATTA GAATTCATTT GCACTTTCTA CACAGCCCCA AGTCCAGAAC TTTCCCCAGA92881 ATAGGTCTAT GTTTTGCAAT CTGCTACTCC ATACAGAGAT TTGAGTTCAC TTGGCAATTT92941 AGTGCTGCTT ATATGTGACC AGTTAGTCTG TTTTACTTAT CTATGCCTTA AACATTACTA93001 TACTTACTAA CTCCAAGATG CCTGGTCTCA ACTTGACAAA AATACCCCAA GTTGGGAAAT93061 CCTTATGTGA ATATGTAGAT AGTCACAATT GCTGGTTGAT GATGATCTGT CTTTTCCTGT93 ATTTGAGAAA ATGGAGATAA AATGGACCAA TCCAAATAAT GGATTAAACA TGGGAATAGG93 TGAGAGAGAG AGAGGAATAC ATGGTGGCTC TCAGTGTCTG GCTTAGGCAG TAAACACTTT93241 933241 CGTTAATAAA GACGGAAAAT AAAAAAGGAA TAATTGGTGT CTAGGGGAAA ATAATGAGCT93301 CAAGTTTTAA CACTCTGAGT TCCCGGATGT GAGACATCCA GGCGCATTTA TCCAAGAGGC AGTTGGAAGC AACGTTCCGG AGCTTAGGAG AGAGGCATGA CCAAAAGCTG 933933933 933 9337 GTGGGACTGT93421 GAAAAGGTAT GGCCATTCTG GAAAACTGTT TGGCAGTTTC TTAGAAAATT AAACATGTAC93481 TAACAACCCA GCAATTGTAC TCTTGAGCAT TTGTCCCAGA TAAATGAAAA AAAAAAAAAG93541 CATTTTTTTT ACACAAAAAC ATATACATGA AAGTTCATAG AAGTGTTATT CATAAAAAAC93601 TGGAAAAAAC TGAGATGTCT TTATTGAGTG AATGCTTAGG CAAACGGTGG TCTATCCATA93661 CAATGGAATT ATGCTTAGCA ATAAAGAGAA AAGAACTATT GATACATGCA ATAACACAGA93721 TGAATCTCAA AGGAATTAAT GCTGAGTGGG AAAAAAAGCA CATCTCAAAA TGGTATATAC93781 TGTACTATTT TATTTACTTA ACATTTTAAA AATAGCAAAA TCATAGAGAT GGAGAACAGA93 TTAATGGGTA CTGTGTTTTG GGATGGGGAG TGAGAAAAGG GTAAGGTGTA AATATAAAGG93901 GGTAGCACAA AAGAGCCTTG TGGTTGAAGG ATTCTATGTC TTGGTTGTAG TCGTGATTGC93961 AGGAATCTAC ATGTGATAAA ATTGTATGGG TCTACATACG CATACACACA AGAGCATATA94021 AAACTGGTGA CATGTGAAGA AGCTCCGCAC ATTGTGCCAA CATCAGTATC CTAGTTTCAA94081 TATCAGACTA CAGTTATACA AAACATTGTC ATTGAGGGAA ACTGGGTAAA GGGAACACAG94141 GACATTTGGC ATATATTTTT GCAATTTCCT GTGAATCCGT AATTATTTAA AAATAACAGA94201 TATACTACAT ATCAAAAATT TAATGTCATA AAGTTGATGA GTTTACCTAG TGGATAGCTT94261 TGTTAATATC TGCTATAAGA CTACTGAAAA TGACAGTTAT GCAAGTATAA GCTCAGAGAA94321 CTTTCCTCCC CCTTCGTAAA TGAAATGAGC AAAAGAAATG AAACAGGAAA GGCAAGCAGT94381 ACTGAAAACA GGGAAGGGCT CTTCCCCATA TAACTATATC TGCGACTTCA ACAGCTATTC94441 ATCCAGAAAC ACAGCCTCTT GCGCTAAGAG GAAACTTTGG ATAACAATAT GTTTTCACTC94501 TCCAAGAGAG AAAATGGATA GATTAATTTT TAAGAAAAAA AAAAAAACCT CACCAATTTC94561 ATGCTGTGGC TTGCACCTTT AATCCCAGCT ACCTACAAGG CTGAGGTGAG AGGCTTACTT94621 GAGCCCAGGA GTTCAAGGCT GCAATGAGCT ATGATTGATT GTGCTATCGC ACTCCAACCT94681 GGAGTACTAA GCTAAGAGCT AAGAACACAG CTGAGAGCGG AGAAGAAACA AACAAATCTG94 ACCAATAACC CCCACTCCCC TCATTTTACT GGAGTGAGCT GAGACTGCTG GCAAACATGG94801 CCTTTGACCT AGCCTGAACT GTAGCAAAAG TCATCAGATA TTTTTCCACC AATCAACAGA94861 CAGAAGTGGG GAGAAAACAA TCGTAGTTCA TAACTACAAC AAGCAGATAA ACGAAGGCCA94921 TGGTGAGGGA TGGAAGACAT TGTGATATAT CAAAGGCAGG CTCATTTAAA ACTCAACCCA94981 AATTCCAAAC AAAATATATA ATTGAATATG TATTAATGCC AAAGGAGCTT GAGTGAGCTT95041 TAGCACAAAC CCCGCCCTCC AGCCCCCACC CAAAAAAATC ACTCTGTTCT CTCCCCATTC95101 TTTGATAGGC ATACTTGCTG TTTTCTCACA GCCAAGGTAC AGAGGGGACT TAGAGGAACT95161 AGAACTCTAA TACACTGCTA GCAGGAATGT AAAATGAAGC ATCTACTTCA GAAAACCATT95221 TTATCAGTTT CTAGAAAGTT AAACATAGAC CCACCATGCA GCCCAGCCAC TCTACTCCTA95281 AGTATTTACA CAAGAGAAAT GAAAACGTGT CCCCACACAG TTGTATTTAA AGGTGATGGT95341 TAGCCTTGTG TGTCAACTTG GCTAGGCTAT AATACCCAGT TACTGAATCA AATAGTAATC95401 TAGGTGCATC TGTGAAGGTA TTTTGTAGAT GTGGTTAACA GCTACAATCT GTTGACTTCA95461 AGTAAAGGAG ATTGCTCTTG ATAGTATGGG TGGGCTTCAT CCAATCAATT GAAGGCCTTA95521 AGAGCAAAAA GTAAGGTTTC CCGGAGAGAA AGAAATTCTG CCTCAAGACT GCAGCCTCAA95581 CTCCTGCCTG AGTTTCCAGT CAGCCAGCCA GCCTAAAGAT TTGCTAGGCA TTATAATCAC 9559 ATCAGCTAAT TTCTTAAAAT AAACCTCTTT ATATATATTG ATACAATGAA TGGTTATAGC95701 AGCCTTATTT GTAATAGCCA CAAACTGGAA ACAACCTAAA TGTCCTTCAA TAAGTGAATA95761 CATAAACAAA TTGTGGTATA TCCACAATTT TTACGCAGCA GTAAAAAGGA ATAAATGGTT95821 GAATAAGGAA TAAACACATA ACAAGGATGA ACCTTAAAAC CGTAAGGCTG AATGGAAAAA95881 GTCAGACAAA ACTAATACAT ACTGAATAAT TCCATTTATA TTGAAGTTCT AGAAAATGAG95941 GACTAACCTA TAGTAACAAA AAGCAGAAAA ATTTTGCCCA CTGGTGATGG AGGGGGCGCA96001 GGTATTGTAG AGTATCTGAG AAAGGACAAC TGGATAAAAG GGGGCACAAG AAAACTTTTG96061 AGGGTGATTG ATATGTTCAT TATCTTGTGG CATGGTTTCA TAGGTGCATA CATATGTCAA96121 AACATCAAGT TATACACTTT TAAAATGTTC AGTTTACTGT ATATCTATTA TACTTCAGTA96181 GAGAGGAAGG AAGAAAGTGG GCAGGGTGGG GGAGAGGAAA GGAAACGAGG GAGGAAAGGC96 CCTAATAGGA AGGATTTTGG AGTTTAGATT TTAAAATGAT AAAGGATGTT TGACACTCTA96301 GGCATATGAC GAATATAGGA TTATGAGTCC ACAAAAACCA CCAGGAAGTC ATGTATGTTT96361 ATACTTTTAA GTGAAGGATC AGTGGATTAT CAACTCCCTA ATGCTTTGCC TCTCTATGAC96421 TGGCTGCTGT CCTTCTCATC CCAATACTCC TTCCAAAGCC CCTTGCTTAA ATGTAAGCCT96481 TCTTTCCTCC TTTCAACACA TCCTGCATTC CGTGACAAAA TAAGTTTTCC TTAAACAGAA96541 TGTACAGCAT ATTATTTGTA CAATTAAAAA TTTTTGGCCA GGTGTGATGA CTCATGCCTG96601 TAATCCCAGC AATTTGGGAG GCCGAGATGT GTGGATTACC TGAGGTCAGG AGTTCGAGAC96661 CAGCCTGGCC AACATGGTGA AACCCTGTCT CTACTAAAAA TACAAAAATT AGCTGAGTGT96721 AGTGTGGCAG GTACCTGTAA TCCCAGCTAC TCAGGAAGCT GAGGCAGGAG AATCGCTTGA96781 ACCTGGGAGG TGGAGGTTGC TGTGAGCAGA GATCAGACTA TTGCATTCTA GGCTAGGAGA96841 CAGAGTGAGA CTCGGTCCCC AAAAAAAAAC ACATTTTTTT TTAATGTTTC CTCCTTGCCT96901 GTAGGAAAAA GGCTCTGACT CCTTAGCCTG GGCATCAGAG CTCTATCTAA ATGGACTTTA96961 ACCTGATTTT GTGGCACTAA TTCCATTGCA GTACTTGTCC GCTCACTGGC CTGTGCCTCT97021 CTGCCACTAT TTTTGGAATA ATGTCCTCTC TCCATCTTGT TTACTCAACT ATATCCAACC97081 TCTAAGGCTG TGCTCCTACA AAGCCTCCCC TGGCTACTTC AGCCCACAGA GATATTTAAC97141 TGCTCTGCAG TTCAGGACAT TCTTCTGACT CTTTAAATCA CATTTACTTA TATATGATCT97201 TGTGATATTT TTTGTTGACG TGTTTACTTT AATTTTCTTC CATAACCTAT TCATTCAACA97261 9759321 97 ATAGATATGT TTGAAATTTT ATTTGGCAAT CTGCAAGTAG AAAAATAATT ATAATGTGGT97 ATATCTGTGA TAGAAGTATT AGTGCAGAGA CCATGGGGAA CATAATCCAG CCTGGAAGTT97441 CAGGAGAGAT ACGTGGAAGA AAGGACGTCA GAGCCTTTTT CCTACAGGCA TGGAAGAAAC97501 ATTAAAAAAA ATTTTTTTTT TTGAGATGGA GTCTCACTCT GTCTCCCAGC CTAGACTGTG97561 GTGGTGCGAT CTCTGCTCAC TGCAACCTCT GTCTCCCGGG TTCAAGTGAT TCTCCTGCCT97 CAGCTTCCCA AGTAGCTGGG ATTACAGGTA CCTGCCACAC ATGGATGATA AATATGATCA97681 TATTTTCTTG TTCTTTTCCT CCTCAGTTGT CTTCCCTGAA GAAAGGAATG CCTTTTATAG97741 741 ATGACAAACT CCCATTCTCA AGAACAAGGA TTTTTGACCA ATTTAATTTA ATCAGATGTC97801 TGGCTTTGAC CTAGAAACAC AGTCACGAAA CTTGGTGATT AGAGACCAAT TCCCAAACAT97861 GAGCATTTCT TAGGAAACAC AGTAAAGATC TGAGAGACCC AAGAGCAGAA GGGCGAGAAA97921 CCAAAAGCCA TCAGTTTGCA TAGGAAACAC CTTGTTTAGC CTAATCTTTT TATTTTTATT97981 ACTCTATTAG TCACTACAAC TATTTTCTGA TTGCTATGGT GATAGATGGT TTAAAACAAG98041 CCTTCATTAA GAATTGTCAC ACCATGGTCT CAGTCAAAAA CACCAACATT TTTATTGGTA98101 988 98639823 9898221 ACAGAGAGTG GACTCTAAGC TAAGACTTAA AAGATAAGTA GAAATTATCC AGGTAAAGAT98281 GTGTACAGAG AAGGAAGTAC ATCCAGGGGA AAAGAACAAT ACGTGCAAAA GTACGGAAAT 9898341 GGTAAAAAGT AATACTACAT AGTCAAAGCC AAGCAGAGTT CAGAAGGGAT CTGGTGGTGA98401 AAAATACGGC TAGAGAAAGC AGCAAGGATT GGCTTCTAAA ACCTATGTAG TATCTTGGAC98461 369827 AATATTTTGA GGCTTTCTGT GAAGAACATC ATTCTAAGTA GTAAAGATAC AGCAGTGAAT98581 AGGACACATA AAATCCTAGA TCTCACAGAA TTGACATTCC AGAGAGGGAA AGGTAGACAA98641 TAAATACATA AACAAATCAT TTAACAAGAT GATTTCAGAC AATGGTACGT ACTGTGAAAA 989846701 4698761 TGGTTAGAAA AGATCTCTCT AAGAAAGAGA CCACATGTGA GCTGCGACCT GAAGGATACC 98821 GAGAAGCTAG GTGTGCAAAG ATGTGGGGAC AGAACTTTTG GACTGAATAG CAAATACAAA 98881 TGCCCTTGGG TGCAAGCTTT GCCTGTTCAA GGACCAAAAA GAAGGCCAGT GTGCCTGCAG 98941 CATACTAAGC ACAGAGGAAA ACACTGTTAT ATGCTGAGAT TGGAATTATA AGTAGAGCCA 99001 GATAATATAG TCTCTTATAG GTCATAATAA GGCAACCAGA TTTTATTCCA AGAGGATTTA 99061 AAAATCACTG GAGGTTTTGC ACTAGGGTGA GAGGTGTGAT TTGTATTTTT AAAAGATAAT 99121 TCTGGAGAAT TAACTATAAT GAGGTAGGAG TAAACTAAGT TAGGGGCTAT TTCAGTGGCT 99181 CAGACAAGAG ATAATGGTAG CTTAGACTAG GATAGTAGTC GTAGAAATAA ATAAAAGTGG 99241 CACTCTACTT TGGGGGTAGA GTCTATAATA GGTTTGGTTT ATGGATCATA TATGAGAGTA 99301 AAAAAAAGAA AATAAATTAA TAATGGTTCC TAGGTTTGTA CCTGAGCAAC TGAATAAATG 99361 GGTGCTGTGA ATTGAGATAA AGGAGATTGA GAATCACAGG CTTTGTTTTG CAAATTAATT 99421 TTGAGAGGCT TATTAGACAT CCCAGTGGAG ATTTCAGGTG AGTGGAGCCC ATTGAAAGGT 99481 AAGGGACAGG GTCAGGTGTG GTAGGTCAGG CCTGTGATCC CAGGACTTTG GAAGGCCAAG 99541 GCAGACAGAT CAGTTGAGCT CAGGAGTTTG AGACCAGCCT GGGCAACATG GGAAAACCCT 99601 GTCTCTACAA AATATGCAAA ATATTACCTG GGCATGGTGG CATATGACTG TGGTCCAAGC 99661 CACTTGGGGG GCTGAGATGG GAGGATCACT TGAGTACAGG AGGCGGAGGT TGCAGTGAGC 99721 CAAGATCTCG CCACTGCAAA CCAGCTTAGG TGACAGAGTG AGAACCTGTC TCAATAAATA 99781 AATAAGAAAC GTAAGGGAAA AGGAAATTAA TCTGATCATT GGCAAATGCA TAGTATTTAA 99841 AGCCAGGGGA GTAGATGAGA TACTCAAAGT AGGTGAAGAT AAGGAGGCAA TGAAGGCCTA 99901 GGACTCTGGT GTACATTTAG ATGGTTATAA GAGGAATAGA AACTGGCAAA ATAAGTAACA 99961 CTGAGCACCC AATGAGGTGG AGAGGAAAGC CAGGAGATGA AGCATCATAG AAGGCAAGAG100021 AAGAAGGGTG TCAAAGAGGC GAGGCAGTCA TCAACTTCTG GGCAGTCAAA TAATATAAGG100081 ACAGAAAAGT GACCATTGGA TTTGGAAATA TGATGAGCAC TTTGAGTGGA GTGTTGAGAC100141 AGAAGACCAA TTAGAGTAGA TTGAGGAGAT AACGAGAAAT GAGAAAATGT AACCTGCAAG100201 CACAGACAAT TCTTGAGAGA CTTTTCTGTG AAAGGAAACA GACACAGAGT CTTAGCATGT100261 CTTGTCTTTC TATGGGAAAT GTAAATAGTT TGAGATCAGG GATAGTATTT TATTCTGCTT100321 TTTGTACCTC TACATTACCT AGCATAGAGC TAGCTAATGT GCACTTAAGT ATGTTCTCAA100381 TTCTTATCGC CTGAATGACT GGATGGGTGA AAGAATGGAT GGATGGATGG ATGGATGGAT100441 GGAAGGATGG ATGGATGGAT GGAAGACTTC TGATTTGCCA AGAAGAGGAT ACTGGTAGCA100501 100561 ACAGGAAAGT AAGACATTAG AAGAGTCCTT AGATAATTTA TGTAATTGTT CACTTAGGAT100621 TTTTAAATGT GATCACTGAT ATTGGACATG TTCCTAGTGA AGCATTTTTG GTGTTTCACT100681 GGTTGAAGTT AATAACTGTA AAATTATTTC CCGTTCAGGA CAGAAAAACA GAAAACTTGA100741 AGCTCCTATT AGAAAGTTCA AGATTCTCTG GGGTTCTTAG GATTTACTGT TCCCAAAACT100801 CTGTCAAGAA CAAGAAAATG ACCTGTATAC TTAACTGGTC TAGGCAACAG TGGAAAGACA100861 ATTCTCAGAG AAGATTTGTT TTAAGAAGAC ACTTTCCATA GGAATCAAAC AATAGCTTTC100921 AGTGACTAAC ATGGTAAGAC ACAGGGTGTT AGCTCTTTCC TTCCAACCTC ATGGCTGTTG100981 TACCTTACCT TTCGACCCCG TGTTCCTGAA ATTGTTAAAT TCATAAACTT ACCAAGGACT101041 AACCAGCCTC TGGGGAATTG CTGTATACTT AGCAAACTTA CAATGGACAT ATTTATAAGC101101 CATAATGATA ACTGACTAAT AGGAAATACC CTCAACTGAA AATGAGAGAT CATCATTTGC101 AAATGAGTTC CCTTGCCCAG GCAACTACTG GGGAAAATGT CATGCAAGCA AAATTAATCT 10159221 TTGAAATCCT CCTTTTCCAT TTTTTGTGTC TTCCTTTTCC ATAGGCACCA GAAATATCAT101281 GGTGCCTGGA TCTCATCTCT ACAGAAAAAA AAAGTGATTT GATAAACTGA TTTATATTGT101341 GTCCAAATGT GATTGTATTT TCAAAGATAA CCTAAGGGGA GAATGCTGTC TGGCCCAACA101401 GCAGGCTCTC GACTTCATTT CAGACACTGT GGCCAATGGC TGGGAAACAG GTATGAACAG101461 TAGGTTTCTG AGTCCCCTGG AATTATTCCA TTTATGTAGC CACCTCCATG ACAGGAAGCC101521 TCCCTACTCT TACTTCCCAG TTTGTTCATT CATGGCACCA GGTTGCAGAT TAAAATTTGC 10186581 TCAGTGACCT TTTATCTAAT AATGTGTTAC CTTCTTCTCT TAAAAAGTAC AAGGGACAAA101641 86701 86 ATTTATTGAG CATTTATATG TGCATCATGC TAGGGACTGG AACCTAGTAA GTGTAGCACA101761 TATTATTTCA TTTAATCCTC ACAACAAACC CATGAGGTTG GTTTTATGAT CCCAATTTTT101821 CAGAAGAAGA AACTGATATT CAGAACCAGT TAACTAACTG GTTCAAGGTC ATGCAATTTC101881 881 TAAGATACAG AACCAAGAGT CAAAGACATG ATTTTAAACC AAAGCTTTTT CTGCTACTCC101941 ACATTGCTTC CCTAGGTGAG ATCTGAGGCA TTCCGCGAAA AGAGAAGGGT CATAAAGCCA102001 AGGGAAGACA AGCTTAGGAA AAAAAAGGGA AATGTCCTAA ATAAACAGCT TTCCTATTTA102061 CCAGAAACCA CTAGTTTAAA AATATAATGG GAAAAATCCT ATTCACTTTA ACAATGTTAA102121 AAAAAAAAAA GATAGAAGAA ACATAGGGAT AAACTTAACA CATTTGTAGG ATATGTAAAG102 AAACTAAAAG ATGTTAATAA TGGCCTAAAG AAAAAAAAAC TTACATGTAT GGGGAGATAG102241 ACCATCTTAC TGGATTCTAA TATTTAATAG TCTAGGTGTT CCATTTCTCA CCAAATTAAT102301 GTATACATTT AATACAATGT CAAACGAAAT ATCTTAGGAA TTGCTTACAA ATTGTCAGAT102361 AATTACAAAG TTTACCTGGG AAATATAAGC ATATATGAAG AGTGAATGGG ACCCCACCAC102421 TCCCCCCAAA ACAAAAAAGG TCTGAAAAGG ACAGAAATCA AGGAGAGTCT TGCCTGCCAG102481 ATACAAAATT CTATTATAAA GGTGTATTGA TGAAAACAAT TTAATACTAG TGTAGCAATA102541 GGCAGCAAAG CAATGAAACA GCATAAAAAG ACCAGAACTA TACCTAATTA TGATGAAGAT102601 TTAAGGTATG ATAAACATGA CATAATTCAA ATCAGCAGAA ATTGGCATAG ATAGGGTTAA102661 GACAAATAGC TAATCATTAG AGGGGAGGAA GGAAAGGAGG GAGGATAAAA TTAGGTTCCT102721 GCCTTCATCT TACATTAAAA TAAATTCCAG ATGTATTACA TTTAAATTTT TTTAAAAAAA102781 GAAACCACAA AATACTTGAA GAAAATATAA GTTGTTATAT AGTCTTTTGA TGGGAATTTT102841 TTTTTTTTTC AGAGACAGGG TCTTGCTCTG TCACCTAGCC TAGAGTGCAA TGGCATGATC102901 102 ATGGCTCACT GCAGCCTTGA ACTCCTGGGC TCAAGTGATC CTCCCAGCTC AGCCCCCCAG102961 GTAGCAGGAA CTACAGGCAT GCGACACCCC ATCCAACTTA TTTTTTATTT TTTGTAGAGA103021 1039 103081 695 2 103141 10382201 TAAAAAGCAA ACACAAAAAA TTTGTAGCAC TTATGACAAA TATATGTATA TATATGAATA103261 CAAAAAGAGC CTTTACAAAA CAGTAAGAAA ACAATGAATA CTCCCAATGG AGTATTCAAA103321 ACTAAACTGC TAAAAGCAAT TCAAAACAAA AAACATAAAC TATGCATATA TGTATGTGAA103 AAAGTTTAAC CTTATCAAAG AAGTAAACTC TCAAAGAAAT AAACATCAAA TAAGGAAATA103441 GCCTTTTCCC ACAAATAACC AAAATCTGTA AGAATACTGA GCTGCGAATG TTTCAGAAAA103501 AAAAAAAAAT CATACACCTA GTTCGGCATG TAATTAATAT AGATCAGAAC ACTTTAAAAA103561 TATTTATAGG CCAGGCACGG TGGCTCATGC CTATAATCCC AGCACTTTGG GAGGCCAAGG103621 CGGGTGGATC ACCTGAAGTC AGGAGTTTGA GACCATCCTG ACCAACATGG TGAAACCCTG103681 TCTCTACTAA AAATACAAAA ACTAGCCAGG CATGTTGGCG TATGCTGGTA ATCCTGGCTA103741 CTCGGGAGGC TGAGGCAGGA GAATTGCTTG AACCCAGGAG GTGGAGGTTG CAGTGAGCTG103801 ACATTGTGCC ACTGTACTCC AGCCTGGGCA ACAAGAGCAA AACTCTGTCT CAAAAAATAA103861 TAATAAATAA AAATAAAATA TTTATATACT CTGACCCATC AATTTGTCCA GCATAATTAG103921 GCATGTGTAC AAGGGTTTAC ACACAAGAAT GCCTATTGCA ATATTGCTTT TAATGCTAAA103981 AAAAATTGGG GAAAATGCTT TAAAAATATA GATTAAGACT GTACATTGTG GTACAGTCAT104041 ATAATCAATA GTATACAGCT ATTATTTATT TTCAGCCACT GTCCAAAATA TAGCCTGGCC TAACAAC ^ TT CTGTTAGGAT ACGCAAGCAC CGTGAGGAGA TCAGCTATAA AGTATCAGTG104 TTTCACACCA CTGCTCCTTT GCTAATAACC TTCAATGGCT TTTAAAGAAG TAAAAAACAA104221 10424 104281 CAACAACACT GCCCTAACCA GGATGAGTTT TTTGCCCCCC TGGAGTACAT TCAGCCTTTC104341 CTTATCAAAC CTTCCTTTAA ATAAGTATCT TCTCCAGGAC CACTTCACTT TCTTCCCCAA104 TTTAGCATTT TCTATATCTC CAGGCCTACC TCTATAAAGC CTGTCCTAAC CACTCAAACC104461 CTAGCTTTTT CTCTGAACTG CTAGAAATAT TTTTCTCTCA TTGGCCATTT AGGTAAAAAG 104695521 104 GTTTTTACTG TTTATTACCT ACTCAATAAA AATTTTCTTT TTTTGAGACA AGGTCTTACT104581 104641 GCTCAACAGT CCTCCCACCT CAGCCTAGTG AGTAGCTGTG ACTACAGGCA TGTGCCACCA104701 TACCCCACTA CTTTTCATTT TTTATTTTTT GTGAGATGGA ATCTCACTAT GTTACCCAGG104761 CTGGTCTGCT GATCTCAATT GATCCTCCCA CTGTGGCCTC CCAAAATGCT GGGATTACAG104821 GCATGAGCCA CAATATCTGG CCCCAGTAAG CTTTTAAGGC CATTAACATG AGGAACAGTG104881 TTCTTTACAC TATTTTATCA GCTAGGGCTT TGCATGGAGT AGGAGTTTAG TAAATGCGGT104941 TGATGGGTTA ATCAATGTGT GAAAATATTC AGAGCCACCA AAAACAGATA TTATGTCTAT105001 TCTCATCAAC AATCAAAATT GAGTAAACAG CCATTTTCTA ATACAGGAAA CCACAAAACA105061 TTGAATGGTG ACATTAAAAA ATTCCCCCAG CAGGAGCCAA CCAATTTTTT CATCCTG ^ TC105121 CAAGTTAGCA AACTGCAAAA GATAGGAAGC ACTAATGAGT GGAAATTTGA GTAGAAGCAT105181 TTCTTATGAA GGCTGTCTTG ACTGGATCAC ATTTTTATTG CTGTTGGAGG TGCCAAATGT105241 GTGTGTTTAT GCTAATCCTC CACCTCAGGC AACACACAGT CAAGGATCCT ACCAAGTGTT105301 ACCGTCAAGT GTCTGTTGGC AGCTCAAGGC CCCAGCGTTG TTCCCTTGCA CTAGGGAAAA105361 GACATATTCC AGGTACAAGT ACTCCCACTT TGATGCTACA GAGGAGTTGC TGAACTTTGT105421 GTCATTAATC TCTCTTCGTT AGATCCCAAC CCTGTTTAAA TCCCACTATC TGCCTACTCT105481 GGGTCTTCAC CAATTTACTA GATCATAGTT GGAGAAAATC TACAAAGCCT TGCTCCCTTT105541 AGATTTAAAC AGGTCTCCGT TTAAATTTAG AATTGCTAAC TTCAAGCGGG CCCTTATGCG105601 ACAGTATGCC TGTCAGTCAT ACTACATTTC CTCAATTCCA TTCATGTGAC TGCTCCATAC105661 CCTTCCCTCT CTCTTCATAC TACTATTATC TCTTCCCCCC TCCCTCATTT TTAACTGATG105721 ATCTTGTTTC CTATTTCTCT GAGAAAATAG AAGCCATCAA AAGAGAGTTT CCACAAACTC 10578142 105 ACTGCCTATC TGTGCTTCTA TCTAAGGCTA ACCCTTCCAC TTCAGTTTTG AATATTATCA105901 GCTCTTACCA ACTCAAGGCC ATTGCTCTAG CAATTCTCTC ATTCTCTCTC ATTTTCTTCC 1056869 695 ATCAAGTTTT CCTTTTCTTC AATTAACAGA GTAGCTCCTA AAGGGAAAAA AAAGTCTTCT 021 TTTTCAATGC TCATCATCAC TGGCCATCAG AGAAATGCAA ATCAAAACCA CAATGAGATA106081 TCATCTCACA CCAGTTAGAA TGGCAATCAT TAAAAAGTCA GGAAACAACA GGTGCTGGAG106141 AGGATGTGGA GAAATAGGAA CACTTTTACA CTGTTGGTGG GACTGTAAAC TAGTTCAACC106201 ATTGTGGAAG ACAGTGTGGC GATTCCTCAG GGATCTAGAA TTAGAAATAC CATTTGACCC106261 AGCCATCCCA TTACTGGGTA TATACCCAAA GGATTATAAA CAATGCTGCT ATAAAGACAC106321 ATGCACACGT ATGTTTATTG TGGCACTACT CACAATAGCA AAGACTTGGA ACCAACCCAA106381 ACGTCCAACA ATGATAGACT GGATTAAGAA AATGTGGCAC ATATACACCA TGGAATACTA106441 TGCAGCCATA AAAAATGATG AGTTCATGTC CTTTGTAGGG ACATGGAGGA AGCTGGAAAC106501 CATCACTCTC AGCAAACTAT CACAAGGACA AAAAACCAAA CACTGCATGT TCTCACTCAT106561 AGGTGGGAAT TGAACAATGA GAACACTTGG ACACAGGAAG GGGAACATCA CCCACTGGGG106621 CCTGTTGTGG GATGAGGGGA GTGGGGAGGG ATAGCATTAG GAGATATACC TAATGTTAAA106681 TGATGAGTTA ATGGGTGCAG CACACCAACA TAGCACATGT ATACATATGT AACAAACCTG106741 CACGTTGTGC ACATGTACCC TAAAACTTAA AGTATAATAA AAAAATATAT ATATATATAT106801 AAAACAACTA AAAATAAATC TTCTTTTTCT GCAGGATCAG TCCATCACCA CACACACAGG106861 CTGTGTTTTA TGTTGTTCCC CAGCTTAAGA GATCGTTCTC CAGATCCCAC TGCTCCTTCC106 AGTTGTCACC TCAGTTCTCC ACTTCTTTTT GCTGATAAAC TACTCTAACT AGTTACATAT106981 GATTTCTGTC CCCAGGTCCC CTCCCTCAGT TGTTTTGAAC ATAATCATTT ATATCATTTA107041 TCATTTTCAC TCTAATTGCA CAACCAAAAA CTCCCTTTTT TTTTAGATGG AGTCTCACTC107101 TGTCACCTAG GCTGGAGTGC AGTGGCATGA TCTCGGCTCA CTCCAACCTC CGCCTCACGG107 GTTCAAGTGA TCCCCCTGCC TTAGCCTCCT GAATAGCTGG GATTATACAC ATGCACCACC107221 ACACCTGGCT AATTGCTTTG TTTTTGTTTG TGTGTGTGTG TGTTTTTTTT TTTTTTTGGA107281 CAGAGTCTCA CTCTGTTGCC CAGGCTAGAC TGCAGTGGCA TGATCTCAGC TCACTGCAAC107341 CTCCACCTCC TGGGTTCAAG CGATTCTCCT GCCTCAGCCT CCCGAGTAGC TGGGACTACA107401 GGCATGCACC ACCATGCCAG GCTAATTTTT TTGTATTTTC AGTAGAGACC AGGTTTCACC107 ATGTTGGTCA GGCTGGTCTT GAACTCCTGA CCTCAAATGA TCTGCGCACC TGGACCTCCC107521 AAAGTGCTGG GATTACAGAC TTGAGCTACT GCGCCGGGCT ATTTTGTGTT TTTAGTAAAG107 ACGGGGTTTC ACCATGTTGT CCAGGCTGGT CTCAAACTCC TGACCTCAAG TGATCCGCTC107641 641 GCCTCAGGCC CTCAAAGTGC TGGGATTACA GGAGTGAGCC ACCATGCCTG GCCATAAAAC107701 TGCCCTTTGT TAATATGACT GTTGGCCTGC ACATTGTCAA ATCCAGTGGC ATTCATCTTA107761 CTCGGCCAAC CTACGGCATT TGACACTGTC TGTCTTTCCT TCTGTTCCTC TATCTGTTTC107821 CAGTATACTG GCCTGGCTTT CTTTTTACCT CTTTTATATG CTCTTCCAGT CTCAGGCTCC107881 TTTGGGGATT TGAAGGTATG TTGCATTTTG CTATTCAATG AATAATGACA AGTAATGATC107941 ACTTAAGACA TTAAGTGGTC AGTTCCTTTA CTAGGATAAA AATAATTTTC TTCCCAACAT108001 GGGGCATATT CCATTTCCAG TCTGACTGTT CTGTGTAATC TTTGTATTCC TTGGCAGCCC108061 CTTTTATATC AGTTCATCTA CTGTGCAGGA AATTGGACAA ACATTTGCAC TGGTATAACC108121 121 AAATACAGTT GAACTTTTGG CTTGACTCTT AGCTGAACTC ACCAAAAATA ATTTCTGTAA108 GAGACTGAGA CGTCTACGAG TAGGTTTTTC AGAATTAGTA AACATAAATC AAGGATACAC108241 AGGTAGATTT GAATTTCAGA TAAACAACAA ATACTTTTTT AGTATGTCTA CTGAAATATT 10845 108361 ACTCTGTAAT AAGTTCTTTG GTGATGGAAG GGAGGTATTT CTGTAATTAG AGTCACTGTC108421 TTCCTCCCAG TTTTTTATCC TGGCCCAGAT CTGCAATGAA CACACGACAG AATCCAGGGG108481 GGATGAAGAT GGGTGCTTTG CAGGAAAAAA AAATTAAAAA CATCTGAAAA AGCTTTTGTA108541 CTAAAAGAAT GTGATCTAAA AAAGAAAGCA GGAGAACTTT CTGTCTGCAC TTTACATCAG108601 AACAACCTTG GCGTCTAGAA GCTGTGCCCT GTGGGAAGTG GTGGTGCTTG GTAAGAGATG108661 108 AGTAAGGCAT TGCACTGTGA TTCAGCATAA AATAACAATA AGGGAACGTC ACGGAGAAAA108781 686 GGCCAGACTT CCTTTGTTTA GAATGTGGGA AATGTCTTCT GAAAAATGGT AGTAAAAAAG108841 CATGCTTGGA TGGTCCACTC CAGGCAAAAC TGACTAATCG GGGGTCAGGG ATACAACCCC108 TGCATCATAT GTTTGTTTCT GTTGGGCTGA CATGAGGTTC ACTGTGACCA CTGTGGTTTA108961 ACCCCATAGT CTCCTGGAAA TACAGCCAGG TCAAGAGAGC TCCACATAAA ACATAATCAA109021 AAAAATAAAC TCAAGTTTCC ACTGATCAGC TTTTCACAAC TCTTATCCTT TCACTAACTT109081 081 TGGAGCAAGA TTTGAGAATT GGATGGCTAT TTGAGGGCTA TTTCTGCGCT TTAGTTCAAT109141 GTTTTGTTCT TTCTTTATTA GAGAACTATG GTTTTTTATT ATATTTACAC TTTAAGTTCT109201 AGGGTACATG TGCACAACGT GCAGATTTGT TACACAGGTA TAAATGTGCC ATGTTGGTTT109261 GCTGCACCCA TCAACTCGTC ATTTACATTA GGTATTTCTC CTAATGCTAT CCCTCCCCCA109321 GTCCCCCACC CCCCGACAGG CCCTGGTGTG TGATGTTCCC CTTCCTGTGT CCAAGTGTTC109381 TGTTTATGTG ATAGATTACG TTTATTGATT TGTGTATGTT GAACCAGCCT TGCATCACAG109441 TCACTTGCTT ACAAGAAACA AACACTTCAC AGATGGATCA TTATGTGTGA TAAGTGAAAT109501 CCAAGGATTT ATGCTCAGAG GTGGGCTTAA CAGGTAGGAA GAGCAGTATT TTCCTTCAAC109561 CATGAGTGTA TGCAGGTTTT TCTTTTCTTT TTTGAGATGG AGTCTCACTC TTTTACCCAG109621 GCTGGCGCGC AGTGGTGCGA TCTTGGCTCA CTGTAACCTC TGCCACCTGG GTTCAAGCAA109681 TTCTCCTGCC TCAGCCTCCC AAGTGGCTGG GATTACAGGC ACCTGCCACT GTCTCCGGCT109741 AATTTTTGTC TTTTTAGTAG AGATGGGGTT TCACCATCTT GGCCAGCCTT GTCTTGAACT109801 CCTGACCTCA TGAATCATCC TTCTCAGCCT CCCAAAGTGC TGGGATTACA GGCATGAGCC109861 ACTGCGCCCA GCCCACAGGT TTTTCAAAGA CTAAACTTAA AAAAAAAAAA AAAATTTCCC109921 AATGAAATAT AAAACTAAAG TGCTAAACTG TGATAGACTG TTTTACAAGA ATGCCAGTTT109981 TCACAAGTGT CTATAGAACA TGTAATTTAG ATAGGTAAGA TGAAATTTTG ATAATATTTG110041 ATGGCAAATT TAAACAGGTA TACAACAAAA ATAAAATTCT AAGCCCCTCA ACCAACTGAA110101 TGGACTCCTT CTCTCAGCCA AAGGAATACC AAAGTAAACC TGAAAAACTA GTTTTGGCCA110161GGATTGGGGG TAGGTGGGGG AAGCCCAACA TGACTCATTA TTCTCTCCTC CCTTTGGAAT110221 TCAGGCACAA CTGAATGTCA GCATTGACAC TAAAACACAG ATCTTAAGAC TGACAAGCCA110281 GACTCTTTGT AGCAGAGAGC CAGGCCCTGG AAGAAATCAA GTTATTTTAT CCCAAAAAAT110341 ATTTCTTTGA TATATTTTCA AATGGCCCTG CAAAGCTGTC TCTTGTGGGG AAAATTGACA110 TGCTGTACAG AATTTCCTTC TCTTTCCAAG TTTTTACTGA TCCAGGAGAG ATTTAACTAA110461 GAGGCTAGCA TGTTTTTTTT TTTTTTTTTT TGAGGCGGAG TCTTGCTCTG TTGCCCAGGC110521 TGGAGTGCAG TGGCGTGATC TCAGCTCACT GCAACCTTCG CCTCCCGGGT TCAAGCGATT110581 CTCCTGCCTC AGCTTCCCGA GTAGCTGGGA TTACAGATCC ATGCCACTAT GCCCAGCTAA110641 TTTTTGTATT TTTTGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTAGT ATTGAACTCC110701 TGACCTCGTG ATCCGCCCAC CTCGGCCTCC CAAAGTGCTG GCATTACAGG CGTGAGCCAC110761 CGTGCCCAGC ACAAGACATT TACCGTCTAT TCTCTCTGAA GCTACTATCT AGAGGCTTCA110821 TCAACATAAT AAGACCCTTG GTCTCCACAA CTCCTTATCT TATCCTATTA GTTTCTACTG110881 ATTCCAGGTC TTTAGATAAT AACAACTCTT TCAACCAATT GCCAATCAGA AAGTCTTTGA110941 ATCCACCTAT GACTTAAAAG CCCCACTCCT TCAAGTTATC CCGCCTTTCT GGACTGAACC111001 AATGTACACC TTATATGTGT TGATGGATAT CTGCCTGTAA CTTCCATTCC CCTAAAATGT111061 ATAACATCAA GCTGTAACCC AACCACCTTG GGCACATGTT TTCAGGAACT CATGAGACTG111121 TGTTGCAGAC CTTGGTCACT CATATTTGGC TCACAGTAAA CTTCTTTAAA TATTGTATAG111181 AGTTTGGCTT TTTTCATTGA CACAGGAAAA ATAAAGAATT GGAAGGTCTT TCATCAGTCA111241 CTGAGCCAGC TTCATATCTG ACTGAGGTCA TACAGTTCAG TGATTTGTAG CTTTGCTACT 11159301 111 TAGATTGCTA TCCATTATCT AGAAGCATCA GGATCACGTG GGACCTATTG GAAATGCAGA111361 CTTTCCTCCT AGAACCCAGG ACCTTGGAAT ATTCTTGGCA CATAGTAGGT GCTCAATACA111421 TATTGAACTC CTAGGTGCAA TTCATTAATT CATGAATTAA TGAATTAACA CGCTCTCAAA111481 GTTTAGTGCT TTTTCACAGA CTAGTCTTTC TGCCTCTTAA GCACTCAGCT CACCACGCTT111541 111601 TGTTATCTCT TCTGAGAAGT CTTCCCTCAC TGGCCCAAAG GAATTTCTCC TCTATTTTAG111661 CACTGTCCCA GTTGACTTGT CATTATTCTA GTCTTTTTCA TATTAGTTGT TTTTCATATA111721 TATGTTATTA AGGAAACTAG TCATTTCCCC TAATAGAACA AAATTGCTGG CCTTTGGGGT111781 TGGCAATGGA GGGGAGGCTC TTCTTGAAAA GGGGGAAGAG TGTTCTCCTA ATATTTTTCT111841 TACGAGATTT ATGTTGCTCA TCTTTAGCCT TTAGTCCCCC ATTGCCTGCC TACAGTTGGC111901 AGAGACCATC TGTTCTCTCACTGTCAGGAA CTGTCTCAAT TCTTGAAGTT CAGAGTCAAA111961 AAAGAAGCAA GTTTTCCTAG CTCTTTGATC AACTTTCAAA GTTTTACTTC CATTTGAAAA112021 TTTACTAAGT CACCAGGAGA TGGTTTATAC TGAGAAATAT CCACTCATAC TCTTCCTCTT112081 CAACTTTCTT CCATATACAC CCTATTACAG GGATATAGTC TTACTCTATA GCTCAAAAGG112141 ATGACCCTAT CAGAAACCTG CACAGTATGT AAAACATTCT CACCAGAGGT TCACTTGTGT112201 ATTTCCACCC TAGAATGGAA GCTCTACAAA AGCACAGAAT GTATCATTTT AACTTTAGAT112261 TCTATTTTCA CACCCAGTGC TTGACACATG ATTTGAAGTT AATATTTATT TATCAAGTGA112321 TTGTTTTAAA ATCATGACTC ACTCAACAAA GTTATAAGAA TAAGAATAGT GTTACAGAAT112 TGGTATACAC AAGCTGACCA TAATCAACAC ACCTATTATC ATTTTTTTGC GACAGGTTCT 11246441 CGCTGTCTCA CCCTGGCTGG AGTGGAGTGG CATGACCACG GTTCACTGCA GGTTTGAACT112501 TCCAGGCTCA AGCAATCCTC CCACCTCAGC CTCCCACATA GCTGAGCCCA CAGGTGTGTG112561 CCACCATGTC CAGCTAACTT TTTAATTCTT TGTAGAGACA GGGTCACCCT ATGTTGCCCA112621 AGCTGGTCTT GAACTCCTTG GCTAGAGAGA TCCTCCCTCC AAGGTCCCCC AAAATGCTGG112681 GATCTCAGGC AAGAGCCACC ATGCCTGGCC ATAATCAATA CACTTTTAAG AATGCTAGAA112 TGTTATATCA GATGCATACT TCAGCACTAT CTCAAGCAAA CTGGGGTGTG GGTTATTCTA112801 CATATAAAGT TCAGCAGTGT TGTTCCACAG TCCCAAACTC CAACTGAGGT CAAATGTAGG112861 GTGCAGCAAG GTCACTGGGG CTGTCATCAA GGGCCTCTCC TTGCACTCTT GCCAACCCTG112921 TTTCTTGATT GTCTCTACCA CCATGAGTCA CCAGCAATCT CCCACAGTCA CTTGTTTAAA112981 113041 TTCCTTGGGC TCTACCATTT TTTTTCCCCA GCACTCTTTC TGCTGCTCTA AATTTTAATT113101 CATGCAATTC CATATGTGTT TCTCTATCAT TCTTCATCTC TTTCCTCTCC CTTCCATCCA113161 ATTTTGTTTG TCTGTTTGCT TGCTTGCTTG CTTTAATACA TTTCTCTTTT TCTGAGAAGG113 CTTGAGTCCA AAACTCTCAG TTACCTGTTG TTCTGTTTCC CGTTAGTTAA TCTCCGAACC113281 TTCATAAATT AAATCTGACA AAGTCCCCTG ACTAACAAAG GAAATGCACA AGTCACAGTA 113113113113 AAAGGGGCAC ACACAGAACA CAAATAGACC CAGGGTCTTT TCTGTTCATC ACTCAGCTTT TTATAGGAGA TCCAGGAGAA ATGAAGTGGA AAGGGAAGTG TGTTGAGTTA CTATACAACA113461 CAAGAGTAAA CTTTCTTATA AGTGGTAATT TTTTTTTACA GGAATAATTG AAAATGGAAA113521 TTACCTTCTC TACTCATAGT AAGTACTCAG TGCGTTCTTG ATGGGATGAG AATGTGTTTG113581 AGCTTTAGTG TAAGGCAGAA TTCTGTTTAG TCTGCCAGTA TTGGAGAAAA ATAAAACACA113641 11329 113701 TGCCCCAGAG AAATAAAAAG CTTGTGTACA TGTTGAGATG GGAGAGTTCT CTGGCCCCCC113761 TCGCAGGATG TGTGACAGTG GGGTGGCTCT CTGCTGCGCC ACCATGAGCT CAAACCCCTC113821 ATAGGAGGGG GAGCACACAG GCAGGAAGGT GCAGGAGCTG GGCGAGCTCT TTGGGCTCTG113881 GCCCCGTGGT ACTGTCTAGA GGTGGGTGCC TGCAACTCCT GAAAGCCCAA GTGGGCATGT113941 GTTACAGTGC ACTCTTTCAG CTTTGCTGTC TGCAGCTTAA GCGTTAACCA GCTCAGTTTC114 TTCTTGGTAC CCAGGTCCTT GTCTGGCATC CAGGAAGAAT CAGGTTACAC ATGGACTTGA114061 AGGATGAATG TGGGAGTTTT ATGGAGTGGT GGAGGTGGCT CTCAGTGGGA TGGATGGGGA 11424 114181 GATCTCCTCT CCAGTCGTCC CCAGCCTCTC GACGTTCAGA TGCTCCTCTT CTCTCCTTCT 1145924 59241 CTGCCATGCT GTTCTGCCGT TCATCTGCCT GTCTCTCTCT GGAGCCTGGA ATTTGGGGTT114 TATATGGTAC ACAATAAGGG GCATGGCAGG CCAAAAGGGA ACTTTTTAGG TGCAAAAAAC114361 AGGAATGCCT CTTCTCACTT AGGGCTATAG ATTTTCAGGC TTGAAGGTGG GGCCTTTACC114421 AGCGAACCTG TATTTCCCTG TCTCCTGTGC ATATCAATGT AATCAAATAC TGGGCTGATC114481 CAGGATGTTT CTTTAGACCA ATTATGGGTA AAATAATTTA CATTCAGGTT TTTATATTTG114541 CTTTTGTCAT TTCTTTTTAA GCAATCATGT AAAATATCTA TACGACAGTA ATAGATGATA114601 GCGAACCTAA TTAAAATTAC CAGAAACTTA AGAATCTCTA ATGATTTCAA CTGTAACTAA 11486661 1147 114 TTCAGAAACA CAAAGAGGGA GGTTATATAA ATAATATTTT TTTCCTACTT TGGGAAAATG114781 AAAGCTAGTC ACAAAGTTAA ACGAGTGGTT ATTTTAATAT TTAAAATACA GGCTTGGATG 841 TATTTCCTGT TAAAGAAAAT AAAATGCAGA ATATTCAAAA CGTCTGACCA CCCTTCTAAG114901 AAAATGCATC TCTGAGGTAT TTTTCCTTAG AAGTTATTGT AAAAATCCTG GAGAAGCTTG114961 AACACAGCAA AGCAAACAGG ATGCAGAGTT TAATCTGTGG AAAGCTTAGG GAAGAAAAGC 021 AAATCATTAA AAATAGGTCT TCCTCTGAAG ATTTTTAAAA CGCAAAGAGG GTGGAATAGC115081 AATGATAATA AAAAAGCTGG CATAGAGAGT GGCACAATTT GCTGTGCCAC TGAGCTGACT115141 GGATGTGTTC TGAATTTCTA GGCATTAGTG TACCTTTCCA CACGCATTCT CCCTTTAAAA115201 AAAATGCCCA CACACTGAAT ACTTTTTTCA TGCAATTTAA AATAAGCGCA CCATCTAGTT115261 TACAGAAATT CACTAGAAGT TATTTATCCT AAAATAGCAG AGATCTAGAA GAATTTTGAG115321 CTCTAGGACA TTTTAGACAC ACAGAAAGAA GAATCTGGAC AAGTCTTGAC CAGACATGAC115381 AGAATAGAAA TTTCTTTTCC TATTTATCTC TTTGAATAAA ATTTTCAGGA TCTTACAGTG115441 GACAAGTTTG TTATCTACAC ATTGTGAAGC ACATTGATTT CTCCTCTGTA GCCTTAGGAA115501 GATCTGAGAG GTGACTGAGC TGATTGAATG ATCCGTGACC GCTCTACTGG GACCAGTAGT115561 AGAACTTTAC TGGTGGAGAC CTGCTGGAGG TTTGAGAGCA GACTTTGAAA ATTACTAGAG115621 CTACACAGAT ACTGTGTGGC TAACTGGATT ATGTTTAGAG GCTTTCAGAA CTATGCTGCT115681 GCTGCTGCAG TGTAGCCAGG ACGCACAGAG AACATCTAAG GCTCTTGAAT GGGGCGATAG115741 GGACAGATTT CAGCAGCCAT CTGACTTCAG TGCTCATTTT GATGCTTTCC CTGCAGGGTG115801 CAGTGTGCAG TGTGCAGTGT GCAGTGGTGG GAGGCTCACA CAGGAATACT TGCTTCTGTA115861 GCCCTAATTT CCGGTTCAAA CTCTGCATTC ACCTTGACAG ATTCTTTCCT TGGCCAAAAT115921 TTAGTTAGGC TTCTGGGCTT TCTCTTATGC CCACCTGCAG ACTTTTTGGT AAAATCCAGT115981 TTTAGTAAAG AGCTCTGCTA AGTCAGTTTA GCAAGAATCC CCACCTCAAA AGTCACTATC116041 TCCCTCCCTG GTAGTGTCTG GCTTGTCTTC AGCGAGAATT CTATTAGGTT CTGTTAGATT116101 AGAATCCTCC TTACCCTTGA TGCTTCCTCT TAGTATTTTT TCATCCACTG ACTCCTTGAC116 CCACCTTGCT CCTCGGCTAT AAATTCCCAC TTGCCCATAC TCTGCAGTTA AGACTATTTT116221 CTCCCCACTA CTGCAAAATC CCATTGCCAT GGTCCCTATA CTATCTCAAT GGTAATGAAT116281 AAAGTCTGCC TTACCATGCT TTAACAAGTA ACATTGAACC ATTTTTTTCT TTAACAATCT116341 GCTGCACAAT GAGATTACTA AAACTTTATT CCATTTTGCC ATGCTGGATG TCCTCAATGG116401 AATGGCTCTT GTGAGCACCA AATCATTGTG AGAAGGAAAA CCCATCTCTT ACAGCCCCCT116461 GTAACGTGAT GTATGTTACA TGTGATGTAT GTTACATAGT TTTTTTTCAT GTTGATCACT116521 TTTTGCCCAT TTTCCTATAT CTTATCAGTT GGAAGACTGT GGAAGTTTGT AGTACTAAGC116581 CACAAGATGA CTAAGAAGAG TTGAAAGGGC AAGTGGGGCT AAAAACAGAT TTTGTTTGAC116641 TTACCCCACC ATTCCCCCTA TCATGGGGCT GAATCTGCCT GGAGGAAGGA GCATCTTTAT116701 CTTTGTACTG TGAACCACAC AGTCTAGCAG CAGCACAGCC AAGGCACTTG GGGTTTCATG116761 AGACTAAGTA CATGCAATTC TATTGTAAAG GCTTAAAATA TATACAACTG ACCCTTGAAC116821 AACATGAATT TGAATTGCAT GGTCAGTTAT ACGCAGATTT TCTTCCACCT CTGCCACCCC116881 TGAGACAGTA AGATCAATCA ATCCTCTTCC TCCTACTCCT CAGTCTACTC AAAGATACTT116941 GAAGTCTACT TGAAGATGAC AAGCACAAAG ACATTTATGA TGATCCACTT CCACTTAGTG117001 AATAGTAAAT ATGTTTTCTC TTCCTCCTAA TTTTTTAACA CTTTCTTCTC TCTAGCTTAA117061 TTTATTGTTA AGAATACAAT CTATAATACA TATGACATAC AAAATATGTC TTAGTTGACT117 TTTATTGTTA AGAATACAAT CTATAATACA TATGACATAC AAAATATGTC TTAGTTGACT117121 GTTTATGTTA TCTGTAAGGC TTCAGGTCAA GAGTATGCTA TTAGTGGTTA AGTTTTCGAG117 GAGTCAAAAG GTGTATGTGGACTTTCAACT GCAGGGGGGT GGGCACCCCT GCCCCCATGT117241 TGTTCAAGGG TCAACTTTAC TGCCAAAGGC AAGCCTTTAC ATCCACTTTT TCCATCCCAT117 CAGTAAATGG AAAAAGATAG CTACAGTATC CCTGCGTCAA ATCTTTTTTT TTGCAGATCA117361 11782117421 TTAAGTTAGA TAATATTTAA GTTATAAAGT TGTTCTTTGT AATCGTTAAT TGTAATTTTT117481 ACATAGTTTC TTTCAAACAG AAATAGCATT TTTGTTAGAT AACCTCCCGT ATAGATGATG117541 AAACTCCTTT TAAGGGCTAT CTGAATTTTA ATTCCTTGAA AAGGCAGAAA TTGGATAGCT117601 AGTAGTCATA AATGTACTGT GGCTTCCCCC AACCATCTGG GCTATATAGA AGCTGCATCC117 TTGGACTGCA GTAGAGGAGT CTTACAAAGC ACAGAGCAAC TTCTCTCCTG GGTTGCGCTA117 GTTATGATGG CAATTTTAAA TGTGTACTTT TACCCAAAGA AAATCCTTAT TATCAACAAT117781 CACAATGCCA TCATAACCAT GGTATAAAAA ATTCAAAATG TCCCAGCTGA AGTGGAGGCA117 AAGACTCAAG TTCATGGAGT CAGAGTTTCC TTGCTATTCC TCTTTTTCAA ATGACCATTT117901 AGTAAGCACC TGAAGAAAAT ACTATGGACG GCATTGAAAA GTGAAGATAG GTTTAATCTT117961 CTCGAAAATC TAATTCTCCA GATGAAACGC TGACACTTAT CCACCCCACA GACCCTATAG118021 CAGATGTGTC ACTGGCCATC ACATTTGACA CAGAGAAGTC ATAACTCAGT CAGCACAGAG118081 ACATTTCCAT GAGTTTCTGA ACCATGGACA GAACGTCGTC TGTGGGACAT GAAAACTGGA118141 ACTTAGAGGA CAGGCACATC TGAGAAATGG GCAGTTTAAA GGCAGAACAT AGCACATATG118201 TGACTGGGTT TTAGAAGCAA ATTTACAAGA CGCACTCTTC TTCATCCTAA ATAATCTGCA118261 ACCAAAGCTT CCAAAAAAGA CAATTTAGGA ATGCAGAGGT GAGGAGTAGG GAGGGGAATG118321 GGATGAGAGA GAGTGGAGAT TAATGGTGGG CAGAGCGAGG TTTAGAACTT AGTGGTTTCT118381 TCAGGTTCTG AACTGAAATT TGTATACTGT AAAGGCACAA ACACCATTTT TAACAAAAGT118 GAGCAGGACT TCCTATCTGG TTCAGAAAAT AGGTGAATAA ATAGTACGAA TTATTAAAAA118501 TAATAATTTC CACTTATACA TAGGAAACTT GATAGGAACC ATGATAAATG CTTAACTCTT118561 AATCTTCAAG GAACTCTGCT AGGGATATAA TATTATAAAT CTTGTTTTGC AGATGGAGAA118621 ATTGAATTTT AACCCAAGTT ATCATAACCC TTAAATGATT AAATGATACT GTTACATGAG118681 AAAGCTGCGT ATCTGTTTCC TGGATTTGTA GCCATAATTT GTGTCTCAAG TCCCTTTTGC 118695 118801 TTTTTTTTTC TCTTTTTTTG TTGAGAGAGT CTTTCCCTGT TGCCTAGGCT GGAGGGCAAT118861 GGCGCGATCT CGGCTCACTG CAACCTCCGC CTCCTGGGTT CAAGTGCTTC TCACGATTCT118921 CTTGTCCCAG CCTCTCTAAT AGCTCGGATT ACTGGCATGC ACCACCACGC CCACCTAATT118981 119041 CCTCAGGTGA TCTGCCTGCC TTGGCCTCCC AAAGTGCTGG GATTACAGGT GTGAGCCACC119101 119161 CTGCTTTGAT CCTTTCTGCA CTTGCTGGAC CCTCTCCCTG GGAAATGAGA TTGTGTCCTG119221 AGCCCCTAGT TAGAGGCTAT GTCTCTGCTG TTCCTGAATG GGCCTCCTGG ATGAGACCTC119281 ATTAAAAGTC TAATTCTCTT GGAGAATTGA GAGATACCTA TTTGTCTCAA AATCATTGAA119341 ACCAATTAAT GTATTATGAG CCTCTATCCA GTGATTTGTA CCTCAATTCC CCAATCCAGC119401 TGTCAAGGCC AATTTGTTCT ACCTTACCTA GTAGGTAAGT CTGGAATTGT AGCTGTGGCA119461 TTTTCAGTAA TGGTACTCTA GGTTAGCAGT CCCCAACCTT TTTGGCACCA GGGACCAGTT119521 TTGTGGAAGA CAATTTTTCC ATGAAGGGCT GGGCAGGGGA GTGGTTTCAG GATGAAACTG119581 TTCCACCTCA GATCATCAGG CATTAGATTC TCACAAGGAG TGCGCAAGCT AGATCCCTCA119641 CACATGCAGT TCACAATAGG GTGTGCACTC CCATGAGAAT CTAACACCGC TGCTGATCTG119701 119761 573 5 119821 58881 58119881 TATCTGATGA GATATAAATT ATTTGATTAT AAATTACTTT CTTCATATTA GAGTTGTGAA119941 TGAGTATCAC ATATAATTAT ACATAAACTA GGAATATGCT TTTTAATAAT GTATATAAGT120001 AAGTTTCCTT AACTATGACT TTCATCTTAG CGTAGTAAGA GGGTGCTAAG AAATATTTGT120061 GATGAAAATA GGCATTGGTA GAGTTGAGAC CACTGGGTGA TGAAAGAGTG TAAAGATTTT120121 AAAGCCTTCA GATGCTGGTT CAAGGTGAGA AATGTGATTG GGAGCAAATC AATTAACTTC120181 TTGAAGTCTT ATAGGGCAGT TATGAATACT TAATGTTAAC ATATGTAAAG CTCTTCTGCC120241 CTGTATACAG TAAATGCTAG TTAGCTATTA TGATCACTAC TAAAATGGGG ATGACATAAA120 CCTCATAAGG TTTTAAGTAT TATGCAAGAT ACTATACAAA GTCCAGTAAA TATCACATTC120361 AATTGAATCC ATGATGTCCG ATTATTTTAG CTACTTCCAA GAGAGAAAAA AATGCTGTCA120421 GTTTTACTGT TCTTATAGAG AGCAAGGCAG ATCCCAATTC CCAATGTGGT AACGTGAAAA120481 TTTTTGCATT TGAATCAACA AAACACTTTC TCCTTTCTTT CCTACTATTT AACAACTGGT120541 AAGTCTATAC TCCCCCAAAT CTGGAATTCT CCTTTCTTAT TCTTTTTCCT CCTACCAAGA CCGCAGGATC TTTTACTTGG CTATAAGGGG TAAACCTCAA GTAGTACAAG TTCTCTGTAT120661 TACTTTTATA CTCTGTCACA GATTCCCTTT GTTTCCTCAT CTCCATGTGA ATTTAGTTAA120721 ATTCTCAGCA TTCTGATCCT TACTATACAA GGTAAATGAA TATAAAAACA AAACGAAACA120781 AAAACCTCTT CCTATTTACA TAAGGCCCCA ACCTAATATT TAGTGATATA TATTAATGTG120841 AACAAGGAAC TAACGAAGAC TGGGAAGAAA TTCACAGACT TGAGAGAAGA AATGGCAGGA120901 TTTCCTGGGA ACAATTTCAT GTAACGTCAA AGGTGGTAAA AGGTCAAATA GAATGAAGAT120961 GGAGAATACC GGATTTTCTT ACAAAATGAT TTCCCAGGAG ATCTCATCAA ATGCACGAGG121021 ATACCTTCTC AGTTTCACCT AGTGAGTAAA AGACTGGTAA CATAGCTCAC TTACAATTTG121081 GATAAACAAA ACTAAACAAA CAACATCAAA ATTTCAGAAA AAATAATAGC AAAACAGAAA121141 TCAAACACTC AAATTTTTGG TCCTTCTGTT TATTTCATTT TGGATACTCA GTGAATGTTA121201 ATTAACCAGG AAACTTAAAA GTTATTTCAA TTATGAACCT CTTCAATCCT TCATCAATTA121261 TTTTGAGTAT TCTGGTCTTA AAAACATCTC TTTCTTCTAC AAACTTCTGA AAGAGATGAA121321 CACCTCCACC TACACCAAAA TAATGTGCTT TGCTGGCCAA AAGTACACGT CCATTTTTAC121381 TTAACAGTCT AAGGAAAGTC TGGTGCAAAT TACTATAATA ATCTGGGTTG TAAATGGTTT121441 CTGAGGTGAG AATGAGATCA TATTTTACAA AAAGTTTTTC ACTACTTAGT ACAAGCTTAC 12163501 28 121561 TCCTGCATCT TTTCACATCT GGCTCATTTA CATCATTTTC TTCATCTTCC AAAGTGGAGT121621 TAGCTACTAC ATTAGGTAAG GTTACTTCAT CAATCACCAT ACTGTTATAA TCTTGAAAGT121681 681 GAATTTCTTT GGACCCTCCC TTGAATGCAG TTATACCTAG TAAACCTGAT CCACAACCAA121741 GATCCAAGAC TTTTTTCCCA GCAAATTTCA CTTTGGCCTT TGTGAAATAA GCCAGGAGGT121801 CAAAGGTACA TTCCCAGATT TTTAAGCCTC CCTCATAAAC ACCTGTAATC AGATCAGAGT121861 121 TTTTCACTAC TGATAACTTA ACATGCTGGA AACCTGGTAA TGTTTCTATG ACTTTATTTT121981 CTAACATCTT CTTTAAATCT TTAGGCATAG CATGCTCTTT GGCAGCTCTC AAGGAGGGCT 1223672 GTTTTCCATG TGGCTCCAAG TTCCTTGAAC TGCTGGCTGC ACTGAGTGGA CTGTCTGTGT122101 CTTGAGAGGG AGCTGCATTT TCCATTGACT TATGTTCCCA CAAGTGATCC TGAGGCAAGT122161 CAAATTGTTC TGCAGAACAT TTTCTGTCCC TCTCTTCTCC TTTTTGACTT TCTGAGACTG122221 ACAGCTCTTT TGAGGAATCC AGGGTCAAAG CTCCATCTCT AATGGGTGTT AATTCATTTT122281 CCAGATGGTC TTCTATAGTG AAATTAAACT GAAAGGTCAT CCTCTTATTA AATGCACACA122341 ATCTTTAAAT TCAGATTCTT CAACTTCTGG ATAGAATTTG ATGATACACA CAAATCTGCC122401 122 122401 TCAATTATTC AATTAGTTTT GTTGGGCCCA ATTTCTCTTT AGCAGCTTAT ACATGGTAAC122461 AAATATTTAG AGATATTTCC AAATGACTTT TTAGACGTCT TTGGTCCTCT TTCCAAGCAG122521 CTCTGGAAAG AAAAAAAAAA AAAAAAGAAA GAAAATGATG ATTAAAGCAA AATGGCACAT122581 TTCACTAAAG TGTAATATTA AACAGCCACC CCCACCCCTC CCTGTCCCAC CATACAGCTG122641 CTTTTTCTTA AAAAGTTGTG GGGAAGAGAG AGAGATAAGA GATTTGGACA CTCATACACA122701 12256 122701 CCTTAAGGGT TCCAAAGTGG GAGAAGAAAA TCAACTATAA AAACAAACAG AAGAACAACA122761 GCAACCACCA CCACTACCAC CTGGACAAAC ATAAAGTCCA AGATATTCAG ACAGGACAGC122821 CTAGCTACTT GCTGTCTTTC AGCTGTCTTG ATTTGTGTCC AACCATATTC ACCCCCTAAG122881 CTTCCAGAAT AACTTCACTT CTGTCTTTTA CAGAAGAGGT GCAGTATTTT ATTTTGGTAA122941 GTCAGCGTCC CTTTAAAAAC ATGCATAGGT ATGGCCTGGT GTGTGTAAAT TCATCCAAGA123001 CTTCACTCCA AACATTTAGT CGAGAACAGC AGCCCTAAGT GTATAGAAGT GGGGGTAATT123061 TGGCAATAAT TAGTAAAGAC TAATTCGGTG GCAGAGCAAA CGCAAACTAG GGCACTGCAG123121 123 123121 TAGTTTGGAG AGACCTGTAG AAATAAGAAG CAACTTTATT GAGAATCTTC TATCTACTGC123181 GCTAGACACT ATACCATCTG CCTCAATTTT CACAGTTCTG GCAAGTGGGA TCTTTGTTCC123241 CTTTATACAA GATTTACAAT TTGGGGGAGA GGCGGGTCAC CCAGTCCCGC GGCTAGGAAC123301 123 123301 GCGCCTCTTT CCTCTCCCAT CACGCTGCAA GGCTTGGAGT CACTTCCGGC TGCAGGTCCC123361 GGAACAAATC CGACCCCAGA AGTGGGGACT TCTGGCCCTC ACCTCCCCAT TTGAATGTAA123421 123 123421 TGTTTACAGT GATCCAGACC TGGGGATGCT TGCTTCCCGA CGTGTCCTGG GATCGCGCTT123481 CTGAAAAAGC TCACCTCACA ACGCCTCCTC CGGACCTAAA TCGCGCACCA GTGAGTCGAG123541 TCCTCCAGGG GCTAGAGAAG CCCGACTTTC TTTCCGGCCT TGAGGGACCC GGGCTCACCA123601 AGAAACCAGC CGCCCTCCTC TCTATGGTTT TGGAGCCGGC GGAGAGCGCG CAAGGGTTGG123661 CGGGACTGCG AGTTTCCGGT CTGGGCTTTG GCGGGTCTGG TTTGAAGCTC TCCTGTTTGA123721 CGAAAGTATG TCTCAGGAAG GTGCGGTCCC AGCTAGCGCG GTTCCCCTGG AAGAATTAAG123781 TAGCTGGCCA GAGGAGCTAT GCCGCCGGGA ACTGCCGTCC GTCCTGCCCC GACTCCTCAT123841 ATCCTTCCTT GGTTGTCACT TCTACCTAGA GAAGGGTGTG GGCGGGTCGC GAACCTTTCT123901 CTTCTGTCCC TTCAGACCCA CCGCCAGGCT GGGTTATATT ACCGCGGCCT GAACCCCCTC123961 TTTTCTTTGT CAGTGAGTGG GATGAAAAGT GAGGGACTGG AGGGGAAGCG ACAACCGTGG124021 TAGATTTAAG TAAGGCTTTG GCCCTGGAAA GCCTCGCGGA CGTGTTCTGA CCCAAGGTTT124081 TAGCAGTGGA TGTGGCGTTT TCTTCCATTC CTTCTTTCAG TTTTTCTGTA CTCGTTGCTT124141 12423 124201 GGTATGACGA TAGCTCTGGC TCTTAATAGT TTGAGGTAAA GCGAGATACT CTGAGCTTTT124261 GTCTCCCGTA AAAAGGGTGG TGAATATGAA TAAGGGCTTT CTTAGCGTTA TAAGAATTAA124321 AGGGCATAGT TCTGTGGTGT GAAATCTTTA AAAGATGTTC AGTAAATAAA AATGATTTTC124381 CTCCTTCCCC TCTCAGACCT CTTTTTCTTC TTTCTTTCTT TTTTTTTGAC AAGTTCTCAC124441 686501 CTGTTGGATT TGAGGCGCTT AGCGCCTTCT TCGTCCGGGT GCAGCACATT CTTGATTGGT124561 CTCATGCCTT TGTGGTTGTA AATGTGCCTG GAATCCTAGC CTTTCATGGT AAACCATATG124621 TATATGTATC TTTTTCACAA CATTTGAGCC CAGCTTTATA CAATTACACT CAAAAGAAAA124681 681 AAAGTAACCT TCACTTGAGA GAATCTCAAT ACTGCACAAA TATTGTGCAG CTAAAGCCCT124741 ATGTAATCAC ATAGAAGTCA TTCACCTAGG CATTAGCAAA ATCTCAGAAG GTGCCAAAGC124801 CCCCTTTTTT AGTTTTTGTG TAGGTACAGA ACTGCCGTCT TCAAGGAGTT TCAACTTGAA124861 AACAAATAGC CACCCTCAAA ACATTCAAAA ACACTTAAAC TGCGTGCATA ATGTGTGTGA124921 GACATGGTGT TAGGCTTTGG GAGAACAGAG ACACGGAACG TGATTCCTCT TCTTCCCCAC124981 AAGCTTATAG AGAGACTTCA TTAAGTTGAA AGTCAACATT CCCACCTAGC TTTGCACTTC125041 AAACGACATA TTCAAAAAAG CCCAAACTTC CTCTAGTTTT CTTCATCTGA GTAAATGGTT 12563101 TCACAAACTG AAACCTTGAA TCCTCTCTGT CTCACACACC CGATCAGTAA GTTCTATTGT125161 TTCTGATTCC AAACTATGTC TTGAATCAAT CCGTTTATCT CCATCCTCAT TGCTACCACT125221 CTGATTCCAA ACCCTTATCA CCTCTCACTT GGAGTATTAA TAGTTTCCTT GTTTCTACTC125281 ATAATTCATT ATTCCAAAAA AGTTAAGAGG GGAAAAACAT AGATCTCGTC ATTTCCCTTT125341 TTAAACCACT TTACCTTCAA GGTTCCAGGT GATCTAAGCC TTGCCCTTCT CTCATACCTA125401 GTTAATTAAC TACACTCTGT TCATGAATAC ATTAGGCTCA CCTACCTCAA GATCTTTTTG125461 84 125 CTCAGCCTGA TTTGTTCTCT CAGCCTTTTG CATATTTCAT GTTTATGTCT TGGCCCAAAT125521 GTCACTTCCT TAGAGGGGCT TTTTCAGAGC CTTCAATCTT AGGCAGTTCC CCCAAACGCA125581 GTCTTACACT TGTATCACAT TGGCCTGTTC AGTTTTCTAA AAAGCACATT ACCATTAAAA125 GAAATGCTCT TGTTTGCTTT GTATATTTTC CACTTCTACA CATTATGTTG CAAAGTTCAT125 AAAGGCAGGA TGTTGATTTT CTTCACAGCG TTACCCTCAG CACCTAGAAC AGTGCCTGAC125761 ACATAGTAAG CATTCATTAA AGGGCTAAAA ATATTTCATG TTTTAAAAAT ACTTGGGAGT125821 CTAATTAGAC AATACTTTTT TTCAGCTTAA TGGTAGTATT TTAGCTTCAC TATTTTAACA125881 58881 AATGAAAAAT TTGCAATAAA TCTACAATGC CATTACCCCC CAAAATCTTT TTCATGTTTT125941 GCATTTTACG TATTATTTTC CAGGCCTTAC CTGCATGTCT GCATAATCAT AACTGACTAA 12659001 126061 CCCTACTGAA CTCAAATTTG AGTTAATGAT GACCTCATTT TGATTGCTGC TGTAAAAAAT126121 686181 686 GTTTGTTTGT TTGTTTTGAG ACGGAGTCTC ACCCTGTCAC CCAGGCTGGA GTGCAGTGGT126 GCGATCTCAG CTCACAGCAG CCAGGTTCAA GTGATTCTCC TTCCTCAGCC TCCCGAGTAG126 CTGAGATTAC AGGCACGTGC CACCATGCCC GGCTAATTTT TTGTATCTTT AGTAGAGATG126361 GTTTCACCAT GTTGGCCAGG CTGGTCTCGA ACTCCTGACC TCGTGATCCG CCTGCCTCAG126421 CCTCCCAAAG TGCTGGGACT ACAGGCGTGA GCCACCGTGC CCGGCCGGGT TATTCATTTT126481 TCTTATTAAC ATTCTTTGAT GATTCTTATG GTGTTGTTAC AGTAAAACAT TTCTAACAAT126541 TATTCTAACA ATTATTCTTG ATGGTGTATA TGAAGAATTT ATTGTCGTGT ATTTGTAAGC126601 TGCTATGTGC AGAAGAATTT CAGTCAAATA AAGTTGGTAA GATAGGTATG TAAGTAATAT126661 GAAAAAAGAT AGAAGGTGAT GAGTGACTTA GGTATAAATT AAGTACAATA GAAATGTTGA126721 GGAAAGAAAA ATTTCTTGTA ATAGAAATCG GAAGTACAAA CTGGGCATGG TGGTGTGCAT126781 CTCTAATCCC AGCTCCTTGA GAGGCTGGTA TGGGAGGATC ACTTTAGCCC AGGAGCTTGA126841 GGCTGCAGTG AGGTGTGATC ATGTCACCGC ACTCCATCCT GGGTGACAGC AAGACCGTCT126901 CTCTTTTTTT TTTTTTTTGA GACGGAGTCT CGCCTATGCT GGAGTGCAAT GGCGCGATCT126961 12748 021 127 CAGCTGGGAT TACAGGTGTG CGCCACCATG CCCAGCTAAT TATTTTGTAT TTTAAGTAGA127081 GACGGGTTCT CACCATACTG GCCAGGCTGG TCTTCAACTC CTGACCTCTT GTTCGCCCAT127141 CTAGGTCTCC CAAAGTGCTG GGATTACAGG TGTGAGCCAC CCCACTTGGC CCCGAGCGAG127201 ACCCTCTCTC TAAAAAAAAA TAAATAAATA AATCATAAAC CTGTGGATTA TTGTAGCATT127261 GTTTCTCATC TGTCAAAAAT ATTTCATGAC TATGCATAGT TTGAAAAGGC AAGTTTGTCC127321 CTGGGCAATT TTCAAAATAT TTCTTTAATG TGTTTTCACA ATACTGTTTA CCTAATAAAT127 CTTAAGTTTT TAAAAGCAAA ATTAAGCCAG TAATTTGAGT CCAATTCCAA TCTCTTATGA127 GTCATTGCTT AAATTTCAAA AGGGTTTTAT TTTTTTTTTA GGTTTGTTCT GAGTAATGAA127501 TACCCTATTA CTATGATACT AGTATCTTCC TTAATTATCC TACTCATTGT CTCAACATTC127561 TGACAGTTGG ATTGAGCATA TTCGTAAGTA AAATTGTTTT AACTGTATGA TGTACTTTGA127621 TGTTAAGGTC CGAGTCCCCA CATACCTCGG TAGATGTGTT CTTACAGTTT TGTATTCCCT127681 86681 AATTCATTCA AATTCCAGCA CTTAAAAGTT TTAAATTACA TTTTGGATAA ATACCAAAGT127801 GTTTTGTTGA TGATGTATGT ATAAACAAAT TGTAAATATT AAACGTTAGT TGTTACGATT127 AGACCTATAT AAAACATGAT ATGCAGTCTA CTGAATAGCT ATCAGCCTCT AACATGTTTA127921 GTGTCATTTA GAAAATGCTT TCTAAATTGC CAAAAGCTGA TTGTCTAGGT GATAACAAAT127981 TTACCATTTG GAGGAAGTTG ACTTTCTCAT TTTCATGTCT TCATCAGTCT TACTTGATGA128041 128041 GATTCATTCT TCTAGTCAGA AGAGAGTTTA GACTGCTCAG TTTACTCATA TTTTGAGTTA128101 GCTTTTCTAT TTAGAGTTCA CTTGGTTGTG GAATATTCAT TTATAATTTG AATCTACGTT128161 GTGTAATGGG ACCTAATTTTTTTTTCCTTT GTTTTTGTTG GAGTCTCGTT TTGTCACCCA128221 GGTTGGAGTG CAGTGGCGTG ATCTTTGCTC ACTGCAACCT CCACCTTCCA GGTTCAGGTG128281 ATTCTCCTGC CTCAGTCTCC CAAGTAGCTG GGATTACAGG CATGCTTCAC CACGCCTGGC128341 TAATTTTTGT ATTTTTAGTA GAGATGGGGT TTCACCATGT TGGCCAGGCT GGTCTCAAAA128401 CTCCTGAGCT CAAGTGATCC TCCTGCCTTG GCCTCCATAA GTGCTGGGAT TACAGGCGTG128461 AGCCGCTGAG CCTGGCCCCA GAGTTTGTTT TGTTTTGTTT TCAAGACAAG ATCTCACTCT128521 ATTGCCCAGG CTGGAGAGCA GTAGTGCGAT CATAGCTCAC TGCAGCCTGA ACTCCTGGGT128581 128 128581 TCAAGCTATT CTCCTGCCTC CATCTTCTAA AGTGCTGTGA TTACAGGTCT GAGCCATGAT128641 128 128641 GCTTGGCCTG TGTTTTTGTT TGTTTGTTTT GGGGGACAGG GTCTTGCTTT GTCACCAAAA128701 CTGGAGTGTA GTGGTGCGAA CATAGCTAGC TCACTGCAGC CTCCATCTCC CACGCTCAAG128761 CAATCCTCTC ACCTCAGCCT TCCAAGTAGC TGAGACCGCA GGTGCGTGCT ACCATGCGTG128821 GCTAATTTTC TATTTATATA TTTATTTTTT GGTAGACATG AGGTCTTGTC ATGTTTCCCA128881 GGTGGTCTTT AACTCCTGGG CTCAGACAGT CCTCCCGCCT CAGCCACCCA AAGTGTTGGG128941 829 128941 ATTACAGGCG TGAGCCACCA TGCGTGGCAT AATTTTTTTT AAGTAAATTA TTTTTTTATC129001 129 129001 TTGAGTATAG AAGTGATTCA TGTTCATTGT GGAAAATATG AAACATATAG AAAAACAGAA129061 AAGATTACAA AACATCTAAT CTGAAATGGT TAAGATTTTG ATGAGAACAG TCTCATCTCA129121 TTTCCGTATA TTCCTGCCAG CCTATCCATC ATTCTTCGTA CATGTTTATC TACATTAAAA129181 129 129181 TTGGTGTTAT ATTTTGGAAA CTTTTTGTTT AACTACATTG TGAACATTTT TCATGTTTTA129241 129 129241 AAATGTCATT TTAATGATGG CAGATCCTAT TCAATAGATG TACACACACC TATTTAACTG129301 GTCCACAATT GTTGGATATG TAGGTCGTTT CCTTTCTCTC TTTTTTTTTT TTTTTGGCTA129361 CTACTTAATA GTTTCTCTGT ATAGAATGTG GTATTTTGAA AGTGTATCAA GCTTTAGATT129 GGTAGTATTC TTGCATTTAA TAAAGGGCAG TGGCCTTTGT TGACTGACAT GACAATATTT129481 TTATAAAATT TGTTATTTGC TTTACAGAAA TTTTGAAAAT TATTGTAGAA ATGTTTTTAC129541 CTCATATGAA CCACCTGACA TTGGAACAGA CTTTCTTTTC ACAAGTGTTA CCAAAGGTAT129601 AATACTATTA CCTGAAAATA CATGTTATAA GGAATCTAGC CTCAGTCTTA GATGATTTAT129661 TATTAATTAT GGCTCTCTTT TTCTAATATA TCAAATATAT TCAAAATAAA AATAAGGAGT129721 AAGTAGATCT CATGTGAGAC TATAATGGTG TTAGTGTGAT CATTAGGCAG TTAAAAACTG129781 TTACAGGCTG GGCACGGTGG CTCATGCCTG TAATCCCAGC TCTCTGAGAG GCTGAGGTGG129841 GCAGATCATC TGAGGTCAGG AGTTCGAGAC CACCCATGGT CAACATGATG AAACCTCGTC129901 TCTACTAAAA GTACAAAAAA TTAGCTGGAC ATGGTGGCAG GTGCCTGTAA TCCCAGCTAC129961 TTGGGAGACT GAGACAGGAG AATTGCTTGA GCCTGGGAGG CGGAGGTTGC ATTGAGTCAA130021 GATCGTGCCA TTGCACTCCA GCCTGGGCAA TAAGAGCGAT GCTCCGTCTC AAAAAAAAAA130081 AAAAAAAAAA AAGAACTTAT ATTTTCAGAT TGTGTGGTTC CTTTACTAAC TGAATTTAAA130141 TTATTTGTAG TCAATTTTAA ATGCTCTTGT ATTTTAAAGC CACTGTACTC CAGCCTGGGT130 GACAGAGTGA AACCCTTAAT TCAAAAAAAA AAAAAAAAAA AAGAAAAGCT GGAATATTGG130261 CAAAATCAAG TAACTAAGAG AAAACATTAA ATTCACAGAA TACATTATTA CATTTTAGAT130321 ATATATGGTA TATGTTTTCT CTGAAAAGCA CAAGCATACC TTTTTTGTTT TAAATGGAGG130381 GAACTAAAGA TACTTTGGTG CCAAAATGAA ACATTATTTG TAATTAATCT CTTATTGAAA130441 TGGGTTTCTA ACTTTAGCTT TGAATCGTAA TCTTTCAAAT TTCTTGTACT CATAGTCACT130501 TGATGATTCT CTATCTGAAA TATTTCTTAG AATTTGTTCT TGACCACCAG AAAAAGATTC130561 AACTGTTACA TAGATGAAAA TGGATGTTGA GTGTTAACAG GCCTATGGGA AACAGTATTT130 TCTTTAGCTA CATTGTATTG TTGACTGTGT TGCTATTCTT ATAATGTTTA GGTCATTTAA130681 ATTGTTAGAA AGATCCAAGT ATTAAGATCT AGGGTGGCTA ACTTTTCACA GACAAAAAGC130 TTGTTTGTAA GGTCATTTAC TATACCCTTA ATTCAGGAAG GTTAGCTTGA ATTGGGTCAA130801 AAGGAAACTG GTTAGAAAAT AAGTGAGTAG TGAATAGGCG ATTCAGTGCA AATTCCTTCC130861 AGAAAATACC CTTGTAAATG ACTGTATGAA TGTGGATTCT TCAAGACAGT CAAATTTATT130921 GTGCGAAAGT AATACTTTTA TTTTTTGCAT CTCTAAAACA TGAACTTTGA GTGATTTTTT130981 AAAAAAATTG ATGCTATTAA ATAGATTCAA ACCATAGAAA TGGAAAATAA ATTTCTGTTT131041 GGGGCTTTTG GGGGGATTAT GTTGTAAAAA TACCTTTTCT CTGTATTTTG TGCTTAATTA131101 GGTACAATTG TTAAGCTAGA TGATAGCCTG TGGATGTTAC TAGTGCAAAA TCAAATTATC131 GTATTGTGTT TTCTCTGTAA AGTTTTGTCT TGTCTTTTCT AGTGATTTCT CTTATTCCTG131221 TTTATTACTT GATTTGTTTT TACAGACTGT GAAATTATTC GATGACATGA TGTATGAATT131281 AACCAGTCAA GCCAGAGGAC TGTCAAGCCA AAATTTGGAA ATCCAGACCA CTCTAAGGAA131341 TATTTTACAA GTAAGTCAAA TGTATTAGAA AGCAGGAGAG AGAGGGAGCT TAAAGAATGT131401 CAAAATTTTT ATACTGATAC TGATTAGCTA TGTATTCTTA TGTAATGGCC TAATGTTGGA131461 TATAAGAAGA GAAGTCATCA AGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG131581 TATAAGAAGA GAAGTCATCA AGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG AACACCTGCC ATGTGTTTTG AAGTTTGTGT TAGTATTCTA AATGGCTAGA CAGTTGTTCC131641 AGTATTTGTA GTTCTGATAG ACTAAAGTTC TGTGAAAAGA GGAAGAGACT GTGTTTTGTT131701 CATTGCTGTA TTTGTAGCAC CCAGCATGCT GACTAATACC TTTTCAGTGC ACAAAAAATA131761 695 2 131821 ACAGGATGTG TTCAGCATAT CTGTGCCACA CAGGAATCCA TCATTTTGGA AAATATTCAG131881 AGTCTCCCCT CCTCAGTCCT TCATATAATT AAAAGCACAT TTGTGCATTG TAAGGTGAGT131941 AAAGGTCTAA TTATACTTTG AATGGTATAT AATCAATGTG CATAGGGGCT GAGTAAAATA132 ATGTTTGTAT AAGATTTTAC ATTTTAGTCT ATATTATTGA AATAAACTTT TCCATAGAAT132061 13213258 13258 132181 GAATTTGTGT TGAGACAGAC ACAGGGATCC TGAAATAGTT ATGTCATGTT GCATTGACCA132241 ATATTCAATT ACCATTATGA TTAGATGTCA GAACTTCCTT TTATAAAGGA AAGTTAATCC132301 TTATTTAGTC CATCTCTACA TGCCAGAGGT AGCCTTGAGG CACAAAAGCT TGCCTAGAAT132361 TTATGGGTCA CAGACAGTTT TAATATTGCT ATTTGTTGGG CGAATGAAAA TCACTAGTTA132421 ATTAATACCT CTCTTTGCTG ATAGGATGCT AAAAATGTCA CGCACCTGGC CTAATGTTAC132481 CCTTTTTTAG TTCTGTATTT GCAAGATCAT GGAAGTCAGA AATAATATTT TATACATGCT132541 TGCATCTCTT GAAGCACACT ATATTTAATG GATGTTCACT AAACAATGAA TGAATATGTG132601 ATTCAGTAAA TTTATGATCT CTAATAGTAT GAATTAAAGT AAATTTGGCT CTTGAGCTTT132661 GATTTGTTTT TTCTCTCATT TTTATTTATC CGTAATCAGA ATAGTGAATC TGTGTATTCT132721 GGGTGTTTAC ACCTAGTTTC AGACCTTCTC CAGGCTCTTT TCAAGGAGGC CTATTCTCTT132781 CAAAAGCAGT TAATGGAACT GCTGGACATG GTTTGCATGG ACCCTTTAGT AGATGACAAT132841 GATGATATTT TGAATATGGT AATAGGTGAG TGAAGAAAAC TTTCTGCTTA GTATATGGTG132901 ACTATAAATC ATGTATCAAT TA AATTGTC TCTAATGATT CATGTTATTT TCTTACTAAT132961 TATGCATTAA AATTGATTTA AATCTTACCA AATAAATTTT TAATCTTGAA ATTTGGAATT133021 TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC133081 TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC 133141 13372 133201 TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC ^ TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC 133261 TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTC 13372 1333672 133561 1333672 TTGCTGGTCG TAACACACTT CATTGATTTT ATCACTCATT AATGGATTAT133681 GAACAAGAGT TTGAAAAACA ATATAAAGGC AAAGTTTGCA TTCAAAACTT TGGTATAAAG133741 AGAGTAAGTT GGTTTTGTGC AGTGTATCAG GCACCTGTTG CTCTGCAACA CACCACCTCA133801 AAATCTATTT ATTCACTATT TATTTATTCA TGATTCTGTG AGTCTGCAGT TTAGGGTGGG133861 ATGTCCTGAG ACAACTTTCT CTGATCCACC TGGGGCACTA GCTCACCCAT GTGACTTCAG133921 84 133981 CATCCAGCAG GTTCACCCTA TCTCAGATAC CTGATGCCAG TGGTTTCAGG GTTTCTAAGA134041 GTAGCAAAAG TGTGAGCAGG TCGCTGTGTG CTAGCACTTT TCAAGTTTCT GCTTGCCTTA134101 ATTTTATTAT TGTCCCCCGG GCCACAGCAG GTCATAGCGT TTAGCCCAGA GTCATTGTAG134161 AAAA6 tgtgtgg ATTCACAAAG GGCAGTCATT GTGGCCATTT TTATAAATAA TCTACCACAG134221 ACTGAGTAAA AGCCTTGCAT GAATACCATG GATATTAATT TGAATTCTTC CTTTTTAGAT134281 TTTCTTTCCT TAGCAATTTG TTTTGTCATT TTGGATTAGA ATTATATCTG TAGAATATTT134341 CAGTTATAAT AGGGTACAAC TTTTATTCCA CTGAACATCT TTAGTTTTAT TTAGGTCATC134401 TGGTAGGTAT AAACTTCAGA AGTTAATATT CAATATTTAT AAAAACCATT AACAAGTGTG134461 ACACTTAAAT AGTTTAAATA ATTCTTTTGA CACAACTGTT TCCAAGTTGT GTTACGTATT134521 TTAATTCAAT CAAATGTTGA AATTGTTCAG TAGATAGTTT TAATTATAGG AGAAACTCAC134 CCCCATGACA TTTGGATGTC TTAAAAGTTC TGTTATCTTT CTTTGCAGTT ATTCATTCTT134641 TATTGGATAT CTGCTCTGTT ATTTCCAGTA TGGACCATGC ATTTCATGCC AATACTTGGA134 AGTTTATAAT TAAGTAAGTT TGTTTGTTAT TTTTTACTTT TTAGAAAATG TTTTCCATAT134761 TCCCCAATCT TAATTATTCA TGATTCTTTA GATTGCATTT AAAACATTTT GTGTGAATTT134821 ATTGGACTTC TTTACCCTGT GGCCTCTAAA ATTAAAAAAA ATGTTCTTCC TAGTTAGCTA 134641 GTACTTCAGA AATAATGGGC CATGGGCCAG ACTAGAACTT AACCACTTTT CTTCTGCTAC135 TGTTGTTTAA CCAGCTATCA AGTATCCTAT TTCTAGGATT AGATAAATTG ATAACTATAA135061 TTAAAACTGA ATATAATCTT TTCATTAGGT ACTTTTAAGT TGTTCACACT TAATTCCATT135121 TGTACAGTAA TTTTAACTTT CTGAAACTGA AGCATTTTAA AGGGTCACCA GGGATAGTGC135181 CTGTAGCATT CATCAGATTC TTAGGGGTGA GAGGAGATGT GGTTGAGATG TAAAAATGGT135241 TAAGAATATC TACTTTATAC ACATACATAA AACATTAAAG GTCAGTGTAT TTTCAGGTCT135301 TAGGTACTTT TCTTGTACTA CCAGGACATT AAGTTGCCAT TCAGTGGTTA AGAGTGTTGC135361 CTGGGAGCTG TATCACATGT GCTTAAATCC ATTCTTGAAA TCATTTACTC CTTCTGAGCC135421 CTTGGGCTAT TTGGTTAATT TCTCTGAACG TTAGTTTGCT CATCTGAAAA TGGAAATAAT135481 AATAGCAACT TCTTGACAGG GTTATAGTGA GAATTGAGTT CATCACTGTG AAATGCTTAG135541 AAATGTGCAT GACACATAGT TAATACTCAA GGAATTAGCC ACATCACTAT CATCATCACT135601 GATTATCTTC CACTCTTACC CTCTTCCAGT TCATTTTCTG CCCAGCAGAA TGATCTTTTA135661 AAAAGTAAAT CAGATCATGT TACTCTATTG CTTGAAGTCT ATCCCATTTG ATTAAGAATA135721 135 135721 ACAACCTAAT CCTCTGTGGA TGCTGCCTCC TTCACCAGCC TGTCTCATGC TGCTCTCCCT135781 13578152 781 135781 ACTCTTAGTT CCTCAAACAT ACCAAACTCT CCTGTCCCAG AGTCTTTTCG TGGTTTTTCC135841 ATCTGCCTAG GATGCTTCTC TCTCCTATTT TGTGTACCTT GCTAACTCCT GCTTACTGTC135901 63 135901 TTTCAGTTCT CAGCTTAAGA GTTATATCTT CATGATAACA TTCTTTGATA TCCTTACCCT135961 AAGATTAAGT TAGATTGATA TCCTTACCCT AAGAATAAGT TAGATTAGGT CTCTCTATTG136021 TAGCACCTTA GACTCTGTCA TTTGACAAAT CACAGCCCTA ATTAATTATT CTTAAAATTA136081 TTTAACATTC TCTCTCATGC TAGACCACAA GTTTCATGCA GGTAAGGCGG AGATTGTGTC136141 1361361361 136141 CATTTGTTTG ACCCCTTTGT CTCCAGGGCC TGGTAGAATG CCTCATACAT AGTAAGAATT136201 36 136201 136 136201 CAATTAATAT TTTACACAGA GAAAAAATTA GCAACTTATT TAAACAAATA TAACTGCTTC136261 AGAGGTAAAC TGGGCACATC TTAGTTATAT TATGTGATAT ATGATGCTTT TTGATTGTTT136321 136 136321 TTTTAAATGT TCTACAAGGT AGATATTGTT AGAGGTCCTA AGTTACTTGA TGTGTTACTT136381 136 136381 GTGGTGATTG TATTCTTTTC TTTTTATTCA TTTAGGCAGA GCCTTAAGCA CCAGTCCATA136441 ATAAAAAGCC AGTTGAAACA CAAAGATATA ATTACTAGCT TGTGTGAAGA CATTCTTTTC136501 TCCTTCCATT CTTGTTTACA GTTAGCTGAG CAGATGACAC AGTCAGATGC ACAGGTAAAA136561 TTTGGGCTAA TAGCATTTTA AACAGCAACT CTTATTTTCT TTGGCAGTTA GTAAATCTCA136621 TTTGAATGTC TGGGTCAGTC TATTTAAGAG GATTTTAATT TATTTCATTT GGGTGTTTTT136681 TTTTGATCTG TGGGATTATT TATATCCCAT AATTACTTTT CACCCAGAGC ATTGTATTAG136741 ATTCCTAACT GCTGTCATTG CCTCTGGGGT CTGCCTGGCT CCCTCTTTGC TTGGTAACTG136801 GTTGGTCACA GCATTCTTCT CAGAATCCTT TCATTCTTTT CTGCATGAGA ACAAAAATTC136861 TTTTGTTCAT ATTTGTATAA GATCTGATAT AGCTGCAATC AATCTTGCAT TTTTTCTTCA136921 CCAACGCATT GCGACCTTTA GGGATACAAG TATGTTTGTG CATGTATATG TATGTATCAG136981 TCTTTTAAAT TTGATATAGT CATACATTTG TTTTTATTTT GAAAAGTTAG AGTGTTGAAT137041 TGGTATCCCA TTTATGAAAC ATTATATTCT AAAAATTTGT AGTACGATTA TTGGGAATTA137101 TAACTCATTT TCCTGTAACA CTGTTATACA TAGTACCTTT TGCTTTCAGA CTAGCCCTCA137 ATTTTATTTA ACTATAGTAG TCCTAAATTA TAAGATTAAT AGTACTCAGG ACCTAACAGT137221 TATATGTCAT TTGTTTTTTT TTTTTTTGAG ATGGCGTCTC ACTCTGTCAC CCAAGCTGGA137281 GTGCAGTGGT ATGACCTTGG CTCACTGCAG CCTCTGCCTC ACGGGTTCAA GGGATCGTTC137341 TGCCTTAGCC TCCTGAGTAG CTGGGATTAT AGGCGCCTGC CACCACGCCT GGCTAATTTT137401 TTTAGTAGAG ACGGGGTTTC GCCATGTTGG CCAGGCTGGT CTCGAACTCC TGACCTCAGG137461 TGGTCCACCC GCCTTGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCC ACCGCGCCCA137521 GCCTATATGT AATAATTTTA ATGGGACCAT GAATTGAATA TTTCTTCCTT GAATAGCAAT137581 GACATAGCCC CTTCTATTGT ACATCTGCAA GCTGATACAG GGAATTCCTT TGTACCTGCG 641 CTCTTCCCTG CCAGTCAGCT ATGGGGGTGA AAGTGTAGGG GTTCATCCAA GTCCTAAAAC137701 TGGTAGCAAC TCCTAGGGCA GGGCTGATCT GGAAGGACAG ACCCTAGGGG AGGGTGGAAC137761 TTTAAAAAGA AGTTCTGAAG GTAGTAAGAA GGAAATGAGG AGTAGTGTTA GGAAGGGGCT137 AACTTTTTTC TTCTTGCTTC TCTTCTTTAT CTCACCTGCC CCTCCCCTTG TATCCCTTCT137881 TCCTTTTTCC CTTTCCTTTT TTGTCCTCAC TTCATTCGTG CATCCTTTCT GATTCCTCTT137941 ACCTTGCTAA AAGGAGAAGT TTGTTTGGGT ATCCTATATC AATGGCAGGA AGGTTGTTTT138001 CTTCTTTACC TTTATCCTAT AGATTCATAT TCTCAACACC AACCTCCTCC TTTTTCAGTT138061 TCCTTCTTGC TTCTCTTGAC ACCACAGAGT TTGCAGCTAG TACTTGGAGA GGAAAATTAA138121 13827 138181 TGGCAAGAGA GAGTATGGGG GCTGCTTAGC CAGGGTGGCT GTACATAAAG TATATCTTCA138241 13884 138301 13842 138361 TTGCCTGAAA TGGAGCTTTG AGGTGGACTG TATAATTTCT TCAATCTTAA CTCCAAATTC138421 TGATCAGCGA CGCCCTCTGC TGTTCACTAT TAATATTTAT TTACCAATCA AAGTAAAGTA138481 TTGAAGTTTT CCTGGCAGTT TTCACTTTGT GTTTTAGTCC ATTTAGGCTG CTATAACAAA138541 ATCCCTTAAA CTGGGTAAGG GATTATAAAT ATTAGAAATT TATCTCTCAC AGTTCTGGAA138601 GCTGGGAAGC CCAATATCAA GGCACCAGTA GATTTGGTGT CTAACGAGGG TGTGCCGTCT138661 GCTTCAAAAA TGGCCCCTTG TTGCTGCATC CTCACTTAGT GCAAGGGGCA AGACAGCTCC138721 138 CTTCAACCTC TTTTATAAGG GCACTTATGT CATTCATGAG GGCAGAGCCC TCATGACTTA138781 ATCACTTCCC CAAAGGCCCC ACCTCTTAAT AGTATCACAT TGGGTGTTAG GTGTCTGGGA138841 GGACACCAAT CTTCAAGCCA TATCATCTCA CTTGGAAAAA AGTCAAAATA AAACCAGTAG138901 ATTTAATTAA TATTACACTA TTTATAGAAG CATGTGATGT ATCATTCCTT GTATTAATTT138961 CCTGGGGTTG CCGTAACAAG TTACCACAAA CTAGGTGGCTTAAAACAATA GAATTTTATT139021 CTCTCACATT TCTAGAGGCA GAAGTTCACA GTGTGTCAAT AGGGCCATGT TCTCTGGAAG 081 GCTTTAGGGG AGAATATATT TCATATCTTT CTCTTAGCTT CTCGGTGTCA CTGGCAATCC139141 TTAGCTTACT TTGGCTTTCT GTGTCTTCAC ATCATCTTTT TATAAGAACA CCAGTGATAG139201 TGATTAAGGG CATACCTTAC TTTAATATGA CCTCATCTTA ACTAATTATG TCTTCAATAA139261 139321 GGAGGGACAC AGTTCAACCC ATAACAACCC CTAAAATCGA TATTTATTCT CAATTAAGTC139 TTGAAATTGG TTTCAAAAAG AGAATATTCT ATTAGAGTTT TTAATGTATA GTTTTAACAT139441 ATAGTTCTTT AGCCCCCAAT TTTTTTTTTT TTTTTTTTTT TTTTTTTTTT TTTTTGAGAC139501 GGAGTCTCGC TCTGTCGCCC AGGCCGGACT GCGGACTGCA GTGGCGCAAT CTCGGCTCAC1 139681 TTCACCTTGT TAGCCAGGAT GGTCTCGATC TCCTGACCTC ATGATCCACC CGCCTCGGCC139741 1 TGCAAGCTCC GCTTCCCGGG TTCACGCCAT TCCCCTGCCT CAGCCTCCCG AGTAGCTGGG139621 ACTACAGGCG CCTGCCACCG CGCCCGGCTA ATTTTTTTGT ATTTTTAGTA GAGACGGGGT139681 TTCACCTTGT TAGCCAGGAT GGTCTCGATC TCCTGACCTC ATGATCCACC CGCCTCGGCC139741 TCCCAAAGTG CTGGGATTAC AGGCGTGAGC CACCGCGCCC GGCCTGCCCC CAATTATTTA139801 GTTTTTCTAT AAACAGGGAA ATTTATTTGT GTGGCCCTTA GAACTAATTT AATTTCCACT139861 CTAATTCCTA CTTATGTTTA TATAATGCTT TTAGAAATTT GTATTATTCA GAAAATAAAC139921 ATATACTATT GTATCTGTTG CCTACACTTA GATTTTATTG CCTGCTATAT TTAAATTTTA139981 TTAGTATTTT AATTGTTTTA TTAAAGAAAG AATGTGCCTG TAATCTCAGC ACTTTTGAGA140041 GGCCAAGGCA GAAGGATTGC TTGAGCCCAG GAGTTTGAGA CCAGACTGAG CAACACAGGG140101 140140101 140101 AGACCCCCAT CTCTACAAAA AATAAAAAAA TTCTCCAGGC CTCATGGCAC ATACCTGTAG140161 TTCTAGTTAC TTGGGAGACT GGGGTGGGAG GATGCATTGA GCCCAGGAGA TTGAGGCTGC140221 140140221 140221 AGTGAGCCAT GATCAGGCCA CTGTACTCCA GCTTGGACAA CAGAGTGAGA GCTTGTCTAG140281 ATAGATAGAT AGATAGATAA TCTAAATAGA TAATAGACAG ATTATCTAAA TAGATAATAG140341 ACAGATTATC TAAATAGATA ATAGACAGAT TATCTAAATA GATAATAGAC AGATTATCTA140401 1405637 140 140401 AATAGATAAT AGACAGATTA TCTAAATAGA TAATAGACAG ATTATCTATC TAAATAGATA140461 140 140461 ATAGATTATC TAAATAGATA ATAGATAGAT AGATTAGATA GATAGATAGA TAGATAGAGC140521 TTGGACAACA GAGTGAGAGC CTGTCTAGAT AGATAGAAAC AAAGAAAGAA AGAAAGAATG 140581 GTGCTCATAT TTTAAAGCAT TGAAAAATGG TCTTCCTTGC TTATATTACC CACACCTTCT 140641 TTGTTGGCAT TAAGATGCAA ACTTTGTTTT AAACAGTTGA GTAAATCAAA GATGGGACTG 140701 TTAAGTTATT TGTGTTATTT ACCTGCTTTT TGAAAATGTA AAAATAAAAC TCTAGGTTTA 140761 ATTAGTAGTA TGCTATTTAG TAATGAAGTA AAGCTAGAGG CTTCGAACAA ATCTTGTGTA 140821 ATTTCCTCTT GAATGAGAGA GAAAATTTAA AGTAAGCAAA CAAATAAGTT GTGTGTCACC 140881 ACTCATTCAG TCATTTAACA AGTATTTCCA GAGTACTTAT TCTGTGCCAG GAAATGTTGT 140941 AGGTGCCCTC AACAACTTAG AGTCTAGCCT GAGACACAAG TAAGTAGGTA ATTATTATAG 141001 AATGGTATGA TCTTTGGAGG ACTGGGTATT GGCTGGCTCA TGGGAGTACA AGATAGGTAC 141061 CCAGTGATGA AGTCAGGAAA GGTTTCTTAT GGTGATATGA TGACGTCTAT GCTGATTATA 141121 AGGTCAGTGT AGAATAAACT TTGTGCTTTT AAATTTGCAT AGCACTGTAT TAGAGAGTTC 141181 ATCTTCAAAA TAATCGAAAA GGCTGAGTGT GGTGACCCAT GGCTGTAATC CCAGCACTTT 141241 GGGAGGCCGA GGTGGGCAGA TTGCTTGAGC TAGGAGTTCG AGACCAGGCT GGCCAACATG 141301 GTGAAACCCC GTCTCTACTA AAAATACAAA AATTAGCCAG GAGTGATGGT GCGCACCTGT 141361 AATGCCAGCT ACTTGGGAGG CTGAGGCAGG AGGATCACTT GAACCCAGGA GGTGGAGGTT 141421 GAAGTAAGCC GAGGTCATGC CACTGCACTC CAGCCTGGGC AACAGAGTGA GACTCCATCT 141481 CAAAAAAAAA AAAAATGATC AAAGAAAGGT GAATTTTCAT CTACCCTATT TCTGCTGAGG 141541 AAAATGGACT ATTTTCAAAT ATTTTTAATA AGGGTCAAAA TGAGGGATC (2) SEQ ID NO: 2481 data:

(i) Sequence characteristics:

(A) length: 1310 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2481 sequence description:

1 GCCACCATGG AAACCCTTTG CCTCAGGGCA TCCTTTTGGC TGGCACTGGT TGGATGTGTA

61 ATCAGTGATA ATCCTGAGAG ATACAGCACA AATCTAAGCA ATCATGTGGA TGATTTCACC

121 ACTTTTCGTG GCACAGAGCT CAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTC

181 CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGC AGACTAAAAT TACTTCAGCT

241 TTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAAT

301 GCAACTCTGC TCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG

361 ATAGCCAGTC TTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA

421 TTTAAGCTGC TGGCTGGGCG CTGGCCTTTT GATCACAATG ACTTTGGCGT ATTTCTTTGC

481 AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCT

541 CTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGG AATTGGGATT

601 CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATT

661 CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACA GCATAAAACC

721 TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG

781 CTCTTCGGGT TCTATTTCTG TATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG

841 ACTGGTGAGA TGTTGAACAG AAGGAATGGC AGCTTGAGAA TTGCCCTCAG TGAACATCTT

901 AAGCAGCGTC GAGAAGTGGC AAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGC

961 TGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTG TGTATAACGA GATGGACAAG

1021 AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCA

1081 ACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAAT

1141 TGTTTCCAGT CATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC

1201 CCCATGAACG GAACAAGCAT CCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGAC

1261 CGGAGCAGCC ATAAGGACAG CATGAACTGA CCACCCTTAG AAGCACTCCT (2) SEQ ID NO: 2482 data:

(i) sequence characteristics:

(A) length: 1868 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2482 sequence description:

1 GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA

61 AATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG

121 ATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA 181 TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAA 241 TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC 301 TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT 361 GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA 421 CGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT 481 CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATT 541 TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCT 601 CTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT 661 TGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT 721 GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGG GTGAACAGCA 781 TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGA 841 CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC 901 CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA 961 ACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC 1021 TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGAT 1081 GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAA 1141 CTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT 1201 TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC 1261 CTCGGTCCCC ATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAA ACAACCACAA 1321 CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGG 1381 TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCC GGGAATCTCT 1441 TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG 1501 CAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT 1561 AATTTACATA TTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCT GGGGGAGAAT 1621 GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTC 1681 AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCAT 1741 GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC 1801 AGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC 1861 CCGAATTC (2) SEQ ID NO: 2483 data: (i) sequence characteristics:

(A) length: 752 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2483 sequence description:

1 CACCGCTCCT GTCAGCCAAC AAATATCCAT TGAGCGACAC CTGTGTCCCA GGTGCTGCTC 61 TGGGCCCTGG GAGAAGTGCA TCAGTGGGCT TGGTAGTAGA GGGTAGGGAT GGAGTGAAGG 121 GTAGGCAGGA AGAATGTCCC CAGGCTGGTA GGAGGTGGGG TGGGGGGTTT CAGTCTCAAA 181 ACTCCCATGA AAACCAGAGA GAAGTTTCAG AACTCCACCC AAGAGGCTGG GTTTCTAGGG 241 CCCAGAGCTG CCCTCCCCCA CCCTAGAATG GGCTATAAAA GTCCCTTCCC AGCTACGTCC 301 AGAGAAGAGC TGGAGGAAGT GAGAGGTCGG CTGGGGGTCC TCAAAGTGAG AGGGGAGCAG 361 AGGATCCTCC CGTGCAGGCT GTGGATGTCA CTCACTTCCC AGCTGGTGAA GCCTCGCTGC 421 AGAGATGCAT CTGCTCCCAG CCCTGGCAGG GGTCCTGGCC ACACTCGTCC TCGCCCAGCC 481 CTGTGAGGGC ACTGACCCAG GTAATAGTCC CCTAGACAGG CAAGGAGGAG GGAGGGGAAA 541 TGGAAGGGGA AGCACTTGGG TCTTGGAGGG GGTCTTGTGG CTTGCTGAAC CCTGAGTCCC 601 CATCTCTTTG AACAGCCTCC CCTGGGGCAG TGGAGACCTC GGTCCTGCGA GACTGCATAG 661 CAGAGGCCAA GTTGCTGGTG GATGCTGCCT ACAATTGGAC CCAGAAGAGG TGGACTTGGG 721 39 721 TCTGGGGGCT GCATGGGCCT GGGAGGATCA GT (2) SEQ ID NO: 2484 data: (i) sequence characteristics:

(A) length: 403 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2484 sequence description:

1 TAATACCTTG TGGGGTCAGG GAGCCCATGT CCCGTGCTGA TGTTATTTCC CCACCAGGTC 61 CGGGCTGTCT CCAACCAGAT TGTGCGCTTC CCCAATGAGA GACTGACCTC CGACCGTGGC 121 CGAGCCCTCA TGTTCATGCA GTGGGGCCAG TTCATTGACC ATGACCTGGA CTTCTCCCCG 181 GAGTCCCCGG CCAGAGTGGC CTTCACTGCA GGCGTTGACT GTGAGAGGAC CTGCGCCCAG 241 CTGCCCCCCT GCTTTCCCAT CAAGGTACCT ACCCTCAGCC AATCTCCCAT GCCCTTGTGT 301 GGCCTCCCCC AAAGGCAAGG TGCTGGGGGT GGGGATCTGG AAGACTGGAG CACCATCCTT 361 AAGGAGCTGC CTGTGGAGCT AGGGTATGAG ACAGAGACAC AAG (2) SEQ ID NO: 2485 data: (i) sequence characteristics:

(A) length: 482 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2485 sequence description:

1 CACTGTCTCC TCTTCCATCT CAGATCCCAC CCAATGACCC CCGCATCAAG AACCAGCGTG 61 ACTGCATCCC TTTCTTCCGC TCGGCACCCT CATGCCCCCA AAACAAGAAC AGAGTCCGCA 121 ACCAGATCAA CGCGCTCACC TCCTTTGTGG ACGCCAGCAT GGTGTATGGC AGTGAGGTCT 181 CCCTCTCGCT GCGGCTCCGC AACCGGACCA ACTACCTGGG GCTGCTGGCC ATCAACCAGC 241 GCTTTCAAGA CAACGGCCGG GCCCTGCTGC CCTTCGACAA CCTGCACGAT GACCCCTGTC 301 TCCTCACCAA CCGCTCGGCG CGCATCCCCT GCTTCCTGGC AGGTCAGACA GGGAGGAAGG 361 TGGTGTCTTC CCAGGAAACA GCCATCCCTG GGGTCCCAAC TGGGAAGCAA TGGTGGGATG 421 TGGTGAAGGT ACATGGTTTG GGACCTCAGT ATTAGGCACA CCATAAGCAT GGATCTGTGC 481 AC (2) SEQ ID NO: 2486 data: (i) sequence characteristics:

(A) length: 325 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2486 the sequence description:

1 TGAAGAGATG GAGGTCCAGT GAGGGCCAGG AGTTTGGCCC ACCCCGTCTC TCCCATCCCC 61 AGCCCTGGGT CTACCCTGGT AGAAAGACAT TTCTCTGGGA AAGGCTGCAG TAAATCTGAG 121 CTTGGGGTTT TCAAGGTGAC ACCCGATCAA CGGAAACCCC CAAACTGGCA GCCATGCACA 181 CCCTCTTTAT GCGAGAGCAC AACCGGCTGG CCACCGAGCT GAGACGCCTG AATCCCCGGT 241 GGAATGGAGA CAAACTGTAC AATGAGGCTC GGAAGATCAT GGGGGCCATG GTCCAGGTAA 301 GGAGCTCTGC ATCCCAGCAT CCCCC (2) SEQ ID N0: 2487 data: (i) sequence characteristics:

(A) length: 464 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2487 the sequence description:

1 CTTTGTATCT CCACCCACCA ATAGTAAATT AATGTTGTCA CATTTGACGT GATGACAATA 61 AAGAATATGT CTGAGCCACC CTTTGAAAAG GCAAGGGTAT GGGTGAGTAG CCTCTGGGGA 121 ATGTTCCTCC TGTCTTCCCT TCCAGATCAT CACCTACCGA GACTTTCTGC CCCTGGTTCT 181 GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGG GGGTACTGCT CCAATGTGGA 241 CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCC 301 CTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT 361 TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAA GGTGACCAGG TTTTCCAGGG 421 GGCAAATGGG GGTGAGGGTG GGGAGCATGC CCTCCCCTAG GTGG (2) SEQ ID NO: 2488 data: (i) sequence characteristics:

(A) length: 410 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2488 sequence description:

1 TCCAGCTGCT TCATGTCTCT CCAGAACTCT GTTTCCTGAC AAACGTTACT AACATACCCG 61 ACTGGCTTGT CCAGCTCTGG GCTAGCTTGG CATCATGTGA TAACCCAAGT AGCTTCCCAG 121AGGCTGGTCC AATCTGTGCT GCTCACATTC CCTGCCACCA GGGGGCATCG ACCCCATCCT 181 CCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAG GATGCCATGT TAGTGGATGA 241 GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGG CTGGACCTGG CAGCTCTCAA 301 CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGTGAGGGG GCTGTCCACC TCTTCTCCCA 361 GCTTTGCTCG GGCCAGGCTG CTCAAGGGGT TCTGGGAAGA CCCTGGTACC (2) SEQ ID NO: 2489 the data: (i) sequence characteristics:

(A) length: 437 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2489 the sequence description:

1 CGACTGCCTG GTAGGTTCTG GTGGCAGAAA CGAGGTGTTT TCACCAAAAG ACAGCGCAAG 61 GCCCTGAGCA GAATTTCCTT GTCTCGAATT ATATGTGACA ATACCGGTAT CACCACGGTT 121 TCAAGGGACA TCTTCAGAGC CAACATCTAC CCTCGGGGCT TTGTGAACTG CAGCCGTATC 181 CCCAGGTTGA ACCTATCAGC CTGGCGAGGG ACATGAGGCT TCTGCAGGTA AGGGGAGGCC 241 ACCTCCAGCA CCCTGGGCTG GTTAAGCCTC ACATCCTTCC CTGGATGGAT GGCTGAGTCC 301 TCTTAGGTCT CTAAGCAGAG AAAACAGAAC TTGTCACTAG GTACTCTTTC CAAGTGGCTT 361 CCCAATGTGC TAGTTTCTGG GCTGACAGTC AATTCCAGGC CCTAGGACTT TGGGGGGAAA 421 TTAGGAGCAT CCAACTA (2) SEQ ID NO: 2490 data: (i) sequence characteristics:

(A) length: 2558 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2490 sequence description:

1 GAATTCCGTG GCCAGGACCC CTGCCAGGGC ACTGACCCAG CCTCCCCTGG GGCAGTGGAG 61 ACCTCGGTCC TGCGAGACTG CATAGCAGAG GCCAAGTTGC TGGTGGATGC TGCCTACAAT 121 TGGACCCAGA AGAGCATCAA GCAGCGGCTT CGCAGCGGTT CAGCCAGCCC CATGGACCTC 181 721 TGTGAGAGGA CCTGCGCCCA GCTGCCCCCC TGCTTTCCCA TCAAGATCCC ACCCAATGAC 781 181 CTGTCCTACT TCAAACAACC GGTAGCAGCC ACCAGGACAG TTGTTCGGGC CGCAGATTAT 241 ATGCATGTGG CTTTGGGGCT GCTTGAAGAG AAGTTACAAC CCCAGCGGTC CGGACCCTTC 301 ATTGTCACTG ATGTGCTAAC AGAACCACAG CTGCGGCTGC TGTCCCAGGC CAGTGGCTGT 361 GCTCTCCGGG ACCAGGCCGA GCGCTGCAGC GACAAGTACC GCACCATCAC TGGACGGTGC 421 AACAACAAGA GGAGACCCTT GCTAGGGGCC TCCAACCAGG CTCTGGCTCG CTGGCTGCCC 481 GCCGAGTATG AGGATGGGCT GTCGCTCCCC TTCGGCTGGA CCCCCAGCAG GAGGCGCAAT 541 GGCTTCCTTC TCCCTCTTGT CCGGGCTGTC TCCAACCAGA TTGTGCGCTT CCCCAATGAG 601 AGACTGACCT CCGACCGTGG CCGAGCCCTC ATGTTCATGC AGTGGGGCCA GTTCATTGAC 661 CATGACCTGG ACTTCTCCCC GGAGTCCCCG GCCAGAGTGG CCTTCACTGC AGGCGTTGAC 721 TGTGAGAGGA CCTGCGCCCA GCTGCCCCCC TGCTTTCCCA TCAAGATCCC ACCCAATGAC 781 CCCCGCATCA AGAACCAGCG TGACTGCATC CCTTTCTTCC GCTCGGCACC CTCATGCCCC 841 CAAAACAAGA ACAGAGTCCG CAACCAGATC AACGCGCTCA CCTCCTTTGT GGACGCCAGC 901 ATGGTGTATG GCAGTGAGGT CTCCCTCTCG CTGCGGCTCC GCAACCGGAC CAACTACCTG 961 GGGCTGCTGG CCATCAACCA GCGCTTTCAA GACAACGGCC GGGCCCTGCT GCCCTTCGAC 1021 AACCTGCACG ATGACCCCTG TCTCCTCACC AACCGCTCGG CGCGCATCCC CTGCTTCCTG 1081 GCAGGTGACA CCCGATCAAC GGAAACCCCC AAACTGGCAG CCATGCACAC CCTCTTTATG 1141 CGAGAGCACA ACCGGCTGGC CACCGAGCTG AGACGCCTGA ATCCCCGGTG GAATGGAGAC 1201 AAACTGTACA ATGAGGCTCG GAAGATCATG GGGGCCATGG TCCAGATCAT CACCTACCGA 1261 GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGG 1321 GGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT1381 GGCCACACAA TGCTCCAGCC CTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA1441 CCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAA1501 GGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAG1561 GATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGG1621 CTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGGTACAAT1681 GCTTGGAGGC GCTTCTGTGG GCTCTCCCAG CCCCGGAATT TGGCACAGCT TAGCCGGGTG1741 CTGAAAAACC AGGACTTGGC AAGGAAGTTC CTGAATTTGT ATGGAACACC TGACAACATT1801 GACATCTGGA TTGGGGCCAT CGCTGAGCCT CTTTTGCCGG GGGCTCGAGT GGGGCCTCTT1861 CTGGCTTGTC TGTTCGAGAA CCAGTTCAGA AGAGCCGAGA CGGAGACAGG TTCTGGTGGC1921 AGAACGAGGT GTTTTCACCA AAGACAGCGC AAGGCCCTGA GCAGAATTTC CTTGTCTCGA1981 ATTATATGTG ACAATACCGG TATCACCACG GTTTCAAGGG ACATCTTCAG AGCCAACATC2041 TACCCTCGGG GCTTTGTGAA CTGCAGCCGT ATCCCCAGGT TGAACCTATC AGCCTGGCGA2101 GGGACATGAG GCTTCTGCAG GAGTCTATCC CAAGTCTCCA ACTTTTGGAG ACAAGGGGAA2161 GGGGAGGACC ATGAGGCTGC CTTGTCTCCC TGGAGCAAGT GCAGGCTCGT GACGCTTCTG2221 CTGGCTACAG CTCAGAGCTG GGTTCCCCAG CCAGGAGTGA AGGCTGGGGG CTCCTATCAG2281 CAATGGACCT TCCGCCTTGG GAGCCTCTTA GGTATTAGGC TATGAATCAG CGCCACGTGC2341 AAAGGCTTGG GAGCCAAGCC ATGTGGTCTT GCACCCCAGG CAAGAAAAGT CAGCTGGAGG2401 GTTTACAGCA CTTTCTACTG TTTCCCAGCC CTCCCTCCCC TCCCTCACCA TGACTAAGAG2461 ACCACTCGGT CCTAGCCTCC AGACACCCCA CAATACTCCT CTGAGCCTGA GGCCAGGCAG2521 CATGCTCTGC TTCTACCAAT AAAGCACTGC CGGAATTC (2) SEQ ID NO: 2491 data: (i) sequence characteristics:

(A) length: 807 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2491 sequence description: 1 GCATTTTTTC AAGTTTTATG ATTTATTTAA CTTGTGGAAC AAAAATAAAC CAGAAACCAC 61 CACCTCTCAC GCCAAAGCTC ACACCTTCAG CCTCCAACAT GAAGGTCTCC GCAGCACTTC 121 TGTGGCTGCT GCTCATAGCA GCTGCCTTCA GCCCCCAGGG GCTCGCTGGG CCAGCTTCTG 181 TCCCAACCAC CTGCTGCTTT AACCTGGCCA ATAGGAAGAT ACCCCTTCAG CGACTAGAGA 241 GCTACAGGAG AATCACCAGT GGCAAATGTC CCCAGAAAGC TGTGATCTTC AAGACCAAAC 301 TGGCCAAGGA TATCTGTGCC GACCCCAAGA AGAAGTGGGT GCAGGATTCC ATGAAGTATC 361 TGGACCAAAA ATCTCCAACT CCAAAGCCAT AAATAATCAC CATTTTTGAA ACCAAACCAG 421 AGCCTGAGTG TTGCCTAATT TGTTTTCCCT TCTTACAATG CATTCTGAGG TAACCTCATT 481 ATCAGTCCAA AGGGCATGGG TTTTATTATA TATATATATA TTTTTTTTTT AAAAAAAAAC 541 GTATTGCATT TAATTTATTG AGGCTTTAAA ACTTATCCTC CATGAATATC AGTTATTTTT 601 AAACTGTAAA GCTTTGTGCA GATTCTTTAC CCCCTGGGAG CCCCAATTCG ATCCCCTGTC 661 ACGTGTGGGC AATGTTCCCC CTCTCCTCTC TTCCTCCCTG GAATCTTGTA AAGGTCCTGG 721 CAAAGATGAT CAGTATGAAA ATGTCATTGT TCTTGTGAAC CCAAAGTGTG ACTCATTAAA 781 TGGAAGTAAA TGTTGTTTTA GGAATAC (2) SEQ ID NO: 2492 data: (i) sequence characteristics:

(A) length: 294 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2492 sequence description: 1 ATGAAGGTCT CCGCAGCACT TCTGTGGCTG CTGCTCATAG CAGCTGCCTT CAGCCCCCAG 61 GGGCTCGCTG GGCCAGCTTC TGTCCCAACC ACCTGCTGCT TTAACCTGGC CAATAGGAAG 121 ATACCCCTTC AGCGACTAGA GAGCTACAGG AGAATCACCA GTGGCAAATG TCCCCAGAAA 181 GCTGTGATCT TCAAGACCAA ACTGGCCAAG GATATCTGTG CCGACCCCAA GAAGAAGTGG 241 GTGCAGGATT CCATGAAGTA TCTGGACCAA AAATCTCCAA CTCCAAAGCC ATAA (2) SEQ ID NO: 2493 data: (i) sequence characteristics:

(A) length: 2655 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2493 sequence description:

1 CCACATATTC CCCTCCTTTT CCAAGGCAAG ATCCAGATGG ATTAAAAAAT GTACCAAGTC 61 CCTCCTACTA GCTTGCCTCT CTTCTGTTCT GCTTGACTTC CTAGGATCTG GAATCTGGTC 121 AGCAATCAGG AATCCCTTCA TCGTGACCCC CGCATGGGCA AAGGCTTCCC TGGAATCTCC 181 721 TTCGACTCCA GGACAGCTTT CAGAGACAGT GGCTAAGAGA AGAACGAGGT CCCAGGGGAT 781 181 CACACTGTCT GCTCCCTATA AAAGGCAGGC AGATGGGCCA GAGGAGCAGA GAGGCTGAGA 241 CCAACCCAGA AACCACCACC TCTCACGCCA AAGCTCACAC CTTCAGCCTC CAACATGAAG 301 GTCTCCGCAG CACTTCTGTG GCTGCTGCTC ATAGCAGCTG CCTTCAGCCC CCAGGGGCTC 361 GCTGGGCCAG GTAAGCCCCC CAACTCCTTA CAGGAAAGGT AAGGTAACCA CCTCCAGGCT 421 ACTAGGTCAG CAAGAATCTT TACAGACTCA CTGCAAATTC TCCATTTGAA AAATAGGGAA 481 ACAGGTTTTG TGGGTGGACA AGAAATGCCT CAACCGTCAC ATCCAGTCAC TGGAAGAGCC 541 AGAACTAGAA AGCTCCCGAG TCTTTTCCCC ACATTCAAGA GGGCCGCTGG GTGCATCCTT 601 ACCCAGCTAT CCTTACAGTG TTTGGGAATG GGGAATGGCT CTGTCTTACT GTGGGCATGG 661 TGGGCATTTT TGGCAGTGGG AGAGAAGGAA AATCTGTTGA TTAGAAGCTC AGTATGTTAA 721 TTCGACTCCAGGACAGCTTT CAGAGACAGT GGCTAAGAGA AGAACGAGGT CCCAGGGGAT 781 CTCTTGAGGT GACTTATTTT GACACTCTTT GGGAAAGTTA TCTAGGAGAT TTGTTCCATA 841 ACTCATTTTC CCATACTCTG GTGACAAATT TACTGAGTGT ATCGGTCCCA CTGAGCCAGT 901 GCATAGCATG GTAACAAACA GTTCTAAATT ATCAATGACT TAACAGAATT AACTAAATTA 961 ACAAAAGTTA CTTTCTCACT TGTACTAAAT ATCTATAATG TATGGGCTCA GGCTTCTGCA 1021 TTTTATACTC AGGATTCTAG ACTGATGGAG AAGTTGCCAT GTGGGGGAAC ATTGATGGAT 1081 ACTGTGATAA AGCAGAAGAA AGCTCTCAGG AGTCTTGCAT AGGCAATGCA CTGTGGCTCA 1141 AAAATGACAC CCATCACTTT GTCTCCTTCT TTATTGATCA AAACTAATTA ATGCCTCCAA 1201 CCAAACAAAA GTGGCCAAGA AATGCAAGTC TACCTTGTGT CTCAAAACAG AGGATGGAGA 1261 ATATTTGGTG AAAATTACCA TGACCATCAC ATGGCCACGT AGGTCTTTAT AATGACAGAG 1321 CTAGCATTTG TCACATTGAC CAAGCTTTGT CCATACACTC TACAGTAATG ATGAGTCCTC 1381 AGTGCACAGG GGAGGATGCT GAAGACACAG GACAGCATCC TCCAGACACA TAAGACTTCA 1441 GAGCAGAGGG ATTCTCCCTC CACCTCTCGC AATTCCTTGC TTTCTCCTAA CTTCCTTTAC 1501 AAAGTCATGC TTGGAAATGT CTATGTATCA TCATGTGGCT CATTTTTTTC TCTGTTCATT 1561 TTTTTTCCCC AAAATTCAGC TTCTGTCCCA ACCACCTGCT GCTTTAACCT GGCCAATAGG 1621 AAGATACCCC TTCAGCGACT AGAGAGCTAC AGGAGAATCA CCAGTGGCAA ATGTCCCCAG 1681 AAAGCTGTGA TGTAAGTAAA TAAAGTTCAC CCTCCCCTAG ACAAAAAAAT AATGTCTAGG 1741 GCACAGAGTC AAGAACTGTG GGAGTCATAG ACTCTGATAG TTTGACCTCT ATGGTCCAAT 1801 TCATTAATTT TCACAAGTGA GTGTTCACTC CCAGCTCCCT GCCTGGGAGA TTGCTGTAGT 1861 CATATCAATT TCTTCAAGTC AAGAGCAAAG ATGGTTTTAC TGGGCCTTTA AGAGCAGCAA 1921 CTAACCCAAG AGTCTCATCC TTCCTCCTCT CCGTAGC ^ AC CCTTTGTCCA GGGGCAGATG 1981 GTCCTTAAAT ATTTAGGGTC AAATGGGCAG AATTTTCAAA AACAATCCTT CCAATTGCAT 2041 CCTGATTCTC CCCACAGCTT CAAGACCAAA CTGGCCAAGG ATATCTGTGC CGACCCCAAG 2101 AAGAAGTGGG TGCAGGATTC CATGAAGTAT CTGGACCAAA AATCTCCAAC TCCAAAGCCA 2161 TAAATAATCA CCATTTTTGA AACCAAACCA GAGCCTGAGT GTTGCCTAAT TTGTTTTCCC 2221 TTCTTACAAT GCATTCTGAG GTAACCTCAT TATCAGTCCA AAGGGCATGG GTTTTATTAT 2281 ATATATATAT ATATATTTTT TTTTAAAAAA AAACGTATTG CATTTAATTT ATTGAGGCTT 2341 TAAAACTTAT CCTCCATGAA TATCAGTTAT TTTTAAACTG TAAAGCTTTG TGCAGATTCT 2401 TTACCCCCTG GGAGCCCCAA TTCGATCCCC TGTCACGTGT GGGCAATGTT CCCCCTCTCC 2461 TCTCTTCCTC CCTGGAATCT TGTAAAGGTC CTGGCAAAGA TGATCAGTAT GAAAATGTCA 2521 TTGTTCTTGT GAACCCAAAG TGTGACTCAT TAAATGGAAG TAATGTTGTT TTAGGAATAC 2581 ATAAAGTATG TGCATATTTT ATTATAGTCA CTAGTTGTAA TTTTTTTGTG GGAAATCCAC 2641 ACTGAGCTGA GGCGGG (2) SEQ ID NO: 2494 data: (i) sequence characteristics:

(A) length: 2665 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2494 sequence description: 1 GCATTTTTTC AAGTTTTATG ATTTATTTAA CTTGTGGAAC AAAAATAAAC CAGAAACCAC 61 CACCTCTCAC GCCAAAGCTC ACACCTTCAG CCTCCAACAT GAAGGTCTCC GCAGCACTTC 121 TGTGGCTGCT GCTCATAGCA GCTGCCTTCA GCCCCCAGGG GCTCGCTGGG CCAGCTTCTG 181 721 CAAAGATGAT CAGTATGAAA ATGTCATTGT TCTTGTGAAC CCAAAGTGTG ACTCATTAAA 781 181 TCCCAACCAC CTGCTGCTTT AACCTGGCCA ATAGGAAGAT ACCCCTTCAG CGACTAGAGA 241 GCTACAGGAG AATCACCAGT GGCAAATGTC CCCAGAAAGC TGTGATCTTC AAGACCAAAC 301 TGGCCAAGGA TATCTGTGCC GACCCCAAGA AGAAGTGGGT GCAGGATTCC ATGAAGTATC 361 TGGACCAAAA ATCTCCAACT CCAAAGCCAT AAATAATCAC CATTTTTGAA ACCAAACCAG 421 AGCCTGAGTG TTGCCTAATT TGTTTTCCCT TCTTACAATG CATTCTGAGG TAACCTCATT 481 ATCAGTCCAA AGGGCATGGG TTTTATTATA TATATATATA TTTTTTTTTT AAAAAAAAAC 541 GTATTGCATT TAATTTATTG AGGCTTTAAA ACTTATCCTC CATGAATATC AGTTATTTTT 601 AAACTGTAAA GCTTTGTGCA GATTCTTTAC CCCCTGGGAG CCCCAATTCG ATCCCCTGTC 661 ACGTGTGGGC AATGTTCCCC CTCTCCTCTC TTCCTCCCTG GAATCTTGTA AAGGTCCTGG 721 CAAAGATGAT CAGTATGAAA ATGTCATTGT TCTTGTGAAC CCAAAGTGTG ACTCATTAAA 781 TGGAAGTAAA TGTTGTTTTA GGAATACATG AAGGTCT CCGCAGCACT TCTGTGGCTG 801 CTGCTCATAG CAGCTGCCTT CAGCCCCCAG GGGCTCGCTG GGCCAGCTTC TGTCCCAACC 861 ACCTGCTGCT TTAACCTGGC CAATAGGAAG ATACCCCTTC AGCGACTAGA GAGCTACAGG 921 AGAATCACCA GTGGCAAATG TCCCCAGAAA GCTGTGATCT TCAAGACCAA ACTGGCCAAG 981 GATATCTGTG CCGACCCCAA GAAGAAGTGG GTGCAGGATT CCATGAAGTA TCTGGACCAA1005 AAATCTCCAA CTCCAAAGCC ATAA1065 CCACATATTC CCCTCCTTTT CCAAGGCAAG ATCCAGATGG ATTAAAAAAT GTACCAAGTC1121 CCTCCTACTA GCTTGCCTCT CTTCTGTTCT GCTTGACTTC CTAGGATCTG GAATCTGGTC1181 AGCAATCAGG AATCCCTTCA TCGTGACCCC CGCATGGGCA AAGGCTTCCC TGGAATCTCC1241 CACACTGTCT GCTCCCTATA AAAGGCAGGC AGATGGGCCA GAGGAGCAGA GAGGCTGAGA1301 CCAACCCAGA AACCACCACC TCTCACGCCA AAGCTCACAC CTTCAGCCTC CAACATGAAG1361 GTCTCCGCAG CACTTCTGTG GCTGCTGCTC ATAGCAGCTG CCTTCAGCCC CCAGGGGCTC1421 GCTGGGCCAG GTAAGCCCCC CAACTCCTTA CAGGAAAGGT AAGGTAACCA CCTCCAGGCT1481 ACTAGGTCAG CAAGAATCTT TACAGACTCA CTGCAAATTC TCCATTTGAA AAATAGGGAA1541 ACAGGTTTTG TGGGTGGACA AGAAATGCCT CAACCGTCAC ATCCAGTCAC TGGAAGAGCC1601 AGAACTAGAA AGCTCCCGAG TCTTTTCCCC ACATTCAAGA GGGCCGCTGG GTGCATCCTT1661 ACCCAGCTAT CCTTACAGTG TTTGGGAATG GGGAATGGCT CTGTCTTACT GTGGGCATGG1721 TGGGCATTTT TGGCAGTGGG AGAGAAGGAA AATCTGTTGA TTAGAAGCTC AGTATGTTAA1781 17 1781 TTCGACTCCA GGACAGCTTT CAGAGACAGT GGCTAAGAGA AGAACGAGGT CCCAGGGGAT1841 CTCTTGAGGT GACTTATTTT GACACTCTTT GGGAAAGTTA TCTAGGAGAT TTGTTCCATA1901 ACTCATTTTC CCATACTCTG GTGACAAATT TACTGAGTGT ATCGGTCCCA CTGAGCCAGT1961 GCATAGCATG GTAACAAACA GTTCTAAATT ATCAATGACT TAACAGAATT AACTAAATTA2021 ACAAAAGTTA CTTTCTCACT TGTACTAAAT ATCTATAATG TATGGGCTCA GGCTTCTGCA2081 TTTTATACTC AGGATTCTAG ACTGATGGAG AAGTTGCCAT GTGGGGGAAC ATTGATGGAT2141 ACTGTGATAA AGCAGAAGAA AGCTCTCAGG AGTCTTGCAT AGGCAATGCA CTGTGGCTCA2201 AAAATGACAC CCATCACTTT GTCTCCTTCT TTATTGATCA AAACTAATTA ATGCCTCCAA2261 CCAAACAAAA GTGGCCAAGA AATGCAAGTC TACCTTGTGT CTCAAAACAG AGGATGGAGA2321 ATATTTGGTG AAAATTACCA TGACCATCAC ATGGCCACGT AGGTCTTTAT AATGACAGAG2381 CTAGCATTTG TCACATTGAC CAAGCTTTGT CCATACACTC TACAGTAATG ATGAGTCCTC2441 AGTGCACAGG GGAGGATGCT GAAGACACAG GACAGCATCC TCCAGACACA TAAGACTTCA2501 GAGCAGAGGG ATTCTCCCTC CACCTCTCGC AATTCCTTGC TTTCTCCTAA CTTCCTTTAC2561 25 2561 AAAGTCATGC TTGGAAATGT CTATGTATCA TCATGTGGCT CATTTTTTTC TCTGTTCATT2621 TTTTTTCCCC AAAATTCAGC TTCTGTCCCA ACCACCTGCT GCTTTAACCT GGCCAATAGG2681 AAGATACCCC TTCAGCGACT AGAGAGCTAC AGGAGAATCA CCAGTGGCAA ATGTCCCCAG2741 AAAGCTGTGA TGTAAGTAAA TAAAGTTCAC CCTCCCCTAG ACAAAAAAAT AATGTCTAGG2801 GCACAGAGTC AAGAACTGTG GGAGTCATAG ACTCTGATAG TTTGACCTCT ATGGTCCAAT2861 TCATTAATTT TCACAAGTGA GTGTTCACTC CCAGCTCCCT GCCTGGGAGA TTGCTGTAGT2921 CATATCAATT TCTTCAAGTC AAGAGCAAAG ATGGTTTTAC TGGGCCTTTA AGAGCAGCAA2981 CTAACCCAAG AGTCTCATCC TTCCTCCTCT CCGTAGCAAC CCTTTGTCCA GGGGCAGATG3041 GTCCTTAAAT ATTTAGGGTC AAATGGGCAG AATTTTCAAA AACAATCCTT CCAATTGCAT3101 CCTGATTCTC CCCACAGCTT CAAGACCAAA CTGGCCAAGG ATATCTGTGC CGACCCCAAG3161 AAGAAGTGGG TGCAGGATTC CATGAAGTAT CTGGACCAAA AATCTCCAAC TCCAAAGCCA3221 TAAATAATCA CCATTTTTGA AACCAAACCA GAGCCTGAGT GTTGCCTAAT TTGTTTTCCC3281 TTCTTACAAT GCATTCTGAG GTAACCTCAT TATCAGTCCA AAGGGCATGG GTTTTATTAT3341 ATATATATAT ATATATTTTT TTTTAAAAAA AAACGTATTG CATTTAATTT ATTGAGGCTT

2341 TAAAACTTAT CCTCCATGAA TATCAGTTAT TTTTAAACTG TAAAGCTTTG TGCAGATTCT

2401 TTACCCCCTG GGAGCCCCAA TTCGATCCCC TGTCACGTGT GGGCAATGTT CCCCCTCTCC

2461 TCTCTTCCTC CCTGGAATCT TGTAAAGGTC CTGGCAAAGA TGATCAGTAT GAAAATGTCA

2521 TTGTTCTTGT GAACCCAAAG TGTGACTCAT TAAATGGAAG TAATGTTGTT TTAGGAATAC

2581 ATAAAGTATG TGCATATTTT ATTATAGTCA CTAGTTGTAA TTTTTTTGTG GGAAATCCAC

2641 ACTGAGCTGA GGGGG

(2) SEQ ID NO: 2495 data:

(i) sequence characteristics:

(A) length: 70 base pairs

(B) Type (2): nucleic acid (C) strand type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2495 sequence description:

1 GCCAGGTCGC TGTTGGTCCA CGCCGCCCGT CGCGCCGCCC GCCCGCTCAG CGTCCGCCGC

61 CGCCATGGGA

(2) SEQ ID NO: 2496 data:

(i) sequence characteristics:

(A) length: 880 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2496 sequence description:

1 GGCCGGAGCC GAGCCGGGGT CGGGCAGCAG CAGGGACCCC CCAGAGGCGG GGCCTGTGGG

61 ACCGCTATGG GCGTGGAGAT CGAGACCATC TCCCCCGGAG ACGGAAGGAC ATTCCCCAAG

121 AAGGGCCAAA CGTGTGTGGT GCACTACACA GGAATGCTCC AAAATGGGAA GAAGTTTGAT

181 TCATCCAGAG ACAGAAACAA ACCTTTCAAG TTCAGAATTG GCAAACAGGA AGTCATCAAA

241 GGTTTTGAAG AGGGTGCAGC CCAGATGAGC TTGGGGCAGA GGGCGAAGCT GACCTGCACC

301 CCTGATGTGG CATATGGAGC CACGGGCCAC CCCGGTGTCA TCCCTCCCAA TGCCACCCTC

361 ATCTTTGACG TGGAGCTGCT CAACTTAGAG TGAAGGCAGG AAGGAACTCA AGGTGGCTGG

421 AGATGGCTGC TGCTCACCCT CCTAGCCTGC TCTGCCACTG GGACGGCTCC TGCTTTTGGG

481 GCTCTTGATC AGTGTGCTAA CCTCACTGCC TCATGGCATC ATCCATTCTC TCTGCCCAAG

541 TTGCTCTGTA TGTGTTCGTC AGTGTTCATG CGAATTCTTG CTTGAGGAAA CTTCGGTTGC

601 AGATTGAAGC ATTTCAGGTT GTGCATTTTG TGTGATGCAT GTAGTAGCCT TTCCTGATGA

661 CAGAACACAG ATCTCTTGTT CGCACAATCT ACACTGCCTT ACCTTCACTT AAACCACACA

721 CACAAGGTGC TCAGACATGA AATGTACATG GCGTACCGTA CACAGAGGGA CTTGAGCCAG

781 TTACCTTTGC TGTCACTTTC TCTCTTATAA ATTCTGTTAG CTGCTCACTT AAACAATGTC

841 CTCTTTGAGA AAATGTAAAA TAAAGGCTCT GTGCTTGACA (2) SEQ ID NO: 2497 data:

(i) sequence characteristics:

(A) length: 1532 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2497 the sequence description:

1 GAATTCGGGC CGCCGCCAGG TCGCTGTTGG TCCACGCCGC CCGTCGCGCC GCCCGCCCGC

61 TCAGCGTCCG CCGCCGCCAT GGGAGTGCAG GTGGAAACCA TCTCCCCAGG AGACGGGCGC

121 ACCTTCCCCA AGCGCGGCCA GACCTGCGTG GTGCACTACA CCGGGATGCT TGAAGATGGA

181 AAGAAATTTG ATTCCTCCCG GGACAGAAAC AAGCCCTTTA AGTTTATGCT AGGCAAGCAG

241 GAGGTGATCC GAGGCTGGGA AGAAGGGGTT GCCCAGATGA GTGTGGGTCA GAGAGCCAAA

301 CTGACTATAT CTCCAGATTA TGCCTATGGT GCCACTGGGC ACCCAGGCAT CATCCCACCA

361 CATGCCACTC TCGTCTTCGA TGTGGAGCTT CTAAAACTGG AATGACAGGA ATGGCCTCCT

421 CCCTTAGCTC CCTGTTCTTG GATCTGCCAT GGAGGGATCT GGTGCCTCCA GACATGTGCA

481 CATGAGTCCA TATGGAGCTT TTCCTGATGT TCCACTCCAC TTTGTATAGA CATCTGCCCT

541 GACTGAATGT GTTCTGTCAC TCAGCTTTGC TTCCGACACC TCTGTTTCCT CTTCCCCTTT

601 CTCCTCGTAT GTGTGTTTAC CTAAACTATA TGCCATAAAC CTCAAGTTAT TCATTTTATT 661 TTGTTTTCAT TTTGGGGTGA AGATTCAGTT TCAGTCTTTT GGATATAGGT TTCCAATTAA 721 GTACATGGTC AAGTATTAAC AGCACAAGTG GTAGGTTAAC ATTAGAATAG GAATTGGTGT 781 TGGGGGGGGG GTTTGCAAGA ATATTTTATT TTAATTTTTT GGATGAAATT TTTATCTATT 841 ATATATTAAA CATTCTTGCT GCTGCGCTGC AAAGCCATAG CAGATTTGAG GCGCTGTTGA 901 GGACTGAATT ACTCTCCAAG TTGAGAGATG TCTTTGGGTT AAATTAAAAG CCCTACCTAA 961 AACTGAGGTG GGGATGGGGA GAGCCTTTGC CTCCACCATT CCCACCCACC CTCCCCTTAA 1021 ACCCTCTGCC TTTGAAAGTA GATCATGTTC ACTGCAATGC TGGACACTAC AGGTATCTGT 1081 CCCTGGGCCA GCAGGGACCT CTGAAGCCTT CTTTGTGGCC TTTTTTTTTT TTCATCCTGT 1141 GGTTTTTCTA ATGGACTTTC AGGAATTTTG TAATCTCATA ACTTTCCAAG CTCCACCACT 1201 TCCTAAATCT TAAGAACTTT AATTGACAGT TTCAATTGAA GGTGCTGTTT GTAGACTTAA 1261 CACCCAGTGA AAGCCCAGCC ATCATGACAA ATCCTTGAAT GTTCTCTTAA GAAAATGATG 1321 CTGGTCATCG CAGCTTCAGC ATCTCCTGTT TTTTGATGCT TGGCTCCCTC TGCTGATCTC 1381 AGTTTCCTGG CTTTTCCTCC CTCAGCCCCT TCTCACCCCT TTGCTGTCCT GTGTAGTGAT 1441 TTGGTGAGAA ATCGTTGCTG CACCCTTCCC CCAGCACCAT TTATGAGTCT CAAGTTTTAT 1501 TATTGCAATA AAAGTGCTTT ATGCCCGAAT TC (2) SEQ ID NO: 2498 data: (i) sequence characteristics:

(A) length: 584 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2498 sequence description:

1 GCCGCCGCCA TGGGAGTGCA GGTGGAAACC ATCTCCCCAG GAGACGGGCG CACCTTCCCC 61 AAGCGCGGCC AGACCTGCGT GGTGCACTAC ACCGGGATGC TTGAAGATGG AAAGAAATTT 121 GATTCCTCCC GGGACAGAAA CAAGCCCTTT AAGTTTATGC TAGGCAAGCA GGAGGTGATC 181 CGAGGCTGGG AAGAAGGGGT TGCCCAGATG AGTGTGGGTC AGAGAGCCAA ACTGACTATA 241 TCTCCAGATT ATGCCTATGG TGCCACTGGG CACCCAGGCA TCATCCCACC ACATGCCACT 301 CTCGTCTTCG ATGTGGAGCT TCTAAAACTG GAATGACAGG AATGGCCTCC TCCCTTAGCT 361 CCCTGTTCTT GGATCTGCCR TGGAGGGATC TGGTGCCTCC AGACATGTGC ACATGARTCC 421 ATATGGAGCT TTTCCTGATG TTCCACTCCA CTTTGTATAG ACATCTGCCC TGACTGAATG 481 TGTTCTGTCA CTCAGCTTTG CTTCCGACAC CTCTGTTTCC TCTTCCCCTT TCTCCTCGTA 541 TGTGTGTTTA CCTAAACTAT ATGCCATAAA CCTCAAGTTA TTCA (2) SEQ ID NO: 2499 data: (i) sequence characteristics:

(A) length: 3176 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2499 the sequence description:

1 GCCAGGTCGC TGTTGGTCCA CGCCGCCCGT CGCGCCGCCC GCCCGCTCAG CGTCCGCCGC 61 CGCCATGGGA GGCCGGAGCC GAGCCGGGGT CGGGCAGCAG CAGGGACCCC CCAGAGGCGG 121 GGCCTGTGGG ACCGCTATGG GCGTGGAGAT CGAGACCATC TCCCCCGGAG ACGGAAGGAC 181 ATTCCCCAAG AAGGGCCAAA CGTGTGTGGT GCACTACACA GGAATGCTCC AAAATGGGAA 241 GAAGTTTGAT TCATCCAGAG ACAGAAACAA ACCTTTCAAG TTCAGAATTG GCAAACAGGA 301 AGTCATCAAA GGTTTTGAAG AGGGTGCAGC CCAGATGAGC TTGGGGCAGA GGGCGAAGCT 361 GACCTGCACC CCTGATGTGG CATATGGAGC CACGGGCCAC CCCGGTGTCA TCCCTCCCAA 421 TGCCACCCTC ATCTTTGACG TGGAGCTGCT CAACTTAGAG TGAAGGCAGG AAGGAACTCA 481 AGGTGGCTGG AGATGGCTGC TGCTCACCCT CCTAGCCTGC TCTGCCACTG GGACGGCTCC 541 TGCTTTTGGG GCTCTTGATC AGTGTGCTAA CCTCACTGCC TCATGGCATC ATCCATTCTC 601 TCTGCCCAAG TTGCTCTGTA TGTGTTCGTC AGTGTTCATG CGAATTCTTG CTTGAGGAAA 661 CTTCGGTTGC AGATTGAAGC ATTTCAGGTT GTGCATTTTG TGTGATGCAT GTAGTAGCCT 721 TTCCTGATGA CAGAACACAG ATCTCTTGTT CGCACAATCT ACACTGCCTT ACCTTCACTT 781 AAACCACACA CACAAGGTGC TCAGACATGA AATGTACATG GCGTACCGTA CACAGAGGGA 841 CTTGAGCCAG TTACCTTTGC TGTCACTTTC TCTCTTATAA ATTCTGTTAG CTGCTCACTT

901 AAACAATGTC CTCTTTGAGA AAATGTAAAA TAAAGGCTCT GTGCTTGACA GAATTCGGGC

961 CGCCGCCAGG TCGCTGTTGG TCCACGCCGC CCGTCGCGCC GCCCGCCCGC

1011 TCAGCGTCCG CCGCCGCCAT GGGAGTGCAG GTGGAAACCA TCTCCCCAGG AGACGGGCGC

1171 ACCTTCCCCA AGCGCGGCCA GACCTGCGTG GTGCACTACA CCGGGATGCT TGAAGATGGA

1231 AAGAAATTTG ATTCCTCCCG GGACAGAAAC AAGCCCTTTA AGTTTATGCT AGGCAAGCAG

1291 GAGGTGATCC GAGGCTGGGA AGAAGGGGTT GCCCAGATGA GTGTGGGTCA GAGAGCCAAA

1351 CTGACTATAT CTCCAGATTA TGCCTATGGT GCCACTGGGC ACCCAGGCAT CATCCCACCA

1411 CATGCCACTC TCGTCTTCGA TGTGGAGCTT CTAAAACTGG AATGACAGGA ATGGCCTCCT

1471 CCCTTAGCTC CCTGTTCTTG GATCTGCCAT GGAGGGATCT GGTGCCTCCA GACATGTGCA

1531 CATGAGTCCA TATGGAGCTT TTCCTGATGT TCCACTCCAC TTTGTATAGA CATCTGCCCT

1591 GACTGAATGT GTTCTGTCAC TCAGCTTTGC TTCCGACACC TCTGTTTCCT CTTCCCCTTT

1651 CTCCTCGTAT GTGTGTTTAC CTAAACTATA TGCCATAAAC CTCAAGTTAT TCATTTTATT

1711 TTGTTTTCAT TTTGGGGTGA AGATTCAGTT TCAGTCTTTT GGATATAGGT TTCCAATTAA

1771 GTACATGGTC AAGTATTAAC AGCACAAGTG GTAGGTTAAC ATTAGAATAG GAATTGGTGT

1831 TGGGGGGGGG GTTTGCAAGA ATATTTTATT TTAATTTTTT GGATGAAATT TTTATCTATT

1891 ATATATTAAA CATTCTTGCT GCTGCGCTGC AAAGCCATAG CAGATTTGAG GCGCTGTTGA

1951 GGACTGAATT ACTCTCCAAG TTGAGAGATG TCTTTGGGTT AAATTAAAAG CCCTACCTAA

2011 AACTGAGGTG GGGATGGGGA GAGCCTTTGC CTCCACCATT CCCACCCACC CTCCCCTTAA

2071 ACCCTCTGCC TTTGAAAGTA GATCATGTTC ACTGCAATGC TGGACACTAC AGGTATCTGT

2131 CCCTGGGCCA GCAGGGACCT CTGAAGCCTT CTTTGTGGCC TTTTTTTTTT TTCATCCTGT

2191 GGTTTTTCTA ATGGACTTTC AGGAATTTTG TAATCTCATA ACTTTCCAAG CTCCACCACT

2251 TCCTAAATCT TAAGAACTTT AATTGACAGT TTCAATTGAA GGTGCTGTTT GTAGACTTAA

2331 CACCCAGTGA AAGCCCAGCC ATCATGACAA ATCCTTGAAT GTTCTCTTAA GAAAATGATG

2391 CTGGTCATCG CAGCTTCAGC ATCTCCTGTT TTTTGATGCT TGGCTCCCTC TGCTGATCTC

2451 AGTTTCCTGG CTTTTCCTCC CTCAGCCCCT TCTCACCCCT TTGCTGTCCT GTGTAGTGAT

2511 TTGGTGAGAA ATCGTTGCTG CACCCTTCCC CCAGCACCAT TTATGAGTCT CAAGTTTTAT

2561 TATTGCAATA AAAGTGCTTT ATGCCCGAAT TC

2594 GCCGCCGCCA TGGGAGTGCA GGTGGAAACC ATCTCCCCAG GAGACGGGCG CACCTTCCCC

2655 AAGCGCGGCC AGACCTGCGT GGTGCACTAC ACCGGGATGC TTGAAGATGG AAAGAAATTT

2715 GATTCCTCCC GGGACAGAAA CAAGCCCTTT AAGTTTATGC TAGGCAAGCA GGAGGTGATC

2775 CGAGGCTGGG AAGAAGGGGT TGCCCAGATG AGTGTGGGTC AGAGAGCCAA ACTGACTATA

2835 TCTCCAGATT ATGCCTATGG TGCCACTGGG CACCCAGGCA TCATCCCACC ACATGCCACT

2895 CTCGTCTTCG ATGTGGAGCT TCTAAAACTG GAATGACAGG AATGGCCTCC TCCCTTAGCT

2955 CCCTGTTCTT GGATCTGCCR TGGAGGGATC TGGTGCCTCC AGACATGTGC ACATGARTCC

3015 ATATGGAGCT TTTCCTGATG TTCCACTCCA CTTTGTATAG ACATCTGCCC TGACTGAATG

3075 TGTTCTGTCA CTCAGCTTTG CTTCCGACAC CTCTGTTTCC TCTTCCCCTT TCTCCTCGTA

3135 TGTGTGTTTA CCTAAACTAT ATGCCATAAA CCTCAAGTTA TTCA (2) SEQ ID NO: data of 2500:

(i) sequence characteristics:

(A) length: 693 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2500:

1 AACAAGAAAA GCGTTGGTAG CTCTGGTGAA TCCCAAAAGA ATGTGGCAGT TGCTAGCCAT

61 GCTCCTGAAT ATGTATAAAC AGTACATCAT ATGACTAAGA GTTTGACTTA GGGGTTAGAT

121 TTTATGTGTT TGAACCCCAA ATTAGTTATT TAATAGTTGG CACCCCAAAA CAAGTTACTT

181 AACCTCACTA AGGTTCAGTT TTCCTGTTTA TAAAATGTAG ATAGTGATAG TATGTACTTT

241 ATAGGATTAT TGTGAAAAAT AAATGAAATA TCAGATTTAT TTAGGATAAC ACCTGGCATA

301 TGTTTGGTAT TCAGAATTAG TTGCTGCTGT TTTATTCTGC TCTCCCTTGC ATCCCACTTT

361 TCTAAGTTGT AAACTAAATA GTTGTACACA GATTGACAGA TTAAGAAAGG CTTGTGATTG

421 TGCTAGACCT ATGCCTATGC CTCTGTCTCA CCAGATTCCA GGTGTATATG TGGAGGTGGG

481 ATAGGGAGTG GAGTAAGTGG GTAAATATTA AATTGCCCAG TTGGGCACCA TCCTGAATAT

541 TATCTCTAAA GAAAGAAGCA AAACCAGGCA CAGCTGATGG GTTAACCAGA TATGATACAG

601 AAAACATTTC CTTCTGCTTT TTGGTTTTAA GCCTATATTT GAAGCCTTAG ATCTCTCCAG

661 CACAGTAAGC ACCAGGAGTC CATGAAGAAG ATG (2) SEQ ID NO: data at 2501:

(i) sequence characteristics:

(A) length: 7659 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: sequence description of 2501: 1 GATCTTCATG TGGAATGACT GGTTTCATTC AATAGACTTA ATTCAGCAGT CTGTGGGGAA 61 GAGCAAGGTA TGATAGAATG GTTCCTCAAG TGCTTCAGAT GTGAAGTGGG TTTAAATATA 121 CTGTCCCTGT CTTCTTCAGA GTTTTGGTAA AGATAAAATA GGACACTCAT TTAAAAGCAA 181 721 TTTTATGTGT TTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACT 781 181 TCTTTGCAAA TGACAAGCCA CTATAGACAT TAATAGAGTT TTCATTTCCA GTATTATCAT 241 TAATATCAGA TCCTGGAAGA AGGTTGAGCC TTGACCTAGA GCAAAAAAAC AGAAGAATTA 301 GTAAAGGAAT CCTGGAGAAA GCCCCTGCTG TGTATTTAAA GGAGAAAGGG AGATCATGTT 361 GGGAAATTAT AATATTAAAA GTAAACAAAA GCTAGGAAGT AAAATAAAAT AAATTATATG 421 GCCTAGATCC CCATAAGTAA TGGTTTAACT TCTGCCTTCC TGTGTTCTGA GCCAGATTAG 481 GGCACAGTAG AGAAAGAGGA GTCTCTGAAA ATGTTTCCAA TTTCGCTGGT CAGACAGCGG 541 ATCATCAGTG AATCAGATGA AAATTTGTGG ATTTATGCAC TAACTGATCA GCAGGAAATT 601 AAACAAGAAA AGCGTTGGTA GCTCTGGTGA ATCCCAAAAG AATTTGGCAG TTGCTAGCCA 661 TGCTCCTGAA TATGTATAAA CAGTACATCA TATGACTAAG AGTTTGACTT AGGGGTTAGA 721 TTTTATGTGT TTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACT 781 TAACCTCACT AAGATTCAGT TTTCCTGTTT ATAAAATGTA GATAGTGATA GTATGTACTT 841 TATAGGATTA TTGTGAAAAA TAAATGAAAT ATCAGATTTA TTTAGGATAA CACCTGGCAT 901 ATGTTTGGTA TTCAGTAATT AGTTGCTGCT GTTTTATTCT GCTCTCCCTT GCATCCCACT 961 TTTCTAAGTT GTAAACTAAA TAGTTGTACA CAGATTGACA GATTAAGAAA GGCTTGTGAT1021 TGTGCTAGAC CTATGCCTCT CTCTCACCAG ATTCCAGGTG TATATGTGGA GGTGGGATAG1081 GGAGTGGAGT AAGTGGGTAA ATATTAAATT GCCCAGTTGG GCACCATCCT GAATATTATC1141 TCTAAAGAAA GAAGCAAAAC CAGGCACAGC TGATGGGTTA ACCAGATATG ATACAGAAAA1201 CATTTCCTTC TGCTTTTTGG TTTTAAGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACA1261 GTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT1321 GTGTAGCCTT ACTGTTCTTC GGTAAGTAGA GATTCAATTA CCCCTCCCAG GGAGGCCCAA1381 ATGAATTTGG GGAGCAGCTG GGGTAGGAAC CTTTACTGTG GGTGGTGACT TTTTCTAGGA1441 CATGTGCAAA CTATTGGGCA TTTCCCAGGG ACTCTGTAGT GGAGCCAAGC TAGAAAGCAG1501 AGGCAAGTGG GCTGAGCAAC ACCTAAGGAG GAAGCCAGAC TGAAAGCTTG GTTCCTTGCA1561 TTTGCTCTGG CATCTTCCAG AGTGCAAATT TCCTACCAAG GTAATGAGGG TAGAGGAGAG1621 AAAGAAGCTC TTTCTTCCCC TGATTCTCAT TCCTGAAAAG ACGGTTGGTC CTTAAAATTC1681 CATGGATGTA GATCTTATCC CCACACCCAG ATTCTAGTCC TCTGGAGATA AAGAAGACTG1741 CTGGACACTA ATGTATCCTC TCTGGACTTT TGCAGCTCCA GATGGCGTGT TAGCAGGTGA1801 GTCCTCTGTT CTTGTTCCCT TGGTGTATCA ACATGTCTGG GCATTGCTTT CCTCTCACTA1861 TTTTCTTCGT CCCATCACTT CTGCTTTCTA ATGAGCATGA ATCTGTTCCT TGGCCAGACT1921 ACTTTCCCTC TCCACCTTGC CTTGTCTTTC TTTTTTTCCC TGATTCATTG CATTCTCTCA1981 AGTCATTCTC TCCTCTGTTT TAGTCAATAA CCATGTCTGT TGCACATATA CATGTCTCAT2041 TCTCTCTCCT AGACACTTTG GCATGATCTC GCTCAATAAT TACATTATTA TTATTATTGC2101 CATTTTATAA TTGAGGATGC TGAAACTCAG TGATTTTCTG GTGGTTACAT GGCTAAGGAA2161 CTGGATTTCA ACGTAAGTTC CTTGGATCTA AGTCCAGTTC TCTTCTGACT ATATCACCCT2221 TTTGTTATCA CCATGTATCT ACTTCTTTGG TCTCTGTTCA AATTTGCACT ACATCCCCTT2281 GTTCCAGGAA GCCATTCAAG ACTGACTTTC TTAGTGCCTC TCACTACTTT CTGGAACTGA2341 CATATGTTTT TCACTCTGTA TATACTTACA ATTAAATAGT CATAAATATT CAGAGCTTGG2401 AGAAACCTTA TATTTCATCC AGTCCAGTAA ATTTATCCAT CCATAATTCA CTCATTCATT2461 CACATAATAA ATATTTAATG TAACAATGGT TGAACATGGC AGACAGTGTT TCTACCTCAA2521 AAGAGATTGC AGTCCTCATT TACAGATACT GAATTGAAAT TAACAGAAGT AGAGTGAGTC2581 AGCTCAAATC ACATAGTGAA TTGGTTTCTT TGTTTTTAAA TCTCCTGCAT ATGTGTCCTG2641 TCTTTCTCCC TGTGTTGGGC GTTCCCTGGG GCACCAATAC TAATTTCTCC TTCCCCTAGA2701 AATCAAAACA GGGTCTTATC ACCAACAGAA TAAGGACAGG TTGACCACTG ATTGTCAGAA2761 TATTGCTTCG TTTGTACTTT TAAGCCTAGA CAGTTTTCAA TGACTTTTTT TCTCTCTACA2821 TGTCTTTTCA TATTTTTATC TTCTTGAAGT CCCTCAGAAA CCTAAGGTCT CCTTGAACCC2881 TCCATGGAAT AGAATATTTA AAGGAGAGAA TGTGACTCTT ACATGTAATG GGAACAATTT2941 CTTTGAAGTC AGTTCCACCA AATGGTTCCA CAATGGCAGC CTTTCAGAAG AGACAAATTC3001 AAGTTTGAAT ATTGTGAATG CCAAATTTGA AGACAGTGGA GAATACAAAT GTCAGCACCA3061 ACAAGTTAAT GAGAGTGAAC CTGTGTACCT GGAAGTCTTC AGTGGTAAGT TCCAGGGATA3121 TGGAAATACA GATCTCTCAT GTGAGGGATG GCTCATCTGA AGATGGGAAA AAACAGGTTA3181 TTCCAAGGGT TAGGACACCA GAGTGGGATT CAAGGCCTCT CATTTTTAAG ACCCCTGCAT3241 TGGCTGGGCA CAGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCTG AGGCAGGTGG3301 ATCACGAGGT CAGGAGATCG AGACCATCCG GCTAACATGG TGAAACCCCA TCTCTGCTAA3361 AAAATATATA TATATAAAAT TAGCCGGGCG TAGTGGTGGG CACCTGTAGT CCCAGGTACT3421 CGGGAGGCTG AGGCAGGAGA ATGGTGTGAA CCCAGGAGGT GGAGGTTGCA GTGAGCTGAG3481 ATCACGCCAC TGCCCTCCAG CCTGGGCTAC AGAGCAAGAC TCCGTCTCAA AAAATAAATA3541 593601 TATGCCTTCT TTCAATATTC TAGTCATCTC TCAATATTAT TCCTCCACCC TATTTTCCTC3661 TATCTTTTCT GCCTAGATTC AGGTATATAT TATGTGGTCA AACAGCATGA CATATATGTG3721 AACATTTCAA AGAGCTGTGT ATCTGGAATA GGATCAAAAG GTTTGACTTA AAGTTTTGCT3781 CTGCATAATC CATATGGCAG GACCTGAATA TTAGGTTGTA CTCTTCGTTA TGAAACATAT3841 CTGGGTACAT TTCCTTATGT CCTCTGTTGT TACTTAAGAA CACATATTTC ATGCTTGTTT3901 CATTTTTATC ACTCCTACTG CCAACAAATA GCATAGCATG CTTAGGCACA TGTGGCTTAA 398661 TTAGCAAATG TTGAATAAAC AAATTAATGA TTTTGAATAG TGACCAATAG GTCTCTTTTA4021 TACTCTATAT TTTTCTCTTG AGTGAAAAAA AATGTTTCAA CCTCCATATG TAAATTCCAA ACACAAACTA AAGCAATGTA GAATAGCTTC TTTATTCCCT GGAGTAGGTT CTAGAGAAGT4141 CCTAAAGGAT TGGTCCTAAA TTAATTATGC TTATTATGCT AGCGATATTT CCTTTCAAAA4201 TTCTCCTTTA ATGAATGCTT TTTAATTTTT ACAAAAGCAT TAACCATAGA ATGTGATTCT4261 TGTCTTTCAC TGACTCATTA GTGACAAATA TTTGTTGAGT ACCTACCAAC TCCTAAGTAT4321 TGCTACCAAC TCCTAAATAC TGTGTTGGGC ATTCAGAATA GAATGTAGAA CTAGACAGGG4381 TCCCTGACTT CTTGGAGCAC AGAGCAGTAT GGGAAGAGGA CATTAAATAA AGAATTACAT4441 AAGTAATTAA TTTAAATTAT ACATGTTTTG AAGAAGTTTT TTTTTGACAA CTATAATTAA4501 CACTAGAACT GGGAAGTTTC TATAAGGTAA GAGAGGACAA AATAGACACT CTCCTAAGCT4561 AAAATTCCCA AGAAAGACTG TTTATTTTCC CCTAACTAAC TAGAACTAGC AACAGAAGAT4621 CTGAAAGGAA TTCTGGCTTT CAAGTGTTCC ATGTATGGAC TCATCAGGGA GGTCCGAGAG4681 GCTTTGTGGC CCCAGACTGA CTTTTCAGGA GGGGAAAGGA TTTATCAATA CACAAGACAG4741 GCTCTAAGCA TTATTTTGTG CCCTTTAAAA ATCCACTTTA TGAGCCAAAA AGTGAGTTAA4801 TGATAATTCA TAGTTTCTGA CACATGCTCT ATGCGTGGCT CTCTTTTCTC TATTCATTCT4861 CTCTCTCTTC ATTTATTGTT AAATAAATAA TGTAATGAAT GTTCTTCAGA CTGGCTGCTC4921 CTTCAGGCCT CTGCTGAGGT GGTGATGGAG GGCCAGCCCC TCTTCCTCAG GTGCCATGGT4981 TGGAGGAACT GGGATGTGTA CAAGGTGATC TATTATAAGG ATGGTGAAGC TCTCAAGTAC5041 TGGTATGAGA ACCACAACAT CTCCATTACA AATGCCACAG TTGAAGACAG TGGAACCTAC5101 TACTGTACGG GCAAAGTGTG GCAGCTGGAC TATGAGTCTG AGCCCCTCAA CATTACTGTA5161 51 5161 ATAAAAGGTG AGTTGGTAAA GGAAAGGAAA AGCATCCATA GCAGGGGAAG GAAGAGAGAA5221 CTTCTGAGCC TGAGCAGTTG CAGCTTGTAG AAGGGGGGCA CCTGTGATAC ACTGGAAAGC5281 829 5281 CTACCAGACT TGCAATGAGG AGACCTGGGT GATAGTATAT ATCTCAATCT CTGTTTCAAA5341 GCCTTGACTT GTTAAATGGT GATAGTAATA CCTGCTTGCA CTATGAAATT TTTATGAAGA5401 TTAATGTGGT AATATTTGTG AAATGACTTT GTAAACTGTT AAGCACTACC CAAGCATAAC5461 AGATTGTGAT TACTATTTTG ATCTCAAAGT CATCTGTTGC TCCTGGGGGA ACACTTATAT5521 TTATCAAATT GAAAAAAAGT TTCAAAGTTG AATGAAGAAA GGATATAAAG AGCTTGAGGA5581 GCCCATTCCA GCTTAGGAGG GCTGGGAAAG GAAACCAGCA AGTCAGTAAG CTGTGTGCCT5641 GTGTATTGAG GGAGGAGGGA ATGGACTTGA TATGGAGAGG GTAGGGAGGT GGACTGCCTC5701 TATGGCCTGT AAGAAAAACT GCTCTCTCCA AACTCTTTAT AAGAGAGGGA GCCTGTGAAG5761 TATTCACTTT TGAAGGAGAA AGTTAGACTT TTCCTTCACA CACTTTGTAC ATAATAATGT5821 TTAAAAAAGC ATGAGGTCAA AATACATAAT TAAGTCCTAG CAGTTCTCTG TTAACTAATT5881 TGAGACTGAA GTGCTATGTA CTTGTCTCTA GGCTTCCAGT ATCTTCATCT GTAAAACAGA5941 ATATTTGGTC TAGATTCCAT TAGAATCATT TGATAACTTA AAAAATATAT TGATGCTCAT6001 GTCTCATTTC TTGAGATTCT GATTTAATTG GTTTGGGGTG CAGCCTGGGT ATACGTATTT6061 TTCATAGGTC TTTCACATAA TGGTAATGGG TAGCCAATAT TGAGAATCAC TTGTCTAGGT6121 GATCTTTAAA TGATTTCTGG ATGTAATATT CTGAGGCTCT ATAATTTGAG ACTAATCACA6181 AAAATCGGTA CAGTTTATAA ACAGACTAAC AGAACCACAA AATAATAGAA TTGGAAGGCA6241 ATTTAACTAG TGCAATTTCT TCATTTTGCC TAACAGGCAT GTAAGAAATG ATGATTGATT6301 GAGTAATAGG CATTGATGAC CCCTGTCCTC ACTTTGTCCC CTTTCCACCC CTTAATTATA6361 TGTGAATTCT GGTCTTGTCA TTTCGAATAA GGGGTTTATC TTTCCTATTG TCTTCCCCTC6421 TGGGCACGGC ACACTGGCTA CTGGAGTTAA GAGGAAATGC TTAGGACTCC CTGTGGCTCC AGGGAGCACC AACAGAGCAA CTCAACCTAG TGTTAATCTG AGTGTTTTCT CTGTGCTTCT6541 GGATGCCACA TCACGCTAAA AATGAAGGAC AAAGCTTGGT CTTTCTCTTA GGGAGGATGA6601 AACTCTGAAC CTCATTTTTC AGTTCCCAAG ATGAATTATG TTTCTCATTG CATCTGTGTT 6661 CCACTACAGC TCCGCGTGAG AAGTACTGGC TACAATTTTT TATCCCATTG TTGGTGGTGA 6721 6866789 6951 TGAAGATTAA GAGAACCAGG AAAGGCTTCA GACTTCTGAA CCCACATCCT AAGCCAAACC 6841 826901 CAGCAATTGC TACTCAATTG TCAAACACAG CTTGCAATAT ACATAGAAAC GTCTGTGCTC 696 AAGGATTTAT AGAAATGCTT CATTAAACTG AGTGAAACTG GTTAAGTGGC ATGTAATAGT 7021 AAGTGCTCAA TTAACATTGG TTGAATAAAT GAGAGAATGA ATAGATTCAT TTATTAGCAT 7081 TTGTAAAAGA GATGTTCAAT TTCAATAAAA TAAATATAAA ACCATGTAAC AGAATGCTTC 7141 TGAGTATTCA AGGCTTGCTA GTTTGTTTGT TTGTTTTCTA CTAAAGGCAA GGACCATGAA 7201 GTTCTAGATT GGAAATGTCC TCTCTTGACT ATTGCAAGTG CGATCTAGGA ATGAAAAGAC 7261 ATAGGAGGAT GCCAGTGAGG TGGATCATTT TTATGCTTCT TCTTCAGCTT ACTAAATATG 7321 AACTTTCAGT TCTTGGCAGA ATCAGGGACA GTCTCAAGAC ATAGGACTCT CAGGATGAAG 7381 TAGAGTCCAG GATTCCTCTG TGATTGTTTT GCCCCTCCCA AATTTATATC TTGAACTTAT 7441 GTCTTGTATC TTTATACAGC ACCTGAACCA AGCATTTTGG AGAAATTCCA GCTAATAATA 7501 ATAACCAAAA CCTTCGGCTC TGAAAACAGT CCAGGACTGA ATAAGATCTT GGGCAAAAGA 7561 ACTAGACAGT TTTGGTTTAT TTTCCCTTTC ATTTTATGTC TTCATCATAG TCATTGGAGG 7621 CTCATTCTTC TTGTCATGGA GTAAATGGGA TTAAAGTTC (2) SEQ ID NO: data at 2502: (i) sequence characteristics:

(A) length: 1198 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2502:

1 TACTAAGAGT CTCCAGCATC CTCCACCTGT CTACCACCGA GCATGGGCCT ATATTTGAAG 61 CCTTAGATCT CTCCAGCACA GTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT 121 GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTC GCTCCAGATG GCGTGTTAGC 181 AGTCCCTCAG AAACCTAAGG TCTCCTTGAA CCCTCCATGG AATAGAATAT TTAAAGGAGA 241 GAATGTGACT CTTACATGTA ATGGGAACAA TTTCTTTGAA GTCAGTTCCA CCAAATGGTT 301 CCACAATGGC AGCCTTTCAG AAGAGACAAA TTCAAGTTTG AATATTGTGA ATGCCAAATT 361 TGAAGACAGT GGAGAATACA AATGTCAGCA CCAACAAGTT AATGAGAGTG AACCTGTGTA 421 CCTGGAAGTC TTCAGTGACT GGCTGCTCCT TCAGGCCTCT GCTGAGGTGG TGATGGAGGG 481 CCAGCCCCTC TTCCTCAGGT GCCATGGTTG GAGGAACTGG GATGTGTACA AGGTGATCTA 541 TTATAAGGAT GGTGAAGCTC TCAAGTACTG GTATGAGAAC CACAACATCT CCATTACAAA 601 TGCCACAGTT GAAGACAGTG GAACCTACTA CTGTACGGGC AAAGTGTGGC AGCTGGACTA 661 TGAGTCTGAG CCCCTCAACA TTACTGTAAT AAAAGCTCCG CGTGAGAAGT ACTGGCTACA 721 ATTTTTTATC CCATTGTTGG TGGTGATTCT GTTTGCTGTG GACACAGGAT TATTTATCTC 781 AACTCAGCAG CAGGTCACAT TTCTCTTGAA GATTAAGAGA ACCAGGAAAG GCTTCAGACT 841 TCTGAACCCA CATCCTAAGC CAAACCCCAA AAACAACTGA TATAATTACT CAAGAAATAT 901 TTGCAACATT AGTTTTTTTC CAGCATCAGC AATTGCTACT CAATTGTCAA ACACAGCTTG 961 CAATATACAT AGAAACGTCT GTGCTCAAGG ATTTATAGAA ATGCTTCATT AAACTGAGTG1021 AAACTGGTTA AGTGGCATGT AATAGTAAGT GCTCAATTAA CATTGGTTGA ATAAATGAGA1081 GAATGAATAG ATTCATTTAT TAGCATTTGT AAAAGAGATG TTCAATTTCA ATAAAATAAA1141 TATAAAACCA TGTAACAGAA TGCTTCTGAG TAAAAAAAAA AAAAAAAAAA AAAAAAAA (2) SEQ ID NO: data of 2503: (i) sequence characteristics:

(A) length: 894 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID No: 2503 sequence description:

1 TCTCAATATA ATAATATTCT TTATTCCTGG ACAGCTCGGT TAATGAAAAA ATGGACACAG 61 AAAGTAATAG GAGAGCAAAT CTTGCTCTCC CACAGGAGCC TTCCAGTGTG CCTGCATTTG 121 AAGTCTTGGA AATATCTCCC CAGGAAGTAT CTTCAGGCAG ACTATTGAAG TCGGCCTCAT 181 CCCCACCACT GCATACATGG CTGACAGTTT TGAAAAAAGA GCAGGAGTTC CTGGGGGTAA 241 CACAAATTCT GACTGCTATG ATATGCCTTT GTTTTGGAAC AGTTGTCTGC TCTGTACTTG 301 ATATTTCACA CATTGAGGGA GACATTTTTT CATCATTTAA AGCAGGTTAT CCATTCTGGG 361 GAGCCATATT TTTTTCTATT TCTGGAATGT TGTCAATTAT ATCTGAAAGG AGAAATGCAA 421 CATATCTGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGG 481 GAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT 541 GCCAGAAATT TTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGAA ATTGTAGTGA 601 TGATGCTGTT TCTCACCATT CTGGGACTTG GTAGTGCTGT GTCACTCACA ATCTGTGGAG 661 CTGGGGAAGA ACTCAAAGGA AACAAGGTTC CAGAGGATCG TGTTTATGAA GAATTAAACA 721 TATATTCAGC TACTTACAGT GAGTTGGAAG ACCCAGGGGA AATGTCTCCT CCCATTGATT 781 TATAAGAATC ACGTGTCCAG AACACTCTGA TTCACAGCCA AGGATCCAGA AGGCCAAGGT 841 CTTGTTAAGG GGCTACTGGA AAAATTTCTA TTCTCTCCAC AGCCTGCTGG TTTT (2) SEQ ID NO: data at 2504: (i) sequence characteristics:

(A) length: 11298 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: sequence description of 2504:

1 AAGCTTTTCA AAGGTGCAAT TGGATAACTT CTGCCATGAG AAATGGCTGA ATTGGGACAC 61 AAGTGGGGAC AATTCCAGAA GAAGGGCACA TCTCTTTCTT TTCTGCAGTT CTTTCTCACC 121 TTCTCAACTC CTACTAAAAT GTCTCATTTT CAGGTTCTGT AAATCCTGCT AGTCTCAGGC 181 721 AAATAGATTT TCTCACATTA GAAGCTCATT TTCTGGGTAT GAGACAGGAG AGTTCATACT 781 181 AAAATTATGC TCCAGGAGTC TCAAATTTTC TTATTTCATA TTAGTCTTTA TTTAGTAGAC 241 TTCTCAATTT TTCTATTCAT CACAAGTAAA AGCCTGTTGA TCTTAATCAG CCAAGAAACT 301 TATCTGTCTG GCAAATGACT TATGTATAAA GAGAATCATC AATGTCATGA GGTAACCCAT 361 TTCAACTGCC TATTCAGAGC ATGCAGTAAG AGGAAATCCA CCAAGTCTCA ATATAATAAT 421 ATTCTTTATT CCTGGACAGC TCGGTTAATG AAAAAATGGA CACAGAAAGT AATAGGAGAG 481 CAAATCTTGC TCTCCCACAG GAGCCTTCCA GGTAGGTACA AGGTATTATT TTTTTCTACC 541 CTCAGTCACT TGTGGCAGGG GAAGTCATAG TCACGGTGCT TAGGAGATGA AACTTTATTG 601 ATTTAGGCAT GGATCCATCT AGTTTAATTA ATATATTGGG TATGAGGAAG CTACTTGCTG 661 TACTTTCCAT GTGGTTCTCT CTCCCTGGAG AGGAACATTT TTACTCAGCT TGCAAACTGG 721 AAATAGATTT TCTCACATTA GAAGCTCATT TTCTGGGTAT GAGACAGGAG AGTTCATACT 781 GTGTATGTAG ATCTCTGGCT TCTGGGTCTG ACATGTGCTG AGGGACACAT ATCCTTCACA 841 CATGCTTTTA TAAATACTTG ATAAAGTAAC CTGCTTCTTG ATTGGTCTTT ATAATCCATA 901 AGCTGTGGGA TGCTTCTCTG AAGATGAAAA TAGTAATAGA GTCCCATCTA GCTATTCAAA 961 GCCATTCCTT CATTGTATTC TGTGCACATG AAGTTGGGGT TTGTTACTGA CAAAATATAT1021 TCAGATACAT TTCTATGTTA AAAGGATTGT GAGATGCATA GGTAAATGTG TTTATTTTCA1081 GTTTTACTTG TCAACATAGA TGAATGAGAA AGAACTTGAA AGTAACACTG GATTAAGAAT1141 AGGAAAATTT GGCATGGATT TTGCTCCATT TTGTCCCATC TAATCACTTG GATAGTGTTC1201 AGGTGTTCTT GGTCAGTTAC TTGGATGCTC TGAGCTTTAG TTTCTTGGTG ATTACAATGA1261 AGATTTGAAT TACAGGATGG CTTTGAAAAA ATAAACAAAA CTCCCCTTTC TGTCTGTCGA1321 GAATGTTGCA CAGGGAGTTA CAGAATGTTC TCATGACTGA ATTGCTTTTA AATTTCACAG1381 TGTGCCTGCA TTTGAAGTCT TGGAAATATC TCCCCAGGAA GTATCTTCAG GCAGACTATT1441 GAAGTCGGCC TCATCCCCAC CACTGCATAC ATGGCTGACA GTTTTGAAAA AAGAGCAGGA1501 GTTCCTGGGG GTGAGTGAGC CTCCTCCAAC TTTGACTAGA GTAAGGGTTG GGTCTAGAAA1561 AGAATATTGA GTTGCATCAA CTGTTTTCCC ACTTGGATTC ATGAGAGGTG TTAGGTCCTT1621 TAAAAAACAT GGTAGATAAA GAGTTGACAC TAACTGGGTC CTTTTGGGAA GAGCCAGAAG1681 CATTTCCTCA TAAAGACTTT AAATTGCTAG GACGAGAATG GCCAACAGGA GTGAAGGATT1741 CATAACTTTA TCTTTACTTA GATGTAAAGA ACAATTACTG ATGTTCAACA TGACTACATA1801 CATAAAGGCG CATGGAGAAA AGTATTGGCC TTCCATGCAT TAGGTAGTGC TTGTATCAAT1861 TCTTATAGTG GCTAGGGTAT CCTGGAAAAT CTTACGTGTG GATCATTTCT CAGGACAGTC1921 TAGGACACTA ACGCAGTTTC TCATGTTTGG CTTCTATTAT TAAAAAATGA TACAATCTCG1981 GGAAAATTTT TTTGATTTTC ATGAAATTCA TGTGTTTTTC TATAGGTAAC ACAAATTCTG2041 ACTGCTATGA TATGCCTTTG TTTTGGAACA GTTGTCTGCT CTGTACTTGA TATTTCACAC2101 ATTGAGGGAG ACATTTTTTC ATCATTTAAA GCAGGTTATC CATTCTGGGG AGCCATATTT2161 GTGAGTATAT ATCTATAATT GTTTCTGAAA TAACACTGAA CATAGGTTTT TCTCTTTCTC2221 AGATCTAACC AGTTGTTTAT TCCCAGTATT AAGATGATAT TTATAATTCT TAATTATAAA2281 TATATGTGAG CATATATAAC ATAGATATGC TCATTAACAA CAACAAAAGA TTCTTTTTAC2341 AATTAACGGT GGGTTAAACA TTTAGCCCAC AGTTTTATCC CATGAGAAAC CTGAATCTAA2401 TACAAGTTAA ATGACTTGCC TAAGGGCCAC TTGACTAATA GTAATTGAAC CTAAACTTTC2461 AGAATCCAAC TCCAGGAACA TACTTCTAGC ACTATTCATC AATAAAGTTA TATGATAAAT2521 ACATACAACT TTATCTGTCA ACTAAAAATA ACAACAGAGG CTGGGCATGG TGGCTCACAC2581 CCGTAATCCC AGCACTTTGG GAGGCTGAGG CAGGTGGATC ACCTGAGGTC AGGAGTTTGA2641 GACCAGCCTG ACCAACATGG TGAAACCTCA TCTCTACTAA ATATAAAAAA TTAGCTGAGT2701 2729 2761 CCTGGAAGGC AGAGGTTGCA GTGAGCTGAG ATTGTGCCAT TGCACTCCAG CCTGGGCAAT2821 AAGTGCGAAC TCTGTCTCAA AATAATAATA ATAATAATAG AAAATAAAGT TGTCTTCATG2881 AAAAATGAGG AAAGAGATTG CTGGGGTGAG AAACATTAAG ATCAATGGGC ATATGGTGAC2941 CTTCTATGCC CTAGAAACTC TTTTANGGTA TTTTCTCCTG GTATCTCTTT TACNCATCGT3001 TCTATCTGGA AAAATAGGTG GATGAGTGAG ATAATAACGG TATATACTTT TTAAAGGTCT3061 AATTGACATA TATAAATTGC AAGTATTTCA GATGTCAATT TGCTAACCTT GACACACATA3121 GACACACATG AAAACATCAC CACATTAATA CAATGTATGT ATCCATCATT CCAAAAGCTT3181 CCCTGTGTAT CTTTGTAACT CTTTCTTCCT CCCTCCACTC CTTGTCCTCT CGTTCCCAAG3241 AAAACATTGA TCTGCTTCCT GTGAATATAA ATTAACTTAC ATTTTTTAGA GCTTTATATA3301 AGTATGTTCT CTTTACTGTT TGTCTTCCTT CGCTGCACAG TTATTTTGAG ATTCTTCAAG 6361 TTTTTTCTTT ATATCGATAC TTCATTCACA AGAATATATT TTAATTCTAG ACTATGTCAC3421 ATTGACTTTG TCGTCTGCTA AATCCTTAGT GCTCAGATGA CTTGTTCAGG ACTCTCCTTG3481 AACCTGTACC TCTGTTANAT TGAAACTTGT CTCTACTGTC TTTTTATTTC AAACACAGCT3541 TATTAGGTGT CTCTCAACCC ATCAAACNCA CAATCTGAGT CTTTAGGAGA TTGCTTTGAA3601 TTTGTGCTAT TGACTTATAT NTATATNAAA TNTGTAAATG TTTGGTAAAA ATATCATCAT3661 GTACNTTTTC ATAATTACGC TATNTNCACA TGATATATGT CAGACTCTGG AAATATGCAT3721 GCCACAGACA CGTGTTTCTT GCCTAAAGGG GCTGATGGAA GACNCACATA CNAATAGACG3781 3858 3841 TACTACNCCA AGAGTACCCC CTGCATTGTC AGGGTTAGCA TCTCCTGGAA GCCTCATGTA3901 AATGAAGAAT TTCATGCTCC ATCCAGGACC TAATGAATAA GAATCTGCAT TTTAGCAAGA3961 CCCTCATATG ATTCATATAC ACTTTTTTTT TTTTTTTTTA GATGGAGTCT CACTCTTGTC4021 GCCCAGGCTG GAGTGCAATG GCATGATCTT GGCTCACTGC AACCTCTGCC TCCCGGGTTC4081 AAGTGATTCT CCTGTCTCAG CCTCCCTAGT AGCTGGGACT ACAGGTGCAT GCCACAGTGG4141 CTGGCTAATT TTTGTATTTT TAGTAGAGAC AGGGTTTCAC CATTTTGGTC AGGCTGGTCT4201 TGAACTCATG ACCTCCGGTG ATTCCCCCGC CTCGGCTTCC CAAAGTGCTG GGATTACAGA4261 CATGAGCCAC CACACCCGCC TTATTCGTAT ACNCATTTAA TTCTGAGAAG CACTCTATAG4321 AAAATAAGAA TAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAAC TTTATCGAGT4381 ACCCCAAATT TTACCTATGT TTGGAAGATG GGGTTAAAAG GACACATTGA AAACAAGAAC4441 TCATTGTGGC TTTTTTTTCC TCCTTTTTGA ACAGTTTTCT ATTTCTGGAA TGTTGTCAAT4501 TATATCTGAA AGGAGAAATG CAACATATCT GGTGAGTTGC CCGTTTCTGT CTTTGTCCAT4561 CCTTGAAAAG ATAAGAAGAA CAGAGTTTTA AGAGTCTTAA GGGAAACACA TCTTTGTCTC4621 CTATATTACT TGTGAATGTG GATATATGAT TTTGTTTCAA TCTATTTTGT GTCCTAAGGC4681 TTTTTGCAAC AGAAGTTGGA TATATCATTA GAAACATAAA TTGTACCATT TAACATACAT4741 GAAGTTTATG TTTACCTTGA CGTTCTTCTA AAAAGTGTCC TACACCGGCA TTGTCCTTGT48 AGGCATATTC ACATGATCAA ATAAAATAAT TAGTTTTCAA TTAAGGAGAA TATTTGAGGA4861 AAGACC6TAC GTGTTCATGT GGTTCCTGAA GGCAGTCCAG TGAGAAAGTA ATATATGCTT4921 CATTAAACAA TGCGGACATT TTCAGGGTTT CCCTTTTTAA CCAAAATTTG GAAGCAATGT4981 GGAATTTACT GGATGCATCC AGCCCTGAAA TGAAGATAGG TTTATTGAAT GTGCCAGCAA5041 GTGCAGGCCC AGGTCTGAGT GTTCTTCATT ATTATCAGGT GAGAGGAAGC CTGGGAGCAA5101 ACACTGCCAG CAGCATAGCT GGGGGAACGG GAATTACCAT CCTGATCATC AACCTGAAGA5161 8621 52 TGGCTTCCTT TTCCACTGTA TGTATTTTTT TTTGTGTGGG AAGACTAAGA TTCTGGGTCC5281 TAATGTAAGT AAGAAGCCCT CTTCTCCTGT TCCATGAACA CCATCCTTTT CTGTAACTTC5341 TATTACACAG TATAGTGGTT CTGTAAGTTC ACACAGCCCA GGGAGATGCT GGCTGCCCAC5401 TCCCCTCAAC CCAGGCAAAT TCCTCGGGGT TAAAGTTATC TACTGCAAGT GACGATCTCT5461 GGGTTTTTCT GTGCCTGTGT TTGTGTGTGT GTGTGTGTGT GTGTGTGTGT GTATGTGTCA5521 CTTTAAAAGG ACTGGTCAGA TGGTAGGGAG ATGAAAACAG GAGATGCTAT AAGAAAATAA5581 ACTTTTGGGG CGAATACCAA TGTGACTCTT TTTGTTTGTC ATTTGTTGCT GTTCAATAGG5641 AAATTGTAGT GATGATGCTG TTTCTCACCA TTCTGGGACT TGGTAGTGCT GTGTCACTCA5701 CAATCTGTGG AGCTGGGGAA GAACTCAAAG GAAACAAGGT AGATAGAAGC CCGATATAAA5761 ATCTTGAATG ACAGGTTAAC GAATTGGAGC TTTATTCCTT AAAATATGGC CTGGGTTTTC5821 TGAAACATTT CTTCCAGAAA ATAGTTTCTC CAAGTTTTAT TACTTTGGTT TACAAATCTC5881 ACATTTAAAT CACATTTTAT ACCATAAGTA GCACACATTT CATAATATTC CTCTGAATGA5941 GGGTTGGGAT AATAGGACTG ATATGTTAGA AATGCCTTAA AGTGTGTGGA GCATGAGAGA6001 TGGATGTACA GAAGGCTTGT GAGGAAACCA CCCAGGTATC TGGCCTTGTT TTCTGCCCCA6061 GAACTAGCCG CCTATTCCTG TTTCTGTTTT ATTCCTTTGT TTCTTGACTT TTCCTTTCCA6121 ACTTGCTCTA AAACCTCAGT TTTCTTTCCT TTCTGATTCA TGACTACCAA ATGTTTTCAC6181 TTGCCTCACC CGTCCATTAC ACCTTTGATA AGAACCACCA GACCTTGTGC TCATGTACTT6241 GCCCATGTCT GATGGAAGAA ACATACTCTC TCCATCTGTC CACTTTCCTG AGGCATTCAA6301 GTCTAGCCAC CTTTTAAAAT CACTCTCCTC CAGGCTGGGC ACGGTGTCAC GCCTGTAATC6361 TCAGCACTTT GTGAGGCTGA GGAGGGCGGA TCACTTGAAG TCAGGAGTTC AAAACCAGCC6421 TGGCCAAATG GCAAAACCAA ATCTTCTTCA ATTATAACCA AATCTTAAAC CAAATCTCTA6481 CTAAAAAATA CAACAAAACA AAACAACAAC AACAAAAACA GAAAAGGAAA CATTAGCCCA6541 GCGTGGTGGC AGGTACCTGA GGTTCCAGAT ACTTGGGAGG CTGAAGCAGG AGAATCGCTT6601 66 6601 GAGCCCAAGA GATGGAGGTT GCAGTGAGCC GAGATCATGC CACTGCACCA CAGCCAGGGT6661 GACAGAGCCA TACTTCCCAG CACATTGGGA GGCCAAAGCT GAAGAATAAT TTGAGGTGAG6721 6725 6721 GATTTGGAGA CCAGCCTGGC CAACATGGTG AAACTCCGTC TGTACTAAAA ATATAAAACT6781 TAGTGGGGCA TGGGGGCACA CACCTGTAAT TTCAGCTACT TAGGAGGCTG AGGCAGGAGA6841 ATTGCTTGAA CCCGGGAGGC GGAAGTTGCA GTGAGCCAAG ATCGTGGCCA CTGCACTCCA6901 GCCTGGGTGA CATAGTGAGA TTCTGTCTCA AAAAAAATAA AAGAAATTTA AAAAATCACT6961 CTCTTCCAAA GATAGATAAA TAAGACAGCA GATATACTAA GGAATAACCT CACCAACTTG7021 7029 7081 GAAATGAAAG AAATAATCAG AGTTTAATGA CAGAGAGCGT GAGACCCAGA AAGACAAAAG7141 TAGATGAGGT AAGTCTCTTG AGCGAGACTT CTAGGGATGG GAAATTTGTG GTGATTGATA7201 TGAAATGATT TTTCCCTTAT CAGGTTCCAG AGGATCGTGT TTATGAAGAA TTAAACATAT7261 ATTCAGCTAC TTACAGTGAG TTGGAAGACC CAGGGGAAAT GTCTCCTCCC ATTGATTTAT7321 AAGAATCACG TGTCCAGAAC ACTCTGATTC ACAGCCAAGG ATCCAGAAGG CCAAGGTTTT7381 GTTAAGGGGC TACTGGAAAA ATTTCTATTC TCTCCACAGC CTGCTGGTTT TACATTAGAT7441 TTATTCGCCT GATAAGAATA TTTTGTTTCT GCTGCTTCTG TCCACCTTAA TATGCTCCTT7501 CTATTTGTAG ATATGATAGA CTCCTATTTT TCTTGTTTTA TATTATGACC ACACACATCT7561 CTGCTGGAAA GTCAACATGT AGTAAGCAAG ATTTAACTGT TTGATTATAA CTGTGCAAAT7621 ACAGAAAAAA AGAAGGCTGG CTGAAAGTTG AGTTAAACTT TGACAGTTTG ATAATATTTG GTTCTTAGGG TTTTTTTTTT TTTTAGCATT CTTAATAGTT ACAGTTGGGC ATGATTTGTA7741 789 7801 ATAACTTCCT ATGCAAATAT TTTACCACCA GTCAATAATA CATTTTTGCC AAGACATGAA7861 GTTTTATAAA GATCTGTATA ATTGCCTGAA TCACCAGCAC ATTCACTGAC ATGATATTAT7921 TTGCAGATTG ACAAGTAGGA AGTGGGGAAC TTTTATTAAG TTACTCGTTG TCTGGGGAGG7981 TAAATAGGTT AAAAACAGGG AAATTATAAG TGCAGAGATT AACATTTCAC AAATGTTTAG8041 TGAAACATTT GTGAAAAAAG AAGACTAAAT TAAGACCTGA GCTGAAATAA AGTGACGTGG8101 AAATGGAAAT AATGGTTATA TCTAAAACAT GTAGAAAAAG AGTAACTGGT AGATTTTGTT AACAAATTAA AGAATAAAGT TAGACAAGCA ACTGGTTGAC TAATACATTA AGCGTTTGAG8221 TCTAAGATGA AAGGAGAACA CTGGTTATGT TGATAGAATG ATAAAAAGGG TCGGGCGCGG8281 AGGCTCACGC CTGTAATCCC AGCCCTTTGG GAGGCCGAGG TGGGCAGATC ACGAAGTCAG8341 TAGTTTGAGA CCAGCCTGGC CAACATAGTG AAACCCCGTC TCTACTAAAA ATACAAAAAA8401 AAAATTAGCT GGGTGTGGTG GCAGTCACCT GTAGTCCCAG CTACTTGGGA GGATGAGGCA8461 GGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCAGTGCAC8521 TCCAGCCTTG GTGACAATGG GAGACTCCAT CTCAAAAAAA AAAAAAAAAA AAAAAAGATA85 AAAAGTCAGA AATCTGAAAA GTGGAGGAAG AGTACAAATA GACCTAAATT AAGTCTCATT8641 TTTTGGCTTT GATTTTGGGG AGACAAAGGG AAATGCAGCC ATAGAGGGCC TGATGACATC8701 CAATACATGA GTTCTGGTAA AGATAAAATT TGATACACGG TTTGGTGTCA TTATAAGAGA8761 AATCATTATT AAATGAAGCA AGTTAACACT CTAAGAGAAT TATTTTGAGA TAGAAGTGAA8821 GCTAAGCTAA ACTTCACATG CCTATAATTG GAGGGAAAAA CTAAGGATAA AATCTAGCCT8881 AGAAGATACA ATAATTAGTC ATAAACATGC ATTGTGAAAC TGTAGAGAGC AGGTAGCCCA 4641 90048 5731 TTGGGCAAGA GAAAAGTCCA CAGTGATAAG CAACTCCACC TAAGGCATGA ATATGCGGCA9061 GAGAAAACAG CAATAGTGAA TGAATGCAAA AGGTGCTGAG CAAATTCCAC ACATGAGTAT91 TGTGCATGAG TAAATGAATA AAACATTTGC AAAGACCTTT AGAGAAAGAG AATGGGAGCA9181 TATGTGCGAA ATAAGATAGT TGATTATGAA TAGAAGGTAG TGAAGAAAAG CAAGCTAAGA9241 9301 TCCTACAGAT GGACTGAAAA AAATCAGTCT GAGAGTATTA GTCACAATTA ATGAAATAAT 9361 TACATTTTAT GTATTGAGGA TGCCAAGATT AAAAGGTGAC AGGTAGATGT TAATTTCCCT 9421 942 9481 829541 CCAAATTTGA CAGCAGAATA AAAACCCTAC CCTTTCACTG TGTATCATGC TAAGCTGCAT 9601 869661 TACAGACTCT TAACCCTGGT TTACCAGGAC CTCTAGGAGT GGATCCAATC TATATCTTTA 9721 CAGTTGTATA GTATATGATA TCTCTTTTAT TTCACTCAAT TTATATTTTC ATCATTGACT 9781 ACATATTTCT TATACACAAC ACACAATTTA TGAATTTTTT CTCAAGATCA TTCTGAGAGT 9841 TGCCCCACCC TACCTGCCTT TTATAGTACG CCCACCTCAG GCAGACACAG AGCACAATGC 9901 99 TGGGGTTCTC TTCACACTAT CACTGCCCCA AATTGTCTTT CTAAATTTCA ACTTCAATGT 9961 CATCTTCTCC ATGAAGACCA CTGAATGAAC ACCTTTTCAT CCAGCCTTAA TTTCTTGCTC10021 CATAACTACT CTATCCCACG ATGCAGTATT GTATCATTAA TTATTAGTGT GCTTGTGACC10081 TCCTTATGTA TTCTCAATTA CCTGTATTTG TGCAATAAAT TGGAATAATG TAACTTGATT10141 TCTTATCTGT GTTTGTGTTG GCATGCAAGA TTTAGGTACT TATCAAGATA ATGGGGAATT10201 AAGGCATCAA TAAAATGATG CCAAAGACCA AGAGCAGTTT CTGAAGTCCT CCTTTTCATC10261 AGCTCTTTAT CAAACAGAAC ACTCTATAAA CAACCCATAG CCAGAAAACA GGATGTAGGA10321 ACAATCACCA GCACACTCTA TAAACAACCC ATAGCCAGAA AACAGAATGT AAGGACAATC10381 ACCAGCCATC TTTTGTCAAT AATTGATGGA ATAGAGTTGA AAGGAACTGG AGCATGAGTC10441 ATATTTGACC AGTCAGTCCT CACTCTTATT TACTTGCTAT GTAAACTTGA GAAAGCTTTT10501 TTCTCTTTGT GAACCTCAGG TTTTACATCT GAAAATGAGA AATTTGGAAC AAAAGATTCC10561 TAACTGGTCT TTCTGTTCCC ATATTCTGTG ATTTTTCAAT ATTTAGGATT TTTGGTAATC10621 ACAATTACTT AGTTTGTGGT TGAGATAGCA ACACGAATCA GAACTATTTG GTGGACATAT10681 10741 CCTGTAATCC CAGCACTTTA GGGAGGCCAA GGCGGGTGGA TCACGAGGTC AGGAGATCGA10801 GACCATCCTG GCTAACACGG TGAAACCCCG TCTCTACTAA AAAATACAAA AAATTAGCCA10861 GGCGTGGTGG CGGGCGCCTG TAGTCCCACG TACTCGGGAG GCTGAGGCAG GAGAATGGCA10921 TGAACCAGGG AGGCGGAGCT TGCCGTGAGC CGAGATAGCG CCACTGCAGT CCCTCCTGGG10981 CAAAAGAGCA AGACTGCGTC TCAAAAAAAA AAAAAAAAAA AAAAAAAGAA GTGTGTGGAG11041 TAGCAGGACA CCTGCAACAA TAATATTTTT CTAAATCCCT CTGAAAAATG CTAATCAAAG11101 GGTTTTTTTC CTAAAAATTG TCTTAGAAAT AAAATTTCCC CTTTGGGAGA CCGAGGCTGG11161 CAGATCACGA GGTCAGGAGA TAGAGACCAC GGTGAAACCC CGTCTCTACT AAAAATACTA11221 AAAATTAGCC GGGGNGTGGT GGTGGGTACA CCTGTAGTCC CAGCTACTTG GAGGCTGAGG11281 CTGGAGAATC ACGTGAAC (2) SEQ ID NO: data at 2505: (i) sequence characteristics:

(A) length: 21802 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: sequence description of 2505:

1 AACAAGAAAA GCGTTGGTAG CTCTGGTGAA TCCCAAAAGA ATGTGGCAGT TGCTAGCCAT 61 GCTCCTGAAT ATGTATAAAC AGTACATCAT ATGACTAAGA GTTTGACTTA GGGGTTAGAT TTTATGTGTT TGAACCCCAA ATTAGTTATT TAATAGTTGG CACCCCAAAA CAAGTTACTT 181 AACCTCACTA AGGTTCAGTT TTCCTGTTTA TAAAATGTAG ATAGTGATAG TATGTACTTT 241 ATAGGATTAT TGTGAAAAAT AAATGAAATA TCAGATTTAT TTAGGATAAC ACCTGGCATA 301 TGTTTGGTAT TCAGAATTAG TTGCTGCTGT TTTATTCTGC TCTCCCTTGC ATCCCACTTT 361 TCTAAGTTGT AAACTAAATA GTTGTACACA GATTGACAGA TTAAGAAAGG CTTGTGATTG 421 TGCTAGACCT ATGCCTATGC CTCTGTCTCA CCAGATTCCA GGTGTATATG TGGAGGTGGG 481 ATAGGGAGTG GAGTAAGTGG GTAAATATTA AATTGCCCAG TTGGGCACCA TCCTGAATAT 541 TATCTCTAAA GAAAGAAGCA AAACCAGGCA CAGCTGATGG GTTAACCAGA TATGATACAG 601 AAAACATTTC CTTCTGCTTT TTGGTTTTAA GCCTATATTT GAAGCCTTAG ATCTCTCCAG 661 CACAGTAAGC ACCAGGAGTC CATGAAGAAG ATG 694 GATCTTCATG TGGAATGACT GGTTTCATTC AATAGACTTA ATTCAGCAGT CTGTGGGGAA 754 GAGCAAGGTA TGATAGAATG GTTCCTCAAG TGCTTCAGAT GTGAAGTGGG TTTAAATATA 814 CTGTCCCTGT CTTCTTCAGA GTTTTGGTAA AGATAAAATA GGACACTCAT TTAAAAGCAA 874 TCTTTGCAAA TGACAAGCCA CTATAGACAT TAATAGAGTT TTCATTTCCA GTATTATCAT 934 46994 GTAAAGGAAT CCTGGAGAAA GCCCCTGCTG TGTATTTAAA GGAGAAAGGG AGATCATGTT1054 GGGAAATTAT AATATTAAAA GTAAACAAAA GCTAGGAAGT AAAATAAAAT AAATTATATG1114 GCCTAGATCC CCATAAGTAA TGGTTTAACT TCTGCCTTCC TGTGTTCTGA GCCAGATTAG1174 GGCACAGTAG AGAAAGAGGA GTCTCTGAAA ATGTTTCCAA TTTCGCTGGT CAGACAGCGG ATCATCAGTG AATCAGATGA AAATTTGTGG ATTTATGCAC TAACTGATCA GCAGGAAATT1294 AAACAAGAAA AGCGTTGGTA GCTCTGGTGA ATCCCAAAAG AATTTGGCAG TTGCTAGCCA1354 TGCTCCTGAA TATGTATAAA CAGTACATCA TATGACTAAG AGTTTGACTT AGGGGTTAGA1414 TTTTATGTGT TTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACT1474 TAACCTCACT AAGATTCAGT TTTCCTGTTT ATAAAATGTA GATAGTGATA GTATGTACTT1534 TATAGGATTA TTGTGAAAAA TAAATGAAAT ATCAGATTTA TTTAGGATAA CACCTGGCAT1594 ATGTTTGGTA TTCAGTAATT AGTTGCTGCT GTTTTATTCT GCTCTCCCTT GCATCCCACT1654 TTTCTAAGTT GTAAACTAAA TAGTTGTACA CAGATTGACA GATTAAGAAA GGCTTGTGAT1714 TGTGCTAGAC CTATGCCTCT CTCTCACCAG ATTCCAGGTG TATATGTGGA GGTGGGATAG1774 GGAGTGGAGT AAGTGGGTAA ATATTAAATT GCCCAGTTGG GCACCATCCT GAATATTATC1834 TCTAAAGAAA GAAGCAAAAC CAGGCACAGC TGATGGGTTA ACCAGATATG ATACAGAAAA1894 CATTTCCTTC TGCTTTTTGG TTTTAAGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACA1954 GTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT2014 GTGTAGCCTT ACTGTTCTTC GGTAAGTAGA GATTCAATTA CCCCTCCCAG GGAGGCCCAA2074 ATGAATTTGG GGAGCAGCTG GGGTAGGAAC CTTTACTGTG GGTGGTGACT TTTTCTAGGA2134 CATGTGCAAA CTATTGGGCA TTTCCCAGGG ACTCTGTAGT GGAGCCAAGC TAGAAAGCAG2194 AGGCAAGTGG GCTGAGCAAC ACCTAAGGAG GAAGCCAGAC TGAAAGCTTG GTTCCTTGCA2254 2314 AAAGAAGCTC TTTCTTCCCC TGATTCTCAT TCCTGAAAAG ACGGTTGGTC CTTAAAATTC2374 CATGGATGTA GATCTTATCC CCACACCCAG ATTCTAGTCC TCTGGAGATA AAGAAGACTG2434 CTGGACACTA ATGTATCCTC TCTGGACTTT TGCAGCTCCA GATGGCGTGT TAGCAGGTGA2494 GTCCTCTGTT CTTGTTCCCT TGGTGTATCA ACATGTCTGG GCATTGCTTT CCTCTCACTA2554 TTTTCTTCGT CCCATCACTT CTGCTTTCTA ATGAGCATGA ATCTGTTCCT TGGCCAGACT 2658 2694 AGTCATTCTC TCCTCTGTTT TAGTCAATAA CCATGTCTGT TGCACATATA CATGTCTCAT2754 TCTCTCTCCT AGACACTTTG GCATGATCTC GCTCAATAAT TACATTATTA TTATTATTGC2834 CATTTTATAA TTGAGGATGC TGAAACTCAG TGATTTTCTG GTGGTTACAT GGCTAAGGAA2894 CTGGATTTCA ACGTAAGTTC CTTGGATCTA AGTCCAGTTC TCTTCTGACT ATATCACCCT2954 3014 GTTCCAGGAA GCCATTCAAG ACTGACTTTC TTAGTGCCTC TCACTACTTT CTGGAACTGA3074 CATATGTTTT TCACTCTGTA TATACTTACA ATTAAATAGT CATAAATATT CAGAGCTTGG3134 AGAAACCTTA TATTTCATCC AGTCCAGTAA ATTTATCCAT CCATAATTCA CTCATTCATT3194 CACATAATAA ATATTTAATG TAACAATGGT TGAACATGGC AGACAGTGTT TCTACCTCAA3274 AAGAGATTGC AGTCCTCATT TACAGATACT GAATTGAAAT TAACAGAAGT AGAGTGAGTC3334 AGCTCAAATC ACATAGTGAA TTGGTTTCTT TGTTTTTAAA TCTCCTGCAT ATGTGTCCTG3394 TCTTTCTCCC TGTGTTGGGC GTTCCCTGGG GCACCAATAC TAATTTCTCC TTCCCCTAGA3454 AATCAAAACA GGGTCTTATC ACCAACAGAA TAAGGACAGG TTGACCACTG ATTGTCAGAA3534 TATTGCTTCG TTTGTACTTT TAAGCCTAGA CAGTTTTCAA TGACTTTTTT TCTCTCTACA3494 TGTCTTTTCA TATTTTTATC TTCTTGAAGT CCCTCAGAAA CCTAAGGTCT CCTTGAACCC3554 TCCATGGAAT AGAATATTTA AAGGAGAGAA TGTGACTCTT ACATGTAATG GGAACAATTT3614 CTTTGAAGTC AGTTCCACCA AATGGTTCCA CAATGGCAGC CTTTCAGAAG AGACAAATTC36 AAGTTTGAAT ATTGTGAATG CCAAATTTGA AGACAGTGGA GAATACAAAT GTCAGCACCA3734 ACAAGTTAAT GAGAGTGAAC CTGTGTACCT GGAAGTCTTC AGTGGTAAGT TCCAGGGATA TGGAAATACA GATCTCTCAT GTGAGGGATG GCTCATCTGA AGATGGGAAA AAACAGGTTA3854 TTCCAAGGGT TAGGACACCA GAGTGGGATT CAAGGCCTCT CATTTTTAAG ACCCCTGCAT 8634 3928 3994 ATCACGAGGT CAGGAGATCG AGACCATCCG GCTAACATGG TGAAACCCCA TCTCTGCTAA4054 364114 CGGGAGGCTG AGGCAGGAGA ATGGTGTGAA CCCAGGAGGT GGAGGTTGCA GTGAGCTGAG4174 ATCACGCCAC TGCCCTCCAG CCTGGGCTAC AGAGCAAGAC TCCGTCTCAA AAAATAAATA4234 AATAAATAAA AAAGACCCCT GCATCTCTTT TCTTCTACCC CCTTCCCTTT TGATTACTTG4294 TATGCCTTCT TTCAATATTC TAGTCATCTC TCAATATTAT TCCTCCACCC TATTTTCCTC4354 TATCTTTTCT GCCTAGATTC AGGTATATAT TATGTGGTCA AACAGCATGA CATATATGTG4414 AACATTTCAA AGAGCTGTGT ATCTGGAATA GGATCAAAAG GTTTGACTTA AAGTTTTGCT4474 CTGCATAATC CATATGGCAG GACCTGAATA TTAGGTTGTA CTCTTCGTTA TGAAACATAT4534 CTGGGTACAT TTCCTTATGT CCTCTGTTGT TACTTAAGAA CACATATTTC ATGCTTGTTT4594 CATTTTTATC ACTCCTACTG CCAACAAATA GCATAGCATG CTTAGGCACA TGTGGCTTAA4654 TTAGCAAATG TTGAATAAAC AAATTAATGA TTTTGAATAG TGACCAATAG GTCTCTTTTA4714 TACTCTATAT TTTTCTCTTG AGTGAAAAAA AATGTTTCAA CCTCCATATG TAAATTCCAA4774 ACACAAACTA AAGCAATGTA GAATAGCTTC TTTATTCCCT GGAGTAGGTT CTAGAGAAGT4834 CCTAAAGGAT TGGTCCTAAA TTAATTATGC TTATTATGCT AGCGATATTT CCTTTCAAAA4894 TTCTCCTTTA ATGAATGCTT TTTAATTTTT ACAAAAGCAT TAACCATAGA ATGTGATTCT4954 TGTCTTTCAC TGACTCATTA GTGACAAATA TTTGTTGAGT ACCTACCAAC TCCTAAGTAT5014 TGCTACCAAC TCCTAAATAC TGTGTTGGGC ATTCAGAATA GAATGTAGAA CTAGACAGGG5074 TCCCTGACTT CTTGGAGCAC AGAGCAGTAT GGGAAGAGGA CATTAAATAA AGAATTACAT5134 AAGTAATTAA TTTAAATTAT ACATGTTTTG AAGAAGTTTT TTTTTGACAA CTATAATTAA5194 CACTAGAACT GGGAAGTTTC TATAAGGTAA GAGAGGACAA AATAGACACT CTCCTAAGCT5254 AAAATTCCCA AGAAAGACTG TTTATTTTCC CCTAACTAAC TAGAACTAGC AACAGAAGAT5314 CTGAAAGGAA TTCTGGCTTT CAAGTGTTCC ATGTATGGAC TCATCAGGGA GGTCCGAGAG5474 GCTTTGTGGC CCCAGACTGA CTTTTCAGGA GGGGAAAGGA TTTATCAATA CACAAGACAG5534 GCTCTAAGCA TTATTTTGTG CCCTTTAAAA ATCCACTTTA TGAGCCAAAA AGTGAGTTAA5594 TGATAATTCA TAGTTTCTGA CACATGCTCT ATGCGTGGCT CTCTTTTCTC TATTCATTCT5654 CTCTCTCTTC ATTTATTGTT AAATAAATAA TGTAATGAAT GTTCTTCAGA CTGGCTGCTC5714 CTTCAGGCCT CTGCTGAGGT GGTGATGGAG GGCCAGCCCC TCTTCCTCAG GTGCCATGGT5774 TGGAGGAACT GGGATGTGTA CAAGGTGATC TATTATAAGG ATGGTGAAGC TCTCAAGTAC5834 TGGTATGAGA ACCACAACAT CTCCATTACA AATGCCACAG TTGAAGACAG TGGAACCTAC5894 TACTGTACGG GCAAAGTGTG GCAGCTGGAC TATGAGTCTG AGCCCCTCAA CATTACTGTA5954 ATAAAAGGTG AGTTGGTAAA GGAAAGGAAA AGCATCCATA GCAGGGGAAG GAAGAGAGAA6014 CTTCTGAGCC TGAGCAGTTG CAGCTTGTAG AAGGGGGGCA CCTGTGATAC ACTGGAAAGC6074 CTACCAGACT TGCAATGAGG AGACCTGGGT GATAGTATAT ATCTCAATCT CTGTTTCAAA6134 GCCTTGACTT GTTAAATGGT GATAGTAATA CCTGCTTGCA CTATGAAATT TTTATGAAGA6194 TTAATGTGGT AATATTTGTG AAATGACTTT GTAAACTGTT AAGCACTACC CAAGCATAAC6254 AGATTGTGAT TACTATTTTG ATCTCAAAGT CATCTGTTGC TCCTGGGGGA ACACTTATAT6314 TTATCAAATT GAAAAAAAGT TTCAAAGTTG AATGAAGAAA GGATATAAAG AGCTTGAGGA6374 GCCCATTCCA GCTTAGGAGG GCTGGGAAAG GAAACCAGCA AGTCAGTAAG CTGTGTGCCT6434 GTGTATTGAG GGAGGAGGGA ATGGACTTGA TATGGAGAGG GTAGGGAGGT GGACTGCCTC6494 TATGGCCTGT AAGAAAAACT GCTCTCTCCA AACTCTTTAT AAGAGAGGGA GCCTGTGAAG6554 TATTCACTTT TGAAGGAGAA AGTTAGACTT TTCCTTCACA CACTTTGTAC ATAATAATGT6614 TTAAAAAAGC ATGAGGTCAA AATACATAAT TAAGTCCTAG CAGTTCTCTG TTAACTAATT6674 TGAGACTGAA GTGCTATGTA CTTGTCTCTA GGCTTCCAGT ATCTTCATCT GTAAAACAGA6734 826756 6794 GTCTCATTTC TTGAGATTCT GATTTAATTG GTTTGGGGTG CAGCCTGGGT ATACGTATTT6854 8669127 6914 GATCTTTAAA TGATTTCTGG ATGTAATATT CTGAGGCTCT ATAATTTGAG ACTAATCACA6974 AAAATCGGTA CAGTTTATAA ACAGACTAAC AGAACCACAA AATAATAGAA TTGGAAGGCA 7058 GAGTAATAGG CATTGATGAC CCCTGTCCTC ACTTTGTCCC CTTTCCACCC CTTAATTATA7154 TGTGAATTCT GGTCTTGTCA TTTCGAATAA GGGGTTTATC TTTCCTATTG TCTTCCCCTC7214 TGGGCACGGC ACACTGGCTA CTGGAGTTAA GAGGAAATGC TTAGGACTCC CTGTGGCTCC7274 AGGGAGCACC AACAGAGCAA CTCAACCTAG TGTTAATCTG AGTGTTTTCT CTGTGCTTCT7334 GGATGCCACA TCACGCTAAA AATGAAGGAC AAAGCTTGGT CTTTCTCTTA GGGAGGATGA7394 AACTCTGAAC CTCATTTTTC AGTTCCCAAG ATGAATTATG TTTCTCATTG CATCTGTGTT7414 CCACTACAGC TCCGCGTGAG AAGTACTGGC TACAATTTTT TATCCCATTG TTGGTGGTGA7474 TTCTGTTTGC TGTGGACACA GGATTATTTA TCTCAACTCA GCAGCAGGTC ACATTTCTCT7534 TGAAGATTAA GAGAACCAGG AAAGGCTTCA GACTTCTGAA CCCACATCCT AAGCCAAACC7594 7654 CAGCAATTGC TACTCAATTG TCAAACACAG CTTGCAATAT ACATAGAAAC GTCTGTGCTC7714 AAGGATTTAT AGAAATGCTT CATTAAACTG AGTGAAACTG GTTAAGTGGC ATGTAATAGT7774 AAGTGCTCAA TTAACATTGG TTGAATAAAT GAGAGAATGA ATAGATTCAT TTATTAGCAT 7824 TTGTAAAAGA GATGTTCAAT TTCAATAAAA TAAATATAAA ACCATGTAAC AGAATGCTTC 5994 TGAGTATTCA AGGCTTGCTA GTTTGTTTGT TTGTTTTCTA CTAAAGGCAA GGACCATGAA7954 GTTCTAGATT GGAAATGTCC TCTCTTGACT ATTGCAAGTG CGATCTAGGA ATGAAAAGAC8014 ATAGGAGGAT GCCAGTGAGG TGGATCATTT TTATGCTTCT TCTTCAGCTT ACTAAATATG 806959 AACTTTCAGT TCTTGGCAGA ATCAGGGACA GTCTCAAGAC ATAGGACTCT CAGGATGAAG8134 828194 GTCTTGTATC TTTATACAGC ACCTGAACCA AGCATTTTGG AGAAATTCCA GCTAATAATA8254 ATAACCAAAA CCTTCGGCTC TGAAAACAGT CCAGGACTGA ATAAGATCTT GGGCAAAAGA8314 ACTAGACAGT TTTGGTTTAT TTTCCCTTTC ATTTTATGTC TTCATCATAG TCATTGGAGG8374 CTCATTCTTC TTGTCATGGA GTAAATGGGA TTAAAGTTC8413 TACTAAGAGT CTCCAGCATC CTCCACCTGT CTACCACCGA GCATGGGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACA GTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCAT 121 GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTC GCTCCAGATG GCGTGTTAGC 181 AGTCCCTCAG AAACCTAAGG TCTCCTTGAA CCCTCCATGG AATAGAATAT TTAAAGGAGA 241 GAATGTGACT CTTACATGTA ATGGGAACAA TTTCTTTGAA GTCAGTTCCA CCAAATGGTT 301 CCACAATGGC AGCCTTTCAG AAGAGACAAA TTCAAGTTTG AATATTGTGA ATGCCAAATT 361 TGAAGACAGT GGAGAATACA AATGTCAGCA CCAACAAGTT AATGAGAGTG AACCTGTGTA 421 CCTGGAAGTC TTCAGTGACT GGCTGCTCCT TCAGGCCTCT GCTGAGGTGG TGATGGAGGG 481 CCAGCCCCTC TTCCTCAGGT GCCATGGTTG GAGGAACTGG GATGTGTACA AGGTGATCTA 541 TTATAAGGAT GGTGAAGCTC TCAAGTACTG GTATGAGAAC CACAACATCT CCATTACAAA 601 TGCCACAGTT GAAGACAGTG GAACCTACTA CTGTACGGGC AAAGTGTGGC AGCTGGACTA 661 TGAGTCTGAG CCCCTCAACA TTACTGTAAT AAAAGCTCCG CGTGAGAAGT ACTGGCTACA 721 ATTTTTTATC CCATTGTTGG TGGTGATTCT GTTTGCTGTG GACACAGGAT TATTTATCTC 781 AACTCAGCAG CAGGTCACAT TTCTCTTGAA GATTAAGAGA ACCAGGAAAG GCTTCAGACT 841 TCTGAACCCA CATCCTAAGC CAAACCCCAA AAACAACTGA TATAATTACT CAAGAAATAT 901 TTGCAACATT AGTTTTTTTC CAGCATCAGC AATTGCTACT CAATTGTCAA ACACAGCTTG 961 CAATATACAT AGAAACGTCT GTGCTCAAGG ATTTATAGAA ATGCTTCATT AAACTGAGTG1021 AAACTGGTTA AGTGGCATGT AATAGTAAGT GCTCAATTAA CATTGGTTGA ATAAATGAGA1081 GAATGAATAG ATTCATTTAT TAGCATTTGT AAAAGAGATG TTCAATTTCA ATAAAATAAA1141 TATAAAACCA TGTAACAGAA TGCTTCTGAG TAAAAAAAAA AAAAAAAAAA AAAAAAAA 1 TCTCAATATA ATAATATTCT TTATTCCTGG ACAGCTCGGT TAATGAAAAA ATGGACACAG 61 AAAGTAATAG GAGAGCAAAT CTTGCTCTCC CACAGGAGCC TTCCAGTGTG CCTGCATTTG 121 AAGTCTTGGA AATATCTCCC CAGGAAGTAT CTTCAGGCAG ACTATTGAAG TCGGCCTCAT 181 CCCCACCACT GCATACATGG CTGACAGTTT TGAAAAAAGA GCAGGAGTTC CTGGGGGTAA 241 CACAAATTCT GACTGCTATG ATATGCCTTT GTTTTGGAAC AGTTGTCTGC TCTGTACTTG 301 ATATTTCACA CATTGAGGGA GACATTTTTT CATCATTTAA AGCAGGTTAT CCATTCTGGG 361 GAGCCATATT TTTTTCTATT TCTGGAATGT TGTCAATTAT ATCTGAAAGG AGAAATGCAA 421 CATATCTGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAG CAGCATAGCT GGGGGAACGG 481 GAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCAC ATCCACAGTT 541 GCCAGAAATT TTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGAA ATTGTAGTGA 601 TGATGCTGTT TCTCACCATT CTGGGACTTG GTAGTGCTGT GTCACTCACA ATCTGTGGAG 661 CTGGGGAAGA ACTCAAAGGA AACAAGGTTC CAGAGGATCG TGTTTATGAA GAATTAAACA 721 TATATTCAGC TACTTACAGT GAGTTGGAAG ACCCAGGGGA AATGTCTCCT CCCATTGATT 781 TATAAGAATC ACGTGTCCAG AACACTCTGA TTCACAGCCA AGGATCCAGA AGGCCAAGGT 841 CTTGTTAAGG GGCTACTGGA AAAATTTCTA TTCTCTCCAC AGCCTGCTGG TTTT1 AAGCTTTTCA AAGGTGCAAT TGGATAACTT CTGCCATGAG AAATGGCTGA ATTGGGACAC 61 AAGTGGGGAC AATTCCAGAA GAAGGGCACA TCTCTTTCTT TTCTGCAGTT CTTTCTCACC 121 TTCTCAACTC CTACTAAAAT GTCTCATTTT CAGGTTCTGT AAATCCTGCT AGTCTCAGGC 181 AAAATTATGC TCCAGGAGTC TCAAATTTTC TTATTTCATA TTAGTCTTTA TTTAGTAGAC 241 TTCTCAATTT TTCTATTCAT CACAAGTAAA AGCCTGTTGA TCTTAATCAG CCAAGAAACT 301 TATCTGTCTG GCAAATGACT TATGTATAAA GAGAATCATC AATGTCATGA GGTAACCCAT 361 TTCAACTGCC TATTCAGAGC ATGCAGTAAG AGGAAATCCA CCAAGTCTCA ATATAATAAT 421 ATTCTTTATT CCTGGACAGC TCGGTTAATG AAAAAATGGA CACAGAAAGT AATAGGAGAG 481 CAAATCTTGC TCTCCCACAG GAGCCTTCCA GGTAGGTACA AGGTATTATT TTTTTCTACC 541 CTCAGTCACT TGTGGCAGGG GAAGTCATAG TCACGGTGCT TAGGAGATGA AACTTTATTG 601 ATTTAGGCAT GGATCCATCT AGTTTAATTA ATATATTGGG TATGAGGAAG CTACTTGCTG 661 TACTTTCCAT GTGGTTCTCT CTCCCTGGAG AGGAACATTT TTACTCAGCT TGCAAACTGG 721 AAATAGATTT TCTCACATTA GAAGCTCATT TTCTGGGTAT GAGACAGGAG AGTTCATACT 781 GTGTATGTAG ATCTCTGGCT TCTGGGTCTG ACATGTGCTG AGGGACACAT ATCCTTCACA 841 CATGCTTTTA TAAATACTTG ATAAAGTAAC CTGCTTCTTG ATTGGTCTTT ATAATCCATA 901 AGCTGTGGGA TGCTTCTCTG AAGATGAAAA TAGTAATAGA GTCCCATCTA GCTATTCAAA 961 GCCATTCCTT CATTGTATTC TGTGCACATG AAGTTGGGGT TTGTTACTGA CAAAATATAT1021 TCAGATACAT TTCTATGTTA AAAGGATTGT GAGATGCATA GGTAAATGTG TTTATTTTCA1081 GTTTTACTTG TCAACATAGA TGAATGAGAA AGAACTTGAA AGTAACACTG GATTAAGAAT1141 AGGAAAATTT GGCATGGATT TTGCTCCATT TTGTCCCATC TAATCACTTG GATAGTGTTC AGGTGTTCTT GGTCAGTTAC TTGGATGCTC TGAGCTTTAG TTTCTTGGTG ATTACAATGA1261 1265 1321 GAATGTTGCA CAGGGAGTTA CAGAATGTTC TCATGACTGA ATTGCTTTTA AATTTCACAG1381 TGTGCCTGCA TTTGAAGTCT TGGAAATATC TCCCCAGGAA GTATCTTCAG GCAGACTATT1441 GAAGTCGGCC TCATCCCCAC CACTGCATAC ATGGCTGACA GTTTTGAAAA AAGAGCAGGA1501 GTTCCTGGGG GTGAGTGAGC CTCCTCCAAC TTTGACTAGA GTAAGGGTTG GGTCTAGAAA 631 16228 6861 TAAAAAACAT GGTAGATAAA GAGTTGACAC TAACTGGGTC CTTTTGGGAA GAGCCAGAAG1681 1741 CATAACTTTA TCTTTACTTA GATGTAAAGA ACAATTACTG ATGTTCAACA TGACTACATA1801 CATAAAGGCG CATGGAGAAA AGTATTGGCC TTCCATGCAT TAGGTAGTGC TTGTATCAAT1861 TCTTATAGTG GCTAGGGTAT CCTGGAAAAT CTTACGTGTG GATCATTTCT CAGGACAGTC1921 TAGGACACTA ACGCAGTTTC TCATGTTTGG CTTCTATTAT TAAAAAATGA TACAATCTCG1981 GGAAAATTTT TTTGATTTTC ATGAAATTCA TGTGTTTTTC TATAGGTAAC ACAAATTCTG2041 ACTGCTATGA TATGCCTTTG TTTTGGAACA GTTGTCTGCT CTGTACTTGA TATTTCACAC2101 ATTGAGGGAG ACATTTTTTC ATCATTTAAA GCAGGTTATC CATTCTGGGG AGCCATATTT2161 GTGAGTATAT ATCTATAATT GTTTCTGAAA TAACACTGAA CATAGGTTTT TCTCTTTCTC2221 AGATCTAACC AGTTGTTTAT TCCCAGTATT AAGATGATATTTATAATTCT TAATTATAAA2281 TATATGTGAG CATATATAAC ATAGATATGC TCATTAACAA CAACAAAAGA TTCTTTTTAC2341 AATTAACGGT GGGTTAAACA TTTAGCCCAC AGTTTTATCC CATGAGAAAC CTGAATCTAA2401 TACAAGTTAA ATGACTTGCC TAAGGGCCAC TTGACTAATA GTAATTGAAC CTAAACTTTC2461 AGAATCCAAC TCCAGGAACA TACTTCTAGC ACTATTCATC AATAAAGTTA TATGATAAAT2521 582581 2624 2641 GACCAGCCTG ACCAACATGG TGAAACCTCA TCTCTACTAA ATATAAAAAA TTAGCTGAGT2701 GTGATAGTGC ATACCTGTAA TCCAGCTACT TAAGAGGCTG AGGCAGGAGG CTTGTTTGAA27 CCTGGAAGGC AGAGGTTGCA GTGAGCTGAG ATTGTGCCAT TGCACTCCAG CCTGGGCAAT2821 AAGTGCGAAC TCTGTCTCAA AATAATAATA ATAATAATAG AAAATAAAGT TGTCTTCATG2881 AAAAATGAGG AAAGAGATTG CTGGGGTGAG AAACATTAAG ATCAATGGGC ATATGGTGAC2941 CTTCTATGCC CTAGAAACTC TTTTANGGTA TTTTCTCCTG GTATCTCTTT TACNCATCGT3001 TCTATCTGGA AAAATAGGTG GATGAGTGAG ATAATAACGG TATATACTTT TTAAAGGTCT3061 AATTGACATA TATAAATTGC AAGTATTTCA GATGTCAATT TGCTAACCTT GACACACATA3121 GACACACATG AAAACATCAC CACATTAATA CAATGTATGT ATCCATCATT CCAAAAGCTT3181 3233058 AGTATGTTCT CTTTACTGTT TGTCTTCCTT CGCTGCACAG TTATTTTGAG ATTCTTCAAG3361 TTTTTTCTTT ATATCGATAC TTCATTCACA AGAATATATT TTAATTCTAG ACTATGTCAC3421 ATTGACTTTG TCGTCTGCTA AATCCTTAGT GCTCAGATGA CTTGTTCAGG ACTCTCCTTG3481 AACCTGTACC TCTGTTANAT TGAAACTTGT CTCTACTGTC TTTTTATTTC AAACACAGCT3541 TATTAGGTGT CTCTCAACCC ATCAAACNCA CAATCTGAGT CTTTAGGAGA TTGCTTTGAA3601 TTTGTGCTAT TGACTTATAT NTATATNAAA TNTGTAAATG TTTGGTAAAA ATATCATCAT3661 GTACNTTTTC ATAATTACGC TATNTNCACA TGATATATGT CAGACTCTGG AAATATGCAT3721 GCCACAGACA CGTGTTTCTT GCCTAAAGGG GCTGATGGAA GACNCACATA CNAATAGACG 4681 ATTGCAGTAG AATGAGAGTG GTGGTCTAAN CAGTACATGT CCTGATGTTG CTCGGACAGT3841 TACTACNCCA AGAGTACCCC CTGCATTGTC AGGGTTAGCA TCTCCTGGAA GCCTCATGTA3901 AATGAAGAAT TTCATGCTCC ATCCAGGACC TAATGAATAA GAATCTGCAT TTTAGCAAGA3961 CCCTCATATG ATTCATATAC ACTTTTTTTT TTTTTTTTTA GATGGAGTCT CACTCTTGTC4021 GCCCAGGCTG GAGTGCAATG GCATGATCTT GGCTCACTGC AACCTCTGCC TCCCGGGTTC4081 AAGTGATTCT CCTGTCTCAG CCTCCCTAGT AGCTGGGACT ACAGGTGCAT GCCACAGTGG4141 CTGGCTAATT TTTGTATTTT TAGTAGAGAC AGGGTTTCAC CATTTTGGTC AGGCTGGTCT4201 TGAACTCATG ACCTCCGGTG ATTCCCCCGC CTCGGCTTCC CAAAGTGCTG GGATTACAGA4261 CATGAGCCAC CACACCCGCC TTATTCGTAT ACNCATTTAA TTCTGAGAAG CACTCTATAG43 AAAATAAGAA TAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAAC TTTATCGAGT 1 43 AAAATAAGAA TAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAAC TTTATCGAGT4381 ACCCCAAATT TTACCTATGT TTGGAAGATG GGGTTAAAAG GACACATTGA AAACAAGAAC4441 TCATTGTGGC TTTTTTTTCC TCCTTTTTGA ACAGTTTTCT ATTTCTGGAA TGTTGTCAAT4501 TATATCTGAA AGGAGAAATG CAACATATCT GGTGAGTTGC CCGTTTCTGT CTTTGTCCAT CCTTGAAAAG ATAAGAAGAA CAGAGTTTTA AGAGTCTTAA GGGAAACACA TCTTTGTCTC4621 CTATATTACT TGTGAATGTG GATATATGAT TTTGTTTCAA TCTATTTTGT GTCCTAAGGC4681 364741 GAAGTTTATG TTTACCTTGA CGTTCTTCTA AAAAGTGTCC TACACCGGCA TTGTCCTTGT4801 AGGCATATTC ACATGATCAA ATAAAATAAT TAGTTTTCAA TTAAGGAGAA TATTTGAGGA4861 AAGACCGTAC GTGTTCATGT GGTTCCTGAA GGCAGTCCAG TGAGAAAGTA ATATATGCTT4921 CATTAAACAA TGCGGACATT TTCAGGGTTT CCCTTTTTAA CCAAAATTTG GAAGCAATGT4981 5029 5041 GTGCAGGCCC AGGTCTGAGT GTTCTTCATT ATTATCAGGT GAGAGGAAGC CTGGGAGCAA5101 ACACTGCCAG CAGCATAGCT GGGGGAACGG GAATTACCAT CCTGATCATC AACCTGAAGA5161 AGAGCTTGGC CTATATCCAC ATCCACAGTT GCCAGAAATT TTTTGAGACC AAGTGCTTTA5221 TGGCTTCCTT TTCCACTGTA TGTATTTTTT TTTGTGTGGG AAGACTAAGA TTCTGGGTCC5281 TAATGTAAGT AAGAAGCCCT CTTCTCCTGT TCCATGAACA CCATCCTTTT CTGTAACTTC5341 TATTACACAG TATAGTGGTT CTGTAAGTTC ACACAGCCCA GGGAGATGCT GGCTGCCCAC5401 5423 5461 GGGTTTTTCT GTGCCTGTGT TTGTGTGTGT GTGTGTGTGT GTGTGTGTGT GTATGTGTCA5521 5581 ACTTTTGGGG CGAATACCAA TGTGACTCTT TTTGTTTGTC ATTTGTTGCT GTTCAATAGG5641 AAATTGTAGT GATGATGCTG TTTCTCACCA TTCTGGGACT TGGTAGTGCT GTGTCACTCA5701 CAATCTGTGG AGCTGGGGAA GAACTCAAAG GAAACAAGGT AGATAGAAGC CCGATATAAA5761 ATCTTGAATG ACAGGTTAAC GAATTGGAGC TTTATTCCTT AAAATATGGC CTGGGTTTTC5821 8281 5941 ACATTTAAAT CACATTTTAT ACCATAAGTA GCACACATTT CATAATATTC CTCTGAATGA5941 GGGTTGGGAT AATAGGACTG ATATGTTAGA AATGCCTTAA AGTGTGTGGA GCATGAGAGA6001 TGGATGTACA GAAGGCTTGT GAGGAAACCA CCCAGGTATC TGGCCTTGTT TTCTGCCCCA6061 GAACTAGCCG CCTATTCCTG TTTCTGTTTT ATTCCTTTGT TTCTTGACTT TTCCTTTCCA6121 6181 TTGCCTCACC CGTCCATTAC ACCTTTGATA AGAACCACCA GACCTTGTGC TCATGTACTT6241 GCCCATGTCT GATGGAAGAA ACATACTCTC TCCATCTGTC CACTTTCCTG AGGCATTCAA6301 GTCTAGCCAC CTTTTAAAAT CACTCTCCTC CAGGCTGGGC ACGGTGTCAC GCCTGTAATC6361 TCAGCACTTT GTGAGGCTGA GGAGGGCGGA TCACTTGAAG TCAGGAGTTC AAAACCAGCC6421 TGGCCAAATG GCAAAACCAA ATCTTCTTCA ATTATAACCA AATCTTAAAC CAAATCTCTA6481 CTAAAAAATA CAACAAAACA AAACAACAAC AACAAAAACA GAAAAGGAAA CATTAGCCCA6541 GCGTGGTGGC AGGTACCTGA GGTTCCAGAT ACTTGGGAGG CTGAAGCAGG AGAATCGCTT6601 GAGCCCAAGA GATGGAGGTT GCAGTGAGCC GAGATCATGC CACTGCACCA CAGCCAGGGT6661 GACAGAGCCA TACTTCCCAG CACATTGGGA GGCCAAAGCT GAAGAATAAT TTGAGGTGAG6721 GATTTGGAGA CCAGCCTGGC CAACATGGTG AAACTCCGTC TGTACTAAAA ATATAAAACT6781 TAGTGGGGCA TGGGGGCACA CACCTGTAAT TTCAGCTACT TAGGAGGCTG AGGCAGGAGA6841 ATTGCTTGAA CCCGGGAGGC GGAAGTTGCA GTGAGCCAAG ATCGTGGCCA CTGCACTCCA6901 GCCTGGGTGA CATAGTGAGA TTCTGTCTCA AAAAAAATAA AAGAAATTTA AAAAATCACT 6963 7021 TCATTGACTG ACATGATTTC TTTTGGCCCA CTTGGCCAGC TAGTCTGGTT TGGTTTTCTG GAAATGAAAG AAATAATCAG AGTTTAATGA CAGAGAGCGT GAGACCCAGA AAGACAAAAG7141 TAGATGAGGT AAGTCTCTTG AGCGAGACTT CTAGGGATGG GAAATTTGTG GTGATTGATA7201 TGAAATGATT TTTCCCTTAT CAGGTTCCAG AGGATCGTGT TTATGAAGAA TTAAACATAT7261 ATTCAGCTAC TTACAGTGAG TTGGAAGACC CAGGGGAAAT GTCTCCTCCC ATTGATTTAT7321 AAGAATCACG TGTCCAGAAC ACTCTGATTC ACAGCCAAGG ATCCAGAAGG CCAAGGTTTT7381 GTTAAGGGGC TACTGGAAAA ATTTCTATTC TCTCCACAGC CTGCTGGTTT TACATTAGAT TTATTCGCCT GATAAGAATA TTTTGTTTCT GCTGCTTCTG TCCACCTTAA TATGCTCCTT7501 CTATTTGTAG ATATGATAGA CTCCTATTTT TCTTGTTTTA TATTATGACC ACACACATCT75 CTGCTGGAAA GTCAACATGT AGTAAGCAAG ATTTAACTGT TTGATTATAA CTGTGCAAAT7621 ACAGAAAAAA AGAAGGCTGG CTGAAAGTTG AGTTAAACTT TGACAGTTTG ATAATATTTG7681 GTTCTTAGGG TTTTTTTTTT TTTTAGCATT CTTAATAGTT ACAGTTGGGC ATGATTTGTA7741 CCATCCACCC ATACCCACAC AGTCACAGTC ACACACACAT ATGTATTACT TACACTATAT7801 ATAACTTCCT ATGCAAATAT TTTACCACCA GTCAATAATA CATTTTTGCC AAGACATGAA7861 GTTTTATAAA GATCTGTATA ATTGCCTGAA TCACCAGCAC ATTCACTGAC ATGATATTAT7921 TTGCAGATTG ACAAGTAGGA AGTGGGGAAC TTTTATTAAG TTACTCGTTG TCTGGGGAGG7981 TAAATAGGTT AAAAACAGGG AAATTATAAG TGCAGAGATT AACATTTCAC AAATGTTTAG8041 TGAAACATTT GTGAAAAAAG AAGACTAAAT TAAGACCTGA GCTGAAATAA AGTGACGTGG8101 AAATGGAAAT AATGGTTATA TCTAAAACAT GTAGAAAAAG AGTAACTGGT AGATTTTGTT8161 AACAAATTAA AGAATAAAGT TAGACAAGCA ACTGGTTGAC TAATACATTA AGCGTTTGAG8221 TCTAAGATGA AAGGAGAACA CTGGTTATGT TGATAGAATG ATAAAAAGGG TCGGGCGCGG8281 AGGCTCACGC CTGTAATCCC AGCCCTTTGG GAGGCCGAGG TGGGCAGATC ACGAAGTCAG8341 TAGTTTGAGA CCAGCCTGGC CAACATAGTG AAACCCCGTC TCTACTAAAA ATACAAAAAA8401 AAAATTAGCT GGGTGTGGTG GCAGTCACCT GTAGTCCCAG CTACTTGGGA GGATGAGGCA8461 GGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCAGTGCAC8521 TCCAGCCTTG GTGACAATGG GAGACTCCAT CTCAAAAAAA AAAAAAAAAA AAAAAAGATA8581 8535 8581 AAAAGTCAGA AATCTGAAAA GTGGAGGAAG AGTACAAATA GACCTAAATT AAGTCTCATT8641 TTTTGGCTTT GATTTTGGGG AGACAAAGGG AAATGCAGCC ATAGAGGGCC TGATGACATC8701 CAATACATGA GTTCTGGTAA AGATAAAATT TGATACACGG TTTGGTGTCA TTATAAGAGA8761 AATCATTATT AAATGAAGCA AGTTAACACT CTAAGAGAAT TATTTTGAGA TAGAAGTGAA8821 GCTAAGCTAA ACTTCACATG CCTATAATTG GAGGGAAAAA CTAAGGATAA AATCTAGCCT8881 AGAAGATACA ATAATTAGTC ATAAACATGC ATTGTGAAAC TGTAGAGAGC AGGTAGCCCA8941 AAATAGAGAA AGATTAGATA AAGAGAAAAT AAGTATCCAT CAGAGACAGT ATCTCTAGGC9001 TTGGGCAAGA GAAAAGTCCA CAGTGATAAG CAACTCCACC TAAGGCATGA ATATGCGGCA9061 GAGAAAACAG CAATAGTGAA TGAATGCAAA AGGTGCTGAG CAAATTCCAC ACATGAGTAT9121 TGTGCATGAG TAAATGAATA AAACATTTGC AAAGACCTTT AGAGAAAGAG AATGGGAGCA9181 TATGTGCGAA ATAAGATAGT TGATTATGAA TAGAAGGTAG TGAAGAAAAG CAAGCTAAGA9241 AAAAATTCTG TTTATAAAAG AAGGAAAAGA TAGTTTATGT TTTTAGCCTA AGTATAAGAG9301 TCCTACAGAT GGACTGAAAA AAATCAGTCT GAGAGTATTA GTCACAATTA ATGAAATAAT 9361 TACATTTTAT GTATTGAGGA TGCCAAGATT AAAAGGTGAC AGGTAGATGT TAATTTCCCT 9421 AGATTGTGAA AGTGATCACG ACAATCACAC AACAAATAAT TAAGTGACTT GGTATGCTTT 9481 ATTTAATTGT AGGGCCTGAG GTTTTCCATT CTCATTTTTC TAAAATACAA TTTTGTTTCT 9541 CCAAATTTGA CAGCAGAATA AAAACCCTAC CCTTTCACTG TGTATCATGC TAAGCTGCAT 9601 CTCTACTCTT GATCATCTGT AGGTATTAAT CACATCACTT CCATGGCATG GATGTTCACA 9661 TACAGACTCT TAACCCTGGT TTACCAGGAC CTCTAGGAGT GGATCCAATC TATATCTTTA 9721 CAGTTGTATA GTATATGATA TCTCTTTTAT TTCACTCAAT TTATATTTTC ATCATTGACT 9781 ACATATTTCT TATACACAAC ACACAATTTA TGAATTTTTT CTCAAGATCA TTCTGAGAGT 9841 TGCCCCACCC TACCTGCCTT TTATAGTACG CCCACCTCAG GCAGACACAG AGCACAATGC 9901 TGGGGTTCTC TTCACACTAT CACTGCCCCA AATTGTCTTT CTAAATTTCA ACTTCAATGT 9961 CATCTTCTCC ATGAAGACCA CTGAATGAAC ACCTTTTCAT CCAGCCTTAA TTTCTTGCTC10021 CATAACTACT CTATCCCACG ATGCAGTATT GTATCATTAA TTATTAGTGT GCTTGTGACC10081 100 10081 TCCTTATGTA TTCTCAATTA CCTGTATTTG TGCAATAAAT TGGAATAATG TAACTTGATT10141 TCTTATCTGT GTTTGTGTTG GCATGCAAGA TTTAGGTACT TATCAAGATA ATGGGGAATT10201 AAGGCATCAA TAAAATGATG CCAAAGACCA AGAGCAGTTT CTGAAGTCCT CCTTTTCATC10261 AGCTCTTTAT CAAACAGAAC ACTCTATAAA CAACCCATAG CCAGAAAACA GGATGTAGGA10321 ACAATCACCA GCACACTCTA TAAACAACCC ATAGCCAGAA AACAGAATGT AAGGACAATC10381 ACCAGCCATC TTTTGTCAAT AATTGATGGA ATAGAGTTGA AAGGAACTGG AGCATGAGTC10441 ATATTTGACC AGTCAGTCCT CACTCTTATT TACTTGCTAT GTAAACTTGA GAAAGCTTTT10501 TTCTCTTTGT GAACCTCAGG TTTTACATCT GAAAATGAGA AATTTGGAAC AAAAGATTCC10561 TAACTGGTCT TTCTGTTCCC ATATTCTGTG ATTTTTCAAT ATTTAGGATT TTTGGTAATC10621 ACAATTACTT AGTTTGTGGT TGAGATAGCA ACACGAATCA GAACTATTTG GTGGACATAT10681 TTTCAAAGGA GTAGCTCTCC ACTTTGGGTA AAGAAGTGAT GCNGGTCGTG GTGGCTCACG10741 CCTGTAATCC CAGCACTTTA GGGAGGCCAA GGCGGGTGGA TCACGAGGTC AGGAGATCGA10801 GACCATCCTG GCTAACACGG TGAAACCCCG TCTCTACTAA AAAATACAAA AAATTAGCCA10861 GGCGTGGTGG CGGGCGCCTG TAGTCCCACG TACTCGGGAG GCTGAGGCAG GAGAATGGCA10921 TGAACCAGGG AGGCGGAGCT TGCCGTGAGC CGAGATAGCG CCACTGCAGT CCCTCCTGGG10981 CAAAAGAGCA AGACTGCGTC TCAAAAAAAA AAAAAAAAAA AAAAAAAGAA GTGTGTGGAG11041 TAGCAGGACA CCTGCAACAA TAATATTTTT CTAAATCCCT CTGAAAAATG CTAATCAAAG11101 GGTTTTTTTC CTAAAAATTG TCTTAGAAAT AAAATTTCCC CTTTGGGAGA CCGAGGCTGG11161 CAGATCACGA GGTCAGGAGA TAGAGACCAC GGTGAAACCC CGTCTCTACT AAAAATACTA11221 AAAATTAGCC GGGGNGTGGT GGTGGGTACA CCTGTAGTCC CAGCTACTTG GAGGCTGAGG11281 CTGGAGAATC ACGTGAAC (2) SEQ ID NO: data at 2506: (i) sequence characteristics:

(A) length: 1291 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2506 sequence description: 1 CATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT 61 TGTGGCTAAC CCTTGTAATC CTAGCACTTT GAGAGGCTGA AGTGGGCAGA TCACTTGAGC 121 TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCC AGTCTCTACC AAAAACACAA 181 721 CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT 781 181 AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGG AGGCTGAGGT 241 GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCG 301 CTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA 361 TAAATGAAAT GAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT 421 TATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGG 481 ATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCT 541 TTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATC 601 TAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT 661 CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAA 721 CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT 781 TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAAC 841 TGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT 901 GATGTAACAG CAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTA 961 ACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGA1021 CCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACT TCTTGGCTGC1081 CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCA GAGAACTCAG1141 CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGA1201 CAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGA1261 GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C (2) SEQ ID NO: data at 2507: (i) sequence characteristics:

(A) length: 4145 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2507 sequence description: 1 CTGCTTTAAA ATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTA GACAGTCCCG 61 AAGTTCTCAA GGCACAGGTC TCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGC 121 AGCCAGCTGC AAGCCCCACA GTGAAGAACA TCTGAGCTCA AATCCAGATA AGTGACATAA 181 721 AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTC GCCACCAAGC 781 181 GTGACCTGCT TTGTAAAGCC ATAGAGATGG CCTGTCCTTG GAAATTTCTG TTCAAGACCA 241 AATTCCACCA GTATGCAATG AATGGGGAAA AAGACATCAA CAACAATGTG GAGAAAGCCC 301 CCTGTGCCAC CTCCAGTCCA GTGACACAGG ATGACCTTCA GTATCACAAC CTCAGCAAGC 361 AGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAA GAAGTCTCCA GAATCTCTGG 421 TCAAGCTGGA TGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAA AACTGGGGCA 481 GCGGGATGAC TTTCCAAGAC ACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGT 541 CCAAATCTTG CCTGGGGTCC ATTATGACTC CCAAAAGTTT GACCAGAGGA CCCAGGGACA 601 AGCCTACCCC TCCAGATGAG CTTCTACCTC AAGCTATCGA ATTTGTCAAC CAATATTACG 661 GCTCCTTCAA AGAGGCAAAA ATAGAGGAAC ATCTGGCCAG GGTGGAAGCG GTAACAAAGG 721 AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTC GCCACCAAGC 781 AGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCA GTGGTCCAAC CTGCAGGTCT 841 TCGATGCCCG CAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGC AGACACGTGC 901 GTTACTCCAC CAACAATGGC AACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTG 961 ATGGCAAGCA CGACTTCCGG GTGTGGAATG CTCAGCTCAT CCGCTATGCT GGCTACCAGA1021 TGCCAGATGG CAGCATCAGA GGGGACCCTG CCAACGTGGA ATTCACTCAG CTGTGCATCG1081 ACCTGGGCTG GAAGCCCAAG TACGGCCGCT TCGATGTGGT CCCCCTGGTC CTGCAGGCCA1141 ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCT TGTGCTTGAG GTGGCCATGG1201 AACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCC CTGCCTGCAG1261 TGGCCAACAT GCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCT1321 GGTACATGGG CACAGAGATC GGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC1381 TGGAGGAAGT GGGCAGGAGA ATGGGCCTGG AAACGCACAA GCTGGCCTCG CTCTGGAAAG1441 ACCAGGCTGT CGTTGAGATC AACATTGCTG TGATCCATAG TTTTCAGAAG CAGAATGTGA1501 CCATCATGGA CCACCACTCG GCTGCAGAAT CCTTCATGAA GTACATGCAG AATGAATACC1561 GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGT CCCTCCCATG TCTGGGAGCA1621 TCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATC1681 AGGTAGAGGC CTGGAAAACC CATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG1741 AGATTCCATT GAAAGTCTTG GTCAAAGCTG TGCTCTTTGC CTGTATGCTG ATGCGCAAGA1801 CAATGGCGTC CCGAGTCAGA GTCACCATCC TCTTTGCGAC AGAGACAGGA AAATCAGAGG1861 CGCTGGCCTG GGACCTGGGG GCCTTATTCA GCTGTGCCTT CAACCCCAAG GTTGTCTGCA1921 TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCT GCTGTTGGTG GTGACCAGTA1981 CGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCG CTCTTCATGC2041 TGAAAGAGCT CAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACC2101 CTCGGTTCTG CGCCTTTGCT CATGACATTG ATCAGAAGCT GTCCCACCTG GGGGCCTCTC2161 AGCTCACCCC GATGGGAGAA GGGGATGAGC TCAGTGGGCA GGAGGACGCC TTCCGCAGCT2221 GGGCCGTGCA AACCTTCAAG GCAGCCTGTG AGACGTTTGA TGTCCGAGGC AAACAGCACA2281 TTCAGATCCC CAAGCTCTAC ACCTCCAATG TGACCTGGGA CCCGCACCAC TACAGGCTCG2341 TGCAGGACTC ACAGCCTTTG GACCTCAGCA AAGCCCTCAG CAGCATGCAT GCCAAGAACG2401 TGTTCACCAT GAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCC AGCCGTGCCA2461 CCATCCTGGT GGAACTCTCC TGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGC2521 ACCTTGGGGT TTGCCCAGGC AACCAGCCGG CCCTGGTCCA AGGCATCCTG GAGCGAGTGG2581 TGGATGGCCC CACACCCCAC CAGACAGTGC GCCTGGAGGA CCTGGATGAG AGTGGCAGCT2641 ACTGGGTCAG TGACAAGAGG CTGCCCCCCT GCTCACTCAG CCAGGCCCTC ACCTACTCCC2701 CGGACATCAC CACACCCCCA ACCCAGCTGC TGCTCCAAAA GCTGGCCCAG GTGGCCACAG2761 AAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCC CTCAGAGTAC AGCAAGTGGA2821 6321 AGTTCACCAA CAGCCCCACA TTCCTGGAGG TGCTAGAGGA GTTCCCGTCC CTGCGGGTGT2881 CTGCTGGCTT CCTGCTTTCC CAGCTCCCCA TTCTGAAGCC CAGGTTCTAC TCCATCAGCT2941 CCTCCCGGGA TCACACGCCC ACGGAGATCC ACCTGACTGT GGCCGTGGTC ACCTACCACA3001 CCGGAGATGG CCAGGGTCCC CTGCACCACG GTGTCTGCAG CACATGGCTC AACAGCCTGA3061 AGCCCCAAGA CCCAGTGCCC TGCTTTGTGC GGAATGCCAG CGCCTTCCAC CTCCCCGAGG3121 ATCCCTCCCA TCCTTGCATC CTCATCGGGC CTGGCACAGG CATCGTGCCC TTCCGCAGTT3181 3284 TGGTGTTTGG GTGCCGCCGC CCAGATGAGG ACCACATCTA CCAGGAGGAG ATGCTGGAGA3301 TGGCCCAGAA GGGGGTGCTG CATGCGGTGC ACACAGCCTA TTCCCGCCTG CCTGGCAAGC3361 CCAAGGTCTA TGTTCAGGAC ATCCTGCGGC AGCAGCTGGC CAGCGAGGTG CTCCGTGTGC3421 TCCACAAGGA GCCAGGCCAC CTCTATGTTT GCGGGGATGT GCGCATGGCC CGGGACGTGG3481 CCCACACCCT GAAGCAGCTGGTGGCTGCCA AGCTGAAATT GAATGAGGAG CAGGTCGAGG3541 583601 TTCCTTACGA GGCGAAGAAG GACAGGGTGG CGGTGCAGCC CAGCAGCCTG GAGATGTCAG3661 CGCTCTGAGG GCCTACAGGA GGGGTTAAAG CTGCCGGCAC AGAACTTAAG GATGGAGCCA3721 GCTCTGCATT ATCTGAGGTC ACAGGGCCTG GGGAGATGGA GGAAAGTGAT ATCCCCCAGC3781 CTCAAGTCTT ATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGAC CTCCTAACAA3841 GTAGCACCCT GGATTGATCG GAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGG3901 AGACAAAATC TTAAATGCCA GGCCTGGCGA GTGGGTGAAA GATGGAACTT GCTGCTGAGT3961 824021 TGTACAGTTA TTTATGCCTC TGTATTTAAA AAACTAACAC CCAGTCTGTT CCCCATGGCC40 ACTTGGGTCT TCCCTGTATG ATTCCTTGAT GGAGATATTT ACATGAATTG CATTTTACTT4141 TAATC (2) SEQ ID N0: data at 2508: (i) sequence characteristics:

(A) length: 4077 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2508 sequence description: 1 GAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGG GCAACTTGAA 61 GAGCGTGGCC CAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCT 121 GTGCGGCAAG CAGGGCCCAG CCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT 181 721 CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGA GGAGACTTCC GAATCTGGAA 781 181 ACTCCCACCA GCGCCAGAAC ACAGCCCCCC GAGCTCCCCG CTAACCCAGC CCCCAGAGGG 241 GCCCAAGTTC CCTCGTGTGA AGAACTGGGA GGTGGGGAGC ATCACCTATG ACACCCTCAG 301 CGCCCAGGCG CAGCAGGATG GGCCCTGCAC CCCAAGACGC TGCCTGGGCT CCCTGGTATT 361 TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCG GCCCCTGAGC AGCTGCTGAG 421 TCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCG GCTCCCAGGC 481 CCACGAACAG CGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCT 541 TAGGGAGAGC GAGCTGGTGT TCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT 601 GGGCCGGATC CAGTGGGGGA AGCTGCAGGT GTTCGATGCC CGGGACTGCA GGTCTGCACA 661 GGAAATGTTC ACCTACATCT GCAACCACAT CAAGTATGCC ACCAACCGGG GCAACCTTCG 721 CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGA GGAGACTTCC GAATCTGGAA 781 CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGAC GGCTCTGTGC GGGGGGACCC 841 AGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAG GAAACGGTCG 901 CTTCGACGTG CTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCT 961 GCCCCCCGAG CTGGTCCTTG AGGTGCCCCT GGAGCACCCC ACGCTGGAGT GGTTTGCAGC1021 CCTGGGCCTG CGCTGGTACG CCCTCCCGGC AGTGTCCAAC ATGCTGCTGG AAATTGGGGG1081 CCTGGAGTTC CCCGCAGCCC CCTTCAGTGG CTGGTACATG AGCACTGAGA TCGGCACGAG1141 GAACCTGTGT GACCCTCACC GCTACAACAT CCTGGAGGAT GTGGCTGTCT GCATGGACCT1201 GGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCA GCAGTGGAAA TCAACGTGGC1261 CGTGCTGCAC AGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACG CCGCCACGGC1321 CTCTTTCATG AAGCACCTGG AGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTG1381 GGCCTGGATC GTGCCCCCCA TCTCGGGCAG CCTCACTCCT GTTTTCCATC AGGAGATGGT1441 CAACTATTTC CTGTCCCCGG CCTTCCGCTA CCAGCCAGAC CCCTGGAAGG GGAGTGCCGC1501 CAAGGGCACC GGCATCACCA GGAAGAAGAC CTTTAAAGAA GTGGCCAACG CCGTGAAGAT1561 CTCCGCCTCG CTCATGGGCA CGGTGATGGC GAAGCGAGTG AAGGCGACAA TCCTGTATGG1621 CTCCGAGACC GGCCGGGCCC AGAGCTACGC ACAGCAGCTG GGGAGACTCT TCCGGAAGGC1681 TTTTGATCCC CGGGTCCTGT GTATGGATGA GTATGACGTG GTGTCCCTCG AACACGAGAC1741 GCTGGTGCTG GTGGTAACCA GCACATTTGG GAATGGGGAT CCCCCGGAGA ATGGAGAGAG1801 CTTTGCAGCT GCCCTGATGG AGATGTCCGG CCCCTACAAC AGCTCCCCTC GGCCGGAACA1861 GCACAAGAGT TATAAGATCC GCTTCAACAG CATCTCCTGC TCAGACCCAC TGGTGTCCTC1921 TTGGCGGCGG AAGAGGAAGG AGTCCAGTAA CACAGACAGT GCAGGGGCCC TGGGCACCCT1981 CAGGTTCTGT GTGTTCGGGC TCGGCTCCCG GGCATACCCC CACTTCTGCG CCTTTGCTCG2041 TGCCGTGGAC ACACGGCTGG AGGAACTGGG CGGGGAGCGG CTGCTGCAGC TGGGCCAGGG2101 CGACGAGCTG TGCGGCCAGG AGGAGGCCTT CCGAGGCTGG GCCCAGGCTG CCTTCCAGGC2161 CGCCTGTGAG ACCTTCTGTG TGGGAGAGGA TGCCAAGGCC GCCGCCCGAG ACATCTTCAG2221 CCCCAAACGG AGCTGGAAGC GCCAGAGGTA CCGGCTGAGC GCCCAGGCCG AGGGCCTGCA2281 GTTGCTGCCA GGTCTGATCC ACGTGCACAG GCGGAAGATG TTCCAGGCTA CAATCCGCTC2341 AGTGGAAAAC CTGCAAAGCA GCAAGTCCAC GAGGGCCACC ATCCTGGTGC GCCTGGACAC2401 CGGAGGCCAG GAGGGGCTGC AGTACCAGCC GGGGGACCAC ATAGGTGTCT GCCCGCCCAA2461 CCGGCCCGGC CTTGTGGAGG CGCTGCTGAG CCGCGTGGAG GACCCGCCGG CGCCCACTGA2521 GCCCGTGGCA GTAGAGCAGC TGGAGAAGGG CAGCCCTGGTGGCCCTCCCC CCGGCTGGGT2581 GCGGGACCCC CGGCTGCCCC CGTGCACGCT GCGCCAGGCT CTCACCTTCT TCCTGGACAT2641 CACCTCCCCA CCCAGCCCTC AGCTCTTGCG GCTGCTCAGC ACCTTGGCAG AAGAGCCCAG2701 GGAACAGCAG GAGCTGGAGG CCCTCAGCCA GGATCCCCGA CGCTACGAGG AGTGGAAGTG 5861 GTTCCGCTGC CCCACGCTGC TGGAGGTGCT GGAGCAGTTC CCGTCGGTGG CGCTGCCTGC2821 CCCACTGCTC CTCACCCAGC TGCCTCTGCT CCAGCCCCGG TACTACTCAG TCAGCTCGGC2881 ACCCAGCACC CACCCAGGAG AGATCCACCT CACTGTAGCT GTGCTGGCAT ACAGGACTCA2941 GGATGGGCTG GGCCCCCTGC ACTATGGAGT CTGCTCCACG TGGCTAAGCC AGCTCAAGCC3001 CGGAGACCCT GTGCCCTGCT TCATCCGGGG GGCTCCCTCC TTCCGGCTGC CACCCGATCC3061 CAGCTTGCCC TGCATCCTGG TGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTG3121 GCAGGAGCGG CTGCATGACA TTGAGAGCAA AGGGCTGCAG CCCACTCCCA TGACTTTGGT31 GTTCGGCTGC CGATGCTCCC AACTTGACCA TCTCTACCGC GACGAGGTGC AGAACGCCCA3241 GCAGCGCGGG GTGTTTGGCC GAGTCCTCAC CGCCTTCTCC CGGGAACCTG ACAACCCCAA3301 GACCTACGTG CAGGACATCC TGAGGACGGA GCTGGCTGCG GAGGTGCACC GCGTGCTGTG3361 CCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACC ATGGCAACCA ACGTCCTGCA3421 393481 CATCGGCGTG CTGCGGGATC AGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCG3541 CACCCAGGAG GTGACAAGCC GCATACGCAC CCAGAGCTTT TCCTTGCAGG AGCGTCAGTT3601 GCGGGGCGCA GTGCCCTGGG CGTTCGACCC TCCCGGCTCA GACACCAACA GCCCCTGAGA36 GCCGCCTGGC TTTCCCTTCC AGTTCCGGGA GAGCGGCTGC CCGACTCAGG TCCGCCCGAC3721 CAGGATCAGC CCCGCTCCTC CCCTCTTGAG GTGGTGCCTT CTCACATCTG TCCAGAGGCT3781 GCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCC CTCTCTAGGC3841 CTGTTGCCTC GGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCC3901 AGGGCCTACT GCCACCCGCT TCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT39 CTCAGGAGTA TCTTACCTGT AAAGTCTAAT CTCTAAATCA AGTATTTATT ATTGAAGATT4021 TACCATAAGG GACTGTGCCA GATGTTAGGA GAACTACTAA AGTGCCTACC CCAGCTC (2) SEQ ID NO: data at 2509: (i) sequence characteristics:

(A) length: 9513 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2509 sequence description: 1 CATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT 61 TGTGGCTAAC CCTTGTAATC CTAGCACTTT GAGAGGCTGA AGTGGGCAGA TCACTTGAGC 121 TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCC AGTCTCTACC AAAAACACAA 181 721 CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT 781 181 AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGG AGGCTGAGGT 241 GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCG 301 CTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA 361 TAAATGAAAT GAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT 421 TATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGG 481 ATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCT 541 TTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATC 601 TAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT 661 CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAA 721 CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT 781 TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAAC 841 TGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT 901 GATGTAACAG CAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTA 961 ACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGA1021 CCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACT TCTTGGCTGC1081 CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCA GAGAACTCAG1141 CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGA1201 CAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGA1261 GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C1 CTGCTTTAAA ATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTA GACAGTCCCG 61 AAGTTCTCAA GGCACAGGTC TCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGC 121 AGCCAGCTGC AAGCCCCACA GTGAAGAACA TCTGAGCTCA AATCCAGATA AGTGACATAA 181 GTGACCTGCT TTGTAAAGCC ATAGAGATGG CCTGTCCTTG GAAATTTCTG TTCAAGACCA 241 AATTCCACCA GTATGCAATG AATGGGGAAA AAGACATCAA CAACAATGTG GAGAAAGCCC 301 CCTGTGCCAC CTCCAGTCCA GTGACACAGG ATGACCTTCA GTATCACAAC CTCAGCAAGC 361 AGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAA GAAGTCTCCA GAATCTCTGG 421 TCAAGCTGGA TGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAA AACTGGGGCA 481 GCGGGATGAC TTTCCAAGAC ACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGT 541 CCAAATCTTG CCTGGGGTCC ATTATGACTC CCAAAAGTTT GACCAGAGGA CCCAGGGACA 601 AGCCTACCCC TCCAGATGAG CTTCTACCTC AAGCTATCGA ATTTGTCAAC CAATATTACG 661 GCTCCTTCAA AGAGGCAAAA ATAGAGGAAC ATCTGGCCAG GGTGGAAGCG GTAACAAAGG 721 AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTC GCCACCAAGC 781 AGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCA GTGGTCCAAC CTGCAGGTCT 841 TCGATGCCCG CAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGC AGACACGTGC 901 GTTACTCCAC CAACAATGGC AACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTG 961 ATGGCAAGCA CGACTTCCGG GTGTGGAATG CTCAGCTCAT CCGCTATGCT GGCTACCAGA1021 TGCCAGATGG CAGCATCAGA GGGGACCCTG CCAACGTGGA ATTCACTCAG CTGTGCATCG1081 ACCTGGGCTG GAAGCCCAAG TACGGCCGCT TCGATGTGGT CCCCCTGGTC CTGCAGGCCA1141 ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCT TGTGCTTGAG GTGGCCATGG1201 AACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCC CTGCCTGCAG1261 TGGCCAACAT GCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCT1321 GGTACATGGG CACAGAGATC GGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC1381 TGGAGGAAGT GGGCAGGAGA ATGGGCCTGG AAACGCACAA GCTGGCCTCG CTCTGGAAAG1441 ACCAGGCTGT CGTTGAGATC AACATTGCTG TGATCCATAG TTTTCAGAAG CAGAATGTGA1501 CCATCATGGA CCACCACTCG GCTGCAGAAT CCTTCATGAA GTACATGCAG AATGAATACC1561 GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGT CCCTCCCATG TCTGGGAGCA1621 TCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATC1681 AGGTAGAGGC CTGGAAAACC CATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG1741 AGATTCCATT GAAAGTCTTG GTCAAAGCTG TGCTCTTTGC CTGTATGCTG ATGCGCAAGA1801 CAATGGCGTC CCGAGTCAGA GTCACCATCC TCTTTGCGAC AGAGACAGGA AAATCAGAGG1861 CGCTGGCCTG GGACCTGGGG GCCTTATTCA GCTGTGCCTT CAACCCCAAG GTTGTCTGCA1921 TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCT GCTGTTGGTG GTGACCAGTA1981 CGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCG CTCTTCATGC2041 TGAAAGAGCT CAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACC2101 CTCGGTTCTG CGCCTTTGCT CATGACATTG ATCAGAAGCT GTCCCACCTG GGGGCCTCTC2161 AGCTCACCCC GATGGGAGAA GGGGATGAGC TCAGTGGGCA GGAGGACGCC TTCCGCAGCT2221 GGGCCGTGCA AACCTTCAAG GCAGCCTGTG AGACGTTTGA TGTCCGAGGC AAACAGCACA2281 TTCAGATCCC CAAGCTCTAC ACCTCCAATG TGACCTGGGA CCCGCACCAC TACAGGCTCG2341 24053 2401 TGTTCACCAT GAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCC AGCCGTGCCA2461 CCATCCTGGT GGAACTCTCC TGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGC2521 ACCTTGGGGT TTGCCCAGGC AACCAGCCGG CCCTGGTCCA AGGCATCCTG GAGCGAGTGG TGGATGGCCC CACACCCCAC CAGACAGTGC GCCTGGAGGA CCTGGATGAG AGTGGCAGCT2641 ACTGGGTCAG TGACAAGAGG CTGCCCCCCT GCTCACTCAG CCAGGCCCTC ACCTACTCCC2701 CGGACATCAC CACACCCCCA ACCCAGCTGC TGCTCCAAAA GCTGGCCCAG GTGGCCACAG2761 AAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCC CTCAGAGTAC AGCAAGTGGA2821 2827 2881 CTGCTGGCTT CCTGCTTTCC CAGCTCCCCA TTCTGAAGCC CAGGTTCTAC TCCATCAGCT2941 CCTCCCGGGA TCACACGCCC ACGGAGATCC ACCTGACTGT GGCCGTGGTC ACCTACCACA3001 CCGGAGATGG CCAGGGTCCC CTGCACCACG GTGTCTGCAG CACATGGCTC AACAGCCTGA3061 AGCCCCAAGA CCCAGTGCCC TGCTTTGTGC GGAATGCCAG CGCCTTCCAC CTCCCCGAGG3121 ATCCCTCCCA TCCTTGCATC CTCATCGGGC CTGGCACAGG CATCGTGCCC TTCCGCAGTT3181 TCTGGCAGCA ACGGCTCCAT GACTCCCAGC ACAAGGGAGT GCGGGGAGGC CGCATGACCT3241 TGGTGTTTGG GTGCCGCCGC CCAGATGAGG ACCACATCTA CCAGGAGGAG ATGCTGGAGA3301 TGGCCCAGAA GGGGGTGCTG CATGCGGTGC ACACAGCCTA TTCCCGCCTG CCTGGCAAGC3361 CCAAGGTCTA TGTTCAGGAC ATCCTGCGGC AGCAGCTGGC CAGCGAGGTG CTCCGTGTGC3421 TCCACAAGGA GCCAGGCCAC CTCTATGTTT GCGGGGATGT GCGCATGGCC CGGGACGTGG3481 CCCACACCCT GAAGCAGCTG GTGGCTGCCA AGCTGAAATT GAATGAGGAG CAGGTCGAGG3541 ACTATTTCTT TCAGCTCAAG AGCCAGAAGC GCTATCACGA AGATATCTTC GGTGCTGTAT3601 TTCCTTACGA GGCGAAGAAG GACAGGGTGG CGGTGCAGCC CAGCAGCCTG GAGATGTCAG36 CGCTCTGAGG GCCTACAGGA GGGGTTAAAG CTGCCGGCAC AGAACTTAAG GATGGAGCCA3721 GCTCTGCATT ATCTGAGGTC ACAGGGCCTG GGGAGATGGA GGAAAGTGAT ATCCCCCAGC CTCAAGTCTT ATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGAC CTCCTAACAA3841 GTAGCACCCT GGATTGATCG GAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGG 861 AGACAAAATC TTAAATGCCA GGCCTGGCGA GTGGGTGAAA GATGGAACTT GCTGCTGAGT3961 GCACCACTTC AAGTGACCAC CAGGAGGTGC TATCGCACCA CTGTGTATTT AACTGCCTTG4021 TGTACAGTTA TTTATGCCTC TGTATTTAAA AAACTAACAC CCAGTCTGTT CCCCATGGCC4081 4141 TAATC1 GAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGG GCAACTTGAA 61 GAGCGTGGCC CAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCT 121 GTGCGGCAAG CAGGGCCCAG CCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT 181 ACTCCCACCA GCGCCAGAAC ACAGCCCCCC GAGCTCCCCG CTAACCCAGC CCCCAGAGGG 241 GCCCAAGTTC CCTCGTGTGA AGAACTGGGA GGTGGGGAGC ATCACCTATG ACACCCTCAG 301 CGCCCAGGCG CAGCAGGATG GGCCCTGCAC CCCAAGACGC TGCCTGGGCT CCCTGGTATT 361 TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCG GCCCCTGAGC AGCTGCTGAG 421 TCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCG GCTCCCAGGC 481 CCACGAACAG CGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCT 541 TAGGGAGAGC GAGCTGGTGT TCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT 601 GGGCCGGATC CAGTGGGGGA AGCTGCAGGT GTTCGATGCC CGGGACTGCA GGTCTGCACA 661 GGAAATGTTC ACCTACATCT GCAACCACAT CAAGTATGCC ACCAACCGGG GCAACCTTCG 721 CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGA GGAGACTTCC GAATCTGGAA 781 CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGAC GGCTCTGTGC GGGGGGACCC 841 AGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAG GAAACGGTCG 901 CTTCGACGTG CTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCT 961 GCCCCCCGAG CTGGTCCTTG AGGTGCCCCT GGAGCACCCC ACGCTGGAGT GGTTTGCAGC1021 CCTGGGCCTG CGCTGGTACG CCCTCCCGGC AGTGTCCAAC ATGCTGCTGG AAATTGGGGG1081 CCTGGAGTTC CCCGCAGCCC CCTTCAGTGG CTGGTACATG AGCACTGAGA TCGGCACGAG1141 GAACCTGTGT GACCCTCACC GCTACAACAT CCTGGAGGAT GTGGCTGTCT GCATGGACCT1201 GGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCA GCAGTGGAAA TCAACGTGGC1261 CGTGCTGCAC AGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACG CCGCCACGGC1321 CTCTTTCATG AAGCACCTGG AGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTG1381 GGCCTGGATC GTGCCCCCCA TCTCGGGCAG CCTCACTCCT GTTTTCCATC AGGAGATGGT1441 CAACTATTTC CTGTCCCCGG CCTTCCGCTA CCAGCCAGAC CCCTGGAAGG GGAGTGCCGC1501 CAAGGGCACC GGCATCACCA GGAAGAAGAC CTTTAAAGAA GTGGCCAACG CCGTGAAGAT1561 CTCCGCCTCG CTCATGGGCA CGGTGATGGC GAAGCGAGTG AAGGCGACAA TCCTGTATGG1621 CTCCGAGACC GGCCGGGCCC AGAGCTACGC ACAGCAGCTG GGGAGACTCT TCCGGAAGGC1681 TTTTGATCCC CGGGTCCTGT GTATGGATGA GTATGACGTG GTGTCCCTCG AACACGAGAC1741 GCTGGTGCTG GTGGTAACCA GCACATTTGG GAATGGGGAT CCCCCGGAGA ATGGAGAGAG1801 CTTTGCAGCT GCCCTGATGG AGATGTCCGG CCCCTACAAC AGCTCCCCTC GGCCGGAACA1861 GCACAAGAGT TATAAGATCC GCTTCAACAG CATCTCCTGC TCAGACCCAC TGGTGTCCTC1921 TTGGCGGCGG AAGAGGAAGG AGTCCAGTAA CACAGACAGT GCAGGGGCCC TGGGCACCCT1981 CAGGTTCTGT GTGTTCGGGC TCGGCTCCCG GGCATACCCC CACTTCTGCG CCTTTGCTCG2041 TGCCGTGGAC ACACGGCTGG AGGAACTGGG CGGGGAGCGG CTGCTGCAGC TGGGCCAGGG2101 CGACGAGCTG TGCGGCCAGG AGGAGGCCTT CCGAGGCTGG GCCCAGGCTG CCTTCCAGGC2161 CGCCTGTGAG ACCTTCTGTG TGGGAGAGGA TGCCAAGGCC GCCGCCCGAG ACATCTTCAG2221 CCCCAAACGG AGCTGGAAGC GCCAGAGGTA CCGGCTGAGC GCCCAGGCCG AGGGCCTGCA2281 GTTGCTGCCA GGTCTGATCC ACGTGCACAG GCGGAAGATG TTCCAGGCTA CAATCCGCTC2341 AGTGGAAAAC CTGCAAAGCA GCAAGTCCAC GAGGGCCACC ATCCTGGTGC GCCTGGACAC2401 CGGAGGCCAG GAGGGGCTGC AGTACCAGCC GGGGGACCAC ATAGGTGTCT GCCCGCCCAA2461 CCGGCCCGGC CTTGTGGAGG CGCTGCTGAG CCGCGTGGAG GACCCGCCGG CGCCCACTGA2521 GCCCGTGGCA GTAGAGCAGC TGGAGAAGGG CAGCCCTGGT GGCCCTCCCC CCGGCTGGGT2581 GCGGGACCCC CGGCTGCCCC CGTGCACGCT GCGCCAGGCT CTCACCTTCT TCCTGGACAT2641 CACCTCCCCA CCCAGCCCTC AGCTCTTGCG GCTGCTCAGC ACCTTGGCAG AAGAGCCCAG2701 GGAACAGCAG GAGCTGGAGG CCCTCAGCCA GGATCCCCGA CGCTACGAGG AGTGGAAGTG 5861 GTTCCGCTGC CCCACGCTGC TGGAGGTGCT GGAGCAGTTC CCGTCGGTGG CGCTGCCTGC2821 CCCACTGCTC CTCACCCAGC TGCCTCTGCT CCAGCCCCGG TACTACTCAG TCAGCTCGGC2881 ACCCAGCACC CACCCAGGAG AGATCCACCT CACTGTAGCT GTGCTGGCAT ACAGGACTCA2941 GGATGGGCTG GGCCCCCTGC ACTATGGAGT CTGCTCCACG TGGCTAAGCC AGCTCAAGCC3001 CGGAGACCCT GTGCCCTGCT TCATCCGGGG GGCTCCCTCC TTCCGGCTGC CACCCGATCC3061 CAGCTTGCCC TGCATCCTGG TGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTG3121 GCAGGAGCGG CTGCATGACA TTGAGAGCAA AGGGCTGCAG CCCACTCCCA TGACTTTGGT31 GTTCGGCTGC CGATGCTCCC AACTTGACCA TCTCTACCGC GACGAGGTGC AGAACGCCCA3241 GCAGCGCGGG GTGTTTGGCC GAGTCCTCAC CGCCTTCTCC CGGGAACCTG ACAACCCCAA3301 GACCTACGTG CAGGACATCC TGAGGACGGA GCTGGCTGCG GAGGTGCACC GCGTGCTGTG3361 CCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACC ATGGCAACCA ACGTCCTGCA3421 393481 CATCGGCGTG CTGCGGGATC AGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCG3541 CACCCAGGAG GTGACAAGCC GCATACGCAC CCAGAGCTTT TCCTTGCAGG AGCGTCAGTT3601 GCGGGGCGCA GTGCCCTGGG CGTTCGACCC TCCCGGCTCA GACACCAACA GCCCCTGAGA36 GCCGCCTGGC TTTCCCTTCC AGTTCCGGGA GAGCGGCTGC CCGACTCAGG TCCGCCCGAC3721 CAGGATCAGC CCCGCTCCTC CCCTCTTGAG GTGGTGCCTT CTCACATCTG TCCAGAGGCT3781 GCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCC CTCTCTAGGC3841 CTGTTGCCTC GGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCC3901 AGGGCCTACT GCCACCCGCT TCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT39 CTCAGGAGTA TCTTACCTGT AAAGTCTAAT CTCTAAATCA AGTATTTATT ATTGAAGATT4021 TACCATAAGG GACTGTGCCA GATGTTAGGA GAACTACTAA AGTGCCTACC CCAGCTC (2) SEQ ID NO: 2510, data: (i) sequence characteristics:

(A) length: 11970 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2510 sequence description: 1 AAGCTTCTAC CCTAGTCTGG TGCTACACTT ACATTGCTTA CATCCAAGTG TGGTTATTTC

61 TGTGGCTCCT GTTATAACTA TTATAGCACC AGGTCTATGA CCAGGAGAAT TAGACTGGCA

121 TTAAATCAGA ATAAGAGATT TTGCACCTGC AATAGACCTT ATGACACCTA ACCAACCCCA

181 TTATTTACAA TTAAACAGGA ACAGAGGGAA TACTTTATCC AACTCACACA AGCTGTTTTC

241 CTCCCAGATC CATGCTTTTT TGCGTTTATT ATTTTTTAGA GATGGGGGCT TCACTATGTT

301 GCCCACACTG GACTAAAACT CTGGGCCTCA AGTGATTGTC CTGCCTCAGC CTCCTGAATA

361 GCTGGGACTA CAGGGGCATG CCATCACACC TAGTTCATTT CCTCTATTTA AAATATACAT

421 GGCTTAAACT CCAACTGGGA ACCCAAAACA TTCATTTGCT AAGAGTCTGG TGTTCTACCA

481 CCTGAACTAG GCTGGCCACA GGAATTATAA AAGCTGAGAA ATTCTTTAAT AATAGTAACC

541 AGGCAACATC ATTGAAGGCT CATATGTAAA AATCCATGCC TTCCTTTCTC CCAATCTCCA

601 TTCCCAAACT TAGCCACTGG TTCTGGCTGA GGCCTTACGC ATACCTCCCG GGGCTTGCAC

661 ACACCTTCTT CTACAGAAGA CACACCTTGG GCATATCCTA CAGAAGACCA GGCTTCTCTC

721 TGGTCCTTGG TAGAGGGCTA CTTTACTGTA ACAGGGCCAG GGTGGAGAGT TCTCTCCTGA

781 AGCTCCATCC CCTCTATAGG AAATGTGTTG ACAATATTCA GAAGAGTAAG AGGATCAAGA

841 CTTCTTTGTG CTCAAATACC ACTGTTCTCT TCTCTACCCT GCCCTAACCA GGAGCTTGTC

901 ACCCCAAACT CTGAGGTGAT TTATGCCTTA ATCAAGCAAA CTTCCCTCTT CAGAAAAGAT

961 GGCTCATTTT CCCTCAAAAG TTGCCAGGAG CTGCCAAGTA TTCTGCCAAT TCACCCTGGA

1021 GCACAATCAA CAAATTCAGC CAGAACACAA CTACAGCTAC TATTAGAACT ATTATTATTA

1081 ATAAATTCCT CTCCAAATCT AGCCCCTTGA CTTCGGATTT CACGATTTCT CCCTTCCTCC

1141 TAGAAACTTG ATAAGTTTCC CGCGCTTCCC TTTTTCTAAG ACTACATGTT TGTCATCTTA

1201 TAAAGCAAAG GGGTGAATAA ATGAACCAAA TCAATAACTT CTGGAATATC TGCAAACAAC

1261 AATAATATCA GCTATGCCAT CTTTCACTAT TTTAGCCAGT ATCGAGTTGA ATGAACATAG

1321 AAAAATACAA AACTGAATTC TTCCCTGTAA ATTCCCCGTT TTGACGACGC ACTTGTAGCC

1381 ACGTAGCCAC GCCTACTTAA GACAATTACA AAAGGCGAAG AAGACTGACT CAGGCTTAAG

1441 CTGCCAGCCA GAGAGGGAGT CATTTCATTG GCGTTTGAGT CAGCAAAGGT ATTGTCCTCA

1501 CATCTCTGGC TATTAAAGTA TTTTCTGTTG TTGTTTTTCT CTTTGGCTGT TTTCTCTCAC

1561 ATTGCCTTCT CTAAAGCTAC AGTCTCTCCT TTCTTTTCTT GTCCCTCCCT GGTTTGGTAT

1621 GTGACCTAGA ATTACAGTCA GATTTCAGAA AATGATTCTC TCATTTTGCT GATAAGGACT

1681 GATTCGTTTT ACTGAGGGAC GGCAGAACTA GTTTCCTATG AGGGCATGGG TGAATACAAC

1741 TGAGGCTTCT CATGGGAGGG AATCTCTACT ATCCAAAATT ATTAGGAGAA AATTGAAAAT

1801 TTCCAACTCT GTCTCTCTCT TACCTCTGTG TAAGGCAAAT ACCTTATTCT TGTGGTGTTT

1861 TTGTAACCTC TTCAAACTTT CATTGATTGA ATGCCTGTTC TGGCAATACA TTAGGTTGGG

1921 CACATAAGGA ATACCAACAT AAATAAAACA TTCTAAAAGA AGTTTACGAT CTAATAAAGG

1981 AGACAGGTAC ATAGCAAACT AATTCAAAGG AGCTAGAAGA TGGAGAAAAT GCTGAATGTG

2041 GACTAAGTCA TTCAACAAAG TTTTCAGGAA GCACAAAGAG GAGGGGCTCC CCTCACAGAT

2101 ATCTGGATTA GAGGCTGGCT GAGCTGATGG TGGCTGGTGT TCTCTGTTGC AGAAGTCAAG

2161 ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGGTA AGGAATAAGA

2221 TTTATCTCTT GTGATTTAAT GAGGGTTTCA AGGCTCACCA GAATCCAGCT AGGCATAACA

2281 GTGGCCAGCA TGGGGGCAGG CCGGCAGAGG TTGTAGAGAT GTGTACTAGT CCTGAAGTCA

2341 GAGCAGGTTC AGAGAAGACC CAGAAAAACT AAGCATTCAG CATGTTAAAC TGAGATTACA

2401 TTGGCAGGGA GACCGCCATT TTAGAAAAAT TATTTTTGAG GTCTGCTGAG CCCTACATGA

2461 ATATCAGCAT CAACTTAGAC ACAGCCTCTG TTGAGATCAC ATGCCCTGAT ATAAGAATGG

2521 GTTTTACTGG TCCATTCTCA GGAAAACTTG ATCTCATTCA GGAACAGGAA ATGGCTCCAC

2581 AGCAAGCTGG GCATGTGAAC TCACATATGC AGGCAAATCT CACTCAGATG TAGAAGAAAG

2641 GTAAATGAAC ACAAAGATAA AATTACGGAA CATATTAAAC TAACATGATG TTTCCATTAT

2701 CTGTAGTAAA TACTAACACA AACTAGGCTG TCAAAATTTT GCCTGGATAT TTTACTAAGT

2761 ATAAATTATG AAATCTGTTT TAGTGAATAC ATGAAAGTAA TGTGTAACAT ATAATCTATT2821 TGGTTAAAAT AAAAAGGAAG TGCTTCAAAA CCTTTCTTTT CTCTAAAGGA GCTTAACATT2881 CTTCCCTGAA CTTCAATTAA AGCTCTTCAA TTTGTTAGCC AAGTCCAATT TTTACAGATA2941 AAGCACAGGT AAAGCTCAAA GCCTGTCTTG ATGACTACTA ATTCCAGATT AGTAAGATAT3001 GAATTACTCT ACCTATGTGT ATGTGTAGAA GTCCTTAAAT TTCAAAGATG ACAGTAATGG3061 CCATGTGTAT GTGTGTGACC CACAACTATC ATGGTCATTA AAGTACATTG GCCAGAGACC3121 ACATGAAATA ACAACAATTA CATTCTCATC ATCTTATTTT GACAGTGAAA ATGAAGAAGA3181 3229 3241 GGACTGCTAT TCTTACACAG TGGTTTCTTC ATCCAAAGAG AACAGCAATG ACTTGAATCT3301 TAAATACTTT TGTTTTACCC TCACTAGAGA TCCAGAGACC TGTCTTTCAT TATAAGTGAG3361 ACCAGCTGCC TCTCTAAACT AATAGTTGAT GTGCATTGGC TTCTCCCAGA ACAGAGCAGA3421 ACTATCCCAA ATCCCTGAGA ACTGGAGTCT CCTGGGGCAG GCTTCATCAG GATGTTAGTT3481 ATGCCATCCT GAGAAAGCCC CGCAGGCCGC TTCACCAGGT GTCTGTCTCC TAACGTGATG3541 TGTTGTGGTT GTCTTCTCTG ACACCAGCAT CAGAGGTTAG AGAAAGTCTC CAAACATGAA3601 GCTGAGAGAG AGGAAGCAAG CCAGCTGAAA GTGAGAAGTC TACAGCCACT CATCAATCTG3661 TGTTATTGTG TTTGGAGACC ACAAATAGAC ACTATAAGTA CTGCCTAGTA TGTCTTCAGT3721 ACTGGCTTTA AAAGCTGTCC CCAAAGGAGT ATTTCTAAAA TATTTTGAGC ATTGTTAAGC3781 AGATTTTTAA CCTCCTGAGA GGGAACTAAT TGGAAAGCTA CCACTCACTA CAATCATTGT3841 TAACCTATTT AGTTACAACA TCTCATTTTT GAGCATGCAA ATAAATGAAA AAGTCTTCCT3901 AAAAAAATCA TCTTTTTATC CTGGAAGGAG GAAGGAAGGT GAGACAAAAG GGAGAGAGGG3961 AGGGAAGCCT AATGAAACAC CAGTTACCTA AGACCAGAAT GGAGATCCTC CTCACTACCT4021 CTGTTGAATA CAGCACCTAC TGAAAGAACT TTCATTCCCT GACCATGAAC AGCCTCTCAG4081 4141 864201 4201 TACCTTCAAG GAGAGCATGG TGGTAGTAGC AACCAACGGG AAGGTTCTGA AGAAGAGACG4261 GTTGAGTTTA AGCCAATCCA TCACTGATGA TGACCTGGAG GCCATCGCCA ATGACTCAGA4321 GGAAGGTAAG GGGTCAAGCA CAATAATATC TTTCTTTTAC AGTTTTAAGC AAGTAGGGAC4381 AGTAGAATTT AGGGGAAAAT TAAACGTGGA GTCAGAATAA CAAGAAGACA ACCAAGCATT4441 AGTCTGGTAA CTATACAGAG GAAAATTAAT TTTTATCCTT CTCCAGGAGG GAGAAATGAG4501 CAGTGGCCTG AATCGAGAAT ACTTGCTCAC AGCCATTATT TCTTAGCCAT ATTGTAAAGG4561 TCGTGTGACT TTTAGCCTTT CAGGAGAAAG CAGTAATAAG ACCACTTACG AGCTATGTTC4621 CTCTCATACT AACTATGCCT CCTTGGTCAT GTTACATAAT CTTTTCGTGA TTCAGTTTCC4681 TCTACTGTAA AATGGAGATA ATCAGAATCC CCCACTCATT GGATTGTTGT AAAGATTAAG4741 AGTCTCAGGC TTTACAGACT GAGCTAGCTG GGCCCTCCTG ACTGTTATAA AGATTAAATG4801 AGTCAACATC CCCTAACTTC TGGACTAGAA TAATGTCTGG TACAAAGTAA GCACCCAATA4861 AATGTTAGCT ATTACTATCA TTATTATTAT TATTTTATTT TTTTTTTTTG AGATGGAGTC4921 TGGCTCTGTC ACCCAGGCTG GAGTGCAGTG GCACAATCTC GGCTCACTGC AAGCTCTGCC4981 TCCTGGGTTC ATGCCATTCT CCTGCCTCAG CCTCCCGAGT AAGCTGGGAA TACAGGCACC5041 CGCCACTGTT CCCGGCTAAT TTTTTGTATT TTTAGTAGAG ACGGAGTTTC ACCGTGGTCT5101 CCATCTCCTC GTGATCCACC CACCTTGGCC TCCCAAAGTG CCGGGATTAC AGGCGTGAGC5161 CACCGCGCCC GGCCTATTAT TATTATTATT ACTACTACTA CTACCTATAT GAATACTACC5221 AGCAATACTA ATTTATTAAT GACTGGATTA TGTCTAAACC TCACAAGAAT CCTACCTTCT5281 CATTTTACAT AAAAGGAAAC TAAGCTCATT GAGATAGGTA AACTGCCCAA TGGCATACAT5341 CTGTAAGTGG GAGAGCCTCA AATCTAATTC AGTTCTACCT GAGTAAAAAA ATCATGGTTT5401 CTCCTCCATC CCTTTACTGT ACAAGCCTCC ACATGAACTA TAAACCCAAT ATTCCTGTTT5461 TTAAGATAAT ACCTAAGCAA TAACGCATGT TCACCTAGAA GGTTTTAAAA TGTAACAAAA5521 TATAAGAAAA TAAAAATCAC TCATATCGTC AGTGAGAGTT TACTACTGCC AGCACTATGG5581 TATGTTTCCT TAAAATCTTT GCTATACACA TACCTACATG TGAACAAATA TGTCTAACAT5641 CAAGACCACA CTATTTACAA CTTTATATCC AGCTTTTCTT ACTTAGCAAT GTATTGAGGA5701 CATTTTAGAG TGCCCGTTTT TCACCATTAT AAGCAATGCA ACAATGAACA TCTGTATAAA5761 TAAATATTCA TTTCTCTCAC CCTTTATTTC CTTAGAATAT ATTCCTAGAA GTAGAATTTC5821 CCAGAGCCAT GAGGATTTGT GACGCTATTG ATATGTGCCA CTTTGCACTC TCTGTGACAT5881 ATATAATTAT TTTTAATGCA TTCATTTTTT TCTCAGAGTG CATTCGTTTG AAAACATAGA5941 CGGGAAATAC TGGTAGTCTT CCTTGTCAGT TAGAAACACC CAAACAATGA AAAATGAAAA6001 AGTTGCACAA ATAGTCTCTA AAAACAATGA AACTATTGCC TGAGGAATTG AAGTTTAAAA6061 AGAAGCACAT AAGCAACAAC AAGGATAATC CTAGAAAACC AGTTCTGCTG ACTGGGTGAT6121 TTCACTTCTC TTTGCTTCCT CATCTGGATT GGAATATTCC TAATACCCCC TCCAGAACTA6181 TTTTCCCTGT TTGTACTAGA CTGTGTATAT CATCTGTGTT TGTACATAGA CATTAATCTG6241 CACTTGTGAT CATGGTTTTA GAAATCATCA AGCCTAGGTC ATCACCTTTT AGCTTCCTGA6301 GCAATGTGAA ATACAACTTT ATGAGGATCA TCAAATACGA ATTCATCCTG AATGACGCCC6361 TCAATCAAAG TATAATTCGA GCCAATGATC AGTACCTCAC GGCTGCTGCA TTACATAATC6421 TGGATGAAGC AGGTACATTA AAATGGCACC AGACATTTCT GTCATCCTCC CCTCCTTTCA6481 TTTACTTATT TATTTATTTC AATCTTTCTG CTTGCAAAAA ACATACCTCT TCAGAGTTCT6541 GGGTTGCACA ATTCTTCCAG AATAGCTTGA AGCACAGCAC CCCCATAAAA ATCCCAAGCC6601 AGGGCAGAAG GTTCAACTAA ATCTGGAAGT TCCACAAGAG AGAAGTTTCC TATCTTTGAG6661 6721 TTACCCTCAA TTTTAAAACT GAGGAAACTG TCAGACATAT TAAATGATTT ACTCAGATTT6781 6 ACCCAGAAGC CAATGAAGAA CAATCACTCT CCTTTAAAAA GTCTGTTGAT CAAACTCACA6841 AGTAACACCA AACCAGGAAG ATCTTTATTA TCTCTGATAA CATATTTGTG AGGCAAAACC6901 TCCAATAAGC TACAAATATG GCTTAAAGGA TGAAGTTTAG TGTCCAAAAA CTTTTATCAC6961 ACACATCCAA TTTTCATGGC GGACATGTTT TAGTTTCAAC AGTATACATA TTTTCAAAGG 7058 TAACATGCTT TCAACTCTAC ATTTACAAAT TATTTTGTGT TCTATTTTTC TACTTAATAT7141 TATTTCTGCA ATTTTCCCAA TATTGACATC GTGTATGTAT TTGCCATTTT TAATATCACT7201 AGACAATTCA ATCAGGTTGC TACGTTGGTC CCTTGGGTTT ACTCTAAATA GCTTGATTGC 7227 7321 CAAAGAGGAA TGCCTAGATC AATGGGCACA AATAATTTGA CAGCTCTTAT TAAACATTAT7381 TCTGTAAGTA AAAACTGAAC TACTTTTCAG TATCACTAGC AACATATGAG TGTATCAGCT7441 TCCTAAACCC CTCCATGTTA GGTCATTATG AACTTATGAT CTAACAAATT ACAGGGTCTT7501 ATCCCACTAA TGAAATTATA AGAGATTCAA CACTTATTCA GCCCCGAAGG ATTCATTCAA7561 CGTAGAAAAT TCTAAGAACA TTAACCAAGT ATTTACCTGC CTAGTGAGTG TGGAAGACAT7621 TGTGAAGGAC ACAAAGATGT ATAGAATTCC ATTCCTGACT TCCAGGTATT TACACCATAG7681 GTGGGGACCT AACTACACAC ACACACACAC ACACACACAC ACACACACAC ACCATGCACA7741 CACAATCTAC ATCAACACTT GATTTTATAC AAATACAATG AATTTACTTT CTTTTTGGTT7801 CTTCTCTTCA CCAGTGAAAT TTGACATGGG TGCTTATAAG TCATCAAAGG ATGATGCTAA7861 AATTACCGTG ATTCTAAGAA TCTCAAAAAC TCAATTGTAT GTGACTGCCC AAGATGAAGA7921 CCAACCAGTG CTGCTGAAGG TCAGTTGTCC TTTGTCTCCA ACTTACCTTC ATTTACATCT CATATGTTTG TAAATAAGCC CAATAGGCAG ACACCTCTAA CAAGGTGACA CTGTCCTCTT8041 TCCTTCCTAC CACAGCCCCC ACCTACCCAC CCCACTCCCA TTGATTCCAG AGGCGTGCCT8101 AGGCAGGATC TATGAGAAAA TATAACAGAG AGTAAGAGGA AAATTACCTT CTTTCTTTTT8161 CCTTTCCCTG CCTGACCTTA TTCACCTCCC ATCCCAGAGC ATCCATTTAT TCCATTGATC8221 TTTACTGACA TCTATTATCT GACCTACACA ATACTAGACA TTAGGACAAT GTGGCCTGCC8281 TCCAAGAAAC TCAAATAAGC CAACTGAGAT CAGAGAGGAT TAATCACCTG CCAATGGGCA8341 CAAAGCAACA AGCTGGGAGC CAAGTCCCAA AATGGGGCCT GCTGCTTCCA GTTCCCCTCT8401 CTCTGCATTG ATGTCAGCAT TATCCTTCGT CCCAGTCCTG TCTCCACTAC CACTTTCCCC 8458 8521 AATTTGTAAG TATATAATCC AAGACCTTCT ATTCCCAAGT AGAATTTATG TGCCTGCCTG 856381 TGCTTTTCTA CCTGGATCAA GTGATGTCTA CAGAGTAGGG CAGTAGCTTC ATTCATGAAC8641 TCATTCAACA AGCATTATTC ACTGAGAGCC TTGTATTTTT CAGGCATAGT GCCAACAGCA8701 GTGTGGACAG TGGTGCATCA AAGCCTCTAG TCTCATAGAA CTTAGTCTTC TGGAGGATAT8761 GGAAAACAGA CAACCCAAAC AACCAACAAA AGAGCAAGAT GCTGCAAAAA AAAAAAAAAT8821 GAATAGGGTG CTAAGATAGA GAAAAGTGGG AGAGTGCTAT TTAGACAAAG TGGTAAAAAC8881 AAAGCCCCTT GTGAGATGAG AGCTGCCGAC AGAGGGGGCG GGTCATGGTT GTGGGTTTTT8941 9001 GAGGAGGGGG CGGGTCGTGG TTGTGGGTTT TTGGGTAGGA CATTCAGAGG AGGGGGCGGG9061 TCGTGGTTGT GGGTTTTTGG GTAGGACATT CAGAGGAGGG GGCGGGTCGT GGTTGTGGGT9121 TTTTGGGACA TTCAGAGGAG TCTGAATGCA CCCAGGCCTA CAACTTCAAG ATGGTAAAGG9181 ACAGCTCCAA GGATCAGAAG AAGCATTCTT GGAACTGGGG CATTTTGAGA AGGAGGAAAA9241 ATATGCAGAG ACTAGTGCTT GCAGAGCTTG CATTTGGATT TCATTTGAGG TACAATGAAA9301 ACCCATTAAT GGGTTTCACA CAGTGCAATG GCCTGACCTC ACTTATATTT CCTAAAATAG9361 AAAACAGATC AGAAGGAAGG CAATAGAGAA GCAGAAAGTC CAATGAGGAG GTTTCACAGC9421 AGTCATGGGG GTGGGGTAAG GAAAAGAAGT GGAAAGAAAC AGACAGAATT GGGTTATATT9481 TTGGAGATAG AACCAACAGA AGGAAGAGGA GAAACAACAT TTACTGAGAA GGGAAAAAGT9541 AGGAGAGGAA TAGGTTTGGG AAATAAATCC TGCTGACATT GGAAACCCCA AGGAAGCCTC9601 AAAAGTATAT TTACTTGCTT TAGATTTAAA AGAATAGGAA AGAAGCATCT CAACTTGGAA9661 TTTGAAATCT ATTTTTCCAT AAAAGTATTG TTAAATTCTA CTCATACTCA CAAGAAAAGT9721 ACATTCTAAA GAGTATATTG AAAGAGTTTA CTGATATACT TAGGAATTTT GTGTGTATGT 9781 829841 AATGTCATCT AAATGCTAAA TTGATTTCCC AAAGGTATGA TTTGTTCACT TGGAGATCAA 9901 AATGTTTAGG GGGCTTAGAA TCACTGTAGT GCTCAGATTT GATGCAAAAT GTCTTAGGCC 9961 TATGTTGAAG GCAGGACAGA AACAATGTTT CCCTCCTACC TGCCTGGATA CAGTAAGATA10021 CTAGTGTCAC TGACAATCTT CATAACTAAT TTAGATCTCT CTCCAATCAA CTAAGGAAAT10081 CAACTCTTAT TAATAGACTG GGCCACACAT CTACTAGGCA TGTAATAAAT GCTTGCTGAA10141 TGAACAAATG AATGAAGAGC CTATAGCATC ATGTTACAGC CATAGTCCTA AAGTGGTGTT10201 TCTCATGAAG GCCAAATGCT AAGGGATTGA GCTTCAGTCC TTTTTCTAAC ATCTTGTTCT10261 CTAACAGAAT TCTCTTCTTT TCTTCATAGG AGATGCCTGA GATACCCAAA ACCATCACAG10321 GTAGTGAGAC CAACCTCCTC TTCTTCTGGG AAACTCACGG CACTAAGAAC TATTTCACAT10381 CAGTTGCCCA TCCAAACTTG TTTATTGCCA CAAAGCAAGA CTACTGGGTG TGCTTGGCAG10441 GGGGGCCACC CTCTATCACT GACTTTCAGA TACTGGAAAA CCAGGCGTAG GTCTGGAGTC10501 TCACTTGTCT CACTTGTGCA GTGTTGACAG TTCATATGTA CCATGTACAT GAAGAAGCTA10561 AATCCTTTAC TGTTAGTCAT TTGCTGAGCA TGTACTGAGC CTTGTAATTC TAAATGAATG10621 TTTACACTCT TTGTAAGAGT GGAACCAACA CTAACATATA ATGTTGTTAT TTAAAGAACA10681 10668 10681 CCCTATATTT TGCATAGTAC CAATCATTTT AATTATTATT CTTCATAACA ATTTTAGGAG10741 GACCAGAGCT ACTGACTATG GCTACCAAAA AGACTCTACC CATATTACAG ATGGGCAAAT10801 10826 10801 TAAGGCATAA GAAAACTAAG AAATATGCAC AATAGCAGTT GAAACAAGAA GCCACAGACC10861 10828 10861 TAGGATTTCA TGATTTCATT TCAACTGTTT GCCTTCTGCT TTTAAGTTGC TGATGAACTC10921 TTAATCAAAT AGCATAAGTT TCTGGGACCT CAGTTTTATC ATTTTCAAAA TGGAGGGAAT10981 109 10981 AATACCTAAG CCTTCCTGCC GCAACAGTTT TTTATGCTAA TCAGGGAGGT CATTTTGGTA11041 AAATACTTCT CGAAGCCGAG CCTCAAGATG AAGGCAAAGC ACGAAATGTT ATTTTTTAAT11101 TATTATTTAT ATATGTATTT ATAAATATAT TTAAGATAAT TATAATATAC TATATTTATG11161 GGAACCCCTT CATCCTCTGA GTGTGACCAG GCATCCTCCA CAATAGCAGA CAGTGTTTTC11221 TGGGATAAGT AAGTTTGATT TCATTAATAC AGGGCATTTT GGTCCAAGTT GTGCTTATCC11281 112 11281 CATAGCCAGG AAACTCTGCA TTCTAGTACT TGGGAGACCT GTAATCATAT AATAAATGTA11341 CATTAATTAC CTTGAGCCAG TAATTGGTCC GATCTTTGAC TCTTTTGCCA TTAAACTTAC11401 CTGGGCATTC TTGTTTCATT CAATTCCACC TGCAATCAAG TCCTACAAGC TAAAATTAGA11461 TGAACTCAAC TTTGACAACC ATGAGACCAC TGTTATCAAA ACTTTCTTTT CTGGAATGTA11521 ATCAATGTTT CTTCTAGGTT CTAAAAATTG TGATCAGACC ATAATGTTAC ATTATTATCA11581 ACAATAGTGA TTGATAGAGT GTTATCAGTC ATAACTAAAT AAAGCTTGCA ACAAAATTCT11641 CTGACACATA GTTATTCATT GCCTTAATCA TTATTTTACT GCATGGTAAT TAGGGACAAA11701 TGGTAAATGT TTACATAAAT AATTGTATTT AGTGTTACTT TATAAAATCA AACCAAGATT11761 TTATATTTTT TTCTCCTCTT TGTTAGCTGC CAGTATGCAT AAATGGCATT AAGAATGATA11821 ATATTTCCGG GTTCACTTAA AGCTCATATT ACACATACAC AAAACATGTG TTCCCATCTT11881 TATACAAACT CACACATACAGAGCTACATT AAAAACAACT AATAGGCCAG GCACGGTGGC11941 TCAGACCTGT AATCCCAGCA CTTTGGGAGG (2) SEQ ID NO: 2511, data: (i) sequence characteristics:

(A) length: 1497 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2511 sequence description: 1 ACCAACCTCT TCGAGGCACA AGGCACAACA GGCTGCTCTG GGATTCTCTT CAGCCAATCT 61 TCATTGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TGAGCTCGCC AGTGAAATGA121 TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA181 TGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA241 TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG301 ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA361 CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG421 CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA481 AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA541 TGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA601 TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG661 ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG721 AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCC 781 AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG 841 GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG 901 AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG 961 GAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC1021 CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA1081 GCTCTCTCCT TTCAGGGCCA ATCCCCAGCC CTTTTGTTGA GCCAGGCCTC TCTCACCTCT1141 CCTACTCACT TAAAGCCCGC CTGACAGAAA CCACGGCCAC ATTTGGTTCT AAGAAACCCT1201 CTGTCATTCG CTCCCACATT CTGATGAGCA ACCGCTTCCC TATTTATTTA TTTATTTGTT1261 TGTTTGTTTT ATTCATTGGT CTAATTTATT CAAAGGGGGC AAGAAGTAGC AGTGTCTGTA1321 AAAGAGCCTA GTTTTTAATA GCTATGGAAT CAATTCAATT TGGACTGGTGTGCTCTCTTT1381 AAATCAAGTC CTTTAATTAA GACTGAAAAT ATATAAGCTC AGATTATTTA AATGGGAATA1441 TTTATAAATG AGCAAATATC ATACTGTTCA ATGGTTCTGA AATAAACTTC TCTGAAG (2) SEQ ID NO: 2512, data: (i) sequence characteristics:

(A) length: 9721 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2512 sequence description: 1 AGAAAGAAAG AGAGAGAGAA AGAAAAGAAA GAGGAAGGAA GGAAGGAAGG AAGAAAGACA 61 GGCTCTGAGG AAGGTGGCAG TTCCTACAAC GGGAGAACCA GTGGTTAATT TGCAAAGTGG 121 ATCCTGTGGA GGCANNCAGA GGAGTCCCCT AGGCCACCCA GACAGGGCTT TTAGCTATCT 181 721 GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCT 781 181 GCAGGCCAGA CACCAAATTT CAGGAGGGCT CAGTGTTAGG AATGGATTAT GGCTTATCAA 241 ATTCACAGGA AACTAACATG TTGAACAGCT TTTAGATTTC CTGTGGAAAA TATAACTTAC 301 TAAAGATGGA GTTCTTGTGA CTGACTCCTG ATATCAAGAT ACTGGGAGCC AAATTAAAAA 361 TCAGAAGGCT GCTTGGAGAG CAAGTCCATG AAATGCTCTT TTTCCCACAG TAGAACCTAT 421 TTCCCTCGTG TCTCAAATAC TTGCACAGAG GCTCACTCCC TTGGATAATG CAGAGCGAGC 481 ACGATACCTG GCACATACTA ATTTGAATAA AATGCTGTCA AATTCCCATT CACCCATTCA 541 AGCAGCAAAC TCTATCTCAC CTGAATGTAC ATGCCAGGCA CTGTGCTAGA CTTGGCTCAA 601 AAAGATTTCA GTTTCCTGGA GGAACCAGGA GGGCAAGGTT TCAACTCAGT GCTATAAGAA 661 GTGTTACAGG CTGGACACGG TGGCTCACGC CTGTAATCCC AACATTTGGG AGGCCGAGGC 721 GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCT 781 CTACTAAAAA TACAAAAAAT TAGCCGGGCG TTGGCGGCAG GTGCCTGTAG TCCCAGCTGC 841 TGGGGAGGCT GAGGCAGGAG AATGGTGTGA ACCCGGGAGG CGGAACTTGC AGGGGGCCGA 901 GATCGTGCCA CTGCACTCCA GCCTGGGCGA CAGAGTGAGA CTCTGTCTCA AAAAAAAAAA 961 AAAAGTGTTA TGATGCAGAC CTGTCAAAGA GGCAAAGGAG GGTGTTCCTA CACTCCAGGC1021 ACTGTTCATA ACCTGGACTC TCATTCATTC TACAAATGGA GGGCTCCCCT GGGCAGATCC1081 CTGGAGCAGG CACTTTGCTG GTGTCTCGGT TAAAGAGAAA CTGATAACTC TTGGTATTAC1141 CAAGAGATAG AGTCTCAGAT GGATATTCTT ACAGAAACAA TATTCCCACT TTTCAGAGTT1201 CACCAAAAAA TCATTTTAGG CAGAGCTCAT CTGGCATTGA TCTGGTTCAT CCATGAGATT1261 GGCTAGGGTA ACAGCACCTG GTCTTGCAGG GTTGTGTGAG CTTATCTCCA GGGTTGCCCC1321 AACTCCGTCA GGAGCCTGAA CCCTGCATAC CGTATGTTCT CTGCCCCAGC CAAGAAAGGT1381 CAATTTTCTC CTCAGAGGCT CCTGCAATTG ACAGAGAGCT CCCGAGGCAG AGAACAGCAC1441 CCAAGGTAGA GACCCACACC CTCAATACAG ACAGGGAGGG CTATTGGCCC TTCATTGTAC1501 CCATTTATCC ATCTGTAAGT GGGAAGATTC CTAAACTTAA GTACAAAGAA GTGAATGAAG1561 AAAAGTATGT GCATGTATAA ATCTGTGTGT CTTCCACTTT GTCCCACATA TACTAAATTT1621 AAACATTCTT CTAACGTGGG AAAATCCAGT ATTTTAATGT GGACATCAAC TGCACAACGA1681 TTGTCAGGAA AACAATGCAT ATTTGCATGG TGATACATTT GCAAAATGTG TCATAGTTTG1741 CTACTCCTTG CCCTTCCATG AACCAGAGAA TTATCTCAGT TTATTAGTCC CCTCCCCTAA1801 GAAGCTTCCA CCAATACTCT TTTCCCCTTT CCTTTAACTT GATTGTGAAA TCAGGTATTC1861 AACAGAGAAA TTTCTCAGCC TCCTACTTCT GCTTTTGAAA GCTATAAAAA CAGCGAGGGA1921 GAAACTGGCA GATACCAAAC CTCTTCGAGG CACAAGGCAC AACAGGCTGC TCTGGGATTC1981 TCTTCAGCCA ATCTTCATTG CTCAAGTATG ACTTTAATCT TCCTTACAAC TAGGTGCTAA2041 GGGAGTCTCT CTGTCTCTCT GCCTCTTTGT GTGTATGCAT ATTCTCTCTC TCTCTCTCTT2101 TCTTTCTCTG TCTCTCCTCT CCTTCCTCTC TGCCTCCTCT CTCAGCTTTT TGCAAAAATG2161 CCAGGTGTAA TATAATGCTT ATGACTCGGG AAATATTCTG GGAATGGATA CTGCTTATCT2221 AACAGCTGAC ACCCTAAAGG TTAGTGTCAA AGCCTCTGCT CCAGCTCTCC TAGCCAATAC2281 ATTGCTAGTT GGGGTTTGGT TTAGCAAATG CTTTTCTCTA GACCCAAAGG ACTTCTCTTT2341 CACACATTCA TTCATTTACT CAGAGATCAT TTCTTTGCAT GACTGCCATG CACTGGATGC2401 TGAGAGAAAT CACACATGAA CGTAGCCGTC ATGGGGAAGT CACTCATTTT CTCCTTTTTA2461 CACAGGTGTC TGAAGCAGCC ATGGCAGAAG TACCTGAGCT CGCCAGTGAA ATGATGGCTT2521 ATTACAGGTC AGTGGAGACG CTGAGACCAG TAACATGAGC AGGTCTCCTC TTTCAAGAGT2581 AGAGTGTTAT CTGTGCTTGG AGACCAGATT TTTCCCCTAA ATTGCCTCTT TCAGTGGCAA2641 ACAGGGTGCC AAGTAAATCT GATTTAAAGA CTACTTTCCC ATTACAAGTC CCTCCAGCCT2701 TGGGACCTGG AGGCTATCCA GATGTGTTGT TGCAAGGGCT TCCTGCAGAG GCAAATGGGG2761 AGAAAAGATT CCAAGCCCAC AATACAAGGA ATCCCTTTGC AAAGTGTGGC TTGGAGGGAG2821 AGGGAGAGCT CAGATTTTAG CTGACTCTGC TGGGCTAGAG GTTAGGCCTC AAGATCCAAC2881 AGGGAGCACC AGGGTGCCCA CCTGCCAGGC CTAGAATCTG CCTTCTGGAC TGTTCTGCGC2941 ATATCACTGT GAAACTTGCC AGGTGTTTCA GGCAGCTTTG AGAGGCAGGC TGTTTGCAGT3001 TTCTTATGAA CAGTCAAGTC TTGTACACAG GGAAGGAAAA ATAAACCTGT TTAGAAGACA3061 TAATTGAGAC ATGTCCCTGT TTTTATTACA GTGGCAATGA GGATGACTTG TTCTTTGAAG3121 CTGATGGCCC TAAACAGATG AAGGTAAGAC TATGGGTTTA ACTCCCAACC CAAGGAAGGG3181 CTCTAACACA GGGAAAGCTC AAAGAAGGGA GTTCTGGGCC ACTTTGATGC CATGGTATTT3241 TGTTTTAGAA AGACTTTAAC CTCTTCCAGT GAGACACAGG CTGCACCACT TGCTGACCTG3301 GCCACTTGGT CATCATATCA CCACAGTCAC TCACTAACGT TGGTGGTGGT GGCCACACTT3361 GGTGGTGACA GGGGAGGAGT AGTGATAATG TTCCCATTTC ATAGTAGGAA GACAACCAAG3421 TCTTCAACAT AAATTTGATT ATCCTTTTAA GAGATGGATT CAGCCTATGC CAATCACTTG3481 AGTTAAACTC TGAAACCAAG AGATGATCTT GAGAACTAAC ATATGTCTAC CCCTTTTGAG3541 593601 CAAAAAGATG AATTGAGACT TGAAAGAAAA CCATTCACTT GCTGTTTGAC CTTGACAAGT3661 CATTTTACCC GCTTTGGACC TCATCTGAAA AATAAAGGGC TGAGCTGGAT GATCTCTGAG3721 ATTCCAGCAT CCTGCAACCT CCAGTTCTGA AATATTTTCA GTTGTAGCTA AGGGCATTTG3781 GGCAGCAAAT GGTCATTTTT CAGACTCATC CTTACAAAGA GCCATGTTAT ATTCCTGCTG3841 TCCCTTCTGT TTTATATGAT GCTCAGTAGC CTTCCTAGGT GCCCAGCCAT CAGCCTAGCT3901 AGGTCAGTTG TGCAGGTTGG AGGCAGCCAC TTTTCTCTGG CTTTATTTTA TTCCAGTTTG 398661 TGATAGCCTC CCCTAGCCTC ATAATCCAGT CCTCAATCTT GTTAAAAACA TATTTCTTTA4021 GAAGTTTTAA GACTGGCATA ACTTCTTGGC TGCAGCTGTG GGAGGAGCCC ATTGGCTTGT CTGCCTGGCC TTTGCCCCCC ATTGCCTCTT CCAGCAGCTT GGCTCTGCTC CAGGCAGGAA4141 ATTCTCTCCT GCTCAACTTT CTTTTGTGCA CTTACAGGTC TCTTTAACTG TCTTTCAAGC4201 CTTTGAACCA TTATCAGCCT TAAGGCAACC TCAGTGAAGC CTTAATACGG AGCTTCTCTG4261 AATAAGAGGA AAGTGGTAAC ATTTCACAAA AAGTACTCTC ACAGGATTTG CAGAATGCCT4321 ATGAGACAGT GTTATGAAAA AGGAAAAAAA AGAACAGTGT AGAAAAATTG AATACTTGCT4381 GAGTGAGCAT AGGTGAATGG AAAATGTTAT GGTCATCTGC ATGAAAAAGC AAATCATAGT4441 GTGACAGCAT TAGGGATACA AAAAGATATA GAGAAGGTAT ACATGTATGG TGTAGGTGGG4501 GCATGTACAA AAAGATGACA AGTAGAATCG GGATTTATTC TAAAGAATAG CCTGTAAGGT4561 GTCCAGAAGC CACATTCTAG TCTTGAGTCT GCCTCTACCT GCTGTGTGCC CTTGAGTACA4621 CCCTTAACCT CCTTGAGCTT CAGAGAGGGA TAATCTTTTT ATTTTATTTT ATTTTATTTT4681 GTTTTGTTTT GTTTTGTTTT GTTTTATGAG ACAGAGTCTC ACTCTGTTGC CCAGGCTGGA4741 GTGCAGTGGT ACAATCTTGG CTTACTGCAT CCTCCACCTC CTGAGTTCAA GCGATTCTCC4801 TTCCTCAGTC TCCTGAATAG CTAGGATTAC AGGTGCACCC CACCACACCC AGCTAATTTT4861 TGTATTTTTA GTAGAGAAGG GGTTTCGCCA TGTTGGCCAG GCTGGTTTTG AAGTCCTGAC4921 CTAAATGATT CATCCACCTC GGCTTCCCAA AGTGCTGGGA TTACAGGCAT GAGCCACCAC4981 GCCTGGCCCA GAGAGGGATG ATCTTTAGAA GCTCGGGATT CTTTCAAGCC CTTTCCTCCT5041 CTCTGAGCTT TCTACTCTCT GATGTCAAAG CATGGTTCCT GGCAGGACCA CCTCACCAGG5101 CTCCCTCCCT CGCTCTCTCC GCAGTGCTCC TTCCAGGACC TGGACCTCTG CCCTCTGGAT5161 51 5161 GGCGGCATCC AGCTACGAAT CTCCGACCAC CACTACAGCA AGGGCTTCAG GCAGGCCGCG5221 TCAGTTGTTG TGGCCATGGA CAAGCTGAGG AAGATGCTGG TTCCCTGCCC ACAGACCTTC5281 829 5281 CAGGAGAATG ACCTGAGCAC CTTCTTTCCC TTCATCTTTG AAGAAGGTAG TTAGCCAAGA5341 GCAGGCAGTA GATCTCCACT TGTGTCCTCT TGGAAGTCAT CAAGCCCCAG CCAACTCAAT5401 TCCCCCAGAG CCAAAGCCCT TTAAAGGTAG AAGGCCCAGC GGGGAGACAA AACAAAGAAG5461 GCTGGAAACC AAAGCAATCA TCTCTTTAGT GGAAACTATT CTTAAAGAAG ATCTTGATGG5521 CTACTGACAT TTGCAACTCC CTCACTCTTT CTCAGGGGCC TTTCACTTAC ATTGTCACCA5581 GAGGTTCGTA ACCTCCCTGT GGGCTAGTGT TATGACCATC ACCATTTTAC CTAAGTAGCT5641 CTGTTGCTCG GCCACAGTGA GCAGTAATAG ACCTGAAGCT GGAACCCATG TCTAATAGTG5701 TCAGGTCCAG TGTTCTTAGC CACCCCACTC CCAGCTTCAT CCCTACTGGT GTTGTCATCA5761 GACTTTGACC GTATATGCTC AGGTGTCCTC CAAGAAATCA AATTTTGCCA CCTCGCCTCA5821 CGAGGCCTGC CCTTCTGATT TTATACCTAA ACAACATGTG CTCCACATTT CAGAACCTAT5881 CTTCTTCGAC ACATGGGATA ACGAGGCTTA TGTGCACGAT GCACCTGTAC GATCACTGAA5941 CTGCACGCTC CGGGACTCAC AGCAAAAAAG CTTGGTGATG TCTGGTCCAT ATGAACTGAA6001 AGCTCTCCAC CTCCAGGGAC AGGATATGGA GCAACAAGGT AAATGGAAAC ATCCTGGTTT6061 CCCTGCCTGG CCTCCTGGCA GCTTGCTAAT TCTCCATGTT TTAAACAAAG TAGAAAGTTA6121 ATTTAAGGCA AATGATCAAC ACAAGTGAAA AAAAATATTA AAAAGGAATA TACAAACTTT6181 5731 6241 CCTGAGAAAT TAGACGGCTC AAGCACTCCC AGGACCATGT CCACCCAAGT CTCTTGGGCA6301 TAGTGCAGTG TCAATTCTTC CACAATATGG GGTCATTTGA TGGACATGGC CTAACTGCCT6361 GTGGGTTCTC TCTTCCTGTT GTTGAGGCTG AAACAAGAGT GCTGGAGCGA TAATGTGTCC6421 ATCCCCCTCC CCAGTCTTCC CCCCTTGCCC CAACATCCGT CCCACCCAAT GCCAGGTGGT TCCTTGTAGG GAAATTTTAC CGCCCAGCAG GAACTTATAT CTCTCCGCTG TAACGGGCAA6541 666601 66 GTAGCCAAAG CCTCTGCACA GGAGTGTGGG CAACTAAGGC TGCTGACTTT GAAGGACAGC6661 826721 TCGGGTAGTA AGAGTGATCC CAGGGCCTCC AATTGACACT GCTGTGACTG AGGAAGATCA6781 AAATGAGTGT CTCTCTTTGG AGCCACTTTC CCAGCTCAGC CTCTCCTCTC CCAGTTTCTT6841 CCCATGGGCT ACTCTCTGTT CCTGAAACAG TTCTGGTGCC TGATTTCTGG CAGAAGTACA6901 GCTTCACCTC TTTCCTTTCC TTCCACATTG ATCAAGTTGT TCCGCTCCTG TGGATGGGCA6961 CATTGCCAGC CAGTGACACA ATGGCTTCCT TCCTTCCTTC CTTCAGCATT TAAAATGTAG7021 ACCCTCTTTC ATTCTCCGTT CCTACTGCTA TGAGGCTCTG AGAAACCCTC AGGCCTTTGA7081 GGGGAAACCC TAAATCAACA AAATGACCCT GCTATTGTCT GTGAGAAGTC AAGTTATCCT7141 GTGTCTTAGG CCAAGGAACC TCACTGTGGG TTCCCACAGA GGCTACCAAT TACATGTATC7201 CTACTCTCGG GGCTAGGGGT TGGGGTGACC CTGCATGCTG TGTCCCTAAC CACAAGACCC7261 CCTTCTTTCT TCAGTGGTGT TCTCCATGTC CTTTGTACAA GGAGAAGAAA GTAATGACAA7321 AATACCTGTG GCCTTGGGCC TCAAGGAAAA GAATCTGTAC CTGTCCTGCG TGTTGAAAGA7381 TGATAAGCCC ACTCTACAGC TGGAGGTAAG TGAATGCTAT GGAATGAAGC CCTTCTCAGC7441 CTCCTGCTAC CACTTATTCC CAGACAATTC ACCTTCTCCC CGCCCCCATC CCTAGGAAAA7501 GCTGGGAACA GGTCTATTTG ACAAGTTTTG CATTAATGTA AATAAATTTA ACATAATTTT7561 TAACTGCGTG CAACCTTCAA TCCTGCTGCA GAAAATTAAA TCATTTTGCC GATGTTATTA7621 TGTCCTACCA TAGTTACAAC CCCAACAGAT TATATATTGT TAGGGCTGCT CTCATTTGAT7681 AGACACCTTG GGAAATAGAT GACTTAAAGG GTCCCATTAT CACGTCCACT CCACTCCCAA7741 AATCACCACC ACTATCACCT CCAGCTTTCT CAGCAAAAGC TTCATTTCCA AGTTGATGTC7801 ATTCTAGGAC CATAAGGAAA AATACAATAA AAAGCCCCTG GAAACTAGGT ACTTCAAGAA7861 GCTCTAGCTT AATTTTCACC CCCCCAAAAA AAAAAAATTC TCACCTACAT TATGCTCCTC7921 AGCATTTGGC ACTAAGTTTT AGAAAAGAAG AAGGGCTCTT TTAATAATCA CACAGAAAGT7981 TGGGGGCCCA GTTACAACTC AGGAGTCTGG CTCCTGATCA TGTGACCTGC TCGTCAGTTT8041 CCTTTCTGGC CAACCCAAAG AACATCTTTC CCATAGGCAT CTTTGTCCCT TGCCCCACAA8101 AAATTCTTCT TTCTCTTTCG CTGCAGAGTG TAGATCCCAA AAATTACCCA AAGAAGAAGA 8461 8253 8221 CCCAGTTCCC CAACTGGTAC ATCAGCACCT CTCAAGCAGA AAACATGCCC GTCTTCCTGG8281 GAGGGACCAA AGGCGGCCAG GATATAACTG ACTTCACCAT GCAATTTGTG TCTTCCTAAA8341 GAGAGCTGTA CCCAGAGAGT CCTGTGCTGA ATGTGGACTC AATCCCTAGG GCTGGCAGAA 8458 AGGGAACAGA AAGGTTTTTG AGTACGGCTA TAGCCTGGAC TTTCCTGTTG TCTACACCAA TGCCCAACTG CCTGCCTTAG GGTAGTGCTA AGAGGATCTC CTGTCCATCA GCCAGGACAG8521 TCAGCTCTCT CCTTTCAGGG CCAATCCCCA GCCCTTTTGT TGAGCCAGGC CTCTCTCACC8581 TCTCCTACTC ACTTAAAGCC CGCCTGACAG AAACCACGGC CACATTTGGT TCTAAGAAAC8641 CCTCTGTCAT TCGCTCCCAC ATTCTGATGA GCAACCGCTT CCCTATTTAT TTATTTATTT8701 GTTTGTTTGT TTTGATTCAT TGGTCTAATT TATTCAAAGG GGGCAAGAAG TAGCAGTGTC8761 TGTAAAAGAG CCTAGTTTTT AATAGCTATG GAATCAATTC AATTTGGACT GGTGTGCTCT8821 CTTTAAATCA AGTCCTTTAA TTAAGACTGA AAATATATAA GCTCAGATTA TTTAAATGGG8881 AATATTTATA AATGAGCAAA TATCATACTG TTCAATGGTT CTGAAATAAA CTTCACTGAA8941 GAAAAAAAAA AAAGGGTCTC TCCTGATCAT TGACTGTCTG GATTGACACT GACAGTAAGC9001 AAACAGGCTG TGAGAGTTCT TGGGACTAAG CCCACTCCTC ATTGCTGAGT GCTGCAAGTA9061 CCTAGAAATA TCCTTGGCCA CCGAAGACTA TCCTCCTCAC CCATCCCCTT TATTTCGTTG9121 TTCAACAGAA GGATATTCAG TGCACATCTG GAACAGGATC AGCTGAAGCA CTGCAGGGAG9181 TCAGGACTGG TAGTAACAGC TACCATGATT TATCTATCAA TGCACCAAAC ATCTGTTGAG9241 CAAGCGCTAT GTACTAGGAG CTGGGAGTAC AGAGATGAGA ACAGTCACAA GTCCCTCCTC9301 AGATAGGAGA GGCAGCTAGT TATAAGCAGA ACAAGGTAAC ATGACAAGTA GAGTAAGATA9361 GAAGAACGAA GAGGAGTAGC CAGGAAGGAG GGAGGAGAAC GACATAAGAA TCAAGCCTAA9421 AGGGATAAAC AGAAGATTTC CACACATGGG CTGGGCCAAT TGGGTGTCGG TTACGCCTGT9481 9541 AGCCTGGGCA ACATAGTGAG ACTCCCATCT CTACAAAAAA TAAATAAATA AATAAAACAA9601 TCAGCCAGGC ATGCTGGCAT GCACCTGTAG TCCTAGCTAC TTGGGAAGCT GACACTGGAG9661 GATTGCTTGA GCCCAGAAGT TCAAGACTGC AGTGAGCTTA TCCGTTGACC TGCAGGTCGA 9721C (2) SEQ ID NO: 2513, data: (i) sequence characteristics:

(A) length: 1496 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2513 sequence description: 1 ACAAACCTTT TCGAGGCAAA AGGCAAAAAA GGCTGCTCTG GGATTCTCTT CAGCCAATCT 61 TCAATGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TAAGCTCGCC AGTGAAATGA121 TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA181 721 AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCC 781 181 TGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA241 TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG301 ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA361 CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG421 CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA481 AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA541 TGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA601 TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG661 ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG721 AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCC 781 AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG 841 GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG 901 AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG 961 GAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC1021 CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA1081 GCTCTCTCCT TTCAGGGCCA ATCCCAGCCC TTTTGTTGAG CCAGGCCTCT CTCACCTCTC1141 CTACTCACTT AAAGCCCGCC TGACAGAAAC CAGGCCACAT TTTGGTTCTA AGAAACCCTC1201 CTCTGTCATT CGCTCCCACA TTCTGATGAG CAACCGCTTC CCTATTTATT TATTTATTTG1261 TTTGTTTGTT TTGATTCATT GGTCTAATTT ATTCAAAGGG GGCAAGAAGT AGCAGTGTCT1321 GTAAAAGAGC CTAGTTTTTA ATAGCTATGG AATCAATTCA ATTTGGACTG GTGTGCTCTC1381 TTTAAATCAA GTCCTTTAAT TAAGACTGAA AATATATAAG CTCAGATTAT TTAAATGGGA1441 ATATTTATAA ATGAGCAAAT ATCATACTGT TCAATGGTTC TCAAATAAAC TTCACT (2) SEQ ID NO: 2514, data: (i) sequence characteristics:

(A) length: 720 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2514 sequence description: 1 CTGGCAGGAG TAGCAGCTGC CCCTTGGCGC GACTGCTGGA GCCGCGAACT AGAGAAACAC 61 AGACACGCCT CATAGAGCAA CGGCGTCTCT CGGAGCGTGG AGCCCGCCAA GCTCGAGCTG121 AGCTTTCGCT TGCCGTCCAC CACTGCCCAC ACTGTCGTTT GCTGCCATCG CAGACCTGCT181 GCTGACTTCC ATCCCTCTGG ATCCGGCAAG GGCCTGCGAT TTTGACAATG TCAAGATTTA241 CCGTATATCC CTGTTTGTTT GGATACACCA GTGACGTCCA CTTCTAGAAG ACAAAGTTAT301 ATTACTTAAA CAACCAAAGA TATGAAACTA TCCATGAAGA ACAATATTAT CAATACACAG361 CAGTCTTTTG TAACCATGCC CAATGTGATT GTACCAGATA TTGAAAAGGA AATACGAAGG421 ATGGAAAATG GAGCATGCAG CTCCTTTTCT GAGGATGATG ACAGTGCCTC TACATCTGAA481 GAATCAGAGA ATGAAAACCC TCATGCAAGG GGTTCCTTTA GTTATAAGTC ACTCAGAAAG541 GGAGGACCAT CACAGAGGGA GCAGTACCTG CCTGGTGCCA TTGCCATTTT TAATGTGAAC601 AACAGCGACA ATAAGGACCA GGAACCAGAA GAAAAAAAGA AAAAGAAAAA AGAAAAGAAG661 AGCAAGTCAG ATGATAAAAA CGAAAATAAA AACGACCCAA AGAAGAAGAT GGAAAAGCGA (2) SEQ ID NO: 2515, data: (i) sequence characteristics:

(A) length: 2002 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2515 sequence description: 1 atggccaaag ttccagacat gtttgaagac ctgaagaact gttacagtga aaatgaagaa

61 gacagttcct ccattgatca tctgtctctg aatcagaaat ccttctatca tgtaagctat

121 ggcccactcc atgaaggctg catggatcaa tctgtgtctc tgagtatctc tgaaacctct

181 aaaacatcca agcttacctt caaggagagc atggtggtag tagcaaccaa cgggaaggtt

241 ctgaagaaga gacggttgag tttaagccaa tccatcactg atgatgacct ggaggccatc

301 gccaatgact cagaggaaga aatcatcaag cctaggtcag caccttttag cttcctgagc

361 aatgtgaaat acaactttat gaggatcatc aaatacgaat tcatcctgaa tgacgccctc

421 aatcaaagta taattcgagc caatgatcag tacctcacgg ctgctgcatt acataatctg

481 gatgaagcag tgaaatttga catgggtgct tataagtcat caaaggatga tgctaaaatt

541 accgtgattc taagaatctc aaaaactcaattgtatgtga ctgcccaaga tgaagaccaa

601 ccagtgctgc tgaaggagat gcctgagata cccaaaacca tcacaggtag tgagaccaac

661 ctcctcttct tctgggaaac tcacggcact aagaactatt tcacatcagt tgcccatcca

721 aacttgttta ttgccacaaa gcaagactac tgggtgtgct tggcaggggg gccaccctct

781 atcactgact ttcagatact ggaaaaccag gcgtaggtct ggagtctcac ttgtctcact

841 tgtgcagtgt tgacagttca tatgtaccat gtacatgaag aagctaaatc ctttactgtt

901 agtcatttgc tgagcatgta ctgagccttg taattctaaa tgaatgttta cactctttgt

961 aagagtggaa ccaacactaa catataatgt tgttatttaa agaacaccct atattttgca

1021 tagtaccaat cattttaatt attattcttc ataacaattt taggaggacc agagctactg

1081 actatggcta ccaaaaagac tctacccata ttacagatgg gcaaattaag gcataagaaa

1141 actaagaaat atgcacaata gcagttgaaa caagaagcca cagacctagg atttcatgat

1201 ttcatttcaa ctgtttgcct tctgctttta agttgctgat gaactcttaa tcaaatagca

1261 taagtttctg ggacctcagt tttatcattt tcaaaatgga gggaataata cctaagcctt

1321 cctgccgcaa cagtttttta tgctaatcag ggaggtcatt ttggtaaaat acttctcgaa

1381 gccgagcctc aagatgaagg caaagcacga aatgttattt tttaattatt atttatatat

1441 gtatttataa atatatttaa gataattata atatactata tttatgggaa ccccttcatc

1501 ctctgagtgt gaccaggcat cctccacaat agcagacagt gttttctggg ataagtaagt

1561 ttgatttcat taatacaggg cattttggtc caagttgtgc ttatcccata gccaggaaac

1621 tctgcattct agtacttggg agacctgtaa tcatataata aatgtacatt aattaccttg

1681 agccagtaat tggtccgatc tttgactctt ttgccattaa acttacctgg gcattcttgt

1741 ttcattcaat tccacctgca atcaagtcct acaagctaaa attagatgaa ctcaactttg

1801 acaaccatag accactgtta tcaaaacttt cttttctgga atgtaatcaa tgtttcttct

1861 aggttctaaa aattgtgatc agaccataat gttacattat tatcaacaat agtgattgat

1921 agagtgttat cagtcataac taaataaagc ttgcaagtga gggagtcatt tcattggcgt

1981 ttgagtcagc aaagaagtca ag (2) SEQ ID NO: 2516 data: (i) sequence characteristics:

(A) length: 2027 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2516 sequence description: 1 AGCTGCCAGC CAGAGAGGGA GTCATTTCAT TGGCGTTTGA GTCAGCAAAG AAGTCAAGAT 61 GGCCAAAGTT CCAGACATGT TTGAAGACCT GAAGAACTGT TACAGTGAAA ATGAAGAAGA121 CAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGAAATCC TTCTATCATG TAAGCTATGG181 721 CCTCTTCTTC TGGGAAACTC ACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAA 781 181 CCCACTCCAT GAAGGCTGCA TGGATCAATC TGTGTCTCTG AGTATCTCTG AAACCTCTAA 241 AACATCCAAG CTTACCTTCA AGGAGAGCAT GGTGGTAGTA GCAACCAACG GGAAGGTTCT 301 GAAGAAGAGA CGGTTGAGTT TAAGCCAATC CATCACTGAT GATGACCTGG AGGCCATCGC 361 CAATGACTCA GAGGAAGAAA TCATCAAGCC TAGGTCATCA CCTTTTAGCT TCCTGAGCAA 421 TGTGAAATAC AACTTTATGA GGATCATCAA ATACGAATTC ATCCTGAATG ACGCCCTCAA 481 TCAAAGTATA ATTCGAGCCA ATGATCAGTA CCTCACGGCT GCTGCATTAC ATAATCTGGA 541 TGAAGCAGTG AAATTTGACA TGGGTGCTTA TAAGTCATCA AAGGATGATG CTAAAATTAC 601 CGTGATTCTA AGAATCTCAA AAACTCAATT GTATGTGACT GCCCAAGATG AAGACCAACC 661 AGTGCTGCTG AAGGAGATGC CTGAGATACC CAAAACCATC ACAGGTAGTG AGACCAACCT 721 CCTCTTCTTC TGGGAAACTC ACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAA 781 CTTGTTTATT GCCACAAAGC AAGACTACTG GGTGTGCTTG GCAGGGGGGC CACCCTCTAT 841 CACTGACTTT CAGATACTGG AAAACCAGGC GTAGGTCTGG AGTCTCACTT GTCTCACTTG 901 TGCAGTGTTG ACAGTTCATA TGTACCATGT ACATGAAGAA GCTAAATCCT TTACTGTTAG 961 TCATTTGCTG AGCATGTACT GAGCCTTGTA ATTCTAAATG AATGTTTACA CTCTTTGTAA1021 GAGTGGAACC AACACTAACA TATAATGTTG TTATTTAAAG AACACCCTAT ATTTTGCATA1081 GTACCAATCA TTTTAATTAT TATTCTTCAT AACAATTTTA GGAGGACCAG AGCTACTGAC1141 TATGGCTACC AAAAAGACTC TACCCATATT ACAGATGGGC AAATTAAGGC ATAAGAAAAC1201 TAAGAAATAT GCACAATAGC AGTCGAAACA AGAAGCCACA GACCTAGGAT TTCATGATTT1261 CATTTCAACT GTTTGCCTTC TGCTTTTAAG TTGCTGATGA ACTCTTAATC AAATAGCATA1321 AGTTTCTGGG ACCTCAGTTT TATCATTTTC AAAATGGAGG GAATAATACC TAAGCCTTCC1381 TGCCGCAACA GTTTTTTATG CTAATCAGGG AGGTCATTTT GGTAAAATAC TTCTCGAAGC1441 CGAGCCTCAA GATGAAGGCA AAGCACGAAA TGTTATTTTT TAATTATTAT TTATATATGT1501 ATTTATAAAT ATATTTAAGA TAATTATAAT ATACTATATT TATGGGAACC CCTTCATCCT1561 CTGAGTGTGA CCAGGCATCC TCCACAATAG CAGACAGTGT TTTCTGGGAT AAGTAAGTTT1621 GATTTCATTA ATACAGGGCA TTTTGGTCCA AGTTGTGCTT ATCCCATAGC CAGGAAACTC1681 TGCATTCTAG TACTTGGGAG ACCTGTAATC ATATAATAAA TGTACATTAA TTACCTTGAG1741 CCAGTAATTG GTCCGATCTT TGACTCTTTT GCCATTAAAC TTACCTGGGC ATTCTTGTTT1801 CATTCAATTC CACCTGCAAT CAAGTCCTAC AAGCTAAAAT TAGATGAACT CAACTTTGAC1861 AACCATGAGA CCACTGTTAT CAAAACTTTC TTTTCTGGAA TGTAATCAAT GTTTCTTCTA1921 GGTTCTAAAA ATTGTGATCA GACCATAATG TTACATTATT ATCAACAATA GTGATTGATA1981 GAGTGTTATC AGTCATAACT AAATAAAGCT TGCAACAAAA TTCTCTG (2) SEQ ID NO: 2517, data: (i) sequence characteristics:

(A) length: one base pair

(B) Type (2): 29433 nucleic acid

(C) Chain type: single strand

(D) Topology: linear (xi) sequence description of SEQ ID NO: 2517: 1 AAGCTTCTAC CCTAGTCTGG TGCTACACTT ACATTGCTTA CATCCAAGTG TGGTTATTTC 61 TGTGGCTCCT GTTATAACTA TTATAGCACC AGGTCTATGA CCAGGAGAAT TAGACTGGCA 121 TTAAATCAGA ATAAGAGATT TTGCACCTGC AATAGACCTT ATGACACCTA ACCAACCCCA 181 721 TGGTCCTTGG TAGAGGGCTA CTTTACTGTA ACAGGGCCAG GGTGGAGAGT TCTCTCCTGA 781 181 TTATTTACAA TTAAACAGGA ACAGAGGGAA TACTTTATCC AACTCACACA AGCTGTTTTC 241 CTCCCAGATC CATGCTTTTT TGCGTTTATT ATTTTTTAGA GATGGGGGCT TCACTATGTT 301 GCCCACACTG GACTAAAACT CTGGGCCTCA AGTGATTGTC CTGCCTCAGC CTCCTGAATA 361 GCTGGGACTA CAGGGGCATG CCATCACACC TAGTTCATTT CCTCTATTTA AAATATACAT 421 GGCTTAAACT CCAACTGGGA ACCCAAAACA TTCATTTGCT AAGAGTCTGG TGTTCTACCA 481 CCTGAACTAG GCTGGCCACA GGAATTATAA AAGCTGAGAA ATTCTTTAAT AATAGTAACC 541 AGGCAACATC ATTGAAGGCT CATATGTAAA AATCCATGCC TTCCTTTCTC CCAATCTCCA 601 TTCCCAAACT TAGCCACTGG TTCTGGCTGA GGCCTTACGC ATACCTCCCG GGGCTTGCAC 661 ACACCTTCTT CTACAGAAGA CACACCTTGG GCATATCCTA CAGAAGACCA GGCTTCTCTC 721 TGGTCCTTGG TAGAGGGCTA CTTTACTGTA ACAGGGCCAG GGTGGAGAGT TCTCTCCTGA 781 AGCTCCATCC CCTCTATAGG AAATGTGTTG ACAATATTCA GAAGAGTAAG AGGATCAAGA 841 CTTCTTTGTG CTCAAATACC ACTGTTCTCT TCTCTACCCT GCCCTAACCA GGAGCTTGTC 901 ACCCCAAACT CTGAGGTGAT TTATGCCTTA ATCAAGCAAA CTTCCCTCTT CAGAAAAGAT 961 GGCTCATTTT CCCTCAAAAG TTGCCAGGAG CTGCCAAGTA TTCTGCCAAT TCACCCTGGA1021 GCACAATCAA CAAATTCAGC CAGAACACAA CTACAGCTAC TATTAGAACT ATTATTATTA1081 ATAAATTCCT CTCCAAATCT AGCCCCTTGA CTTCGGATTT CACGATTTCT CCCTTCCTCC1141 TAGAAACTTG ATAAGTTTCC CGCGCTTCCC TTTTTCTAAG ACTACATGTT TGTCATCTTA1201 TAAAGCAAAG GGGTGAATAA ATGAACCAAA TCAATAACTT CTGGAATATC TGCAAACAAC1261 AATAATATCA GCTATGCCAT CTTTCACTAT TTTAGCCAGT ATCGAGTTGA ATGAACATAG1321 AAAAATACAA AACTGAATTC TTCCCTGTAA ATTCCCCGTT TTGACGACGC ACTTGTAGCC1381 ACGTAGCCAC GCCTACTTAA GACAATTACA AAAGGCGAAG AAGACTGACT CAGGCTTAAG1441 CTGCCAGCCA GAGAGGGAGT CATTTCATTG GCGTTTGAGT CAGCAAAGGT ATTGTCCTCA1501 CATCTCTGGC TATTAAAGTA TTTTCTGTTG TTGTTTTTCT CTTTGGCTGT TTTCTCTCAC1561 ATTGCCTTCT CTAAAGCTAC AGTCTCTCCT TTCTTTTCTT GTCCCTCCCT GGTTTGGTAT1621 GTGACCTAGA ATTACAGTCA GATTTCAGAA AATGATTCTC TCATTTTGCT GATAAGGACT1681 GATTCGTTTT ACTGAGGGAC GGCAGAACTA GTTTCCTATG AGGGCATGGG TGAATACAAC1741 TGAGGCTTCT CATGGGAGGG AATCTCTACT ATCCAAAATT ATTAGGAGAA AATTGAAAAT1801 TTCCAACTCT GTCTCTCTCT TACCTCTGTG TAAGGCAAAT ACCTTATTCT TGTGGTGTTT1861 TTGTAACCTC TTCAAACTTT CATTGATTGA ATGCCTGTTC TGGCAATACA TTAGGTTGGG1921 CACATAAGGA ATACCAACAT AAATAAAACA TTCTAAAAGA AGTTTACGAT CTAATAAAGG1981 AGACAGGTAC ATAGCAAACT AATTCAAAGG AGCTAGAAGA TGGAGAAAAT GCTGAATGTG2041 GACTAAGTCA TTCAACAAAG TTTTCAGGAA GCACAAAGAG GAGGGGCTCC CCTCACAGAT2101 ATCTGGATTA GAGGCTGGCT GAGCTGATGG TGGCTGGTGT TCTCTGTTGC AGAAGTCAAG2161 ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGGTA AGGAATAAGA2221 TTTATCTCTT GTGATTTAAT GAGGGTTTCA AGGCTCACCA GAATCCAGCT AGGCATAACA2281 GTGGCCAGCA TGGGGGCAGG CCGGCAGAGG TTGTAGAGAT GTGTACTAGT CCTGAAGTCA2341 GAGCAGGTTC AGAGAAGACC CAGAAAAACT AAGCATTCAG CATGTTAAAC TGAGATTACA2401 TTGGCAGGGA GACCGCCATT TTAGAAAAAT TATTTTTGAG GTCTGCTGAG CCCTACATGA2461 ATATCAGCAT CAACTTAGAC ACAGCCTCTG TTGAGATCAC ATGCCCTGAT ATAAGAATGG2521 GTTTTACTGG TCCATTCTCA GGAAAACTTG ATCTCATTCA GGAACAGGAA ATGGCTCCAC2581 AGCAAGCTGG GCATGTGAAC TCACATATGC AGGCAAATCT CACTCAGATG TAGAAGAAAG2641 GTAAATGAAC ACAAAGATAA AATTACGGAA CATATTAAAC TAACATGATG TTTCCATTAT2701 CTGTAGTAAA TACTAACACA AACTAGGCTG TCAAAATTTT GCCTGGATAT TTTACTAAGT2761 ATAAATTATG AAATCTGTTT TAGTGAATAC ATGAAAGTAA TGTGTAACAT ATAATCTATT2821 TGGTTAAAAT AAAAAGGAAG TGCTTCAAAA CCTTTCTTTT CTCTAAAGGA GCTTAACATT2881 CTTCCCTGAA CTTCAATTAA AGCTCTTCAA TTTGTTAGCC AAGTCCAATT TTTACAGATA2941 AAGCACAGGT AAAGCTCAAA GCCTGTCTTG ATGACTACTA ATTCCAGATT AGTAAGATAT3001 GAATTACTCT ACCTATGTGT ATGTGTAGAA GTCCTTAAAT TTCAAAGATG ACAGTAATGG3061 CCATGTGTAT GTGTGTGACC CACAACTATC ATGGTCATTA AAGTACATTG GCCAGAGACC3121 ACATGAAATA ACAACAATTA CATTCTCATC ATCTTATTTT GACAGTGAAA ATGAAGAAGA3181 CAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGGTAAGC AAATGACTGT AATTCTCATG3241 GGACTGCTAT TCTTACACAG TGGTTTCTTC ATCCAAAGAG AACAGCAATG ACTTGAATCT3301 TAAATACTTT TGTTTTACCC TCACTAGAGA TCCAGAGACC TGTCTTTCAT TATAAGTGAG3361 ACCAGCTGCC TCTCTAAACT AATAGTTGAT GTGCATTGGC TTCTCCCAGA ACAGAGCAGA3421 ACTATCCCAA ATCCCTGAGA ACTGGAGTCT CCTGGGGCAG GCTTCATCAG GATGTTAGTT3481 ATGCCATCCT GAGAAAGCCC CGCAGGCCGC TTCACCAGGT GTCTGTCTCC TAACGTGATG3541 593601 GCTGAGAGAG AGGAAGCAAG CCAGCTGAAA GTGAGAAGTC TACAGCCACT CATCAATCTG3661 TGTTATTGTG TTTGGAGACC ACAAATAGAC ACTATAAGTA CTGCCTAGTA TGTCTTCAGT3721 ACTGGCTTTA AAAGCTGTCC CCAAAGGAGT ATTTCTAAAA TATTTTGAGC ATTGTTAAGC3781 AGATTTTTAA CCTCCTGAGA GGGAACTAAT TGGAAAGCTA CCACTCACTA CAATCATTGT3841 TAACCTATTT AGTTACAACA TCTCATTTTT GAGCATGCAA ATAAATGAAA AAGTCTTCCT3901 AAAAAAATCA TCTTTTTATC CTGGAAGGAG GAAGGAAGGT GAGACAAAAG GGAGAGAGGG 398661 AGGGAAGCCT AATGAAACAC CAGTTACCTA AGACCAGAAT GGAGATCCTC CTCACTACCT4021 CTGTTGAATA CAGCACCTAC TGAAAGAACT TTCATTCCCT GACCATGAAC AGCCTCTCAG CTTCTGTTTT CCTTCCTCAC AGAAATCCTT CTATCATGTA AGCTATGGCC CACTCCATGA4141 AGGCTGCATG GATCAATCTG TGTCTCTGAG TATCTCTGAA ACCTCTAAAA CATCCAAGCT4201 TACCTTCAAG GAGAGCATGG TGGTAGTAGC AACCAACGGG AAGGTTCTGA AGAAGAGACG4261 GTTGAGTTTA AGCCAATCCA TCACTGATGA TGACCTGGAG GCCATCGCCA ATGACTCAGA4321 GGAAGGTAAG GGGTCAAGCA CAATAATATC TTTCTTTTAC AGTTTTAAGC AAGTAGGGAC4381 AGTAGAATTT AGGGGAAAAT TAAACGTGGA GTCAGAATAA CAAGAAGACA ACCAAGCATT4441 AGTCTGGTAA CTATACAGAG GAAAATTAAT TTTTATCCTT CTCCAGGAGG GAGAAATGAG4501 CAGTGGCCTG AATCGAGAAT ACTTGCTCAC AGCCATTATT TCTTAGCCAT ATTGTAAAGG4561 TCGTGTGACT TTTAGCCTTT CAGGAGAAAG CAGTAATAAG ACCACTTACG AGCTATGTTC4621 CTCTCATACT AACTATGCCT CCTTGGTCAT GTTACATAAT CTTTTCGTGA TTCAGTTTCC4681 TCTACTGTAA AATGGAGATA ATCAGAATCC CCCACTCATT GGATTGTTGT AAAGATTAAG4741 AGTCTCAGGC TTTACAGACT GAGCTAGCTG GGCCCTCCTG ACTGTTATAA AGATTAAATG4801 AGTCAACATC CCCTAACTTC TGGACTAGAA TAATGTCTGG TACAAAGTAA GCACCCAATA4861 AATGTTAGCT ATTACTATCA TTATTATTAT TATTTTATTT TTTTTTTTTG AGATGGAGTC4921 TGGCTCTGTC ACCCAGGCTG GAGTGCAGTG GCACAATCTC GGCTCACTGC AAGCTCTGCC4981 TCCTGGGTTC ATGCCATTCT CCTGCCTCAG CCTCCCGAGT AAGCTGGGAA TACAGGCACC5041 CGCCACTGTT CCCGGCTAAT TTTTTGTATT TTTAGTAGAG ACGGAGTTTC ACCGTGGTCT5101 CCATCTCCTC GTGATCCACC CACCTTGGCC TCCCAAAGTG CCGGGATTAC AGGCGTGAGC5161 51 5161 CACCGCGCCC GGCCTATTAT TATTATTATT ACTACTACTA CTACCTATAT GAATACTACC5221 AGCAATACTA ATTTATTAAT GACTGGATTA TGTCTAAACC TCACAAGAAT CCTACCTTCT5281 829 5281 CATTTTACAT AAAAGGAAAC TAAGCTCATT GAGATAGGTA AACTGCCCAA TGGCATACAT5341 CTGTAAGTGG GAGAGCCTCA AATCTAATTC AGTTCTACCT GAGTAAAAAA ATCATGGTTT5401 CTCCTCCATC CCTTTACTGT ACAAGCCTCC ACATGAACTA TAAACCCAAT ATTCCTGTTT5461 TTAAGATAAT ACCTAAGCAA TAACGCATGT TCACCTAGAA GGTTTTAAAA TGTAACAAAA5521 TATAAGAAAA TAAAAATCAC TCATATCGTC AGTGAGAGTT TACTACTGCC AGCACTATGG5581 TATGTTTCCT TAAAATCTTT GCTATACACA TACCTACATG TGAACAAATA TGTCTAACAT5641 CAAGACCACA CTATTTACAA CTTTATATCC AGCTTTTCTT ACTTAGCAAT GTATTGAGGA5701 CATTTTAGAG TGCCCGTTTT TCACCATTAT AAGCAATGCA ACAATGAACA TCTGTATAAA5761 TAAATATTCA TTTCTCTCAC CCTTTATTTC CTTAGAATAT ATTCCTAGAA GTAGAATTTC5821 CCAGAGCCAT GAGGATTTGT GACGCTATTG ATATGTGCCA CTTTGCACTC TCTGTGACAT5881 ATATAATTAT TTTTAATGCA TTCATTTTTT TCTCAGAGTG CATTCGTTTG AAAACATAGA5941 CGGGAAATAC TGGTAGTCTT CCTTGTCAGT TAGAAACACC CAAACAATGA AAAATGAAAA6001 AGTTGCACAA ATAGTCTCTA AAAACAATGA AACTATTGCC TGAGGAATTG AAGTTTAAAA6061 AGAAGCACAT AAGCAACAAC AAGGATAATC CTAGAAAACC AGTTCTGCTG ACTGGGTGAT6121 TTCACTTCTC TTTGCTTCCT CATCTGGATT GGAATATTCC TAATACCCCC TCCAGAACTA6181 5731 6241 CACTTGTGAT CATGGTTTTA GAAATCATCA AGCCTAGGTC ATCACCTTTT AGCTTCCTGA6301 GCAATGTGAA ATACAACTTT ATGAGGATCA TCAAATACGA ATTCATCCTG AATGACGCCC6361 TCAATCAAAG TATAATTCGA GCCAATGATC AGTACCTCAC GGCTGCTGCA TTACATAATC6421 TGGATGAAGC AGGTACATTA AAATGGCACC AGACATTTCT GTCATCCTCC CCTCCTTTCA TTTACTTATT TATTTATTTC AATCTTTCTG CTTGCAAAAA ACATACCTCT TCAGAGTTCT6541 666601 66 AGGGCAGAAG GTTCAACTAA ATCTGGAAGT TCCACAAGAG AGAAGTTTCC TATCTTTGAG6661 826721 TTACCCTCAA TTTTAAAACT GAGGAAACTG TCAGACATAT TAAATGATTT ACTCAGATTT6781 ACCCAGAAGC CAATGAAGAA CAATCACTCT CCTTTAAAAA GTCTGTTGAT CAAACTCACA6841 AGTAACACCA AACCAGGAAG ATCTTTATTA TCTCTGATAA CATATTTGTG AGGCAAAACC6901 TCCAATAAGC TACAAATATG GCTTAAAGGA TGAAGTTTAG TGTCCAAAAA CTTTTATCAC6961 ACACATCCAA TTTTCATGGC GGACATGTTT TAGTTTCAAC AGTATACATA TTTTCAAAGG7021 TCCAGAGAGG CAATTTTGCA ATAAACAAGC AAGACTTTTT CTGATTGGAT GCACTTCAGC7081 TAACATGCTT TCAACTCTAC ATTTACAAAT TATTTTGTGT TCTATTTTTC TACTTAATAT7141 TATTTCTGCA ATTTTCCCAA TATTGACATC GTGTATGTAT TTGCCATTTT TAATATCACT7201 AGACAATTCA ATCAGGTTGC TACGTTGGTC CCTTGGGTTT ACTCTAAATA GCTTGATTGC7261 AAATATCTTT GTATATATTA TTGTTTTTTC TCCTATCTTG TAATTTCTTT GAGCACATCC7321 CAAAGAGGAA TGCCTAGATC AATGGGCACA AATAATTTGA CAGCTCTTAT TAAACATTAT7381 TCTGTAAGTA AAAACTGAAC TACTTTTCAG TATCACTAGC AACATATGAG TGTATCAGCT7441 TCCTAAACCC CTCCATGTTA GGTCATTATG AACTTATGAT CTAACAAATT ACAGGGTCTT7501 ATCCCACTAA TGAAATTATA AGAGATTCAA CACTTATTCA GCCCCGAAGG ATTCATTCAA7561 CGTAGAAAAT TCTAAGAACA TTAACCAAGT ATTTACCTGC CTAGTGAGTG TGGAAGACAT7621 TGTGAAGGAC ACAAAGATGT ATAGAATTCC ATTCCTGACT TCCAGGTATT TACACCATAG7681 GTGGGGACCT AACTACACAC ACACACACAC ACACACACAC ACACACACAC ACCATGCACA7741 CACAATCTAC ATCAACACTT GATTTTATAC AAATACAATG AATTTACTTT CTTTTTGGTT7801 CTTCTCTTCA CCAGTGAAAT TTGACATGGG TGCTTATAAG TCATCAAAGG ATGATGCTAA7861 AATTACCGTG ATTCTAAGAA TCTCAAAAAC TCAATTGTAT GTGACTGCCC AAGATGAAGA7921 CCAACCAGTG CTGCTGAAGG TCAGTTGTCC TTTGTCTCCA ACTTACCTTC ATTTACATCT7981 CATATGTTTG TAAATAAGCC CAATAGGCAG ACACCTCTAA CAAGGTGACA CTGTCCTCTT8041 TCCTTCCTAC CACAGCCCCC ACCTACCCAC CCCACTCCCA TTGATTCCAG AGGCGTGCCT8101 AGGCAGGATC TATGAGAAAA TATAACAGAG AGTAAGAGGA AAATTACCTT CTTTCTTTTT8161 CCTTTCCCTG CCTGACCTTA TTCACCTCCC ATCCCAGAGC ATCCATTTAT TCCATTGATC8221 8281 TCCAAGAAAC TCAAATAAGC CAACTGAGAT CAGAGAGGAT TAATCACCTG CCAATGGGCA8341 CAAAGCAACA AGCTGGGAGC CAAGTCCCAA AATGGGGCCT GCTGCTTCCA GTTCCCCTCT8401 CTCTGCATTG ATGTCAGCAT TATCCTTCGT CCCAGTCCTG TCTCCACTAC CACTTTCCCC8461 CTCAAACACA CACACACACA ACAGCCTTAG ATGTTTTCTC CACTGATAAG TAGGTGACTC8521 AATTTGTAAG TATATAATCC AAGACCTTCT ATTCCCAAGT AGAATTTATG TGCCTGCCTG8581 TGCTTTTCTA CCTGGATCAA GTGATGTCTA CAGAGTAGGG CAGTAGCTTC ATTCATGAAC8641 TCATTCAACA AGCATTATTC ACTGAGAGCC TTGTATTTTT CAGGCATAGT GCCAACAGCA8701 GTGTGGACAG TGGTGCATCA AAGCCTCTAG TCTCATAGAA CTTAGTCTTC TGGAGGATAT8761 GGAAAACAGA CAACCCAAAC AACCAACAAA AGAGCAAGAT GCTGCAAAAA AAAAAAAAAT8821 GAATAGGGTG CTAAGATAGA GAAAAGTGGG AGAGTGCTAT TTAGACAAAG TGGTAAAAAC8881 AAAGCCCCTT GTGAGATGAG AGCTGCCGAC AGAGGGGGCG GGTCATGGTT GTGGGTTTTT8941 GGGTAGGACA TTCAGAGGAG GGGGCGGGTC GTGGTTGTGG GTTTTTGGGT AGGACATTCA9001 GAGGAGGGGG CGGGTCGTGG TTGTGGGTTT TTGGGTAGGA CATTCAGAGG AGGGGGCGGG9061 TCGTGGTTGT GGGTTTTTGG GTAGGACATT CAGAGGAGGG GGCGGGTCGT GGTTGTGGGT9121 TTTTGGGACA TTCAGAGGAG TCTGAATGCA CCCAGGCCTA CAACTTCAAG ATGGTAAAGG9181 ACAGCTCCAA GGATCAGAAG AAGCATTCTT GGAACTGGGG CATTTTGAGA AGGAGGAAAA9241 ATATGCAGAG ACTAGTGCTT GCAGAGCTTG CATTTGGATT TCATTTGAGG TACAATGAAA9301 ACCCATTAAT GGGTTTCACA CAGTGCAATG GCCTGACCTC ACTTATATTT CCTAAAATAG9361 AAAACAGATC AGAAGGAAGG CAATAGAGAA GCAGAAAGTC CAATGAGGAG GTTTCACAGC9421 AGTCATGGGG GTGGGGTAAG GAAAAGAAGT GGAAAGAAAC AGACAGAATT GGGTTATATT9481 TTGGAGATAG AACCAACAGA AGGAAGAGGA GAAACAACAT TTACTGAGAA GGGAAAAAGT9541 AGGAGAGGAA TAGGTTTGGG AAATAAATCC TGCTGACATT GGAAACCCCA AGGAAGCCTC9601 AAAAGTATAT TTACTTGCTT TAGATTTAAA AGAATAGGAA AGAAGCATCT CAACTTGGAA9661 TTTGAAATCT ATTTTTCCAT AAAAGTATTG TTAAATTCTA CTCATACTCA CAAGAAAAGT9721 ACATTCTAAA GAGTATATTG AAAGAGTTTA CTGATATACT TAGGAATTTT GTGTGTATGT 9781 GTGTGTGTGT ATGTGTGTGT GTGTGTTTAA CCTTCAATTG TTGACTTAAA TACTGAGATA 9841 AATGTCATCT AAATGCTAAA TTGATTTCCC AAAGGTATGA TTTGTTCACT TGGAGATCAA 9901 99 AATGTTTAGG GGGCTTAGAA TCACTGTAGT GCTCAGATTT GATGCAAAAT GTCTTAGGCC 9961 TATGTTGAAG GCAGGACAGA AACAATGTTT CCCTCCTACC TGCCTGGATA CAGTAAGATA10021 CTAGTGTCAC TGACAATCTT CATAACTAAT TTAGATCTCT CTCCAATCAA CTAAGGAAAT10081 CAACTCTTAT TAATAGACTG GGCCACACAT CTACTAGGCA TGTAATAAAT GCTTGCTGAA10141 TGAACAAATG AATGAAGAGC CTATAGCATC ATGTTACAGC CATAGTCCTA AAGTGGTGTT10201 TCTCATGAAG GCCAAATGCT AAGGGATTGA GCTTCAGTCC TTTTTCTAAC ATCTTGTTCT10261 CTAACAGAAT TCTCTTCTTT TCTTCATAGG AGATGCCTGA GATACCCAAA ACCATCACAG10321 GTAGTGAGAC CAACCTCCTC TTCTTCTGGG AAACTCACGG CACTAAGAAC TATTTCACAT10381 CAGTTGCCCA TCCAAACTTG TTTATTGCCA CAAAGCAAGA CTACTGGGTG TGCTTGGCAG10441 GGGGGCCACC CTCTATCACT GACTTTCAGA TACTGGAAAA CCAGGCGTAG GTCTGGAGTC10501 TCACTTGTCT CACTTGTGCA GTGTTGACAG TTCATATGTA CCATGTACAT GAAGAAGCTA10561 AATCCTTTAC TGTTAGTCAT TTGCTGAGCA TGTACTGAGC CTTGTAATTC TAAATGAATG10621 TTTACACTCT TTGTAAGAGT GGAACCAACA CTAACATATA ATGTTGTTAT TTAAAGAACA10681 10741 GACCAGAGCT ACTGACTATG GCTACCAAAA AGACTCTACC CATATTACAG ATGGGCAAAT10801 TAAGGCATAA GAAAACTAAG AAATATGCAC AATAGCAGTT GAAACAAGAA GCCACAGACC10861 TAGGATTTCA TGATTTCATT TCAACTGTTT GCCTTCTGCT TTTAAGTTGC TGATGAACTC10921 TTAATCAAAT AGCATAAGTT TCTGGGACCT CAGTTTTATC ATTTTCAAAA TGGAGGGAAT10981 AATACCTAAG CCTTCCTGCC GCAACAGTTT TTTATGCTAA TCAGGGAGGT CATTTTGGTA11041 AAATACTTCT CGAAGCCGAG CCTCAAGATG AAGGCAAAGC ACGAAATGTT ATTTTTTAAT11101 TATTATTTAT ATATGTATTT ATAAATATAT TTAAGATAAT TATAATATAC TATATTTATG11161 GGAACCCCTT CATCCTCTGA GTGTGACCAG GCATCCTCCA CAATAGCAGA CAGTGTTTTC11221 TGGGATAAGT AAGTTTGATT TCATTAATAC AGGGCATTTT GGTCCAAGTT GTGCTTATCC11281 CATAGCCAGG AAACTCTGCA TTCTAGTACT TGGGAGACCT GTAATCATAT AATAAATGTA11341 CATTAATTAC CTTGAGCCAG TAATTGGTCC GATCTTTGAC TCTTTTGCCA TTAAACTTAC11401 CTGGGCATTC TTGTTTCATT CAATTCCACC TGCAATCAAG TCCTACAAGC TAAAATTAGA11461 TGAACTCAAC TTTGACAACC ATGAGACCAC TGTTATCAAA ACTTTCTTTT CTGGAATGTA11521 ATCAATGTTT CTTCTAGGTT CTAAAAATTG TGATCAGACC ATAATGTTAC ATTATTATCA11581 ACAATAGTGA TTGATAGAGT GTTATCAGTC ATAACTAAAT AAAGCTTGCA ACAAAATTCT11641 CTGACACATA GTTATTCATT GCCTTAATCA TTATTTTACT GCATGGTAAT TAGGGACAAA11701 TGGTAAATGT TTACATAAAT AATTGTATTT AGTGTTACTT TATAAAATCA AACCAAGATT11761 TTATATTTTT TTCTCCTCTT TGTTAGCTGC CAGTATGCAT AAATGGCATT AAGAATGATA11821 ATATTTCCGG GTTCACTTAA AGCTCATATT ACACATACAC AAAACATGTG TTCCCATCTT11881 TATACAAACT CACACATACA GAGCTACATT AAAAACAACT AATAGGCCAG GCACGGTGGC11941 TCAGACCTGT AATCCCAGCA CTTTGGGAGG

1 ACCAACCTCT TCGAGGCACA AGGCACAACA GGCTGCTCTG GGATTCTCTT CAGCCAATCT 61 TCATTGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TGAGCTCGCC AGTGAAATGA 121 TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA 181 TGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA 241 TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG 301 ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA 361 CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG 421 CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA 481 AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA 541 TGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA 601 TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG 661 ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG 721 AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCC 781 AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG 841 GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG 901 AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG 961 GAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC 1021 CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA 1081 GCTCTCTCCT TTCAGGGCCA ATCCCCAGCC CTTTTGTTGA GCCAGGCCTC TCTCACCTCT 1141 CCTACTCACT TAAAGCCCGC CTGACAGAAA CCACGGCCAC ATTTGGTTCT AAGAAACCCT 1201 CTGTCATTCG CTCCCACATT CTGATGAGCA ACCGCTTCCC TATTTATTTA TTTATTTGTT 1261 TGTTTGTTTT ATTCATTGGT CTAATTTATT CAAAGGGGGC AAGAAGTAGC AGTGTCTGTA 1321 AAAGAGCCTA GTTTTTAATA GCTATGGAAT CAATTCAATT TGGACTGGTG TGCTCTCTTT 1381 AAATCAAGTC CTTTAATTAA GACTGAAAAT ATATAAGCTC AGATTATTTA AATGGGAATA 1441 TTTATAAATG AGCAAATATC ATACTGTTCA ATGGTTCTGA AATAAACTTC TCTGAAG

1 AGAAAGAAAG AGAGAGAGAA AGAAAAGAAA GAGGAAGGAA GGAAGGAAGG AAGAAAGACA 61 GGCTCTGAGG AAGGTGGCAG TTCCTACAAC GGGAGAACCA GTGGTTAATT TGCAAAGTGG 121 ATCCTGTGGA GGCANNCAGA GGAGTCCCCT AGGCCACCCA GACAGGGCTT TTAGCTATCT 181 721 GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCT 781 181 GCAGGCCAGA CACCAAATTT CAGGAGGGCT CAGTGTTAGG AATGGATTAT GGCTTATCAA 241 ATTCACAGGA AACTAACATG TTGAACAGCT TTTAGATTTC CTGTGGAAAA TATAACTTAC 301 TAAAGATGGA GTTCTTGTGA CTGACTCCTG ATATCAAGAT ACTGGGAGCC AAATTAAAAA 361 TCAGAAGGCT GCTTGGAGAG CAAGTCCATG AAATGCTCTT TTTCCCACAG TAGAACCTAT 421 TTCCCTCGTG TCTCAAATAC TTGCACAGAG GCTCACTCCC TTGGATAATG CAGAGCGAGC 481 ACGATACCTG GCACATACTA ATTTGAATAA AATGCTGTCA AATTCCCATT CACCCATTCA 541 AGCAGCAAAC TCTATCTCAC CTGAATGTAC ATGCCAGGCA CTGTGCTAGA CTTGGCTCAA 601 AAAGATTTCA GTTTCCTGGA GGAACCAGGA GGGCAAGGTT TCAACTCAGT GCTATAAGAA 661 GTGTTACAGG CTGGACACGG TGGCTCACGC CTGTAATCCC AACATTTGGG AGGCCGAGGC 721 GGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCT 781 CTACTAAAAA TACAAAAAAT TAGCCGGGCG TTGGCGGCAG GTGCCTGTAG TCCCAGCTGC 841 TGGGGAGGCT GAGGCAGGAG AATGGTGTGA ACCCGGGAGG CGGAACTTGC AGGGGGCCGA 901 GATCGTGCCA CTGCACTCCA GCCTGGGCGA CAGAGTGAGA CTCTGTCTCA AAAAAAAAAA 961 AAAAGTGTTA TGATGCAGAC CTGTCAAAGA GGCAAAGGAG GGTGTTCCTA CACTCCAGGC1021 ACTGTTCATA ACCTGGACTC TCATTCATTC TACAAATGGA GGGCTCCCCT GGGCAGATCC1081 CTGGAGCAGG CACTTTGCTG GTGTCTCGGT TAAAGAGAAA CTGATAACTC TTGGTATTAC1141 CAAGAGATAG AGTCTCAGAT GGATATTCTT ACAGAAACAA TATTCCCACT TTTCAGAGTT1201 CACCAAAAAA TCATTTTAGG CAGAGCTCAT CTGGCATTGA TCTGGTTCAT CCATGAGATT1261 GGCTAGGGTA ACAGCACCTG GTCTTGCAGG GTTGTGTGAG CTTATCTCCA GGGTTGCCCC1321 AACTCCGTCA GGAGCCTGAA CCCTGCATAC CGTATGTTCT CTGCCCCAGC CAAGAAAGGT1381 CAATTTTCTC CTCAGAGGCT CCTGCAATTG ACAGAGAGCT CCCGAGGCAG AGAACAGCAC1441 CCAAGGTAGA GACCCACACC CTCAATACAG ACAGGGAGGG CTATTGGCCC TTCATTGTAC1501 CCATTTATCC ATCTGTAAGT GGGAAGATTC CTAAACTTAA GTACAAAGAA GTGAATGAAG1561 AAAAGTATGT GCATGTATAA ATCTGTGTGT CTTCCACTTT GTCCCACATA TACTAAATTT1621 AAACATTCTT CTAACGTGGG AAAATCCAGT ATTTTAATGT GGACATCAAC TGCACAACGA1681 TTGTCAGGAA AACAATGCAT ATTTGCATGG TGATACATTT GCAAAATGTG TCATAGTTTG1741 CTACTCCTTG CCCTTCCATG AACCAGAGAA TTATCTCAGT TTATTAGTCC CCTCCCCTAA1801 GAAGCTTCCA CCAATACTCT TTTCCCCTTT CCTTTAACTT GATTGTGAAA TCAGGTATTC1861 AACAGAGAAA TTTCTCAGCC TCCTACTTCT GCTTTTGAAA GCTATAAAAA CAGCGAGGGA1921 GAAACTGGCA GATACCAAAC CTCTTCGAGG CACAAGGCAC AACAGGCTGC TCTGGGATTC1981 TCTTCAGCCA ATCTTCATTG CTCAAGTATG ACTTTAATCT TCCTTACAAC TAGGTGCTAA2041 GGGAGTCTCT CTGTCTCTCT GCCTCTTTGT GTGTATGCAT ATTCTCTCTC TCTCTCTCTT2101 TCTTTCTCTG TCTCTCCTCT CCTTCCTCTC TGCCTCCTCT CTCAGCTTTT TGCAAAAATG2161 CCAGGTGTAA TATAATGCTT ATGACTCGGG AAATATTCTG GGAATGGATA CTGCTTATCT2221 AACAGCTGAC ACCCTAAAGG TTAGTGTCAA AGCCTCTGCT CCAGCTCTCC TAGCCAATAC22 ATTGCTAGTT GGGGTTTGGT TTAGCAAATG CTTTTCTCTA GACCCAAAGG ACTTCTCTTT2341 CACACATTCA TTCATTTACT CAGAGATCAT TTCTTTGCAT GACTGCCATG CACTGGATGC2401 TGAGAGAAAT CACACATGAA CGTAGCCGTC ATGGGGAAGT CACTCATTTT CTCCTTTTTA2461 CACAGGTGTC TGAAGCAGCC ATGGCAGAAG TACCTGAGCT CGCCAGTGAA ATGATGGCTT2521 ATTACAGGTC AGTGGAGACG CTGAGACCAG TAACATGAGC AGGTCTCCTC TTTCAAGAGT2581 AGAGTGTTAT CTGTGCTTGG AGACCAGATT TTTCCCCTAA ATTGCCTCTT TCAGTGGCAA2641 ACAGGGTGCC AAGTAAATCT GATTTAAAGA CTACTTTCCC ATTACAAGTC CCTCCAGCCT2701 TGGGACCTGG AGGCTATCCA GATGTGTTGT TGCAAGGGCT TCCTGCAGAG GCAAATGGGG 3661 AGAAAAGATT CCAAGCCCAC AATACAAGGA ATCCCTTTGC AAAGTGTGGC TTGGAGGGAG2821 AGGGAGAGCT CAGATTTTAG CTGACTCTGC TGGGCTAGAG GTTAGGCCTC AAGATCCAAC2881 2984 ATATCACTGT GAAACTTGCC AGGTGTTTCA GGCAGCTTTG AGAGGCAGGC TGTTTGCAGT3001 TTCTTATGAA CAGTCAAGTC TTGTACACAG GGAAGGAAAA ATAAACCTGT TTAGAAGACA3061 TAATTGAGAC ATGTCCCTGT TTTTATTACA GTGGCAATGA GGATGACTTG TTCTTTGAAG3121 3181 CTCTAACACA GGGAAAGCTC AAAGAAGGGA GTTCTGGGCC ACTTTGATGC CATGGTATTT3241 TGTTTTAGAA AGACTTTAAC CTCTTCCAGT GAGACACAGG CTGCACCACT TGCTGACCTG3301 GCCACTTGGT CATCATATCA CCACAGTCAC TCACTAACGT TGGTGGTGGT GGCCACACTT3361 GGTGGTGACA GGGGAGGAGT AGTGATAATG TTCCCATTTC ATAGTAGGAA GACAACCAAG3421 TCTTCAACAT AAATTTGATT ATCCTTTTAA GAGATGGATT CAGCCTATGC CAATCACTTG3481 AGTTAAACTC TGAAACCAAG AGATGATCTT GAGAACTAAC ATATGTCTAC CCCTTTTGAG3541 6863609 6951 CAAAAAGATG AATTGAGACT TGAAAGAAAA CCATTCACTT GCTGTTTGAC CTTGACAAGT3661 CATTTTACCC GCTTTGGACC TCATCTGAAA AATAAAGGGC TGAGCTGGAT GATCTCTGAG3721 ATTCCAGCAT CCTGCAACCT CCAGTTCTGA AATATTTTCA GTTGTAGCTA AGGGCATTTG3781 GGCAGCAAAT GGTCATTTTT CAGACTCATC CTTACAAAGA GCCATGTTAT ATTCCTGCTG3841 TCCCTTCTGT TTTATATGAT GCTCAGTAGC CTTCCTAGGT GCCCAGCCAT CAGCCTAGCT3901 AGGTCAGTTG TGCAGGTTGG AGGCAGCCAC TTTTCTCTGG CTTTATTTTA TTCCAGTTTG3961 TGATAGCCTC CCCTAGCCTC ATAATCCAGT CCTCAATCTT GTTAAAAACA TATTTCTTTA4021 GAAGTTTTAA GACTGGCATA ACTTCTTGGC TGCAGCTGTG GGAGGAGCCC ATTGGCTTGT4081 CTGCCTGGCC TTTGCCCCCC ATTGCCTCTT CCAGCAGCTT GGCTCTGCTC CAGGCAGGAA4141 ATTCTCTCCT GCTCAACTTT CTTTTGTGCA CTTACAGGTC TCTTTAACTG TCTTTCAAGC4201 CTTTGAACCA TTATCAGCCT TAAGGCAACC TCAGTGAAGC CTTAATACGG AGCTTCTCTG4261 AATAAGAGGA AAGTGGTAAC ATTTCACAAA AAGTACTCTC ACAGGATTTG CAGAATGCCT4321 ATGAGACAGT GTTATGAAAA AGGAAAAAAA AGAACAGTGT AGAAAAATTG AATACTTGCT4381 GAGTGAGCAT AGGTGAATGG AAAATGTTAT GGTCATCTGC ATGAAAAAGC AAATCATAGT4441 GTGACAGCAT TAGGGATACA AAAAGATATA GAGAAGGTAT ACATGTATGG TGTAGGTGGG4501 GCATGTACAA AAAGATGACA AGTAGAATCG GGATTTATTC TAAAGAATAG CCTGTAAGGT4561 GTCCAGAAGC CACATTCTAG TCTTGAGTCT GCCTCTACCT GCTGTGTGCC CTTGAGTACA4621 CCCTTAACCT CCTTGAGCTT CAGAGAGGGA TAATCTTTTT ATTTTATTTT ATTTTATTTT4681 GTTTTGTTTT GTTTTGTTTT GTTTTATGAG ACAGAGTCTC ACTCTGTTGC CCAGGCTGGA4741 GTGCAGTGGT ACAATCTTGG CTTACTGCAT CCTCCACCTC CTGAGTTCAA GCGATTCTCC4801 TTCCTCAGTC TCCTGAATAG CTAGGATTAC AGGTGCACCC CACCACACCC AGCTAATTTT4861 TGTATTTTTA GTAGAGAAGG GGTTTCGCCA TGTTGGCCAG GCTGGTTTTG AAGTCCTGAC4921 CTAAATGATT CATCCACCTC GGCTTCCCAA AGTGCTGGGA TTACAGGCAT GAGCCACCAC 4928 GCCTGGCCCA GAGAGGGATG ATCTTTAGAA GCTCGGGATT CTTTCAAGCC CTTTCCTCCT5041 CTCTGAGCTT TCTACTCTCT GATGTCAAAG CATGGTTCCT GGCAGGACCA CCTCACCAGG5101 CTCCCTCCCT CGCTCTCTCC GCAGTGCTCC TTCCAGGACC TGGACCTCTG CCCTCTGGAT 8461 GGCGGCATCC AGCTACGAAT CTCCGACCAC CACTACAGCA AGGGCTTCAG GCAGGCCGCG5221 TCAGTTGTTG TGGCCATGGA CAAGCTGAGG AAGATGCTGG TTCCCTGCCC ACAGACCTTC5281 CAGGAGAATG ACCTGAGCAC CTTCTTTCCC TTCATCTTTG AAGAAGGTAG TTAGCCAAGA5341 GCAGGCAGTA GATCTCCACT TGTGTCCTCT TGGAAGTCAT CAAGCCCCAG CCAACTCAAT 5458 365461 GCTGGAAACC AAAGCAATCA TCTCTTTAGT GGAAACTATT CTTAAAGAAG ATCTTGATGG5521 CTACTGACAT TTGCAACTCC CTCACTCTTT CTCAGGGGCC TTTCACTTAC ATTGTCACCA5581 GAGGTTCGTA ACCTCCCTGT GGGCTAGTGT TATGACCATC ACCATTTTAC CTAAGTAGCT5641 CTGTTGCTCG GCCACAGTGA GCAGTAATAG ACCTGAAGCT GGAACCCATG TCTAATAGTG5701 TCAGGTCCAG TGTTCTTAGC CACCCCACTC CCAGCTTCAT CCCTACTGGT GTTGTCATCA5761 GACTTTGACC GTATATGCTC AGGTGTCCTC CAAGAAATCA AATTTTGCCA CCTCGCCTCA5821 CGAGGCCTGC CCTTCTGATT TTATACCTAA ACAACATGTG CTCCACATTT CAGAACCTAT5881 58 5881 CTTCTTCGAC ACATGGGATA ACGAGGCTTA TGTGCACGAT GCACCTGTAC GATCACTGAA5941 CTGCACGCTC CGGGACTCAC AGCAAAAAAG CTTGGTGATG TCTGGTCCAT ATGAACTGAA6001 AGCTCTCCAC CTCCAGGGAC AGGATATGGA GCAACAAGGT AAATGGAAAC ATCCTGGTTT6061 CCCTGCCTGG CCTCCTGGCA GCTTGCTAAT TCTCCATGTT TTAAACAAAG TAGAAAGTTA6121 ATTTAAGGCA AATGATCAAC ACAAGTGAAA AAAAATATTA AAAAGGAATA TACAAACTTT6181 GGTCCTAGAA ATGGCACATT TGATTGCACT GGCCAGTGCA TTTGTTAACA GGAGTGTGAC6241 CCTGAGAAAT TAGACGGCTC AAGCACTCCC AGGACCATGT CCACCCAAGT CTCTTGGGCA6301 TAGTGCAGTG TCAATTCTTC CACAATATGG GGTCATTTGA TGGACATGGC CTAACTGCCT6361 GTGGGTTCTC TCTTCCTGTT GTTGAGGCTG AAACAAGAGT GCTGGAGCGA TAATGTGTCC6421 ATCCCCCTCC CCAGTCTTCC CCCCTTGCCC CAACATCCGT CCCACCCAAT GCCAGGTGGT6481 TCCTTGTAGG GAAATTTTAC CGCCCAGCAG GAACTTATAT CTCTCCGCTG TAACGGGCAA6541 AAGTTTCAAG TGCGGTGAAC CCATCATTAG CTGTGGTGAT CTGCCTGGCA TCGTGCCACA6601 GTAGCCAAAG CCTCTGCACA GGAGTGTGGG CAACTAAGGC TGCTGACTTT GAAGGACAGC6661 66 6661 CTCACTCAGG GGGAAGCTAT TTGCTCTCAG CCAGGCCAAG AAAATCCTGT TTCTTTGGAA6721 TCGGGTAGTA AGAGTGATCC CAGGGCCTCC AATTGACACT GCTGTGACTG AGGAAGATCA6781 AAATGAGTGT CTCTCTTTGG AGCCACTTTC CCAGCTCAGC CTCTCCTCTC CCAGTTTCTT6841 CCCATGGGCT ACTCTCTGTT CCTGAAACAG TTCTGGTGCC TGATTTCTGG CAGAAGTACA6901 GCTTCACCTC TTTCCTTTCC TTCCACATTG ATCAAGTTGT TCCGCTCCTG TGGATGGGCA6961 69661 6963 CATTGCCAGC CAGTGACACA ATGGCTTCCT TCCTTCCTTC CTTCAGCATT TAAAATGTAG7021 ACCCTCTTTC ATTCTCCGTT CCTACTGCTA TGAGGCTCTG AGAAACCCTC AGGCCTTTGA7081 GGGGAAACCC TAAATCAACA AAATGACCCT GCTATTGTCT GTGAGAAGTC AAGTTATCCT7141 GTGTCTTAGG CCAAGGAACC TCACTGTGGG TTCCCACAGA GGCTACCAAT TACATGTATC7201 CTACTCTCGG GGCTAGGGGT TGGGGTGACC CTGCATGCTG TGTCCCTAAC CACAAGACCC7261 CCTTCTTTCT TCAGTGGTGT TCTCCATGTC CTTTGTACAA GGAGAAGAAA GTAATGACAA7321 AATACCTGTG GCCTTGGGCC TCAAGGAAAA GAATCTGTAC CTGTCCTGCG TGTTGAAAGA7381 TGATAAGCCC ACTCTACAGC TGGAGGTAAG TGAATGCTAT GGAATGAAGC CCTTCTCAGC7441 CTCCTGCTAC CACTTATTCC CAGACAATTC ACCTTCTCCC CGCCCCCATC CCTAGGAAAA7501 GCTGGGAACA GGTCTATTTG ACAAGTTTTG CATTAATGTA AATAAATTTA ACATAATTTT7561 TAACTGCGTG CAACCTTCAA TCCTGCTGCA GAAAATTAAA TCATTTTGCC GATGTTATTA7621 TGTCCTACCA TAGTTACAAC CCCAACAGAT TATATATTGT TAGGGCTGCT CTCATTTGAT7681 76 7681 AGACACCTTG GGAAATAGAT GACTTAAAGG GTCCCATTAT CACGTCCACT CCACTCCCAA7741 AATCACCACC ACTATCACCT CCAGCTTTCT CAGCAAAAGC TTCATTTCCA AGTTGATGTC7801 ATTCTAGGAC CATAAGGAAA AATACAATAA AAAGCCCCTG GAAACTAGGT ACTTCAAGAA7861 GCTCTAGCTT AATTTTCACC CCCCCAAAAA AAAAAAATTC TCACCTACAT TATGCTCCTC7921 AGCATTTGGC ACTAAGTTTT AGAAAAGAAG AAGGGCTCTT TTAATAATCA CACAGAAAGT7981 TGGGGGCCCA GTTACAACTC AGGAGTCTGG CTCCTGATCA TGTGACCTGC TCGTCAGTTT8041 CCTTTCTGGC CAACCCAAAG AACATCTTTC CCATAGGCAT CTTTGTCCCT TGCCCCACAA8101 AAATTCTTCT TTCTCTTTCG CTGCAGAGTG TAGATCCCAA AAATTACCCA AAGAAGAAGA8161 TGGAAAAGCG ATTTGTCTTC AACAAGATAG AAATCAATAA CAAGCTGGAA TTTGAGTCTG8221 CCCAGTTCCC CAACTGGTAC ATCAGCACCT CTCAAGCAGA AAACATGCCC GTCTTCCTGG8281 GAGGGACCAA AGGCGGCCAG GATATAACTG ACTTCACCAT GCAATTTGTG TCTTCCTAAA8341 GAGAGCTGTA CCCAGAGAGT CCTGTGCTGA ATGTGGACTC AATCCCTAGG GCTGGCAGAA8401 AGGGAACAGA AAGGTTTTTG AGTACGGCTA TAGCCTGGAC TTTCCTGTTG TCTACACCAA8461 TGCCCAACTG CCTGCCTTAG GGTAGTGCTA AGAGGATCTC CTGTCCATCA GCCAGGACAG8521 TCAGCTCTCT CCTTTCAGGG CCAATCCCCA GCCCTTTTGT TGAGCCAGGC CTCTCTCACC8581 TCTCCTACTC ACTTAAAGCC CGCCTGACAG AAACCACGGC CACATTTGGT TCTAAGAAAC8641 CCTCTGTCAT TCGCTCCCAC ATTCTGATGA GCAACCGCTT CCCTATTTAT TTATTTATTT8701 GTTTGTTTGT TTTGATTCAT TGGTCTAATT TATTCAAAGG GGGCAAGAAG TAGCAGTGTC8761 TGTAAAAGAG CCTAGTTTTT AATAGCTATG GAATCAATTC AATTTGGACT GGTGTGCTCT8821 CTTTAAATCA AGTCCTTTAA TTAAGACTGA AAATATATAA GCTCAGATTA TTTAAATGGG8881 AATATTTATA AATGAGCAAA TATCATACTG TTCAATGGTT CTGAAATAAA CTTCACTGAA8941 GAAAAAAAAA AAAGGGTCTC TCCTGATCAT TGACTGTCTG GATTGACACT GACAGTAAGC9001 AAACAGGCTG TGAGAGTTCT TGGGACTAAG CCCACTCCTC ATTGCTGAGT GCTGCAAGTA9061 CCTAGAAATA TCCTTGGCCA CCGAAGACTA TCCTCCTCAC CCATCCCCTT TATTTCGTTG9121 TTCAACAGAA GGATATTCAG TGCACATCTG GAACAGGATC AGCTGAAGCA CTGCAGGGAG9181 TCAGGACTGG TAGTAACAGC TACCATGATT TATCTATCAA TGCACCAAAC ATCTGTTGAG9241 6341 9241 CAAGCGCTAT GTACTAGGAG CTGGGAGTAC AGAGATGAGA ACAGTCACAA GTCCCTCCTC9301 AGATAGGAGA GGCAGCTAGT TATAAGCAGA ACAAGGTAAC ATGACAAGTA GAGTAAGATA9361 GAAGAACGAA GAGGAGTAGC CAGGAAGGAG GGAGGAGAAC GACATAAGAA TCAAGCCTAA9421 AGGGATAAAC AGAAGATTTC CACACATGGG CTGGGCCAAT TGGGTGTCGG TTACGCCTGT9481 AATCCCAGCA CTTTGGGTGG CAGGGGCAGA AAGATCGCTT GAGCCCAGGA GTTCAAGACC9541 AGCCTGGGCA ACATAGTGAG ACTCCCATCT CTACAAAAAA TAAATAAATA AATAAAACAA9601 TCAGCCAGGC ATGCTGGCAT GCACCTGTAG TCCTAGCTAC TTGGGAAGCT GACACTGGAG9661 GATTGCTTGA GCCCAGAAGT TCAAGACTGC AGTGAGCTTA TCCGTTGACC TGCAGGTCGA 9721C 1 ACAAACCTTT TCGAGGCAAA AGGCAAAAAA GGCTGCTCTG GGATTCTCTT CAGCCAATCT 61 TCAATGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TAAGCTCGCC AGTGAAATGA TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA181 TGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA241 TCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG301 ACAAGCTGAG GAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA361 CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG421 CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGAC TCACAGCAAA481 AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATA541 TGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG661 ATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG721 AAAAGCGATT TGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCC 781 AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG 841 GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCT TCCTAAAGAG 901 AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGG 961 GAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC1021 CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA1081 GCTCTCTCCT TTCAGGGCCA ATCCCAGCCC TTTTGTTGAG CCAGGCCTCT CTCACCTCTC1141 CTACTCACTT AAAGCCCGCC TGACAGAAAC CAGGCCACAT TTTGGTTCTA AGAAACCCTC1201 CTCTGTCATT CGCTCCCACA TTCTGATGAG CAACCGCTTC CCTATTTATT TATTTATTTG1261 13242 1321 GTAAAAGAGC CTAGTTTTTA ATAGCTATGG AATCAATTCA ATTTGGACTG GTGTGCTCTC1381 TTTAAATCAA GTCCTTTAAT TAAGACTGAA AATATATAAG CTCAGATTAT TTAAATGGGA1441 ATATTTATAA ATGAGCAAAT ATCATACTGT TCAATGGTTC TCAAATAAAC TTCACT 1 CTGGCAGGAG TAGCAGCTGC CCCTTGGCGC GACTGCTGGA GCCGCGAACT AGAGAAACAC 61 AGACACGCCT CATAGAGCAA CGGCGTCTCT CGGAGCGTGG AGCCCGCCAA GCTCGAGCTG121 AGCTTTCGCT TGCCGTCCAC CACTGCCCAC ACTGTCGTTT GCTGCCATCG CAGACCTGCT181 GCTGACTTCC ATCCCTCTGG ATCCGGCAAG GGCCTGCGAT TTTGACAATG TCAAGATTTA241 CCGTATATCC CTGTTTGTTT GGATACACCA GTGACGTCCA CTTCTAGAAG ACAAAGTTAT301 ATTACTTAAA CAACCAAAGA TATGAAACTA TCCATGAAGA ACAATATTAT CAATACACAG361 CAGTCTTTTG TAACCATGCC CAATGTGATT GTACCAGATA TTGAAAAGGA AATACGAAGG421 ATGGAAAATG GAGCATGCAG CTCCTTTTCT GAGGATGATG ACAGTGCCTC TACATCTGAA481 GAATCAGAGA ATGAAAACCC TCATGCAAGG GGTTCCTTTA GTTATAAGTC ACTCAGAAAG541 GGAGGACCAT CACAGAGGGA GCAGTACCTG CCTGGTGCCA TTGCCATTTT TAATGTGAAC601 AACAGCGACA ATAAGGACCA GGAACCAGAA GAAAAAAAGA AAAAGAAAAA AGAAAAGAAG661 AGCAAGTCAG ATGATAAAAA CGAAAATAAA AACGACCCAA AGAAGAAGAT GGAAAAGCGA 1 ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGTGA AAATGAAGAA 61 GACAGTTCCT CCATTGATCA TCTGTCTCTG AATCAGAAAT CCTTCTATCA TGTAAGCTAT 121 GGCCCACTCC ATGAAGGCTG CATGGATCAA TCTGTGTCTC TGAGTATCTC TGAAACCTCT 181 39181 181 AAAACATCCA AGCTTACCTT CAAGGAGAGC ATGGTGGTAG TAGCAACCAA CGGGAAGGTT 241 CTGAAGAAGA GACGGTTGAG TTTAAGCCAA TCCATCACTG ATGATGACCT GGAGGCCATC 301 GCCAATGACT CAGAGGAAGA AATCATCAAG CCTAGGTCAG CACCTTTTAG CTTCCTGAGC 361 AATGTGAAAT ACAACTTTAT GAGGATCATC AAATACGAAT TCATCCTGAA TGACGCCCTC 421 AATCAAAGTA TAATTCGAGC CAATGATCAG TACCTCACGG CTGCTGCATT ACATAATCTG 481 GATGAAGCAG TGAAATTTGA CATGGGTGCT TATAAGTCAT CAAAGGATGA TGCTAAAATT 541 ACCGTGATTC TAAGAATCTC AAAAACTCAA TTGTATGTGA CTGCCCAAGA TGAAGACCAA 601 CCAGTGCTGC TGAAGGAGAT GCCTGAGATA CCCAAAACCA TCACAGGTAG TGAGACCAAC 661 CTCCTCTTCT TCTGGGAAAC TCACGGCACT AAGAACTATT TCACATCAGT TGCCCATCCA 721 AACTTGTTTA TTGCCACAAA GCAAGACTAC TGGGTGTGCT TGGCAGGGGG GCCACCCTCT 781 ATCACTGACT TTCAGATACT GGAAAACCAG GCGTAGGTCT GGAGTCTCAC TTGTCTCACT 841 TGTGCAGTGT TGACAGTTCA TATGTACCAT GTACATGAAG AAGCTAAATC CTTTACTGTT 901 AGTCATTTGC TGAGCATGTA CTGAGCCTTG TAATTCTAAA TGAATGTTTA CACTCTTTGT 961 AAGAGTGGAA CCAACACTAA CATATAATGT TGTTATTTAA AGAACACCCT ATATTTTGCA1021 TAGTACCAAT CATTTTAATT ATTATTCTTC ATAACAATTT TAGGAGGACC AGAGCTACTG1081 ACTATGGCTA CCAAAAAGAC TCTACCCATA TTACAGATGG GCAAATTAAG GCATAAGAAA1141 ACTAAGAAAT ATGCACAATA GCAGTTGAAA CAAGAAGCCA CAGACCTAGG ATTTCATGAT1201 TTCATTTCAA CTGTTTGCCT TCTGCTTTTA AGTTGCTGAT GAACTCTTAA TCAAATAGCA1261 TAAGTTTCTG GGACCTCAGT TTTATCATTT TCAAAATGGA GGGAATAATA CCTAAGCCTT1321 CCTGCCGCAA CAGTTTTTTA TGCTAATCAG GGAGGTCATT TTGGTAAAAT ACTTCTCGAA1381 GCCGAGCCTC AAGATGAAGG CAAAGCACGA AATGTTATTT TTTAATTATT ATTTATATAT1441 GTATTTATAA ATATATTTAA GATAATTATA ATATACTATA TTTATGGGAA CCCCTTCATC1501 CTCTGAGTGT GACCAGGCAT CCTCCACAAT AGCAGACAGT GTTTTCTGGG ATAAGTAAGT1561 TTGATTTCAT TAATACAGGG CATTTTGGTC CAAGTTGTGC TTATCCCATA GCCAGGAAAC1621 TCTGCATTCT AGTACTTGGG AGACCTGTAA TCATATAATA AATGTACATT AATTACCTTG1681 AGCCAGTAAT TGGTCCGATC TTTGACTCTT TTGCCATTAA ACTTACCTGG GCATTCTTGT1741 TTCATTCAAT TCCACCTGCA ATCAAGTCCT ACAAGCTAAA ATTAGATGAA CTCAACTTTG1801 ACAACCATAG ACCACTGTTA TCAAAACTTT CTTTTCTGGA ATGTAATCAA TGTTTCTTCT1861 AGGTTCTAAA AATTGTGATC AGACCATAAT GTTACATTAT TATCAACAAT AGTGATTGAT1921 AGAGTGTTAT CAGTCATAAC TAAATAAAGC TTGCAAGTGA GGGAGTCATT TCATTGGCGT1981 TTGAGTCAGC AAAGAAGTCA AG AGCTGCCAGC CAGAGAGGGA GTCATTTCAT TGGCGTTTGA GTCAGCAAAG AAGTCAAGAT 6361 GGCCAAAGTT CCAGACATGT TTGAAGACCT GAAGAACTGT TACAGTGAAA ATGAAGAAGA121 CAGTTCCTCC ATTGATCATC TGTCTCTGAA TCAGAAATCC TTCTATCATG TAAGCTATGG181 CCCACTCCAT GAAGGCTGCA TGGATCAATC TGTGTCTCTG AGTATCTCTG AAACCTCTAA 241 AACATCCAAG CTTACCTTCA AGGAGAGCAT GGTGGTAGTA GCAACCAACG GGAAGGTTCT GAAGAAGAGA CGGTTGAGTT TAAGCCAATC CATCACTGAT GATGACCTGG AGGCCATCGC CAATGACTCA GAGGAAGAAA TCATCAAGCC TAGGTCATCA CCTTTTAGCT TCCTGAGCAA TGTGAAATAC AACTTTATGA GGATCATCAA ATACGAATTC ATCCTGAATG ACGCCCTCAA 481 TCAAAGTATA ATTCGAGCCA ATGATCAGTA CCTCACGGCT GCTGCATTAC ATAATCTGGA 541 TGAAGCAGTG AAATTTGACA TGGGTGCTTA TAAGTCATCA AAGGATGATG CTAAAATTAC 601 CGTGATTCTA AGAATCTCAA AAACTCAATT GTATGTGACT GCCCAAGATG AAGACCAACC 661 AGTGCTGCTG AAGGAGATGC CTGAGATACC CAAAACCATC ACAGGTAGTG AGACCAACCT 721 CCTCTTCTTC TGGGAAACTC ACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAA 781 CTTGTTTATT GCCACAAAGC AAGACTACTG GGTGTGCTTG GCAGGGGGGC CACCCTCTAT 841 CACTGACTTT CAGATACTGG AAAACCAGGC GTAGGTCTGG AGTCTCACTT GTCTCACTTG 901 TGCAGTGTTG ACAGTTCATA TGTACCATGT ACATGAAGAA GCTAAATCCT TTACTGTTAG 961 TCATTTGCTG AGCATGTACT GAGCCTTGTA ATTCTAAATG AATGTTTACA CTCTTTGTAA1021 GAGTGGAACC AACACTAACA TATAATGTTG TTATTTAAAG AACACCCTAT ATTTTGCATA1081 GTACCAATCA TTTTAATTAT TATTCTTCAT AACAATTTTA GGAGGACCAG AGCTACTGAC1141 TATGGCTACC AAAAAGACTC TACCCATATT ACAGATGGGC AAATTAAGGC ATAAGAAAAC1201 TAAGAAATAT GCACAATAGC AGTCGAAACA AGAAGCCACA GACCTAGGAT TTCATGATTT1261 CATTTCAACT GTTTGCCTTC TGCTTTTAAG TTGCTGATGA ACTCTTAATC AAATAGCATA1321 AGTTTCTGGG ACCTCAGTTT TATCATTTTC AAAATGGAGG GAATAATACC TAAGCCTTCC1381 TGCCGCAACA GTTTTTTATG CTAATCAGGG AGGTCATTTT GGTAAAATAC TTCTCGAAGC1441 CGAGCCTCAA GATGAAGGCA AAGCACGAAA TGTTATTTTT TAATTATTAT TTATATATGT1501 ATTTATAAAT ATATTTAAGA TAATTATAAT ATACTATATT TATGGGAACC CCTTCATCCT1561 CTGAGTGTGA CCAGGCATCC TCCACAATAG CAGACAGTGT TTTCTGGGAT AAGTAAGTTT1621 GATTTCATTA ATACAGGGCA TTTTGGTCCA AGTTGTGCTT ATCCCATAGC CAGGAAACTC1681 TGCATTCTAG TACTTGGGAG ACCTGTAATC ATATAATAAA TGTACATTAA TTACCTTGAG1741 CCAGTAATTG GTCCGATCTT TGACTCTTTT GCCATTAAAC TTACCTGGGC ATTCTTGTTT1801 CATTCAATTC CACCTGCAAT CAAGTCCTAC AAGCTAAAAT TAGATGAACT CAACTTTGAC1861 AACCATGAGA CCACTGTTAT CAAAACTTTC TTTTCTGGAA TGTAATCAAT GTTTCTTCTA1921 1928651 1921 GGTTCTAAAA ATTGTGATCA GACCATAATG TTACATTATT ATCAACAATA GTGATTGATA1981 GAGTGTTATC AGTCATAACT AAATAAAGCT TGCAACAAAA TTCTCTG (2) SEQ ID NO: 2518, data: (i) sequence characteristics:

(A) length: 1308 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2518 sequence description: 1 GCCACGTGCT GCTGGGTCTC AGTCCTCCAC TTCCCGTGTC CTCTGGAAGT TGTCAGGAGC 61 AATGTTGCGC TTGTACGTGT TGGTAATGGG AGTTTCTGCC TTCACCCTTC AGCCTGCGGC 121 ACACACAGGG GCTGCCAGAA GCTGCCGGTT TCGTGGGAGG CATTACAAGC GGGAGTTCAG 181 721 CACTAGGAGT ATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT 781 181 GCTGGAAGGG GAGCCTGTAG CCCTGAGGTG CCCCCAGGTG CCCTACTGGT TGTGGGCCTC 241 TGTCAGCCCC CGCATCAACC TGACATGGCA TAAAAATGAC TCTGCTAGGA CGGTCCCAGG 301 AGAAGAAGAG ACACGGATGT GGGCCCAGGA CGGTGCTCTG TGGCTTCTGC CAGCCTTGCA 361 GGAGGACTCT GGCACCTACG TCTGCACTAC TAGAAATGCT TCTTACTGTG ACAAAATGTC 421 CATTGAGCTC AGAGTTTTTG AGAATACAGATGCTTTCCTG CCGTTCATCT CATACCCGCA 481 AATTTTAACC TTGTCAACCT CTGGGGTATT AGTATGCCCT GACCTGAGTG AATTCACCCG 541 TGACAAAACT GACGTGAAGA TTCAATGGTA CAAGGATTCT CTTCTTTTGG ATAAAGACAA 601 TGAGAAATTT CTAAGTGTGA GGGGGACCAC TCACTTACTC GTACACGATG TGGCCCTGGA 661 AGATGCTGGC TATTACCGCT GTGTCCTGAC ATTTGCCCAT GAAGGCCAGC AATACAACAT 721 CACTAGGAGT ATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT 781 TTCCCCCCTC AAGACCATAT CAGCTTCTCT GGGGTCAAGA CTGACAATCC CGTGTAAGGT 841 GTTTCTGGGA ACCGGCACAC CCTTAACCAC CATGCTGTGG TGGACGGCCA ATGACACCCA 901 CATAGAGAGC GCCTACCCGG GAGGCCGCGT GACCGAGGGG CCACGCCAGG AATATTCAGA 961 AAATAATGAG AACTACATTG AAGTGCCATT GATTTTTGAT CCTGTCACAA GAGAGGATTT1021 GCACATGGAT TTTAAATGTG TTGTCCATAA TACCCTGAGT TTTCAGACAC TACGCACCAC1081 AGTCAAGGAA GCCTCCTCCA CGTTCTCCTG GGGCATTGTG CTGGCCCCAC TTTCACTGGC1141 CTTCTTGGTT TTGGGGGGAA TATGGATGCA CAGACGGTGC AAACACAGAA CTGGAAAAGC1201 AGATGGTCTG ACTGTGCTAT GGCCTCATCA TCAAGACTTT CAATCCTATC CCAAGTGAAA1261 TAAATGGAAT GAAATAATTC AAACACAAAA AAAAAAAAAA AAAAAAAA (2) SEQ ID NO: 2519 data: (i) sequence characteristics:

(A) length: 2156 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2519 sequence description: 1 GCCGGAGCCG ACTCGGAGCG CGCGGCGCGG CCGGGAGGAG CCGAGCGCGC CGGGCGCGGC 61 GTGGGGGCGC CGGCTGCCCC GCGCGCCCAG GGAGCGGCAG GAATGTGACA ATCGCGCGCC 121 CGCACCGTAG CACTCCTCGC TCGGCTCCTA GGGCTCTCGC CCTCTGAGCT GAGCCGGGTT 181 721 GAGGACTTGT GTGCCCTTAT ATGGAGTTTT TTAAAAATGA AAATAATGAG TTACCTAAAT 781 181 CCGCCCGGGC TGGGATCCCA TCACCCTCCA CGGCCGTCCG TCCAGGTAGA CGCACCCTCT 241 GAAGATGGTG ACTCCCTCCT GAGAAGCTGG ACCCCTTGGT AAAAGACAAG GCCTTCTCCA 301 AGAAGAATAT GAAAGTGTTA CTCAGACTTA TTTGTTTCAT AGCTCTACTG ATTTCTTCTC 361 TGGAGGCTGA TAAATGCAAG GAACGTGAAG AAAAAATAAT TTTAGTGTCA TCTGCAAATG 421 AAATTGATGT TCGTCCCTGT CCTCTTAACC CAAATGAACA CAAAGGCACT ATAACTTGGT 481 ATAAAGATGA CAGCAAGACA CCTGTATCTA CAGAACAAGC CTCCAGGATT CATCAACACA 541 AAGAGAAACT TTGGTTTGTT CCTGCTAAGG TGGAGGATTC AGGACATTAC TATTGCGTGG 601 TAAGAAATTC ATCTTACTGC CTCAGAATTA AAATAAGTGC AAAATTTGTG GAGAATGAGC 661 CTAACTTATG TTATAATGCA CAAGCCATAT TTAAGCAGAA ACTACCCGTT GCAGGAGACG 721 GAGGACTTGT GTGCCCTTAT ATGGAGTTTT TTAAAAATGA AAATAATGAG TTACCTAAAT 781 TACAGTGGTA TAAGGATTGC AAACCTCTAC TTCTTGACAA TATACACTTT AGTGGAGTCA 841 AAGATAGGCT CATCGTGATG AATGTGGCTG AAAAGCATAG AGGGAACTAT ACTTGTCATG 901 CATCCTACAC ATACTTGGGC AAGCAATATC CTATTACCCG GGTAATAGAA TTTATTACTC 961 TAGAGGAAAA CAAACCCACA AGGCCTGTGA TTGTGAGCCC AGCTAATGAG ACAATGGAAG1021 TAGACTTGGG ATCCCAGATA CAATTGATCT GTAATGTCAC CGGCCAGTTG AGTGACATTG1081 CTTACTGGAA GTGGAATGGG TCAGTAATTG ATGAAGATGA CCCAGTGCTA GGGGAAGACT1141 ATTACAGTGT GGAAAATCCT GCAAACAAAA GAAGGAGTAC CCTCATCACA GTGCTTAATA1201 TATCGGAAAT TGAAAGTAGA TTTTATAAAC ATCCATTTAC CTGTTTTGCC AAGAATACAC1261 ATGGTATAGA TGCAGCATAT ATCCAGTTAA TATATCCAGT CACTAATTTC CAGAAGCACA1321 TGATTGGTAT ATGTGTCACG TTGACAGTCA TAATTGTGTG TTCTGTTTTC ATCTATAAAA1381 TCTTCAAGAT TGACATTGTG CTTTGGTACA GGGATTCCTG CTATGATTTT CTCCCAATAA1441 AAGCTTCAGA TGGAAAGACC TATGACGCAT ATATACTGTA TCCAAAGACT GTTGGGGAAG1501 GGTCTACCTC TGACTGTGAT ATTTTTGTGT TTAAAGTCTT GCCTGAGGTC TTGGAAAAAC1561 AGTGTGGATA TAAGCTGTTC ATTTATGGAA GGGATGACTA CGTTGGGGAA GACATTGTTG1621 AGGTCATTAA TGAAAACGTA AAGAAAAGCA GAAGACTGAT TATCATTTTA GTCAGAGAAA1681 CATCAGGCTT CAGCTGGCTG GGTGGTTCAT CTGAAGAGCA AATAGCCATG TATAATGCTC1741 TTGTTCAGGA TGGAATTAAA GTTGTCCTGC TTGAGCTGGA GAAAATCCAA GACTATGAGA1801 AAATGCCAGA ATCGATTAAA TTCATTAAGC AGAAACATGG GGCTATCCGC TGGTCAGGGG1861 ACTTTACACA GGGACCACAG TCTGCAAAGA CAAGGTTCTG GAAGAATGTC AGGTACCACA1921 TGCCAGTCCA GCGACGGTCA CCTTCATCTA AACACCAGTT ACTGTCACCA GCCACTAAGG1981 AGAAACTGCA AAGAGAGGCT CACGTGCCTC TCGGGTAGCA TGGAGAAGTT GCCAAGAGTT2041 CTTTAGGTGC CTCCTGTCTT ATGGCGTTGC AGGCCAGGTT ATGCCTCATG CTGACTTGCA2101 GAGTTCATGG AATGTAACTA TATCATCCTT TATCCCTGAG GTCACCAGGA ATCAGG (2) SEQ ID NO: 2520 data: (i) sequence characteristics:

(A) length: 3464 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2520 describes the sequence: 1 GCCACGTGCT GCTGGGTCTC AGTCCTCCAC TTCCCGTGTC CTCTGGAAGT TGTCAGGAGC 61 AATGTTGCGC TTGTACGTGT TGGTAATGGG AGTTTCTGCC TTCACCCTTC AGCCTGCGGC 121 ACACACAGGG GCTGCCAGAA GCTGCCGGTT TCGTGGGAGG CATTACAAGC GGGAGTTCAG 181 721 CACTAGGAGT ATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT 781 181 GCTGGAAGGG GAGCCTGTAG CCCTGAGGTG CCCCCAGGTG CCCTACTGGT TGTGGGCCTC 241 TGTCAGCCCC CGCATCAACC TGACATGGCA TAAAAATGAC TCTGCTAGGA CGGTCCCAGG 301 AGAAGAAGAG ACACGGATGT GGGCCCAGGA CGGTGCTCTG TGGCTTCTGC CAGCCTTGCA 361 GGAGGACTCT GGCACCTACG TCTGCACTAC TAGAAATGCT TCTTACTGTG ACAAAATGTC 421 CATTGAGCTC AGAGTTTTTG AGAATACAGA TGCTTTCCTG CCGTTCATCT CATACCCGCA 481 AATTTTAACC TTGTCAACCT CTGGGGTATT AGTATGCCCT GACCTGAGTG AATTCACCCG 541 TGACAAAACT GACGTGAAGA TTCAATGGTA CAAGGATTCT CTTCTTTTGG ATAAAGACAA 601 TGAGAAATTT CTAAGTGTGA GGGGGACCAC TCACTTACTC GTACACGATG TGGCCCTGGA 661 AGATGCTGGC TATTACCGCT GTGTCCTGAC ATTTGCCCAT GAAGGCCAGC AATACAACAT 721 CACTAGGAGT ATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT 781 TTCCCCCCTC AAGACCATAT CAGCTTCTCT GGGGTCAAGA CTGACAATCC CGTGTAAGGT 841 GTTTCTGGGA ACCGGCACAC CCTTAACCAC CATGCTGTGG TGGACGGCCA ATGACACCCA 901 CATAGAGAGC GCCTACCCGG GAGGCCGCGT GACCGAGGGG CCACGCCAGG AATATTCAGA 961 AAATAATGAG AACTACATTG AAGTGCCATT GATTTTTGAT CCTGTCACAA GAGAGGATTT1021 GCACATGGAT TTTAAATGTG TTGTCCATAA TACCCTGAGT TTTCAGACAC TACGCACCAC1081 AGTCAAGGAA GCCTCCTCCA CGTTCTCCTG GGGCATTGTG CTGGCCCCAC TTTCACTGGC1141 CTTCTTGGTT TTGGGGGGAA TATGGATGCA CAGACGGTGC AAACACAGAA CTGGAAAAGC1201 AGATGGTCTG ACTGTGCTAT GGCCTCATCA TCAAGACTTT CAATCCTATC CCAAGTGAAA1261 TAAATGGAAT GAAATAATTC AAACACAAAA AAAAAAAAAA AAAAAAAA 1 GCCGGAGCCG ACTCGGAGCG CGCGGCGCGG CCGGGAGGAG CCGAGCGCGC CGGGCGCGGC 61 GTGGGGGCGC CGGCTGCCCC GCGCGCCCAG GGAGCGGCAG GAATGTGACA ATCGCGCGCC 121 CGCACCGTAG CACTCCTCGC TCGGCTCCTA GGGCTCTCGC CCTCTGAGCT GAGCCGGGTT 181 CCGCCCGGGC TGGGATCCCA TCACCCTCCA CGGCCGTCCG TCCAGGTAGA CGCACCCTCT 241 GAAGATGGTG ACTCCCTCCT GAGAAGCTGG ACCCCTTGGT AAAAGACAAG GCCTTCTCCA 301 AGAAGAATAT GAAAGTGTTA CTCAGACTTA TTTGTTTCAT AGCTCTACTG ATTTCTTCTC 361 TGGAGGCTGA TAAATGCAAG GAACGTGAAG AAAAAATAAT TTTAGTGTCA TCTGCAAATG 421 AAATTGATGT TCGTCCCTGT CCTCTTAACC CAAATGAACA CAAAGGCACT ATAACTTGGT 481 ATAAAGATGA CAGCAAGACA CCTGTATCTA CAGAACAAGC CTCCAGGATT CATCAACACA 541 AAGAGAAACT TTGGTTTGTT CCTGCTAAGG TGGAGGATTC AGGACATTAC TATTGCGTGG 601 TAAGAAATTC ATCTTACTGC CTCAGAATTA AAATAAGTGC AAAATTTGTG GAGAATGAGC 661 CTAACTTATG TTATAATGCA CAAGCCATAT TTAAGCAGAA ACTACCCGTT GCAGGAGACG 721 GAGGACTTGT GTGCCCTTAT ATGGAGTTTT TTAAAAATGA AAATAATGAG TTACCTAAAT 781 TACAGTGGTA TAAGGATTGC AAACCTCTAC TTCTTGACAA TATACACTTT AGTGGAGTCA 841 AAGATAGGCT CATCGTGATG AATGTGGCTG AAAAGCATAG AGGGAACTAT ACTTGTCATG 901 CATCCTACAC ATACTTGGGC AAGCAATATC CTATTACCCG GGTAATAGAA TTTATTACTC 961 TAGAGGAAAA CAAACCCACA AGGCCTGTGA TTGTGAGCCC AGCTAATGAG ACAATGGAAG1021 TAGACTTGGG ATCCCAGATA CAATTGATCT GTAATGTCAC CGGCCAGTTG AGTGACATTG1081 CTTACTGGAA GTGGAATGGG TCAGTAATTG ATGAAGATGA CCCAGTGCTA GGGGAAGACT1141 ATTACAGTGT GGAAAATCCT GCAAACAAAA GAAGGAGTAC CCTCATCACA GTGCTTAATA1201 TATCGGAAAT TGAAAGTAGA TTTTATAAAC ATCCATTTAC CTGTTTTGCC AAGAATACAC1261 ATGGTATAGA TGCAGCATAT ATCCAGTTAA TATATCCAGT CACTAATTTC CAGAAGCACA1321 TGATTGGTAT ATGTGTCACG TTGACAGTCA TAATTGTGTG TTCTGTTTTC ATCTATAAAA1381 TCTTCAAGAT TGACATTGTG CTTTGGTACA GGGATTCCTG CTATGATTTT CTCCCAATAA1441 AAGCTTCAGA TGGAAAGACC TATGACGCAT ATATACTGTA TCCAAAGACT GTTGGGGAAG1501 GGTCTACCTC TGACTGTGAT ATTTTTGTGT TTAAAGTCTT GCCTGAGGTC TTGGAAAAAC1561 AGTGTGGATA TAAGCTGTTC ATTTATGGAA GGGATGACTA CGTTGGGGAA GACATTGTTG1621 AGGTCATTAA TGAAAACGTA AAGAAAAGCA GAAGACTGAT TATCATTTTA GTCAGAGAAA1681 CATCAGGCTT CAGCTGGCTG GGTGGTTCAT CTGAAGAGCA AATAGCCATG TATAATGCTC1741 TTGTTCAGGA TGGAATTAAA GTTGTCCTGC TTGAGCTGGA GAAAATCCAA GACTATGAGA1801 AAATGCCAGA ATCGATTAAA TTCATTAAGC AGAAACATGG GGCTATCCGC TGGTCAGGGG1861 ACTTTACACA GGGACCACAG TCTGCAAAGA CAAGGTTCTG GAAGAATGTC AGGTACCACA1921 TGCCAGTCCA GCGACGGTCA CCTTCATCTA AACACCAGTT ACTGTCACCA GCCACTAAGG1981 AGAAACTGCA AAGAGAGGCT CACGTGCCTC TCGGGTAGCA TGGAGAAGTT GCCAAGAGTT2041 CTTTAGGTGC CTCCTGTCTT ATGGCGTTGC AGGCCAGGTT ATGCCTCATG CTGACTTGCA2101 GAGTTCATGG AATGTAACTA TATCATCCTT TATCCCTGAG GTCACCAGGA ATCAGG (2) SEQ ID NO: 2521 data: (i) sequence characteristics:

(A) Length: 1185 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2521 description of the sequence: 1 GCTCAGGGCA CATGCCTCCC CTCCCCAGGC CGCGGCCCAG CTGACCCTCG GGGCTCCCCC 61 GGCAGCGGAC AGGGAAGGGT TAAAGGCCCC CGGCTCCCTG CCCCCTGCCC TGGGGAACCC 121 CTGGCCCTGT GGGGACATGA ACTGTGTTTG CCGCCTGGTC CTGGTCGTGC TGAGCCTGTG 181 GCCAGATACA GCTGTCGCCC CTGGGCCACC ACCTGGCCCC CCTCGAGTTT CCCCAGACCC 241 TCGGGCCGAG CTGGACAGCA CCGTGCTCCT GACCCGCTCT CTCCTGGCGG ACACGCGGCA 301 GCTGGCTGCA CAGCTGAGGG ACAAATTCCC AGCTGACGGG GACCACAACC TGGATTCCCT 361 GCCCACCCTG GCCATGAGTG CGGGGGCACT GGGAGCTCTA CAGCTCCCAG GTGTGCTGAC 421 AAGGCTGCGA GCGGACCTAC TGTCCTACCT GCGGCACGTG CAGTGGCTGC GCCGGGCAGG 481 TGGCTCTTCC CTGAAGACCC TGGAGCCCGA GCTGGGCACC CTGCAGGCCC GACTGGACCG 541 GCTGCTGCGC CGGCTGCAGC TCCTGATGTC CCGCCTGGCC CTGCCCCAGC CACCCCCGGA 601 CCCGCCGGCG CCCCCGCTGG CGCCCCCCTC CTCAGCCTGG GGGGGCATCA GGGCCGCCCA 661 CGCCATCCTG GGGGGGCTGC ACCTGACACT TGACTGGGCC GTGAGGGGAC TGCTGCTGCT 721 GAAGACTCGG CTGTGACCCG GGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTA 781 TTTATTTATT TATTTCAGTA CTGGGGGCGA AACAGCCAGG TGATCCCCCC GCCATTATCT 841 CCCCCTAGTT AGAGACAGTC CTTCCGTGAG GCCTGGGGGA CATCTGTGCC TTATTTATAC 901 TTATTTATTT CAGGAGCAGG GGTGGGAGGC AGGTGGACTC CTGGGTCCCC GAGGAGGAGG 961 GGACTGGGGT CCCGGATTCT TGGGTCTCCA AGAAGTCTGT CCACAGACTT CTGCCCTGGC1021 TCTTCCCCAT CTAGGCCTGG GCAGGAACAT ATATTATTTA TTTAAGCAAT TACTTTTCAT1081 GTTGGGGTGG GGACGGAGGG GAAAGGGAAG CCTGGGTTTT TGTACAAAAA TGTGAGAAAC1141 CTTTGTGAGA CAGAGAACAG GGAATTAAAT GTGTCATACA TATCC (2) SEQ ID NO: 2522 data: (i) sequence characteristics:

(A) length: 6870 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2522 sequence description: 1 CAGCTGCGGC ATCCTCTGTC TCAGAGTCTT GGTGTCTCTG TTCCTTTCCC CTCGGGGTCT 61 CCCTGGGTCT CCCCAAGTCC CTCCTGCTGT CTTCCTCCCG CTCTCTGATC TCTGACTCCC 121 AGAACCTCTC CCTCTGTCTC CAGGGCTGCC CCTCTGATCC TCTTTGCTTC TCTGGTGTGT 181 721 CACACTCCCT CACTGCCGCG GGCCCTGCTG CTCAGGGCAC ATGCCTCCCC TCCCCAGCCG 781 181 CTCTCTGGCT GCCTCCATCT CTGTGGATCT CCGTCTCCCT GTCTCTGTCT CAGTCTGTCC 241 TTCACTCTGT GTGTGTGTGT GTCTCTCTCT CTCTCTCTCC TTCCCTTCCA CTCCCTCTTC 301 CTCCTGCCTC CACCTCTCCA GGCCCCTGTC TTGTCCCTCC GTCCGGCCTT TCTCTGCCTT 361 TCCGTCCTCC TGCCTCCCCA TCTCTCTCTG CTAGTCCTGT CCAGCCGGAC CCCCACCCAC 421 AGTCGGGCCC CAGCGCTTGA GCCTGAGTGT CTGCTCCGGC CCGTGGAGGT GGAGGGAGGG 481 GACGCCAATG ACCTCACCAG CCCCTCTCCG ACCACCCCCC CCTTTCCCTT TTCAACTTTT 541 CCAACTTTTC CTTCCGTGCC CTCCTCCGAG CGCGGCGGCG TGAGCCCTGC AAGGCAGCCG 601 CTCCGTCTGA ATGGAAAAGG CAGGCAGGGA GGGTGAGTCA GGATGTGTCA GGCCGGCCCT 661 CCCCTGCCGC CTGCCCCCCG CCCGCCCGCC CCAGGCCCCC TATATAACCC CCCAGGCGTC 721 CACACTCCCT CACTGCCGCG GGCCCTGCTG CTCAGGGCAC ATGCCTCCCC TCCCCAGCCG 781 CGGGCCCAGC TGACCCTCGG GGCTCCCCCG GCAGCGGACA GGGAAGGGTT AAAGGCCCCC 841 GGCTCCCTGC CCCCTGCCCT GGGGAACCCC TGGCCCTGTG GGGACATGAA CTGTAAGTTG 901 GTTCATGGGG AGGGTGGAGG GGACAGGGAG GCAGGGAGGA GAGGGACCCA CGGCGGGGGT 961 GGGAGCAGAC CCCGCTGAGT CGCACAGAGA GGGACCCGGA GACAGGCAGC CGGGGAGGAG1021 AGCAGCTTCG GAGACAGGAG GCGGCGGAGG AGATGGGCAG AGAGAGACAC AGACAGGAGC1081 GGATGGAGGC AGCCAATCAG AGGCGCCGCA GGAGGGACGG GCCAGACAGG GCCCGAGAGG1141 AGCGAGACGC GAGACCGAGC AGGGGCAGGG ACGCAGGGAC TGGTGCCGGG AGGGAGGTGA1201 CCCCCATCGA CCCAGGCCCC AGGGAGCCCG CGGGGACCGG GAGACTCCCT GGGATTCCGG1261 CAGAGAGGCT CCGGAGGGAA ACTGAGGCAG GGTCCGCGGA GAGCGGAGCA AGCCAGGGAG1321 TAGCGACCCC AGCCGGGGGG AGGAGAGAGA CTGGGCGCCG GGGGAAAGCG GGGAGAGCCG1381 GGCAGATGCG GCCGACGGAG GCGCGGACAG ACCGACGGCT GGCGGGCCCG GGGGGCGGGC1441 TGGGGGTGTG CGAGGCGCGG GCGGCCGGGG AGCGCTGATT GGCTGGCGGG TGGCCGGGTG1501 GGCGGGGCGG CCGGGGTGGG CTGCGGGGAG CGAGCTCCGG ACCCCCGCGC CCCCGGCGCC1561 CCCCGCGCCC CCCGCCGCCA GCTCTCCCGC TCCCGGCGCC CGGCCGGGCC ATGGCTCTGC1621 CCCTCTCCGC CCAGGTGCGC TGCGGCCCGG GCTTCTGCCG CCCACCCGGC GGGCTCCTGG1681 GAGGGCGTCT AAGGGGTCTC CCGTGGGAGA GGTCCGTGTC TCCCGGACTC CGTCCTGGGC1741 TTTTGGCTCC TTCCCCTGCT CCCAGCCAGC TCGGGCTCCC GCGGCCCGGG GAGGGGGCAG1801 GTTCTGGCCT GTGCCTCCCC CACCATCCGC GCCCCGGGGC CCAGATTCCG GCGTCCGGGG1861 GCGGACGGGA GACGCCCGGG CCGCGTCTGC TCCGACGGGC GGGGCAGCCA GAGCCAGGGA1921 GGGAGAGGGA AGCCCGCCTG GCCCTGCGAC CTGCCCGCGG GCGTTCCACC CTGGGACTTA1981 AGACCTCCAG CTCCATCCTC CCTAAGGCCG GGAGTCCAGG CCCCAGACCC TCCTCCCCGA2041 GACCCAGGAG TCCAGACCCC AGGCCTTCCT CCCTCAGACC TAGGAGTCCA GGCCCCCAGC2101 CTCTCCTCCC TCAGACCCAG GAGGAGTCCA GACCCCAGTT CCTCCTCCCT CAGACCCGGG2161 AGTCCAGCCC AGGCCCTCCT CTCTCAGACC CGGAGTCCAG CCTGAGCTCT CTGCCTTATC2221 CTGCCCCCAG GTGTTTGCCG CCTGGTCCTG GTCGTGCTGA GCCTGTGGCC AGATACAGCT2281 GTCGCCCCTG GGCCACCACC TGGCCCCCCT CGAGTTTCCC CAGACCCTCG GGCCGAGCTG2341 GACAGCACCG TGCTCCTGAC CCGCTCTCTC CTGGCGGACA CGCGGCAGCT GGCTGCACAG2401 CTGGTAGGAG AGACTGGGCT GGGGCCAGCA CAGGAGTGAG AGGCAGAGAG GAACGGAGAG2461 GAGTCTGCGG GCAGCCACTT GGAGGGGTTC TGGGCTCTCA GGTGGCAGAG TGAGGGAGGG2521 GAAGAGTTGG GGGCCTGGCG TGGGGGATGG AGGGAGCCCC GAGGCTGGGC AGGGGCCACC2581 TCACAGCTTT TTTCCCTGCC AGAGGGACAA ATTCCCAGCT GACGGGGACC ACAACCTGGA2641 TTCCCTGCCC ACCCTGGCCA TGAGTGCAGG GGCACTGGGA GCTCTACAGG TAAGGGCAAG2701 GGAGTGGGCT GGGGACAAGG TGGGAGGCAG GCAGTGAAGG GGGCGGGGAG GATGAGGGGC2761 ACTGGTCGGG TGTTCTCTGA TGTCCCGGCT CTATCCCCAG CTCCCAGGTG TGCTGACAAG2821 GCTGCGAGCG GACCTACTGT CCTACCTGCG GCACGTGCAG TGGCTGCGCC GGGCAGGTGG2881 CTCTTCCCTG AAGACCCTGG AGCCCGAGCT GGGCACCCTG CAGGCCCGAC TGGACCGGCT2941 GCTGCGCCGG CTGCAGCTCC TGGTATGTCC TGGCCCCAAG ACCTGACACC CCAGACCCCC3001 ACCCCTGGCC CCAAAATCCT GTGGCCTGAG TCCTTGAAGC CTGAGACCCC AGACCCGAGT3061 GCAACAGCCC CGCTCTGAGA CCCTGACACC CTAACAGCCCGCTCTGAGAC CCTGACACCG3121 TAACAGCCCC GCTCTGAGAC CCTGACCCTA ACAGTCCTGC TCTGAGACCC TGACCCTGCA3181 GTCCCAAGAT CCTGTGGCCC TGAGACCCTG AGGCCCTAGA CCCCCAAATC CTGCCCAGAA3241 ACTTCAAATT CTCACCCAAG ACCCTGAGAC TCCATCATCC ATGACCTCAA AGTCCCCAGA3301 TCCCAGCCCC TAAGACCCAA GACCCCATCC TGAAGCCCAA AGCCTTGAGA ATTCAAATCC3361 TCACCTCAAG ACTTGGAGAC CCTGGCCCCA TGACATTGAA AACCATGGAC CTGGCCAGGC3421 GTGGTGGCTC ACGCCTGTAA TCCCAGCACT TTGGGAGGCC GAGGCAAGTG GATCACCTGA3481 GGTCGGGAGT TCAAGACCAG CCAGACCAAC ATGGTGAAAC CCTGTCTCTA CTAAAAATAC3541 593601 GGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCATTACAC3661 TCCAGCCTGG GCAACAAGAG CAAAACTCCC TCTCTCTCAA AAAAAAAAAA AAAAAAAAAA3721 AAGAAGGAAA AGAAAACCAT GGACCTCCAG ACCCTGAGAC CCCAGGCCCC AGCCCTGAGA3781 TCCTGACATC TTAAAGATCC CAGGCCCTAA GATACAAGAC CTTGACCCAA AGCCAGCCTT3841 GGGACCCTGG CTGTACAAAC CCAAGACCTC CAGGACCTAG ACCCCGAGCC CTGAGGCCCT3901 ATGTCTCACT CCCAACATCG AAAACCCTGA CACCTCAGAT CCTGAGCCTG CGCCTGTACG 398661 ACTCCAAGAC CCTCACTTCC AAAGCCAGGC CCAAAGCCCT GAGACCAGAA GACTTCAAAC4021 CCTGGTTCTT GGGCCTAACT CCAAAGACCC TGGATCTCAA ATTCCAACTT CTAGCTCTGA GACTCCAGCC CTCACCCATG AGTTCCTGAA CTTGAACCCA GAGACCCCAT CTCTAAGACT4141 TCAGCCTTGA GATCCAGGGC CTGACCCTAG ACTCGAGCCC ACAGACCTCA GATACTGTCT4201 GTAAAACCCC AGCTCTGGTG GGGAGCAGTG GCTCACTCCT GTAATCCCAA GGCAGGGGAG4261 GCCAAGGCAG AAGGACCTCT TGAGGCCATG AGTTTGAGAC AGCCTGGGCA GCATAGCAAG4321 ACTCTGTTTC TTAATTATTA TTATTATTAT TATTTTTTGG AGACAGAGTC TCGCGCTCTG4381 TTGCCCAGGC TAGAGTGCAA TGGTGCCATT TCGGCTTGCT GGAACCTCCG CCTCCTGGGC4441 TCAAGCGATT CTCCTGCCTC AGCCTCCTGA GTAGCTGGGA CTTCAGGTGC ACACTGCCAC4501 ACCCGGATAA TTTTTTTGTA TTTTAGTAGA CACAGGGTTT CACCGTGTTG CCCAGGCTGG4561 TCACAAACTC CTGAGCTCAG GCCATCCGCC CGCCTCGGCC TCCCAAAGCG CTGGGATAAC4621 AGGCGTGACG CCGCGCCTGG CTTCTTAATT GTTCTAACAG CAGCGACAAC AACAAAAACC4681 CAGCTCTGAG ATTCCAGCCC CGGCGACTCT AACAGTCCCA GGCCCGATCC CTCACCTAGA4741 ACCGAGATGC CAGCCCTGAC TCCACAGACT TCACCCCCAA CCCCCACACT CAGCTCTGGA4801 AGCCCGTCCT GACTCCAGCC TCCATTTTCG GAACCCCACA GCCTGAAGAG CTCCCGGCCT4861 AAACACTTCA CCCCACGCGC CACAGTCCCC CTGTGAATAT GCAGCCCCGATTCAGCTGCA4921 GCTCCACAGC ACCCCTGCCC TGCACCCCCG CTGCACCCCC TACCTGTGAC TCACCTCTCT4981 CCTCTCCCCA CAGATGTCCC GCCTGGCCCT GCCCCAGCCA CCCCCGGACC CGCCGGCGCC5041 CCCGCTGGCG CCCCCCTCCT CAGCCTGGGG GGGCATCAGG GCCGCCCACG CCATCCTGGG5101 GGGGCTGCAC CTGACACTTG ACTGGGCCGT GAGGGGACTG CTGCTGCTGA AGACTCGGCT5161 51 5161 GTGACCCGGG GCCCAAAGCC ACCACCGTCC TTCCAAAGCC AGATCTTATT TATTTATTTA5221 TTTCAGTACT GGGGGCGAAA CAGCCAGGTG ATCCCCCCGC CATTATCTCC CCCTAGTTAG5281 829 5281 AGACAGTCCT TCCGTGAGGC CTGGGGGGCA TCTGTGCCTT ATTTATACTT ATTTATTTCA5341 GGAGCAGGGG TGGGAGGCAG GTGGACTCCT GGGTCCCCGA GGAGGAGGGG ACTGGGGTCC5401 CGGATTCTTG GGTCTCCAAG AAGTCTGTCC ACAGACTTCT GCCCTGGCTC TTCCCCATCT5461 AGGCCTGGGC AGGAACATAT ATTATTTATT TAAGCAATTA CTTTTCATGT TGGGGTGGGG5521 ACGGAGGGGA AAGGGAAGCC TGGGTTTTTG TACAAAAATG TGAGAAACCT TTGTGAGACA5581 GAGAACAGGG AATTAAATGT GTCATACATA TCCACTTGAG GGCGATTTGT CTGAGAGCTG5641 GGGCTGGATG CTTGGGTAAC TGGGGCAGGG CAGGTGGAGG GGAGACCTCC ATTCAGGTGG5701 AGGTCCCGAG TGGGCGGGGC AGCGACTGGG AGATGGGTCG GTCACCCAGA CAGCTCTGTG5761 GAGGCAGGGT CTGAGCCTTG CCTGGGGCCC CGCACTGCAT AGGGCCGTTT GTTTGTTTTT5821 TGAGATGGAG TCTCGCTCTG TTGCCTAGGC TGGAGTGCAG TGAGGCAATC TAAGGTCACT5881 GCAACCTCCA CCTCCCGGGT TCAAGCAATT CTCCTGCCTC AGCCTCCCGA TTAGCTGGGA5941 TCACAGGTGT GCACCACCAT GCCCAGCTAA TTATTTATTT CTTTTGTATT TTTAGTAGAG6001 ACAGGGTTTC ACCATGTTGG CCAGGCTGGT TTCGAACTCC TGACCTCAGG TGATCCTCCT60 GCCTCGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCC ACCACACCTG ACCCATAGGT6121 CTTCAATAAA TATTTAATGG AAGGTTCCAC AAGTCACCCT GTGATCAACA GTACCCGTAT6181 GGGACAAAGC TGCAAGGTCA AGATGGTTCA TTATGGCTGT GTTCACCATA GCAAACTGGA6241 AACAATCTAG ATATCCAACA GTGAGGGTTA AGCAACATGG TGCATCTGTG GATAGAACGC6301 6327 6361 GGATATAGAA AGATATCCTG ACATTGGCCA GGCATGGTGG CTCACGCCTG TAATCCTGGC6421 ACTTTGGGAG GACGAAGCGA GTGGATCACT GAAGTCCAAG AGTTTGAGAC CGGCCTGCGA 3981 GACATGGCAA AACCCTGTCT CAAAAAAGAA AGAATGATGT CCTGACATGA AACAGCAGGC6541 TACAAAACCA CTGCATGCTG TGATCCCAAT TTTGTGTTTT TCTTTCTATA TATGGATTAA6601 AACAAAAATC CTAAAGGGAA ATACGCCAAA ATGTTGACAA TGACTGTCTC CAGGTCAAAG6661 6721 TCTGCCATGA CTGTGTATTT TGCATGACAC ATTTTAAAAA TAATAAACAC TATTTTTAGA6781 ATAACAGAAT ATCAGCCTCC TCCTCTCCAA AAATAAGCCC TCAGGAGGGG ACAAAGTTGA6841 CCGCTGATTG AGCCTGTCAG GGCTGTGCAC (2) SEQ ID NO: 2523 data: (i) sequence characteristics:

(A) length: 8055 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2523 description of the sequence: 1 GCTCAGGGCA CATGCCTCCC CTCCCCAGGC CGCGGCCCAG CTGACCCTCG GGGCTCCCCC 61 GGCAGCGGAC AGGGAAGGGT TAAAGGCCCC CGGCTCCCTG CCCCCTGCCC TGGGGAACCC 121 CTGGCCCTGT GGGGACATGA ACTGTGTTTG CCGCCTGGTC CTGGTCGTGC TGAGCCTGTG 181 721 GAAGACTCGG CTGTGACCCG GGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTA 781 181 GCCAGATACA GCTGTCGCCC CTGGGCCACC ACCTGGCCCC CCTCGAGTTT CCCCAGACCC 241 TCGGGCCGAG CTGGACAGCA CCGTGCTCCT GACCCGCTCT CTCCTGGCGG ACACGCGGCA 301 GCTGGCTGCA CAGCTGAGGG ACAAATTCCC AGCTGACGGG GACCACAACC TGGATTCCCT 361 GCCCACCCTG GCCATGAGTG CGGGGGCACT GGGAGCTCTA CAGCTCCCAG GTGTGCTGAC 421 AAGGCTGCGA GCGGACCTAC TGTCCTACCT GCGGCACGTG CAGTGGCTGC GCCGGGCAGG 481 TGGCTCTTCC CTGAAGACCC TGGAGCCCGA GCTGGGCACC CTGCAGGCCC GACTGGACCG 541 GCTGCTGCGC CGGCTGCAGC TCCTGATGTC CCGCCTGGCC CTGCCCCAGC CACCCCCGGA 601 CCCGCCGGCG CCCCCGCTGG CGCCCCCCTC CTCAGCCTGG GGGGGCATCA GGGCCGCCCA 661 CGCCATCCTG GGGGGGCTGC ACCTGACACT TGACTGGGCC GTGAGGGGAC TGCTGCTGCT 721 GAAGACTCGG CTGTGACCCG GGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTA 781 TTTATTTATT TATTTCAGTA CTGGGGGCGA AACAGCCAGG TGATCCCCCC GCCATTATCT 841 CCCCCTAGTT AGAGACAGTC CTTCCGTGAG GCCTGGGGGA CATCTGTGCC TTATTTATAC 901 TTATTTATTT CAGGAGCAGG GGTGGGAGGC AGGTGGACTC CTGGGTCCCC GAGGAGGAGG 961 GGACTGGGGT CCCGGATTCT TGGGTCTCCA AGAAGTCTGT CCACAGACTT CTGCCCTGGC1021 TCTTCCCCAT CTAGGCCTGG GCAGGAACAT ATATTATTTA TTTAAGCAAT TACTTTTCAT1081 GTTGGGGTGG GGACGGAGGG GAAAGGGAAG CCTGGGTTTT TGTACAAAAA TGTGAGAAAC1141 CTTTGTGAGA CAGAGAACAG GGAATTAAAT GTGTCATACA TATCC 1 CAGCTGCGGC ATCCTCTGTC TCAGAGTCTT GGTGTCTCTGTTCCTTTCCC CTCGGGGTCT 61 1 CCCTGGGTCT CCCCAAGTCC CTCCTGCTGT CTTCCTCCCG CTCTCTGATC TCTGACTCCC 121 AGAACCTCTC CCTCTGTCTC CAGGGCTGCC CCTCTGATCC TCTTTGCTTC TCTGGTGTGT 181 CTCTCTGGCT GCCTCCATCT CTGTGGATCT CCGTCTCCCT GTCTCTGTCT CAGTCTGTCC 241 TTCACTCTGT GTGTGTGTGT GTCTCTCTCT CTCTCTCTCC TTCCCTTCCA CTCCCTCTTC 301 CTCCTGCCTC CACCTCTCCA GGCCCCTGTC TTGTCCCTCC GTCCGGCCTT TCTCTGCCTT 361 TCCGTCCTCC TGCCTCCCCA TCTCTCTCTG CTAGTCCTGT CCAGCCGGAC CCCCACCCAC 421 AGTCGGGCCC CAGCGCTTGA GCCTGAGTGT CTGCTCCGGC CCGTGGAGGT GGAGGGAGGG 481 GACGCCAATG ACCTCACCAG CCCCTCTCCG ACCACCCCCC CCTTTCCCTT TTCAACTTTT 541 CCAACTTTTC CTTCCGTGCC CTCCTCCGAG CGCGGCGGCG TGAGCCCTGC AAGGCAGCCG 601 CTCCGTCTGA ATGGAAAAGG CAGGCAGGGA GGGTGAGTCA GGATGTGTCA GGCCGGCCCT 661 CCCCTGCCGC CTGCCCCCCG CCCGCCCGCC CCAGGCCCCC TATATAACCC CCCAGGCGTC 721 CACACTCCCT CACTGCCGCG GGCCCTGCTG CTCAGGGCAC ATGCCTCCCC TCCCCAGCCG 781 CGGGCCCAGC TGACCCTCGG GGCTCCCCCG GCAGCGGACA GGGAAGGGTT AAAGGCCCCC 841 GGCTCCCTGC CCCCTGCCCT GGGGAACCCC TGGCCCTGTG GGGACATGAA CTGTAAGTTG 901 GTTCATGGGG AGGGTGGAGG GGACAGGGAG GCAGGGAGGA GAGGGACCCA CGGCGGGGGT 961 GGGAGCAGAC CCCGCTGAGT CGCACAGAGA GGGACCCGGA GACAGGCAGC CGGGGAGGAG1021 AGCAGCTTCG GAGACAGGAG GCGGCGGAGG AGATGGGCAG AGAGAGACAC AGACAGGAGC1081 GGATGGAGGC AGCCAATCAG AGGCGCCGCA GGAGGGACGG GCCAGACAGG GCCCGAGAGG1141 AGCGAGACGC GAGACCGAGC AGGGGCAGGG ACGCAGGGAC TGGTGCCGGG AGGGAGGTGA1201 CCCCCATCGA CCCAGGCCCC AGGGAGCCCG CGGGGACCGG GAGACTCCCT GGGATTCCGG1261 CAGAGAGGCT CCGGAGGGAA ACTGAGGCAG GGTCCGCGGA GAGCGGAGCA AGCCAGGGAG1321 TAGCGACCCC AGCCGGGGGG AGGAGAGAGA CTGGGCGCCG GGGGAAAGCG GGGAGAGCCG1381 GGCAGATGCG GCCGACGGAG GCGCGGACAG ACCGACGGCT GGCGGGCCCG GGGGGCGGGC1441 TGGGGGTGTG CGAGGCGCGG GCGGCCGGGG AGCGCTGATT GGCTGGCGGG TGGCCGGGTG1501 GGCGGGGCGG CCGGGGTGGG CTGCGGGGAG CGAGCTCCGG ACCCCCGCGC CCCCGGCGCC1561 CCCCGCGCCC CCCGCCGCCA GCTCTCCCGC TCCCGGCGCC CGGCCGGGCC ATGGCTCTGC1621 CCCTCTCCGC CCAGGTGCGC TGCGGCCCGG GCTTCTGCCG CCCACCCGGC GGGCTCCTGG1681 GAGGGCGTCT AAGGGGTCTC CCGTGGGAGA GGTCCGTGTC TCCCGGACTC CGTCCTGGGC1741 TTTTGGCTCC TTCCCCTGCT CCCAGCCAGC TCGGGCTCCC GCGGCCCGGG GAGGGGGCAG1801 GTTCTGGCCT GTGCCTCCCC CACCATCCGC GCCCCGGGGC CCAGATTCCG GCGTCCGGGG1861 GCGGACGGGA GACGCCCGGG CCGCGTCTGC TCCGACGGGC GGGGCAGCCA GAGCCAGGGA1921 GGGAGAGGGA AGCCCGCCTG GCCCTGCGAC CTGCCCGCGG GCGTTCCACC CTGGGACTTA1981 AGACCTCCAG CTCCATCCTC CCTAAGGCCG GGAGTCCAGG CCCCAGACCC TCCTCCCCGA2041 GACCCAGGAG TCCAGACCCC AGGCCTTCCT CCCTCAGACC TAGGAGTCCA GGCCCCCAGC2101 CTCTCCTCCC TCAGACCCAG GAGGAGTCCA GACCCCAGTT CCTCCTCCCT CAGACCCGGG2161 AGTCCAGCCC AGGCCCTCCT CTCTCAGACC CGGAGTCCAG CCTGAGCTCT CTGCCTTATC2221 CTGCCCCCAG GTGTTTGCCG CCTGGTCCTG GTCGTGCTGA GCCTGTGGCC AGATACAGCT2281 GTCGCCCCTG GGCCACCACC TGGCCCCCCT CGAGTTTCCC CAGACCCTCG GGCCGAGCTG2341 GACAGCACCG TGCTCCTGAC CCGCTCTCTC CTGGCGGACA CGCGGCAGCT GGCTGCACAG2401 CTGGTAGGAG AGACTGGGCT GGGGCCAGCA CAGGAGTGAG AGGCAGAGAG GAACGGAGAG24 GAGTCTGCGG GCAGCCACTT GGAGGGGTTC TGGGCTCTCA GGTGGCAGAG TGAGGGAGGG2521 GAAGAGTTGG GGGCCTGGCG TGGGGGATGG AGGGAGCCCC GAGGCTGGGC AGGGGCCACC 8681 TCACAGCTTT TTTCCCTGCC AGAGGGACAA ATTCCCAGCT GACGGGGACC ACAACCTGGA2641 TTCCCTGCCC ACCCTGGCCA TGAGTGCAGG GGCACTGGGA GCTCTACAGG TAAGGGCAAG 27058 362761 ACTGGTCGGG TGTTCTCTGA TGTCCCGGCT CTATCCCCAG CTCCCAGGTG TGCTGACAAG2821 GCTGCGAGCG GACCTACTGT CCTACCTGCG GCACGTGCAG TGGCTGCGCC GGGCAGGTGG2881 CTCTTCCCTG AAGACCCTGG AGCCCGAGCT GGGCACCCTG CAGGCCCGAC TGGACCGGCT2941 GCTGCGCCGG CTGCAGCTCC TGGTATGTCC TGGCCCCAAG ACCTGACACC CCAGACCCCC3001 ACCCCTGGCC CCAAAATCCT GTGGCCTGAG TCCTTGAAGC CTGAGACCCC AGACCCGAGT3061 GCAACAGCCC CGCTCTGAGA CCCTGACACC CTAACAGCCC GCTCTGAGAC CCTGACACCG3121 TAACAGCCCC GCTCTGAGAC CCTGACCCTA ACAGTCCTGC TCTGAGACCC TGACCCTGCA3181 GTCCCAAGAT CCTGTGGCCC TGAGACCCTG AGGCCCTAGA CCCCCAAATC CTGCCCAGAA3241 ACTTCAAATT CTCACCCAAG ACCCTGAGAC TCCATCATCC ATGACCTCAA AGTCCCCAGA3301 TCCCAGCCCC TAAGACCCAA GACCCCATCC TGAAGCCCAA AGCCTTGAGA ATTCAAATCC3361 TCACCTCAAG ACTTGGAGAC CCTGGCCCCA TGACATTGAA AACCATGGAC CTGGCCAGGC3421 GTGGTGGCTC ACGCCTGTAA TCCCAGCACT TTGGGAGGCC GAGGCAAGTG GATCACCTGA3481 GGTCGGGAGT TCAAGACCAG CCAGACCAAC ATGGTGAAAC CCTGTCTCTA CTAAAAATAC3541 AAAATTAGCC AGGCGTGGTG GTGCATGCCT GTAATCCCAG CTACTTGGGA GGCTGAGGCA3601GGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCATTACAC3661 TCCAGCCTGG GCAACAAGAG CAAAACTCCC TCTCTCTCAA AAAAAAAAAA AAAAAAAAAA3721 AAGAAGGAAA AGAAAACCAT GGACCTCCAG ACCCTGAGAC CCCAGGCCCC AGCCCTGAGA3781 TCCTGACATC TTAAAGATCC CAGGCCCTAA GATACAAGAC CTTGACCCAA AGCCAGCCTT3841 GGGACCCTGG CTGTACAAAC CCAAGACCTC CAGGACCTAG ACCCCGAGCC CTGAGGCCCT3901 ATGTCTCACT CCCAACATCG AAAACCCTGA CACCTCAGAT CCTGAGCCTG CGCCTGTACG3961 ACTCCAAGAC CCTCACTTCC AAAGCCAGGC CCAAAGCCCT GAGACCAGAA GACTTCAAAC4021 CCTGGTTCTT GGGCCTAACT CCAAAGACCC TGGATCTCAA ATTCCAACTT CTAGCTCTGA4081 4158 4141 TCAGCCTTGA GATCCAGGGC CTGACCCTAG ACTCGAGCCC ACAGACCTCA GATACTGTCT 42072 GGCAGGGGAG4261 GCCAAGGCAG AAGGACCTCT TGAGGCCATG AGTTTGAGAC AGCCTGGGCA GCATAGCAAG4321 ACTCTGTTTC TTAATTATTA TTATTATTAT TATTTTTTGG AGACAGAGTC TCGCGCTCTG4381 TTGCCCAGGC TAGAGTGCAA TGGTGCCATT TCGGCTTGCT GGAACCTCCG CCTCCTGGGC4441 TCAAGCGATT CTCCTGCCTC AGCCTCCTGA GTAGCTGGGA CTTCAGGTGC ACACTGCCAC4501 ACCCGGATAA TTTTTTTGTA TTTTAGTAGA CACAGGGTTT CACCGTGTTG CCCAGGCTGG4561 TCACAAACTC CTGAGCTCAG GCCATCCGCC CGCCTCGGCC TCCCAAAGCG CTGGGATAAC4621 AGGCGTGACG CCGCGCCTGG CTTCTTAATT GTTCTAACAG CAGCGACAAC AACAAAAACC4681 CAGCTCTGAG ATTCCAGCCC CGGCGACTCT AACAGTCCCA GGCCCGATCC CTCACCTAGA4741 ACCGAGATGC CAGCCCTGAC TCCACAGACT TCACCCCCAA CCCCCACACT CAGCTCTGGA4801 AGCCCGTCCT GACTCCAGCC TCCATTTTCG GAACCCCACA GCCTGAAGAG CTCCCGGCCT4861 AAACACTTCA CCCCACGCGC CACAGTCCCC CTGTGAATAT GCAGCCCCGA TTCAGCTGCA4921 GCTCCACAGC ACCCCTGCCC TGCACCCCCG CTGCACCCCC TACCTGTGAC TCACCTCTCT4981 CCTCTCCCCA CAGATGTCCC GCCTGGCCCT GCCCCAGCCA CCCCCGGACC CGCCGGCGCC5041 CCCGCTGGCG CCCCCCTCCT CAGCCTGGGG GGGCATCAGG GCCGCCCACG CCATCCTGGG5101 GGGGCTGCAC CTGACACTTG ACTGGGCCGT GAGGGGACTG CTGCTGCTGA AGACTCGGCT5161 GTGACCCGGG GCCCAAAGCC ACCACCGTCC TTCCAAAGCC AGATCTTATT TATTTATTTA5221 TTTCAGTACT GGGGGCGAAA CAGCCAGGTG ATCCCCCCGC CATTATCTCC CCCTAGTTAG5281 AGACAGTCCT TCCGTGAGGC CTGGGGGGCA TCTGTGCCTT ATTTATACTT ATTTATTTCA5341 GGAGCAGGGG TGGGAGGCAG GTGGACTCCT GGGTCCCCGA GGAGGAGGGG ACTGGGGTCC5401 CGGATTCTTG GGTCTCCAAG AAGTCTGTCC ACAGACTTCT GCCCTGGCTC TTCCCCATCT5461 AGGCCTGGGC AGGAACATAT ATTATTTATT TAAGCAATTA CTTTTCATGT TGGGGTGGGG5521 ACGGAGGGGA AAGGGAAGCC TGGGTTTTTG TACAAAAATG TGAGAAACCT TTGTGAGACA5581 GAGAACAGGG AATTAAATGT GTCATACATA TCCACTTGAG GGCGATTTGT CTGAGAGCTG5641 GGGCTGGATG CTTGGGTAAC TGGGGCAGGG CAGGTGGAGG GGAGACCTCC ATTCAGGTGG5701 AGGTCCCGAG TGGGCGGGGC AGCGACTGGG AGATGGGTCG GTCACCCAGA CAGCTCTGTG 5734 5821 TGAGATGGAG TCTCGCTCTG TTGCCTAGGC TGGAGTGCAG TGAGGCAATC TAAGGTCACT5881 GCAACCTCCA CCTCCCGGGT TCAAGCAATT CTCCTGCCTC AGCCTCCCGA TTAGCTGGGA5941 TCACAGGTGT GCACCACCAT GCCCAGCTAA TTATTTATTT CTTTTGTATT TTTAGTAGAG6001 ACAGGGTTTC ACCATGTTGG CCAGGCTGGT TTCGAACTCC TGACCTCAGG TGATCCTCCT6061 GCCTCGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCC ACCACACCTG ACCCATAGGT6121 CTTCAATAAA TATTTAATGG AAGGTTCCAC AAGTCACCCT GTGATCAACA GTACCCGTAT6181 GGGACAAAGC TGCAAGGTCA AGATGGTTCA TTATGGCTGT GTTCACCATA GCAAACTGGA6241 AACAATCTAG ATATCCAACA GTGAGGGTTA AGCAACATGG TGCATCTGTG GATAGAACGC6301 CACCCAGCCG CCCGGAGCAG GGACTGTCAT TCAGGGAGGC TAAGGAGAGA GGCTTGCTTG6361 GGATATAGAA AGATATCCTG ACATTGGCCA GGCATGGTGG CTCACGCCTG TAATCCTGGC6421 ACTTTGGGAG GACGAAGCGA GTGGATCACT GAAGTCCAAG AGTTTGAGAC CGGCCTGCGA6481 GACATGGCAA AACCCTGTCT CAAAAAAGAA AGAATGATGT CCTGACATGA AACAGCAGGC6541 TACAAAACCA CTGCATGCTG TGATCCCAAT TTTGTGTTTT TCTTTCTATA TATGGATTAA6601 AACAAAAATC CTAAAGGGAA ATACGCCAAA ATGTTGACAA TGACTGTCTC CAGGTCAAAG6661 GAGAGAGGTG GGATTGTGGG TGACTTTTAA TGTGTATGAT TGTCTGTATT TTACAGAATT6721 3967842 6781 ATAACAGAAT ATCAGCCTCC TCCTCTCCAA AAATAAGCCC TCAGGAGGGG ACAAAGTTGA6841 CCGCTGATTG AGCCTGTCAG GGCTGTGCAC (2) SEQ ID NO: 2524 data: (i) sequence characteristics:

(A) length: 1696 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2524 description of the sequence: 1 gctgtagctg gtgagaggaa gtcctagagg ctatggacac tctgctgctg ggatcaccga 61 gatgagcagc agctgctcag ggctgagcag ggtcctggtg gccgtggcta cagccctggt121 gtctgcctcc tccccctgcc cccaggcctg gggcccccca ggggtccagt atgggcagcc181 agggaggtcc gtgaagctgt gttgtcctgg agtgactgcc ggggacccag tgtcctggtt241 tcgggatggg gagccaaagc tgctccaggg acctgactct gggctagggc atgaactggt301 cctggcccag gcagacagca ctgatgaggg cacctacatc tgccagaccc tggatggtgc361 acttgggggc acagtgaccc tgcagctggg ctaccctcca gcccgccctg ttgtctcctg421 ccaagcagcc gactatgaga acttctcttg cacttggagt cccagccaga tcagcggttt481 acccacccgc tacctcacct cctacaggaa gaagacagtc ctaggagctg atagccagag541 gaggagtcca tccacagggc cctggccatg cccacaggat cccctagggg ctgcccgctg601 tgttgtccac ggggctgagt tctggagcca gtaccggatt aatgtgactg aggtgaaccc661 actgggtgcc agcacacgcc tgctggatgt gagcttgcag agcatcttgc gccctgaccc721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 gacataccct gcctcctggc cgtgccagcc ccacttcctg ctcaagttcc gtttgcagta 841 ccgtccggcg cagcatccag cctggtccac ggtggagcca gctggactgg aggaggtgat 901 cacagatgct gtggctgggc tgccccatgc tgtacgagtc agtgcccggg actttctaga 961 tgctggcacc tggagcacct ggagcccgga ggcctgggga actccgagca ctgggaccat1021 accaaaggag ataccagcat ggggccagct acacacgcag ccagaggtgg agcctcaggt1081 ggacagccct gctcctccaa ggccctccct ccaaccacac cctcggctac ttgatcacag1141 ggactctgtg gagcaggtag ctgtgctggc gtctttggga atcctttctt tcctgggact1201 ggtggctggg gccctggcac tggggctctg gctgaggctg agacggggtg ggaaggatgg1261 atccccaaag cctgggttct tggcctcagt gattccagtg gacaggcgtc caggagctcc1321 aaacctgtag aggacccagg agggcttcgg cagattccac ctataattct gtcttgctgg1381 tgtggataga aaccaggcag gacagtagat ccctatggtt ggatctcagc tggaagttct1441 gtttggagcc catttctgtg agaccctgta tttcaaattt gcagctgaaa ggtgcttgta1501 cctctgattt caccccagag ttggagttct gctcaaggaa cgtgtgtaat gtgtacatct1561 gtgtccatgt gtgaccatgt gtctgtgaag gccagggaac atgtattcct ctgcatgcat1621 gtatgtaggt gcctgggagt gtgtgtggtc cttgctctgg ccctttccct tgcagggttg1681 tgcaggtgtg aataaa (2) SEQ ID NO: 2525 data: (i) sequence characteristics:

(A) length: 1682 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2525 description of the sequence: 1 ggaagatgag cagcagctgc tcagggctga gcagggtcct ggtggccgtg gctacagccc 61 tggtgtctgc ctcctccccc tgcccccagg cctggggccc cccaggggtc cagtatgggc 121 agccaggcag gtccgtgaag ctgtgttgtc ctggagtgac tgccggggac ccagtgtcct 181 721 gctggacata ccctgcctcc tggccgtgcc agccccactt cctgctcaag ttccgtttgc 781 181 ggtttcggga tggggagcca aagctgctcc agggacctga ctctgggcta gggcatgaac 241 tggtcctggc ccaggcagac agcactgatg agggcaccta catctgccag accctggatg 301 gtgcacttgg gggcacagtg accctgcagc tgggctaccc tccagcccgc cctgttgtct 361 cctgccaagc agccgactat gagaacttct cttgcacttg gagtcccagc cagatcagcg 421 gtttacccac ccgctacctc acctcctaca ggaagaagac agtcctagga gctgatagcc 481 agaggaggag tccatccaca gggccctggc catgcccaca ggatccccta ggggctgccc 541 gctgtgttgt ccacggggct gagttctgga gccagtaccg gattaatgtg actgaggtga 601 acccactggg tgccagcaca cgcctgctgg atgtgagctt gcagagcatc ttgcgccctg 661 acccacccca gggcctgcgg gtagagtcag taccaggtta cccccgacgc ctgcgagcca 721 gctggacata ccctgcctcc tggccgtgcc agccccactt cctgctcaag ttccgtttgc 781 agtaccgtcc ggcgcagcat ccagcctggt ccacggtgga gccagctgga ctggaggagg 841 tgatcacaga tgctgtggct gggctgcccc atgctgtacg agtcagtgcc cgggactttc 901 tagatgctgg cacctggagc acctggagcc cggaggcctg gggaactccg agcactggga 961 ccataccaaa ggagatacca gcatggggcc agctacacac gcagccagag gtggagcctc1021 aggtggacag ccctgctcct ccaaggccct ccctccaacc acaccctcgg ctacttgatc1081 acagggactc tgtggagcag gtagctgtgc tggcgtcttt gggaatcctt tctttcctgg1141 gactggtggc tggggccctg gcactggggc tctggctgag gctgagacgg ggtgggaagg1201 atggatcccc aaagcctggg ttcttggcct cagtgattcc agtggacagg cgtccaggag1261 ctccaaacct gtagaggacc caggagggct tcggcagatt ccacctataa ttctgtcttg1321 ctggtgtgga tagaaaccag gcaggacagt agatccctat ggttggatct cagctggaag1381 ttctgtttgg agcccatttc tgtgagaccc tgtatttcaa atttgcagct gaaaggtgct1441 tctacctctg atttcacccc agagttggag ttctgctcaa ggaacgtgtg taatgtgtac1501 atctgtgtcc atgtgtgacc atgtgtctgt gaggcaggga acatgtattc tctgcatgca1561 tgtatgtagg tgcctgggga gtgtgtgtgg gtccttggct cttggccttt ccttgcaggg1621 gttgtgcagg tgtgaataaa gagaataagg aagttcttgg agattatact cagaaaaaaa1681 aa (2) SEQ ID NO: 2526 data: (i) sequence characteristics:

(A) length: 413 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2526 description of the sequence: 1 tctgtggagc aggtagctgt gctggcgtct ttgggaatcc tttctttcct gggactggtg 61 gctggggccc tggcactggg gctctggtaa gtgactgcca ttggtccctc agcctctgat 121 cctcacacat gctctgatgc ccatagacca cattcatctc cacccttcat gactgcctgc 181 tgaacctgtc tgattctgga actacctccc catacctcca tcccctatgc cccacttgat 241 tttaactgat tcctctcctg accctttact aataaaccct ttggcggaga ctgagataac 301 ccacattgtt ggagagacag ctgcctttct atgccccagg ctgaggctga gacggggtgg 361 gaaggatgga tccccaaagc ctgggttctt ggcctcagtg attccagtgg aca (2) SEQ ID NO: 2527 data: (i) sequence characteristics:

(A) length: 3791 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2527 description of the sequence: 1 gctgtagctg gtgagaggaa gtcctagagg ctatggacac tctgctgctg ggatcaccga 61 gatgagcagc agctgctcag ggctgagcag ggtcctggtg gccgtggcta cagccctggt121 gtctgcctcc tccccctgcc cccaggcctg gggcccccca ggggtccagt atgggcagcc181 721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 181 agggaggtcc gtgaagctgt gttgtcctgg agtgactgcc ggggacccag tgtcctggtt241 tcgggatggg gagccaaagc tgctccaggg acctgactct gggctagggc atgaactggt301 cctggcccag gcagacagca ctgatgaggg cacctacatc tgccagaccc tggatggtgc361 acttgggggc acagtgaccc tgcagctggg ctaccctcca gcccgccctg ttgtctcctg421 ccaagcagcc gactatgaga acttctcttg cacttggagt cccagccaga tcagcggttt481 acccacccgctacctcacct cctacaggaa gaagacagtc ctaggagctg atagccagag541 gaggagtcca tccacagggc cctggccatg cccacaggat cccctagggg ctgcccgctg601 tgttgtccac ggggctgagt tctggagcca gtaccggatt aatgtgactg aggtgaaccc661 actgggtgcc agcacacgcc tgctggatgt gagcttgcag agcatcttgc gccctgaccc721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 gacataccct gcctcctggc cgtgccagcc ccacttcctg ctcaagttcc gtttgcagta 841 ccgtccggcg cagcatccag cctggtccac ggtggagcca gctggactgg aggaggtgat 901 cacagatgct gtggctgggc tgccccatgc tgtacgagtc agtgcccggg actttctaga 961 tgctggcacc tggagcacct ggagcccgga ggcctgggga actccgagca ctgggaccat1021 accaaaggag ataccagcat ggggccagct acacacgcag ccagaggtgg agcctcaggt1081 ggacagccct gctcctccaa ggccctccct ccaaccacac cctcggctac ttgatcacag1141 ggactctgtg gagcaggtag ctgtgctggc gtctttggga atcctttctt tcctgggact1201 ggtggctggg gccctggcac tggggctctg gctgaggctg agacggggtg ggaaggatgg1261 atccccaaag cctgggttct tggcctcagt gattccagtg gacaggcgtc caggagctcc1321 aaacctgtag aggacccagg agggcttcgg cagattccac ctataattct gtcttgctgg1381 tgtggataga aaccaggcag gacagtagat ccctatggtt ggatctcagc tggaagttct1441 gtttggagcc catttctgtg agaccctgta tttcaaattt gcagctgaaa ggtgcttgta1501 cctctgattt caccccagag ttggagttct gctcaaggaa cgtgtgtaat gtgtacatct1561 gtgtccatgt gtgaccatgt gtctgtgaag gccagggaac atgtattcct ctgcatgcat1621 gtatgtaggt gcctgggagt gtgtgtggtc cttgctctgg ccctttccct tgcagggttg1681 tgcaggtgtg aataaa 1 ggaagatgag cagcagctgc tcagggctga gcagggtcct ggtggccgtg gctacagccc 61 tggtgtctgc ctcctccccc tgcccccagg cctggggccc cccaggggtc cagtatgggc 121 agccaggcag gtccgtgaag ctgtgttgtc ctggagtgac tgccggggac ccagtgtcct 181 ggtttcggga tggggagcca aagctgctcc agggacctga ctctgggcta gggcatgaac 241 tggtcctggc ccaggcagac agcactgatg agggcaccta catctgccag accctggatg 301 gtgcacttgg gggcacagtg accctgcagc tgggctaccc tccagcccgc cctgttgtct 361 cctgccaagc agccgactat gagaacttct cttgcacttg gagtcccagc cagatcagcg 421 gtttacccac ccgctacctc acctcctaca ggaagaagac agtcctagga gctgatagcc 481 agaggaggag tccatccaca gggccctggc catgcccaca ggatccccta ggggctgccc 541 gctgtgttgt ccacggggct gagttctgga gccagtaccg gattaatgtg actgaggtga 601 acccactggg tgccagcaca cgcctgctgg atgtgagctt gcagagcatc ttgcgccctg 661 acccacccca gggcctgcgg gtagagtcag taccaggtta cccccgacgc ctgcgagcca 721 gctggacata ccctgcctcc tggccgtgcc agccccactt cctgctcaag ttccgtttgc 781 agtaccgtcc ggcgcagcat ccagcctggt ccacggtgga gccagctgga ctggaggagg 841 tgatcacaga tgctgtggct gggctgcccc atgctgtacg agtcagtgcc cgggactttc 901 tagatgctgg cacctggagc acctggagcc cggaggcctg gggaactccg agcactggga 961 ccataccaaa ggagatacca gcatggggcc agctacacac gcagccagag gtggagcctc1021 aggtggacag ccctgctcct ccaaggccct ccctccaacc acaccctcgg ctacttgatc1081 acagggactc tgtggagcag gtagctgtgc tggcgtcttt gggaatcctt tctttcctgg1141 gactggtggc tggggccctg gcactggggc tctggctgag gctgagacgg ggtgggaagg1201 atggatcccc aaagcctggg ttcttggcct cagtgattcc agtggacagg cgtccaggag1261 ctccaaacct gtagaggacc caggagggct tcggcagatt ccacctataa ttctgtcttg1321 ctggtgtgga tagaaaccag gcaggacagt agatccctat ggttggatct cagctggaag1381 ttctgtttgg agcccatttc tgtgagaccc tgtatttcaa atttgcagct gaaaggtgct1441 tctacctctg atttcacccc agagttggag ttctgctcaa ggaacgtgtg taatgtgtac1501 atctgtgtcc atgtgtgacc atgtgtctgt gaggcaggga acatgtattc tctgcatgca1561 tgtatgtagg tgcctgggga gtgtgtgtgg gtccttggct cttggccttt ccttgcaggg1621 gttgtgcagg tgtgaataaa gagaataagg aagttcttgg agattatact cagaaaaaaa1681 aa1 tctgtggagc aggtagctgt gctggcgtct ttgggaatcc tttctttcct gggactggtg 61 gctggggccc tggcactggg gctctggtaa gtgactgcca ttggtccctc agcctctgat 121 cctcacacat gctctgatgc ccatagacca cattcatctc cacccttcat gactgcctgc 181 tgaacctgtc tgattctgga actacctccc catacctcca tcccctatgc cccacttgat 241 tttaactgat tcctctcctg accctttact aataaaccct ttggcggaga ctgagataac 301 8284 301 ccacattgtt ggagagacag ctgcctttct atgccccagg ctgaggctga gacggggtgg 361 gaaggatgga tccccaaagc ctgggttctt ggcctcagtg attccagtgg aca (2) SEQ ID NO: 2528 data: (i) sequence characteristics:

(A) length: 940 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2528 description of the sequence: 1 cttcaactca ataagcattt taagtattct aatcttagta tttctctagc tgacatgtaa 61 gaagcaatct atcttattgt atgcaattag ctcattgtgt ggataaaaag gtaaaaccat 121 tctgaaacag gaaaccaata cacttcctgt ttaatcaaca aatctaaaca tttattcttt 181 tcatctgttt actcttgctc ttgtccacca caatatgcta ttcacatgtt cagtgtagtt 241 ttatgacaaa gaaaattttc tgagttactt ttgtatcccc acccccttaa agaaaggagg 301 aaaaactgtt tcatacagaa ggcgttaatt gcatgaatta gagctatcac ctaagtgtgg 361 gctaatgtaa caaagaggga tttcacctac atccattcag tcagtctttg ggggtttaaa 421 gaaattccaa agagtcatca gaagaggaaa aatgaaggta atgttttttc agacaggtaa 481 agtctttgaa aatatgtgta atatgtaaaa cattttgaca cccccataat atttttccag 541 aattaacagt ataaattgca tctcttgttc aagagttccc tatcactctc tttaatcact 601 actcacagta acctcaactc ctgccacaat gtacaggatg caactcctgt cttgcattgc 661 actaagtctt gcacttgtca caaacagtgc acctacttca agttctacaa agaaaacaca 721 gctacaactg gagcatttac ttctggattt acagatgatt ttgaatggaa ttaatgtaag 781 tatatttcct ttcttactaa aattattaca tttagtaatc tagctggaga tcatttctta 841 taacaatgca ttatactttc ttagaattac aagaatccca aactcaccag gatgctcaca 901 tttaagtttt acatgcccaa gaaggtaagt acaatatttt (2) SEQ ID NO: 2529 data: (i) sequence characteristics:

(A) length: 9339 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2529 description of the sequence: 1 gaattccctt ttcctagtca aagaaagggg tgacagacag cacctggaaa atcgtgtcac 61 tcccacccta atactgcgct tttccaatgg tcttagcaaa cagcacacca agagattata 121 tccagcacct ggctcagagg gtcctatgcc cacggagcct cactcactgc tagcacagca 181 721 aaactaacaa acagaaagga catccacacc aaaaccctat ctgtacggca ccatcatcaa 781 181 gtctgagatc aaactgcaag gtggcagtga ggctgggaga ggggtgtgca ccattgccga 241 ggcttgagta ggtaaacaaa gcagctggga agctcgaact gggtggagcc cactgcagct 301 caaggaggcc tgcctgcctc tgtagactcc acctccgggg gcagggcata gccaaacaaa 361 aggcagcaga aacctctgca gacttaaatg tccctgtctg acagcttgga agagagtagt 421 ggttctccca gcatgcagct tgagatctga gaatggacag actgcctcct caagtgggtc 481 cctgaccccc gagtaaccta actgggaggc accccaagta ggggcagact gacacctcac 541 atggctgggt actcctctga gaaaaaactt ccagaggaac gatcaggcag caacatttgc 601 tgttcaccaa tatccactgt tctgcagcct cctgtgctaa tacccaggca aatgggtctg 661 gagaggacct ccagcaagct ccaacagacc tacagctgag ggtcctgact gttagaagga 721 aaactaacaa acagaaagga catccacacc aaaaccctat ctgtacggca ccatcatcaa 781 agaccaaagg tagataaaac cacaaagatg gggaaaaaaa cacagcagaa aaactggtaa 841 ctctaaaaat tagagcgctt ctcctcctcc aaaggaacgc agctcctcac cagcaatgga 901 accaagctgg acagagaatg actttgacga gttgagagaa gaaggcttca gatgatcaaa 961 ctactctgag ctaaaggagg aagttcgaac ccacggcaaa gaagttaaaa accttgaaaa1021 aaattagatg aatggctaac tagaataacc aatgcagaga agtccttaaa ggacctgatg1081 gagctgaaaa ccatggcaca agaactacat gacaaatgca caagcctcag tagctgattc1141 gatcaactgg aagaaagggt atcagtgatg gaagatcaaa tgaatgaaat gaagcaagaa1201 gagaagttta gagaaaaaag aaaaaaaaga aatgaacaaa gcctccaaga aatatgggac1261 tatgtgaaaa gaccaaatct acgtctgatt ggtgtacctg aaagtgatgg ggagaatgga1321 accaagctgg aaaacactct gcaggatatt atccaagaga acttccccaa tctagcaagg1381 caggctgaca ttcaaattca ggaaatacag agaacgccac aaatataatc ctcgagaaga1441 gcaactccaa gacacataat tgttagattc actaaagttg aaatgaagga aaaaatgtta1501 agggcagcca gagagaaagg tcagcttacc cacaaaggaa agcccatcag attaacagct1561 gatctctcgg cagaaactct acaagccaga agagagtggg ggccaatatt caacattctt1621 aaagaaaaga attttcaacc cagaatttca tatccagcca aactatgctt cataagtgaa1681 ggagaaataa aatatagaca agtgaacgat gaaagatttt gtcaccacca ggcctgccct1741 acaagagctc ctgaaggaag cactaaacat ggaaaggaac aaccggtacc agccactgca1801 aaaacatgcc aaattgtaaa caccattgag gccaggaaga aactgcatca actaacgagc1861 aaaataacca gctaacatca tcatgacagg atcaaattca cacataacaa tattaacctt1921 aaatgtaaat aggctaaatg ctccaattaa aagacacaga ctggcaaact ggataaagag1981 tcaagaccca tcagtgtgct gtattcagga aacccatctc acgtgcagag acacacatag2041 gctcaaaata aagggatgga ggaagatcta ccaaacaaac ggaaaacaaa aaaaggcagg2101 ggttgcaatc ctagtctctg ataaaacaga ctttaaacca acaaagatca aaagagacac2161 agaaggccat tacataatgg taaagggatc aattcaacaa gaagagttaa ctatcctaaa2221 tatatatgca cccaatacag gagcacctag attcataaag caagtcctta gagacctaca2281 aagagactta gactcccaca caataataat gggagacttt aacaccccac tgtcaacatt2341 agacagatca atgagacaga aaattaacaa ggatatccag gaattgaact caactctgca2401 ccaagcggac ctaatagaca tctacagaac tctccacccc aaatcaacag aatatacatt2461 cttttcggca ccacaccaca ccgattccaa aattgaacac atagttggaa gtaaagcact2521 cctcagcaaa tgtaaaagaa cagaaagtac aacaaactgt ctctcagacc acagtgcaat2581 caaactaaaa ctcaggatta agaaactcac tcaaaaccgc tcaactacat ggaaactgaa2641 caacctgctc ctgaatgact actgggtaca taacgaaatg aaggcagaag taaagatgtt2701 ctttgaaacc aacgagaaca aagacacaac ataccagaat ctctgggaca cattcaaagc2761 agtgtgtaga ggaaaattta tagcactaaa tgcccacaag agaaagcagg aaagatctaa2821 aattgacagc ctaacatcac aattaaaaga actagagaaa caagagcaaa cacattcaaa2881 agctagcaga aggcaagaaa taactacaat cagagcagaa ctgaaggaga tagagacata2941 caaaaaaccc ttcaaaaaat caatgaatcc aggagctggt tttttgaaaa gatcaacaaa3001 attgatagac cactagcaaa actaatacag aagagagaag aatcaaatag acacaataaa3061 aaatgataaa cgggatatca ccactgatcc cacagaaata caaactacca tcaaagaata3121 ctataaacac ctctatgcaa ataaactaga aaatctagaa gaaatggata aattcctcga3181 cacatacacc ctcccaagac taaaccagga agaagctgaa tctctgaata gaccaataac3241 aggctctgaa attgaggcaa caattaacac cttaccaacc aataaaagtc caggaccaga3301 tggattcaca gccaaattct accagaggta caaggaggag ctggtacgat tccttctgaa3361 actattccaa tcaatagaaa aagagggaat cctccctaac tcattttatg aggccagcat3421 catcctgata ccaaagcctg gcagagacac aacaaaaaaa gagaatttca gaccaatatc3481 cctgatgaac atcgatgcaa aaatttttaa taaaatactg gcaaactgaa tccagcagca3541 593601 caacatacgg aaaatcaata aatgtaatcc agcatataaa cagaaccaac aacacacaac3661 acatgattat ctcaacagat gcagaaaagg cctttgacaa aattcaacag cccttcatgc3721 taaaaactct caataaatta ggtactgatg ggacgtatct caaaataata agcgctatct3781 atgaccaacc cacagccaat atcatactgg atgggcaaaa actggaagca ttccctttga3841 aaactggcac aagacaggga tgccctctct caccactcct attcaacaca gtgttcgaag3901 ttctggcagg gcaatcaggc aggagaaaga aataaagggt attcaattag gaaaagagga 398661 ggtcaaattg tccctgtttg cagatgacat gattgtatat atagaaaacc ccattgtctc4021 agcccaaaat ctccttaagc tgataagcaa cttcagcaaa gtctcaggat caaaatcaat gtgcaaaaat cacaagcatt cttatacacc aataacagac aaacagagag ccaaatcatg4141 agtgaactcc cattcacaat tgcttcaaag agaataaaat acctaggaat ccaactcaca4201 agggatgtga gagacctctt caaggagaac tataaaccac tgctcaatga aatgagagga4261 tacagataaa tggaagaaca ttccatgctc atgggtagga agaatcaata tcgtgaaaat4321 ggccatactg cccaaggtaa ttttatagat tcaatgccat ccccatcaag ctaccaatga4381 ctttcttcac agaattggaa aaaactactt taaagttcat atggaaccaa aaaagagccc4441 gcattgccaa gtcaatccta agccaaaaga acaaagctag aggcatcaca ctacctgact4501 tcaaactata ctacaaggct acagtaacca aaacagcatg gtactggtac caaagcagag4561 atatagacca atggaacaaa acagtgccct cagaaataat actgcatatc tacaaccatc4621 tgatctttga caaacctgac aaaaacaagc aatggggaaa ggattcccta tttaataaat4681 ggtgctggga aaactggcta gccatatgta gaaagctgaa attggatccc ttccttacac4741 cttgtacaaa aattaattca agatggatta cagacttaaa tgttagacct aaaaccataa4801 aaaccctaga agaaaaccta ggcaatacca ttcaggacat aggcatgggc aagaacttca4861 tgtctagaac accaaaagta atggcaacaa aagccaaaat tgacaaatgg gtctaattaa4921 actaaagagc ttctgcacag caaaagaaac taccatcaga gtgaagaggc aacctacaga4981 atgggagaaa atttttgcaa tctgacaaaa gggctaattt ttgcatctga caaagggcta5041 atatccagaa tctacaatga actcaaacaa atttacaaga aaaaaacaaa tttacaagaa5101 aaaaacaaaa tttacaagaa aaaaacaaat ttacaagaaa aaaacaaaca accccatcaa5161 51 5161 aaagtgggca aaggataaga acagtcactt ctcaaaagaa gacatttatg cagccaaaag5221 acacatgaaa aaattctcat catcactggc catcagagaa atgcaaatca aaaccacaat5281 829 5281 gagataccat ctcacaccag ttagaatggc gatcattaaa aagtcaagaa acaacaggtg5341 ctggagagga tgtggagaaa taggaacact tttacactgt tagtgggact gtaaactagt5401 tcaacattgt ggaaatcagt atggcgattc ctcagggatc tagaactaga aataccattt5461 gacccagcca tcccattact gggtatatac ccaaaggatt ataaatcatg ctgctataaa5521 gacacttgca cacatatgtt tattgtggta ctattcacaa tagcaaagac ttggaattaa5581 cccaaatgtc caacaatgat agactagatt aagaaaatgt ggcacatata cactatggaa5641 tactttgcag ccataaaaaa ggatgagttc atgtcctttg tagggacatg gatgaagctg5701 gaaaccatca ttctcggcaa actatcgcaa ggtcaaaaaa ccaaacaccg catgttctca5761 ctcataggtg gtaactgaac aatgagaaca catggtcaca ggaaggggaa catcacgcac5821 tggggcctgt tgtggggtgg ggggagtggg cagggatagc attaggagac atacctaatg5881 ttaaatgacg atttaatggg tgcagcacac caacatggca catgtataca tatgtaacaa5941 acccacacgt tgtgcacatg tactctaaaa cttaaagtat aattaaaata aataaataaa6001 gtaaaaaaga aatcctaagg atactcaaat tgttgtttag gtgaagatgg atgatgcctt6061 ccttgaatca tcagctacca ccgacagagt gaagtgagat ggaatagtgg gcacaatctc6121 attcatccta ctctatgtag cctaatgggt ccagaattta tcatcactat tttacactgg6181 5731 6241 taattaagaa tgtgatcttg ggtaagccac tttaacctct gtaaatgtca aatttcttat6301 cagtaaaatg tgactataca agacaataaa tttgaaaata ctttgcaaaa ttgaaagtac6361 catggaaata attcttcaat cccaaaaggt tatgaacatt attaaaattt gccacatgga6421 agagcacaca ccacagagac ataactgtga tcataaacag atttacaaaa gtggtgtttc attatggagg gccatagggc tgataaagac aaatgcatca ccaagctatg tccgagctca6541 666601 66 ttgtccaaca cgttcctaat ttcaaagaaa cagaactgaa tcttgaaaac ccaagaggcc6661 826721 ttttacaaaa ctttgaaaga gggtcagaaa gaagaaactt atgggaagca gagtcctgga6781 aagtcagctt tgatggagtg acaatatgtg caacacagtg agcaatctct taggtaggca6841 gcttcaggga tgggggttgc cctttgaaag gacttgggcc actcttgagt ctaagaggct6901 aagtcacaaa caatgctaag caactaaaaa tagcttcttg tttaatagta aaattctgca6961 tagtaaaagg agaagcaggg ggtatgacac acgtggtagt tagcagtcta ctagtgactt7021 tactgccaca accagaaaag ccagctgatg tgtcagacgt gagaaagcga aagtatgtca7081 cagcgaatgt agcttttcca cacgtatttc aagaaagaaa tgaaaaaggc caacttctat7141 aatggtgcct actgtgcatt aacagagata aactaggggt ctaagaactc agttttctac7201 agggtcccag aagtatagcc atatattgcc ccattctcta atggaaatag ccagagaaat7261 agaaatatca agactggaga acatcaaata cctcattgga aaagccccca cataggaaaa7321 tgtgtgggct tgaattcttc cattctggaa gggtaaaggc ctgagtgatg atgctgggat7381 tagacactga aactctttag agaagcaaaa caagtataat aaagctgtac tttattatat7441 taaataaata acacacagac taccaaatag cctgcccctt ataacagcgt taatgtgatt7501 ttgatctgaa atgtatagag acattttgca ttttttcggt ataaaaagtt catgagattt7561 ggccctaatc tggacctttt cttcattttt ttttctactt gagggactat aatctttatt7621 tttaaatttg ttttatattc tccgaacatt acctaacgca tagaaaactc ttcttgaacc7681 atttttctct gttctttgta aaatattaca tttgactgtt ccttagactg ctttaatcat7741 tcctgcctat gcaccctcct caaaatccag tttaaattaa ttgttcctta ttcaagattc7801 cttatatcca cctcccttgg ggcagcaatc acctatcacc caggactaca cttgtgtatg7861 tacatatctt ccctattaca aatcaggttc tttgaaaaaa tacaaatggt aagagagtgg7921 atttttggag tcagtacatt ctcttttcaa atccttcttc tgccccttac tggcaataag7981 ggctgagtga cctagagcaa attacttaac ttctctgagc ctcagttttc taatctgcaa8041 aataggagcc atcacttcac aagtctgtaa gacttatatt agactaagtg cctgcctgta8101 cactgttctc ttttctctct ttctatatac ctgaaggcat tataggtgct agatgtctgt 8461 8253 8221 aaaaaaaaaa aaaagtccag gtaagaaata aataaggcca tagaatggaa gctttacaag8281 gactctctgt gagacaggat ctcctcaagt gtccccaggt taaattagaa gtatatatcc8341 gtacaattgt tcagccagtt tgtgcactgt actgaggatg aatgaacacc tatcctaaat 8458 atcctagtct tctgactaaa aacaagatca tatttcataa cgattattgt tacattcata gtgtcccagg tgatttagag gataaataaa aatccattaa agaggtaaag acataaaaac8521 gagaaacatg gactggttta cacataacac atacaaagtc tattataaaa ctagcatcag8581 tatccttgaa tgcaaacctt tttctgagta tttaacaatc gcacccttta aaaaatgtac8641 aatagacatt aagagactta aacagatata taatcatttt aaattaaaat agcgttaaac8701 agtacctcaa gctcaataag cattttaagt attctaatct tagtatttct ctagctgaca8761 tgtaagaagc aatctatctt attgtatgca attagctcat tgtgtggata aaaaggtaaa8821 accattctga aacaggaaac caatacactt cctgtttaat caacaaatct aaacatttat8881 tcttttcatc tgtttactct tgctgttgtc caccacaata tgctattcac atgttcagtg8941 tagttttatg acaaagaaaa ttttctgagt tacttttgta tccccacccc cttaaagaaa9001 ggaggaaaaa ctgtttcata cagaaggcgt taattgcatg aattagagct atcacctaag9061 3961 9061 tgtgggctaa tgtaacaaag agggatttca cctacatcca ttcagtcagt ctttgggggt9121 ttaaagaaat tccaaagagt catcagaaga ggaaaaatga aggtaatgtt ttttcagaca9181 ggtaaagtct ttgaaaatat gtgtaatatg taaaacattt tgacaccccc ataatatttt9241 tccagaatta acagtataaa ttgcatctct tgttcaagag ttccctatca ctctctttaa9301 tcactactca cagtaacctc aactcctgcc acaatgtac (2) SEQ ID NO: 2530 data: (i) sequence characteristics:

(A) length: 5737 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2530 sequence description: 1 ttaatcaaca aatctaaaca tttattcttt tcatctgttt actcttgctc ttgttcacca 61 caatatgcta ttcacatgtt cagtgtagtt ttatgacaaa gaaaattttc tgagttactt 121 ttgtatcccc acccccttaa agaaaggagg aaaaactgtt tcatacagaa ggcgttaatt 181 721 aagaatccca aactcaccag gatgctcaca tttaagtttt acatgcccaa gaaggtaagt 781 181 gcatgaatta gagctatcac ctaagtgtgg gctaatgtaa caaagaggga tttcacctac 241 atccattcag tcagtctttg ggggtttaaa gaattccaaa gagtcatcag aagaggaaaa 301 atgaaggtaa tgttttttca gacaggtaaa gtctttgaaa atatgtgtaa tatgtaaaac 361 attttgacac ccccataata tttttccaga attaacagta taaattgcat ctcttgttca 421 agagttccct atcactctct ttaatcacta ctcacagtaa cctcaactcc tgccacaatg 481 tacaggatgc aactcctgtc ttgcattgca ctaagtcttg cacttgtcac aaacagtgca 541 cctacttcaa gttctacaaa gaaaacacag ctacaactgg agcatttact gctggattta 601 cagatgattt tgaatggaat taatgtaagt atatttcctt tcttactaaa attattacat 661 ttagtaatct agctggagat catttcttaa taacaatgca ttatactttc ttagaattac 721 aagaatccca aactcaccag gatgctcaca tttaagtttt acatgcccaa gaaggtaagt 781 acaatatttt atgttcaatt tctgttttaa taaaattcaa agtaatatga aaatttgcac 841 agatgggact aatagcagct catctgaggt aaagagtaac tttaatttgt ttttttgaaa 901 acccaagttt gataatgaag cctctattaa aacagtttta cctatatttt taatatatat 961 ttgtgtgttg gtgggggtgg gaagaaaaca taaaaataat attctcacct ttatcgataa1021 gacaattcta aacaaaaatg ttcatttatg gtttcattta aaaatgtaaa actctaaaat1081 atttgattat gtcattttag tatgtaaaat accaaaatct atttccaagg agcccacttt1141 taaaaatctt ttcttgtttt aggaaaggtt tctaagtgag aggcagcata acactaatag1201 cacagagtct ggggccagat atctgaagtg aaatctcagc tctgccatgt cctagctttc1261 atgatctttg gcaaattacc tactctgttt gtgattcagt ttcatgtcta cttaaatgaa1321 taactgtata tacttaatat ggctttgtga gaattagtaa gttaaatgta aagcactcag1381 aaccgtgtct ggcataaggt aaataccata caagcattag ctattattag tagtattaaa1441 gataaaattt tcactgagaa atacaaagta aaattttgga ctttatcttt ttaccaatag1501 aacttgagat ttataatgct atatgactta ttttccaaga ttaaaagctt cattaggttg1561 tttttggatt cagatagagc ataagcataa tcatccaagc tcctaggcta cattaggtgt1621 gtaaagctac ctagtagttg tgccagttaa gagagaatga acaaaatctg gtgccagaaa1681 gagcttgtgc cagggtgaat ccaagcccag aaaataatag gatttaaggg gacacagatg1741 caatcccatt gactcaaatt ctattaattc aagagaaatc tgcttctaac tacccttctg1801 aaagatgtaa aggagacagc ttacagatgt tactctagtt taatcagagc cacataatgc1861 aactccagca acataaagat actagatgct gttttctgaa gaaaatttct ccacattgtt1921 catgccaaaa acttaaaccc gaatttgtag aatttgtagt ggtgaattga aagcgcaata1981 gatggacata tcaggggatt ggtattgtct tgacctacct ttcccactaa agagtgttag2041 aaagatgaga ttatgtgcat aatttagggg gtggtagaat tcatggaaat ctaagtttga2101 aaccaaaagt aatgataaac tctattcatt tgttcattta accctcattg cacatttaca2161 aaagatttta gaaactaata aaaatatttg attccaagga tgctatgtta atgctataat2221 gagaaagaaa tgaaatctaa ttctggctct acctacttat gtggtcaaat tctgagattt2281 agtgtgctta tttataaagt ggagatgata cttcactgcc tacttcaaaa gatgactgtg2341 agaagtaaat gggcctattt tggagaaaat tcttttaaat tgtaatatac catagaaata2401 tgaaatatta tatataatat agaatcaaga ggcctgtcca aaagtcctcc caaagtatta2461 taatctttta tttcactggg acaaacattt ttaaaatgca tcttaatgta gtgattgtag2521 aaaagtaaaa tttaagacat atttaaaaat gtgtcttgct caaggctata ttgagagcca2581 ctactacatg attattgtta cctagtgtaa aatgttggga ttgtgataga tggcattcaa2641 gagttccttc tctctcaaca ttctgtgatt cttaactctt agactatcaa atattataat2701 catagaatgt gatttttatg cttccacatt ctaactcatc tggttctaat gattttctat2761 gcagattgga aaagtaatca gcctgcatct gtgataggca cttacgatgc agaaagtcta2821 acattttgca aagccaaatt aagctaaaac cagtgagtca actatcactt aacgctagtc2881 ataggtactt gagccctagt ttttccagtt ttataatgta aactctactg gtccattctt2941 tacagtgaca ttgagaacag agagaatggt aaaaactaca tactgctact ccaaataaaa3001 taaattggaa attaatttct gattctgacc tctatgtaaa ctgagctgat gataattatt3061 attctaggcc acagaactga aacatcttca gtgtctagaa gaagaactca aacctctgga3121 ggaagtgcta aatttagctc aaagcaaaaa ctttcactta agacccaggg acttaatcag3181 caatatcaac gtaatagttc tggaactaaa ggtaaggcat tactttattt gctctcctgg3241 aaataaaaaa aaaaaagtca gggggaaaag taccacattt taaagtgaca taacattttt3301 ggtatttgta aagtacccat gcatgtaatt agcctacatt ttaagtacac tgtgaacatg3361 aatcatttct aatgttaaat gattaactgg ggagtataag ctactgagtt tgcacctacc3421 atctactaat ggacaagcct catcccaaac tccatcacct ttcatattaa cacaaaactg3481 ggagtgagag aaggtactga gttgagtttc acagaaagca ggcagatttt attatatatt3541 593601 aatggtgttt ccttatcatt tgatggaagg actacccata agagatttgt cttaaaaaaa3661 aaaactggag ccattaaaat ggccagtgga ctaaacaaac aacaatcttt ttagaggcaa3721 tccccacttt cagaatctta agtattttta aatgcacagg aagcataaaa tatgcaaggg3781 actcaggtga tgtaaaagag attcactttt gtctttttat atcccgtctc ctaaggtata3841 aaattcatga gttaataggt atcctaaata agcagcataa gtatagtagt aaaagacatt3901 cctaaaagta actccagttg tgtccaaatg aatcacttat tagtggactg tttcagttga 398661 attaaaaaaa tacattgaga tcaatgtcat ctagacattg acagattcag ttccttatct4021 atggcaagag ttttactcta aaataattaa catcagaaaa ctcattctta actcttgata caaatttaag acaaaaccat gcaaaaatct gaaaactgtg tttcaaaagc caaacacttt4141 ttaaaataaa aaatcccaag atatgacaat atttaaacaa ttatgcttaa gaggatacag4201 aacactgcaa cagtttttta aaagagaata cttatttaaa gggaacactc tatctcacct4261 gcttttgttc ccagggtagg aatcacttca aatttgaaaa gctctctttt aaatctcact4321 atatatcaaa atatttcctc cttagcttat caactagagg aagcgtttaa atagctcctt4381 tcagcagaga agcctaattt ctaaaaagcc agtccacaga acaaaatttc taatgtttaa4441 acttttaaaa gttggcaaat tcacctgcat tgatactatg atggggtagg gataggtgta4501 agtatttaga agatgttctt cacacaaatt tatcccaaac ggaagcatgt cctagcttac4561 tctagtgtag ttctgttctg ctttggggaa aatataagga gattcactta agtagaaaaa4621 taggagactc taatcaagat ttagaaaaga agaaagtata atgtgcatat caattcatac4681 atttaactta cacaaatata ggtgtacatt cagaggaaaa gcgatcaagt ttatttcaca4741 tccagcattt aatatttgtc tagatctatt tttatttaaa tctttatttg cacccaattt4801 agggaaaaaa tttttgtgtt cattgactga attaacaaat gaggaaaatc tcagcttctg4861 tgttactatc atttggtatc ataacaaaat atgtaatttt ggcattcatt ttgatcattt4921 caagaaaatg cgaataatta atatgtttgg taagcttgaa aataaaggca acaggcctat4981 aagacttcaa ttgggaataa ctgtatataa ggtaaactac tctgtacttt aaaaaattaa5041 catttttctt ttatagggat ctgaaacaac attcatgtgt gaatatgctg atgagacagc5101 aaccattgta gaatttctga acagatggat taccttttgt caaagcatca tctcaacact5161 51 5161 gacttgataa ttaagtgctt cccacttaaa acatatcagg ccttctattt atttaaatat5221 ttaaatttta tatttattgt tgaatgtatg gtttgctacc tattgtaact attattctta5281 829 5281 atcttaaaac tataaatatg gatcttttat gattcttttt gtgccctagg ggctctaaaa5341 tggtttcact tatttatccc aaaatattta ttattatgtt gaatgttaaa tatagtgcta5401 tgtagattgg ttagtaaaac tatttaataa atttgataaa tataaacaag cctggatatt5461 tgttattttg gaaacagcac agagtaagca tttaaatatt tcttagttac ttgtgtgaac5521 tgtaggatgg ttaaaatgct tacaaaagtc actctttctc tgaagaaata tgtagaacag5581 agatgtagac ttctcaaaag cccttgcttt gtcctttcaa gggctgatca gacccttagt5641 tctggcatct cttagcagat tatattttcc ttcttcttaa aatgccaaac acaaacactc5701 ttgaaactct tcatagattt ggtgtggcta tgaattc (2) SEQ ID NO: 2531 data: (i) sequence characteristics:

(A) length: 5561 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2531 sequence description: 1 cgaattcccc tatcacctaa gtgtgggcta atgtaacaaa gagggatttc acctacatcc 61 attcagtcag tctttggggg tttaaagaaa ttccaaagag tcatcagaag aggaaaaatg 121 aaggtaatgt tttttcagac tggtaaagtc tttgaaaata tgtgtaatat gtaaaacatt 181 721 agtttgataa tgaagcctct attaaaacag ttttacctat atttttaata tatatttgtg 781 181 ttgacacccc cataatattt ttccagaatt aacagtataa attgcatctc ttgttcaaga 241 gttccctatc actctttaat cactactcac agtaacctca actcctgcca caatgtacag 301 gatgcaactc ctgtcttgca ttgcactaag tcttgcactt gtcacaaaca gtgcacctac 361 ttcaagttct acaaagaaaa cacagctaca actggagcat ttactgctgg atttacagat 421 gattttgaat ggaattaatg taagtatatt tcctttctta ctaaaattat tacatttagt 481 aatctagctg gagatcattt cttaataaca atgcattata ctttcttaga attacaagaa 541 tcccaaactc accaggatgc tcacatttaa gttttacatg cccaagaagg taagtacaat 601 attttatgtt caatttctgt tttaataaaa ttcaaagtaa tatgaaaatt tgcacagatg 661 ggactaatag cagctcatct gaggtaaaga gtaactttaa tttgtttttt tgaaaaccca 721 agtttgataa tgaagcctct attaaaacag ttttacctat atttttaata tatatttgtg 781 tgttggtggg ggtgggagaa aacataaaaa taatattctc tcactttatc gataagacaa 841 ttctaaacaa aaatgttcat ttatggtttc atttaaaaat gtaaaactct aaaatatttg 901 attatgtcat tttagtatgt aaaataccaa aatctatttc caaggagccc acttttaaaa 961 atcttttctt gttttaggaa aggtttctaa gtgagaggca gcataacact aatagcacag1021 agtctggggc cagatatctg aagtgaaatc tcagctctgc catgtcctag ctttcatgat1081 ctttggcaaa ttacctactc tgtttgtgat tcagtttcat gtctacttaa atgaataact1141 gtatatactt aatatggctt tgtgagaatt agtaagtaaa tgtaaagcac tcagaaccgt1201 gtctggcata aggtaaatac catacaagca ttagctatta ttagtagtat taaagataaa1261 attttcactg agaaatacaa agtaaaattt tggactttat ctttttacca atagaacttg1321 agatttataa tgctatatga cttattttcc aagattaaaa gcttcattag gttgtttttg1381 gattcagata gagcataagc ataatcatcc aagctcctag gctacattag gtgtgtaaag1441 ctacctagta gctgtgccag ttaagagaga atgaacaaaa tctggtgcca gaaagagctt1501 gtgccagggt gaatccaagc ccagaaaata ataggattta aggggacaca gatgcaatcc1561 cattgactca aattctatta attcaagaga aatctgcttc taactaccct tctgaaagat1621 gtaaaggaga cagcttacag atgttactct agtttaatca gagccacata atgcaactcc1681 agcaacataa agatactaga tgctgttttc tgaagaaaat ttctccacat tgttcatgcc1741 aaaaacttaa acccgaattt gtagaatttg tagtggtgaa ttgaaagcgc aatagatgga1801 catatcaggg gattggtatt gtcttgacct acctttccca ctaaagagtg ttagaaagat1861 gagattatgt gcataattta ggggtggtag aattcatgga aatctaagtt tgaaaccaaa1921 agtaatgata aactctattc atttgttcat ttaaccctca ttgcacattt acaaaagatt1981 ttagaaacta ataaaaatat ttgattccaa ggatgctatg ttaatgctat aatgagaaag2041 aaatgaaatc taattctggc tctacctact tatgtggtca aattctgaga tttagtgtgc2101 ttatttataa agtggagatg atacttcact gcctacttca aaagatgact gtgagaagta2161 aatgggccta ttttggagaa aattctttta aattgtaata taccatagaaatatgaaata2221 ttatatataa tatagaatca agaggcctgt ccaaaagtcc tcccaaagta ttataatctt2281 ttatttcact gggacaaaca tttttaaaat gcatcttaat gtagtgattg tagaaaagta2341 aaaatttaag acatatttaa aaatgtgtct tgctcaaggc tatattgaga gccactacta2401 catgattatt gttacctagt gtaaaatgtt gggattgtga tagatggcat ccaagagttc2461 cttctctctc aacattctgt gattcttaac tcttagacta tcaaatatta taatcataga2521 atgtgatttt tatgccttcc acattctaat ctcatctggt tctaatgatt ttctatgcag2581 attggaaaag taatcagcct acatctgtaa taggcattta gatgcagaaa gtctaacatt2641 ttgcaaagcc aaattaagct aaaaccagtg agtcaactat cacttaacgc tagtcatagg2701 tacttgagcc ctagtttttc cagttttata atgtaaactc tactggtcca tctttacagt2761 gacattgaga acagagagaa tggtaaaaac tacatactgc tactccaaat aaaataaatt2821 ggaaattaat ttctgattct gacctctatg taaactgagc tgatgataat tattattcta2881 ggccacagaa ctgaaacatc ttcagtgtct agaagaagaa ctcaaacctc tggaggaagt2941 gctaaattta gctcaaagca aaaactttca cttaagaccc agggacttaa tcagcaatat3001 caacgtaata gttctggaac taaaggtaag gcattacttt atttgctctc ctggaaataa3061 aaaaaaaaaa gtagggggaa aagtaccaca ttttaaagtg acataacatt tttggtattt3121 gtaaagtacc catgcatgta attagcctac attttaagta cactgtgaac atgaatcatt3181 tctaatgtta aatgattaac tggggagtat aagctactga gtttgcacct accatctact3241 aatggacaag cctcatccca aactccatca cctttcatat taacacaaaa ctgggagtga3301 gagagaagtg actgagttga gtttcacaga aacgcaggca agattttatt atatattttt3361 caagttcctt cacagatcat ttactggaat agccaatact gagttacctg aaaggctttt3421 caaatggtgt ttccttatca tttgatggaa ggactaccca taagagattt gtcttaaaaa3481 aaaaaactgg agccattaaa atggccagtg gactaaacaa acaacaatct ttttagaggc3541 593601 gactcaggtg atgtaaaaga gattcacttt tgtcttttta tatcccgtct cctaaggtat3661 aaaattcatg agttaatagg tatcctaaat aagcagcata agtatagtag taaaagacat3721 tcctaaaagt aactccagtt gtgtccaaat gaatcactta ttagtggact gtttcagttg3781 aattaaaaaa atacattgag atcaatgtca tctagacatt gacagattca gttccttatc3841 tatggcaaga gttttactct aaaataatta acatcagaaa actcattctt aactcttgat3901 acaaatttaa gacaaaacca tgcaaaaatc tgaaaactgt gtttcaaaag ccaaacactt 398661 tttaaaataa aaaaatccca agatatgaca atatttaaac aattatgctt aagaggatac4021 agaacactgc aacagttttt taaaagagaa tacttattta aagggaacac tctatctcac ctgcttttgt tcccagggta ggaatcactt caaatttgaa aagctctctt ttaaatctca4141 ctatatatca aaatagttgc ctccttagct tatcaactag aggaagcgtt taaatagctc4201 ctttcagcag agaagcctaa tttctaaaaa gccagtccac agaacaaaat ttctaatgtt4261 taaagctttt aaaagttggc aaattcacct gcattgatac tatgatgggg tagggatagg4321 tgtaagtatt tatgaagatg ttcattcaca caaatttacc caaacaggaa gcatgtccta4381 cctagcttac tctagtgtag ctcgtttcgt ctttggggaa aatataagga gattcactta4441 agtagaaaaa taggagactc taatcaagat ttagaaaaga agaaagtata atgtgcatat4501 caattcatac atttaactta cacaaatata ggtgtacatt cagaggaaaa gcgatcaagt4561 ttatttcaca tccagcattt aatatttgtc tagatctatt tttatttaaa tctttatttg4621 cacccaattt agggaaaaaa tttttgtgtt cattgactga attaacaaat gaggaaaatc4681 tcagcttctg tgttactatc atttggtatc ataacaaaat acgcaatttt ggcattcatt4741 ttgatcattt caagaaaatg tgaataatta atatgtttgg taagcttgaa aataaaggca4801 acaggcctat aagacttcaa ttgggaataa ctgtatataa ggtaaactac tctgtacttt4861 aaaaaattaa catttttctt ttatagggat ctgaaacaac attcatgtgt gaatatgctg4921 atgagacagc aaccattgta gaatttctga acagatggat taccttttgt caaagcatca4981 tctcaacact gacttgataa ttaagtgctt cccacttaaa acatatcagg ccttctattt5041 atttaaatat ttaaatttta tatttattgt tgaatgtatg gtttgctacc tattgtaact5101 attattctta atcttaaaac tataaatatg gatcttttat gattcttttt gtaagcccta5161 ggggctctaa aatggtttca cttatttatc ccaaaatatt tattattatg ttgaatgtta5221 aatatagtat ctatgtagat tggttagtaa aactatttaa taaatttgat aaatataaac5281 aagcctggat atttgttatt ttggaaacag cacagagtaa gcatttaaat atttcttagt5341 tacttgtgtg aactgtagga tggttaaaat gcttacaaaa gtcactcttt ctctgaagaa5401 825461 tcagaccctt agttctggca tctcttagca gattatattt tccttcttct taaaatgcca5521 aacacaaaca ctcttgaaac tcttcataga tttggtgtgg c (2) SEQ ID NO : 2532 data: (i) sequence characteristics:

(A) length: 844 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear(xi) SEQ ID NO: 2532 sequence description: 1 ccccataata tttttccaga attaacagta taaattgcat ctcttgttca agagttccct 61 atcactctct ttaatcacta ctcacagtaa cctcaactcc tgccacaatg tacaggatgc 121 aactcctgtc ttgcattgca ctaagtcttg cacttgtcac aaacagtgca cctacttcaa 181 gttctacaaa gaaaacacag ctacaactgg agcatttact gctggattta cagatgattt 241 tgaatggaat taataattac aagaatccca aactcaccag gatgctcaca tttaagtttt 301 acatgcccaa gaaggccaca gaactgaaac atcttcagtg tctagaagaa gaactcaaac 361 ctctggagga agtgctaaat ttagctcaaa gcaaaaactt tcacttaaga cccagggact 421 taatcagcaa tatcaacgta atagttctgg aactaaaggg atctgaaaca acattcatgt 481 gtgaatatgc tgatgagaca gcaaccattg tagaatttct gaacagatgg attacctttt 541 gtcaaagcat catctcaaca ctgacttgat aattaagtgc ttcccactta aaacatatca 601 ggccttctat ttatttaaat atttaaattt tatatttatt gttgaatgta tggtttgcta 661 cctattgtaa ctattattct taatcttaaa actataaata tggatctttt atgattcttt 721 ttgtaagccc taggggctct aaaatggttt cacttattta tcccaaaata tttattatta 781 tgttgaatgt taaatatagt atctatgtag attggttagt aaaactattt aataaatttg 841 ataa (2) SEQ ID NO: 2533 data: (i) sequence characteristics:

(A) length: 22421 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2533 sequence description: 1 cttcaactca ataagcattt taagtattct aatcttagta tttctctagc tgacatgtaa 61 gaagcaatct atcttattgt atgcaattag ctcattgtgt ggataaaaag gtaaaaccat 121 tctgaaacag gaaaccaata cacttcctgt ttaatcaaca aatctaaaca tttattcttt 181 721 gctacaactg gagcatttac ttctggattt acagatgatt ttgaatggaa ttaatgtaag 781 181 tcatctgttt actcttgctc ttgtccacca caatatgcta ttcacatgtt cagtgtagtt 241 ttatgacaaa gaaaattttc tgagttactt ttgtatcccc acccccttaa agaaaggagg 301 aaaaactgtt tcatacagaa ggcgttaatt gcatgaatta gagctatcac ctaagtgtgg 361 gctaatgtaa caaagaggga tttcacctac atccattcag tcagtctttg ggggtttaaa 421 gaaattccaa agagtcatca gaagaggaaa aatgaaggta atgttttttc agacaggtaa 481 agtctttgaa aatatgtgta atatgtaaaa cattttgaca cccccataat atttttccag 541 aattaacagt ataaattgca tctcttgttc aagagttccc tatcactctc tttaatcact 601 actcacagta acctcaactc ctgccacaat gtacaggatg caactcctgt cttgcattgc 661 actaagtctt gcacttgtca caaacagtgc acctacttca agttctacaa agaaaacaca 721 gctacaactg gagcatttac ttctggattt acagatgatt ttgaatggaa ttaatgtaag 781 tatatttcct ttcttactaa aattattaca tttagtaatc tagctggaga tcatttctta 841 taacaatgca ttatactttc ttagaattac aagaatccca aactcaccag gatgctcaca 901 tttaagtttt acatgcccaa gaaggtaagt acaatatttt 1 gaattccctt ttcctagtca aagaaagggg tgacagacag cacctggaaa atcgtgtcac 61 3961 61 tcccacccta atactgcgct tttccaatgg tcttagcaaa cagcacacca agagattata 121 tccagcacct ggctcagagg gtcctatgcc cacggagcct cactcactgc tagcacagca 181 gtctgagatc aaactgcaag gtggcagtga ggctgggaga ggggtgtgca ccattgccga 241 ggcttgagta ggtaaacaaa gcagctggga agctcgaact gggtggagcc cactgcagct 301 caaggaggcc tgcctgcctc tgtagactcc acctccgggg gcagggcata gccaaacaaa 361 aggcagcaga aacctctgca gacttaaatg tccctgtctg acagcttgga agagagtagt 421 ggttctccca gcatgcagct tgagatctga gaatggacag actgcctcct caagtgggtc 481 cctgaccccc gagtaaccta actgggaggc accccaagta ggggcagact gacacctcac 541 atggctgggt actcctctga gaaaaaactt ccagaggaac gatcaggcag caacatttgc 601 tgttcaccaa tatccactgt tctgcagcct cctgtgctaa tacccaggca aatgggtctg 661 gagaggacct ccagcaagct ccaacagacc tacagctgag ggtcctgact gttagaagga 721 aaactaacaa acagaaagga catccacacc aaaaccctat ctgtacggca ccatcatcaa 781 agaccaaagg tagataaaac cacaaagatg gggaaaaaaa cacagcagaa aaactggtaa 841 ctctaaaaat tagagcgctt ctcctcctcc aaaggaacgc agctcctcac cagcaatgga 901 accaagctgg acagagaatg actttgacga gttgagagaa gaaggcttca gatgatcaaa 961 ctactctgag ctaaaggagg aagttcgaac ccacggcaaa gaagttaaaa accttgaaaa1021 aaattagatg aatggctaac tagaataacc aatgcagaga agtccttaaa ggacctgatg1081 gagctgaaaa ccatggcaca agaactacat gacaaatgca caagcctcag tagctgattc1141 gatcaactgg aagaaagggt atcagtgatg gaagatcaaa tgaatgaaat gaagcaagaa1201 gagaagttta gagaaaaaag aaaaaaaaga aatgaacaaa gcctccaaga aatatgggac1261 tatgtgaaaa gaccaaatct acgtctgatt ggtgtacctg aaagtgatgg ggagaatgga1321 accaagctgg aaaacactct gcaggatatt atccaagaga acttccccaa tctagcaagg1381 caggctgaca ttcaaattca ggaaatacag agaacgccac aaatataatc ctcgagaaga1441 gcaactccaa gacacataat tgttagattc actaaagttg aaatgaagga aaaaatgtta1501 agggcagcca gagagaaagg tcagcttacc cacaaaggaa agcccatcag attaacagct1561 gatctctcgg cagaaactct acaagccaga agagagtggg ggccaatatt caacattctt1621 aaagaaaaga attttcaacc cagaatttca tatccagcca aactatgctt cataagtgaa1681 ggagaaataa aatatagaca agtgaacgat gaaagatttt gtcaccacca ggcctgccct1741 ggagaaataa aatatagaca agtgaacgat gaaagatttt gtcaccacca ggcctgccct acaagagctc ctgaaggaag cactaaacat ggaaaggaac aaccggtacc agccactgca1801 aaaacatgcc aaattgtaaa caccattgag gccaggaaga aactgcatca actaacgagc1861 aaaataacca gctaacatca tcatgacagg atcaaattca cacataacaa tattaacctt1921 aaatgtaaat aggctaaatg ctccaattaa aagacacaga ctggcaaact ggataaagag1981 tcaagaccca tcagtgtgct gtattcagga aacccatctc acgtgcagag acacacatag2041 gctcaaaata aagggatgga ggaagatcta ccaaacaaac ggaaaacaaa aaaaggcagg2101 ggttgcaatc ctagtctctg ataaaacaga ctttaaacca acaaagatca aaagagacac2161 2221 tatatatgca cccaatacag gagcacctag attcataaag caagtcctta gagacctaca2281 aagagactta gactcccaca caataataat gggagacttt aacaccccac tgtcaacatt2341 agacagatca atgagacaga aaattaacaa ggatatccag gaattgaact caactctgca2401 ccaagcggac ctaatagaca tctacagaac tctccacccc aaatcaacag aatatacatt2461 cttttcggca ccacaccaca ccgattccaa aattgaacac atagttggaa gtaaagcact2521 cctcagcaaa tgtaaaagaa cagaaagtac aacaaactgt ctctcagacc acagtgcaat2581 caaactaaaa ctcaggatta agaaactcac tcaaaaccgc tcaactacat ggaaactgaa2641 caacctgctc ctgaatgact actgggtaca taacgaaatg aaggcagaag taaagatgtt2701 2728 agtgtgtaga ggaaaattta tagcactaaa tgcccacaag agaaagcagg aaagatctaa2821 aattgacagc ctaacatcac aattaaaaga actagagaaa caagagcaaa cacattcaaa2881 agctagcaga aggcaagaaa taactacaat cagagcagaa ctgaaggaga tagagacata2941 caaaaaaccc ttcaaaaaat caatgaatcc aggagctggt tttttgaaaa gatcaacaaa3001 863061 3061 aaatgataaa cgggatatca ccactgatcc cacagaaata caaactacca tcaaagaata3121 ctataaacac ctctatgcaa ataaactaga aaatctagaa gaaatggata aattcctcga3181 cacatacacc ctcccaagac taaaccagga agaagctgaa tctctgaata gaccaataac3241 aggctctgaa attgaggcaa caattaacac cttaccaacc aataaaagtc caggaccaga3301 tggattcaca gccaaattct accagaggta caaggaggag ctggtacgat tccttctgaa3361 actattccaa tcaatagaaa aagagggaat cctccctaac tcattttatg aggccagcat3421 catcctgata ccaaagcctg gcagagacac aacaaaaaaa gagaatttca gaccaatatc3481 cctgatgaac atcgatgcaa aaatttttaa taaaatactg gcaaactgaa tccagcagca3541 catcacaaag cttatccacc atgatcaagc tggcttcatt cctgggatgc aaggctggtt3601 caacatacgg aaaatcaata aatgtaatcc agcatataaa cagaaccaac aacacacaac3661 acatgattat ctcaacagat gcagaaaagg cctttgacaa aattcaacag cccttcatgc3721 taaaaactct caataaatta ggtactgatg ggacgtatct caaaataata agcgctatct3781 atgaccaacc cacagccaat atcatactgg atgggcaaaa actggaagca ttccctttga3841 aaactggcac aagacaggga tgccctctct caccactcct attcaacaca gtgttcgaag3901 ttctggcagg gcaatcaggc aggagaaaga aataaagggt attcaattag gaaaagagga39 ggtcaaattg tccctgtttg cagatgacat gattgtatat atagaaaacc ccattgtctc4021 agcccaaaat ctccttaagc tgataagcaa cttcagcaaa gtctcaggat caaaatcaat4081 4141 agtgaactcc cattcacaat tgcttcaaag agaataaaat acctaggaat ccaactcaca4201 agggatgtga gagacctctt caaggagaac tataaaccac tgctcaatga aatgagagga4261 tacagataaa tggaagaaca ttccatgctc atgggtagga agaatcaata tcgtgaaaat4321 ggccatactg cccaaggtaa ttttatagat tcaatgccat ccccatcaag ctaccaatga43 ctttcttcac agaattggaa aaaactactt taaagttcat atggaaccaa aaaagagccc4441 gcattgccaa gtcaatccta agccaaaaga acaaagctag aggcatcaca ctacctgact4501 tcaaactata ctacaaggct acagtaacca aaacagcatg gtactggtac caaagcagag4561 atatagacca atggaacaaa acagtgccct cagaaataat actgcatatc tacaaccatc4621 tgatctttga caaacctgac aaaaacaagc aatggggaaa ggattcccta tttaataaat4681 ggtgctggga aaactggcta gccatatgta gaaagctgaa attggatccc ttccttacac4741 cttgtacaaa aattaattca agatggatta cagacttaaa tgttagacct aaaaccataa4801 aaaccctaga agaaaaccta ggcaatacca ttcaggacat aggcatgggc aagaacttca4861 tgtctagaac accaaaagta atggcaacaa aagccaaaat tgacaaatgg gtctaattaa4921 actaaagagc ttctgcacag caaaagaaac taccatcaga gtgaagaggc aacctacaga4981 atgggagaaa atttttgcaa tctgacaaaa gggctaattt ttgcatctga caaagggcta5041 atatccagaa tctacaatga actcaaacaa atttacaaga aaaaaacaaa tttacaagaa5101 aaaaacaaaa tttacaagaa aaaaacaaat ttacaagaaa aaaacaaaca accccatcaa5161 aaagtgggca aaggataaga acagtcactt ctcaaaagaa gacatttatg cagccaaaag5221 acacatgaaa aaattctcat catcactggc catcagagaa atgcaaatca aaaccacaat5281 gagataccat ctcacaccag ttagaatggc gatcattaaa aagtcaagaa acaacaggtg5341 ctggagagga tgtggagaaa taggaacact tttacactgt tagtgggact gtaaactagt 546301 tcaacattgt ggaaatcagt atggcgattc ctcagggatc tagaactaga aataccattt5461 gacccagcca tcccattact gggtatatac ccaaaggatt ataaatcatg ctgctataaa5521 5581 5641 tactttgcag ccataaaaaa ggatgagttc atgtcctttg tagggacatg gatgaagctg5701 gaaaccatca ttctcggcaa actatcgcaa ggtcaaaaaa ccaaacaccg catgttctca5761 ctcataggtg gtaactgaac aatgagaaca catggtcaca ggaaggggaa catcacgcac5821 tggggcctgt tgtggggtgg ggggagtggg cagggatagc attaggagac atacctaatg5881 365941 acccacacgt tgtgcacatg tactctaaaa cttaaagtat aattaaaata aataaataaa6001 gtaaaaaaga aatcctaagg atactcaaat tgttgtttag gtgaagatgg atgatgcctt6061 ccttgaatca tcagctacca ccgacagagt gaagtgagat ggaatagtgg gcacaatctc6121 attcatccta ctctatgtag cctaatgggt ccagaattta tcatcactat tttacactgg6181 aaaaaagatg agattatgag gggtcaggga ggctttgagt ttttgctcta acttcaccac6241 taattaagaa tgtgatcttg ggtaagccac tttaacctct gtaaatgtca aatttcttat6301 cagtaaaatg tgactataca agacaataaa tttgaaaata ctttgcaaaa ttgaaagtac6361 catggaaata attcttcaat cccaaaaggt tatgaacatt attaaaattt gccacatgga6421 agagcacaca ccacagagac ataactgtga tcataaacag atttacaaaa gtggtgtttc6481 attatggagg gccatagggc tgataaagac aaatgcatca ccaagctatg tccgagctca6541 ttcagatttt tacaggaaac acagagcttc tagctgaatt atctctggat ggtgtggaaa6601 ttgtccaaca cgttcctaat ttcaaagaaa cagaactgaa tcttgaaaac ccaagaggcc6661 tttacagaaa ctgacaagag atgaattaat ataggtatca agctacagac caaattaaag6721 ttttacaaaa ctttgaaaga gggtcagaaagaagaaactt atgggaagca gagtcctgga6781 aagtcagctt tgatggagtg acaatatgtg caacacagtg agcaatctct taggtaggca6841 gcttcaggga tgggggttgc cctttgaaag gacttgggcc actcttgagt ctaagaggct6901 aagtcacaaa caatgctaag caactaaaaa tagcttcttg tttaatagta aaattctgca 6962 7021 tactgccaca accagaaaag ccagctgatg tgtcagacgt gagaaagcga aagtatgtca cagcgaatgt agcttttcca cacgtatttc aagaaagaaa tgaaaaaggc caacttctat7141 aatggtgcct actgtgcatt aacagagata aactaggggt ctaagaactc agttttctac 7227 agggtcccag aagtatagcc atatattgcc ccattctcta atggaaatag ccagagaaat7261 agaaatatca agactggaga acatcaaata cctcattgga aaagccccca cataggaaaa7321 tgtgtgggct tgaattcttc cattctggaa gggtaaaggc ctgagtgatg atgctgggat7381 tagacactga aactctttag agaagcaaaa caagtataat aaagctgtac tttattatat7441 taaataaata acacacagac taccaaatag cctgcccctt ataacagcgt taatgtgatt7501 ttgatctgaa atgtatagag acattttgca ttttttcggt ataaaaagtt catgagattt7561 ggccctaatc tggacctttt cttcattttt ttttctactt gagggactat aatctttatt7621 tttaaatttg ttttatattc tccgaacatt acctaacgca tagaaaactc ttcttgaacc7681 atttttctct gttctttgta aaatattaca tttgactgtt ccttagactg ctttaatcat7741 tcctgcctat gcaccctcct caaaatccag tttaaattaa ttgttcctta ttcaagattc7801 cttatatcca cctcccttgg ggcagcaatc acctatcacc caggactaca cttgtgtatg7861 tacatatctt ccctattaca aatcaggttc tttgaaaaaa tacaaatggt aagagagtgg7921 atttttggag tcagtacatt ctcttttcaa atccttcttc tgccccttac tggcaataag7981 ggctgagtga cctagagcaa attacttaac ttctctgagc ctcagttttc taatctgcaa8041 aataggagcc atcacttcac aagtctgtaa gacttatatt agactaagtg cctgcctgta8101 cactgttctc ttttctctct ttctatatac ctgaaggcat tataggtgct agatgtctgt8161 ttaaagacca gacaatattg tcttaaaaaa acaaacaaaa acacagacaa taccatcttt8221 aaaaaaaaaa aaaagtccag gtaagaaata aataaggcca tagaatggaa gctttacaag8281 gactctctgt gagacaggat ctcctcaagt gtccccaggt taaattagaa gtatatatcc8341 gtacaattgt tcagccagtt tgtgcactgt actgaggatg aatgaacacc tatcctaaat8401 atcctagtct tctgactaaa aacaagatca tatttcataa cgattattgt tacattcata8461 gtgtcccagg tgatttagag gataaataaa aatccattaa agaggtaaag acataaaaac8521 gagaaacatg gactggttta cacataacac atacaaagtc tattataaaa ctagcatcag8581 tatccttgaa tgcaaacctt tttctgagta tttaacaatc gcacccttta aaaaatgtac8641 aatagacatt aagagactta aacagatata taatcatttt aaattaaaat agcgttaaac8701 agtacctcaa gctcaataag cattttaagt attctaatct tagtatttct ctagctgaca8761 tgtaagaagc aatctatctt attgtatgca attagctcat tgtgtggata aaaaggtaaa8821 accattctga aacaggaaac caatacactt cctgtttaat caacaaatct aaacatttat8881 tcttttcatc tgtttactct tgctgttgtc caccacaata tgctattcac atgttcagtg8941 tagttttatg acaaagaaaa ttttctgagt tacttttgta tccccacccc cttaaagaaa9001 ggaggaaaaa ctgtttcata cagaaggcgt taattgcatg aattagagct atcacctaag9061 tgtgggctaa tgtaacaaag agggatttca cctacatcca ttcagtcagt ctttgggggt9121 ttaaagaaat tccaaagagt catcagaaga ggaaaaatga aggtaatgtt ttttcagaca9181 ggtaaagtct ttgaaaatat gtgtaatatg taaaacattt tgacaccccc ataatatttt9241 tccagaatta acagtataaa ttgcatctct tgttcaagag ttccctatca ctctctttaa9301 tcactactca cagtaacctc aactcctgcc acaatgtac 1 ttaatcaaca aatctaaaca tttattcttt tcatctgttt actcttgctc ttgttcacca 61 caatatgcta ttcacatgtt cagtgtagtt ttatgacaaa gaaaattttc tgagttactt 121 ttgtatcccc acccccttaa agaaaggagg aaaaactgtt tcatacagaa ggcgttaatt 181 gcatgaatta gagctatcac ctaagtgtgg gctaatgtaa caaagaggga tttcacctac 241 atccattcag tcagtctttg ggggtttaaa gaattccaaa gagtcatcag aagaggaaaa 301 atgaaggtaa tgttttttca gacaggtaaa gtctttgaaa atatgtgtaa tatgtaaaac 361 attttgacac ccccataata tttttccaga attaacagta taaattgcat ctcttgttca 421 agagttccct atcactctct ttaatcacta ctcacagtaa cctcaactcc tgccacaatg 481 tacaggatgc aactcctgtc ttgcattgca ctaagtcttg cacttgtcac aaacagtgca 541 cctacttcaa gttctacaaa gaaaacacag ctacaactgg agcatttact gctggattta 601 cagatgattt tgaatggaat taatgtaagt atatttcctt tcttactaaa attattacat 661 ttagtaatct agctggagat catttcttaa taacaatgca ttatactttc ttagaattac 721 aagaatccca aactcaccag gatgctcaca tttaagtttt acatgcccaa gaaggtaagt 781 acaatatttt atgttcaatt tctgttttaa taaaattcaa agtaatatga aaatttgcac 841 agatgggact aatagcagct catctgaggt aaagagtaac tttaatttgt ttttttgaaa 901 acccaagttt gataatgaag cctctattaa aacagtttta cctatatttt taatatatat 961 ttgtgtgttg gtgggggtgggaagaaaaca taaaaataat attctcacct ttatcgataa1021 gacaattcta aacaaaaatg ttcatttatg gtttcattta aaaatgtaaa actctaaaat1081 atttgattat gtcattttag tatgtaaaat accaaaatct atttccaagg agcccacttt1141 taaaaatctt ttcttgtttt aggaaaggtt tctaagtgag aggcagcata acactaatag1201 cacagagtct ggggccagat atctgaagtg aaatctcagc tctgccatgt cctagctttc1261 atgatctttg gcaaattacc tactctgttt gtgattcagt ttcatgtcta cttaaatgaa1321 taactgtata tacttaatat ggctttgtga gaattagtaa gttaaatgta aagcactcag1381 aaccgtgtct ggcataaggt aaataccata caagcattag ctattattag tagtattaaa1441 gataaaattt tcactgagaa atacaaagta aaattttgga ctttatcttt ttaccaatag1501 aacttgagat ttataatgct atatgactta ttttccaaga ttaaaagctt cattaggttg1561 tttttggatt cagatagagc ataagcataa tcatccaagc tcctaggcta cattaggtgt1621 gtaaagctac ctagtagttg tgccagttaa gagagaatga acaaaatctg gtgccagaaa1681 gagcttgtgc cagggtgaat ccaagcccag aaaataatag gatttaaggg gacacagatg1741 caatcccatt gactcaaatt ctattaattc aagagaaatc tgcttctaac tacccttctg1801 aaagatgtaa aggagacagc ttacagatgt tactctagtt taatcagagc cacataatgc1861 aactccagca acataaagat actagatgct gttttctgaa gaaaatttct ccacattgtt1921 catgccaaaa acttaaaccc gaatttgtag aatttgtagt ggtgaattga aagcgcaata1981 gatggacata tcaggggatt ggtattgtct tgacctacct ttcccactaa agagtgttag2041 aaagatgaga ttatgtgcat aatttagggg gtggtagaat tcatggaaat ctaagtttga2101 aaccaaaagt aatgataaac tctattcatt tgttcattta accctcattg cacatttaca2161 aaagatttta gaaactaata aaaatatttg attccaagga tgctatgtta atgctataat2221 gagaaagaaa tgaaatctaa ttctggctct acctacttat gtggtcaaat tctgagattt2281 agtgtgctta tttataaagt ggagatgata cttcactgcc tacttcaaaa gatgactgtg2341 agaagtaaat gggcctattt tggagaaaat tcttttaaat tgtaatatac catagaaata2401 tgaaatatta tatataatat agaatcaaga ggcctgtcca aaagtcctcc caaagtatta2461 taatctttta tttcactggg acaaacattt ttaaaatgca tcttaatgta gtgattgtag2521 aaaagtaaaa tttaagacat atttaaaaat gtgtcttgct caaggctata ttgagagcca2581 ctactacatg attattgtta cctagtgtaa aatgttggga ttgtgataga tggcattcaa2641 gagttccttc tctctcaaca ttctgtgatt cttaactctt agactatcaa atattataat2701 catagaatgt gatttttatg cttccacatt ctaactcatc tggttctaat gattttctat2761 gcagattgga aaagtaatca gcctgcatct gtgataggca cttacgatgc agaaagtcta2821 acattttgca aagccaaatt aagctaaaac cagtgagtca actatcactt aacgctagtc2881 ataggtactt gagccctagt ttttccagtt ttataatgta aactctactg gtccattctt 2924 3001 taaattggaa attaatttct gattctgacc tctatgtaaa ctgagctgat gataattatt3061 5931242 ggaagtgcta aatttagctc aaagcaaaaa ctttcactta agacccaggg acttaatcag3181 caatatcaac gtaatagttc tggaactaaa ggtaaggcat tactttattt gctctcctgg3241 aaataaaaaa aaaaaagtca gggggaaaag taccacattt taaagtgaca taacattttt3301 ggtatttgta aagtacccat gcatgtaatt agcctacatt ttaagtacac tgtgaacatg 8461 aatcatttct aatgttaaat gattaactgg ggagtataag ctactgagtt tgcacctacc3421 atctactaat ggacaagcct catcccaaac tccatcacct ttcatattaa cacaaaactg3481 ggagtgagag aaggtactga gttgagtttc acagaaagca ggcagatttt attatatatt3541 tttcgattct tcagatcatt tactgaaata gccaatactg attacctgaa aggcttttca3601 aatggtgttt ccttatcatt tgatggaagg actacccata agagatttgt cttaaaaaaa aaaactggag ccattaaaat ggccagtgga ctaaacaaac aacaatcttt ttagaggcaa3721 tccccacttt cagaatctta agtattttta aatgcacagg aagcataaaa tatgcaaggg3781 actcaggtga tgtaaaagag attcactttt gtctttttat atcccgtctc ctaaggtata3841 aaattcatga gttaataggt atcctaaata agcagcataa gtatagtagt aaaagacatt3901 cctaaaagta actccagttg tgtccaaatg aatcacttat tagtggactg tttcagttga3961 attaaaaaaa tacattgaga tcaatgtcat ctagacattg acagattcag ttccttatct4021 atggcaagag ttttactcta aaataattaa catcagaaaa ctcattctta actcttgata4081 caaatttaag acaaaaccat gcaaaaatct gaaaactgtg tttcaaaagc caaacacttt4141 ttaaaataaa aaatcccaag atatgacaat atttaaacaa ttatgcttaa gaggatacag4201 aacactgcaa cagtttttta aaagagaata cttatttaaa gggaacactc tatctcacct4261 gcttttgttc ccagggtagg aatcacttca aatttgaaaa gctctctttt aaatctcact4321 atatatcaaa atatttcctc cttagcttat caactagagg aagcgtttaa atagctcctt4381 tcagcagaga agcctaattt ctaaaaagcc agtccacaga acaaaatttc taatgtttaa4441 acttttaaaa gttggcaaat tcacctgcat tgatactatg atggggtagg gataggtgta4501 agtatttaga agatgttctt cacacaaatt tatcccaaac ggaagcatgt cctagcttac45 tctagtgtag ttctgttctg ctttggggaa aatataagga gattcactta agtagaaaaa4621 taggagactc taatcaagat ttagaaaaga agaaagtata atgtgcatat caattcatac4681 atttaactta cacaaatata ggtgtacatt cagaggaaaa gcgatcaagt ttatttcaca4741 tccagcattt aatatttgtc tagatctatt tttatttaaa tctttatttg cacccaattt4801 agggaaaaaa tttttgtgtt cattgactga attaacaaat gaggaaaatc tcagcttctg4861 tgttactatc atttggtatc ataacaaaat atgtaatttt ggcattcatt ttgatcattt 8621 caagaaaatg cgaataatta atatgtttgg taagcttgaa aataaaggca acaggcctat4981 aagacttcaa ttgggaataa ctgtatataa ggtaaactac tctgtacttt aaaaaattaa5041 catttttctt ttatagggat ctgaaacaac attcatgtgt gaatatgctg atgagacagc5101 aaccattgta gaatttctga acagatggat taccttttgt caaagcatca tctcaacact5161 gacttgataa ttaagtgctt cccacttaaa acatatcagg ccttctattt atttaaatat5221 ttaaatttta tatttattgt tgaatgtatg gtttgctacc tattgtaact attattctta5281 atcttaaaac tataaatatg gatcttttat gattcttttt gtgccctagg ggctctaaaa5341 tggtttcact tatttatccc aaaatattta ttattatgtt gaatgttaaa tatagtgcta5401 tgtagattgg ttagtaaaac tatttaataa atttgataaa tataaacaag cctggatatt5461 tgttattttg gaaacagcac agagtaagca tttaaatatt tcttagttac ttgtgtgaac5521 tgtaggatgg ttaaaatgct tacaaaagtc actctttctc tgaagaaata tgtagaacag5581 agatgtagac ttctcaaaag cccttgcttt gtcctttcaa gggctgatca gacccttagt5641 tctggcatct cttagcagat tatattttcc ttcttcttaa aatgccaaac acaaacactc5701 ttgaaactct tcatagattt ggtgtggcta tgaattc 1 cgaattcccc tatcacctaa gtgtgggcta atgtaacaaa gagggatttc acctacatcc attcagtcag tctttggggg tttaaagaaa ttccaaagag tcatcagaag aggaaaaatg aaggtaatgt tttttcagac tggtaaagtc tttgaaaata tgtgtaatat gtaaaacatt ttgacacccc cataatattt ttccagaatt aacagtataa attgcatctc ttgttcaaga 241 gttccctatc actctttaat cactactcac agtaacctca actcctgcca caatgtacag 301 gatgcaactc ctgtcttgca ttgcactaag tcttgcactt gtcacaaaca gtgcacctac 361 ttcaagttct acaaagaaaa cacagctaca actggagcat ttactgctgg atttacagat 421 gattttgaat ggaattaatg taagtatatt tcctttctta ctaaaattat tacatttagt 481 aatctagctg gagatcattt cttaataaca atgcattata ctttcttaga attacaagaa 541 tcccaaactc accaggatgc tcacatttaa gttttacatg cccaagaagg taagtacaat attttatgtt caatttctgt tttaataaaa ttcaaagtaa tatgaaaatt tgcacagatg 661 ggactaatag cagctcatct gaggtaaaga gtaactttaa tttgtttttt tgaaaaccca 721 35 721 agtttgataa tgaagcctct attaaaacag ttttacctat atttttaata tatatttgtg 781 tgttggtggg ggtgggagaa aacataaaaa taatattctc tcactttatc gataagacaa 841 ttctaaacaa aaatgttcat ttatggtttc atttaaaaat gtaaaactct aaaatatttg 901 attatgtcat tttagtatgt aaaataccaa aatctatttc caaggagccc acttttaaaa 961 atcttttctt gttttaggaa aggtttctaa gtgagaggca gcataacact aatagcacag1021 agtctggggc cagatatctg aagtgaaatc tcagctctgc catgtcctag ctttcatgat1081 ctttggcaaa ttacctactc tgtttgtgat tcagtttcat gtctacttaa atgaataact1141 gtatatactt aatatggctt tgtgagaatt agtaagtaaa tgtaaagcac tcagaaccgt1201 gtctggcata aggtaaatac catacaagca ttagctatta ttagtagtat taaagataaa1261 attttcactg agaaatacaa agtaaaattt tggactttat ctttttacca atagaacttg1321 agatttataa tgctatatga cttattttcc aagattaaaa gcttcattag gttgtttttg1381 gattcagata gagcataagc ataatcatcc aagctcctag gctacattag gtgtgtaaag1441 ctacctagta gctgtgccag ttaagagaga atgaacaaaa tctggtgcca gaaagagctt1501 gtgccagggt gaatccaagc ccagaaaata ataggattta aggggacaca gatgcaatcc1561 cattgactca aattctatta attcaagaga aatctgcttc taactaccct tctgaaagat1621 gtaaaggaga cagcttacag atgttactct agtttaatca gagccacata atgcaactcc1681 agcaacataa agatactaga tgctgttttc tgaagaaaat ttctccacat tgttcatgcc1741 aaaaacttaa acccgaattt gtagaatttg tagtggtgaa ttgaaagcgc aatagatgga1801 catatcaggg gattggtatt gtcttgacct acctttccca ctaaagagtg ttagaaagat1861 gagattatgt gcataattta ggggtggtag aattcatgga aatctaagtt tgaaaccaaa1921 agtaatgata aactctattc atttgttcat ttaaccctca ttgcacattt acaaaagatt1981 ttagaaacta ataaaaatat ttgattccaa ggatgctatg ttaatgctat aatgagaaag2041 aaatgaaatc taattctggc tctacctact tatgtggtca aattctgaga tttagtgtgc2101 ttatttataa agtggagatg atacttcact gcctacttca aaagatgact gtgagaagta2161 aatgggccta ttttggagaa aattctttta aattgtaata taccatagaa atatgaaata2221 ttatatataa tatagaatca agaggcctgt ccaaaagtcc tcccaaagta ttataatctt2281 ttatttcact gggacaaaca tttttaaaat gcatcttaat gtagtgattg tagaaaagta2341 aaaatttaag acatatttaa aaatgtgtct tgctcaaggc tatattgaga gccactacta2401 catgattatt gttacctagt gtaaaatgtt gggattgtga tagatggcat ccaagagttc2461 cttctctctc aacattctgt gattcttaac tcttagacta tcaaatatta taatcataga2521 2581 attggaaaag taatcagcct acatctgtaa taggcattta gatgcagaaa gtctaacatt2641 ttgcaaagcc aaattaagct aaaaccagtg agtcaactat cacttaacgc tagtcatagg2701 tacttgagcc ctagtttttc cagttttata atgtaaactc tactggtcca tctttacagt2761 gacattgaga acagagagaa tggtaaaaac tacatactgc tactccaaat aaaataaatt2821 ggaaattaat ttctgattct gacctctatg taaactgagc tgatgataat tattattcta2881 ggccacagaa ctgaaacatc ttcagtgtct agaagaagaa ctcaaacctc tggaggaagt2941 gctaaattta gctcaaagca aaaactttca cttaagaccc agggacttaa tcagcaatat3001 caacgtaata gttctggaac taaaggtaag gcattacttt atttgctctc ctggaaataa 3063061 aaaaaaaaaa gtagggggaa aagtaccaca ttttaaagtg acataacatt tttggtattt3121 8281 3253 3241 aatggacaag cctcatccca aactccatca cctttcatat taacacaaaa ctgggagtga3301 gagagaagtg actgagttga gtttcacaga aacgcaggca agattttatt atatattttt 3387461 34 caagttcctt cacagatcat ttactggaat agccaatact gagttacctg aaaggctttt 363481 aaaaaactgg agccattaaa atggccagtg gactaaacaa acaacaatct ttttagaggc3541 aatcccactt tcagaatctt aagtattttt aaatgcacag gaagcataaa atatgcaagg3601 gactcaggtg atgtaaaaga gattcacttt tgtcttttta tatcccgtct cctaaggtat3661 36 aaaattcatg agttaatagg tatcctaaat aagcagcata agtatagtag taaaagacat3721 tcctaaaagt aactccagtt gtgtccaaat gaatcactta ttagtggact gtttcagttg3781 aattaaaaaa atacattgag atcaatgtca tctagacatt gacagattca gttccttatc3841 tatggcaaga gttttactct aaaataatta acatcagaaa actcattctt aactcttgat3901 acaaatttaa gacaaaacca tgcaaaaatc tgaaaactgt gtttcaaaag ccaaacactt3961 tttaaaataa aaaaatccca agatatgaca atatttaaac aattatgctt aagaggatac4021 agaacactgc aacagttttt taaaagagaa tacttattta aagggaacac tctatctcac4081 4141 ctatatatca aaatagttgc ctccttagct tatcaactag aggaagcgtt taaatagctc4201 ctttcagcag agaagcctaa tttctaaaaa gccagtccac agaacaaaat ttctaatgtt4261 taaagctttt aaaagttggc aaattcacct gcattgatac tatgatgggg tagggatagg4321 43 tgtaagtatt tatgaagatg ttcattcaca caaatttacc caaacaggaa gcatgtccta4381 cctagcttac tctagtgtag ctcgtttcgt ctttggggaa aatataagga gattcactta4441 agtagaaaaa taggagactc taatcaagat ttagaaaaga agaaagtata atgtgcatat4501 caattcatac atttaactta cacaaatata ggtgtacatt cagaggaaaa gcgatcaagt4561 4621 cacccaattt agggaaaaaa tttttgtgtt cattgactga attaacaaat gaggaaaatc4681 tcagcttctg tgttactatc atttggtatc ataacaaaat acgcaatttt ggcattcatt4741 ttgatcattt caagaaaatg tgaataatta atatgtttgg taagcttgaa aataaaggca4801 acaggcctat aagacttcaa ttgggaataa ctgtatataa ggtaaactac tctgtacttt4861 aaaaaattaa catttttctt ttatagggat ctgaaacaac attcatgtgt gaatatgctg4921 atgagacagc aaccattgta gaatttctga acagatggat taccttttgt caaagcatca4981 tctcaacact gacttgataa ttaagtgctt cccacttaaa acatatcagg ccttctattt5041 atttaaatat ttaaatttta tatttattgt tgaatgtatg gtttgctacc tattgtaact5101 attattctta atcttaaaac tataaatatg gatcttttat gattcttttt gtaagcccta5161 3561 5161 ggggctctaa aatggtttca cttatttatc ccaaaatatt tattattatg ttgaatgtta5221 aatatagtat ctatgtagat tggttagtaa aactatttaa taaatttgat aaatataaac5281 aagcctggat atttgttatt ttggaaacag cacagagtaa gcatttaaat atttcttagt5341 tacttgtgtg aactgtagga tggttaaaat gcttacaaaa gtcactcttt ctctgaagaa5401 atatgtagaa cagagatgta gacttctcaa aagcccttgc tttgtccttt caagggctga5461 tcagaccctt agttctggca tctcttagca gattatattt tccttcttct taaaatgcca5521 aacacaaaca ctcttgaaac tcttcataga tttggtgtgg c1 ccccataata tttttccaga attaacagta taaattgcat ctcttgttca agagttccct 61 atcactctct ttaatcacta ctcacagtaa cctcaactcc tgccacaatg tacaggatgc 121 aactcctgtc ttgcattgca ctaagtcttg cacttgtcac aaacagtgca cctacttcaa 181 gttctacaaa gaaaacacag ctacaactgg agcatttact gctggattta cagatgattt 241 tgaatggaat taataattac aagaatccca aactcaccag gatgctcaca tttaagtttt 301 acatgcccaa gaaggccaca gaactgaaac atcttcagtg tctagaagaa gaactcaaac 361 ctctggagga agtgctaaat ttagctcaaa gcaaaaactt tcacttaaga cccagggact 421 taatcagcaa tatcaacgta atagttctgg aactaaaggg atctgaaaca acattcatgt 481 gtgaatatgc tgatgagaca gcaaccattg tagaatttct gaacagatgg attacctttt 541 gtcaaagcat catctcaaca ctgacttgat aattaagtgc ttcccactta aaacatatca 601 ggccttctat ttatttaaat atttaaattt tatatttatt gttgaatgta tggtttgcta 661 cctattgtaa ctattattct taatcttaaa actataaata tggatctttt atgattcttt 721 ttgtaagccc taggggctct aaaatggttt cacttattta tcccaaaata tttattatta 781 tgttgaatgt taaatatagt atctatgtag attggttagt aaaactattt aataaatttg 841 ataa (2) SEQ ID NO: 2534 data: (i) sequence characteristics:

(A) length: 919 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2534 sequence description: 1 aggcccagtt gaaaccaggg agttgctctc ctttctcctc ccttgacctc acccctcaga 61 ccatgccaat tctgcctcct aaacctccca ggccagcccc tcccccagct cccagtgaca 121 gtgtcctcag gtacctgagc tcagctctcg gtgctaccag agggactgca gggctgcaga 181 ggctgagtcc cacacgcagg gaacagccat gccactgcta gcagaccagt aagagaatgg 241 ccacctgggg cctgagcgcc ctcggccatc caccagaaac aaagtgtcaa ggagaagctg 301 cccgaagccc atgggacaaa ccactgggga ctggaacacc agtaattctg tattgggaag 361 cggcaccaag agatgtgctt ctcagagcct gaggctgaac gtggatgttt agcagcgtga 421 ccggctacca gacaaactct catctgttcc agtggcctcc tggccaccca ccaggaccaa 481 gcagggcggg cagcagaggg ccagggtagt ccaggtgatg gcagatgaga tcccactggg 541 caggaggcct cagtgagctg agtcaggctt ccccttcctg ccacaggggt cctctcacct 601 gctgccatgc ttcccatctc tcatcctcct tgacaagatg aagtgatacc gtttaagtaa 661 tcttttttct tgtttcactg atcttgagta ctagaaagtc atggatgaat aattacgtct 721 gtggttttct atggaggttc catgtcagat aaagatcctt ccgacgcctg ccccacacca 781 ccacctcccc cgccttgccc ggggttgtgg gcaccttgct gctgcacata taaggcggga 841 gctgttgcca actcttcaga gccccacgaa ggaccagaac aagacagagt gcctcctgcc 901 gatccaaaca tgagccgcc (2) SEQ ID NO: 2535 data: (i) sequence characteristics:

(A) length: 452 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2535 sequence description: 1 gccacccacc aggaccaagc agggcgggcagcagagggcc agggtagtcc aggtgatggc 61 agatgagatc ccactgggca ggaggcctca gtgagctgag tcaggcttcc ccttcctgcc 121 acaggggtcc tctcacctgc tgccatgctt cccatctctc atcctccttg acaagatgaa 181 gtgataccgt ttaagtaatc ttttttcttg tttcactgat cttgagtact agaaagtcat 241 ggatgaataa ttacgtctgt ggttttctat ggaggttcca tgtcagataa agatccttcc 301 gacgcctgcc ccacaccacc acctcccccc gccttgcccg gggttgtggg caccttgctg 361 ctgcacatat aaggcgggag gttgttgcca actcttcaga gccccacgaa ggaccagaac 421 aagacagagt gcctcctgcc gatccaaaca tg (2) SEQ ID NO: 2536 data: (i) sequence characteristics:

(A) length: 2749 base pairs (B) type: nucleic acid (C) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2536 sequence description: 1 gatccaggag accagtctcc tagtaccagg tctgcttgcc taaacttgga gtataagagc 61 catagacact gtctcttcga tcagtccttg cccccacccc ctgctgttgc acccttatct 121 ttcaccctat tgctcctgca ttgaagacag aagcacccag tttcccctgc ctcagcataa 181 721 gcctagtgtt tgcagtcata tctccatcaa gggttctgtc ctctagatgt gggccttagc 781 181 cttgctagcc ttcatttcct cgtgctggtc acatcacacc acaacccgac ccaaaccctg 241 gtttctctac catgcccctg cttccctgca ccccaggctt gtcacactca tcttctacca 301 aaactccagc tttgtgctgt ggcctgtcaa cctgtcccat ggaaaagggg gccaccccat 361 ccttcaggga ctgtcccctg gctctccaca ctcctggctt tgccactttc tctctagctg 421 tggtttctca ggtcctttga gaacttccca taactgtccc tgtttccttc ccacctctgt 481 aggcctgagc tgcaaaccag ctcccactcc acccaggctc cagggccgac tgggatttag 541 atccctcaat atggctttcc ttcagggagt agttctcttc tctcctcttg ccctcccggc 601 tcaaacttgt ccatgccacc tgctacaccg tcctgcagct cccagtaact aacactattc 661 tcaaggccca cctttgtccc taggtcccta agcctaatta tctgagttat cagaaggatg 721 gcctagtgtt tgcagtcata tctccatcaa gggttctgtc ctctagatgt gggccttagc 781 gcattgcctt actgcactga gactagacca gtgaaggagt gagctgaact ccatatccac 841 ctgcaaggaa taagggtcaa tgggaaggct gcctagaggg agagggagct ctagctacca 901 gcggccagag gactagccca cccatggacg tttaaccatg tgccagaatg cctaccatgt 961 tcaagtttgc cccagtgacc ctggtggccc actaatagtg gtggcccaca gtcaggggca1021 gatttgtaca agggatggta ggaagaggtt ccagtgcaca gaaaccccaa gctggctcgg1081 agccaggcta cttcctccca ccacctgttt ccactcggtc catctctatg acaaaggaag1141 aagatggcct ttgaataagc agtctttctt cccatgtcga taattttgag tactagaaaa1201 cgatgaataa gtctgtggtt tgctatggag gttccatgtc agataaagct gcttctgatg1261 cctgcccttc cccccatgcc ctgcctgggg cccgccccgc ccctctcgat gaatatatat1321 aaggtgaagg ctcctgtggc ttcttcagaa ctctttggag gaccagaacg agacaatggt1381 tcttgccagc tctaccacca gcatcctctg tatgctgctc ccgctcctga tgctcttcca1441 ccagggactc cagatttcag acaggggctc agatgcccac catttactca ggacgttgga1501 ttgcaggact attgccttgg agattttggt gaagctccca gtgagtagct ggctgaggtt1561 agcctgggca ggctggcttc aacaggtgcc tcggaccaat aagcctcatg attctttctt1621 ttagtatcct caggtatctg gactcaataa tagtgacgac aaagccaatc tgagggtaag1681 agccctgctc ttgggcattc ttgggttcca tctgtctcct gcctgggtga ctttagccat1741 gtcactgcac cctgctttgc ttccgttttc acatctatct cagtggggtt attaaggaaa1801 tcatcagatg actctctgag cctcagtctg tgccacagcc agctgcaata atgaaagttg1861 cattttagga gatacaatgg agagagaact gtgagtgaac cctgccacag gcctctggct1921 ccactttcag tggggatgcc atggggatgc catggaccag tgaacgagtt gccttctgtg1981 actgtgtctt ttgcttttct tcctcctcca aaactgagct tgtgttctcc acttccacca2041 gcctaagaca ttaccatttg cagttatttt cccagctcta gttagataca atggttctgt2101 ttcgttttta tttgtttgca agcgtgctga gtgtctacgt ttcccctccc tagggacatg2161 atgaagtctg taggattttc ttctagatat ctagaagttc ttaattaaat taaagcattg2221 gggttgggga tttagctcag tggtagagtg cttgcctagc aagcgcaagg ccctgagttc2281 attccccagc tccgaaaaaa agaaaaaaga aaaagaaaaa aaattaaagc attaaccttg2341 gtgtttggca tcttgggcat aagtatttcc cttggccaac cttctgcctt ttctagagct2401 tgtctggaga gatatgtttc ccttaaaaac agacagatct gcttagagcc ttcacacagt2461 ccacaggctg ccaggggtta agacctggtg ctcaggagaa acaggccctt gtctgggatg2521 tgccctagct ttagccccag gataaggaaa ggaccaggag taaggctgtt caaagaaacc2581 tctaacagca gtcacacctc cccagctctc acctccccag ctctcacctc cccagctctc2641 acctctcccg ctctcacctc cccagctctc acctctccag ctctcacttc cccagttctc2701 acctccccag ctctcacctc tccagctctc acctccccag ctctcacct (2) SEQ ID NO: 2537 data: (i) sequence characteristics:

(A) length: 923 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2537 sequence description: 1 cagagcccca cgaaggacca gaacaagaca gagtgcctcc tgccgatcca aacatgagcc 61 gcctgcccgt cctgctcctg ctccaactcc tggtccgccc cggactccaa gctcccatga 121 cccagacaac gcccttgaag acaagctggg ttaactgctc taacatgatc gatgaaatta 181 taacacactt aaagcagcca cctttgcctt tgctggactt caacaacctc aatggggaag 241 accaagacat tctgatggaa aataaccttc gaaggccaaa cctggaggca ttcaacaggg 301 ctgtcaagag tttacagaac gcatcagcaa ttgagagcat tcttaaaaat ctcctgccat 361 gtctgcccct ggccacggcc gcacccacgc gacatccaat ccatatcaag gacggtgact 421 ggaatgaatt ccggaggaaa ctgacgttct atctgaaaac ccttgagaat gcgcaggctc 481 aacagacgac tttgagcctc gcgatctttt agtccaacgt ccagctcgtt ctctgggcct 541 tctcaccaca gagcctcggg acatcaaaaa cagcagaact tctgaaacct ctgggtcatc 601 tctcacacat tccaggacca gaagcatttc accttttcct gcggcatcag atgaattgtt 661 aattatctaa tttctgaaat gtgcagctcc catttggcct tgtgcggttg tgttctcatt 721 tttatcccat tgagactatt tatttatgta tgtatgtatt tatttattta ttgcctggag 781 tgtgaactgt atttatttta gcagaggagc catgtcctgc tgcttctgca aaaaactcag 841 agtggggtgg ggagcatgtt catttgtacc tcgagtttta aactggttcc tagggatgtg 901 tgagaataaa ctagactctg aac (2) SEQ ID NO: 2538 data: (i) sequence characteristics:

(A) length: 882 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2538 sequence description: 1 tgtgtaagta agtgcaagct acagagaaaa ccaaggaaga aaaaaattgc cagagatcca 61 ggttaaaaaa aaaaaaagaa aaagaaaaga aaaccaagga agcaatcatc ataaaagaca 121 ggtgagtggg ttacctctaa gggcgagcag tcacgattag aggacaaata tggggagagt 181 tttggagcgt tggcgatttt tttttgactt aagcatggtt aaatgggtga ttgcttataa 241 ttacttgtta aattaggtta attaggtttt atttacatgt tttatgctct tttctgcatg 301 catttgtgct ctattttttt aattaaaaaa taaaataaag taaaactatg tttcttgcac 361 ttaaaatact ggaaaaccaa agagaatctg aaaaactttt agaatgaaga gagtttggca 421 agacggcaag aacccttgct ttttccactg ggcctttctt cctcccaccc tgagggtgct 481 ccatggaaaa tgcaaatcta cttaactgac tttcgcaaat gtcaaatgta gagtacgaat 541 ttcaagggga gcctggggct gtgccatatc ctgctgtgag ctacagtttt ccagcctcta 601 gagccatctt aacaaggtgc ctgcctggtg tctactaccc cagtatgtgc tccaacccct 661 gcccaggcct cctagtgcta gagaggatat agacatggcc tctccatgga aacctccagg 721 gctggtatga caccttaaca aacaaaaagg gaggattgcc ggtacagcgg agtcccgcag 781 gaggataggt gttgccttct aggtggtagg gaggctgaga gggccatcca gagtagggac 841 cacgaactgg ggtctcaaca tgaagagtcg ttcatcagat ct (2) SEQ ID NO: 2539 data: (i) sequence characteristics:

(A) length: 5925 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2539 sequence description: 1 aggcccagtt gaaaccaggg agttgctctc ctttctcctc ccttgacctc acccctcaga 61 ccatgccaat tctgcctcct aaacctccca ggccagcccc tcccccagct cccagtgaca 121 gtgtcctcag gtacctgagc tcagctctcg gtgctaccag agggactgca gggctgcaga 181 721 gtggttttct atggaggttc catgtcagat aaagatcctt ccgacgcctg ccccacacca 781 181 ggctgagtcc cacacgcagg gaacagccat gccactgcta gcagaccagt aagagaatgg 241 ccacctgggg cctgagcgcc ctcggccatc caccagaaac aaagtgtcaa ggagaagctg 301 cccgaagccc atgggacaaa ccactgggga ctggaacacc agtaattctg tattgggaag 361 cggcaccaag agatgtgctt ctcagagcct gaggctgaac gtggatgttt agcagcgtga 421 ccggctacca gacaaactct catctgttcc agtggcctcc tggccaccca ccaggaccaa 481 gcagggcggg cagcagaggg ccagggtagt ccaggtgatg gcagatgaga tcccactggg 541 caggaggcct cagtgagctg agtcaggctt ccccttcctg ccacaggggt cctctcacct 601 gctgccatgc ttcccatctc tcatcctcct tgacaagatg aagtgatacc gtttaagtaa 661 tcttttttct tgtttcactg atcttgagta ctagaaagtc atggatgaat aattacgtct 721 gtggttttct atggaggttc catgtcagat aaagatcctt ccgacgcctg ccccacacca 781 ccacctcccc cgccttgccc ggggttgtgg gcaccttgct gctgcacata taaggcggga 841 gctgttgcca actcttcaga gccccacgaa ggaccagaac aagacagagt gcctcctgcc 901 gatccaaaca tgagccgcc 1 gccacccacc aggaccaagc agggcgggca gcagagggcc agggtagtcc aggtgatggc 61 3961 61 agatgagatc ccactgggca ggaggcctca gtgagctgag tcaggcttcc ccttcctgcc 121 acaggggtcc tctcacctgc tgccatgctt cccatctctc atcctccttg acaagatgaa 181 gtgataccgt ttaagtaatc ttttttcttg tttcactgat cttgagtact agaaagtcat 241 ggatgaataa ttacgtctgt ggttttctat ggaggttcca tgtcagataa agatccttcc 301 gacgcctgcc ccacaccacc acctcccccc gccttgcccg gggttgtggg caccttgctg 361 ctgcacatat aaggcgggag gttgttgcca actcttcaga gccccacgaa ggaccagaac 421 aagacagagt gcctcctgcc gatccaaaca tg1 gatccaggag accagtctcc tagtaccagg tctgcttgcc taaacttgga gtataagagc 61 catagacact gtctcttcga tcagtccttg cccccacccc ctgctgttgc acccttatct 121 ttcaccctat tgctcctgca ttgaagacag aagcacccag tttcccctgc ctcagcataa 181 cttgctagcc ttcatttcct cgtgctggtc acatcacacc acaacccgac ccaaaccctg 241 gtttctctac catgcccctg cttccctgca ccccaggctt gtcacactca tcttctacca 301 aaactccagc tttgtgctgt ggcctgtcaa cctgtcccat ggaaaagggg gccaccccat 361 ccttcaggga ctgtcccctg gctctccaca ctcctggctt tgccactttc tctctagctg 421 tggtttctca ggtcctttga gaacttccca taactgtccc tgtttccttc ccacctctgt 481 aggcctgagc tgcaaaccag ctcccactcc acccaggctc cagggccgac tgggatttag 541 atccctcaat atggctttcc ttcagggagt agttctcttc tctcctcttg ccctcccggc 601 tcaaacttgt ccatgccacc tgctacaccg tcctgcagct cccagtaact aacactattc 661 tcaaggccca cctttgtccc taggtcccta agcctaatta tctgagttat cagaaggatg 721 gcctagtgtt tgcagtcata tctccatcaa gggttctgtc ctctagatgt gggccttagc 781 gcattgcctt actgcactga gactagacca gtgaaggagt gagctgaact ccatatccac 841 ctgcaaggaa taagggtcaa tgggaaggct gcctagaggg agagggagct ctagctacca 901 gcggccagag gactagccca cccatggacg tttaaccatg tgccagaatg cctaccatgt 961 tcaagtttgc cccagtgacc ctggtggccc actaatagtg gtggcccaca gtcaggggca1021 gatttgtaca agggatggta ggaagaggtt ccagtgcaca gaaaccccaa gctggctcgg1081 agccaggcta cttcctccca ccacctgttt ccactcggtc catctctatg acaaaggaag1141 aagatggcct ttgaataagc agtctttctt cccatgtcga taattttgag tactagaaaa cgatgaataa gtctgtggtt tgctatggag gttccatgtc agataaagct gcttctgatg1261 cctgcccttc cccccatgcc ctgcctgggg cccgccccgc ccctctcgat gaatatatat1321 aaggtgaagg ctcctgtggc ttcttcagaa ctctttggag gaccagaacg agacaatggt1381 tcttgccagc tctaccacca gcatcctctg tatgctgctc ccgctcctga tgctcttcca1441 ccagggactc cagatttcag acaggggctc agatgcccac catttactca ggacgttgga1501 ttgcaggact attgccttgg agattttggt gaagctccca gtgagtagct ggctgaggtt1 agcctgggca ggctggcttc aacaggtgcc tcggaccaat aagcctcatg attctttctt1621 ttagtatcct caggtatctg gactcaataa tagtgacgac aaagccaatc tgagggtaag1681 agccctgctc ttgggcattc ttgggttcca tctgtctcct gcctgggtga ctttagccat1741 gtcactgcac cctgctttgc ttccgttttc acatctatct cagtggggtt attaaggaaa1801 tcatcagatg actctctgag cctcagtctg tgccacagcc agctgcaata atgaaagttg1861 cattttagga gatacaatgg agagagaact gtgagtgaac cctgccacag gcctctggct1921 ccactttcag tggggatgcc atggggatgc catggaccag tgaacgagtt gccttctgtg1981 actgtgtctt ttgcttttct tcctcctcca aaactgagct tgtgttctcc acttccacca2041 2101 ttcgttttta tttgtttgca agcgtgctga gtgtctacgt ttcccctccc tagggacatg2161 atgaagtctg taggattttc ttctagatat ctagaagttc ttaattaaat taaagcattg gggttgggga tttagctcag tggtagagtg cttgcctagc aagcgcaagg ccctgagttc 228681 attccccagc tccgaaaaaa agaaaaaaga aaaagaaaaa aaattaaagc attaaccttg2341 gtgtttggca tcttgggcat aagtatttcc cttggccaac cttctgcctt ttctagagct240 tgtctggaga gatatgtttc ccttaaaaac agacagatct gcttagagcc ttcacacagt 2487461 ccacaggctg ccaggggtta agacctggtg ctcaggagaa acaggccctt gtctgggatg2521 tgccctagct ttagccccag gataaggaaa ggaccaggag taaggctgtt caaagaaacc2581 25 2581 tctaacagca gtcacacctc cccagctctc acctccccag ctctcacctc cccagctctc2641 acctctcccg ctctcacctc cccagctctc acctctccag ctctcacttc cccagttctc2701 acctccccag ctctcacctc tccagctctc acctccccag ctctcacct 1 cagagcccca cgaaggacca gaacaagaca gagtgcctcc tgccgatcca aacatgagcc 61 gcctgcccgt cctgctcctg ctccaactcc tggtccgccc cggactccaa gctcccatga 121 cccagacaac gcccttgaag acaagctggg ttaactgctc taacatgatc gatgaaatta 181 taacacactt aaagcagcca cctttgcctt tgctggactt caacaacctc aatggggaag 241 accaagacat tctgatggaa aataaccttc gaaggccaaa cctggaggca ttcaacaggg 301 ctgtcaagag tttacagaac gcatcagcaa ttgagagcat tcttaaaaat ctcctgccat 361 gtctgcccct ggccacggcc gcacccacgc gacatccaat ccatatcaag gacggtgact 421 ggaatgaatt ccggaggaaa ctgacgttct atctgaaaac ccttgagaat gcgcaggctc 481 aacagacgac tttgagcctc gcgatctttt agtccaacgt ccagctcgtt ctctgggcct 541 tctcaccaca gagcctcggg acatcaaaaa cagcagaact tctgaaacct ctgggtcatc 601 tctcacacat tccaggacca gaagcatttc accttttcct gcggcatcag atgaattgtt 661 aattatctaa tttctgaaat gtgcagctcc catttggcct tgtgcggttg tgttctcatt 721 781 721 tttatcccat tgagactatt tatttatgta tgtatgtatt tatttattta ttgcctggag 781 841 781 tgtgaactgt atttatttta gcagaggagc catgtcctgc tgcttctgca aaaaactcag 841 agtggggtgg ggagcatgtt catttgtacc tcgagtttta aactggttcc tagggatgtg 901 tgagaataaa ctagactctg aac1 tgtgtaagta agtgcaagct acagagaaaa ccaaggaaga aaaaaattgc cagagatcca 61 ggttaaaaaa aaaaaaagaa aaagaaaaga aaaccaagga agcaatcatc ataaaagaca 121 ggtgagtggg ttacctctaa gggcgagcag tcacgattag aggacaaata tggggagagt 181 tttggagcgt tggcgatttt tttttgactt aagcatggtt aaatgggtga ttgcttataa 241 ttacttgtta aattaggtta attaggtttt atttacatgt tttatgctct tttctgcatg 301 catttgtgct ctattttttt aattaaaaaa taaaataaag taaaactatg tttcttgcac 361 ttaaaatact ggaaaaccaa agagaatctg aaaaactttt agaatgaaga gagtttggca 421 agacggcaag aacccttgct ttttccactg ggcctttctt cctcccaccc tgagggtgct 481 ccatggaaaa tgcaaatcta cttaactgac tttcgcaaat gtcaaatgta gagtacgaat 541 ttcaagggga gcctggggct gtgccatatc ctgctgtgag ctacagtttt ccagcctcta 601 gagccatctt aacaaggtgc ctgcctggtg tctactaccc cagtatgtgc tccaacccct 661 gcccaggcct cctagtgcta gagaggatat agacatggcc tctccatgga aacctccagg 721 gctggtatga caccttaaca aacaaaaagg gaggattgcc ggtacagcgg agtcccgcag 781 gaggataggt gttgccttct aggtggtagg gaggctgaga gggccatcca gagtagggac 841 cacgaactgg ggtctcaaca tgaagagtcg ttcatcagat ct (2) SEQ ID NO: 2540 data: (i) sequence characteristics:

(A) length: 1460 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2540 sequence description: 1 gcacacggga agatatcaga aacatcctag gatcaggaca ccccagatct tctcaactgg 61 aaccacgaag gctgtttctt ccacacagca ctttgatctc catttaagca ggcacctctg 121 tcctgcgttc cggagctgcg ttcccgatgg tcctcctttg gctcacgctg ctcctgatcg 181 721 gtatcccctg cacagataag tttgtcgtct tttcacagat tgagatatta actccaccca 781 181 ccctgccctg tctcctgcaa acgaaggaag atccaaaccc accaatcacg aacctaagga 241 tgaaagcaaa ggctcagcag ttgacctggg accttaacag aaatgtgacc gatatcgagt 301 gtgttaaaga tgccgactat tctatgccgg cagtgaacaa tagctattgc cagtttggag 361 caatttcctt atgtgaagtg accaactaca ccgtccgagt ggccaaccca ccattctcca 421 cgtggatcct cttccctgag aacagtggga agccttgggc aggtgcggag aatctgacct 481 gctggattca tgacgtggat ttcttgagct gcagctgggc ggtaggcccg ggggcccccg 541 cggacgtcca gtacgacctg tacttgaacg ttgccaacag gcgtcaacag tacgagtgtc 601 ttcactacaa aacggatgct cagggaacac gtatcgggtg tcgtttcgat gacatctctc 661 gactctccag cggttctcaa agttcccaca tcctggtgcg gggcaggagc gcagccttcg 721 gtatcccctg cacagataag tttgtcgtct tttcacagat tgagatatta actccaccca 781 acatgactgc aaagtgtaat aagacacatt cctttatgca ctggaaaatg agaagtcatt 841 tcaatcgcaa atttcgctat gagcttcaga tacaaaagag aatgcagcct gtaatcacag 901 aacaggtcag agacagaacc tccttccagc tactcaatcc tggaacgtac acagtacaaa 961 taagagcccg ggaaagagtg tatgaattct tgagcgcctg gagcaccccc cagcgcttcg1021 agtgcgacca ggaggagggc gcaaacacac gtgcctggcg gacgtcgctg ctgatcgcgc1081 tggggacgct gctggccctg gtctgtgtct tcgtgatctg cagaaggtat ctggtgatgc1141 agagactctt tccccgcatc cctcacatga aagaccccat cggtgacagc ttccaaaacg1201 acaagctggt ggtctgggag gcgggcaaag ccggcctgga ggagtgtctg gtgactgaag1261 tacaggtcgt gcagaaaact tgagactggg gttcagggct tgtgggggtc tgcctcaatc1321 tccctggccg ggccaggcgc ctgcacagac tggctgctgg acctgcgcac gcagcccagg1381 aatggacatt cctaacgggt ggtgggcatg ggagatgcct gtgtaatttc gtccgaagct1441 gccaggaaga agaacagaac (2) SEQ ID NO: 2541 data: (i) sequence characteristics:

(A) length: 614 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2541 sequence description: 1 gatcgttagc ttctcctgat aaactaattg cctcacattg tcactgcaaa tcgacaccta 61 ttaatgggtc tcacctccca actgcttccc cctctgttct tcctgctagc atgtgccggc 121 aactttgtcc acggacacaa gtgcgatatc accttacagg agatcatcaa aactttgaac 181 agcctcacag agcagaagac tctgtgcacc gagttgaccg taacagacat ctttgctgcc 241 tccaagaaca caactgagaa ggaaaccttc tgcagggctg cgactgtgct ccggcagttc 301 tacagccacc atgagaagga cactcgctgc ctgggtgcga ctgcacagca gttccacagg 361 cacaagcagc tgatccgatt cctgaaacgg ctcgacagga acctctgggg cctggcgggc 421 ttgaattcct gtcctgtgaa ggaagccaac cagagtacgt tggaaaactt cttggaaagg 481 ctaaagacga tcatgagaga gaaatattca aagtgttcga gctgaatatt ttaatttatg 541 agtttttgat agctttattt tttaagtatt tatatattta taactcatca taaaataaag 601 tatatataga atct (2) SEQ ID NO: 2542, data: (i) sequence characteristics:

(A) length: 9900 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2542 sequence description: 1 gaattcaata aaaaacaagc agggcgcgtg gtggggcact gactaggagg gctgatttgt 61 aagttggtaa gactgtagct ctttttccta attagctgag gatgtgttta ggttccattc 121 aaaaagtggg cattcctggc caggcatggt ggctcacacc tgtaatctca gagctttggg 181 721 agtaaaactt tcttgatatt actctatctt tccccaggag gactgcatta caacaaattc 781 181 agactgaggt aggaggatca cttgagccca ggaatttgag atgagcctag gcaacatagt 241 gagactctta tctctatcaa aaaataaaaa taaaaatgag ccaggcatgg tgcggtggac 301 cacgcaccta ctgctagggg ggctgaggtg ggaggatcat tgagcctggg aggttgaggc 361 tgcagtgatc cctgatcaaa cattgcattt cagcctgggt gacagagtga gaccctgtct 421 cagaaaaaaa aaaaaaaagt cattcctgaa acctcagaat agacctacct tgccaagggc 481 ttccttatgg gtaaggacct tatggacctg ctgggaccca aactaggcct cacctgatac 541 gacctgtcct tctcaaaaca ctaaacttgg gagaacattg tcccccagtg ctggggtagg 601 agagtctgcc tgttattctg cctctatgca gagaaggagc cccagatcat cttttccatg 661 acaggacagt ttccaagatg ccacctgtac ttggaagaag ccaggttaaa atacttttca 721 agtaaaactt tcttgatatt actctatctt tccccaggag gactgcatta caacaaattc 781 ggacacctgt ggcctctccc ttctatgcaa agcaaaaagc cagcagcagc cccaagctga 841 taagattaat ctaaagagca aattatggtg taatttccta tgctgaaact ttgtagttaa 901 ttttttaaaa aggtttcatt ttcctattgg tctgatttca caggaacatt ttacctgttt 961 gtgaggcatt ttttctcctg gaagagaggt gctgattggc cccaagtgac tgacaatctg1021 gtgtaacgaa aatttccaat gtaaactcat tttccctcgg tttcagcaat tttaaatcta1081 tatatagaga tatctttgtc agcattgcat cgttagcttc tcctgataaa ctaattgcct1141 cacattgtca ctgcaaatcg acacctatta atgggtctca cctcccaact gcttccccct1201 ctgttcttcc tgctagcatg tgccggcaac tttgtccacg gacacaagtg cgatatcacc1261 ttacaggaga tcatcaaaac tttgaacagc ctcacagagc agaaggtgag tacctatctg1321 gcaccatctc tccagatgtt ctggtgatgc tctcagtatt tctaggcatg aaaacgttaa1381 cagctgctag agaagttgga actggtggtt ggtggcagtc cagggcacac agcgaggctt1441 ctccctgcca ctcttttttc tgagggtttg taggaagttt cctcagttgg agggagtgag1501 agctgctcat caaggacttc tctgtccggt tggaggttaa ctctgtctct tgctctctca1561 tttctgcctg gaccaagact ctgtgcaccg agttgaccgt aacagacatc tttgctgcct1621 ccaaggtaag aagccgtccc acggtctgtt ttagcaaatg gggagatcca tccccaaatg1681 tctgaacaag aaacttgtct aatggaaaac gagcgggccc aaattaactc taaggtgtta1741 gatgttttca aagaacgaga agtctgatct ttactcttaa gcatgttttg gtctttctgg1801 tttcacttga tttagaagac atgtaataga aagcttacat gctgtagtcc tgactcagat1861 cctggtcaaa gaaaagccct cttgggtttt acttagcttt ggcatagtgc ctggaacgta1921 ggaggcactc aataaatgcc tgttgaatga gagaattttt ctggcccata catttctgaa1981 aaaccaaata ctctcacaga aacagatatt gagatgacag gttgagggag ctttcatttt2041 gtctaagaga cttcctatgg caacagaaaa ggtatcgcca gagcccctcc tcttccacag2101 cctggccacc taacagccct ctggttccgg ggctgccgtc cagagctctc agcttgctct2161 ggccggccga actcccctcc agctcggtct ggaaccatcc tgctgggcag cgtccagcac2221 atccctgctt cgggctgcct gggcacctcg cctctctgcc tcctgtgctg cctcaccccc2281 acccctctat ctgtagtggg agggagatag atttgacagc tgatagtgca ttttctctga2341 caaacacatg actacagccg tatcaatagt tttgtgcatt tcagttcctg ttttcatgga2401 aacacacggc tgagaatgaa agccccaaag cctcaatttc acagtggtct cctaactacc2461 tgctttccat gcaaactagg gagatgatat ggccaggagt gaagccctgt gtgttgggca2521 gggtcacact ccagcaccca gaccatagaa cagggcccat cctgcttcat gagggaaact2581 gctcttcggg cctttagctg gactatctca tttcattagt tatcccggga gtccgataca2641 ggatgagatt ctgaagggca aatacacact tttttttttt ttttgagata gggtcttgtt2701 ctgtcaccca ggctggagtg cagtggtgcg atttcagctc atagcagcct ccacctccca2761 ggctcaagct atcttcctac ctcagcctcc caagtagccg ggacgacagg tgtgcaccac2821 cacgcctggc taatttttgt atttttttgt agagatggag tcttgccatt ttgcccaggc2881 ttgtctcgaa cttctgggct caagcaatcc gtccacctcg gcctctcaaa gtgctgggat2941 tagccactgc acctgggcaa cagtttatgt gtgtgtgtgt gtgtgtgtgt atatatgtgt3001 gtgtgtgtat atatatgtgt gtatgtatat atgtgtatgt atatgtgtgt gtgtgtgtgt3061 gtgtgtgtgt gtgtataaaa tctccaagtc catccaaccg agatggctcc tactagaagc3121 caagagtcca ccgggttgag cactgggtct ctggaggcct gtcggactgc tgagaaggct3181 ctaacaaagc caagggaagg gccacctcac tagaagccag gcctggagga agggtgaggg3241 ctgagggctg gaggtaagac tgcctgtggt tttagaccca ggctctgcca ctgactagct3301 gtgtggctgg ccttcagaca tcttcacagc tctctgcacc tcagtttcca catgtgaaga3361 tatgaaagtg attctgaagg tgattgcaag gttgattgga atccagctct tgagttagtg3421 caaagtgtta ttgtgagatg atataaccac gattaaaagc aagaacaggt gcagagaagc3481 gatgattcta agaaggaggg gaccgggttg gaaaggatca aaccatccag gatgccgagt3541 593601 gccctcccgt ccttaactcc cctcttcact cagtcctcac tcacctccct ctcacacaca3661 caaacatctc ctagaataat ccccactgcc tgccttcact cttacccgtc tcatttgcct3721 cccctgaact tcatcctcct ggagttcacg atctcactct tcactctttt cttcccctcg3781 aagattcagc actgcttact tacatgttaa gatatttcag aacagtgaaa tgttgctatt3841 ttcaaaaacc tacaaaggtg gtatgcagag gaaaaggtac ttctttgtgt tcccaaagaa3901 aacatctttc caaaatccag cctattgatt ttatttcttc gggggaacaa gaattttagt 398661 atctctaagt tgggtagcat tctactcttg gcagttgctg gaaagaaggc actggtctag4021 gtcctgggct tcacaggtaa cacctgtcag ggtgtctatg aagtcaaggc tgtctgagga acagcaaagt gggaagaagc aagctggctg gctgatgaag ggtttcttgg gtggacaagt4141 agttggagcg atttcctatt taccaaagag agctaaagtt cataattcta cagagagttc4201 cataatgaac ctcaaatacc tctgtttttt gaaggagttt ctcatataca gcactagctg4261 actatcctgg gcaggatggg agataatgaa tgcagtgcca atcgggctgg atttatatgg4321 tcctagtgag gctggtcaag aaccgagtta gaactctcac agagtcactg cccacagaag4381 aaatctccca agtggctgtt tcctgacatt cccgggaggc aggcctcctt ctgagtcact4441 ccctaagcag ttctgaactg tgaggtcagc caggctgtcc aagtgcactc cctgagccac4501 tggcagacac actcagcagc cagagctaga caggcaggtg gtaggagtcc agggccacgg4561 cagggatgga gtgtcgcccc ctcgctgcga taccagagca agtaaaacgt taaggccttg4621 cactaaagct gcccttagga tgcattcttt taaagttttt ccatttaatg cagactcttt4681 tcaattctta ttttatcctt gtttccttta gaaagtcctt tgaaaaatat ctttagaggg4741 ttttttccta tactatgtgg ccatatacgg gtcaaaatta agtttaattt ccaggctcca4801 agccagcgtt tcagaaaaat ctcaccaagg tttgtggtaa aagaagcaaa gggctgactt4861 tttggttttc ttgaatctca ctgttccctc tgcagcagca tgcatgtctg cccacctcca4921 gacacacagg caccatctgc cgccccccat cagcccgtgt cccttccacc tcgactcgcc4981 tacaaagccc agagaggtct gtttcttggc ccccagagcc caaagatact gacacactct5041 tacatttcca actagaatca ggaacgagga gtgactctca gtcagttcat taagtaaatg5101 tctttctaac cgctctgccc atgggacatc acgccccaca ggggaaaggg gaagcttctg5161 51 5161 tagcctggga ttctggtgcc tcagtctggg tctagacttt cctgaaaaaa cgttaaaata5221 tgaactgcat tcctagaatt tagcctacat aaataagaga tgaacacaaa gatttctata5281 829 5281 gtttactcac tgccgcttat ttacagaagc aaaaatctgc cacgataggg gcctgacaaa5341 tgacagtacc actgtgcaat gcgtttctac gcagctctca atcccatgtt ctctaatacc5401 accgaaggct taggaaatgc ttatggtata tgtaaagagt aaagaagtta caaacagtat5461 caacagttga cccctatttt aaaaagtatt tttgaaaagt gtgacgatat ttaccaaaat5521 attaacgagc aatagttacc tctggctggt gggatgagtg aatgtatttt tgttgaatat5581 atgttacctt tatagtaaat atatgttatc ttgatcatca gaaaaaaaaa tatgtaagaa5641 cttgaaagct gcttggacag cgctgctgat agaaacccct gagcatcttg tcactgttct5701 tctgattcag agggtctggg tggggcaggg gtggtctgag attctgtatt tctaagaagc5761 tcccagtgat gtccatgctg ctgtccatgg accacacttt gagtatcaag ggaccagagc5821 atgtcggggg agaggctggg gatagctttc tttatctgaa ctggataaag gaactgggct5881 caagctaaga accctctcca ggttctgcat ctttgttctt cagtgaaaaa tgagaggaca5941 caccaggcca ggttcagact gagacacaat ccctctcctg ggttcccaat gacttgtctc6001 ttgtccattc ccttctctaa ggctaagggc cccccaggaa gagccatgtg gccagaccct6061 cacagttgct ggcattccaa ggagattctc actccgcatc attggtccaa aaggcccctt6121 acagaagctc tgcccaaggc tcagatcaat ggcacctgct cccagagctc ctctgatctc6181 5731 6241 tcctcacttg ggccatgtgc tgctctcctc tcccatgggg agagccacac ggagagtgct6301 ggccaaagca gcagagttca ggccaaagga tgtgcactca tttattcaac aggcatgcag6361 gatttccagg gaaagctgga ttttaaaacc tctgggaaca agagcagaac ctgactgaga6421 gctcatgtgg gcacttttca tagcagaata gctcatgagg tatagagaca cggacgcaga acgtgggctg tagcgacaga tggtcctgca ttctagtccc cactgtgcct tttcctcatg6541 666601 66 ttctggggag aaggctgctg cgtttgcaat tgggagaggt tgttgacaga ggtttatgtc6661 826721 cacctccatt tgtcctcctg gaaagaagaa atcaagagga aaaatctctc tcccatcctc6781 caaatggagc tggcacattg ctatctgtgg catttgtctt tccagaacac aactgagaag6841 gaaaccttct gcagggctgc gactgtgctc cggcagttct acagccacca tgagaaggac6901 actcgctgcc tgggtgcgac tgcacagcag ttccacaggc acaagcagct gatccgattc6961 ctgaaacggc tcgacaggaa cctctggggc ctggcgggct tggtaagctg cactgtattc7021 ctggcaagcc ggccgcgtgg ctcctggtgg acagcagcct cacttctaaa cactccttag7081 gagctgcagc acccttggtc aacccattca ttcattcact cattcaataa gtatttgctg7141 aagttccaca agtgctgggt gtggttctag gtgctgagga cgtgtcacta aagacagcag7201 gccgagtccc tgttctcatg gaatgttcta atgggagagt tagaaaaaca aacatgtaaa7261 atgatggcca gcagtgatac gtgctacaaa gaaaaacata gaaataaaga acataagagt7321 catgggggag ggggctgact taggagctgg tgacattatc tgagcagata tttgaattga7381 gggagcaggc cacatgacta actagggaga ccattccagg gagaaggagg aggtatgcaa7441 aggccttagg atggaaatga actaacttcc tgtatttaaa gaccagtagg aaggccagtg7501 tggctggatc agagtgagtg aggggtagtt tccaggacag cagatcacac aaggccttta7561 gattccacca cgagtatgga gggaacacct gcagagcttt gggcaggaca aagactgtac7621 aatctgattt acgtgattta aaagggtcag tctggctact gtgtggtaaa taggctgaaa7681 gggggaaagc atagaagcaa gatggcctgt tgggaggcta ccacagtaaa ccaggctaga7741 gatgatggtg gcgtggacag aatgaagcaa gatggcctgt tgggaggcta ccacagtaaa7801 ccaggctaga gatgatggtg gcgtggacag aatgaagcaa gatggcctgt tgggaggcta7861 ccacagtaaa ccaggctaga gatgatggtg gcgtggacaa atggagcagt tgaggtgaac7921 agatttggga tatgactaaa aataaaacca gaagatttgc tgacagatcg gttgtagggg7981 gtaagataca ggggaggaaa agatgacctc tttgttcctg cccaaacccc tctggcgatg8041 gtcagtactg tttacagaga gatgaaagac tggcggcaag gcagggctgg aggttcagca8101 gaagatcaag agttcaattt tgtacatcgt acatgtaagg tggctcttgg atagccaagt 8461 8253 8221 atacaaaaag gagagtcctt agatagatac tgctgaaaat ctgaatgaca gaaagggaga8281 gatcaaagga ctgagcctga gatcaacaca tggaggtcag gagaggagga tccagccaag8341 gggcctgagg aggagtgacc agtgaggcag gagaacatgg agagtgggcg gtaccccagg 8458 aagccggtga ggacactcaa ggagggaggg ttgactgtgt caaatgtact gaaaggacag gtcaggtgag gaccaagaaa ggcccctggg tttggctgat ggaggccatg ggtgaggctg8521 atgtaaatgg agaggcagga aggaaagccc agctggagtg ggctcaccga ggatagggtg8581 gcgagaggag acaaagaagg aacagtgagg gcagacaact ctttgaagat gtttagcgat8641 aaggctgcag agaaactgag cccacagctg cagggtggtt atggagtgag ggaagctctt8701 ttaaggttgg gggtataccc agcatgttaa tgcacctggg ggaatggtcc agtggagcag8761 gaagaactga agagagcaga aagaggaaga atcattaggg ggcagaagtc cttgtagccc8821 agagtggatg ttatctaata tcgagtggag gaattaattg gctttagagg agaacaagga8881 catgtatccc ctctctgggc ctatcacctt gtagacaatg ggataggtca tgggatagga8941 acttggcaca acacatgttc tctcttttaa ttctctccat tatcttatga agcaggcaag9001 taggcaaaca attgtcccaa ctttacaaaa gaaactgaag cttttataaa ttaagtagta9061 catcctaagc aatacaatta ataaatggta gagctgagat tcaaactgaa gcagtggcct9121 gggggtagca tctggaatcc ttcccacctt tagggctgct gtgctgcggt gctgctgttt9181 aatggcacag agggccagat gactgaatct ctctcagcag tccaggcagt catgcagaag9241 gcccagtaga gcaccgggca ggtctgagcc agcatcttca agttccaccc tgtgagcaag9301 589361 gcagataggt aatggtatac agtaaccatt tctagaagtg taagtagtat gcacccaaaa9421 taggcaaaac ctgctggcct agtgatagag acaactccca gtcaggctag actggaggcc9481ttggttttat aagtgttcag gtgacaagtg ccacagtagg cttgatcaag tagacaggca9541 ggcaagacaa atgcttacca atgcaagcta atgaaatgtt tcttttgcag aattcctgtc9601 ctgtgaagga agccaaccag agtacgttgg aaaacttctt ggaaaggcta aagacgatca9661 tgagagagaa atattcaaag tgttcgagct gaatatttta atttatgagt ttttgatagc9721 tttatttttt aagtatttat atatttataa ctcatcataa aataaagtat atatagaatc9781 taacagcaat ggcatttaat gtattggcta tgtttacttg acaaatgaaa ttatggtttg9841 caacttttag ggaaatcaat ttagtttacc aagagactat aaatgctatg gagccaaaac (2) SEQ ID NO: 2543 data: (i) sequence characteristics:

(A) length: 10514 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2543 sequence description: 1 gatcgttagc ttctcctgat aaactaattg cctcacattg tcactgcaaa tcgacaccta 61 ttaatgggtc tcacctccca actgcttccc cctctgttct tcctgctagc atgtgccggc 121 aactttgtcc acggacacaa gtgcgatatc accttacagg agatcatcaa aactttgaac 181 agcctcacag agcagaagac tctgtgcacc gagttgaccg taacagacat ctttgctgcc 241 tccaagaaca caactgagaa ggaaaccttc tgcagggctg cgactgtgct ccggcagttc 301 tacagccacc atgagaagga cactcgctgc ctgggtgcga ctgcacagca gttccacagg 361 cacaagcagc tgatccgatt cctgaaacgg ctcgacagga acctctgggg cctggcgggc 421 ttgaattcct gtcctgtgaa ggaagccaac cagagtacgt tggaaaactt cttggaaagg 481 ctaaagacga tcatgagaga gaaatattca aagtgttcga gctgaatatt ttaatttatg 541 agtttttgat agctttattt tttaagtatt tatatattta taactcatca taaaataaag 601 tatatataga atct1 gaattcaata aaaaacaagc agggcgcgtg gtggggcact gactaggagg gctgatttgt 61 aagttggtaa gactgtagct ctttttccta attagctgag gatgtgttta ggttccattc 121 aaaaagtggg cattcctggc caggcatggt ggctcacacc tgtaatctca gagctttggg 181 agactgaggt aggaggatca cttgagccca ggaatttgag atgagcctag gcaacatagt 241 gagactctta tctctatcaa aaaataaaaa taaaaatgag ccaggcatgg tgcggtggac 301 cacgcaccta ctgctagggg ggctgaggtg ggaggatcat tgagcctggg aggttgaggc 361 tgcagtgatc cctgatcaaa cattgcattt cagcctgggt gacagagtga gaccctgtct 421 cagaaaaaaa aaaaaaaagt cattcctgaa acctcagaat agacctacct tgccaagggc 481 ttccttatgg gtaaggacct tatggacctg ctgggaccca aactaggcct cacctgatac 541 gacctgtcct tctcaaaaca ctaaacttgg gagaacattg tcccccagtg ctggggtagg 601 agagtctgcc tgttattctg cctctatgca gagaaggagc cccagatcat cttttccatg 661 acaggacagt ttccaagatg ccacctgtac ttggaagaag ccaggttaaa atacttttca 721 agtaaaactt tcttgatatt actctatctt tccccaggag gactgcatta caacaaattc 781 ggacacctgt ggcctctccc ttctatgcaa agcaaaaagc cagcagcagc cccaagctga 841 taagattaat ctaaagagca aattatggtg taatttccta tgctgaaact ttgtagttaa 901 ttttttaaaa aggtttcatt ttcctattgg tctgatttca caggaacatt ttacctgttt 961 gtgaggcatt ttttctcctg gaagagaggt gctgattggc cccaagtgac tgacaatctg1021 gtgtaacgaa aatttccaat gtaaactcat tttccctcgg tttcagcaat tttaaatcta1081 tatatagaga tatctttgtc agcattgcat cgttagcttc tcctgataaa ctaattgcct1141 cacattgtca ctgcaaatcg acacctatta atgggtctca cctcccaact gcttccccct1201 ctgttcttcc tgctagcatg tgccggcaac tttgtccacg gacacaagtg cgatatcacc1261 ttacaggaga tcatcaaaac tttgaacagc ctcacagagc agaaggtgag tacctatctg1321 gcaccatctc tccagatgtt ctggtgatgc tctcagtatt tctaggcatg aaaacgttaa1381 cagctgctag agaagttgga actggtggtt ggtggcagtc cagggcacac agcgaggctt1441 ctccctgcca ctcttttttc tgagggtttg taggaagttt cctcagttgg agggagtgag1501 agctgctcat caaggacttc tctgtccggt tggaggttaa ctctgtctct tgctctctca1561 tttctgcctg gaccaagact ctgtgcaccg agttgaccgt aacagacatc tttgctgcct1621 ccaaggtaag aagccgtccc acggtctgtt ttagcaaatg gggagatcca tccccaaatg1681 tctgaacaag aaacttgtct aatggaaaac gagcgggccc aaattaactc taaggtgtta1741 539 1741 gatgttttca aagaacgaga agtctgatct ttactcttaa gcatgttttg gtctttctgg1801 tttcacttga tttagaagac atgtaataga aagcttacat gctgtagtcc tgactcagat1861 cctggtcaaa gaaaagccct cttgggtttt acttagcttt ggcatagtgc ctggaacgta1921 ggaggcactc aataaatgcc tgttgaatga gagaattttt ctggcccata catttctgaa1981 aaaccaaata ctctcacaga aacagatatt gagatgacag gttgagggag ctttcatttt2041 gtctaagaga cttcctatgg caacagaaaa ggtatcgcca gagcccctcc tcttccacag2101 cctggccacc taacagccct ctggttccgg ggctgccgtc cagagctctc agcttgctct2161 ggccggccga actcccctcc agctcggtct ggaaccatcc tgctgggcag cgtccagcac2221 2229 2281 acccctctat ctgtagtggg agggagatag atttgacagc tgatagtgca ttttctctga2341 caaacacatg actacagccg tatcaatagt tttgtgcatt tcagttcctg ttttcatgga2401 aacacacggc tgagaatgaa agccccaaag cctcaatttc acagtggtct cctaactacc2461 tgctttccat gcaaactagg gagatgatat ggccaggagt gaagccctgt gtgttgggca2521 gggtcacact ccagcaccca gaccatagaa cagggcccat cctgcttcat gagggaaact2581 gctcttcggg cctttagctg gactatctca tttcattagt tatcccggga gtccgataca2641 ggatgagatt ctgaagggca aatacacact tttttttttt ttttgagata gggtcttgtt2701 ctgtcaccca ggctggagtg cagtggtgcg atttcagctc atagcagcct ccacctccca2761 ggctcaagct atcttcctac ctcagcctcc caagtagccg ggacgacagg tgtgcaccac2821 cacgcctggc taatttttgt atttttttgt agagatggag tcttgccatt ttgcccaggc2881 ttgtctcgaa cttctgggct caagcaatcc gtccacctcg gcctctcaaa gtgctgggat2941 tagccactgc acctgggcaa cagtttatgt gtgtgtgtgt gtgtgtgtgt atatatgtgt3001 gtgtgtgtat atatatgtgt gtatgtatat atgtgtatgt atatgtgtgt gtgtgtgtgt3061 gtgtgtgtgt gtgtataaaa tctccaagtc catccaaccg agatggctcc tactagaagc3121 caagagtcca ccgggttgag cactgggtct ctggaggcct gtcggactgc tgagaaggct3181 ctaacaaagc caagggaagg gccacctcac tagaagccag gcctggagga agggtgaggg32 ctgagggctg gaggtaagac tgcctgtggt tttagaccca ggctctgcca ctgactagct 861 330 gtgtggctgg ccttcagaca tcttcacagc tctctgcacc tcagtttcca catgtgaaga33 tatgaaagtg attctgaagg tgattgcaag gttgattgga atccagctct tgagttagtg3421 caaagtgtta ttgtgagatg atataaccac gattaaaagc aagaacaggt gcagagaagc3481 gatgattcta agaaggaggg gaccgggttg gaaaggatca aaccatccag gatgccgagt3541 ctggggcaat ccatctgggc tgtttctgga agacccccgg gtgcaggcca ggacactgct3601 gccctcccgt ccttaactcc cctcttcact cagtcctcac tcacctccct ctcacacaca3661 caaacatctc ctagaataat ccccactgcc tgccttcact cttacccgtc tcatttgcct3721 cccctgaact tcatcctcct ggagttcacg atctcactct tcactctttt cttcccctcg3781 aagattcagc actgcttact tacatgttaa gatatttcag aacagtgaaa tgttgctatt3841 ttcaaaaacc tacaaaggtg gtatgcagag gaaaaggtac ttctttgtgt tcccaaagaa3901 aacatctttc caaaatccag cctattgatt ttatttcttc gggggaacaa gaattttagt3961 atctctaagt tgggtagcat tctactcttg gcagttgctg gaaagaaggc actggtctag4021 gtcctgggct tcacaggtaa cacctgtcag ggtgtctatg aagtcaaggc tgtctgagga4081 acagcaaagt gggaagaagc aagctggctg gctgatgaag ggtttcttgg gtggacaagt4141 agttggagcg atttcctatt taccaaagag agctaaagtt cataattcta cagagagttc4201 cataatgaac ctcaaatacc tctgtttttt gaaggagttt ctcatataca gcactagctg4261 actatcctgg gcaggatggg agataatgaa tgcagtgcca atcgggctgg atttatatgg4321 tcctagtgag gctggtcaag aaccgagtta gaactctcac agagtcactg cccacagaag4381 aaatctccca agtggctgtt tcctgacatt cccgggaggc aggcctcctt ctgagtcact4441 ccctaagcag ttctgaactg tgaggtcagc caggctgtcc aagtgcactc cctgagccac4501 tggcagacac actcagcagc cagagctaga caggcaggtg gtaggagtcc agggccacgg4561 cagggatgga gtgtcgcccc ctcgctgcga taccagagca agtaaaacgt taaggccttg4621 cactaaagct gcccttagga tgcattcttt taaagttttt ccatttaatg cagactcttt4681 tcaattctta ttttatcctt gtttccttta gaaagtcctt tgaaaaatat ctttagaggg4741 ttttttccta tactatgtgg ccatatacgg gtcaaaatta agtttaattt ccaggctcca4801 48 4801 agccagcgtt tcagaaaaat ctcaccaagg tttgtggtaa aagaagcaaa gggctgactt4861 tttggttttc ttgaatctca ctgttccctc tgcagcagca tgcatgtctg cccacctcca4921 gacacacagg caccatctgc cgccccccat cagcccgtgt cccttccacc tcgactcgcc 496 4981 tacaaagccc agagaggtct gtttcttggc ccccagagcc caaagatact gacacactct5041 tacatttcca actagaatca ggaacgagga gtgactctca gtcagttcat taagtaaatg5101 tctttctaac cgctctgccc atgggacatc acgccccaca ggggaaaggg gaagcttctg5161 tagcctggga ttctggtgcc tcagtctggg tctagacttt cctgaaaaaa cgttaaaata5221 tgaactgcat tcctagaatt tagcctacat aaataagaga tgaacacaaa gatttctata5281 gtttactcac tgccgcttat ttacagaagc aaaaatctgc cacgataggg gcctgacaaa5341 tgacagtacc actgtgcaat gcgtttctac gcagctctca atcccatgtt ctctaatacc5401 accgaaggct taggaaatgc ttatggtata tgtaaagagt aaagaagtta caaacagtat5461 caacagttga cccctatttt aaaaagtatt tttgaaaagt gtgacgatat ttaccaaaat5521 attaacgagc aatagttacc tctggctggt gggatgagtg aatgtatttt tgttgaatat5581 atgttacctt tatagtaaat atatgttatc ttgatcatca gaaaaaaaaa tatgtaagaa5641 cttgaaagct gcttggacag cgctgctgat agaaacccct gagcatcttg tcactgttct5701 tctgattcag agggtctggg tggggcaggg gtggtctgag attctgtatt tctaagaagc5761 tcccagtgat gtccatgctg ctgtccatgg accacacttt gagtatcaag ggaccagagc5821 atgtcggggg agaggctggg gatagctttc tttatctgaa ctggataaag gaactgggct5881 caagctaaga accctctcca ggttctgcat ctttgttctt cagtgaaaaa tgagaggaca5941 caccaggcca ggttcagact gagacacaat ccctctcctg ggttcccaat gacttgtctc6001 ttgtccattc ccttctctaa ggctaagggc cccccaggaa gagccatgtg gccagaccct6061 cacagttgct ggcattccaa ggagattctc actccgcatc attggtccaa aaggcccctt 618621 acagaagctc tgcccaaggc tcagatcaat ggcacctgct cccagagctc ctctgatctc6181 ccaggacacc tttccctgat ctgtgcactt atctcttgct gcctggcaaa atgtcttagc tcctcacttg ggccatgtgc tgctctcctc tcccatgggg agagccacac ggagagtgct6301 ggccaaagca gcagagttca ggccaaagga tgtgcactca tttattcaac aggcatgcag6361 gatttccagg gaaagctgga ttttaaaacc tctgggaaca agagcagaac ctgactgaga6421 gctcatgtgg gcacttttca tagcagaata gctcatgagg tatagagaca cggacgcaga acgtgggctg tagcgacaga tggtcctgca ttctagtccc cactgtgcct tttcctcatg6541 6601 6684 6661 tgtggcaagc agccttcctt cagtggaata cttgaagaca ggtctgtagt tgagcaaact6721 cacctccatt tgtcctcctg gaaagaagaa atcaagagga aaaatctctc tcccatcctc6781 caaatggagc tggcacattg ctatctgtgg catttgtctt tccagaacac aactgagaag6841 gaaaccttct gcagggctgc gactgtgctc cggcagttct acagccacca tgagaaggac6901 actcgctgcc tgggtgcgac tgcacagcag ttccacaggc acaagcagct gatccgattc 6963 7021 ctggcaagcc ggccgcgtgg ctcctggtgg acagcagcct cacttctaaa cactccttag7081 gagctgcagc acccttggtc aacccattca ttcattcact cattcaataa gtatttgctg7141 aagttccaca agtgctgggt gtggttctag gtgctgagga cgtgtcacta aagacagcag7201 gccgagtccc tgttctcatg gaatgttcta atgggagagt tagaaaaaca aacatgtaaa7261 atgatggcca gcagtgatac gtgctacaaa gaaaaacata gaaataaaga acataagagt7321 catgggggag ggggctgact taggagctgg tgacattatc tgagcagata tttgaattga7381 gggagcaggc cacatgacta actagggaga ccattccagg gagaaggagg aggtatgcaa7441 aggccttagg atggaaatga actaacttcc tgtatttaaa gaccagtagg aaggccagtg7501 867527 gattccacca cgagtatgga gggaacacct gcagagcttt gggcaggaca aagactgtac 8621 7621 aatctgattt acgtgattta aaagggtcag tctggctact gtgtggtaaa taggctgaaa7681 gggggaaagc atagaagcaa gatggcctgt tgggaggcta ccacagtaaa ccaggctaga7741 gatgatggtg gcgtggacag aatgaagcaa gatggcctgt tgggaggcta ccacagtaaa7801 ccaggctaga gatgatggtg gcgtggacag aatgaagcaa gatggcctgt tgggaggcta7861 ccacagtaaa ccaggctaga gatgatggtg gcgtggacaa atggagcagt tgaggtgaac7921 agatttggga tatgactaaa aataaaacca gaagatttgc tgacagatcg gttgtagggg7981 gtaagataca ggggaggaaa agatgacctc tttgttcctg cccaaacccc tctggcgatg8041 gtcagtactg tttacagaga gatgaaagac tggcggcaag gcagggctgg aggttcagca8101 gaagatcaag agttcaattt tgtacatcgt acatgtaagg tggctcttgg atagccaagt8161 gaaggtgttg agaagatggt tagaaaagtc tggaacttag gggagaggtc agaacttgca8221 atacaaaaag gagagtcctt agatagatac tgctgaaaat ctgaatgaca gaaagggaga8281 gatcaaagga ctgagcctga gatcaacaca tggaggtcag gagaggagga tccagccaag8341 gggcctgagg aggagtgacc agtgaggcag gagaacatgg agagtgggcg gtaccccagg8401 aagccggtga ggacactcaa ggagggaggg ttgactgtgt caaatgtact gaaaggacag8461 gtcaggtgag gaccaagaaa ggcccctggg tttggctgat ggaggccatg ggtgaggctg8521 atgtaaatgg agaggcagga aggaaagccc agctggagtg ggctcaccga ggatagggtg8581 gcgagaggag acaaagaagg aacagtgagg gcagacaact ctttgaagat gtttagctat8641 aaggctgcag agaaactgag cccacagctg cagggtggtt atggagtgag ggaagctctt8701 ttaaggttgg gggtataccc agcatgttaa tgcacctggg ggaatggtcc agtggagcag8761 gaagaactga agagagcaga aagaggaaga atcattaggg ggcagaagtc cttgtagccc8821 agagtggatg ttatctaata tcgagtggag gaattaattg gctttagagg agaacaagga8881 catgtatccc ctctctgggc ctatcacctt gtagacaatg ggataggtca tgggatagga8941 acttggcaca acacatgttc tctcttttaa ttctctccat tatcttatga agcaggcaag9001 taggcaaaca attgtcccaa ctttacaaaa gaaactgaag cttttataaa ttaagtagta9061 catcctaagc aatacaatta ataaatggta gagctgagat tcaaactgaa gcagtggcct9121 gggggtagca tctggaatcc ttcccacctt tagggctgct gtgctgcggt gctgctgttt9181 aatggcacag agggccagat gactgaatct ctctcagcag tccaggcagt catgcagaag9241 gcccagtaga gcaccgggca ggtctgagcc agcatcttca agttccaccc tgtgagcaag9301 cacttagctg tgacacactt ctcgagagac tggactcccc cccgcgcaac ccacccaaaa9361 gcagataggt aatggtatacagtaaccatt tctagaagtg taagtagtat gcacccaaaa9421 taggcaaaac ctgctggcct agtgatagag acaactccca gtcaggctag actggaggcc9481 ttggttttat aagtgttcag gtgacaagtg ccacagtagg cttgatcaag tagacaggca9541 ggcaagacaa atgcttacca atgcaagcta atgaaatgtt tcttttgcag aattcctgtc9601 ctgtgaagga agccaaccag agtacgttgg aaaacttctt ggaaaggcta aagacgatca9661 tgagagagaa atattcaaag tgttcgagct gaatatttta atttatgagt ttttgatagc9721 tttatttttt aagtatttat atatttataa ctcatcataa aataaagtat atatagaatc9781 taacagcaat ggcatttaat gtattggcta tgtttacttg acaaatgaaa ttatggtttg9841 caacttttag ggaaatcaat ttagtttacc aagagactat aaatgctatg gagccaaaac (2) SEQ ID NO: 2544 data: (i) sequence characteristics:

(A) length: 3597 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2544 sequence description: 1 ggcgaatgga gcaggggcgc gcagataatt aaagatttac acacagctgg aagaaatcat 61 agagaagccg ggcgtggtgg ctcatgccta taatcccagc acttttggag gctgaggcgg 121 gcagatcact tgagatcagg agttcgagac cagcctggtg ccttggcatc tcccaatggg 181 721 ctccctccgc atcgcagcca gcaccctgaa gtctgggatt tcctacaggg cacgggtgag 781 181 gtggctttgc tctgggctcc tgttccctgt gagctgcctg gtcctgctgc aggtggcaag 241 ctctgggaac atgaaggtct tgcaggagcc cacctgcgtc tccgactaca tgagcatctc 301 tacttgcgag tggaagatga atggtcccac caattgcagc accgagctcc gcctgttgta 361 ccagctggtt tttctgctct ccgaagccca cacgtgtatc cctgagaaca acggaggcgc 421 ggggtgcgtg tgccacctgc tcatggatga cgtggtcagt gcggataact atacactgga 481 cctgtgggct gggcagcagc tgctgtggaa gggctccttc aagcccagcg agcatgtgaa 541 acccagggcc ccaggaaacc tgacagttca caccaatgtc tccgacactc tgctgctgac 601 ctggagcaac ccgtatcccc ctgacaatta cctgtataat catctcacct atgcagtcaa 661 catttggagt gaaaacgacc cggcagattt cagaatctat aacgtgacct acctagaacc 721 ctccctccgc atcgcagcca gcaccctgaa gtctgggatt tcctacaggg cacgggtgag 781 ggcctgggct cagtgctata acaccacctg gagtgagtgg agccccagca ccaagtggca 841 caactcctac agggagccct tcgagcagca cctcctgctg ggcgtcagcg tttcctgcat 901 tgtcatcctg gccgtctgcc tgttgtgcta tgtcagcatc accaagatta agaaagaatg 961 gtgggatcag attcccaacc cagcccgcag ccgcctcgtg gctataataa tccaggatgc1021 tcaggggtca cagtgggaga agcggtcccg aggccaggaa ccagccaagt gcccacactg1081 gaagaattgt cttaccaagc tcttgccctg ttttctggag cacaacatga aaagggatga1141 agatcctcac aaggctgcca aagagatgcc tttccagggc tctggaaaat cagcatggtg1201 cccagtggag atcagcaaga cagtcctctg gccagagagc atcagcgtgg tgcgatgtgt1261 ggagttgttt gaggccccgg tggagtgtga ggaggaggag gaggtagagg aagaaaaagg1321 gagcttctgt gcatcgcctg agagcagcag ggatgacttc caggagggaa gggagggcat1381 tgtggcccgg ctaacagaga gcctgttcct ggacctgctc ggagaggaga atgggggctt1441 ttgccagcag gacatggggg agtcatgcct tcttccacct tcgggaagta cgagtgctca1501 catgccctgg gatgagttcc caagtgcagg gcccaaggag gcacctccct ggggcaagga1561 gcagcctctc cacctggagc caagtcctcc tgccagcccg acccagagtc cagacaacct1621 gacttgcaca gagacgcccc tcgtcatcgc aggcaaccct gcttaccgca gcttcagcaa1681 ctccctgagc cagtcaccgt gtcccagaga gctgggtcca gacccactgc tggccagaca1741 cctggaggaa gtagaacccg agatgccctg tgtcccccag ctctctgagc caaccactgt1801 gccccaacct gagccagaaa cctgggagca gatcctccgc cgaaatgtcc tccagcatgg1861 ggcagctgca gcccccgtct cggcccccac cagtggctat caggagtttg tacatgcggt1921 ggagcagggt ggcacccagg ccagtgcggt ggtgggcttg ggtcccccag gagaggctgg1981 ttacaaggcc ttctcaagcc tgcttgccag cagtgctgtg tccccagaga aatgtgggtt2041 tggggctagc agtggggaag aggggtataa gcctttccaa gacctcattc ctggctgccc2101 tggggaccct gccccagtcc ctgtcccctt gttcaccttt ggactggaca gggagccacc2161 tcgcagtccg cagagctcac atctcccaag cagctcccca gagcacctgg gtctggagcc2221 gggggaaaag gtagaggaca tgccaaagcc cccacttccc caggagcagg ccacagaccc2281 ccttgtggac agcctgggca gtggcattgt ctactcagcc cttacctgcc acctgtgcgg2341 ccacctgaaa cagtgtcatg gccaggagga tggtggccag acccctgtca tggccagtcc2401 ttgctgtggc tgctgctgtg gagacaggtc ctcgccccct acaacccccc tgagggcccc2461 agacccctct ccaggtgggg ttccactgga ggccagtctg tgtccggcct ccctggcacc2521 ctcgggcatc tcagagaaga gtaaatcctc atcatccttc catcctgccc ctggcaatgc2581 tcagagctca agccagacccccaaaatcgt gaactttgtc tccgtgggac ccacatacat2641 gagggtctct taggtgcatg tcctcttgtt gctgagtctg cagatgagga ctagggctta2701 tccatgcctg ggaaatgcca cctcctggaa ggcagccagg ctggcagatt tccaaaagac2761 ttgaagaacc atggtatgaa ggtgattggc cccactgacg ttggcctaac actgggctgc2821 agagactgga ccccgcccag cattgggctg ggctcgccac atcccatgag agtagagggc2881 actgggtcgc cgtgccccac ggcaggcccc tgcaggaaaa ctgaggccct tgggcacctc2941 gacttgtgaa cgagttgttg gctgctccct ccacagcttc tgcagcagac tgtccctgtt3001 gtaactgccc aaggcatgtt ttgcccacca gatcatggcc cacgtggagg cccacctgcc3061 tctgtctcac tgaactagaa gccgagccta gaaactaaca cagccatcaa gggaatgact3121 tgggcggcct tgggaaatcg atgagaaatt gaacttcagg gagggtggtc attgcctaga3181 ggtgctcatt catttaacag agcttcctta ggttgatgct ggaggcagaa tcccggctgt3241 caaggggtgt tcagttaagg ggagcaacag aggacatgaa aaattgctat gactaaagca3301 gggacaattt gctgccaaac acccatgccc agctgtatgg ctgggggctc ctcgtatgca3361 tggaaccccc agaataaata tgctcagcca ccctgtgggc cgggcaatcc agacagcagg3421 cataaggcac cagttaccct gcatgttggc ccagacctca ggtgctaggg aaggcgggaa3481 ccttgggttg agtaatgctc gtctgtgtgt tttagtttca tcacctgtta tctgtgtttg3541 ctgaggagag tggaacagaa ggggtggagt tttgtataaa taaagtttct ttgtctc (2) SEQ ID NO: 2545 data: (i) sequence characteristics:

(A) length: 3241 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2545 sequence description: 1 ggatcctaat caagacccca gtgaacagaa ctcgaccctg ccaaggcttg gcagtttcca 61 tttcaatcac tgtcttccca ccagtatttt caatttcttt taagacagat taatctagcc 121 acagtcatag tagaacatag ccgatctgaa aaaaacattc ccaatattta tgtattttag 181 721 tctgtaaagt gcataggtaa tcatttgtga tggttccttt actatatata gagatctgtt 781 181 cataaaattc tgtttagtgg tctaccttat actttgtttt gcacacatct tttaagagga 241 agttaatttt ctgattttaa gaaatgcaaa tgtggggcaa tgatgtatta acccaaagat 301 tcttcgtaat agaaaatgtt tttaaagggg ggaaacaggg atttttatta ttaaaagata 361 aaagtaaatt tattttttaa gatataaggc attggaaaca tttagtttca cgatatgcca 421 ttattaggca ttctctatct gattgttaga aattattcat ttcctcaaag acagacaata 481 aattgactgg ggacgcagtc ttgtactatg cactttcttt gccaaaggca aacgcagaac 541 gtttcagagc catgaggatg cttctgcatt tgagtttgct agctcttgga gctgcctacg 601 tgtatgccat ccccacagaa attcccacaa gtgcattggt gaaagagacc ttggcactgc 661 tttctactca tcgaactctg ctgatagcca atgaggtaat tttctttatg attcctacag 721 tctgtaaagt gcataggtaa tcatttgtga tggttccttt actatatata gagatctgtt 781 ataaataata agattctgag cacattagta catgggtgat aactacatca ccagcaaaca 841 ttctgttaaa agttatgaat gctggtgtgc tgtaaaaatg attgtatttc ctttcctctc 901 cagactctga ggattcctgt tcctgtacat aaaaatgtaa gttaaattat gattcagtaa 961 aatgatggca tgaataagta aatttcctgt tttaagctgt aaatcattag ttatcattgg1021 aactatttaa ttttctatat tttgttttca tatgggtggc tgtgaatgtc tgtacttata1081 aatatgagga atgacttttt atcaagtaga atcctttaaa caagtggatt aggctctttg1141 gtgatgttgt tagtttgcct cccaaagagc atcgtgtcag ggattctttc cagaaggatt1201 ccacactgag tgagaggtgc gtgctagtct ccgtgcagtt ctgactcttt ctcactctaa1261 cgtgtttctg aaagtattag caactcagaa ttatattttt agaaccatga tcagtagaca1321 ttaaaatata taacaaatgc cctatattaa taatttctgc atacttaaat aattatgact1381 atatgatggt gttgtatgca tttgaatatg tcctggtcat attaaaatgt aaaatatata1441 gttttattag tctaaataga ataaaactac cagctagaac tgtagaaaca cattgatatg1501 agtttaatgt ataatgcatt acacttccaa aacatttttt tccagttaca taattaagtt1561 atatccttta taaaactcct cagtaatcat ataagcttca tctacttttt gaaaatttta1621 tcttaatatg tggtggtttg ttgcctagaa aacaaacaaa aaactctttg gagaagggaa1681 ctcatgtaaa taccacaaaa caaagcctaa ctttgtggac caaaattgtt ttaataatta1741 ttttttaatt gatgaattaa aaagtatata tatttattgt gtacaatatg atgttttgaa1801 gtatgtatac attgcagaat ggacaatgga ccaaattttt ataccttgtc ttgattattt1861 gcattttaaa aattttcctc atttagcacc aactgtgcac tgaagaaatc tttcagggaa1921 taggcacact ggagagtcaa actgtgcaag ggggtactgt ggaaagacta ttcaaaaact1981 tgtccttaat aaagaaatac attgacggcc aaaaagtaag ttacacacat tcaatggaag2041 ctatatttgt ctggctgtgc ctatttctat ggaattgaca gtttcctgta atacctattg2101 tcatttttct tttttcacag aaaaagtgtg gagaagaaag acggagagta aaccaattcc2161 tagactacct gcaagagttt cttggtgtaa tgaacaccga gtggataata gaaagttgag2221 actaaactgg tttgttgcag ccaaagattt tggaggagaa ggacatttta ctgcagtgag2281 aatgagggcc aagaaagagt caggccttaa ttttcagtat aatttaactt cagagggaaa2341 gtaaatattt caggcatact gacactttgc cagaaagcat aaaattctta aaatatattt2401 cagatatcag aatcattgaa gtattttcct ccaggcaaaa ttgatatact tttttcttat2461 ttaacttaac attctgtaaa atgtctgtta acttaatagt atttatgaaa tggttaagaa2521 tttggtaaat tagtatttat ttaatgttat gttgtgttct aataaaacaa aaatagacaa2581 ctgttcaatt tgctgctggc ctctgtctta gcaattgaag ttagcacagt ccattgagta2641 catgcccagt ttggaggaag ggtctgagca catgtggctg agcatcccca tttctctgga2701 gaagtctcaa ggttgcaagg cacaccagag gtggaagtga tctagcagga cttagtgggg2761 27 2761 atgtggggag cagggacaca ggcaggaggt gaacctggtt ttctctctac agtatatcca2821 gaacctggga tggtgcaggg taaatggtag ggaataaatg aatgaatgtg ctttccaaga2881 ctgattgtag aactaaaatg agttgtaagg cgtcccctgg aagaagggca gtgtgggaac2941 ctgtaactag gttcctgccc agcctgtgag aagaatttgg cagatcaatc tcattgccag3001 tatagagagg aagccagaaa ccctctctgc caaggcctgc aggggttctt accccacctg3061 accctgcacc ataacaaaag gaacagagag acactggtag ggcagtccca ttagaaagac3121 tgagttccgt attcccgggg gcagggcagc accaggccgc acaacactcc attctgcctg3181 cttatggcta tcagtagcat cactagagat tcttctgttt gagaaaactt ctcaaggatc3241 c (2) SEQ ID NO: 2546 data: (i) sequence characteristics:

(A) length: 816 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2546 sequence description: 1 atgcactttc tttgccaaag gcaaacgcag aacgtttcag agccatgagg atgcttctgc 61 atttgagttt gctagctctt ggagctgcct acgtgtatgc catccccaca gaaattccca 121 caagtgcatt ggtgaaagag accttggcac tgctttctac tcatcgaact ctgctgatag 181 ccaatgagac tctgaggatt cctgttcctg tacataaaaa tcaccaactg tgcactgaag 241 aaatctttca gggaataggc acactggaga gtcaaactgt gcaagggggt actgtggaaa 301 gactattcaa aaacttgtcc ttaataaaga aatacattga cggccaaaaa aaaaagtgtg 361 gagaagaaag acggagagta aaccaattcc tagactacct gcaagagttt cttggtgtaa 421 tgaacaccga gtggataata gaaagttgag actaaactgg tttgttgcag ccaaagattt 481 tggaggagaa ggacatttta ctgcagtgag aatgagggcc aagaaagagt caggccttaa 541 ttttcaatat aatttaactt cagagggaaa gtaaatattt caggcatact gacactttgc 601 cagaaagcat aaaattctta aaatatattt cagatatcag aatcattgaa gtattttcct 661 ccaggcaaaa ttgatatact tttttcttat ttaacttaac attctgtaaa atgtctgtta 721 acttaatagt atttatgaaa tggttaagaa tttggtaaat tagtatttat ttaatgttat 781 gttgtgttct aataaaacaa aaatagacaa ctgttc (2) SEQ ID NO: 2547 data: (i) sequence characteristics:

(A) length: 4057 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2547 sequence description: 1 ggatcctaat caagacccca gtgaacagaa ctcgaccctg ccaaggcttg gcagtttcca 61 tttcaatcac tgtcttccca ccagtatttt caatttcttt taagacagat taatctagcc 121 acagtcatag tagaacatag ccgatctgaa aaaaacattc ccaatattta tgtattttag 181 721 tctgtaaagt gcataggtaa tcatttgtga tggttccttt actatatata gagatctgtt 781 181 cataaaattc tgtttagtgg tctaccttat actttgtttt gcacacatct tttaagagga 241 agttaatttt ctgattttaa gaaatgcaaa tgtggggcaa tgatgtatta acccaaagat 301 tcttcgtaat agaaaatgtt tttaaagggg ggaaacaggg atttttatta ttaaaagata 361 aaagtaaatt tattttttaa gatataaggc attggaaaca tttagtttca cgatatgcca 421 ttattaggca ttctctatct gattgttaga aattattcat ttcctcaaag acagacaata 481 aattgactgg ggacgcagtc ttgtactatg cactttcttt gccaaaggca aacgcagaac 541 gtttcagagc catgaggatg cttctgcatt tgagtttgct agctcttgga gctgcctacg 601 tgtatgccat ccccacagaa attcccacaa gtgcattggt gaaagagacc ttggcactgc 661 tttctactca tcgaactctg ctgatagcca atgaggtaat tttctttatg attcctacag 721 tctgtaaagt gcataggtaa tcatttgtga tggttccttt actatatata gagatctgtt 781 ataaataata agattctgag cacattagta catgggtgat aactacatca ccagcaaaca 841 ttctgttaaa agttatgaat gctggtgtgc tgtaaaaatg attgtatttc ctttcctctc 901 cagactctga ggattcctgt tcctgtacat aaaaatgtaa gttaaattat gattcagtaa 961 aatgatggca tgaataagta aatttcctgt tttaagctgt aaatcattag ttatcattgg1021 aactatttaa ttttctatat tttgttttca tatgggtggc tgtgaatgtc tgtacttata1081 aatatgagga atgacttttt atcaagtaga atcctttaaa caagtggatt aggctctttg1141 gtgatgttgt tagtttgcct cccaaagagc atcgtgtcag ggattctttc cagaaggatt1201 ccacactgag tgagaggtgc gtgctagtct ccgtgcagtt ctgactcttt ctcactctaa1261 cgtgtttctg aaagtattag caactcagaa ttatattttt agaaccatga tcagtagaca1321 ttaaaatata taacaaatgc cctatattaa taatttctgc atacttaaat aattatgact1381 atatgatggt gttgtatgca tttgaatatg tcctggtcat attaaaatgt aaaatatata1441 gttttattag tctaaataga ataaaactac cagctagaac tgtagaaaca cattgatatg1501 agtttaatgt ataatgcatt acacttccaa aacatttttt tccagttaca taattaagtt1561 atatccttta taaaactcct cagtaatcat ataagcttca tctacttttt gaaaatttta1621 tcttaatatg tggtggtttg ttgcctagaa aacaaacaaa aaactctttg gagaagggaa1681 ctcatgtaaa taccacaaaa caaagcctaa ctttgtggac caaaattgtt ttaataatta1741 ttttttaatt gatgaattaa aaagtatata tatttattgt gtacaatatg atgttttgaa1801 gtatgtatac attgcagaat ggacaatgga ccaaattttt ataccttgtc ttgattattt1861 gcattttaaa aattttcctc atttagcacc aactgtgcac tgaagaaatc tttcagggaa1921 taggcacact ggagagtcaa actgtgcaag ggggtactgt ggaaagacta ttcaaaaact1981 tgtccttaat aaagaaatac attgacggcc aaaaagtaag ttacacacat tcaatggaag2041 ctatatttgt ctggctgtgc ctatttctat ggaattgaca gtttcctgta atacctattg2101 tcatttttct tttttcacag aaaaagtgtg gagaagaaag acggagagta aaccaattcc2161 tagactacct gcaagagttt cttggtgtaa tgaacaccga gtggataata gaaagttgag2221 actaaactgg tttgttgcag ccaaagattt tggaggagaa ggacatttta ctgcagtgag2281 aatgagggcc aagaaagagt caggccttaa ttttcagtat aatttaactt cagagggaaa2341 gtaaatattt caggcatact gacactttgc cagaaagcat aaaattctta aaatatattt2401 cagatatcag aatcattgaa gtattttcct ccaggcaaaa ttgatatact tttttcttat2461 ttaacttaac attctgtaaa atgtctgtta acttaatagt atttatgaaa tggttaagaa2521 tttggtaaat tagtatttat ttaatgttat gttgtgttct aataaaacaa aaatagacaa2581 ctgttcaatt tgctgctggc ctctgtctta gcaattgaag ttagcacagt ccattgagta2641 catgcccagt ttggaggaag ggtctgagca catgtggctg agcatcccca tttctctgga2701 gaagtctcaa ggttgcaagg cacaccagag gtggaagtga tctagcagga cttagtgggg2761 atgtggggag cagggacaca ggcaggaggt gaacctggtt ttctctctac agtatatcca2821 gaacctggga tggtgcaggg taaatggtag ggaataaatg aatgaatgtg ctttccaaga2881 ctgattgtag aactaaaatg agttgtaagg cgtcccctgg aagaagggca gtgtgggaac2941 ctgtaactag gttcctgccc agcctgtgag aagaatttgg cagatcaatc tcattgccag3001 tatagagagg aagccagaaa ccctctctgc caaggcctgc aggggttctt accccacctg3061 accctgcacc ataacaaaag gaacagagag acactggtag ggcagtccca ttagaaagac3121 tgagttccgt attcccgggg gcagggcagc accaggccgc acaacactcc attctgcctg3181 cttatggcta tcagtagcat cactagagat tcttctgttt gagaaaactt ctcaaggatc3241 c1 atgcactttc tttgccaaag gcaaacgcag aacgtttcag agccatgagg atgcttctgc 61 atttgagttt gctagctctt ggagctgcct acgtgtatgc catccccaca gaaattccca 121 caagtgcatt ggtgaaagag accttggcac tgctttctac tcatcgaact ctgctgatag 181 ccaatgagac tctgaggatt cctgttcctg tacataaaaa tcaccaactg tgcactgaag 241 aaatctttca gggaataggc acactggaga gtcaaactgt gcaagggggt actgtggaaa 301 gactattcaa aaacttgtcc ttaataaaga aatacattga cggccaaaaa aaaaagtgtg 361 gagaagaaag acggagagta aaccaattcc tagactacct gcaagagttt cttggtgtaa 421 tgaacaccga gtggataata gaaagttgag actaaactgg tttgttgcag ccaaagattt 481 tggaggagaa ggacatttta ctgcagtgag aatgagggcc aagaaagagt caggccttaa 541 ttttcaatat aatttaactt cagagggaaa gtaaatattt caggcatact gacactttgc 601 cagaaagcat aaaattctta aaatatattt cagatatcag aatcattgaa gtattttcct 661 ccaggcaaaa ttgatatact tttttcttat ttaacttaac attctgtaaa atgtctgtta 721 acttaatagt atttatgaaa tggttaagaa tttggtaaat tagtatttat ttaatgttat 781 gttgtgttct aataaaacaa aaatagacaa ctgttc (2) SEQ ID NO: 2548 data: (i) sequence characteristics:

(A) length: 2024 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2548sequence description: 1 tagatgctgg ggttgcagcc acgagcatag acacgacaga cacggtcctc gccatcttct 61 gttgagtact ggtcggaaca agaggatcgt ctgtagacag gatatgatca tcgtggcgca 121 tgtattactc atccttttgg gggccactga gatactgcaa gctgacttac ttcctgatga 181 721 agggcgtgac tggcttgcgg tgcttgttaa cggctccagc aagcactctg ctatcaggcc 781 181 aaagatttca cttctcccac ctgtcaattt caccattaaa gttactggtt tggctcaagt 241 tcttttacaa tggaaaccaa atcctgatca agagcaaagg aatgttaatc tagaatatca 301 agtgaaaata aacgctccaa aagaagatga ctatgaaacc agaatcactg aaagcaaatg 361 tgtaaccatc ctccacaaag gcttttcagc aagtgtgcgg accatcctgc agaacgacca 421 ctcactactg gccagcagct gggcttctgc tgaacttcat gccccaccag ggtctcctgg 481 aacctcaatt gtgaatttaa cttgcaccac aaacactaca gaagacaatt attcacgttt 541 aaggtcatac caagtttccc ttcactgcac ctggcttgtt ggcacagatg cccctgagga 601 cacgcagtat tttctctact ataggtatgg ctcttggact gaagaatgcc aagaatacag 661 caaagacaca ctggggagaa atatcgcatg ctggtttccc aggactttta tcctcagcaa 721 agggcgtgac tggcttgcgg tgcttgttaa cggctccagc aagcactctg ctatcaggcc 781 ctttgatcag ctgtttgccc ttcacgccat tgatcaaata aatcctccac tgaatgtcac 841 agcagagatt gaaggaactc gtctctctat ccaatgggag aaaccagtgt ctgcttttcc 901 aatccattgc tttgattatg aagtaaaaat acacaataca aggaatggat atttgcagat 961 agaaaaattg atgaccaatg cattcatctc aataattgat gatctttcta agtacgatgt1021 tcaagtgaga gcagcagtga gctccatgtg cagagaggca gggctctgga gtgagtggag1081 ccaacctatt tatgtgggaa atgatgaaca caagcccttg agagagtggt ttgtcattgt1141 gattatggca accatctgct tcatcttgtt aattctctcg cttatctgta aaatatgtca1201 tttatggatc aagttgtttc caccaattcc agcaccaaaa agtaatatca aagatctctt1261 tgtaaccact aactatgaga aagctggaat ttaaattcaa gcatgtttta acttttggtt1321 taaggtactt gggtgtacct ggcagtgttg taagctcttt acattaatta attaactctc1381 taggtactgt tatcttcatt ttataaacaa ggcagctgaa gttgagagaa ataagtaacc1441 tgtcctaggt cacacaatta ggaaatgaca gatctggcag tctatttcca ggcagtctat1501 ttccacgagg tcatgagtgc gaaagaggga ctaggggaag aatgattaac tccagggagc1561 tgacttttct agtgtgctta cctgttttgc atctctcaag gatgtgccat gaagctgtag1621 ccaggtggaa ttgtaccaca gccctgacat gaacacctga tggcagctgc tgggttggag1681 cctagacaaa aacatgaaga accatggctg ctgcctgagc ccatcgtgct gtaattatag1741 aaaaccttct aagggaagaa tatgctgata tttttcagat aagtacccct tttataaaaa1801 tcctccaagt tagccctcga ttttccatgt aaggaaacag aggctttgag ataatgtctg1861 tctcctaagg gacaaagcca ggacttgatc ctgtcttaaa aatgcaaaat gtagtacttc1921 ttccatcaaa ggtagacatg cactaaggga caggttttgg cttggtatca gaatacattt1981 ttaaaagctg tgtaagaatt gaacgggctg tactaggggg tata (2) SEQ ID NO: 2549 data: (i) sequence characteristics:

(A) length: 931 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2549 sequence description: 1 gatctttcta agtacgatgt tcaagtgaga gcagcagtga gctccatgtg cagagaggca 61 gggctctgga gtgagtggag ccaacctatt tatgtgggaa atgatgaaca caagcccttg 121 agagagtggt ttgtcattgt gattatggca accatctgct tcatcttgtt aattctctcg 181 cttatctgta aaatatgtca tttatggatc aagttgtttc caccaattcc agcaccaaaa 241 agtaatatca aagatctctt tgtaaccact aactatgagg tcctctgcat tttcatatac 301 atcttagatt cggctgacaa ttttctacaa aaaaagaaag ctgggtccag tgagacggaa 361 attgaagtca tctgttatat agagaagcct ggagttgaga ccctggagga ttctgtgttt 421 tgactgtcac tttggcatcc tctgatgaac tcacacatgc ctcagtgcct cagtgaaaag 481 aacagggatg ctggctcttg gctaagaggt gttcagaatt taggcaacac tcaatttacc 541 tgcgaagcaa tacacccaga cacaccagtc ttgtatctct taaaagtatg gatgcttcat 601 ccaaatcgcc tcacctacag cagggaagtt gactcatcca agcattttgc catgtttttt 661 ctccccatgc cgtacagggt agcacctcct cacctgccaa tctttgcaat ttgcttgact 721 cacctcagac ttttcattca caacagacag cttttaaggc taacgtccag ctgtatttac 781 ttctggctgt gcccgtttgg ctgtttaagc tgccaattgt agcactcagc taccatctga 841 ggaagaaagc attttgcatc agcctggagt gaaccatgaa cttggattca agactgtctt 901 ttctatagca agtgagagcc acaaattcct c (2) SEQ ID NO: 2550 data: (i) sequence characteristics:

(A) length: 1327 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2550 sequence description: 1 ccgctgcttc tcatcgcatg gccaccgcat ttctcaggcc aggcacattg agcattggtc 61 ctgtgcctga cgctatgcta gatgctgggg ttgcagccac gagcatagac acgacagaca 121 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacaggc 181 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 181 tacagattgt tttagattga agtttcctgt catgttcact catctttaaa tcctcatagt 241 aaaaaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc cactgagata 301 ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt caatttcacc 361 attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc tgatcaagag 421 caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga agatgactat 481 gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt ttcagcaagt 541 gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc ttctgctgaa 601 cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg caccacaaac 661 actacagaag acaattattc acgtttaagg tcataccaag tttcccttca ctgcacctgg 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat cgcatgctgg 841 tttcccagga cttttatcct cagcaaaggg cgtgactggc tttcggtgct tgttaacggc 901 tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca cgccattgat 961 caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct ctctatccaa1021 tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt aaaaatacac1081 aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt catctcaata1141 attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc catgtgcaga1201 gaggcagggc tctggagtga gtggagccaa cctatttatg tggggttctc aagataaagg1261 agataacatc cagctttcct gccccacacc gtatctgaaa taaaaacaac agcagggata1321 gcagatt (2) SEQ ID NO: 2551 data: (i) sequence characteristics:

(A) length: 1664 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2551 sequence description: 1 ccgctgcttc tcatcgcatg gccaccgcat ttctcaggcc aggcacattg agcattggtc 61 ctgtgcctga cgctatgcta gatgctgggg ttgcagccac gagcatagac acgacagaca 121 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacaggc 181 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 181 tacagattgt tttagattga agtttcctgt catgttcact catctttaaa tcctcatagt 241 aaaaaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc cactgagata 301 ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt caatttcacc 361 attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc tgatcaagag 421 caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga agatgactat 481 gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt ttcagcaagt 541 gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc ttctgctgaa 601 cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg caccacaaac 661 actacagaag acaattattc acgtttaagg tcataccaag tttcccttca ctgcacctgg 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat cgcatgctgg 841 tttcccagga cttttatcct cagcaaaggg cgtgactggc tttcggtgct tgttaacggc 901 tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca cgccattgat 961 caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct ctctatccaa1021 tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt aaaaatacac1081 aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt catctcaata1141 attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc catgtgcaga1201 gaggcagggc tctggagtga gtggagccaa cctatttatg tgggtaagta gcttatgttt1261 attttacatt ggcagccttc cttgtgatca aaaaaggtaa tcccagaaac gtacccgttc1321 actcgtgggt cttaaaatgg tttcatatct ctattgtgac taattttctc tcggtctact1381 gccttttcaa tcaggaatag atttgccatg aagccagtga agtttttaag tgtctaggct1441 tctcattagt gccaactctc ctagacctgg tgcctgtttt ttttccaagt tttgtttcta1501 cttctatcca ttttttaaat taaacttttt attttgaaat aattatcaca ctcacaagct1561 gtgggaagaa ataatagaga tcctgtgtctctttcatcca gttttcctca agggtaacat1621 cttacaaaac tatagtacaa tagtggaata gaatatttgg tgtt (2) SEQ ID NO: 2552 data: (i) sequence characteristics:

(A) length: 1998 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2552 sequence description: 1 ccgctgcttc tcatcgcatg gccaccgcat ttctcaggcc aggcacattg agcattggtc 61 ctgtgcctga cgctatgcta gatgctgggg ttgcagccac gagcatagac acgacagaca 121 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacaggc 181 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 181 tacagattgt tttagattga agtttcctgt catgttcact catctttaaa tcctcatagt 241 aaaaaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc cactgagata 301 ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt caatttcacc 361 attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc tgatcaagag 421 caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga agatgactat 481 gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt ttcagcaagt 541 gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc ttctgctgaa 601 cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg caccacaaac 661 actacagaag acaattattc acgtttaagg tcataccaag tttcccttca ctgcacctgg 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat cgcatgctgg 841 tttcccagga cttttatcct cagcaaaggg cgtgactggc tttcggtgct tgttaacggc 901 tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca cgccattgat 961 caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct ctctatccaa1021 tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt aaaaatacac1081 aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt catctcaata1141 attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc catgtgcaga1201 gaggcagggc tctggagtga gtggagccaa cctatttatg tgggaaatga tgaacacaag1261 cccttgagag agtggtttgt cattgtgattatggcaacca tctgcttcat cttgttaatt1321 ctctcgctta tctgtaaaat atgtcattta tggatcaagt tgtttccacc aattccagca1381 ccaaaaagta atatcaaaga tctctttgta accactaact atgagaaagc tgggtccagt1441 gagacggaaa ttgaagtcat ctgttatata gagaagcctg gagttgagac cctggaggat1501 tctgtgtttt gactgtcact ttggcatcct ctgatgaact cacacatgcc tcagtgcctc1561 agtgaaaaga acagggatgc tggctcttgg ctaagaggtg ttcagaattt aggcaacact1621 caatttacct gcgaagcaat acacccagac acaccagtct tgtatctctt aaaagtatgg1681 atgcttcatc caaatcgcct cacctacagc agggaagttg actcatccaa gcattttgcc1741 atgttttttc tccccatgcc gtacagggta gcacctcctc acctgccaat ctttgcaatt1801 tgcttgactc acctcagact ttcattcaca acagacagct tttaaggcta acgtccagct1861 gtatttactt ctggctgtgc cgtttggctg tttaagctgc caattgtagc actcagctac1921 catctgagga agaaagcatt ttgcatcagc ctggagtgaa ccatgaactt ggattcaaga1981 ctgtcttttc tatagcaa (2) SEQ ID NO: 2553 data: (i) sequence characteristics:

(A) length: 1405 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2553 sequence description: 1 gtcttttgaa aggatctgcc gctgcttctc atcgcatggc caccgcattt ctcaggccag 61 gcacattgag cattggtcct gtgcctgacg ctatgctaga tgctggggtt gcagccacga 121 gcatagacac gacagacacg gtcctcgcca tcttctgttg agtactggtc ggaacaagag 181 721 gtatggctct tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat 781 181 gatcgtctgt agacaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc 241 cactgagata ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt 301 caatttcacc attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc 361 tgatcaagag caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga 421 agatgactat gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt 481 ttcagcaagt gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc 541 ttctgctgaa cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg 601 caccacaaac actacagaag acaattattc acgtttaagg tcataccaag tttcccttca 661 ctgcacctgg cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag 721 gtatggctct tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat 781 cgcatgctgg tttcccagga cttttatcct cagcaaaggg cgtgactggc ttgcggtgct 841 tgttaacggc tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca 901 cgccattgat caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct 961 ctctatccaa tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt1021 aaaaatacac aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt1081 catctcaata attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc1141 catgtgcaga gaggcagggc tctggagtga gtggagccaa cctatttatg tgggtaagta1201 gcttatgttt attttacatt ggcagccttc cttgtgatca aaaaaggtaa tcccagaaac1261 gtacccgttc actcgtgggt cttaaaatgg tttcatatct ctattgtgac taattttctc1321 tcggtctact gccttttcaa tcaggaatag atttgccatg aagccagtga agtttttaag1381 tgtctaggct tctcattagc gccac (2) SEQ ID NO: 2554 data: (i) sequence characteristics:

(A) length: 2006 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2554 sequence description: 1 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacagga 61 tatgatcatc gtggcgcatg tattactcat ccttttgggg gccactgaga tactgcaagc 121 tgacttactt cctgatgaaa agatttcact tctcccacct gtcaatttca ccattaaagt 181 721 gcactctgct atcaggccct ttgatcagct gtttgccctt cacgccattg atcaaataaa 781 181 tactggtttg gctcaagttc ttttacaatg gaaaccaaat cctgatcaag agcaaaggaa 241 tgttaatcta gaatatcaag tgaaaataaa cgctccaaaa gaagatgact atgaaaccag 301 aatcactgaa agcaaatgtg taaccatcct ccacaaaggc ttttcagcaa gtgtgcggac 361 catcctgcag aacgaccact cactactggc cagcagctgg gcttctgctg aacttcatgc 421 cccaccaggg tctcctggaa cctcagttgt gaatttaact tgcaccacaa acactacaga 481 agacaattat tcacgtttaa ggtcatacca agtttccctt cactgcacct ggcttgttgg 541 cacagatgcc cctgaggaca cgcagtattt tctctactat aggtatggct cttggactga 601 agaatgccaa gaatacagca aagacacact ggggagaaat atcgcatgct ggtttcccag 661 gacttttatc ctcagcaaag ggcgtgactg gcttgcggtg cttgttaacg gctccagcaa 721 gcactctgct atcaggccct ttgatcagct gtttgccctt cacgccattg atcaaataaa 781 tcctccactg aatgtcacag cagagattga aggaactcgt ctctctatcc aatgggagaa 841 accagtgtct gcttttccaa tccattgctt tgattatgaa gtaaaaatac acaatacaag 901 gaatggatat ttgcagatag aaaaattgat gaccaatgca ttcatctcaa taattgatga 961 tctttctaag tacgatgttc aagtgagagc agcagtgagc tccatgtgca gagaggcagg1021 gctctggagt gagtggagcc aacctattta tgtgggaaat gatgaacaca agcccttgag1081 agagtggttt gtcattgtga ttatggcaac catctgcttc atcttgttaa ttctctcgct1141 tatctgtaaa atatgtcatt tatggatcaa gttgtttcca ccaattccag caccaaaaag1201 taatatcaaa gatctctttg taaccactaa ctatgagaaa gctgggtcca gtgagacgga1261 aattgaagtc atctgttata tagagaagcc tggagttgag accctggagg attctgtgtt1321 ttgactgtca ctttggcatc ctctgatgaa ctcacacatg cctcagtgcc tcagtgaaaa1381 gaacagggat gctggctctt ggctaagagg tgttcagaat ttaggcaaca ctcaatttac1441 ctgcgaagca atacacccag acacaccagt cttgtatctc ttaaaagtat ggatgcttca1501 tccaaatcgc ctcacctaca gcagggaagt tgactcatcc aagcattttg ccatgttttt1561 tctccccatg ccgtacaggg tagcacctcc tcacctgcca atctttgcaa tttgcttgac1621 tcacctcaga cttttcattc acaacagaca gcttttaagg ctaacgtcca gctgtattta1681 cttctggctg tgcccgtttg gctgtttaag ctgccaattg tagcactcag ctaccatctg1741 aggaagaaag cattttgcat cagcctggag tgaatcatga acttggattc aagactgtct1801 tttctatagc aagtgagagc cacaaattcc tcacccccct acattctaga atgatctttt1861 tctaggtaga ttgtgtatgt gtgtgtatga gagagagaga gagagagaga gagagagaga1921 gagaaattat ctcaagctcc agaggcctga tccaggatac atcatttgaa accaactaat1981 ttaaaagcat aatagagcta atatat (2) SEQ ID NO: 2555, data: (i) sequence characteristics:

(A) length: 11355 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2555 sequence description: 1 tagatgctgg ggttgcagcc acgagcatag acacgacaga cacggtcctc gccatcttct 61 gttgagtact ggtcggaaca agaggatcgt ctgtagacag gatatgatca tcgtggcgca 121 tgtattactc atccttttgg gggccactga gatactgcaa gctgacttac ttcctgatga 181 721 agggcgtgac tggcttgcgg tgcttgttaa cggctccagc aagcactctg ctatcaggcc 781 181 aaagatttca cttctcccac ctgtcaattt caccattaaa gttactggtt tggctcaagt 241 tcttttacaa tggaaaccaa atcctgatca agagcaaagg aatgttaatc tagaatatca 301 agtgaaaata aacgctccaa aagaagatga ctatgaaacc agaatcactg aaagcaaatg 361 tgtaaccatc ctccacaaag gcttttcagc aagtgtgcgg accatcctgc agaacgacca 421 ctcactactg gccagcagct gggcttctgc tgaacttcat gccccaccag ggtctcctgg 481 aacctcaatt gtgaatttaa cttgcaccac aaacactaca gaagacaatt attcacgttt 541 aaggtcatac caagtttccc ttcactgcac ctggcttgtt ggcacagatg cccctgagga 601 cacgcagtat tttctctact ataggtatgg ctcttggact gaagaatgcc aagaatacag 661 caaagacaca ctggggagaa atatcgcatg ctggtttccc aggactttta tcctcagcaa 721 agggcgtgac tggcttgcgg tgcttgttaa cggctccagc aagcactctg ctatcaggcc 781 ctttgatcag ctgtttgccc ttcacgccat tgatcaaata aatcctccac tgaatgtcac 841 agcagagatt gaaggaactc gtctctctat ccaatgggag aaaccagtgt ctgcttttcc 901 aatccattgc tttgattatg aagtaaaaat acacaataca aggaatggat atttgcagat 961 agaaaaattg atgaccaatg cattcatctc aataattgat gatctttcta agtacgatgt1021 tcaagtgaga gcagcagtga gctccatgtg cagagaggca gggctctgga gtgagtggag1081 ccaacctatt tatgtgggaa atgatgaaca caagcccttg agagagtggt ttgtcattgt1141 gattatggca accatctgct tcatcttgtt aattctctcg cttatctgta aaatatgtca1201 tttatggatc aagttgtttc caccaattcc agcaccaaaa agtaatatca aagatctctt1261 tgtaaccact aactatgaga aagctggaat ttaaattcaa gcatgtttta acttttggtt1321 taaggtactt gggtgtacct ggcagtgttg taagctcttt acattaatta attaactctc1381 taggtactgt tatcttcatt ttataaacaa ggcagctgaa gttgagagaa ataagtaacc1441 tgtcctaggt cacacaatta ggaaatgaca gatctggcag tctatttcca ggcagtctat1501 ttccacgagg tcatgagtgc gaaagaggga ctaggggaag aatgattaac tccagggagc1561 tgacttttct agtgtgctta cctgttttgc atctctcaag gatgtgccat gaagctgtag1621 ccaggtggaa ttgtaccaca gccctgacat gaacacctga tggcagctgc tgggttggag1681 cctagacaaa aacatgaaga accatggctg ctgcctgagc ccatcgtgct gtaattatag1741 aaaaccttct aagggaagaa tatgctgata tttttcagat aagtacccct tttataaaaa1801 tcctccaagt tagccctcga ttttccatgt aaggaaacag aggctttgag ataatgtctg1861 tctcctaagg gacaaagcca ggacttgatc ctgtcttaaa aatgcaaaat gtagtacttc1921 ttccatcaaa ggtagacatg cactaaggga caggttttgg cttggtatca gaatacattt1981 ttaaaagctg tgtaagaatt gaacgggctg tactaggggg tata1 gatctttcta agtacgatgt tcaagtgaga gcagcagtga gctccatgtg cagagaggca 61 gggctctgga gtgagtggag ccaacctatt tatgtgggaa atgatgaaca caagcccttg 121 agagagtggt ttgtcattgt gattatggca accatctgct tcatcttgtt aattctctcg 181 cttatctgta aaatatgtca tttatggatc aagttgtttc caccaattcc agcaccaaaa 241 agtaatatca aagatctctt tgtaaccact aactatgagg tcctctgcat tttcatatac 301 atcttagatt cggctgacaa ttttctacaa aaaaagaaag ctgggtccag tgagacggaa 361 attgaagtca tctgttatat agagaagcct ggagttgaga ccctggagga ttctgtgttt 421 tgactgtcac tttggcatcc tctgatgaac tcacacatgc ctcagtgcct cagtgaaaag 481 aacagggatg ctggctcttg gctaagaggt gttcagaatt taggcaacac tcaatttacc 541 tgcgaagcaa tacacccaga cacaccagtc ttgtatctct taaaagtatg gatgcttcat 601 ccaaatcgcc tcacctacag cagggaagtt gactcatcca agcattttgc catgtttttt 661 ctccccatgc cgtacagggt agcacctcct cacctgccaa tctttgcaat ttgcttgact 721 cacctcagac ttttcattca caacagacag cttttaaggc taacgtccag ctgtatttac 781 ttctggctgt gcccgtttgg ctgtttaagc tgccaattgt agcactcagc taccatctga 841 ggaagaaagc attttgcatc agcctggagt gaaccatgaa cttggattca agactgtctt 901 ttctatagca agtgagagcc acaaattcct c1 ccgctgcttc tcatcgcatg gccaccgcat ttctcaggcc aggcacattg agcattggtc 61 ctgtgcctga cgctatgcta gatgctgggg ttgcagccac gagcatagac acgacagaca 121 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacaggc 181 tacagattgt tttagattga agtttcctgt catgttcact catctttaaa tcctcatagt 241 aaaaaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc cactgagata 301 ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt caatttcacc 361 attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc tgatcaagag 421 caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga agatgactat 481 gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt ttcagcaagt 541 gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc ttctgctgaa 601 cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg caccacaaac 661 actacagaag acaattattc acgtttaagg tcataccaag tttcccttca ctgcacctgg 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat cgcatgctgg 841 tttcccagga cttttatcct cagcaaaggg cgtgactggc tttcggtgct tgttaacggc 901 tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca cgccattgat 961 caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct ctctatccaa1021 tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt aaaaatacac1081 aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt catctcaata1141 attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc catgtgcaga1201 gaggcagggc tctggagtga gtggagccaa cctatttatg tggggttctc aagataaagg1261 agataacatc cagctttcct gccccacacc gtatctgaaa taaaaacaac agcagggata1321 gcagatt 1 ccgctgcttc tcatcgcatg gccaccgcat ttctcaggcc aggcacattg agcattggtc 61 ctgtgcctga cgctatgcta gatgctgggg ttgcagccac gagcatagac acgacagaca 121 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacaggc 181 tacagattgt tttagattga agtttcctgt catgttcact catctttaaa tcctcatagt 241 aaaaaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc cactgagata 301 ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt caatttcacc 361 attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc tgatcaagag 421 caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga agatgactat 481 gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt ttcagcaagt 541 gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc ttctgctgaa 601 cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg caccacaaac 661 actacagaag acaattattc acgtttaagg tcataccaag tttcccttca ctgcacctgg 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat cgcatgctgg 841 tttcccagga cttttatcct cagcaaaggg cgtgactggc tttcggtgct tgttaacggc 901 tccagcaagcactctgctat caggcccttt gatcagctgt ttgcccttca cgccattgat 961 caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct ctctatccaa1021 tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt aaaaatacac1081 aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt catctcaata1141 attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc catgtgcaga1201 gaggcagggc tctggagtga gtggagccaa cctatttatg tgggtaagta gcttatgttt1261 attttacatt ggcagccttc cttgtgatca aaaaaggtaa tcccagaaac gtacccgttc1321 actcgtgggt cttaaaatgg tttcatatct ctattgtgac taattttctc tcggtctact1381 gccttttcaa tcaggaatag atttgccatg aagccagtga agtttttaag tgtctaggct1441 tctcattagt gccaactctc ctagacctgg tgcctgtttt ttttccaagt tttgtttcta1501 cttctatcca ttttttaaat taaacttttt attttgaaat aattatcaca ctcacaagct1561 gtgggaagaa ataatagaga tcctgtgtct ctttcatcca gttttcctca agggtaacat1621 cttacaaaac tatagtacaa tagtggaata gaatatttgg tgtt1 ccgctgcttc tcatcgcatg gccaccgcat ttctcaggcc aggcacattg agcattggtc 61 ctgtgcctga cgctatgcta gatgctgggg ttgcagccac gagcatagac acgacagaca 121 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacaggc 181 tacagattgt tttagattga agtttcctgt catgttcact catctttaaa tcctcatagt 241 aaaaaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc cactgagata 301 ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt caatttcacc 361 attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc tgatcaagag 421 caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga agatgactat 481 gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt ttcagcaagt 541 gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc ttctgctgaa 601 cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg caccacaaac 661 actacagaag acaattattc acgtttaagg tcataccaag tttcccttca ctgcacctgg 721 cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag gtatggctct 781 tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat cgcatgctgg 841 tttcccagga cttttatcct cagcaaaggg cgtgactggc tttcggtgct tgttaacggc 901 tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca cgccattgat 961 caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct ctctatccaa1021 tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt aaaaatacac1081 aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt catctcaata1141 attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc catgtgcaga gaggcagggc tctggagtga gtggagccaa cctatttatg tgggaaatga tgaacacaag1261 cccttgagag agtggtttgt cattgtgatt atggcaacca tctgcttcat cttgttaatt1321 ctctcgctta tctgtaaaat atgtcattta tggatcaagt tgtttccacc aattccagca1381 ccaaaaagta atatcaaaga tctctttgta accactaact atgagaaagc tgggtccagt1441 gagacggaaa ttgaagtcat ctgttatata gagaagcctg gagttgagac cctggaggat1501 tctgtgtttt gactgtcact ttggcatcct ctgatgaact cacacatgcc tcagtgcctc1561 agtgaaaaga acagggatgc tggctcttgg ctaagaggtg ttcagaattt aggcaacact1621 caatttacct gcgaagcaat acacccagac acaccagtct tgtatctctt aaaagtatgg 16842 1741 atgttttttc tccccatgcc gtacagggta gcacctcctc acctgccaat ctttgcaatt1801 tgcttgactc acctcagact ttcattcaca acagacagct tttaaggcta acgtccagct1861 gtatttactt ctggctgtgc cgtttggctg tttaagctgc caattgtagc actcagctac1921 catctgagga agaaagcatt ttgcatcagc ctggagtgaa ccatgaactt ggattcaaga1981 ctgtcttttc tatagcaa 1 gtcttttgaa aggatctgcc gctgcttctc atcgcatggc caccgcattt ctcaggccag 61 gcacattgag cattggtcct gtgcctgacg ctatgctaga tgctggggtt gcagccacga 121 gcatagacac gacagacacg gtcctcgcca tcttctgttg agtactggtc ggaacaagag 181 gatcgtctgt agacaggata tgatcatcgt ggcgcatgta ttactcatcc ttttgggggc 241 cactgagata ctgcaagctg acttacttcc tgatgaaaag atttcacttc tcccacctgt 301 caatttcacc attaaagtta ctggtttggc tcaagttctt ttacaatgga aaccaaatcc 361 tgatcaagag caaaggaatg ttaatctaga atatcaagtg aaaataaacg ctccaaaaga 421 agatgactat gaaaccagaa tcactgaaag caaatgtgta accatcctcc acaaaggctt 481 ttcagcaagt gtgcggacca tcctgcagaa cgaccactca ctactggcca gcagctgggc 541 ttctgctgaa cttcatgccc caccagggtc tcctggaacc tcaattgtga atttaacttg 601 caccacaaac actacagaag acaattattc acgtttaagg tcataccaag tttcccttca 661 ctgcacctgg cttgttggca cagatgcccc tgaggacacg cagtattttc tctactatag 721 gtatggctct tggactgaag aatgccaaga atacagcaaa gacacactgg ggagaaatat 781 cgcatgctgg tttcccagga cttttatcct cagcaaagggcgtgactggc ttgcggtgct 841 tgttaacggc tccagcaagc actctgctat caggcccttt gatcagctgt ttgcccttca 901 cgccattgat caaataaatc ctccactgaa tgtcacagca gagattgaag gaactcgtct 961 ctctatccaa tgggagaaac cagtgtctgc ttttccaatc cattgctttg attatgaagt1021 aaaaatacac aatacaagga atggatattt gcagatagaa aaattgatga ccaatgcatt1081 catctcaata attgatgatc tttctaagta cgatgttcaa gtgagagcag cagtgagctc1141 catgtgcaga gaggcagggc tctggagtga gtggagccaa cctatttatg tgggtaagta1201 gcttatgttt attttacatt ggcagccttc cttgtgatca aaaaaggtaa tcccagaaac1261 gtacccgttc actcgtgggt cttaaaatgg tttcatatct ctattgtgac taattttctc1321 tcggtctact gccttttcaa tcaggaatag atttgccatg aagccagtga agtttttaag1381 tgtctaggct tctcattagc gccac 1 cggtcctcgc catcttctgt tgagtactgg tcggaacaag aggatcgtct gtagacagga 61 tatgatcatc gtggcgcatg tattactcat ccttttgggg gccactgaga tactgcaagc 121 tgacttactt cctgatgaaa agatttcact tctcccacct gtcaatttca ccattaaagt 181 tactggtttg gctcaagttc ttttacaatg gaaaccaaat cctgatcaag agcaaaggaa 241 tgttaatcta gaatatcaag tgaaaataaa cgctccaaaa gaagatgact atgaaaccag 301 aatcactgaa agcaaatgtg taaccatcct ccacaaaggc ttttcagcaa gtgtgcggac 361 catcctgcag aacgaccact cactactggc cagcagctgg gcttctgctg aacttcatgc 421 cccaccaggg tctcctggaa cctcagttgt gaatttaact tgcaccacaa acactacaga 481 agacaattat tcacgtttaa ggtcatacca agtttccctt cactgcacct ggcttgttgg 541 cacagatgcc cctgaggaca cgcagtattt tctctactat aggtatggct cttggactga 601 agaatgccaa gaatacagca aagacacact ggggagaaat atcgcatgct ggtttcccag 661 gacttttatc ctcagcaaag ggcgtgactg gcttgcggtg cttgttaacg gctccagcaa 721 gcactctgct atcaggccct ttgatcagct gtttgccctt cacgccattg atcaaataaa 781 539 2 781 tcctccactg aatgtcacag cagagattga aggaactcgt ctctctatcc aatgggagaa 841 accagtgtct gcttttccaa tccattgctt tgattatgaa gtaaaaatac acaatacaag 901 gaatggatat ttgcagatag aaaaattgat gaccaatgca ttcatctcaa taattgatga 961 tctttctaag tacgatgttc aagtgagagc agcagtgagc tccatgtgca gagaggcagg1021 gctctggagt gagtggagcc aacctattta tgtgggaaat gatgaacaca agcccttgag1081 agagtggttt gtcattgtga ttatggcaac catctgcttc atcttgttaa ttctctcgct1141 114 1141 tatctgtaaa atatgtcatt tatggatcaa gttgtttcca ccaattccag caccaaaaag1201 taatatcaaa gatctctttg taaccactaa ctatgagaaa gctgggtcca gtgagacgga1261 aattgaagtc atctgttata tagagaagcc tggagttgag accctggagg attctgtgtt1321 ttgactgtca ctttggcatc ctctgatgaa ctcacacatg cctcagtgcc tcagtgaaaa1381 gaacagggat gctggctctt ggctaagagg tgttcagaat ttaggcaaca ctcaatttac1441 ctgcgaagca atacacccag acacaccagt cttgtatctc ttaaaagtat ggatgcttca1501 tccaaatcgc ctcacctaca gcagggaagt tgactcatcc aagcattttg ccatgttttt1561 tctccccatg ccgtacaggg tagcacctcc tcacctgcca atctttgcaa tttgcttgac1621 tcacctcaga cttttcattc acaacagaca gcttttaagg ctaacgtcca gctgtattta1681 cttctggctg tgcccgtttg gctgtttaag ctgccaattg tagcactcag ctaccatctg1741 aggaagaaag cattttgcat cagcctggag tgaatcatga acttggattc aagactgtct1801 tttctatagc aagtgagagc cacaaattcc tcacccccct acattctaga atgatctttt1861 tctaggtaga ttgtgtatgt gtgtgtatga gagagagaga gagagagaga gagagagaga1921 192 1921 gagaaattat ctcaagctcc agaggcctga tccaggatac atcatttgaa accaactaat1981 ttaaaagcat aatagagcta atatat (2) SEQ ID NO: 2556 data: (i) sequence characteristics:

(A) Length: 5191 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2556 sequence description: 1 gaattcagta acccaggcat tattttatcc tcaagtctta ggttggttgg agaaagataa 61 caaaaagaaa catgattgtg cagaaacaga caaacctttt tggaaagcat ttgaaaatgg 121 cattccccct ccacagtgtg ttcacagtgt gggcaaattc actgctctgt cgtactttct 181 721 ttatgcctcc actggaatta atgtcttagt accacttgtc tattctgcta tatagtcagt 781 181 gaaaatgaag aactgttaca ccaaggtgaa ttatttataa attatgtact tgcccagaag 241 cgaacagact tttactatca taagaaccct tccttggtgt gctctttatc tacagaatcc 301 aagacctttc aagaaaggtc ttggattctt ttcttcagga cactaggaca taaagccacc 361 tttttatgat ttgttgaaat ttctcactcc atcccttttg ctgatgatca tgggtcctca 421 gaggtcagac ttggtgtcct tggataaaga gcatgaagca acagtggctg aaccagagtt 481 ggaacccaga tgctctttcc actaagcata caactttcca ttagataaca cctccctccc 541 accccaacca agcagctcca gtgcaccact ttctggagca taaacatacc ttaactttac 601 aacttgagtg gccttgaata ctgttcctat ctggaatgtg ctgttctctt tcatcttcct 661 ctattgaagc cctcctattc ctcaatgcct tgctccaact gcctttggaa gattctgctc 721 ttatgcctcc actggaatta atgtcttagt accacttgtc tattctgcta tatagtcagt 781 ccttacattg ctttcttctt ctgatagacc aaactcttta aggacaagta cctagtctta 841 tctatttcta gatcccccac attactcaga aagttactcc ataaatgttt gtggaactga 901 tttctatgtg aagacatgtg ccccttcact ctgttaacta gcattagaaa aacaaatctt 961 ttgaaaagtt gtagtatgcc cctaagagca gtaacagttc ctagaaactc tctaaaatgc1021 ttagaaaaag atttatttta aattacctcc ccaataaaat gattggctgg cttatcttca1081 ccatcatgat agcatctgta attaactgaa aaaaaataat tatgccatta aaagaaaatc1141 atccatgatc ttgttctaac acctgccact ctagtactat atctgtcaca tggtctatga1201 taaagttatc tagaaataaa aaagcataca attgataatt caccaaattg tggagcttca1261 gtattttaaa tgtatattaa aattaaatta ttttaaagat caaagaaaac tttcgtcata1321 ctccgtattt gataaggaac aaataggaag tgtgatgact caggtttgcc ctgaggggat1381 gggccatcag ttgcaaatcg tggaatttcc tctgacataa tgaaaagatg agggtgcata1441 agttctctag tagggtgatg atataaaaag ccaccggagc actccataag gcacaaactt1501 tcagagacag cagagcacac aagcttctag gacaagagcc aggaagaaac caccggaagg1561 aaccattctc actgtgtgta aacatgactt ccaagctggc cgtggctctc ttggcagcct1621 tcctgatttc tgcagctctg tgtgaaggta agcacatctt tctgacctac agcgttttcc1681 tatgtctaaa tgtgatcctt agatagcaaa gctattcttg atgctttggt aacaaacatc1741 ctttttattc agaaacagaa tataatctta gcagtcaatt aatgttaaat tgaagattta1801 gaaaaaacta tatataacac ttaggaaata taaaggtttg atcaatatag atattctgct1861 tttataattt ataccaggta gcatgcatat atttaacgta aataagtaat ttatagtatg1921 tcctattgag aaccacggtt acctatatta tgtattaata ttgagttgag caaggtaact1981 cagacaattc cactccttgt agtatttcat tgacaagcct cagatttgtc attaattcct2041 gtctggttta aagataccct gattatagac caggcatgta taacttattt atatatttct2101 gttaattctt tctgaaggca atttctatgc tggagagtct tagcttgcct actataaata2161 acactgtggt atcacagagg attatgcaat attgaccaga taaaaatacc atgaagatgt2221 tgatattgta caaaaagaac tctaactctt atataggaag ttgttcaatg ttgtcagtta2281 tgactgtttt ttaaaacaaa gaactaactg aggtcaaggg ctaggagata ttcaggaatg2341 agttcactag aaacatgatg ccttccatag tctccaaata atcatattgg aattagaagg2401 aagtagctgg cagagctgtg cctgttgata aaatcaatcc ttaatcactt tttcccccaa2461 caggtgcagt tttgccaagg agtgctaaag aacttagatg tcagtgcata aagacatact2521 ccaaaccttt ccaccccaaa tttatcaaag aactgagagt gattgagagt ggaccacact2581 gcgccaacac agaaattatg taagtacttt aaaaaagatt agatattttg ttttagcaaa2641 cttaaaatta aggaaggtgg aaatatttag gaaagttcca ggtgttagga ttacagtagt2701 aaatgaaaca aaacaaaata aaaatatttg tctacatgac atttaaatat ggtagcttcc2761 acaactacta taaatgttat tttggactta gactttatgc ctgacttaag gaatcatgat2821 ttgaatgcaa aaactaaata ttaatctgaa ccatttcttt cttatttcag tgtaaagctt2881 tctgatggaa gagagctctg tctggacccc aaggaaaact gggtgcagag ggttgtggag2941 aagtttttga agaggtaagt tatatatttt ttaatttaaa tttttcattt atcctgagac3001 atataatcca aagtcagcct ataaatttct ttctgttgct aaaaatcgtc attaggtatc3061 tgcctttttg gttaaaaaaa aaggaatagc atcaatagtg agtttgttgt acttatgacc3121 agaaagacca tacatagttt gcccaggaaa ttctgggttt aagcttgtgt cctatactct3181 tagtaaagtt ctttgtcact cccagtagtg tcctatttta gatgataatt tctttgatct3241 ccctatttat agttgagaat atagagcatt tctaacacat gaatgtcaaa gactatattg3301 acttttcaag aaccctactt tccttcttat taaacatagc tcatctttat atttttaatt3361 ttattttagg gctgagaatt cataaaaaaa ttcattctct gtggtatcca agaatcagtg3421 aagatgccag tgaaacttca agcaaatcta cttcaacact tcatgtattg tgtgggtctg3481 ttgtagggtt gccagatgca atacaagatt cctggttaaa tttgaatttc agtaaacaat3541 593601 atttgaatct acaaaaaaca acaaataatt tttaaatata aggattttcc tagatattgc3661 acgggagaat atacaaatag caaaattggg ccaagggcca agagaatatc cgaactttaa3721 tttcaggaat tgaatgggtt tgctagaatg tgatatttga agcatcacat aaaaatgatg3781 ggacaataaa ttttgccata aagtcaaatt tagctggaaa tcctggattt ttttctgtta3841 aatctggcaa ccctagtctg ctagccagga tccacaagtc cttgttccac tgtgccttgg3901 tttctccttt atttctaagt ggaaaaagta ttagccacca tcttacctca cagtgatgtt 398661 gtgaggacat gtggaagcac tttaagtttt ttcatcataa cataaattat tttcaagtgt4021 aacttattaa cctatttatt atttatgtat ttatttaagc atcaaatatt tgtgcaagaa tttggaaaaa tagaagatga atcattgatt gaatagttat aaagatgtta tagtaaattt4141 attttatttt agatattaaa tgatgtttta ttagataaat ttcaatcagg gtttttagat4201 taaacaaaca aacaattggg tacccagtta aattttcatt tcagatatac aacaaataat4261 tttttagtat aagtacatta ttgtttatct gaaattttaa ttgaactaac aatcctagtt4321 tgatactccc agtcttgtca ttgccagctg tgttggtagt gctgtgttga attacggaat4381 aatgagttag aactattaaa acagccaaaa ctccacagtc aatattagta atttcttgct4441 ggttgaaact tgtttattat gtacaaatag attcttataa tattatttaa atgactgcat4501 ttttaaatac aaggctttat atttttaact ttagtgtttt tatgtgctct ccaaattttt4561 tttactgttt ctgattgtat ggaaatataa aagtaaatat gaaacattta aaatataatt4621 tgttgtcaaa gtaatcaagt gtttgtcttt tttttagttt tagcttattg ggattctctt4681 tgtttatatt taaaattata ctttgattta gaaaacataa atgcttcccc ttagcatttt4741 gttatggaaa attacaaact tttattttta gaaaacagaa ctcctttcca gaaataggtt4801 acaaacagta gtgtcctcca cagaatgttg gaaatgtttt caactcccca ctgtatacta4861 tcttgctaat aagtctgtct tcagatttcg attaaccggt ttgtatgtct gtgcacttta4921 gcatagctgg acattaaaga ggaaagagag tacatattat aagttgctta tcagtaactg4981 aggagtaaaa ctgataaatg tgaggcaaag aagtttaaaa tatggttaaa gcctaagcat5041 atttgcaaac aaatcaaaca atactctgag aagtaaaaac ataattattt aattaacaaa5101 tttcagtgga taaattttat aacaaattag acacagttga aaataaaatt agaaaactag5161 aaaatagaac aaaagaaact tctggaattc a (2) SEQ ID NO: 2557 data: (i) sequence characteristics:

(A) length: 2007 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2557 sequence description: 1 tattcatcaa gtgccctcta gctgttaagt cactctgatc tctgactgca gctcctactg 61 ttggacacac ctggccggtg cttcagttag atcaaaccat tgctgaaact gaagaggaca 121 tgtcaaatat tacagatcca cagatgtggg attttgatga tctaaatttc actggcatgc 181 721 tgttgcggat cctgcctcac acctttggct tcatcgtgcc gctgtttgtc atgctgttct 781 181 cacctgcaga tgaagattac agcccctgta tgctagaaac tgagacactc aacaagtatg 241 ttgtgatcat cgcctatgcc ctagtgttcc tgctgagcct gctgggaaac tccctggtga 301 tgctggtcat cttatacagc agggtcggcc gctccgtcac tgatgtctac ctgctgaacc 361 tggccttggc cgacctactc tttgccctga ccttgcccat ctgggccgcc tccaaggtga 421 atggctggat ttttggcaca ttcctgtgca aggtggtctc actcctgaag gaagtcaact 481 tctacagtgg catcctgctg ttggcctgca tcagtgtgga ccgttacctg gccattgtcc 541 atgccacacg cacactgacc cagaagcgtc acttggtcaa gtttgtttgt cttggctgct 601 ggggactgtc tatgaatctg tccctgccct tcttcctttt ccgccaggct taccatccaa 661 acaattccag tccagtttgc tatgaggtcc tgggaaatga cacagcaaaa tggcggatgg 721 tgttgcggat cctgcctcac acctttggct tcatcgtgcc gctgtttgtc atgctgttct 781 gctatggatt caccctgcgt acactgttta aggcccacat ggggcagaag caccgagcca 841 tgagggtcat ctttgctgtc gtcctcatct tcctgctttg ctggctgccc tacaacctgg 901 tcctgctggc agacaccctc atgaggaccc aggtgatcca ggagagctgt gagcgccgca 961 acaacatcgg ccgggccctg gatgccactg agattctggg atttctccat agctgcctca1021 accccatcat ctacgccttc atcggccaaa attttcgcca tggattcctc aagatcctgg1081 ctatgcatgg cctggtcagc aaggagttct tggcacgtca tcgtgttacc tcctacactt1141 cttcgtctgt caatgtctct tccaacctct gaaaaccatc gatgaaggaa tatctcttct1201 cagaaggaaa gaataaccaa caccctgagg ttgtgtgtgg aaggtgatct ggctctggac1261 aggcactatc tgggttttgg ggggacgcta taggatgtgg ggaagttagg aactggtgtc1321 ttcaggggcc acaccaacct tctgaggagc tgttgaggta cctccaagga ccggcctttg1381 cacctccatg gaaacgaagc accatcattc ccgttgaacg tcacatcttt aacccactaa1441 ctggctaatt agcatggcca catctgagcc ccgaatctga cattagatga gagaacaggg1501 ctgaagctgt gtcctcatga gggctggatg ctctcgttga ccctcacagg agcatctcct1561 caactctgag tgttaagcgt tgagccacca agctggtggc tctgtgtgct ctgatccgag1621 ctcagggggg tggttttccc atctcaggtg tgttgcagtg tctgctggag acattgaggc1681 aggcactgcc aaaacatcaa cctgccagct ggccttgtga ggagctggaa acacatgttc1741 cccttggggg tggtggatga acaaagagaa agagggtttg gaagccagat ctatgccaca1801 agaaccccct ttacccccat gaccaacatc gcagacacat gtgctggcca cctgctgagc1861 cccaagtgga acgagacaag cagcccttag cccttcccct ctgcagcttc caggctggcg1921 tgcagcatca gcatccctag aaagccatgt gcagccacca gtccattggg caggcagatg1981 ttcctaataa agcttctgtt ccgtgct (2) SEQ ID NO: 2558, data: (i) sequence characteristics:

(A) length: 1750 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2558 sequence description: 1 cctacaggtg aaaagcccag cgacccagtc aggatttaag tttacctcaa aaatggaaga 61 ttttaacatg gagagtgaca gctttgaaga tttctggaaa ggtgaagatc ttagtaatta 121 cagttacagc tctaccctgc ccccttttct actagatgcc gccccatgtg aaccagaatc 181 721 actgctgatc atgctgttct gctacggatt caccctgcgt acgctgttta aggcccacat 781 181 cctggaaatc aacaagtatt ttgtggtcat tatctatgcc ctggtattcc tgctgagcct 241 gctgggaaac tccctcgtga tgctggtcat cttatacagc agggtcggcc gctccgtcac 301 tgatgtctac ctgctgaacc tagccttggc cgacctactc tttgccctga ccttgcccat 361 ctgggccgcc tccaaggtga atggctggat ttttggcaca ttcctgtgca aggtggtctc 421 actcctgaag gaagtcaact tctatagtgg catcctgcta ctggcctgca tcagtgtgga 481 ccgttacctg gccattgtcc atgccacacg cacactgacc cagaagcgct acttggtcaa 541 attcatatgt ctcagcatct ggggtctgtc cttgctcctg gccctgcctg tcttactttt 601 ccgaaggacc gtctactcat ccaatgttag cccagcctgc tatgaggaca tgggcaacaa 661 tacagcaaac tggcggatgc tgttacggat cctgccccag tcctttggct tcatcgtgcc 721 actgctgatc atgctgttct gctacggatt caccctgcgt acgctgttta aggcccacat 781 ggggcagaag caccgggcca tgcgggtcat ctttgctgtc gtcctcatct tcctgctttg 841 ctggctgccc tacaacctgg tcctgctggc agacaccctc atgaggaccc aggtgatcca 901 ggagacctgt gagcgccgca atcacatcga ccgggctctg gatgccaccg agattctggg 961 catccttcac agctgcctca accccctcat ctacgccttc attggccaga agtttcgcca1021 tggactcctc aagattctag ctatacatgg cttgatcagc aaggactccc tgcccaaaga1081 cagcaggcct tcctttgttg gctcttcttc agggcacact tccactactc tctaagacct1141 cctgcctaag tgcagccccg tggggttcct cccttctctt cacagtcaca ttccaagcct1201 catgtccact ggttcttctt ggtctcagtg tcaatgcagc ccccattgtg gtcacaggaa1261 gcagaggagg ccacgttctt actagtttcc cttgcatggt ttagaaagct tgccctggtg1321 cctcacccct tgccataatt actatgtcatttgctggagc tctgcccatc ctgcccctga1381 gcccatggca ctctatgttc taagaagtga aaatctacac tccagtgaga cagctctgca1441 tactcattag gatggctagt atcaaaagaa agaaaatcag gctggccaac gggatgaaac1501 cctgtctcta ctaaaaatac aaaaaaaaaa aaaaaaatta gccgggcgtg gtggtgagtg1561 cctgtaatca cagctacttg ggaggctgag atgggagaat cacttgaacc cgggaggcag1621 aggttgcagt gagccgagat tgtgcccctg cactccagcc tgagcgacag tgagactctg1681 tctcagtcca tgaagatgta gaggagaaac tggaactctc gagcgttgct gggggggatt1741 gtaaaatggt (2) SEQ ID NO: 2559 data: (i) sequence characteristics:

(A) length: 1807 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2559 sequence description: 1 ggatccaagt aggattgagt gtcctgtagt tattatccac agggaacatt ctacaaagtt 61 ttgggagact gtaatgtcat gggaaatgca agaatatgtg tccagcatgg aagggaatca 121 gtatggaagt cttttgataa attgtggcat ttatcactaa cattgcctca aaactttaga 181 721 gaagtcaact tctacggtgg tattctacta ctggcctgcc gcagcatgga ctgttacctg 781 181 ctacctgcca tatacaaatt agaggtgaaa attacttcca tgtaatatac aagccaacac 241 aaagaatcct atcccagttt cttggatgga taggcaagaa tctgggtaag gtttattgtg 301 caataatcct cttctctctt ctataggcca ggatttaagt ttacctcaaa aatggaaaat 361 tttggctggg aaaattacat gtgggaagac atcttcagtg gagattttag taattacagt 421 ttcagctatg accctacccc ttttctacta gattctgccc catgttggcc agaatcccta 481 gaaatcaatt atgttttgat catcatctat gccctgatgt ttctactgaa cgtgatgtga 541 aactccctgc cgatgctggt catcttattc agctgagtca gccactgtca ccgatgtcta 601 cctgctgacc ctggccttgg ccgacctgtt cttttccctg acattgccca tcttggctgc 661 ctccaagatg aatggctgga tttttggcac aatctgtgcc aggtggtcta gctcctgaag 721 gaagtcaact tctacggtgg tattctacta ctggcctgcc gcagcatgga ctgttacctg 781 gccattgtcc atgccacacg cacactgacc cagcagcgcc acttggtcaa gttcatatgt 841 ctgggtttgt ggaacctgtt cctgttactg tccctacgca tcttgctttt ccgaaggacc 901 ttctacccat ccaatgttag cccagtctgc tatgaggaca tgggcaacaa tacagcaaac 961 tggtggatgc tgttacggat cctgccccag tcctttggct tcatcgtgcc gctgcgatca1021 tgctgttctg ctacagattc accctgcata cgctgtttaa ggcccatatg gggcagaagc1081 actggaccat gtgggtcatc tttgctgttg tcctcatttt cctgctctgc tggctgccct1141 acaacctggt cctgctggca gacaccctca tgggaaccca gatgaccaat gagacctgtg1201 agcgccgcaa cgacatcaac caggccctgg atgccactga gattctgggc atccttcaca1261 gctacctcaa tcccctcatc tacgccttca ttggccagaa gttttgccat ggacttctca1321 agattatagc catacacggc ttgatcagca aggactccct gcccaaagac agcaggcctt1381 cctttgttgg ctcttcttca gggcacactt ccactactct ctaagacctc ttgcctaagt1441 gcagtcccgt ggggttcctc ccttctcttc acagtcacat tccaagcctc atgtccacta1501 gctcttcttg gtctcagtgt cagtgcagcc cccactgtgg tcgcaggaag cagaggaggc1561 cacgttctta ctagtttccc ttgcatgatt tagaaagcct gccctggtac ctcacccctt1621 gccataatta ctacatcact tgctggagct ctgtccctcc tgcccttgag ctcatggcac1681 tctatgttct aagaagtgaa aatctacact ccagtgagac agctctgcat actcattagg1741 atggttaatg tcagaagaaa gaaaatcata aaatagaagg tgtccacaaa ggtgcagatg1801 ataagtg (2) SEQ ID NO: 2560 data: (i) sequence characteristics:

(A) length: 1510 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2560 sequence description: 1 gtcaggattt aagtttacct caaaaatgga agattttaac atggagagtg acagctttga 61 agatttctgg aaaggtgaag atcttagtaa ttacagttac agctctaccc tgcccccttt 121 tctactagat gccgccccat gtgaaccaga atccctggaa atcaacaagt attttgtggt 181 721 attcaccctg cgtacgctgt ttaaggccca catggggcag aagcaccggg ccatgcgggt 781 181 cattatctat gccctggtat tcctgctgag cctgctggga aactccctcg tgatgctggt 241 catcttatac agcagggtcg gccgctccgt cactgatgtc tacctgctga acctagcctt 301 ggccgaccta ctctttgccc tgaccttgcc catctgggcc gcctccaagg tgaatggctg 361 gatttttggc acattcctgt gcaaggtggt ctcactcctg aaggaagtca acttctatag 421 tggcatcctg ctactggcct gcatcagtgt ggaccgttac ctggccattg tccatgccac 481 acgcacactg acccagaagc gctacttggt caaattcata tgtctcagca tctggggtct 541 gtccttgctc ctggccctgc ctgtcttact tttccgaagg accgtctact catccaatgt 601 tagcccagcc tgctatgagg acatgggcaa caatacagca aactggcgga tgctgttacg 661 gatcctgccc cagtcctttg gcttcatcgt gccactgctg atcatgctgt tctgctacgg 721 attcaccctg cgtacgctgt ttaaggccca catggggcag aagcaccggg ccatgcgggt 781 catctttgct gtcgtcctca tcttcctgct ttgctggctg ccctacaacc tggtcctgct 841 ggcagacacc ctcatgagga cccaggtgat ccaggagacc tgtgagcgcc gcaatcacat 901 cgaccgggct ctggatgcca ccgagattct gggcatcctt cacagctgcc tcaaccccct 961 catctacgcc ttcattggcc agaagtttcg ccatggactc ctcaagattc tagctataca1021 tggcttgatc agcaaggact ccctgcccaa agacagcagg ccttcctttg ttggctcttc1081 ttcagggcac acttccacta ctctctaaga cctcctgcct aagtgcagcc cgtggggttc1141 ctcccttctc ttcacagtca cattccaagc ctcatgtcca ctggttcttc ttggtctcag1201 tgtcaatgca gcccccattg tggtcacagg aagcagagga ggccacgttc ttactagttt1261 cccttgcatg gtttagaaag cttgccctgg tgcctcaccc cttgccataa ttactatgtc1321 atttgctgga gctctgccca tcctgcccct gagcccatgg cactctatgt tctaagaagt1381 gaaaatctac actccagtga gacagctctg catactcatt aggatggcta gtatcaaaag1441 aaagaaaatc aggctggcca acgggatgaa accctgtctc tactaaaaat acaaaaaaaa1501 aaaaaaaaaa (2) SEQ ID NO: 2561 data: (i) sequence characteristics:

(A) length: 2245 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2561 sequence description: 1 gggagaaaca tagggaatag aaaataagta agaaggggac acctgggaac aggtttgcct 61 tcttgcattt tgcttaatgc tggcccttcc ctgaatgtct aagaccaacc tggtccccac 121 atccaaatgc acagacacag ctgaggatgg agaaggctaa agagggacag aggtagagac 181 721 atgtctacct gctgaacctg gccttggccg acctactctt tgccctgacc ttgcccatct 781 181 ataggctgag aggaggcagt tgtaggttga gctagggcta aggtgttttc cccatattcc 241 atcttacccc acactcaggc caggccttag agttgtggaa ggtggagaac actgggaagc 301 caacctccga agaagaccag gttggagtca aaggaggaag gagagctctc attgccaaac 361 caacagggaa gccaaggata tcccagtaac tgctctcaca tcattgatga gaatgccttg 421 aatccgagct actaaatcac atttccttcc ttctaacctt ccagttagat caaaccattg 481 ctgaaactga agaggacatg tcaaatatta cagatccaca gatgtgggat tttgatgatc 541 taaatttcac tggcatgcca cctgcagatg aagattacag cccctgtatg ctagaaactg 601 agacactcaa caagtatgtt gtgatcatcg cctatgccct agtgttcctg ctgagcctgc 661 tgggaaactc cctggtgatg ctggtcatct tatacagcag ggtcggccgc tccgtcactg 721 atgtctacct gctgaacctg gccttggccg acctactctt tgccctgacc ttgcccatct 781 gggccgcctc caaggtgaat ggctggattt ttggcacatt cctgtgcaag gtggtctcac 841 tcctgaagga agtcaacttc tacagtggca tcctgctgtt ggcctgcatc agtgtggacc 901 gttacctggc cattgtccat gccacacgca cactgaccca gaagcgtcac ttggtcaagt 961 ttgtttgtct tggctgctgg ggactgtcta tgaatctgtc cctgcccttc ttccttttcc1021 gccaggctta ccatccaaac aattccagtc cagtttgcta tgaggtcctg ggaaatgaca1081 cagcaaaatg gcggatggtg ttgcggatcc tgcctcacac ctttggcttc atcgtgccgc1141 tgtttgtcat gctgttctgc tatggattca ccctgcgtac actgtttaag gcccacatgg1201 ggcagaagca ccgagccatg agggtcatct ttgctgtcgt cctcatcttc ctgctttgct1261 ggctgcccta caacctggtc ctgctggcag acaccctcat gaggacccag gtgatccagg1321 agagctgtga gcgccgcaac aacatcggcc gggccctgga tgccactgag attctgggat1381 ttctccatag ctgcctcaac cccatcatct acgccttcat cggccaaaat tttcgccatg1441 gattcctcaa gatcctggct atgcatggcc tggtcagcaa ggagttcttg gcacgtcatc1501 gtgttacctc ctacacttct tcgtctgtca atgtctcttc caacctctga aaaccatcga1561 tgaaggaata tctcttctca gaaggaaaga ataaccaaca ccctgaggtt gtgtgtggaa1621 ggtgatctgg ctctggacag gcactatctg ggttttgggg ggacgctata ggatgtgggg1681 aagttaggaa ctggtgtctt caggggccac accaaccttc tgaggagctg ttgaggtacc1741 tccaaggacc ggcctttgca cctccatgga aacgaagcac catcattccc gttgaacgtc1801 acatctttaa cccactaact ggctaattag catggccaca tctgagcccc gaatctgaca1861 ttagatgaga gaacagggct gaagctgtgt cctcatgagg gctggatgct ctcgttgacc1921 ctcacaggag catctcctca actctgagtg ttaagcgttg agccaccaag ctggtggctc1981 tgtgtgctct gatccgagct caggggggtg gttttcccat ctcaggtgtg ttgcagtgtc2041 tgctggagac attgaggcag gcactgccaa aacatcaacc tgccagctgg ccttgtgagg2101 agctggaaac acatgttccc cttgggggtg gtggatgaac aaagagaaagagggtttgga2161 agccagatct atgccacaag aacccccttt acccccatga ccaacatcgc agacacatgt2221 gctggccacc tgctgagccc caagt (2) SEQ ID NO: 2562 data: (i) sequence characteristics:

(A) length: 9319 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2562 sequence description: 1 tattcatcaa gtgccctcta gctgttaagt cactctgatc tctgactgca gctcctactg 61 ttggacacac ctggccggtg cttcagttag atcaaaccat tgctgaaact gaagaggaca 121 tgtcaaatat tacagatcca cagatgtggg attttgatga tctaaatttc actggcatgc 181 721 tgttgcggat cctgcctcac acctttggct tcatcgtgcc gctgtttgtc atgctgttct 781 181 cacctgcaga tgaagattac agcccctgta tgctagaaac tgagacactc aacaagtatg 241 ttgtgatcat cgcctatgcc ctagtgttcc tgctgagcct gctgggaaac tccctggtga 301 tgctggtcat cttatacagc agggtcggcc gctccgtcac tgatgtctac ctgctgaacc 361 tggccttggc cgacctactc tttgccctga ccttgcccat ctgggccgcc tccaaggtga 421 atggctggat ttttggcaca ttcctgtgca aggtggtctc actcctgaag gaagtcaact 481 tctacagtgg catcctgctg ttggcctgca tcagtgtgga ccgttacctg gccattgtcc 541 atgccacacg cacactgacc cagaagcgtc acttggtcaa gtttgtttgt cttggctgct 601 ggggactgtc tatgaatctg tccctgccct tcttcctttt ccgccaggct taccatccaa 661 acaattccag tccagtttgc tatgaggtcc tgggaaatga cacagcaaaa tggcggatgg 721 tgttgcggat cctgcctcac acctttggct tcatcgtgcc gctgtttgtc atgctgttct 781 gctatggatt caccctgcgt acactgttta aggcccacat ggggcagaag caccgagcca 841 tgagggtcat ctttgctgtc gtcctcatct tcctgctttg ctggctgccc tacaacctgg 901 tcctgctggc agacaccctc atgaggaccc aggtgatcca ggagagctgt gagcgccgca 961 acaacatcgg ccgggccctg gatgccactg agattctggg atttctccat agctgcctca1021 accccatcat ctacgccttc atcggccaaa attttcgcca tggattcctc aagatcctgg1081 ctatgcatgg cctggtcagc aaggagttct tggcacgtca tcgtgttacc tcctacactt1141 cttcgtctgt caatgtctct tccaacctct gaaaaccatc gatgaaggaa tatctcttct1201 cagaaggaaa gaataaccaa caccctgagg ttgtgtgtgg aaggtgatct ggctctggac1261 aggcactatc tgggttttgg ggggacgcta taggatgtgg ggaagttagg aactggtgtc1321 ttcaggggcc acaccaacct tctgaggagc tgttgaggta cctccaagga ccggcctttg1381 cacctccatg gaaacgaagc accatcattc ccgttgaacg tcacatcttt aacccactaa1441 ctggctaatt agcatggcca catctgagcc ccgaatctga cattagatga gagaacaggg1501 ctgaagctgt gtcctcatga gggctggatg ctctcgttga ccctcacagg agcatctcct1561 caactctgag tgttaagcgt tgagccacca agctggtggc tctgtgtgct ctgatccgag1621 ctcagggggg tggttttccc atctcaggtg tgttgcagtg tctgctggag acattgaggc1681 aggcactgcc aaaacatcaa cctgccagct ggccttgtga ggagctggaa acacatgttc1741 cccttggggg tggtggatga acaaagagaa agagggtttg gaagccagat ctatgccaca1801 agaaccccct ttacccccat gaccaacatc gcagacacat gtgctggcca cctgctgagc1861 cccaagtgga acgagacaag cagcccttag cccttcccct ctgcagcttc caggctggcg1921 tgcagcatca gcatccctag aaagccatgt gcagccacca gtccattggg caggcagatg1981 ttcctaataa agcttctgtt ccgtgct 1 cctacaggtg aaaagcccag cgacccagtc aggatttaag tttacctcaa aaatggaaga 61 ttttaacatg gagagtgaca gctttgaaga tttctggaaa ggtgaagatc ttagtaatta 121 cagttacagc tctaccctgc ccccttttct actagatgcc gccccatgtg aaccagaatc 181 cctggaaatc aacaagtatt ttgtggtcat tatctatgcc ctggtattcc tgctgagcct 241 gctgggaaac tccctcgtga tgctggtcat cttatacagc agggtcggcc gctccgtcac 301 tgatgtctac ctgctgaacc tagccttggc cgacctactc tttgccctga ccttgcccat 361 ctgggccgcc tccaaggtga atggctggat ttttggcaca ttcctgtgca aggtggtctc 421 actcctgaag gaagtcaact tctatagtgg catcctgcta ctggcctgca tcagtgtgga 481 ccgttacctg gccattgtcc atgccacacg cacactgacc cagaagcgct acttggtcaa 541 attcatatgt ctcagcatct ggggtctgtc cttgctcctg gccctgcctg tcttactttt 601 ccgaaggacc gtctactcat ccaatgttag cccagcctgc tatgaggaca tgggcaacaa 661 tacagcaaac tggcggatgc tgttacggat cctgccccag tcctttggct tcatcgtgcc 721 39 721 actgctgatc atgctgttct gctacggatt caccctgcgt acgctgttta aggcccacat 781 ggggcagaag caccgggcca tgcgggtcat ctttgctgtc gtcctcatct tcctgctttg 841 ctggctgccc tacaacctgg tcctgctggc agacaccctc atgaggaccc aggtgatcca 901 ggagacctgt gagcgccgca atcacatcga ccgggctctg gatgccaccg agattctggg 961 catccttcac agctgcctca accccctcat ctacgccttc attggccaga agtttcgcca1021 tggactcctc aagattctag ctatacatgg cttgatcagc aaggactccc tgcccaaaga1081 cagcaggcct tcctttgttg gctcttcttc agggcacact tccactactc tctaagacct1141 cctgcctaag tgcagccccg tggggttcct cccttctctt cacagtcaca ttccaagcct1201 catgtccact ggttcttctt ggtctcagtg tcaatgcagc ccccattgtg gtcacaggaa1261 gcagaggagg ccacgttctt actagtttcc cttgcatggt ttagaaagct tgccctggtg1321 cctcacccct tgccataatt actatgtcat ttgctggagc tctgcccatc ctgcccctga1381 gcccatggca ctctatgttc taagaagtga aaatctacac tccagtgaga cagctctgca1441 tactcattag gatggctagt atcaaaagaa agaaaatcag gctggccaac gggatgaaac1501 cctgtctcta ctaaaaatac aaaaaaaaaa aaaaaaatta gccgggcgtg gtggtgagtg1561 cctgtaatca cagctacttg ggaggctgag atgggagaat cacttgaacc cgggaggcag1621 aggttgcagt gagccgagat tgtgcccctg cactccagcc tgagcgacag tgagactctg1681 tctcagtcca tgaagatgta gaggagaaac tggaactctc gagcgttgct gggggggatt1741 gtaaaatggt 1 ggatccaagt aggattgagt gtcctgtagt tattatccac agggaacatt ctacaaagtt 61 ttgggagact gtaatgtcat gggaaatgca agaatatgtg tccagcatgg aagggaatca 121 gtatggaagt cttttgataa attgtggcat ttatcactaa cattgcctca aaactttaga 181 ctacctgcca tatacaaatt agaggtgaaa attacttcca tgtaatatac aagccaacac 241 aaagaatcct atcccagttt cttggatgga taggcaagaa tctgggtaag gtttattgtg 301 caataatcct cttctctctt ctataggcca ggatttaagt ttacctcaaa aatggaaaat 361 tttggctggg aaaattacat gtgggaagac atcttcagtg gagattttag taattacagt 421 ttcagctatg accctacccc ttttctacta gattctgccc catgttggcc agaatcccta 481 gaaatcaatt atgttttgat catcatctat gccctgatgt ttctactgaa cgtgatgtga 541 aactccctgc cgatgctggt catcttattc agctgagtca gccactgtca ccgatgtcta 601 cctgctgacc ctggccttgg ccgacctgtt cttttccctg acattgccca tcttggctgc 661 ctccaagatg aatggctgga tttttggcac aatctgtgcc aggtggtcta gctcctgaag 721 gaagtcaact tctacggtgg tattctacta ctggcctgcc gcagcatgga ctgttacctg 781 gccattgtcc atgccacacg cacactgacc cagcagcgcc acttggtcaa gttcatatgt 841 ctgggtttgt ggaacctgtt cctgttactg tccctacgca tcttgctttt ccgaaggacc 901 ttctacccat ccaatgttag cccagtctgc tatgaggaca tgggcaacaa tacagcaaac 961 tggtggatgc tgttacggat cctgccccag tcctttggct tcatcgtgcc gctgcgatca1021 tgctgttctg ctacagattc accctgcata cgctgtttaa ggcccatatg gggcagaagc1081 actggaccat gtgggtcatc tttgctgttg tcctcatttt cctgctctgc tggctgccct1141 acaacctggt cctgctggca gacaccctca tgggaaccca gatgaccaat gagacctgtg1201 agcgccgcaa cgacatcaac caggccctgg atgccactga gattctgggc atccttcaca1261 gctacctcaa tcccctcatc tacgccttca ttggccagaa gttttgccat ggacttctca1321 agattatagc catacacggc ttgatcagca aggactccct gcccaaagac agcaggcctt1381 cctttgttgg ctcttcttca gggcacactt ccactactct ctaagacctc ttgcctaagt1441 gcagtcccgt ggggttcctc ccttctcttc acagtcacat tccaagcctc atgtccacta1501 gctcttcttg gtctcagtgt cagtgcagcc cccactgtgg tcgcaggaag cagaggaggc1561 cacgttctta ctagtttccc ttgcatgatt tagaaagcct gccctggtac ctcacccctt1621 gccataatta ctacatcact tgctggagct ctgtccctcc tgcccttgag ctcatggcac1681 tctatgttct aagaagtgaa aatctacact ccagtgagac agctctgcat actcattagg1741 atggttaatg tcagaagaaa gaaaatcata aaatagaagg tgtccacaaa ggtgcagatg1801 ataagtg 1 gtcaggattt aagtttacct caaaaatgga agattttaac atggagagtg acagctttga 61 agatttctgg aaaggtgaag atcttagtaa ttacagttac agctctaccc tgcccccttt 121 tctactagat gccgccccat gtgaaccaga atccctggaa atcaacaagt attttgtggt 181 cattatctat gccctggtat tcctgctgag cctgctggga aactccctcg tgatgctggt 241 catcttatac agcagggtcg gccgctccgt cactgatgtc tacctgctga acctagcctt 301 ggccgaccta ctctttgccc tgaccttgcc catctgggcc gcctccaagg tgaatggctg 361 gatttttggc acattcctgt gcaaggtggt ctcactcctg aaggaagtca acttctatag 421 tggcatcctg ctactggcct gcatcagtgt ggaccgttac ctggccattg tccatgccac 481 acgcacactg acccagaagc gctacttggt caaattcata tgtctcagca tctggggtct 541 gtccttgctc ctggccctgc ctgtcttact tttccgaagg accgtctact catccaatgt 601 tagcccagcc tgctatgagg acatgggcaa caatacagca aactggcgga tgctgttacg 661 gatcctgccc cagtcctttg gcttcatcgt gccactgctg atcatgctgt tctgctacgg 721 attcaccctg cgtacgctgt ttaaggccca catggggcag aagcaccggg ccatgcgggt 781 catctttgct gtcgtcctca tcttcctgct ttgctggctg ccctacaacc tggtcctgct 841 539 841 ggcagacacc ctcatgagga cccaggtgat ccaggagacc tgtgagcgcc gcaatcacat 901 cgaccgggctctggatgcca ccgagattct gggcatcctt cacagctgcc tcaaccccct 961 catctacgcc ttcattggcc agaagtttcg ccatggactc ctcaagattc tagctataca1021 tggcttgatc agcaaggact ccctgcccaa agacagcagg ccttcctttg ttggctcttc1081 10835 1081 ttcagggcac acttccacta ctctctaaga cctcctgcct aagtgcagcc cgtggggttc1141 ctcccttctc ttcacagtca cattccaagc ctcatgtcca ctggttcttc ttggtctcag1201 tgtcaatgca gcccccattg tggtcacagg aagcagagga ggccacgttc ttactagttt1261 cccttgcatg gtttagaaag cttgccctgg tgcctcaccc cttgccataa ttactatgtc1321 atttgctgga gctctgccca tcctgcccct gagcccatgg cactctatgt tctaagaagt1381 gaaaatctac actccagtga gacagctctg catactcatt aggatggcta gtatcaaaag1441 aaagaaaatc aggctggcca acgggatgaa accctgtctc tactaaaaat acaaaaaaaa1501 aaaaaaaa1 gggagaaaca tagggaatag aaaataagta agaaggggac acctgggaac aggtttgcct 61 tcttgcattt tgcttaatgc tggcccttcc ctgaatgtct aagaccaacc tggtccccac 121 atccaaatgc acagacacag ctgaggatgg agaaggctaa agagggacag aggtagagac 181 ataggctgag aggaggcagt tgtaggttga gctagggcta aggtgttttc cccatattcc 241 atcttacccc acactcaggc caggccttag agttgtggaa ggtggagaac actgggaagc 301 caacctccga agaagaccag gttggagtca aaggaggaag gagagctctc attgccaaac 361 caacagggaa gccaaggata tcccagtaac tgctctcaca tcattgatga gaatgccttg 421 aatccgagct actaaatcac atttccttcc ttctaacctt ccagttagat caaaccattg 481 ctgaaactga agaggacatg tcaaatatta cagatccaca gatgtgggat tttgatgatc 541 taaatttcac tggcatgcca cctgcagatg aagattacag cccctgtatg ctagaaactg 601 agacactcaa caagtatgtt gtgatcatcg cctatgccct agtgttcctg ctgagcctgc 661 tgggaaactc cctggtgatg ctggtcatct tatacagcag ggtcggccgc tccgtcactg 721 atgtctacct gctgaacctg gccttggccg acctactctt tgccctgacc ttgcccatct 781 gggccgcctc caaggtgaat ggctggattt ttggcacatt cctgtgcaag gtggtctcac 841 tcctgaagga agtcaacttc tacagtggca tcctgctgtt ggcctgcatc agtgtggacc 901 gttacctggc cattgtccat gccacacgca cactgaccca gaagcgtcac ttggtcaagt 961 ttgtttgtct tggctgctgg ggactgtcta tgaatctgtc cctgcccttc ttccttttcc1021 gccaggctta ccatccaaac aattccagtc cagtttgcta tgaggtcctg ggaaatgaca1081 cagcaaaatg gcggatggtg ttgcggatcc tgcctcacac ctttggcttc atcgtgccgc1141 tgtttgtcat gctgttctgc tatggattca ccctgcgtac actgtttaag gcccacatgg1201 ggcagaagca ccgagccatg agggtcatct ttgctgtcgt cctcatcttc ctgctttgct1261 ggctgcccta caacctggtc ctgctggcag acaccctcat gaggacccag gtgatccagg1321 132 1321 agagctgtga gcgccgcaac aacatcggcc gggccctgga tgccactgag attctgggat1381 ttctccatag ctgcctcaac cccatcatct acgccttcat cggccaaaat tttcgccatg1441 gattcctcaa gatcctggct atgcatggcc tggtcagcaa ggagttcttg gcacgtcatc1501 gtgttacctc ctacacttct tcgtctgtca atgtctcttc caacctctga aaaccatcga1561 tgaaggaata tctcttctca gaaggaaaga ataaccaaca ccctgaggtt gtgtgtggaa1621 ggtgatctgg ctctggacag gcactatctg ggttttgggg ggacgctata ggatgtgggg1681 aagttaggaa ctggtgtctt caggggccac accaaccttc tgaggagctg ttgaggtacc1741 tccaaggacc ggcctttgca cctccatgga aacgaagcac catcattccc gttgaacgtc1801 acatctttaa cccactaact ggctaattag catggccaca tctgagcccc gaatctgaca1861 ttagatgaga gaacagggct gaagctgtgt cctcatgagg gctggatgct ctcgttgacc1921 192 1921 ctcacaggag catctcctca actctgagtg ttaagcgttg agccaccaag ctggtggctc1981 tgtgtgctct gatccgagct caggggggtg gttttcccat ctcaggtgtg ttgcagtgtc2041 1 2041 tgctggagac attgaggcag gcactgccaa aacatcaacc tgccagctgg ccttgtgagg2101 agctggaaac acatgttccc cttgggggtg gtggatgaac aaagagaaag agggtttgga2161 agccagatct atgccacaag aacccccttt acccccatga ccaacatcgc agacacatgt2221 gctggccacc tgctgagccc caagt (2) SEQ ID NO: 2563 data: (i) sequence characteristics:

(A) length: 591 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2563 sequence description: 1 ccgctgtcaa gatgcttctg gccatggtcc ttacctctgc cctgctcctg tgctccgtgg 61 caggccaggg gtgtccaacc ttggcgggga tcctggacat caacttcctc atcaacaaga 121 tgcaggaaga tccagcttcc aagtgccact gcagtgctaa tgtgaccagt tgtctctgtt 181 tgggcattcc ctctgacaac tgcaccagac catgcttcag tgagagactg tctcagatga 241 ccaataccac catgcaaaca agatacccac tgattttcag tcgggtgaaa aaatcagttg 301 aagtactaaa gaacaacaag tgtccatatt tttcctgtga acagccatgc aaccaaacca 361 cggcaggcaa cgcgctgaca tttctgaaga gtcttctgga aattttccag aaagaaaaga 421 tgagagggat gagaggcaag atatgaagat gaaatattat ttatcctatt tattaaattt 481 aaaaagcttt ctctttaagt tgctacaatt taaaaatcaa gtaagctact ctaaatcagt 541 atcagttgtg attatttgtt taacattgta tgtctttatt ttgaaataaa t (2) SEQ ID NO: 2564 data: (i) sequence characteristics:

(A) length: 2810 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2564 sequence description: 1 atatatatat gcataatagt ctctgtgtaa cagtaagtgg atgcagtaac tggtgtgagg 61 gcaacttgga gagtgtgctt ggaggcacag agatgctcag ggctgcctgg actgcctcca 121 tgatggtggc ctgctctgta ttaggtgagt gttcaggaaa ggtgagggca gggcagccca 181 721 agaggtgtca ggagccaggt attgggcagg tcccaggtct ctgagcctca gtttcttcat 781 181 cagcttcaca gtggcccagg gaagcagggc aggcaggcta tgaggcctag taggcatctg 241 ggccagactt tgacactgag gccatggaat gggtggggct ctgagaacag acccaagtga 301 tcatgggctg aaggctatgt ccacagatcc aaggcgggat aggctgtact gggcagtgat 361 gtcagccagg ctccccagcg ggactggggg tgtcaggggc agctctgtcc caggtggcag 421 acactggttt cccctcctgc tctcacaacc ggcctgttac caggtgttgt ctgagctgtg 481 gtgaggcttc cctggtgaca ttcaggagca gggagcctgc gagtaagggt gtatgcatct 541 gccctgactg cctggccctg tggtcaagga tgggggaagg cagctctgcc tgcagctcca 601 ccccatttat aaagcactgt ggtgccttct gctgggacat gtgctgagtg gtgcctcgca 661 ggcactgccc tcgggaagtt cacaggctta tgtggaagct ggtgggaatg ggccaagaag 721 agaggtgtca ggagccaggt attgggcagg tcccaggtct ctgagcctca gtttcttcat 781 ctgtaggagg gtggtgaccc tgccctgctc agcttaccag gtacagatgt aagttttcag 841 tgcagaggaa aagcagagaa cttcccctca gatggccata cccccttgtc gctgtaccca 901 actctccggt cctactttgt agctctcagg tgtcacatgt ggatcctgcc ctaccatccc 961 ccttgccctg tctagaaacg aggcctgctg agcttggaac catcccactc cctgctctca1021 agccgtctgc tcctgggtta gcctgtggct gacctggcct gattctacat agatgtgggt1081 gtttctccac tgctggggca gcagttgtccattctggggc ctgggtcagc tctcagctgt1141 ggccgttgtg cctgtgcttc cccaggtcct ggtggtgact ccaaccctgc cctcacatat1201 cccaagagca ggctgactgc cttccccatt cccacctttc cagtaactgc tgcaagaacg1261 gacagacact gctgcagaga acttgccacg gtgtttcatg ctgtggctgg tggttccagg1321 ctgcacgctc cattctagga aagggtgagg cttcctgatc atcagtctta acaggggact1381 gtcctatggg tacctgtata cgctgccggg agtggggcag agtggggtta gagtagtgcc1441 tgctgcccat tggggttgtg cgggttcctt aagggctgta gtctgtgtgc gtgtctggtt1501 ttttcctcct ccttatcagt aatcagtctt gtataaccag gctggccctg cttcctgcct1561 aggggctatc ggtgtaccat ctggagttgc aaatggggtg atagggcgtc agcggccttc1621 ccacacccaa gcacttcctg acacccagcc cctcatctct agccaacctc tggctcccct1681 agggatcctg gggctcaggc ctcacgctcc agcatccggg ggctttgccc ttctggtgtt1741 gctcttcttt gcaggtgcct tggaacaggg gtgcaacaga gttcagaaag tgccatctgt1801 tgcatggata ccctgctgcc accctcgtcc acctttctgg ggcagaacag ttggatgggt1861 ctttatttaa gaggacaaaa gggagagaga atgcatagag gctgggtctg gtggctcacg1921 cctgtaatcc caacactttg ggaggccaag gcaggtggat cccttgaggt caggaggtca1981 agactagcct ggccaacatg gtgaaacccc gtctctacta aaaatacaaa aaaaaaaaaa2041 ttagctgggc atggcgggag atgcctgtaa tcccagctac tcgggaggct gaggcaggat2101 aatcacttga acccaggagg cggaggttgc agtgagccaa gatcacacca ctgcactcta2161 gcctgggtga cagagggaga ctgtctcaaa aaaaaaaatt tgcttagaat ttgtctgtgt2221 gaccctgggc aagtcatttc ccctccttgg gactcagttc cttgcctgtg aacggggaca2281 gtgcttctcc cttacagagc tgttgtgaga attaaagtag aaaatgtacc tatggtggtt2341 gttggtagtg accagttccc ccaaccctga ctcccctgca ggatggggcc tgggcccggg2401 aatgggggat gggctggcag aggatgactg tcccagagag gagtcttctc ggcagatgtg2461 gagacctagc tgagtcagag gccaggatct aagtttgagg gtgttcctta caccctgcag2521 ccatgagtct ttggctgagt caaatggcct ttctgagctc agttccttat cagtaaagcc2581 tggacagtgg tccaggacgc tggacactgt gtgagtgtta ggacacagga cactgtgtga2641 gtgcaggtgg ggacccatgg agcactctgc tggggagcaa ttcatgggga gcacccctcc2701 agagagggat gatttgcaca gggccctcag cccagtccct tgcaggctgg accttggaga2761 27 2761 gtgaggccct gaggcgagac atgggcacct ggctcctggc ctgcatctgc (2) SEQ ID NO: 2565 data: (i) sequence characteristics:

(A) length: 17073 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2565 sequence description: 1 ggatccatgc ccagaattat tcacgaaatt cacttaaaat agcatatatg cttgaaccca 61 ggagtctgag gctgcagcga gctatgatca tgtcactgca ctccagccca gcctgggcga 121 cagagcaaga ctctgtgtct aaagaaatga aaataaaaat aaataaaata gcatatacag 181 721 aatcatctga acccgggagg ccgaggttgc agtgagccta gatcgcacca ctgcactcca 781 181 gcaacaatcc aaatgttcat tgcagaaatt atgattatta ttgtttttct tttagaggca 241 gggtgtcact ctgttgccca gactaatctt gacctcctgt gatcctcaag agatcctccg 301 gtctctgctt cccaaagttc ttggattaca ggtgtgaggc actgggccta gacattgcag 361 ggattattaa accatggtgc atactaccat taaaggtatg aggtaggttt tatatgctga 421 cctagaaaga tggtgcaaca ccatagggga acaagaaggc tgcaaagtgg cagcacagca 481 ggagtcttta agaaataggt atttgtttca gcttaagaag tgtctggctg ggcgtggtgg 541 ctcacacctg taatcccagc acttagggag gcttaggtgg gcggatcact tgaggttagg 601 agttcaagac cagcccagtc aacaccggtg aaaccccatc tctactaaaa atacaaagaa 661 attagctggg cttggtggca ggtggctgta atcccagcta ctcaggagct gaggcaggag 721 aatcatctga acccgggagg ccgaggttgc agtgagccta gatcgcacca ctgcactcca 781 gcctgggtga cagagtaaga ctcggtcaaa aaaaaaaaaa aaaaagaccg ggtgcgaggt 841 ctctcgcctg taatcccagc actttgggag gcctaggcag gaggatcaca aggtcaggag 901 atcgagacca tcctggccaa catggtgaaa ccccatctct actaaaatac aaaaattagc 961 cgggtgtgat ggcacacgcc tgtagtccca gctactcagg aggctgaggc aggggaatcg1021 cttgaaacca ggaggtggag gctgcagtga gccgagatca cgccactgca ctccagcctg1081 gcgacagagc aagactccat ctcaaaaaag aaaagaaaac aaacaaacaa acaaaatccc1141 caaaaagcaa aagtgtctgc atggacttgt gcctaactac tcacagtggc tacttcttgg1201 gggaggtgaa aggggaccct gttaaagaat ttttcttctg tattgttttt cttcaactga1261 gtctgcatta attttatatt taatactctc cccacccctg atgctcacag gttgctttag1321 ctggtggaag gagaacctgc acctctggtt ttggcaaagt gtagaagggg acaagggcac1381 tgctctgcac ctgcacaggt tcttgcctcc tggggtcagt ttaatgaatc tcagtggtgt1441 ttcttgggaa gaacacagtg gacactcact tgccagtcag tagacaaatc actgaagtcc1501 atgtctggca gttctcaatg tcatggggac tgtaaggttg tcatgtctca cagttccctg1561 acttagaaga ttagtggtga cagacacttc tcagctctgc tcgggagagc agctctgtaa1621 tgcgcttgtg gtttcagatg tgggcggcct gtgtgaacct gtcgtgcaaa gctcacgtca1681 ccaactgctg cagttatctc ctgaatcagg ctgagggtct ttgctgtgca cccagagata1741 gttgggtgac aaatcacctc caggttgggg atgcctcaga cttgtgatgg gactgggcag1801 atgcatctgg gaaggtgagt ctgtgctttg ggcttcccaa cctctcaagt cagcatgaaa1861 ttcagaaggc agagagggac atgtggccct ccaactcggg gcccagggag ccactgtggc1921 atttgagagc gccaccctag ctttacctcc tctggtgtcc tggccttgtg tatctcttag1981 agatggcaaa atttgcagcc ctgacctcaa ggattacaaa ctaatttcca gtcctgtagg2041 ggtcatgggt tctgctgtgg ccagtgtggc actgagtttg tcaggcagaa tttctaatta2101 tggaaggaac tctgcttcct cagtgattga actgaccttt gtgggggtgc ctttgtgggg2161 tgagaatggg catacttggg cctcagttgt gatggccatg gggtggagct gaggtctagg2221 cccagggctg ggaaagcttc taccaacccc gaggcatttg ggtgttttag ggcagaagag2281 gagccaggag gatgggtatg ccccactgga gctgtgtgtg gggcagcagg tgagggtggg2341 attccagagg gagggtcaac ccagccaagc agaggaaggg gaggagaggg tttgttttgg2401 aaagaacatc accctctcag tttcctgggg tctggatagc ctgttcttgt gatgagctgg2461 aggatgtggg ccctgcttgg atcctcctct cccctccctg cccccatttt ctcttcctgt2521 gatttatgct gttctgggct caccctcttc ccagagctct cacgctacag ctgacaggca2581 gggcaggcgt tttaattatt attaattttt ttttgagaca gagtttgaga cagtatcaag2641 agtgggtatc ctctcagcgt gtcttcaagt agcatcccag agccccgctc ctgggtaccc2701 acaacatgaa caccgtccag aagcaagggc agcctctgca ggtggggcgg gggttggaaa2761 acatttatca aacggttgag ttgggtgcag gggatgcaac atgatcaaac agggtcttgc2821 ctccaggagc ctcatgtagg gacaacgcac agtgatgacc ttcaactgca gtggggcagc2881 aaggctgtgg gaggggtgtt ttgggcagag caggcgacgt gggtacctct tcaccaagac2941 agcaggaaga gcacggacat cattttcccg tctcacctcc agactcccag gggactgtgc3001 caatatcctc actggagccc tgcccatggc cactgctcaa cccttgggcc ctgtcagttc3061 agggctgtgc agaaggagag ttgcctgtgc tcaggctcag gggttccgtc cagctaagga3121 ggcctactag gggactgggg aaaggcctca tgaaggacca ggcctgtgat ggggagggaa3181 gatggcagag gggacagtgg gaagcagagc agcaggggtc tcctccacgc ctctctgtac3241 ttctcccacc cacccttgcc tgctcccctc tgccctgggt atgtgccctt gtccacccaa3301 cacctctgca gtgccaagtc cagccctgac ttcttcctga gctgtggccc agcgttccca3361 caggcattta cctcacggat gcagcactgc ccctcatcct cttctctgaa agtgtgtggg3421 aaatgcttct tggtgccatc tctctcccac cctgccttcc ctgcaccttc tctatgaggt3481 gtctgttgtc tctgtacttg cctccagctg gcctttcaga ccccatccct ccctgcctcc3541 593601 ccactgtgct gaaggaagtc ctcatgtggt ccagagaggg agctggcccc tgctcccatt3661 tccagcacca ttttctggca caggctccat gtccccaggc tccagctgct tctggggtac3721 caaggtctgc atttcttcct cttcccccag cagacagaag accttgctgg acaggtgtcc3781 acttcaatag taacttctga ggctgccagc ctcctgaatg gtccagaaga accagaccct3841 tccccgcccc cattaaaaaa gacaaaatat ggccaggcat gttggctcat gcctgacatc3901 ccagcacttt gggaggccaa agcaggtgaa tcacttgagg ccaggagtac gagaccagcc 398661 tgacaaacat ggtgaaaccc tgtgtctact aaaaatacaa aaattagcca ggcgtggtga4021 ctcatgcttg taaatgcttg taatcccagc tacttgggag gctgaagcag gaggatcact tgaactcggg aggcagaggt tgcagtgagc cgagatcacg ccactgtgtt ccagcctgag4141 cgacagagcg acactccgtc taaaaaaaaa aaatatatat atatatacac acatatatat4201 atgcataata gtctctgtgt aacagtaagt ggatgcagta actggtgtga gggcaacttg4261 gagagtgtgc ttggaggcac agagatgctc agggctgcct ggactgcctc catgatggtg4321 gcctgctctg tattaggtga gtgttcagga aaggtgaggg cagggcagcc cacagcttca4381 cagtggccca gggaagcagg gcaggcaggc tatgaggcct agtaggcatc tgggccagac4441 tttgacactg aggccatgga atgggtgggg ctctgagaac agaccaaagt gatcatgggc4501 tgaaggctat gtccacagat ccaaggcggg ataggctgtg ctgggcagtg atgtcagcca4561 ggctccccag cgggactggg ggtgtcaggg gcagctctgt cccaggtggc agacactggt4621 ttcccctcct gctctcacaa ccggcctgtt accaggtgtt gtctgagctg tggtgaggct4681 tccctggtga cattcaggag cagggagcct gtgagtaagg gtgtatgcat ctgccctgac4741 tgcctggccc tgtggtcaag gatgggggaa ggcagctctg cctgcagctc caccccattt4801 ataaagcact gtggtgcctt ctgctggggc atgtgctgag tggtgcctcg caggcactgc4861 cctcgggaag ttcacaggct tatgtggaag ctggtgggaa tgggccaaga agagaggtgt4921 caggagccag gtattgggca ggtcccaggt ctctgagcct cagtttcttc atctgtagga4981 gggtggtgac cctgccctgc tcagcttacc aggtacagat gtaagttttc agtgcagagg5041 aaaagcagag aagttcccct cagatggcca tacccccttg tcgctgtacc caactctccg5101 gtcctacttt gtagctctca ggtgtcacat gtggatcctg ccctaccatc ccccttccct5161 51 5161 gtctagaaac gaggcctgct gagcttggag ccatcccact ccctgctctc aagccgtctg5221 ctcctgggtt agcctgtggc tggcctggcc tgattctaca tagatgtggg tgtttctcca5281 829 5281 ctgctggggc agcagttgtc cattctgggg cctgggtcag ctctcagctg tggccgttgt5341 gcctgtgctt ccccaggtcc tggtggtgac tccaaccctg ccctcacata tcccaagagc5401 aggctgactg ccttccccat tcccaccttt ccagtaactg ctgcaagaac ggacagacac5461 tgctgcagag aacttgccac ggtgtttcat gctgtggctg gtggttccag gctgcacgct5521 ccattctagg aaagggtgag gcttcctgat catcagtctt aacaggggac tgtcctatgg5581 gtacctgtat acgctgccgg gagtggggca gagtggggtt agagtagtgc ctgctgccca5641 ttggggttgt gcgggttcct taagggctgt agtctgtgtg cgtgtctggt tttttcctcc5701 tccttatcag taatcagtct tgtataacca ggctggccct gcttcctgcc taggggctat5761 cggtgtacca tctggagttg caaatggggt gatagggcgt cagcggcctt cccacaccca5821 agcacttcct gacacccagc ccctcatctc tagccaacct ctggctcccc tagggatcct5881 ggggctcagg cctcacgctc cagcatccgg gggctttgcc ttctggtgtt gctcttcttt5941 gcaggtgcct tggaacaggg gtgcaacaga gttcagaaag tgccatctgt tgcatggata6001 ccctgctgcc accctcgtcc acctttctgg ggcagaacag ttggatgggt ctttatttaa6061 gaggacaaaa gggagagaga atgcatagag gctgggtctg gtgtcacgcc tgtaatccca6121 acactttggg aggccaaggc aggtggatcc cttgaggtca ggaggtcaag actagcctgg6181 5731 6241 ggcgggagat gcctgtaatc ccagctactc gggaggctga ggcaggataa tcacttgaac6301 ccaggaggcg gaggttgcag tgagccaaga tcacaccact gcactctagc ctgggtgaca6361 gagggagact gtctcaaaaa aaaaaatttg cttagaattt gtctgtgtga ccctgggcaa6421 gtcatttccc ctccttggga ctcagttcct tgcctgtgaa cggggacagt gcttctccct tacagagctg ttgtgagaat taaagtagaa aatgtaccta tggtggttgt tggtagtgac6541 666601 66 gctggcagag gatgactgtc ccagagagga gtcttctcgg cagatgtgga gacctagctg6661 826721 ggctgagtca aatggccttt ctgagctcag ttccttatca gtaaagcctg gacagtggtc6781 caggacgctg gacactgtgt gagtgttagg acacaggaca ctgtgtgagt gcaggtgggg6841 acccatggag cactctgctg gggagcaatt catggggagc acccctccag agagggatga6901 tttgcacagg gccctcagcc cagtcccttg caggctggac cttggagagt gaggccctga6961 ggcgagacat gggcacctgg ctcctggcct gcatctgcat ctgcacctgt gtctgcttgg7021 gagtctctgt cacaggggaa ggacaaggtg agggctgggc actaatgtct gtatgaggtg7081 ggtggagaac tagggcatgt ttgggggact gggttgtccg atgtcaagcc tctagggaaa7141 ggtttggccc aaactgtgct ggggcatgtc ctctaggggt cagcctggac ctcagtctct7201 agtctcccta cttttacctc cctaccttca ttccctggac cgactgtagt ctcccttcct7261 tcactctctt gacgcctctc cagatctgac ttgcccgtgt accacaggtc agagcccatc7321 acttcccagg cctcccagtg cttccctgga cagattctgg gatcatttac tggtgactgc7381 cctgctaggg tgtcagctgt cagatcctcc ccaacccccg agctcagctc tggcctgaag7441 tacttaccgt gggctcctga tggtcactgt ctccagggcc aaggtctaga accttcacct7501 gcctcaccaa caacattctc aggatcgatt gccactggtc tgccccagag ctgggacagg7561 gctccagccc ctggctcctc ttcaccaggt gagcatggag ggccatgccc acctggacag7621 ggatgagggt gagttcccca ggattgaagc agctatgcca ggacagtgta gcagccccgt7681 ggtgctgaca aatgcccttt ccagcaacca ggctcctggc ggcacacata agtgcatctt7741 gcggggcagt gagtgcaccg tcgtgctgcc acctgaggca gtgctcgtgc catctgacaa7801 tttcaccatc actttccacc actgcatgtc tgggagggag caggtcagcc tggtggaccc7861 ggagtacctg ccccggagac acggtgagca gcagctatag gtctggggcg gggccgcttg7921 gcaagaacat cctggctgct tgggggtttg gagcagggcc ttgcagcctg tgagtggccc7981 agtgagtgtt ctcagtccca gccgagtgag atccagggct gggggcaggc ttggcccttg8041 ggaggggagg gcccatatgg ttactgcagg ggcagggttt tggcaggaaa taaacatgca8101 cggctgctag ttggggcagg ggctggcact tgagtcatgt gaaatgcact tcagtcatac8161 caggaaggac tccaataaga tgctgggaaa agcttccagc agcagactgt gaaggaaagg8221 8281 cctgtcccgc ctggggcttt tgtggaccag tctcccagtg aggtgcctgg tctgagaggg8341 ccttgaccat tccccttggg agtctttcag accccagtct tgtgtgttct gactgacaca8401 cccagaccca tggggcttca gcctcacatg gattcactct gttccagtta agctggaccc8461 gccctctgac ttgcagagca acatcagttc tggccactgc atcctgacct ggagcatcag 8521 tcctgccttg gagccaatga ccacacttct cagctatgag ctggccttca agaagcagga 8581 agaggcctgg gaggtaacac tttggctggc tttccctggg ggcctctctc ctgggaacag 8641 cagtccaggg tagactcccc actctacata gggagatgtc aacttgtagt gatgagaagg 8701 gaggaactag agcggggtgt gtgtgcacac acacatgctg gcatgcagat gtgtatgctt 8761 tatgtgtgtg tatgggagta gggtgagtgc gcctgtgtct ctgtgtgtgc acataagtgt 8821 ggtgagtgtg catgtatgtg tttatgtgta cacatatgta actgtgcaca ctcatgtttg 8881 tgtgcccatg tttgtgtgtt tatatgtaag tgtacatatg tgtgtgcctg tgccttgcat 8941 ttgtgtgagt gtgcacatgg gcatgcctat gtgtatgagt gtgtatgtga gtgtggtgag 9001 ttgcttctgt gcacacactt ttgtttatga gtgtgcatgc aagtgtgatg agtgtgaaag 9061 tgttcctgta gacatgtttg cctgtgtgtg catatgtgta tttgtgggca aacgcagctg 9121 tgtctgtgag tgtgagtgtg ccttctgtgt gtgtgtgtgc acgtgaatgt ggtgagtgtg 9181 tctgtgtgtt aacacaagtg tgttcaagag tgtgttatat gagcatataa tgcatgtgtg 9241 tattctcgag ggctgaggga cccagcccca ccttcaccac ctgctaactg tccccacccc 9301 cacagcaggc ccagcacagg gatcacattg tcggggtgac ctggcttata cttgaagcct 9361 ttgagctgga ccctggcttt atccatgagg ccaggctgcg tgtccagatg gccacactgg 9421 aggatgatgt ggtagaggag gagcgttata caggccagtg gagtgagtgg agccagcctg 9481 tgtgcttcca ggctccccag agacaaggtg ggcactgctg tggctgctgc acttccagcg 9541 gagtctgggc tgggcgtctt ctcccctgtt cacctcagcc ctgcaccctt tcaccctcct 9601 gtaagcccct ccccgaggca gccatgcctc agttgacccc cttcctctga aggtctgagg 9661 tctgtaggga ggacagaaac acctgccaac tctggggctt cctgggaacc tgtagttagt 9721 ggctgctgtt aggagtgagg gtggcagggc tgcacaccag ggctgggctc ctgcctggag 9781 gctggacatg acctcagtgt ccttaatggg ggctggactg acccttgcgc actgcagtgc 9841 tgagatggcc cagggacttt atgacccacc ttgtggcaga tgggaagagt gaggcccagg 9901 99 agtgtggttc acacaaggtc cttcagcagg tgacacaaac ctccaaggcc catcacaagg 9961 tccttcagca ggtgacacaa aggtggaagg cccatcacaa accttccact ttggcccagg10021 gcactaaagg gcgcaccttt gccaggtggg tttgggggga gcctcctggc actgaggctg10081 ctcacagccc tgggcccttc ctgtccacag gccctctgat cccaccctgg gggtggccag10141 gcaacaccct tgttgctgtg tccatctttc tcctgctgac tggcccgacc tacctcctgt10201 tcaagctgtc gcccaggtag gtggctgatg tgtgcgtgtg tgtacatgtg tgagcgggca10261 agagtgtgca tgttagtgta tgtgtgcaga tgtgtgactg tgtgcatgtg tgagtgtgtg10321 gtgggtgggc catcaagggc cgcccttgtc tggttcctcc cctcccctct ccactgcctg10381 gtcctggacg gggtgggctt ttcgagtctc caccctggtc cagaagaggg ttctcaagtt10441 gccaggggag agcagggaag gggggtctga ggcagaggct gaagataagg gcagcttggt10501 cccgaccaga cccagagtca ccgagatcaa gagccggagg tcctagtctc ctgcctctgg10561 aggagcttgg tttgttcatt tgttcacatg ttctacgaaa ggacagttgg ggcatctggt10621 gtgctcagga ccctgttctc agaacaagat ggacaagggc cctccttaaa taaaccgtca10681 10741 atgtgaggaa gagggtgtgg ggagaggggt gttgggtggg gctaagtggg agggtgcttc10801 gcttctcctt ggagcaaagg aaagtgtaaa actgtgtgac acaacctagt ttatgttttg10861 aggaatagat tgctgggaca aggggacatg ggggacctgc tggaggccaa tgggggccag10921 tgaggtgccc acagggagac gatttgcatg agccagtgaa agaagtggag atagagaaaa10981 gtggagagaa ttgcagggtc tcatgagggg aaatagaagg gacatgtggg tggatgagat11041 atgagtggtg acccctgagg tggggaaatg ggggacagcc ttgcagggag gttggtgaag11101 tctatttgga cctgttgggt tggagcccca ggtgacatcc ttgtgggagg gtcagtggat11161 ccttggcagc aagtctggtg ctcagggaga cactgggtgg ggtgggagcc acagaccttc11221 tgctgatggc aaagacaggg ttcctggagg tgctggctcc ctctgtgatc tgaggaccca 11229 gctagtaact ccccgttctg aacccgccat cgcagctcac gctgtaaagg acgcgcgcct11341 cagtataaat cagttctatg cggccgttag gcaaggaggc ccagttgggt cctgccctga11401 gagtgggttg gaatgtgatg agatgggaga gaggcagtgg cagggacgag gtgggcggac11461 ctcctgctga tggaaggaag ctcagcctct gcagtgacct caggccacct gggtcgccat 4621 aggcctctga ctggcctctc ttggcctcag ggtgaagaga atcttctacc agaacgtgcc11581 ctctccagcg atgttcttcc agcccctcta cagtgtacac aatgggaact tccaggtgtg11641 tgcagagacc acagaaggac atggggggca ggggttgccc agagctctgg cctgcccaag11701 atgttggctt tcatgagggt tggcggccag tatgggaggc ttgtcagtgc ttggagcctt11761 ttttgtatat tcagtgaatt tcaatttata cgcgtatctc aaatggggaa aaattagctt11821 tattttccat tgctgatttc tttttgttct caggtctcta gttccattgt tgattgaaaa11881 aatgtaaatt tctcataact tatctctgtc ccctctggtt tgcagctttc tgcacccacc11941 atgtgcctca cctcctcctt ctgcgaaggt gtctgtcctg tggccatggg gaagggtctg12001 tggtgtgtgt gctgcccttg gggctctcac tgcctctggg ctcctgctct gcctggtccc120 ctggtctccc cggatcacat gatggcacca cagctgagga gtgggctctg cacttccccc12121 8281 121 cagcccctcc cctccctgct gggctgttgg ttcatgcccc ctgggtggga ggagggggag12241 agggagagct ccagtgagtg gtctctggtt tttcccctca gactcctcac tttgggcaaa 8601 ggacaagagg cagtgagggc ccctccctgg ggtctgggcc aagctgacca ctcttctcca12361 123 gaatcttccc tccctgtccc cttcacactg tggctccagc ttactatgca gaaaaatcct12421 tttctctctc aatgaggagc gtagttttca agatttttgt ccaaaaatat aatttgaacc atgaaccggg catctggctc ttggcagagt ctccctcttt ccccaaggtg gtagatgtga12541 ctgtcaggag cctgggcagc tgacgacaag gctgagcagg tcagattgtg actgtcccct12601 ggactgtcat cctgttgcgg gcaccagctg ttccctagag aactaggaca cctgccacgg12661 gttatttaga ctgcgggtga ggatctggtg ccataggttg gtctccaggg agcactgcag12721 tgatggaggg tgttgtgtgt gtgatgcatg ggatggaggc tcctggtccc accaagggaa12781 cagcttcctt ttggaggcgg gggcctcctg tggccccaca gaaggatcca ggtctgctgg12841 ccatagccga gtgctttgaa agtcaccagt cctgacagcg attcgtgtgt gtgtctgtgt12901 gtgtgtgtgt gtgtttatgt gtctgtgtgt gttcgtgtgt gtgtctgtgt gtgtgtttgt12961 gtgtgtatgt ctgtgtgtgt gtgtttatgt gtgtgtgtct gtatgtgttt aagtctgtgt13021 13048 57381 1315 13141 gtgtatgttt gtgtgtgtgt ttgtgtgtgt gtgtttgtgt ttatgtgtgt atgtctgtgt13201 gtgtctgtgt gtctgtgtgt gtatgtgtct gtgtgtgttt atgtgtctgt gtgtgttcgt13261 gtgtgtgtct gtgtgtgtgt gtttgtgtgt gtatgtctgt gtgtgtgtgt gtttatgtgt13321 gtgtgtctgt gtgtgtttat gtctgtgtgt gtttgtgtgt gtgtgtctcg tgtgtgtgtg13381 tctgtgtgta tctgtgtgtg tttgtgtgtg tgtgtgtctc tgtgtgtgtg tgtgtttgtg13441 tatgtttgtg tgtgtgtgtg tgtgtgttgg gaatgcccag tctctgcagc tgctgaaagg13501 ccctgaggca catgctgtca ggagctggct ctgtcctggg cagatatcac catctgtacc13561 tcggttcagg ctgccgtggg caccaggccc tgtgctgggg gagtgctgag gagcctgaag ggactcaggg tcccgtgatg aggctgggct ggcacatgga ggaaagacag aatgtccaag13681 acacaggcgc tgcttggcct ctgggtgtgg acctcaggag ggcttcctgg aggaggaggg13741 atgctgggct tgccagaaag gaggcagctg ctcccaggat gagttctgaa catgctacct13801 gagcccttcc ctcctcccgt gctctgttcc agacttggat gggggcccac ggggccggtg13861 tgctgttgag ccaggactgt gctggcaccc cacagggagc cttggagccc tgcgtccagg13921 aggccactgc actgctcact tgtggcccag cgcgtccttg gaaatctgtg gccctggagg13981 aggaacagga gggccctggg accaggctcc cggggaacct gagctcagag gatgtgctgc14041 cagcagggtg tacggagtgg agggtacaga cgcttgccta tctgccacag gaggactggg14101 cccccacgtc cctgactagg ccggctcccc cagactcaga gggcagcagg agcagcagca14161 gcagcagcag cagcaacaac aacaactact gtgccttggg ctgctatggg ggatggcacc14221 tctcagccct cccaggaaac acacagagct ctgggcccat cccagccctg gcctgtggcc14281 tttcttgtga ccatcagggc ctggagaccc agcaaggagt tgcctgggtg ctggctggtc14341 actgccagag gcctgggctg catgaggacc tccagggcat gttgctccct tctgtcctca14401 gcaaggctcg gtcctggaca ttctaggtcc ctgactcgcc agatgcatca tgtccatttt14461 gggaaaatgg actgaagttt ctggagccct tgtctgagac tgaacctcct gagaaggggc14521 ccctagcagc ggtcagaggt cctgtctgga tggaggctgg aggctccccc ctcaacccct14581 ctgctcagtg cctgtgggga gcagcctcta ccctcagcat cctggccaca agttcttcct14641 tccattgtcc cttttcttta tccctgacct ctctgagaag tggggtgtgg tctctcagct14701 gttctgccct cataccctta aagggccagc ctgggcccag tggacacagg taaggcacca14761 tgaccacctg gtgtgacctc tctgtgcctt actgaggcac ctttctagag attaaaaggg14821 gcttgatggc tgttcccaaa gtgttgatgg ctgggagaag gggccagagg aggagtgagg14881 ggtggggttt gtccagccct gggctttccg ggctctagag atagcatggt gtaggctcaa14941 tgacagttct ggggacagca agttggaggt tcaggggcag cttcaggaca gcaggatgga15001 ggctcaggga caattcctgg gaggccagtg ccctcgttcc tccttgtcct catcctcccc15061 cttgctccag gaaactgaga gctgagcctg gagcttccag acagtcagtg ctgggggtga15121 ccatccagca gtgatggtgg cctgtgaagg gtcctgcttc tgtcctcagc ctctcatggg 8681 gtgggcttgt ggaggagctg tggtctggag agagtggcag ttggagcaga acgtgcctgc15241 gtttgtttcc tagggctgtc gtaacaaagt gccacaaaat ggttagctta gaaccacaga15301 gatttgttgt ctcacaattc tgaagtccag aagttggaaa taaagatgtt ggcagtgttc ccaaccacat gttcttgggc tcccatgaaa cagaagttga tattaggcca aggaagcttc15421 ccagacaaga ctttattaag tcttatgccc cgaaagtttg ggcagaagag agacggtgca15481 ggaggaagaa ttcttggctg actccccaag gggaatgcat tgtggtgtct taaggagggt15541 gacatacata atttatgagc tacatgagtg tcattgcaca tatggggtgg agcgaagggt15601 gctcagacgc atgctaacac atacgttgca tgatcagaaa atggcagata agcccctccc15661 tgggtgagga ctttagtatt atcataagac cagggtcatt ctcctggcct tgtgcacaag15721 caggtgatgg agtcaactcc cgtcagtaag acttatggcg ggatgctgct tatcttagtt15781 15841 aggtctagtg gtcagcgggc acgtatggaa caatacgtta gtgggggtgg gccgagtccc15901 atttatactc tctcagcagg gccatgctcc ctctgaaggc actagggaag gattagtttc15961 aggcctctct tcagcttctg ttagtttctt ggcttgtgac accaaagctg taatctttct16021 tttgttttgt ttttgtgacg gagttttgct cttgttgccc aggctggagt gcaatggcac16081 aatctcggct cactgcaacc tcctcctccc aggtttaagc aattcttctg cctcagcctt16141 tggagtagct gtgattacaa ggcacctgct accacgcctg gctagttttt gtatttttag16201 tagagacggt gtttcgctat gttggccagg ctggtctcaa actcctgata tcaagtgatc16261 cgtctgtctc tgcctcccaa agtgttggga ttacaggcat gagccaccgt gcctggccaa16321 agttccagtc tttacaggga tttttccttg tgtgcatttc tgtgtccaaa tttccccttt16381 16441 tctgcaaaga cactatttcc atataaggtc acattcacag ctactggggt taggacttca16501 acctagaggg cctgacttct ggcccaacac atcatggccc atcccagcat gccccatccc16561 cttcctgggt gccccaggca gatcacagga gggcctgact gctgggcttt gggctgacat 1668621 16628 ctgaggcagg gcttgaactc tggaccagat tacagactag ctgaaacagg caaaagcacc16741 cctccataag acacacccac tggtgccaag tgagtttgcc gttctcatgg taacagctgg16801 aaattactgc ccctttccat ggcaatgacc tgaaagttac cacccctttt ctagaaattt16861 ctaaataacc tcctccttaa tttgtatata gttacaagtg ggtataaata tgtgtgcaga16921 16917 16921 actgcctctg agctgctact ctgggctgac tgcctatggg gcatccctgc tccataagga16981 gcagtacctc tgctgccact gtgcacagct gcttaaataa aagttgctct ctaataccac17041 cgactcgccc ttgaattctt tcctgggtga agc (2) SEQ ID NO: 2566 data: (i) sequence characteristics:

(A) length: 19883 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2566 sequence description: 1 atatatatat gcataatagt ctctgtgtaa cagtaagtgg atgcagtaac tggtgtgagg 61 gcaacttgga gagtgtgctt ggaggcacag agatgctcag ggctgcctgg actgcctcca121 tgatggtggc ctgctctgta ttaggtgagt gttcaggaaa ggtgagggca gggcagccca 181 721 agaggtgtca ggagccaggt attgggcagg tcccaggtct ctgagcctca gtttcttcat 781 181 cagcttcaca gtggcccagg gaagcagggc aggcaggcta tgaggcctag taggcatctg 241 ggccagactt tgacactgag gccatggaat gggtggggct ctgagaacag acccaagtga 301 tcatgggctg aaggctatgt ccacagatcc aaggcgggat aggctgtact gggcagtgat 361 gtcagccagg ctccccagcg ggactggggg tgtcaggggc agctctgtcc caggtggcag 421 acactggttt cccctcctgc tctcacaacc ggcctgttac caggtgttgt ctgagctgtg 481 gtgaggcttc cctggtgaca ttcaggagca gggagcctgc gagtaagggt gtatgcatct 541 gccctgactg cctggccctg tggtcaagga tgggggaagg cagctctgcc tgcagctcca 601 ccccatttat aaagcactgt ggtgccttct gctgggacat gtgctgagtg gtgcctcgca 661 ggcactgccc tcgggaagtt cacaggctta tgtggaagct ggtgggaatg ggccaagaag 721 agaggtgtca ggagccaggt attgggcagg tcccaggtct ctgagcctca gtttcttcat 781 ctgtaggagg gtggtgaccc tgccctgctc agcttaccag gtacagatgt aagttttcag 841 tgcagaggaa aagcagagaa cttcccctca gatggccata cccccttgtc gctgtaccca 901 actctccggt cctactttgt agctctcagg tgtcacatgt ggatcctgcc ctaccatccc 961 ccttgccctg tctagaaacg aggcctgctg agcttggaac catcccactc cctgctctca1021 agccgtctgc tcctgggtta gcctgtggct gacctggcct gattctacat agatgtgggt1081 gtttctccac tgctggggca gcagttgtcc attctggggc ctgggtcagc tctcagctgt1141 ggccgttgtg cctgtgcttc cccaggtcct ggtggtgact ccaaccctgc cctcacatat1201 cccaagagca ggctgactgc cttccccatt cccacctttc cagtaactgc tgcaagaacg1261 gacagacact gctgcagaga acttgccacg gtgtttcatg ctgtggctgg tggttccagg1321 ctgcacgctc cattctagga aagggtgagg cttcctgatc atcagtctta acaggggact1381 gtcctatggg tacctgtata cgctgccggg agtggggcag agtggggtta gagtagtgcc1441 tgctgcccat tggggttgtg cgggttcctt aagggctgta gtctgtgtgc gtgtctggtt1501 ttttcctcct ccttatcagt aatcagtctt gtataaccag gctggccctg cttcctgcct1561 aggggctatc ggtgtaccat ctggagttgc aaatggggtg atagggcgtc agcggccttc1621 ccacacccaa gcacttcctg acacccagcc cctcatctct agccaacctc tggctcccct1681 agggatcctg gggctcaggc ctcacgctcc agcatccggg ggctttgccc ttctggtgtt1741 gctcttcttt gcaggtgcct tggaacaggg gtgcaacaga gttcagaaag tgccatctgt1801 tgcatggata ccctgctgcc accctcgtcc acctttctgg ggcagaacag ttggatgggt1861 ctttatttaa gaggacaaaa gggagagaga atgcatagag gctgggtctg gtggctcacg1921 cctgtaatcc caacactttg ggaggccaag gcaggtggat cccttgaggt caggaggtca1981 agactagcct ggccaacatg gtgaaacccc gtctctacta aaaatacaaa aaaaaaaaaa2041 ttagctgggc atggcgggag atgcctgtaa tcccagctac tcgggaggct gaggcaggat2101 aatcacttga acccaggagg cggaggttgc agtgagccaa gatcacacca ctgcactcta2161 gcctgggtga cagagggaga ctgtctcaaa aaaaaaaatt tgcttagaat ttgtctgtgt2221 gaccctgggc aagtcatttc ccctccttgg gactcagttc cttgcctgtg aacggggaca2281 gtgcttctcc cttacagagc tgttgtgaga attaaagtag aaaatgtacc tatggtggtt2341 gttggtagtg accagttccc ccaaccctga ctcccctgca ggatggggcc tgggcccggg2401 aatgggggat gggctggcag aggatgactg tcccagagag gagtcttctc ggcagatgtg2461 gagacctagc tgagtcagag gccaggatct aagtttgagg gtgttcctta caccctgcag2521 ccatgagtct ttggctgagt caaatggcct ttctgagctc agttccttat cagtaaagcc2581 tggacagtgg tccaggacgc tggacactgt gtgagtgtta ggacacagga cactgtgtga2641 gtgcaggtgg ggacccatgg agcactctgc tggggagcaa ttcatgggga gcacccctcc2701 agagagggat gatttgcaca gggccctcag cccagtccct tgcaggctgg accttggaga2761 27 2761 gtgaggccct gaggcgagac atgggcacct ggctcctggc ctgcatctgc 1 ggatccatgc ccagaattat tcacgaaatt cacttaaaat agcatatatg cttgaaccca 61 gtgaggccct gaggcgagac atgggcacct ggctcctggc ctgcatctgc 161 ggagtctgag gctgcagcga gctatgatca tgtcactgca ctccagccca gcctgggcga 121 cagagcaaga ctctgtgtct aaagaaatga aaataaaaat aaataaaata gcatatacag 181 gcaacaatcc aaatgttcat tgcagaaatt atgattatta ttgtttttct tttagaggca 241 gggtgtcact ctgttgccca gactaatctt gacctcctgt gatcctcaag agatcctccg 301 gtctctgctt cccaaagttc ttggattaca ggtgtgaggc actgggccta gacattgcag 361 ggattattaa accatggtgc atactaccat taaaggtatg aggtaggttt tatatgctga 421 cctagaaaga tggtgcaaca ccatagggga acaagaaggc tgcaaagtgg cagcacagca 481 ggagtcttta agaaataggt atttgtttca gcttaagaag tgtctggctg ggcgtggtgg 541 ctcacacctg taatcccagc acttagggag gcttaggtgg gcggatcact tgaggttagg 601 agttcaagac cagcccagtc aacaccggtg aaaccccatc tctactaaaa atacaaagaa 661 attagctggg cttggtggca ggtggctgta atcccagcta ctcaggagct gaggcaggag 721 aatcatctga acccgggagg ccgaggttgc agtgagccta gatcgcacca ctgcactcca 781 gcctgggtga cagagtaaga ctcggtcaaa aaaaaaaaaa aaaaagaccg ggtgcgaggt 841 ctctcgcctg taatcccagc actttgggag gcctaggcag gaggatcaca aggtcaggag 901 atcgagacca tcctggccaa catggtgaaa ccccatctct actaaaatac aaaaattagc 961 cgggtgtgat ggcacacgcc tgtagtccca gctactcagg aggctgaggc aggggaatcg1021 cttgaaacca ggaggtggag gctgcagtga gccgagatca cgccactgca ctccagcctg1081 gcgacagagc aagactccat ctcaaaaaag aaaagaaaac aaacaaacaa acaaaatccc1141 caaaaagcaa aagtgtctgc atggacttgt gcctaactac tcacagtggc tacttcttgg1201 gggaggtgaa aggggaccct gttaaagaat ttttcttctg tattgttttt cttcaactga1261 gtctgcatta attttatatt taatactctc cccacccctg atgctcacag gttgctttag1321 ctggtggaag gagaacctgc acctctggtt ttggcaaagt gtagaagggg acaagggcac1381 tgctctgcac ctgcacaggt tcttgcctcc tggggtcagt ttaatgaatc tcagtggtgt1441 ttcttgggaa gaacacagtg gacactcact tgccagtcag tagacaaatc actgaagtcc1501 atgtctggca gttctcaatg tcatggggac tgtaaggttg tcatgtctca cagttccctg1561 acttagaaga ttagtggtga cagacacttc tcagctctgc tcgggagagc agctctgtaa1621 tgcgcttgtg gtttcagatg tgggcggcct gtgtgaacct gtcgtgcaaa gctcacgtca1681 ccaactgctg cagttatctc ctgaatcagg ctgagggtct ttgctgtgca cccagagata1741 gttgggtgac aaatcacctc caggttgggg atgcctcaga cttgtgatgg gactgggcag1801 atgcatctgg gaaggtgagt ctgtgctttg ggcttcccaa cctctcaagt cagcatgaaa1861 ttcagaaggc agagagggac atgtggccct ccaactcggg gcccagggag ccactgtggc1921 atttgagagc gccaccctag ctttacctcc tctggtgtcc tggccttgtg tatctcttag1981 agatggcaaa atttgcagcc ctgacctcaa ggattacaaa ctaatttcca gtcctgtagg2041 ggtcatgggt tctgctgtgg ccagtgtggc actgagtttg tcaggcagaa tttctaatta2101 tggaaggaac tctgcttcct cagtgattga actgaccttt gtgggggtgc ctttgtgggg2161 tgagaatggg catacttggg cctcagttgt gatggccatg gggtggagct gaggtctagg2221 cccagggctg ggaaagcttc taccaacccc gaggcatttg ggtgttttag ggcagaagag gagccaggag gatgggtatg ccccactgga gctgtgtgtg gggcagcagg tgagggtggg2341 attccagagg gagggtcaac ccagccaagc agaggaaggg gaggagaggg tttgttttgg2401 aaagaacatc accctctcag tttcctgggg tctggatagc ctgttcttgt gatgagctgg24 aggatgtggg ccctgcttgg atcctcctct cccctccctg cccccatttt ctcttcctgt2521 362581 gggcaggcgt tttaattatt attaattttt ttttgagaca gagtttgaga cagtatcaag2641 agtgggtatc ctctcagcgt gtcttcaagt agcatcccag agccccgctc ctgggtaccc2701 acaacatgaa caccgtccag aagcaagggc agcctctgca ggtggggcgg gggttggaaa 3661 acatttatca aacggttgag ttgggtgcag gggatgcaac atgatcaaac agggtcttgc2821 ctccaggagc ctcatgtagg gacaacgcac agtgatgacc ttcaactgca gtggggcagc2881 2984 agcaggaaga gcacggacat cattttcccg tctcacctcc agactcccag gggactgtgc3001 caatatcctc actggagccc tgcccatggc cactgctcaa cccttgggcc ctgtcagttc3061 agggctgtgc agaaggagag ttgcctgtgc tcaggctcag gggttccgtc cagctaagga3121 3181 gatggcagag gggacagtgg gaagcagagc agcaggggtc tcctccacgc ctctctgtac3241 ttctcccacc cacccttgcc tgctcccctc tgccctgggt atgtgccctt gtccacccaa3301 cacctctgca gtgccaagtc cagccctgac ttcttcctga gctgtggccc agcgttccca3361 caggcattta cctcacggat gcagcactgc ccctcatcct cttctctgaa agtgtgtggg3421 aaatgcttct tggtgccatc tctctcccac cctgccttcc ctgcaccttc tctatgaggt3481 gtctgttgtc tctgtacttg cctccagctg gcctttcaga ccccatccct ccctgcctcc3541 6863609 6951 ccactgtgct gaaggaagtc ctcatgtggt ccagagaggg agctggcccc tgctcccatt3661 tccagcacca ttttctggca caggctccat gtccccaggc tccagctgct tctggggtac3721 caaggtctgc atttcttcct cttcccccag cagacagaag accttgctgg acaggtgtcc3781 acttcaatag taacttctga ggctgccagc ctcctgaatg gtccagaaga accagaccct3841 tccccgcccc cattaaaaaa gacaaaatat ggccaggcat gttggctcat gcctgacatc3901 ccagcacttt gggaggccaa agcaggtgaa tcacttgagg ccaggagtac gagaccagcc3961 tgacaaacat ggtgaaaccc tgtgtctact aaaaatacaa aaattagcca ggcgtggtga4021 ctcatgcttg taaatgcttg taatcccagc tacttgggag gctgaagcag gaggatcact4081 tgaactcggg aggcagaggt tgcagtgagc cgagatcacg ccactgtgtt ccagcctgag4141 cgacagagcg acactccgtc taaaaaaaaa aaatatatat atatatacac acatatatat4201 atgcataata gtctctgtgt aacagtaagt ggatgcagta actggtgtga gggcaacttg4261 gagagtgtgc ttggaggcac agagatgctc agggctgcct ggactgcctc catgatggtg4321 gcctgctctg tattaggtga gtgttcagga aaggtgaggg cagggcagcc cacagcttca4381 cagtggccca gggaagcagg gcaggcaggc tatgaggcct agtaggcatc tgggccagac4441 tttgacactg aggccatgga atgggtgggg ctctgagaac agaccaaagt gatcatgggc4501 tgaaggctat gtccacagat ccaaggcggg ataggctgtg ctgggcagtg atgtcagcca4561 ggctccccag cgggactggg ggtgtcaggg gcagctctgt cccaggtggc agacactggt4621 ttcccctcct gctctcacaa ccggcctgtt accaggtgtt gtctgagctg tggtgaggct4681 tccctggtga cattcaggag cagggagcct gtgagtaagg gtgtatgcat ctgccctgac4741 tgcctggccc tgtggtcaag gatgggggaa ggcagctctg cctgcagctc caccccattt4801 ataaagcact gtggtgcctt ctgctggggc atgtgctgag tggtgcctcg caggcactgc4861 cctcgggaag ttcacaggct tatgtggaag ctggtgggaa tgggccaaga agagaggtgt4921 caggagccag gtattgggca ggtcccaggt ctctgagcct cagtttcttc atctgtagga 4928 gggtggtgac cctgccctgc tcagcttacc aggtacagat gtaagttttc agtgcagagg5041 aaaagcagag aagttcccct cagatggcca tacccccttg tcgctgtacc caactctccg5101 gtcctacttt gtagctctca ggtgtcacat gtggatcctg ccctaccatc ccccttccct5161 gtctagaaac gaggcctgct gagcttggag ccatcccact ccctgctctc aagccgtctg5221 ctcctgggtt agcctgtggc tggcctggcc tgattctaca tagatgtggg tgtttctcca5281 ctgctggggc agcagttgtc cattctgggg cctgggtcag ctctcagctg tggccgttgt5341 gcctgtgctt ccccaggtcc tggtggtgac tccaaccctg ccctcacata tcccaagagc 5458 365461 tgctgcagag aacttgccac ggtgtttcat gctgtggctg gtggttccag gctgcacgct5521 ccattctagg aaagggtgag gcttcctgat catcagtctt aacaggggac tgtcctatgg5581 55 5581 gtacctgtat acgctgccgg gagtggggca gagtggggtt agagtagtgc ctgctgccca5641 ttggggttgt gcgggttcct taagggctgt agtctgtgtg cgtgtctggt tttttcctcc5701 tccttatcag taatcagtct tgtataacca ggctggccct gcttcctgcc taggggctat5761 cggtgtacca tctggagttg caaatggggt gatagggcgt cagcggcctt cccacaccca5821 agcacttcct gacacccagc ccctcatctc tagccaacct ctggctcccc tagggatcct5881 ggggctcagg cctcacgctc cagcatccgg gggctttgcc ttctggtgtt gctcttcttt5941 gcaggtgcct tggaacaggg gtgcaacaga gttcagaaag tgccatctgt tgcatggata6001 ccctgctgcc accctcgtcc acctttctgg ggcagaacag ttggatgggt ctttatttaa6061 gaggacaaaa gggagagaga atgcatagag gctgggtctg gtgtcacgcc tgtaatccca6121 acactttggg aggccaaggc aggtggatcc cttgaggtca ggaggtcaag actagcctgg6181 ccaacatggt gaaaccccgt ctctactaaa aatacaaaaa aaaaaaaatt agctgggcat6241 ggcgggagat gcctgtaatc ccagctactc gggaggctga ggcaggataa tcacttgaac6301 ccaggaggcg gaggttgcag tgagccaaga tcacaccact gcactctagc ctgggtgaca6361 gagggagact gtctcaaaaa aaaaaatttg cttagaattt gtctgtgtga ccctgggcaa6421 gtcatttccc ctccttggga ctcagttcct tgcctgtgaa cggggacagt gcttctccct6481 tacagagctg ttgtgagaat taaagtagaa aatgtaccta tggtggttgt tggtagtgac6541 cagttccccc aaccctgact cccctgcagg atggggcctg ggcccgggaa tgggggatgg6601 gctggcagag gatgactgtc ccagagagga gtcttctcgg cagatgtgga gacctagctg6661 agtcagaggc caggatctaa gtttgagggt gttccttaca ccctgcagcc atgagtcttt6721 agtcagaggc caggatctaa gtttgagggt gttccttaca ccctgcagcc atgagtcttt6721 ggctgagtca aatggccttt ctgagctcag ttccttatca gtaaagcctg gacagtggtc6781 caggacgctg gacactgtgt gagtgttagg acacaggaca ctgtgtgagt gcaggtgggg6841 acccatggag cactctgctg gggagcaatt catggggagc acccctccag agagggatga6901 tttgcacagg gccctcagcc cagtcccttg caggctggac cttggagagt gaggccctga6961 696 2 6961 ggcgagacat gggcacctgg ctcctggcct gcatctgcat ctgcacctgt gtctgcttgg7021 gagtctctgt cacaggggaa ggacaaggtg agggctgggc actaatgtct gtatgaggtg7081 ggtggagaac tagggcatgt ttgggggact gggttgtccg atgtcaagcc tctagggaaa7141 ggtttggccc aaactgtgct ggggcatgtc ctctaggggt cagcctggac ctcagtctct7201 agtctcccta cttttacctc cctaccttca ttccctggac cgactgtagt ctcccttcct7261 tcactctctt gacgcctctc cagatctgac ttgcccgtgt accacaggtc agagcccatc7321 acttcccagg cctcccagtg cttccctgga cagattctgg gatcatttac tggtgactgc7381 cctgctaggg tgtcagctgt cagatcctcc ccaacccccg agctcagctc tggcctgaag7441 tacttaccgt gggctcctga tggtcactgt ctccagggcc aaggtctaga accttcacct7501 gcctcaccaa caacattctc aggatcgatt gccactggtc tgccccagag ctgggacagg7561 gctccagccc ctggctcctc ttcaccaggt gagcatggag ggccatgccc acctggacag7621 ggatgagggt gagttcccca ggattgaagc agctatgcca ggacagtgta gcagccccgt7681 76 7681 ggtgctgaca aatgcccttt ccagcaacca ggctcctggc ggcacacata agtgcatctt7741 gcggggcagt gagtgcaccg tcgtgctgcc acctgaggca gtgctcgtgc catctgacaa7801 tttcaccatc actttccacc actgcatgtc tgggagggag caggtcagcc tggtggaccc7861 ggagtacctg ccccggagac acggtgagca gcagctatag gtctggggcg gggccgcttg7921 gcaagaacat cctggctgct tgggggtttg gagcagggcc ttgcagcctg tgagtggccc7981 agtgagtgtt ctcagtccca gccgagtgag atccagggct gggggcaggc ttggcccttg8041 ggaggggagg gcccatatgg ttactgcagg ggcagggttt tggcaggaaa taaacatgca8101 cggctgctag ttggggcagg ggctggcact tgagtcatgt gaaatgcact tcagtcatac8161 caggaaggac tccaataaga tgctgggaaa agcttccagc agcagactgt gaaggaaagg8221 gaaagcaaga tttagaaacc acctagtcta ggtgcagagg ccagaggaag tcattgctgt8281 cctgtcccgc ctggggcttt tgtggaccag tctcccagtg aggtgcctgg tctgagaggg8341 ccttgaccat tccccttggg agtctttcag accccagtct tgtgtgttct gactgacaca8401 cccagaccca tggggcttca gcctcacatg gattcactct gttccagtta agctggaccc8461 gccctctgac ttgcagagca acatcagttc tggccactgc atcctgacct ggagcatcag 8521 tcctgccttg gagccaatga ccacacttct cagctatgag ctggccttca agaagcagga 8581 agaggcctgg gaggtaacac tttggctggc tttccctggg ggcctctctc ctgggaacag 8641 cagtccaggg tagactcccc actctacata gggagatgtc aacttgtagt gatgagaagg 8701 gaggaactag agcggggtgt gtgtgcacac acacatgctg gcatgcagat gtgtatgctt 8761 tatgtgtgtg tatgggagta gggtgagtgc gcctgtgtct ctgtgtgtgc acataagtgt 8821 ggtgagtgtg catgtatgtg tttatgtgta cacatatgta actgtgcaca ctcatgtttg 8881 tgtgcccatg tttgtgtgtt tatatgtaag tgtacatatg tgtgtgcctg tgccttgcat 8941 ttgtgtgagt gtgcacatgg gcatgcctat gtgtatgagt gtgtatgtga gtgtggtgag 9001 ttgcttctgt gcacacactt ttgtttatga gtgtgcatgc aagtgtgatg agtgtgaaag 9061 tgttcctgta gacatgtttg cctgtgtgtg catatgtgta tttgtgggca aacgcagctg 9121 tgtctgtgag tgtgagtgtg ccttctgtgt gtgtgtgtgc acgtgaatgt ggtgagtgtg 9181 tctgtgtgtt aacacaagtg tgttcaagag tgtgttatat gagcatataa tgcatgtgtg 9241 tattctcgag ggctgaggga cccagcccca ccttcaccac ctgctaactg tccccacccc 9301 cacagcaggc ccagcacagg gatcacattg tcggggtgac ctggcttata cttgaagcct 9361 ttgagctgga ccctggcttt atccatgagg ccaggctgcg tgtccagatg gccacactgg 9421 aggatgatgt ggtagaggag gagcgttata caggccagtg gagtgagtgg agccagcctg 9481 tgtgcttcca ggctccccag agacaaggtg ggcactgctg tggctgctgc acttccagcg 9541 gagtctgggc tgggcgtctt ctcccctgtt cacctcagcc ctgcaccctt tcaccctcct 9601 gtaagcccct ccccgaggca gccatgcctc agttgacccc cttcctctga aggtctgagg 9661 tctgtaggga ggacagaaac acctgccaac tctggggctt cctgggaacc tgtagttagt 9721 ggctgctgtt aggagtgagg gtggcagggc tgcacaccag ggctgggctc ctgcctggag 9781 gctggacatg acctcagtgt ccttaatggg ggctggactg acccttgcgc actgcagtgc 9841 tgagatggcc cagggacttt atgacccacc ttgtggcaga tgggaagagt gaggcccagg 9901 agtgtggttc acacaaggtc cttcagcagg tgacacaaac ctccaaggcc catcacaagg 9961 tccttcagca ggtgacacaa aggtggaagg cccatcacaa accttccact ttggcccagg10021 gcactaaagg gcgcaccttt gccaggtggg tttgggggga gcctcctggc actgaggctg10081 ctcacagccc tgggcccttc ctgtccacag gccctctgat cccaccctgg gggtggccag10141 gcaacaccct tgttgctgtg tccatctttc tcctgctgac tggcccgacc tacctcctgt10201 tcaagctgtc gcccaggtag gtggctgatg tgtgcgtgtg tgtacatgtg tgagcgggca10261 agagtgtgca tgttagtgta tgtgtgcaga tgtgtgactg tgtgcatgtg tgagtgtgtg10321 gtgggtgggc catcaagggc cgcccttgtc tggttcctcc cctcccctct ccactgcctg10381 gtcctggacg gggtgggctt ttcgagtctc caccctggtc cagaagaggg ttctcaagtt10441 gccaggggag agcagggaag gggggtctga ggcagaggct gaagataagg gcagcttggt10501 cccgaccaga cccagagtca ccgagatcaa gagccggagg tcctagtctc ctgcctctgg10561 aggagcttgg tttgttcatt tgttcacatg ttctacgaaa ggacagttgg ggcatctggt10621 gtgctcagga ccctgttctc agaacaagat ggacaagggc cctccttaaa taaaccgtca106 cgcctcatgc accacatgtc aggttacaag acagggtgca ggggccatgt caggccgcag10741 atgtgaggaa gagggtgtgg ggagaggggt gttgggtggg gctaagtggg agggtgcttc10801 gcttctcctt ggagcaaagg aaagtgtaaa actgtgtgac acaacctagt ttatgttttg 1089 10861 aggaatagat tgctgggaca aggggacatg ggggacctgc tggaggccaa tgggggccag10921 tgaggtgccc acagggagac gatttgcatg agccagtgaa agaagtggag atagagaaaa10981 gtggagagaa ttgcagggtc tcatgagggg aaatagaagg gacatgtggg tggatgagat11041 atgagtggtg acccctgagg tggggaaatg ggggacagcc ttgcagggag gttggtgaag11101 tctatttgga cctgttgggt tggagcccca ggtgacatcc ttgtgggagg gtcagtggat11161 ccttggcagc aagtctggtg ctcagggaga cactgggtgg ggtgggagcc acagaccttc11221 tgctgatggc aaagacaggg ttcctggagg tgctggctcc ctctgtgatc tgaggaccca 11229 gctagtaact ccccgttctg aacccgccat cgcagctcac gctgtaaagg acgcgcgcct11341 cagtataaat cagttctatg cggccgttag gcaaggaggc ccagttgggt cctgccctga11401 gagtgggttg gaatgtgatg agatgggaga gaggcagtgg cagggacgag gtgggcggac11461 ctcctgctga tggaaggaag ctcagcctct gcagtgacct caggccacct gggtcgccat 4621 aggcctctga ctggcctctc ttggcctcag ggtgaagaga atcttctacc agaacgtgcc11581 ctctccagcg atgttcttcc agcccctcta cagtgtacac aatgggaact tccaggtgtg11641 tgcagagacc acagaaggac atggggggca ggggttgccc agagctctgg cctgcccaag11701 atgttggctt tcatgagggt tggcggccag tatgggaggc ttgtcagtgc ttggagcctt11761 ttttgtatat tcagtgaatt tcaatttata cgcgtatctc aaatggggaa aaattagctt11821 tattttccat tgctgatttc tttttgttct caggtctcta gttccattgt tgattgaaaa11881 aatgtaaatt tctcataact tatctctgtc ccctctggtt tgcagctttc tgcacccacc11941 atgtgcctca cctcctcctt ctgcgaaggt gtctgtcctg tggccatggg gaagggtctg12001 tggtgtgtgt gctgcccttg gggctctcac tgcctctggg ctcctgctct gcctggtccc120 ctggtctccc cggatcacat gatggcacca cagctgagga gtgggctctg cacttccccc12121 8281 121 cagcccctcc cctccctgct gggctgttgg ttcatgcccc ctgggtggga ggagggggag12241 agggagagct ccagtgagtg gtctctggtt tttcccctca gactcctcac tttgggcaaa 8601 ggacaagagg cagtgagggc ccctccctgg ggtctgggcc aagctgacca ctcttctcca12361 123 gaatcttccc tccctgtccc cttcacactg tggctccagc ttactatgca gaaaaatcct12421 tttctctctc aatgaggagc gtagttttca agatttttgt ccaaaaatat aatttgaacc atgaaccggg catctggctc ttggcagagt ctccctcttt ccccaaggtg gtagatgtga12541 ctgtcaggag cctgggcagc tgacgacaag gctgagcagg tcagattgtg actgtcccct12601 ggactgtcat cctgttgcgg gcaccagctg ttccctagag aactaggaca cctgccacgg12661 gttatttaga ctgcgggtga ggatctggtg ccataggttg gtctccaggg agcactgcag12721 tgatggaggg tgttgtgtgt gtgatgcatg ggatggaggc tcctggtccc accaagggaa12781 cagcttcctt ttggaggcgg gggcctcctg tggccccaca gaaggatcca ggtctgctgg12841 ccatagccga gtgctttgaa agtcaccagt cctgacagcg attcgtgtgt gtgtctgtgt12901 gtgtgtgtgt gtgtttatgt gtctgtgtgt gttcgtgtgt gtgtctgtgt gtgtgtttgt12961 gtgtgtatgt ctgtgtgtgt gtgtttatgt gtgtgtgtct gtatgtgttt aagtctgtgt13021 13048 57381 1315 13141 gtgtatgttt gtgtgtgtgt ttgtgtgtgt gtgtttgtgt ttatgtgtgt atgtctgtgt13201 gtgtctgtgt gtctgtgtgt gtatgtgtct gtgtgtgttt atgtgtctgt gtgtgttcgt13261 gtgtgtgtct gtgtgtgtgt gtttgtgtgt gtatgtctgt gtgtgtgtgt gtttatgtgt13321 gtgtgtctgt gtgtgtttat gtctgtgtgt gtttgtgtgt gtgtgtctcg tgtgtgtgtg13381 tctgtgtgta tctgtgtgtg tttgtgtgtg tgtgtgtctc tgtgtgtgtg tgtgtttgtg13441 tatgtttgtg tgtgtgtgtg tgtgtgttgg gaatgcccag tctctgcagc tgctgaaagg13501 ccctgaggca catgctgtca ggagctggct ctgtcctggg cagatatcac catctgtacc13561 tcggttcagg ctgccgtggg caccaggccc tgtgctgggg gagtgctgag gagcctgaag ggactcaggg tcccgtgatg aggctgggct ggcacatgga ggaaagacag aatgtccaag13681 acacaggcgc tgcttggcct ctgggtgtgg acctcaggag ggcttcctgg aggaggaggg13741 atgctgggct tgccagaaag gaggcagctg ctcccaggat gagttctgaa catgctacct13801 gagcccttcc ctcctcccgt gctctgttcc agacttggat gggggcccac ggggccggtg13861 tgctgttgag ccaggactgt gctggcaccc cacagggagc cttggagccc tgcgtccagg13921 aggccactgc actgctcact tgtggcccag cgcgtccttg gaaatctgtg gccctggagg13981 aggaacagga gggccctggg accaggctcc cggggaacct gagctcagag gatgtgctgc14041 cagcagggtg tacggagtgg agggtacaga cgcttgccta tctgccacag gaggactggg14101 cccccacgtc cctgactagg ccggctcccc cagactcaga gggcagcagg agcagcagca14161 gcagcagcag cagcaacaac aacaactact gtgccttggg ctgctatggg ggatggcacc14221 tctcagccct cccaggaaac acacagagct ctgggcccat cccagccctg gcctgtggcc14281 tttcttgtga ccatcagggc ctggagaccc agcaaggagt tgcctgggtg ctggctggtc14341 actgccagag gcctgggctg catgaggacc tccagggcat gttgctccct tctgtcctca14401 gcaaggctcg gtcctggaca ttctaggtcc ctgactcgcc agatgcatca tgtccatttt14461 gggaaaatgg actgaagttt ctggagccct tgtctgagac tgaacctcct gagaaggggc14521 ccctagcagc ggtcagaggt cctgtctgga tggaggctgg aggctccccc ctcaacccct14581 ctgctcagtg cctgtgggga gcagcctcta ccctcagcat cctggccaca agttcttcct14641 tccattgtcc cttttcttta tccctgacct ctctgagaag tggggtgtgg tctctcagct14701 gttctgccct cataccctta aagggccagc ctgggcccag tggacacagg taaggcacca14761 tgaccacctg gtgtgacctc tctgtgcctt actgaggcac ctttctagag attaaaaggg14821 gcttgatggc tgttcccaaa gtgttgatgg ctgggagaag gggccagagg aggagtgagg14881 ggtggggttt gtccagccct gggctttccg ggctctagag atagcatggt gtaggctcaa14941 tgacagttct ggggacagca agttggaggt tcaggggcag cttcaggaca gcaggatgga15001 ggctcaggga caattcctgg gaggccagtg ccctcgttcc tccttgtcct catcctcccc15061 cttgctccag gaaactgaga gctgagcctg gagcttccag acagtcagtg ctgggggtga15121 ccatccagca gtgatggtgg cctgtgaagg gtcctgcttc tgtcctcagc ctctcatggg 8681 gtgggcttgt ggaggagctg tggtctggag agagtggcag ttggagcaga acgtgcctgc15241 gtttgtttcc tagggctgtc gtaacaaagt gccacaaaat ggttagctta gaaccacaga15301 gatttgttgt ctcacaattc tgaagtccag aagttggaaa taaagatgtt ggcagtgttc ccaaccacat gttcttgggc tcccatgaaa cagaagttga tattaggcca aggaagcttc15421 ccagacaaga ctttattaag tcttatgccc cgaaagtttg ggcagaagag agacggtgca15481 ggaggaagaa ttcttggctg actccccaag gggaatgcat tgtggtgtct taaggagggt15541 gacatacata atttatgagc tacatgagtg tcattgcaca tatggggtgg agcgaagggt15601 gctcagacgc atgctaacac atacgttgca tgatcagaaa atggcagata agcccctccc15661 tgggtgagga ctttagtatt atcataagac cagggtcatt ctcctggcct tgtgcacaag15721 caggtgatgg agtcaactcc cgtcagtaag acttatggcg ggatgctgct tatcttagtt15781 15841 aggtctagtg gtcagcgggc acgtatggaa caatacgtta gtgggggtgg gccgagtccc15901 atttatactc tctcagcagg gccatgctcc ctctgaaggc actagggaag gattagtttc15961 aggcctctct tcagcttctg ttagtttctt ggcttgtgac accaaagctg taatctttct16021 tttgttttgt ttttgtgacg gagttttgct cttgttgccc aggctggagt gcaatggcac16081 aatctcggct cactgcaacc tcctcctccc aggtttaagc aattcttctg cctcagcctt16141 tggagtagct gtgattacaa ggcacctgct accacgcctg gctagttttt gtatttttag16201 tagagacggt gtttcgctat gttggccagg ctggtctcaa actcctgata tcaagtgatc16261 cgtctgtctc tgcctcccaa agtgttggga ttacaggcat gagccaccgt gcctggccaa16321 agttccagtc tttacaggga tttttccttg tgtgcatttc tgtgtccaaa tttccccttt16381 16441 tctgcaaaga cactatttcc atataaggtc acattcacag ctactggggt taggacttca16501 acctagaggg cctgacttct ggcccaacac atcatggccc atcccagcat gccccatccc16561 cttcctgggt gccccaggca gatcacagga gggcctgact gctgggcttt gggctgacat 1668621 16628 ctgaggcagg gcttgaactc tggaccagat tacagactag ctgaaacagg caaaagcacc16741 cctccataag acacacccac tggtgccaag tgagtttgcc gttctcatgg taacagctgg16801 aaattactgc ccctttccat ggcaatgacc tgaaagttac cacccctttt ctagaaattt16861 ctaaataacc tcctccttaa tttgtatatagttacaagtg ggtataaata tgtgtgcaga16921 16917 16921 actgcctctg agctgctact ctgggctgac tgcctatggg gcatccctgc tccataagga16981 gcagtacctc tgctgccact gtgcacagct gcttaaataa aagttgctct ctaataccac17041 cgactcgccc ttgaattctt tcctgggtga agc (2) SEQ ID NO: 2567 data: (i) sequence characteristics:

(A) length: 2042 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2567 sequence description: 1 aattcagaac tcctcagccc cccaagaaaa aaatatcccc gtggaaattc ctttttaatg 61 accgaggcgg gggaaatatg cgtctctgga tggccagtga ctcgcagccc ccttccccga 121 taggaagggc ctgcgcgtcc ggggaccctt cgcttcccct tctgctgcgc gacctccctg 181 721 tcgtcactcc cacggttagc ggtcgccggg aggtgcctgg ctctgctctg gccgcttctc 781 181 gcccctcgga gatctccatg gcgacgccgc gcgcgcccca caacaggaaa gccttaggcg 241 gcgcggcttg gtgctcggag acttaagagt acccagcccc tcgacgtggt ggatgtcgag 301 tcttggggtc acacgcacag gcggtggcca agcaaacacc cgctcatatt tagtgcatga 361 gcctgggttc gagttgccgg agcctcgcgc gtagggcagg ggttcgagcg ccccttctcc 421 ctgcctcgcc tctgcgcctg ggggctgctg cctcagtttc ccagcgacag gcagggattt 481 cgagcgtccc cctcccctcc ctcgtcaaga tccaagctag ctgcctcagt ttccccgcgg 541 agcctgggac gccagcggag gggctcggcg cgtagggatc acgcagcttc cttccttttt 601 ctgggagctg taaagacgcc tccgccaacg ccgaaagggg aagcgaggag gccgccgggg 661 tgagtgccct cgggtgtaga gagaggacgc cgatttcccc ggacgtggtg agaccgcgct 721 tcgtcactcc cacggttagc ggtcgccggg aggtgcctgg ctctgctctg gccgcttctc 781 gagaaatgcc cgtgtcagct aggtgtggac gtgacctagg gggaggggca tccctcagtg 841 gagggagccc ggggaggatt cctgggcccc cacccaggca gggggctcat ccactcgatt 901 aaagaggcct gcgtaagctg gagagggagg acttgagttc ggaccccctc gcagcctgga 961 gtctcagttt accgctttgt gaaatggaca caataacagt ctccactctc cggggaagtt1021 ggcagtattt aaaagtactt aataaacgcc ttagcgcggt gtagaccgtg attcaagctt1081 agcctggccg ggaaacggga ggcgtggagg ccgggagcag cccccggggt catcgccctg1141 ccaccgccgc ccgattgctt tagcttggaa attccggagc tgaagcggcc agcgagggag1201 gatgaccctc tcggcccggg caccctgtca gtccggaaat aactgcagca tttgttccgg1261 aggggaaggc gcgaggtttc cgggaaagca gcaccgcccc ttggccccca ggtggctagc1321 gctataaagg atcacgcgcc ccagtcgacg ctgagctcct ctgctactca gagttgcaac1381 ctcagcctcg ctatggctcc cagcagcccc cggcccgcgc tgcccgcact cctggtcctg1441 ctcggggctc tgttcccagg tgagtcgggg tggggattgc cgtcgggcca gttctccgaa1501 gcccgggagg accggctccc gggtcaggtc atgcatgctt aggtagctgt ttatgggaag1561 gaggggctag agacagcgat tgaaagcaac agccagtagg ttcgaatcca gaccctgcat1621 acctccacgt gtggccttgg gctatagatt gcagctttaa aaaagggtag ggggttggag1681 atggagggga ggggcgggcc tcgttttgtt gcccaggccg gtcttgaact ccgggggtct1741 agccttacct cctgcctcag cctcccgagt agctgggatg aggtgtgaac cacgccttgc1801 ttggctagat tgcgtctctt acagtttctc agctgtaaaa cgggaaacgt tatagcggcc1861 acctggcagg gtatcttggc ccagcgcagc acctggcccc aggactcgat catgatggtt1921 tgggaacttg gctctgtgcc aacccaacaa ggcttaaggg acccccaccc ccctcaagat1981 gtatattctg ttcctcatcc tctctgcccc tggggaagtc cagggctgct tctacttggg2041 gg (2) SEQ ID NO: 2568 data: (i) sequence characteristics:

(A) length: 2986 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2568 sequence description: 1 gcgccccagt cgacgctgag ctcctctgct actcagagtt gcaacctcag cctcgctatg 61 gctcccagca gcccccggcc cgcgctgccc gcactcctgg tcctgctcgg ggctctgttc 121 ccaggacctg gcaatgccca gacatctgtg tccccctcaa aagtcatcct gccccgggga 181 721 gtcagccccc gggtcctaga ggtggacacg caggggaccg tggtctgttc cctggacggg 781 181 ggctccgtgc tggtgacatg cagcacctcc tgtgaccagc ccaagttgtt gggcatagag 241 accccgttgc ctaaaaagga gttgctcctg cctgggaaca accggaaggt gtatgaactg 301 agcaatgtgc aagaagatag ccaaccaatg tgctattcaa actgccctga tgggcagtca 361 acagctaaaa ccttcctcac cgtgtactgg actccagaac gggtggaact ggcacccctc 421 ccctcttggc agccagtggg caagaacctt accctacgct gccaggtgga gggtggggca 481 ccccgggcca acctcaccgt ggtgctgctc cgtggggaga aggagctgaa acgggagcca 541 gctgtggggg agcccgctga ggtcacgacc acggtgctgg tgaggagaga tcaccatgga 601 gccaatttct cgtgccgcac tgaactggac ctgcggcccc aagggctgga gctgtttgag 661 aacacctcgg ccccctacca gctccagacc tttgtcctgc cagcgactcc cccacaactt 721 gtcagccccc gggtcctaga ggtggacacg caggggaccg tggtctgttc cctggacggg 781 ctgttcccag tctcggaggc ccaggtccac ctggcactgg gggaccagag gttgaacccc 841 acagtcacct atggcaacga ctccttctcg gccaaggcct cagtcagtgt gaccgcagag 901 gacgagggca cccagcggct gacgtgtgca gtaatactgg ggaaccagag ccaggagaca 961 ctgcagacag tgaccatcta cagctttccg gcgcccaacg tgattctgac gaagccagag1021 gtctcagaag ggaccgaggt gacagtgaag tgtgaggccc accctagagc caaggtgacg1081 ctgaatgggg ttccagccca gccactgggc ccgagggccc agctcctgct gaaggccacc1141 ccagaggaca acgggcgcag cttctcctgc tctgcaaccc tggaggtggc cggccagctt1201 atacacaaga accagacccg ggagcttcgt gtcctgtatg gcccccgact ggacgagagg1261 gattgtccgg gaaactggac gtggccagaa aattcccagc agactccaat gtgccaggct1321 tgggggaacc cattgcccga gctcaagtgt ctaaaggatg gcactttccc actgcccatc1381 ggggaatcag tgactgtcac tcgagatctt gagggcacct acctctgtcg ggccaggagc1441 actcaagggg aggtcacccg cgaggtgacc gtgaatgtgc tctccccccg gtatgagatt1501 gtcatcatca ctgtggtagc agccgcagtc ataatgggca ctgcaggcct cagcacgtac1561 ctctataacc gccagcggaa gatcaagaaa tacagactac aacaggccca aaaagggacc1621 cccatgaaac cgaacacaca agccacgcct ccctgaacct atcccgggac agggcctctt1681 cctcggcctt cccatattgg tggcagtggt gccacactga acagagtgga agacatatgc1741 catgcagcta cacctaccgg ccctgggacg ccggaggaca gggcattgtc ctcagtcaga1801 tacaacagca tttggggcca tggtacctgc acacctaaaa cactaggcca cgcatctgat1861 ctgtagtcac atgactaagc caagaggaag gagcaagact caagacatga ttgatggatg1921 ttaaagtcta gcctgatgag aggggaagtg gtgggggaga catagcccca ccatgaggac1981 atacaactgg gaaatactga aacttgctgc ctattgggta tgctgaggcc cacagactta2041 cagaagaagt ggccctccat agacatgtgt agcatcaaaa cacaaaggcc cacacttcct2101 gacggatgcc agcttgggca ctgctgtcta ctgaccccaa cccttgatga tatgtattta2161 ttcatttgtt attttaccag ctatttattg agtgtctttt atgtaggcta aatgaacata2221 ggtctctggc ctcacggagc tcccagtcca tgtcacattc aaggtcacca ggtacagttg2281 tacaggttgt acactgcagg agagtgcctg gcaaaaagat caaatggggc tgggacttct2341 cattggccaa cctgcctttc cccagaagga gtgatttttc tatcggcaca aaagcactat2401 atggactggt aatggttcac aggttcagag attacccagt gaggccttat tcctcccttc2461 cccccaaaac tgacaccttt gttagccacc tccccaccca catacatttc tgccagtgtt2521 cacaatgaca ctcagcggtc atgtctggac atgagtgccc agggaatatg cccaagctat2581 gccttgtcct cttgtcctgt ttgcatttca ctgggagctt gcactattgc agctccagtt2641 tcctgcagtg atcagggtcc tgcaagcagt ggggaagggg gccaaggtat tggaggactc2701 cctcccagct ttggaagggt catccgcgtg tgtgtgtgtg tgtatgtgta gacaagctct2761 27 2761 cgctctgtca cccaggctgg agtgcagtgg tgcaatcatg gttcactgca gtcttgacct2821 tttgggctca agtgatcctc ccacctcagc ctcctgagta gctgggacca taggctcaca2881 acaccacacc tggcaaattt gatttttttt ttttttttca gagacggggt ctcgcaacat2941 tgcccagact tcctttgtgt tagttaataa agctttctca actgcc (2) SEQ ID NO: 2569 data: (i) sequence characteristics:

(A) length: 3003 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2569 sequence description: 1 gctataagga tcacgcgccc cagtcgacgc tgagctcctc tgctactcag agttgcaacc 61 tcagcctcgc tatggctccc agcagccccc ggcccgcgct gcccgcactc ctggtcctgc 121 tcggggctct gttcccagga cctggcaatg cccagacatc tgtgtccccc tcaaaagtca 181 721 ctcccccaca acttgtcagc ccccgggtcc tagaggtgga cacgcagggg accgtggtct 781 181 tcctgccccg gggaggctcc gtgctggtga catgcagcac ctcctgtgac cagcccaagt 241 tgttgggcat agagaccccg ttgcctaaaa aggagttgct cctgcctggg aacaaccgga 301 aggtgtatga actgagcaat gtgcaagaag atagccaacc aatgtgctat tcaaactgcc 361 ctgatgggca gtcaacagct aaaaccttcc tcaccgtgta ctggactcca gaacgggtgg 421 aactggcacc cctcccctct tggcagccag tgggcaagaa ccttacccta cgctgccagg 481 tggagggtgg ggcaccccgg gccaacctca ccgtggtgct gctccgtggg gagaaggagc 541 tgaaacggga gccagctgtg ggggagcccg ctgaggtcac gaccacggtg ctggtgagga 601 gagatcacca tggagccaat ttctcgtgcc gcactgaact ggacctgcgg ccccaagggc 661 tggagctgtt tgagaacacc tcggccccct accagctcca gacctttgtc ctgccagcga 721 ctcccccaca acttgtcagc ccccgggtcc tagaggtgga cacgcagggg accgtggtct 781 gttccctgga cgggctgttc ccagtctcgg aggcccaggt ccacctggca ctgggggacc 841 agaggttgaa ccccacagtc acctatggca acgactcctt ctcggccaag gcctcagtca 901 gtgtgaccgc agaggacgag ggcacccagc ggctgacgtg tgcagtaata ctggggaacc 961 agagccagga gacactgcag acagtgacca tctacagctt tccggcgccc aacgtgattc1021 tgacgaagcc agaggtctca gaagggaccg aggtgacagt gaagtgtgag gcccacccta1081 gagccaaggt gacgctgaat ggggttccag cccagccact gggcccgagg gcccagctcc1141 tgctgaaggc caccccagag gacaacgggc gcagcttctc ctgctctgca accctggagg1201 tggccggcca gcttatacac aagaaccaga cccgggagct tcgtgtcctg tatggccccc1261 gactggacga gagggattgt ccgggaaact ggacgtggcc agaaaattcc cagcagactc1321 caatgtgcca ggcttggggg aacccattgc ccgagctcaa gtgtctaaag gatggcactt1381 tcccactgcc catcggggaa tcagtgactg tcactcgaga tcttgagggc acctacctct1441 gtcgggccag gagcactcaa ggggaggtca cccgcaaggt gaccgtgaat gtgctctccc1501 cccggtatga gattgtcatc atcactgtgg tagcagccgc agtcataatg ggcactgcag1561 gcctcagcac gtacctctat aaccgccagc ggaagatcaa gaaatacaga ctacaacagg1621 cccaaaaagg gacccccatg aaaccgaaca cacaagccac gcctccctga acctatcccg1681 ggacagggcc tcttcctcgg ccttcccata ttggtggcag tggtgccaca ctgaacagag1741 tggaagacat atgccatgca gctacaccta ccggccctgg gacgccggag gacagggcat1801 tgtcctcagt cagatacaac agcatttggg gccatggtac ctgcacacct aaaacactag1861 gccacgcatc tgatctgtag tcacatgact aagccaagag gaaggagcaa gactcaagac1921 atgattgatg gatgttaaag tctagcctga tgagagggga agtggtgggg gagacatagc1981 cccaccatga ggacatacaa ctgggaaata ctgaaacttg ctgcctattg ggtatgctga2041 ggccccacag acttacagaa gaagtggccc tccatagaca tgtgtagcat caaaacacaa2101 aggcccacac ttcctgacgg atgccagctt gggcactgct gtctactgac cccaaccctt2161 gatgatatgt atttattcat ttgttatttt accagctatt tattgagtgt cttttatgta2221 ggctaaatga acataggtct ctggcctcac ggagctccca gtccatgtca cattcaaggt2281 caccaggtac agttgtacag gttgtacact gcaggagagt gcctggcaaa aagatcaaat2341 ggggctggga cttctcattg gccaacctgc ctttccccag aaggagtgat ttttctatcg2401 gcacaaaagc actatatgga ctggtaatgg ttcacaggtt cagagattac ccagtgaggc2461 cttattcctc ccttcccccc aaaactgaca cctttgttag ccacctcccc acccacatac2521 atttctgcca gtgttcacaa tgacactcag cggtcatgtc tggacatgag tgcccaggga2581 atatgcccaa gctatgcctt gtcctcttgt cctgtttgca tttcactggg agcttgcact2641 attgcagctc cagtttcctg cagtgatcag ggtcctgcaa gcagtgggga agggggccaa2701 ggtattggag gactccctcc cagctttgga agcctcatcc gcgtgtgtgt gtgtgtgtgt2761 27 2761 atgtgtagac aagctctcgc tctgtcaccc aggctggagt gcagtggtgc aatcatggtt2821 cactgcagtc ttgacctttt gggctcaagt gatcctccca cctcagcctc ctgagtagct2881 gggaccatag gctcacaaca ccacacctgg caaatttgat tttttttttt tttttcagag2941 acggggtctc gcaacattgc ccagacttcc tttgtgttag ttaataaagc tttctcaact3001 gcc (2) SEQ ID NO: 2570 data: (i) sequence characteristics:

(A) length: 1846 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2570 sequence description: 1 ctcagcctcg ctatggctcc cagcagcccc cggcccgcgc tgcccgcact cctggtcctg 61 ctcggggctc tgttcccagg acctggcaat gcccagacat ctgtgtcccc ctcaaaagtc 121 atcctgcccc ggggaggctc cgtgctggtg acatgcagca cctcctgtga ccagcccaag 181 721 tgttccctgg acgggctgtt cccagtctcg gaggcccagg tccacctggc actgggggac 781 181 ttgttgggca tagagacccc gttgcctaaa aaggagttgc tcctgcctgg gaacaaccgg 241 aaggtgtatg aactgagcaa tgtgcaagaa gatagccaac caatgtgcta ttcaaactgc 301 cctgatgggc agtcaacagc taaaaccttc ctcaccgtgt actggactcc agaacgggtg 361 gaactggcac ccctcccctc ttggcagcca gtgggcaaga accttaccct acgctgccag 421 gtggagggtg gggcaccccg ggccaacctc accgtggtgc tgctccgtgg ggagaaggag 481 ctgaaacggg agccagctgt gggggagccc gctgaggtca cgaccacggt gctggtgagg 541 agagatcacc atggagccaa tttctcgtgc cgcactgaac tggacctgcg gccccaaggg 601 ctggagctgt ttgagaacac ctcggccccc taccagctcc agacctttgt cctgccagcg 661 actcccccac aacttgtcag cccccgggtc ctagaggtgg acacgcaggg gaccgtggtc 721 tgttccctgg acgggctgtt cccagtctcg gaggcccagg tccacctggc actgggggac 781 cagaggttga accccacagt cacctatggc aacgactcct tctcggccaa ggcctcagtc 841 agtgtgaccg cagaggacga gggcacccag cggctgacgt gtgcagtaat actggggaac 901 cagagccagg agacactgca gacagtgacc atctacagct ttccggcgcc caacgtgatt 961 ctgacgaagc cagaggtctc agaagggacc gaggtgacag tgaagtgtga ggcccaccct1021 agagccaagg tgacgctgaa tggggttcca gcccagccac tgggcccgag ggcccagctc1081 ctgctgaagg ccaccccaga ggacaacggg cgcagcttct cctgctctgc aaccctggag1141 gtggccggcc agcttataca caagaaccag acccgggagc ttcgtgtcct gtatggcccc1201 cgactggacg agagggattg tccgggaaac tggacgtggc cagaaaattc ccagcagact1261 ccaatgtgcc aggcttgggg gaacccattg cccgagctca agtgtctaaa ggatggcact1321 ttcccactgc ccatcgggga atcagtgact gtcactcgag atcttgaggg cacctacctc1381 tgtcgggcca ggagcactca aggggaggtc acccgcgagg tgaccgtgaa tgtgctctcc1441 ccccggtatg agattgtcat catcactgtg gtagcagccg cagtcataat gggcactgca1501 ggcctcagca cgtacctcta taaccgccag cggaagatca agaaatacag actacaacag1561 gcccaaaaag ggacccccat gaaaccgaac acacaagcca cgcctccctg aacctatccc1621 gggacagggc ctcttcctcg gccttcccat attggtggca gtggtgccac actgaacaga1681 gtggaagaca tatgccatgc agctacacct accggccctg ggacgccgga ggacagggca1741 ttgtcctcag tcagatacaa cagcatttgg ggccatggta cctgcacacc taaaacacta1801 ggccacgcat ctgatctgta gtcacatgac taagccaaga ggaagg (2) SEQ ID NO: 2571 data: (i) sequence characteristics:

(A) length: 9877 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2571 sequence description: 1 aattcagaac tcctcagccc cccaagaaaa aaatatcccc gtggaaattc ctttttaatg 61 accgaggcgg gggaaatatg cgtctctgga tggccagtga ctcgcagccc ccttccccga 121 taggaagggc ctgcgcgtcc ggggaccctt cgcttcccct tctgctgcgc gacctccctg 181 721 tcgtcactcc cacggttagc ggtcgccggg aggtgcctgg ctctgctctg gccgcttctc 781 181 gcccctcgga gatctccatg gcgacgccgc gcgcgcccca caacaggaaa gccttaggcg 241 gcgcggcttg gtgctcggag acttaagagt acccagcccc tcgacgtggt ggatgtcgag 301 tcttggggtc acacgcacag gcggtggcca agcaaacacc cgctcatatt tagtgcatga 361 gcctgggttc gagttgccgg agcctcgcgc gtagggcagg ggttcgagcg ccccttctcc 421 ctgcctcgcc tctgcgcctg ggggctgctg cctcagtttc ccagcgacag gcagggattt 481 cgagcgtccc cctcccctcc ctcgtcaaga tccaagctag ctgcctcagt ttccccgcgg 541 agcctgggac gccagcggag gggctcggcg cgtagggatc acgcagcttc cttccttttt 601 ctgggagctg taaagacgcc tccgccaacg ccgaaagggg aagcgaggag gccgccgggg 661 tgagtgccct cgggtgtaga gagaggacgc cgatttcccc ggacgtggtg agaccgcgct 721 tcgtcactcc cacggttagc ggtcgccggg aggtgcctgg ctctgctctg gccgcttctc 781 gagaaatgcc cgtgtcagct aggtgtggac gtgacctagg gggaggggca tccctcagtg 841 gagggagccc ggggaggatt cctgggcccc cacccaggca gggggctcat ccactcgatt 901 aaagaggcct gcgtaagctg gagagggagg acttgagttc ggaccccctc gcagcctgga 961 gtctcagttt accgctttgt gaaatggaca caataacagt ctccactctc cggggaagtt1021 ggcagtattt aaaagtactt aataaacgcc ttagcgcggt gtagaccgtg attcaagctt1081 agcctggccg ggaaacggga ggcgtggagg ccgggagcag cccccggggt catcgccctg1141 ccaccgccgc ccgattgctt tagcttggaa attccggagc tgaagcggcc agcgagggag1201 gatgaccctc tcggcccggg caccctgtca gtccggaaat aactgcagca tttgttccgg1261 ccaatgtgcc aggcttgggg gaacccattg cccgagctca agtgtctaaa ggatggcact1321 ttcccactgc ccatcgggga atcagtgact gtcactcgag atcttgaggg cacctacctc1381 tgtcgggcca ggagcactca aggggaggtc acccgcgagg tgaccgtgaa tgtgctctcc1441 ccccggtatg agattgtcat catcactgtg gtagcagccg cagtcataat gggcactgca1501 ggcctcagca cgtacctcta taaccgccag cggaagatca agaaatacag actacaacag1561 gcccaaaaag ggacccccat gaaaccgaac acacaagcca cgcctccctg aacctatccc1621 gggacagggc ctcttcctcg gccttcccat attggtggca gtggtgccac actgaacaga1681 gtggaagaca tatgccatgc agctacacct accggccctg ggacgccgga ggacagggca1741 ttgtcctcag tcagatacaa cagcatttgg ggccatggta cctgcacacc taaaacacta1801 ggccacgcat ctgatctgta gtcacatgac taagccaaga ggaagg (2) SEQ ID NO: 2572 data: (i) sequence characteristics:

(A) length: 4704 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2572 sequence description: 1 gaattcctgc cactcttcct gcaacggccc aggagctcag agctccacat ctgaccttct 61 agtcatgacc aggaccaggg cagcactcct cctgttcaca gccttagcaa cttctctagg 121 tttcaacttg gacacagagg agctgacagc cttccgtgtg gacagcgctg ggtttggaga 181 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 181 cagcgtggtc cagtatgcca actcctgggt ggtggttgga gccccccaaa agataacagc 241 tgccaaccaa acgggtggcc tctaccagtg tggctacagc actggtgcct gtgagcccat 301 cggcctgcag gtgcccccgg aggccgtgaa catgtccctg ggcctgtccc tggcgtctac 361 caccagccct tcccagctgc tggcctgcgg ccccaccgtg caccacgagt gcgggaggaa 421 catgtacctc accggactct gcttcctcct gggccccacc cagctcaccc agaggctccc 481 ggtgtccagg caggagtgcc caagacagga gcaggacatt gtgttcctga tcgatggctc 541 aggcagcatc tcctcccgca actttgccac gatgatgaac ttcgtgagag ctgtgataag 601 ccagttccag agacccagca cccagttttc cctgatgcag ttctccaaca aattccaaac 661 acacttcact ttcgaggaat tcaggcgcac gtcaaacccc ctcagcctgt tggcttctgt 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 gttccatgcc tcatatgggg cccgtaggga tgccaccaaa attctcattg tcatcactga 841 tgggaagaaa gaaggcgaca gcctggatta taaggatgtc atccccatgg ctgatgcagc 901 aggcatcatc cgctatgcaa ttggggttgg attagctttt caaaacagaa attcttggaa 961 agaattaaat gacattgcat cgaagccctc ccaggaacac atatttaaag tggaggactt1021 tgatgctctg aaagatattc aaaaccaact gaaggagaag atctttgcca ttgagggtac1081 ggagaccaca agcagtagct ccttcgaatt ggagatggca caggagggct tcagcgctgt1141 gttcacacct gatggccccg ttctgggggc tgtggggagc ttcacctggt ctggaggtgc1201 cttcctgtac cccccaaata tgagccctac cttcatcaac atgtctcagg agaatgtgga1261 catgagggac tcttacctgg gttactccac cgagctggcc ctctggaaag gggtgcagag1321 cctggtcctg ggggcccccc gctaccagca caccgggaag gctgtcatct tcacccaggt1381 gtccaggcaa tggaggatga aggccgaagt cacggggact cagatcggct cctacttcgg1441 ggcctccctc tgctccgtgg acgtagacac cgacggcagc accgacctgg tcctcatcgg1501 ggccccccat tactacgagc agacccgagg gggccaggtg tctgtgtgtc ccttgcccag1561 ggggtggaga aggtggtggt gtgatgctgt tctctacggg gagcagggcc acccctgggg1621 tcgctttggg gcggctctga cagtgctggg ggatgtgaat ggggacaagc tgacagacgt1681 ggtcatcggg gccccaggag aggaggagaa ccggggtgct gtctacctgt ttcacggagt1741 cttgggaccc agcatcagcc cctcccacag ccagcggatc gcgggctccc agctctcctc1801 caggctgcag tattttgggc aggcactgag cgggggtcaa gacctcaccc aggatggact1861 ggtggacctg gctgtggggg cccggggcca ggtgctcctg ctcaggacca gacctgtgct1921 ctgggtgggg gtgagcatgc agttcatacc tgccgagatc cccaggtctg cgtttgagtg1981 tcgggagcag gtggtctctg agcagaccct ggtacagtcc aacatctgcc tttacattga2041 caaacgttct aagaacctgc ttgggagccg tgacctccaa agctctgtga ccttggacct2101 ggccctcgac cctggccgcc tgagtccccg tgccaccttc caggaaacaa agaaccggag2161 tctgagccga gtccgagtcc tcgggctgaa ggcacactgt gaaaacttca acctgctgct2221 cccgagctgc gtggaggact ctgtgacccc cattaccttg cgtctgaact tcacgctggt2281 gggcaagccc ctccttgcct tcagaaacct gcggcctatg ctggccgcac tggctcagag2341 atacttcacg gcctccctac cctttgagaa gaactgtgga gccgaccata tctgccagga2401 caatctcggc atctccttca gcttcccagg cttgaagtcc ctgctggtgg ggagtaacct2461 ggagctgaac gcagaagtga tggtgtggaa tgacggggaa gactcctacg gaaccaccat2521 caccttctcc caccccgcag gactgtccta ccgctacgtg gcagagggcc agaaacaagg2581 gcagctgcgt tccctgcacc tgacatgtga cagcgcccca gttgggagcc agggcacctg2641 gagcaccagc tgcagaatca accacctcat cttccgtggc ggcgcccaga tcaccttctt2701 ggctaccttt gacgtctccc ccaaggctgt cctgggagac cggctgcttc tgacagccaa2761 tgtgagcagt gagaacaaca ctcccaggac cagcaagacc accttccagc tggagctccc2821 ggtgaagtat gctgtctaca ctgtggttag cagccacgaa caattcacca aatacctcaa2881 cttctcagag tctgaggaga aggaaagcca tgtggccatg cacagatacc aggtcaataa2941 cctgggacag agggacctgc ctgtcagcat caacttctgg gtgcctgtgg agctgaacca3001 ggaggctgtg tggatggatg tggaggtctc ccacccccag aacccatccc ttcggtgctc3061 ctcagagaaa atcgcacccc cagcatctga cttcctggcg cacattcaga agaatcccgt3121 gctggactgc tccattgctg gctgcctgcg gttccgctgt gacgtcccct ccttcagcgt3181 ccaggaggag ctggatttca ccctgaaggg caacctcagc tttggctggg tccgccagat3241 attgcagaag aaggtgtcggtcgtgagtgt ggctgaaatt acgttcgaca catccgtgta3301 ctcccagctt ccaggacagg aggcatttat gagagctcag acgacaacgg tgctggagaa3361 gtacaaggtc cacaacccca cccccctcat cgtaggcagc tccattgggg gtctgttgct3421 gctggcactc atcacagcgg tactgtacaa agttggcttc ttcaagcgtc agtacaagga3481 aatgatggag gaggcaaatg gacaaattgc cccagaaaac gggacacaga cccccagccc3541 593601 acttaccctc acctgtcagg ctgacgggga ggaaccactg caccaccgag agaggctggg3661 atgggcctgc ttcctgtctt tgggagaaaa cgtcttgctt gggaaggggc ctttgtcttg3721 tcaaggttcc aactggaaac ccttaggaca gggtccctgc tgtgttcccc aaaaggactt3781 gacttgcaat ttctacctag aaatacatgg acaatacccc caggcctcag tctcccttct3841 cccatgaggc acgaatgatc tttctttcct ttcctttttt ttttttttct tttctttttt3901 tttttttttg agacggagtc tcgctctgtc acccaggctg gagtgcaatg gcgtgatctc 398661 ggctcgctgc aacctccgcc tcccgggttc aagtaattct gctgtctcag cctcctgcgt4021 agctgggact acaggcacac gccacctcgc ccggcccgat ctttctaaaa tacagttctg aatatgctgc tcatccccac ctgtcttcaa cagctcccca ttaccctcag gacaatgtct4141 gaactctcca gcttcgcgtg agaagtcccc ttccatccca gagggtgggc ttcagggcgc4201 acagcatgag agcctctgtg cccccatcac cctcgtttcc agtgaattag tgtcatgtca4261 gcatcagctc agggcttcat cgtggggctc tcagttccga ttccccaggc tgaattggga4321 gtgagatgcc tgcatgctgg gttctgcaca gctggcctcc cgcggttggg tcaacattgc4381 tggcctggaa gggaggagcg ccctctaggg agggacatgg ccccggtgcg gctgcagctc4441 accagcccca ggggcagaag agacccaacc acttcctatt ttttgaggct atgaatatag4501 tacctgaaaa aatgccaagc actagattat ttttttaaaa agcgtacttt aaatgtttgt4561 gttaatacac attaaaacat cgcacaaaaa cgatgcatct accgctcctt gggaaataat4621 ctgaaaggtc taaaaataaa aaagccttct gtggaaaaaa aaaaaaaaaa aaaaaaaaaa4681 aaaaaaaaaa aaaaaaaaaa aaaa (2) SEQ ID NO: 2573 data: (i) sequence characteristics:

(A) length: 4654 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2573 sequence description: 1 gaattcctgc cactcttcct gcaacggccc aggagctcagagctccacat ctgaccttct 61 agtcatgacc aggaccaggg cagcactcct cctgttcaca gccttagcaa cttctctagg 121 tttcaacttg gacacagagg agctgacagc cttccgtgtg gacagcgctg ggtttggaga 181 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 181 cagcgtggtc cagtatgcca actcctgggt ggtggttgga gccccccaaa agataacagc 241 tgccaaccaa acgggtggcc tctaccagtg tggctacagc actggtgcct gtgagcccat 301 cggcctgcag gtgcccccgg aggccgtgaa catgtccctg ggcctgtccc tggcgtctac 361 caccagccct tcccagctgc tggcctgcgg ccccaccgtg caccacgagt gcgggaggaa 421 catgtacctc accggactct gcttcctcct gggccccacc cagctcaccc agaggctccc 481 ggtgtccagg caggagtgcc caagacagga gcaggacatt gtgttcctga tcgatggctc 541 aggcagcatc tcctcccgca actttgccac gatgatgaac ttcgtgagag ctgtgataag 601 ccagttccag agacccagca cccagttttc cctgatgcag ttctccaaca aattccaaac 661 acacttcact ttcgaggaat tcaggcgcac gtcaaacccc ctcagcctgt tggcttctgt 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 gttccatgcc tcatatgggg cccgtaggga tgccaccaaa attctcattg tcatcactga 841 tgggaagaaa gaaggcgaca gcctggatta taaggatgtc atccccatgg ctgatgcagc 901 aggcatcatc cgctatgcaa ttggggttgg attagctttt caaaacagaa attcttggaa 961 agaattaaat gacattgcat cgaagccctc ccaggaacac atatttaaag tggaggactt1021 tgatgctctg aaagatattc aaaaccaact gaaggagaag atctttgcca ttgagggtac1081 ggagaccaca agcagtagct ccttcgaatt ggagatggca caggagggct tcagcgctgt1141 gttcacacct gatggccccg ttctgggggc tgtggggagc ttcacctggt ctggaggtgc1201 cttcctgtac cccccaaata tgagccctac cttcatcaac atgtctcagg agaatgtgga1261 catgagggac tcttacctgg gttactccac cgagctggcc ctctggaaag gggtgcagag1321 cctggtcctg ggggcccccc gctaccagca caccgggaag gctgtcatct tcacccaggt1381 gtccaggcaa tggaggatga aggccgaagt cacggggact cagatcggct cctacttcgg1441 ggcctccctc tgctccgtgg acgtagacac cgacggcagc accgacctgg tcctcatcgg1501 ggccccccat tactacgagc agacccgagg gggccaggtg tctgtgtgtc ccttgcccag1561 ggggtggaga aggtggtggt gtgatgctgt tctctacggg gagcagggcc acccctgggg1621 tcgctttggg gcggctctga cagtgctggg ggatgtgaat ggggacaagc tgacagacgt1681 ggtcatcggg gccccaggag aggaggagaa ccggggtgct gtctacctgtttcacggagt1741 cttgggaccc agcatcagcc cctcccacag ccagcggatc gcgggctccc agctctcctc1801 caggctgcag tattttgggc aggcactgag cgggggtcaa gacctcaccc aggatggact1861 ggtggacctg gctgtggggg cccggggcca ggtgctcctg ctcaggacca gacctgtgct1921 ctgggtgggg gtgagcatgc agttcatacc tgccgagatc cccaggtctg cgtttgagtg1981 tcgggagcag gtggtctctg agcagaccct ggtacagtcc aacatctgcc tttacattga2041 caaacgttct aagaacctgc ttgggagccg tgacctccaa agctctgtga ccttggacct2101 ggccctcgac cctggccgcc tgagtccccg tgccaccttc caggaaacaa agaaccggag2161 tctgagccga gtccgagtcc tcgggctgaa ggcacactgt gaaaacttca acctgctgct2221 cccgagctgc gtggaggact ctgtgacccc cattaccttg cgtctgaact tcacgctggt2281 gggcaagccc ctccttgcct tcagaaacct gcggcctatg ctggccgcac tggctcagag2341 atacttcacg gcctccctac cctttgagaa gaactgtgga gccgaccata tctgccagga2401 caatctcggc atctccttca gcttcccagg cttgaagtcc ctgctggtgg ggagtaacct2461 ggagctgaac gcagaagtga tggtgtggaa tgacggggaa gactcctacg gaaccaccat2521 caccttctcc caccccgcag gactgtccta ccgctacgtg gcagagggcc agaaacaagg2581 gcagctgcgt tccctgcacc tgacatgtga cagcgcccca gttgggagcc agggcacctg2641 gagcaccagc tgcagaatca accacctcat cttccgtggc ggcgcccaga tcaccttctt2701 ggctaccttt gacgtctccc ccaaggctgt cctgggagac cggctgcttc tgacagccaa2761 tgtgagcagt gagaacaaca ctcccaggac cagcaagacc accttccagc tggagctccc2821 ggtgaagtat gctgtctaca ctgtggttag cagccacgaa caattcacca aatacctcaa2881 cttctcagag tctgaggaga aggaaagcca tgtggccatg cacagatacc aggtcaataa2941 cctgggacag agggacctgc ctgtcagcat caacttctgg gtgcctgtgg agctgaacca3001 ggaggctgtg tggatggatg tggaggtctc ccacccccag aacccatccc ttcggtgctc3061 ctcagagaaa atcgcacccc cagcatctga cttcctggcg cacattcaga agaatcccgt3121 gctggactgc tccattgctg gctgcctgcg gttccgctgt gacgtcccct ccttcagcgt3181 ccaggaggag ctggatttca ccctgaaggg caacctcagc tttggctggg tccgccagat3241 attgcagaag aaggtgtcgg tcgtgagtgt ggctgaaatt acgttcgaca catccgtgta3301 ctcccagctt ccaggacagg aggcatttat gagagctcag acgacaacgg tgctggagaa3361 gtacaaggtc cacaacccca cccccctcat cgtaggcagc tccattgggg gtctgttgct3421 gctggcactc atcacagcgg tactgtacaa agttggcttc ttcaagcgtc agtacaagga3481 aatgatggag gaggcaaatg gacaaattgc cccagaaaac gggacacaga cccccagccc3541 593601 acttaccctc acctgtcagg ctgacgggga ggaaccactg caccaccgag agaggctggg3661 atgggcctgc ttcctgtctt tgggagaaaa cgtcttgctt gggaaggggc ctttgtcttg3721 tcaaggttcc aactggaaac ccttaggaca gggtccctgc tgtgttcccc aaaaggactt3781 gacttgcaat ttctacctag aaatacatgg acaatacccc caggcctcag tctcccttct3841 cccatgaggc acgaatgatc tttctttcct ttcctttttt ttttttttct tttctttttt3901 tttttttttg agacggagtc tcgctctgtc acccaggctg gagtgcaatg gcgtgatctc 398661 ggctcgctgc aacctccgcc tcccgggttc aagtaattct gctgtctcag cctcctgcgt4021 agctgggact acaggcacac gccacctcgc ccggcccgat ctttctaaaa tacagttctg aatatgctgc tcatccccac ctgtcttcaa cagctcccca ttaccctcag gacaatgtct4141 gaactctcca gcttcgcgtg agaagtcccc ttccatccca gagggtgggc ttcagggcgc4201 acagcatgag agcctctgtg cccccatcac cctcgtttcc agtgaattag tgtcatgtca4261 gcatcagctc agggcttcat cgtggggctc tcagttccga ttccccaggc tgaattggga4321 gtgagatgcc tgcatgctgg gttctgcaca gctggcctcc cgcggttggg tcaacattgc4381 tggcctggaa gggaggagcg ccctctaggg agggacatgg ccccggtgcg gctgcagctc4441 accagcccca ggggcagaag agacccaacc acttcctatt ttttgaggct atgaatatag4501 tacctgaaaa aatgccaagc actagattat ttttttaaaa agcgtacttt aaatgtttgt4561 gttaatacac attaaaacat cgcacaaaaa cgatgcatct accgctcctt gggaaataat4621 ctgaaaggtc taaaaataaa aaagccttct gtgg (2) SEQ ID NO: 2574 data: (i) sequence characteristics:

(A) length: 2291 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2574 sequence description: 1 ctcgccctgg tggggctgct ctccctcggg tgcgtcctct ctcaggagtg cacgaagttc 61 aaggtcagca gctgccggga atgcatcgag tcggggcccg gctgcacctg gtgccagaag 121 ctgaacttca cagggccggg ggatcctgac tccattcgct gcgacacccg gccacagctg 181 721 gaaatcggct ggcgcaacgt cacgcggctg ctggtgtttg ccactgatga cggcttccat 781 181 ctcatgaggg gctgtgcggc tgacgacatc atggacccca caagcctcgc tgaaacccag 241 gaagaccaca atgggggcca gaagcagctg tccccacaaa aagtgacgct ttacctgcga 301 ccaggccagg cagcagcgtt caacgtgacc ttccggcggg ccaagggcta ccccatcgac 361 ctgtactatc tgatggacct ctcctactcc atgcttgatg acctcaggaa tgtcaagaag 421 ctaggtggcg acctgctccg ggccctcaac gagatcaccg agtccggccg cattggcttc 481 gggtccttcg tggacaagac cgtgctgccg ttcgtgaaca cgcaccctga taagctgcga 541 aacccatgcc ccaacaagga gaaagagtgc ccgcccccgt ttgccttcag gcacgtgctg 601 aagctgacca acaactccaa ccagtttcag accgaggtcg ggaagcagct gatttccgga 661 aacctggatg cacccgaggg tgggctggac gccatgatgc aggtcgccgc ctgcccggag 721 gaaatcggct ggcgcaacgt cacgcggctg ctggtgtttg ccactgatga cggcttccat 781 ttcgcgggcg acggaaagct gggcgccatc ctgaccccca acgacggccg ctgtcacctg 841 gaggacaact tgtacaagag gagcaacgaa ttcgactacc catcggtggg ccagctggcg 901 cacaagctgg ctgaaaacaa catccagccc atcttcgcgg tgaccagtag gatggtgaag 961 acctacgaga aactcaccga gatcatcccc aagtcagccg tgggggagct gtctgaggac1021 tccagcaatg tggtccatct cattaagaat gcttacaata aactctcctc cagggtcttc1081 ctggatcaca acgccctccc cgacaccctg aaagtcacct acgactcctt ctgcagcaat1141 ggagtgacgc acaggaacca gcccagaggt gactgtgatg gcgtgcagat caatgtcccg1201 atcaccttcc aggtgaaggt cacggccaca gagtgcatcc aggagcagtc gtttgtcatc1261 cgggcgctgg gcttcacgga catagtgacc gtgcaggtcc ttccccagtg tgagtgccgg1321 tgccgggacc agagcagaga ccgcagcctc tgccatggca agggcttctt ggagtgcggc1381 atctgcaggt gtgacactgg ctacattggg aaaaactgtg agtgccagac acagggccgg1441 agcagccagg agctggaagg aagctgccgg aaggacaaca actccatcat ctgctcaggg1501 ctgggggact gtgtctgcgg gcagtgcctg tgccacacca gcgacgtccc cggcaagctg1561 atatacgggc agtactgcga gtgtgacacc atcaactgtg agcgctacaa cggccaggtc1621 tgcggcggcc cggggagggg gctctgcttc tgcgggaagt gccgctgcca cccgggcttt1681 gagggctcag cgtgccagtg cgagaggacc actgagggct gcctgaaccc gcggcgtgtt1741 gagtgtagtg gtcgtggccg gtgccgctgc aacgtatgcg agtgccattc aggctaccag1801 ctgcctctgt gccaggagtg ccccggctgc ccctcaccct gtggcaagta catctcctgc1861 gccgagtgcc tgaagttcga aaagggcccc tttgggaaga actgcagcgc ggcgtgtccg1921 192 1921 ggcctgcagc tgtcgaacaa ccccgtgaag ggcaggacct gcaaggagag ggactcagag1981 ggctgctggg tggcctacac gctggagcag caggacggga tggaccgcta cctcatctat2041 gtggatgaga gccgagagtg tgtggcaggc cccaacatcg ccgccatcgt cgggggcacc2101 gtggcaggca tcgtgctgat cggcattctc ctgctggtca tctggaaggc tctgatccac2161 ctgagcgacc tccgggagta caggcgcttt gagaaggaga agctcaagtc ccagtggaac2221 aatgataatc cccttttcaa gagcgccacc acgacggtca tgaaccccaa gtttgctgag2281 agttaggagc a (2) SEQ ID NO: 2575 data: (i) sequence characteristics:

(A) length: 11649 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2575 sequence description: 1 gaattcctgc cactcttcct gcaacggccc aggagctcag agctccacat ctgaccttct 61 agtcatgacc aggaccaggg cagcactcct cctgttcaca gccttagcaa cttctctagg 121 tttcaacttg gacacagagg agctgacagc cttccgtgtg gacagcgctg ggtttggaga 181 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 181 cagcgtggtc cagtatgcca actcctgggt ggtggttgga gccccccaaa agataacagc 241 tgccaaccaa acgggtggcc tctaccagtg tggctacagc actggtgcct gtgagcccat 301 cggcctgcag gtgcccccgg aggccgtgaa catgtccctg ggcctgtccc tggcgtctac 361 caccagccct tcccagctgc tggcctgcgg ccccaccgtg caccacgagt gcgggaggaa 421 catgtacctc accggactct gcttcctcct gggccccacc cagctcaccc agaggctccc 481 ggtgtccagg caggagtgcc caagacagga gcaggacatt gtgttcctga tcgatggctc 541 aggcagcatc tcctcccgca actttgccac gatgatgaac ttcgtgagag ctgtgataag 601 ccagttccag agacccagca cccagttttc cctgatgcag ttctccaaca aattccaaac 661 acacttcact ttcgaggaat tcaggcgcac gtcaaacccc ctcagcctgt tggcttctgt 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 gttccatgcc tcatatgggg cccgtaggga tgccaccaaa attctcattg tcatcactga 841 tgggaagaaa gaaggcgaca gcctggatta taaggatgtc atccccatgg ctgatgcagc 901 aggcatcatc cgctatgcaa ttggggttgg attagctttt caaaacagaa attcttggaa 961 agaattaaat gacattgcat cgaagccctc ccaggaacac atatttaaag tggaggactt1021tgatgctctg aaagatattc aaaaccaact gaaggagaag atctttgcca ttgagggtac1081 ggagaccaca agcagtagct ccttcgaatt ggagatggca caggagggct tcagcgctgt1141 gttcacacct gatggccccg ttctgggggc tgtggggagc ttcacctggt ctggaggtgc1201 cttcctgtac cccccaaata tgagccctac cttcatcaac atgtctcagg agaatgtgga1261 catgagggac tcttacctgg gttactccac cgagctggcc ctctggaaag gggtgcagag1321 cctggtcctg ggggcccccc gctaccagca caccgggaag gctgtcatct tcacccaggt1381 gtccaggcaa tggaggatga aggccgaagt cacggggact cagatcggct cctacttcgg1441 ggcctccctc tgctccgtgg acgtagacac cgacggcagc accgacctgg tcctcatcgg1501 ggccccccat tactacgagc agacccgagg gggccaggtg tctgtgtgtc ccttgcccag1561 ggggtggaga aggtggtggt gtgatgctgt tctctacggg gagcagggcc acccctgggg1621 tcgctttggg gcggctctga cagtgctggg ggatgtgaat ggggacaagc tgacagacgt1681 ggtcatcggg gccccaggag aggaggagaa ccggggtgct gtctacctgt ttcacggagt1741 cttgggaccc agcatcagcc cctcccacag ccagcggatc gcgggctccc agctctcctc1801 caggctgcag tattttgggc aggcactgag cgggggtcaa gacctcaccc aggatggact1861 ggtggacctg gctgtggggg cccggggcca ggtgctcctg ctcaggacca gacctgtgct1921 ctgggtgggg gtgagcatgc agttcatacc tgccgagatc cccaggtctg cgtttgagtg1981 tcgggagcag gtggtctctg agcagaccct ggtacagtcc aacatctgcc tttacattga2041 caaacgttct aagaacctgc ttgggagccg tgacctccaa agctctgtga ccttggacct2101 ggccctcgac cctggccgcc tgagtccccg tgccaccttc caggaaacaa agaaccggag2161 tctgagccga gtccgagtcc tcgggctgaa ggcacactgt gaaaacttca acctgctgct2221 cccgagctgc gtggaggact ctgtgacccc cattaccttg cgtctgaact tcacgctggt2281 gggcaagccc ctccttgcct tcagaaacct gcggcctatg ctggccgcac tggctcagag2341 atacttcacg gcctccctac cctttgagaa gaactgtgga gccgaccata tctgccagga2401 caatctcggc atctccttca gcttcccagg cttgaagtcc ctgctggtgg ggagtaacct2461 ggagctgaac gcagaagtga tggtgtggaa tgacggggaa gactcctacg gaaccaccat2521 caccttctcc caccccgcag gactgtccta ccgctacgtg gcagagggcc agaaacaagg2581 gcagctgcgt tccctgcacc tgacatgtga cagcgcccca gttgggagcc agggcacctg2641 gagcaccagc tgcagaatca accacctcat cttccgtggc ggcgcccaga tcaccttctt2701 ggctaccttt gacgtctccc ccaaggctgt cctgggagac cggctgcttc tgacagccaa2761 tgtgagcagt gagaacaaca ctcccaggac cagcaagacc accttccagc tggagctccc2821 ggtgaagtat gctgtctaca ctgtggttag cagccacgaa caattcacca aatacctcaa2881 cttctcagag tctgaggaga aggaaagcca tgtggccatg cacagatacc aggtcaataa2941 cctgggacag agggacctgc ctgtcagcat caacttctgg gtgcctgtgg agctgaacca3001 ggaggctgtg tggatggatg tggaggtctc ccacccccag aacccatccc ttcggtgctc3061 ctcagagaaa atcgcacccc cagcatctga cttcctggcg cacattcaga agaatcccgt3121 gctggactgc tccattgctg gctgcctgcg gttccgctgt gacgtcccct ccttcagcgt3181 ccaggaggag ctggatttca ccctgaaggg caacctcagc tttggctggg tccgccagat3241 attgcagaag aaggtgtcgg tcgtgagtgt ggctgaaatt acgttcgaca catccgtgta3301 ctcccagctt ccaggacagg aggcatttat gagagctcag acgacaacgg tgctggagaa3361 gtacaaggtc cacaacccca cccccctcat cgtaggcagc tccattgggg gtctgttgct3421 gctggcactc atcacagcgg tactgtacaa agttggcttc ttcaagcgtc agtacaagga3481 aatgatggag gaggcaaatg gacaaattgc cccagaaaac gggacacaga cccccagccc3541 593601 acttaccctc acctgtcagg ctgacgggga ggaaccactg caccaccgag agaggctggg3661 atgggcctgc ttcctgtctt tgggagaaaa cgtcttgctt gggaaggggc ctttgtcttg3721 tcaaggttcc aactggaaac ccttaggaca gggtccctgc tgtgttcccc aaaaggactt3781 gacttgcaat ttctacctag aaatacatgg acaatacccc caggcctcag tctcccttct3841 cccatgaggc acgaatgatc tttctttcct ttcctttttt ttttttttct tttctttttt3901 tttttttttg agacggagtc tcgctctgtc acccaggctg gagtgcaatg gcgtgatctc 398661 ggctcgctgc aacctccgcc tcccgggttc aagtaattct gctgtctcag cctcctgcgt4021 agctgggact acaggcacac gccacctcgc ccggcccgat ctttctaaaa tacagttctg aatatgctgc tcatccccac ctgtcttcaa cagctcccca ttaccctcag gacaatgtct4141 gaactctcca gcttcgcgtg agaagtcccc ttccatccca gagggtgggc ttcagggcgc4201 acagcatgag agcctctgtg cccccatcac cctcgtttcc agtgaattag tgtcatgtca4261 gcatcagctc agggcttcat cgtggggctc tcagttccga ttccccaggc tgaattggga4321 gtgagatgcc tgcatgctgg gttctgcaca gctggcctcc cgcggttggg tcaacattgc4381 tggcctggaa gggaggagcg ccctctaggg agggacatgg ccccggtgcg gctgcagctc4441 accagcccca ggggcagaag agacccaacc acttcctatt ttttgaggct atgaatatag4501 tacctgaaaa aatgccaagc actagattat ttttttaaaa agcgtacttt aaatgtttgt4561 gttaatacac attaaaacat cgcacaaaaa cgatgcatct accgctcctt gggaaataat4621 ctgaaaggtc taaaaataaa aaagccttct gtggaaaaaa aaaaaaaaaa aaaaaaaaaa4681 aaaaaaaaaa aaaaaaaaaa aaaa1 gaattcctgc cactcttcct gcaacggccc aggagctcag agctccacat ctgaccttct 61 agtcatgacc aggaccaggg cagcactcct cctgttcaca gccttagcaa cttctctagg 121 tttcaacttg gacacagagg agctgacagc cttccgtgtg gacagcgctg ggtttggaga 181 cagcgtggtc cagtatgcca actcctgggt ggtggttgga gccccccaaa agataacagc 241 tgccaaccaa acgggtggcc tctaccagtg tggctacagc actggtgcct gtgagcccat 301 cggcctgcag gtgcccccgg aggccgtgaa catgtccctg ggcctgtccc tggcgtctac 361 caccagccct tcccagctgc tggcctgcgg ccccaccgtg caccacgagt gcgggaggaa 421 catgtacctc accggactct gcttcctcct gggccccacc cagctcaccc agaggctccc 481 ggtgtccagg caggagtgcc caagacagga gcaggacatt gtgttcctga tcgatggctc 541 aggcagcatc tcctcccgca actttgccac gatgatgaac ttcgtgagag ctgtgataag 601 ccagttccag agacccagca cccagttttc cctgatgcag ttctccaaca aattccaaac 661 acacttcact ttcgaggaat tcaggcgcac gtcaaacccc ctcagcctgt tggcttctgt 721 tcaccagctg caagggttta catacacggc caccgccatc caaaatgtcg tgcaccgatt 781 gttccatgcc tcatatgggg cccgtaggga tgccaccaaa attctcattg tcatcactga 841 tgggaagaaa gaaggcgaca gcctggatta taaggatgtc atccccatgg ctgatgcagc 901 aggcatcatc cgctatgcaa ttggggttgg attagctttt caaaacagaa attcttggaa 961 agaattaaat gacattgcat cgaagccctc ccaggaacac atatttaaag tggaggactt1021 tgatgctctg aaagatattc aaaaccaact gaaggagaag atctttgcca ttgagggtac1081 ggagaccaca agcagtagct ccttcgaatt ggagatggca caggagggct tcagcgctgt1141 gttcacacct gatggccccg ttctgggggc tgtggggagc ttcacctggt ctggaggtgc cttcctgtac cccccaaata tgagccctac cttcatcaac atgtctcagg agaatgtgga1261 catgagggac tcttacctgg gttactccac cgagctggcc ctctggaaag gggtgcagag1321 cctggtcctg ggggcccccc gctaccagca caccgggaag gctgtcatct tcacccaggt1381 gtccaggcaa tggaggatga aggccgaagt cacggggact cagatcggct cctacttcgg1441 ggcctccctc tgctccgtgg acgtagacac cgacggcagc accgacctgg tcctcatcgg1501 ggccccccat tactacgagc agacccgagg gggccaggtg tctgtgtgtc ccttgcccag1561 ggggtggaga aggtggtggt gtgatgctgt tctctacggg gagcagggcc acccctgggg1621 tcgctttggg gcggctctga cagtgctggg ggatgtgaat ggggacaagc tgacagacgt1681 ggtcatcggg gccccaggag aggaggagaa ccggggtgct gtctacctgt ttcacggagt1741 6951 1802 180 caggctgcag tattttgggc aggcactgag cgggggtcaa gacctcaccc aggatggact1861 ggtggacctg gctgtggggg cccggggcca ggtgctcctg ctcaggacca gacctgtgct1921 ctgggtgggg gtgagcatgc agttcatacc tgccgagatc cccaggtctg cgtttgagtg1981 tcgggagcag gtggtctctg agcagaccct ggtacagtcc aacatctgcc tttacattga2041 caaacgttct aagaacctgc ttgggagccg tgacctccaa agctctgtga ccttggacct2101 ggccctcgac cctggccgcc tgagtccccg tgccaccttc caggaaacaa agaaccggag2161 tctgagccga gtccgagtcc tcgggctgaa ggcacactgt gaaaacttca acctgctgct2221 cccgagctgc gtggaggact ctgtgacccc cattaccttg cgtctgaact tcacgctggt2281 gggcaagccc ctccttgcct tcagaaacct gcggcctatg ctggccgcac tggctcagag2341 atacttcacg gcctccctac cctttgagaa gaactgtgga gccgaccata tctgccagga2401 2429 2461 ggagctgaac gcagaagtga tggtgtggaa tgacggggaa gactcctacg gaaccaccat2521 caccttctcc caccccgcag gactgtccta ccgctacgtg gcagagggcc agaaacaagg2581 gcagctgcgt tccctgcacc tgacatgtga cagcgcccca gttgggagcc agggcacctg2641 gagcaccagc tgcagaatca accacctcat cttccgtggc ggcgcccaga tcaccttctt2701 ggctaccttt gacgtctccc ccaaggctgt cctgggagac cggctgcttc tgacagccaa2761 tgtgagcagt gagaacaaca ctcccaggac cagcaagacc accttccagc tggagctccc2821 ggtgaagtat gctgtctaca ctgtggttag cagccacgaa caattcacca aatacctcaa2881 cttctcagag tctgaggaga aggaaagcca tgtggccatg cacagatacc aggtcaataa2941 cctgggacag agggacctgc ctgtcagcat caacttctgg gtgcctgtgg agctgaacca3001 ggaggctgtg tggatggatg tggaggtctc ccacccccag aacccatccc ttcggtgctc ctcagagaaa atcgcacccc cagcatctga cttcctggcg cacattcaga agaatcccgt3121 3181 ccaggaggag ctggatttca ccctgaaggg caacctcagc tttggctggg tccgccagat3241 attgcagaag aaggtgtcgg tcgtgagtgt ggctgaaatt acgttcgaca catccgtgta3301 ctcccagctt ccaggacagg aggcatttat gagagctcag acgacaacgg tgctggagaa3361 gtacaaggtc cacaacccca cccccctcat cgtaggcagc tccattgggg gtctgttgct3421 gctggcactc atcacagcgg tactgtacaa agttggcttc ttcaagcgtc agtacaagga3481 3541 3558 3601 acttaccctc acctgtcagg ctgacgggga ggaaccactg caccaccgag agaggctggg3661 atgggcctgc ttcctgtctt tgggagaaaa cgtcttgctt gggaaggggc ctttgtcttg3721 tcaaggttcc aactggaaac ccttaggaca gggtccctgc tgtgttcccc aaaaggactt3781 gacttgcaat ttctacctag aaatacatgg acaatacccc caggcctcag tctcccttct3841 cccatgaggc acgaatgatc tttctttcct ttcctttttt ttttttttct tttctttttt3901 tttttttttg agacggagtc tcgctctgtc acccaggctg gagtgcaatg gcgtgatctc3961 ggctcgctgc aacctccgcc tcccgggttc aagtaattct gctgtctcag cctcctgcgt4021 351 4021 agctgggact acaggcacac gccacctcgc ccggcccgat ctttctaaaa tacagttctg4081 aatatgctgc tcatccccac ctgtcttcaa cagctcccca ttaccctcag gacaatgtct4141 gaactctcca gcttcgcgtg agaagtcccc ttccatccca gagggtgggc ttcagggcgc4201 acagcatgag agcctctgtg cccccatcac cctcgtttcc agtgaattag tgtcatgtca4261 gcatcagctc agggcttcat cgtggggctc tcagttccga ttccccaggc tgaattggga4321 gtgagatgcc tgcatgctgg gttctgcaca gctggcctcc cgcggttggg tcaacattgc4381 tggcctggaa gggaggagcg ccctctaggg agggacatgg ccccggtgcg gctgcagctc4441 accagcccca ggggcagaag agacccaacc acttcctatt ttttgaggct atgaatatag4501 tacctgaaaa aatgccaagc actagattat ttttttaaaa agcgtacttt aaatgtttgt4561 gttaatacac attaaaacat cgcacaaaaa cgatgcatct accgctcctt gggaaataat4621 ctgaaaggtc taaaaataaa aaagccttct gtgg1 ctcgccctgg tggggctgct ctccctcggg tgcgtcctct ctcaggagtg cacgaagttc 61 aaggtcagca gctgccggga atgcatcgag tcggggcccg gctgcacctg gtgccagaag 121 ctgaacttca cagggccggg ggatcctgac tccattcgct gcgacacccg gccacagctg 181 ctcatgaggg gctgtgcggc tgacgacatc atggacccca caagcctcgc tgaaacccag 241 gaagaccaca atgggggcca gaagcagctg tccccacaaa aagtgacgct ttacctgcga 301 ccaggccagg cagcagcgtt caacgtgacc ttccggcggg ccaagggcta ccccatcgac 361 ctgtactatc tgatggacct ctcctactcc atgcttgatg acctcaggaa tgtcaagaag 421 ctaggtggcg acctgctccg ggccctcaac gagatcaccg agtccggccg cattggcttc 481 gggtccttcg tggacaagac cgtgctgccg ttcgtgaaca cgcaccctga taagctgcga 541 aacccatgcc ccaacaagga gaaagagtgc ccgcccccgt ttgccttcag gcacgtgctg 601 aagctgacca acaactccaa ccagtttcag accgaggtcg ggaagcagct gatttccgga 661 aacctggatg cacccgaggg tgggctggac gccatgatgc aggtcgccgc ctgcccggag 721 gaaatcggct ggcgcaacgt cacgcggctg ctggtgtttgccactgatga cggcttccat 781 ttcgcgggcg acggaaagct gggcgccatc ctgaccccca acgacggccg ctgtcacctg 841 gaggacaact tgtacaagag gagcaacgaa ttcgactacc catcggtggg ccagctggcg 901 cacaagctgg ctgaaaacaa catccagccc atcttcgcgg tgaccagtag gatggtgaag 961 acctacgaga aactcaccga gatcatcccc aagtcagccg tgggggagct gtctgaggac1021 tccagcaatg tggtccatct cattaagaat gcttacaata aactctcctc cagggtcttc1081 ctggatcaca acgccctccc cgacaccctg aaagtcacct acgactcctt ctgcagcaat1141 ggagtgacgc acaggaacca gcccagaggt gactgtgatg gcgtgcagat caatgtcccg1201 atcaccttcc aggtgaaggt cacggccaca gagtgcatcc aggagcagtc gtttgtcatc1261 cgggcgctgg gcttcacgga catagtgacc gtgcaggtcc ttccccagtg tgagtgccgg1321 tgccgggacc agagcagaga ccgcagcctc tgccatggca agggcttctt ggagtgcggc1381 atctgcaggt gtgacactgg ctacattggg aaaaactgtg agtgccagac acagggccgg1441 agcagccagg agctggaagg aagctgccgg aaggacaaca actccatcat ctgctcaggg1501 ctgggggact gtgtctgcgg gcagtgcctg tgccacacca gcgacgtccc cggcaagctg1561 atatacgggc agtactgcga gtgtgacacc atcaactgtg agcgctacaa cggccaggtc1621 tgcggcggcc cggggagggg gctctgcttc tgcgggaagt gccgctgcca cccgggcttt1681 gagggctcag cgtgccagtg cgagaggacc actgagggct gcctgaaccc gcggcgtgtt1741 gagtgtagtg gtcgtggccg gtgccgctgc aacgtatgcg agtgccattc aggctaccag1801 ctgcctctgt gccaggagtg ccccggctgc ccctcaccct gtggcaagta catctcctgc1861 gccgagtgcc tgaagttcga aaagggcccc tttgggaaga actgcagcgc ggcgtgtccg1921 ggcctgcagc tgtcgaacaa ccccgtgaag ggcaggacct gcaaggagag ggactcagag1981 ggctgctggg tggcctacac gctggagcag caggacggga tggaccgcta cctcatctat2041 gtggatgaga gccgagagtg tgtggcaggc cccaacatcg ccgccatcgt cgggggcacc2101 gtggcaggca tcgtgctgat cggcattctc ctgctggtca tctggaaggc tctgatccac2161 ctgagcgacc tccgggagta caggcgcttt gagaaggaga agctcaagtc ccagtggaac2221 aatgataatc cccttttcaa gagcgccacc acgacggtca tgaaccccaa gtttgctgag2281 agttaggagc a (2) SEQ ID NO: 2576 data: (i) sequence characteristics:

(A) length: 665 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2576 sequence description: 1 tcttcctctc ctgggccgtc ctctgagcag cagacggggc taagcgttcc ccagctcgcc 61 ttcacacaca gcccgtgcca ccacaccgac ggtaccatga aggacgaggt agctctactg 121 gctgctgtca ccctcctggg agtcctgctg caagcctact tctccctgca ggtgatctcg 181 gcgcgcaggg ccttccgcgt gtcgccgccg ctcaccaccg gcccacccga gttcgagcgc 241 gtctaccgag cccaggtgaa ctgcagcgag tacttcccgc tgttcctcgc cacgctctgg 301 gtcgccggca tcttctttca tgaaggggcg gcggccctgt gcggcctggt ctacctgttc 361 gcgcgcctcc gctacttcca gggctacgcg cgctccgcgc agctcaggct ggcaccgctg 421 tacgcgagcg cgcgcgccct ctggctgctg gtggcgctgg ctgcgctcgg cctgctcgcc 481 cacttcctcc cggccgcgct gcgcgccgcg ctcctcggac ggctccggac gctgctgccg 541 tgggcctgag accaaggccc ccgggccgac ggagccggga aagaagagcc ggagcctcca 601 gctgccccgg ggaggggcgc tcgcttccgc atcctagtct ctatcattaa agttctagtg 661 accga (2) SEQ ID NO: 2577 data: (i) sequence characteristics:

(A) length: 4465 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2577 sequence description: 1 gagctcacag agcccccagc tggggcatat ctggtttccg ggggcagggg cgatacccag 61 aggaggaaga agggattctg agagagccca acaggctccg agcctcaggc tggagctgag 121 cttggggcag caaggaagga ccaggtgcga gggcagaacc atgcggcccg acccctgcag 181 721 aggcccaaga gaggcctggg agagggatgg cccacaaggg ctgaccctcc cgccacccag 781 181 cacggcctgt ggcctccccc agctcctgcc cgtgcttctg ggtcagtctg gactttgcca 241 cttctgacca aaagccaccg caaacccact caagccaaaa gaggaagtga ccgttaggcc 301 caactgggaa ggctggcggc caggggcact ccaggcaggg cgaggggggc ggccgggggc 361 gctccaggcg gggcgaggga gacacccaga actccaggca ggagtcctcg ggtgccacct 421 ttcctctcca cctggccctg cgtgggctct gtcctcaggg tggcccgccg tagtccccct 481 ccccactctg agtttcctgt cccaaagtcc taaggaagtt tccagaacta catctcacca 541 tcttgagtca gccttggctc agtgtccatc tcacaggcct ggaaggggca ggagtcagca 601 ctgtccagac cacagggcct gagtgtgggg agggcagccg tctaggaagg tggtggaggg 661 ttgttacctt gaggcaagag ggctgcgggg cagaaagaca cagcaggtga ctgttgtggg 721 aggcccaaga gaggcctggg agagggatgg cccacaaggg ctgaccctcc cgccacccag 781 ggggccttgg acaggtttcc tcctggcagg gtggcccttg tgcatggaac ccctacaacg 841 actaaggctg gcaggcatga ggtttcctga aggagaaaga gcttgtgggg cccagtgtgg 901 ctgggggggc gctgggactc cattctgaag ccaaaggcac tgggaagggc ttccgcagag 961 gagggtttgg caggggttgc caggaacagc ctggatgggg acagggaaca gataaggtgg1021 gtggaggagt tagccgggag cctggggctg gctccagcat gatgtggggg tctgcaaggc1081 cctggagaaa gtggggtggt gcagcagggg gcacacccac agctggagct gacccagatg1141 gacagcttgg gctctgccac gcgggactag gcaaggaagg ggcacgaaca agcaggaagt1201 ggtgaggcgg tctccagcta gctgctctcc cctgcccaga ctttggtttc ctccctgctg1261 gcttggcctg gctccctggc tctgtgtggt atggtcacac ccccgtgcac cccctccact1321 gagatggggc ggggagagca ccgaggctgc tcttcctctc ctgggccgtc ctctgagcag1381 cagacggggc taagcgttcc ccagctcgcc ttcacacaca gcccgtgcca ccacaccgac1441 ggtaccatga aggacgaggt agctctactg gctgctgtca ccctcctggg agtcctgctg1501 caaggtgggc tggttcctat ctaggaagag ggtgggcctt agatccctac agcttgccct1561 ctgcccccta ggcccaggtg gagggcagag gtggggactc cagcccaggc ccaagctgga1621 agagggtggg gactttcagg gaactggggg gcacctggct gtgagagctg taggacttgg1681 gggtggcaag ggtgccagga caaatggtag gatagccatg ggcttgggga agctgatctc1741 tgctctttcc agctgtcccc tctctgggcg tcccagcaag cggcccccat tccctggctc1801 tgcttcaaag gcacctccat actgggacca cgtggagcag ggtagaggtg ggactccttc1861 ctccagcccc ctaaaaagag cctgcttaat gcctttctca gactggccct aaaggacaca1921 ttccttggcc agatatcctt gccacctaag agacaccact actccacagt gtgtgggcta1981 ggataaggca cagcctgggg agggggctct gaaggggctg aacagacagg ccagcctgac2041 ctccagctgc tcctgcactg agctggatgg ccaccctgtg acacccatct gcagagggcc2101 cagaaccaaa ggtgccaggg ctgcaggact cagggggaga tggtccgacg ggaggtctgg2161 ggagggagcg cacagccagc actggtctgt gtgtggtctg gcctggcctc acctgaccaa2221 gagaagggct cctgcccaca gagaaacttt agggccagcc caccctctgc aactacccca2281 gccctggggt cctggggtta ggctaggaga gtcccagctg caacctcctg ggagcaggag2341 agaaggtgtctgtcagattt aggcctggga ccggaatgca ggaacagaga aactgaggtt2401 tggaggcaca gggacgcagg ctttagtgat cccggcctga ggcagggtca gagggccctg2461 ctggtgggcg ctggtaggtg ggtgaccagg gactgttagc tacagggagt gtgcttcctt2521 gcacctggga ggatgcagcc agctctgccc tcagactccc gaggcacttc ctggccaggg2581 acctgaaagc tgcatttgcc tgtgttttga gagtgaaatg attcagaaac aaggactcaa2641 gtggtctctc tcgcggagca ggtgtccctg tgcctgaatc actcaccctc ccccatacac2701 tcacaggttg ggacagggcc tctctgcgcc ccaggcttca gccctgccct cctcgctgaa2761 tgtcagggac acagggcagg ccagggatgg gtgagacgag aggtctcctc gggcggggag2821 ggggcggggt tccgccttag ggaggagagg acacggccaa gtgaagggcc agattgcagg2881 atccctccca ctcccatctc tggggcttcg ggtgtccaga cctgactccc gctccccctc2941 ctcccccagc ctacttctcc ctgcaggtga tctcggcgcg cagggccttc cgcgtgtcgc3001 cgccgctcac caccggccca cccgagttcg agcgcgtcta ccgagcccag tgaggcgcgg3061 cgggagggcg cggggcgggg agcgagcccc aggcgggtcc gggtcgcagg accatcccgg3121 ccggcgcgct catcccaccc gcccaccgca gggtgaactg cagcgagtac ttcccgctgt3181 tcctcgccac gctctgggtc gccggcatct tctttcatga aggtcggggt gtggggcagg3241 ggcgcacgcg ctggaccccc gggacccgcg cagggcgctc accaggcccg tgcgtacctc3301 tcgcaggggc ggcggccctg tgcggcctgg tctacctgtt cgcgcgcctc cgctacttcc3361 agggctacgc gcgctccgcg cagctcaggt gagggccggg cggggagcgg ggcggggccg3421 gggaaagatc gcgggcgggc ggggctcctg gggagcggga ccgaagctgg gggcgggcga3481 cgggccggag cccagcgcct ttggggattc ggtgggcgag ccctggcggc ggccagagga3541 593601 gctgaccgcc gcccgcaggc tggcaccgct gtacgcgagc gcgcgcgccc tctggctgct3661 ggtggcgctg gctgcgctcg gcctgctcgc ccacttcctc ccggccgcgc tgcgcgccgc3721 gctcctcgga cggctccgga cgctgctgcc gtgggcctga gaccaaggcc cccgggccga3781 cggagccggg aaagaagagc cggagcctcc agctgccccg gggaggggcg ctcgcttccg3841 catcctagtc tctatcatta aagttctagt gaccgagacc cgggctgcgt tctctgggtc3901 cgcgggggtg gcgcaccgcg ggctacggag cctggagggg cccagcccga gtccgggcag 398661 cccggggcgg gcttcctagt ggcggcgtga gagtggctgc gaaggaacga gccctccccc4021 tggggcggga ctggatccgg tcttcacctc ctaccccact ccctactcag cctcggggtc acaaggccgc ccagtcctgc cggggttcac cctcctagcg ctcagcggtc tcctcaccgg4141 tccccctcct caggggccttccctcgactc tcagccgccg cagtccctcg tcccctggcc4201 ttcacagctg acactagata gagcctgtgg ctctctcccc aggtgagggc aggggttttt4261 cttttggtca gcactggatc cccctcgtta actgtaggtg ttcagggcag ccctccgagg4321 tccgcagagc tgcgggcacc atgggaacga agtgagtcag tgacaggcgg tctcaaggaa4381 atgtccagaa gccttgggga tccaggggag gcccacagaa acaaagaagt gacttttagc4441 caagtatgca ggagaaacgg aggag (2) SEQ ID NO: 2578 data: (i) sequence characteristics:

(A) length: 5130 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2578 sequence description: 1 tcttcctctc ctgggccgtc ctctgagcag cagacggggc taagcgttcc ccagctcgcc 61 ttcacacaca gcccgtgcca ccacaccgac ggtaccatga aggacgaggt agctctactg 121 gctgctgtca ccctcctggg agtcctgctg caagcctact tctccctgca ggtgatctcg 181 61 aggaggaaga agggattctg agagagccca acaggctccg agcctcaggc tggagctgag 121 181 gcgcgcaggg ccttccgcgt gtcgccgccg ctcaccaccg gcccacccga gttcgagcgc 241 gtctaccgag cccaggtgaa ctgcagcgag tacttcccgc tgttcctcgc cacgctctgg 301 gtcgccggca tcttctttca tgaaggggcg gcggccctgt gcggcctggt ctacctgttc 361 gcgcgcctcc gctacttcca gggctacgcg cgctccgcgc agctcaggct ggcaccgctg 421 tacgcgagcg cgcgcgccct ctggctgctg gtggcgctgg ctgcgctcgg cctgctcgcc 481 cacttcctcc cggccgcgct gcgcgccgcg ctcctcggac ggctccggac gctgctgccg 541 tgggcctgag accaaggccc ccgggccgac ggagccggga aagaagagcc ggagcctcca 601 gctgccccgg ggaggggcgc tcgcttccgc atcctagtct ctatcattaa agttctagtg 661 accga 1 gagctcacag agcccccagc tggggcatat ctggtttccg ggggcagggg cgatacccag 61 aggaggaaga agggattctg agagagccca acaggctccg agcctcaggc tggagctgag 121 cttggggcag caaggaagga ccaggtgcga gggcagaacc atgcggcccg acccctgcag 181 cacggcctgt ggcctccccc agctcctgcc cgtgcttctg ggtcagtctg gactttgcca 241 cttctgacca aaagccaccg caaacccact caagccaaaa gaggaagtga ccgttaggcc 301 caactgggaa ggctggcggc caggggcact ccaggcaggg cgaggggggc ggccgggggc 361 gctccaggcggggcgaggga gacacccaga actccaggca ggagtcctcg ggtgccacct 421 ttcctctcca cctggccctg cgtgggctct gtcctcaggg tggcccgccg tagtccccct 481 ccccactctg agtttcctgt cccaaagtcc taaggaagtt tccagaacta catctcacca 541 tcttgagtca gccttggctc agtgtccatc tcacaggcct ggaaggggca ggagtcagca 601 ctgtccagac cacagggcct gagtgtgggg agggcagccg tctaggaagg tggtggaggg 661 ttgttacctt gaggcaagag ggctgcgggg cagaaagaca cagcaggtga ctgttgtggg 721 aggcccaaga gaggcctggg agagggatgg cccacaaggg ctgaccctcc cgccacccag 781 ggggccttgg acaggtttcc tcctggcagg gtggcccttg tgcatggaac ccctacaacg 841 actaaggctg gcaggcatga ggtttcctga aggagaaaga gcttgtgggg cccagtgtgg 901 ctgggggggc gctgggactc cattctgaag ccaaaggcac tgggaagggc ttccgcagag 961 gagggtttgg caggggttgc caggaacagc ctggatgggg acagggaaca gataaggtgg1021 gtggaggagt tagccgggag cctggggctg gctccagcat gatgtggggg tctgcaaggc1081 cctggagaaa gtggggtggt gcagcagggg gcacacccac agctggagct gacccagatg1141 gacagcttgg gctctgccac gcgggactag gcaaggaagg ggcacgaaca agcaggaagt1201 ggtgaggcgg tctccagcta gctgctctcc cctgcccaga ctttggtttc ctccctgctg1261 gcttggcctg gctccctggc tctgtgtggt atggtcacac ccccgtgcac cccctccact1321 gagatggggc ggggagagca ccgaggctgc tcttcctctc ctgggccgtc ctctgagcag1381 cagacggggc taagcgttcc ccagctcgcc ttcacacaca gcccgtgcca ccacaccgac1441 ggtaccatga aggacgaggt agctctactg gctgctgtca ccctcctggg agtcctgctg1501 caaggtgggc tggttcctat ctaggaagag ggtgggcctt agatccctac agcttgccct1561 ctgcccccta ggcccaggtg gagggcagag gtggggactc cagcccaggc ccaagctgga1621 agagggtggg gactttcagg gaactggggg gcacctggct gtgagagctg taggacttgg1681 gggtggcaag ggtgccagga caaatggtag gatagccatg ggcttgggga agctgatctc1741 tgctctttcc agctgtcccc tctctgggcg tcccagcaag cggcccccat tccctggctc1801 tgcttcaaag gcacctccat actgggacca cgtggagcag ggtagaggtg ggactccttc1861 ctccagcccc ctaaaaagag cctgcttaat gcctttctca gactggccct aaaggacaca1921 ttccttggcc agatatcctt gccacctaag agacaccact actccacagt gtgtgggcta1981 ggataaggca cagcctgggg agggggctct gaaggggctg aacagacagg ccagcctgac2041 ctccagctgc tcctgcactg agctggatgg ccaccctgtg acacccatct gcagagggcc2101 cagaaccaaa ggtgccaggg ctgcaggact cagggggaga tggtccgacg ggaggtctgg2161 ggagggagcg cacagccagc actggtctgt gtgtggtctg gcctggcctc acctgaccaa2221 gagaagggct cctgcccaca gagaaacttt agggccagcc caccctctgc aactacccca2281 gccctggggt cctggggtta ggctaggaga gtcccagctg caacctcctg ggagcaggag2341 agaaggtgtc tgtcagattt aggcctggga ccggaatgca ggaacagaga aactgaggtt2401 tggaggcaca gggacgcagg ctttagtgat cccggcctga ggcagggtca gagggccctg2461 25248 1 gcacctggga ggatgcagcc agctctgccc tcagactccc gaggcacttc ctggccaggg2581 acctgaaagc tgcatttgcc tgtgttttga gagtgaaatg attcagaaac aaggactcaa2641 gtggtctctc tcgcggagca ggtgtccctg tgcctgaatc actcaccctc ccccatacac2701 tcacaggttg ggacagggcc tctctgcgcc ccaggcttca gccctgccct cctcgctgaa2761 tgtcagggac acagggcagg ccagggatgg gtgagacgag aggtctcctc gggcggggag2821 2828 2881 atccctccca ctcccatctc tggggcttcg ggtgtccaga cctgactccc gctccccctc2941 ctcccccagc ctacttctcc ctgcaggtga tctcggcgcg cagggccttc cgcgtgtcgc3001 cgccgctcac caccggccca cccgagttcg agcgcgtcta ccgagcccag tgaggcgcgg3061 cgggagggcg cggggcgggg agcgagcccc aggcgggtcc gggtcgcagg accatcccgg3121 ccggcgcgct catcccaccc gcccaccgca gggtgaactg cagcgagtac ttcccgctgt3181 tcctcgccac gctctgggtc gccggcatct tctttcatga aggtcggggt gtggggcagg3241 ggcgcacgcg ctggaccccc gggacccgcg cagggcgctc accaggcccg tgcgtacctc3301 tcgcaggggc ggcggccctg tgcggcctgg tctacctgtt cgcgcgcctc cgctacttcc 3372 agggctacgc gcgctccgcg cagctcaggt gagggccggg cggggagcgg ggcggggccg3421 gggaaagatc gcgggcgggc ggggctcctg gggagcggga ccgaagctgg gggcgggcga3481 cgggccggag cccagcgcct ttggggattc ggtgggcgag ccctggcggc ggccagagga3541 agtccccgtg gggccagggt tgcggcgggg aagaagcggg cctcctcgcg ccacctcccc3601 gctgaccgcc gcccgcaggc tggcaccgct gtacgcgagc gcgcgcgccc tctggctgct3661 ggtggcgctg gctgcgctcg gcctgctcgc ccacttcctc ccggccgcgc tgcgcgccgc3721 gctcctcgga cggctccgga cgctgctgcc gtgggcctga gaccaaggcc cccgggccga3781 cggagccggg aaagaagagc cggagcctcc agctgccccg gggaggggcg ctcgcttccg3841 catcctagtc tctatcatta aagttctagt gaccgagacc cgggctgcgt tctctgggtc3901 cgcgggggtg gcgcaccgcg ggctacggag cctggagggg cccagcccga gtccgggcag3961 cccggggcgg gcttcctagt ggcggcgtga gagtggctgc gaaggaacga gccctccccc4021 tggggcggga ctggatccgg tcttcacctc ctaccccact ccctactcag cctcggggtc4081 acaaggccgc ccagtcctgc cggggttcac cctcctagcg ctcagcggtc tcctcaccgg4141 tccccctcct caggggcctt ccctcgactc tcagccgccg cagtccctcg tcccctggcc4201 ttcacagctg acactagata gagcctgtgg ctctctcccc aggtgagggc aggggttttt4261 cttttggtca gcactggatc cccctcgtta actgtaggtg ttcagggcag ccctccgagg4321 tccgcagagc tgcgggcacc atgggaacga agtgagtcag tgacaggcgg tctcaaggaa4381 43 4381 atgtccagaa gccttgggga tccaggggag gcccacagaa acaaagaagt gacttttagc4441 caagtatgca ggagaaacgg aggag (2) SEQ ID NO: 2579 data: (i) sequence characteristics:

(A) length: 3002 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2579 sequence description: 1 gccattctct cacatcccgt gcggtcagga agcccttcct gaactctgac ttcagttctt 61 gctgcggttt ctgcccattt ttttcatatc ctctgacagc tgcgaggtca tctctgctct 121 ggcttttctc caagcagaac aagtgggggc tctggaaagg ttaagggacc tcagtggcca 181 721 gctcctcatg ctcagcctgc cagctcggcc tcaactttgt gtgtctaaag tggaactgaa 781 181 ccattatact ttgcatcttt cctgagaagt gagagttgaa agggaagcag gaaggcccat 241 ggtcagattg aaggaaggac tttttagttt cttttttttt tttttgaaat ggagtctcgc 301 tctgtcattc aggctggagt gcagtggtgc gatctcagct cactgcagcc tccacttcct 361 gggttcacat gattctcctg cctcagcctc ccaagtagct gagactacag gcacatgcca 421 ctacacccag ctaacttttg tatttttagt agagacgggg tttcaccatg ttggccaggc 481 tggtctcaaa ctgctaacat caagtgatct gctcccctca gcctcccaaa gtgctgggat 541 taccggtatg aaccaccaca acctgccagg aatttttagt ttttagcttt tgcaggagac 601 ttcaaggaaa ggagacattc ctctgtccag gaaacgggta aggggaccat ttctgcattg 661 ctggtttccc ctcttggcag ggtgggcatg aggcatcact gttcctgctc cctcactcct 721 gctcctcatg ctcagcctgc cagctcggcc tcaactttgt gtgtctaaag tggaactgaa 781 tagtagctgt gagaagatag gaaagaggta gtgccaatct ccttgcccag atcataaatc 841 cagactcagc agggtaacca catgggcaag cacaaggtag gtgcttgggg aaaggggaag 901 taattggcat tctgtgtgat accaaggaga ccatttggat tttggcttct accaaagaga 961 atggagaatt ggttgaccta aatggaacca gtccctttaa gtaaggggag gaaagggggt1021 gctggaagat ggccctcttc ccaccaccta gatcatagct tgaactgaag ccaaggacag1081 agtgctgccc ccttcggcat ttactgatgt gccctcttta aatcatgatg ttatctaacc1141 caaacccaga cccaggacct agtcacagct ccaacctaca cttcctatta atcttaaaac1201 aaagcgaaac aaacacaaaa agatatcagc attgtagcct ccaatctgag cccatttccc1261 ttctctggct accatacctc cttctcctat atgataccat tcactacttt gttcaattat1321 ccagtctaga cctgcatctt gaggccacac ccagccttct cactccccac acccctcttt1381 cctctctcac tgctccttcc tggtctcttc tcatctggcc ccacctctaa ggagtcctcc1441 tgccttctgg gttgccctgg aaaacagact atcccccctc ctagtgaagg gagtgggtag1501 gggtttcagc cccaccctca ggaagatgcg tcttccctgt cctctgctct gtggtacttc1561 ctctctggct gatttagcaa acagcaccta gacctggggc caggcctttg gcagtgggac1621 agatccaggg ataggctaca ccaccctgcc ctgaccctgg gattggcatc agcttccaac1681 cagttcctgc caaagcttgt aagtcctccc gacggccatg aacactacat cttctgcagc1741 acccccctca ctaggtgtag agttcatctc tctgctggct atcatcctgc tgtcagtggc1801 gctggctgtg gggcttcccg gcaacagctt tgtggtgtgg agtatcctga aaaggatgca1861 gaagcgctct gtcactgccc tgatggtgct gaacctggcc ctggccgacc tggccgtatt1921 gctcactgct ccctttttcc ttcacttcct ggcccaaggc acctggagtt ttggactggc1981 tggttgccgc ctgtgtcact atgtctgcgg agtcagcatg tacgccagcg tcctgcttat2041 cacggccatg agtctagacc gctcactggc ggtggcccgc ccctttgtgt cccagaagct2101 acgcaccaag gcgatggccc ggcgggtgct ggcaggcatc tgggtgttgt cctttctgct2161 ggccacaccc gtcctcgcgt accgcacagt agtgccctgg aaaacgaaca tgagcctgtg2221 cttcccgcgg taccccagcg aagggcaccg ggccttccat ctaatcttcg aggctgtcac2281 gggcttcctg ctgcccttcc tggctgtggt ggccagctac tcggacatag ggcgtcggct2341 acaggcccgg cgcttccgcc gcagccgccg caccggccgc ctggtggtgc tcatcatcct2401 gaccttcgcc gccttctggc tgccctacca cgtggtgaac ctggctgagg cgggccgcgc2461 gctggccggc caggccgccg ggttagggct cgtggggaag cggctgagcc tggcccgcaa2521 cgtgctcatc gcactcgcct tcctgagcag cagcgtgaac cccgtgctgt acgcgtgcgc2581 cggcggcggc ctgctgcgct cggcgggcgt gggcttcgtc gccaagctgc tggagggcac2641 gggttccgag gcgtccagca cgcgccgcgg gggcagcctg ggccagaccg ctaggagcgg2701 ccccgccgct ctggagcccg gcccttccga gagcctcact gcctccagcc ctctcaagtt2761 27 2761 aaacgaactg aactaggcct ggtggaagga ggcgcacttt cctcctggca gaatgctagc2821 tctgagccag ttcagtacct ggaggaggag caggggcgtg gagggcgtgg agggcgtggg2881 agcgtgggag gcgggagtgg agtggaagaa gagggagaga tggagcaaag tgagggccga2941 gtgagagcgt gctccagcct ggctcccaca ggcagcttta accattaaaa ctgaagtctg3001 aa (2) SEQ ID NO: 2580 data: (i) sequence characteristics:

(A) length: 848 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2580 sequence description: 1 aaaagaagga cctgggcttt gggaagatct aaagacccag gaaggtctct gggtgggata 61 aagccaagat gaaactcccc ctacttctgg ctcttctatt tggggcagtt tctgctcttc121 atctaaggtc tgagacttcc acctttgaga cccctttggg tgctaagacg ctgcctgagg181 atgaggagac accagagcag gagatggagg agaccccttg cagggagctg gaggaagagg241 aggagtgggg ctctggaagt gaagatgcct ccaagaaaga tggggctgtt gagtctatct301 cagtgccaga tatggtgcac aaaaacctta cgtgtcctga ggaagaggac acagtaaaag361 tggtgggcat ccctgggtgc cagacctgcc gctacctcct ggtgagaagt cttcagacgt421 ttagtcaagc ttggtttact tgccggaggt gctacagggg caacctggtt tccatccaca481 acttcaatat taattatcga atccagtgtt ctgtcagcgc gctcaaccag ggtcaagtct541 ggattggagg caggatcaca ggctcgggtc gctgcagacg ctttcagtgg gttgacggca601 gccgctggaa ctttgcgtac tgggctgctc accagccctg gtcccgcggt ggtcactgcg661 tggccctgtg tacccgagga ggctactggc gtcgagccca ctgcctcaga agacttcctt721 tcatctgttc ctactgagct ggtcccagcc agcagttcag agctgccctc tcctgggcag781 ctgcctcccc tcctctgctt gccatccctc cctccacctc cctgcaataa aatgggtttt841 actgaaaaa (2) SEQ ID NO: 2581 data: (i) sequence characteristics:

(A) length: 848 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2581 sequence description 1 aaaagaagga cctgggcttt gggaagatct aaagacccag gaaggtctct gggtgggata 61 aagccaagat gaaactcccc ctacttctgg ctcttctatt tggggcagtt tctgctcttc121 atctaaggtc tgagacttcc acctttgaga cccctttggg tgctaagacg ctgcctgagg181 atgaggagac accagagcag gagatggagg agaccccttg cagggagctg gaggaagagg241 aggagtgggg ctctggaagt gaagatgcct ccaagaaaga tggggctgtt gagtctatct301 cagtgccaga tatggtggac aaaaacctta cgtgtcctga ggaagaggac acagtaaaag361 tggtgggcat ccctgggtgc cagacctgcc gctacctcct ggtgagaagt cttcagacgt421 ttagtcaagc ttggtttact tgccggaggt gctacagggg caacctggtt tccatccaca481 acttcaatat taattatcga atccagtgtt ctgtcagcgc gctcaaccag ggtcaagtct541 ggattggagg caggatcaca ggctcgggtc gctgcagacg ctttcagtgg gttgacggca601 gccgctggaa ctttgcgtac tgggctgctc accagccctg gtcccgcggt ggtcactgcg661 tggccctgtg tacccgagga ggctactggc gtcgagccca ctgcctcaga agacttcctt721 tcatctgttc ctactgagct ggtcccagcc agcagttcag agctgccctc tcctgggcag781 ctgcctcccc tcctctgctt gccatccctc cctccacctc cctgcaataa aatgggtttt841 actgaaaaa (2) SEQ ID NO: 2582 data: (i) sequence characteristics:

(A) length: 1696 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2582 sequence description: 1 aaaagaagga cctgggcttt gggaagatct aaagacccag gaaggtctct gggtgggata 61 aagccaagat gaaactcccc ctacttctgg ctcttctatt tggggcagtt tctgctcttc121 atctaaggtc tgagacttcc acctttgaga cccctttggg tgctaagacg ctgcctgagg181 atgaggagac accagagcag gagatggagg agaccccttg cagggagctg gaggaagagg241 aggagtgggg ctctggaagt gaagatgcct ccaagaaaga tggggctgtt gagtctatct301 cagtgccaga tatggtgcac aaaaacctta cgtgtcctga ggaagaggac acagtaaaag361 tggtgggcat ccctgggtgc cagacctgcc gctacctcct ggtgagaagt cttcagacgt421 ttagtcaagc ttggtttact tgccggaggt gctacagggg caacctggtt tccatccaca481 acttcaatat taattatcga atccagtgtt ctgtcagcgc gctcaaccag ggtcaagtct541 ggattggagg caggatcaca ggctcgggtc gctgcagacg ctttcagtgg gttgacggca601 gccgctggaa ctttgcgtac tgggctgctc accagccctg gtcccgcggt ggtcactgcg661 tggccctgtg tacccgagga ggctactggc gtcgagccca ctgcctcaga agacttcctt721 tcatctgttc ctactgagct ggtcccagcc agcagttcag agctgccctc tcctgggcag781 ctgcctcccc tcctctgctt gccatccctc cctccacctc cctgcaataa aatgggtttt841 actagaaaa 1 aaaagaagga cctgggcttt gggaagatct aaagacccag gaaggtctct gggtgggata 61 aagccaagat gaaactcccc ctacttctgg ctcttctatt tggggcagtt tctgctcttc121 atctaaggtc tgagacttcc acctttgaga cccctttggg tgctaagacg ctgcctgagg181 atgaggagac accagagcag gagatggagg agaccccttg cagggagctg gaggaagagg241 aggagtgggg ctctggaagt gaagatgcct ccaagaaaga tggggctgtt gagtctatct301 cagtgccaga tatggtggac aaaaacctta cgtgtcctga ggaagaggac acagtaaaag361 tggtgggcat ccctgggtgc cagacctgcc gctacctcct ggtgagaagt cttcagacgt421 ttagtcaagc ttggtttact tgccggaggt gctacagggg caacctggtt tccatccaca481 acttcaatat taattatcga atccagtgtt ctgtcagcgc gctcaaccag ggtcaagtct541 ggattggagg caggatcaca ggctcgggtc gctgcagacg ctttcagtgg gttgacggca601 gccgctggaa ctttgcgtac tgggctgctc accagccctg gtcccgcggt ggtcactgcg661 tggccctgtg tacccgagga ggctactggc gtcgagccca ctgcctcaga agacttcctt721 tcatctgttc ctactgagct ggtcccagcc agcagttcag agctgccctc tcctgggcag781 ctgcctcccc tcctctgctt gccatccctc cctccacctc cctgcaataa aatgggtttt841 actgaaaa (2) SEQ ID NO: 2583 data: (i) sequence characteristics:

(A) length: 810 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2583 sequence description: 1 agcagagggg ctgagaccaa accagaaacc tccaattctc atgtggaagc ccatgccctc 61 accctccaac atgaaagcct ctgcagcact tctgtgtctg ctgctcacag cagctgcttt121 cagcccccag gggcttgctc agccagttgg gattaatact tcaactacct gctgctacag181 atttatcaat aagaaaatcc ctaagcagag gctggagagc tacagaagga ccaccagtag 241 ccactgtccc cgggaagctg taatcttcaa gaccaaactg gacaaggaga tctgtgctga301 ccccacacag aagtgggtcc aggactttat gaagcacctg gacaagaaaa cccaaactcc 361 aaagctttga acattcatga ctgaactaaa aacaagccat gacttgagaa acaaataatt 421 tgtataccct gtcctttctc agagtggttc tgagattatt ttaatctaat tctaaggaat 481 atgagcttta tgtaataatg tgaatcatgg tttttcttag tagattttaa aagttattaa 541 tattttaatt taatcttcca tggattttgg tgggttttga acataaagcc ttggatgtat 601 atgtcatctc agtgctgtaa aaactgtggg atgctcctcc cttctctacc tcatgggggt 661 attgtataag tccttgcaag aatcagtgca aagatttgct ttaattgtta agatatgatg 721 tccctatgga agcatattgt tattatataa ttacatattt gcatatgtat gactcccaaa 781 ttttcacata aaatagattt ttgtaaaaaa (2) SEQ ID NO: 2584 data: (i) sequence characteristics:

(A) length: 1085 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2584 sequence description: 1 ggtttctatt gacttgggtt aatcgtgtga ccgcggtggc tggcacgaaa ttgaccaacc 61 ctggggttag tatagcttag ttaaactttc gtttattgct aaaggttaat cactgctgtt 121 tcccgtgggg gtgtggctag gctaagcgtt ttgagctgca ttgctgcgtg cttgatgctt 181 gtcccttttg atcgtggtga tttagagggt gaactcactg gaatggggat gcttgcatgt 241 gtaatcttac taagagctaa tagaaaggct aggaccaaac cagaaacctc caattctcat 301 gtggaagccc atgccctcac cctccaacat gaaagcctct gcagcacttc tgtgtctgct 361 gctcacagca gctgctttca gcccccaggg gcttgctcag ccagttggga ttaatacttc 421 aactacctgc tgctacagat ttatcaataa gaaaatccct aagcagaggc tggagagcta 481 cagaaggacc accagtagcc actgtccccg ggaagctgta atcttcaaga ccaaactgga 541 caaggagatc tgtgctgacc ccacacagaa gtgggtccag gactttatga agcacctgga 601 caagaaaacc caaactccaa agctttgaac attcatgact gaactgaaaa caagccatga 661 cttgagaaac aaataatttg tataccctgt cctttctcag agtggttctg agattatttt 721 aatctaattc taaggaatat gagctttatg taataatgtg aatcatggtt tttcttagta 781 gattttaaaa gttattaata ttttaattta atcttccatg gattttggtg ggttttgaac 841 ataaagcctt ggatgtatat gtcatctcag tgctgtaaaa actgtgggat gctcctccct 901 tctctacctc atgggggtat tgtataagtc cttgcaagaa tcagtgcaaa gatttgcttt 961 aattgttaag atatgatgtc cctatggaag catattgtta ttatataatt acatatttgc1021 atatgtatga ctcccaaatt ttcacataaa atagattttt gtataacaaa aaaaaaaaaa1081 aaaa (2) SEQ ID NO: 2585 data: (i) sequence characteristics:

(A) length: 1085 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2585 sequence description: 1 ggtttctatt gacttgggtt aatcgtgtga ccgcggtggc tggcacgaaa ttgaccaacc 61 ctggggttag tatagcttag ttaaactttc gtttattgct aaaggttaat cactgctgtt 121 tcccgtgggg gtgtggctag gctaagcgtt ttgagctgca ttgctgcgtg cttgatgctt 181 gtcccttttg atcgtggtga tttagagggt gaactcactg gaatggggat gcttgcatgt 241 gtaatcttac taagagctaa tagaaaggct aggaccaaac cagaaacctc caattctcat 301 gtggaagccc atgccctcac cctccaacat gaaagcctct gcagcacttc tgtgtctgct 361 gctcacagca gctgctttca gcccccaggg gcttgctcag ccagttggga ttaatacttc 421 aactacctgc tgctacagat ttatcaataa gaaaatccct aagcagaggc tggagagcta 481 cagaaggacc accagtagcc actgtccccg ggaagctgta atcttcaaga ccaaactgga 541 caaggagatc tgtgctgacc ccacacagaa gtgggtccag gactttatga agcacctgga 601 caagaaaacc caaactccaa agctttgaac attcatgact gaactgaaaa caagccatga 661 cttgagaaac aaataatttg tataccctgt cctttctcag agtggttctg agattatttt 721 aatctaattc taaggaatat gagctttatg taataatgtg aatcatggtt tttcttagta 781 gattttaaaa gttattaata ttttaattta atcttccatg gattttggtg ggttttgaac 841 ataaagcctt ggatgtatat gtcatctcag tgctgtaaaa actgtgggat gctcctccct 901 tctctacctc atgggggtat tgtataagtc cttgcaagaa tcagtgcaaa gatttgcttt 961 aattgttaag atatgatgtc cctatggaag catattgtta ttatataatt acatatttgc1021 atatgtatga ctcccaaatt ttcacataaa atagattttt gtataacaaa aaaaaaaaaa1081 aaaa (2) SEQ ID NO: 2586 data: (i) sequence characteristics:

(A) length: 2885 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2586 sequence description: 1 ggatccttaa gccatcatgc aaaatatcta gccatgtgga gggaccactg gaaagatcac 61 acacacacac acacacacac acacacacac atacagagag agagagagac acctgagaaa 121 ttccatctgg tccaactgct ggctgttgaa gtcctcccag cccagacccc agacactgaa 181 721 gctcagcaga tttattactc catagattta ttactccatt ctatgattca tcctctctgc 781 181 tgaaggcctt gtgatatagt caagagcaaa aaaacccaga agattgttat tgttttaagt 241 cactgttttc agatagattg ctatgcagca atagattatt gaaatagaca ctacaatttt 301 aggtactatt attctaagaa tattgaattt tatttttctg ctaatgttct attattttac 361 ttttctctgg gttttagaaa gccaccagga tttaagacag tgaagaatct ttgagtcctt 421 tgtagagttg aaccaaagtt tgaatgtctc tttgtggact cgtgtcctag ggataccact 481 ccaaagggaa aaggggaata tcccttacat atctttgact ttggtatccc tgattccttc 541 ctttttctat agaatgtgtc tcatttcaga gaaactggtc tcttgataat agccatagat 601 tacatactgt ggtcttcctc tacatagacc ctacctcacc taccactcct ggtcttagct 661 gaaaaacagg ctagcctcga ctcatactgt catttcctat cctcccactg aagtgcactg 721 gctcagcaga tttattactc catagattta ttactccatt ctatgattca tcctctctgc 781 ttcctataaa aggcagagac agagcttcca gaggagcaga ggggctgaga ccaaaccaga 841 aacctccaat tctcatgtgg aagcccatgc cctcaccctc caacatgaaa gcctctgcag 901 cacttctgtg tctgctgctc acagcagctg ctttcagccc ccaggggctt gctcagccag 961 gtaaggtccc tctctccttc tccttgaagc acattgcccc ctctctgggt tatcctggac1021 caatcaagaa gacctgatac ccacagtctc actttaacag ctacttttcc aagataaggt1081 aacttagaaa aaggataagg ggtgagccca accacacagc tgctgttggg tagagcctga1141 actagaattc cagctgtgaa ccccaaatcc agctccttct aggattccag ctctgggaac1201 accctcagtg cagttaccac tccagctgct tccagcagaa tttgggatca gggtgatcaa1261 agacaggagg cttctgggga tgggtgtgcg ggctgtttcc agataccggg agacccagaa1321 tctggtctgt ggaagcccag cttccagaaa cagcagctct gcagaggtgg tacgtatcag1381 ggaaactcat gaccaagcat tgaatgctca gagcctaaaa ggggatccat agttggggta1441 cccttgctct aaggaattgg attattatat tagcccctcc tagcaatgcc cagagtagcc1501 atcaattcct cttccgtctt tcaactggtg atggtgcatc cctatttcacagtccataaa1561 agtgaaaggg agtttatgaa atgcctcaaa gggcagagac attgggtttg ggatgggcag1621 cttttccctc cacctcttcc tttctttctg attccttctt cttaccattc cctgttttac1681 aaacagaaag acccaggaca caccctcaat ggacttttct tcttgttgtt tcattgcagt1741 tgggattaat acttcaacta cctgctgcta cagatttatc aataagaaaa tccctaagca1801 gaggctggag agctacagaa ggaccaccag tagccactgt ccccgggaag ctgtaatgta1861 tgtggacgat gaccacccac ccctcacacc tcagtcctag gttcttccct gggcagggaa1921 taggactagt atcagaatga gttggagtca aatactgtga tgcatacagc atctctaacc1981 ttatcccaga catttgccag tgagaaacaa tacaagtaaa gaaagtggct tctcactctc2041 agctcccttt ccagctatca ttttacatct cagttcgttc cttcatcctg gaaccaagag2101 agattcactt gggctaccaa aaagagctgc ttctctgagt ccccttcctt tgttttatct2161 tcttccttca tccctgaggc atccccatca gctaggctga tgggctagac agatttccca2221 tagacttggt cacactccca ggctgaaccc tcaaggtgtt ccatctgact gtctcctttc2281 tgctccacag cttcaagacc aaactggaca aggagatctg tgctgacccc acacagaagt2341 gggtccagga ctttatgaag cacctggaca agaaaaccca aactccaaag ctttgaacat2401 tcatgactga actgaaaaca agccatgact tgagaaacaa ataatttgta taccctgtcc2461 tttctcagag tggttctgag attattttaa tctaattcta aggaatatga gctttatgta2521 ataatgtgaa tcatggtttt tcttagtaga ttttaaaagt tattaatatt ttaatttaat2581 cttccatgga ttttggtggg ttttgaacat aaagccttgg atgtatatgt catctcagtg2641 ctgtaaaaac tgtgggatgc tcctcccttc tctacctcat gggggtattg tataagtcct2701 tgcaagaatc agtgcaaaga tttgctttaa ttgttaagat atgatgtccc tatggaagca2761 27 2761 tattgttatt atataattac atatttgcat atgtatgact cccaaatttt cacataaaat2821 agatttttgt ataacagctg ccattcatgg ttttttaaag gataagtaat aaagctggtg2881 gggta (2) SEQ ID NO: 2587 data: (i) sequence characteristics:

(A) length: 5865 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2587 sequence description: 1 agcagagggg ctgagaccaa accagaaacc tccaattctc atgtggaagc ccatgccctc 61 accctccaac atgaaagcct ctgcagcact tctgtgtctg ctgctcacag cagctgcttt121 cagcccccag gggcttgctc agccagttgg gattaatact tcaactacct gctgctacag181 721 tccctatgga agcatattgt tattatataa ttacatattt gcatatgtat gactcccaaa 781 181 atttatcaat aagaaaatcc ctaagcagag gctggagagc tacagaagga ccaccagtag 241 ccactgtccc cgggaagctg taatcttcaa gaccaaactg gacaaggaga tctgtgctga301 ccccacacag aagtgggtcc aggactttat gaagcacctg gacaagaaaa cccaaactcc 361 aaagctttga acattcatga ctgaactaaa aacaagccat gacttgagaa acaaataatt 421 tgtataccct gtcctttctc agagtggttc tgagattatt ttaatctaat tctaaggaat 481 atgagcttta tgtaataatg tgaatcatgg tttttcttag tagattttaa aagttattaa 541 tattttaatt taatcttcca tggattttgg tgggttttga acataaagcc ttggatgtat 601 atgtcatctc agtgctgtaa aaactgtggg atgctcctcc cttctctacc tcatgggggt 661 attgtataag tccttgcaag aatcagtgca aagatttgct ttaattgtta agatatgatg 721 tccctatgga agcatattgt tattatataa ttacatattt gcatatgtat gactcccaaa 781 ttttcacata aaatagattt ttgtaaaaaa 1 ggtttctatt gacttgggtt aatcgtgtga ccgcggtggc tggcacgaaa ttgaccaacc 61 ctggggttag tatagcttag ttaaactttc gtttattgct aaaggttaat cactgctgtt 121 tcccgtgggg gtgtggctag gctaagcgtt ttgagctgca ttgctgcgtg cttgatgctt 181 gtcccttttg atcgtggtga tttagagggt gaactcactg gaatggggat gcttgcatgt 241 gtaatcttac taagagctaa tagaaaggct aggaccaaac cagaaacctc caattctcat 301 gtggaagccc atgccctcac cctccaacat gaaagcctct gcagcacttc tgtgtctgct 361 gctcacagca gctgctttca gcccccaggg gcttgctcag ccagttggga ttaatacttc 421 aactacctgc tgctacagat ttatcaataa gaaaatccct aagcagaggc tggagagcta 481 cagaaggacc accagtagcc actgtccccg ggaagctgta atcttcaaga ccaaactgga 541 caaggagatc tgtgctgacc ccacacagaa gtgggtccag gactttatga agcacctgga 601 caagaaaacc caaactccaa agctttgaac attcatgact gaactgaaaa caagccatga 661 cttgagaaac aaataatttg tataccctgt cctttctcag agtggttctg agattatttt 721 aatctaattc taaggaatat gagctttatg taataatgtg aatcatggtt tttcttagta 781 gattttaaaa gttattaata ttttaattta atcttccatg gattttggtg ggttttgaac 841 ataaagcctt ggatgtatat gtcatctcag tgctgtaaaa actgtgggat gctcctccct 901 tctctacctc atgggggtat tgtataagtc cttgcaagaa tcagtgcaaa gatttgcttt 961 aattgttaag atatgatgtc cctatggaag catattgtta ttatataatt acatatttgc1021 atatgtatga ctcccaaatt ttcacataaa atagattttt gtataacaaa aaaaaaaaaa1081 aaaa1 ggtttctatt gacttgggtt aatcgtgtga ccgcggtggc tggcacgaaa ttgaccaacc 61 ctggggttag tatagcttag ttaaactttc gtttattgct aaaggttaat cactgctgtt 121 tcccgtgggg gtgtggctag gctaagcgtt ttgagctgca ttgctgcgtg cttgatgctt 181 gtcccttttg atcgtggtga tttagagggt gaactcactg gaatggggat gcttgcatgt 241 gtaatcttac taagagctaa tagaaaggct aggaccaaac cagaaacctc caattctcat 301 gtggaagccc atgccctcac cctccaacat gaaagcctct gcagcacttc tgtgtctgct 361 gctcacagca gctgctttca gcccccaggg gcttgctcag ccagttggga ttaatacttc 421 aactacctgc tgctacagat ttatcaataa gaaaatccct aagcagaggc tggagagcta 481 cagaaggacc accagtagcc actgtccccg ggaagctgta atcttcaaga ccaaactgga 541 caaggagatc tgtgctgacc ccacacagaa gtgggtccag gactttatga agcacctgga 601 caagaaaacc caaactccaa agctttgaac attcatgact gaactgaaaa caagccatga 661 cttgagaaac aaataatttg tataccctgt cctttctcag agtggttctg agattatttt 721 aatctaattc taaggaatat gagctttatg taataatgtg aatcatggtt tttcttagta 781 gattttaaaa gttattaata ttttaattta atcttccatg gattttggtg ggttttgaac 841 ataaagcctt ggatgtatat gtcatctcag tgctgtaaaa actgtgggat gctcctccct 901 tctctacctc atgggggtat tgtataagtc cttgcaagaa tcagtgcaaa gatttgcttt 961 aattgttaag atatgatgtc cctatggaag catattgtta ttatataatt acatatttgc1021 atatgtatga ctcccaaatt ttcacataaa atagattttt gtataacaaa aaaaaaaaaa1081 aaaa1 ggatccttaa gccatcatgc aaaatatcta gccatgtgga gggaccactg gaaagatcac 61 acacacacac acacacacac acacacacac atacagagag agagagagac acctgagaaa 121 ttccatctgg tccaactgct ggctgttgaa gtcctcccag cccagacccc agacactgaa 181 tgaaggcctt gtgatatagt caagagcaaa aaaacccaga agattgttat tgttttaagt 241 cactgttttc agatagattg ctatgcagca atagattatt gaaatagaca ctacaatttt 301 aggtactatt attctaagaa tattgaattt tatttttctg ctaatgttct attattttac 361 ttttctctgg gttttagaaa gccaccagga tttaagacag tgaagaatct ttgagtcctt 421 tgtagagttg aaccaaagtt tgaatgtctc tttgtggact cgtgtcctag ggataccact 481 ccaaagggaa aaggggaata tcccttacat atctttgact ttggtatccc tgattccttc 541 ctttttctat agaatgtgtc tcatttcaga gaaactggtc tcttgataat agccatagat 601 tacatactgt ggtcttcctc tacatagacc ctacctcacc taccactcct ggtcttagct 661 gaaaaacagg ctagcctcga ctcatactgt catttcctat cctcccactg aagtgcactg 721 gctcagcaga tttattactc catagattta ttactccatt ctatgattca tcctctctgc 781 63 ttcctataaa aggcagagac agagcttcca gaggagcaga ggggctgaga ccaaaccaga 841 aacctccaat tctcatgtgg aagcccatgc cctcaccctc caacatgaaa gcctctgcag 901 cacttctgtg tctgctgctc acagcagctg ctttcagccc ccaggggctt gctcagccag 961 gtaaggtccc tctctccttc tccttgaagc acattgcccc ctctctgggt tatcctggac1021 caatcaagaa gacctgatac ccacagtctc actttaacag ctacttttcc aagataaggt1081 aacttagaaa aaggataagg ggtgagccca accacacagc tgctgttggg tagagcctga1141 actagaattc cagctgtgaa ccccaaatcc agctccttct aggattccag ctctgggaac1201 84 1261 agacaggagg cttctgggga tgggtgtgcg ggctgtttcc agataccggg agacccagaa1321 tctggtctgt ggaagcccag cttccagaaa cagcagctct gcagaggtgg tacgtatcag1381 ggaaactcat gaccaagcat tgaatgctca gagcctaaaa ggggatccat agttggggta1441 cccttgctct aaggaattgg attattatat tagcccctcc tagcaatgcc cagagtagcc1501 atcaattcct cttccgtctt tcaactggtg atggtgcatc cctatttcac agtccataaa1561 agtgaaaggg agtttatgaa atgcctcaaa gggcagagac attgggtttg ggatgggcag1621 cttttccctc cacctcttcc tttctttctg attccttctt cttaccattc cctgttttac1681 aaacagaaag acccaggaca caccctcaat ggacttttct tcttgttgtt tcattgcagt1741 tgggattaat acttcaacta cctgctgcta cagatttatc aataagaaaa tccctaagca180 gaggctggag agctacagaa ggaccaccag tagccactgt ccccgggaag ctgtaatgta1861 tgtggacgat gaccacccac ccctcacacc tcagtcctag gttcttccct gggcagggaa 1926951 1981 ttatcccaga catttgccag tgagaaacaa tacaagtaaa gaaagtggct tctcactctc2041 agctcccttt ccagctatca ttttacatct cagttcgttc cttcatcctg gaaccaagag2101 agattcactt gggctaccaa aaagagctgc ttctctgagt ccccttcctt tgttttatct2161 tcttccttca tccctgaggc atccccatca gctaggctga tgggctagac agatttccca2221 tagacttggt cacactccca ggctgaaccc tcaaggtgtt ccatctgact gtctcctttc2281 tgctccacag cttcaagacc aaactggaca aggagatctg tgctgacccc acacagaagt2341 gggtccagga ctttatgaag cacctggaca agaaaaccca aactccaaag ctttgaacat2401 tcatgactga actgaaaaca agccatgact tgagaaacaa ataatttgta taccctgtcc2461 tttctcagag tggttctgag attattttaa tctaattcta aggaatatga gctttatgta2521 ataatgtgaa tcatggtttt tcttagtaga ttttaaaagt tattaatatt ttaatttaat2581 582641 ctgtaaaaac tgtgggatgc tcctcccttc tctacctcat gggggtattg tataagtcct2701 tgcaagaatc agtgcaaaga tttgctttaa ttgttaagat atgatgtccc tatggaagca2761 tattgttatt atataattac atatttgcat atgtatgact cccaaatttt cacataaaat2821 agatttttgt ataacagctg ccattcatgg ttttttaaag gataagtaat aaagctggtg2881 gggta (2) SEQ ID NO: 2588 data: (i) sequence characteristics:

(A) length: 741 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2588 sequence description: 1 aaccgagagg ctgagactaa cccagaaaga tccaattctc aaactgaagc tcgcactctc 61 gcctccagca tgaaagtctc tgccgccctt ctgtgcctgc tgctcatagc agccaccttc 121 attccccaag ggctcgctca gccagatgca atcaatgccc cagtcacctg ctgttataac 181 ttcaccaata ggaagatctc agtgcagagg ctcgcgagct atagaagaat caccagcagc 241 aagtgtccca aagaagctgt gatcttcaag accattgtgg ccaaggagat ctgtgctgac 301 cccaagcaga agtgggttca ggattccatg gaccacctgg acaagcaaac ccaaactccg 361 aagacttgaa cactcactcc acaacccaag aatctgcagc taacttattt tcccctagct 421 ttccccagac accctgtttt attttattat aatgaatttt gtttgttgat gtgaaacatt 481 atgccttaag taatgttaat tcttatttaa gttattgatg ttttaagttt atctttcatg 541 gtactagtgt tttttagata cagagacttg gggaaattgc ttttcctctt gaaccacagt 601 tctacccctg ggatgttttg agggtctttg caagaatcat taatacaaag aatttttttt 661 aacattccaa tgcattgcta aaatattatt gtggaaatga atattttgta actattacac 721 39 721 caaataaata tatttttgta c (2) SEQ ID NO: 2589, data: (i) sequence characteristics:

(A) length: 1522 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2589 sequence description: 1 agcccatgtc ctctcttttc aggtgatgac tttcccctga ggaagccctg tagcgtgcct 61 ggaggaaggg gctctccaac cccagcccca cctagccacc atgaacactt cagccccacc 121 tgctgtcagc cccaacatca ccgtcctggc accaggaaag ggtccctggc aagtggcctt 181 721 ctactggcgc atctaccggg agacagagaa ccgagcacgg gagctggcag cccttcaggg 781 181 cattgggatc accacgggcc tcctgtcgct agccacagtg acaggcaacc tgctggtact 241 catctctttc aaggtcaaca cggagctcaa gacagtcaat aactacttcc tgctgagcct 301 ggcctgtgct gacctcatca tcggtacctt ctccatgaac ctctatacca cgtacctgct 361 catgggccac tgggctctgg gcacgctggc ttgtgacctc tggctggccc tggactatgt 421 ggccagcaat gcctccgtca tgaatctgct gctcatcagc tttgaccgct acttctccgt 481 gactcggccc ctgagctacc gtgccaagcg cacaccccgc cgggcagctc tgatgatcgg 541 cctggcctgg ctggtttcct ttgtgctctg ggccccagcc atcctcttct ggcagtacct 601 ggtaggggag cggacgatgc tagctgggca gtgctacatc cagttcctct cccagcccat 661 catcaccttt ggcacagcca tggctgcctt ctacctccct gtcacagtca tgtgcacgct 721 ctactggcgc atctaccggg agacagagaa ccgagcacgg gagctggcag cccttcaggg 781 ctccgagacg ccaggcaaag ggggtggcag cagcagcagc tcagagaggt ctcagccagg 841 ggctgagggc tcaccagaga ctcctccagg ccgctgctgt cgctgctgcc gggcccccag 901 gctgctgcag gcctacagct ggaaggaaga agaggaagag gacgaaggct ccatggagtc 961 cctcacatcc tcagagggag aggagcctgg ctccgaagtg gtgatcaaga tgccaatggt1021 ggaccccgag gcacaggccc ccaccaagca gcccccacgg agctccccaa atacagtcaa1081 gaggccgact aagaaagggc gtgatcgagc tggcaagggc cagaagcccc gtggaaagga1141 gcagctggcc aagcggaaga ccttctcgct ggtcaaggag aagaaggcgg ctcggaccct1201 gagtgccatc ctcctggcct tcatcctcac ctggacaccg tacaacatca tggtgctggt1261 gtccaccttc tgcaaggact gtgttcccga gaccctgtgg gagctgggct actggctgtg1321 ctacgtcaac agcaccatca accccatgtg ctacgcactc tgcaacaaag ccttccggga1381 cacctttcgc ctgctgctgc tttgccgctg ggacaagaga cgctggcgca agatccccaa1441 gcgccctggc tccgtgcacc gcactccctc ccgccaatgc tgatagtccc ctctcctgca1501 tccctccacc ccagtccccg gg (2) SEQ ID NO: 2590 data: (i) sequence characteristics:

(A) length: 1569 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2590 sequence description: 1 attttaaacc aatgtttata ttatgtttgt taattttatt ctatttcctt gcaggtttaa 61 atgtttattt gctacttggc tactgattag agaacgcaaa atgaataact caacaaactc 121 ctctaacaat agcctggctc ttacaagtcc ttataagaca tttgaagtgg tgtttattgt 181 721 gcacatatcc cgagccagca agagcaggat aaagaaggac aagaaggagc ctgttgccaa 781 181 cctggtggct ggatccctca gtttggtgac cattatcggg aacatcctag tcatggtttc 241 cattaaagtc aaccgccacc tccagaccgt caacaattac tttttattca gcttggcctg 301 tgctgacctt atcataggtg ttttctccat gaacttgtac accctctaca ctgtgattgg 361 ttactggcct ttgggacctg tggtgtgtga cctttggcta gccctggact atgtggtcag 421 caatgcctca gttatgaatc tgctcatcat cagctttgac aggtacttct gtgtcacaaa 481 acctctgacc tacccagtca agcggaccac aaaaatggca ggtatgatga ttgcagctgc 541 ctgggtcctc tctttcatcc tctgggctcc agccattctc ttctggcagt tcattgtagg 601 ggtgagaact gtggaggatg gggagtgcta cattcagttt ttttccaatg ctgctgtcac 661 ctttggtacg gctattgcag ccttctattt gccagtgatc atcatgactg tgctatattg 721 gcacatatcc cgagccagca agagcaggat aaagaaggac aagaaggagc ctgttgccaa 781 ccaagacccc gtttctccaa gtctggtaca aggaaggata gtgaagccaa acaataacaa 841 catgcccagc agtgacgatg gcctggagca caacaaaatc cagaatggca aagcccccag 901 ggatcctgtg actgaaaact gtgttcaggg agaggagaag gagagctcca atgactccac 961 ctcagtcagt gctgttgcct ctaatatgag agatgatgaa ataacccagg atgaaaacac1021 agtttccact tccctgggcc attccaaaga tgagaactct aagcaaacat gcatcagaat1081 tggcaccaag accccaaaaa gtgactcatg taccccaact aataccaccg tggaggtagt1141 ggggtcttca ggtcagaatg gagatgaaaa gcagaatatt gtagcccgca agattgtgaa1201 gatgactaag cagcctgcaa aaaagaagcc tcctccttcc cgggaaaaga aagtcaccag1261 gacaatcttg gctattctgt tggctttcat catcacttgg gccccataca atgtcatggt1321 gctcattaac accttttgtg caccttgcat ccccaacact gtgtggacaa ttggttactg1381 gctttgttac atcaacagca ctatcaaccc tgcctgctat gcactttgca atgccacctt1441 caagaagacc tttaaacacc ttctcatgtg tcattataag aacataggcg ctacaaggta1501 aaatatcttt gaaaaagata gaaggtgggc aaggggagct tgagaagaat aaaagggata1561 aacgagctc (2) SEQ ID NO: 2591 data: (i) sequence characteristics:

(A) length: 1703 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2591 sequence description: 1 tccagtgtac ctccagatga ctcccccatt ccctcctgta gttcatgctt ttctctcccc 61 ttcctcccca gacacggcct acccacccct ggcaaccaac atggccaact tcacacctgt 121 caatggcagc tcgggcaatc agtccgtgcg cctggtcacg tcatcatccc acaatcgcta 181 721 tgtggtcatc atgacggtgc tgtacatcca catctccctg gccagtcgca gccgagtcca 781 181 tgagacggtg gaaatggtct tcattgccac agtgacaggc tccctgagcc tggtgactgt 241 cgtgggcaac atcctggtga tgctgtccat caaggtcaac aggcagctgc agacagtcaa 301 caactacttc ctcttcagcc tggcgtgtgc tgatctcatc ataggcgcct tctccatgaa 361 cctctacacc gtgtacatca tcaagggcta ctggcccctg ggcgccgtgg tctgcgacct 421 gtggctggcc ctggactacg tggtgagcaa cgcctccgtc atgaaccttc tcatcatcag 481 ctttgaccgc tacttctgcg tcaccaagcc tctcacctac cctgcccggc gcaccaccaa 541 gatggcaggc ctcatgattg ctgctgcctg ggtactgtcc ttcgtgctct gggcgcctgc 601 catcttgttc tggcagtttg tggtgggtaa gcggacggtg cccgacaacc agtgcttcat 661 ccagttcctg tccaacccag cagtgacctt tggcacagcc attgctgcct tctacctgcc 721 tgtggtcatc atgacggtgc tgtacatcca catctccctg gccagtcgca gccgagtcca 781 caagcaccgg cccgagggcc cgaaggagaa gaaagccaag acgctggcct tcctcaagag 841 cccactaatg aagcagagcg tcaagaagcc cccgcccggg gaggccgccc gggaggagct 901 gcgcaatggc aagctggagg aggccccccc gccagcgctg ccaccgccac cgcgccccgt 961 ggctgataag gacacttcca atgagtccag ctcaggcagt gccacccaga acaccaagga1021 acgcccagcc acagagctgt ccaccacaga ggccaccacg cccgccatgc ccgcccctcc1081 cctgcagccg cgggccctca acccagcctc cagatggtcc aagatccaga ttgtgacgaa1141 gcagacaggc aatgagtgtg tgacagccat tgagattgtg cctgccacgc cggctggcat1201 gcgccctgcg gccaacgtgg cccgcaagtt cgccagcatc gctcgcaacc aggtgcgcaa1261 gaagcggcag atggcggccc gggagcgcaa agtgacacga acgatctttg ccattctgct1321 agccttcatc ctcacctgga cgccctacaa cgtcatggtc ctggtgaaca ccttctgcca1381 gagctgcatc cctgacacgg tgtggtccat tggctactgg ctctgctacg tcaacagcac1441 catcaaccct gcctgctatg ctctgtgcaa cgccaccttt aaaaagacct tccggcacct1501 gctgctgtgc cagtatcgga acatcggcac tgccaggtag gcaggcagga gtgccctagg1561 aggtgctggt gttgcgtgcg tgtgctgggg ggaccacacg gctcacttgc tgtggggaag1621 agttgcaggc accattctgc gttcacgttt gctgaggagg aagttcagaa gaggctctgt1681 ggctgcattc agagaccaga tct (2) SEQ ID NO: 2592 data: (i) sequence characteristics:

(A) length: 1913 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2592 sequence description: 1 tcttttaacg tatgtaatgc aaagaacaaa caaataaagg cagaaatttt tctaactctg 61 tctcttctct ctttccccca gactatgtca gagagtcaca atgaccttgc acaataacag 121 tacaacctcg cctttgtttc caaacatcag ctcctcctgg atacacagcc cctccgatgc 181 721 gcaatacttt gttggaaaga gaactgtgcc tccgggagag tgcttcattc agttcctcag 781 181 agggctgccc ccgggaaccg tcactcattt cggcagctac aatgtttctc gagcagctgg 241 caatttctcc tctccagacg gtaccaccga tgaccctctg ggaggtcata ccgtctggca 301 agtggtcttc atcgctttct taacgggcat cctggccttg gtgaccatca tcggcaacat 361 cctggtaatt gtgtcattta aggtcaacaa gcagctgaag acggtcaaca actacttcct 421 cttaagcctg gcctgtgccg atctgattat cggggtcatt tcaatgaatc tgtttacgac 481 ctacatcatc atgaatcgat gggccttagg gaacttggcc tgtgacctct ggcttgccat 541 tgactacgta gccagcaatg cctctgttat gaatcttctg gtcatcagct ttgacagata 601 cttttccatc acgaggccgc tcacgtaccg agccaaacga acaacaaaga gagccggtgt 661 gatgatcggt ctggcttggg tcatctcctt tgtcctttgg gctcctgcca tcttgttctg 721 gcaatacttt gttggaaaga gaactgtgcc tccgggagag tgcttcattc agttcctcag 781 tgagcccacc attacttttg gcacagccat cgctgctttt tatatgcctg tcaccattat 841 gactatttta tactggagga tctataagga aactgaaaag cgtaccaaag agcttgctgg 901 cctgcaagcc tctgggacag aggcagagac agaaaacttt gtccacccca cgggcagttc961 tcgaagctgc agcagttacg aacttcaaca gcaaagcatg aaacgctcca acaggaggaa1021 gtatggccgc tgccacttct ggttcacaac caagagctgg aaacccagct ccgagcagat1081 ggaccaagac cacagcagca gtgacagttg gaacaacaat gatgctgctg cctccctgga1141 gaactccgcc tcctccgacg aggaggacat tggctccgag acgagagcca tctactccat1201 cgtgctcaag cttccgggtc acagcaccat cctcaactcc accaagttac cctcatcgga1261 caacctgcag gtgcctgagg aggagctggg gatggtggac ttggagagga aagccgacaa1321 gctgcaggcc cagaagagcg tggacgatgg aggcagtttt ccaaaaagct tctccaagct1381 tcccatccag ctagagtcag ccgtggacac agctaagact tctgacgtca actcctcagt1441 gggtaagagc acggccactc tacctctgtc cttcaaggaa gccactctgg ccaagaggtt1501 tgctctgaag accagaagtc agatcactaa gcggaaaagg atgtccctgg tcaaggagaa1561 gaaagcggcc cagaccctca gtgcgatctt gcttgccttc atcatcactt ggaccccata1621 caacatcatg gttctggtga acaccttttg tgacagctgc atacccaaaa ccttttggaa1681 tctgggctac tggctgtgct acatcaacag caccgtgaac cccgtgtgct atgctctgtg1741 caacaaaaca ttcagaacca ctttcaagat gctgctgctg tgccagtgtg acaaaaaaaa1801 gaggcgcaag cagcagtacc agcagagaca gtcggtcatt tttcacaagc gcgcacccga1861 gcaggccttg tagaatgagg ttgtatcaat agcagtgaca aaacgacaca tca (2) SEQ ID NO: 2593 data: (i) sequence characteristics:

(A) length: 6707 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2593 sequence description: 1 agcccatgtc ctctcttttc aggtgatgac tttcccctga ggaagccctg tagcgtgcct 61 ggaggaaggg gctctccaac cccagcccca cctagccacc atgaacactt cagccccacc 121 tgctgtcagc cccaacatca ccgtcctggc accaggaaag ggtccctggc aagtggcctt 181 721 ctactggcgc atctaccggg agacagagaa ccgagcacgg gagctggcag cccttcaggg 781 181 cattgggatc accacgggcc tcctgtcgct agccacagtg acaggcaacc tgctggtact 241 catctctttc aaggtcaaca cggagctcaa gacagtcaat aactacttcc tgctgagcct 301 ggcctgtgct gacctcatca tcggtacctt ctccatgaac ctctatacca cgtacctgct 361 catgggccac tgggctctgg gcacgctggc ttgtgacctc tggctggccc tggactatgt 421 ggccagcaat gcctccgtca tgaatctgct gctcatcagc tttgaccgct acttctccgt 481 gactcggccc ctgagctacc gtgccaagcg cacaccccgc cgggcagctc tgatgatcgg 541 cctggcctgg ctggtttcct ttgtgctctg ggccccagcc atcctcttct ggcagtacct 601 ggtaggggag cggacgatgc tagctgggca gtgctacatc cagttcctct cccagcccat 661 catcaccttt ggcacagcca tggctgcctt ctacctccct gtcacagtca tgtgcacgct 721 ctactggcgc atctaccggg agacagagaa ccgagcacgg gagctggcag cccttcaggg 781 ctccgagacg ccaggcaaag ggggtggcag cagcagcagc tcagagaggt ctcagccagg 841 ggctgagggc tcaccagaga ctcctccagg ccgctgctgt cgctgctgcc gggcccccag 901 gctgctgcag gcctacagct ggaaggaaga agaggaagag gacgaaggct ccatggagtc 961 cctcacatcc tcagagggag aggagcctgg ctccgaagtg gtgatcaaga tgccaatggt1021 ggaccccgag gcacaggccc ccaccaagca gcccccacgg agctccccaa atacagtcaa1081 gaggccgact aagaaagggc gtgatcgagc tggcaagggc cagaagcccc gtggaaagga1141 gcagctggcc aagcggaaga ccttctcgct ggtcaaggag aagaaggcgg ctcggaccct1201 gagtgccatc ctcctggcct tcatcctcac ctggacaccg tacaacatca tggtgctggt1261 gtccaccttc tgcaaggact gtgttcccga gaccctgtgg gagctgggct actggctgtg1321 ctacgtcaac agcaccatca accccatgtg ctacgcactc tgcaacaaag ccttccggga1381 cacctttcgc ctgctgctgc tttgccgctg ggacaagaga cgctggcgca agatccccaa1441 gcgccctggc tccgtgcacc gcactccctc ccgccaatgc tgatagtccc ctctcctgca1501 tccctccacc ccagtccccg gg1 attttaaacc aatgtttata ttatgtttgt taattttatt ctatttcctt gcaggtttaa 61 atgtttattt gctacttggc tactgattag agaacgcaaa atgaataact caacaaactc 121 ctctaacaat agcctggctc ttacaagtcc ttataagaca tttgaagtgg tgtttattgt 181 cctggtggct ggatccctca gtttggtgac cattatcggg aacatcctag tcatggtttc 241 cattaaagtc aaccgccacc tccagaccgt caacaattac tttttattca gcttggcctg 301 tgctgacctt atcataggtg ttttctccat gaacttgtac accctctaca ctgtgattgg 361 ttactggcct ttgggacctg tggtgtgtga cctttggcta gccctggact atgtggtcag 421 caatgcctca gttatgaatc tgctcatcat cagctttgac aggtacttct gtgtcacaaa 481 acctctgacc tacccagtca agcggaccac aaaaatggca ggtatgatga ttgcagctgc 541 ctgggtcctc tctttcatcc tctgggctcc agccattctc ttctggcagt tcattgtagg 601 ggtgagaact gtggaggatggggagtgcta cattcagttt ttttccaatg ctgctgtcac 661 ctttggtacg gctattgcag ccttctattt gccagtgatc atcatgactg tgctatattg 721 gcacatatcc cgagccagca agagcaggat aaagaaggac aagaaggagc ctgttgccaa 781 ccaagacccc gtttctccaa gtctggtaca aggaaggata gtgaagccaa acaataacaa 841 catgcccagc agtgacgatg gcctggagca caacaaaatc cagaatggca aagcccccag 901 ggatcctgtg actgaaaact gtgttcaggg agaggagaag gagagctcca atgactccac 961 1021 961 ctcagtcagt gctgttgcct ctaatatgag agatgatgaa ataacccagg atgaaaacac1021 agtttccact tccctgggcc attccaaaga tgagaactct aagcaaacat gcatcagaat1081 1085 461 1081 tggcaccaag accccaaaaa gtgactcatg taccccaact aataccaccg tggaggtagt1141 ggggtcttca ggtcagaatg gagatgaaaa gcagaatatt gtagcccgca agattgtgaa1201 gatgactaag cagcctgcaa aaaagaagcc tcctccttcc cgggaaaaga aagtcaccag1261 gacaatcttg gctattctgt tggctttcat catcacttgg gccccataca atgtcatggt1321 gctcattaac accttttgtg caccttgcat ccccaacact gtgtggacaa ttggttactg1381 gctttgttac atcaacagca ctatcaaccc tgcctgctat gcactttgca atgccacctt1441 caagaagacc tttaaacacc ttctcatgtg tcattataag aacataggcg ctacaaggta1501 aaatatcttt gaaaaagata gaaggtgggc aaggggagct tgagaagaat aaaagggata1561 aacgagctc 1 tccagtgtac ctccagatga ctcccccatt ccctcctgta gttcatgctt ttctctcccc 61 637 61 ttcctcccca gacacggcct acccacccct ggcaaccaac atggccaact tcacacctgt 121 caatggcagc tcgggcaatc agtccgtgcg cctggtcacg tcatcatccc acaatcgcta 181 tgagacggtg gaaatggtct tcattgccac agtgacaggc tccctgagcc tggtgactgt 241 cgtgggcaac atcctggtga tgctgtccat caaggtcaac aggcagctgc agacagtcaa 301 caactacttc ctcttcagcc tggcgtgtgc tgatctcatc ataggcgcct tctccatgaa 361 cctctacacc gtgtacatca tcaagggcta ctggcccctg ggcgccgtgg tctgcgacct 421 gtggctggcc ctggactacg tggtgagcaa cgcctccgtc atgaaccttc tcatcatcag 481 ctttgaccgc tacttctgcg tcaccaagcc tctcacctac cctgcccggc gcaccaccaa 541 gatggcaggc ctcatgattg ctgctgcctg ggtactgtcc ttcgtgctct gggcgcctgc 601 catcttgttc tggcagtttg tggtgggtaa gcggacggtg cccgacaacc agtgcttcat 661 ccagttcctg tccaacccag cagtgacctt tggcacagcc attgctgcct tctacctgcc 721 tgtggtcatc atgacggtgc tgtacatcca catctccctg gccagtcgca gccgagtcca 781caagcaccgg cccgagggcc cgaaggagaa gaaagccaag acgctggcct tcctcaagag 841 cccactaatg aagcagagcg tcaagaagcc cccgcccggg gaggccgccc gggaggagct 901 gcgcaatggc aagctggagg aggccccccc gccagcgctg ccaccgccac cgcgccccgt 961 ggctgataag gacacttcca atgagtccag ctcaggcagt gccacccaga acaccaagga1021 acgcccagcc acagagctgt ccaccacaga ggccaccacg cccgccatgc ccgcccctcc1081 cctgcagccg cgggccctca acccagcctc cagatggtcc aagatccaga ttgtgacgaa1141 gcagacaggc aatgagtgtg tgacagccat tgagattgtg cctgccacgc cggctggcat1201 gcgccctgcg gccaacgtgg cccgcaagtt cgccagcatc gctcgcaacc aggtgcgcaa1261 gaagcggcag atggcggccc gggagcgcaa agtgacacga acgatctttg ccattctgct1321 agccttcatc ctcacctgga cgccctacaa cgtcatggtc ctggtgaaca ccttctgcca1381 gagctgcatc cctgacacgg tgtggtccat tggctactgg ctctgctacg tcaacagcac1441 catcaaccct gcctgctatg ctctgtgcaa cgccaccttt aaaaagacct tccggcacct1501 gctgctgtgc cagtatcgga acatcggcac tgccaggtag gcaggcagga gtgccctagg1561 aggtgctggt gttgcgtgcg tgtgctgggg ggaccacacg gctcacttgc tgtggggaag1621 agttgcaggc accattctgc gttcacgttt gctgaggagg aagttcagaa gaggctctgt1681 ggctgcattc agagaccaga tct1 tcttttaacg tatgtaatgc aaagaacaaa caaataaagg cagaaatttt tctaactctg 61 tctcttctct ctttccccca gactatgtca gagagtcaca atgaccttgc acaataacag 121 tacaacctcg cctttgtttc caaacatcag ctcctcctgg atacacagcc cctccgatgc 181 agggctgccc ccgggaaccg tcactcattt cggcagctac aatgtttctc gagcagctgg 241 caatttctcc tctccagacg gtaccaccga tgaccctctg ggaggtcata ccgtctggca 301 agtggtcttc atcgctttct taacgggcat cctggccttg gtgaccatca tcggcaacat 361 cctggtaatt gtgtcattta aggtcaacaa gcagctgaag acggtcaaca actacttcct 421 cttaagcctg gcctgtgccg atctgattat cggggtcatt tcaatgaatc tgtttacgac 481 ctacatcatc atgaatcgat gggccttagg gaacttggcc tgtgacctct ggcttgccat 541 tgactacgta gccagcaatg cctctgttat gaatcttctg gtcatcagct ttgacagata 601 cttttccatc acgaggccgc tcacgtaccg agccaaacga acaacaaaga gagccggtgt 661 gatgatcggt ctggcttggg tcatctcctt tgtcctttgg gctcctgcca tcttgttctg 721 gcaatacttt gttggaaaga gaactgtgcc tccgggagag tgcttcattc agttcctcag 781 tgagcccacc attacttttg gcacagccat cgctgctttt tatatgcctg tcaccattat 841 gactatttta tactggagga tctataagga aactgaaaag cgtaccaaag agcttgctgg 901 cctgcaagcc tctgggacag aggcagagac agaaaacttt gtccacccca cgggcagttc 961 tcgaagctgc agcagttacg aacttcaaca gcaaagcatg aaacgctcca acaggaggaa1021 gtatggccgc tgccacttct ggttcacaac caagagctgg aaacccagct ccgagcagat1081 ggaccaagac cacagcagca gtgacagttg gaacaacaat gatgctgctg cctccctgga1141 gaactccgcc tcctccgacg aggaggacat tggctccgag acgagagcca tctactccat1201 cgtgctcaag cttccgggtc acagcaccat cctcaactcc accaagttac cctcatcgga1261 caacctgcag gtgcctgagg aggagctggg gatggtggac ttggagagga aagccgacaa1321 gctgcaggcc cagaagagcg tggacgatgg aggcagtttt ccaaaaagct tctccaagct1381 tcccatccag ctagagtcag ccgtggacac agctaagact tctgacgtca actcctcagt1441 gggtaagagc acggccactc tacctctgtc cttcaaggaa gccactctgg ccaagaggtt1501 tgctctgaag accagaagtc agatcactaa gcggaaaagg atgtccctgg tcaaggagaa1561 gaaagcggcc cagaccctca gtgcgatctt gcttgccttc atcatcactt ggaccccata1621 caacatcatg gttctggtga acaccttttg tgacagctgc atacccaaaa ccttttggaa1681 tctgggctac tggctgtgct acatcaacag caccgtgaac cccgtgtgct atgctctgtg1741 caacaaaaca ttcagaacca ctttcaagat gctgctgctg tgccagtgtg acaaaaaaaa1801 gaggcgcaag cagcagtacc agcagagaca gtcggtcatt tttcacaagc gcgcacccga1861 gcaggccttg tagaatgagg ttgtatcaat agcagtgaca aaacgacaca tca (2) SEQ ID NO: 2594 data: (i) sequence characteristics:

(A) Length: 1230 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2594 sequence description: 1 atggataacg tcctcccggt ggactcagac ctctccccaa acatctccac taacacctcg 61 gaacccaatc agttcgtgca accagcctgg caaattgtcc tttgggcagc tgcttacacg 121 gtcattgtgg tgacctctgt ggtgggcaac gtggtagtga tgtggatcat cttagcccac 181 aaaagaatga ggacagtgac gaactatttt ctggtgaacc tggccttcgc ggaggcctcc 241 atggctgcat tcaatacagt ggtgaacttc acctatgctg tccacaacga atggtactac 301 ggcctgttct actgcaagtt ccacaacttc ttccccatcg ccgcttgctt cgccagtatc 361 tactccatga cggctgtggc ctttgatagg tacatggcca tcatacatcc cctccagccc 421 cggctgtcag ccacagccac caaagtggtc atctgtgtca tctgggtcct ggctctcctg 481 ctggccttcc cccagggcta ctactcaacc acagagacca tgcccagcag agtcgtgtgc 541 atgatcgaat ggccagagca tccgaacaag atttatgaga aagtgtacca catctgtgtg 601 actgtgctga tctacttcct ccccctgctg gtgattggct atgcatacac catagtggga 661 atcacactat gggccagtga gatccccggg gactcctctg accgctacca cgagcaagtc 721 tctgccaagc gcaaggtggt caaaatgatg attgtcgtgg tgtgcacctt cgccatctgc 781 tggctgccct tccacatctt cttcctcctg ccctacatca acccagatct ctacctgaag 841 aagtttatcc agcaggtcta cctggccatc atgtggctgg ccatgagctc caccatgtac 901 aaccccatca tctactgctg cctcaatgac aggttccgtc tgggcttcaa gcatgccttc 961 cggtgctgcc ccttcatcag cgccggcgac tatgaggggc tggaaatgaa atccacccgg1021 tatctccaga cccagggcag tgtgtacaaa gtcagccgcc tggagaccac catctccaca1081 gtggtggggg cccacgagga ggagccagag gacggcccca aggccacacc ctcgtccctg1141 gacctgacct ccaactgctc ttcacgaagt gactccaaga ccatgacaga gagcttcagc1201 ttctcctcca atgtgctctc ctagggatcc (2) seq id NO: 2595 data: (i) sequence characteristics:

(A) length: 1755 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2595 sequence description: 1 ctattgcagt atctttcagc ttccagtctt atctgaagac cccggcacca aagtgaccag 61 gaggcagaga agaacttcag aggagtctcg tcttgggctg cccgtgggtg agtgggaggg 121 tccgggactg cagaccggtg gcgatggcca ctctcccagc agcagaaacc tggatagacg 181 721 ccagactgtc tgctacagca accaagattg tcattggaag tatttggatt ctagcatttc 781 181 ggggtggagg cgtgggtgca gacgccgtga acctgaccgc ctcgctagct gccggggcgg 241 ccacgggggc agttgagact gggtggctgc aactgctgga ccaagctggc aacctctcct 301 cctccccttc cgcgctggga ctgcctgtgg cttcccccgc gccctcccag ccctgggcca 361 acctcaccaa ccagttcgtg cagccgtcct ggcgcatcgc gctctggtcc ctggcgtatg 421 gtgtggtggt ggcagtggca gttttgggaa atctcatcgt catctggatc atcctggccc481 acaagcgcat gaggactgtc accaactact tccttgtgaa cctggctttc tccgacgcct 541 ccatggccgc cttcaacacg ttggtcaatt tcatctacgc gcttcatagc gagtggtact 601 ttggcgccaa ctactgccgc ttccagaact tctttcctat cacagctgtg ttcgccagca 661 tctactccat gacggccatt gcggtggaca ggtatatggc tattattgat cccttgaaac 721 ccagactgtc tgctacagca accaagattg tcattggaag tatttggatt ctagcatttc 781 tacttgcctt ccctcagtgt ctttattcca aaaccaaagt catgccaggc cgtactctct 841 gctttgtgca atggccagaa ggtcccaaac aacatttcac ttaccatatt atcgtcatta 901 tactggtgta ctgtttccca ttgctcatca tgggtattac atacaccatt gttggaatta 961 ctctctgggg aggagaaatc ccaggagata cctgtgacaa gtatcatgag cagctaaagg1021 ccaaaagaaa ggttgtcaaa atgatgatta ttgttgtcat gacatttgct atctgctggc1081 tgccctatca tatttacttc attctcactg caatctatca acaactaaat agatggaaat1141 acatccagca ggtctacctg gctagctttt ggctggcaat gagctcaacc atgtacaatc1201 ccatcatcta ctgctgtctg aataaaagat ttcgagctgg cttcaagaga gcatttcgct1261 ggtgtccttt catcaaagtt tccagctatg atgagctaga gctcaagacc accaggtttc1321 atccaaaccg gcaaagcagt atgtacaccg tgaccagaat ggagtccatg acagtcgtgt1381 ttgaccccaa cgatgcagac accaccaggt ccagtcggaa gaaaagagca acgccaagag1441 acccaagttt caatggctgc tctcgcagga attccaaatc tgcctccgcc acttcaagtt1501 tcataagctc accctatacc tctgtggatg aatattctta attccatttc ctgaggtaaa1561 agattagtgt gagaccatca tggtgccagt ctaggacccc attctcctat ttatcagtcc1621 tgtcctatat accctctaga aacagaaagc aatttttagg cagctatggt caaattgaga1681 aaggtagtgt ataaatgtga caaagacact aataacatgt tagcctccac ccaaaataaa1741 atgggcttta aattt (2) SEQ ID NO: 2596 data: (i) sequence characteristics:

(A) length: 1197 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2596 sequence description: 1 atggggacct gtgacattgt gactgaagcc aatatctcat ctggccctga gagcaacacc 61 acgggcatca cagccttctc catgcccagc tggcagctgg cactgtgggc accagcctac 121 ctggccctgg tgctggtggc cgtgacgggt aatgccatcg tcatctggat catcctggcc 181 catcggagga tgcgcacagt caccaactac ttcatcgtca atctggcgct ggctgacctc 241 tgcatggctg ccttcaatgc cgccttcaac tttgtctatg ccagccacaa catctggtac 301 tttggccgtg ccttctgcta cttccagaac ctcttcccca tcacagccat gtttgtcagc 361 atctactcca tgaccgccat tgctgccgac aggtacatgg ccatcgtcca ccccttccag 421 cctcggcttt cagctcccag caccaaggcg gttattgctg gcatctggct ggtggctctc 481 gccctggcct cccctcagtg cttctactcc accgtcacca tggaccaggg tgccaccaag 541 tgcgtggtgg cctggcccga agacagcggg ggcaagacgc tcctcctgta ccacctcgtg 601 gtgatcgccc tcatctactt cctgccgctc gcggtgatgt ttgtagccta cagcgtcatc 661 ggcctcacgc tctggaggcg cgcagtgccc ggacatcagg cgcacggtgc caacctccgc 721 catctgcagg ccaagaagaa gtttgtgaag accatggtgc tggtggtgct gacgtttgcc 781 atctgctggc tgccctacca cctctacttc atcctgggca gcttccagga ggacatctac 841 tgccacaagt tcatccagca agtctacctg gcactcttct ggttggccat gagctctacc 901 atgtacaatc ccatcatcta ctgctgtctc aaccacaggt ttcgctctgg gttccggctt 961 gccttccgct gctgcccatg ggtcacaccc accaaggaag ataagctcga gctgactccc1021 acgacctccc tctccacgag agtcaacagg tgtcacacta aggagacttt gttcatggct1081 ggggacacag ccccctccga ggctaccagt ggggaggcgg ggcgtcccca ggatggatca1141 gggctatggt ttgggtatgg tttgcttgcc cccaccaaaa ctcatgttga aatttga (2) SEQ ID NO: 2597 data: (i) sequence characteristics:

(A) length: 4182 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2597 sequence description: 1 atggataacg tcctcccggt ggactcagac ctctccccaa acatctccac taacacctcg 61 gaacccaatc agttcgtgca accagcctgg caaattgtcc tttgggcagc tgcttacacg 121 gtcattgtgg tgacctctgt ggtgggcaac gtggtagtga tgtggatcat cttagcccac 181 721 tctgccaagc gcaaggtggt caaaatgatg attgtcgtgg tgtgcacctt cgccatctgc 781 181 aaaagaatga ggacagtgac gaactatttt ctggtgaacc tggccttcgc ggaggcctcc 241 atggctgcat tcaatacagt ggtgaacttc acctatgctg tccacaacga atggtactac 301 ggcctgttct actgcaagtt ccacaacttc ttccccatcg ccgcttgctt cgccagtatc 361 tactccatga cggctgtggc ctttgatagg tacatggcca tcatacatcc cctccagccc 421 cggctgtcag ccacagccac caaagtggtc atctgtgtca tctgggtcct ggctctcctg 481 ctggccttcc cccagggcta ctactcaacc acagagacca tgcccagcag agtcgtgtgc 541 atgatcgaat ggccagagca tccgaacaag atttatgaga aagtgtacca catctgtgtg 601 actgtgctga tctacttcct ccccctgctg gtgattggct atgcatacac catagtggga 661 atcacactat gggccagtga gatccccggg gactcctctg accgctacca cgagcaagtc 721 tctgccaagc gcaaggtggt caaaatgatg attgtcgtgg tgtgcacctt cgccatctgc 781 tggctgccct tccacatctt cttcctcctg ccctacatca acccagatct ctacctgaag 841 aagtttatcc agcaggtcta cctggccatc atgtggctgg ccatgagctc caccatgtac 901 aaccccatca tctactgctg cctcaatgac aggttccgtc tgggcttcaa gcatgccttc 961 cggtgctgcc ccttcatcag cgccggcgac tatgaggggc tggaaatgaa atccacccgg1021 tatctccaga cccagggcag tgtgtacaaa gtcagccgcc tggagaccac catctccaca1081 gtggtggggg cccacgagga ggagccagag gacggcccca aggccacacc ctcgtccctg1141 gacctgacct ccaactgctc ttcacgaagt gactccaaga ccatgacaga gagcttcagc1201 ttctcctcca atgtgctctc ctagggatcc 1 ctattgcagt atctttcagc ttccagtctt atctgaagac cccggcacca aagtgaccag 3961 gaggcagaga agaacttcag aggagtctcg tcttgggctg cccgtgggtg agtgggaggg tccgggactg cagaccggtg gcgatggcca ctctcccagc agcagaaacc tggatagacg 181 ggggtggagg cgtgggtgca gacgccgtga acctgaccgc ctcgctagct gccggggcgg 241 ccacgggggc agttgagact gggtggctgc aactgctgga ccaagctggc aacctctcct 301 cctccccttc cgcgctggga ctgcctgtgg cttcccccgc gccctcccag ccctgggcca 361 acctcaccaa ccagttcgtg cagccgtcct ggcgcatcgc gctctggtcc ctggcgtatg 421 gtgtggtggt ggcagtggca gttttgggaa atctcatcgt catctggatc atcctggccc 481 acaagcgcat gaggactgtc accaactact tccttgtgaa cctggctttc tccgacgcct 541 ccatggccgc cttcaacacg ttggtcaatt tcatctacgc gcttcatagc gagtggtact ttggcgccaa ctactgccgc ttccagaact tctttcctat cacagctgtg ttcgccagca 661 tctactccat gacggccatt gcggtggaca ggtatatggc tattattgat cccttgaaac 781 ccagactgtc tgctacagca accaagattg tcattggaag tatttggatt ctagcatttc 841 tacttgcctt ccctcagtgt ctttattcca aaaccaaagt catgccaggc cgtactctct 841 gctttgtgca atggccagaa ggtcccaaac aacatttcac ttaccatatt atcgtcatta 901 tactggtgta ctgtttccca ttgctcatca tgggtattac atacaccatt gttggaatta 961 ctctctgggg aggagaaatc ccaggagata cctgtgacaa gtatcatgag cagctaaagg1021 ccaaaagaaa ggttgtcaaa atgatgatta ttgttgtcat gacatttgct atctgctggc1081 tgccctatca tatttacttc attctcactg caatctatca acaactaaat agatggaaat1141 acatccagca ggtctacctg gctagctttt ggctggcaat gagctcaacc atgtacaatc1201 ccatcatcta ctgctgtctg aataaaagat ttcgagctgg cttcaagaga gcatttcgct1261 ggtgtccttt catcaaagtt tccagctatg atgagctaga gctcaagacc accaggtttc1321 atccaaaccg gcaaagcagt atgtacaccg tgaccagaat ggagtccatg acagtcgtgt1381 ttgaccccaa cgatgcagac accaccaggt ccagtcggaa gaaaagagca acgccaagag1441 acccaagttt caatggctgc tctcgcagga attccaaatc tgcctccgcc acttcaagtt1501 tcataagctc accctatacc tctgtggatg aatattctta attccatttc ctgaggtaaa1561 agattagtgt gagaccatca tggtgccagt ctaggacccc attctcctat ttatcagtcc1621 tgtcctatat accctctaga aacagaaagc aatttttagg cagctatggt caaattgaga1681 aaggtagtgt ataaatgtga caaagacact aataacatgt tagcctccac ccaaaataaa1741 atgggcttta aattt 1 atggggacct gtgacattgt gactgaagcc aatatctcat ctggccctga gagcaacacc 61 acgggcatca cagccttctc catgcccagc tggcagctgg cactgtgggc accagcctac 121 ctggccctgg tgctggtggc cgtgacgggt aatgccatcg tcatctggat catcctggcc 181 catcggagga tgcgcacagt caccaactac ttcatcgtca atctggcgct ggctgacctc 241 tgcatggctg ccttcaatgc cgccttcaac tttgtctatg ccagccacaa catctggtac 301 tttggccgtg ccttctgcta cttccagaac ctcttcccca tcacagccat gtttgtcagc 361 atctactcca tgaccgccat tgctgccgac aggtacatgg ccatcgtcca ccccttccag 421 cctcggcttt cagctcccag caccaaggcg gttattgctg gcatctggct ggtggctctc 481 gccctggcct cccctcagtg cttctactcc accgtcacca tggaccaggg tgccaccaag 541 tgcgtggtgg cctggcccga agacagcggg ggcaagacgc tcctcctgta ccacctcgtg 601 gtgatcgccc tcatctactt cctgccgctc gcggtgatgt ttgtagccta cagcgtcatc 661 ggcctcacgc tctggaggcg cgcagtgccc ggacatcagg cgcacggtgc caacctccgc 721 catctgcagg ccaagaagaa gtttgtgaag accatggtgc tggtggtgct gacgtttgcc 781 atctgctggc tgccctacca cctctacttc atcctgggca gcttccagga ggacatctac 841 tgccacaagt tcatccagca agtctacctg gcactcttct ggttggccat gagctctacc 901 atgtacaatc ccatcatcta ctgctgtctc aaccacaggt ttcgctctgg gttccggctt 961 gccttccgct gctgcccatg ggtcacaccc accaaggaag ataagctcga gctgactccc1021 acgacctccc tctccacgag agtcaacagg tgtcacacta aggagacttt gttcatggct1081 ggggacacag ccccctccga ggctaccagt ggggaggcgg ggcgtcccca ggatggatca1141 gggctatggt ttgggtatgg tttgcttgcc cccaccaaaa ctcatgttga aatttga (2) SEQ ID NO: 2598 data: (i) sequence characteristics:

(A) length: 1560 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2598 sequence description: 1 ctccataagg cacaaacttt cagagacagc agagcacaca agcttctagg acaagagcca 61 ggaagaaacc accggaagga accatctcac tgtgtgtaaa catgacttcc aagctggccg 121 tggctctctt ggcagccttc ctgatttctg cagctctgtg tgaaggtgca gttttgccaa 181 721 aatatccgaa ctttaatttc aggaattgaa tgggtttgct agaatgtgat atttgaagca 781 181 ggagtgctaa agaacttaga tgtcagtgca taaagacata ctccaaacct ttccacccca 241 aatttatcaa agaactgaga gtgattgaga gtggaccaca ctgcgccaac acagaaatta 301 ttgtaaagct ttctgatgga agagagctct gtctggaccc caaggaaaac tgggtgcaga 361 gggttgtgga gaagtttttg aagagggctg agaattcata aaaaaattca ttctctgtgg 421 tatccaagaa tcagtgaaga tgccagtgaa acttcaagca aatctacttc aacacttcat 481 gtattgtgtg ggtctgttgt agggttgcca gatgcaatac aagattcctg gttaaatttg 541 aatttcagta aacaatgaat agtttttcat tgtaccatga aatatccaga acatacttat 601 atgtaaagta ttatttattt gaatctacaa aaaacaacaa ataattttta aatataagga 661 ttttcctaga tattgcacgg gagaatatac aaatagcaaa attgggccaa gggccaagag 721 aatatccgaa ctttaatttc aggaattgaa tgggtttgct agaatgtgat atttgaagca 781 tcacataaaa atgatgggac aataaatttt gccataaagt caaatttagc tggaaatcct 841 ggattttttt ctgttaaatc tggcaaccct agtctgctag ccaggatcca caagtccttg 901 ttccactgtg ccttggtttc tcctttattt ctaagtggaa aaagtattag ccaccatctt 961 acctcacagt gatgttgtga ggacatgtgg aagcacttta agttttttca tcataacata1021 aattattttc aagtgtaact tattaaccta tttattattt atgtatttat ttaagcatca1081 aatatttgtg caagaatttg gaaaaataga agatgaatca ttgattgaat agttataaag1141 atgttatagt aaatttattt tattttagat attaaatgat gttttattag ataaatttca1201 atcagggttt ttagattaaa caaacaaaca attgggtacc cagttaaatt ttcatttcag1261 atatacaaca aataattttt tagtataagt acattattgt ttatctgaaa ttttaattga1321 actaacaatc ctagtttgat actcccagtc ttgtcattgc cagctgtgtt ggtagtgctg1381 tgttgaatta cggaataatg agttagaact attaaaacag ccaaaactcc acagtcaata1441 ttagtaattt cttgctggtt gaaacttgtt tattatgtac aaatagattc ttataatatt1501 atttaaatga ctgcattttt aaatacaagg ctttatattt ttaactttaa aaaaaaccgg (2) SEQ ID NO: 2599 data: (i) sequence characteristics:

(A) length: 1561 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2599 sequence description: 1 gaattctctc tccagcagcc ctgccagatg cccgcccagc ccctgcctca ggcggggagg 61 gcttcaggga agctcaccaa ggcagaaggg cgggagagat tgtcagagcc ccagctggtg 121 tccagggact gaccgtgagc ctgggtgaaa gtgagttccc cgttggaggc aacagacgag 181 721 agtccctcag gtctaggttt ggcaggtttg gcaaaaacac agcaacgctc ggttaaatct 781 181 gagaggatgg aaggcctggc ccccaagaat gagccctgag gttcagggag cggctggagt 241 gagccggccc cagatctccg tccagctgcg ggtcccagag gcctgggtta cactcgcagc 301 tcctggggga ggcccttgac gtgcctcagt tcccaaacag gaaccctggg aaggaccaga 361 gaagtgccta ttgcgcagtg agtgcccgac acagctgcat gtggccggta tcacagggcc 421 ctgggtaaac tgaggcaggc gacacagctg catgtggccg gtatcacagg gccctgggta 481 aactgaggca ggcgacacag ctgcatgtgg ccggtatcac agggccctgg gtaaactgag 541 gcaggcgaca cagctgcatg tggccgtatc acagggccct gggtaaactg aggcaggtga 601 cacagctgca tgtggccggt atcacggggc cctggataaa cagaggcagg cgacacagct 661 gcatgtggcc ggtatcacgg ggccctgggt aaactgaggc aggcgaggcc acccccatca 721 agtccctcag gtctaggttt ggcaggtttg gcaaaaacac agcaacgctc ggttaaatct 781 gaatttcggg taagtatatc ctgggcctca tttggaagag acttagatta aaaaaaaaac 841 gtcgagacca gcccggccaa cacggtgaaa ccccgtctct actaaaaata caaaaaatta 901 gccaggcgca gtggctcacg cctgtgatcc cagcactctg ggaggctgag gcaggcggat 961 cacccgaggt cagatgttca agaccagcct ggccgacagg gcgaaacact gtctctacta1021 caaatacaaa aattagccgg gagtggtggc aggtgcctgt aatctcagct attcaggagg1081 ctgaggcagg agaatcactt gaacctggga ggcggaggtt gccgtgagcc gggatcacgc1141 caccgcactc cagcctgggc gatagagcaa gactctgtct ccaaaaaaat aaattaaaaa1201 acccacattg attatctgac atttgaatgc gattgtgcat cctgaatttt gtctggaggc1261 cccacccgag ccaatccagc gtcttgtccc ccttctcccc cttttcatca acgccctgtg1321 ccaggggaga ggaagtggag ggcgctggcc ggccgtgggg caatgcaacg gcctcccagc1381 acagggctat aagaggagcc gggcgggcac ggaggggcag agaccccgga gccccagccc1441 caccatgacc ctcggccgcc gactcgcgtg tcttttcctc gcctgtgtcc tgccggcctt1501 gctgctgggg ggtgagtttt tgagtccaac ctcccgctgc tccctctgtc ccgggttctg1561 t (2) SEQ ID NO: 2600, data: (i) sequence characteristics:

(A) length: 5160 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2600 description of the sequence: 1 agcttcatcc tggagtcaac agattgggtt tgaatcctgg ctctgtccct ttctagctgt 61 gtgtttggtt gttactccac ctctctgagc cttaatttct tcatcagtaa aagtaatatt 121 cacctcctag ggttgttggg agggagaata agaacttcta aagtacccga acctagcaac 181 721 tcagagaatc ggcgcacccc ggagttcgag gttgcagtga gccatgatca cgccactgta 781 181 taggacacta tatttgcagg caagatgaag aggggtgggg aagtaatagg aaacagccca 241 aatcgagagc cataatagtc tctctttact tagtgccagt gcaggcctgt gattctgttc 301 ttaaaaacgt ctggggcaag ctgcaggaaa gacccgagat agcttatgtt ctaccataag 361 ccttaaggga ggaggactcc aggcagggag acttaccatg gcacctctaa gagaaagcct 421 actgaccaga gagaggtcag tcatgtactc ccgtagcttc ttagaatttc tgatctgact 481 cgctgcctct agagttgttc aggtggaaat tggaaggcta tagaggaatt cggcagcata 541 cagtggctca cgtctgtaat ccaaaatcca agcattttgg aaggccaaag taggaggatc 601 acttaagccc aggagtttaa gaccagccta ggcaaccgag tgagatccat ctccactaaa 661 aaattttaaa atttgccagg tatggtggtg tgcacctgta gccccagcta ctcaggagag 721 tcagagaatc ggcgcacccc ggagttcgag gttgcagtga gccatgatca cgccactgta 781 ctccagcctg ggtgacagag aagaccacct gtctcaaaaa acataaataa ataaataaat 841 aaataggccg tgcgcagcgg ctcacgactg taattccaac attttagaag gcggaggcag 901 cggatcacct gaggtcagga gttcgggacc agcctgacca acgtggtgaa accccaactc 961 tactaaaaat acataaatta ggcggggcgt ggtggtggcc gcctgtaatc ccagctactc1021 ggtaggctgc agcaggagaa tggtttgaac ccgggaggca gaggttgcag tgagccaaaa1081 tcccctcact gcattccagc ctgagactaa aaaaaagagg cgatttccca catcggtgga1141 aatttgagct gtttaaactc tggatgcctt tttcagttct aatattccag atctccttgg1201 tggataaaca cttcatttcc cttctcctga gcagagctcc tgagccctgg cccgctggaa1261 cctgtcactt ctaaaaaagt tcgaggtccg gactgtctct cccggagcct tgaggctgat1321 gagacggagc gagagagggg ccgggggcaa tggagtctac tcgcgggccc agggaggcgc1381 cagagggccc cgggaccgac cgcaagaata acttccttcc tcttccgcta acttcccggc1441 agggctacgc tcagggtggg ggccccgagg gctggggcgt cggcttcccc ctggggatcc1501 cccgcttcag agaagccaag cgttagcgca gccaaagccg gaggcagcga agctccggcc1561 cggggtggcg ctgggtcagg gtaccttctc ggcggtcccc tggccggccg aactcgcgcc1621 tggtgtcctg tcaccccgct ccccgccctg agtgagcctg tcccctctca ggggcgcgcc1681 cgagtcgctc cgggttggct gccaggtcca gagttaaact ttcagccaat gaaaaagggc1741 gcgagggctg acgcacggaa acgtcatggg aattcccccc tccggggggc cgagaagggg1801 ctttcccggc cctgagccct gctggcaggc gaggtgtcgc gaccggtccc aggtgggtcg1861 ggcgcggaga gaagccgcaa ccagagccgc cgccacggtg agtggctgga ttcagacccc1921 tgggtggccg ggacaagaga aaagagggag gagggccttt agcggacagc gcctggggct1981 ggagagcagc agctgcacac agccggaaag ggcgcgcagg cgacgacact cggatccacg2041 tcgacaccgt tgtacaaaga tacgcggacc cgtacgtaca cctgtacctg tgctggcgca2101 cacacggcag cgtccgtgca gtcgcactcg cacacacatg cacacggaga cgtgcccacc2161 ggtgcactgg tgcctgcacc cacacccttc acgcacaaac tcaagatacg ctcacccgtg2221 tctgtacatc aagacaggcg ctgacacaca cccacactga gaagctcggg attcacctat2281 ctacacacat gctcgcttgc acactcatgt tgacgccatg gacacacaac atgcaaccaa2341 gcactacagc cgaaacacac ttgtggagct gtgatggaga cacactcttg tattaggtgg2401 gggggggggg ggagcgtgca gagatctccc tgtcgcctgc gcgcccagaa ccggtgcggt2461 gtgggaccag ctgctgttgt gaggtttggg agagagagaa aaagagccca ctccgaggag2521 gagacacttt tcccgcagcc ccagaatcgc gttctcgggg cagaaccccg gggcctccca2581 caggaaagag ccccgcctac aggctgttcg aaggggaggc cgtccgacag caggaatgtc2641 cccccaaaag cccccggggt ttatcagccg tggcctccct cctggcagaa aatcccaagg2701 ttgctccaga ccgggggagg ggagcgggag gcggacttgg ccccagactg ccagcctcct 276361 cccggccgtg aaagaccctc ctgttccctg ccctggaggg aggagggggc ttaacccacc2821 ggggcttccc ggattctcct agacctctgc ccgctgaaaa gcagcgggac gccgtagact2881 gtcgagggcc atcccgcccc tcccgtcgcg agggcggggc cagtggcgtc atttccaggc2941 ccgccccctc cggccccgcc tccccttggt attttcggga ctttcctaag ctgctctaac3001 tttcctgccc cttccccgcc aagcccaact ccggatctcg ctctccaccg gatctcaccc3061 gccacacccg gacaggcggc tggaggaggt cggaccctcc cccaaatctg ggcccccatt3121 ctcccgccca cccccattta gatctgaccc cctcccccac gccactcctc ccaactttag3181 3284 tagcccagag acatggagag ttgctacaac ccagtgagtc atgccgcctg cccctgaccc3301 ggccggctag cccctcgtgt ctgtccacct gtctgcccga gccccctact gctgccttac3361 acctgtatgc ctcgcagatg ctctcagcct gccagtctgt ccatctgtct gcaactctgc3421 ctccaaaagg agctttctct tgggtctgag gaggaggggg gagtgaccac tgaagacttg3481 gaagatggga ggtggggcta gtgtgggggg tgctgagagt cggatgccac ccccagtctg3541 583601 attgtggaac ccaaggagcc agccccagaa acaggtcagc aagttcacta acctccccta36 gtctaaagcg ggggagggag agcatgtgcc ctctctctgg gggaggggtc tgggagatcg3721 tgtgctcagc aaggtctctc tgtccccagc tgatggcccc tacctggtga tcgtggaaca3781 gcctaagcag gttgagtgag caaaagggag ggatgtggaa tggcttcagc tttggggaca3841 aatggggtag tgtagctggc tggcatggag gagcattgcc gaagaggccc acaggggatt3901 ggatggtcac tgctgctgat cagagtgctg tagttttggt tcagggctac taccagcgac3961 824021 tcagagaggc ttccgatttc gatatggctg tgaaggcccc tcccatggag gactgcccgg4081 tgcctccagt gagaagggcc gaaagaccta tcccactgtc aagggtgcc aggatggtgc4141 tgggmggtggg gctaagtgga cagcatgccc aaggccctga cgtgacagtc ccttgcctct4201 cctagatctg taactacgag ggaccagcca agatcgaggt ggacctggta acacacagtg4261 acccacctcg tgctcatgcc cacagtctgg tgggcaagca atgctcggag ctggggatct4321 gcgccgtttc tgtggggccc aaggacatga ctgcccagta ggtgcccttc ttacgccttg4381 gcccccactg gtatgccskt cwtgccagtc ccaggcccca gccacctcca tatgatgtta4441 gcatctgacc aaggggaaan gatgtaggtt ggccccaaac ccaagggcct aagtagaaac4501 tccaatggct tccttgagga agtaaggctg agctgagcct ggcaatggga aaggtgcctg4561 gcaatgggaa aggtgcctca ggaagaaaga actgcatggc caaaggctcc cgattctctc4621 ttctcagatt taacaacctg ggtgtcctgc atgtgactaa gaagaacatg atggggacta4681 tgatacaaaa acttcagagg cagcggctcc gctctaggcc ccagggcctt acgggtatgg4741 gtgcaggggg tgggtcgggt atgggtgcag ggggtgggtg ggtcatggga ggtgctcatg4801 gaaggagcag ggagggagaa gccaggggtc acacatgtac ctactgccca gaggccgagc4861 agcgggagct ggagcaagag gccaaagaac tgaagaaggt gatggatctg agtatagtgc4921 ggctgcgctt ctctgccttc cttagagcca gtgatggctc cttctccctg cccctgaagc4981 cagtcacctc ccagcccatc catgatagca gtgagtatcc tgattgcctg gggtgccagg5041 cctggtsgsa gaggtggcat gaggggtgac ctcaagctgt gcagtcaaac aagacccagg5101 tttcagaacc tgcsctgcca catatgagct gagtgatcct gagcaagtca tttccccccc (2) SEQ ID NO: 2601 data: (i) sequence characteristics:

(A) length: 3625 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2601 sequence description: 1 ggccaccgga gcggcccggc gacgatcgct gacagcttcc cctgcccttc ccgtcggtcg 61 ggccgccagc cgccgcagcc ctcggcctgc acgcagccac cggccccgct cccggagccc 121 agcgccgccg aggccgcagc cgcccggcca gtaaggcggc gccgcccgcg gccaccgcgg 181 721 gcatgcccac agcctggtgg gaaaacactg tgaggatggg atctgcactg taactgctgg 781 181 gccctgccgt tccctccgcc gcgctgcgcc atggcgcggc gctgactggc ctggcccggc 241 cccgccgcgc tcccgctcgc cccgacccgc actcgggccc gcccgggctc cggcctgccg 301 ccgcctcttc cttctccagc cggcaggccc cgccgcttag gagggagagc ccacccgcgc 361 caggaggccg aacgcggact cgccacccgg cttcagaatg gcagaagatg atccatattt 421 gggaaggcct gaacaaatgt ttcatttgga tccttctttg actcatacaa tatttaatcc 481 agaagtattt caaccacaga tggcactgcc aacagatggc ccataccttc aaatattaga 541 gcaacctaaa cagagaggat ttcgtttccg ttatgtatgt gaaggcccat cccatggtgg 601 actacctggt gcctctagtg aaaagaacaa gaagtcttac cctcaggtca aaatctgcaa 661 ctatgtggga ccagcaaagg ttattgttca gttggtcaca aatggaaaaa atatccacct 721 gcatgcccac agcctggtgg gaaaacactg tgaggatggg atctgcactg taactgctgg 781 acccaaggac atggtggtcg gcttcgcaaa cctgggtata cttcatgtga caaagaaaaa 841 agtatttgaa acactggaag cacgaatgac agaggcgtgt ataaggggct ataatcctgg 901 actcttggtg caccctgacc ttgcctattt gcaagcagaa ggtggagggg accggcagct 961 gggagatcgg gaaaaagagc taatccgcca agcagctctg cagcagacca aggagatgga1021 cctcagcgtg gtgcggctca tgtttacagc ttttcttccg gatagcactg gcagcttcac1081 aaggcgcctg gaacccgtgg tatcagacgc catctatgac agtaaagccc ccaatgcatc1141 caacttgaaa attgtaagaa tggacaggac agctggatgt gtgactggag gggaggaaat1201 ttatcttctt tgtgacaaag ttcagaaaga tgacatccag attcgatttt atgaagagga1261 agaaaatggt ggagtctggg aaggatttgg agatttttcc cccacagatg ttcatagaca1321 atttgccatt gtcttcaaaa ctccaaagta taaagatatt aatattacaa aaccagcctc1381 tgtgtttgtc cagcttcgga ggaaatctga cttggaaact agtgaaccaa aacctttcct1441 ctactatcct gaaatcaaag ataaagaaga agtgcagagg aaacgtcaga agctcatgcc1501 caatttttcg gatagtttcg gcggtggtag tggtgccgga gctggaggcg gaggcatgtt1561 tggtagtggc ggtggaggag ggggcactgg aagtacaggt ccagggtata gcttcccaca1621 ctatggattt cctacttatg gtgggattac tttccatcct ggaactacta aatctaatgc1681 tgggatgaag catggaacca tggacactga atctaaaaag gaccctgaag gttgtgacaa1741 aagtgatgac aaaaacactg taaacctctt tgggaaagtt attgaaacca cagagcaaga1801 tcaggagccc agcgaggcca ccgttgggaa tggtgaggtc actctaacgt atgcaacagg1861 aacaaaagaa gagagtgctg gagttcagga taacctcttt ctagagaagg ctatgcagct1921 tgcaaagagg catgccaatg cccttttcga ctacgcggtg acaggagacg tgaagatgct1981 gctggccgtc cagcgccatc tcactgctgt gcaggatgag aatggggaca gtgtcttaca2041 cttagcaatc atccaccttc attctcaact tgtgagggat ctactagaag tcacatctgg2101 tttgatttct gatgacatta tcaacatgag aaatgatctg taccagacgc ccttgcactt2161 ggcagtgatc actaagcagg aagatgtggt ggaggatttg ctgagggctg gggccgacct2221 gagccttctg gaccgcttgg gtaactctgt tttgcaccta gctgccaaag aaggacatga2281 taaagttctc agtatcttac tcaagcacaa aaaggcagca ctacttcttg accaccccaa2341 cggggacggt ctgaatgcca ttcatctagc catgatgagc aatagcctgc catgtttgct2401 gctgctggtg gccgctgggg ctgacgtcaa tgctcaggag cagaagtccg ggcgcacagc2461 actgcacctg gctgtggagc acgacaacat ctcattggca ggctgcctgc tcctggaggg2521 tgatgcccat gtggacagta ctacctacga tggaaccaca cccctgcata tagcagctgg2581 gagagggtcc accaggctgg cagctcttct caaagcagca ggagcagatc ccctggtgga2641 gaactttgag cctctctatg acctggatga ctcttgggaa aatgcaggag aggatgaagg2701 agttgtgcct ggaaccacgc ctctagatat ggccaccagc tggcaggtat ttgacatatt2761 aaatgggaaa ccatatgagc cagagtttac atctgatgat ttactagcac aaggagacat2821 gaaacagctg gctgaagatg tgaagctgca gctgtataag ttactagaaa ttcctgatcc2881 agacaaaaac tgggctactc tggcgcagaa attaggtctg gggatactta ataatgcctt2941 ccggctgagt cctgctcctt ccaaaacact tatggacaac tatgaggtct ctgggggtac3001 agtcagagag ctggtggagg ccctgagaca aatgggctac accgaagcaa ttgaagtgat3061 ccaggcagcc tccagcccag tgaagaccac ctctcaggcc cactcgctgc ctctctcgcc3121 tgcctccaca aggcagcaaa tagacgagct ccgagacagt gacagtgtct gcgacacggg3181 cgtggagaca tccttccgca aactcagctt taccgagtct ctgaccagtg gtgcctcact3241 gctaactctc aacaaaatgc cccatgatta tgggcaggaa ggacctctag aaggcaaaat3301 ttagcctgct gacaatttcc cacaccgtgt aaaccaaagc cctaaaattc cactgcgttg3361 tccacaagac agaagctgaa gtgcatccaa aggtgctcag agagccggcc cgcctgaatc3421 attctcgatt taactcgaga ccttttcaac ttggcttcct ttcttggttc ataaatgaat3481 tttagtttgg ttcacttaca gatagtatct agcaatcaca acactggctg agcggatgca3541 tctggggatg aggttgctta ctaagctttg ccagctgctg ctggatcaca gctgctttct3601 gttgtcattg ctgttgtccc tctgc (2) SEQ ID NO: 2602 data: (i) sequence characteristics:

(A) length: 1650 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2602 sequence description: 1 actttcctgc cccttccccg gccaagccca actccggatc tcgctctcca ccggatctca 61 cccgccacac ccggacaggc ggctggagga ggcgggcgtc taaaattctg ggaagcagaa 121 cctggccgga gccactagac agagccgggc ctagcccaga gacatggaga gttgctacaa 181 721 tctgagtata gtgcggctgc gcttctctgc cttccttaga gccagtgatg gctccttctc 781 181 cccaggtctg gatggtatta ttgaatatga tgatttcaaa ttgaactcct ccattgtgga 241 acccaaggag ccagccccag aaacagctga tggcccctac ctggtgatcg tggaacagcc 301 taagcagaga ggcttccgat ttcgatatgg ctgtgaaggc ccctcccatg gaggactgcc 361 cggtgcctcc agtgagaagg gccgaaagac ctatcccact gtcaagatct gtaactacga 421 gggaccagcc aagatcgagg tggacctggt aacacacagt gacccacctc gtgctcatgc 481 ccacagtctg gtgggcaagc aatgctcgga gctggggatc tgcgccgttt ctgtggggcc 541 caaggacatg actgcccaat ttaacaacct gggtgtcctg catgtgacta agaagaacat 601 gatggggact atgatacaaa aacttcagag gcagcggctc cgctctaggc cccagggcct 661 tacggaggcc gagcagcggg agctggagca agaggccaaa gaactgaaga aggtgatgga 721 tctgagtata gtgcggctgc gcttctctgc cttccttaga gccagtgatg gctccttctc 781 cctgcccctg aagccagtca cctcccagcc catccatgat agcaaatctc cgggggcatc 841 aaacctgaag atttctcgaa tggacaagac agcaggctct gtgcggggtg gagatgaagt 901 ttatctgctt tgtgacaagg tgcagaaaga tgacattgag gttcggttct atgaggatga 961 tgagaatgga tggcaggcct ttggggactt ctctcccaca gatgtgcata aacagtatgc1021 cattgtgttc cggacacccc cctatcacaa gatgaagatt gagcggcctg taacagtgtt1081 tctgcaactg aaacgcaagc gaggagggga cgtgtctgat tccaaacagt tcacctatta1141 ccctctggtg gaagacaagg aagaggtgca gcggaagcgg aggaaggcct tgcccacctt1201 ctcccagccc ttcgggggtg gctcccacat gggtggaggc tctgggggtg cagccggggg1261 ctacggagga gctggaggag gtgagggggt actgatggag ggaggggtaa aggtaagaga1321 agctgtggag gaaaaaaatc tgggggaggc cgggcgtggc ttgcacgcct gtaatccagc1381 ctttgggagg ccaaggcagg cagttacctg agatcaggag ttcaagacca gcttggccaa1441 cagcgtgaaa cctcgtctct actaaaaata caaacattag ctgggcatgg tggcaggcgc1501 ctgtaatccc agctactcgg gaggctgagg caggagaatc gcttgaaccc tgggagacaa1561 gaggttgcag taagctgaga tcacaccact gcactccagg ctgggcaata agagcgaaac1621 tccgtctcaa aaaaaaaaaa aaaaaaaaaa (2) SEQ ID NO: 2603 data: (i) sequence characteristics:

(A) length: 3113 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2603 sequence description: 1 cacggtgagt ggctggattc agacccctgg gtggccggga caagagaaaa gagggaggag 61 ggcctttagc ggacagcgcc tggggctgga gagcagcagc tgcacacagc cggaaagggc 121 gcgcaggcga cgacactcgg atccacgtcg acaccgttgt acaaagatac gcggacccgc 181 721 gcggctccgc tctaggcccc agggccttac ggaggccgag cagcgggagc tggagcaaga 781 181 gggcgtctaa aattctggga agcagaacct ggccggagcc actagacaga gccgggccta 241 gcccagagac atggagagtt gctacaaccc aggtctggat ggtattattg aatatgatga 301 tttcaaattg aactcctcca ttgtggaacc caaggagcca gccccagaaa cagctgatgg 361 cccctacctg gtgatcgtgg aacagcctaa gcagagaggc ttccgatttc gatatggctg 421 tgaaggcccc tcccatggag gactgcccgg tgcctccagt gagaagggcc gaaagaccta 481 tcccactgtc aagatctgta actacgaggg accagccaag atcgaggtgg acctggtaac 541 acacagtgac ccacctcgtg ctcatgccca cagtctggtg ggcaagcaat gctcggagct 601 ggggatctgc gccgtttctg tggggcccaa ggacatgact gcccaattta acaacctggg 661 tgtcctgcat gtgactaagg agaacatgat ggggactatg atacaaaaac ttcagaggca 721 gcggctccgc tctaggcccc agggccttac ggaggccgag cagcgggagc tggagcaaga 781 ggccaaagaa ctgaagaagg tgatggatct gagtatagtg cggctgcgct tctctgcctt 841 ccttagagcc agtgatggct ccttctccct gcccctgaag ccagtcatct cccagcccat 901 ccatgacagc aaatctccgg gggcatcaaa cctgaagatt tctcgaatgg acaagacagc 961 aggctctgtg cggggtggag atgaagttta tctgctttgt gacaaggtgc agaaagatga1021 cattgaggtt cggttctatg aggatgatga gaatggatgg caggcctttg gggacttctc1081 tcccacagat gtgcataaac agtatgccat tgtgttccgg acacccccct atcacaagat1141 gaagattgag cggcctgtaa cagtgtttct gcaactgaaa cgcaagcgag gaggggacgt1201 gtctgattcc aaacagttca cctattaccc tctggtggaa gacaaggaag aggtgcagcg1261 gaagcggagg aaggccttgc ccaccttctc ccagcccttc gggggtggct cccacatggg1321 tggaggctct gggggtgcag ccgggggcta cggaggagct ggaggaggtg gcagcctcgg1381 tttcttcccc tcctccctgg cctacagccc ctaccagtcc ggcgcgggcc ccatgggctg1441 ctacccggga ggcgggggcg gggcgcagatggccgccacg gtgcccagca gggactccgg1501 ggaggaagcc gcggagccga gcgccccctc caggaccccc cagtgcgacg cgcaggcccc1561 ggagatgctg cagcgagctc gagagtacaa cgcgcgcctg ttcggcctgg cgcagcgcag1621 cgcccgagcc ctactcgact acggcgtcac cgcggaccgg cgcgcgctgc tggcgggaca1681 gcgccacctg ctgacggcgc aggacgagaa cggagacaca ccactgcacc tagccatcat1741 ccacgggcag accagtgtca ttgagcagat agtctatgtc atccaccacg cccaggacct1801 cggcgttgtc aacctcacca accacctgca ccagacgccc ctgcacctgg cggtgatcac1861 ggggcagacg agtgtggtga gctttctgct gcgggtaggt gcagacccag ctctgctgga1921 tcggcatgga gactcagcca tgcatctggc gctgcgggca ggcgctggtg ctcctgagct1981 gctgcgtgca ctgcttcaga gtggagctcc tgctgtgccc cagctgttgc atatgcctga2041 ctttgaggga ctgtatccag tacacctggc ggtccgagcc cgaagccctg agtgcctgga2101 tctgctggtg gacagtgggg ctgaagtgga ggccacagag cggcaggggg gacgaacagc2161 cttgcatcta gccacagaga tggaggagct ggggttggtc acccatctgg tcaccaagct2221 ccgggccaac gtgaacgctc gcacctttgc gggaaacaca cccctgcacc tggcagctgg2281 actggggtac ccgaccctca cccgcctcct tctgaaggct ggtgctgaca tccatgctga2341 aaacgaggag cccctgtgcc cactgccttc accccctacc tctgatagcg actcggactc2401 tgaagggcct gagaaggaca cccgaagcag cttccggggc cacacgcctc ttgacctcac2461 ttgcagcacc aaggtgaaga ccttgctgct aaatgctgct cagaacacca tggagccacc2521 cctgaccccg cccagcccag cagggccggg actgtcactt ggtgatacag ctctgcagaa2581 cctggagcag ctgctagacg ggccagaagc ccagggcagc tgggcagagc tggcagagcg2641 tctggggctg cgcagcctgg tagacacgta ccgacagaca acctcaccca gtggcagcct2701 cctgcgcagc tacgagctgg ctggcgggga cctggcaggt ctactggagg ccctgtctga2761 27 2761 catgggccta gaggagggag tgaggctgct gaggggtcca gaaacccgag acaagctgcc2821 cagcacaaca gaggtgaagg aagacagtgc gtacgggagc cagtcagtgg agcagaaggc2881 agagaagctg ggcccacccc ctgagccacc aggagggctc tgccacgggc acccccagcc2941 tcaggtgcac tgacctgctg cctgccccca gcccccttcc cggaccccct gtacagcgtc3001 cccacctatt tcaaatctta tttaacaccc cacacccacc cctcagttgg gacaaataaa3061 ggattctcat gggaagggga ggacccctcc ttcccaactt aaaaaaaaaa aaa (2) SEQ ID NO: 2604 data: (i) sequence characteristics:

(A) length: 13548 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2604 sequence description: 1 agcttcatcc tggagtcaac agattgggtt tgaatcctgg ctctgtccct ttctagctgt 61 gtgtttggtt gttactccac ctctctgagc cttaatttct tcatcagtaa aagtaatatt 121 cacctcctag ggttgttggg agggagaata agaacttcta aagtacccga acctagcaac 181 721 tcagagaatc ggcgcacccc ggagttcgag gttgcagtga gccatgatca cgccactgta 781 181 taggacacta tatttgcagg caagatgaag aggggtgggg aagtaatagg aaacagccca 241 aatcgagagc cataatagtc tctctttact tagtgccagt gcaggcctgt gattctgttc 301 ttaaaaacgt ctggggcaag ctgcaggaaa gacccgagat agcttatgtt ctaccataag 361 ccttaaggga ggaggactcc aggcagggag acttaccatg gcacctctaa gagaaagcct 421 actgaccaga gagaggtcag tcatgtactc ccgtagcttc ttagaatttc tgatctgact 481 cgctgcctct agagttgttc aggtggaaat tggaaggcta tagaggaatt cggcagcata 541 cagtggctca cgtctgtaat ccaaaatcca agcattttgg aaggccaaag taggaggatc 601 acttaagccc aggagtttaa gaccagccta ggcaaccgag tgagatccat ctccactaaa 661 aaattttaaa atttgccagg tatggtggtg tgcacctgta gccccagcta ctcaggagag 721 tcagagaatc ggcgcacccc ggagttcgag gttgcagtga gccatgatca cgccactgta 781 ctccagcctg ggtgacagag aagaccacct gtctcaaaaa acataaataa ataaataaat 841 aaataggccg tgcgcagcgg ctcacgactg taattccaac attttagaag gcggaggcag 901 cggatcacct gaggtcagga gttcgggacc agcctgacca acgtggtgaa accccaactc 961 tactaaaaat acataaatta ggcggggcgt ggtggtggcc gcctgtaatc ccagctactc1021 ggtaggctgc agcaggagaa tggtttgaac ccgggaggca gaggttgcag tgagccaaaa1081 tcccctcact gcattccagc ctgagactaa aaaaaagagg cgatttccca catcggtgga1141 aatttgagct gtttaaactc tggatgcctt tttcagttct aatattccag atctccttgg1201 tggataaaca cttcatttcc cttctcctga gcagagctcc tgagccctgg cccgctggaa1261 cctgtcactt ctaaaaaagt tcgaggtccg gactgtctct cccggagcct tgaggctgat1321 gagacggagc gagagagggg ccgggggcaa tggagtctac tcgcgggccc agggaggcgc1381 cagagggccc cgggaccgac cgcaagaata acttccttcc tcttccgcta acttcccggc1441 agggctacgc tcagggtggg ggccccgagg gctggggcgt cggcttcccc ctggggatcc1501 cccgcttcag agaagccaag cgttagcgca gccaaagccg gaggcagcga agctccggcc1561 cggggtggcg ctgggtcagg gtaccttctc ggcggtcccc tggccggccg aactcgcgcc1621 tggtgtcctg tcaccccgct ccccgccctg agtgagcctg tcccctctca ggggcgcgcc1681 cgagtcgctc cgggttggct gccaggtcca gagttaaact ttcagccaat gaaaaagggc1741 gcgagggctg acgcacggaa acgtcatggg aattcccccc tccggggggc cgagaagggg1801 ctttcccggc cctgagccct gctggcaggc gaggtgtcgc gaccggtccc aggtgggtcg1861 ggcgcggaga gaagccgcaa ccagagccgc cgccacggtg agtggctgga ttcagacccc1921 tgggtggccg ggacaagaga aaagagggag gagggccttt agcggacagc gcctggggct1981 ggagagcagc agctgcacac agccggaaag ggcgcgcagg cgacgacact cggatccacg2041 tcgacaccgt tgtacaaaga tacgcggacc cgtacgtaca cctgtacctg tgctggcgca2101 cacacggcag cgtccgtgca gtcgcactcg cacacacatg cacacggaga cgtgcccacc2161 ggtgcactgg tgcctgcacc cacacccttc acgcacaaac tcaagatacg ctcacccgtg2221 tctgtacatc aagacaggcg ctgacacaca cccacactga gaagctcggg attcacctat2281 ctacacacat gctcgcttgc acactcatgt tgacgccatg gacacacaac atgcaaccaa2341 gcactacagc cgaaacacac ttgtggagct gtgatggaga cacactcttg tattaggtgg2401 gggggggggg ggagcgtgca gagatctccc tgtcgcctgc gcgcccagaa ccggtgcggt2461 gtgggaccag ctgctgttgt gaggtttggg agagagagaa aaagagccca ctccgaggag2521 gagacacttt tcccgcagcc ccagaatcgc gttctcgggg cagaaccccg gggcctccca2581 caggaaagag ccccgcctac aggctgttcg aaggggaggc cgtccgacag caggaatgtc2641 cccccaaaag cccccggggt ttatcagccg tggcctccct cctggcagaa aatcccaagg2701 ttgctccaga ccgggggagg ggagcgggag gcggacttgg ccccagactg ccagcctcct 276361 cccggccgtg aaagaccctc ctgttccctg ccctggaggg aggagggggc ttaacccacc2821 ggggcttccc ggattctcct agacctctgc ccgctgaaaa gcagcgggac gccgtagact2881 gtcgagggcc atcccgcccc tcccgtcgcg agggcggggc cagtggcgtc atttccaggc2941 ccgccccctc cggccccgcc tccccttggt attttcggga ctttcctaag ctgctctaac3001 tttcctgccc cttccccgcc aagcccaact ccggatctcg ctctccaccg gatctcaccc3061 gccacacccg gacaggcggc tggaggaggt cggaccctcc cccaaatctg ggcccccatt3121 ctcccgccca cccccattta gatctgaccc cctcccccac gccactcctc ccaactttag3181 3284 tagcccagag acatggagag ttgctacaac ccagtgagtc atgccgcctg cccctgaccc3301 ggccggctag cccctcgtgt ctgtccacct gtctgcccga gccccctact gctgccttac3361 acctgtatgc ctcgcagatg ctctcagcct gccagtctgt ccatctgtct gcaactctgc3421 ctccaaaagg agctttctct tgggtctgag gaggaggggg gagtgaccac tgaagacttg3481 gaagatggga ggtggggcta gtgtgggggg tgctgagagt cggatgccac ccccagtctg3541 583601 attgtggaac ccaaggagcc agccccagaa acaggtcagc aagttcacta acctccccta36 gtctaaagcg ggggagggag agcatgtgcc ctctctctgg gggaggggtc tgggagatcg3721 tgtgctcagc aaggtctctc tgtccccagc tgatggcccc tacctggtga tcgtggaaca3781 gcctaagcag gttgagtgag caaaagggag ggatgtggaa tggcttcagc tttggggaca3841 aatggggtag tgtagctggc tggcatggag gagcattgcc gaagaggccc acaggggatt3901 ggatggtcac tgctgctgat cagagtgctg tagttttggt tcagggctac taccagcgac3961 824021 tcagagaggc ttccgatttc gatatggctg tgaaggcccc tcccatggag gactgcccgg4081 tgcctccagt gagaagggcc gaaagaccta tcccactgtc aagggtgcc aggatggtgc4141 tgggmggtggg gctaagtgga cagcatgccc aaggccctga cgtgacagtc ccttgcctct4201 cctagatctg taactacgag ggaccagcca agatcgaggt ggacctggta acacacagtg4261 acccacctcg tgctcatgcc cacagtctgg tgggcaagca atgctcggag ctggggatct4321 gcgccgtttc tgtggggccc aaggacatga ctgcccagta ggtgcccttc ttacgccttg4381 gcccccactg gtatgccskt cwtgccagtc ccaggcccca gccacctcca tatgatgtta4441 gcatctgacc aaggggaaan gatgtaggtt ggccccaaac ccaagggcct aagtagaaac4501 tccaatggct tccttgagga agtaaggctg agctgagcct ggcaatggga aaggtgcctg4561 gcaatgggaa aggtgcctca ggaagaaaga actgcatggc caaaggctcc cgattctctc4621 ttctcagatt taacaacctg ggtgtcctgc atgtgactaa gaagaacatg atggggacta4681 tgatacaaaa acttcagagg cagcggctcc gctctaggcc ccagggcctt acgggtatgg4741 gtgcaggggg tgggtcgggt atgggtgcag ggggtgggtg ggtcatggga ggtgctcatg4801 gaaggagcag ggagggagaa gccaggggtc acacatgtac ctactgccca gaggccgagc4861 agcgggagct ggagcaagag gccaaagaac tgaagaaggt gatggatctg agtatagtgc4921 ggctgcgctt ctctgccttc cttagagcca gtgatggctc cttctccctg cccctgaagc4981 cagtcacctc ccagcccatc catgatagca gtgagtatcc tgattgcctg gggtgccagg5041 cctggtsgsa gaggtggcat gaggggtgac ctcaagctgt gcagtcaaac aagacccagg5101 tttcagaacc tgcsctgcca catatgagct gagtgatcct gagcaagtca tttccccccc 1 ggccaccgga gcggcccggc gacgatcgct gacagcttcc cctgcccttc ccgtcggtcg 61 ggccgccagc cgccgcagcc ctcggcctgc acgcagccac cggccccgct cccggagccc 121 agcgccgccg aggccgcagc cgcccggcca gtaaggcggc gccgcccgcg gccaccgcgg 181 gccctgccgt tccctccgcc gcgctgcgcc atggcgcggc gctgactggc ctggcccggc 241 cccgccgcgc tcccgctcgc cccgacccgc actcgggccc gcccgggctc cggcctgccg 301 ccgcctcttc cttctccagc cggcaggccc cgccgcttag gagggagagc ccacccgcgc 361 caggaggccg aacgcggact cgccacccgg cttcagaatg gcagaagatg atccatattt 421 gggaaggcct gaacaaatgt ttcatttgga tccttctttg actcatacaa tatttaatcc 481 agaagtattt caaccacaga tggcactgcc aacagatggc ccataccttc aaatattaga 541 gcaacctaaa cagagaggat ttcgtttccg ttatgtatgt gaaggcccat cccatggtgg 601 actacctggt gcctctagtg aaaagaacaa gaagtcttac cctcaggtca aaatctgcaa 661 ctatgtggga ccagcaaagg ttattgttca gttggtcaca aatggaaaaa atatccacct 721 gcatgcccac agcctggtgg gaaaacactg tgaggatggg atctgcactg taactgctgg 781 acccaaggac atggtggtcg gcttcgcaaa cctgggtata cttcatgtga caaagaaaaa 841 agtatttgaa acactggaag cacgaatgac agaggcgtgt ataaggggct ataatcctgg 901 actcttggtg caccctgacc ttgcctattt gcaagcagaa ggtggagggg accggcagct 961 gggagatcgg gaaaaagagc taatccgcca agcagctctg cagcagacca aggagatgga1021 cctcagcgtg gtgcggctca tgtttacagc ttttcttccg gatagcactg gcagcttcac1081 aaggcgcctg gaacccgtgg tatcagacgc catctatgac agtaaagccc ccaatgcatc1141 caacttgaaa attgtaagaa tggacaggac agctggatgt gtgactggag gggaggaaat1201 ttatcttctt tgtgacaaag ttcagaaaga tgacatccag attcgatttt atgaagagga1261 agaaaatggt ggagtctggg aaggatttgg agatttttcc cccacagatg ttcatagaca1321 atttgccatt gtcttcaaaa ctccaaagta taaagatatt aatattacaa aaccagcctc1381 tgtgtttgtc cagcttcgga ggaaatctga cttggaaact agtgaaccaa aacctttcct1441 ctactatcct gaaatcaaag ataaagaaga agtgcagagg aaacgtcaga agctcatgcc1501 caatttttcg gatagtttcg gcggtggtag tggtgccgga gctggaggcg gaggcatgtt1561 tggtagtggc ggtggaggag ggggcactgg aagtacaggt ccagggtata gcttcccaca1621 ctatggattt cctacttatg gtgggattac tttccatcct ggaactacta aatctaatgc1681 tgggatgaag catggaacca tggacactga atctaaaaag gaccctgaag gttgtgacaa1741 aagtgatgac aaaaacactg taaacctctt tgggaaagtt attgaaacca cagagcaaga1801 tcaggagccc agcgaggcca ccgttgggaa tggtgaggtc actctaacgt atgcaacagg1861 aacaaaagaa gagagtgctg gagttcagga taacctcttt ctagagaagg ctatgcagct1921 tgcaaagagg catgccaatg cccttttcga ctacgcggtg acaggagacg tgaagatgct1981 gctggccgtc cagcgccatc tcactgctgt gcaggatgag aatggggaca gtgtcttaca2041 cttagcaatc atccaccttc attctcaact tgtgagggat ctactagaag tcacatctgg2101 tttgatttct gatgacatta tcaacatgag aaatgatctg taccagacgc ccttgcactt2161 ggcagtgatc actaagcagg aagatgtggt ggaggatttg ctgagggctg gggccgacct 22248 2281 taaagttctc agtatcttac tcaagcacaa aaaggcagca ctacttcttg accaccccaa2341 cggggacggt ctgaatgcca ttcatctagc catgatgagc aatagcctgc catgtttgct2401 gctgctggtg gccgctgggg ctgacgtcaa tgctcaggag cagaagtccg ggcgcacagc2461 actgcacctg gctgtggagc acgacaacat ctcattggca ggctgcctgc tcctggaggg2521 tgatgcccat gtggacagta ctacctacga tggaaccaca cccctgcata tagcagctgg2581 gagagggtcc accaggctgg cagctcttct caaagcagca ggagcagatc ccctggtgga2641 gaactttgag cctctctatg acctggatga ctcttgggaa aatgcaggag aggatgaagg2701 agttgtgcct ggaaccacgc ctctagatat ggccaccagc tggcaggtat ttgacatatt2761 2821 2853 2881 agacaaaaac tgggctactc tggcgcagaa attaggtctg gggatactta ataatgcctt 8641 ccggctgagt cctgctcctt ccaaaacact tatggacaac tatgaggtct ctgggggtac3001 3067 30658 3121 tgcctccaca aggcagcaaa tagacgagct ccgagacagt gacagtgtct gcgacacggg3181 cgtggagaca tccttccgca aactcagctt taccgagtct ctgaccagtg gtgcctcact3241 gctaactctc aacaaaatgc cccatgatta tgggcaggaa ggacctctag aaggcaaaat3301 ttagcctgct gacaatttcc cacaccgtgt aaaccaaagc cctaaaattc cactgcgttg3361 tccacaagac agaagctgaa gtgcatccaa aggtgctcag agagccggcc cgcctgaatc3421 attctcgatt taactcgaga ccttttcaac ttggcttcct ttcttggttc ataaatgaat3481 tttagtttgg ttcacttaca gatagtatct agcaatcaca acactggctg agcggatgca3541 tctggggatg aggttgctta ctaagctttg ccagctgctg ctggatcaca gctgctttct3601 gttgtcattg ctgttgtccc tctgc1 actttcctgc cccttccccg gccaagccca actccggatc tcgctctcca ccggatctca 61 cccgccacac ccggacaggc ggctggagga ggcgggcgtc taaaattctg ggaagcagaa 121 cctggccgga gccactagac agagccgggc ctagcccaga gacatggaga gttgctacaa 181 cccaggtctg gatggtatta ttgaatatga tgatttcaaa ttgaactcct ccattgtgga 241 acccaaggag ccagccccag aaacagctga tggcccctac ctggtgatcg tggaacagcc 301 taagcagaga ggcttccgat ttcgatatgg ctgtgaaggc ccctcccatg gaggactgcc 361 cggtgcctcc agtgagaagg gccgaaagac ctatcccact gtcaagatct gtaactacga 421 gggaccagcc aagatcgagg tggacctggt aacacacagt gacccacctc gtgctcatgc 481 ccacagtctg gtgggcaagc aatgctcgga gctggggatc tgcgccgttt ctgtggggcc 541 caaggacatg actgcccaat ttaacaacct gggtgtcctg catgtgacta agaagaacat 601 gatggggact atgatacaaa aacttcagag gcagcggctc cgctctaggc cccagggcct 661 tacggaggcc gagcagcggg agctggagca agaggccaaa gaactgaaga aggtgatgga 721 tctgagtata gtgcggctgc gcttctctgc cttccttaga gccagtgatg gctccttctc 781 cctgcccctg aagccagtca cctcccagcc catccatgat agcaaatctc cgggggcatc 841 aaacctgaag atttctcgaa tggacaagac agcaggctct gtgcggggtg gagatgaagt 901 ttatctgctt tgtgacaagg tgcagaaaga tgacattgag gttcggttct atgaggatga 961 tgagaatgga tggcaggcct ttggggactt ctctcccaca gatgtgcata aacagtatgc1021 cattgtgttc cggacacccc cctatcacaa gatgaagatt gagcggcctg taacagtgtt1081 tctgcaactg aaacgcaagc gaggagggga cgtgtctgat tccaaacagt tcacctatta1141 ccctctggtg gaagacaagg aagaggtgca gcggaagcgg aggaaggcct tgcccacctt1201 ctcccagccc ttcgggggtg gctcccacat gggtggaggc tctgggggtg cagccggggg1261 ctacggagga gctggaggag gtgagggggt actgatggag ggaggggtaa aggtaagaga1321 agctgtggag gaaaaaaatc tgggggaggc cgggcgtggc ttgcacgcct gtaatccagc1381 ctttgggagg ccaaggcagg cagttacctg agatcaggag ttcaagacca gcttggccaa1441 cagcgtgaaa cctcgtctct actaaaaata caaacattag ctgggcatgg tggcaggcgc1501 ctgtaatccc agctactcgg gaggctgagg caggagaatc gcttgaaccc tgggagacaa1561 gaggttgcag taagctgaga tcacaccact gcactccagg ctgggcaata agagcgaaac1621 tccgtctcaa aaaaaaaaaa aaaaaaaaaa 1 cacggtgagt ggctggattc agacccctgg gtggccggga caagagaaaa gagggaggag 61 ggcctttagc ggacagcgcc tggggctgga gagcagcagc tgcacacagc cggaaagggc 121 gcgcaggcga cgacactcgg atccacgtcg acaccgttgt acaaagatac gcggacccgc181 gggcgtctaa aattctggga agcagaacct ggccggagcc actagacaga gccgggccta 241 gcccagagac atggagagtt gctacaaccc aggtctggat ggtattattg aatatgatga 301 tttcaaattg aactcctcca ttgtggaacc caaggagcca gccccagaaa cagctgatgg 361 cccctacctg gtgatcgtgg aacagcctaa gcagagaggc ttccgatttc gatatggctg 421 tgaaggcccc tcccatggag gactgcccgg tgcctccagt gagaagggcc gaaagaccta 481 tcccactgtc aagatctgta actacgaggg accagccaag atcgaggtgg acctggtaac 541 acacagtgac ccacctcgtg ctcatgccca cagtctggtg ggcaagcaat gctcggagct 601 ggggatctgc gccgtttctg tggggcccaa ggacatgact gcccaattta acaacctggg 661 tgtcctgcat gtgactaagg agaacatgat ggggactatg atacaaaaac ttcagaggca 721 gcggctccgc tctaggcccc agggccttac ggaggccgag cagcgggagc tggagcaaga 781 ggccaaagaa ctgaagaagg tgatggatct gagtatagtg cggctgcgct tctctgcctt 841 ccttagagcc agtgatggct ccttctccct gcccctgaag ccagtcatct cccagcccat 901 ccatgacagc aaatctccgg gggcatcaaa cctgaagatt tctcgaatgg acaagacagc 961 aggctctgtg cggggtggag atgaagttta tctgctttgt gacaaggtgc agaaagatga1021 cattgaggtt cggttctatg aggatgatga gaatggatgg caggcctttg gggacttctc1081 tcccacagat gtgcataaac agtatgccat tgtgttccgg acacccccct atcacaagat1141 gaagattgag cggcctgtaa cagtgtttct gcaactgaaa cgcaagcgag gaggggacgt gtctgattcc aaacagttca cctattaccc tctggtggaa gacaaggaag aggtgcagcg1261 1265 1321 tggaggctct gggggtgcag ccgggggcta cggaggagct ggaggaggtg gcagcctcgg1381 tttcttcccc tcctccctgg cctacagccc ctaccagtcc ggcgcgggcc ccatgggctg1441 ctacccggga ggcgggggcg gggcgcagat ggccgccacg gtgcccagca gggactccgg1501 ggaggaagcc gcggagccga gcgccccctc caggaccccc cagtgcgacg cgcaggcccc 631 16228 6861 cgcccgagcc ctactcgact acggcgtcac cgcggaccgg cgcgcgctgc tggcgggaca1681 1741 ccacgggcag accagtgtca ttgagcagat agtctatgtc atccaccacg cccaggacct1801 cggcgttgtc aacctcacca accacctgca ccagacgccc ctgcacctgg cggtgatcac1861 ggggcagacg agtgtggtga gctttctgct gcgggtaggt gcagacccag ctctgctgga1921 tcggcatgga gactcagcca tgcatctggc gctgcgggca ggcgctggtg ctcctgagct1981 gctgcgtgca ctgcttcaga gtggagctcc tgctgtgccc cagctgttgc atatgcctga2041 ctttgaggga ctgtatccag tacacctggc ggtccgagcc cgaagccctg agtgcctgga2101 tctgctggtg gacagtgggg ctgaagtgga ggccacagag cggcaggggg gacgaacagc2161 cttgcatcta gccacagaga tggaggagct ggggttggtc acccatctgg tcaccaagct2221 ccgggccaac gtgaacgctc gcacctttgc gggaaacaca cccctgcacc tggcagctgg2281 actggggtac ccgaccctca cccgcctcct tctgaaggct ggtgctgaca tccatgctga2341 aaacgaggag cccctgtgcc cactgccttc accccctacc tctgatagcg actcggactc2401 tgaagggcct gagaaggaca cccgaagcag cttccggggc cacacgcctc ttgacctcac2461 ttgcagcacc aaggtgaaga ccttgctgct aaatgctgct cagaacacca tggagccacc2521 cctgaccccg cccagcccag cagggccggg actgtcactt ggtgatacag ctctgcagaa2581 25 2581 cctggagcag ctgctagacg ggccagaagc ccagggcagc tgggcagagc tggcagagcg2641 tctggggctg cgcagcctgg tagacacgta ccgacagaca acctcaccca gtggcagcct2701 cctgcgcagc tacgagctgg ctggcgggga cctggcaggt ctactggagg ccctgtctga2761 catgggccta gaggagggag tgaggctgct gaggggtcca gaaacccgag acaagctgcc2821 cagcacaaca gaggtgaagg aagacagtgc gtacgggagc cagtcagtgg agcagaaggc2881 agagaagctg ggcccacccc ctgagccacc aggagggctc tgccacgggc acccccagcc2941 tcaggtgcac tgacctgctg cctgccccca gcccccttcc cggaccccct gtacagcgtc3001 cccacctatt tcaaatctta tttaacaccc cacacccacc cctcagttgg gacaaataaa3061 ggattctcat gggaagggga ggacccctcc ttcccaactt aaaaaaaaaa aaa (2) SEQ ID NO: 2605 data: (i) sequence characteristics:

(A) length: 2163 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2605 sequence description: 1 atgacagcaa aagattcttc aaaggaactt actgcttctg aacctgaggt ttgcataaag 61 actttcaagg agcaaatgca tttagaactt gagcttccga gattaccagg aaacagacct 121 acatctccta aaatttctcc acgcagttca ccaaggaact caccatgctt tttcagaaag 181 721 cgggagctga cacacctctc agagatgagc cgatcaggga accaggtgtc tgaatacatt 781 181 ttactggtga ataaaagcat tcggcagcgt cgtcgcttca ctgtggctca tacatgcttt 241 gatgtggaaa atggcccttc cccaggtcgg agtccactgg atccccaggc cagctcttcc 301 gctgggctgg tacttcacgc cacctttcct gggcacagccagcgcagaga gtcatttctc 361 tacagatcag acagcgacta tgacttgtca ccaaaggcga tgtcgagaaa ctcttctctt 421 ccaagcgagc aacacggcga tgacttgatt gtaactcctt ttgcccaggt ccttgccagc 481 ttgcgaagtg tgagaaacaa cttcactata ctgacaaacc ttcatggtac atctaacaag 541 aggtccccag ctgctagtca gcctcctgtc tccagagtca acccacaaga agaatcttat 601 caaaaattag caatggaaac gctggaggaa ttagactggt gtttagacca gctagagacc 661 atacagacct accggtctgt cagtgagatg gcttctaaca agttcaaaag aatgctgaac 721 cgggagctga cacacctctc agagatgagc cgatcaggga accaggtgtc tgaatacatt 781 tcaaatactt tcttagacaa gcagaatgat gtggagatcc catctcctac ccagaaagac 841 agggagaaaa agaaaaagca gcagctcatg acccagataa gtggagtgaa gaaattaatg 901 catagttcaa gcctaaacaa tacaagcatc tcacgctttg gagtcaacac tgaaaatgaa 961 gatcacctgg ccaaggagct ggaagacctg aacaaatggg gtcttaacat ctttaatgtg1021 gctggatatt ctcacaatag acccctaaca tgcatcatgt atgctatatt ccaggaaaga1081 gacctcctaa agacattcag aatctcatct gacacattta taacctacat gatgacttta1141 gaagaccatt accattctga cgtggcatat cacaacagcc tgcacgctgc tgatgtagcc1201 cagtcgaccc atgttctcct ttctacacca gcattagacg ctgtcttcac agatttggag1261 atcctggctg ccatttttgc agctgccatc catgacgttg atcatcctgg agtctccaat1321 cagtttctca tcaacacaaa ttcagaactt gctttgatgt ataatgatga atctgtgttg1381 gaaaatcatc accttgctgt gggtttcaaa ctgctgcaag aagaacactg tgacatcttc1441 atgaatctca ccaagaagca gcgtcagaca ctcaggaaga tggttattga catggtgtta1501 gcaactgata tgtctaaaca tatgagcctg ctggcagacc tgaagacaat ggtagaaacg1561 aagaaagtta caagttcagg cgttcttctc ctagacaact ataccgatcg cattcaggtc1621 cttcgcaaca tggtacactg tgcagacctg agcaacccca ccaagtcctt ggaattgtat1681 cggcaatgga cagaccgcat catggaggaa tttttccagc agggagacaa agagcgggag1741 aggggaatgg aaattagccc aatgtgtgat aaacacacag cttctgtgga aaaatcccag1801 gttggtttca tcgactacat tgtccatcca ttgtgggaga catgggcaga tttggtacag1861 cctgatgctc aggacattct cgatacctta gaagataaca ggaactggta tcagagcatg1921 atacctcaaa gtccctcacc accactggac gagcagaaca gggactgcca gggtctgatg1981 gagaagtttc agtttgaact gactctcgat gaggaagatt ctgaaggacc tgagaaggag2041 ggagagggac acagctattt cagcagcaca aagacgcttt gtgtgattga tccagaaaac2101 agagattccc tgggagagac tgacatagac attgcaacag aagacaagtc ccccgtggat2161 aca (2) SEQ ID NO: 2606 data: (i) sequence characteristics:

(A) length: 348 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2606 sequence description: 1 tatcacaaca gcatgcacgc agccgatgtt acccagacag tccattgctt cttgctccgc 61 acagggatgg tgcactgcct gtcggagatt gagctcctgg ccatcatctt tgctgcagct 121 atccatgatt atgagcacac gggcactacc aacagcttcc acatccagac caagtcagaa 181 tgtgccatcg tgtacaatga tcgttcagtg ctggagaatc accacatcag ctctgttttc 241 cgattgatgc aggatgatga gatgaacatt ttcatcaacc tcaccaagga tgagtttgta 301 gaactccgag ccctggtcat tgagatggtg ttggctacag atatggca (2) SEQ ID NO: 2607 data: (i) sequence characteristics:

(A) length: 2511 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2607 sequence description: 1 atgacagcaa aagattcttc aaaggaactt actgcttctg aacctgaggt ttgcataaag 61 actttcaagg agcaaatgca tttagaactt gagcttccga gattaccagg aaacagacct 121 acatctccta aaatttctcc acgcagttca ccaaggaact caccatgctt tttcagaaag 181 721 cgggagctga cacacctctc agagatgagc cgatcaggga accaggtgtc tgaatacatt 781 181 ttactggtga ataaaagcat tcggcagcgt cgtcgcttca ctgtggctca tacatgcttt 241 gatgtggaaa atggcccttc cccaggtcgg agtccactgg atccccaggc cagctcttcc 301 gctgggctgg tacttcacgc cacctttcct gggcacagcc agcgcagaga gtcatttctc 361 tacagatcag acagcgacta tgacttgtca ccaaaggcga tgtcgagaaa ctcttctctt 421 ccaagcgagc aacacggcga tgacttgatt gtaactcctt ttgcccaggt ccttgccagc 481 ttgcgaagtg tgagaaacaa cttcactata ctgacaaacc ttcatggtac atctaacaag 541 aggtccccag ctgctagtca gcctcctgtc tccagagtca acccacaaga agaatcttat 601 caaaaattag caatggaaac gctggaggaa ttagactggt gtttagacca gctagagacc 661 atacagacct accggtctgt cagtgagatg gcttctaaca agttcaaaag aatgctgaac 721 cgggagctga cacacctctc agagatgagc cgatcaggga accaggtgtc tgaatacatt 781 tcaaatactt tcttagacaa gcagaatgat gtggagatcc catctcctac ccagaaagac 841 agggagaaaa agaaaaagca gcagctcatg acccagataa gtggagtgaa gaaattaatg 901 catagttcaa gcctaaacaa tacaagcatc tcacgctttg gagtcaacac tgaaaatgaa 961 gatcacctgg ccaaggagct ggaagacctg aacaaatggg gtcttaacat ctttaatgtg1021 gctggatatt ctcacaatag acccctaaca tgcatcatgt atgctatatt ccaggaaaga1081 gacctcctaa agacattcag aatctcatct gacacattta taacctacat gatgacttta1141 gaagaccatt accattctga cgtggcatat cacaacagcc tgcacgctgc tgatgtagcc1201 cagtcgaccc atgttctcct ttctacacca gcattagacg ctgtcttcac agatttggag1261 atcctggctg ccatttttgc agctgccatc catgacgttg atcatcctgg agtctccaat1321 cagtttctca tcaacacaaa ttcagaactt gctttgatgt ataatgatga atctgtgttg1381 gaaaatcatc accttgctgt gggtttcaaa ctgctgcaag aagaacactg tgacatcttc1441 atgaatctca ccaagaagca gcgtcagaca ctcaggaaga tggttattga catggtgtta1501 gcaactgata tgtctaaaca tatgagcctg ctggcagacc tgaagacaat ggtagaaacg1561 aagaaagtta caagttcagg cgttcttctc ctagacaact ataccgatcg cattcaggtc1621 cttcgcaaca tggtacactg tgcagacctg agcaacccca ccaagtcctt ggaattgtat1681 cggcaatgga cagaccgcat catggaggaa tttttccagc agggagacaa agagcgggag1741 aggggaatgg aaattagccc aatgtgtgat aaacacacag cttctgtgga aaaatcccag1801 gttggtttca tcgactacat tgtccatcca ttgtgggaga catgggcaga tttggtacag1861 cctgatgctc aggacattct cgatacctta gaagataaca ggaactggta tcagagcatg1921 atacctcaaa gtccctcacc accactggac gagcagaaca gggactgcca gggtctgatg1981 gagaagtttc agtttgaact gactctcgat gaggaagatt ctgaaggacc tgagaaggag2041 ggagagggac acagctattt cagcagcaca aagacgcttt gtgtgattga tccagaaaac2101 agagattccc tgggagagac tgacatagac attgcaacag aagacaagtc ccccgtggat2161 aca1 tatcacaaca gcatgcacgc agccgatgtt acccagacag tccattgctt cttgctccgc 61 acagggatgg tgcactgcct gtcggagatt gagctcctgg ccatcatctt tgctgcagct 121 atccatgatt atgagcacac gggcactacc aacagcttcc acatccagac caagtcagaa 181 tgtgccatcg tgtacaatga tcgttcagtg ctggagaatc accacatcag ctctgttttc 241 cgattgatgc aggatgatga gatgaacatt ttcatcaacc tcaccaagga tgagtttgta 301 gaactccgag ccctggtcat tgagatggtg ttggctacag atatggca (2) SEQ ID NO: 2608 data: (i) sequence characteristics:

(A) length: 2372 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2608 sequence description: 1 gggccgccgt cggcgcgctg ggtgcgggaa gggggctctg gatttcggtc cctccccttt 61 ttcctctgag tctcggaacg ctccagctct cagaccctct tcctcccagg taaaggccgg 121 gagaggaggg cgcatctctt ttccaggcac cccaccatgg gcaatgcctc caatgactcc 181 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 181 cagtctgagg actgcgagac gcgacagtgg cttcccccag gcgaaagccc agccatcagc 241 tccgtcatgt tctcggccgg ggtgctgggg aacctcatag cactggcgct gctggcgcgc 301 cgctggcggg gggacgtggg gtgcagcgcc ggccgcagga gctccctctc cttgttccac 361 gtgctggtga ccgagctggt gttcaccgac ctgctcggga cctgcctcat cagcccagtg 421 gtactggctt cgtacgcgcg gaaccagacc ctggtggcac tggcgcccga gagccgcgcg 481 tgcacctact tcgctttcgc catgaccttc ttcagcctgg ccacgatgct catgctcttc 541 gccatggccc tggagcgcta cctctcgatc gggcacccct acttctacca gcgccgcgtc 601 tcggcctccg ggggcctggc cgtgctgcct gtcatctatg cagtctccct gctcttctgc 661 tcgctgccgc tgctggacta tgggcagtac gtccagtact gccccgggac ctggtgcttc 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 gtctcggtgc tcgcctgcaa cttcagtgtc attctcaacc tcatccgcat gcaccgccga 841 agccggagaa gccgctgcgg accttccctg ggcagtggcc ggggcggccc cggggcccgc 901 aggagagggg aaagggtgtc catggcggag gagacggacc acctcattct cctggctatc 961 atgaccatca ccttcgccgt ctgctccttg cctttcacga tttttgcata tatgaatgaa1021 acctcttccc gaaaggaaaa atgggacctc caagctctta ggtttttatc aattaattca1081 ataattgacc cttgggtctt tgccatcctt aggcctcctg ttctgagact aatgcgttca1141 gtcctctgtt gtcggatttc attaagaaca caagatgcaa cacaaacttc ctgttctaca1201 cagtcagatg ccagtaaaca ggctgacctt tgaggtcagt agtttaaaag ttcttagtta1261 tatagcatct ggaagatcat tttgaaattg ttccctggag aaatgaaaac agtgtgtaaa1321 caaaatgaag ctgccctaat aaaaaggagt atacaaacat ttaagctgtg gtcaaggcta1381 cagatgtgct gacaaggcac ttcatgtaaa gtgtcagaag gagctacaaa acctaccctc1441 aatgagcatg gtacttggcc tttggaggaa caatcggctg cattgaagat ccagctgcct1501 attgatttaa gctttcctgt tgaatgacaa agtatgtggt tttgtaattt gtttgaaacc1561 ccaaacagtg actgtacttt ctattttaat cttgctacta ccgttataca catatagtgt1621 acagccagac cagattaaac ttcatatgta atctctagga agtcaatatg tggaagcaac1681 caagcctgct gtcttgtgat cacttagcga accctttatt tgaacaatga agttgaaaat1741 cataggcacc ttttactgtg atgtttgtgt atgtgggagt actctcatca ctacagtatt1801 actcttacaa gagtggactc agtgggttaa catcagtttt gtttactcat cctccaggaa1861 ctgcaggtca agttgtcagg ttatttattt tataatgtcc atatgctaat agtgatcaag1921 aagactttag gaatggttct ctcaacaaga aataatagaa atgtctcaag gcagttaatt1981 ctcattaata ctcttattat cctatttctg ggggaggatg tacgtggcca tgtatgaagc2041 caaatattag gcttaaaaac tgaaaaatct ggttcattct tcagatatac tggaaccctt2101 ttaaagttga tattggggcc atgagtaaaa tagattttat aagatgactg tgttgtacca2161 aaattcatct gtctatattt tatttagggg aacatggttt gactcatctt atatgggaaa2221 ccatgtagca gtgagtcata tcttaatata tttctaaatg tttggcatgt aaatgtaaac2281 tcagcatcaa aatatttcag tgaatttgca ctgtttaatc atagttactg tgtaaactca2341 tctgaaatgt tacaaaaata aactataaaa ca (2) SEQ ID NO: 2609 data: (i) sequence characteristics:

(A) length: 1376 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2609 sequence description: 1 gggggcggca gggctgagcg gccggtgatg gggaccccac atcccaggca gtgccggcac 61 ccctggcgcc tgacatgagc ccttgcgggc ccctcaacct gagcctggcg ggcgaggcga 121 ccacatgcgc ggcgccctgg gtccccaaca cgtcggccgt gccgccgtcg ggcgcttcgc 181 721 tcgccgcgct ggtgtgcaac acgctcagcg gcctggccct gcatcgcgcc cgctggcgac 781 181 ccgcgctgcc catcttctcc atgacgctgg gcgccgtgtc caacctgctg gcgctggcgc 241 tgctggcgca ggccgcgggc cgcctgcgac gccgccgctc ggccaccacc ttcctgctgt 301 tcgtggccag cctgctggcc accgacctgg cgggccacgt gatcccgggc gcgctggtgc 361 tgcgtctgta cactgcgggg cgcgctccgg ccggcggggc ctgccacttc ctgggcggct 421 gcatggtctt cttcggcctg tgcccgctgc tgctgggctg tggcatggcc gtggagcgct 481 gcgtgggcgt cacgcggccg ctgctccacg ccgcgcgggt ctcggtcgcc cgcgcgcgcc 541 tggcgctggc cgcggtggcc gcggtggcct tggccgtggc gctgctgccg ctggcgcgcg 601 tgggccgcta tgagctgcag tacccgggca cgtggtgctt catcggcctg ggtcccccgg 661 gcggctggcg ccaggcactg cttgctggcc tcttcgccag cctcggcctg gtcgcgctcc 721 tcgccgcgct ggtgtgcaac acgctcagcg gcctggccct gcatcgcgcc cgctggcgac 781 gccgctcccg acggcctccc ccggcctcag gccccgacag ccggcgtcgc tggggggcgc 841 acggaccccg ctcggcctcc gcctcgtccg cctcgtccat cgcttcggcc tccaccttct 901 ttggcggctc tcggagcagc ggctcggcac gcagagctcg cgcccacgac gtggagatgg 961 tgggccagct tgtcggtatc atggtggtgt cgtgcatctg ctggagccca atgctggtgt1021 tggtggcgct ggccgtcggc ggctggagct ctacctccct gcagcggcca ctgttcctgg1081 ccgtgcgcct tgcctcctgg aaccagatcc tggacccttg ggtgtacatc ctactgcgcc1141 aggccgtgct gcgccaactg cttcgcctct tgcccccgag ggccggagcc aagggcggcc1201 ccgcggggct gggcctaaca ccgagcgcct gggaggccag ctcgctgcgc agctcccggc1261 acagcggcct cagccacttc taagcacaac cagaggccca acgactaagc cagcccaccc1321 tgggctgggc ccaggtgcgc ggcgcagagc ctttgggaat aaaaagccat tctgcg (2) SEQ ID NO: 2610 data: (i) sequence characteristics:

(A) length: 1077 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2610: 1 atgggcaatg cctccaatga ctcccagtct gaggactgcg agacgcgaca gtggcttccc 61 ccaggcgaaa gcccagccat cagctccgtc atgttctcgg ccggggtgct ggggaacctc 121 atagcactgg cgctgctggc gcgccgctgg cggggggacg tggggtgcag cgccggccgc 181 aggagctccc tctccttgtt ccacgtgctg gtgaccgagc tggtgttcac cgacctgctc 241 gggacctgcc tcatcagccc agtggtactg gcttcgtacg cgcggaacca gaccctggtg 301 gcactggcgc ccgagagccg cgcgtgcacc tacttcgctt tcgccatgac cttcttcagc 361 ctggccacga tgctcatgct cttcgccatg gccctggagc gctacctctc gatcgggcac 421 ccctacttct accagcgccg cgtctcgcgc tccgggggcc tggccgtgct gcctgtcatc 481 tatgcagtct ccctgctctt ctgctcgctg ccgctgctgg actatgggca gtacgtccag 541 tactgccccg ggacctggtg cttcatccgg cacgggcgga ccgcttacct gcagctgtac 601 gccaccctgc tgctgcttct cattgtctcg gtgctcgcct gcaacttcag tgtcattctc 661 aacctcatcc gcatgcaccg ccgaagccgg agaagccgct gcggaccttc cctgggcagt 721 ggccggggcg gccccggggc ccgcaggaga ggggaaaggg tgtccatggc ggaggagacg 781 gaccacctca ttctcctggc tatcatgacc atcaccttcg ccgtctgctc cttgcctttc 841 acgatttttg catatatgaa tgaaacctct tcccgaaagg aaaaatggga cctccaagct 901 cttaggtttt tatcaattaa ttcaataatt gacccttggg tctttgccat ccttaggcct 961 cctgttctga gactaatgcg ttcagtcctc tgttgtcgga tttcattaag aacacaagat1021 gcaacacaaa cttcctgttc tacacagtca gatgccagta aacaggctga cctttga (2) SEQ ID NO: 2611 data: (i) sequence characteristics:

(A) length: 1241 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2611: 1 ctgcagatgg gaagaggttt ttccaggaat ttaaattgtg caataaggcc acacaatctt 61 acttaaaaaa aatggtgaag gggttttaat tacaccatga agttttacaa ttttttaggt 121 ttttagttct ggttttagaa aacagagtag aaggattaac agagaaaaac ttcaccatta 181 721 cccggggcgc acgccgtagc gcagacaccg tatttctcct cctttctcgg ccaaccctag 781 181 gacaagaagt caaaatgatt ctaagggccg cgcaaacagg ctttccaaga attaatcatg 241 aggtggtgct tggagaattc ctttactcca gtgactttga aacccccttc tcactctcca 301 ctagtctttc aaaggattca tggtgaattg ggtctaacga gtataacacg gccggccgaa 361 cgatgaagct cacgctaccc tttcagggcg gagaagttcc caggaggaag aatggagaaa 421 aagatcgcag ttaggcagtc ctcccaacct caccaaggct ccacctctct ccaaagccgc 481 aacgtgctgc cacctgcgcc gggagaggct gcaatcactg tctcctcctc tttctttctc 541 tttttttttt tttctttttt gcctggggtg cccgaccaag cgcagccgca gtctgggcac 601 tgccaactga ctccaactccttttatggtg agaggatgga ttcttcgtta tttccccgcc 661 caatctggta cccacccacc cacccaccca ccacgtccgc tgggcgcacc caagtctaac 721 cccggggcgc acgccgtagc gcagacaccg tatttctcct cctttctcgg ccaaccctag 781 gtagaatcct aaaacaactg ccctctcttc cacgatctag atgttgcggc ccgcggacag 841 gaggttcaag aaatagtaca ctccgagcgg caggcagcga gagcggaaac ggtcgccggt 901 ttcagtggtg gccccactgg aagccgagtt caggagcggc taagcgtcgc cggggaaagc 961 accggggctt cccagggtct cctccgagtt cccactccgc acctccgagg gcgtgaaaac1021 cacgggagcc gcccgccccg cgcgcccagc cccgccccag cccagacacc gccccccgcc1081 agtcttccct gcggcgccca gggaggacgc cgtccgcccc cttccaatcc ggccaatggg1141 cgcccgggca gcgcgcggtt tgcctccgcc tccgccaggg aaacttggag gaggagaaaa1201 gtttgtacag agggtggaaa ggccgcagca cgcgagctcc a (2) SEQ ID NO: 2612 data: (i) sequence characteristics:

(A) length: 2154 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2612: 1 agcccggcag cccgagagga agatgaacag ccccaggcca gagcctctgc gagagtggac 61 cccgagccgc ccccaggtag ccaggagcgg cctcagcggc agccgcaaac tccagtagcc 121 gcccgtgctg cccgtgctgg ggcggagggc agccagagct ggggaccaag gctccgcgcc 181 721 ttattcatct tggcaatgga gtgagttgga ttgtggggag gaagaggaat gggaaaatca 781 181 acctgggcac agcctcacac ctgaacgctg tcctcccgca gacgagaccg gcgggcactg 241 caaagctggg actcgtcttt gaaggaaaaa aaatagcgag taagaaatcc agcaccattc 301 ttcactgacc catcccgctg cacctcttgt ttcccaagtt tttgaaagct ggcaactctg 361 acctcggtgt ccaaaaatcg acagccactg agaccggctt tgagaagccg aagatttggc 421 agtttccaga ctgagcagga caaggtgaaa gcaggttgga ggcgggtcca ggacatctga 481 gggctgaccc tgggggctcg tgaggctgcc accgctgctg ccgctacagg tgagatggcg 541 ttgggctgac gttggggtca acgggtagag aacgagggat gccgccctcg ccgaagagag 601 ccaagagggg aagagcgcgc tctccaaatt gcttttgtaa cttgttttca gtgagcattt 661 tattgattca gaatctatcg agaatagcac tagcgagcta ctttcccctt gagatgggtc 721 ttattcatct tggcaatggagtgagttgga ttgtggggag gaagaggaat gggaaaatca 781 gtttataaat attaatgtca gccaagagtg tgctgttggc aggacgtatc gcgagcctgg 841 agattttggt ggccgcagtt ggtaagtggc tacaatccag aaagtaggat cgagttgctc 901 cccttgtctt atcagtgtat cgtttctcgg gcgcgggtct aacaccttac aagtggtaat 961 ttccgctcac ggcagctttg tctctcttct accatcccca gacccagcct tgcactccaa1021 ggctgcgcac cgccagccac tatcatgtcc actcccgggg tcaattcgtc cgcctccttg1081 agccccgacc ggctgaacag cccagtaacc atcccggcgg tgatgttcat cttcggggtg1141 gtgggcaacc tggtggccat cgtggtgctg tgcaagtcgc gcaaggagca gaaggagacg1201 accttctaca cgctggtatg tgggctggct gtcaccgacc tgttgggcac tttgttggtg1261 agcccggtga ccatcgccac gtacatgaag ggccaatggc ccgggggcca gccgctgtgc1321 gagtacagca ccttcattct gctcttcttc agcctgtccg gcctcagcat catctgcgcc1381 atgagtgtcg agcgctacct ggccatcaac catgcctatt tctacagcca ctacgtggac1441 aagcgattgg cgggcctcac gctctttgca gtctatgcgt ccaacgtgct cttttgcgcg1501 ctgcccaaca tgggtctcgg tagctcgcgg ctgcagtacc cagacacctg gtgcttcatc1561 gactggacca ccaacgtgac ggcgcacgcc gcctactcct acatgtacgc gggcttcagc1621 tccttcctca ttctcgccac cgtcctctgc aacgtgcttg tgtgcggcgc gctgctccgc1681 atgcaccgcc agttcatgcg ccgcacctcg ctgggcaccg agcagcacca cgcggccgcg1741 gccgcctcgg ttgcctcccg gggccacccc gctgcctccc cagccttgcc gcgcctcagc1801 gactttcggc gccgccggag cttccgccgc atcgcgggcg ccgagatcca gatggtcatc1861 ttactcattg ccacctccct ggtggtgctc atctgctcca tcccgctcgt ggtgagtgac1921 cgggggtggg gccctactcg gcctttttct cgcatccacc tcccgcgtcc attccccgct1981 ccctgttttc cctctgagtc cttgggagtg aacgtgtcgc ctttaggtcg gggctgggat2041 tcccacactg tttctcagag gaggcccaac ccctctttgg aagtcccaac cctaacgcga2101 tttagcaggt gctttggccc tacatccccc agtttatgtt tcccggaagg ctgg (2) SEQ ID NO: 2613 data: (i) sequence characteristics:

(A) length: 840 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2613 sequence description: 1 agcccatgac tggtttttct gaggcttatt atgtagcttc ctcttttcct ggaacttgtt 61 accagaaatg aaggcagctt cctaatattg ataaggtaga catagcattt atatgttttc 121 ccaattgatt aatgatgaaa tctaaatgtg cgactcactt atgcaggtgc gagtattcgt 181 caaccagtta tatcagccaa gtttggagcg agaagtcagt aaaaatccag atttgcaggc 241 catccgaatt gcttctgtga accccatcct agacccctgg atatatatcc tcctgagaaa 301 gacagtgctc agtaaagcaa tagagaagat caaatgcctc ttctgccgca ttggcgggtc 361 ccgcagggag cgctccggac agcactgctc agacagtcaa aggacatctt ctgccatgtc 421 aggccactct cgctccttca tctcccggga gctgaaggag atcagcagta catctcagac 481 cctcctgcca gacctctcac tgccagacct cagtgaaaat ggccttggag gcaggaattt 541 gcttccaggt gtgcctggca tgggcctggc ccaggaagac accacctcac tgaggacttt 601 gcgaatatca gagacctcag actcttcaca gggtcaggac tcagagagtg tgttactggt 661 ggatgaggct ggtggaagcg gcagggcagg gcctgcccct aaggggagct ccctgcaagt 721 cacatttccc agtgaaacac tgaacttatc agaaaaatgt atataatagg caaggaaaga 781 aatacagtac tgtttctgga cccttataaa atcctgtgca atagacacat acatgtcaca (2) SEQ ID NO: 2614 data: (i) sequence characteristics:

(A) length: 9060 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2614 sequence description: 1 gggccgccgt cggcgcgctg ggtgcgggaa gggggctctg gatttcggtc cctccccttt 61 ttcctctgag tctcggaacg ctccagctct cagaccctct tcctcccagg taaaggccgg 121 gagaggaggg cgcatctctt ttccaggcac cccaccatgg gcaatgcctc caatgactcc 181 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 181 cagtctgagg actgcgagac gcgacagtgg cttcccccag gcgaaagccc agccatcagc 241 tccgtcatgt tctcggccgg ggtgctgggg aacctcatag cactggcgct gctggcgcgc 301 cgctggcggg gggacgtggg gtgcagcgcc ggccgcagga gctccctctc cttgttccac 361 gtgctggtga ccgagctggt gttcaccgac ctgctcggga cctgcctcat cagcccagtg 421 gtactggctt cgtacgcgcg gaaccagacc ctggtggcac tggcgcccga gagccgcgcg 481 tgcacctact tcgctttcgc catgaccttc ttcagcctgg ccacgatgct catgctcttc 541 gccatggccc tggagcgcta cctctcgatc gggcacccct acttctacca gcgccgcgtc 601 tcggcctccg ggggcctggc cgtgctgcct gtcatctatg cagtctccct gctcttctgc 661 tcgctgccgc tgctggacta tgggcagtac gtccagtact gccccgggac ctggtgcttc 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 gtctcggtgc tcgcctgcaa cttcagtgtc attctcaacc tcatccgcat gcaccgccga 841 agccggagaa gccgctgcgg accttccctg ggcagtggcc ggggcggccc cggggcccgc 901 aggagagggg aaagggtgtc catggcggag gagacggacc acctcattct cctggctatc 961 atgaccatca ccttcgccgt ctgctccttg cctttcacga tttttgcata tatgaatgaa1021 acctcttccc gaaaggaaaa atgggacctc caagctctta ggtttttatc aattaattca1081 ataattgacc cttgggtctt tgccatcctt aggcctcctg ttctgagact aatgcgttca1141 gtcctctgtt gtcggatttc attaagaaca caagatgcaa cacaaacttc ctgttctaca1201 cagtcagatg ccagtaaaca ggctgacctt tgaggtcagt agtttaaaag ttcttagtta1261 tatagcatct ggaagatcat tttgaaattg ttccctggag aaatgaaaac agtgtgtaaa1321 caaaatgaag ctgccctaat aaaaaggagt atacaaacat ttaagctgtg gtcaaggcta1381 cagatgtgct gacaaggcac ttcatgtaaa gtgtcagaag gagctacaaa acctaccctc1441 aatgagcatg gtacttggcc tttggaggaa caatcggctg cattgaagat ccagctgcct1501 attgatttaa gctttcctgt tgaatgacaa agtatgtggt tttgtaattt gtttgaaacc1561 ccaaacagtg actgtacttt ctattttaat cttgctacta ccgttataca catatagtgt1621 acagccagac cagattaaac ttcatatgta atctctagga agtcaatatg tggaagcaac1681 caagcctgct gtcttgtgat cacttagcga accctttatt tgaacaatga agttgaaaat1741 cataggcacc ttttactgtg atgtttgtgt atgtgggagt actctcatca ctacagtatt1801 actcttacaa gagtggactc agtgggttaa catcagtttt gtttactcat cctccaggaa1861 ctgcaggtca agttgtcagg ttatttattt tataatgtcc atatgctaat agtgatcaag1921 aagactttag gaatggttct ctcaacaaga aataatagaa atgtctcaag gcagttaatt1981 ctcattaata ctcttattat cctatttctg ggggaggatg tacgtggcca tgtatgaagc2041 caaatattag gcttaaaaac tgaaaaatct ggttcattct tcagatatac tggaaccctt2101 ttaaagttga tattggggcc atgagtaaaa tagattttat aagatgactg tgttgtacca2161 aaattcatct gtctatattt tatttagggg aacatggttt gactcatctt atatgggaaa2221 ccatgtagca gtgagtcata tcttaatata tttctaaatg tttggcatgt aaatgtaaac2281 tcagcatcaa aatatttcag tgaatttgca ctgtttaatc atagttactg tgtaaactca2341 tctgaaatgt tacaaaaata aactataaaa ca1 gggggcggca gggctgagcg gccggtgatg gggaccccac atcccaggca gtgccggcac 61 ccctggcgcc tgacatgagc ccttgcgggc ccctcaacct gagcctggcg ggcgaggcga 121 ccacatgcgc ggcgccctgg gtccccaaca cgtcggccgt gccgccgtcg ggcgcttcgc 181 ccgcgctgcc catcttctcc atgacgctgg gcgccgtgtc caacctgctg gcgctggcgc 241 tgctggcgca ggccgcgggc cgcctgcgac gccgccgctc ggccaccacc ttcctgctgt 301 tcgtggccag cctgctggcc accgacctgg cgggccacgt gatcccgggc gcgctggtgc 361 tgcgtctgta cactgcgggg cgcgctccgg ccggcggggc ctgccacttc ctgggcggct 421 gcatggtctt cttcggcctg tgcccgctgc tgctgggctg tggcatggcc gtggagcgct 481 gcgtgggcgt cacgcggccg ctgctccacg ccgcgcgggt ctcggtcgcc cgcgcgcgcc 541 tggcgctggc cgcggtggcc gcggtggcct tggccgtggc gctgctgccg ctggcgcgcg 601 tgggccgcta tgagctgcag tacccgggca cgtggtgctt catcggcctg ggtcccccgg 661 gcggctggcg ccaggcactg cttgctggcc tcttcgccag cctcggcctg gtcgcgctcc 721 tcgccgcgct ggtgtgcaac acgctcagcg gcctggccct gcatcgcgcc cgctggcgac 781 gccgctcccg acggcctccc ccggcctcag gccccgacag ccggcgtcgc tggggggcgc 841 acggaccccg ctcggcctcc gcctcgtccg cctcgtccat cgcttcggcc tccaccttct 901 ttggcggctc tcggagcagc ggctcggcac gcagagctcg cgcccacgac gtggagatgg 961 tgggccagct tgtcggtatc atggtggtgt cgtgcatctg ctggagccca atgctggtgt1021 tggtggcgct ggccgtcggc ggctggagct ctacctccct gcagcggcca ctgttcctgg1081 ccgtgcgcct tgcctcctgg aaccagatcc tggacccttg ggtgtacatc ctactgcgcc1141 aggccgtgct gcgccaactg cttcgcctct tgcccccgag ggccggagcc aagggcggcc1201 ccgcggggct gggcctaaca ccgagcgcct gggaggccag ctcgctgcgc agctcccggc1261 acagcggcct cagccacttc taagcacaac cagaggccca acgactaagc cagcccaccc1321 tgggctgggc ccaggtgcgc ggcgcagagc ctttgggaat aaaaagccat tctgcg 1 atgggcaatg cctccaatga ctcccagtct gaggactgcg agacgcgaca gtggcttccc 61 ccaggcgaaa gcccagccat cagctccgtc atgttctcgg ccggggtgct ggggaacctc 121 atagcactgg cgctgctggc gcgccgctgg cggggggacg tggggtgcag cgccggccgc 181 aggagctccc tctccttgtt ccacgtgctg gtgaccgagc tggtgttcac cgacctgctc 241 gggacctgcc tcatcagccc agtggtactg gcttcgtacg cgcggaaccagaccctggtg 301 gcactggcgc ccgagagccg cgcgtgcacc tacttcgctt tcgccatgac cttcttcagc 361 421 ccctacttct accagcgccg cgtctcgcgc tccgggggcc tggccgtgct gcctgtcatc 481 tatgcagtct ccctgctctt ctgctcgctg ccgctgctgg actatgggca gtacgtccag 541 tactgccccg ggacctggtg cttcatccgg cacgggcgga ccgcttacct gcagctgtac 601 gccaccctgc tgctgcttct cattgtctcg gtgctcgcct gcaacttcag tgtcattctc 661 aacctcatcc gcatgcaccg ccgaagccgg agaagccgct gcggaccttc cctgggcagt 721 ggccggggcg gccccggggc ccgcaggaga ggggaaaggg tgtccatggc ggaggagacg 781 gaccacctca ttctcctggc tatcatgacc atcaccttcg ccgtctgctc cttgcctttc 841 acgatttttg catatatgaa tgaaacctct tcccgaaagg aaaaatggga cctccaagct 901 cttaggtttt tatcaattaa ttcaataatt gacccttggg tctttgccat ccttaggcct 961 cctgttctga gactaatgcg ttcagtcctc tgttgtcgga tttcattaag aacacaagat1021 gcaacacaaa cttcctgttc tacacagtca gatgccagta aacaggctga cctttga 1 ctgcagatgg gaagaggttt ttccaggaat ttaaattgtg caataaggcc acacaatctt acttaaaaaa aatggtgaag gggttttaat tacaccatga agttttacaa ttttttaggt ttttagttct ggttttagaa aacagagtag aaggattaac agagaaaaac ttcaccatta gacaagaagt caaaatgatt ctaagggccg cgcaaacagg ctttccaaga attaatcatg 241 aggtggtgct tggagaattc ctttactcca gtgactttga aacccccttc tcactctcca ctagtctttc aaaggattca tggtgaattg ggtctaacga gtataacacg gccggccgaa 361 cgatgaagct cacgctaccc tttcagggcg gagaagttcc caggaggaag aatggagaaa 421 aagatcgcag ttaggcagtc ctcccaacct caccaaggct ccacctctct ccaaagccgc 481 aacgtgctgc cacctgcgcc gggagaggct gcaatcactg tctcctcctc tttctttctc 541 tttttttttt tttctttttt gcctggggtg cccgaccaag cgcagccgca gtctgggcac 601 tgccaactga ctccaactcc ttttatggtg agaggatgga ttcttcgtta tttccccgcc 661 caatctggta cccacccacc cacccaccca ccacgtccgc tgggcgcacc caagtctaac 721 cccggggcgc acgccgtagc gcagacaccg tatttctcct cctttctcgg ccaaccctag 781 gtagaatcct aaaacaactg ccctctcttc cacgatctag atgttgcggc ccgcggacag 841 gaggttcaag aaatagtaca ctccgagcgg caggcagcga gagcggaaac ggtcgccggt 901 ttcagtggtg gccccactgg aagccgagtt caggagcggc taagcgtcgc cggggaaagc 961 accggggctt cccagggtct cctccgagtt cccactccgc acctccgagg gcgtgaaaac1021 cacgggagcc gcccgccccg cgcgcccagc cccgccccag cccagacacc gccccccgcc1081 agtcttccct gcggcgccca gggaggacgc cgtccgcccc cttccaatcc ggccaatggg1141 cgcccgggca gcgcgcggtt tgcctccgcc tccgccaggg aaacttggag gaggagaaaa1201 gtttgtacag agggtggaaa ggccgcagca cgcgagctcc a1 agcccggcag cccgagagga agatgaacag ccccaggcca gagcctctgc gagagtggac 61 cccgagccgc ccccaggtag ccaggagcgg cctcagcggc agccgcaaac tccagtagcc 21 gcccgtgctg cccgtgctgg ggcggagggc agccagagct ggggaccaag gctccgcgcc 181 acctgggcac agcctcacac ctgaacgctg tcctcccgca gacgagaccg gcgggcactg 241 caaagctggg actcgtcttt gaaggaaaaa aaatagcgag taagaaatcc agcaccattc 301 ttcactgacc catcccgctg cacctcttgt ttcccaagtt tttgaaagct ggcaactctg 361 acctcggtgt ccaaaaatcg acagccactg agaccggctt tgagaagccg aagatttggc 421 agtttccaga ctgagcagga caaggtgaaa gcaggttgga ggcgggtcca ggacatctga 481 gggctgaccc tgggggctcg tgaggctgcc accgctgctg ccgctacagg tgagatggcg 541 ttgggctgac gttggggtca acgggtagag aacgagggat gccgccctcg ccgaagagag 601 ccaagagggg aagagcgcgc tctccaaatt gcttttgtaa cttgttttca gtgagcattt 661 tattgattca gaatctatcg agaatagcac tagcgagcta ctttcccctt gagatgggtc 721 ttattcatct tggcaatgga gtgagttgga ttgtggggag gaagaggaat gggaaaatca 781 gtttataaat attaatgtca gccaagagtg tgctgttggc aggacgtatc gcgagcctgg 841 agattttggt ggccgcagtt ggtaagtggc tacaatccag aaagtaggat cgagttgctc 901 cccttgtctt atcagtgtat cgtttctcgg gcgcgggtct aacaccttac aagtggtaat 961 ttccgctcac ggcagctttg tctctcttct accatcccca gacccagcct tgcactccaa1021 ggctgcgcac cgccagccac tatcatgtcc actcccgggg tcaattcgtc cgcctccttg1081 agccccgacc ggctgaacag cccagtaacc atcccggcgg tgatgttcat cttcggggtg1141 gtgggcaacc tggtggccat cgtggtgctg tgcaagtcgc gcaaggagca gaaggagacg1201 accttctaca cgctggtatg tgggctggct gtcaccgacc tgttgggcac tttgttggtg1261 agcccggtga ccatcgccac gtacatgaag ggccaatggc ccgggggcca gccgctgtgc1321 gagtacagca ccttcattct gctcttcttc agcctgtccg gcctcagcat catctgcgcc1381 atgagtgtcg agcgctacct ggccatcaac catgcctatt tctacagcca ctacgtggac1441 aagcgattgg cgggcctcac gctctttgca gtctatgcgt ccaacgtgct cttttgcgcg1501 ctgcccaaca tgggtctcgg tagctcgcgg ctgcagtacc cagacacctg gtgcttcatc1561 gactggacca ccaacgtgac ggcgcacgcc gcctactcct acatgtacgc gggcttcagc1621 tccttcctca ttctcgccac cgtcctctgc aacgtgcttg tgtgcggcgc gctgctccgc1681 atgcaccgcc agttcatgcg ccgcacctcg ctgggcaccg agcagcacca cgcggccgcg1741 gccgcctcgg ttgcctcccg gggccacccc gctgcctccc cagccttgcc gcgcctcagc1801 gactttcggc gccgccggag cttccgccgc atcgcgggcg ccgagatcca gatggtcatc1861 ttactcattg ccacctccct ggtggtgctc atctgctcca tcccgctcgt ggtgagtgac1921 cgggggtggg gccctactcg gcctttttct cgcatccacc tcccgcgtcc attccccgct1981 ccctgttttc cctctgagtc cttgggagtg aacgtgtcgc ctttaggtcg gggctgggat2041 tcccacactg tttctcagag gaggcccaac ccctctttgg aagtcccaac cctaacgcga2101 tttagcaggt gctttggccc tacatccccc agtttatgtt tcccggaagg ctgg1 agcccatgac tggtttttct gaggcttatt atgtagcttc ctcttttcct ggaacttgtt 61 accagaaatg aaggcagctt cctaatattg ataaggtaga catagcattt atatgttttc 121 ccaattgatt aatgatgaaa tctaaatgtg cgactcactt atgcaggtgc gagtattcgt 181 caaccagtta tatcagccaa gtttggagcg agaagtcagt aaaaatccag atttgcaggc 241 catccgaatt gcttctgtga accccatcct agacccctgg atatatatcc tcctgagaaa 301 gacagtgctc agtaaagcaa tagagaagat caaatgcctc ttctgccgca ttggcgggtc 361 ccgcagggag cgctccggac agcactgctc agacagtcaa aggacatctt ctgccatgtc 421 aggccactct cgctccttca tctcccggga gctgaaggag atcagcagta catctcagac 481 cctcctgcca gacctctcac tgccagacct cagtgaaaat ggccttggag gcaggaattt 541 gcttccaggt gtgcctggca tgggcctggc ccaggaagac accacctcac tgaggacttt 601 gcgaatatca gagacctcag actcttcaca gggtcaggac tcagagagtg tgttactggt 661 ggatgaggct ggtggaagcg gcagggcagg gcctgcccct aaggggagct ccctgcaagt 721 cacatttccc agtgaaacac tgaacttatc agaaaaatgt atataatagg caaggaaaga 781 aatacagtac tgtttctgga cccttataaa atcctgtgca atagacacat acatgtcaca (2) SEQ ID NO: 2615 data: (i) sequence characteristics:

(A) length: 4866 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ IDNO: 2615 sequence description: 1 aagcttcctg tacctggaat attaatattt tatttcagat ttgggaaatt ttcagctagc 61 aatctttaaa tatgctttct gacccccttt tcctctattt tctccttctt aaactactgt 121 aatgtgaaca ttagctctct tttttaattt ttaatttaat ttttgttttt attttttgag 181 721 caccaaattg tttctctgtg tttgcttcaa agtaactgag cttctttaaa aacaattatc 781 181 atgcagtctc actctgtcac ccaggctgga gtgcagtggc atgatctcag ctcactgcaa 241 cctttgcctt ctaggttgaa gagattctgc tgcctcagtc tccccatgag ctgggattac 301 agcatgtgcc acaatccctg gctaattttt ttgtattttt agtagagact gggtttcacc 361 atgttggtca ggctggtctt gactcctgac ctcaggtgat ccactcacct tggcctccca 421 aagcgctggg attatggcat gagccactga gtctggctga atgttagctc tcttgatgct 481 gtcccataaa tcttgtaggc tttcatcatt tcttttcatt cttttttctc ctctcactgt 541 atattttcaa aaacctgtct tcagttcaca gattctttct tctgcttgat caagtctgct 601 actggtgatt tctactgcat ttctcacttc attcattata tttttcagct ccaatttctt 661 ttatgatttc aatctttctg ttacatttct tatgttgtgc atttattgtt tctctgattt 721 caccaaattg tttctctgtg tttgcttcaa agtaactgag cttctttaaa aacaattatc 781 ttgaatccat tgtcaggcca tttgtagtac tccatttctt ttgggtcagc tactgggaaa 841 ttattgtgtt tcttaggtgg tgatatttta atttgggttt tcatgtttct tgctgcctta 901 cactgctgtc tgagcatctg gtggatctgc cccaatttca ggctgtatgg gctgactttg 961 gtggagaaat accttcttat gtggaataat gcgaggatgc tggctgggtg ggatgcaaaa1021 gttctgactt cagtaggggc aaagctgtgt ggtctccatg cagatctgtc agctgaggtt1081 ggtgttagtg aatactacag ggatccttag aggccaacac tgtgggtatc tacagtggca1141 atgaggctgt tgaggttttc aattgtgaca agtcctccat atctcttttt ttccccacct1201 gggaagtcat gactgaggac atccctcttg gaattaggtc taacttgcag gcctgctcct1261 ggtggtggtg acactggtgt ctgatgaaca gtgcccatgg agtggccaag agccaaggcc1321 tgaagcatgg gcatgcatgg agggaccaca gcaccagatt caattgtagc aatggtacca1381 gtgcccaagg cacaggcata cttactatca cattgataat ggtgtgtaaa atgcaggtac1441 ttataaagca gctaaggagc cagggacttt actgcatgca tacgcagagc tacagtggct1501 ccaggatcca gggtgtgggc tagctctcct tggtggctga gctggtgact agagcatgga1561 caggcacaga gaaaccttga ctctaggacc cagggtgttc actagctcac tatagtggtg1621 gctctggtgt tggaggtgtg ggtgtgtgta gtacagcctc agagacaggg tctggagcgc1681 aggtgtgcac attactacag cagctctgga gttgagaata tgggttacct ttctacagtg1741 gctgaactag tgtctggagc aaagactttc acagagagaa cttggcttgg ggtcccaggg1801 tgagatctag ttcacaacag cagtgactcc agtgtctgag acatgaggag gtgcactgca1861 gccacagagc cacagtccag agtgtgaata tctgtagagc agccacaact tttggggatc1921 aggaacacac atagaattgt gagaggtggt aaccctggcc ccagtcctgg cgagtgcaac1981 aatagctgct tcttggtgag ggggtgtgag gggtagtgca actgtgtttc cctttttagc2041 atcctgctat gggaatggct gttggacaaa agatgccagt gtcctctgtg gagcaggaca2101 ctgggggcct cagtggctct gtgtcacatg actgacacag atagcctaca aatttcttta2161 ttcgtagcta tctcctggtg tctcatatat gccagtctca ccggtgattc ttctacatga2221 atattctttc ttttctccat tgtgttgttc caaattcttt aacaggctct tgagccccat2281 cccccaactc cccacccttg tgagggctat tttggtttgt gtataactgt ctatgtttgt2341 ttttttgttg gggcataagg ctgacatctc ctactccacc atcttgctaa tgtcacctgc2401 ataggaatct ttttatgctt tccttatatt cactaaaatt taacaatatc aaacttaaaa2461 acatatgatc aattgaactt attaatatca aacttattat aaataagaaa ctaccaggct2521 gggcatggtg gctcatgcct gtaatcccaa cattttggga ggctgaggtg aaaggatcac2581 ttgagcccag gaattcaaga ccagcctggg aaatatagag agaccctatc tctagagatt2641 ttttttttta attagccagt agtgatggca cacatctata gtcccagcta ctcaggaggc2701 tgaggtggga gaattgcttg agcccaggag gtcaaggctg cagcaagcag taatcatgcc2761 actgcactcc agcctgggcc gcagagtgag accctgtctc aaaaaaagaa cctactagtc2821 tacataccac acttcttcat ccccatctga gactatatat attttttcta acatgaggca2881 atgccaaaaa gaggagctgg tgagtgaaag taagaacaga aagacatgga ggcaagtctt2941 atagaataat agccaacact taaacttaca cttaacagcg tgataggtat tgttccaaac3001 acattaaatt catttaatgg tccttacatg tctatgtatt tggtgattat tatccttatt3061 attcacattg ctgagtgtat tattctgttc tcatgatgct gatagagaca tacccgagac3121 tggataactt attaaaaaaa aaaaggttta atggactcac agttccacgt ggatggggag3181 tcctcacaat catggtagaa agcaaaagac acgtcttaca tggcagcagg gaagagagag3241 aaatgagaac caaacaaaag gggtttcccc ttataaaacc atcagctctc atgcgactta3301 ttcactacca tgagaacagt atgggggaaa ccacccccat gattcaatga tctaccaggt3361 gcctcccaca acctgtggga attatgggag ctacaattcc agatgagatt tgggtgggga3421 cacagccaaa ccacatcact gaggaaactg agttataggg agattagtaa cgcccaacac3481 agctggtagg tggtggagcc aggcagtctg actctagggt ctggactctg aactgcatca3541 593601 attccttcaa cagcatttcc ttcaccatct tttctacttc tactatataa ttaatttttt3661 cttcttggtc ccaaattcca acgtgcaaat gcagccttat ataccctaat tcatctttac3721 ctttagactt tcttccaatg tttctacttc attccatttt aaatttatcc atgagatgcc3781 tatttacaag ctgtaaccat catgaagtga atgaagaata atacctacta ctgtacaata3841 gaattccaag agtataaata ggagttatgg ctttctgact tgaaactaaa tacttgatac3901 ttgattttgc tgtctgagat caatctgaaa agtaataata atcactaaca tttgttgagc 398661 atcaattgtg ggccaagtgt catttcaatc actctgtaca tattaactca tttcatccta4021 caacaacccg gtgaggcaag ttctgttatt ctgttttaca gttgaggaaa cagaggcata gagagcttaa gtagtttgcc cagtagatag ccagaagagg agccaggatg ggtctcgggc4141 agtttaacag cacagctgaa gtcttaacca ctatgccaac agctttttgg tcctacacat4201 cccatgggaa gaggaaaata aaaaggtatc tatttgtata cctttttatt tctgatataa4261 gaagcagaat tcctttcaca tgacctatgt ctatttaata cgtcattttg aaacttacca4321 ataaaatttc ccaagcgcca gaaaactgtt agtggctttt tccattcttc tctatttttt4381 tttgtgctac taattttgct tctttccctc agaaggctgc cggaatagta aacattcact4441 gacatgtcat aattactgga aaatgggcac tggaaaatca cattgtaatt aattcaaagc4501 atgttttcca aatgtactac tttaaattgg agcttatatc ataatccaag gaaacctttg4561 tgtgtgtact gttcccacat tgctcagcct gggatatcca ggagtaattc accttgcgcc4621 tgcctccaga ccatcttcca tggaaggggg tgaccccttg cctcttggca accactattt4681 ctaagctgcc aacattactc ttgcattatc aacattctaa cttcatggga agggctgtgg4741 tgagtttctg gaatgtgaat aggaagttgt ttttctaaac agcctgacac tgaggggagg4801 cagtgagact gtaagcagtc tgggttgggc agaaggcaga aaaccagcag agtcacagag4861 gagatg (2) SEQ ID NO: 2616 data: (i) sequence characteristics:

(A) length: 1016 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2616 sequence description: 1 gtcgaggatc cctaaagtcc tttgaagctt tcatattctg taacttttgt gccaagaagg 61 ccttacagtg agatgggatc ccagtattta ttgagtttcc tcattcataa aatggggata 121 ataatagtaa atgagttgac acgcgctaag acagtggaat agtggctggc acagataagc 181 cctcggtaaa tggtagccaa taatgataga gtatgctgta agatatcttt ctctccctct 241 gcttctcaac aagtctctaa tcaattattc cactttataa acaaggaaat agaactcaaa 301 gacattaagc acttttccaa aggtcgctta gcaagtaaat gggagagacc ctatgaccag 361 gatgaaagca agaaattccc acaagaggac tcattccaac tcatatcttg tgaaaaggtt 421 cccaatgccc agctcagatc aactgcctca atttacagtg tgagtgtgct cacctccttt 481 ggggactgta tatccagagg accctcctca ataaaacact ttataaataa catccttcca 541 tggatgaggg aaaggaggta agatctgtaa tgaataagca ggaactttga agactcagtg 601 actcagtgag taataaagac tcagtgactt ctgatcctgt cctaactgcc actccttgtt 661 gtcccaagaa agcggcttcc tgctctctga ggaggacccc ttccctggaa ggtaaaacta 721 aggatgtcag cagagaaatt tttccaccat tggtgcttgg tcaaagagga aactgatgag 781 ctcactctag atgagagagc agtgagggag agacagagac tcgaatttcc ggagctattt 841 cagttttctt ttccgttttg tgcaatttca cttatgatac cggccaatgc ttggttgcta 901 ttttggaaac tccccttagg ggatgcccct caactggccc tataaagggc cagcctgagc 961 tgcagaggat caagacagca cgtggacctc gcacagcctc tcccacaggt accatg (2) SEQ ID NO: 2617 data: (i) sequence characteristics:

(A) length: 1160 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2617 sequence description: 1 cctccgacag cctctccaca ggtaccatga aggtctccgc ggcacgcctc gctgtcatcc 61 tcattgctac tgccctctgc gctcctgcat ctgcctcccc atattcctcg gacaccacac 121 cctgctgctt tgcctacatt gcccgcccac tgccccgtgc ccacatcaag gagtatttct 181 acaccagtgg caagtgctcc aacccagcag tcgtctttgt cacccgaaag aaccgccaag 241 tgtgtgccaa cccagagaag aaatgggttc gggagtacat caactctttg gagatgagct 301 aggatggaga gtccttgaac ctgaacttac acaaatttgc ctgtttctgc ttgctcttgt 361 cctagcttgg gaggcttccc ctcactatcc taccccaccc gctccttgaa gggcccagat 421 tctgaccacg acgagcagca gttacaaaaa ccttccccag gctggacgtg gtggctcagc 481 cttgtaatcc cagcactttg ggaggccaag gtgggtggat cacttgaggt caggagttcg 541 agacagcctg gccaacatga tgaaacccca tgtgtactaa aaatacaaaa aattagccgg 601 gcgtggtagc gggcgcctgt agtcccagct actcgggagg ctgaggcagg agaatggcgt 661 gaacccggga gcggagcttg cagtgagccg agatcgcgcc actgcactcc agcctgggcg 721 acagagcgag actccgtctc aaaaaaaaaa aaaaaaaaaa aaaaaataca aaaattagcc 781 gcgtggtggc ccacgcctgt aatcccagct actcgggagg ctaaggcagg aaaattgttt 841 gaacccagga ggtggaggct gcagtgagct gagattgtgc cacttcactc cagcctgggt 901 gacaaagtga gactccgtca caacaacaac aacaaaaagc ttccccaact aaagcctaga 961 agagcttctg aggcgctgct ttgtcaaaag gaagtctcta ggttctgagc tctggctttg1021 ccttggcttt gcaagggctc tgtgacaagg aaggaagtca gcatgcctct agaggcaagg1081 aagggaggaa cactgcactc ttaagcttcc gccgtctcaa cccctcacag gagcttactg1141 gcaaacatga aaaatcgggg (2) SEQ ID NO: 2618 data: (i) sequence characteristics:

(A) length: 2176 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2618 sequence description: 1 gtcgaggatc cctaaagtcc tttgaagctt tcatattctg taacttttgt gccaagaagg 61 ccttacagtg agatgggatc ccagtattta ttgagtttcc tcattcataa aatggggata 121 ataatagtaa atgagttgac acgcgctaag acagtggaat agtggctggc acagataagc 181 721 aggatgtcag cagagaaatt tttccaccat tggtgcttgg tcaaagagga aactgatgag 781 181 cctcggtaaa tggtagccaa taatgataga gtatgctgta agatatcttt ctctccctct 241 gcttctcaac aagtctctaa tcaattattc cactttataa acaaggaaat agaactcaaa 301 gacattaagc acttttccaa aggtcgctta gcaagtaaat gggagagacc ctatgaccag 361 gatgaaagca agaaattccc acaagaggac tcattccaac tcatatcttg tgaaaaggtt 421 cccaatgccc agctcagatc aactgcctca atttacagtg tgagtgtgct cacctccttt 481 ggggactgta tatccagagg accctcctca ataaaacact ttataaataa catccttcca 541 tggatgaggg aaaggaggta agatctgtaa tgaataagca ggaactttga agactcagtg 601 actcagtgag taataaagac tcagtgactt ctgatcctgt cctaactgcc actccttgtt 661 gtcccaagaa agcggcttcc tgctctctga ggaggacccc ttccctggaa ggtaaaacta 721 aggatgtcag cagagaaatt tttccaccat tggtgcttgg tcaaagagga aactgatgag 781 ctcactctag atgagagagc agtgagggag agacagagac tcgaatttcc ggagctattt 841 cagttttctt ttccgttttg tgcaatttca cttatgatac cggccaatgc ttggttgcta 901 ttttggaaac tccccttagg ggatgcccct caactggccc tataaagggc cagcctgagc 961 tgcagaggat caagacagca cgtggacctc gcacagcctc tcccacaggt accatg 1 cctccgacag cctctccaca ggtaccatga aggtctccgc ggcacgcctc gctgtcatcc 61 tcattgctac tgccctctgc gctcctgcat ctgcctcccc atattcctcg gacaccacac 121 cctgctgctt tgcctacatt gcccgcccac tgccccgtgc ccacatcaag gagtatttct 181 acaccagtgg caagtgctcc aacccagcag tcgtctttgt cacccgaaag aaccgccaag 241 tgtgtgccaa cccagagaag aaatgggttc gggagtacat caactctttg gagatgagct 301 aggatggaga gtccttgaac ctgaacttac acaaatttgc ctgtttctgc ttgctcttgt 361 cctagcttgg gaggcttccc ctcactatcc taccccaccc gctccttgaa gggcccagat 421 tctgaccacg acgagcagca gttacaaaaa ccttccccag gctggacgtg gtggctcagc 481 cttgtaatcc cagcactttg ggaggccaag gtgggtggat cacttgaggt caggagttcg 541 agacagcctg gccaacatga tgaaacccca tgtgtactaa aaatacaaaa aattagccgg 601 gcgtggtagc gggcgcctgt agtcccagct actcgggagg ctgaggcagg agaatggcgt 661 gaacccggga gcggagcttg cagtgagccg agatcgcgcc actgcactcc agcctgggcg 721 acagagcgag actccgtctc aaaaaaaaaa aaaaaaaaaa aaaaaataca aaaattagcc 781 gcgtggtggc ccacgcctgt aatcccagct actcgggagg ctaaggcagg aaaattgttt 841 gaacccagga ggtggaggct gcagtgagct gagattgtgc cacttcactc cagcctgggt 901 gacaaagtga gactccgtca caacaacaac aacaaaaagc ttccccaact aaagcctaga 961 agagcttctg aggcgctgct ttgtcaaaag gaagtctcta ggttctgagc tctggctttg1021 ccttggcttt gcaagggctc tgtgacaagg aaggaagtca gcatgcctct agaggcaagg1081 aagggaggaa cactgcactc ttaagcttcc gccgtctcaa cccctcacag gagcttactg1141 gcaaacatga aaaatcgggg (2) SEQ ID NO: 2619 data: (i) sequence characteristics:

(A) length: 4003 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2619 sequence description: 1 attaaacctc tcgccgagcc cctccgcaga ctctgcgccg gaaagtttca tttgctgtat 61 gccatcctcg agagctgtct aggttaacgt tcgcactctg tgtatataac ctcgacagtc 121 ttggcaccta acgtgctgtg cgtagctgct cctttggttg aatccccagg cccttgttgg 181 721 aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 181 ggcacaaggt ggcaggatgt ctcagtggta cgaacttcag cagcttgact caaaattcct 241 ggagcaggtt caccagcttt atgatgacag ttttcccatg gaaatcagac agtacctggc 301 acagtggtta gaaaagcaag actgggagca cgctgccaat gatgtttcat ttgccaccat 361 ccgttttcat gacctcctgt cacagctgga tgatcaatat agtcgctttt ctttggagaa 421 taacttcttg ctacagcata acataaggaa aagcaagcgt aatcttcagg ataattttca 481 ggaagaccca atccagatgt ctatgatcat ttacagctgt ctgaaggaag aaaggaaaat 541 tctggaaaac gcccagagat ttaatcaggc tcagtcgggg aatattcaga gcacagtgat 601 gttagacaaa cagaaagagc ttgacagtaa agtcagaaat gtgaaggaca aggttatgtg 661 tatagagcat gaaatcaaga gcctggaaga tttacaagat gaatatgact tcaaatgcaa 721 aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 acagctgtta ctcaagaaga tgtatttaat gcttgacaat aagagaaagg aagtagttca 841 caaaataata gagttgctga atgtcactga acttacccag aatgccctga ttaatgatga 901 actagtggag tggaagcgga gacagcagag cgcctgtatt ggggggccgc ccaatgcttg 961 cttggatcag ctgcagaact ggttcactat agttgcggag agtctgcagc aagttcggca1021 gcagcttaaa aagttggagg aattggaaca gaaatacacc tacgaacatg accctatcac1081 aaaaaacaaa caagtgttat gggaccgcac cttcagtctt ttccagcagc tcattcagag1141 ctcgtttgtg gtggaaagac agccctgcat gccaacgcac cctcagaggc cgctggtctt1201 gaagacaggg gtccagttca ctgtgaagtt gagactgttg gtgaaattgc aagagctgaa1261 ttataatttg aaagtcaaag tcttatttga taaagatgtg aatgagagaa atacagtaaa1321 aggatttagg aagttcaaca ttttgggcac gcacacaaaa gtgatgaaca tggaggagtc1381 caccaatggc agtctggcgg ctgaatttcg gcacctgcaa ttgaaagaac agaaaaatgc1441 tggcaccaga acgaatgagg gtcctctcat cgttactgaa gagcttcact cccttagttt1501 tgaaacccaa ttgtgccagc ctggtttggt aattgacctc gagacgacct ctctgcccgt1561 tgtggtgatc tccaacgtca gccagctccc gagcggttgg gcctccatcc tttggtacaa1621catgctggtg gcggaaccca ggaatctgtc cttcttcctg actccaccat gtgcacgatg1681 ggctcagctt tcagaagtgc tgagttggca gttttcttct gtcaccaaaa gaggtctcaa1741 tgtggaccag ctgaacatgt tgggagagaa gcttcttggt cctaacgcca gccccgatgg1801 tctcattccg tggacgaggt tttgtaagga aaatataaat gataaaaatt ttcccttctg1861 gctttggatt gaaagcatcc tagaactcat taaaaaacac ctgctccctc tctggaatga1921 tgggtgcatc atgggcttca tcagcaagga gcgagagcgt gccctgttga aggaccagca1981 gccggggacc ttcctgctgc ggttcagtga gagctcccgg gaaggggcca tcacattcac2041 atgggtggag cggtcccaga acggaggcga acctgacttc catgcggttg aaccctacac2101 gaagaaagaa ctttctgctg ttactttccc tgacatcatt cgcaattaca aagtcatggc2161 tgctgagaat attcctgaga atcccctgaa gtatctgtat ccaaatattg acaaagacca2221 tgcctttgga aagtattact ccaggccaaa ggaagcacca gagccaatgg aacttgatgg2281 ccctaaagga actggatata tcaagactga gttgatttct gtgtctgaag ttcacccttc2341 tagacttcag accacagaca acctgctccc catgtctcct gaggagtttg acgaggtgtc2401 tcggatagtg ggctctgtag aattcgacag tatgatgaac acagtataga gcatgaattt2461 ttttcatctt ctctggcgac agttttcctt ctcatctgtg attccctcct gctactctgt2521 tccttcacat cctgtgtttc tagggaaatg aaagaaaggc cagcaaattc gctgcaacct2581 gttgatagca agtgaatttt tctctaactc agaaacatca gttactctga agggcatcat2641 gcatcttact gaaggtaaaa ttgaaaggca ttctctgaag agtgggtttc acaagtgaaa2701 aacatccaga tacacccaaa gtatcaggac gagaatgagg gtcctttggg aaaggagaag2761 ttaagcaaca tctagcaaat gttatgcata aagtcagtgc ccaactgtta taggttgttg2821 gataaatcag tggttattta gggaactgct tgacgtagga acggtaaatt tctgtgggag2881 aattcttaca tgttttcttt gctttaagtg taactggcag ttttccattg gtttacctgt2941 gaaatagttc aaagccaagt ttatatacaa ttatatcagt cctctttcaa aggtagccat3001 catggatctg gtagggggaa aatgtgtatt ttattacatc tttcacattg gctatttaaa3061 gacaaagaca aattctgttt cttgagaaga gaatattagc tttactgttt gttatggctt3121 aatgacacta gctaatatca atagaaggat gtacatttcc aaattcacaa gttgtgtttg3181 atatccaaag ctgaatacat tctgctttca tcttggtcac atacaattat ttttacagtt3241 ctcccaaggg agttaggcta ttcacaacca ctcattcaaa agttgaaatt aaccatagat3301 gtagataaac tcagaaattt aattcatgtt tcttaaatgg gctactttgt cctttttgtt3361 attagggtgg tatttagtct attagccaca aaattgggaa aggagtagaa aaagcagtaa3421 ctgacaactt gaataataca ccagagataa tatgagaatc agatcatttc aaaactcatt3481 tcctatgtaa ctgcattgag aactgcatat gtttcgctga tatatgtgtt tttcacattt3541 gcgaatggtt ccattctctc tcctgtactt tttccagaca cttttttgag tggatgatgt3601 351 3601 ttcgtgaagt atactgtatt tttacctttt tccttcctta tcactgacac aaaaagtaga3661 3561 3661 ttaagagatg ggtttgacaa ggttcttccc ttttacatac tgctgtctat gtggctgtat3721 cttgtttttc cactactgct accacaacta tattatcatg caaatgctgt attcttcttt3781 ggtggagata aagatttctt gagttttgtt ttaaaattaa agctaaagta tctgtattgc3841 attaaatata atatcgacac agtgctttcc gtggcactgc atacaatctg aggcctcctc3901 tctcagtttt tatatagatg gcgagaacct aagtttcagt tgattttaca attgaaatga3961 ctaaaaaaca aagaagacaa cattaaaaac aatattgttt cta (2) SEQ ID NO: 2620 data: (i) sequence characteristics:

(A) length: 2607 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2620 sequence description: 1 attaaacctc tcgccgagcc cctccgcaga ctctgcgccg gaaagtttca tttgctgtat 61 gccatcctcg agagctgtct aggttaacgt tcgcactctg tgtatataac ctcgacagtc 121 ttggcaccta acgtgctgtg cgtagctgct cctttggttg aatccccagg cccttgttgg 181 721 aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 181 ggcacaaggt ggcaggatgt ctcagtggta cgaacttcag cagcttgact caaaattcct 241 ggagcaggtt caccagcttt atgatgacag ttttcccatg gaaatcagac agtacctggc 301 acagtggtta gaaaagcaag actgggagca cgctgccaat gatgtttcat ttgccaccat 361 ccgttttcat gacctcctgt cacagctgga tgatcaatat agtcgctttt ctttggagaa 421 taacttcttg ctacagcata acataaggaa aagcaagcgt aatcttcagg ataattttca 481 ggaagaccca atccagatgt ctatgatcat ttacagctgt ctgaaggaag aaaggaaaat 541 tctggaaaac gcccagagat ttaatcaggc tcagtcgggg aatattcaga gcacagtgat 601 gttagacaaa cagaaagagc ttgacagtaa agtcagaaat gtgaaggaca aggttatgtg 661 tatagagcat gaaatcaaga gcctggaaga tttacaagat gaatatgact tcaaatgcaa 721aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 acagctgtta ctcaagaaga tgtatttaat gcttgacaat aagagaaagg aagtagttca 841 caaaataata gagttgctga atgtcactga acttacccag aatgccctga ttaatgatga 901 actagtggag tggaagcgga gacagcagag cgcctgtatt ggggggccgc ccaatgcttg 961 cttggatcag ctgcagaact ggttcactat agttgcggag agtctgcagc aagttcggca1021 gcagcttaaa aagttggagg aattggaaca gaaatacacc tacgaacatg accctatcac1081 aaaaaacaaa caagtgttat gggaccgcac cttcagtctt ttccagcagc tcattcagag1141 ctcgtttgtg gtggaaagac agccctgcat gccaacgcac cctcagaggc cgctggtctt1201 gaagacaggg gtccagttca ctgtgaagtt gagactgttg gtgaaattgc aagagctgaa1261 ttataatttg aaagtcaaag tcttatttga taaagatgtg aatgagagaa atacagtaaa1321 aggatttagg aagttcaaca ttttgggcac gcacacaaaa gtgatgaaca tggaggagtc1381 caccaatggc agtctggcgg ctgaatttcg gcacctgcaa ttgaaagaac agaaaaatgc1441 tggcaccaga acgaatgagg gtcctctcat cgttactgaa gagcttcact cccttagttt1501 tgaaacccaa ttgtgccagc ctggtttggt aattgacctc gagacgacct ctctgcccgt1561 tgtggtgatc tccaacgtca gccagctccc gagcggttgg gcctccatcc tttggtacaa1621 catgctggtg gcggaaccca ggaatctgtc cttcttcctg actccaccat gtgcacgatg1681 ggctcagctt tcagaagtgc tgagttggca gttttcttct gtcaccaaaa gaggtctcaa1741 tgtggaccag ctgaacatgt tgggagagaa gcttcttggt cctaacgcca gccccgatgg1801 tctcattccg tggacgaggt tttgtaagga aaatataaat gataaaaatt ttcccttctg1861 gctttggatt gaaagcatcc tagaactcat taaaaaacac ctgctccctc tctggaatga1921 tgggtgcatc atgggcttca tcagcaagga gcgagagcgt gccctgttga aggaccagca1981 gccggggacc ttcctgctgc ggttcagtga gagctcccgg gaaggggcca tcacattcac2041 atgggtggag cggtcccaga acggaggcga acctgacttc catgcggttg aaccctacac2101 gaagaaagaa ctttctgctg ttactttccc tgacatcatt cgcaattaca aagtcatggc2161 tgctgagaat attcctgaga atcccctgaa gtatctgtat ccaaatattg acaaagacca2221 tgcctttgga aagtattact ccaggccaaa ggaagcacca gagccaatgg aacttgatgg2281 ccctaaagga actggatata tcaagactga gttgatttct gtgtctgaag tgtaagtgaa2341 cacagaagag tgacatgttt acaaacctca agccagcctt gctcctggct ggggcctgtt2401 gaagatgctt gtattttact tttccattgt aattgctatc gccatcacag ctgaacttgt2461 tgagatcccc gtgttactgc ctatcagcat tttactactt taaaaaaaaa aaaaaaagcc2521 aaaaaccaaa tttgtattta aggtatataa attttcccaa aactgatacc ctttgaaaaa2581 gtataaataa aatgagcaaa agttgaa (2) SEQ ID NO: 2621 data: (i) sequence characteristics:

(A) length: 97 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2621 sequence description: 1 ttactaagat gattattgtt ttatagcaat tgaaagaaca gaaaaatgct ggcaccagaa 61 cgaatgaggt gagagtggtt tatgttgtga atgggcc (2) SEQ ID NO: 2622 data: (i) sequence characteristics:

(A) length: 199 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2622 sequence description:

1 acgacctctc tgcccgttgt ggtgatctcc aacgtcagcc agctcccgag cggttgggcc 61 tccatccttt ggtacaacat gctggtggtg gcggaaccca gggtatggaa aacacatttg 121 ctttggtccc agggtttaag cagagacccc acgctctcgc tgctgcatct cgctgctgca 181 tctctgaaat agccccaat (2) SEQ ID NO: 2623 data: (i) sequence characteristics:

(A) length: 100 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2623 sequence description: 1 ggtctcaatg tggaccagct gaacatgttg ggagagaagc ttcttggtat atgcatatta 61 acttgttatg tttataaaaa ttgaaattca taaaaatatc (2) SEQ ID NO: 2624 data: (i) sequence characteristics:

(A) length: 150 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi)SEQ ID NO: 2624 sequence description: 1 ctgatcagta gaaaacatgt ttacatcttt gtttgtagtg tatagagcat gaaatcaaga 61 gcctggaaga tttacaagat gaatatgact tcaaatgcaa aaccttgcag aacagaggta 121 agggttcaca actgaagtgg tgcccgttgg (2) SEQ ID NO: 2625 data: (i) sequence characteristics:

(A) length: 7156 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2625 sequence description: 1 attaaacctc tcgccgagcc cctccgcaga ctctgcgccg gaaagtttca tttgctgtat 61 gccatcctcg agagctgtct aggttaacgt tcgcactctg tgtatataac ctcgacagtc 121 ttggcaccta acgtgctgtg cgtagctgct cctttggttg aatccccagg cccttgttgg 181 721 aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 181 ggcacaaggt ggcaggatgt ctcagtggta cgaacttcag cagcttgact caaaattcct 241 ggagcaggtt caccagcttt atgatgacag ttttcccatg gaaatcagac agtacctggc 301 acagtggtta gaaaagcaag actgggagca cgctgccaat gatgtttcat ttgccaccat 361 ccgttttcat gacctcctgt cacagctgga tgatcaatat agtcgctttt ctttggagaa 421 taacttcttg ctacagcata acataaggaa aagcaagcgt aatcttcagg ataattttca 481 ggaagaccca atccagatgt ctatgatcat ttacagctgt ctgaaggaag aaaggaaaat 541 tctggaaaac gcccagagat ttaatcaggc tcagtcgggg aatattcaga gcacagtgat 601 gttagacaaa cagaaagagc ttgacagtaa agtcagaaat gtgaaggaca aggttatgtg 661 tatagagcat gaaatcaaga gcctggaaga tttacaagat gaatatgact tcaaatgcaa 721 aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 acagctgtta ctcaagaaga tgtatttaat gcttgacaat aagagaaagg aagtagttca 841 caaaataata gagttgctga atgtcactga acttacccag aatgccctga ttaatgatga 901 actagtggag tggaagcgga gacagcagag cgcctgtatt ggggggccgc ccaatgcttg 961 cttggatcag ctgcagaact ggttcactat agttgcggag agtctgcagc aagttcggca1021 gcagcttaaa aagttggagg aattggaaca gaaatacacc tacgaacatg accctatcac1081 aaaaaacaaa caagtgttat gggaccgcac cttcagtctt ttccagcagc tcattcagag1141 ctcgtttgtg gtggaaagacagccctgcat gccaacgcac cctcagaggc cgctggtctt1201 gaagacaggg gtccagttca ctgtgaagtt gagactgttg gtgaaattgc aagagctgaa1261 ttataatttg aaagtcaaag tcttatttga taaagatgtg aatgagagaa atacagtaaa1321 aggatttagg aagttcaaca ttttgggcac gcacacaaaa gtgatgaaca tggaggagtc1381 caccaatggc agtctggcgg ctgaatttcg gcacctgcaa ttgaaagaac agaaaaatgc1441 tggcaccaga acgaatgagg gtcctctcat cgttactgaa gagcttcact cccttagttt1501 tgaaacccaa ttgtgccagc ctggtttggt aattgacctc gagacgacct ctctgcccgt1561 tgtggtgatc tccaacgtca gccagctccc gagcggttgg gcctccatcc tttggtacaa1621 catgctggtg gcggaaccca ggaatctgtc cttcttcctg actccaccat gtgcacgatg1681 ggctcagctt tcagaagtgc tgagttggca gttttcttct gtcaccaaaa gaggtctcaa1741 tgtggaccag ctgaacatgt tgggagagaa gcttcttggt cctaacgcca gccccgatgg1801 tctcattccg tggacgaggt tttgtaagga aaatataaat gataaaaatt ttcccttctg1861 gctttggatt gaaagcatcc tagaactcat taaaaaacac ctgctccctc tctggaatga1921 tgggtgcatc atgggcttca tcagcaagga gcgagagcgt gccctgttga aggaccagca1981 gccggggacc ttcctgctgc ggttcagtga gagctcccgg gaaggggcca tcacattcac2041 atgggtggag cggtcccaga acggaggcga acctgacttc catgcggttg aaccctacac2101 gaagaaagaa ctttctgctg ttactttccc tgacatcatt cgcaattaca aagtcatggc2161 tgctgagaat attcctgaga atcccctgaa gtatctgtat ccaaatattg acaaagacca2221 tgcctttgga aagtattact ccaggccaaa ggaagcacca gagccaatgg aacttgatgg2281 ccctaaagga actggatata tcaagactga gttgatttct gtgtctgaag ttcacccttc2341 tagacttcag accacagaca acctgctccc catgtctcct gaggagtttg acgaggtgtc2401 tcggatagtg ggctctgtag aattcgacag tatgatgaac acagtataga gcatgaattt2461 ttttcatctt ctctggcgac agttttcctt ctcatctgtg attccctcct gctactctgt2521 tccttcacat cctgtgtttc tagggaaatg aaagaaaggc cagcaaattc gctgcaacct2581 gttgatagca agtgaatttt tctctaactc agaaacatca gttactctga agggcatcat2641 gcatcttact gaaggtaaaa ttgaaaggca ttctctgaag agtgggtttc acaagtgaaa2701 aacatccaga tacacccaaa gtatcaggac gagaatgagg gtcctttggg aaaggagaag2761 ttaagcaaca tctagcaaat gttatgcata aagtcagtgc ccaactgtta taggttgttg2821 gataaatcag tggttattta gggaactgct tgacgtagga acggtaaatt tctgtgggag2881 aattcttaca tgttttcttt gctttaagtg taactggcag ttttccattg gtttacctgt2941 gaaatagttc aaagccaagt ttatatacaa ttatatcagt cctctttcaa aggtagccat3001 catggatctg gtagggggaa aatgtgtatt ttattacatc tttcacattg gctatttaaa3061 gacaaagaca aattctgttt cttgagaaga gaatattagc tttactgttt gttatggctt3121 aatgacacta gctaatatca atagaaggat gtacatttcc aaattcacaa gttgtgtttg3181 3284 ctcccaaggg agttaggcta ttcacaacca ctcattcaaa agttgaaatt aaccatagat3301 gtagataaac tcagaaattt aattcatgtt tcttaaatgg gctactttgt cctttttgtt3361 attagggtgg tatttagtct attagccaca aaattgggaa aggagtagaa aaagcagtaa3421 ctgacaactt gaataataca ccagagataa tatgagaatc agatcatttc aaaactcatt3481 tcctatgtaa ctgcattgag aactgcatat gtttcgctga tatatgtgtt tttcacattt3541 583601 ttcgtgaagt atactgtatt tttacctttt tccttcctta tcactgacac aaaaagtaga3661 ttaagagatg ggtttgacaa ggttcttccc ttttacatac tgctgtctat gtggctgtat3721 cttgtttttc cactactgct accacaacta tattatcatg caaatgctgt attcttcttt3781 ggtggagata aagatttctt gagttttgtt ttaaaattaa agctaaagta tctgtattgc3841 attaaatata atatcgacac agtgctttcc gtggcactgc atacaatctg aggcctcctc3901 tctcagtttt tatatagatg gcgagaacct aagtttcagt tgattttaca attgaaatga3961 ctaaaaaaca aagaagacaa cattaaaaac aatattgttt cta attaaacctc tcgccgagcc cctccgcaga ctctgcgccg gaaagtttca tttgctgtat gccatcctcg agagctgtct aggttaacgt tcgcactctg tgtatataac ctcgacagtc 121 ttggcaccta acgtgctgtg cgtagctgct cctttggttg aatccccagg cccttgttgg 181 ggcacaaggt ggcaggatgt ctcagtggta cgaacttcag cagcttgact caaaattcct 241 ggagcaggtt caccagcttt atgatgacag ttttcccatg gaaatcagac agtacctggc 301 acagtggtta gaaaagcaag actgggagca cgctgccaat gatgtttcat ttgccaccat 361 ccgttttcat gacctcctgt cacagctgga tgatcaatat agtcgctttt ctttggagaa 421 taacttcttg ctacagcata acataaggaa aagcaagcgt aatcttcagg ataattttca 481 ggaagaccca atccagatgt ctatgatcat ttacagctgt ctgaaggaag aaaggaaaat 541 tctggaaaac gcccagagat ttaatcaggc tcagtcgggg aatattcaga gcacagtgat 601 gttagacaaa cagaaagagc ttgacagtaa agtcagaaat gtgaaggaca aggttatgtg 661 tatagagcat gaaatcaaga gcctggaaga tttacaagat gaatatgact tcaaatgcaa 721 aaccttgcag aacagagaac acgagaccaa tggtgtggca aagagtgatc agaaacaaga 781 acagctgtta ctcaagaaga tgtatttaat gcttgacaat aagagaaagg aagtagttca 841 caaaataata gagttgctga atgtcactga acttacccag aatgccctga ttaatgatga 901 actagtggag tggaagcgga gacagcagag cgcctgtatt ggggggccgc ccaatgcttg 961 cttggatcag ctgcagaact ggttcactat agttgcggag agtctgcagc aagttcggca1021 gcagcttaaa aagttggagg aattggaaca gaaatacacc tacgaacatg accctatcac1081 aaaaaacaaa caagtgttat gggaccgcac cttcagtctt ttccagcagc tcattcagag1141 ctcgtttgtg gtggaaagac agccctgcat gccaacgcac cctcagaggc cgctggtctt1201 gaagacaggg gtccagttca ctgtgaagtt gagactgttg gtgaaattgc aagagctgaa1261 ttataatttg aaagtcaaag tcttatttga taaagatgtg aatgagagaa atacagtaaa1321 aggatttagg aagttcaaca ttttgggcac gcacacaaaa gtgatgaaca tggaggagtc1381 caccaatggc agtctggcgg ctgaatttcg gcacctgcaa ttgaaagaac agaaaaatgc1441 tggcaccaga acgaatgagg gtcctctcat cgttactgaa gagcttcact cccttagttt1501 tgaaacccaa ttgtgccagc ctggtttggt aattgacctc gagacgacct ctctgcccgt1561 tgtggtgatc tccaacgtca gccagctccc gagcggttgg gcctccatcc tttggtacaa1621 catgctggtg gcggaaccca ggaatctgtc cttcttcctg actccaccat gtgcacgatg1681 ggctcagctt tcagaagtgc tgagttggca gttttcttct gtcaccaaaa gaggtctcaa1741 tgtggaccag ctgaacatgt tgggagagaa gcttcttggt cctaacgcca gccccgatgg1801 tctcattccg tggacgaggt tttgtaagga aaatataaat gataaaaatt ttcccttctg1861 gctttggatt gaaagcatcc tagaactcat taaaaaacac ctgctccctc tctggaatga1921 tgggtgcatc atgggcttca tcagcaagga gcgagagcgt gccctgttga aggaccagca1981 gccggggacc ttcctgctgc ggttcagtga gagctcccgg gaaggggcca tcacattcac2041 atgggtggag cggtcccaga acggaggcga acctgacttc catgcggttg aaccctacac2101 gaagaaagaa ctttctgctg ttactttccc tgacatcatt cgcaattaca aagtcatggc2161 tgctgagaat attcctgaga atcccctgaa gtatctgtat ccaaatattg acaaagacca2221 tgcctttgga aagtattact ccaggccaaa ggaagcacca gagccaatgg aacttgatgg2281 ccctaaagga actggatata tcaagactga gttgatttct gtgtctgaag tgtaagtgaa2341 cacagaagag tgacatgttt acaaacctca agccagcctt gctcctggct ggggcctgtt2401 gaagatgctt gtattttact tttccattgt aattgctatc gccatcacag ctgaacttgt2461 tgagatcccc gtgttactgc ctatcagcat tttactactt taaaaaaaaa aaaaaaagcc2521 aaaaaccaaa tttgtattta aggtatataa attttcccaa aactgatacc ctttgaaaaa2581 gtataaataa aatgagcaaa agttgaa 1 ttactaagat gattattgtt ttatagcaat tgaaagaaca gaaaaatgct ggcaccagaa 61 cgaatgaggt gagagtggtt tatgttgtga atgggcc 1 acgacctctc tgcccgttgt ggtgatctcc aacgtcagcc agctcccgag cggttgggcc 61 tccatccttt ggtacaacat gctggtggtg gcggaaccca gggtatggaa aacacatttg 121 ctttggtccc agggtttaag cagagacccc acgctctcgc tgctgcatct cgctgctgca 181 tctctgaaat agccccaat 1 ggtctcaatg tggaccagct gaacatgttg ggagagaagc ttcttggtat atgcatatta 61 acttgttatg tttataaaaa ttgaaattca taaaaatatc 1 ctgatcagta gaaaacatgt ttacatcttt gtttgtagtg tatagagcat gaaatcaaga 61 gcctggaaga tttacaagat gaatatgact tcaaatgcaa aaccttgcag aacagaggta 121 agggttcaca actgaagtgg tgcccgttgg (2) SEQ ID NO: 2626 data: (i) sequence characteristics:

(A) length: 18648 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2626 sequence description: 1 tcaagatcag cctgggcaac atggcgaaac cccgtctcta caataaatac aaaaaaatta 61 tcctggcgga gttatgcacg ttgtagtccc aactacctgg gaggctgagg cgggagaatc 121 acctgagcct gggaggtcga ggctgcagcg agccgagatc ggccgctgca ttccagcctg 181 721 gagggcgcgg ggactgcaac cctaatcagg tacgggccct gagagggtgt gctggggtag 781 181 ggtgacagag cgagaccatg tctcaaaaaa taaaaattaa aaaaaaattg ttttcattac 241 ctcagccctc ctcttcctat cccaaggcgt cgaaattccg gtcccacccc ttcccatgga 301 gcccttggcg tctccaggct cctcaagcta gtttcggttc cgggctcacg cgcgggttct 361 cgaaaatcag ctgtttcagt cttgggctag tccactaatt ggactcctcc cctcgtagaa 421 agtgcctact tgaacttctc caccaatcgc tgaagctgca ggtgtggttt cggctcagct 481 tgtcccgccc tggcggaggg gcggagttgc ggcggcgcca gtgagctcgc agtctgggaa 541 gggcttgact gaatggcagc cagtgtcggg gtggcggctg ggaatggggg ccgctccgga 601 cttccgctgc caactacaag ggggcgggtc cgaggggggt tagccgaagt tgtaggcggg 661gcgcgaggtt ctagtacccg agctcatact agggacggga agtcgcgacc agagccattg 721 gagggcgcgg ggactgcaac cctaatcagg tacgggccct gagagggtgt gctggggtag 781 gggtgggggt gagagtgaga gttcctccga gggaagggcg actggcccag gggttacccc 841 ctggagaggg tagcttcctt ccccagattg aaataggagc tgtcgcctgc tcggtcctcg 901 atcttcttct gtccagccta tctccctaac cctaatgccc ctctcccaaa actgccctgc 961 agcttccgag acccggaatc tggcattgtt atgttggttc ggtatctgac gtttttccct1021 ctgctctgca ttatttttta tcttcaccaa aaaacgatgt tcaaagatag ataaatctaa1081 aaacaaagat agataaatct attacccttg tttcgtaaaa agtataagct actgaaagat1141 gaaacgattg cctaaggtca cacacaaaat tcagttcatt tcagaaaagc ttcttgagtg1201 caaaatatgt gcctaagaat gagagataat gagaaaaaat tgtttcagcc ccttaacctc1261 agtgtttgca atccatttgg ggagaccagg ttttttgttt ttgttttcat atttgaatct1321 ttgctgactt gctcctttaa tatcagacac ttaaatcctc agatgggact catcatattt1381 tttttgagat ggaatcttca ctatgttgct caagcttggt ctgcaactcc tggctcaagc1441 catcctctcg tcttgttggg cctctcgtct tgtgggcctg cacaaagtgc tgggattaca1501 ggcatgagcc attcatgccc tgggcgcacc ttggattgcg atgtgtgtgt gttgtgaagc1561 tttttttttt ggtatcataa aagcaataca gatacatagt tttaaaaatc aagcagctac1621 taaaagagtt aaaatgaaaa tagcccctcc caatccctcc cttgttcctg ctggaggtag1681 aaaggcagct gatgttattc atgttagtag aagactctcc caccccaagc atttctcttt1741 attttgtaat aaaatcatgt gaccttttta gaccacaaat atgcatgaat tctgttctgt1801 taggctcagg ctgcaacaag ataagtttca gtttcctaaa tagacaccag ctggcagtga1861 gcagggaaca gtggggagaa agatgcatgg gacagcctgc ttggtgacag gcaaaaaccg1921 gtttgttgtt cttttagaga cagagtcttg ctttgtcacc caggctggag tgtagtgatg1981 tgatctctgc ttactgcaac cctgcctctg ggtacaagcc attctcctgc ctcagcctct2041 tgagtagctg ggattacagg caacaatttt aagtgaagtg aagtttcagg atctcgagca2101 aagttgtata acctataatc atattcaaga ttcacaggtc ataaacgtgt catattcttg2161 ggattgagcg acccattgca cagcatttag atgtgcttct agaatggagc tcctccttcc2221 tatatggagg gcagtttata tggtgtactt acctgaccac caaaaagatt tggctctaaa2281 aaagcttcag gtggccgggc atggtggttc acccctgtaa tccagcactt tgggaggcag2341 gtgggcagat cacctgaggt cagaagttca gacagctgga catatggtga aacctcatct2401 ctactaaaaa tacaaaaatt agactgggca tggtagtggg cgcctgtaat cccagctagt2461 cgggaggctg aggcaggaga atcccttcaa ctcggacggc agagtttgca gtgaggccga2521 gatcgtgtca ctgcagtcca gcctgggtga cagagcaaga ctccatctca aaaaaagtaa2581 aaaaaaaaaa aagaaaaaaa aaagcttcag agccagcagg gatcatgctg taataaatac2641 ttaacatcaa cactgatctt taaatgcttt agcacaatca aatataaata acaaacacac2701 acataaatgc aaaataaatg aattagggag atagatgaaa taagattgtg gaaatagtaa2761 tgtttgttaa agctggatgg tgatccttgt actattcact ctactctagt gtgtatttga2821 aaattaccat taggctggtt atggtggctc atgcctgtta atcccggcat tttggaaggc2881 tgaggcaggc ggattacttg agctcaggag tttagagtct gcctgggcaa catggcaaaa2941 tcccatctct acaaaaaatt agctggcatg atggcacact cctgtagtcc cagctccttg3001 aggggctgag gcagagaatg gcttgaacct gagaggctaa agctgcagtg agccaagatc3061 atgccactgc actccagcct gggtgaccaa gtgagaccct gtctcaaaaa aaaaaaaaaa3121 aaaaagaaaa gaaaattccc attaaagcac aaaggcccac ttattgaagc tattaaaata3181 caggttgggg ccggctgggc atcgcgtcac gcctgtaatc ccagcacttt ggaaggccga3241 ggtaggcgag tcacgagttc aggagatcga gaccatcctg gctaacacgg tgaaacccca3301 tctctactaa aaatacaaaa aaaaaaatca gccgggcatg gtggcgggag cctatagtcc3361 cagctactcg ggaggctgag gcaggagaat ggcatgagcc cgggaggcgg agcttgcagt3421 gagccaaaat cacaccactg cactccagcc tgggcaacag atcgagactc catctgaaga3481 aaaaaaaaat acaggttggg accacagtgg ctcatgcctg taatcctagt actttgggag3541 593601 aaccccatct ctactaaaaa atatacaaaa attagctggg cgtggtggtg ggtgcctgta3661 atcccagcta ctcaggaggc tgaggcagaa gaatcacaac aaccaggggg atggtggttg3721 caatgagcca agatcatctc cacttcactc cggcccaggc aaaagagtga gagtcatctt3781 aaaaaaaaaa aaaaaaaaaa aaaaaaaata cagattaggc attcctaatc tgaaaaattt3841 ggctccaaaa tgctccagtc gagcatttcc tttgagtgtc atgtgggtgc tcaaaaagtt3901 agatttttgg accattttca gatttcagag ttttggatta gggatgctcg actggtaagt 398661 aatcgagata ttccaaaaat ctggacaaat ctgaaatcca aaatgcttgg aatagcagat4021 actcaactgg tagcactccc tggaagaata tgcaccaaac tgatagcagt ggttaccttc tggtgaggag gggaaagaac caagattagc agtaggatca acatatattt taatgttttc4141 tgtattttta ttacttgtat aatttaaaca ttttaaatta gtaataatga acaatcatga4201 aactatggat gatttagtcc agcaaaatat ccaattggga accctcatcc ttctgcagag4261 cccaaatggc gcagtgggaa atgctgcaga atcttgacag cccctttcag gatcagctgc4321 accagcttta ctcgcacagc ctcctgcctg tggacattcg acagtacttg gctgtctgga4381 ttgaagacca gaactggtga ggccttcagg aagttggggg aatgaaaaag gtggccttcc4441 acttctgggc ccccgggatc ctggaatcat taatggcagg aaggggttgg aaagcctcag4501 gactacagta acactgcaga gacactaata cttcttattc ctggtcccag gcaggaagct4561 gcacttggga gtgatgattc caaggctacc atgctattct tccacttctt ggatcagctg4621 aactatgagt gtggccgttg cagccaggac ccagagtcct tgttgctgca gcacaatttg4681 cggaaattct gccgggacat tcaggtactt ggaacggttg ggagtgatgg ggtagcactg4741 ggagcagagc atagaggagt aaggtttgga gaatagaata gtacctggag gtggcaaggg4801 agacgggaac aaatgtgggg aaaggaggac agagtctgga cttggggaat cactagcaga4861 gagaagggtt gcatatacgt gacactgttg ggaggatgct atggtgaaaa gacaaagggc4921 taagaacccc gaaggaggag gaaatactgt ggacattggt ggggagggtc tagggcaata4981 ggtcattgag agtggttgaa ttggatcaat cctttctgtt tacctttctg ttagcccttt5041 tcccaggatc ctacccagtt ggctgagatg atctttaacc tccttctgga agaaaaaaga5101 attttgatcc aggctcagag ggcccaattg gtgaggacaa ttcagtggta atgttggaaa5161 51 5161 ctcctgaagt agagaggaac catggaaagg actcagggag ttgtctcaga acaggatccc5221 cccgacatcc tgtggtataa tttcaggcct gaacttaagg catgaaaggc cagagttaaa5281 829 5281 acgtgctcag agcctctttt ttcaggaaca aggagagcca gttctcgaaa cacctgtgga5341 gagccagcaa catgagattg aatcccggat cctggattta agggctatga tggaggttag5401 tagatgtggt aggagttagg gttgacagtg ttcagcctaa cacctccctg agaagcagcc5461 tcatcggggt cctctcccct ctgcagaagc tggtaaaatc catcagccaa ctgaaagacc5521 agcaggatgt cttctgcttc cgatataaga tccaggccaa aggtaggaag cacattgagg5581 ggctggagaa agataagtgc ctgctgagaa gccggagctg gaagtgaaca ggagaaagct5641 ccgatgagca gtagtcactg tcagacacac cccactgact acagtcctgc tgccgtgcaa5701 agctggaatc gtgctttgtg gaggctgagc tggaggtgac agctgagaga cagtaaattg5761 ttgaggaaat gcatggaaaa ctaacagtgt tttatttgag ggggtgtctg gtccaagatg5821 accacttcag aatttgcctg gagggtccca caggtgcctg tgctttgctt ggtttccctt5881 tcttcctccg ccacaaaatt cctccttcct gactctgact gagaccccag tcaggaagga5941 gaggaaagaa cccctggact gactcctgtt cccaccatcc agggaagaca ccctctctgg6001 acccccatca gaccaaagag cagaagattc tgcaggaaac tctcaatgaa ctggacaaaa6061 ggagaaaggt gggaggcagc agaacagaac atgtgggcaa caaggacctg aaaaaatgag6121 ggatgttggg aaccctggta atctagcgct ggcttctttc tttcttcatc cccagttggg6181 5731 6241 tggatgcctc caaagcactg ctaggccgat taactaccct aatcgagcta ctgctgccaa6301 agttggagga gtggaaggcc cagcagcaaa aagcctgcat cagagctccc attgaccacg6361 ggttggaaca gctggagaca tggtgagagg taccacccca accctcgtcc tcgccatgcg6421 ctgtgatttg taagttgcag tgccctgcat atagcaagag atactgttct ctatttgtct ctgctcccca gaatagagcc ctgctccctg cctgactgca gctctattct gcctcctcag6541 666601 66 ccacaatctg gttttgcttc ttttttttaa tcacccagaa atatatatat atgtattttt6661 826721 tacctattac ctagcttatt aaacaaaaat ggaatcatat tgtccatact attttgaaat6781 ccatggggtt ttttttaagc ttaacagtat tttatatata tatatatata tatatatata6841 tatatatata tatatatata tatatttttt tttttttttt tttttttttt ttttgagacg6901 gagtctctct ctgttccctg gctggcggag cggagtcggc acgatctcag ctcactgcaa6961 cttccaactc ccacggttca agccaattct cctgtctcag cctcccgagc ctgggattac7021 caggcacaca ccagcctggc tagttttttt gattttttag tagagacgat gtttctccat7081 gttggccagg ctggtctcaa actcctgact tcaggtgatc cacccaactt gggctcccaa7141 agtgctggga ttacaggcgt gacgaccatg cccggccaac agtatattat atttatccat7201 gttatttctt atgtccacac aacagtcccc tatatggtgg taacataatt taattaatga7261 actcctattt tcagctattt aggttatttt caatttcttg ttaccttttg ccaggaaacg7321 tatattttat ggtaattata ttgtgttgta gaaaaatcac tagtctagtc caacttgctt7381 gaaaaatagc tactttttaa ctattttctc atttaaaaat ttattataat ttagtctttt7441 agaaatatac caggccaggc atggcgtctc atgcctgtta tcctagtact ttggaaggct7501 gaggacggag gatcacttca gtcttggggt ttgagaccag cccgggaaac ataacaagac7561 cccatctcta caaaaaaaaa aaattgtttt taattaggca tgtccgacac agtggctcac7621 acatgtggcc agcactgtgg gaaggccaag gtgggtggat cacttgaggg tcaggagttc7681 aagaccagcc tggccaatgt ggtgaaaccc catctctact aaaaatacaa aaatttgcca7741 ggtgtggtgg cgcatgcctg tattcccagc tactcaggag gctaaggcag gaaatcactt7801 gaactcggag gcagaggttg cagtgagctg tgacaatgcc actgtactcc agcctgggtg7861 acagagcgag ctccgtctca aaaaaaaaaa aaaaagatta ggcatggtgg cacacgcctg7921 tagaccctag ctactcagga ggctgaggtg ggaggattgc ttgagcccag gtgttggagg7981 ctgcagtgag ccatgattat accactgtag tccagcctgg acaacagaac gagaccctgt8041 ctctaaaagt atatatgtac acataccata atacccagct actgaggagg ctgaggcaga8101 aagagtgctt gagtccagga gtttgatgtc agcctgagca atatagcaag accctcacct 8461 8253 8221 taccacaatt gctcaggtag attattgaaa aacaggcata tagtacttat ggtacaggac8281 cagcatgcat gcatgcatgc attgattgat tgattgattg attgattgag acagggtctc8341 tctctgtctc ccaggctgga gtgcctggcc ttaagtgatc tgcccacctt tgcttcccaa 8458 agtgctgaga ttacaggtgt gagccaccat gtcagctggc gaggcttttt aaaagatagt tccaagtgtt acagctcttt taggatttgt ctagcaggct ttcaggtttt tgccagaaac8521 cacccccacc cccaccaaaa aaaaaaaaaa aaaaaagata tgtacaagtt cccagatagt8581 gttcccaact gaatctattt ctcatgtgta gtgtatggtt gttttcctgt caccacattg8641 ctgattatta ttatttttaa ttatagagac agtaaagtac agtagttaaa aatgtgagtt8701 ggggctgggt gcagtggctc acacctgtaa tcccagcact ttgggaggcc aaggtgggcg8761 gatcacctga ggtcaggagt tcaagaccag cttggccaac atggcaaaac cccgtctcga8821 ctaaaaatat atatatataa gttagccggg cgtggtggca acattacctg taatcccagc8881 tactcgggag gccaacaggc aggagaatct cttgaatcca ggaggtggag gttgcagtga8941 gccagatcac accattgcac tccagcctgg atgacaagag agtgagactg tctaaaaaaa9001 aaaaacaaag tgtgagttgt acaatgagac tgcctgggat cacatacaag cttcatccct9061 tactagttgt attgacccta aagcaagtca ctaacctttc tgtgccctcc agttttatca 9121 tctgtaatgt ggggaaaata atagtacctg cctcagaggg ttgttttgag gattaaatgc 9181 9125 9181 attaatatgt ggaaagggct taatataagt tgtacatagc atatgaaaac tgttatgtta 9241 aatctattag cagttttata tgtgaaaata gctttgattt tcatttcttg gattatgaat 9301 catgttgaat aatcctttat atgcttcctg gattcttttt ttttcttccc cccagtcagt 9361 ttctgactct tctcatattt atagagagat cttggaacct ggatggggga atccaggaaa 9421 ctcatggatt ccttcttcct gaattttatc acccaggttc acagctggag caaagctgtt 9481 gtttcacctg aggcagctgc tgaaggagct gaagggactg agttgcctgg ttagctatca 9541 ggatgaccct ctgaccaaag gggtggacct acgcaacgcc caggtcacag agttgctaca 9601 gcgtctgctc cacaggtcta gaggccaggc aggaaccctg ggggaaagaa ggaacaaggg 9661 aagccattct tacacatact gagctatata ttctctccac acctctctct cctcgagcct 9721 ttgtggtaga aacccagccc tgcatgcccc aaactcccca tcgacccctc atcctcaaga 9781 ctggcagcaa gttcaccgtc cgaacaaggt tggcattcca gaactcattc ccacttcctt 9841 tttccaaccc tgccactgtg tattttctgg ctttacagct actgcccact cttggctttt 9901 tcagtctttc ctgaatctcc ctacctcgtt gataccccat cgtcctcttt ttcaaacacc 9961 tagcctatac aaaagccgac tccgaccaca tttccctata ccccttgact tccccaggct10021 gctggtgaga ctccaggaag gcaatgagtc actgactgtg gaagtctcca ttgacaggta10081 101 aattggagca ggtgaagggt ggccaggaca cgggctgctg gggtggagga gatactcact10141 cttcacaaca gggccctagg gctatatcct tcctccttcc aatcctacct cacagaaatt10201 ataattcatt tcttttgttg aacacttact ttgtgacatg cagcatgtca gctactcatt10261 taattgtcac accaacccca tgaataaact attaccagtg cactgtacaa acaaagatac10321 aggcttagag agactgatta catctcttct caaggccaca tagctagtga gctcaagtcg10381 ggtttgaacc gaggtctgtc tgatcccaaa gacgaaactc ctaacttcca tactcttttg10441 cccaatgatt ttttttaaat ttatttcttt tcaggaatcc tcctcaatta caagggtagg10501 tgcttgacaa ggacactgca aacatctgta cagtgtatga cctgcagaac cgggggattt10561 gggaaatgga caaagggaga tggcgagatc tgaaatggaa gtggaacttc agtttttttt10621 ttttctgctg agtttttaca ataattccat tccttgtctc catgtatctt cctcctggaa10681 cagcttccgg aagttcaaca ttctgacttc aaaccagaaa actttgaccc ccgagaaggg10741 gcagagtcag ggtttgattt gggactttgg ttacctggta agaatagttt gtgacctatg10801 1082 10861 gcagtggtgc catcttggct cacaggaacc tccgccctcc ccggttcaag caattcttct10921 gtctcagcct cctgagtacg tagagctata ggcagcacac caccatgccc ggctaatttt10981 tgtattttta gtagagatag ggtttcacca tattggtcgg gctggtctcg aactcctgac11041 ctcaggtgat ccgacccgcc tcagcctccc aaagtgctgg gatcacaggc atgagccacc11101 atagctggcc tgcttttagt ccaaaggaac aggggttggg ggaagttccc agggcttgag111 aggtcttgaa gccaaacagg ggttccaggg agactagggt gcccactctg gcattttctc11221 tccttccctt caattcacag actctggtgg agcaacgttc aggtggttca ggaaagggca11281 gcaataaggt gagatctgga cagaggactc gaggcagggg gagcttgcca aagagccttc11341 tgatgactat gtctttgcct gtcccagagg ggccactagg tgtgacagag gaactgcaca11401 tcatcagctt cacggtcaaa tatacctacc agggtctgaa gcaggagctg aaagtgagtg11461 aaaatggagg gcaaggagag agaaagcagc tttggaagaa ggcataagaa ggggataaac11521 agaagcctct tggggagggt tagcactcct ttcctctaac aaatacctgc agctagaaac11581 atcacatccc tctctgtgac tcctgtcttc tccccacaca cggacaccct ccctgtggtg11641 attatttcca acatgaacca gctctcaatt gcctgggctt cagttctctg gttcaatttg11701 ctcagcccaa accttcaggt aggggagtgg ggccgacagg tcccggcgcg agagcagggg11761 tgtggaagct tggtgtgata ggttgcttct gagccagcct acactgctcc cacccctgca11821 gaaccagcag ttcttctcca acccccccaa ggccccctgg agcttgctgg gccctgctct11881 cagttggcag ttctcctcct atgttggccg aggcctcaac tcagaccagc tgagcatgct11941 gagaaacaag ctgttcggta cagatttcct tttctctcag cctttcccca gccttagtct12001 tttctgtccc tctgtcctat ctatcccagg acccctggct tccctcacat atctgtggct12061 atctgtccca cagggcagaa ctgtaggact gaggatccat tattgtcctg ggctgacttc12121 actaaggtaa ctccctgaat cctgtggagc tgctggatct agccccacat tccaaatact12181 ggccttccca cgtgccctcc ttccctacac cagaggcaac tcctcagctt ttgctacctt12241 12301 aattctggag ttggtacatg accacctgaa ggatctctgg aatgatgggt aaggccttgg12361 8461 12453 12421 gtggcaagca gggagagaga gcaaagcacg gtgcaggcca cgtctcctca catttgttaa 8681 gaataataag gccgggtgtg gtggctcaca cctgtaatcc cagcactttg ggaggccgag12541 1267 12658 12661 ctactcagga ggctgaggca ggaaaatggc gtgaacctgg gagatggagc ttgcagtgag12721 ccgagattgc gtcactgccc tccagccttg gggtgacgta gcaagactcc gtctcaaaaa12781 aaaaaaaaaa aaacaaccaa taatagccat aaacagtgtt tttgtgaagc actcctacat12841 tccagagctt gatgggtgct cttcattaat tctctcatct catccttaca accatgctga12901 gtggtgggtt ttgccagctt catttcatgt gaggaaactg agtttcagag aagttaaaga12961 acttacccaa gggacacagt tgatattcaa atccaggcct atgtgactcc aagcccatgc13021 tctttccacc acactgccta ccaacttgtg tagcatttgg cttttaaaag tgctattcat13081 gaccaggcac gatggctcac gccttgtaat cccagcattt tgggaggccg aggtgggtgg13141 atcacctgag gtcaggagtt tgagaccagc ctggccaaca tggcgaaacc ccatctctat13201 taaaaataca aaaattagcc gggtgtggtg gtgggcgcct gtaatcccag ctactcagga13261 ggctgaggag gagaatcgct tgaatttagg agagaaggtt acagtgagcc aagatcgtgc13321 cattgcactc cagcctgggt gacagagcaa gactctgtct caaaacaaaa ccaaaaaaaa13381 gtgctatttg tggccaggcg tggttgctca tgcctgtaat cctagcattt ttggggaggc13441 tgaggagtac agatcacttg agcccaggag ttcaaaacta ccctgggcca cgtggtgaaa13501 ccccaaaccc cgtctctacg aaaaatacaa aagttagcca ggatgggtgg tgtgcacctg13561 tggtcccagc tactctggag gctgagaggt ggggaagatt gcttgagccc gggaggtcga13621 ggtggcagtg agctgtgatc atgccactat tctccagcct gggtgacaga atacaccctg13681 tctccctgtc tcccagaaaa aaaaaaaagt gctgttcatc tgtgtgatct cactgaatct13741 tcgtacttca aaccctcgga aggtggctat tgtcagcaaa gtgaagtgac ttgtaaaaga13801 taaaaaaaag ctaagtggca gggcttggtc caaagcctgg attccaaacc tgggctgttt13861 ctccatacaa ggggagcagg gaggcagggg cctggggggg cagggtgttg ggcggtgtca13921 cacgtgacac actgtgctcc agacgcatca tgggctttgt gagtcggagc caggagcgcc13981 ggctgctgaa gaagaccatg tctggcacct ttctactgcg cttcagtgaa tcgtcagaag14041 140 14041 ggggcattac ctgctcctgg gtggagcacc aggatgatgg tagctgctct gccctgccat14101 tcccacagcc tctcctttct gcctggctct cctctggccc ctctgcctgc cttgcttcgc14161 tggctctgaa ctgaatgctc agtggtttgg gactgggcag ccagagagtc agagagctcc14221 aaggcccggc ctcttccctc aagcccgcct gttcctgcat tcactctcca gacaaggtgc14281 tcatctactc tgtgcaaccg tacacgaagg aggtgctgca gtcactcccg ctgactgaaa14341 tcatccgcca ttaccagttg ctcactgagg agaatatacc tgaaaaccca ctgcgcttcc14401 14484 14461 atcgttgaca tacttcattg ctagattgca gagatctacc agacatccat agatcccact14521 ccttccttta aagcatggga aaactgatat ctagaggaat taagggattc gtccatggga 4681 tactgctggt tactatgggg atgagactgc caggaccatc tgcactaggg gaaaacctca14641 14748 tccaggaacg gaggaaatac ctgaaacaca ggctcattgt ggtctctaat agagtgagat14761 atgaactgtt cattcatcct ccctaatcct tattggctct gcttcagtga atcgtcaaaa14821 gggggcatta ccttctcctg ggtggagcac caggatgatg gtcagctgct ctgccctgcc14881 14941 5941 cttccctccc tcctagcccc actctagttt tttctggttc tagtctctcc tatctcatat15001 ttttctgctg ccatccttag gttgtctcca caggggtttc tggataataa tgatcataat15061 cactggtgtt aaggggtacc tacttgatgc aagcatggag cttttttttt ttccagacag15121 1512 15181 15241 ttttttgtag agatggggtc ttaccatgtt gacgcatcag gctgttctga actcctggac 15353 15301 tcaagcaatc cacccacctt ggcctcccaa aagtcaggga ttacaggcgt gcgaccacac 8661 cccgcatata tatatttttt tttttttttt tttttttttt tttttgagac agggtctctg15421 ttatccaggc tggagttgca gtggataata tgactacgag ccttgaccta ggggttgaag caatgctcct gcctcagcca ccaagtgctg agactacagg cacacgccaa tctacactca15541 atcacactca gctaattttt taaatttttt gtagggatgg ggtatcactg tgtttgccca15601 ggctggtctt gaactcctgg cctcaagcag tctcctgcct tggcctccca aattgccggg attgtaggaa tgagccatgg cacttggctg ggggatagaa tttttttttt tttttttttt15721 tttttttttt ttgagacagt ctcactctca ttgcccgggc tggagtgcag tggtgcaatt15781 15841 gtagctggga ttacaggcga gcgccaccca tgcctggtta atttttgttt tttttttgag15901 acagagtctc gccctgttgc ccaggctgga gtgcagtggc acgatctcag ctcactgcaa15961 cctctgcctc ccaggctcaa gcaattctcc tgcctcagcc tcctgagtac tgggactaca16021 agcgcgcaca accaccacac ctggtaattt ttgtattttt agtagagaca gggttttacc16081 16141 aagtgcaggg attacaggcg tgagcctctg cacccggcct aacttttgta tttttagtag16201 aaacagggtt tcaccatgtt ggccaggctg gtcatgagct cctggcctca agtgatctgc16261 16324 16321 ttatgcgcca ggcactaggc aaatggtttg catttatttt ctcattttat tgaatctaca16381 aaatagtcct gtgaagtaaa cactgttact gttttcagct aaggaactgg atttagagta16441 gtcaagtttt gtacctaagg tacgtggcta atgatacagg tctgttagat tccgtagccc16501 tgattttaac caccctactg cctctcaaga attactaggt attgttctca tttatagatg165 ataaatctga ggctcagaaa agttaggcca cttgcctaag gtcccccagc caggattcaa16621 actccaggag gcctgattcc aaacccatgc tctttagccc tccgccctac tgccttctta 8481 16753 16741 ttgtctgtct ttgggtatcc aggcaggtgg atgaactgca acaaccgctg gagcttaagc cagagccaga gctggagtca ttagagctgg aactagggct ggtgccagag ccagagctca16861 gcctggactt agagccactg ctgaaggcag ggctggatct ggggccagag ctagagtctg169 tgctggagtc cactctggag cctgtgatag agcccacact atgcatggta tcacaaacag16981 tgccagagcc agaccaagga cctgtatcac agccagtgcc agagccagat ttgccctgtg17041 atctgagaca tttgaacact gagccaatgg aaagtaagtg atgagatgga gtggcacaca 1713501 17161 attggagaga ggtccatctg tgattccttt ttttaggaat tacacatgcc ttcccccacc17221 tccctgctct ttcatcccac aagttcccac tcaggctctt cccaggcctt tcctgccatc17281 17384 17341 ctctggatta cctagtcttc agaaactgtg taaagattga agaaatcatg ccgaatggtg17401 acccactgtt ggctggccag aacaccgtgg atgaggttta cgtctcccgc cccagccact17461 4617521 ttcatatctc tttgcccttc ctactcctca tagcatgata ttgttctcca aggatgggaa17581 tcaggcatgt gtcccttcca agctgtgtta actgttcaaa ctcaggcctg tgtgactcca17641 ttggggtgag aggtgaaagc ataacatggg tacagagggg acaacaatga atcagaacag17701 atgctgagcc ataggtctaa ataggatcct ggaggctgcc tgctgtgctg ggaggtatag17761 gggtcctggg ggcaggccag ggcagttgac aggtacttgg agggctcagg gcagtggctt17821 ctttccagta tggaaggatt tcaacatttt aatagttggt taggctaaac tggtgcatac17881 tggcattggc cttggtgggg agcacagaca caggatagga ctccatttct ttcttccatt17941 ccttcatgtc taggataact tgctttcttc tttcctttac tcctggctca agccctgaat18001 ttcttctttt cctgcagggg ttgagagctt tctgccttag cctaccatgt gaaactctac18061 cctgaagaaa gggatggata ggaagtagac ctctttttct taccagtctc ctcccctact18121 ctgcccccta agctggctgt acctgttcct cccccataaa atgatcctgc caatctaatg18181 tgagtgtgaa gtttgcacac tagtttatgc tacctagtct ccactttctc aatgcttagg18241 agacagatca ctcctggagg ctggggatgg taggattgct ggggattttt ttttttttaa18301 agagggtctc actctgttgc ccaggctaga gtgcaatggt gcaatcacag ctcactgcag18361 cctcaacctc ctgggttcaa gcaatcctcc tacctcagcc tcctgggtag ctagcaccat18421 ggcatcgcca ccatgcccta tttttttttt ttaaagacag ggtcttgcta tattgcccag18481 gctggtcttg aactgggctc aagtgatcct cacgccttgc ctcccaaagt gctgggatta18541 taggcatgag ccactgtgct tggccaggat tttttttttt ttttttttga gatggagttt18601 ctctcttgtt gtccaggctg gagtgcaatg gtgtgatccg gggaattc (2) SEQ ID NO: 2627 data: (i) sequence characteristics:

(A) length: 2787 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2627 sequence description: 1 cagctggaat tcggggcggc ggcgcagact gggaggggga gccgggggtt ccgacgtcgc 61 agccgaggga acaagcccca accggatcct ggacaggcac cccggcttgg cgctgtctct 121 ccccctcggc tcggagaggc ccttcggcct gagggagcct cgccgcccgt ccccggcaca 181 721 tctccaggat gactttgatt tcaactataa aaccctcaag agtcaaggag acatgcaaga 781 181cgcgcagccc cggcctctcg gcctctgccg gagaaacagg atggcccaat ggaatcagct 241 acagcagctt gacacacggt acctggagca gctccatcag ctctacagtg acagcttccc 301 aatggagctg cggcagtttc tggccccttg gattgagagt caagattggg catatgcggc 361 cagcaaagaa tcacatgcca ctttggtgtt tcataatctc ctgggagaga ttgaccagca 421 gtatagccgc ttcctgcaag agtcgaatgt tctctatcag cacaatctac gaagaatcaa 481 gcagtttctt cagagcaggt atcttgagaa gccaatggag attgcccgga ttgtggcccg 541 gtgcctgtgg gaagaatcac gccttctaca gactgcagcc actgcggccc agcaaggggg 601 ccaggccaac caccccacag cagccgtggt gacggagaag cagcagatgc tggagcagca 661 ccttcaggat gtccggaaga gagtgcagga tctagaacag aaaatgaaag tggtagagaa 721 tctccaggat gactttgatt tcaactataa aaccctcaag agtcaaggag acatgcaaga 781 tctgaatgga aacaaccagt cagtgaccag gcagaagatg cagcagctgg aacagatgct 841 cactgcgctg gaccagatgc ggagaagcat cgtgagtgag ctggcggggc ttttgtcagc 901 gatggagtac gtgcagaaaa ctctcacgga cgaggagctg gctgactgga agaggcggca 961 acagattgcc tgcattggag gcccgcccaa catctgccta gatcggctag aaaactggat1021 aacgtcatta gcagaatctc aacttcagac ccgtcaacaa attaagaaac tggaggagtt1081 gcaccaaaaa gtttcctaca aaggggaccc cattgtacag caccggccga tgctggagga1141 gaggatcgtg gagctgttca gaaacttaat gaaaagtgcc tttgtggtgg agcggcagcc1201 ctgcatgccc atgcatcctg accggcccct cgtcatcaag accggcgtcc agttcactac1261 taaagtcagg ttgctggtca agttccctga gttgaattat cagcttaaaa ttaaagtgtg1321 cattgacaaa gactctgggg acgttgcagc tctcagagga tcccggaaat ttaacattct1381 gggcacaaac acaaaagtga tgaacatgga agaatccaac aacggcagcc tctctgcaga1441 attcaaacac ttgaccctga gggagcagag atgtgggaat gggggccgag ccaattgtga1501 tgcttccctg attgtgactg aggagctgca cctgatcacc tttgagaccg aggtgtatca1561 ccaaggtctc aagattgacc tagagaccca ctccttgtca gttgtggtga tctccaacat1621 ctgtcagatg ccaaatgcct gggcgtccat cctgtggtac aacatgctga ccaacaatcc1681 caagaatgtg aacttcttca ctaagccgcc aattggaacc tgggaccaag tggccgaggt1741 gctcagctgg cagttctcgt ccaccaccaa gcgggggctg agcatcgagc agctgacaac1801 gctggctgag aagctcctag ggcctggtgt gaactactca gggtgtcaga tcacatgggc1861 taacttctgc aaagaaaaca tggctggcaa gggcttctcc tactgggtct ggctagacaa1921 tatcatcgac cttgtgaaaa agtatatctt ggccctttgg aatgaagggt acatcatggg1981 tttcatcagc aaggagcggg agcgggccat cttgagcact aagcccccag gcaccttcct2041 gctgcgcttc agtgaaagca gcaaagaagg aggcgtcact ttcacttggg tggagaagga2101 catcagcggt aagacccaga tccagtccgt ggaaccatac acaaagcagc agctgaacaa2161 catgtcattt gctgaaatca tcatgggcta taagatcatg gatgctacca atatcctgtt2221 gtctccactt gtctatctct atcctgacat tcccaaggag gaggcattcg ggaagtattg2281 tcggccagag agccaggagc atcctgaagc tgacccaggt agcgctgccc catacctgaa2341 gaccaagttt atctgtgtga caccaacgac ctgcagcaat accattgacc tgccgatgtc2401 cccccgcgct ttagattcat tgatgcagtt tggaaataat ggtgaaggtg ctgaaccctc2461 agcaggaggg cagtttgagt ccctcacctt tgacatggag ttgacctcgg agtgcgctac2521 ctcccccatg tgaggagctg agaacggaag ctgcagaaag atacgactga ggcgcctacc2581 tgcattctgc cacccctcac acagccaaac cccagatcat ctgaaactac taactttgtg2641 gttccagatt ttttttaatc tcctacttct gctatctttg agcaatctgg gcacttttaa2701 aaatagagaa atgagtgaat gtgggtgatc tgcttttatc taaatgcaaa taaggatgtg2761 27 2761 ttctctgaga cccatgatca ggggatg (2) SEQ ID NO: 2628 data: (i) sequence characteristics:

(A) length: 219 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2628 sequence description: 1 cgacagcgac cagatcaagg aggaactgcc ggagcccttt gagcatcttc tgcagagaat 61 cgcccggaga cccaagcctc agcagttctt tggattaatg ggcaaacggg atgctggaca 121 tggccagatc tctcacaaaa gacataaaac agattccttt gttggactaa tgggcaaaag 181 agctttaaat tctgtggctt atgaaaggag tgcaatgca (2) SEQ ID NO: 2629 data: (i) sequence characteristics:

(A) length: 1021 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2629 sequence description: 1 gagagtgcgg agcgaccacg tgcgctcgga ggaaccagag aaactcagca ccccgcggga 61 ctgtccgtcg caaaatccaa catgaaaatc ctcgtggcct tggcagtctt ttttcttgtc 121 tccactcagc tgtttgcaga agaaatagga gccaatgatg atctgaatta ctggtccgac 181 tggtacgaca gcgaccagat caaggaggaa ctgccggagc cctttgagca tcttctgcag 241 agaatcgccc ggagacccaa gcctcagcag ttctttggat taatgggcaa acgggatgct 301 gattcctcaa ttgaaaaaca agtggccctg ttaaaggctc tttatggaca tggccagatc 361 tctcacaaaa gacataaaac agattccttt gttggactaa tgggcaaaag agctttaaat 421 tctgtggctt atgaaaggag tgcaatgcag aattatgaaa gaagacgtta ataaactacc 481 taacattatt tattcagctt catttgtgtc aatgggcaat gacaggtaaa ttaagacatg 541 cactatgagg aataattatt tatttaataa caattgttta gggttgaaaa ttcaaaaagt 601 gtttattttt catattgtgc caatatgtat tgtaaacatg tgttttaatt ccaatatgat 661 gactccctta aaatagaaat aagtggttat ttctcaacaa agcacagtgt taaatgaaat 721 tgtaaaacct gtcaatgata cagtccctaa agaaaaaaaa tcattgcttt gaagcagttg 781 tgtcagctac tgcggaaaag gaaggaaact cctgacagtc ttgtgctttt cctatttgtt 841 ttcatggtga aaatgtactg agattttggt attacactgt atttgtatct ctgaagcatg 901 tttcatgttt tgtgactata tagagatgtt tttaaaagtt tcaatgtgat tctaatgtct 961 tcatttcatt gtatgatgtg ttgtgatagc taacatttta aataaaagaa aaaatatctt1021 g (2) SEQ ID NO: 2630 data: (i) sequence characteristics:

(A) length: 1102 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2630 sequence description: 1 gcgccgcaag gcactgagca ggcgaaagag cgcgctcgga cctccttccc ggcggcagct 61 accgagagtg cggagcgacc agcgtgcgct cggaggaacc agagaaactc agcaccccgc 121 gggactgtcc gtcgcaaaat ccaacatgaa aatcctcgtg gccttggcag tcttttttct 181 721 tgatgactcc cttaaaatag aaataagtgg ttatttctca acaaagcaca gtgttaaatg 781 181 tgtctccact cagctgtttg cagaagaaat aggagccaat gatgatctga attactggtc 241 cgactggtac gacagcgacc agatcaagga ggaactgccg gagccctttg agcatcttct 301 gcagagaatc gcccggagac ccaagcctca gcagttcttt ggattaatgg gcaaacggga 361 tgctgattcc tcaattgaaa aacaagtggc cctgttaaag gctctttatggacatggcca 421 gatctctcac aaaagacata aaacagattc ctttgttgga ctaatgggca aaagagcttt 481 aaattctgtg gcttatgaaa ggagtgcaat gcagaattat gaaagaagac gttaataaac 541 tacctaacat tatttattca gcttcatttg tgtcaatggg caatgacagg taaattaaga 601 catgcactat gaggaataat tatttattta ataacaattg tttggggttg aaaattcaaa 661 aagtgtttat ttttcatatt gtgccaatat gtattgtaaa catgtgtttt aattccaata 721 tgatgactcc cttaaaatag aaataagtgg ttatttctca acaaagcaca gtgttaaatg 781 aaattgtaaa acctgtcaat gatacagtcc ctaaagaaaa aaaatcattg ctttgaagca 841 gttgtgtcag ctactgcgga aaaggaagga aactcctgac agtcttgtgc ttttcctatt 901 tgttttcatg gtgaaaatgt actgagattt tggtattaca ctgtatttgt atctctgaag 961 catgtttcat gttttgtgac tatatagaga tgtttttaaa agtttcaatg tgattctaat1021 gtcttcattt cattgtatga tgtgttgtga tagctaacat tttaaataaa agaaaaaata1081 tcttgaaaaa aaaaaaaaaa aa (2) SEQ ID NO: 2631 for data: (i) sequence characteristics:

(A) length: 2342 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2631 sequence description: 1 cgacagcgac cagatcaagg aggaactgcc ggagcccttt gagcatcttc tgcagagaat 61 cgcccggaga cccaagcctc agcagttctt tggattaatg ggcaaacggg atgctggaca 121 tggccagatc tctcacaaaa gacataaaac agattccttt gttggactaa tgggcaaaag 181 agctttaaat tctgtggctt atgaaaggag tgcaatgca 1 gagagtgcgg agcgaccacg tgcgctcgga ggaaccagag aaactcagca ccccgcggga 61 ctgtccgtcg caaaatccaa catgaaaatc ctcgtggcct tggcagtctt ttttcttgtc 121 tccactcagc tgtttgcaga agaaatagga gccaatgatg atctgaatta ctggtccgac 181 tggtacgaca gcgaccagat caaggaggaa ctgccggagc cctttgagca tcttctgcag 241 agaatcgccc ggagacccaa gcctcagcag ttctttggat taatgggcaa acgggatgct 301 gattcctcaa ttgaaaaaca agtggccctg ttaaaggctc tttatggaca tggccagatc 361 tctcacaaaa gacataaaac agattccttt gttggactaa tgggcaaaag agctttaaat 421 tctgtggctt atgaaaggag tgcaatgcag aattatgaaa gaagacgtta ataaactacc 481 taacattatt tattcagctt catttgtgtc aatgggcaat gacaggtaaa ttaagacatg 541 cactatgagg aataattatt tatttaataa caattgttta gggttgaaaa ttcaaaaagt 601 gtttattttt catattgtgc caatatgtat tgtaaacatg tgttttaatt ccaatatgat 661 gactccctta aaatagaaat aagtggttat ttctcaacaa agcacagtgt taaatgaaat 721 tgtaaaacct gtcaatgata cagtccctaa agaaaaaaaa tcattgcttt gaagcagttg 781 tgtcagctac tgcggaaaag gaaggaaact cctgacagtc ttgtgctttt cctatttgtt 841 ttcatggtga aaatgtactg agattttggt attacactgt atttgtatct ctgaagcatg 901 tttcatgttt tgtgactata tagagatgtt tttaaaagtt tcaatgtgat tctaatgtct 961 tcatttcatt gtatgatgtg ttgtgatagc taacatttta aataaaagaa aaaatatctt1021 g1 gcgccgcaag gcactgagca ggcgaaagag cgcgctcgga cctccttccc ggcggcagct 61 accgagagtg cggagcgacc agcgtgcgct cggaggaacc agagaaactc agcaccccgc 121 gggactgtcc gtcgcaaaat ccaacatgaa aatcctcgtg gccttggcag tcttttttct 181 tgtctccact cagctgtttg cagaagaaat aggagccaat gatgatctga attactggtc 241 cgactggtac gacagcgacc agatcaagga ggaactgccg gagccctttg agcatcttct 301 gcagagaatc gcccggagac ccaagcctca gcagttcttt ggattaatgg gcaaacggga 361 tgctgattcc tcaattgaaa aacaagtggc cctgttaaag gctctttatg gacatggcca 421 gatctctcac aaaagacata aaacagattc ctttgttgga ctaatgggca aaagagcttt 481 aaattctgtg gcttatgaaa ggagtgcaat gcagaattat gaaagaagac gttaataaac 541 tacctaacat tatttattca gcttcatttg tgtcaatggg caatgacagg taaattaaga 601 catgcactat gaggaataat tatttattta ataacaattg tttggggttg aaaattcaaa 661 aagtgtttat ttttcatatt gtgccaatat gtattgtaaa catgtgtttt aattccaata 721 tgatgactcc cttaaaatag aaataagtgg ttatttctca acaaagcaca gtgttaaatg 781 aaattgtaaa acctgtcaat gatacagtcc ctaaagaaaa aaaatcattg ctttgaagca 841 gttgtgtcag ctactgcgga aaaggaagga aactcctgac agtcttgtgc ttttcctatt 901 tgttttcatg gtgaaaatgt actgagattt tggtattaca ctgtatttgt atctctgaag 961 catgtttcat gttttgtgac tatatagaga tgtttttaaa agtttcaatg tgattctaat1021 gtcttcattt cattgtatga tgtgttgtga tagctaacat tttaaataaa agaaaaaata1081 tcttgaaaaa aaaaaaaaaa aa (2) SEQ ID NO: 2632 data: (i) sequence characteristics:

(A) length: 1674 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2632 sequence description: 1 gaaaaagcct tccaccctcc tgtctggctt tagaaggacc ctgagcccca ggcgccacga 61 caggactctg ctgcagaggg gggttgtgta cagatagtag ggctttaccg cctagcttcg 121 aaatggataa cgtcctcccg gtggactcag acctctcccc aaacatctcc actaacacct 181 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 181 cggaacccaa tcagttcgtg caaccagcct ggcaaattgt cctttgggca gctgcctaca 241 cggtcattgt ggtgacctct gtggtgggca acgtggtagt gatgtggatc atcttagccc 301 acaaaagaat gaggacagtg acgaactatt ttctggtgaa cctggccttc gcggaggcct 361 ccatggctgc attcaataca gtggtgaact tcacctatgc tgtccacaac gaatggtact 421 acggcctgtt ctactgcaag ttccacaact tcttccccat cgccgctgtc ttcgccagta 481 tctactccat gacggctgtg gcctttgata ggtacatggc catcatacat cccctccagc 541 cccggctgtc agccacagcc accaaagtgg tcatctgtgt catctgggtc ctggctctcc 601 tgctggcctt cccccagggc tactactcaa ccacagagac catgcccagc agagtcgtgt 661 gcatgatcga atggccagag catccgaaca agatttatga gaaagtgtac cacatctgtg 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 gaatcacact atgggccagt gagatccccg gggactcctc tgaccgctac cacgagcaag 841 tctctgccaa gcgcaaggtg gtcaaaatga tgattgtcgt ggtgtgcacc ttcgccatct 901 gctggctgcc cttccacatc ttcttcctcc tgccctacat caacccagat ctctacctga 961 agaagtttat ccagcaggtc tacctggcca tcatgtggct ggccatgagc tccaccatgt1021 acaaccccat catctactgc tgcctcaatg acaggttccg tctgggcttc aagcatgcct1081 tccggtgctg ccccttcatc agcgccggcg actatgaggg gctggaaatg aaatccaccc1141 ggtatctcca gacccagggc agtgtgtaca aagtcagccg cctggagacc accatctcca1201 cagtggtggg ggcccacgag gaggagccag aggacggccc caaggccaca ccctcgtccc1261 tggacctgac ctccaactgc tcttcacgaa gtgactccaa gaccatgaca gagagcttca1321 gcttctcctc caatgtgctc tcctaggcca cagggccttt ggcaggtgca gcccccactg1381 cctttgacct gcctcccttc atgcatggaa attcccttca tctggaacca tcagaaacac1441 cctcacactg ggacttgcaa aaagggtcag tatgggttag ggaaaacatt ccatccttga1501 gtcaaaaaat ctcaattctt ccctatcttt gccaccctca tgctgtgtga ctcaaaccaa1561 atcactgaac tttgctgagc ctgtaaaata aaaggtcgga ccagcttttc ccaaaagccc1621 attcattcca ttctggaagt gactttggct gcatgcgagt gctcatttca ggat (2) SEQ ID NO: 2633 data: (i) sequence characteristics:

(A) length: 1766 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2633 sequence description: 1 aattcagagc caccgcgggc aggcgggcag tgcatccaga agcgtttata ttctgagcgc 61 cagttcagct ttcaaaaaga gtgctgccca taaaaagcct tccaccctcc tgtctgcttt 121 agaaggaccc tgagccccag gcgccagcca caggactctg ctgcagaggg gggttgtgta 181 721 acagagacca tgcccagcag agtcgtgtgc atgatcgaat ggccagagca tccgaacaag 781 181 cagatagtag gctttacgcc tagcttcgaa atggataacg tcctcccggt ggactcagac 241 ctctccccaa acatctccac taacacctcg gaacccaatc agttcgtgca accagcctgg 301 caaattgtcc tttgggcagc tgcctacacg gtcattgtgg tgacctctgt ggtgggcaac 361 gtggtagtga tgtggatcat cttagcccac aaaagaatga ggacagtgac gaactatttt 421 ctggtgaacc tggccttcgc ggaggcctcc atggctgcat tcaatacagt ggtgaacttc 481 acctatgctg tccacaacga atggtactac ggcctgttct actgcaagtt ccacaacttc 541 tttcccatcg ccgctgtctt cgccagtatc tactccatga cggctgtggc ctttgatagg 601 tacatggcca tcatacatcc cctccagccc cggctgtcag ccacagccac caaagtggtc 661 atctgtgtca tctgggtcct ggctctcctg ctggccttcc cccagggcta ctactcaacc 721 acagagacca tgcccagcag agtcgtgtgc atgatcgaat ggccagagca tccgaacaag 781 atttatgaga aagtgtacca catctgtgtg actgtgctga tctacttcct ccccctgctg 841 gtgattggct atgcatacac cgtagtggga atcacactat gggccagtga gatccccggg 901 gactcctctg accgctacca cgagcaagtc tctgccaagc gcaaggtggt caaaatgatg 961 attgtcgtgg tgtgcacctt cgccatctgc tggctgccct tccacatctt cttcctcctg1021 ccctacatca acccagatct ctacctgaag aagtttatcc agcaggtcta cctggccatc1081 atgtggctgg ccatgagctc caccatgtac aaccccatca tctactgctg cctcaatgac1141 aggttccgtc tgggcttcaa gcatgccttc cggtgctgcc ccttcatcag cgccggcgac1201 tatgaggggc tggaaatgaa atccacccgg tatctccaga cccagggcag tgtgtacaaa1261 gtcagccgcc tggagaccac catctccaca gtggtggggg cccacgagga ggagccagag1321 gacggcccca aggccacacc ctcgtccctg gacctgacct ccaactgctc ttcacgaagt1381 gactccaaga ccatgacaga gagcttcagc ttctcctcca atgtgctctc ctaggccaca1441 gggcctttgg caggtgcagc ccccactgcc tttgacctgc ctcccttcat gcatggaaat1501 tcccttcatc tggaaccatc agaaacaccc tcacactggg acttgcaaaa agggtcagta1561 tgggttaggg aaaacattcc atccttgagt caaaaaatct caattcttcc ctatctttgc1621 caccctcatg ctgtgtgact caaaccaaat cactgaactt tgctgagcct gtaaaataaa1681 aggtcggacc agcttttcct caagagccca atgcattcca tttctggaag tgactttggc1741 tgcatgcgag tgctcatttc aggatg (2) SEQ ID NO: 2634 data: (i) sequence characteristics:

(A) length: 1268 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2634 sequence description: 1 gaaaaagcct tccaccctcc tgtctggctt tagaaggacc ctgagcccca ggcgccacga 61 caggactctg ctgcagaggg gggttgtgta cagatagtag ggctttaccg cctagcttcg 121 aaatggataa cgtcctcccg gtggactcag acctctcccc aaacatctcc actaacacct 181 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 181 cggaacccaa tcagttcgtg caaccagcct ggcaaattgt cctttgggca gctgcctaca 241 cggtcattgt ggtgacctct gtggtgggca acgtggtagt gatgtggatc atcttagccc 301 acaaaagaat gaggacagtg acgaactatt ttctggtgaa cctggccttc gcggaggcct 361 ccatggctgc attcaataca gtggtgaact tcacctatgc tgtccacaac gaatggtact 421 acggcctgtt ctactgcaag ttccacaact tcttccccat cgccgctgtc ttcgccagta 481 tctactccat gacggctgtg gcctttgata ggtacatggc catcatacat cccctccagc 541 cccggctgtc agccacagcc accaaagtgg tcatctgtgt catctgggtc ctggctctcc 601 tgctggcctt cccccagggc tactactcaa ccacagagac catgcccagc agagtcgtgt 661 gcatgatcga atggccagag catccgaaca agatttatga gaaagtgtac cacatctgtg 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 gaatcacact atgggccagt gagatccccg gggactcctc tgaccgctac cacgagcaag 841 tctctgccaa gcgcaaggtg gtcaaaatga tgattgtcgt ggtgtgcacc ttcgccatct 901 gctggctgcc cttccacatc ttcttcctcc tgccctacat caacccagat ctctacctga 961 agaagtttat ccagcaggtc tacctggcca tcatgtggct ggccatgagc tccaccatgt1021 acaaccccat catctactgc tgcctcaatg acaggtgagg atcccaaccc catgagctct1081 ccaggggcca caagaccatc tacatacaca gtggccaagc ggcatcctaa atgagtaaac1141 ccagctgtga gacaagaggg acaagtgggg actgcagcta acttatcatc acacaactca1201 gcctggctga ttatcaccat ccaggaatgg gagcccggag tagactgatt ttcttttttt1261 cttttcca (1) 2) SEQ ID NO: 2635 data: (i) sequence characteristics:

(A) length: 373 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2635 sequence description: 1 atgctgagaa aggtagctgc caaaccttga ctgcaataac aataacaaaa attaaaaacc 61 taaaataata agtatatcat actgaccttt cctgtttacc ttgctgtagg taccacatct 121 gtgtgactgt gctgatctac ttcctccccc tgctggtgat tggctatgca tacaccgtag 181 tgggaatcac actatgggcc agtgagatcc ccggggactc ctctgaccgc taccacgagc 241 aagtctctgc caagcgcaag gtgagcaggg gacaggcaga actaacccac cctggcacag 301 acaacaggct gtcgagaagg gatggcacac ttgtgagccc cagaggcagc tagcacaaaa 361 tatccccagg tat (2) SEQ ID NO: 2636 data: (i) sequence characteristics:

(A) length: 2472 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2636 sequence description: 1 ggatccaatt tttgcccggc ataagtgtat agtaaatttc ccagccttaa agcacttccc 61 gagagatgct ttgagcgctc gcggtaccag tgcgtaaacg ccgctccccg gctggcgcgg 121 gtgtgcgcca actccaacct gcgcgcaagt ctgccggtgc gcgctccagt cccacagctc 181 721 gcctaacctc acaaccttgg ctggggcttt gggactgtaa gcttagagac tgtcacttcc 781 181 cgagtccccg cagtgaaagg agggggcggt gcaccggggt agatgggcccctgaggactc 241 ccggggttca gttttccgcg gctgccaaga gggccaagtt ggacagtggc agggtcctga 301 agcagatcag caacaaccgc aagtgctcca gccccaggtc ctcagacacg gaggaaaacg 361 acaagaggcg gacacacaac gtcttggaac gtcagaggag gaacgagctg aagcgcagct 421 tttttgccct gcgtgaccag atccctgaat tggaaaacaa cgaaaaggcc cccaaggtag 481 tgatcctcaa aaaagccacc gcctacatcc tgtccattca agcagacgag cacaagctca 541 cctctgaaaa ggacttattg aggaaacgac gagaacagtt gaaacacaaa ctcgaacagc 601 ttcgaaactc tggtgcataa actgacctaa ctcgaggagg agctggaatc tctcgtgaga 661 gtaaggagaa cggttccttc tgacagaact gatgcgctgg aattaaaatg catgctcaaa 721 gcctaacctc acaaccttgg ctggggcttt gggactgtaa gcttagagac tgtcacttcc 781 caggtgaatc agctagccag gtaactgagc tagatatttt gtgggggtgt ttcctaaaca 841 cagcctcagg aaagttgttt tcgggacacc tggaccaggg agtcgtcgcc tctggcttct 901 cggtagctgg agcgcggccc ggagcgcggc gctggcacat cgcccccaca catgaccgtt 961 tcccattgcc acaggcaagc cgcctctgca gagctgtctc agggctctgg gcttcattcc1021 ctggaagttg attgtcctcc actccagctg tttcccaaat ccttccttcc tcccagcacc1081 cctcgtgcaa cgacgattcc agctgcggac cgcatctgtg tcagttactt ccaagccacc1141 tactgccccc tcgcggagtg cgtggggctc ccggctcgca gactcccacg gcaagtagca1201 agcagcaaaa ggcgtggtag ctgcggcggt ggaatgagac agttgtcaac agctggcgca1261 cgtgccgccg tgcgcaccgg gactggcgag tacgcagccc aggtactgcc ccttcccagt1321 gacgtctctg cagggggtta taaaagcctc gtgcgcagct aactcgcgag ctgagcaacc1381 cgaaccgaga ggtgcccgcg aaactgcagg cggcggcagc ggcagcaaaa gagaaggaaa1441 aatctccagc tggatacgaa gctccagaat cctggccata ggctcagaac ttttacaggt1501 cgcgctgcaa tgggccccca cttcgctcct aagtcctcac gcagcacagg gctttgcctt1561 tccctgcgga ggaaggagaa ataggagttg caggcagcag caggtgcata aatgcggggg1621 atctcttgct tcctagaact gtgaccggtg gaatttcttt ccctttttca gtttaccgca1681 agagagatgc tgtctccaga cttctgaact caaacgtctc ctgaagcttg aaagtggagg1741 aattcagagc caccgcgggc aggcgggcag tgcatccaga agcgtttata ttctgagcgc1801 cagttcagct ttcaaaaaga gtgctgccca gaaaaagcct tccaccctcc tgtctggctt1861 tagaaggacc ctgagcccca ggcgccagcc acaggactct gctgcagagg ggggttgtgt1921 acagatagta gggctttacc gcctagcttc gaaatggata acgtcctccc ggtggactca1981 gacctctccc caaacatctc cactaacacc tcggaaccca atcagttcgt gcaaccagcc2041 tggcaaattg tcctttgggc agctgcctac acggtcattg tggtgacctc tgtggtgggc2101 aacgtggtag tgatgtggat catcttagcc cacaaaagaa tgaggacagt gacgaactat2161 tttctggtga acctggcctt cgcggaggcc tccatggctg cattcaatac agtggtgaac2221 ttcacctatg ctgtccacaa cgaatggtac tacggcctgt tctactgcaa gttccacaac2281 ttcttcccca tcgccgctgt cttcgccagt atctactcca tgacggctgt ggcctttgat2341 aggtgagatt agcctttgtg aaaaggcgag aaagtgctca tagaggacca tggcattgct2401 gtgaggtttg gaactgggtg gggtatgggt caagtggaag attggccact ctgagggttt2461 ttttactgat ca (2) SEQ ID NO: 2637 data: (i) sequence characteristics:

(A) length: 594 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2637 sequence description: 1 agaatatgga aaaggaattg gaaaataatt gtacaaatca tcaggaatca aagggtttct 61 atgaattttc ttattggcag gaaaaatatg gaatctctga tacagatttt ggtgaccaga 121 tcagaacttt gttctttctt ctctgttcca ggtacatggc catcatacat cccctccagc 181 cccggctgtc agccacagcc accaaagtgg tcatctgtgt catctgggtc ctggctctcc 241 tgctggcctt cccccagggc tactactcaa ccacagagac catgcccagc agagtcgtgt 301 gcatgatcga atggccagag catccgaaca agatttatga gaaagtgtga gtagagatga 361 ctccccatgc caaagaaacg atggtgcagg ctgccttcct ggccccttct tgctctttct 421 ttctttccat attcttttgt tggtacagat ttaatgtgta tctgcaagca tttctcacat 481 ataccctcat atcaggttga tatgtccaca gttgtcaggg gactatagta tcccaaatac 541 tattctgagc attgaaagat aatttttgaa gtgtaagatc tagatcctgt tata (2) SEQ ID NO: 2638 data: (i) sequence characteristics:

(A) length: 371 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2638 sequence description: 1 gagggggatg tgctggtggt ctcacctgtc tcaccctcttgccaggtggt caaaatgatg 61 attgtcgtgg tgtgcacctt cgccatctgc tggctgccct tccacatctt cttcctcctg 121 ccctacatca acccagatct ctacctgaag aagtttatcc agcaggtcta cctggccatc 181 atgtggctgg ccatgagctc caccatgtac aaccccatca tctactgctg cctcaatgac 241 aggtgaggat cccaacccca tgagctctcc aggggccaca agaccatcta catacacagt 301 ggccaagcgg catctaaatg agtaaaccca gctgtgagac aagagggaca agtggggact 361 gcagctaact t (2) SEQ ID NO: 2639 data: (i) sequence characteristics:

(A) length: 3929 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2639 sequence description: 1 ccgtcccaaa ggtcacctct tcatctgctc gctctccagg ttccgtctgg gcttcaagca 61 tgccttccgg tgc tgcccct tcatcagcgc cggcgactat gaggggctgg aaatgaaatc 121 cacccggtat ctccagaccc agggcagtgt gtacaaagtc agccgcctgg agaccaccat 181 ctccacagtg gtgggggccc acgaggagga gccagaggac ggccccaagg ccacaccctc 241 gtccctggac ctgacctcca actgctcttc acgaagtgac tccaagacca tgacagagag 301 cttcagcttc tcctccaatg tgctctccta ggccacaggg cctttggcag gtgcagcccc 361 cactgccttt gacctgcctc ccttcatgca tggaaattcc cttcatctgg aaccatcaga 421 aacaccctca cactgggact tgcaaaaagg gtcagtatgg gttagggaaa acattccatc 481 cttgagtcaa aaaatctcaa ttcttcccta tctttgccac cctcatgctg tgtgactcaa 541 accaaatcac tgaactttgc tgagcctgta aaataaaagg tcggaccagc ttttcccaaa 601 agcccattca ttccattctg gaagtgactt tggctgcatg cgagtgctca tttcaggatg 661 aattctgcag cacagctgcg gacccggaag actcattttc ctggagcccc gtgttacttc 721 aataaagtta tctcagatta gcctcctgca gctggaggct cctatcaccc cagcctacgc 781 ttgacagggt gaacaaaaga aggcaccaca taacatctaa atgaaaaatt tagccctgtc 841 ttctaagcat ctgtgaaaag aaacatatgt attccccttt ttggcatctc agtatttcag 901 tacatttata catcatgaga ttgagaacct cgggcttcca cattatgtcc ccggtgactg 961 tcctgagcag ccgacgcaag cagaatatgt ccactgatac ctgctagttc tcttacagac1021 caggaattgg gagacttgca ctacatttaa tgtgtagttg accctctttt cctacttgta1081 aacaagggga ctgaactaga taatctaagt gttccttcga atcttaacat cccgtggttc1141 aaggattgta tgagtttttt gtttgtttta caaaaaaaaa caaaacgaag aataaaagaa1201 tagaaaagaa taggagcagt gagtcttgta actaataccc agttcctgga gatgtagcaa1261 ctgctaaggc catctgtaac tatccatctc agacattctc cgatttatct taaaatcctg1321 agtacattcc ttctcatgga aggttttggc ttttgacaga gcagaggact tcatgccaag1381 gcctgcatcc atccagcttt agcaggcaga atttcatagc tgcagaacac tgtcagagaa1441 gacaaatgtg ggctccctgc tttaaccttt tgggtatttt agggtggggg ccctaacctt1501 cattcttagt tttacactag catcgtgctc atatgtgcga caagcaagaa ggctgcactt1561 tgcagctgca cttctgggaa gagggcatct tgcatcttcc cttcagactc tctgaatgtc1621 tcctccctgc tccatggctt tgccagcttc ctgtctctaa ggggtagaat gactcatcaa1681 ccctaaagga cagtcagtct tccaagagcc atgaactgaa tgctttatat cctaatttag1741 atttagagtt tccagaaggt gagcatgcag ttttgttttg tttttttttc tgtctcccaa1801 atctgtgttt tttccagata tggctggaag cagaagcttc atgtaacatc catgaatgtc1861 ctcctggtag tttgcataat ggatgcacat gtgccgcatc cataacatta aggggagaat1921 aatgcatggt ttacagcctt tgccagccct gctggctcta attctaccag ggcatccaca1981 ggcctggggg aagaagaaac agtataagcc agaaaacctc aagaactaca ttctctaaag2041 cagcatggaa agttttaaat aaactaagtg aagccagatc attgcagata tataaatgga2101 agacaaaatt tagaagcaac aaaagttagt gccctaagca ttagtcatac ttccaataga2161 gaatcttgct gtgtatggat tactcacttt ggaagaatgt aaagagctaa catgattatg2221 agaagtacct gagaagatgg tgtcaagaag ttggggacac cccatctatg gaagagaagg2281 ttagagttga gctcaacgag gattaactga gtgcctcctc tggactttgc cctgaactgg2341 gaacacacag cccctgcagc tcttgaagag cctaccttat tggccatcac taactaactc2401 accagtccta gtgagtctaa gctgcccagc agtcttggag gcatctgaga ggacagattc2461 tccacagaat tctaaaaacc cacactcaac atgggcagtc aagcaaagac tgggaccttt2521 ggagagcctc tggaatgaga gttctctggg gtacttccaa agggagctgg cagtcagtcc2581 aggggaccta aaggaatttg gttgaacagt atcatctctg tgcatagtaa gagggaatgt2641 tgggtggtcc gggcagtttc caatatggca aagcatctgc ttggacagtg ccagcaagcc2701 ttcctctgac ccagtctcca atgtccacta acttataaaa atgtcatcaa ctcccacatg2761 tgagaaacac catgatttgt actgtgcatg ggtcacattc ttattctaga aatgcatcac2821 cctgtgttta tccaagtgtg tttacttggt gtaatgtcca gtagtaatag aatatgaaat2881 atcaaggaac catctttgtt acgtgacttc caaaatgtga gatctcattg ctgtcactgt2941 gatatttgta ttgtgtgaat ctcttcctcc tcttcctcct catgctttct cagggaggag3001 ccctgatgta tatcatgaac tcacagttcc tagaccacag taattgaggg gcggtggggg3061 ggcctttatc ggagaagcta gagaacaaga gtccttctcc tccttatccc ccaacaggac3121 actaagagac aaggactgag tggaatcctg gagaaagggg actcaggaac tgacctcatt3181 ggcctgattt gtgaggagag gagtataagt ggagaggggc cattcctgag gtttccgtgt3241 tttccagcct ggtctcctgg aaagaatctt tatacagaaa taaagtatgt gtttcactct3301 ctcgtgcctc tgtctcttct ctaggggtcc taaacatcct ataggatgct aaatgggatg3361 gtactagaaa ccctaataac ttgcatagct agaaggatgg aatcaatgtt cagtaaactc3421 ttgactctgt gatgaaatgg gttgggaaga tgtgggaaca gttcccaggt tgagatctgg3481 gaagggaggt gggattatgc gaaatcacag tgatgttgcc tatgaataaa gctgtgtcag3541 gatgcagaca caacagagtt ataagcacaa gggagttttc gtaggacagg aggttggggg3601 gaataacatc tgagaaagac aaaggggaaa gaaagcagaa gtactcaggg acagccttca3661 gaccaccatg ccaatctgac acctgggaaa aaaggggtgg ttaggaagag cctcagactg3721 tggtgcagct cccagcccaa cacgtgcaaa gattgcccag agagacattg cacgttaaca3781 3784 3781 gaatggccag gcctgatgcc ctgccgtgct cagccgctgg ctggggctct ctagggaaag3841 tgttctgtgt ttgaacacca tggtggatgc tgaagccctg cagctggagg ctgtcagcca3901 agtgccctgc agttcttcct aaagaggga (2) SEQ ID NO: 2640 data: (i) sequence characteristics:

(A) length: 12447 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2640 sequence description: 1 gaaaaagcct tccaccctcc tgtctggctt tagaaggacc ctgagcccca ggcgccacga 61 caggactctg ctgcagaggg gggttgtgta cagatagtag ggctttaccg cctagcttcg 121 aaatggataa cgtcctcccg gtggactcag acctctcccc aaacatctcc actaacacct 181 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 181 cggaacccaa tcagttcgtg caaccagcctggcaaattgt cctttgggca gctgcctaca 241 cggtcattgt ggtgacctct gtggtgggca acgtggtagt gatgtggatc atcttagccc 301 acaaaagaat gaggacagtg acgaactatt ttctggtgaa cctggccttc gcggaggcct 361 ccatggctgc attcaataca gtggtgaact tcacctatgc tgtccacaac gaatggtact 421 acggcctgtt ctactgcaag ttccacaact tcttccccat cgccgctgtc ttcgccagta 481 tctactccat gacggctgtg gcctttgata ggtacatggc catcatacat cccctccagc 541 cccggctgtc agccacagcc accaaagtgg tcatctgtgt catctgggtc ctggctctcc 601 tgctggcctt cccccagggc tactactcaa ccacagagac catgcccagc agagtcgtgt 661 gcatgatcga atggccagag catccgaaca agatttatga gaaagtgtac cacatctgtg 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 gaatcacact atgggccagt gagatccccg gggactcctc tgaccgctac cacgagcaag 841 tctctgccaa gcgcaaggtg gtcaaaatga tgattgtcgt ggtgtgcacc ttcgccatct 901 gctggctgcc cttccacatc ttcttcctcc tgccctacat caacccagat ctctacctga 961 agaagtttat ccagcaggtc tacctggcca tcatgtggct ggccatgagc tccaccatgt1021 acaaccccat catctactgc tgcctcaatg acaggttccg tctgggcttc aagcatgcct1081 tccggtgctg ccccttcatc agcgccggcg actatgaggg gctggaaatg aaatccaccc1141 ggtatctcca gacccagggc agtgtgtaca aagtcagccg cctggagacc accatctcca1201 cagtggtggg ggcccacgag gaggagccag aggacggccc caaggccaca ccctcgtccc1261 tggacctgac ctccaactgc tcttcacgaa gtgactccaa gaccatgaca gagagcttca1321 gcttctcctc caatgtgctc tcctaggcca cagggccttt ggcaggtgca gcccccactg1381 cctttgacct gcctcccttc atgcatggaa attcccttca tctggaacca tcagaaacac1441 cctcacactg ggacttgcaa aaagggtcag tatgggttag ggaaaacatt ccatccttga1501 gtcaaaaaat ctcaattctt ccctatcttt gccaccctca tgctgtgtga ctcaaaccaa1561 atcactgaac tttgctgagc ctgtaaaata aaaggtcgga ccagcttttc ccaaaagccc1621 attcattcca ttctggaagt gactttggct gcatgcgagt gctcatttca ggat1 aattcagagc caccgcgggc aggcgggcag tgcatccaga agcgtttata ttctgagcgc 61 cagttcagct ttcaaaaaga gtgctgccca taaaaagcct tccaccctcc tgtctgcttt 121 agaaggaccc tgagccccag gcgccagcca caggactctg ctgcagaggg gggttgtgta 181 cagatagtag gctttacgcc tagcttcgaa atggataacg tcctcccggt ggactcagac 241 ctctccccaa acatctccac taacacctcg gaacccaatc agttcgtgca accagcctgg 301 caaattgtcc tttgggcagc tgcctacacg gtcattgtgg tgacctctgt ggtgggcaac 361 gtggtagtga tgtggatcat cttagcccac aaaagaatga ggacagtgac gaactatttt 421 ctggtgaacc tggccttcgc ggaggcctcc atggctgcat tcaatacagt ggtgaacttc 481 acctatgctg tccacaacga atggtactac ggcctgttct actgcaagtt ccacaacttc 541 tttcccatcg ccgctgtctt cgccagtatc tactccatga cggctgtggc ctttgatagg 601 tacatggcca tcatacatcc cctccagccc cggctgtcag ccacagccac caaagtggtc 661 atctgtgtca tctgggtcct ggctctcctg ctggccttcc cccagggcta ctactcaacc 721 acagagacca tgcccagcag agtcgtgtgc atgatcgaat ggccagagca tccgaacaag 781 atttatgaga aagtgtacca catctgtgtg actgtgctga tctacttcct ccccctgctg 841 gtgattggct atgcatacac cgtagtggga atcacactat gggccagtga gatccccggg 901 gactcctctg accgctacca cgagcaagtc tctgccaagc gcaaggtggt caaaatgatg 961 attgtcgtgg tgtgcacctt cgccatctgc tggctgccct tccacatctt cttcctcctg1021 ccctacatca acccagatct ctacctgaag aagtttatcc agcaggtcta cctggccatc1081 atgtggctgg ccatgagctc caccatgtac aaccccatca tctactgctg cctcaatgac1141 aggttccgtc tgggcttcaa gcatgccttc cggtgctgcc ccttcatcag cgccggcgac tatgaggggc tggaaatgaa atccacccgg tatctccaga cccagggcag tgtgtacaaa1261 gtcagccgcc tggagaccac catctccaca gtggtggggg cccacgagga ggagccagag1321 gacggcccca aggccacacc ctcgtccctg gacctgacct ccaactgctc ttcacgaagt1381 gactccaaga ccatgacaga gagcttcagc ttctcctcca atgtgctctc ctaggccaca1441 gggcctttgg caggtgcagc ccccactgcc tttgacctgc ctcccttcat gcatggaaat1501 tcccttcatc tggaaccatc agaaacaccc tcacactggg acttgcaaaa agggtcagta1561 tgggttaggg aaaacattcc atccttgagt caaaaaatct caattcttcc ctatctttgc1621 caccctcatg ctgtgtgact caaaccaaat cactgaactt tgctgagcct gtaaaataaa1681 aggtcggacc agcttttcct caagagccca atgcattcca tttctggaag tgactttggc1741 tgcatgcgag tgctcatttc aggatg gaaaaagcct tccaccctcc tgtctggctt tagaaggacc ctgagcccca ggcgccacga caggactctg ctgcagaggg gggttgtgta cagatagtag ggctttaccg cctagcttcg 121 aaatggataa cgtcctcccg gtggactcag acctctcccc aaacatctcc actaacacct 181 cggaacccaa tcagttcgtg caaccagcct ggcaaattgt cctttgggca gctgcctaca cggtcattgt ggtgacctct gtggtgggca acgtggtagt gatgtggatc atcttagccc 241 acaaaagaat gaggacagtg acgaactatt ttctggtgaa cctggccttc gcggaggcct 361 ccatggctgc attcaataca gtggtgaact tcacctatgc tgtccacaac gaatggtact 421 acggcctgtt ctactgcaag ttccacaact tcttccccat cgccgctgtc ttcgccagta 481 tctactccat gacggctgtg gcctttgata ggtacatggc catcatacat cccctccagc 541 cccggctgtc agccacagcc accaaagtgg tcatctgtgt catctgggtc ctggctctcc 601 541 601 tgctggcctt cccccagggc tactactcaa ccacagagac catgcccagc agagtcgtgt 661 gcatgatcga atggccagag catccgaaca agatttatga gaaagtgtac cacatctgtg 721 tgactgtgct gatctacttc ctccccctgc tggtgattgg ctatgcatac accgtagtgg 781 gaatcacact atgggccagt gagatccccg gggactcctc tgaccgctac cacgagcaag 841 tctctgccaa gcgcaaggtg gtcaaaatga tgattgtcgt ggtgtgcacc ttcgccatct 901 gctggctgcc cttccacatc ttcttcctcc tgccctacat caacccagat ctctacctga 961 agaagtttat ccagcaggtc tacctggcca tcatgtggct ggccatgagc tccaccatgt1021 acaaccccat catctactgc tgcctcaatg acaggtgagg atcccaaccc catgagctct1081 ccaggggcca caagaccatc tacatacaca gtggccaagc ggcatcctaa atgagtaaac1141 ccagctgtga gacaagaggg acaagtgggg actgcagcta acttatcatc acacaactca1201 gcctggctga ttatcaccat ccaggaatgg gagcccggag tagactgatt ttcttttttt1261 cttttcca 1 atgctgagaa aggtagctgc caaaccttga ctgcaataac aataacaaaa attaaaaacc 61 6361 61 taaaataata agtatatcat actgaccttt cctgtttacc ttgctgtagg taccacatct 121 gtgtgactgt gctgatctac ttcctccccc tgctggtgat tggctatgca tacaccgtag 181 tgggaatcac actatgggcc agtgagatcc ccggggactc ctctgaccgc taccacgagc 241 aagtctctgc caagcgcaag gtgagcaggg gacaggcaga actaacccac cctggcacag 301 acaacaggct gtcgagaagg gatggcacac ttgtgagccc cagaggcagc tagcacaaaa 361 tatccccagg tat1 ggatccaatt tttgcccggc ataagtgtat agtaaatttc ccagccttaa agcacttccc 61 gagagatgct ttgagcgctc gcggtaccag tgcgtaaacg ccgctccccg gctggcgcgg 121 gtgtgcgcca actccaacct gcgcgcaagt ctgccggtgc gcgctccagt cccacagctc 181 cgagtccccg cagtgaaagg agggggcggt gcaccggggt agatgggccc ctgaggactc 241 ccggggttca gttttccgcg gctgccaaga gggccaagtt ggacagtggc agggtcctga 301 agcagatcag caacaaccgc aagtgctcca gccccaggtc ctcagacacg gaggaaaacg 361 acaagaggcg gacacacaac gtcttggaac gtcagaggag gaacgagctg aagcgcagct 421 tttttgccct gcgtgaccag atccctgaat tggaaaacaa cgaaaaggcc cccaaggtag 481 tgatcctcaa aaaagccacc gcctacatcc tgtccattca agcagacgag cacaagctca 541 cctctgaaaa ggacttattg aggaaacgac gagaacagtt gaaacacaaa ctcgaacagc 601 ttcgaaactc tggtgcataa actgacctaa ctcgaggagg agctggaatc tctcgtgaga 661 gtaaggagaa cggttccttc tgacagaact gatgcgctgg aattaaaatg catgctcaaa 721 gcctaacctc acaaccttgg ctggggcttt gggactgtaa gcttagagac tgtcacttcc 781 caggtgaatc agctagccag gtaactgagc tagatatttt gtgggggtgt ttcctaaaca 841 cagcctcagg aaagttgttt tcgggacacc tggaccaggg agtcgtcgcc tctggcttct 901 cggtagctgg agcgcggccc ggagcgcggc gctggcacat cgcccccaca catgaccgtt 961 tcccattgcc acaggcaagc cgcctctgca gagctgtctc agggctctgg gcttcattcc1021 ctggaagttg attgtcctcc actccagctg tttcccaaat ccttccttcc tcccagcacc1081 cctcgtgcaa cgacgattcc agctgcggac cgcatctgtg tcagttactt ccaagccacc1141 tactgccccc tcgcggagtg cgtggggctc ccggctcgca gactcccacg gcaagtagca1201 agcagcaaaa ggcgtggtag ctgcggcggt ggaatgagac agttgtcaac agctggcgca1261 cgtgccgccg tgcgcaccgg gactggcgag tacgcagccc aggtactgcc ccttcccagt1321 gacgtctctg cagggggtta taaaagcctc gtgcgcagct aactcgcgag ctgagcaacc1381 cgaaccgaga ggtgcccgcg aaactgcagg cggcggcagc ggcagcaaaa gagaaggaaa1441 aatctccagc tggatacgaa gctccagaat cctggccata ggctcagaac ttttacaggt1501 cgcgctgcaa tgggccccca cttcgctcct aagtcctcac gcagcacagg gctttgcctt1561 tccctgcgga ggaaggagaa ataggagttg caggcagcag caggtgcata aatgcggggg1621 atctcttgct tcctagaact gtgaccggtg gaatttcttt ccctttttca gtttaccgca1681 agagagatgc tgtctccaga cttctgaact caaacgtctc ctgaagcttg aaagtggagg1741 aattcagagc caccgcgggc aggcgggcag tgcatccaga agcgtttata ttctgagcgc1801 cagttcagct ttcaaaaaga gtgctgccca gaaaaagcct tccaccctcc tgtctggctt1861 tagaaggacc ctgagcccca ggcgccagcc acaggactct gctgcagagg ggggttgtgt1921 acagatagta gggctttacc gcctagcttc gaaatggata acgtcctccc ggtggactca1981 gacctctccc caaacatctc cactaacacc tcggaaccca atcagttcgt gcaaccagcc2041 tggcaaattg tcctttgggc agctgcctac acggtcattg tggtgacctc tgtggtgggc2101 aacgtggtag tgatgtggat catcttagcc cacaaaagaa tgaggacagt gacgaactat2161 tttctggtga acctggcctt cgcggaggcc tccatggctg cattcaatac agtggtgaac2221 ttcacctatg ctgtccacaa cgaatggtac tacggcctgt tctactgcaa gttccacaac2281 ttcttcccca tcgccgctgt cttcgccagt atctactcca tgacggctgt ggcctttgat2341 aggtgagatt agcctttgtg aaaaggcgag aaagtgctca tagaggacca tggcattgct2401 gtgaggtttg gaactgggtg gggtatgggt caagtggaag attggccact ctgagggttt24 ttttactgat ca1 agaatatgga aaaggaattg gaaaataatt gtacaaatca tcaggaatca aagggtttct atgaattttc ttattggcag gaaaaatatg gaatctctga tacagatttt ggtgaccaga tcagaacttt gttctttctt ctctgttcca ggtacatggc catcatacat cccctccagc 181 cccggctgtc agccacagcc accaaagtgg tcatctgtgt catctgggtc ctggctctcc tgctggcctt cccccagggc tactactcaa ccacagagac catgcccagc agagtcgtgt 301 gcatgatcga atggccagag catccgaaca agatttatga gaaagtgtga gtagagatga 361 ctccccatgc caaagaaacg atggtgcagg ctgccttcct ggccccttct tgctctttct 421 ttctttccat attcttttgt tggtacagat ttaatgtgta tctgcaagca tttctcacat 481 ataccctcat atcaggttga tatgtccaca gttgtcaggg gactatagta tcccaaatac 541 tattctgagc attgaaagat aatttttgaa gtgtaagatc tagatcctgt tata 1 gagggggatg tgctggtggt ctcacctgtc tcaccctctt gccaggtggt caaaatgatg 61 attgtcgtgg tgtgcacctt cgccatctgc tggctgccct tccacatctt cttcctcctg 121 ccctacatca acccagatct ctacctgaag aagtttatcc agcaggtcta cctggccatc 181 atgtggctgg ccatgagctc caccatgtac aaccccatca tctactgctg cctcaatgac 241 aggtgaggat cccaacccca tgagctctcc aggggccaca agaccatcta catacacagt 301 ggccaagcgg catctaaatg agtaaaccca gctgtgagac aagagggaca agtggggact 361 gcagctaact t1 ccgtcccaaa ggtcacctct tcatctgctc gctctccagg ttccgtctgg gcttcaagca 61 tgccttccgg tgctgcccct tcatcagcgc cggcgactat gaggggctgg aaatgaaatc 121 cacccggtat ctccagaccc agggcagtgt gtacaaagtc agccgcctgg agaccaccat 181 ctccacagtg gtgggggccc acgaggagga gccagaggac ggccccaagg ccacaccctc 241 gtccctggac ctgacctcca actgctcttc acgaagtgac tccaagacca tgacagagag 301 cttcagcttc tcctccaatg tgctctccta ggccacaggg cctttggcag gtgcagcccc 361 cactgccttt gacctgcctc ccttcatgca tggaaattcc cttcatctgg aaccatcaga 421 aacaccctca cactgggact tgcaaaaagg gtcagtatgg gttagggaaa acattccatc 481cttgagtcaa aaaatctcaa ttcttcccta tctttgccac cctcatgctg tgtgactcaa 541 accaaatcac tgaactttgc tgagcctgta aaataaaagg tcggaccagc ttttcccaaa 601 agcccattca ttccattctg gaagtgactt tggctgcatg cgagtgctca tttcaggatg 661 aattctgcag cacagctgcg gacccggaag actcattttc ctggagcccc gtgttacttc 721 aataaagtta tctcagatta gcctcctgca gctggaggct cctatcaccc cagcctacgc 781 ttgacagggt gaacaaaaga aggcaccaca taacatctaa atgaaaaatt tagccctgtc 841 ttctaagcat ctgtgaaaag aaacatatgt attccccttt ttggcatctc agtatttcag 901 tacatttata catcatgaga ttgagaacct cgggcttcca cattatgtcc ccggtgactg 961 tcctgagcag ccgacgcaag cagaatatgt ccactgatac ctgctagttc tcttacagac1021 caggaattgg gagacttgca ctacatttaa tgtgtagttg accctctttt cctacttgta1081 aacaagggga ctgaactaga taatctaagt gttccttcga atcttaacat cccgtggttc1141 aaggattgta tgagtttttt gtttgtttta caaaaaaaaa caaaacgaag aataaaagaa1201 tagaaaagaa taggagcagt gagtcttgta actaataccc agttcctgga gatgtagcaa1261 ctgctaaggc catctgtaac tatccatctc agacattctc cgatttatct taaaatcctg1321 agtacattcc ttctcatgga aggttttggc ttttgacaga gcagaggact tcatgccaag1381 461441 14445 gacaaatgtg ggctccctgc tttaaccttt tgggtatttt agggtggggg ccctaacctt1501 cattcttagt tttacactag catcgtgctc atatgtgcga caagcaagaa ggctgcactt1561 5816223 1621 tcctccctgc tccatggctt tgccagcttc ctgtctctaa ggggtagaat gactcatcaa1681 1741 atttagagtt tccagaaggt gagcatgcag ttttgttttg tttttttttc tgtctcccaa1801 atctgtgttt tttccagata tggctggaag cagaagcttc atgtaacatc catgaatgtc1861 ctcctggtag tttgcataat ggatgcacat gtgccgcatc cataacatta aggggagaat1921 aatgcatggt ttacagcctt tgccagccct gctggctcta attctaccag ggcatccaca1981 ggcctggggg aagaagaaac agtataagcc agaaaacctc aagaactaca ttctctaaag2041 cagcatggaa agttttaaat aaactaagtg aagccagatc attgcagata tataaatgga2101 agacaaaatt tagaagcaac aaaagttagt gccctaagca ttagtcatac ttccaataga2161 gaatcttgct gtgtatggat tactcacttt ggaagaatgt aaagagctaa catgattatg2221 agaagtacct gagaagatgg tgtcaagaag ttggggacac cccatctatg gaagagaagg2281 ttagagttga gctcaacgag gattaactga gtgcctcctc tggactttgc cctgaactgg2341 gaacacacag cccctgcagc tcttgaagag cctaccttat tggccatcac taactaactc2401 accagtccta gtgagtctaa gctgcccagc agtcttggag gcatctgaga ggacagattc2461 tccacagaat tctaaaaacc cacactcaac atgggcagtc aagcaaagac tgggaccttt2521 582581 2624 2641 tgggtggtcc gggcagtttc caatatggca aagcatctgc ttggacagtg ccagcaagcc2701 ttcctctgac ccagtctcca atgtccacta acttataaaa atgtcatcaa ctcccacatg27 tgagaaacac catgatttgt actgtgcatg ggtcacattc ttattctaga aatgcatcac2821 cctgtgttta tccaagtgtg tttacttggt gtaatgtcca gtagtaatag aatatgaaat2881 atcaaggaac catctttgtt acgtgacttc caaaatgtga gatctcattg ctgtcactgt2941 gatatttgta ttgtgtgaat ctcttcctcc tcttcctcct catgctttct cagggaggag3001 ccctgatgta tatcatgaac tcacagttcc tagaccacag taattgaggg gcggtggggg3061 ggcctttatc ggagaagcta gagaacaaga gtccttctcc tccttatccc ccaacaggac3121 actaagagac aaggactgag tggaatcctg gagaaagggg actcaggaac tgacctcatt3181 3233058 ctcgtgcctc tgtctcttct ctaggggtcc taaacatcct ataggatgct aaatgggatg3361 gtactagaaa ccctaataac ttgcatagct agaaggatgg aatcaatgtt cagtaaactc3421 ttgactctgt gatgaaatgg gttgggaaga tgtgggaaca gttcccaggt tgagatctgg3481 gaagggaggt gggattatgc gaaatcacag tgatgttgcc tatgaataaa gctgtgtcag3541 gatgcagaca caacagagtt ataagcacaa gggagttttc gtaggacagg aggttggggg3601 gaataacatc tgagaaagac aaaggggaaa gaaagcagaa gtactcaggg acagccttca3661 gaccaccatg ccaatctgac acctgggaaa aaaggggtgg ttaggaagag cctcagactg3721 tggtgcagct cccagcccaa cacgtgcaaa gattgcccag agagacattg cacgttaaca3781 gaatggccag gcctgatgcc ctgccgtgct cagccgctgg ctggggctct ctagggaaag3841 tgttctgtgt ttgaacacca tggtggatgc tgaagccctg cagctggagg ctgtcagcca3901 agtgccctgc agttcttcct aaagaggga (2) SEQ ID NO: 2641 data: (i) sequence characteristics:

(A) Length: 5441 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2641 sequence description: 1 gggtctcaag gaatctttat tctgcgtctt cattctgaac tggatggaac cttcctgagc 61 gcagagtcct ttccactgtg aattatgggt ttgttatcgt ttttgttcgt tgctggttgt 121 acgtgacggg agttcagctt tttgctgcgg gacggcagag ataggatgcg gggcttcctg 181 721 gtcccccggg gggtgcagcc cggaaggagt ccagatggat atggccccgc agtgcagagt 781 181 agaggcgccg gggcagggcc gcacaggtcc atccacctcc cctgggaccc cagccctgca 241 gcagccccag gggagcggcc ggggatcggg gcggggtgcc caggacgcgc cctgattggc 301 ccagtgttag ccaatcaagg ctctcgcatc cccatggtgc tgattggtcc gcctcccagg 361 cctgacccaa tcggagcatt cctaggagga gcggccccag agcgcctgac tcgggggtcc 421 cagagccctc tgcacaccac agccccggtg tccccgtgtg tccctgggtt ctcccagccc 481 tggtgtcccc tgagtctctt cttcaccgtc agccctggtg tctcccgtgt ccctgccaca 541 ccctcatccc tggtgtcccc cgtcacccca tcccctcacc tcctgggctc ctgaaggtcc 601 catcttgtgg gcctcattca tggaaccagg acggggcagg tggaggcctc tggggagttt 661 gtccagagaa tggaggagaa gcagggtcat gagcaggagc ggtctgggcc acccctgcct 721 gtcccccggg gggtgcagcc cggaaggagt ccagatggat atggccccgc agtgcagagt 781 cagccccaaa ccaggctggt cccaggcagg gtgggggcag gaggagcccc ggagtggccc 841 tgtgttgggg gtcggggggc aggcaggggg tcctggggct cagaagcgga ggaggtgggc 901 tggaggcccc agtgaccaac aggcccacgg gagtcgggag gtggggtgga cggacctgca 961 gggacagtgt cagcgctgaa tgggatggag agcacaggga gctggggccg gggatgagac1021 catggggagc tggggctggg gctgggacta gtccatgggg agctggggct gaagttgggg1081 gtgagtccat ggggagctgg gctgggcctc ctggggttgc acctgcactc ctctctgctc1141 ttccctctgc gtatgaagct cagatcccat gataaggagg cacctgcaga ccaggggacc1201 tgcacggaca gccccagagg tggacattga ggactcgtag gaggacttgg gtctcatacg1261 gcgggtgggg agcagggccc cttcctggct gaggacactt ggtgctgtcc cctctcaagg1321 ctgtttcccc atctgacaaa ggggtctcat gtgagccccc aaccaagtga gtcgaggagg1381 gctggcccca cccccgtgga tttggagtcc gtaggagggg tgtcacccgt cacgtcccca1441 ccccgtgggc accttcccgt ctcttggagc gtggcccatg gacatgagtt cctcacccgt1501 gtccctcttg gggaaacagg tttcaggagc gacgggtctt gtagcctggg gcagccaggc1561 cacctgggtg cagctatgcc tgaaggcctc ctggcaccga gacaggggca ggagcagatc1621 ccaccagcgg gaaggtggtg cgttctgatg ctgggatcca ccagctgaca ggtggagctg1681 cgagcctcca gtgctcagcc ctcggcgggg cctgcctggc agccccacac acagagggca1741 tcggggtggc gggggcacgt gttacacggg ggccctgggt ctgagtcatc cacttcctcc1801 gagtctggat gggaggaccc agcgcccctc ctccgccccc tcctgatctg gaaggataaa1861 tggggagggg agagcccgct gggtagaagg aacagggagt ggccagggta agtccctact1921 ctcagagacc ctgacatcag tgtcacctgg agcagagtgg cccagcctca gactcagagc1981 accaagaccc aggcccgcag gcctggaccc accccggtcc ccccgtccca gctccattct2041 tcaccccaca atctgtagcc cccagccctg ccctgtgagg cccggccagg cccacgatgc2101 tcctccttgc tccccagatg ctgagcctgc tgctgctggc gctgcccgtc ctggcgagcc2161 cggcctacgc ggcccctggt gagtcccagc cggggtccac cctgcccctc accacattcc2221 acaggtcagg gcctgggtgg gttctgggga ggctgggctg gcccccacac agggaagggc2281 tgggcccagg cgtggggctg cttcctggtc ctgacctggc acctgcccca gccccagtcc2341 aggccctgca gcaagcgggt atcgtcgggg gtcaggaggc ccccaggagc aagtggccct2401 ggcaggtgag cctgagagtc cgcgaccgat actggatgca cttctgtggg ggctccctca2461 tccaccccca gtgggtgctg accgcggcgc actgcctggg accgtgagtc tcccagggcc2521 tggaggggtg ggcaagggct ggatgtgagc cctggctccc gggtgctcct gggggctgcc2581 cagggccctg agtgggatcc tccgctgccc agggacgtca aggatctggc caccctcagg2641 gtgcaactgc gggagcagca cctctactac caggaccagc tgctgccggt cagcaggatc2701 atcgtgcacc cacagttcta catcatccag actggagcgg atatcgccct gctggagctg2761 gaggagcccg tgaacatctc cagccgcgtc cacacggtca tgctgccccc tgcctcggag2821 accttccccc cggggatgcc gtgctgggtc actggctggg gcgatgtgga caatgatggt2881 gggtctgggg acagtgggag gtggggccag ggtcttagcc acagcccagc ccctgggctc2941 caggtggggg ttgcccggcc ccctcctcag gctgcaccct cttccccacc tgcagagccc3001 ctcccaccgc catttcccct gaagcaggtg aaggtcccca taatggaaaa ccacatttgt3061 gacgcaaaat accaccttgg cgcctacacg ggagacgacg tccgcatcat ccgtgacgac3121 atgctgtgtg ccgggaacac ccggagggac tcatgccagg tgggccccgc gtgtcccccg3181 ccccccgcac cccaaccccc actcccaggc ctgttcggcg agcgctgacc tctgaccttc3241 ccagggcgac tctggagggc ccctggtgtg caaggtgaat ggcacctggc tacaggcggg3301 cgtggtcagc tgggacgagg gctgtgccca gcccaaccgg cctggcatct acacccgtgt3361 cacctactac ttggactgga tccaccacta tgtccccaaa aagccgtgag tcaggcctgg3421 ggtgtccacc tgggtcactg gagagccagc ccctcctgtc caaaacacca ctgcttccta3481 cccaggtggc gactgccccc cacaccttcc ctgccccgtc ctgagtgccc cttcctgtcc3541 593601 gcccccttcc ctgtcctaag cctgacgcct gcactgggcc ctccggccct cccctgccca3661 ggcagctggt ggtgggcgct aatcctcctg agtgctggac ctcattaaag tgcatggaaa3721 tcactggtgt gcatcgctgt gtttctggtt gtggatgtca ctgggagaga aggggtccag3781 gtgtgctgag gacacctgcc acagtgcgag gtcctagccc tcaaggcaca gccagtcacc3841 gtgggacggg gcctcctggg cagccctggt ccccggggct ggcttctccc cacacgatgc3901 atccagcatt cgggtcacac agagccactc gggcaactca gttgattata aaggacagcc 398661 aagtccctgc aaccgggtca agacagagaa tggtcgccgg gagccccagg gctgcccatc4021 acgagcccct accccacgct tcccacgagc tcttctcccg gcccctctgt ccactgcttg tgctttgccc tagttgtttg ctttgagaca ggatctcgct gtgtcatcca ggctgaagtg4141 cagtggtgtg atcagggctc actgtagcct tgaactcctg ggctcaagcg atcctcccat4201 cttggcctcc catatagctg ggccacagga gtgagccacc acgcccagtt aatttttgta4261 ttttcagtag agatggggtt tcgccatgtt ggccagtctg gtctcgaact cctgacctca4321 agtgatctgc ccgcctcggc ctcccaaagt gctgggatga caggcgtgag ccaccgcacc4381 cagcctgagt ttgacatttt caaattcatt ttgaggtctt tctctacatc aatacatgag4441 ccctccgcgt ccggcgagtg ttgcatttta tcccgggctc ttgtttgcat tttatatttg4501 aacatgatta cattcaggaa tgaaatgcgg ggctgttctg gttgaaaaca actctctaaa4561 gaaacattca ctctttcctt ccaactgtca gatgcagaga tgtgcattta gtctctccaa4621 tctctgcaaa tgacctctgt cctcacaagg ggtggactcg acttccagcg ccctctccag4681 ccccacgtga cctctgcctc tgcagcccct gaaggcccat ccctcggctc ctgttctgca4741 ggcccagcgt cttgtctatg aagatggacc tggaactcgg gccctccttc ctccctctgg4801 cccatcccac cttctaggga tcacagagac agcacggggt gacccccagg gaacactgag4861 cccctagaag cacttccaca cgcccactgg aggttttgcg gggtgggagt cggagggatg4921 agaccccgaa gggaagcaag acggcccctc aggacagggc tgccggtgta aggaaaggtg4981 gacagcaggg gccggtcact gggtggaggg ggagggcagg ctccagcccc agagcttccc5041 aaattagatc taagatccct gggaagctca gtgaagctca gcgcagtgac actggcagat5101 gtgagcgtca gcttcagcag gaagggtctc tcaggacgtg acaggcaggc tgctggccag5161 ggctgcagcc acctgcgttt tgactgggac gggggcacct gatccaaggt cacccacgtg5221 gctgccggca ggaggccctg gttccccgtc acaagggggt gtgaggggga aggccaagtg5281 gtggccacan ggttnccacc gagagggaca gtgcccaagt tggccaagcc acctngggac 5341 aagaaacaat nccaagtctt nccaaggtcc ttggacaaca aggagaancc cccccagctt5401 gggccnataaccaagggc cangnccccc cttcccggtt c (2) SEQ ID NO: 2642 data: (i) sequence characteristics:

(A) length: 388 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2642 sequence description: 1 tggacccacc ccggtccccc cgtcccagct tccattcttc accccacaat ctgtagcccc 61 cagccctgcc ctgtgaggcc cggccaggcc cacgatgctc ctccttgctc cccagatgct 121 gaatctgctg ctgctggcgc tgcccgtcct ggcgagccgc gcctacgcgg cccctggtga 181 gtcccagccg gggtccaccc tgcccctcac cacattccac aggtcagggc ctgggtgggt 241 tctggggagg ccgggctggc ccccacacag ggaagggctg ggcccaggcc tggggctgct 301 tcctggtcct gacctggcac ctgccccagc cccaggccag gccctgcagc gagtgggcat 361 cgttgggggt caggaggccc ccaggagc (2) SEQ ID NO: 2643 data: (i) sequence characteristics:

(A) length: 1167 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2643 sequence description: 1 cagatcggag cggacatcgc cctgctggag ctggaggagc cggtgaaggt ctccagccac 61 gtccacacgg tcaccctgcc ccctgcctca gagaccttcc ccccggggat gccgtgctgg 121 gtcactggct ggggcgatgt ggacaatgat ggtgggtctg gggacagtgg aggtggggcc 181 agggtcttag ccacagccca gcccctgggc tccctctggg ctccaggtgg gggttgcccg 241 gccccctcct gaggctgcac cctcttcccc acctgcagag cgcctcccac cgccatttcc 301 tctgaagcag gtgaaggtcc ccataatgga aaaccacatt tgtgacgcaa aataccacct 361 tggcgcctac acgggagacg acgtccgcat cgtccgtgac gacatgctgt gtgccgggaa 421 cacccggagg gactcatgcc aggtgggccc cgcgtgtccc ccgccccccg caccccaacc 481 cccactccca ggcctgttcg gcgagcgctg acctctgacc ttcccagggc gactccggag 541 ggcccctggt gtgcaaggtg aatggcacct ggctgcaggc gggcgtggtc agctggggcg 601 agggctgtgc ccagcccaac cggcctggca tctacacccg tgtcacctac tacttggact 661 ggatccacca ctatgtcccc aaaaagccgt gagtcaggcc tgggttggcc acctgggtca 721 ctggaggacc aacccctgct gtccaaaaca ccactgcttc ctacccaggt ggcgactgcc 781 ccccacacct tccctgcccc gtcctgagtg ccccttcctg tcctaagccc cctgctctct 841 tctgagcccc ttcccctgtc ctgaggaccc ttccccatcc tgagccccct tccctgtcct 901 aagcctgacg cctgcactgg gccctccggc cctcccctgc ccaggcagct ggtggtgggc 961 gctaatcctc ctgagtgctg gacctcatta aagtgcatgg aaatcactgg tgtgcatcgc1021 tgtgtttctg gttgtggatg tcactgggag agaaggggtc caggtgtgct gaggacacct1081 gccacagtgt gaggtcctag ccctcaaggc acaagccagt caccgtggga cggggcctct1141 gggcagccct ggtccccgag ctggctt (2) SEQ ID NO: 2644 data: (i) sequence characteristics:

(A) length: 1143 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2644 sequence description: 1 ccaggatgct gaatctgctg ctgctggcgc tgcccgtcct ggcgagccgc gcctacgcgg 61 cccctgcccc aggccaggcc ctgcagcgag tgggcatcgt tgggggtcag gaggccccca 121 ggagcaagtg gccctggcag gtgagcctga gagtccacgg cccatactgg atgcacttct 181 gcgggggctc cctcatccac ccccagtggg tgctgaccgc agcgcactgc gtgggaccgg 241 acgtcaagga tctggccgcc ctcagggtgc aactgcggga gcagcacctc tactaccagg 301 accagctgct gccggtcagc aggatcatcg tgcacccaca gttctacacc gcccagatcg 361 gagcggacat cgccctgctg gagctggagg agccggtgaa ggtctccagc cacgtccaca 421 cggtcaccct gccccctgcc tcagagacct tccccccggg gatgccgtgc tgggtcactg 481 gctggggcga tgtggacaat gatgagcgcc tcccaccgcc atttcctctg aagcaggtga 541 aggtccccat aatggaaaac cacatttgtg acgcaaaata ccaccttggc gcctacacgg 601 gagacgacgt ccgcatcgtc cgtgacgaca tgctgtgtgc cgggaacacc cggagggact 661 catgccaggg cgactccgga gggcccctgg tgtgcaaggt gaatggcacc tggctgcagg 721 cgggcgtggt cagctggggc gagggctgtg cccagcccaa ccggcctggc atctacaccc 781 gtgtcaccta ctacttggac tggatccacc actatgtccc caaaaagccg tgagtcaggc 841 ctgggtgtgc cacctgggtc actggaggac caacccctgc tgtccaaaac accactgctt 901 cctacccagg tggcgactgc cccccacacc ttccctgccc cgtcctgagt gccccttcct 961 gtcctaagcc ccctgctctc ttctgagccc cttcccctgt cctgaggacc cttccccatc1021 ctgagccccc ttccctgtcc taagcctgac gcctgcactg ctccggccct cccctgccca1081 ggcagctggt ggtgggcgct aatcctcctg agtgctggac ctcattaaag tgcatggaaa1141 tca (2) SEQ ID NO: 2645 data: (i) sequence characteristics:

(A) length: 1145 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2645 sequence description: 1 ggccaggatg ctgaatctgc tgctgctggc gctgcccgtc ctggcgagcc gcgcctacgc 61 ggcccctgcc ccaggccagg ccctgcagcg agtgggcatc gttgggggtc aggaggcccc 121 caggagcaag tggccctggc aggtgagcct gagagtccac ggcccatact ggatgcactt 181 ctgcgggggc tccctcatcc acccccagtg ggtgctgacc gcagcgcact gcgtgggacc 241 ggacgtcaag gatctggccg ccctcagggt gcaactgcgg gagcagcacc tctactacca 301 ggaccagctg ctgccggtca gcaggatcat cgtgcaccca cagttctaca ccgcccagat 361 cggagcggac atcgccctgc tggagctgga ggagccggtg aaggtctcca gccacgtcca 421 cacggtcacc ctgccccctg cctcagagac cttccccccg gggatgccgt gctgggtcac 481 tggctggggc gatgtggaca atgatgagcg cctcccaccg ccatttcctc tgaagcaggt 541 gaaggtcccc ataatggaaa accacatttg tgacgcaaaa taccaccttg gcgcctacac 601 gggagacgac gtccgcatcg tccgtgacga catgctgtgt gccgggaaca cccggaggga 661 ctcatgccag ggcgactccg gagggcccct ggtgtgcaag gtgaatggca cctggctgca 721 ggcgggcgtg gtcagctggg gcgagggctg tgcccagccc aaccggcctg gcatctacac 781 ccgtgtcacc tactacttgg actggatcca ccactatgtc cccaaaaagc cgtgagtcag 841 gcctgggttg gccacctggg tcactggagg accaacccct gctgtccaaa acaccactgc 901 ttcctaccca ggtggcgact gccccccaca ccttccctgc cccgtcctga gtgccccttc 961 ctgtcctaag ccccctgctc tcttctgagc cccttcccct gtcctgagga cccttcccca1021 tcctgagccc ccttccctgt cctaagcctg acgcctgcac cgggccctcc ggccctcccc1081 tgcccaggca gctggtggtg ggcgctaatc ctcctgagtg ctggacctca ttaaagtgca1141 tggaa (2) SEQ ID NO: 2646 data: (i) sequence characteristics:

(A) length: 1137 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2646 sequence description: 1 tgaatctgct gctgctggcg ctgcccgtcc tggcgagccg cgcctacgcg gcccctgccc 61 caggccaggc cctgcagcga gtgggcatcg tcgggggtca ggaggccccc aggagcaagt 121 ggccctggca ggtgagcctg agagtccacg gcccatactg gatgcacttc tgcgggggct 181 721 tcagctgggg cgagggctgt gcccagccca accggcctgg catctacacc cgtgtcacct 781 181 ccctcatcca cccccagtgg gtgctgaccg cagcgcactg cgtgggaccg gacgtcaagg 241 atctggccgc cctcagggtg caactgcggg agcagcacct ctactaccag gaccagctgc 301 tgccggtcag caggatcatc gtgcacccac agttctacac cgcccagatc ggagcggaca 361 tcgccctgct ggagctggag gagccggtga acgtctccag ccacgtccac acggtcaccc 421 tgccccctgc ctcagagacc ttccccccgg ggatgccgtg ctgggtcact ggctggggcg 481 atgtggacaa tgatgagcgc ctcccaccgc catttcctct gaagcaggtg aaggtcccca 541 taatggaaaa ccacatttgt gacgcaaaat accaccttgg cgcctacacg ggagacgacg 601 tccgcatcgt ccgtgacgac atgctgtgtg ccgggaacac ccggagggac tcatgccagg 661 gcgactccgg agggcccctg gtgtgcaagg tgaatggcac ctggctgcag gcgggcgtgg 721 tcagctgggg cgagggctgt gcccagccca accggcctgg catctacacc cgtgtcacct 781 actacttgga ctggatccac cactatgtcc ccaaaaagcc gtgagtcagg cctgggttgg 841 ccacctgggt cactggagga ccaacccctg ctgtccaaaa caccactgct tcctacccag 901 gtggcgactg ccccccacac cttccctgcc ccgtcctgag tgccccttcc tgtcctaagc 961 cccctgctct cttctgagcc ccttcccctg tcctgaggac ccttccctat cctgagcccc1021 cttccctgtc ctaagcctga cgcctgcacc gggccctcca gccctcccct gcccagatag1081 ctggtggtgg gcgctaatcc tcctgagtgc tggacctcat taaagtgcat ggaaatc (2) SEQ ID NO: 2647 data: (i) sequence characteristics:

(A) length: 2197 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2647 sequence description: 1 accagctgac aggtggagct gccagtctcc agtgctcagc cctcagcggg gcctgcctgg 61 cagccccaca cacagagggc atcggggtgg cgggggcacg tgttacacgg gggccctggg 121 tctgagtcat ccacttcctc cgagtctgga tgggaggacc cagcgcccct cctccgcccc 181 721 cccccaggag caagtggccc tggcaggtga gcctgagagt ccacggccca tactggatgc 781 181 ctcctgatct ggaaggataa atggggaggg gagagccact gggtagaagg aacagggagt 241 ggccagggta agtccccact ctcagagacc ctgacatcag cgtcacctgg agcagagtgg 301 cccagcctca gactcagagc accaagaccc aggcccgcag gcctggaccc accccggtcc 361 ccccgtccca gctccattct tcaccccaca atctgtagcc cccagccctg ccctgtgagg 421 cccggccagg cccacgatgc tcctccttgc tccccagatg ctgaatctgc tgctgctggc 481 gctgcccgtc ctggcgagcc gcgcctacgc ggcccctggt gagtcccagc cggggtccac 541 cctgcccctc accacattcc acaggtcagg gcctgggtgg gttctgggga ggtcgggctg 601 gccccccaca cagggaaggg ctgggcccag gcctggggct gcttcctggt cctgacctgg 661 cacctgcccc agccccaggc caggccctgc agcgagtggg catcgtcggg ggtcaggagg 721 cccccaggag caagtggccc tggcaggtga gcctgagagt ccacggccca tactggatgc 781 acttctgcgg gggctccctc atccaccccc agtgggtgct gaccgcagcg cactgcgtgg 841 gaccgtgagt ctcccggggc ctggaggggt ggggaagggc tggatgtgag ccctggctcc 901 cgggtgctcc tgggggctgc ccagggccct gagtgggatc ctccgctgcc cagggacgtc 961 aaggatctgg ccgccctcag ggtgcaactg cgggagcagc acctctacta ccaggaccag1021 ctgctgccgg tcagcaggat catcgtgcac ccacagttct acaccgccca gatcggagcg1081 gacatcgccc tgctggagct ggaggagccg gtgaacgtct ccagccacgt ccacacggtc1141 accctgcccc ctgcctcaga gaccttcccc ccggggatgc cgtgctgggt cactggctgg1201 ggcgatgtgg acaatgatgg tgggtctggg gacagtggag gtggggccag ggtcttagcc1261 acagcccagc ccctgggtcc ctctgggctc caggtggggg ttgcccggcc ccctcctgag1321 gctgcaccct cttccccacc tgcagagcgc ctcccaccgc catttcctct gaagcaggtg1381 aaggtcccca taatggaaaa ccacatttgt gacgcaaaat accaccttgg cgcctacacg1441 ggagacgacg tccgcatcgt ccgtgacgac atgctgtgtg ccgggaacac ccggagggac1501 tcatgccagg tgggccccgc ctgtcccccg ccccccgccc cccaaccccc actcccaggc1561 ctgttcggcg agcgctgacc tctgaccttc ccagggcgac tccggagggc ccctggtgtg1621 caaggtgaat ggcacctggc tgcaggcggg cgtggtcagc tggggcgagg gctgtgccca1681 gcccaaccgg cctggcatct acacccgtgt cacctactac ttggactgga tccaccacta1741 tgtccccaaa aagccgtgag tcaggcctgg gttggccacc tgggtcactg gaggaccaac1801 ccctgctgtc caaaacacca ctgcttccta cccaggtggc gactgccccc cacaccttcc1861 ctgccccgtc ctgagtgccc cttcctgtcc taagccccct gctctcttct gagccccttc1921 ccctgtcctg aggacccttc cctatcctga gcccccttcc ctgtcctaag cctgacgcct1981 gcaccgggcc ctccagccct cccctgccca gatagctggt ggtgggcgct aatcctcctg2041 agtgctggac ctcattaaag tgcatggaaa tcactggtgt gcatcgctgt gtttctggtt2101 gtggatgtca ctgggagaga aggggtccag gtgtgctgag gacacctgcc acagtgtgag2161 gtcctagccc tcaaggcaca gccagtcacc gtgggac (2) SEQ ID NO: 2648 for data: (i) sequence characteristics:

(A) length: 1154 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2648 sequence description: 1 ggaattccgt ggccaggatg ctgagcctgc tgctgctggc gctgcccgtc ctggcgagcc 61 gcgcctacgc ggcccctgcc ccagtccagg ccctgcagca agcgggtatc gtcgggggtc 121 aggaggcccc caggagcaag tggccctggc aggtgagcct gagagtccgc gaccgatact 181 ggatgcactt ctgcgggggc tccctcatcc acccccagtg ggtgctgacc gcggcgcact 241 gcctgggacc ggacgtcaag gatctggcca ccctcagggt gcaactgcgg gagcagcacc 301 tctactacca ggaccagctg ctgccagtca gcaggatcat cgtgcaccca cagttctaca 361 tcatccagac tggagcggat atcgccctgc tggagctgga ggagcccgtg aacatctcca 421 gccgcgtcca cacggtcatg ctgccccctg cctcggagac cttccccccg gggatgccgt 481 gctgggtcac tggctggggc gatgtggaca atgatgagcc cctcccaccg ccatttcccc 541 tgaagcaggt gaaggtcccc ataatggaaa accacatttg tgacgcaaaa taccaccttg 601 gcgcctacac gggagacgac gtccgcatca tccgtgacga catgctgtgt gccgggaaca 661 gccagaggga ctcctgcaag ggcgactctg gagggcccct ggtgtgcaag gtgaatggca 721 cctggctaca ggcgggcgtg gtcagctggg acgagggctg tgcccagccc aaccggcctg 781 gcatctacac ccgtgtcacc tactacttgg actggatcca ccactatgtc cccaaaaagc 841 cgtgagtcag gcctgggtgt gccacctggg tcactggagg accaacccct gctgtccaaa 901 acaccactgc ttcctaccca ggtggcgact gccccccaca ccttccctgc cccgtcctga 961 gtgccccttc ctgtcctaag ccccctgctc tcttctgagc cccttcccct gtcctgagga1021 cccttcccca tcctgagccc ccttccctgt cctaagcctg acgcctgcac tgctccggcc1081 ctcccctgcc caggcagctg gtggtgggcg ctaatcctcc tgagtgctgg acctcattaa1141 agtgcatgga aatc (2) SEQ ID NO: 2649 data: (i) sequence characteristics:

(A) length: 1081 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2649 sequence description: 1 gctgcccgtc ctggcgagcc gcgcctacgc ggcccctgcc ccaggccagg ccctgcagcg 61 agtgggcatc gttgggggtc aggaggcccc caggagcaag tggccctggc aggtgagcct 121 gagagtccgc gaccgatact ggatgcactt ctgcgggggc tccctcatcc acccccagtg 181 721 tgcccagccc aaccggcctg gcatctacac ccgtgtcacc tactacttgg actggatcca 781 181 ggtgctgacc gcagcgcact gcgtgggacc ggacgtcaag gatctggccg ccctcagggt 241 gcaactgcgg gagcagcacc tctactacca ggaccagctg ctgccggtca gcaggatcat 301 cgtgcaccca cagttctaca ccgcccagat cggagcggac atcgccctgc tggagctgga 361 ggagccggtg aaggtctcca gccacgtcca cacggtcacc ctgccccctg cctcagagac 421 cttccccccg gggatgccgt gctgggtcac tggctggggc gatgtggaca atgatgagcg 481 cctcccaccg ccatttcctc tgaagcaggt gaaggtcccc ataatggaaa accacatttg 541 tgacgcaaaa taccaccttg gcgcctacac gggagacgac gtccgcatcg tccgtgacga 601 catgctgtgt gccgggaaca cccggaggga ctcatgccag ggcgactccg gagggcccct 661 ggtgtgcaag gtgaatggca cctggctgca ggcgggcgtg gtcagctggg gcgagggctg 721 tgcccagccc aaccggcctg gcatctacac ccgtgtcacc tactacttgg actggatcca 781 ccactatgtc cccaaaaagc cgtgagtcag gcctggggtg tccacctggg tcactggagg 841 accagcccct cctgtccaaa acaccactgc ttcctaccca ggcggcgact gccccccaca 901 ccttccctgc cccgtcctga gtgccccttc ctgtcctaag ccccctgctc tcttctgagc 961 cccttcccct gtcctgagga cccttcccca tcctgagccc ccttccctgt cctaagcctg1021 acgcctgcac cgggccctcc ggccctcccc tgcccaggca gctggtggtg ggcgctaatc1081 c (2) SEQ ID NO: 2650 data: (i) sequence characteristics:

(A) length: 2280 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2650 sequence description: 1 atctggaagc ataaatgggg aggggagagc ccactgggta gaaggaacag ggagcggcca 61 gggtaagtcc ccactctcag agaccctgac atcagcgtca cctggagcag agtggcccag 121 cttcagactc agagcaccaa gacccaggcc tgcaggcctg gacccacccc ggtccccccg 181 721 ctcctggggg ctgcccaggg ccctgagtgg gatcctccgc tgcccaggga cgtcaaggat 781 181 tcccagctcc attcttcacc ccacaatctg tagcccccag ccctgccctg tgaggcccgg 241 ccaggcccac gatgctcctc cttgctcccc agatgctgaa tctgctgctg ctggcgctgc 301 ccgtcctggc gagccgcgcc tacgcggccc ctggtgagtc ccagccgggg tccaccctgc 361 ccctcaccac attccacagg tcagggcctg ggtgggttct ggggaggtcg ggctggcccc 421 cacacaggga agggctgggc ccaggcctgg ggctgcttcc tggtcctgac ctggcacctg 481 ccccagcccc aggccaggcc ctgcagcgag tgggcatcgt tgggggtcag gaggccccca 541 ggagcaagtg gccctggcag gtgagcctga gagtccgcga ccgatactgg atgcacttct 601 gcgggggctc cctcatccac ccccagtggg tgctgaccgc agcgcactgc gtgggaccgt 661 gagtctcccg gggcctggag gggtggggaa gggctggatg tgagccctgg ctcccgggtg 721 ctcctggggg ctgcccaggg ccctgagtgg gatcctccgc tgcccaggga cgtcaaggat 781 ctggccgccc tcagggtgca actgcgggag cagcacctct actaccagga ccagctgctg 841 ccggtcagca ggatcatcgt gcacccacag ttctacaccg cccagatcgg agcggacatc 901 gccctgctgg agctggagga gccggtgaac gtctccagcc acgtccacac ggtcaccctg 961 ccccctgcct cagagacctt ccccccgggg atgccgtgct gggtcactgg ctggggcgat1021 gtggacaatg atggtgggtc tggggacagt ggaggtgggg ccagggtctt agccacagcc1081 cagcccctgg gctccctctg ggctccaggt gggggttgcc cggccccctc ctgaggctgc1141 accctcttcc ccacctgcag agcgcctccc accgccattt cctctgaagc aggtgaaggt1201 ccccataatg gaaaaccaca tttgtgacgc aaaataccac cttggcgcct acacgggaga1261 cgacgtccgc atcgtccgtg acgacatgct gtgtgccggg aacacccgga gggactcatg1321 ccaggtgggc cccgcctgtc ccccgccccc cgccccccaa cccccactcc caggcctgtt1381 cggcgagcgc tgacctctga ccttcccagg gcgactccgg agggcccctg gtgtgcaagg1441 tgaatggcac ctggctgcag gcgggcgtgg tcagctgggg cgagggctgt gcccagccca1501 accggcctgg catctacacc cgtgtcacct actacttgga ctggatccac cactatgtcc1561 ccaaaaagcc gtgagtcagg cctggggtgt ccacctgggt cactggagag ccagcccctc1621 ctgtccaaaa caccactgct tcctacccag gtggcgactg ccccccacac cttccctgcc1681 ccgtcctgag tgccccttcc tgtcctaagc cccctgctct cttctgagcc ccttcccctg1741 tcctgaggac ccttccccat cctgagcccc cttccctgtc ctaagcctga cgcctgcacc1801 gggccctccg gccctcccct gcccaggcag ctggtggtgg gcgctaatcc tcctgagtgc1861 tggacctcat taaagtgcat ggaaatcact ggtgtgcatc gctgtgtttc tggttgtgga1921 tgtcactggg agagaagggg tccaggtgtg ctgaggacac ctgccacagt gtgaggtcct1981 agccctcaag gcacagccag tcaccgtggg acggggcctc ctgggcagcc ctggtccccg2041 aggctggctt ctccccacac gatgcatcca gcattcgggt cacacagagc cactcgggca2101 actcagttga ttataaagga cagccaggtc cctgcaaccg ggtcaagaca gaaatggtca2161 ccgggaaccc cagggctgcc catcacgagc ccctacccca cgcttcccac gagctcttct2221 cccggccctc ccgtccatgc ttgtgctttg cctaattgtt tgcttttgag aacgggattg (2) SEQ ID NO: 2651 data: (i) sequence characteristics:

(A) length: 17133 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2651 sequence description: 1 gggtctcaag gaatctttat tctgcgtctt cattctgaac tggatggaac cttcctgagc 61 gcagagtcct ttccactgtg aattatgggt ttgttatcgt ttttgttcgt tgctggttgt 121 acgtgacggg agttcagctt tttgctgcgg gacggcagag ataggatgcg gggcttcctg 181 721 gtcccccggg gggtgcagcc cggaaggagt ccagatggat atggccccgc agtgcagagt 781 181 agaggcgccg gggcagggcc gcacaggtcc atccacctcc cctgggaccc cagccctgca 241 gcagccccag gggagcggcc ggggatcggg gcggggtgcc caggacgcgc cctgattggc 301 ccagtgttag ccaatcaagg ctctcgcatc cccatggtgc tgattggtcc gcctcccagg 361 cctgacccaa tcggagcatt cctaggagga gcggccccag agcgcctgac tcgggggtcc 421 cagagccctc tgcacaccac agccccggtg tccccgtgtg tccctgggtt ctcccagccc 481 tggtgtcccc tgagtctctt cttcaccgtc agccctggtg tctcccgtgt ccctgccaca 541 ccctcatccc tggtgtcccc cgtcacccca tcccctcacc tcctgggctc ctgaaggtcc 601 catcttgtgg gcctcattca tggaaccagg acggggcagg tggaggcctc tggggagttt 661 gtccagagaa tggaggagaa gcagggtcat gagcaggagc ggtctgggcc acccctgcct 721 gtcccccggg gggtgcagcc cggaaggagt ccagatggat atggccccgc agtgcagagt 781 cagccccaaa ccaggctggt cccaggcagg gtgggggcag gaggagcccc ggagtggccc 841 tgtgttgggg gtcggggggc aggcaggggg tcctggggct cagaagcgga ggaggtgggc 901 tggaggcccc agtgaccaac aggcccacgg gagtcgggag gtggggtgga cggacctgca 961 gggacagtgt cagcgctgaa tgggatggag agcacaggga gctggggccg gggatgagac1021 catggggagc tggggctggg gctgggacta gtccatgggg agctggggct gaagttgggg1081 gtgagtccat ggggagctgg gctgggcctc ctggggttgc acctgcactc ctctctgctc1141 ttccctctgc gtatgaagct cagatcccat gataaggagg cacctgcaga ccaggggacc1201 tgcacggaca gccccagagg tggacattga ggactcgtag gaggacttgg gtctcatacg1261 gcgggtgggg agcagggccc cttcctggct gaggacactt ggtgctgtcc cctctcaagg1321 ctgtttcccc atctgacaaa ggggtctcat gtgagccccc aaccaagtga gtcgaggagg1381 gctggcccca cccccgtgga tttggagtcc gtaggagggg tgtcacccgt cacgtcccca1441 ccccgtgggc accttcccgt ctcttggagc gtggcccatg gacatgagtt cctcacccgt1501 gtccctcttg gggaaacagg tttcaggagc gacgggtctt gtagcctggg gcagccaggc1561 cacctgggtg cagctatgcc tgaaggcctc ctggcaccga gacaggggca ggagcagatc1621 ccaccagcgg gaaggtggtg cgttctgatg ctgggatcca ccagctgaca ggtggagctg1681 cgagcctcca gtgctcagcc ctcggcgggg cctgcctggc agccccacac acagagggca1741 tcggggtggc gggggcacgt gttacacggg ggccctgggt ctgagtcatc cacttcctcc1801 gagtctggat gggaggaccc agcgcccctc ctccgccccc tcctgatctg gaaggataaa1861 tggggagggg agagcccgct gggtagaagg aacagggagt ggccagggta agtccctact1921 ctcagagacc ctgacatcag tgtcacctgg agcagagtgg cccagcctca gactcagagc1981 accaagaccc aggcccgcag gcctggaccc accccggtcc ccccgtccca gctccattct2041 tcaccccaca atctgtagcc cccagccctg ccctgtgagg cccggccagg cccacgatgc2101 tcctccttgc tccccagatg ctgagcctgc tgctgctggc gctgcccgtc ctggcgagcc2161 cggcctacgc ggcccctggt gagtcccagccggggtccac cctgcccctc accacattcc2221 acaggtcagg gcctgggtgg gttctgggga ggctgggctg gcccccacac agggaagggc2281 tgggcccagg cgtggggctg cttcctggtc ctgacctggc acctgcccca gccccagtcc2341 aggccctgca gcaagcgggt atcgtcgggg gtcaggaggc ccccaggagc aagtggccct2401 ggcaggtgag cctgagagtc cgcgaccgat actggatgca cttctgtggg ggctccctca2461 tccaccccca gtgggtgctg accgcggcgc actgcctggg accgtgagtc tcccagggcc2521 tggaggggtg ggcaagggct ggatgtgagc cctggctccc gggtgctcct gggggctgcc2581 cagggccctg agtgggatcc tccgctgccc agggacgtca aggatctggc caccctcagg2641 gtgcaactgc gggagcagca cctctactac caggaccagc tgctgccggt cagcaggatc2701 atcgtgcacc cacagttcta catcatccag actggagcgg atatcgccct gctggagctg2761 gaggagcccg tgaacatctc cagccgcgtc cacacggtca tgctgccccc tgcctcggag2821 accttccccc cggggatgcc gtgctgggtc actggctggg gcgatgtgga caatgatggt2881 gggtctgggg acagtgggag gtggggccag ggtcttagcc acagcccagc ccctgggctc2941 caggtggggg ttgcccggcc ccctcctcag gctgcaccct cttccccacc tgcagagccc3001 ctcccaccgc catttcccct gaagcaggtg aaggtcccca taatggaaaa ccacatttgt3061 gacgcaaaat accaccttgg cgcctacacg ggagacgacg tccgcatcat ccgtgacgac3121 atgctgtgtg ccgggaacac ccggagggac tcatgccagg tgggccccgc gtgtcccccg3181 ccccccgcac cccaaccccc actcccaggc ctgttcggcg agcgctgacc tctgaccttc3241 ccagggcgac tctggagggc ccctggtgtg caaggtgaat ggcacctggc tacaggcggg3301 cgtggtcagc tgggacgagg gctgtgccca gcccaaccgg cctggcatct acacccgtgt3361 cacctactac ttggactgga tccaccacta tgtccccaaa aagccgtgag tcaggcctgg3421 ggtgtccacc tgggtcactg gagagccagc ccctcctgtc caaaacacca ctgcttccta3481 cccaggtggc gactgccccc cacaccttcc ctgccccgtc ctgagtgccc cttcctgtcc3541 593601 gcccccttcc ctgtcctaag cctgacgcct gcactgggcc ctccggccct cccctgccca3661 ggcagctggt ggtgggcgct aatcctcctg agtgctggac ctcattaaag tgcatggaaa3721 tcactggtgt gcatcgctgt gtttctggtt gtggatgtca ctgggagaga aggggtccag3781 gtgtgctgag gacacctgcc acagtgcgag gtcctagccc tcaaggcaca gccagtcacc3841 gtgggacggg gcctcctggg cagccctggt ccccggggct ggcttctccc cacacgatgc3901 atccagcatt cgggtcacac agagccactc gggcaactca gttgattata aaggacagcc 398661 aagtccctgc aaccgggtca agacagagaa tggtcgccgg gagccccagg gctgcccatc4021 acgagcccct accccacgct tcccacgagc tcttctcccg gcccctctgt ccactgcttg tgctttgccc tagttgtttg ctttgagaca ggatctcgct gtgtcatcca ggctgaagtg4141 cagtggtgtg atcagggctc actgtagcct tgaactcctg ggctcaagcg atcctcccat4201 cttggcctcc catatagctg ggccacagga gtgagccacc acgcccagtt aatttttgta4261 ttttcagtag agatggggtt tcgccatgtt ggccagtctg gtctcgaact cctgacctca4321 agtgatctgc ccgcctcggc ctcccaaagt gctgggatga caggcgtgag ccaccgcacc4381 cagcctgagt ttgacatttt caaattcatt ttgaggtctt tctctacatc aatacatgag4441 ccctccgcgt ccggcgagtg ttgcatttta tcccgggctc ttgtttgcat tttatatttg4501 aacatgatta cattcaggaa tgaaatgcgg ggctgttctg gttgaaaaca actctctaaa4561 gaaacattca ctctttcctt ccaactgtca gatgcagaga tgtgcattta gtctctccaa4621 tctctgcaaa tgacctctgt cctcacaagg ggtggactcg acttccagcg ccctctccag4681 ccccacgtga cctctgcctc tgcagcccct gaaggcccat ccctcggctc ctgttctgca4741 ggcccagcgt cttgtctatg aagatggacc tggaactcgg gccctccttc ctccctctgg4801 cccatcccac cttctaggga tcacagagac agcacggggt gacccccagg gaacactgag4861 cccctagaag cacttccaca cgcccactgg aggttttgcg gggtgggagt cggagggatg4921 agaccccgaa gggaagcaag acggcccctc aggacagggc tgccggtgta aggaaaggtg4981 gacagcaggg gccggtcact gggtggaggg ggagggcagg ctccagcccc agagcttccc5041 aaattagatc taagatccct gggaagctca gtgaagctca gcgcagtgac actggcagat5101 gtgagcgtca gcttcagcag gaagggtctc tcaggacgtg acaggcaggc tgctggccag5161 ggctgcagcc acctgcgttt tgactgggac gggggcacct gatccaaggt cacccacgtg5221 gctgccggca ggaggccctg gttccccgtc acaagggggt gtgaggggga aggccaagtg5281 gtggccacan ggtnccacc gagagggaca gtgcccaagt tggccaagcc acctngggac 5341 aagaaacaat nccaagtctt nccaaggtcc ttggacaaca aggagaancc cccccagctt5401 gggcgcnatt aaccaagggc cangnccccc cttcccggtt c1 tggacccacc ccggtccccc cgtcccagct tccattcttc accccacaat ctgtagcccc 61 cagccctgcc ctgtgaggcc cggccaggcc cacgatgctc ctccttgctc cccagatgct 121 gaatctgctg ctgctggcgc tgcccgtcct ggcgagccgc gcctacgcgg cccctggtga 181 gtcccagccg gggtccaccc tgcccctcac cacattccac aggtcagggc ctgggtgggt 241 tctggggagg ccgggctggc ccccacacag ggaagggctg ggcccaggcc tggggctgct 301 tcctggtcct gacctggcac ctgccccagc cccaggccag gccctgcagc gagtgggcat 361 cgttgggggt caggaggccc ccaggagc 1 cagatcggag cggacatcgc cctgctggag ctggaggagc cggtgaaggt ctccagccac 61 gtccacacgg tcaccctgcc ccctgcctca gagaccttcc ccccggggat gccgtgctgg 121 gtcactggct ggggcgatgt ggacaatgat ggtgggtctg gggacagtgg aggtggggcc 181 agggtcttag ccacagccca gcccctgggc tccctctggg ctccaggtgg gggttgcccg 241 gccccctcct gaggctgcac cctcttcccc acctgcagag cgcctcccac cgccatttcc 301 tctgaagcag gtgaaggtcc ccataatgga aaaccacatt tgtgacgcaa aataccacct 361 tggcgcctac acgggagacg acgtccgcat cgtccgtgac gacatgctgt gtgccgggaa 421 cacccggagg gactcatgcc aggtgggccc cgcgtgtccc ccgccccccg caccccaacc 481 cccactccca ggcctgttcg gcgagcgctg acctctgacc ttcccagggc gactccggag 541 ggcccctggt gtgcaaggtg aatggcacct ggctgcaggc gggcgtggtc agctggggcg 601 agggctgtgc ccagcccaac cggcctggca tctacacccg tgtcacctac tacttggact 661 ggatccacca ctatgtcccc aaaaagccgt gagtcaggcc tgggttggcc acctgggtca 721 8284 781 721 ctggaggacc aacccctgct gtccaaaaca ccactgcttc ctacccaggt ggcgactgcc 781 ccccacacct tccctgcccc gtcctgagtg ccccttcctg tcctaagccc cctgctctct 841 tctgagcccc ttcccctgtc ctgaggaccc ttccccatcc tgagccccct tccctgtcct 901 aagcctgacg cctgcactgg gccctccggc cctcccctgc ccaggcagct ggtggtgggc 961 gctaatcctc ctgagtgctg gacctcatta aagtgcatgg aaatcactgg tgtgcatcgc1021 tgtgtttctg gttgtggatg tcactgggag agaaggggtc caggtgtgct gaggacacct1081 tgtgtttctg gttgtggatg tcactgggag agaaggggtc caggtgtgct gaggacacct gccacagtgt gaggtcctag ccctcaaggc acaagccagt caccgtggga cggggcctct1141 gggcagccct ggtccccgag ctggctt 1 ccaggatgct gaatctgctg ctgctggcgc tgcccgtcct ggcgagccgc gcctacgcgg 61 cccctgcccc aggccaggcc ctgcagcgag tgggcatcgt tgggggtcag gaggccccca 121 ggagcaagtg gccctggcag gtgagcctga gagtccacgg cccatactgg atgcacttct 181 gcgggggctc cctcatccac ccccagtggg tgctgaccgc agcgcactgc gtgggaccgg 241 acgtcaagga tctggccgcc ctcagggtgc aactgcggga gcagcacctc tactaccagg 301 accagctgct gccggtcagc aggatcatcg tgcacccaca gttctacacc gcccagatcg 361 gagcggacat cgccctgctg gagctggagg agccggtgaa ggtctccagc cacgtccaca cggtcaccct gccccctgcc tcagagacct tccccccggg gatgccgtgc tgggtcactg 481 gctggggcga tgtggacaat gatgagcgcc tcccaccgcc atttcctctg aagcaggtga 541 aggtccccat aatggaaaac cacatttgtg acgcaaaata ccaccttggc gcctacacgg 601 gagacgacgt ccgcatcgtc cgtgacgaca tgctgtgtgc cgggaacacc cggagggact 661 catgccaggg cgactccgga gggcccctgg tgtgcaaggt gaatggcacc tggctgcagg cgggcgtggt cagctggggc gagggctgtg cccagcccaa ccggcctggc atctacaccc 781 gtgtcaccta ctacttggac tggatccacc actatgtccc caaaaagccg tgagtcaggc 841 ctgggtgtgc cacctgggtc actggaggac caacccctgc tgtccaaaac accactgctt 901 cctacccagg tggcgactgc cccccacacc ttccctgccc cgtcctgagt gccccttcct 961 581021 ctgagccccc ttccctgtcc taagcctgac gcctgcactg ctccggccct cccctgccca1081 ggcagctggt ggtgggcgct aatcctcctg agtgctggac ctcattaaag tgcatggaaa1141 tca 1 ggccaggatg ctgaatctgc tgctgctggc gctgcccgtc ctggcgagcc gcgcctacgc 61 ggcccctgcc ccaggccagg ccctgcagcg agtgggcatc gttgggggtc aggaggcccc 121 caggagcaag tggccctggc aggtgagcct gagagtccac ggcccatact ggatgcactt 181 ctgcgggggc tccctcatcc acccccagtg ggtgctgacc gcagcgcact gcgtgggacc 241 ggacgtcaag gatctggccg ccctcagggt gcaactgcgg gagcagcacc tctactacca 301 ggaccagctg ctgccggtca gcaggatcat cgtgcaccca cagttctaca ccgcccagat 361 cggagcggac atcgccctgc tggagctgga ggagccggtg aaggtctcca gccacgtcca 421 cacggtcacc ctgccccctg cctcagagac cttccccccg gggatgccgt gctgggtcac 481 tggctggggc gatgtggaca atgatgagcg cctcccaccg ccatttcctc tgaagcaggt 541 gaaggtcccc ataatggaaa accacatttg tgacgcaaaa taccaccttg gcgcctacac 601 gggagacgac gtccgcatcg tccgtgacga catgctgtgt gccgggaaca cccggaggga 661 ctcatgccag ggcgactccg gagggcccct ggtgtgcaag gtgaatggca cctggctgca 721 ggcgggcgtg gtcagctggg gcgagggctg tgcccagccc aaccggcctg gcatctacac 781 ccgtgtcacc tactacttgg actggatcca ccactatgtc cccaaaaagc cgtgagtcag 841 gcctgggttg gccacctggg tcactggagg accaacccct gctgtccaaa acaccactgc 901 ttcctaccca ggtggcgact gccccccaca ccttccctgc cccgtcctga gtgccccttc 961 ctgtcctaag ccccctgctc tcttctgagc cccttcccct gtcctgagga cccttcccca1021 tcctgagccc ccttccctgt cctaagcctg acgcctgcac cgggccctcc ggccctcccc1081 tgcccaggca gctggtggtg ggcgctaatc ctcctgagtg ctggacctca ttaaagtgca1141 tggaa 1 tgaatctgct gctgctggcg ctgcccgtcc tggcgagccg cgcctacgcg gcccctgccc 61 caggccaggc cctgcagcga gtgggcatcg tcgggggtca ggaggccccc aggagcaagt 121 ggccctggca ggtgagcctg agagtccacg gcccatactg gatgcacttc tgcgggggct 181 ccctcatcca cccccagtgg gtgctgaccg cagcgcactg cgtgggaccg gacgtcaagg 241 atctggccgc cctcagggtg caactgcggg agcagcacct ctactaccag gaccagctgc 301 tgccggtcag caggatcatc gtgcacccac agttctacac cgcccagatc ggagcggaca 361 tcgccctgct ggagctggag gagccggtga acgtctccag ccacgtccac acggtcaccc 421 tgccccctgc ctcagagacc ttccccccgg ggatgccgtg ctgggtcact ggctggggcg 481 atgtggacaa tgatgagcgc ctcccaccgc catttcctct gaagcaggtg aaggtcccca 541 taatggaaaa ccacatttgt gacgcaaaat accaccttgg cgcctacacg ggagacgacg 601 tccgcatcgt ccgtgacgac atgctgtgtg ccgggaacac ccggagggac tcatgccagg 661 gcgactccgg agggcccctg gtgtgcaagg tgaatggcac ctggctgcag gcgggcgtgg 721 tcagctgggg cgagggctgt gcccagccca accggcctgg catctacacc cgtgtcacct 781 actacttgga ctggatccac cactatgtcc ccaaaaagcc gtgagtcagg cctgggttgg 841 ccacctgggt cactggagga ccaacccctg ctgtccaaaa caccactgct tcctacccag 901 gtggcgactg ccccccacac cttccctgcc ccgtcctgag tgccccttcc tgtcctaagc 961 cccctgctct cttctgagcc ccttcccctg tcctgaggac ccttccctat cctgagcccc1021 cttccctgtc ctaagcctga cgcctgcacc gggccctcca gccctcccct gcccagatag1081 ctggtggtgg gcgctaatcc tcctgagtgc tggacctcat taaagtgcat ggaaatc 1 accagctgac aggtggagct gccagtctcc agtgctcagc cctcagcggg gcctgcctgg 61 cagccccaca cacagagggc atcggggtgg cgggggcacg tgttacacgg gggccctggg 121 tctgagtcat ccacttcctc cgagtctgga tgggaggacc cagcgcccct cctccgcccc 181 ctcctgatct ggaaggataa atggggaggg gagagccact gggtagaagg aacagggagt 241 ggccagggta agtccccact ctcagagacc ctgacatcag cgtcacctgg agcagagtgg 301 cccagcctca gactcagagc accaagaccc aggcccgcag gcctggaccc accccggtcc 361 ccccgtccca gctccattct tcaccccaca atctgtagcc cccagccctg ccctgtgagg 421 cccggccagg cccacgatgc tcctccttgc tccccagatg ctgaatctgc tgctgctggc 481 gctgcccgtc ctggcgagcc gcgcctacgc ggcccctggt gagtcccagc cggggtccac 541 cctgcccctc accacattcc acaggtcagg gcctgggtgg gttctgggga ggtcgggctg 601 gccccccaca cagggaaggg ctgggcccag gcctggggct gcttcctggt cctgacctgg 661 cacctgcccc agccccaggc caggccctgc agcgagtggg catcgtcggg ggtcaggagg 721 cccccaggag caagtggccc tggcaggtga gcctgagagt ccacggccca tactggatgc 781 acttctgcgg gggctccctc atccaccccc agtgggtgct gaccgcagcg cactgcgtgg 841 gaccgtgagt ctcccggggc ctggaggggt ggggaagggc tggatgtgag ccctggctcc 901 cgggtgctcc tgggggctgc ccagggccct gagtgggatc ctccgctgcc cagggacgtc 961 aaggatctgg ccgccctcag ggtgcaactg cgggagcagc acctctacta ccaggaccag1021 ctgctgccgg tcagcaggat catcgtgcac ccacagttct acaccgccca gatcggagcg1081 gacatcgccc tgctggagct ggaggagccg gtgaacgtct ccagccacgt ccacacggtc1141 accctgcccc ctgcctcaga gaccttcccc ccggggatgc cgtgctgggt cactggctgg1201 ggcgatgtgg acaatgatgg tgggtctggg gacagtggag gtggggccag ggtcttagcc1261 acagcccagc ccctgggtcc ctctgggctc caggtggggg ttgcccggcc ccctcctgag1321 gctgcaccct cttccccacc tgcagagcgc ctcccaccgc catttcctct gaagcaggtg1381 aaggtcccca taatggaaaa ccacatttgt gacgcaaaat accaccttgg cgcctacacg1441 ggagacgacg tccgcatcgt ccgtgacgac atgctgtgtg ccgggaacac ccggagggac1501 tcatgccagg tgggccccgc ctgtcccccg ccccccgccc cccaaccccc actcccaggc1561 ctgttcggcg agcgctgacc tctgaccttc ccagggcgac tccggagggc ccctggtgtg1621 caaggtgaat ggcacctggc tgcaggcggg cgtggtcagc tggggcgagg gctgtgccca1681 gcccaaccgg cctggcatct acacccgtgt cacctactac ttggactgga tccaccacta1741 tgtccccaaa aagccgtgag tcaggcctgg gttggccacc tgggtcactg gaggaccaac1801 ccctgctgtc caaaacacca ctgcttccta cccaggtggc gactgccccc cacaccttcc1861 ctgccccgtc ctgagtgccc cttcctgtcc taagccccct gctctcttct gagccccttc1921 ccctgtcctg aggacccttc cctatcctga gcccccttcc ctgtcctaag cctgacgcct1981 gcaccgggcc ctccagccct cccctgccca gatagctggt ggtgggcgct aatcctcctg2041 agtgctggac ctcattaaag tgcatggaaa tcactggtgt gcatcgctgt gtttctggtt2101 gtggatgtca ctgggagaga aggggtccag gtgtgctgag gacacctgcc acagtgtgag2161 gtcctagccc tcaaggcaca gccagtcacc gtgggac 1 ggaattccgt ggccaggatg ctgagcctgc tgctgctggc gctgcccgtc ctggcgagcc 61 gcgcctacgc ggcccctgcc ccagtccagg ccctgcagca agcgggtatc gtcgggggtc 121 aggaggcccc caggagcaag tggccctggc aggtgagcct gagagtccgc gaccgatact 181 ggatgcactt ctgcgggggc tccctcatcc acccccagtg ggtgctgacc gcggcgcact 241 gcctgggacc ggacgtcaag gatctggcca ccctcagggt gcaactgcgg gagcagcacc 301 tctactacca ggaccagctg ctgccagtca gcaggatcat cgtgcaccca cagttctaca 361 tcatccagac tggagcggat atcgccctgc tggagctgga ggagcccgtg aacatctcca 421 gccgcgtcca cacggtcatg ctgccccctg cctcggagac cttccccccg gggatgccgt 481 gctgggtcac tggctggggc gatgtggaca atgatgagcc cctcccaccg ccatttcccc 541 tgaagcaggt gaaggtcccc ataatggaaa accacatttg tgacgcaaaa taccaccttg 601 gcgcctacac gggagacgac gtccgcatca tccgtgacga catgctgtgt gccgggaaca 661 gccagaggga ctcctgcaag ggcgactctg gagggcccct ggtgtgcaag gtgaatggca 721 39 721 cctggctaca ggcgggcgtg gtcagctggg acgagggctg tgcccagccc aaccggcctg 781 gcatctacac ccgtgtcacc tactacttgg actggatcca ccactatgtc cccaaaaagc 841 cgtgagtcag gcctgggtgt gccacctggg tcactggagg accaacccct gctgtccaaa 901 acaccactgc ttcctaccca ggtggcgact gccccccaca ccttccctgc cccgtcctga 961 gtgccccttc ctgtcctaag ccccctgctc tcttctgagc cccttcccct gtcctgagga1021 cccttcccca tcctgagccc ccttccctgt cctaagcctg acgcctgcac tgctccggcc1081 ctcccctgcc caggcagctg gtggtgggcg ctaatcctcc tgagtgctgg acctcattaa1141 agtgcatgga aatc1 gctgcccgtc ctggcgagcc gcgcctacgc ggcccctgcc ccaggccagg ccctgcagcg 61 agtgggcatc gttgggggtc aggaggcccc caggagcaag tggccctggc aggtgagcct 121 gagagtccgc gaccgatact ggatgcactt ctgcgggggc tccctcatcc acccccagtg 181 ggtgctgacc gcagcgcact gcgtgggacc ggacgtcaag gatctggccg ccctcagggt 241 gcaactgcgg gagcagcacc tctactacca ggaccagctg ctgccggtca gcaggatcat 301 cgtgcaccca cagttctaca ccgcccagat cggagcggac atcgccctgc tggagctgga 361 ggagccggtg aaggtctcca gccacgtcca cacggtcacc ctgccccctg cctcagagac 421 cttccccccg gggatgccgt gctgggtcac tggctggggc gatgtggaca atgatgagcg 481 cctcccaccg ccatttcctc tgaagcaggt gaaggtcccc ataatggaaa accacatttg 541 tgacgcaaaa taccaccttg gcgcctacac gggagacgac gtccgcatcg tccgtgacga 601 catgctgtgt gccgggaaca cccggaggga ctcatgccag ggcgactccg gagggcccct 661 ggtgtgcaag gtgaatggca cctggctgca ggcgggcgtg gtcagctggg gcgagggctg 721 tgcccagccc aaccggcctg gcatctacac ccgtgtcacc tactacttgg actggatcca 781 ccactatgtc cccaaaaagc cgtgagtcag gcctggggtg tccacctggg tcactggagg 841 accagcccct cctgtccaaa acaccactgc ttcctaccca ggcggcgact gccccccaca 901 ccttccctgc cccgtcctga gtgccccttc ctgtcctaag ccccctgctc tcttctgagc 961 cccttcccct gtcctgagga cccttcccca tcctgagccc ccttccctgt cctaagcctg1021 acgcctgcac cgggccctcc ggccctcccc tgcccaggca gctggtggtg ggcgctaatc1081 c1 atctggaagc ataaatgggg aggggagagc ccactgggta gaaggaacag ggagcggcca gggtaagtcc ccactctcag agaccctgac atcagcgtca cctggagcag agtggcccag cttcagactc agagcaccaa gacccaggcc tgcaggcctg gacccacccc ggtccccccg 181 tcccagctcc attcttcacc ccacaatctg tagcccccag ccctgccctg tgaggcccgg 241 ccaggcccac gatgctcctc cttgctcccc agatgctgaa tctgctgctg ctggcgctgc ccgtcctggc gagccgcgcc tacgcggccc ctggtgagtc ccagccgggg tccaccctgc 361 ccctcaccac attccacagg tcagggcctg ggtgggttct ggggaggtcg ggctggcccc 421 cacacaggga agggctgggc ccaggcctgg ggctgcttcc tggtcctgac ctggcacctg 481 ccccagcccc aggccaggcc ctgcagcgag tgggcatcgt tgggggtcag gaggccccca 541 ggagcaagtg gccctggcag gtgagcctga gagtccgcga ccgatactgg atgcacttct 601 gcgggggctc cctcatccac ccccagtggg tgctgaccgc agcgcactgc gtgggaccgt 661 gagtctcccg gggcctggag gggtggggaa gggctggatg tgagccctgg ctcccgggtg 721 ctcctggggg ctgcccaggg ccctgagtgg gatcctccgc tgcccaggga cgtcaaggat 781 ctggccgccc tcagggtgca actgcgggag cagcacctct actaccagga ccagctgctg 841 ccggtcagca ggatcatcgt gcacccacag ttctacaccg cccagatcgg agcggacatc 901 gccctgctgg agctggagga gccggtgaac gtctccagcc acgtccacac ggtcaccctg 961 ccccctgcct cagagacctt ccccccgggg atgccgtgct gggtcactgg ctggggcgat1021 gtggacaatg atggtgggtc tggggacagt ggaggtgggg ccagggtctt agccacagcc1081 cagcccctgg gctccctctg ggctccaggt gggggttgcc cggccccctc ctgaggctgc1141 accctcttcc ccacctgcag agcgcctccc accgccattt cctctgaagc aggtgaaggt1201 ccccataatg gaaaaccaca tttgtgacgc aaaataccac cttggcgcct acacgggaga1261 cgacgtccgc atcgtccgtg acgacatgct gtgtgccggg aacacccgga gggactcatg1321 ccaggtgggc cccgcctgtc ccccgccccc cgccccccaa cccccactcc caggcctgtt1381 cggcgagcgc tgacctctga ccttcccagg gcgactccgg agggcccctg gtgtgcaagg1441 tgaatggcac ctggctgcag gcgggcgtgg tcagctgggg cgagggctgt gcccagccca1501 accggcctgg catctacacc cgtgtcacct actacttgga ctggatccac cactatgtcc1561 ccaaaaagcc gtgagtcagg cctggggtgt ccacctgggt cactggagag ccagcccctc1621 ctgtccaaaa caccactgct tcctacccag gtggcgactg ccccccacac cttccctgcc1681 ccgtcctgag tgccccttcc tgtcctaagc cccctgctct cttctgagcc ccttcccctg1741 5818024 gggccctccg gccctcccct gcccaggcag ctggtggtgg gcgctaatcc tcctgagtgc1861 tggacctcat taaagtgcat ggaaatcact ggtgtgcatc gctgtgtttc tggttgtgga1921 tgtcactggg agagaagggg tccaggtgtg ctgaggacac ctgccacagt gtgaggtcct1981 agccctcaag gcacagccag tcaccgtggg acggggcctc ctgggcagcc ctggtccccg2041 aggctggctt ctccccacac gatgcatcca gcattcgggt cacacagagc cactcgggca2101 actcagttga ttataaagga cagccaggtc cctgcaaccg ggtcaagaca gaaatggtca2161 ccgggaaccc cagggctgcc catcacgagc ccctacccca cgcttcccac gagctcttct2221 cccggccctc ccgtccatgc ttgtgctttg cctaattgtt tgcttttgag aacgggattg (gcacccacag ttctacaccg cccagatcgg agcggacatc 639 aggctggctt ctccccacac gatgcatcca gcattcgggt cacacagagc cactcgggca 695 actcagttga ttataaagga cagccaggtc cctgcaaccg ggtcaagaca gaaatggtca2161 ccgggaaccc cagggctgcc catcacgagc ccctacccca cgcttcccac gagctcttct2221 cccggccctc ccgtccatgc ttgtgctttg cctaattgtt tgcttttgag aacgggattg 2) SEQ ID NO: 2652 data: (i) sequence characteristics:

(A) length: 1324 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2652 sequence description: 1 ttctccttct ccccaacagt tccccaggga cctctctcta atcagccctc tggcccaggc 61 agtcagatca tcttctcgaa ccccgagtga caagcctgta gcccatgttg tagcaaaccc 121 tcaagctgag gggcagctcc agtggctgaa ccgccgggcc aatgccctcc tggccaatgg 181 721 cctgcacagt gaattgctgg caaccactaa gaattcaaac tggggcctcc agaactcact 781 181 cgtggagctg agagataacc agctggtggt gccatcagag ggcctgtacc tcatctactc 241 ccaggtcctc ttcaagggcc aaggctgccc ctccacccat gtgctcctca cccacaccat 301 cagccgcatc gccgtctcct accagaccaa ggtcaacctc ctctctgcca tcaagagccc 361 ctgccagagg gagaccccag agggggctga ggccaagccc tggtatgagc ccatctatct 421 gggaggggtc ttccagctgg agaagggtga ccgactcagc gctgagatca atcggcccga 481 ctatctcgac tttgccgagt ctgggcaggt ctactttggg atcattgccc tgtgaggagg 541 acgaacatcc aaccttccca aacgcctccc ctgccccaat ccctttatta ccccctcctt 601 cagacaccct caacctcttc tggctcaaaa agagaattgg gggcttaggg tcggaaccca 661 agcttagaac tttaagcaac aagaccacca cttcgaaacc tgggattcag gaatgtgtgg 721 cctgcacagt gaattgctgg caaccactaa gaattcaaac tggggcctcc agaactcact 781 ggggcctaca gctttgatcc ctgacatctg gaatctggag accagggagc ctttggttct 841 ggccagaatg ctgcaggact tgagaagacc tcacctagaa attgacacaa gtggacctta 901 ggccttcctc tctccagatg tttccagact tccttgagac acggagccca gccctcccca 961 tggagccagc tccctctatt tatgtttgca cttgtgatta tttattattt atttattatt1021 tatttattta cagatgaatg tatttatttg ggagaccggg gtatcctggg ggacccaatg1081 taggagctgc cttggctcag acatgttttc cgtgaaaacg gagctgaaca ataggctgtt1141 cccatgtagc cccctggcct ctgtgccttc ttttgattat gttttttaaa atatttatct1201 gattaagttg tctaaacaat gctgatttgg tgaccaactg tcactcattg ctgagcctct1261 gctccccagg ggagttgtgt ctgtaatcgc cctactattc agtggcgaga aataaagttt1321 gctt (2) SEQ ID NO: 2653 for data: (i) sequence characteristics:

(A) length: 16310 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2653 sequence description: 1 tacgggccgg gcactcccga gctgctgctc gagggcgccg agacggtgac tccagtgctg 61 gacccggcca ggagacaagg gtacgggcct ctctggtaca cgagcgtggg gttcggcggc 121 ctggtgcagc tccggagggg cgagagggtg tacgtcaaca tcagtcaccc cgatatggtg 181 661 gcaccatact cttttctctt gggtaccccc caacagtgag aggggtcatt acagagccca 721 181 gacttcgcga gagggaagac cttctttggg gccgtgatgg tggggtgagg gaatatgagt 241 gcgtggtgcg agtgcgtgaa tatgggggn ccggacgccc aggaccccat ggcagtggga 301 aaaatgtagg agactgtttg gaaattgatt ttgaacctga tgaaaataaa gaatggaaag 361 cttcagtgct gccgataaag atgctgagtt gcgacacacg tcttaattca gggtgggtgc 421 acgggtgcgg gttaaatatt ctcagtactc ttctggttgc ttgaaacaat tcatcacaac 481 acagtgtatg gcctttgctc ctagggatga tggtctgcct gtcccacccc ctccctgcct 541 ctgaatggcc aggccccacc attagcccag ttggagggtg ggaggaaggg ggacttctca 601 aactccgaag cttctctagg catcctgatt ttcagggcca catggtccca accagactct 661 gcaccatact cttttctctt gggtaccccc caacagtgag aggggtcatt acagagccca 721 gcaagcacca ctcagaaagg cccagcagca gagtaagccc ctatcatgac agaggaatga 781 agcctggagg ggccccgcac ttctccccct agagctgcct gaaggcctct ctgtctccta 841 cccgacagtc aactcttctc ctccaaggag cttaattcaa ggctcatggg gtctgaaggg 901 aggaggctga aggagaaaga aggggagaat attagagaga gatggggatg gcaggaagga 961 gcctgtggtg cctgaaaaca ccaggaagtt ctggggagga ggaaaaaccg atgccccact1021 tagggtgtcc catttagggt gagacggaaa atcctcacct ttttttcaca ctttaggtcc1081 cccttcccaa aagtgagtaa gtgtgggtgc ttctgggatg agtaacagtg tcccccatta1141 cttcatggct gactttcagc cacaggctgg aggaggcaga gggtgaccca aggccctatc1201 taggtcaccc caatgggtca ccctaccccc tcagcctacc acatggtttt ctcctgcctg1261 gcaccccagg gctggaggta aagcctaatt ttccgaactt cagttggggc tcccagtcta1321 ggggggctca atttccgtct ccatattttg ttttggaatt attatttttt tgagacaggg1381 tctcgttctg tcacccagac gggggtacag tggcatgatc atagcttact gtaacctcaa1441 actcctgggc ttgagtgatc ctcctgcctc agcctcctga ggagctagga ttacaggcat1501 gcaccactac acctgactaa tctttaattt tttttctaga aacaaggtct tgctatgttg1561 cacaggctgg tcttgaacta gtgggctcaa gtggtcctcc cacctcagcc tcccaaagtg1621 ttgggataac aggcatgagc cactgcgccc cacccttatt tgtctttgac tctctccaga1681 agagccttca tccagggagg gggtgctttt ctctttccgg attacccacc tctcacctct1741 cccctccttc accacaaaga ccagtgggac caagccggca tgtgagtcct tcacccacat1801 cttattccta tgtttcattc ttttttaaaa aatagagaca ggatctcact atgttgccca1861 ggttgctctg gaactcctgg gttcaagcga tcctctcacc ttggccttgc aaagtggtag1921 gattacaggt gcatgccacc acgtccggca gttcggttcc ttgttcttta ttgtcctcag1981 tctcttcgat ttcacccact gagagaatgg aaggggatag aacagctgga aactggttga2041 aggaagccag aattcactaa gtgcccactg tgccaagggc tgagtgaggt cctctgatgg2101 aggtcaggcc ttctctcaca tgccctatgt gtggtggaca ttcctatccc cattggatag2161 ataggttaag tggctggttc aggttgcaga gttaggacag ggtgatttga agcctagaca2221 cccgaatctc tggaagtccc ttggctgtgt gattcaggta cctgagaatg cggctcctct2281 ccagctctct ccggactgct ggccagctgc aacagccgga aatctcacct gagctgcagg2341 attttcccag caaggattgg aattcccaga gttggaaatt cccatgccct gagggagagg2401 taattaggtt caggctcttg tttcctgggg gatggggaat attctgttgg gctttgttta2461 tgtagggtct ccagggccct aggagtctaa ggatgggact gggtccgagg gatcttaaag2521 cctgtggaga gaggacttag ggagcttctt cccacccaca agaagaggca gatgcagaat2581 taattccaag aaggagacca tgtttctttt ctaagcaaac tttatttctc gccactgaat2641 agtagggcga ttacagacac aactccctgg ggagcagagg cctcagcaat gagtgacagt2701 tggtcaccaa atcagcattg tttagacaac ttaatcagat aatattttaa aaaacataat2761 caaaagaagg cacagaggcc agggggctac atgggaacag cctattgttc agcctccgtt2821 ttcacggaaa acatgtctga gccaaggcag ctcctacatt gggtccccca ggataccccg2881 gtctcccaaa taaatacatt catctgtaaa taaataaata ataaataaat aataaataat2941 cacaagtgca aacataaata gagggagctg gctccatggg gagggctggg ctccgtgtct3001 caaggaagtc tggaaacatc tggagagagg aaggcctaag gtccacttgt gtcaatttct3061 aggtgaggtc ttctcaagtc ctgcagcatt ctggccagaa ccaaaggctc cctggtctcc3121 agattccaga tgtcagggat caaagctgta ggccccagtg agttctggag gccccagttt3181 gaattcttag tggttgccag cacttcactg tgcaggccac acattcctga atcccaggtt3241 tcgaagtggt ggtcttgttg cttaaagttc taagcttggg ttccgaccct aagcccccaa3301 ttctcttttt gagccagaag aggttgaggg tgtctgaagg agggggtaat aaagggattg3361 gggcagggga ggcgtttggg aaggttggat gttcgtcctc ctcacagggc aatgatccca3421 aagtagacct gcccagactc ggcaaagtcg agatagtcgg gccgattgat ctcagcgctg3481 agtcggtcac ccttctccag ctggaagacc cctcccagat agatgggctc ataccagggc3541 593601 ttgaccttgg tctggtagga gacggcgatg cggctgatgg tgtgggtgag gagcacatgg3661 gtggaggggc agccttggcc cttgaagagg acctgggagt agatgaggta caggccctct3721 gatggcacca ccagctggtt atctctcagc tccacgccat tggccaggag ggcattggcc3781 cggcggttca gccactggag ctgcccctca gcttgagggt ttgctggagg gagggagaga3841 gggagaggag agtcagtgtg gccatgtcgg ttcactctcc acatcctggc cctcgagctc3901 tgcccacccc acatccggtt cctgtcctct ctgtctgtca tcccacatcc cacctggcca 398661 tgacgttctg agtatcccac taaggcctgt gctgttcctc cacccttccc ttgagctcag4021 cgagtccttc tcacattgtc tccaagttct gcctaccatc agccgggctt caatccccaa atcctagccc tccaagttcc aagacacatc ctcagagctc ttacctacaa catgggctac4141 aggcttgtca ctcggggttc gagaagatga tcctgaagag gagagagaaa agaaaaagct4201 gagaccctta aacttcctag aaaatacccc cctactttca cctccatcca tcctccccca4261 agaccaaaac tttaaatttc ccccactgct ttccataccg gtactaaccc taccccccaa4321 acccaaaccc agaattagga aagaggtttg gagacactta ctgactgcct gggccagagg4381 gctgattaga gagaggtccc tggggaactg ttggggagaa ggagaatggt taacatcgag4441 ggagtcaccc ttaaaggagg aacagctggc tgcctgtctg gcctgcgctc ttagccctga4501 ggtgtctggt tttctctctc cattcatctg tgtattcacc ttccaggcat tcaacagctc4561 tttccctgag tgtcttctgt gtgccagaca ccctatcttc ttctctcctt atctccccca4621 tctctctcct tagctgtcat atttcccgct ctttctgtct caccatcttt attcatatca4681 cttgtttctt cccccatctc tcttctcaca ccccacatct gtctccatat cttatttata4741 tatctgcttg ttcattcatt cattcattca ttcactccat acacacttag tgagcacctt4801 ccatgtgcca gacatcctgt ctctccatct ttctctctct ctcttcccca tctcttgcca4861 catctctttc tgcatccccg tctttctcca cgtttttttc tctccatccc tccctatcag4921 cgcacatctt tcacccatcc catctctctc cctctcttgc gtctccattt ccccttgggt4981 gggagagtgg atgaaggctg gccaggcact cacctcttcc ctctgggggc cgatcactcc5041 aaagtgcagc aggcagaaga gcgtggtggc gcctgccacg atcaggaagg agaagaggct5101 gaggaacaag caccgcctgg agccctgggg cccccctgtc ttcttgggga gcgcctcctc5161 51 5161 ggccagctcc acgtcccgga tcatgctttc agtgctcatg gtgtcctttc caggggagag5221 agggtggagc cgtgggtcag tatgtgagag gaagagaacc tgcctggcag cttgtcaggg5281 829 5281 gatgtggcgt ctgagggttg ttttcagggg gggtctgtag ttgcttctct ccctcttagc5341 tggtcctctg ctgtccttgc tgagggagcg tctgctggct gggtgtgcca acaactgcct5401 ttatatgtcc ctggggcgag aggagggcgg ggaaagaatc attcaaccag cggaaaactt5461 ccttggtgga gaaacccatg agctcatctg gaggaagcgg tagtgggccc tgcaccttct5521 gtctcggttt cttctccatc gcgggggcgg ggatttggaa agttggggac acacaagcat5581 caaggatacc cctcacactc cccatcctcc ctgctccgat tccgaggggg gtcttctggg5641 ccactgactg atttgtgtgt aggaccctgg aggctgaacc ccgtccccat gcccctcaaa5701 acctattgcc tccatttctt ttggggacca ggtctgtggt ctgtttcctt ctaacttcca5761 gacaggatgc aggaaaaaga tagaactaga actgggaggg gcttcagaaa gctgagtccg5821 ttgagggaga gaaaacgggg ttggagggaa aagctgtgtt gagtcctgag gcctgtgttt5881 gggccctgcg gggagaagga gctgggggct tggtggcagg cttgaggcct caggaaaggc5941 tgggtgcggg tagcagggac aagcctggga cagccccggg gagtgaaatc acccccggga6001 attcacagac cccactgggg caggccctct tctttcattc tgacccggag actcataatg6061 cttggttcag tcttggcttc caaggaactc tggggtccct gatttttttc atgaagctct6121 cacttctcag ggccccagtg tgtggccata tcttcttaaa cgtcccctgt attccatacc6181 5731 6241 gtgggggtcc ccatactcga cttccatagc cctggacatt ctcctaccca ttgctgtggt6301 cacatctccc cagaggtctc ctgtaaccca ttcctcagag ccgctacatg tggccatatc6361 tcccaggagc tccctgaccc ccgcccctcc agaccctgac ttttccttcg tcttctcagc6421 ttctcctttg cttcccctgc agcagtctgg cggcctcacc tggtgagtcc atcacatatc cctgaagctc tctgagccct tatccttttg ttctccccac agctcttgct ccctttgagc6541 666601 66 acacaagcag acagcatttc agagaaaaga ggtttattgg gcttcatcga gggtgcagat6661 826721 ccctgtgatc cctcatgcct acttctttct ctcttggtca gccttgtgcg catgccctct6781 cactcttcat ctcttgggcc tgtctctgtt tctccttgga tgttcttcta ttattcccct6841 ctctccatcc tccataaata aataatttaa tttttttgcc ttcataaata gtcccctccc6901 tgcctctagt catcccccaa gctcctccat gtgcctgctc ttcctctgtg tgtggatcta6961 ggccccacct agctggtggg acagaccaac agctttgggc tgggaattcc taggcaggct7021 tgaaatcctc agccagacag acatcaggga tggttcaggg aggtgtggtc ccctgggatg7081 cctagaattc cttctttgaa agctccggtg acttgatcag ggaagacttg agctgttgga7141 atggccaaag gagaggtggt gacgacccct gaaatggtca gaatggaggc agaatgggga7201 gaaggtcttg aaatcaatta ttttttcttt ctggattttt ccaagttcta cagagcgaag7261 gctccaaaga agacagtact agggctgagg actaggtggg ggatgccatc tgtgtgggtg7321 gatagctggt ctccctgggt gagctggaac gcagccccgt ggtacatcga gtgcagccag7381 ggttcctgca gccctggata caccatcttc tgggagctga ggagaggcac atggaagggg7441 tactgggagg agaagagctg gacctcatgg gccaggtaga gtggggagga ggtggccttg7501 ggagagtagg ctttcccaga gaagaccacc tgggagtaga cgaagtagat gccactggtg7561 gggaccagga gagaattgtt gctcaaggag aaaccatcct ggaggaaggc acggtccgtg7621 tttgctctcc agagcagtga gttctgcttg ctggggtctc ctaggaagag ccatagggga7681 tgggggtggg agatcagggg tctggatcag aggtctcaat ccctgaggaa gtgggcactg7741 aacaactgag ttcctggggg atggcagggg gaggcatagg agtgggctcc ctctgttttt7801 tttagcgtgg gggaagttgg gggagagggg tggatgcttg ggttcctgag gcaggggtag7861 gaggagagct ggtggggaca tgtctgggag gtcaggtgga tgtttaccaa tgaggtgagc7921 agcaggtttg agggtgctgt gggcaagatg catcttgggg tgctgacggg cagtctgggc7981 agctgaaggt gtgaggccaa caccagggag cccctagggg agaacagagt tgaggggggc8041 tctagggctc aaggtttggc tgagccaccc cagcagcccc cattctcctg ctgcctcacc8101 tgggccccag gcagcagaac cagcagcagc cccagaagga ggaggtgtag ggtggtgcca 8461 8253 8221 gagagagaga gagagacagt gagcggggcg gggcacgcgg cggaagacag acctcccgcc8281 ctgggagaca gcaccccccg acccccgaga gagagatcga cagagaaggg gacaagatgc8341 agtcagagaa accccaaggt gagcagaggg agacagagag agacaggaag ggaacagaga 8458 ggaatcatgg cagaaacaga gaatgtgtga cagagacaat gagactgaca gatggagagt cagagacaga gaaggaaacc aaaaccaaac ccaccaaggc ccaggcccag gcaggccggg8521 gatccaggca gcaggtgcag gagggaccga ggcccaggca gagggcagga cactgcgggg8581 cggtagtcca aagcacgaag cacgggcagc ccaaggagat ggggcaggag agcctcacct8641 gctgtgcgga cccctgggcc cggacgctca ggtcccttta tagaggaagc ggcagtggca8701 gcgtggcagg cagcgggcgg gttctaggtc ggggctgggg cccggggaag cccccagggc8761 ttagaagata ctgctgtttc agtcaaaggc aggaaaggct gaggcctagg agagaaccac 8821 aggctggggg ttcaggcgac tgagttctgg gaaagggagt cgggtcaggg gaatcgtggg 8881 ctgggagggc cagggagtgg ggtcaggcct agagttccaa agaagggaca gtcaattcag 8941 agaggaggca gttgagcagc tggggtgtga gctggaggcc cggttccctg aagagcaatc 9001 atatataaca tctctgcacc cttggctgag tacaggcttc tctctttgcc catttccttc 9061 tcttgtaccc ctgtccttgt cccaaacaac tcaaatcata cttgtcccag tatacggact 9121 ttccagccca tctggcaggt ttcacatcaa gaaggtccat tatatatccc cttcatcggg 9181 gacattctgg tgtttgcctc ttgtccaggt gaaaatatta atggatcccc cttccactct 9241 tgaaagtgtc ctagtttgga agataaattt tttggtcccc ttactcagag atgatgctgg 9301 acagtcaagt atgatgaggt ctcatctcac tcctgaagga tgccctccat ctcttcctga 9361 cttcaggtgg cttccacaga acagatttat ataaccccaa ataaacacac attccaggat 9421 3521 9421 caatgtggca gacaccttcc aaagttttct acaaaggaag tttgcagaat tccacatggg 9481 94 9481 tgaggcttaa gggtggtgac ttagggtggg gtggggacag ctaagggact tgttctgaag 9541 ctgcatttgc agagccaata cattatttta aaattgttcc aggcctggtg cagtggctca 9601 cacctgtaat cctggcactt tgggagtctg aggtgggcgg attacttgag gtcaggagtt 9661 tgagaccagc tggccaacat ggtgaaaccc catctctata ataaatacaa aaattagcca 9721 ggcgtgctgg tgcgcatctg cagtcccagc tactcgggag gctgaggctg gagaattatt 9781 tgaacctggg aggcggaggc tgcagtgagt caagatcgca ccactgtatt ccagcctggg 9841 ggacagagca agactctgtc tcaaaaaaaa aaaaaaagtt tccaaaattt ttttcctttt 9901 tattgatatg taacttaggt atgaggtgga cacctcttaa gtgtacagct gatgaatttt 9961 tccatctgta tgtagccacc acccagctcc acgtattttc aggtccccag caggttccct10021 catgccccct ccctgctgat accctccaaa gataaccaac cactctctca cttttatcac10081 catagattat ttcctcctgg tttggggcat catataaatg aaatcacaca gaatgtactc10141 atttctgttt gacttctttc agtcagcatt atgtttgtga gattcatata cgtggttgta10201 tgtatcagta atgtttttta aaaaaattat gatgtaatat tctattgtat caatatattc10261 taatatattc tgttgatggg gatttggttt gtttctagtt tttgtctaac acaaaaatgt10321 ctacacgaac attctcatac atgagcccat ttcacttagc ttgcaagtta caaggtttaa10381 aaaaagcagt ttctaaagat gactttattc acttttccta agtttgagat aataccaact10441 tgtcacctca aatattatta ctgctactca tgtgatttta cttggagagt gttagagggg10501 ttggagctgg ggctggtggt gacccggggt aaagcccact gttgcatggg gcagaccact10561 tctctcccca ggcacaaggt ccctgagggg tcttggtgta acatggaggg acatgtaagt10621 aacattctgg gtgtgtatga gctatttctc ctgttcttct ctacttgagg acctgcccct10681 ttgcctttta tgctttacta gtcttagcta ttatttctgt aggggcagaa aggggtgatc10741 ccttcctgac ccatcataag ggttatggcc aatactccta taataaaaga cagattaaca10801 108 10801 agagaaaagc ataatacatt tatttaatca aagttttagg tgacatggga gccttcagaa10861 10823 10861 atgaagaccc aaggacccag gggaaaacta tttttatgct tagatttgat gaagaatgaa10921 cagctgtgca gaaatgtaat tgaacaaaag gagtatcatc taatggtcac agactgggac10981 tggggggatc ccagcaaggc ctggccatat tcttcttggt ctctctgtac agcattcctt11041 cctcccaggt atagggcaga acctcttctg gaatgagggt cttataacct actatcagat11101 gagataagtc agaaaatttc ttttcctttt tttttttttg agacagtttc tcactgtcgc11161 acaggctgga gtgcagtggc acgatcttgg ctcactgcaa cctctgcctc ccaggttcaa11221 gctattctcc tgcctcagcc tcccgagtag ctgggattac aggcacacgc caccaagccc11281 gccaaatttt tttttgtatt tttagtagag acggggtctc accatgttgg ccaggttggt11341 cttgaattcc tgaccacagg tgacccacca gccttggcct cccaaagtgc tgggattatg11401 ggcgtgagcc actgcgccca accttcttct cattctttta accttattat ctcttgtgtc11461 agtgtgggtt tcccttttag cccctgctcc tttctttttc tctgtgttgc cctttctctc11521 agggtccttt ttgcttcctg ttgtctcttt ctgcttctct aatggtatga gctgatggac11581 tgggacccca gctgagctat attaaaatat aaaatgttat tacaaggcca ggagcagtgg11641 cacatgcctg tcatcccagc actttgggag gctgaggcga gcagatcaca aggtcaggag11701 atagagacaa tcctggctaa tacggtgaaa ctccatcact gctaaaaata caaaaaatta11761 gccgagcatg gtggcacgcg cctgtaatcc tagctactag ggaagctgag gcaggagaac11821 tgcttgaacc caggaggcgg aggttgcagt gagccgagat cgtgccactg ccctccagcc11881 tgggcaacaa agtgagactc catttcaaac aaaccaacca aaaaacaaaa caaaacaaaa11941 caagcaaaca aaaaaaggta ttgcaattaa cagtgagaca cagagagaaa tttaaattaa12001 agaggaagaa tgggacattg aaagacaaaa aagggaaggc aagaagggtg atggggagac12061 atgagagaca cagaggaagg aagggtaaga ctgggctgag gctcagtgtc acgtgcatgt12121 gagatatgcg aaggatgctc cttgagatgg gccaatcttg gtttcaatct cagtttcgga12181 ggttgtatga atttggtttc tttcttggca ggccagcagt tggtttggga ctttccctgg12241 gtgggagagc tgatgactgg agtcttgtgc cccagactca gggaaataca gtctttatag12301 tggtctttgt ggagaaacta gtgaaatctc tgaagcctcc aaatgagact gaaatgacat12361 tagcttcaaa cttgaactta gcctcaaaac ctgaattggg atttaatacc aacatcaacc12421 ctaacccaaa tttaacctca acccaaatca caactcaaac tcaaccccaa ctgtaaccct12481 aacctcaaat ctaaacacat cccaattaat aaccccctaa ataaaacttc tcctctaccc12541 125 12541 caacccaacc ctgtttctag ggctaatctt gaaaccagtt taccaccact cctaacacta12601 aacttaaatc tgactctaaa tgtaagtcca atctgagcca caagcctaaa gttgaacttt12661 atcctgcttt atgaattatt catccattcc tccatttagt gagtatctgc gtgcctaaca12721 catgctgggc attgtcctaa ggcaggaggg acatggaggg caaagggatc agagaaggta12781 ccagcacctg tggagcttgt attccagtga ggcccagacg gaaaaagaaa gaaacttgaa12841 ggaaggaaat ttggtactat gagaaaataa gacaggctga tgttgtaaga gtggcaggga12901 gctactttta aatacagtag tcagcaaaat cctctttgag tgtttgggtg gcactggagc12961 tgagacccaa atgacaaaaa atagtgacca ggtaaaagtt tgggagcaaa gcatttcagg13021 taaagggagc agctactgca aaggctggaa ggcggaacca agctgggggt gttgacgaca13081 aacagaaggc cagtgtggct ggagcagaga gagagactgg gaggcgggtg ggagatgagg13141 tcagagagga gggcaggggc caggtcatgc agggccatgc aagaagggta aagcctctag13201 atttcatcca gccacaggaa gcctttaaag gtcgtcagag tgtgtggtgc gtgcgtgtgt13261 gtgtgtgtgt gtgtgttgca ggggagagag gnggagggag agagagagag agagaagagg13321 gaggtgagca gaggtgattg gatttttttt tcttttgaca tggtgtcttg ctctgtggcc taggctggag tgcagtggca ccatcatagc ccactgcaac ctcaaaacca tgggctcaag13441 tcatccttcc acctcagctt cccaagtatc taggactaca ggtgtgtgcc actgtgcctg13501 gctaatttta aaaaatattt taaaattttt gttgagacag ggtctatgct gctcaggctg13561 gtctcgaact cctggtttca agtgatctgc ccatcttggc ctcccaaagt ttttttttgt13621 tagtttgaga ggcggtttcg ctcgttgccc aggctggagt gcaatgactg atctcatctc13681 136 actgcaacct ctgcctcctg ggttcaagcg attctcctgc ttcagcctcc caagtagctg13741 ggattacagg tgcatgccac cattcccggc taattttttg tatttagtag agatggggtt13801 13861 caccatgtta gtcaggctga tctcaaactc ctgacctcag gtgatccgcc tgcctcagcc 13921 caccatgtta gtcaggctga tctcaaactc ctgacctcag gtgatccgcc tgcctcagcc 13981 caccatgtta gtcaggctga tctcaaactc ctgacctcag gtgatccgcc tgcctcagcc 14041 caccatgtta gtcaggctga tctcaaactc ctgacctcag gtgatccgcc tgcctcagcc ctcctgagta gctgggatta14101 taggtgcatg ccaccatgcc tggctaattt ttgtactttt agtagagaaa gtacaccatc14161 ttggccaggc tggtctcgaa ctcctgacct caggtgatcc acttgcgtcg gcctcccaaa14221 gtgctgggat tacaggcgtg agacaccgca cccagccttt tttttttttt ttttctttta14281 agacagaatc gctctgtcac ccaggctgga gtgcagtggc acaatctcgg ctcactgcaa14341 cctctgcctc ccaggtttaa gcaatccacc tatgtcagtc tcccaagtag ctgggattat14401 aggtgcatgt caccatgcct ggctaatttt tgtactttta gtatagaaag tacaccatgt14461 tggccaggct ggtcttgaac tcctgacctc aagtgatccg cctgcctcag cctcccgaag14521 tgctggaatt acagacatgt gccactgcac ccggcctggt tttttttttc taagagatgg14581 1 agtctcactt ttctgcccag gttggagtgc aatggcacca tcatagctca ctgcagcctt14641 caactcttgg cctcaggcaa tccttgcacc ttagcctcgc aaagtgttgg gattacaggc14701 atgagccact gagccttgcc tggacttttt tttttttttg agatggcgtc tcgctctgtt14761 gcccaggttg gagtgctacg gcatgatctt ggctcactgc aacttccacc tcccaggttc14821 aagcgattct cttgcctcgg ccccccgagt agctgggatt acagcatgcg ccaccgtgcc14881 tggctaattt tggtattttt agtagagata gggtttcatc atgttgggca ggctggtctt14941 gaactcctga cctcgtgatc cacccacctc ggcctcccaa agtgctggga ttataggcat15001 agccaacgcg cccagcctgg acttgttttt aaaagatcac tgtggctcct gtgtttaggc150 tggctggtag gagacaggtg gcagtgacat tgatggtgaa gagaaaatag tggcagccat15121 ggagatggag agaagtagac aagtttggga tatattatac attccagggg tagaaacaac 15153 aggactagat gatggattga tgggtgggag atgtagatac tgggagagaa gcaggattct15241 gatggatgga aaaactaaaa aattctattt tgggtgtggt aagtctaagt ctattagaca 8601 tgcaagtaga gatgtcactg ggcagataca catctggatt tcaggggcaa ggtccaagct15361 agagaaagaa acctgggcat ggtcagcatg aggatggtgt ttaaagccat ggaacttatc 15458 15481 atcttccatt ctgaattcca gaggcaacaa cctcctgctc ctagaagcta aactctccag15541 acttagtctt ctgaattccc actgggattt aacctccctg gattcaattc cctaccccac15601 aaggaccctt ctaccaatcc atttcacaat atttggtgga actcttcaca ttttcaaatc15661 ctgtcttcta tgtttgaaag cattttcctc tgggcatttt gaaacctggc tttcccctaa15721 tgatgctact cctctctgtg gtgaaggttg ctctttcttc gactccatca ctaggggaat15781 1 gaaggcagaa gagaggggtc gttatcccct ctcccccagg accactgata aactcctcct15841 catctcccaa agcacgtgcc ttctggatct gccatgctct ccctgccttc acagcacaat15901 cttatccatc aaaatattta ttatgctctt aacaacttgt ataactagct cagtctttct15961 ccacatctta tccctaccat catccttgtt tgtttgtttt ttgagacaag gtattgctct16021 16024 ctcaagtgat cctcccacgt cagcctcctg agtagctagg actacaggcg cataccacca16141 tgcccggcta agttttgtat tttttttttt ttccagagat agggttttgc tatgttgcct16201 aggctggtct tgaactcctg agctcaagca atccacccgc ctcagcctcc caaagtgctg16261 ggattacagg catgacccac cgcacccggc ctcctaccac catctttagt (2) SEQ ID NO: 2654 data: (i) sequence characteristics:

(A) length: 17634 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2654 sequence description:

1 ttctccttct ccccaacagt tccccaggga cctctctcta atcagccctc tggcccaggc 61 agtcagatca tcttctcgaa ccccgagtga caagcctgta gcccatgttg tagcaaaccc 121 tcaagctgag gggcagctcc agtggctgaa ccgccgggcc aatgccctcc tggccaatgg 181 cgtggagctg agagataacc agctggtggt gccatcagag ggcctgtacc tcatctactc 241 ccaggtcctc ttcaagggcc aaggctgccc ctccacccat gtgctcctca cccacaccat 301 cagccgcatc gccgtctcct accagaccaa ggtcaacctc ctctctgcca tcaagagccc 361 ctgccagagg gagaccccag agggggctga ggccaagccc tggtatgagc ccatctatct 421 gggaggggtc ttccagctgg agaagggtga ccgactcagc gctgagatca atcggcccga 481 ctatctcgac tttgccgagt ctgggcaggt ctactttggg atcattgccc tgtgaggagg 541 acgaacatcc aaccttccca aacgcctccc ctgccccaat ccctttatta ccccctcctt 601 cagacaccct caacctcttc tggctcaaaa agagaattgg gggcttaggg tcggaaccca 661 agcttagaac tttaagcaac aagaccacca cttcgaaacc tgggattcag gaatgtgtgg 721 cctgcacagt gaattgctgg caaccactaa gaattcaaac tggggcctcc agaactcact 781 ggggcctaca gctttgatcc ctgacatctg gaatctggag accagggagc ctttggttct 841 ggccagaatg ctgcaggact tgagaagacc tcacctagaa attgacacaa gtggacctta 901 ggccttcctc tctccagatg tttccagact tccttgagac acggagccca gccctcccca 961 tggagccagc tccctctatt tatgtttgca cttgtgatta tttattattt atttattatt 1021 tatttattta cagatgaatg tatttatttg ggagaccggg gtatcctggg ggacccaatg 1081 taggagctgc cttggctcag acatgttttc cgtgaaaacg gagctgaaca ataggctgtt 1141 cccatgtagc cccctggcct ctgtgccttc ttttgattat gttttttaaa atatttatct 1201 gattaagttg tctaaacaat gctgatttgg tgaccaactg tcactcattg ctgagcctct 1261 gctccccagg ggagttgtgt ctgtaatcgc cctactattc agtggcgaga aataaagttt 1321 gctt

1 tacgggccgg gcactcccga gctgctgctc gagggcgccg agacggtgac tccagtgctg 61 gacccggcca ggagacaagg gtacgggcct ctctggtaca cgagcgtggg gttcggcggc 121 ctggtgcagc tccggagggg cgagagggtg tacgtcaaca tcagtcaccc cgatatggtg 181 661 gcaccatact cttttctctt gggtaccccc caacagtgag aggggtcatt acagagccca 721 181 gacttcgcga gagggaagac cttctttggg gccgtgatgg tggggtgagg gaatatgagt 241 gcgtggtgcg agtgcgtgaa tatgggggn ccggacgccc aggaccccat ggcagtggga 301 aaaatgtagg agactgtttg gaaattgatt ttgaacctga tgaaaataaa gaatggaaag 361 cttcagtgct gccgataaag atgctgagtt gcgacacacg tcttaattca gggtgggtgc 421 acgggtgcgg gttaaatatt ctcagtactc ttctggttgc ttgaaacaat tcatcacaac 481 acagtgtatg gcctttgctc ctagggatga tggtctgcct gtcccacccc ctccctgcct 541 ctgaatggcc aggccccacc attagcccag ttggagggtg ggaggaaggg ggacttctca 601 aactccgaag cttctctagg catcctgatt ttcagggcca catggtccca accagactct 661 gcaccatact cttttctctt gggtaccccc caacagtgag aggggtcatt acagagccca 721 gcaagcacca ctcagaaagg cccagcagca gagtaagccc ctatcatgac agaggaatga 781 agcctggagg ggccccgcac ttctccccct agagctgcct gaaggcctct ctgtctccta 841 cccgacagtc aactcttctc ctccaaggag cttaattcaa ggctcatggg gtctgaaggg 901 aggaggctga aggagaaaga aggggagaat attagagaga gatggggatg gcaggaagga 961 gcctgtggtg cctgaaaaca ccaggaagtt ctggggagga ggaaaaaccg atgccccact1021 tagggtgtcc catttagggt gagacggaaa atcctcacct ttttttcaca ctttaggtcc1081 cccttcccaa aagtgagtaa gtgtgggtgc ttctgggatg agtaacagtg tcccccatta1141 cttcatggct gactttcagc cacaggctgg aggaggcaga gggtgaccca aggccctatc1201 taggtcaccc caatgggtca ccctaccccc tcagcctacc acatggtttt ctcctgcctg1261 gcaccccagg gctggaggta aagcctaatt ttccgaactt cagttggggc tcccagtcta1321 ggggggctca atttccgtct ccatattttg ttttggaatt attatttttt tgagacaggg1381 tctcgttctg tcacccagac gggggtacag tggcatgatc atagcttact gtaacctcaa1441 actcctgggc ttgagtgatc ctcctgcctc agcctcctga ggagctagga ttacaggcat1501 gcaccactac acctgactaa tctttaattt tttttctaga aacaaggtct tgctatgttg1561 cacaggctgg tcttgaacta gtgggctcaa gtggtcctcccacctcagcc tcccaaagtg1621 ttgggataac aggcatgagc cactgcgccc cacccttatt tgtctttgac tctctccaga1681 agagccttca tccagggagg gggtgctttt ctctttccgg attacccacc tctcacctct1741 cccctccttc accacaaaga ccagtgggac caagccggca tgtgagtcct tcacccacat1801 cttattccta tgtttcattc ttttttaaaa aatagagaca ggatctcact atgttgccca1861 ggttgctctg gaactcctgg gttcaagcga tcctctcacc ttggccttgc aaagtggtag1921 gattacaggt gcatgccacc acgtccggca gttcggttcc ttgttcttta ttgtcctcag1981 tctcttcgat ttcacccact gagagaatgg aaggggatag aacagctgga aactggttga2041 aggaagccag aattcactaa gtgcccactg tgccaagggc tgagtgaggt cctctgatgg2101 aggtcaggcc ttctctcaca tgccctatgt gtggtggaca ttcctatccc cattggatag2161 ataggttaag tggctggttc aggttgcaga gttaggacag ggtgatttga agcctagaca2221 cccgaatctc tggaagtccc ttggctgtgt gattcaggta cctgagaatg cggctcctct2281 ccagctctct ccggactgct ggccagctgc aacagccgga aatctcacct gagctgcagg2341 attttcccag caaggattgg aattcccaga gttggaaatt cccatgccct gagggagagg2401 taattaggtt caggctcttg tttcctgggg gatggggaat attctgttgg gctttgttta2461 tgtagggtct ccagggccct aggagtctaa ggatgggact gggtccgagg gatcttaaag2521 cctgtggaga gaggacttag ggagcttctt cccacccaca agaagaggca gatgcagaat2581 taattccaag aaggagacca tgtttctttt ctaagcaaac tttatttctc gccactgaat2641 agtagggcga ttacagacac aactccctgg ggagcagagg cctcagcaat gagtgacagt2701 tggtcaccaa atcagcattg tttagacaac ttaatcagat aatattttaa aaaacataat2761 caaaagaagg cacagaggcc agggggctac atgggaacag cctattgttc agcctccgtt2821 ttcacggaaa acatgtctga gccaaggcag ctcctacatt gggtccccca ggataccccg2881 gtctcccaaa taaatacatt catctgtaaa taaataaata ataaataaat aataaataat2941 cacaagtgca aacataaata gagggagctg gctccatggg gagggctggg ctccgtgtct3001 caaggaagtc tggaaacatc tggagagagg aaggcctaag gtccacttgt gtcaatttct3061 aggtgaggtc ttctcaagtc ctgcagcatt ctggccagaa ccaaaggctc cctggtctcc3121 agattccaga tgtcagggat caaagctgta ggccccagtg agttctggag gccccagttt3181 gaattcttag tggttgccag cacttcactg tgcaggccac acattcctga atcccaggtt3241 tcgaagtggt ggtcttgttg cttaaagttc taagcttggg ttccgaccct aagcccccaa3301 ttctcttttt gagccagaag aggttgaggg tgtctgaagg agggggtaat aaagggattg3361 gggcagggga ggcgtttggg aaggttggat gttcgtcctc ctcacagggc aatgatccca3421 aagtagacct gcccagactc ggcaaagtcg agatagtcgg gccgattgat ctcagcgctg3481 agtcggtcac ccttctccag ctggaagacc cctcccagat agatgggctc ataccagggc3541 593601 ttgaccttgg tctggtagga gacggcgatg cggctgatgg tgtgggtgag gagcacatgg3661 gtggaggggc agccttggcc cttgaagagg acctgggagt agatgaggta caggccctct3721 gatggcacca ccagctggtt atctctcagc tccacgccat tggccaggag ggcattggcc3781 cggcggttca gccactggag ctgcccctca gcttgagggt ttgctggagg gagggagaga3841 gggagaggag agtcagtgtg gccatgtcgg ttcactctcc acatcctggc cctcgagctc3901 tgcccacccc acatccggtt cctgtcctct ctgtctgtca tcccacatcc cacctggcca 398661 tgacgttctg agtatcccac taaggcctgt gctgttcctc cacccttccc ttgagctcag4021 cgagtccttc tcacattgtc tccaagttct gcctaccatc agccgggctt caatccccaa atcctagccc tccaagttcc aagacacatc ctcagagctc ttacctacaa catgggctac4141 aggcttgtca ctcggggttc gagaagatga tcctgaagag gagagagaaa agaaaaagct4201 gagaccctta aacttcctag aaaatacccc cctactttca cctccatcca tcctccccca4261 agaccaaaac tttaaatttc ccccactgct ttccataccg gtactaaccc taccccccaa4321 acccaaaccc agaattagga aagaggtttg gagacactta ctgactgcct gggccagagg4381 gctgattaga gagaggtccc tggggaactg ttggggagaa ggagaatggt taacatcgag4441 ggagtcaccc ttaaaggagg aacagctggc tgcctgtctg gcctgcgctc ttagccctga4501 ggtgtctggt tttctctctc cattcatctg tgtattcacc ttccaggcat tcaacagctc4561 tttccctgag tgtcttctgt gtgccagaca ccctatcttc ttctctcctt atctccccca4621 tctctctcct tagctgtcat atttcccgct ctttctgtct caccatcttt attcatatca4681 cttgtttctt cccccatctc tcttctcaca ccccacatct gtctccatat cttatttata4741 tatctgcttg ttcattcatt cattcattca ttcactccat acacacttag tgagcacctt4801 ccatgtgcca gacatcctgt ctctccatct ttctctctct ctcttcccca tctcttgcca4861 catctctttc tgcatccccg tctttctcca cgtttttttc tctccatccc tccctatcag4921 cgcacatctt tcacccatcc catctctctc cctctcttgc gtctccattt ccccttgggt4981 gggagagtgg atgaaggctg gccaggcact cacctcttcc ctctgggggc cgatcactcc5041 aaagtgcagc aggcagaaga gcgtggtggc gcctgccacg atcaggaagg agaagaggct5101 gaggaacaag caccgcctgg agccctgggg cccccctgtc ttcttgggga gcgcctcctc5161 515161 ggccagctcc acgtcccgga tcatgctttc agtgctcatg gtgtcctttc caggggagag5221 agggtggagc cgtgggtcag tatgtgagag gaagagaacc tgcctggcag cttgtcaggg5281 829 5281 gatgtggcgt ctgagggttg ttttcagggg gggtctgtag ttgcttctct ccctcttagc5341 tggtcctctg ctgtccttgc tgagggagcg tctgctggct gggtgtgcca acaactgcct5401 ttatatgtcc ctggggcgag aggagggcgg ggaaagaatc attcaaccag cggaaaactt5461 ccttggtgga gaaacccatg agctcatctg gaggaagcgg tagtgggccc tgcaccttct5521 gtctcggttt cttctccatc gcgggggcgg ggatttggaa agttggggac acacaagcat5581 caaggatacc cctcacactc cccatcctcc ctgctccgat tccgaggggg gtcttctggg5641 ccactgactg atttgtgtgt aggaccctgg aggctgaacc ccgtccccat gcccctcaaa5701 acctattgcc tccatttctt ttggggacca ggtctgtggt ctgtttcctt ctaacttcca5761 gacaggatgc aggaaaaaga tagaactaga actgggaggg gcttcagaaa gctgagtccg5821 ttgagggaga gaaaacgggg ttggagggaa aagctgtgtt gagtcctgag gcctgtgttt5881 gggccctgcg gggagaagga gctgggggct tggtggcagg cttgaggcct caggaaaggc5941 tgggtgcggg tagcagggac aagcctggga cagccccggg gagtgaaatc acccccggga6001 attcacagac cccactgggg caggccctct tctttcattc tgacccggag actcataatg6061 cttggttcag tcttggcttc caaggaactc tggggtccct gatttttttc atgaagctct6121 cacttctcag ggccccagtg tgtggccata tcttcttaaa cgtcccctgt attccatacc6181 5731 6241 gtgggggtcc ccatactcga cttccatagc cctggacatt ctcctaccca ttgctgtggt6301 cacatctccc cagaggtctc ctgtaaccca ttcctcagag ccgctacatg tggccatatc6361 tcccaggagc tccctgaccc ccgcccctcc agaccctgac ttttccttcg tcttctcagc6421 ttctcctttg cttcccctgc agcagtctgg cggcctcacc tggtgagtcc atcacatatc cctgaagctc tctgagccct tatccttttg ttctccccac agctcttgct ccctttgagc6541 666601 66 acacaagcag acagcatttc agagaaaaga ggtttattgg gcttcatcga gggtgcagat6661 826721 ccctgtgatc cctcatgcct acttctttct ctcttggtca gccttgtgcg catgccctct6781 cactcttcat ctcttgggcc tgtctctgtt tctccttgga tgttcttcta ttattcccct6841 ctctccatcc tccataaata aataatttaa tttttttgcc ttcataaata gtcccctccc6901 tgcctctagt catcccccaa gctcctccat gtgcctgctc ttcctctgtg tgtggatcta6961 ggccccacct agctggtggg acagaccaac agctttgggc tgggaattcc taggcaggct7021 tgaaatcctc agccagacag acatcaggga tggttcaggg aggtgtggtc ccctgggatg7081 cctagaattc cttctttgaa agctccggtg acttgatcag ggaagacttg agctgttgga7141 atggccaaag gagaggtggt gacgacccct gaaatggtca gaatggaggc agaatgggga7201 gaaggtcttg aaatcaatta ttttttcttt ctggattttt ccaagttcta cagagcgaag7261 gctccaaaga agacagtact agggctgagg actaggtggg ggatgccatc tgtgtgggtg7321 gatagctggt ctccctgggt gagctggaac gcagccccgt ggtacatcga gtgcagccag7381 ggttcctgca gccctggata caccatcttc tgggagctga ggagaggcac atggaagggg7441 tactgggagg agaagagctg gacctcatgg gccaggtaga gtggggagga ggtggccttg7501 ggagagtagg ctttcccaga gaagaccacc tgggagtaga cgaagtagat gccactggtg7561 gggaccagga gagaattgtt gctcaaggag aaaccatcct ggaggaaggc acggtccgtg7621 tttgctctcc agagcagtga gttctgcttg ctggggtctc ctaggaagag ccatagggga7681 tgggggtggg agatcagggg tctggatcag aggtctcaat ccctgaggaa gtgggcactg7741 aacaactgag ttcctggggg atggcagggg gaggcatagg agtgggctcc ctctgttttt7801 tttagcgtgg gggaagttgg gggagagggg tggatgcttg ggttcctgag gcaggggtag7861 gaggagagct ggtggggaca tgtctgggag gtcaggtgga tgtttaccaa tgaggtgagc7921 agcaggtttg agggtgctgt gggcaagatg catcttgggg tgctgacggg cagtctgggc7981 agctgaaggt gtgaggccaa caccagggag cccctagggg agaacagagt tgaggggggc8041 tctagggctc aaggtttggc tgagccaccc cagcagcccc cattctcctg ctgcctcacc8101 tgggccccag gcagcagaac cagcagcagc cccagaagga ggaggtgtag ggtggtgcca8161 cgcacccttg ggaggaagag acgttcaggt ggtgtcatgg ggagaacctg cagagaaaga8221 8281 ctgggagaca gcaccccccg acccccgaga gagagatcga cagagaaggg gacaagatgc8341 agtcagagaa accccaaggt gagcagaggg agacagagag agacaggaag ggaacagaga8401 ggaatcatgg cagaaacaga gaatgtgtga cagagacaat gagactgaca gatggagagt8461 cagagacaga gaaggaaacc aaaaccaaac ccaccaaggc ccaggcccag gcaggccggg8521 gatccaggca gcaggtgcag gagggaccga ggcccaggca gagggcagga cactgcgggg8581 cggtagtcca aagcacgaag cacgggcagc ccaaggagat ggggcaggag agcctcacct8641 gctgtgcgga cccctgggcc cggacgctca ggtcccttta tagaggaagc ggcagtggca8701 gcgtggcagg cagcgggcgg gttctaggtc ggggctgggg cccggggaag cccccagggc8761 ttagaagata ctgctgtttc agtcaaaggc aggaaaggct gaggcctagg agagaaccac 8821 aggctggggg ttcaggcgac tgagttctgg gaaagggagt cgggtcaggg gaatcgtggg 8881 ctgggagggc cagggagtgg ggtcaggcct agagttccaa agaagggaca gtcaattcag 8941 agaggaggca gttgagcagc tggggtgtga gctggaggcc cggttccctg aagagcaatc 9001 atatataaca tctctgcacc cttggctgag tacaggcttc tctctttgcc catttccttc 9061 tcttgtaccc ctgtccttgt cccaaacaac tcaaatcata cttgtcccag tatacggact 9121 ttccagccca tctggcaggt ttcacatcaa gaaggtccat tatatatccc cttcatcggg 9181 gacattctgg tgtttgcctc ttgtccaggt gaaaatatta atggatcccc cttccactct 9241 tgaaagtgtc ctagtttgga agataaattt tttggtcccc ttactcagag atgatgctgg 9301 acagtcaagt atgatgaggt ctcatctcac tcctgaagga tgccctccat ctcttcctga 9361 cttcaggtgg cttccacaga acagatttat ataaccccaa ataaacacac attccaggat 9421 caatgtggca gacaccttcc aaagttttct acaaaggaag tttgcagaat tccacatggg 9481 tgaggcttaa gggtggtgac ttagggtggg gtggggacag ctaagggact tgttctgaag 9541 ctgcatttgc agagccaata cattatttta aaattgttcc aggcctggtg cagtggctca 9601 cacctgtaat cctggcactt tgggagtctg aggtgggcgg attacttgag gtcaggagtt 9661 tgagaccagc tggccaacat ggtgaaaccc catctctata ataaatacaa aaattagcca 9721 ggcgtgctgg tgcgcatctg cagtcccagc tactcgggag gctgaggctg gagaattatt 9781 tgaacctggg aggcggaggc tgcagtgagt caagatcgca ccactgtatt ccagcctggg 9841 ggacagagca agactctgtc tcaaaaaaaa aaaaaaagtt tccaaaattt ttttcctttt 9901 99 tattgatatg taacttaggt atgaggtgga cacctcttaa gtgtacagct gatgaatttt 9961 tccatctgta tgtagccacc acccagctcc acgtattttc aggtccccag caggttccct10021 catgccccct ccctgctgat accctccaaa gataaccaac cactctctca cttttatcac10081 catagattat ttcctcctgg tttggggcat catataaatg aaatcacaca gaatgtactc10141 atttctgttt gacttctttc agtcagcatt atgtttgtga gattcatata cgtggttgta10201 tgtatcagta atgtttttta aaaaaattat gatgtaatat tctattgtat caatatattc10261 taatatattc tgttgatggg gatttggttt gtttctagtt tttgtctaac acaaaaatgt10321 ctacacgaac attctcatac atgagcccat ttcacttagc ttgcaagtta caaggtttaa10381 aaaaagcagt ttctaaagat gactttattc acttttccta agtttgagat aataccaact10441 tgtcacctca aatattatta ctgctactca tgtgatttta cttggagagt gttagagggg10501 ttggagctgg ggctggtggt gacccggggt aaagcccact gttgcatggg gcagaccact10561 tctctcccca ggcacaaggt ccctgagggg tcttggtgta acatggaggg acatgtaagt10621 aacattctgg gtgtgtatga gctatttctc ctgttcttct ctacttgagg acctgcccct10681 10741 ccttcctgac ccatcataag ggttatggcc aatactccta taataaaaga cagattaaca10801 agagaaaagc ataatacatt tatttaatca aagttttagg tgacatggga gccttcagaa10861 atgaagaccc aaggacccag gggaaaacta tttttatgct tagatttgat gaagaatgaa10921 cagctgtgca gaaatgtaat tgaacaaaag gagtatcatc taatggtcac agactgggac10981 tggggggatc ccagcaaggc ctggccatat tcttcttggt ctctctgtac agcattcctt11041 cctcccaggt atagggcaga acctcttctg gaatgagggt cttataacct actatcagat11101 gagataagtc agaaaatttc ttttcctttt tttttttttg agacagtttc tcactgtcgc11161 acaggctgga gtgcagtggc acgatcttgg ctcactgcaa cctctgcctc ccaggttcaa11221 gctattctcc tgcctcagcc tcccgagtag ctgggattac aggcacacgc caccaagccc 11229 gccaaatttt tttttgtatt tttagtagag acggggtctc accatgttgg ccaggttggt11341 cttgaattcc tgaccacagg tgacccacca gccttggcct cccaaagtgc tgggattatg11401 ggcgtgagcc actgcgccca accttcttct cattctttta accttattat ctcttgtgtc11461 agtgtgggtt tcccttttag cccctgctcc tttctttttc tctgtgttgc cctttctctc 4621 agggtccttt ttgcttcctg ttgtctcttt ctgcttctct aatggtatga gctgatggac11581 tgggacccca gctgagctat attaaaatat aaaatgttat tacaaggcca ggagcagtgg11641 cacatgcctg tcatcccagc actttgggag gctgaggcga gcagatcaca aggtcaggag11701 atagagacaa tcctggctaa tacggtgaaa ctccatcact gctaaaaata caaaaaatta11761 gccgagcatg gtggcacgcg cctgtaatcc tagctactag ggaagctgag gcaggagaac11821 tgcttgaacc caggaggcgg aggttgcagt gagccgagat cgtgccactg ccctccagcc11881 tgggcaacaa agtgagactc catttcaaac aaaccaacca aaaaacaaaa caaaacaaaa11941 caagcaaaca aaaaaaggta ttgcaattaa cagtgagaca cagagagaaa tttaaattaa12001 agaggaagaa tgggacattg aaagacaaaa aagggaaggc aagaagggtg atggggagac120 atgagagaca cagaggaagg aagggtaaga ctgggctgag gctcagtgtc acgtgcatgt12121 8281 121 ggttgtatga atttggtttc tttcttggca ggccagcagt tggtttggga ctttccctgg12241 gtgggagagc tgatgactgg agtcttgtgc cccagactca gggaaataca gtctttatag 8601 tggtctttgt ggagaaacta gtgaaatctc tgaagcctcc aaatgagact gaaatgacat12361 123 tagcttcaaa cttgaactta gcctcaaaac ctgaattggg atttaatacc aacatcaacc12421 ctaacccaaa tttaacctca acccaaatca caactcaaac tcaaccccaa ctgtaaccct aacctcaaat ctaaacacat cccaattaat aaccccctaa ataaaacttc tcctctaccc12541 caacccaacc ctgtttctag ggctaatctt gaaaccagtt taccaccact cctaacacta12601 12684 12661 atcctgcttt atgaattatt catccattcc tccatttagt gagtatctgc gtgcctaaca12721 catgctgggc attgtcctaa ggcaggaggg acatggaggg caaagggatc agagaaggta12781 ccagcacctg tggagcttgt attccagtga ggcccagacg gaaaaagaaa gaaacttgaa12841 ggaaggaaat ttggtactat gagaaaataa gacaggctga tgttgtaaga gtggcaggga 12948 gctactttta aatacagtag tcagcaaaat cctctttgag tgtttgggtg gcactggagc12961 tgagacccaa atgacaaaaa atagtgacca ggtaaaagtt tgggagcaaa gcatttcagg13021 taaagggagc agctactgca aaggctggaa ggcggaacca agctgggggt gttgacgaca13081 aacagaaggc cagtgtggct ggagcagaga gagagactgg gaggcgggtg ggagatgagg13141 tcagagagga gggcaggggc caggtcatgc agggccatgc aagaagggta aagcctctag13201 atttcatcca gccacaggaa gcctttaaag gtcgtcagag tgtgtggtgc gtgcgtgtgt13261 gtgtgtgtgt gtgtgttgca ggggagagag gnggagggagggag agagagagag agagaagagg13321 gaggtgagca gaggtgattg gatttttttt tcttttgaca tggtgtcttg ctctgtggcc13381 taggctggag tgcagtggca ccatcatagc ccactgcaac ctcaaaacca tgggctcaag13441 tcatccttcc acctcagctt cccaagtatc taggactaca ggtgtgtgcc actgtgcctg13501 gctaatttta aaaaatattt taaaattttt gttgagacag ggtctatgct gctcaggctg13561 gtctcgaact cctggtttca agtgatctgc ccatcttggc ctcccaaagt ttttttttgt13621 tagtttgaga ggcggtttcg ctcgttgccc aggctggagt gcaatgactg atctcatctc13681 actgcaacct ctgcctcctg ggttcaagcg attctcctgc ttcagcctcc caagtagctg 13772 13801 13861 actgcaacct ctgcctcctg ggttcaagcg attctcctgc ttcagcctcc caagtagctg 13921 actgcaacct ctgcctcctg ggttcaagcg attctcctgc ttcagcctcc caagtagctg ccacactggc cctggatttt ttttctttct tttttttgga13981 gacggagtct cactctgttg cccaggctgg agtgcaatgg cgtaatctca gctcactgca14041 acctctgctg cccgggttca aacgattctc ctgtcttagc ctcctgagta gctgggatta14101 taggtgcatg ccaccatgcc tggctaattt ttgtactttt agtagagaaa gtacaccatc14161 ttggccaggc tggtctcgaa ctcctgacct caggtgatcc acttgcgtcg gcctcccaaa14221 gtgctgggat tacaggcgtg agacaccgca cccagccttt tttttttttt ttttctttta14281 agacagaatcgctctgtcac ccaggctgga gtgcagtggc acaatctcgg ctcactgcaa14341 cctctgcctc ccaggtttaa gcaatccacc tatgtcagtc tcccaagtag ctgggattat14401 aggtgcatgt caccatgcct ggctaatttt tgtactttta gtatagaaag tacaccatgt14461 tggccaggct ggtcttgaac tcctgacctc aagtgatccg cctgcctcag cctcccgaag14521 tgctggaatt acagacatgt gccactgcac ccggcctggt tttttttttc taagagatgg14581 agtctcactt ttctgcccag gttggagtgc aatggcacca tcatagctca ctgcagcctt14641 caactcttgg cctcaggcaa tccttgcacc ttagcctcgc aaagtgttgg gattacaggc14701 atgagccact gagccttgcc tggacttttt tttttttttg agatggcgtc tcgctctgtt14761 gcccaggttg gagtgctacg gcatgatctt ggctcactgc aacttccacc tcccaggttc14821 aagcgattct cttgcctcgg ccccccgagt agctgggatt acagcatgcg ccaccgtgcc14881 tggctaattt tggtattttt agtagagata gggtttcatc atgttgggca ggctggtctt14941 gaactcctga cctcgtgatc cacccacctc ggcctcccaa agtgctggga ttataggcat15001 agccaacgcg cccagcctgg acttgttttt aaaagatcac tgtggctcct gtgtttaggc15061 tggctggtag gagacaggtg gcagtgacat tgatggtgaa gagaaaatag tggcagccat15121 ggagatggag agaagtagac aagtttggga tatattatac attccagggg tagaaacaac 8681 aggactagat gatggattga tgggtgggag atgtagatac tgggagagaa gcaggattct15241 gatggatgga aaaactaaaa aattctattt tgggtgtggt aagtctaagt ctattagaca15301 tgcaagtaga gatgtcactg ggcagataca catctggatt tcaggggcaa ggtccaagct agagaaagaa acctgggcat ggtcagcatg aggatggtgt ttaaagccat ggaacttatc15421 ttgtgcatcc ctataagacc cctttgaggc acttgtttcc cctcacaatg gatgcagtgc15481 atcttccatt ctgaattcca gaggcaacaa cctcctgctc ctagaagcta aactctccag15541 acttagtctt ctgaattccc actgggattt aacctccctg gattcaattc cctaccccac15601 aaggaccctt ctaccaatcc atttcacaat atttggtgga actcttcaca ttttcaaatc15661 ctgtcttcta tgtttgaaag cattttcctc tgggcatttt gaaacctggc tttcccctaa15721 tgatgctact cctctctgtg gtgaaggttg ctctttcttc gactccatca ctaggggaat15781 gaaggcagaa gagaggggtc gttatcccct ctcccccagg accactgata aactcctcct15841 catctcccaa agcacgtgcc ttctggatct gccatgctct ccctgccttc acagcacaat15901 cttatccatc aaaatattta ttatgctctt aacaacttgt ataactagct cagtctttct15961 ccacatctta tccctaccat catccttgtt tgtttgtttt ttgagacaag gtattgctct16021 gtcacccagg ctggagtgca gtggcgtgat cttggctcac tgcagcctcg acctcctggg16081 ctcaagtgat cctcccacgt cagcctcctg agtagctagg actacaggcg cataccacca16141 tgcccggcta agttttgtat tttttttttt ttccagagat agggttttgc tatgttgcct16201 aggctggtct tgaactcctg agctcaagca atccacccgc ctcagcctcc caaagtgctg16261 162 16261 ggattacagg catgacccac cgcacccggc ctcctaccac catctttagt (2) SEQ ID NO: 2655 data: (i) sequence characteristics:

(A) length: 2396 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2655 sequence description: 1 aattcgataa ttcaaaatga tatttcagtg gggacaaggc caaaccatat tatgtgcttt 61 atgctactaa taaaaaggtt aaaccgaaca agttcaaaga caaaactcag tagtacttta 121 ttcagacagg ttagtctaaa tctgttaacc ttatacttgc aactctgatc attcattaat 181 721 tatttggtag gtgaagtcat acctatatat ccccacaccc tagaacagca tctccaactt 781 181 tctgcaaatt ttaataaatg ctttatttta agctaaatgc tgagatgaaa aaatgaaacc 241 atatgagtta gcaaagtaga aaatataggc atattaatca gtaaatgcag aatgataaat 301 gctccatcaa tatgcacttg ttgtagtgag gccaccgagg agggtgcaat cctctcaacc 361 tgggaggagc aggtaggact tcagatgtca tccaactcaa agatatagtg agggacttga 421 tcaaacattt gccaagacca ctatgagtta aatgaataga ttaggcattt ctccaatgtt 481 gcaagcttcg aatcatatcc aaactcagaa caacatagct tggtcataat gatcccaagg 541 atcctattgg ccattgtctt tgagcctcaa aggaacatat taaaactcca taataccctt 601 ttgatctatt ctgaagttaa gtagtgaatt tacatgatga tgacacaaac actgtaaagg 661 acctctgggt tacttgttta taagctagta tttcctgaat caatttttct gatccctaga 721 tatttggtag gtgaagtcat acctatatat ccccacaccc tagaacagca tctccaactt 781 ttttttccct ccttgtcttt tagtgggagc cacatcagta tccaaggagg agatccagaa 841 gcctctccaa ccaggtaggg acagttatag attccagacc tcagctatgg cctttgttac 901 agagtacaaa tgttatatag tacaagttta ttgtacacat cccattgagt ctctgagctt 961 tagaattttc ttgtagaatt taacagtttt ttcatgccgt atttacatat tattgctagt1021 atttagaatt ttcttctcca aatgtataac gtttattatt gcattttttgtatccactaa1081 gtggaaaatc atgcattaga tattgtagaa gtagatacaa caatgaacaa gaactggtcc1141 tgaccatgag aggaactgat gatccaatgg gggagataga cctgcacgtg tttaataaaa1201 ggaagtggct attccggttt ctttttgatg ggcaagcatt ttgcaaggcc ttgggctatg1261 tgtgtgcaag gctaagccag ttagttaatt gggatttttt taaaaaggca cttcactggg1321 gggaaaagga acatagagtt ggttattgtc cccttgccta taataaaaac ctattatttt1381 taatttttta actgggtttg cggttaaatc tcacagccca agagatttgc cacttcagat1441 ggattccata cacttgcatt taagtatgca aaaaaattcc aattatccag caatttaacc1501 aaattattgg taacttttct aaaacaaaaa aaaattgttt cccttgtttt ggcagcaatt1561 tcagttacag tcctttactt tctactcaag aaaatagttt caaaaagttg atgtttgttg1621 ctaaaagaac tatttttatg aataaatata aaactaagaa gttatggtgt ccctttttta1681 aaaaatgact catcaaaaga aataactttt tcctttctct tgtaagagaa aaaaattaat1741 ctcttttaga attgcaaaca tatttccttg atggagaaaa tcaattcaca tggcatagtc1801 gttatttatc cagttcaaaa accagagtag aatttactac tctgtctcca ttttttctct1861 ccccaccccc ttaacccaca ttggattcag aaagcttcat tctgcaatca gcattgtcct1921 ttatctttcc agtaaagata gccttttgga gtcgaagatg aggaaaagcc tgtattttat1981 agtcttggaa gtgtcttctt ttgccaggac agagagagga gcttcagcag tgagagcaac2041 tgaaggggtt aatagtggaa cttggctggg tgtctgttaa acttttttcc ctggctctgc2101 cctgggtttc cccttgaagg gatttccctc cgcctctgca acaagaccct ttataaagca2161 cagactttct atttcactcc gcggtatctg catcgggcct cactggcttc aggagctgaa2221 taccctccca ggcacacaca ggtgggacac aaataagggt tttggaacca ctattttctc2281 atcacgacag caacttaaaa tgcctgggaa gatggtcgtg atccttggag cctcaaatat2341 actttggata atgtttgcag cttgtaagtt atttcccttc atctgtttca aatgtt (2) SEQ ID NO: 2656 data: (i) sequence characteristics:

(A) length: 2220 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (i) SEQ ID NO: 2656 sequence description: 1 atgcctggga agatggtcgt gatccttgga gcctcaaata tactttggat aatgtttgca 61 gcttctcaag cttttaaaat cgagaccacc ccagaatcta gatatcttgc tcagattggt 121 gactccgtct cattgacttg cagcaccaca ggctgtgagt ccccattttt ctcttggaga 181 721 tctgtgacca tgacctgttc cagcgagggt ctaccagctc cagagatttt ctggagtaag 781 181 acccagatag atagtccact gaatgggaag gtgacgaatg aggggaccac atctacgctg 241 acaatgaatc ctgttagttt tgggaacgaa cactcttacc tgtgcacagc aacttgtgaa 301 tctaggaaat tggaaaaagg aatccaggtg gagatctact cttttcctaa ggatccagag 361 attcatttga gtggccctct ggaggctggg aagccgatca cagtcaagtg ttcagttgct 421 gatgtatacc catttgacag gctggagata gacttactga aaggagatca tctcatgaag 481 agtcaggaat ttctggagga tgcagacagg aagtccctgg aaaccaagag tttggaagta 541 acctttactc ctgtcattga ggatattgga aaagttcttg tttgccgagc taaattacac 601 attgatgaaa tggattctgt gcccacagta aggcaggctg taaaagaatt gcaagtctac 661 atatcaccca agaatacagt tatttctgtg aatccatcca caaagctgca agaaggtggc 721 tctgtgacca tgacctgttc cagcgagggt ctaccagctc cagagatttt ctggagtaag 781 aaattagata atgggaatct acagcacctt tctggaaatg caactctcac cttaattgct 841 atgaggatgg aagattctgg aatttatgtg tgtgaaggag ttaatttgat tgggaaaaac 901 agaaaagagg tggaattaat tgttcaagag aaaccattta ctgttgagat ctcccctgga 961 ccccggattg ctgctcagat tggagactca gtcatgttga catgtagtgt catgggctgt1021 gaatccccat ctttctcctg gagaacccag atagacagcc ctctgagcgg gaaggtgagg1081 agtgagggga ccaattccac gctgaccctg agccctgtga gttttgagaa cgaacactct1141 tatctgtgca cagtgacttg tggacataag aaactggaaa agggaatcca ggtggagctc1201 tactcattcc ctagagatcc agaaatcgag atgagtggtg gcctcgtgaa tgggagctct1261 gtcactgtaa gctgcaaggt tcctagcgtg tacccccttg accggctgga gattgaatta1321 cttaaggggg agactattct ggagaatata gagtttttgg aggatacgga tatgaaatct1381 ctagagaaca aaagtttgga aatgaccttc atccctacca ttgaagatac tggaaaagct1441 cttgtttgtc aggctaagtt acatattgat gacatggaat tcgaacccaa acaaaggcag1501 agtacgcaaa cactttatgt caatgttgcc cccagagata caaccgtctt ggtcagccct1561 tcctccatcc tggaggaagg cagttctgtg aatatgacat gcttgagcca gggctttcct1621 gctccgaaaa tcctgtggag caggcagctc cctaacgggg agctacagcc tctttctgag1681 aatgcaactc tcaccttaat ttctacaaaa atggaagatt ctggggttta tttatgtgaa1741 ggaattaacc aggctggaag aagcagaaag gaagtggaat taattatcca agttactcca1801 aaagacataa aacttacagc ttttccttct gagagtgtca aagaaggaga cactgtcatc1861 atctcttgta catgtggaaa tgttccagaa acatggataa tcctgaagaa aaaagcggag1921 acaggagaca cagtactaaa atctatagat ggcgcctata ccatccgaaa ggcccagttg1981 aaggatgcgg gagtatatga atgtgaatct aaaaacaaag ttggctcaca attaagaagt2041 ttaacacttg atgttcaagg aagagaaaac aacaaagact atttttctcc tgagcttctc2101 gtgctctatt ttgcatcctc cttaataata cctgccattg gaatgataat ttactttgca2161 agaaaagcca acatgaaggg gtcatatagt cttgtagaag cacagaaatc aaaagtgtag (2) SEQ ID NO: 2657 data: (i) sequence characteristics:

(A) length: 4616 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2657 sequence description: 1 aattcgataa ttcaaaatga tatttcagtg gggacaaggc caaaccatat tatgtgcttt 61 atgctactaa taaaaaggtt aaaccgaaca agttcaaaga caaaactcag tagtacttta 121 ttcagacagg ttagtctaaa tctgttaacc ttatacttgc aactctgatc attcattaat 181 721 tatttggtag gtgaagtcat acctatatat ccccacaccc tagaacagca tctccaactt 781 181 tctgcaaatt ttaataaatg ctttatttta agctaaatgc tgagatgaaa aaatgaaacc 241 atatgagtta gcaaagtaga aaatataggc atattaatca gtaaatgcag aatgataaat 301 gctccatcaa tatgcacttg ttgtagtgag gccaccgagg agggtgcaat cctctcaacc 361 tgggaggagc aggtaggact tcagatgtca tccaactcaa agatatagtg agggacttga 421 tcaaacattt gccaagacca ctatgagtta aatgaataga ttaggcattt ctccaatgtt 481 gcaagcttcg aatcatatcc aaactcagaa caacatagct tggtcataat gatcccaagg 541 atcctattgg ccattgtctt tgagcctcaa aggaacatat taaaactcca taataccctt 601 ttgatctatt ctgaagttaa gtagtgaatt tacatgatga tgacacaaac actgtaaagg 661 acctctgggt tacttgttta taagctagta tttcctgaat caatttttct gatccctaga 721 tatttggtag gtgaagtcat acctatatat ccccacaccc tagaacagca tctccaactt 781 ttttttccct ccttgtcttt tagtgggagc cacatcagta tccaaggagg agatccagaa 841 gcctctccaa ccaggtaggg acagttatag attccagacc tcagctatgg cctttgttac 901 agagtacaaa tgttatatag tacaagttta ttgtacacatcccattgagt ctctgagctt 961 tagaattttc ttgtagaatt taacagtttt ttcatgccgt atttacatat tattgctagt1021 atttagaatt ttcttctcca aatgtataac gtttattatt gcattttttg tatccactaa1081 gtggaaaatc atgcattaga tattgtagaa gtagatacaa caatgaacaa gaactggtcc1141 tgaccatgag aggaactgat gatccaatgg gggagataga cctgcacgtg tttaataaaa1201 ggaagtggct attccggttt ctttttgatg ggcaagcatt ttgcaaggcc ttgggctatg1261 tgtgtgcaag gctaagccag ttagttaatt gggatttttt taaaaaggca cttcactggg1321 gggaaaagga acatagagtt ggttattgtc cccttgccta taataaaaac ctattatttt1381 taatttttta actgggtttg cggttaaatc tcacagccca agagatttgc cacttcagat1441 ggattccata cacttgcatt taagtatgca aaaaaattcc aattatccag caatttaacc1501 aaattattgg taacttttct aaaacaaaaa aaaattgttt cccttgtttt ggcagcaatt1561 tcagttacag tcctttactt tctactcaag aaaatagttt caaaaagttg atgtttgttg1621 ctaaaagaac tatttttatg aataaatata aaactaagaa gttatggtgt ccctttttta1681 aaaaatgact catcaaaaga aataactttt tcctttctct tgtaagagaa aaaaattaat1741 ctcttttaga attgcaaaca tatttccttg atggagaaaa tcaattcaca tggcatagtc1801 gttatttatc cagttcaaaa accagagtag aatttactac tctgtctcca ttttttctct1861 ccccaccccc ttaacccaca ttggattcag aaagcttcat tctgcaatca gcattgtcct1921 ttatctttcc agtaaagata gccttttgga gtcgaagatg aggaaaagcc tgtattttat1981 agtcttggaa gtgtcttctt ttgccaggac agagagagga gcttcagcag tgagagcaac2041 tgaaggggtt aatagtggaa cttggctggg tgtctgttaa acttttttcc ctggctctgc2101 cctgggtttc cccttgaagg gatttccctc cgcctctgca acaagaccct ttataaagca2161 cagactttct atttcactcc gcggtatctg catcgggcct cactggcttc aggagctgaa2221 taccctccca ggcacacaca ggtgggacac aaataagggt tttggaacca ctattttctc2281 atcacgacag caacttaaaa tgcctgggaa gatggtcgtg atccttggag cctcaaatat2341 actttggata atgtttgcag cttgtaagtt atttcccttc atctgtttca aatgtt 1 atgcctggga agatggtcgt gatccttgga gcctcaaata tactttggat aatgtttgca 61 gcttctcaag cttttaaaat cgagaccacc ccagaatcta gatatcttgc tcagattggt 121 gactccgtct cattgacttg cagcaccaca ggctgtgagt ccccattttt ctcttggaga 181 acccagatag atagtccact gaatgggaag gtgacgaatg aggggaccac atctacgctg 241 acaatgaatc ctgttagttt tgggaacgaa cactcttacc tgtgcacagc aacttgtgaa 301 tctaggaaat tggaaaaagg aatccaggtg gagatctact cttttcctaa ggatccagag 361 attcatttga gtggccctct ggaggctggg aagccgatca cagtcaagtg ttcagttgct 421 gatgtatacc catttgacag gctggagata gacttactga aaggagatca tctcatgaag 481 agtcaggaat ttctggagga tgcagacagg aagtccctgg aaaccaagag tttggaagta 541 acctttactc ctgtcattga ggatattgga aaagttcttg tttgccgagc taaattacac 601 attgatgaaa tggattctgt gcccacagta aggcaggctg taaaagaatt gcaagtctac 661 atatcaccca agaatacagt tatttctgtg aatccatcca caaagctgca agaaggtggc 721 tctgtgacca tgacctgttc cagcgagggt ctaccagctc cagagatttt ctggagtaag 781 aaattagata atgggaatct acagcacctt tctggaaatg caactctcac cttaattgct 841 atgaggatgg aagattctgg aatttatgtg tgtgaaggag ttaatttgat tgggaaaaac 901 agaaaagagg tggaattaat tgttcaagag aaaccattta ctgttgagat ctcccctgga 961 ccccggattg ctgctcagat tggagactca gtcatgttga catgtagtgt catgggctgt1021 gaatccccat ctttctcctg gagaacccag atagacagcc ctctgagcgg gaaggtgagg1081 agtgagggga ccaattccac gctgaccctg agccctgtga gttttgagaa cgaacactct1141 tatctgtgca cagtgacttg tggacataag aaactggaaa agggaatcca ggtggagctc1201 tactcattcc ctagagatcc agaaatcgag atgagtggtg gcctcgtgaa tgggagctct1261 gtcactgtaa gctgcaaggt tcctagcgtg tacccccttg accggctgga gattgaatta1321 cttaaggggg agactattct ggagaatata gagtttttgg aggatacgga tatgaaatct1381 ctagagaaca aaagtttgga aatgaccttc atccctacca ttgaagatac tggaaaagct1441 cttgtttgtc aggctaagtt acatattgat gacatggaat tcgaacccaa acaaaggcag1501 agtacgcaaa cactttatgt caatgttgcc cccagagata caaccgtctt ggtcagccct1561 tcctccatcc tggaggaagg cagttctgtg aatatgacat gcttgagcca gggctttcct1621 gctccgaaaa tcctgtggag caggcagctc cctaacgggg agctacagcc tctttctgag1681 aatgcaactc tcaccttaat ttctacaaaa atggaagatt ctggggttta tttatgtgaa1741 ggaattaacc aggctggaag aagcagaaag gaagtggaat taattatcca agttactcca1801 aaagacataa aacttacagc ttttccttct gagagtgtca aagaaggaga cactgtcatc1861 atctcttgta catgtggaaa tgttccagaa acatggataa tcctgaagaa aaaagcggag1921 acaggagaca cagtactaaa atctatagat ggcgcctata ccatccgaaa ggcccagttg1981 aaggatgcgg gagtatatga atgtgaatct aaaaacaaag ttggctcaca attaagaagt2041 ttaacacttg atgttcaagg aagagaaaac aacaaagact atttttctcc tgagcttctc2101 gtgctctatt ttgcatcctc cttaataata cctgccattg gaatgataat ttactttgca2161 agaaaagcca acatgaaggg gtcatatagt cttgtagaag cacagaaatc aaaagtgtag (2) SEQ ID NO: 2658 data: (i) sequence characteristics:

(A) length: 6210 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2658 sequence description: 1 gcaggaacag tgctagtatt gctcgagccc gagggctgga ggttagggga tgaaggtctg 61 cttccacgct ttgcactgaa ttagggctag aattggggat gggggtaggg gcgcattcct 121 tcgggagccg aggcttaagt cctcggggtc ctgtactcga tgccgtttct cctatctctg 181 721 cgcctcgtac tccaaccgca tctgcagcga gcaactgaga agccaagact gagccggcgg 781 181 agcctcagaa ctgtcttcag tttccgtaca agggtaaaaa ggcgctctct gccccatccc 241 ccccgacctc gggaacaagg gtccgcattg aaccaggtgc gaatgttctc tctcattctg 301 cgccgttccc gcctcccctc ccccagccgc ggcccccgcc tccccccgca ctgcaccctc 361 ggtgttggct gcagcccgcg agcagttccc gtcaatccct ccccccttac acaggatgtc 421 catattagga catctgcgtc agcaggtttc cacggccttt ccctgtagcc ctggggggag 481 ccatccccga aacccctcat cttggggggc ccacgagacc tctgagacag gaactgcgaa 541 atgctcacga gattaggaca cgcgccaagg cgggggcagg gagctgcgag cgctggggac 601 gcagccgggc ggccgcagaa gcgcccaggc ccgcgcgcca cccctctggc gccaccgtgg 661 ttgagcccgt gacgtttaca ctcattcata aaacgcttgt tataaaagca gtggctgcgg 721 cgcctcgtac tccaaccgca tctgcagcga gcaactgaga agccaagact gagccggcgg 781 ccgcggcgca gcgaacgagc agtgaccgtg ctcctaccca gctctgcttc acagcgccca 841 cctgtctccg cccctcggcc cctcgcccgg ctttgcctaa ccgccacgat gatgttctcg 901 ggcttcaacg cagactacga ggcgtcatcc tcccgctgca gcagcgcgtc cccggccggg 961 gatagcctct cttactacca ctcacccgca gactccttct ccagcatggg ctcgcctgtc1021 aacgcgcagg taaggctggc ttcccgtcgc cgcggggccg ggggcttggg gtcgcggagg1081 aggagacacc gggcgggacg ctccagtaga tgagtagggg gctcccttgt gcctggaggg1141 aggctgccgt ggccggagcg gtgccggctc gggggctcgggacttgctct gagcgcacgc1201 acgcttgcca tagtaagaat tggttccccc ttcgggaggc aggttcgttc tgagcaacct1261 ctggtctgca ctccaggacg gatctctgac attagctgga gcagacgtgt cccaagcaca1321 aactcgctaa ctagagcctg gcttcttcgg ggaggtggca gaaagcggca atcccccctc1381 ccccggcagc ctggagcacg gaggagggat gagggaggag ggtgcagcgg gcgggtgtgt1441 aaggcagttt cattgataaa aagcgagttc attctggaga ctccggagcg gcgcctgcgt1501 cagcgcagac gtcagggata tttataacaa accccctttc aagcaagtga tgctgaaggg1561 ataacgggaa cgcagcggca ggatggaaga gacaggcact gcgctgcgga atgcctggga1621 ggaaaagggg gagacctttc atccaggatg agggacattt aagatgaaat gtccgtggca1681 ggatcgtttc tcttcactgc tgcatgcggc actgggaact cgccccacct gtgtccggaa1741 cctgctcgct cacgtcggct ttccccttct gttttgttct aggacttctg cacggacctg1801 gccgtctcca gtgccaactt cattcccacg gtcactgcca tctcgaccag tccggacctg1861 cagtggctgg tgcagcccgc cctcgtctcc tctgtggccc catcgcagac cagagcccct1921 caccctttcg gagtccccgc cccctccgct ggggcttact ccagggctgg cgttgtgaag1981 accatgacag gaggccgagc gcagagcatt ggcaggaggg gcaaggtgga acaggtgagg2041 aactctagcg tactcttcct gggaatgtgg gggctgggtg ggaagcagcc ccggagatgc2101 aggagcccag tacagaggat gaagccactg atggggctgg ctgcacatcc gtaactggga2161 gccctggctc caagcccatt ccatcccaac tcagactctg agtctcaccc taagaagtac2221 tctcatagtt tcttccctaa gtttcttacc gcatgctttc agactgggct cttctttgtt2281 ctcttgctga ggatcttatt ttaaatgcaa gtcacaccta ttctgcaact gcaggtcaga2341 aatggtttca cagtggggtg ccaggaagca gggaagctgc aggagccagt tctactgggg2401 tgggtgaatg gaggtgatgg cagacacttt tactgaatgt cggtcttttt ttgtgattat2461 tctagttatc tccagaagaa gaagagaaaa ggagaatccg aagggaaagg aataagatgg2521 ctgcagccaa atgccgcaac cggaggaggg agctgactga tacactccaa gcggtaggta2581 ctctgtgggt tgctcctttt taaaacttaa gggaaagttg gagattgagc ataagggccc2641 ttgagtaaga ctgtgtctta tgctttcctt tatccctctg tatacaggag acagaccaac2701 tagaagatga gaagtctgct ttgcagaccg agattgccaa cctgctgaag gagaaggaaa2761 aactagagtt catcctggca gctcaccgac ctgcctgcaa gatccctgat gacctgggct2821 tcccagaaga gatgtctgtg gcttcccttg atctgactgg gggcctgcca gaggttgcca2881 ccccggagtc tgaggaggcc ttcaccctgc ctctcctcaa tgaccctgag cccaagccct2941 cagtggaacc tgtcaagagc atcagcagca tggagctgaa gaccgagccc tttgatgact3001 tcctgttccc agcatcatcc aggcccagtg gctctgagac agcccgctcc gtgccagaca3061 tggacctatc tgggtccttc tatgcagcag actgggagcc tctgcacagt ggctccctgg3121 ggatggggcc catggccaca gagctggagc ccctgtgcac tccggtggtc acctgtactc3181 ccagctgcac tgcttacacg tcttccttcg tcttcaccta ccccgaggct gactccttcc3241 ccagctgtgc agctgcccac cgcaagggca gcagcagcaa tgagccttcc tctgactcgc3301 tcagctcacc cacgctgctg gccctgtgag ggggcaggga aggggaggca gccggcaccc3361 acaagtgcca ctgcccgagc tggtgcatta cagagaggag aaacacatct tccctagagg3421 gttcctgtag acctagggag gaccttatct gtgcgtgaaa cacaccaggc tgtgggcctc3481 aaggacttga aagcatccat gtgtggactc aagtccttac ctcttccgga gatgtagcaa3541 593601 ttgagccagg cctgggtctg tgtctctttt ctctttctcc ttagtcttct catagcatta3661 actaatctat tgggttcatt attggaatta acctggtgct ggatattttc aaattgtatc3721 tagtgcagct gattttaaca ataactactg tgttcctggc aatagtgtgt tctgattaga3781 aatgaccaat attatactaa gaaaagatac gactttattt tctggtagat agaaataaat3841 agctatatcc atgtactgta gtttttcttc aacatcaatg ttcattgtaa tgttactgat3901 catgcattgt tgaggtggtc tgaatgttct gacattaaca gttttccatg aaaacgtttt 398661 attgtgtttt taatttattt attaagatgg attctcagat atttatattt ttattttatt4021 tttttctacc ttgaggtctt ttgacatgtg gaaagtgaat ttgaatgaaa aatttaagca ttgtttgctt attgttccaa gacattgtca ataaaagcat ttaagttgaa tgcgaccaac4141 cttgtgctct tttcattctg gaagtcttgt aagtttctga aaggtattat tggagaccag4201 tttgtcaaga agggtagctg ctggaggggg acacaccctc tgtctgatcc cttatcaaag4261 aggacaagga aactatagag ctgattttag aatattttac aaatacatgc cttccattgg4321 aatgctaaga ttttctactg cttctgggga cgggaaaccg ctgtgtaaca gcttttgtgg4381 gaatacattt tttctgtttc agtactcgca gggggaaata tttaaatttt gttgtgctaa4441 tattaaattc agatgttttg atcttaaagg aaccctttaa gcaaacagaa cctagctttg4501 tacagactat tttaactttt tattctcaca aaatcacgtg gagggttatt ctacttcaaa4561 gatgagcaaa ttgaagaatg gttagaataa acaactttct tgatattccg ttatcggcat4621 tagaatcttc ctgctcgtta tcgtatccag caggctgaac tgcctcttga tacttggtta4681 aaaaaaattt tcaggccggg cgcggtggcc catgcctgta atcctagcac tttgggaggc4741 cgaggcaggc ggatcacctg aggtcgggag ttcgagacca gcctgaccaa catggagaaa4801 ccccgtcttt actaaaaata caaaattagc ctggtgtggt ggtgcatgcc tgtaatccta4861 gctacttgag aggctgagac aggaaaatca cttgaactcg ggaggcggat gttgcagcga4921 actgagattg cgccattgca ctccagcctg ggcaacaaga ttgaaactct gtttaaaaaa4981 aaaagttttc actaatgtgt acattttttt gtactctttt attctcgaaa gggaaggagg5041 gctattgccc tatcccttat taataaatgc attgtggttt ctggtttctc taataccata5101 tgcccttcat tcagtttata gtgggcggaa gtgggggaga aaaagttgct cagaaatcaa5161 51 5161 aagatatctc aaacagcaca aataatggct gatcgttctg caaacaaaaa gttacataat5221 agctcaagaa ggagaagtca acatgactct gaacaagctt taacttagaa actttatcat5281 829 5281 cttaaggaag aacgtgacct ttgtccagga cgtctctggt aatggggcac ttacacacac5341 atgcacacgt acaaaccaca gggaaaggag accgcccttc tgcctctgct cgcgagtatc5401 acgcaggcac catgcactat gttttcacac acactgggtg gaagaagagc ttcagcgcca5461 gtcttctaat gctttggtga taatgaaaat cactgggtgc ttatggggtg tcatattcaa5521 tcgagttaaa agttttaatt caaaatgaca gttttactga ggttgatgtt ctcgtctatg5581 atatctctgc ccctcccata aaaatggaca tttaaaagca acttaccgct ctttagatca5641 ctcctatatc acacaccact tggggtgctg tttctgctag acttgtgatg acagtggcct5701 taggatccct gtttgctgtt caaagggcaa atattttata gcctttaaat atacctaaac5761 taaatacaga attaatataa ctaacaaaca cctggtctga aataacaagg tgatctaccc5821 tggaaggaac ccagctggtg ggccaggagc ggtggctcac acctgtaatt ccagcacttt5881 gggaggctga gacaggagga tcactggagt ccaggagttt gagaccagcc tgggcaacat5941 ggcaaaaccc agtgtgcttc tgttgtccca gctacactac tcaggaggct gaggcaggag6001 tatgacttga gcctgggagg gggaggttgc agagaactga tattgcacca ccactgcact6061 ccagcctggg tgacacagca aaaccctatc tcaaaaaaaa aaaaaaaaaa aaggaaccca6121 gctggttcct gtaggtgtgc aataataaca accagaggaa gaaaaggaag acgatttccc6181 agatgaagaa gggcagctgg accttcggac (2) SEQ ID NO: 2659 data: (i) sequence characteristics:

(A) length: 3565 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2659 sequence description: 1 gcagccgggc ggccgcagaa gcgcccaggc ccgcgcgcca cccctctggc gccaccgtgg 61 ttgagcccgt gacgtttaca ctcattcata aaacgcttgt tataaaagca gtggctgcgg 121 cgcctcgtac tccaaccgca tctgcagcga gcaactgaga agccaagact gagccggcgg 181 721 aactcgctaa ctagagcctg gcttcttcgg ggaggtggca gaaagcggca atcccccctc 781 181 ccgcggcgca gcgaacgagc agtgaccgtg ctcctaccca gctctgcttc acagcgccca 241 cctgtctccg cccctcggcc cctcgcccgg ctttgcctaa ccgccacgat gatgttctcg 301 ggcttcaacg cagactacga ggcgtcatcc tcccgctgca gcagcgcgtc cccggccggg 361 gatagcctct cttactacca ctcacccgca gactccttct ccagcatggg ctcgcctgtc 421 aacgcgcagg taaggctggc ttcccgtcgc cgcggggccg ggggcttggg gtcgcggagg 481 aggagacacc gggcgggacg ctccagtaga tgagtagggg gctcccttgt gcctggaggg 541 aggctgccgt ggccggagcg gtgccggctc gggggctcgg gacttgctct gagcgcacgc 601 acgcttgcca tagtaagaat tggttccccc ttcgggaggc aggttcgttc tgagcaacct 661 ctggtctgca ctccaggacg gatctctgac attagctgga gcagacgtgt cccaagcaca 721 aactcgctaa ctagagcctg gcttcttcgg ggaggtggca gaaagcggca atcccccctc 781 ccccggcagc ctggagcacg gaggagggat gagggaggag ggtgcagcgg gcgggtgtgt 841 aaggcagttt cattgataaa aagcgagttc attctggaga ctccggagcg gcgcctgcgt 901 cagcgcagac gtcagggata tttataacaa accccctttc aagcaagtga tgctgaaggg 961 ataacgggaa cgcagcggca ggatggaaga gacaggcact gcgctgcgga atgcctggga1021 ggaaaagggg gagacctttc atccaggatg agggacattt aagatgaaat gtccgtggca1081 ggatcgtttc tcttcactgc tgcatgcggc actgggaact cgccccacct gtgtccggaa1141 cctgctcgct cacgtcggct ttccccttct gttttgttct aggacttctg cacggacctg1201 gccgtctcca gtgccaactt cattcccacg gtcactgcca tctcgaccag tccggacctg1261 cagtggctgg tgcagcccgc cctcgtctcc tctgtggccc catcgcagac cagagcccct1321 caccctttcg gagtccccgc cccctccgct ggggcttact ccagggctgg cgttgtgaag1381 accatgacag gaggccgagc gcagagcatt ggcaggaggg gcaaggtgga acaggtgagg1441 aactctagcg tactcttcct gggaatgtgg gggctgggtg ggaagcagcc ccggagatgc1501 aggagcccag tacagaggat gaagccactg atggggctgg ctgcacatcc gtaactggga1561 gccctggctc caagcccatt ccatcccaac tcagactctg agtctcaccc taagaagtac1621 tctcatagtt tcttccctaa gtttcttacc gcatgctttc agactgggct cttctttgtt1681 ctcttgctga ggatcttatt ttaaatgcaa gtcacaccta ttctgcaact gcaggtcaga1741 aatggtttca cagtggggtg ccaggaagca gggaagctgc aggagccagt tctactgggg1801 tgggtgaatg gaggtgatgg cagacacttt tactgaatgt cggtcttttt ttgtgattat1861 tctagttatc tccagaagaa gaagagaaaa ggagaatccg aagggaaagg aataagatgg1921 ctgcagccaa atgccgcaac cggaggaggg agctgactga tacactccaa gcggtaggta1981 ctctgtgggt tgctcctttt taaaacttaa gggaaagttg gagattgagc ataagggccc2041 ttgagtaaga ctgtgtctta tgctttcctt tatccctctg tatacaggag acagaccaac2101 tagaagatga gaagtctgct ttgcagaccg agattgccaa cctgctgaag gagaaggaaa2161 aactagagtt catcctggca gctcaccgac ctgcctgcaa gatccctgat gacctgggct2221 tcccagaaga gatgtctgtg gcttcccttg atctgactgg gggcctgcca gaggttgcca2281 ccccggagtc tgaggaggcc ttcaccctgc ctctcctcaa tgaccctgag cccaagccct2341 cagtggaacc tgtcaagagc atcagcagca tggagctgaa gaccgagccc tttgatgact2401 tcctgttccc agcatcatcc aggcccagtg gctctgagac agcccgctcc gtgccagaca2461 tggacctatc tgggtccttc tatgcagcag actgggagcc tctgcacagt ggctccctgg2521 ggatggggcc catggccaca gagctggagc ccctgtgcac tccggtggtc acctgtactc2581 ccagctgcac tgcttacacg tcttccttcg tcttcaccta ccccgaggct gactccttcc2641 ccagctgtgc agctgcccac cgcaagggca gcagcagcaa tgagccttcc tctgactcgc2701 tcagctcacc cacgctgctg gccctgtgag ggggcaggga aggggaggca gccggcaccc2761 acaagtgcca ctgcccgagc tggtgcatta cagagaggag aaacacatct tccctagagg2821 gttcctgtag acctagggag gaccttatct gtgcgtgaaa cacaccaggc tgtgggcctc2881 aaggacttga aagcatccat gtgtggactc aagtccttac ctcttccgga gatgtagcaa2941 aacgcatgga gtgtgtattg ttcccagtga cacttcagag agctggtagt tagtagcatg3001 ttgagccagg cctgggtctg tgtctctttt ctctttctcc ttagtcttct catagcatta3061 actaatctat tgggttcatt attggaatta acctggtgct ggatattttc aaattgtatc3121 tagtgcagct gattttaaca ataactactg tgttcctggc aatagtgtgt tctgattaga3181 aatgaccaat attatactaa gaaaagatac gactttattt tctggtagat agaaataaat3241 agctatatcc atgtactgta gtttttcttc aacatcaatg ttcattgtaa tgttactgat3301 catgcattgt tgaggtggtc tgaatgttct gacattaaca gttttccatg aaaacgtttt3361 attgtgtttt taatttattt attaagatgg attctcagat atttatattt ttattttatt3421 tttttctacc ttgaggtctt ttgacatgtg gaaagtgaat ttgaatgaaa aatttaagca3481 ttgtttgctt attgttccaa gacattgtca ataaaagcat ttaagttgaa tgcgaccaac3541 cttgtgctct tttcattctg gaagt (2) SEQ ID NO: 2660 for data: (i) sequence characteristics:

(A) length: 3198 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2660 sequence description: 1 cctcgaggtc gaagcttatt taaaagcata ttttccaatg cctgctttag ctgtggaaaa 61 ggaagactct ccgagggcaa atccaggagt catggaaaac aatgggcagg gcagcttggt 63121 gctgtgactg gatgggtctt taaggttgtt tcccttgaat aaagaatgag ggaattccac 63181 caggggaagg agagtagacc aaacatttgg tgaacagaaa gggagacaga gtctttagtg 241 ttattcccca aatattcctg gagagaagncctt tgagacacct ggtaggatta tagtgatcta 301 aagaggcatg gccatgtgac tgctnggcc aatgatgtat gggcagaagt gatgtgtgcc 361 ataagtggat gctctgacag acatgatgtt ccgagttcct tccccagn cagggatagct 421 gtgaaaaggg gtatcaacac gaggcctcct tcagcctgag ccctttagtg actacaatga 481 gcagagctac cctgccaacc tacaacggtc atgtagnaga aatgaccaac tttcactgga aaggncact gatgttag ggttgntggg taggca taacactnnc tntcctcgaca 601 gaactgggag tgagagataa ggctggagag agaaggagtt ggattgtgaa aancccttcc 661 721 58 gcaggggcgt taacatgaac agatttgtta tttttttgga tgaaatatgc tatttctcaa cataaggaga agatcagcct actaaaccac atgaggcaga gaggaacaca cagaacctta 841 gccaaaagat atatatttat gcaaagtcct aagtcttgaa atttctaaat acaggagctc 901 tgaacggagt tacagtcaga ggatcaggca agaaaatttc ttctatgcca caagcgctat 961 96 ttcctctgca gataactaat actccacaag aaagtttgcc agagtagaga aaatacaaag1021 gaatgtaaca cagacctgag gtcaatttcc agctgcctgt gtgacctcaa caaagatact1081 taacctctct gggcctattt cctcacatgt taaatctgga taataatata tgtctctcaa1141 gacagttgtg gggagaaaac agcgtattta aattgcttag gagaatgcct ggcagataat aagtgtttaa tacatgaaac tgatttttat tactgttatt aaaaaatatt tagaacacca1261 actccctgaa tacaacagaa aatgattcag ggcaacagac agaggagaat gttctctcct1321 tgaggaagca actggatctt gtcatcactg tatacctacc taccccaccc cctccccagc1381 tcagtgcctg gctcacagta ggctttcagt taccctctgc agatcagtga aagctaggtg1441 agtgcccgga gtgaagaaaa gttggcaggt ttcccactga taccagctgc tgttggtttc1501 tgaacactca aagccgcaaa taccttaggg ctgggggcaa tgaacccaag gctgaattcc1561 aagttcagaa gcagcgaagt ctgaatttag aacctaggac ttaaactgct gcaggtccaa1621 cttcaagccc cagttttaga cagaggcttg ggaaagatct gacttctaac ccggttcccc1681 ctcccctcct cccctcgatg cttctcacag gaaagtacac ctggtcctgc caaatcgcac1741 tcttatatcc tggcatccta tccaggctct gcgaggatgg aaactgcgag gcaggggagg1801 gaagcgggct gtttggccac cacctcccta gtgctgcagg cgaccctgtc acactaaact1861 cctggcagcc cagtgaggtg gacggcaccg ccccacctgc agatgaggga aatgaagctc1921 ggaggagttc cgtgatttgc ttgcttcaca ctgtggtagc ctggccacga aagaaccaag1981 gattccgact tcggattctt ccaccacaca ctttcgtcct aagggtgggg gcggggggag2041 aataaaataa ccgcggaaaa ggaaccactt acatgtgtct agcgcttcct agaggctacc2101 caggatatgc gcccaccacc cggccggagt gcagagattt gaagtccagg ttctaccccg2161 ggctccgagt actactgcgt gactttatgc gagtgtcgcc gccttctggg cttgttttcc2221 cggaagcaac tcggcgcgga tggagtgtgt gtgtgcgcgc gcgcgttatg ttgtgcgtgt2281 tgtgttagcg tgtgcgtgtt gtccgagttt cggatcgcct acacctgtga acccccgcgc2341 cctttccccc acggtcccgg agatgaagtg gggtgcaacg gagactcagc tgagcgtcca2401 gtttcgggca atacaaatct ctcggcttct acgagcagcc acacgacccc gcggaccgtc2461 gctcctgaac ttgaccgaga tgcaaacttc ggagtgttct caacgtgggg gccgactctc2521 ggagaccgcc ctaaacttaa gtccccttag gctcgcccca cctggacttc acatagccac2581 cttaagggcg gtattcccgc ccccggaagt gcgggtggca gcgtacttgg attctcagcc2641 tccagccccg cgcggtggcg gccgcggtgg atgacttcgg gccccacaag tggaaacaac2701 aaccacccct cgcccgcacc cctggcccaa aacaactggc caggttccct cgtcccgggt2761 27 2761 ccctgcatcc cccgcatccc cgtccgcagc cgtgaacttg agcccccctc catcagaggt2821 tgcgagcgtc gccgctcggc agccaccgtc actagacagt caaaccccaa gacgtcagcc2881 cacaatgcac cgggcgggcc gggaaaaacg gcccggggag gggaccgggg aacagagggc2941 cgagaggcgt gcggcagggg ggagggtagg agaaagaagg gcccgactgt aggagggcag3001 cggagcatta cctcatcccg tgagcctccg cgggcccaga gaagaatctt ctagggtgga3061 gtctccatgg tgacgggcgg gcccgccccc ctgagagcga cgcgagccaa tgggaaggcc3121 ttggggtgac atcatgggct atttttaggg gttgactggt agcagataag tgttgagctc3181 gggctggata agggctca (2) SEQ ID NO: 2661 data: (i) sequence characteristics:

(A) length: 3622 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2661 sequence description: 1 cccggggagg ggaccgggga acagagggcc gagaggcgtg cggcaggggg gagggtagga 61 gaaagaaggg cccgactgta ggagggcagc ggagcattac ctcatcccgt gagcctccgc 121 gggcccagag aagaatcttc tagggtggag tctccatggt gacgggcggg cccgcccccc 181 721 agagccacgc aagagaagaa ggacgtgcgc tcagcttcgc tcgcaccggt tgttgaactt 781 181 tgagagcgac gcgagccaat gggaaggcct tggggtgaca tcatgggcta tttttagggg 241 ttgactggta gcagataagt gttgagctcg ggctggataa gggctcagag ttgcactgag 301 tgtggctgaa gcagcgaggc gggagtggag gtgcgcggag tcaggcagac agacagacac 361 agccagccag ccaggtcggc agtatagtcc gaactgcaaa tcttattttc ttttcacctt 421 ctctctaact gcccagagct agcgcctgtg gctcccgggc tggtggttcg ggagtgtcca 481 gagagccttg tctccagccg gccccgggag gagagccctg ctgcccaggc gctgttgaca 541 gcggcggaaa gcagcggtac cccacgcgcc cgccggggga cgtcggcgag cggctgcagc 601 agcaaagaac tttcccggcg gggaggaccg gagacaagtg gcagagtccc ggagcgaact 661 tttgcaagcc tttcctgcgt cttaggcttc tccacggcgg taaagaccag aaggcggcgg 721 agagccacgc aagagaagaa ggacgtgcgc tcagcttcgc tcgcaccggt tgttgaactt 781 gggcgagcgc gagccgcggc tgccgggcgc cccctccccc tagcagcgga ggaggggaca 841 agtcgtcgga gtccgggcgg ccaagacccg ccgccggccg gccactgcag ggtccgcact 901 gatccgctcc gcggggagag ccgctgctct gggaagtgag ttcgcctgcg gactccgagg 961 aaccgctgcg cccgaagagc gctcagtgag tgaccgcgac ttttcaaagc cgggtagcgc1021 gcgcgagtcg acaagtaaga gtgcgggagg catcttaatt aaccctgcgc tccctggagc1081 gagctggtga ggagggcgca gcggggacga cagccagcgg gtgcgtgcgc tcttagagaa1141 actttccctg tcaaaggctc cggggggcgc gggtgtcccc cgcttgccag agccctgttg1201 cggccccgaa acttgtgcgc gcacgccaaa ctaacctcac gtgaagtgac ggactgttct1261 atgactgcaa agatggaaac gaccttctat gacgatgccc tcaacgcctc gttcctcccg1321 tccgagagcg gaccttatgg ctacagtaac cccaagatcc tgaaacagag catgaccctg1381 aacctggccg acccagtggg gagcctgaag ccgcacctcc gcgccaagaa ctcggacctc1441 ctcacctcgc ccgacgtggg gctgctcaag ctggcgtcgc ccgagctgga gcgcctgata1501 atccagtcca gcaacgggca catcaccacc acgccgaccc ccacccagtt cctgtgcccc1561 aagaacgtga cagatgagca ggaggggttc gccgagggct tcgtgcgcgc cctggccgaa1621 ctgcacagcc agaacacgct gcccagcgtc acgtcggcgg cgcagccggt caacggggca1681 ggcatggtgg ctcccgcggt agcctcggtg gcagggggca gcggcagcgg cggcttcagc1741 gccagcctgc acagcgagcc gccggtctac gcaaacctca gcaacttcaa cccaggcgcg1801 ctgagcagcg gcggcggggc gccctcctac ggcgcggccg gcctggcctt tcccgcgcaa1861 ccccagcagc agcagcagcc gccgcaccac ctgccccagc agatgcccgt gcagcacccg1921 cggctgcagg ccctgaagga ggagcctcag acagtgcccg agatgcccgg cgagacaccg1981 cccctgtccc ccatcgacat ggagtcccag gagcggatca aggcggagag gaagcgcatg2041 aggaaccgca tcgctgcctc caagtgccga aaaaggaagc tggagagaat cgcccggctg2101 gaggaaaaag tgaaaacctt gaaagctcag aactcggagc tggcgtccac ggccaacatg2161 ctcagggaac aggtggcaca gcttaaacag aaagtcatga accacgttaa cagtgggtgc2221 caactcatgc taacgcagca gttgcaaaca ttttgaagag agaccgtcgg gggctgaggg2281 gcaacgaaga aaaaaaataa cacagagaga cagacttgag aacttgacaa gttgcgacgg2341 agagaaaaaa gaagtgtccg agaactaaag ccaagggtat ccaagttgga ctgggttcgg2401 tctgacggcg cccccagtgt gcacgagtgg gaaggacttg gtcgcgccct cccttggcgt2461 ggagccaggg agcggccgcc tgcgggctgc cccgctttgc ggacgggctg tccccgcgcg2521 aacggaacgt tggactttcg ttaacattga ccaagaactg catggaccta acattcgatc2581 tcattcagta ttaaaggggg gagggggagg gggttacaaa ctgcaataga gactgtagat2641 tgcttctgta gtactcctta agaacacaaa gcggggggag ggttggggag gggcggcagg2701 agggaggttt gtgagagcga ggctgagcct acagatgaac tctttctggc ctgctttcgt2761 taactgtgta tgtacatata tatatttttt aatttgatta aagctgatta ctgtcaataa2821 acagcttcat gcctttgtaa gttatttctt gtttgtttgt ttgggtatcc tgcccagtgt2881 tgtttgtaaa taagagattt ggagcactct gagtttacca tttgtaataa agtatataat2941 ttttttatgt tttgtttctg aaaattccag aaaggatatt taagaaaata caataaacta3001 ttggaaagta ctcccctaac ctcttttctg catcatctgt agatcctagt ctatctaggt3061 ggagttgaaa gagttaagaa tgctcgataa aatcactctc agtgcttctt actattaagc3121 agtaaaaact gttctctatt agacttagaa ataaatgtac ctgatgtacc tgatgctatg3181 tcaggcttca tactccacgc tcccccagcg tatctatatg gaattgctta ccaaaggcta3241 gtgcgatgtt tcaggaggct ggaggaaggg gggttgcagt ggagagggac agcccactga3301 gaagtcaaac atttcaaagt ttggattgca tcaagtggca tgtgctgtga ccatttataa3361 tgttagaaat tttacaatag gtgcttattc tcaaagcagg aattggtggc agattttaca3421 aaagatgtat ccttccaatt tggaatcttc tctttgacaa ttcctagata aaaagatggc3481 ctttgtctta tgaatattta taacagcatt ctgtcacaat aaatgtattc aaataccaat3541 aacagatctt gaattgcttc cctttactac ttttttgttc ccaagttata tactgaagtt3601 tttattttta gttgctgagg tt (2) SEQ ID NO: 2662 data: (i) sequence characteristics:

(A) length: 16595 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2662 sequence description: 1 gcaggaacag tgctagtatt gctcgagccc gagggctgga ggttagggga tgaaggtctg 61 cttccacgct ttgcactgaa ttagggctag aattggggat gggggtaggg gcgcattcct 121 tcgggagccg aggcttaagt cctcggggtc ctgtactcga tgccgtttct cctatctctg 181 721 cgcctcgtac tccaaccgca tctgcagcga gcaactgaga agccaagact gagccggcgg 781 181 agcctcagaa ctgtcttcag tttccgtaca agggtaaaaa ggcgctctct gccccatccc 241 ccccgacctc gggaacaagg gtccgcattg aaccaggtgc gaatgttctc tctcattctg 301 cgccgttccc gcctcccctc ccccagccgc ggcccccgcc tccccccgca ctgcaccctc 361 ggtgttggct gcagcccgcg agcagttccc gtcaatccct ccccccttac acaggatgtc 421 catattagga catctgcgtc agcaggtttc cacggccttt ccctgtagcc ctggggggag 481 ccatccccga aacccctcat cttggggggc ccacgagacc tctgagacag gaactgcgaa 541 atgctcacga gattaggaca cgcgccaagg cgggggcagg gagctgcgag cgctggggac 601 gcagccgggc ggccgcagaa gcgcccaggc ccgcgcgcca cccctctggc gccaccgtgg 661 ttgagcccgt gacgtttaca ctcattcata aaacgcttgt tataaaagca gtggctgcgg 721 cgcctcgtac tccaaccgca tctgcagcga gcaactgaga agccaagact gagccggcgg 781 ccgcggcgca gcgaacgagc agtgaccgtg ctcctaccca gctctgcttc acagcgccca 841 cctgtctccg cccctcggcc cctcgcccgg ctttgcctaa ccgccacgat gatgttctcg 901 ggcttcaacg cagactacga ggcgtcatcc tcccgctgca gcagcgcgtc cccggccggg 961 gatagcctct cttactacca ctcacccgca gactccttct ccagcatggg ctcgcctgtc1021 aacgcgcagg taaggctggc ttcccgtcgc cgcggggccg ggggcttggg gtcgcggagg1081 aggagacacc gggcgggacg ctccagtaga tgagtagggg gctcccttgt gcctggaggg1141 aggctgccgt ggccggagcg gtgccggctc gggggctcgg gacttgctct gagcgcacgc1201 acgcttgcca tagtaagaat tggttccccc ttcgggaggc aggttcgttc tgagcaacct1261 ctggtctgca ctccaggacg gatctctgac attagctgga gcagacgtgt cccaagcaca1321 aactcgctaa ctagagcctg gcttcttcgg ggaggtggca gaaagcggca atcccccctc1381 ccccggcagc ctggagcacg gaggagggat gagggaggag ggtgcagcgg gcgggtgtgt1441 aaggcagttt cattgataaa aagcgagttc attctggaga ctccggagcg gcgcctgcgt1501 cagcgcagac gtcagggata tttataacaa accccctttc aagcaagtga tgctgaaggg1561 ataacgggaa cgcagcggca ggatggaaga gacaggcact gcgctgcgga atgcctggga1621 ggaaaagggg gagacctttc atccaggatg agggacattt aagatgaaat gtccgtggca1681 ggatcgtttc tcttcactgc tgcatgcggc actgggaact cgccccacct gtgtccggaa1741 cctgctcgct cacgtcggct ttccccttct gttttgttct aggacttctg cacggacctg1801 gccgtctcca gtgccaactt cattcccacg gtcactgcca tctcgaccag tccggacctg1861 cagtggctgg tgcagcccgc cctcgtctcc tctgtggccc catcgcagac cagagcccct1921 caccctttcg gagtccccgc cccctccgct ggggcttact ccagggctgg cgttgtgaag1981 accatgacag gaggccgagc gcagagcatt ggcaggaggg gcaaggtgga acaggtgagg2041 aactctagcg tactcttcct gggaatgtgg gggctgggtg ggaagcagcc ccggagatgc2101 aggagcccag tacagaggat gaagccactg atggggctgg ctgcacatcc gtaactggga2161 gccctggctc caagcccatt ccatcccaac tcagactctg agtctcaccc taagaagtac2221 tctcatagtt tcttccctaa gtttcttacc gcatgctttc agactgggct cttctttgtt2281 ctcttgctga ggatcttatt ttaaatgcaa gtcacaccta ttctgcaact gcaggtcaga2341 aatggtttca cagtggggtg ccaggaagca gggaagctgc aggagccagt tctactgggg2401 tgggtgaatg gaggtgatgg cagacacttt tactgaatgt cggtcttttt ttgtgattat2461 tctagttatc tccagaagaa gaagagaaaa ggagaatccg aagggaaagg aataagatgg2521 ctgcagccaa atgccgcaac cggaggaggg agctgactga tacactccaa gcggtaggta2581 ctctgtgggt tgctcctttt taaaacttaa gggaaagttg gagattgagc ataagggccc2641 ttgagtaaga ctgtgtctta tgctttcctt tatccctctg tatacaggag acagaccaac2701 tagaagatga gaagtctgct ttgcagaccg agattgccaa cctgctgaag gagaaggaaa2761 aactagagtt catcctggca gctcaccgac ctgcctgcaa gatccctgat gacctgggct2821 tcccagaaga gatgtctgtg gcttcccttg atctgactgg gggcctgcca gaggttgcca2881 ccccggagtc tgaggaggcc ttcaccctgc ctctcctcaa tgaccctgag cccaagccct2941 cagtggaacc tgtcaagagc atcagcagca tggagctgaa gaccgagccc tttgatgact3001 tcctgttccc agcatcatcc aggcccagtg gctctgagac agcccgctcc gtgccagaca3061 tggacctatc tgggtccttc tatgcagcag actgggagcc tctgcacagt ggctccctgg3121 ggatggggcc catggccaca gagctggagc ccctgtgcac tccggtggtc acctgtactc3181 ccagctgcac tgcttacacg tcttccttcg tcttcaccta ccccgaggct gactccttcc3241 ccagctgtgc agctgcccac cgcaagggca gcagcagcaa tgagccttcc tctgactcgc3301 tcagctcacc cacgctgctg gccctgtgag ggggcaggga aggggaggca gccggcaccc3361 acaagtgcca ctgcccgagc tggtgcatta cagagaggag aaacacatct tccctagagg3421 gttcctgtag acctagggag gaccttatct gtgcgtgaaa cacaccaggc tgtgggcctc3481 aaggacttga aagcatccat gtgtggactc aagtccttac ctcttccgga gatgtagcaa3541 593601 ttgagccagg cctgggtctg tgtctctttt ctctttctcc ttagtcttct catagcatta3661 actaatctat tgggttcatt attggaatta acctggtgct ggatattttc aaattgtatc3721 tagtgcagct gattttaaca ataactactg tgttcctggc aatagtgtgt tctgattaga3781 aatgaccaat attatactaa gaaaagatac gactttattt tctggtagat agaaataaat3841 agctatatcc atgtactgta gtttttcttc aacatcaatg ttcattgtaa tgttactgat3901 catgcattgt tgaggtggtc tgaatgttct gacattaaca gttttccatg aaaacgtttt 398661 attgtgtttt taatttattt attaagatgg attctcagat atttatattt ttattttatt4021 tttttctacc ttgaggtctt ttgacatgtg gaaagtgaat ttgaatgaaa aatttaagca ttgtttgctt attgttccaa gacattgtca ataaaagcat ttaagttgaa tgcgaccaac4141 cttgtgctct tttcattctg gaagtcttgt aagtttctga aaggtattat tggagaccag4201 tttgtcaaga agggtagctg ctggaggggg acacaccctc tgtctgatcc cttatcaaag4261 aggacaagga aactatagag ctgattttag aatattttac aaatacatgc cttccattgg4321 aatgctaaga ttttctactg cttctgggga cgggaaaccg ctgtgtaaca gcttttgtgg4381 gaatacattt tttctgtttc agtactcgca gggggaaata tttaaatttt gttgtgctaa4441 tattaaattc agatgttttg atcttaaagg aaccctttaa gcaaacagaa cctagctttg4501 tacagactat tttaactttt tattctcaca aaatcacgtg gagggttatt ctacttcaaa4561 gatgagcaaa ttgaagaatg gttagaataa acaactttct tgatattccg ttatcggcat4621 tagaatcttc ctgctcgtta tcgtatccag caggctgaac tgcctcttga tacttggtta4681 aaaaaaattt tcaggccggg cgcggtggcc catgcctgta atcctagcac tttgggaggc4741 cgaggcaggc ggatcacctg aggtcgggag ttcgagacca gcctgaccaa catggagaaa4801 ccccgtcttt actaaaaata caaaattagc ctggtgtggt ggtgcatgcc tgtaatccta4861 gctacttgag aggctgagac aggaaaatca cttgaactcg ggaggcggat gttgcagcga4921 actgagattg cgccattgca ctccagcctg ggcaacaaga ttgaaactct gtttaaaaaa4981 aaaagttttc actaatgtgt acattttttt gtactctttt attctcgaaa gggaaggagg5041 gctattgccc tatcccttat taataaatgc attgtggttt ctggtttctc taataccata5101 tgcccttcat tcagtttata gtgggcggaa gtgggggaga aaaagttgct cagaaatcaa5161 51 5161 aagatatctc aaacagcaca aataatggct gatcgttctg caaacaaaaa gttacataat5221 agctcaagaa ggagaagtca acatgactct gaacaagctt taacttagaa actttatcat5281 829 5281 cttaaggaag aacgtgacct ttgtccagga cgtctctggt aatggggcac ttacacacac5341 atgcacacgt acaaaccaca gggaaaggag accgcccttc tgcctctgct cgcgagtatc5401 acgcaggcac catgcactat gttttcacac acactgggtg gaagaagagc ttcagcgcca5461 gtcttctaat gctttggtga taatgaaaat cactgggtgc ttatggggtg tcatattcaa5521 tcgagttaaa agttttaatt caaaatgaca gttttactga ggttgatgtt ctcgtctatg5581 atatctctgc ccctcccata aaaatggaca tttaaaagca acttaccgct ctttagatca5641 ctcctatatc acacaccact tggggtgctg tttctgctag acttgtgatg acagtggcct5701 taggatccct gtttgctgtt caaagggcaa atattttata gcctttaaat atacctaaac5761 taaatacaga attaatataa ctaacaaaca cctggtctga aataacaagg tgatctaccc5821 tggaaggaac ccagctggtg ggccaggagc ggtggctcac acctgtaatt ccagcacttt5881 gggaggctga gacaggagga tcactggagt ccaggagttt gagaccagcc tgggcaacat5941 ggcaaaaccc agtgtgcttc tgttgtccca gctacactac tcaggaggct gaggcaggag6001 tatgacttga gcctgggagg gggaggttgc agagaactga tattgcacca ccactgcact6061 ccagcctggg tgacacagca aaaccctatc tcaaaaaaaa aaaaaaaaaa aaggaaccca6121 gctggttcct gtaggtgtgc aataataaca accagaggaa gaaaaggaag acgatttccc6181 agatgaagaa gggcagctgg accttcggac 1 gcagccgggc ggccgcagaa gcgcccaggc ccgcgcgcca cccctctggc gccaccgtgg ttgagcccgt gacgtttaca ctcattcata aaacgcttgt tataaaagca gtggctgcgg cgcctcgtac tccaaccgca tctgcagcga gcaactgaga agccaagact gagccggcgg ccgcggcgca gcgaacgagc agtgaccgtg ctcctaccca gctctgcttc acagcgccca cctgtctccg cccctcggcc cctcgcccgg ctttgcctaa ccgccacgat gatgttctcg 301 ggcttcaacg cagactacga ggcgtcatcc tcccgctgca gcagcgcgtc cccggccggg 361 gatagcctct cttactacca ctcacccgca gactccttct ccagcatggg ctcgcctgtc 421 aacgcgcagg taaggctggc ttcccgtcgc cgcggggccg ggggcttggg gtcgcggagg 481 aggagacacc gggcgggacg ctccagtaga tgagtagggg gctcccttgt gcctggaggg 541 aggctgccgt ggccggagcg gtgccggctc gggggctcgg gacttgctct gagcgcacgc acgcttgcca tagtaagaat tggttccccc ttcgggaggc aggttcgttc tgagcaacct 661 ctggtctgca ctccaggacg gatctctgac attagctgga gcagacgtgt cccaagcaca 721 aactcgctaa ctagagcctg gcttcttcgg ggaggtggca gaaagcggca atcccccctc 781 63 ccccggcagc ctggagcacg gaggagggat gagggaggag ggtgcagcgg gcgggtgtgt 841 aaggcagttt cattgataaa aagcgagttc attctggaga ctccggagcg gcgcctgcgt 901 cagcgcagac gtcagggata tttataacaa accccctttc aagcaagtga tgctgaaggg 961 ataacgggaa cgcagcggca ggatggaaga gacaggcact gcgctgcgga atgcctggga1021 ggaaaagggg gagacctttc atccaggatg agggacattt aagatgaaat gtccgtggca1081 ggatcgtttc tcttcactgc tgcatgcggc actgggaact cgccccacct gtgtccggaa1141 cctgctcgct cacgtcggct ttccccttct gttttgttct aggacttctg cacggacctg1201 84 1261 cagtggctgg tgcagcccgc cctcgtctcc tctgtggccc catcgcagac cagagcccct1321 caccctttcg gagtccccgc cccctccgct ggggcttact ccagggctgg cgttgtgaag1381 accatgacag gaggccgagc gcagagcatt ggcaggaggg gcaaggtgga acaggtgagg1441 aactctagcg tactcttcct gggaatgtgg gggctgggtg ggaagcagcc ccggagatgc1501 aggagcccag tacagaggat gaagccactg atggggctgg ctgcacatcc gtaactggga1561 gccctggctc caagcccatt ccatcccaac tcagactctg agtctcaccc taagaagtac1621 tctcatagtt tcttccctaa gtttcttacc gcatgctttc agactgggct cttctttgtt1681 ctcttgctga ggatcttatt ttaaatgcaa gtcacaccta ttctgcaact gcaggtcaga1741 aatggtttca cagtggggtg ccaggaagca gggaagctgc aggagccagt tctactgggg180 tgggtgaatg gaggtgatgg cagacacttt tactgaatgt cggtcttttt ttgtgattat1861 tctagttatc tccagaagaa gaagagaaaa ggagaatccg aagggaaagg aataagatgg 1926951 1981 ctctgtgggt tgctcctttt taaaacttaa gggaaagttg gagattgagc ataagggccc2041 ttgagtaaga ctgtgtctta tgctttcctt tatccctctg tatacaggag acagaccaac2101 tagaagatga gaagtctgct ttgcagaccg agattgccaa cctgctgaag gagaaggaaa2161 aactagagtt catcctggca gctcaccgac ctgcctgcaa gatccctgat gacctgggct2221 tcccagaaga gatgtctgtg gcttcccttg atctgactgg gggcctgcca gaggttgcca2281 ccccggagtc tgaggaggcc ttcaccctgc ctctcctcaa tgaccctgag cccaagccct2341 cagtggaacc tgtcaagagc atcagcagca tggagctgaa gaccgagccc tttgatgact2401 tcctgttccc agcatcatcc aggcccagtg gctctgagac agcccgctcc gtgccagaca2461 392521 ggatggggcc catggccaca gagctggagc ccctgtgcac tccggtggtc acctgtactc 462581 ccagctgcac tgcttacacg tcttccttcg tcttcaccta ccccgaggct gactccttcc2641 ccagctgtgc agctgcccac cgcaagggca gcagcagcaa tgagccttcc tctgactcgc2701 tcagctcacc cacgctgctg gccctgtgag ggggcaggga aggggaggca gccggcaccc2761 acaagtgcca ctgcccgagc tggtgcatta cagagaggag aaacacatct tccctagagg2821 gttcctgtag acctagggag gaccttatct gtgcgtgaaa cacaccaggc tgtgggcctc2881 aaggacttga aagcatccat gtgtggactc aagtccttac ctcttccgga gatgtagcaa2941 aacgcatgga gtgtgtattg ttcccagtga cacttcagag agctggtagt tagtagcatg3001 ttgagccagg cctgggtctg tgtctctttt ctctttctcc ttagtcttct catagcatta3061 actaatctat tgggttcatt attggaatta acctggtgct ggatattttc aaattgtatc3121 3181 aatgaccaat attatactaa gaaaagatac gactttattt tctggtagat agaaataaat3241 agctatatcc atgtactgta gtttttcttc aacatcaatg ttcattgtaa tgttactgat3301 catgcattgt tgaggtggtc tgaatgttct gacattaaca gttttccatg aaaacgtttt33 attgtgtttt taatttattt attaagatgg attctcagat atttatattt ttattttatt3421 tttttctacc ttgaggtctt ttgacatgtg gaaagtgaat ttgaatgaaa aatttaagca ttgtttgctt attgttccaa gacattgtca ataaaagcat ttaagttgaa tgcgaccaac 3572 1 cctcgaggtc gaagcttatt taaaagcata ttttccaatg cctgctttag ctgtggaaaa 61 ggaagactct ccgagggcaa atccaggagt catggaaaac aatgggcagg gcagcttggt 63121 gctgtgactg gatgggtctt taaggttgtt tcccttgaat aaagaatgag ggaattccac 63181 caggggaagg agagtagacc aaacatttgg tgaacagaaa gggagacaga gtctttagtg 241 ttattcccca aatattcctg gagagaagncctt tgagacacct ggtaggatta tagtgatcta 301 aagaggcatg gccatgtgac tgctnggcc aatgatgtat gggcagaagt gatgtgtgcc 361 ataagtggat gctctgacag acatgatgtt ccgagttcct tccccagn cagggatagct 421 gtgaaaaggg gtatcaacac gaggcctcct tcagcctgag ccctttagtg actacaatga 481 gcagagctac cctgccaacc tacaacggtc atgtagnaga aatgaccaac tttcactgga aaggncact gatgttag ggttgntggg taggca taacactnnc tntcctcgaca 601 gaactgggag tgagagataa ggctggagag agaaggagtt ggattgtgaa aancccttcc 661 721 58 gcaggggcgt taacatgaac agatttgtta tttttttgga tgaaatatgc tatttctcaa cataaggaga agatcagcct actaaaccac atgaggcaga gaggaacaca cagaacctta 841 gccaaaagat atatatttat gcaaagtcct aagtcttgaa atttctaaat acaggagctc 901 tgaacggagt tacagtcaga ggatcaggca agaaaatttc ttctatgcca caagcgctat 961 96 ttcctctgca gataactaat actccacaag aaagtttgcc agagtagaga aaatacaaag1021 gaatgtaaca cagacctgag gtcaatttcc agctgcctgt gtgacctcaa caaagatact1081 taacctctct gggcctattt cctcacatgt taaatctgga taataatata tgtctctcaa1141 gacagttgtg gggagaaaac agcgtattta aattgcttag gagaatgcct ggcagataat aagtgtttaa tacatgaaac tgatttttat tactgttatt aaaaaatatt tagaacacca1261 actccctgaa tacaacagaa aatgattcag ggcaacagac agaggagaat gttctctcct1321 tgaggaagca actggatctt gtcatcactg tatacctacc taccccaccc cctccccagc1381 tcagtgcctg gctcacagta ggctttcagt taccctctgc agatcagtga aagctaggtg1441 agtgcccgga gtgaagaaaa gttggcaggt ttcccactga taccagctgc tgttggtttc1501 tgaacactca aagccgcaaa taccttaggg ctgggggcaa tgaacccaag gctgaattcc1561 aagttcagaa gcagcgaagt ctgaatttag aacctaggac ttaaactgct gcaggtccaa1621 cttcaagccc cagttttaga cagaggcttg ggaaagatct gacttctaac ccggttcccc1681 ctcccctcct cccctcgatg cttctcacag gaaagtacac ctggtcctgc caaatcgcac1741 tcttatatcc tggcatccta tccaggctct gcgaggatgg aaactgcgag gcaggggagg1801 gaagcgggct gtttggccac cacctcccta gtgctgcagg cgaccctgtc acactaaact1861 cctggcagcc cagtgaggtg gacggcaccg ccccacctgc agatgaggga aatgaagctc1921 ggaggagttc cgtgatttgc ttgcttcaca ctgtggtagc ctggccacga aagaaccaag1981 gattccgact tcggattctt ccaccacaca ctttcgtcct aagggtgggg gcggggggag2041 aataaaataa ccgcggaaaa ggaaccactt acatgtgtct agcgcttcct agaggctacc2101 caggatatgc gcccaccacc cggccggagt gcagagattt gaagtccagg ttctaccccg2161 ggctccgagt actactgcgt gactttatgc gagtgtcgcc gccttctggg cttgttttcc2221 cggaagcaac tcggcgcgga tggagtgtgt gtgtgcgcgc gcgcgttatg ttgtgcgtgt2281 tgtgttagcg tgtgcgtgtt gtccgagttt cggatcgcct acacctgtga acccccgcgc2341 cctttccccc acggtcccgg agatgaagtg gggtgcaacg gagactcagc tgagcgtcca2401 gtttcgggca atacaaatct ctcggcttct acgagcagcc acacgacccc gcggaccgtc2461 gctcctgaac ttgaccgaga tgcaaacttc ggagtgttct caacgtgggg gccgactctc2521 ggagaccgcc ctaaacttaa gtccccttag gctcgcccca cctggacttc acatagccac2581 cttaagggcg gtattcccgc ccccggaagt gcgggtggca gcgtacttgg attctcagcc2641 tccagccccg cgcggtggcg gccgcggtgg atgacttcgg gccccacaag tggaaacaac2701 aaccacccct cgcccgcacc cctggcccaa aacaactggc caggttccct cgtcccgggt2761 3961 2761 ccctgcatcc cccgcatccc cgtccgcagc cgtgaacttg agcccccctc catcagaggt2821 tgcgagcgtc gccgctcggc agccaccgtc actagacagt caaaccccaa gacgtcagcc2881 cacaatgcac cgggcgggcc gggaaaaacg gcccggggag gggaccgggg aacagagggc2941 cgagaggcgt gcggcagggg ggagggtagg agaaagaagg gcccgactgt aggagggcag3001 cggagcatta cctcatcccg tgagcctccg cgggcccaga gaagaatctt ctagggtgga3061 gtctccatgg tgacgggcgg gcccgccccc ctgagagcga cgcgagccaa tgggaaggcc3121 ttggggtgac atcatgggct atttttaggg gttgactggt agcagataag tgttgagctc3181 gggctggata agggctca 1 cccggggagg ggaccgggga acagagggcc gagaggcgtg cggcaggggg gagggtagga 61 gaaagaaggg cccgactgta ggagggcagc ggagcattac ctcatcccgt gagcctccgc 121 gggcccagag aagaatcttc tagggtggag tctccatggt gacgggcggg cccgcccccc 181 tgagagcgac gcgagccaat gggaaggcct tggggtgaca tcatgggcta tttttagggg 241 ttgactggta gcagataagt gttgagctcg ggctggataa gggctcagag ttgcactgag 301 tgtggctgaa gcagcgaggc gggagtggag gtgcgcggag tcaggcagac agacagacac 361 agccagccag ccaggtcggc agtatagtcc gaactgcaaa tcttattttc ttttcacctt 421 ctctctaact gcccagagct agcgcctgtg gctcccgggc tggtggttcg ggagtgtcca 481 gagagccttg tctccagccg gccccgggag gagagccctg ctgcccaggc gctgttgaca 541 gcggcggaaa gcagcggtac cccacgcgcc cgccggggga cgtcggcgag cggctgcagc 601 agcaaagaac tttcccggcg gggaggaccg gagacaagtg gcagagtccc ggagcgaact 661 tttgcaagcc tttcctgcgt cttaggcttc tccacggcgg taaagaccag aaggcggcgg 721 agagccacgc aagagaagaa ggacgtgcgc tcagcttcgc tcgcaccggt tgttgaactt 781 gggcgagcgc gagccgcggc tgccgggcgc cccctccccc tagcagcgga ggaggggaca 841 agtcgtcgga gtccgggcgg ccaagacccg ccgccggccg gccactgcag ggtccgcact 901 gatccgctcc gcggggagag ccgctgctct gggaagtgag ttcgcctgcg gactccgagg 961 aaccgctgcg cccgaagagc gctcagtgag tgaccgcgac ttttcaaagc cgggtagcgc1021 gcgcgagtcg acaagtaaga gtgcgggagg catcttaatt aaccctgcgc tccctggagc1081 gagctggtga ggagggcgca gcggggacga cagccagcgg gtgcgtgcgc tcttagagaa1141 actttccctg tcaaaggctc cggggggcgc gggtgtcccc cgcttgccag agccctgttg1201 cggccccgaa acttgtgcgc gcacgccaaa ctaacctcac gtgaagtgac ggactgttct1261 atgactgcaa agatggaaac gaccttctat gacgatgccc tcaacgcctc gttcctcccg1321 tccgagagcg gaccttatgg ctacagtaac cccaagatcc tgaaacagag catgaccctg1381 aacctggccg acccagtggg gagcctgaag ccgcacctcc gcgccaagaa ctcggacctc1441 ctcacctcgc ccgacgtggg gctgctcaag ctggcgtcgc ccgagctgga gcgcctgata1501 atccagtcca gcaacgggca catcaccacc acgccgaccc ccacccagtt cctgtgcccc1561 aagaacgtga cagatgagca ggaggggttc gccgagggct tcgtgcgcgc cctggccgaa1621 ctgcacagcc agaacacgct gcccagcgtc acgtcggcgg cgcagccggt caacggggca1681 ggcatggtgg ctcccgcggt agcctcggtg gcagggggca gcggcagcgg cggcttcagc1741 gccagcctgc acagcgagcc gccggtctac gcaaacctca gcaacttcaa cccaggcgcg1801 ctgagcagcg gcggcggggc gccctcctac ggcgcggccg gcctggcctt tcccgcgcaa1861 ccccagcagc agcagcagcc gccgcaccac ctgccccagc agatgcccgt gcagcacccg1921 192 1921 cggctgcagg ccctgaagga ggagcctcag acagtgcccg agatgcccgg cgagacaccg1981 cccctgtccc ccatcgacat ggagtcccag gagcggatca aggcggagag gaagcgcatg2041 aggaaccgcatcgctgcctc caagtgccga aaaaggaagc tggagagaat cgcccggctg2101 gaggaaaaag tgaaaacctt gaaagctcag aactcggagc tggcgtccac ggccaacatg2161 ctcagggaac aggtggcaca gcttaaacag aaagtcatga accacgttaa cagtgggtgc2221 caactcatgc taacgcagca gttgcaaaca ttttgaagag agaccgtcgg gggctgaggg22 gcaacgaaga aaaaaaataa cacagagaga cagacttgag aacttgacaa gttgcgacgg2341 agagaaaaaa gaagtgtccg agaactaaag ccaagggtat ccaagttgga ctgggttcgg2401 tctgacggcg cccccagtgt gcacgagtgg gaaggacttg gtcgcgccct cccttggcgt2461 ggagccaggg agcggccgcc tgcgggctgc cccgctttgc ggacgggctg tccccgcgcg2521 aacggaacgt tggactttcg ttaacattga ccaagaactg catggaccta acattcgatc2581 tcattcagta ttaaaggggg gagggggagg gggttacaaa ctgcaataga gactgtagat2641 tgcttctgta gtactcctta agaacacaaa gcggggggag ggttggggag gggcggcagg2701 agggaggttt gtgagagcga ggctgagcct acagatgaac tctttctggc ctgctttcgt2761 taactgtgta tgtacatata tatatttttt aatttgatta aagctgatta ctgtcaataa2821 acagcttcat gcctttgtaa gttatttctt gtttgtttgt ttgggtatcc tgcccagtgt2881 tgtttgtaaa taagagattt ggagcactct gagtttacca tttgtaataa agtatataat2941 ttttttatgt tttgtttctg aaaattccag aaaggatatt taagaaaata caataaacta3001 ttggaaagta ctcccctaac ctcttttctg catcatctgt agatcctagt ctatctaggt3061 583121 agtaaaaact gttctctatt agacttagaa ataaatgtac ctgatgtacc tgatgctatg3181 tcaggcttca tactccacgc tcccccagcg tatctatatg gaattgctta ccaaaggcta3241 gtgcgatgtt tcaggaggct ggaggaaggg gggttgcagt ggagagggac agcccactga3301 gaagtcaaac atttcaaagt ttggattgca tcaagtggca tgtgctgtga ccatttataa3361 tgttagaaat tttacaatag gtgcttattc tcaaagcagg aattggtggc agattttaca3421 aaagatgtat ccttccaatt tggaatcttc tctttgacaa ttcctagata aaaagatggc3481 823541 aacagatctt gaattgcttc cctttactac ttttttgttc ccaagttata tactgaagtt3601 tttattttta gttgctgagg tt (2) SEQ ID NO: 2663 data: (i) sequence characteristics:

(A) length: 6757 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2663 sequence description: 1 cggccccaga aaacccgagc gagtaggggg cggcgcgcag gagggaggag aactgggggc 61 gcgggaggct ggtgggtgtc gggggtggag atgtagaaga tgtgacgccg cggcccggcg121 ggtgccagat tagcggacgg ctgcccgcgg ttgcaacggg atcccgggcg ctgcagcttg181 721 gaaggaagat ggaagattac tggcttctaa atgtgttacg gatgagtgtt tcttttttga 781 181 ggaggcggct ctccccaggc ggcgtccgcg gagacaccca tccgtgaacc ccaggtcccg 241 ggccgccggc tcgccgcgca ccaggggccg gcggacagaa gagcggccga gcggctcgag 301 gctgggggac cgcgggcgcg gccgcgcgct gccgggcggg aggctggggg gccggggccg 361 gggccgtgcc ccggagcggg tcggaggccg gggccggggc cgggggacgg cggctccccg 421 cgcggctcca gcggctcggg gatcccggcc gggccccgca gggaccatgg cagccgggag 481 catcaccacg ctgcccgcct tgcccgagga tggcggcagc ggcgccttcc cgcccggcca 541 cttcaaggac cccaagcggc tgtactgcaa aaacgggggc ttcttcctgc gcatccaccc 601 cgacggccga gttgacgggg tccgggagaa gagcgaccct cacatcaagc tacaacttca 661 agcagaagag agaggagttg tgtctatcaa aggagtgtgt gctaaccgtt acctggctat 721 gaaggaagat ggaagattac tggcttctaa atgtgttacg gatgagtgtt tcttttttga 781 acgattggaa tctaataact acaatactta ccggtcaagg aaatacacca gttggtatgt 841 ggcactgaaa cgaactgggc agtataaact tggatccaaa acaggacctg ggcagaaagc 901 tatacttttt cttccaatgt ctgctaagag ctgattttaa tggccacatc taatctcatt 961 tcacatgaaa gaagaagtat attttagaaa tttgttaatg agagtaaaag aaaataaatg1021 tgtatagctc agtttggata attggtcaaa caatttttta tccagtagta aaatatgtaa1081 ccattgtccc agtaaagaaa aataacaaaa gttgtaaaat gtatattctc ccttttatat1141 tgcatctgct gttacccagt gaagcttacc tagagcaatg atctttttca cgcatttgct1201 ttattcgaaa agaggctttt aaaatgtgca tgtttagaaa caaaatttct tcatggaaat1261 catatacatt agaaaatcac agtcagatgt ttaatcaatc caaaatgtcc actatttctt1321 atgtcattcg ttagtctaca tgtttctaaa catataaatg tgaatttaat caattccttt1381 catagtttta taattctctg gcagttcctt atgatagagt ttataaaaca gtcctgtgta1441 aactgctgga agttcttcca cagtcaggtc aattttgtca aacccttctc tgtacccata1501 cagcagcagc ctagcaactc tgctggtgat gggagttgta ttttcagtct tcgccaggtc1561 attgagatcc atccactcac atcttaagca ttcttcctgg caaaaattta tggtgaatga1621 atatggcttt aggcggcaga tgatatacat atctgacttc ccaaaagctc caggatttgt1681 gtgctgttgc cgaatactca ggacggacct gaattctgat tttataccag tctcttcaaa1741 aacttctcga accgctgtgt ctcctacgta aaaaaagaga tgtacaaatc aataataatt1801 acacttttag aaactgtatc atcaaagatt ttcagttaaa gtagcattat gtaaaggctc1861 aaaacattac cctaacaaag taaagttttc aatacaaatt ctttgccttg tggatatcaa1921 gaaatcccaa aatattttct taccactgta aattcaagaa gcttttgaaa tgctgaatat1981 ttctttggct gctacttgga ggcttatcta cctgtacatt tttggggtca gctcttttta2041 acttcttgct gctctttttc ccaaaaggta aaaatataga ttgaaaagtt aaaacatttt2101 gcatggctgc agttcctttg tttcttgaga taagattcca aagaacttag attcatttct2161 tcaacaccga aatgctggag gtgtttgatc agttttcaag aaacttggaa tataaataat2221 tttataattc aacaaaggtt ttcacatttt ataaggttga tttttcaatt aaatgcaaat2281 ttgtgtggca ggatttttat tgccattaac atatttttgt ggctgctttt tctacacatc2341 cagatggtcc ctctaactgg gctttctcta attttgtgat gttctgtcat tgtctcccaa2401 agtatttagg agaagccctt taaaaagctg ccttcctcta ccactttgct ggaaagcttc2461 acaattgtca cagacaaaga tttttgttcc aatactcgtt ttgcctctat ttttcttgtt2521 tgtcaaatag taaatgatat ttgcccttgc agtaattcta ctggtgaaaa acatgcaaag2581 aagaggaagt cacagaaaca tgtctcaatt cccatgtgct gtgactgtag actgtcttac2641 catagactgt cttacccatc ccctggatat gctcttgttt tttccctcta atagctatgg2701 aaagatgcat agaaagagta taatgtttta aaacataagg cattcatctg ccatttttca2761 attacatgct gacttccctt acaattgaga tttgcccata ggttaaacat ggttagaaac2821 aactgaaagc ataaaagaaa aatctaggcc gggtgcagtg gctcatgcct atattccctg2881 cactttggga ggccaaagca ggaggatcgc ttgagcccag gagttcaaga ccaacctggt2941 gaaaccccgt ctctacaaaa aaacacaaaa aatagccagg catggtggcg tgtacatgtg3001 gtctcagata cttgggaggc tgaggtggga gggttgatca cttgaggctg agaggtcaag3061 gttgcagtga gccataatcg tgccactgca gtccagccta ggcaacagag tgagactttg3121 tctcaaaaaa agagaaattt tccttaataa gaaaagtaat ttttactctg atgtgcaata3181 catttgttat taaatttatt atttaagatg gtagcactag tcttaaattg tataaaatat3241 cccctaacat gtttaaatgt ccatttttat tcattatgct ttgaaaaata attatgggga3301 aatacatgtt tgttattaaa tttattatta aagatagtag cactagtctt aaatttgata3361 taacatctcc taacttgttt aaatgtccat ttttattctt tatgcttgaa aataaattat3421 ggggatccta tttagctctt agtaccacta atcaaaagtt cggcatgtag ctcatgatct3481 atgctgtttc tatgtcgtgg aagcaccgga tgggggtagt gagcaaatct gccctgctca3541 593601 cttgaatcac taactgactg aaaattgaat gggcaaataa gtgcttttgt ctccagagta3661 tgcgggagac ccttccacct caagatggat atttcttccc caaggatttc aagatgaatt3721 gaaattttta atcaagatag tgtgctttat tctgttgtat tttttattat tttaatatac3781 tgtaagccaa actgaaataa catttgctgt tttataggtt tgaagaacat aggaaaaact3841 aagaggtttt gtttttattt ttgctgatga agagatatgt ttaaatatgt tgtattgttt3901 tgtttagtta caggacaata atgaaatgga gtttatattt gttatttcta ttttgttata 398661 tttaataata gaattagatt gaaataaaat ataatgggaa ataatctgca gaatgtgggt4021 ttcctggtgt ttcctctgac tctagtgcac tgatgatctc tgataaggct cagctgcttt atagttctct ggctaatgca gcagatactc ttcctgccag tggtaatacg attttttaag4141 aaggcagttt gtcaatttta atcttgtgga tacctttata ctcttagggt attattttat4201 acaaaagcct tgaggattgc attctatttt ctatatgacc ctcttgatat ttaaaaaaca4261 ctatggataa caattcttca tttacctagt attatgaaag aatgaaggag ttcaaacaaa4321 tgtgtttccc agttaactag ggtttactgt ttgagccaat ataaatgttt aactgtttgt4381 gatggcagta ttcctaaagt acattgcatg ttttcctaaa tacagagttt aaataatttc4441 agtaattctt agatgattca gcttcatcat taagaatatc ttttgtttta tgttgagtta4501 gaaatgcctt catatagaca tagtctttca gacctctact gtcagttttc atttctagct4561 gctttcaggg ttttatgaat tttcaggcaa agctttaatt tatactaagc ttaggaagta4621 tggctaatgc caacggcagt ttttttcttc ttaattccac atgactgagg catatatgat4681 ctctgggtag gtgagttgtt gtgacaacca caagcacttt tttttttttt aaagaaaaaa4741 aggtagtgaa tttttaatca tctggacttt aagaaggatt ctggagtata cttaggcctg4801 aaattatata tatttggctt ggaaatgtgt ttttcttcaa ttacatctac aagtaagtac4861 agctgaaatt cagaggaccc ataagagttc acatgaaaaa aatcaattca tttgaaaagg4921 caagatgcag gagagaggaa gccttgcaaa cctgcagact gctttttgcc caatatagat4981 tgggtaaggc tgcaaaacat aagcttaatt agctcacatg ctctgctctc acgtggcacc5041 agtggatagt gtgagagaat taggctgtag aacaaatggc cttctctttc agcattcaca5101 ccactacaaa atcatctttt atatcaacag aagaataagc ataaactaag caaaaggtca5161 51 5161 ataagtacct gaaaccaaga ttggctagag atatatctta atgcaatcca ttttctgatg5221 gattgttacg agttggctat ataatgtatg tatggtattt tgatttgtgt aaaagtttta5281 829 5281 aaaatcaagc tttaagtaca tggacatttt taaataaaat atttaaagac aatttagaaa5341 attgccttaa tatcattgtt ggctaaatag aataggggac atgcatatta aggaaaaggt5401 catggagaaa taatattggt atcaaacaaa tacattgatt tgtcatgata cacattgaat5461 ttgatccaat agtttaagga ataggtagga aaatttggtt tctatttttc gatttcctgt5521 aaatcagtga cataaataat tcttagctta ttttatattt ccttgtctta aatactgagc5581 tcagtaagtt gtgttagggg attatttctc agttgagact ttcttatatg acattttact5641 atgttttgac ttcctgacta ttaaaaataa atagtagaaa caattttcat aaagtgaaga5701 attatataat cactgcttta taactgactt tattatattt atttcaaagt tcatttaaag5761 gctactattc atcctctgtg atggaatggt caggaatttg ttttctcata gtttaattcc5821 aacaacaata ttagtcgtat ccaaaataac ctttaatgct aaactttact gatgtatatc5881 caaagcttct ccttttcaga cagattaatc cagaagcagt cataaacaga agaataggtg5941 gtatgttcct aatgatatta tttctactaa tggaataaac tgtaatatta gaaattatgc6001 tgctaattat atcagctctg aggtaatttc tgaaatgttc agactcagtc ggaacaaatt6061 ggaaaattta aatttttatt cttagctata aagcaagaaa gtaaacacat taatttcctc6121 aacattttta agccaattaa aaatataaaa gatacacacc aatatcttct tcaggctctg6181 acaggcctcc tggaaacttc cacatatttt tcaactgcag tataaagtca gaaaataaag6241 ttaacataac tttcactaac acacacatat gtagatttca caaaatccac ctataattgg6301 tcaaagtggt tgagaatata ttttttagta attgcatgca aaatttttct agcttccatc6361 ctttctccct cgtttcttct ttttttgggg gagctggtaa ctgatgaaat cttttcccac6421 cttttctctt caggaaatat aagtggtttt gtttggttaa cgtgatacat tctgtatgaa6481 tgaaacattg gagggaaaca tctactgaat ttctgtaatt taaaatattt tgctgctagt6541 taactatgaa cagatagaag aatcttacag atgctgctat aaataagtag aaaatataaa6601 tttcatcact aaaatatgct attttaaaat ctatttccta tattgtattt ctaatcagat6661 gtattactct tattatttct attgtatgtg ttaatgattt tatgtaaaaa tgtaattgct6721 tttcatgagt agtatgaata aaattgatta gtttgtg (2) SEQ ID NO: 2664 data: (i) sequence characteristics:

(A) length: 1089 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2664 sequence description: 1 cagtgagctg tgattgcacc actgcaattt agcctgagtg acagaatgaa aaaaaaattt 61 ttttaaagga aaacacaaaa agaatatgct gtcaacaggg atgggaggaa gaccaccttt121 actgctatac acatttgtac cttttagatg ttgatcaata tgaatatatt atacacacag 181 acacacacac agacacacac acacacacaa acaatacaat ttaatatcct aagaggatat 241 tgacattaga caggtacaaa agctctagaa atgaggactt tcctcagtga tgactttttt 301 caccaccaaa gtcactcagg catcctgaca agggtaagtg aggggagcct ccttggaaaa 361 taaactcact tggatagtga actcctgcac atacctcaaa gcccatctga aatgtcccct 421 cctacaggaa gttttccctg accctccaag aagcagagtt ctatttcact ggggaaaaca 481 tttcttcttc ttcttttttt tccctgccct gcacatgagc tagaaaacat ttcatgaaac 541 tgggagtttc tgtgctgggc tctgtccctc ccccattcta cttcccctcc ctcagcatgg 601 aagcctctgg aagtggggct ctgactccca gcctacagag agattcctag gaagtgttcg 661 actgataaac gcatggccaa aagtgaactg gggatgaggt ccaagacatc tgcggtgggg 721 ggttctccag accttagtgt tcttccacta caaagtgggt ccaacagaga aaggtctgtg 781 ttcaccaggt ggccctgacc ctgggagagt ccagggcagg gtgcagctgc attcatgctg 841 ctggggaaca tgccctcagg ttactcaccc catggacatg ttggccccag ggactgaaaa 901 gcttaggaaa tggtattgag aaatctgggg cagccccaaa aggggagagg ccatggggag 961 aagggggggc tgagtggggg aaaggcagga gccagataaa aagccagctc cagcaggcgc1021 tgctcactcc tccccatcct ctccctctgt ccctctgtcc ctctgaccct gcactgtccc1081 agcaccatg (2) SEQ ID NO: 2665 data: (i) sequence characteristics:

(A) length: 5947 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2665 sequence description: 1 tttctcccat tctacttccc tcctcagcat tggaagctcg taagtgggct ctgactccca 61 gcctacagag agattcctta agaagtggtt cgactgataa acgcattgcc aaaagtgaac 121 tgggatgagg tccaagacat ctgcggtggg ggttctccag accttagtgt tcttccacta 181 721 cagtgagaag actgtgctga cccctgccac caaccacatg ggcaacgtca ccttcacgat 781 181 caaagtgggt ccaacagaga aaggtctgtg ttcaccaggt ggccctgacc ctggagagtc 241 cagggcaggg tgcagctgca ttcatgctgc tggggaacat gccctcaggt tactcacccc 301 atgacatgtt ggccccaggg actgaaaagc ttaggaaatg gtattgagaa atctggggca 361 gccaaaaggg gagaggccat ggggagaagg gggggctgag tgggggaaag caggagcgag 421 ataaaaagcc agctccagca ggcgctgctc actcctcccc atcctctccc tctgtccctc 481 tgtccctctg accctgcact gtcccagcac catgggaccc acctcaggtc ccagcctgct 541 gctcctgcta ctaacccacc tccccctggc tctggggagt cccatgtact ctatcatcac 601 ccccaacatc ttgcggctgg agagcgagga gaccatggtg ctggaggccc acgacgcgca 661 aggggatgtt ccagtcactg ttactgtcca cgacttccca ggcaaaaaac tagtgctgtc 721 cagtgagaag actgtgctga cccctgccac caaccacatg ggcaacgtca ccttcacgat 781 cccagccaac agggagttca agtcagaaaa ggggcgcaac aagttcgtga ccgtgcaggc 841 caccttcggg acccaagtgg tggagaaggt ggtgctggtc agcctgcaga gcgggtacct 901 cttcatccag acagacaaga ccatctacac ccctggctcc acagttctct atcggatctt 961 caccgtcaac cacaagctgc tacccgtggg ccggacggtc atggtcaaca ttgagaaccc1021 ggaaggcatc ccggtcaagc aggactcctt gtcttctcag aaccagcttg gcgtcttgcc1081 cttgtcttgg gacattccgg aactcgtcaa catgggccag tggaagatcc gagcctacta1141 tgaaaactca ccacagcagg tcttctccac tgagtttgag gtgaaggagt acgtgctgcc1201 cagtttcgag gtcatagtgg agcctacaga gaaattctac tacatctata acgagaaggg1261 cctggaggtc accatcaccg ccaggttcct ctacgggaag aaagtggagg gaactgcctt1321 tgtcatcttc gggatccagg atggcgaaca gaggatttcc ctgcctgaat ccctcaagcg1381 cattccgatt gaggatggct cgggggaggt tgtgctgagc cggaaggtac tgctggacgg1441 ggtgcagaac ctccgagcag aagacctggt ggggaagtct ttgtacgtgt ctgccaccgt1501 catcttgcac tcaggcagtg acatggtgca ggcagagcgc agcgggatcc ccatcgtgac1561 ctctccctac cagatccact tcaccaagac acccaagtac ttcaaaccag gaatgccctt1621 tgacctcatg gtgttcgtga cgaaccctga tggctctcca gcctaccgag tccccgtggc1681 agtccagggc gaggacactg tgcagtctct aacccaggga gatggcgtgg ccaaactcag1741 catcaacaca caccccagcc agaagccctt gagcatcacg gtgcgcacga agaagcagga1801 gctctcggag gcagagcagg ctaccaggac catgcaggct ctgccctaca gcaccgtggg1861 caactccaac aattacctgc atctctcagt gctacgtaca gagctcagac ccggggagac1921 cctcaacgtc aacttcctcc tgcgaatgga ccgcgcccac gaggccaaga tccgctacta1981 cacctacctg atcatgaaca agggcaggct gttgaaggcg ggacgccagg tgcgagagcc2041 cggccaggac ctggtggtgc tgcccctgtc catcaccacc gacttcatcc cttccttccg2101 cctggtggcg tactacacgc tgatcggtgc cagcggccag agggaggtgg tggccgactc2161 cgtgtgggtg gacgtcaagg actcctgcgt gggctcgctg gtggtaaaaa gcggccagtc2221 agaagaccgg cagcctgtac ctgggcagca gatgaccctg aagatagagg gtgaccacgg2281 ggcccgggtg gtactggtgg ccgtggacaa gggcgtgttc gtgctgaata agaagaacaa2341 actgacgcag agtaagatct gggacgtggt ggagaaggca gacatcggct gcaccccggg2401 cagtgggaag gattacgccg gtgtcttctc cgacgcaggg ctgaccttca cgagcagcag2461 tggccagcag accgcccaga gggcagaact tcagtgcccg cagccagccg cccgccgacg2521 ccgttccgtg cagctcacgg agaagcgaat ggacaaagtc ggcaagtacc ccaaggagct2581 gcgcaagtgc tgcgaggacg gcatgcggga gaaccccatg aggttctcgt gccagcgccg2641 gacccgtttc atctccctgg gcgaggcgtg caagaaggtc ttcctggact gctgcaacta2701 catcacagag ctgcggcggc agcacgcgcg ggccagccac ctgggcctgg ccaggagtaa2761 cctggatgag gacatcattg cagaagagaa catcgtttcc cgaagtgagt tcccagagag2821 ctggctgtgg aacgttgagg acttgaaaga gccaccgaaa aatggaatct ctacgaagct2881 catgaatata tttttgaaag actccatcac cacgtgggag attctggctg tcagcatgtc2941 ggacaagaaa gggatctgtg tggcagaccc cttcgaggtc acagtaatgc aggacttctt3001 catcgacctg cggctaccct actctgttgt tcgaaacgag caggtggaaa tccgagccgt3061 tctctacaat taccggcaga accaagagct caaggtgagg gtggaactac tccacaatcc3121 agccttctgc agcctggcca ccaccaagag gcgtcaccag cagaccgtaa ccatcccccc3181 caagtcctcg ttgtccgttc catatgtcat cgtgccgcta aagaccggcc tgcaggaagt3241 ggaagtcaag gctgccgtct accatcattt catcagtgac ggtgtcagga agtccctgaa3301 ggtcgtgccg gaaggaatca gaatgaacaa aactgtggct gttcgcaccc tggatccaga3361 acgcctgggc cgtgaaggag tgcagaaaga ggacatccca cctgcagacc tcagtgacca3421 agtcccggac accgagtctg agaccagaat tctcctgcaa gggaccccag tggcccagat3481 gacagaggat gccgtcgacg cggaacggct gaagcacctc attgtgaccc cctcgggctg3541 593601 aacggagcag tgggagaagt tcggcctaga gaagcggcag ggggccttgg agctcatcaa3661 gaaggggtac acccagcagc tggccttcag acaacccagc tctgcctttg cggccttcgt3721 gaaacgggca cccagcacct ggctgaccgc ctacgtggtc aaggtcttct ctctggctgt3781 caacctcatc gccatcgact cccaagtcct ctgcggggct gttaaatggc tgatcctgga3841 gaagcagaag cccgacgggg tcttccagga ggatgcgccc gtgatacacc aagaaatgat3901 tggtggatta cggaacaaca acgagaaaga catggccctc acggcctttg ttctcatctc 398661 gctgcaggag gctaaagata tttgcgagga gcaggtcaac agcctgccag gcagcatcac4021 taaagcagga gacttccttg aagccaacta catgaaccta cagagatcct acactgtggc cattgctggc tatgctctgg cccagatggg caggctgaag gggcctcttc ttaacaaatt4141 tctgaccaca gccaaagata agaaccgctg ggaggaccct ggtaagcagc tctacaacgt4201 ggaggccaca tcctatgccc tcttggccct actgcagcta aaagactttg actttgtgcc4261 tcccgtcgtg cgttggctca atgaacagag atactacggt ggtggctatg gctctaccca4321 ggccaccttc atggtgttcc aagccttggc tcaataccaa aaggacgccc ctgaccacca4381 ggaactgaac cttgatgtgt ccctccaact gcccagccgc agctccaaga tcacccaccg4441 tatccactgg gaatctgcca gcctcctgcg atcagaagag accaaggaaa atgagggttt4501 cacagtcaca gctgaaggaa aaggccaagg caccttgtcg gtggtgacaa tgtaccatgc4561 taaggccaaa gatcaactca cctgtaataa attcgacctc aaggtcacca taaaaccagc4621 accggaaaca gaaaagaggc ctcaggatgc caagaacact atgatccttg agatctgtac4681 caggtaccgg ggagaccagg atgccactat gtctatattg gacatatcca tgatgactgg4741 ctttgctcca gacacagatg acctgaagca gctggccaat ggtgttgaca gatacatctc4801 caagtatgag ctggacaaag ccttctccga taggaacacc ctcatcatct acctggacaa4861 ggtctcacac tctgaggatg actgtctagc tttcaaagtt caccaatact ttaatgtaga4921 gcttatccag cctggagcag tcaaggtcta cgcctattac aacctggagg aaagctgtac4981 ccggttctac catccggaaa aggaggatgg aaagctgaac aagctctgcc gtgatgaact5041 gtgccgctgt gctgaggaga attgcttcat acaaaagtcg gatgacaagg tcaccctgga5101 agaacggctg gacaaggcct gtgagccagg agtggactat gtgtacaaga cccgactggt5161 51 5161 caaggttcag ctgtccaatg actttgacga gtacatcatg gccattgagc agaccatcaa5221 gtcaggctcg gatgaggtgc aggttggaca gcagcgcacg ttcatcagcc ccatcaagtg5281 829 5281 cagagaagcc ctgaagctgg aggagaagaa acactacctc atgtggggtc tctcctccga5341 tttctgggga gagaagccca acctcagcta catcatcggg aaggacactt gggtggagca5401 ctggcctgag gaggacgaat gccaagacga agagaaccag aaacaatgcc aggacctcgg5461 cgccttcacc gagagcatgg ttgtctttgg gtgccccaac tgaccacacc cccattccat5521 gaacctacag agatcctaca ctgtggccat tgctggctat gctctggccc agatgggcag5581 gctgaagggg cctcttctta acaaatttct gaccacagcc aaagataaga accgctggga5641 ggaccctggt aagcagctct acaacgtgga ggccacatcc tatgccctct tggccctact5701 gcagctaaaa gactttgact ttgtgcctcc cgtcgtgcgt tggctcaatg aacagagata5761 ctacggtggt ggctatggct ctacccaggc caccttcatg gtgttccaag ccttggctca5821 ataccaaaag gacgcccctg accaccagga actgaacctt gatgtgtccc tccaactgcc5881 cagccgcagc tccaagatca cccaccgtat ccactgggaa tctgccagcc tcctgcgatc5941 agaagg (2) SEQ ID NO: 2666 data: (i) sequence characteristics:

(A) length: 5067 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2666 sequence description: 1 ctcctcccca tcctctccct ctgtccctct gtccctctga ccctgcactg tcccagcacc 61 atgggaccca cctcaggtcc cagcctgctg ctcctgctac taacccacct ccccctggct 121 ctggggagtc ccatgtactc tatcatcacc cccaacatct tgcggctgga gagcgaggag 181 721 gagtttgagg tgaaggagta cgtgctgccc agtttcgagg tcatagtgga gcctacagag 781 181 accatggtgc tggaggccca cgacgcgcaa ggggatgttc cagtcactgt tactgtccac 241 gacttcccag gcaaaaaact agtgctgtcc agtgagaaga ctgtgctgac ccctgccacc 301 aaccacatgg gcaacgtcac cttcacgatc ccagccaaca gggagttcaa gtcagaaaag 361 gggcgcaaca agttcgtgac cgtgcaggcc accttcggga cccaagtggt ggagaaggtg 421 gtgctggtca gcctgcagag cgggtacctc ttcatccaga cagacaagac catctacacc 481 cctggctcca cagttctcta tcggatcttc accgtcaacc acaagctgct acccgtgggc 541 cggacggtca tggtcaacat tgagaacccg gaaggcatcc cggtcaagca ggactccttg 601 tcttctcaga accagcttgg cgtcttgccc ttgtcttggg acattccgga actcgtcaac 661 atgggccagt ggaagatccg agcctactat gaaaactcac cacagcaggt cttctccact 721 gagtttgagg tgaaggagta cgtgctgccc agtttcgagg tcatagtgga gcctacagag 781 aaattctact acatctataa cgagaagggc ctggaggtca ccatcaccgc caggttcctc 841 tacgggaaga aagtggaggg aactgccttt gtcatcttcg ggatccagga tggcgaacag 901 aggatttccc tgcctgaatc cctcaagcgc attccgattg aggatggctc gggggaggtt 961 gtgctgagcc ggaaggtact gctggacggg gtgcagaacc tccgagcaga agacctggtg1021 gggaagtctt tgtacgtgtc tgccaccgtc atcttgcact caggcagtga catggtgcag1081 gcagagcgca gcgggatccc catcgtgacc tctccctacc agatccactt caccaagaca1141 cccaagtact tcaaaccagg aatgcccttt gacctcatgg tgttcgtgac gaaccctgat1201 ggctctccag cctaccgagt ccccgtggca gtccagggcg aggacactgt gcagtctcta1261 acccagggag atggcgtggc caaactcagc atcaacacac accccagcca gaagcccttg1321 agcatcacgg tgcgcacgaa gaagcaggag ctctcggagg cagagcaggc taccaggacc1381 atgcaggctc tgccctacag caccgtgggc aactccaaca attacctgca tctctcagtg1441 ctacgtacag agctcagacc cggggagacc ctcaacgtca acttcctcct gcgaatggac1501 cgcgcccacg aggccaagat ccgctactac acctacctga tcatgaacaa gggcaggctg1561 ttgaaggcgg gacgccaggt gcgagagccc ggccaggacc tggtggtgct gcccctgtcc1621 atcaccaccg acttcatccc ttccttccgc ctggtggcgt actacacgct gatcggtgcc1681 agcggccaga gggaggtggt ggccgactcc gtgtgggtgg acgtcaagga ctcctgcgtg1741 ggctcgctgg tggtaaaaag cggccagtca gaagaccggc agcctgtacc tgggcagcag1801 atgaccctga agatagaggg tgaccacggg gcccgggtgg tactggtggc cgtggacaag1861 ggcgtgttcg tgctgaataa gaagaacaaa ctgacgcaga gtaagatctg ggacgtggtg1921 gagaaggcag acatcggctg caccccgggc agtgggaagg attacgccgg tgtcttctcc1981 gacgcagggc tgaccttcac gagcagcagt ggccagcaga ccgcccagag ggcagaactt2041 cagtgcccgc agccagccgc ccgccgacgc cgttccgtgc agctcacgga gaagcgaatg2101 gacaaagtcg gcaagtaccc caaggagctg cgcaagtgct gcgaggacgg catgcgggag2161 aaccccatga ggttctcgtg ccagcgccgg acccgtttca tctccctggg cgaggcgtgc2221 aagaaggtct tcctggactg ctgcaactac atcacagagc tgcggcggca gcacgcgcgg2281 gccagccacc tgggcctggc caggagtaac ctggatgagg acatcattgc agaagagaac2341 atcgtttccc gaagtgagtt cccagagagc tggctgtgga acgttgagga cttgaaagag2401 ccaccgaaaa atggaatctc tacgaagctc atgaatatat ttttgaaaga ctccatcacc2461 acgtgggaga ttctggctgt cagcatgtcg gacaagaaag ggatctgtgt ggcagacccc2521 ttcgaggtca cagtaatgca ggacttcttc atcgacctgc ggctacccta ctctgttgtt2581 cgaaacgagc aggtggaaat ccgagccgtt ctctacaatt accggcagaa ccaagagctc2641 aaggtgaggg tggaactact ccacaatcca gccttctgca gcctggccac caccaagagg2701 cgtcaccagc agaccgtaac catccccccc aagtcctcgt tgtccgttcc atatgtcatc2761 gtgccgctaa agaccggcct gcaggaagtg gaagtcaagg ctgccgtcta ccatcatttc2821 atcagtgacg gtgtcaggaa gtccctgaag gtcgtgccgg aaggaatcag aatgaacaaa2881 actgtggctg ttcgcaccct ggatccagaa cgcctgggcc gtgaaggagt gcagaaagag2941 gacatcccac ctgcagacct cagtgaccaa gtcccggaca ccgagtctga gaccagaatt3001 ctcctgcaag ggaccccagt ggcccagatg acagaggatg ccgtcgacgc ggaacggctg3061 aagcacctca ttgtgacccc ctcgggctgc ggggaacaga acatgatcgg catgacgccc3121 acggtcatcg ctgtgcatta cctggatgaa acggagcagt gggagaagtt cggcctagag3181 aagcggcagg gggccttgga gctcatcaag aaggggtaca cccagcagct ggccttcaga3241 caacccagct ctgcctttgc ggccttcgtg aaacgggcac ccagcacctg gctgaccgcc3301 tacgtggtca aggtcttctc tctggctgtc aacctcatcg ccatcgactc ccaagtcctc3361 tgcggggctg ttaaatggct gatcctggag aagcagaagc ccgacggggt cttccaggag3421 gatgcgcccg tgatacacca agaaatgatt ggtggattac ggaacaacaa cgagaaagac3481 atggccctca cggcctttgt tctcatctcg ctgcaggagg ctaaagatat ttgcgaggag3541 593601 atgaacctac agagatccta cactgtggcc attgctggct atgctctggc ccagatgggc3661 aggctgaagg ggcctcttct taacaaattt ctgaccacag ccaaagataa gaaccgctgg3721 gaggaccctg gtaagcagct ctacaacgtg gaggccacat cctatgccct cttggcccta3781 ctgcagctaa aagactttga ctttgtgcct cccgtcgtgc gttggctcaa tgaacagaga3841 tactacggtg gtggctatgg ctctacccag gccaccttca tggtgttcca agccttggct3901 caataccaaa aggacgcccc tgaccaccag gaactgaacc ttgatgtgtc cctccaactg 398661 cccagccgca gctccaagat cacccaccgt atccactggg aatctgccag cctcctgcga4021 tcagaagaga ccaaggaaaa tgagggtttc acagtcacag ctgaaggaaa aggccaaggc accttgtcgg tggtgacaat gtaccatgct aaggccaaag atcaactcac ctgtaataaa4141 ttcgacctca aggtcaccat aaaaccagca ccggaaacag aaaagaggcc tcaggatgcc4201 aagaacacta tgatccttga gatctgtacc aggtaccggg gagaccagga tgccactatg4261 tctatattgg acatatccat gatgactggc tttgctccag acacagatga cctgaagcag4321 ctggccaatg gtgttgacag atacatctcc aagtatgagctggacaaagc cttctccgat4381 aggaacaccc tcatcatcta cctggacaag gtctcacact ctgaggatga ctgtctagct4441 ttcaaagttc accaatactt taatgtagag cttatccagc ctggagcagt caaggtctac4501 gcctattaca acctggagga aagctgtacc cggttctacc atccggaaaa ggaggatgga4561 aagctgaaca agctctgccg tgatgaactg tgccgctgtg ctgaggagaa ttgcttcata4621 caaaagtcgg atgacaaggt caccctggaa gaacggctgg acaaggcctg tgagccagga4681 gtggactatg tgtacaagac ccgactggtc aaggttcagc tgtccaatga ctttgacgag4741 tacatcatgg ccattgagca gaccatcaag tcaggctcgg atgaggtgca ggttggacag4801 cagcgcacgt tcatcagccc catcaagtgc agagaagccc tgaagctgga ggagaagaaa4861 cactacctca tgtggggtct ctcctccgat ttctggggag agaagcccaa cctcagctac4921 atcatcggga aggacacttg ggtggagcac tggcctgagg aggacgaatg ccaagacgaa4981 gagaaccaga aacaatgcca ggacctcggc gccttcaccg agagcatggt tgtctttggg5041 tgccccaact gaccacaccc ccattcc (2) SEQ ID NO: 2667 data: (i) sequence characteristics:

(A) length: 12103 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2667 sequence description: 1 cagtgagctg tgattgcacc actgcaattt agcctgagtg acagaatgaa aaaaaaattt 61 ttttaaagga aaacacaaaa agaatatgct gtcaacaggg atgggaggaa gaccaccttt121 actgctatac acatttgtac cttttagatg ttgatcaata tgaatatatt atacacacag 181 721 ggttctccag accttagtgt tcttccacta caaagtgggt ccaacagaga aaggtctgtg 781 181 acacacacac agacacacac acacacacaa acaatacaat ttaatatcct aagaggatat 241 tgacattaga caggtacaaa agctctagaa atgaggactt tcctcagtga tgactttttt 301 caccaccaaa gtcactcagg catcctgaca agggtaagtg aggggagcct ccttggaaaa 361 taaactcact tggatagtga actcctgcac atacctcaaa gcccatctga aatgtcccct 421 cctacaggaa gttttccctg accctccaag aagcagagtt ctatttcact ggggaaaaca 481 tttcttcttc ttcttttttt tccctgccct gcacatgagc tagaaaacat ttcatgaaac 541 tgggagtttc tgtgctgggc tctgtccctc ccccattcta cttcccctccctcagcatgg 601 aagcctctgg aagtggggct ctgactccca gcctacagag agattcctag gaagtgttcg 661 actgataaac gcatggccaa aagtgaactg gggatgaggt ccaagacatc tgcggtgggg 721 ggttctccag accttagtgt tcttccacta caaagtgggt ccaacagaga aaggtctgtg 781 ttcaccaggt ggccctgacc ctgggagagt ccagggcagg gtgcagctgc attcatgctg 841 ctggggaaca tgccctcagg ttactcaccc catggacatg ttggccccag ggactgaaaa 901 gcttaggaaa tggtattgag aaatctgggg cagccccaaa aggggagagg ccatggggag 961 aagggggggc tgagtggggg aaaggcagga gccagataaa aagccagctc cagcaggcgc1021 tgctcactcc tccccatcct ctccctctgt ccctctgtcc ctctgaccct gcactgtccc1081 agcacatg 1 tttctcccat tctacttccc tcctcagcat tggaagctcg taagtgggct ctgactccca 61 gcctacagag agattcctta agaagtggtt cgactgataa acgcattgcc aaaagtgaac 121 tgggatgagg tcc8agacat ctgcggtggg ggttctccag accttagtgt tcttccacta 181 caaagtgggt ccaacagaga aaggtctgtg ttcaccaggt ggccctgacc ctggagagtc 241 cagggcaggg tgcagctgca ttcatgctgc tggggaacat gccctcaggt tactcacccc 301 atgacatgtt ggccccaggg actgaaaagc ttaggaaatg gtattgagaa atctggggca 361 gccaaaaggg gagaggccat ggggagaagg gggggctgag tgggggaaag caggagcgag 421 ataaaaagcc agctccagca ggcgctgctc actcctcccc atcctctccc tctgtccctc 481 tgtccctctg accctgcact gtcccagcac catgggaccc acctcaggtc ccagcctgct 541 gctcctgcta ctaacccacc tccccctggc tctggggagt cccatgtact ctatcatcac 601 ccccaacatc ttgcggctgg agagcgagga gaccatggtg ctggaggccc acgacgcgca 661 aggggatgtt ccagtcactg ttactgtcca cgacttccca ggcaaaaaac tagtgctgtc 721 cagtgagaag actgtgctga cccctgccac caaccacatg ggcaacgtca ccttcacgat 781 cccagccaac agggagttca agtcagaaaa ggggcgcaac aagttcgtga ccgtgcaggc 841 caccttcggg acccaagtgg tggagaaggt ggtgctggtc agcctgcaga gcgggtacct 901 cttcatccag acagacaaga ccatctacac ccctggctcc acagttctct atcggatctt 961 caccgtcaac cacaagctgc tacccgtggg ccggacggtc atggtcaaca ttgagaaccc1021 ggaaggcatc ccggtcaagc aggactcctt gtcttctcag aaccagcttg gcgtcttgcc1081 cttgtcttgg gacattccgg aactcgtcaa catgggccag tggaagatcc gagcctacta1141 tgaaaactca ccacagcagg tcttctccac tgagtttgag gtgaaggagt acgtgctgcc1201 cagtttcgag gtcatagtgg agcctacaga gaaattctac tacatctata acgagaaggg1261 cctggaggtc accatcaccg ccaggttcct ctacgggaag aaagtggagg gaactgcctt1321 tgtcatcttc gggatccagg atggcgaaca gaggatttcc ctgcctgaat ccctcaagcg1381 cattccgatt gaggatggct cgggggaggt tgtgctgagc cggaaggtac tgctggacgg1441 ggtgcagaac ctccgagcag aagacctggt ggggaagtct ttgtacgtgt ctgccaccgt1501 catcttgcac tcaggcagtg acatggtgca ggcagagcgc agcgggatcc ccatcgtgac1561 ctctccctac cagatccact tcaccaagac acccaagtac ttcaaaccag gaatgccctt1621 tgacctcatg gtgttcgtga cgaaccctga tggctctcca gcctaccgag tccccgtggc1681 agtccagggc gaggacactg tgcagtctct aacccaggga gatggcgtgg ccaaactcag1741 catcaacaca caccccagcc agaagccctt gagcatcacg gtgcgcacga agaagcagga1801 gctctcggag gcagagcagg ctaccaggac catgcaggct ctgccctaca gcaccgtggg1861 caactccaac aattacctgc atctctcagt gctacgtaca gagctcagac ccggggagac1921 cctcaacgtc aacttcctcc tgcgaatgga ccgcgcccac gaggccaaga tccgctacta1981 20448 5731 2101 cctggtggcg tactacacgc tgatcggtgc cagcggccag agggaggtgg tggccgactc2161 cgtgtgggtg gacgtcaagg actcctgcgt gggctcgctg gtggtaaaaa gcggccagtc2221 agaagaccgg cagcctgtac ctgggcagca gatgaccctg aagatagagg gtgaccacgg2281 ggcccgggtg gtactggtgg ccgtggacaa gggcgtgttc gtgctgaata agaagaacaa2341 actgacgcag agtaagatct gggacgtggt ggagaaggca gacatcggct gcaccccggg2401 cagtgggaag gattacgccg gtgtcttctc cgacgcaggg ctgaccttca cgagcagcag2461 tggccagcag accgcccaga gggcagaact tcagtgcccg cagccagccg cccgccgacg2521 ccgttccgtg cagctcacgg agaagcgaat ggacaaagtc ggcaagtacc ccaaggagct2581 2641 gacccgtttc atctccctgg gcgaggcgtg caagaaggtc ttcctggact gctgcaacta2701 catcacagag ctgcggcggc agcacgcgcg ggccagccac ctgggcctgg ccaggagtaa27 cctggatgag gacatcattg cagaagagaa catcgtttcc cgaagtgagt tcccagagag2821 2858 2881 catgaatata tttttgaaag actccatcac cacgtgggag attctggctg tcagcatgtc2941 ggacaagaaa gggatctgtg tggcagaccc cttcgaggtc acagtaatgc aggacttctt3001 catcgacctg cggctaccct actctgttgt tcgaaacgag caggtggaaa tccgagccgt3061 tctctacaat taccggcaga accaagagct caaggtgagg gtggaactac tccacaatcc3121 agccttctgc agcctggcca ccaccaagag gcgtcaccag cagaccgtaa ccatcccccc3181 caagtcctcg ttgtccgttc catatgtcat cgtgccgcta aagaccggcc tgcaggaagt3241 ggaagtcaag gctgccgtct accatcattt catcagtgac ggtgtcagga agtccctgaa3301 ggtcgtgccg gaaggaatca gaatgaacaa aactgtggct gttcgcaccc tggatccaga3361 acgcctgggc cgtgaaggag tgcagaaaga ggacatccca cctgcagacc tcagtgacca3421 agtcccggac accgagtctg agaccagaat tctcctgcaa gggaccccag tggcccagat3481 gacagaggat gccgtcgacg cggaacggct gaagcacctc attgtgaccc cctcgggctg3541 cggggaacag aacatgatcg gcatgacgcc cacggtcatc gctgtgcatt acctggatga3601 aacggagcag tgggagaagt tcggcctaga gaagcggcag ggggccttgg agctcatcaa3661 gaaggggtac acccagcagc tggccttcag acaacccagc tctgcctttg cggccttcgt3721 gaaacgggca cccagcacct ggctgaccgc ctacgtggtc aaggtcttct ctctggctgt3781 caacctcatc gccatcgact cccaagtcct ctgcggggct gttaaatggc tgatcctgga3841 gaagcagaag cccgacgggg tcttccagga ggatgcgccc gtgatacacc aagaaatgat3901 tggtggatta cggaacaaca acgagaaaga catggccctc acggcctttg ttctcatctc3961 gctgcaggag gctaaagata tttgcgagga gcaggtcaac agcctgccag gcagcatcac taaagcagga gacttccttg aagccaacta catgaaccta cagagatcct acactgtggc4081 cattgctggc tatgctctgg cccagatggg caggctgaag gggcctcttc ttaacaaatt4141 tctgaccaca gccaaagata agaaccgctg ggaggaccct ggtaagcagc tctacaacgt4201 ggaggccaca tcctatgccc tcttggccct actgcagcta aaagactttg actttgtgcc42 tcccgtcgtg cgttggctca atgaacagag atactacggt ggtggctatg gctctaccca 4372 aaggacgccc ctgaccacca4381 ggaactgaac cttgatgtgt ccctccaact gcccagccgc agctccaaga tcacccaccg4441 tatccactgg gaatctgcca gcctcctgcg atcagaagag accaaggaaa atgagggttt4501 cacagtcaca gctgaaggaa aaggccaagg caccttgtcg gtggtgacaa tgtaccatgc4561 taaggccaaa gatcaactca cctgtaataa attcgacctc aaggtcacca taaaaccagc4621 accggaaaca gaaaagaggc ctcaggatgc caagaacact atgatccttg agatctgtac4681 caggtaccgg ggagaccagg atgccactat gtctatattg gacatatcca tgatgactgg4741 ctttgctcca gacacagatg acctgaagca gctggccaat ggtgttgaca gatacatctc4801 caagtatgag ctggacaaag ccttctccga taggaacacc ctcatcatct acctggacaa4861 ggtctcacac tctgaggatg actgtctagc tttcaaagtt caccaatact ttaatgtaga4921 gcttatccag cctggagcag tcaaggtcta cgcctattac aacctggagg aaagctgtac4981 ccggttctac catccggaaa aggaggatgg aaagctgaac aagctctgcc gtgatgaact5041 gtgccgctgt gctgaggaga attgcttcat acaaaagtcg gatgacaagg tcaccctgga5101 agaacggctg gacaaggcct gtgagccagg agtggactat gtgtacaaga cccgactggt5161 caaggttcag ctgtccaatg actttgacga gtacatcatg gccattgagc agaccatcaa5221 gtcaggctcg gatgaggtgc aggttggaca gcagcgcacg ttcatcagcc ccatcaagtg5281 cagagaagcc ctgaagctgg aggagaagaa acactacctc atgtggggtc tctcctccga5341 tttctgggga gagaagccca acctcagcta catcatcggg aaggacactt gggtggagca5401 ctggcctgag gaggacgaat gccaagacga agagaaccag aaacaatgcc aggacctcgg5461 cgccttcacc gagagcatgg ttgtctttgg gtgccccaac tgaccacacc cccattccat5521 gaacctacag agatcctaca ctgtggccat tgctggctat gctctggccc agatgggcag5581 gctgaagggg cctcttctta acaaatttct gaccacagcc aaagataaga accgctggga5641 ggaccctggt aagcagctct acaacgtgga ggccacatcc tatgccctct tggccctact5701 5758 5761 ctacggtggt ggctatggct ctacccaggc caccttcatg gtgttccaag ccttggctca5821 ataccaaaag gacgcccctg accaccagga actgaacctt gatgtgtccc tccaactgcc5881 cagccgcagc tccaagatca cccaccgtat ccactgggaa tctgccagcc tcctgcgatc5941 agaagg 1 ctcctcccca tcctctccct ctgtccctct gtccctctga ccctgcactg tcccagcacc 61 atgggaccca cctcaggtcc cagcctgctg ctcctgctac taacccacct ccccctggct 121 ctggggagtc ccatgtactc tatcatcacc cccaacatct tgcggctgga gagcgaggag 181 accatggtgc tggaggccca cgacgcgcaa ggggatgttc cagtcactgt tactgtccac 241 gacttcccag gcaaaaaact agtgctgtcc agtgagaaga ctgtgctgac ccctgccacc 301 aaccacatgg gcaacgtcac cttcacgatc ccagccaaca gggagttcaa gtcagaaaag 361 gggcgcaaca agttcgtgac cgtgcaggcc accttcggga cccaagtggt ggagaaggtg 421 gtgctggtca gcctgcagag cgggtacctc ttcatccaga cagacaagac catctacacc 481 cctggctcca cagttctcta tcggatcttc accgtcaacc acaagctgct acccgtgggc 541 cggacggtca tggtcaacat tgagaacccg gaaggcatcc cggtcaagca ggactccttg 601 tcttctcaga accagcttgg cgtcttgccc ttgtcttggg acattccgga actcgtcaac 661 atgggccagt ggaagatccg agcctactat gaaaactcac cacagcaggt cttctccact 721 gagtttgagg tgaaggagta cgtgctgccc agtttcgagg tcatagtgga gcctacagag 781 aaattctact acatctataa cgagaagggc ctggaggtca ccatcaccgc caggttcctc 841 tacgggaaga aagtggaggg aactgccttt gtcatcttcg ggatccagga tggcgaacag 901 aggatttccc tgcctgaatc cctcaagcgc attccgattg aggatggctc gggggaggtt 961 gtgctgagcc ggaaggtact gctggacggg gtgcagaacc tccgagcaga agacctggtg1021 gggaagtctt tgtacgtgtc tgccaccgtc atcttgcact caggcagtga catggtgcag1081 gcagagcgca gcgggatccc catcgtgacc tctccctacc agatccactt caccaagaca1141 cccaagtact tcaaaccagg aatgcccttt gacctcatgg tgttcgtgac gaaccctgat ggctctccag cctaccgagt ccccgtggca gtccagggcg aggacactgt gcagtctcta1261 acccagggag atggcgtggc caaactcagc atcaacacac accccagcca gaagcccttg1321 agcatcacgg tgcgcacgaa gaagcaggag ctctcggagg cagagcaggc taccaggacc1381 atgcaggctc tgccctacag caccgtgggc aactccaaca attacctgca tctctcagtg1441 ctacgtacag agctcagacc cggggagacc ctcaacgtca acttcctcct gcgaatggac1501 cgcgcccacg aggccaagat ccgctactac acctacctga tcatgaacaa gggcaggctg1 ttgaaggcgg gacgccaggt gcgagagccc ggccaggacc tggtggtgct gcccctgtcc1621 atcaccaccg acttcatccc ttccttccgc ctggtggcgt actacacgct gatcggtgcc1681 agcggccaga gggaggtggt ggccgactcc gtgtgggtgg acgtcaagga ctcctgcgtg1741 ggctcgctgg tggtaaaaag cggccagtca gaagaccggc agcctgtacc tgggcagcag1801 atgaccctga agatagaggg tgaccacggg gcccgggtgg tactggtggc cgtggacaag1861 ggcgtgttcg tgctgaataa gaagaacaaa ctgacgcaga gtaagatctg ggacgtggtg1921 gagaaggcag acatcggctg caccccgggc agtgggaagg attacgccgg tgtcttctcc1981 gacgcagggc tgaccttcac gagcagcagt ggccagcaga ccgcccagag ggcagaactt2041 2101 gacaaagtcg gcaagtaccc caaggagctg cgcaagtgct gcgaggacgg catgcgggag2161 aaccccatga ggttctcgtg ccagcgccgg acccgtttca tctccctggg cgaggcgtgc aagaaggtct tcctggactg ctgcaactac atcacagagc tgcggcggca gcacgcgcgg 228681 gccagccacc tgggcctggc caggagtaac ctggatgagg acatcattgc agaagagaac2341 atcgtttccc gaagtgagtt cccagagagc tggctgtgga acgttgagga cttgaaagag240 ccaccgaaaa atggaatctc tacgaagctc atgaatatat ttttgaaaga ctccatcacc 2487461 acgtgggaga ttctggctgt cagcatgtcg gacaagaaag ggatctgtgt ggcagacccc2521 ttcgaggtca cagtaatgca ggacttcttc atcgacctgc ggctacccta ctctgttgtt2581 cgaaacgagc aggtggaaat ccgagccgtt ctctacaatt accggcagaa ccaagagctc2641 aaggtgaggg tggaactact ccacaatcca gccttctgca gcctggccac caccaagagg2701 cgtcaccagc agaccgtaac catccccccc aagtcctcgt tgtccgttcc atatgtcatc2761 gtgccgctaa agaccggcct gcaggaagtg gaagtcaagg ctgccgtcta ccatcatttc2821 atcagtgacg gtgtcaggaa gtccctgaag gtcgtgccgg aaggaatcag aatgaacaaa2881 actgtggctg ttcgcaccct ggatccagaa cgcctgggcc gtgaaggagt gcagaaagag2941 gacatcccac ctgcagacct cagtgaccaa gtcccggaca ccgagtctga gaccagaatt3001 ctcctgcaag ggaccccagt ggcccagatg acagaggatg ccgtcgacgc ggaacggctg3061 aagcacctca ttgtgacccc ctcgggctgc ggggaacaga acatgatcgg catgacgccc3121 acggtcatcg ctgtgcatta cctggatgaa acggagcagt gggagaagtt cggcctagag3181 aagcggcagg gggccttgga gctcatcaag aaggggtaca cccagcagct ggccttcaga3241 caacccagct ctgcctttgc ggccttcgtg aaacgggcac ccagcacctg gctgaccgcc3301 tacgtggtca aggtcttctc tctggctgtc aacctcatcg ccatcgactc ccaagtcctc3361 tgcggggctg ttaaatggct gatcctggag aagcagaagc ccgacggggt cttccaggag3421 gatgcgcccg tgatacacca agaaatgatt ggtggattac ggaacaacaa cgagaaagac3481 atggccctca cggcctttgt tctcatctcg ctgcaggagg ctaaagatat ttgcgaggag3541 caggtcaaca gcctgccagg cagcatcact aaagcaggag acttccttga agccaactac3601 atgaacctac agagatccta cactgtggcc attgctggct atgctctggc ccagatgggc 8461 aggctgaagg ggcctcttct taacaaattt ctgaccacag ccaaagataa gaaccgctgg3721 gaggaccctg gtaagcagct ctacaacgtg gaggccacat cctatgccct cttggcccta ctgcagctaa aagactttga ctttgtgcct cccgtcgtgc gttggctcaa tgaacagaga3841 tactacggtg gtggctatgg ctctacccag gccaccttca tggtgttcca agccttggct3901 caataccaaa aggacgcccc tgaccaccag gaactgaacc ttgatgtgtc cctccaactg3961 cccagccgca gctccaagat cacccaccgt atccactggg aatctgccag cctcctgcga4021 tcagaagaga ccaaggaaaa tgagggtttc acagtcacag ctgaaggaaa aggccaaggc4081 accttgtcgg tggtgacaat gtaccatgct aaggccaaag atcaactcac ctgtaataaa4141 ttcgacctca aggtcaccat aaaaccagca ccggaaacag aaaagaggcc tcaggatgcc4201 aagaacacta tgatccttga gatctgtacc aggtaccggg gagaccagga tgccactatg4261 tctatattgg acatatccat gatgactggc tttgctccag acacagatga cctgaagcag4321 ctggccaatg gtgttgacag atacatctcc aagtatgagc tggacaaagc cttctccgat4381 aggaacaccc tcatcatcta cctggacaag gtctcacact ctgaggatga ctgtctagct4441 ttcaaagttc accaatactt taatgtagag cttatccagc ctggagcagt caaggtctac4501 gcctattaca acctggagga aagctgtacc cggttctacc atccggaaaa ggaggatgga4561 aagctgaaca agctctgccg tgatgaactg tgccgctgtg ctgaggagaa ttgcttcata4621 caaaagtcgg atgacaaggt caccctggaa gaacggctgg acaaggcctg tgagccagga4681 gtggactatg tgtacaagac ccgactggtc aaggttcagc tgtccaatga ctttgacgag4741 tacatcatgg ccattgagca gaccatcaag tcaggctcgg atgaggtgca ggttggacag4801 cagcgcacgt tcatcagccc catcaagtgc agagaagccc tgaagctgga ggagaagaaa4861 cactacctca tgtggggtct ctcctccgat ttctggggag agaagcccaa cctcagctac4921 atcatcggga aggacacttg ggtggagcac tggcctgagg aggacgaatg ccaagacgaa4981 gagaaccaga aacaatgcca ggacctcggc gccttcaccg agagcatggt tgtctttggg5041 tgccccaact gaccacaccc ccattcc (2) SEQ ID NO: 2668 for data: (i) sequence characteristics:

(A) Length: 4199 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2668 sequence description: 1 cgtgttgatg atggagtagc ttcctttgtg cttaatctcc catctggagt gacggtgctg 61 gagtttaatg tcaaaactga tgctccagat cttccagaag aaaatcaggc cagggaaggt 121 taccgagcaa tagcatactc atctctcagc caaagttacc tttatattga ttggactgat 181 721 accttcctca ctaatgcaaa tgcagatgac tcccaagaaa atgatgaacc ttgtaaagaa 781 181 aaccataagg ctttgctagt gggagaacat ctgaatatta ttgttacccc caaaagccca 241 tatattgaca aaataactca ctataattac ttgattttat ccaagggcaa aattatccac 301 tttggcacga gggagaaatt ttcagatgca tcttatcaaa gtataaacat tccagtaaca 361 cagaacatgg ttccttcatc ccgacttctg gtctattata tcgtcacagg agaacagaca 421 gcagaattag tgtctgattc agtctggtta aatattgaag aaaaatgtgg caaccagctc 481 caggttcatc tgtctcctga tgcagatgca tattctccag gccaaactgt gtctcttaat 541 atggcaactg gaatggattc ctgggtggca ttagcagcag tggacagtgc tgtgtatgga 601 gtccaaagag gagccaaaaa gcccttggaa agagtatttc aattcttaga gaagagtgat 661 ctgggctgtg gggcaggtgg tggcctcaac aatgccaatg tgttccacct agctggactt 721 accttcctca ctaatgcaaa tgcagatgac tcccaagaaa atgatgaacc ttgtaaagaa 781 attctcaggc caagaagaac gctgcaaaag aagatagaag aaatagctgc taaatataaa 841 cattcagtag tgaagaaatg ttgttacgat ggagcctgcg ttaataatga tgaaacctgt 901 gagcagcgag ctgcacggat tagtttaggg ccaagatgca tcaaagcttt cactgaatgt 961 tgtgtcgtcg caagccagct ccgtgctaat atctctcata aagacatgca attgggaagg1021 ctacacatga agaccctgtt accagtaagc aagccagaaa ttcggagtta ttttccagaa1081 agctggttgt gggaagttca tcttgttccc agaagaaaac agttgcagtt tgccctacct1141 gattctctaa ccacctggga aattcaaggc attggcattt caaacactgg tatatgtgtt1201 gctgatactg tcaaggcaaa ggtgttcaaa gatgtcttcc tggaaatgaa tataccatat1261 tctgttgtac gaggagaaca gatccaattg aaaggaactg tttacaacta taggacttct1321 gggatgcagt tctgtgttaa aatgtctgct gtggagggaa tctgcacttc ggaaagccca1381 gtcattgatc atcagggcac aaagtcctcc aaatgtgtgc gccagaaagt agagggctcc1441 tccagtcact tggtgacatt cactgtgctt cctctggaaa ttggccttca caacatcaat1501 ttttcactgg agacttggtt tggaaaagaa atcttagtaa aaacattacg agtggtgcca1561 gaaggtgtca aaagggaaag ctattctggt gttactttgg atcctagggg tatttatggt1621 accattagca gacgaaagga gttcccatac aggataccct tagatttggt ccccaaaaca1681 gaaatcaaaa ggattttgag tgtaaaagga ctgcttgtag gtgagatctt gtctgcagtt1741 ctaagtcagg aaggcatcaa tatcctaacc cacctcccca aagggagtgc agaggcggag1801 ctgatgagcg ttgtcccagt attctatgtt tttcactacc tggaaacagg aaatcattgg1861 aacatttttc attctgaccc attaattgaa aagcagaaac tgaagaaaaa attaaaagaa1921 gggatgttga gcattatgtc ctacagaaat gctgactact cttacagtgt gtggaagggt1981 ggaagtgcta gcacttggtt aacagctttt gctttaagag tacttggaca agtaaataaa2041 tacgtagagc agaaccaaaa ttcaatttgt aattctttat tgtggctagt tgagaattat2101 caattagata atggatcttt caaggaaaat tcacagtatc aaccaataaa attacagggt2161 accttgcctg ttgaagcccg agagaacagc ttatatctta cagcctttac tgtgattgga2221 attagaaagg ctttcgatat atgccccctg gtgaaaatcg acacagctct aattaaagct2281 gacaactttc tgcttgaaaa tacactgcca gcccagagca cctttacatt ggccatttct2341 gcgtatgctc tttccctggg agataaaact cacccacagt ttcgttcaat tgtttcagct2401 ttgaagagag aagctttggt taaaggtaat ccacccattt atcgtttttg gaaagacaat2461 cttcagcata aagacagctc tgtacctaac actggtacgg cacgtatggt agaaacaact2521 gcctatgctt tactcaccag tctgaacttg aaagatataa attatgttaa cccagtcatc2581 aaatggctat cagaagagca gaggtatgga ggtggctttt attcaaccca ggacacaatc2641 aatgccattg agggcctgac ggaatattca ctcctggtta aacaactccg cttgagtatg2701 gacatcgatg tttcttacaa gcataaaggt gccttacata attataaaat gacagacaag2761 aatttccttg ggaggccagt agaggtgctt ctcaatgatg acctcattgt cagtacagga2821 tttggcagtg gcttggctac agtacatgta acaactgtag ttcacaaaac cagtacctct2881 gaggaagttt gcagctttta tttgaaaatc gatactcagg atattgaagc atcccactac2941 agaggctacg gaaactctga ttacaaacgc atagtagcat gtgccagcta caagcccagc3001 agggaagaat catcatctgg atcctctcat gcggtgatgg acatctcctt gcctactgga3061 atcagtgcaa atgaagaaga cttaaaagcc cttgtggaag gggtggatca actattcact3121 gattaccaaa tcaaagatgg acatgttatt ctgcaactga attcgattcc ctccagtgat3181 ttcctttgtg tacgattccg gatatttgaa ctctttgaag ttgggtttct cagtcctgcc3241 actttcacag tgtacgaata ccacagacca gataaacagt gtaccatgtt ttatagcact3301 tccaatatca aaattcagaa agtctgtgaa ggagccgcgt gcaagtgtgt agaagctgat3361 tgtgggcaaa tgcaggaaga attggatctg acaatctctg cagagacaag aaaacaaaca3421 gcatgtaaac cagagattgc atatgcttat aaagttagca tcacatccat cactgtagaa3481 aatgtttttg tcaagtacaa ggcaaccctt ctggatatct acaaaactgg ggaagctgtt3541 593601 gtaaaaggaa gacagtactt aattatgggt aaagaagccc tccagataaa atacaatttc3661 agtttcaggt acatctaccc tttagattcc ttgacctgga ttgaatactg gcctagagac3721 acaacatgtt catcgtgtca agcattttta gctaatttag atgaatttgc cgaagatatc3781 tttttaaatg gatgctaaaa ttcctgaagt tcagctgcat acagtttgca cttatggact3841 cctgttgttg aagttcgttt ttttgttttc ttcttttttt aaacattcat agctggtctt3901 atttgtaaag ctcactttac ttagaattag tggcacttgc ttttattaga gaatgatttc 398661 aaatgctgta actttctgaa ataacatggc cttggagggc atgaagacag atactcctcc4021 aaggttattg gacaccggaa acaataaatt ggaacacctc ctcaaaccta ccactcagga atgtttgctg gggccgaaag aacagtccat tgaaagggag tattacaaaa acatggcctt4141 tgcttgaaag aaaataccaa ggaacaggaa actgatcatt aaagcctgag tttgctttc (2) SEQ ID NO: 2669 data: (i) sequence characteristics:

(A) length: 5444 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2669 sequence description: 1 ctacctccaa ccatgggcct tttgggaata ctttgttttt taatcttcct ggggaaaacc 61 tggggacagg agcaaacata tgtcatttca gcaccaaaaa tattccgtgt tggagcatct121 gaaaatattg tgattcaagt ttatggatac actgaagcat ttgatgcaac aatctctatt 181 721 ttcattggtt acaagaactt taagaatttt gaaattacta taaaagcaag atatttttat 781 181 aaaagttatc ctgataaaaa atttagttac tcctcaggcc atgttcattt atcctcagag 241 aataaattcc aaaactctgc aatcttaaca atacaaccaa aacaattgcc tggaggacaa 301 aacccagttt cttatgtgta tttggaagtt gtatcaaagc atttttcaaa atcaaaaaga 361 atgccaataa cctatgacaa tggatttctc ttcattcata cagacaaacc tgtttatact 421 ccagaccagt cagtaaaagt tagagtttat tcgttgaatg acgacttgaa gccagccaaa 481 agagaaactg tcttaacctt catagatcct gaaggatcag aagttgacat ggtagaagaa 541 attgatcata ttggaattat ctcttttcct gacttcaaga ttccgtctaa tcctagatat 601 ggtatgtgga cgatcaaggc taaatataaa gaggactttt caacaactgg aaccgcatat 661 tttgaagtta aagaatatgt cttgccacat ttttctgtct caatcgagcc agaatataat 721 ttcattggtt acaagaactt taagaatttt gaaattacta taaaagcaag atatttttat 781 aataaagtag tcactgaggc tgacgtttat atcacatttg gaataagaga agacttaaaa 841 gatgatcaaa aagaaatgat gcaaacagca atgcaaaaca caatgttgat aaatggaatt 901 gctcaagtca catttgattc tgaaacagca gtcaaagaac tgtcatacta cagtttagaa 961 gatttaaaca acaagtacct ttatattgct gtaacagtca tagagtctac aggtggattt1021 tctgaagagg cagaaatacc tggcatcaaa tatgtcctct ctccctacaa actgaatttg1081 gttgctactc ctcttttcct gaagcctggg attccatatc ccatcaaggt gcaggttaaa1141 gattcgcttg accagttggt aggaggagtc ccagtaatac tgaatgcaca aacaattgat1201 gtaaaccaag agacatctga cttggatcca agcaaaagtg taacacgtgt tgatgatgga1261 gtagcttcct ttgtgcttaa tctcccatct ggagtgacgg tgctggagtt taatgtcaaa1321 actgatgctc cagatcttcc agaagaaaat caggccaggg aaggttaccg agcaatagca1381 tactcatctc tcagccaaag ttacctttat attgattgga ctgataacca taaggctttg1441 ctagtgggag aacatctgaa tattattgtt acccccaaaa gcccatatat tgacaaaata1501 actcactata attacttgat tttatccaag ggcaaaatta tccattttgg cacgagggag1561 aaattttcag atgcatctta tcaaagtata aacattccag taacacagaa catggttcct1621 tcatcccgac ttctggtcta ttatatcgtc acaggagaac agacagcaga attagtgtct1681 gattcagtct ggttaaatat tgaagaaaaa tgtggcaacc agctccaggt tcatctgtct1741 cctgatgcag atgcatattc tccaggccaa actgtgtctc ttaatatggc aactggaatg1801 gattcctggg tggcattagc agcagtggac agtgctgtgt atggagtcca aagaggagcc1861 aaaaagccct tggaaagagt atttcaattc ttagagaaga gtgatctggg ctgtggggca1921 ggtggtggcc tcaacaatgc caatgtgttc cacctagctg gacttacctt cctcactaat1981 gcaaatgcag atgactccca agaaaatgat gaaccttgta aagaaattct caggccaaga2041 agaacgctgc aaaagaagat agaagaaata gctgctaaat ataaacattc agtagtgaag2101 aaatgttgtt acgatggagc ctgcgttaat aatgatgaaa cctgtgagca gcgagctgca2161 cggattagtt tagggccaag atgcatcaaa gctttcactg aatgttgtgt cgtcgcaagc2221 cagctccgtg ctaatatctc tcataaagac atgcaattgg gaaggctaca catgaagacc2281 ctgttaccag taagcaagcc agaaattcgg agttattttc cagaaagctg gttgtgggaa2341 gttcatcttg ttcccagaag aaaacagttg cagtttgccc tacctgattc tctaaccacc2401 tgggaaattc aaggcattgg catttcaaac actggtatat gtgttgctga tactgtcaag2461 gcaaaggtgt tcaaagatgt cttcctggaa atgaatatac catattctgt tgtacgagga2521 gaacagatcc aattgaaagg aactgtttac aactatagga cttctgggat gcagttctgt2581 gttaaaatgt ctgctgtgga gggaatctgc acttcggaaa gcccagtcat tgatcatcag2641 ggcacaaagt cctccaaatg tgtgcgccag aaagtagagg gctcctccag tcacttggtg2701 acattcactg tgcttcctct ggaaattggc cttcacaaca tcaatttttc actggagact2761 tggtttggaa aagaaatctt agtaaaaaca ttacgagtgg tgccagaagg tgtcaaaagg2821 gaaagctatt ctggtgttac tttggatcct aggggtattt atggtaccat tagcagacga2881 aaggagttcc catacaggat acccttagat ttggtcccca aaacagaaat caaaaggatt2941 ttgagtgtaa aaggactgct tgtaggtgag atcttgtctg cagttctaag tcaggaaggc3001 atcaatatcc taacccacct ccccaaaggg agtgcagagg cggagctgat gagcgttgtc3061 ccagtattct atgtttttca ctacctggaa acaggaaatc attggaacat ttttcattct3121 gacccattaa ttgaaaagca gaaactgaag aaaaaattaa aagaagggat gttgagcatt3181 atgtcctaca gaaatgctga ctactcttac agtgtgtgga agggtggaag tgctagcact3241 tggttaacag cttttgcttt aagagtactt ggacaagtaa ataaatacgt agagcagaac3301 caaaattcaa tttgtaattc tttattgtgg ctagttgaga attatcaatt agataatgga3361 tctttcaagg aaaattcaca gtatcaacca ataaaattac agggtacctt gcctgttgaa3421 gcccgagaga acagcttata tcttacagcc tttactgtga ttggaattag aaaggctttc3481 gatatatgcc ccctggtgaa aatcgacaca gctctaatta aagctgacaa ctttctgctt3541 593601 ctgggagata aaactcaccc acagtttcgt tcaattgttt cagctttgaa gagagaagct3661 ttggttaaag gtaatccacc catttatcgt ttttggaaag acaatcttca gcataaagac3721 agctctgtac ctaacactgg tacggcacgt atggtagaaa caactgccta tgctttactc3781 accagtctga acttgaaaga tataaattat gttaacccag tcatcaaatg gctatcagaa3841 gagcagaggt atggaggtgg cttttattca acccaggaca ccatcaatgc cattgagggc3901 ctgacggaat attcactcct ggttaaacaa ctccgcttga gtatggacat cgatgtttct 398661 tacaagcata aaggtgcctt acataattat aaaatgacag acaagaattt ccttgggagg4021 ccagtagagg tgcttctcaa tgatgacctc attgtcagta caggatttgg cagtggcttg gctacagtac atgtaacaac tgtagttcac aaaaccagta cctctgagga agtttgcagc4141 ttttatttga aaatcgatac tcaggatatt gaagcatccc actacagagg ctacggaaac4201 tctgattaca aacgcatagt agcatgtgcc agctacaagc ccagcaggga agaatcatca4261 tctggatcct ctcatgcggt gatggacatc tccttgccta ctggaatcag tgcaaatgaa4321 gaagacttaa aagcccttgt ggaaggggtg gatcaactat tcactgatta ccaaatcaaa4381 gatggacatg ttattctgca actgaattcg attccctcca gtgatttcct ttgtgtacga4441 ttccggatat ttgaactctt tgaagttggg tttctcagtc ctgccacttt cacagtttac4501 gaataccaca gaccagataa acagtgtacc atgttttata gcacttccaa tatcaaaatt4561 cagaaagtct gtgaaggagc cgcgtgcaag tgtgtagaag ctgattgtgg gcaaatgcag4621 gaagaattgg atctgacaat ctctgcagag acaagaaaac aaacagcatg taaaccagag4681 attgcatatg cttataaagt tagcatcaca tccatcactg tagaaaatgt ttttgtcaag4741 tacaaggcaa cccttctgga tatctacaaa actggggaag ctgttgctga gaaagactct4801 gagattacct tcattaaaaa ggtaacctgt actaacgctg agctggtaaa aggaagacag4861 tacttaatta tgggtaaaga agccctccag ataaaataca atttcagttt caggtacatc4921 taccctttag attccttgac ctggattgaa tactggccta gagacacaac atgttcatcg4981 tgtcaagcat ttttagctaa tttagatgaa tttgccgaag atatcttttt aaatggatgc5041 taaaattcct gaagttcagc tgcatacagt ttgcacttat ggactcctgt tgttgaagtt5101 cgtttttttg ttttcttctt tttttaaaca ttcatagctg gtcttatttg taaagctcac5161 tttacttaga attagtggca cttgctttta ttagagaatg atttcaaatg ctgtaacttt5221 ctgaaataac atggccttgg agggcatgaa gacagatact cctccaaggt tattggacac5281 cggaaacaat aaattggaac acctcctcaa acctaccact caggaatgtt tgctggggcc5341 gaaagaacag tccattgaaa gggagtatta caaaaacatg gcctttgctt gaaagaaaat5401 accaaggaac aggaaactga tcattaaagc ctgagtttgc tttc (2) SEQ ID NO: 2670 for data: (i) sequence characteristics:

(A) length: 5444 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2670 sequence description: 1 ctacctccaa ccatgggcct tttgggaata ctttgttttt taatcttcct ggggaaaacc 61 tggggacagg agcaaacata tgtcatttca gcaccaaaaa tattccgtgt tggagcatct121 gaaaatattg tgattcaagt ttatggatac actgaagcat ttgatgcaac aatctctatt 181 721 ttcattggtt acaagaactt taagaatttt gaaattacta taaaagcaag atatttttat 781 181 aaaagttatc ctgataaaaa atttagttac tcctcaggcc atgttcattt atcctcagag 241 aataaattcc aaaactctgc aatcttaaca atacaaccaa aacaattgcc tggaggacaa 301 aacccagttt cttatgtgta tttggaagtt gtatcaaagc atttttcaaa atcaaaaaga 361 atgccaataa cctatgacaa tggatttctc ttcattcata cagacaaacc tgtttatact 421 ccagaccagt cagtaaaagt tagagtttat tcgttgaatg acgacttgaa gccagccaaa 481 agagaaactg tcttaacctt catagatcct gaaggatcag aagttgacat ggtagaagaa 541 attgatcata ttggaattat ctcttttcct gacttcaaga ttccgtctaa tcctagatat 601 ggtatgtgga cgatcaaggc taaatataaa gaggactttt caacaactgg aaccgcatat 661 tttgaagtta aagaatatgt cttgccacat ttttctgtct caatcgagcc agaatataat 721 ttcattggtt acaagaactt taagaatttt gaaattacta taaaagcaag atatttttat 781 aataaagtag tcactgaggc tgacgtttat atcacatttg gaataagaga agacttaaaa 841 gatgatcaaa aagaaatgat gcaaacagca atgcaaaaca caatgttgat aaatggaatt 901 gctcaagtca catttgattc tgaaacagca gtcaaagaac tgtcatacta cagtttagaa 961 gatttaaaca acaagtacct ttatattgct gtaacagtca tagagtctac aggtggattt1021 tctgaagagg cagaaatacc tggcatcaaa tatgtcctct ctccctacaa actgaatttg1081 gttgctactc ctcttttcct gaagcctggg attccatatc ccatcaaggt gcaggttaaa1141 gattcgcttg accagttggt aggaggagtc ccagtaatac tgaatgcaca aacaattgat1201 gtaaaccaag agacatctga cttggatcca agcaaaagtg taacacgtgt tgatgatgga1261 gtagcttcct ttgtgcttaa tctcccatct ggagtgacgg tgctggagtt taatgtcaaa1321 actgatgctc cagatcttcc agaagaaaat caggccaggg aaggttaccg agcaatagca1381 tactcatctc tcagccaaag ttacctttat attgattgga ctgataacca taaggctttg1441 ctagtgggag aacatctgaa tattattgtt acccccaaaa gcccatatat tgacaaaata1501 actcactata attacttgat tttatccaag ggcaaaatta tccattttgg cacgagggag1561 aaattttcag atgcatctta tcaaagtata aacattccag taacacagaa catggttcct1621 tcatcccgac ttctggtcta ttatatcgtc acaggagaac agacagcaga attagtgtct1681 gattcagtct ggttaaatat tgaagaaaaa tgtggcaacc agctccaggt tcatctgtct1741 cctgatgcag atgcatattc tccaggccaa actgtgtctc ttaatatggc aactggaatg1801 gattcctggg tggcattagc agcagtggac agtgctgtgt atggagtcca aagaggagcc1861 aaaaagccct tggaaagagt atttcaattc ttagagaaga gtgatctggg ctgtggggca1921 ggtggtggcc tcaacaatgc caatgtgttc cacctagctg gacttacctt cctcactaat1981 gcaaatgcag atgactccca agaaaatgat gaaccttgta aagaaattct caggccaaga2041 agaacgctgc aaaagaagat agaagaaata gctgctaaat ataaacattc agtagtgaag2101 aaatgttgtt acgatggagc ctgcgttaat aatgatgaaa cctgtgagca gcgagctgca2161 cggattagtt tagggccaag atgcatcaaa gctttcactg aatgttgtgt cgtcgcaagc2221 cagctccgtg ctaatatctc tcataaagac atgcaattgg gaaggctaca catgaagacc2281 ctgttaccag taagcaagcc agaaattcgg agttattttc cagaaagctg gttgtgggaa2341 gttcatcttg ttcccagaag aaaacagttg cagtttgccc tacctgattc tctaaccacc2401 tgggaaattc aaggcattgg catttcaaac actggtatat gtgttgctga tactgtcaag2461 gcaaaggtgt tcaaagatgt cttcctggaa atgaatatac catattctgt tgtacgagga2521 gaacagatcc aattgaaagg aactgtttac aactatagga cttctgggat gcagttctgt2581 gttaaaatgt ctgctgtgga gggaatctgc acttcggaaa gcccagtcat tgatcatcag2641 ggcacaaagt cctccaaatg tgtgcgccag aaagtagagg gctcctccag tcacttggtg2701 acattcactg tgcttcctct ggaaattggc cttcacaaca tcaatttttc actggagact2761 tggtttggaa aagaaatctt agtaaaaaca ttacgagtgg tgccagaagg tgtcaaaagg2821 gaaagctatt ctggtgttac tttggatcct aggggtattt atggtaccat tagcagacga2881 aaggagttcc catacaggat acccttagat ttggtcccca aaacagaaat caaaaggatt2941 ttgagtgtaa aaggactgct tgtaggtgag atcttgtctg cagttctaag tcaggaaggc3001 atcaatatcc taacccacct ccccaaaggg agtgcagagg cggagctgat gagcgttgtc3061 ccagtattct atgtttttca ctacctggaa acaggaaatc attggaacat ttttcattct3121 gacccattaa ttgaaaagca gaaactgaag aaaaaattaa aagaagggat gttgagcatt3181 atgtcctaca gaaatgctga ctactcttac agtgtgtgga agggtggaag tgctagcact3241 tggttaacag cttttgcttt aagagtactt ggacaagtaa ataaatacgt agagcagaac3301 caaaattcaa tttgtaattc tttattgtgg ctagttgaga attatcaatt agataatgga3361 tctttcaagg aaaattcaca gtatcaacca ataaaattac agggtacctt gcctgttgaa3421 gcccgagaga acagcttata tcttacagcc tttactgtga ttggaattag aaaggctttc3481 gatatatgcc ccctggtgaa aatcgacaca gctctaatta aagctgacaa ctttctgctt3541 593601 ctgggagata aaactcaccc acagtttcgt tcaattgttt cagctttgaa gagagaagct3661 ttggttaaag gtaatccacc catttatcgt ttttggaaag acaatcttca gcataaagac3721 agctctgtac ctaacactgg tacggcacgt atggtagaaa caactgccta tgctttactc3781 accagtctga acttgaaaga tataaattat gttaacccag tcatcaaatg gctatcagaa3841 gagcagaggt atggaggtgg cttttattca acccaggaca ccatcaatgc cattgagggc3901 ctgacggaat attcactcct ggttaaacaa ctccgcttga gtatggacat cgatgtttct 398661 tacaagcata aaggtgcctt acataattat aaaatgacag acaagaattt ccttgggagg4021 ccagtagagg tgcttctcaa tgatgacctc attgtcagta caggatttgg cagtggcttg gctacagtac atgtaacaac tgtagttcac aaaaccagta cctctgagga agtttgcagc4141 ttttatttga aaatcgatac tcaggatatt gaagcatccc actacagagg ctacggaaac4201 tctgattaca aacgcatagt agcatgtgcc agctacaagc ccagcaggga agaatcatca4261 tctggatcct ctcatgcggt gatggacatc tccttgccta ctggaatcag tgcaaatgaa4321 gaagacttaa aagcccttgt ggaaggggtg gatcaactat tcactgatta ccaaatcaaa4381 gatggacatg ttattctgca actgaattcg attccctcca gtgatttcct ttgtgtacga4441 ttccggatat ttgaactctt tgaagttggg tttctcagtc ctgccacttt cacagtttac4501 gaataccaca gaccagataa acagtgtacc atgttttata gcacttccaa tatcaaaatt4561 cagaaagtct gtgaaggagc cgcgtgcaag tgtgtagaag ctgattgtgg gcaaatgcag4621 gaagaattgg atctgacaat ctctgcagag acaagaaaac aaacagcatg taaaccagag4681 attgcatatg cttataaagt tagcatcaca tccatcactg tagaaaatgt ttttgtcaag4741 tacaaggcaa cccttctgga tatctacaaa actggggaag ctgttgctga gaaagactct4801 gagattacct tcattaaaaa ggtaacctgt actaacgctg agctggtaaa aggaagacag4861 tacttaatta tgggtaaaga agccctccag ataaaataca atttcagttt caggtacatc4921 taccctttag attccttgac ctggattgaa tactggccta gagacacaac atgttcatcg4981 tgtcaagcat ttttagctaa tttagatgaa tttgccgaag atatcttttt aaatggatgc5041 taaaattcct gaagttcagc tgcatacagt ttgcacttat ggactcctgt tgttgaagtt5101 cgtttttttg ttttcttctt tttttaaaca ttcatagctg gtcttatttg taaagctcac5161 tttacttaga attagtggca cttgctttta ttagagaatg atttcaaatg ctgtaacttt5221 ctgaaataac atggccttgg agggcatgaa gacagatact cctccaaggt tattggacac5281 cggaaacaat aaattggaac acctcctcaa acctaccact caggaatgtt tgctggggcc5341 gaaagaacag tccattgaaa gggagtatta caaaaacatg gcctttgctt gaaagaaaat5401 accaaggaac aggaaactga tcattaaagc ctgagtttgc tttc (2) SEQ ID NO: 2671 data: (i) sequence characteristics:

(A) length: 15087 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2671 sequence description: 1 cgtgttgatg atggagtagc ttcctttgtg cttaatctcc catctggagt gacggtgctg 61 gagtttaatg tcaaaactga tgctccagat cttccagaag aaaatcaggc cagggaaggt 121 taccgagcaa tagcatactc atctctcagc caaagttacc tttatattga ttggactgat 181 721 accttcctca ctaatgcaaa tgcagatgac tcccaagaaa atgatgaacc ttgtaaagaa 781 181 aaccataagg ctttgctagt gggagaacat ctgaatatta ttgttacccc caaaagccca 241 tatattgaca aaataactca ctataattac ttgattttat ccaagggcaa aattatccac 301 tttggcacga gggagaaatt ttcagatgca tcttatcaaa gtataaacat tccagtaaca 361 cagaacatgg ttccttcatc ccgacttctg gtctattata tcgtcacagg agaacagaca 421 gcagaattag tgtctgattc agtctggtta aatattgaag aaaaatgtgg caaccagctc 481 caggttcatc tgtctcctga tgcagatgca tattctccag gccaaactgt gtctcttaat 541 atggcaactg gaatggattc ctgggtggca ttagcagcag tggacagtgc tgtgtatgga 601 gtccaaagag gagccaaaaa gcccttggaa agagtatttc aattcttaga gaagagtgat 661 ctgggctgtg gggcaggtgg tggcctcaac aatgccaatg tgttccacct agctggactt 721 accttcctca ctaatgcaaa tgcagatgac tcccaagaaa atgatgaacc ttgtaaagaa 781 attctcaggc caagaagaac gctgcaaaag aagatagaag aaatagctgc taaatataaa 841 cattcagtag tgaagaaatg ttgttacgat ggagcctgcg ttaataatga tgaaacctgt 901 gagcagcgag ctgcacggat tagtttaggg ccaagatgca tcaaagcttt cactgaatgt 961 tgtgtcgtcg caagccagct ccgtgctaat atctctcata aagacatgca attgggaagg1021 ctacacatga agaccctgtt accagtaagc aagccagaaa ttcggagtta ttttccagaa1081 agctggttgt gggaagttca tcttgttccc agaagaaaac agttgcagtt tgccctacct1141 gattctctaa ccacctggga aattcaaggc attggcattt caaacactgg tatatgtgtt1201 gctgatactg tcaaggcaaa ggtgttcaaa gatgtcttcc tggaaatgaa tataccatat1261 tctgttgtac gaggagaaca gatccaattg aaaggaactg tttacaacta taggacttct1321 gggatgcagt tctgtgttaa aatgtctgct gtggagggaa tctgcacttc ggaaagccca1381 gtcattgatc atcagggcac aaagtcctcc aaatgtgtgc gccagaaagt agagggctcc1441 tccagtcact tggtgacatt cactgtgctt cctctggaaa ttggccttca caacatcaat1501 ttttcactgg agacttggtt tggaaaagaa atcttagtaa aaacattacg agtggtgcca1561 gaaggtgtca aaagggaaag ctattctggt gttactttgg atcctagggg tatttatggt1621 accattagca gacgaaagga gttcccatac aggataccct tagatttggt ccccaaaaca1681 gaaatcaaaa ggattttgag tgtaaaagga ctgcttgtag gtgagatctt gtctgcagtt1741 ctaagtcagg aaggcatcaa tatcctaacc cacctcccca aagggagtgc agaggcggag1801 ctgatgagcg ttgtcccagt attctatgtt tttcactacc tggaaacagg aaatcattgg1861 aacatttttc attctgaccc attaattgaa aagcagaaac tgaagaaaaa attaaaagaa1921 gggatgttga gcattatgtc ctacagaaat gctgactact cttacagtgt gtggaagggt1981 ggaagtgcta gcacttggtt aacagctttt gctttaagag tacttggaca agtaaataaa2041 tacgtagagc agaaccaaaa ttcaatttgt aattctttat tgtggctagt tgagaattat2101 caattagata atggatcttt caaggaaaat tcacagtatc aaccaataaa attacagggt2161 accttgcctg ttgaagcccg agagaacagc ttatatctta cagcctttac tgtgattgga2221 attagaaagg ctttcgatat atgccccctg gtgaaaatcg acacagctct aattaaagct2281 gacaactttc tgcttgaaaa tacactgcca gcccagagca cctttacatt ggccatttct2341 gcgtatgctc tttccctggg agataaaact cacccacagt ttcgttcaat tgtttcagct2401 ttgaagagag aagctttggt taaaggtaat ccacccattt atcgtttttg gaaagacaat2461 cttcagcata aagacagctc tgtacctaac actggtacgg cacgtatggt agaaacaact2521 gcctatgctt tactcaccag tctgaacttg aaagatataa attatgttaa cccagtcatc2581 aaatggctat cagaagagca gaggtatgga ggtggctttt attcaaccca ggacacaatc2641 aatgccattg agggcctgac ggaatattca ctcctggtta aacaactccg cttgagtatg2701 gacatcgatg tttcttacaa gcataaaggt gccttacata attataaaat gacagacaag2761 aatttccttg ggaggccagt agaggtgctt ctcaatgatg acctcattgt cagtacagga2821 tttggcagtg gcttggctac agtacatgta acaactgtag ttcacaaaac cagtacctct2881 gaggaagttt gcagctttta tttgaaaatc gatactcagg atattgaagc atcccactac2941 agaggctacg gaaactctga ttacaaacgc atagtagcat gtgccagcta caagcccagc3001 agggaagaat catcatctgg atcctctcat gcggtgatgg acatctcctt gcctactgga3061 atcagtgcaa atgaagaaga cttaaaagcc cttgtggaag gggtggatca actattcact3121 gattaccaaa tcaaagatgg acatgttatt ctgcaactga attcgattcc ctccagtgat3181 ttcctttgtg tacgattccg gatatttgaa ctctttgaag ttgggtttct cagtcctgcc3241 actttcacag tgtacgaata ccacagacca gataaacagt gtaccatgtt ttatagcact3301 tccaatatca aaattcagaa agtctgtgaa ggagccgcgt gcaagtgtgt agaagctgat3361 tgtgggcaaa tgcaggaaga attggatctg acaatctctg cagagacaag aaaacaaaca3421 gcatgtaaac cagagattgc atatgcttat aaagttagca tcacatccat cactgtagaa3481 aatgtttttg tcaagtacaa ggcaaccctt ctggatatct acaaaactgg ggaagctgtt3541 593601 gtaaaaggaa gacagtactt aattatgggt aaagaagccc tccagataaa atacaatttc3661 agtttcaggt acatctaccc tttagattcc ttgacctgga ttgaatactg gcctagagac3721 acaacatgtt catcgtgtca agcattttta gctaatttag atgaatttgc cgaagatatc3781 tttttaaatg gatgctaaaa ttcctgaagt tcagctgcat acagtttgca cttatggact3841 cctgttgttg aagttcgttt ttttgttttc ttcttttttt aaacattcat agctggtctt3901atttgtaaag ctcactttac ttagaattag tggcacttgc ttttattaga gaatgatttc 398661 aaatgctgta actttctgaa ataacatggc cttggagggc atgaagacag atactcctcc4021 aaggttattg gacaccggaa acaataaatt ggaacacctc ctcaaaccta ccactcagga atgtttgctg gggccgaaag aacagtccat tgaaagggag tattacaaaa acatggcctt4141 tgcttgaaag aaaataccaa ggaacaggaa actgatcatt aaagcctgag tttgctttc 1 ctacctccaa ccatgggcct tttgggaata ctttgttttt taatcttcct ggggaaaacc 61 tggggacagg agcaaacata tgtcatttca gcaccaaaaa tattccgtgt tggagcatct121 gaaaatattg tgattcaagt ttatggatac actgaagcat ttgatgcaac aatctctatt 181 aaaagttatc ctgataaaaa atttagttac tcctcaggcc atgttcattt atcctcagag 241 aataaattcc aaaactctgc aatcttaaca atacaaccaa aacaattgcc tggaggacaa 301 aacccagttt cttatgtgta tttggaagtt gtatcaaagc atttttcaaa atcaaaaaga 361 atgccaataa cctatgacaa tggatttctc ttcattcata cagacaaacc tgtttatact 421 ccagaccagt cagtaaaagt tagagtttat tcgttgaatg acgacttgaa gccagccaaa 481 agagaaactg tcttaacctt catagatcct gaaggatcag aagttgacat ggtagaagaa 541 attgatcata ttggaattat ctcttttcct gacttcaaga ttccgtctaa tcctagatat 601 ggtatgtgga cgatcaaggc taaatataaa gaggactttt caacaactgg aaccgcatat 661 tttgaagtta aagaatatgt cttgccacat ttttctgtct caatcgagcc agaatataat 721 ttcattggtt acaagaactt taagaatttt gaaattacta taaaagcaag atatttttat 781 aataaagtag tcactgaggc tgacgtttat atcacatttg gaataagaga agacttaaaa 841 gatgatcaaa aagaaatgat gcaaacagca atgcaaaaca caatgttgat aaatggaatt 901 gctcaagtca catttgattc tgaaacagca gtcaaagaac tgtcatacta cagtttagaa 961 gatttaaaca acaagtacct ttatattgct gtaacagtca tagagtctac aggtggattt1021 tctgaagagg cagaaatacc tggcatcaaa tatgtcctct ctccctacaa actgaatttg1081 gttgctactc ctcttttcct gaagcctggg attccatatc ccatcaaggt gcaggttaaa1141 gattcgcttg accagttggt aggaggagtc ccagtaatac tgaatgcaca aacaattgat1201 gtaaaccaag agacatctga cttggatcca agcaaaagtg taacacgtgt tgatgatgga1261 gtagcttcct ttgtgcttaa tctcccatct ggagtgacgg tgctggagtt taatgtcaaa1321 actgatgctc cagatcttcc agaagaaaat caggccaggg aaggttaccg agcaatagca1381 tactcatctc tcagccaaag ttacctttat attgattgga ctgataacca taaggctttg1441 ctagtgggag aacatctgaa tattattgtt acccccaaaa gcccatatat tgacaaaata1501 actcactata attacttgat tttatccaag ggcaaaatta tccattttgg cacgagggag1561 aaattttcag atgcatctta tcaaagtata aacattccag taacacagaa catggttcct1621 tcatcccgac ttctggtcta ttatatcgtc acaggagaac agacagcaga attagtgtct1681 gattcagtct ggttaaatat tgaagaaaaa tgtggcaacc agctccaggt tcatctgtct1741 cctgatgcag atgcatattc tccaggccaa actgtgtctc ttaatatggc aactggaatg1801 gattcctggg tggcattagc agcagtggac agtgctgtgt atggagtcca aagaggagcc1861 aaaaagccct tggaaagagt atttcaattc ttagagaaga gtgatctggg ctgtggggca1921 ggtggtggcc tcaacaatgc caatgtgttc cacctagctg gacttacctt cctcactaat1981 gcaaatgcag atgactccca agaaaatgat gaaccttgta aagaaattct caggccaaga2041 agaacgctgc aaaagaagat agaagaaata gctgctaaat ataaacattc agtagtgaag2101 aaatgttgtt acgatggagc ctgcgttaat aatgatgaaa cctgtgagca gcgagctgca2161 cggattagtt tagggccaag atgcatcaaa gctttcactg aatgttgtgt cgtcgcaagc2221 cagctccgtg ctaatatctc tcataaagac atgcaattgg gaaggctaca catgaagacc2281 ctgttaccag taagcaagcc agaaattcgg agttattttc cagaaagctg gttgtgggaa2341 24053 2401 tgggaaattc aaggcattgg catttcaaac actggtatat gtgttgctga tactgtcaag2461 gcaaaggtgt tcaaagatgt cttcctggaa atgaatatac catattctgt tgtacgagga2521 gaacagatcc aattgaaagg aactgtttac aactatagga cttctgggat gcagttctgt gttaaaatgt ctgctgtgga gggaatctgc acttcggaaa gcccagtcat tgatcatcag2641 ggcacaaagt cctccaaatg tgtgcgccag aaagtagagg gctcctccag tcacttggtg2701 acattcactg tgcttcctct ggaaattggc cttcacaaca tcaatttttc actggagact2761 tggtttggaa aagaaatctt agtaaaaaca ttacgagtgg tgccagaagg tgtcaaaagg2821 2827 2881 aaggagttcc catacaggat acccttagat ttggtcccca aaacagaaat caaaaggatt2941 ttgagtgtaa aaggactgct tgtaggtgag atcttgtctg cagttctaag tcaggaaggc3001 atcaatatcc taacccacct ccccaaaggg agtgcagagg cggagctgat gagcgttgtc3061 ccagtattct atgtttttca ctacctggaa acaggaaatc attggaacat ttttcattct3121 gacccattaa ttgaaaagca gaaactgaag aaaaaattaa aagaagggat gttgagcatt3181 atgtcctaca gaaatgctga ctactcttac agtgtgtgga agggtggaag tgctagcact3241 tggttaacag cttttgcttt aagagtactt ggacaagtaa ataaatacgt agagcagaac3301 caaaattcaa tttgtaattc tttattgtgg ctagttgaga attatcaatt agataatgga3361 tctttcaagg aaaattcaca gtatcaacca ataaaattac agggtacctt gcctgttgaa3421 gcccgagaga acagcttata tcttacagcc tttactgtga ttggaattag aaaggctttc3481 gatatatgcc ccctggtgaa aatcgacaca gctctaatta aagctgacaa ctttctgctt3541 gaaaatacac tgccagccca gagcaccttt acattggcca tttctgcgta tgctctttcc3601 ctgggagata aaactcaccc acagtttcgt tcaattgttt cagctttgaa gagagaagct36 ttggttaaag gtaatccacc catttatcgt ttttggaaag acaatcttca gcataaagac3721 agctctgtac ctaacactgg tacggcacgt atggtagaaa caactgccta tgctttactc accagtctga acttgaaaga tataaattat gttaacccag tcatcaaatg gctatcagaa3841 gagcagaggt atggaggtgg cttttattca acccaggaca ccatcaatgc cattgagggc 861 ctgacggaat attcactcct ggttaaacaa ctccgcttga gtatggacat cgatgtttct3961 tacaagcata aaggtgcctt acataattat aaaatgacag acaagaattt ccttgggagg4021 364081 gctacagtac atgtaacaac tgtagttcac aaaaccagta cctctgagga agtttgcagc4141 ttttatttga aaatcgatac tcaggatatt gaagcatccc actacagagg ctacggaaac4201 tctgattaca aacgcatagt agcatgtgcc agctacaagc ccagcaggga agaatcatca4261 tctggatcct ctcatgcggt gatggacatc tccttgccta ctggaatcag tgcaaatgaa4321 gaagacttaa aagcccttgt ggaaggggtg gatcaactat tcactgatta ccaaatcaaa4381 gatggacatg ttattctgca actgaattcg attccctcca gtgatttcct ttgtgtacga4441 ttccggatat ttgaactctt tgaagttggg tttctcagtc ctgccacttt cacagtttac4501 gaataccaca gaccagataa acagtgtacc atgttttata gcacttccaa tatcaaaatt4561 cagaaagtct gtgaaggagc cgcgtgcaag tgtgtagaag ctgattgtgg gcaaatgcag4621 gaagaattgg atctgacaat ctctgcagag acaagaaaac aaacagcatg taaaccagag4681 attgcatatg cttataaagt tagcatcaca tccatcactg tagaaaatgt ttttgtcaag4741 tacaaggcaa cccttctgga tatctacaaa actggggaag ctgttgctga gaaagactct4801 gagattacct tcattaaaaa ggtaacctgt actaacgctg agctggtaaa aggaagacag4861 tacttaatta tgggtaaaga agccctccag ataaaataca atttcagttt caggtacatc4921 taccctttag attccttgac ctggattgaa tactggccta gagacacaac atgttcatcg4981 tgtcaagcat ttttagctaa tttagatgaa tttgccgaag atatcttttt aaatggatgc5041 taaaattcct gaagttcagc tgcatacagt ttgcacttat ggactcctgt tgttgaagtt5101 cgtttttttg ttttcttctt tttttaaaca ttcatagctg gtcttatttg taaagctcac5161 tttacttaga attagtggca cttgctttta ttagagaatg atttcaaatg ctgtaacttt5221 ctgaaataac atggccttgg agggcatgaa gacagatact cctccaaggt tattggacac5281 cggaaacaat aaattggaac acctcctcaa acctaccact caggaatgtt tgctggggcc5341 gaaagaacag tccattgaaa gggagtatta caaaaacatg gcctttgctt gaaagaaaat5401 accaaggaac aggaaactga tcattaaagc ctgagtttgc tttc1 ctacctccaa ccatgggcct tttgggaata ctttgttttt taatcttcct ggggaaaacc 61 tggggacagg agcaaacata tgtcatttca gcaccaaaaa tattccgtgt tggagcatct gaaaatattg tgattcaagt ttatggatac actgaagcat ttgatgcaac aatctctatt 181 aaaagttatc ctgataaaaa atttagttac tcctcaggcc atgttcattt atcctcagag 241 aataaattcc aaaactctgc aatcttaaca atacaaccaa aacaattgcc tggaggacaa 301 aacccagttt cttatgtgta tttggaagtt gtatcaaagc atttttcaaa atcaaaaaga 361 atgccaataa cctatgacaa tggatttctc ttcattcata cagacaaacc tgtttatact 421 ccagaccagt cagtaaaagt tagagtttat tcgttgaatg acgacttgaa gccagccaaa 481 agagaaactg tcttaacctt catagatcct gaaggatcag aagttgacat ggtagaagaa 541 attgatcata ttggaattat ctcttttcct gacttcaaga ttccgtctaa tcctagatat ggtatgtgga cgatcaaggc taaatataaa gaggactttt caacaactgg aaccgcatat 661 tttgaagtta aagaatatgt cttgccacat ttttctgtct caatcgagcc agaatataat 721 ttcattggtt acaagaactt taagaatttt gaaattacta taaaagcaag atatttttat 781 aataaagtag tcactgaggc tgacgtttat atcacatttg gaataagaga agacttaaaa 841 gatgatcaaa aagaaatgat gcaaacagca atgcaaaaca caatgttgat aaatggaatt 901 gctcaagtca catttgattc tgaaacagca gtcaaagaac tgtcatacta cagtttagaa 961 gatttaaaca acaagtacct ttatattgct gtaacagtca tagagtctac aggtggattt1021 tctgaagagg cagaaatacc tggcatcaaa tatgtcctct ctccctacaa actgaatttg1081 gttgctactc ctcttttcct gaagcctggg attccatatc ccatcaaggt gcaggttaaa1141 gattcgcttg accagttggt aggaggagtc ccagtaatac tgaatgcaca aacaattgat1201 gtaaaccaag agacatctga cttggatcca agcaaaagtg taacacgtgt tgatgatgga1261 13242 1321 actgatgctc cagatcttcc agaagaaaat caggccaggg aaggttaccg agcaatagca1381 tactcatctc tcagccaaag ttacctttat attgattgga ctgataacca taaggctttg1441 ctagtgggag aacatctgaa tattattgtt acccccaaaa gcccatatat tgacaaaata1501 actcactata attacttgat tttatccaag ggcaaaatta tccattttgg cacgagggag1561 aaattttcag atgcatctta tcaaagtata aacattccag taacacagaa catggttcct1621 tcatcccgac ttctggtcta ttatatcgtc acaggagaac agacagcaga attagtgtct1681 gattcagtct ggttaaatat tgaagaaaaa tgtggcaacc agctccaggt tcatctgtct1741 cctgatgcag atgcatattc tccaggccaa actgtgtctc ttaatatggc aactggaatg1801 gattcctggg tggcattagc agcagtggac agtgctgtgt atggagtcca aagaggagcc1861 aaaaagccct tggaaagagt atttcaattc ttagagaaga gtgatctggg ctgtggggca1921 ggtggtggcc tcaacaatgc caatgtgttc cacctagctg gacttacctt cctcactaat1981 gcaaatgcag atgactccca agaaaatgat gaaccttgta aagaaattct caggccaaga2041 agaacgctgc aaaagaagat agaagaaata gctgctaaat ataaacattc agtagtgaag2101 aaatgttgtt acgatggagc ctgcgttaat aatgatgaaa cctgtgagca gcgagctgca2161 cggattagtt tagggccaag atgcatcaaa gctttcactg aatgttgtgt cgtcgcaagc2221 cagctccgtg ctaatatctc tcataaagac atgcaattgg gaaggctaca catgaagacc ctgttaccag taagcaagcc agaaattcgg agttattttc cagaaagctg gttgtgggaa2341 gttcatcttg ttcccagaag aaaacagttg cagtttgccc tacctgattc tctaaccacc2401 tgggaaattc aaggcattgg catttcaaac actggtatat gtgttgctga tactgtcaag2461 gcaaaggtgt tcaaagatgt cttcctggaa atgaatatac catattctgt tgtacgagga2521 gaacagatcc aattgaaagg aactgtttac aactatagga cttctgggat gcagttctgt2581 gttaaaatgt ctgctgtgga gggaatctgc acttcggaaa gcccagtcat tgatcatcag2641 ggcacaaagt cctccaaatg tgtgcgccag aaagtagagg gctcctccag tcacttggtg2701 acattcactg tgcttcctct ggaaattggc cttcacaaca tcaatttttc actggagact27 tggtttggaa aagaaatctt agtaaaaaca ttacgagtgg tgccagaagg tgtcaaaagg2821 gaaagctatt ctggtgttac tttggatcct aggggtattt atggtaccat tagcagacga2881 aaggagttcc catacaggat acccttagat ttggtcccca aaacagaaat caaaaggatt2941 ttgagtgtaa aaggactgct tgtaggtgag atcttgtctg cagttctaag tcaggaaggc3001 atcaatatcc taacccacct ccccaaaggg agtgcagagg cggagctgat gagcgttgtc3061 ccagtattct atgtttttca ctacctggaa acaggaaatc attggaacat ttttcattct3121 gacccattaa ttgaaaagca gaaactgaag aaaaaattaa aagaagggat gttgagcatt3181 atgtcctaca gaaatgctga ctactcttac agtgtgtgga agggtggaag tgctagcact3241 tggttaacag cttttgcttt aagagtactt ggacaagtaa ataaatacgt agagcagaac3301 caaaattcaa tttgtaattc tttattgtgg ctagttgaga attatcaatt agataatgga3361 tctttcaagg aaaattcaca gtatcaacca ataaaattac agggtacctt gcctgttgaa3421 gcccgagaga acagcttata tcttacagcc tttactgtga ttggaattag aaaggctttc3481 gatatatgcc ccctggtgaa aatcgacaca gctctaatta aagctgacaa ctttctgctt3541 gaaaatacac tgccagccca gagcaccttt acattggcca tttctgcgta tgctctttcc3601 ctgggagata aaactcaccc acagtttcgt tcaattgttt cagctttgaa gagagaagct3661 ttggttaaag gtaatccacc catttatcgt ttttggaaag acaatcttca gcataaagac3721 agctctgtac ctaacactgg tacggcacgt atggtagaaa caactgccta tgctttactc3781 accagtctga acttgaaaga tataaattat gttaacccag tcatcaaatg gctatcagaa3841 gagcagaggt atggaggtgg cttttattca acccaggaca ccatcaatgc cattgagggc3901 ctgacggaat attcactcct ggttaaacaa ctccgcttga gtatggacat cgatgtttct3961 tacaagcata aaggtgcctt acataattat aaaatgacag acaagaattt ccttgggagg4021 ccagtagagg tgcttctcaa tgatgacctc attgtcagta caggatttgg cagtggcttg 408681 4141 ttttatttga aaatcgatac tcaggatatt gaagcatccc actacagagg ctacggaaac 42058 364261 tctggatcct ctcatgcggt gatggacatc tccttgccta ctggaatcag tgcaaatgaa4321 gaagacttaa aagcccttgt ggaaggggtg gatcaactat tcactgatta ccaaatcaaa4381 gatggacatg ttattctgca actgaattcg attccctcca gtgatttcct ttgtgtacga4441 ttccggatat ttgaactctt tgaagttggg tttctcagtc ctgccacttt cacagtttac4501 gaataccaca gaccagataa acagtgtacc atgttttata gcacttccaa tatcaaaatt4561 cagaaagtct gtgaaggagc cgcgtgcaag tgtgtagaag ctgattgtgg gcaaatgcag4621 gaagaattgg atctgacaat ctctgcagag acaagaaaac aaacagcatg taaaccagag4681 attgcatatg cttataaagt tagcatcaca tccatcactg tagaaaatgt ttttgtcaag4741 tacaaggcaa cccttctgga tatctacaaa actggggaag ctgttgctga gaaagactct4801 gagattacct tcattaaaaa ggtaacctgt actaacgctg agctggtaaa aggaagacag4861 tacttaatta tgggtaaaga agccctccag ataaaataca atttcagttt caggtacatc4921 taccctttag attccttgac ctggattgaa tactggccta gagacacaac atgttcatcg4981 tgtcaagcat ttttagctaa tttagatgaa tttgccgaag atatcttttt aaatggatgc5041 taaaattcct gaagttcagc tgcatacagt ttgcacttat ggactcctgt tgttgaagtt5101 cgtttttttg ttttcttctt tttttaaacattcatagctg gtcttatttg taaagctcac5161 tttacttaga attagtggca cttgctttta ttagagaatg atttcaaatg ctgtaacttt5221 ctgaaataac atggccttgg agggcatgaa gacagatact cctccaaggt tattggacac5281 cggaaacaat aaattggaac acctcctcaa acctaccact caggaatgtt tgctggggcc5341 gaaagaacag tccattgaaa gggagtatta caaaaacatg gcctttgctt gaaagaaaat5401 accaaggaac aggaaactga tcattaaagc ctgagtttgc tttc (2) SEQ ID NO: 2672 data: (i) sequence characteristics:

(A) length: 143068 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2672 sequence description: 1 aagcttcagt atgcaaattt tcaatgacat gtgcctgtgg attctgaaaa ttcacagatc 61 tgtctatcct tagctgagac tgaaggcatc tacttcccaa tgaccaaatc ctggtgctgt121 ggcgacactg agcaggaact ccattagaat atcaatatca ctctgcagac attccatgat181 gtaagctatg ttttctcttg ttgcaattac acttaattta ccaccagctg cttcaatgtc241 atgggctatc ttgaaaaatg aagctccttt cgtagtcaaa ctggatgcaa gacacagcaa301 atgagaagtt actaaattgt tggagtcctc atagctactg cctgctttaa tgaacaaacc361 aattcttgat gcagggcata gttttccaaa ggagaaatca taaaaccatt tggaaatttg421 atgatctcaa ggtcctgatg atgtggagcc actcctatgg gggtagctgt ggctttaact481 ttgggggcaa ctttgaggga ataaagtctc aaaaagaggg aataaagtct caagattgtt 541 cgtgacccat agtaacttct ggcttaaagg accattcggc aagtttttaa atgtattttc 601 tataatttcc atgtagttct ttatattttc tatttcttat ttaaaacctc tattttagct 661 cgtttccttt gacactgctc tggcagggaa aggggtggca ctgcctcatt actgccaggt 721 aggggtagaa gtccattatc cacttggtct ccattgatac ccaaagtggg gagaggctcc 781 tgttactgct ggtgagggtg ggagtccccc cactaagttt ctgctaatac tgtcctggtg 841 gcttgctact attcccatga agcctccact gatactacat tacttttggg tggtggcaaa 901 tgtcctgcct ctccactagc cctcctgctc taaaacaacc cgagtaggga gtgggaagga 961 agctttgtta ctggtaggtg ggagctgaag tccagacttg ccacattgtc ccactgatgc1021 tacagggagg aggaagcggg ccacattact gcctgatagg gatgaaagcc ccagctccct1081 acctggcctt cgctgatacc agcctgctac aggagtgaag agagatttga aggcctcaat1141 atagcctgtc gagggtggaa gtcttgctcc caatgggcct ttagcagcat gggtgggtgt1201 ggggccatag ctgtctctgt actgcttggc tagagtggag tatttgaggt ccaaaagttt1261 tctgtctttc tagccctttg gttagaaaga gcagactttt gttggaagta tttttttgtg1321 tttacctgtt gtatttccag gttcctagct tctccagcac agtctgggat gtgtgagaca1381 cagagaaaat ccagtgatgt tactaccgta tggtttcttg ggtcccaacg tctctagcta1441 atctgctcca ccttttggag ttttcttatt tgttttagat cagggattta gtcatattta1501 ataggagaaa tatggaaaaa tacttctact ctatcttcct ggaagttcct gtttattttt1561 tatgtccttt tcctctggct agaccgtaag agacttacga aacaaacact tacacattct1621 actaaactca atgtccaaag tttgtgaact tcttgaatat tgcttgttca tttccacccc1681 cagtcactga ctgaatctcc ctgctgtctg tctacaatgc caatgagctt ctggttaact1741 tcttctcatg catgcttagg caacaacttc ccagttttac tacacttgcc catccctagt1801 tttgttgttg cttaatccct tggcctagtg ccaccatact cctccagcag agcaaccaat1861 tcttacatta taggacagca catatccact aaaaacagtt catgccacac caaccacatt1921 tccctttgtc aacaaaatta cttgatagat aattccagga atgcctgatg aagctgattg1981 acaacaagat atttggcaga ctctctgctg cctatacata ccttagcatg tggaactcaa2041 gtaatgagag gtccatttaa ttggattgaa ttgggctgga taggattgga ttgaatcctg2101 tgggatggct aggctaaatt agaaatgaag actagtttaa cagcagtatc caaggatagt2161 tgactaatga gttaatttta ctctcaaaga cagtctttag tagtaagctg taatgcatta2221 tatcaaacta ttttccagtc aatgatttat aagttacttg aataaggatg ctaaagatgt2281 gccttattga aatggcaatt agcacaaagt tgggaatgaa atctaattag ttaaataaca2341 gaatcacata aaaaaggact tgaataaatg tagcatccta ccatgttcct ggatagaaag2401 actgctatcg taaagatatt cattctcctc aggttaaatt ataaactcaa tgcaattcaa24 caggatttta aaaaactaga caaagtgatt ccaagtttac gtggaaaata aaatgtgagg2521 gaccaaacaa tatttgaaaa agaaagagaa taaaatctca tccttccaga taccacaatg 8681 tattataaag caatagtaat taacatgagg gcagaaatga gcaagcaagt gaacaaaata2641 agacagatag tcacaggaaa ctcatatatt tataggtgct ttgcgtataa tgaagatggt 27058 362761 atacattggt gagaaataaa gtgaaactcc tactttgtat catatgcaaa aaatagattc2821 cagacagatg aaatatttaa atgtaaaaaa taaaattcta aaactactag aaaaaaaaga2881 agaatatttt tattcctttg aaatagaaaa ggtcttacta agcaaaacac agaagtaata2941 aatgaataaa tgaagacaaa tatgataaaa ataagttaaa aatataagca atctttcttt3001 gttttttttt cacctttcct agaaaaaaat atataggcaa cttgttaagc aaggtagatt3061 acaagaaaat atttacaaca tttgacaggc cacagattat tatccagcct catctgataa3121 gaaaacttca acataaagat atctgttttt tttcttataa ggttcctcaa agtgagccaa3181 tcacttctta agctgaacaa aaaacaaaac agaagtgatc ttttccaata atgaaaacaa3241 acattgacag agcagctgta ggatcctttc aggcaaatta tgaaaaggtg ccctttctca3301 gaaaccacag ttaccattca gctttgtgac cagaggtttg actgtaccct agtccctact3361 agcaacccaa ccacataacc aacttcaaag gtcctgaatg actgtgttgt acttaatggc3421 agatgatcta tctcccattt ttgtcctaag gattttccaa gataatatat ttctgcattt3481 gttttgcttt tacttcactc caaattgaaa tctatttgtg ggataagact aaagaaatgc3541 ttataggaaa attgatagca ccaaattcct atcttaaaaa atgaaaaagg tttcaaatca3601 atgacctcag cttttacttt aagaaaatag aaaaagcagg ataagctaaa gccaaagtaa3661 acagaagaaa ggaaattata aagataagag cagaaatcaa tgaatagaaa acaaaagaaa3721 aaaatcaaac caaacagctg attctttaag cagatctata aaattgataa aactctagcc3781 agattgatca agtaaaaaag agagaagaca caaattacca gtattaagaa tgagagaggc3841 aatatcacta cagatcctac agatataaaa agtataaggg catactttga ataattttat3901 gactataaat taggcaactt agataaaaca aatttcttga aagacacaaa caaccaaagc3961 tcacctaaaa tactcacaaa ttgaatagtc ttatagctat tacaaaattg aggccaggcg4021 cagtggctca agcctttaat cccagcactt tgggagggct aggaaggcgg atcacgaggt4081 4158 4141 aattagccag gcttggtggt gcgtgcctgt aatcccatct actcaggaga ctgaggcagg 42072 tggtgagccg agatcgcgcc actgcacttc4261 agcctgggca acagaacaag actccgtctc aaaaaaaaaa aaaaaaaaaa aaattgaaat4321 tatagttaaa agtcttccca caaagcaaac tctagaccca gatggcttca atggtaaatt4381 ctactggaca atcaaacagg aaacagtaat aattctccac aatgtctttc ataaaattga4441 tgcggaggag atactctcca actcattcta tgaaactagc attaccctga taccaaaatc4501 atacagagac agtgtaggaa aacaacagat cagtatcctt catgaacata aatgaagtac4561 aatgcagtct tatgcataaa tcagagcttc attgttctac agataaggta atgtaggatt4621 gttggttgcc cctccaggtc tgttaaattc acctccttcc ccagagagca tccttcttaa4681 ggacagggag cctcaatatg tcagtcctca cagcacctcc ctcagtcttc agcacttacc4741 agctcatcac cacaaccgat accacattgg ataatttcat gaattacttt agagcaaatg4801 caagagaaaa aatggatttt tatataggag aagaaggagg aaattcttgt ggatttggta4861 cagaataggg ccaagggaaa attacagatg taaaaagaaa agtgtgtgaa atagtatcct4921 tagtgctcac aaatacaatg atttcattgt ttttaaaaat aaaaaatgac aaatgtctaa4981 tgcttggtgg taatgcttta ttgaatgtgt gttatacact ggttcctcat tcctgaagtt5041 agaaataata ccttcctctt ttcatttggt tatgtttgct gaaacaaatc aaaggctgag5101 attgaaacac atgctacttc aggtggatga ccttactact aagctcatca caacagcact5161 tacagctgaa gaccccagag tcctacctaa cttttgtcac aacccagatt ttggccatgt5221 agttctgggc cttaccatta aagcagacag aagtcagagg aatgactcct ttccacttga5281 agtgagctgc aggcttctag gaaaggcaag atgcacattt ccctcctgtg gagcataaag5341 cctttgtaat tcaggactta ggacccatat ggatttgaaa tattatgaca ttggagctgg5401 agtggttggg gacaacacca gtagtgttat aggccatgga atgtcaaaag aacatggaac5461 cctgttaaaa tcattaaaca tcaaaactct cccctcctct ggtgatatgg tttggctgtg5521 tccccatcca aatctcatct tgaactccca tgtgttgtgg gaggcaccca gtgggaggta5581 attgaatcat gggggcaggt ctttcccatg ctgttttcac gatactgaat aagtctcaca5641 agatctgatg gttttataaa ggggagcttc cctgcacaag ctctcttctc ttgtctgcca5701 ccatgtgaga catgcctttc accttccgcc atgattgtga ggcctcccca accatgtgga5761 acttttaagt tcattaaacc tcttcctttt gtaaattgct cagtctcaaa tatgtcttta5821 tcagcaacgt gaaaacagac tatctgattt tctgtgggat gtggattatg accatggaca5881 gagcataact gggacagagc tggaaaaaat attaattagg tgcttaaaaa tatttgttag5941 aactatcttc atgaatgaga atcaatcctg tttccatggt gattcaccag gcatcaattc6001 caagcatcca tgaatcagaa aagtcctatc ttctcttagt tatcatccag gactccaagg6061 aaccataatt agccaacctg ttcacatttc cttttcattc actagcctcg aagtttccag6121 gggacaggga ctctgtccta ttcatttctg taaccttacc acctgaccca gaatagctgt6181 tccctgaaga tttggtggat tataaatgtg gatgtcttat ttctttgaaa gtgtgagctt6241 caggtactga tcacgttatt ccaattatca atttagtatc tttcttcacc attaaactgt6301 gaaattcttg agggaagaac ctatgactga tttatctctg taaactcatg ccaccagtat6361 tcaaaatcac acctagcaca tagtaaacac tcaatgtttg ttgaatgact gaaggaatgg6421 atgaaaatga acctccttgc ttctgaccag tggatgagtt gcttggccgt gttcctacag6481 cctagagctc atcccctaaa gcatctgaag ttacccatta gtgcaatggt tcttgaacgc6541 tggtgttgat cagaatcatc tggatgccca ggttctctga aataagatag ggtctaggca6601 tttgtatttt taccaaggag gtgtgatgga gtcagatgca agaaggctag ttgaagaaac6661 6721 atcatcttgc tcaagtcatg ccagtctcag gacctcattc agtctcttca gctgtaatat6781 6 gggtgggttg caccacataa ccagaaagat cccttccagc tctacccact tacaacatgg6841 tcaaatttgg tctgattttt taaatcgtag tacaatatat atgacataaa attcaccatt6901 ttagccactt taaatgtaca attctgtagc attaactaca ttcacattgt tgtgcaacca6961 tcactaccgt ctacttccag aactcttcat cttgcaaaac tgaacctctg ttgtcattag 7058 gtcgctatga atttgactac tctaggtaac ttatataagt ggaatcacag catttgccct7141 attatgactg gtttagttga cttagcacaa cctcctaagg ctcaaccaca ttttagcatg7201 7261 tgtcagaatt ttctttgttt ttaaggctga ataatattct gttgtatctg taaataacat 59661 ctttattcat ttgtccatca acagactgtt gagttcctcc catcttttga ctattgtgaa7321 aaatgctgct atgaacctga gtgtacagac atctggttga gtactgcttt caattcattg7381 tttatatgga tcatatggta attttatgtt taattttttt ggaactgcta cattgttttc7441 cacagtgtac atcattttac atttccatca gcaatgcaca aaggttccaa tttctccaca 7501 ttcttaccaa cattttttat tttctgtttc ttatttattt gtttatttat tctgagacag 7561 agtctcactc tgtcacctag gctggagtgc agcagggtga tctcagctca ctgcaacctc 7621 tgcctcccat gttcaagtga ttctcctccc tcagcctccc aagtaaatgg aattacaggt 7681 7741 gttggtcagg ctggtcttga actcctgacc tcaagtgatc cacccgcctc agcctcccaa 7801 agtgctggga ttacaggtat gaaccactgc acccaggcca ttttttgctt tttagataat 7861 agtcatccta gtgggtatga agtggtattt cattgtggtt ttgatttata tttccctaat 7921 gatcagtgat attgagcatc tttcaagtgc ttattggcca ttttcttctt tggagaaatg 7981 tctatgcaag tcctttgctc attttttaat ccagttgctt tttgttattc tttttgattt 8041 gaaagtgttc tttatacctc ttgtatacta atcccttatc agatatgatt tataaatatt 8101 588161 atttttaatt tgaatgaagc ccaattaatc tatttttgtt tcttttgttg cctgtgcttt 8221 tggtgtccta tccaagaaac tgttgccaaa tccaatgtca taaagctttt tcccatgctt 8281 ccttctaaga gttttgtagt tacagctctt gtatttaggt atttgactat tttgagttaa 8341 tttttgtaca tcgtataaaa taagaatcca atttttattt tattttactt tttgtatgtg 8401 gatatccaat ttccccacca ccattcattg aaaagactgt ccttttccta tcgaatggtc 8461 ttggcaccct tgtaaaacat aatttgacca tatatgtgag ggtttatttc tgggctctct 8521 attctattct attctattct attctattct attctattct attctattct attctattct 8581 attggtccct atgtctttct ttattctagt accaccattt tgctcatcat aactttgtag 8641 taagttttga agtcaggaat cgtaagacct ccagctttgt tcattttcaa ggttgttttg 8701 attattcaag gtcccttgat agtccatatg aatttcagga tggatttttc tatttctgca 8761 aaaaaaaaaa aaaaaaaaaa aaaaatcatt gaaattttta aacagattgc attaaatctg 8821 tagattgttt tgggtagtat tgacatttaa caacattaaa tcttccaatc aatgaactag 8881 gctattttta tttatttttt ctgtttcttt gagctacttt tgtagttttc agtgtataag 8941 tttttgctac ctggttaggt atacttctaa gtattttcta ctttttgatg ctattgcaca 9001 ttgaatcgtt ttcttaattt ggtggtagcg gggattgtgc attgttagta cataaaaatg 9061 caactcattt tttgtgtgtt gattttgtat cctgcagctt taacaaattc atgttagttc 9121 taacagactt attctatgaa tcattagggt tttctacata aaagatcatg tcacctacaa 9181 acagagataa ttttactcca ccccttcccg ttgcaatgcc ttttatgtct ttttcttgcc 9241 taattgttct ggctaagact tccactacca tgttgaatag aagtggtgaa agtagacatc 9301 cttgtcttgt tccaatctta gagccaaagc tttcagtctt tcacggcctg aaagactttg 9361 taatatgttc tcaaggttaa agaacttcag aagttttcta agcaagagac cattttatta 9421 acttagttgg cagcaattct gagagattag aatgaaaaga tagaggataa gaagtatctg 9481 gcaggtataa tatattgagt gtgctgaata tacttttagt tttgtatagg tgttaaaaaa 9541 tggcaaagga ggccgggcgt ggtggctcac gcctgtaatc ccagcacttt gggaggccga 9601 ggcgggcaga tcatgaggtc aggagatcga gaccatcctg gctaaaacag tgaaacccta 9661 tctctactaa aaatacaaaa aactcgctgg gcatggtggt ggacacctgt agtcccagct 9721 actcgggagg ctgaggcagg agaatggtgt gaacctggaa ggtggagctt gcagtgagcc 9781 gagatcacgc cactgcactc cagcctgggc gacagagaga gactccgtct caaaagaaaa 9841 aaaaaatggc aaaggaaaga atgaaaaata aagcaaggtc ccagaagagg ccaaaaatct 9901 taatcaaaat tgactgaaca ttacggaatg aaatggtttt tcctttactc caattaacga 9961 cttcacaaga agattccatc ctcgtttata agattaaccc aaaaccagca cttaaaacca10021 gaagccttga aaggatggag tttggggacc cttctcatgt ctattcccag aagggggtct10081 10141 aagatagaaa gttggtctaa aaatacatga gagggaactg aaacatttca gagaaggcaa10201 gactcagaag taagaaacca aaagaggaag gtaaaattct agttacaaag aaaagaggaa10261 tggaaattaa attgtcttac agagaaaatc cagaactgcc ccctcttccc ttactactcc10321 atcaaaaaag gggaaaaata gtcaatggga aagttttgag aaaaatagat ctctgcattc10381 ttctggttga gaattcagac aacttgaact agagagctgg gtaatttctt gactaaaggt10441 gtgttagatc tgaaagggtt tttcttaaaa ttgtctgtgt tcatccctcc catcttagag10501 aggaacacag gataagagac ctctggagct cccccagggt caccgagcta ataggatcag10561 agacaaagct acaaagtcat tttctgacat ctctccaggg ctcttttttt ctggaccccc10621 10681 accaggttta catctcagtc tgtgggtctc agagaaagta cccaatcagc agcaacatta10741 cctggaaact catcagaagt gcccctcctc agccccaccc cagatctatg caatcagaaa10801 1082 10861 gagatccact gatcaaagaa ataatattcc ttttcttcat tataatagca tgaataataa10921 ctaacatgta tttcacaatt tacaaaagag ctttatgctc ttgttaaatt tgagggtagt10981 cttctcaaaa tctctgtgag gctagaaagt cagatattga aacacctgtt ttatgggttc11041 8621 aaagataggt tcaaaagaga gtaaatgatt gttggggtgg caggtccaga gagggcagga 1116301 tcaaaactgc aattgagtct tctgccttat aaaccagcat agcttcccca aggcacgtca11161 cttctcgata aaatggtgac aactagagtg tcctttcaga tcattcttag aagcatggag11221 tgctaggtca attgtgtaat tgatgaggaa ataataatac taagaactcc catcttctac11281 gtccttatat acaatcctgt caggtagaag ctgagtctca gagagaacaa gttgccctcc11341 caggaccacc aggtaagctc ggcatagctg tgcttagaat gtaggctgtc tggcttctgg11401 gcttgcctgc ccagggaggc tttgtgggtt ctacttggtc atccagatca cagaggggca11461 gcactgactc ctacccagtg ctcttgactg tacatctaat actttctact aagaaaaccc11521 cttctcttta gaccaatggt tttcaaatct tggtgtgcat tggaatcacc tggaaagctt11581 gttaaaacac agattgtccc accccaagag tttctgattc tgtaggctgg ggtggggacc11641 catgaaagtg catttctaat aaggtcccaa gtgatgctga tgccaccagt gtgtggacaa11701 ccctttgagt ggtgaagctc tggacaccct aatttgcaag gctaatcagg catatgtggc11761 aaatgaatac gaactgaaat tctgactcca atatcttcac tgatattcct aatccatagc11821 57321 1185 11881 ctgccactgc cttctctcca gttagctcaa accaggtaac acataaccgc ctcctaactc11941 atccgcccag ttggtttctt tggctttaat ctagacttct tatctccacc agatttgcct12001 taccaaagca ccaatttctt aaggcagggt tagaattaaa aatcttctgt tcctcctcat12061 tgcctaaaac tcctaaactt atgattcaag gtcttccatg accttcatgg accagtctaa121 cgttttagcc tgtcctaagt gacatgcctc caccacatac ttcatgcttt ccactttctt12181 tctccatgtc tttgttcatg catttccatt tcttctacct gcgatgtcct ccttcgccat12241 ctctgtagat ttaaaaatcc tacagggctc atctcaaatg ccctttcctt catgaagcct12301 8212356 123 gcgtttgtgg ctattatctt acgttgtttt gtattaaaat ttctccagct ttacacattt12421 gtcatcctct taaggacaaa catcttatta tggtcaatgt gaagctatag aggataattt 8681 aatgaaatat tccaagggct agtcattaca catgactgat ttatctctgt aaactcatcc12541 acactcatcc acctgatttt gattggccaa gttaatgaat cagagaggaa aagatggtaa12601 aaatataata aaaatctcct aggtagtctc acatcccaca gagccccagg taatgaaatg12661 aggccctgag ataatacttt atgaacaata aaactccggg ttctattgac agtgaagcaa12721 gacctgagag agaaggctaa attcccttgt gtctagctgc cacaatcttc tgagaataat12781 ggcctttctt cccgtctgcc ttctgaatca taggcaaatt tttctctttg gtgatcccta12841 atacagaaag gggaagtcaa ataaaatata tacaaggaga aggattctgg gagacagagt12901 ttcttgattc ccttctgcat gctcctcctc aaaagccttt atgagcttac cttacattta12961 aattctttta aacaaggcat tatgtggtct ggtcttttcc agctccacac accttcacac13021 13048 57381 1315 13141 gaagatatag atatatatta accactgcac accagaaatc agaaatagca caacagagaa13201 taaagtcatt gagccatctt ctgagctcca aaagacaaat tttctccaaa aagacaaatt13261 caggctctaa aacaatacct taaggaacca gaagtggaat agaaaattaa ggtggtaagc13321 agggctaaac cacatgcctg ttgagcccag gtttggaaga agacaatggc aggtaggaat13381 gtggtttctg atgggtaata ggtactgttt tcatttactt tctgttgctt ataacagaat13441 atctgaaact gggtgcttta taaagaaaag gaatttatgt cttgcagtta gggaaactga13501 gaagtcaaaa gttgagggct gcaattgaca agtgccttct tgctggtggg gatactctga13561 agagtcttga ggtggtatcg ggcataccac tctcagtgag gggactgagc atactaggtc aggtctttct tcctcctttt ataaagctat cagtcccact cttatgataa cccattaatc13681 cattaactga ttagccaatt aatccatgaa tggattaatt cattcatgag ggcagagcct13741 tcctgaccca aacacctctt aaagactcca cctctcaata ctgccacatg ggggattaaa13801 tttcagcatg agtttttgat gagacaaata ttccaatgat agcagttatt aaaagtacat13861 gcttgagaga aggggattgg agtcagcctc agtgcttaaa ctcaaaagct aggatgaggc13921 tctaacactc ctgaaagaag gagttgctgc tggctcctta ccagggctat atcttttaca13981 gagcaggaga cctaaagagg caggaggacc cggacatcgt ttggaaacca agcactaaaa14041 caggccatct gttatacccc caatatcctc tcaggacaag tgttttgaac cactcacaca14101 aggactagtc tgggcaagtg ggctagatga agaaaccaca aaatagctaa gtggggagag14161 aaagaccaaa aatactattt tattcaaaat gaaaatacaa tccaaaattc catgattcat14221 gaagaaatca aatggtatgt gttaggtggt tcttgcattg ctatagagaa atacctgaga14281 ttgggtaatt tataaagaaa agaagtttaa ttggctcata attctgcagg cttcacagga14341 agcatggtgc tggcatctgc tcagcttctg gagaggcccc aagaagattt gctcaaggca14401 gaaggttaag ggagagctgg cacatcacat ggtgagaaag gaagctagag agagagtgca14461 gggtgaggtg ccacaagtta ccacagccag atctcttgag aactcactta ctttcatgag14521 gacagcacca agccataagg tgtagggagc caaagtccca tgggacatga ccaactcagc14581 attccactgg aggctatatg atcaaacagc aaactgttta tcacgaatgc aggatgtgag14641 caaactcaca actggtcctg ccaacagaag gtttgttgga ggcaatcact ccctggtgcc14701 tgaggtaatc tactgcaaca tctagagaat gcagtcttgc aagcctactc tggacagggc14761 agctggcacc ttattccatc ccccttctca ctatcttttt ttgcctaata aatacagagg14821 gctgtgtaaa gctcagggcc cttgtccact agaggcaagt tgccccctga ccccttcttc14881 caaatatact cttttgtctc ttgtctttta ttctcacatt tgcccccttt gttcagttcc14941 actaggtccg tgcgggttat atactggtgc cctgagcagc aacagaatca ggctctcaac15001 aagtgtcatc cgaacatggg actttgagga catgaacgaa gaaggtctgc tggagcagag15061 gaacagaaat tgacaaggtg aacagggacc ctgggacgag tctgccagca gcggatataa15121 ggtcagttac ctaaagaggt actgatcagt gccctaaaga gatactggga gcagtgcttt 8681 aaagaagtac tgggaatggg aaattttctg aatcagggta acaaggggaa gaatttgtct15241 attaaagaaa aacattatgt gcagttgctt aaagttgtat tggaacagtc tggagcttag15301 gttaatttgc agacactaac tatcacatgc gtccgtgtga agagagtcca ccaacaggct ttgtgtgggc aataaagctt tttaatcacc ttggtgcagg tgggctgagt ccaaaaaagg15421 agtcagcaaa gggagataga ggtggggcag ttttatagga tttgggtagg tagtggaaag15481 ttacagttaa aagtggttat ctcttgtggg cagaggcagg ggtcacaagg tgctgggtgg15541 ggaaatcatg agactctttt tctgggacag gagtgtcaca aggtcaattg atcagttggg15601 gtggggcagg aacaaatcgc aatggtggaa tgtcatcact taaggcagga actgactatt15661 tcacttcttt tgtggttctt cagttgtttc gggccatctg gatgtatagt gcagctcaca15721 ggggatatga tggcttaggt tgggctcaga gacctgacat tcctatcttt ttatattaat15781 15841 atgtagagat aaggggcaat gtttctcagg gctgcttcaa gcacgatcac ggtggtgtgg15901 gaatctagag tgggagagat taagctgaag aaaaattttg gggaaagggg tgatattctg15961 gggttgttag aaggagcatt tgtcatatag aatgatgatg gcctggatgt ggttttgtat16021 gaattgagaa actaaacgga agacacaagg tccaaataag agaaggagaa aaacaggcat16081 taaaggatta agaattggga ggacacagga catccaatta gagagtgccc aagggggtcc16141 agtgtaatta tttgcctgga caatgagttt tggggctcta ttaggttgtc atataccagg16201 ccagattgat ttaggtaaaa acaacactct tcatttaaaa tatacagagt cctccttttt16261 tagcagtgag taagttgaga cctattcctg tcttcttata ttaataagta aaataaagca16321 aaatagaggt gaagtgttgg tgtcatgagg ggaacaggaa gcagttcggt cctatttgca16381 16441 acacatgtag atggaggagc cacagaggaa gaagagaact ttgtaaggca aaactggaaa16501 tgtaaaggga aaagatgaga gggagcacca aaagaggtgt cttgcaccca gactcaggga16561 tctagtgaga gcagcagctg ttagaggttg taatggggat taatggggct actgggtaga 1668621 16628 attgctattc ataggattgg gtataagtaa acaagaaggg ggggctagga ggagagtctg16741 aagaacaagg ggaaggtagc caaggatgga gtgaaatgta gggcaaatgt cttaaaggaa16801 atgagaggtt ctaagaggag ggctagtggc ttgtaaccca catggaagag gttacgaaag16861 gatgatagaa tggaatgagc ctgtgaggct ggaaggagga attttccttg gtccaagaac 169651 1691 catttgcctt gtgtgggaag agtttgatag gtggaagttt cagtgggagg gtaggcggga16981 gtgactgatg agaaggagaa aaactggcca taagggacag aagttggaat gctagctgct17041 cctttagcta ccttatcagc ataagctttg ccctgagtga tgggatctga tgccttttga17101 tggcgcttgc agtgaatgac cctagcttcc ttggaagtag agcagcttta agaagagttt17161 ttatgaagaa ggcattaata atggaggacc ctcgtatagt gaggaaacct ctttcaggcc17221 atataacaga atggaggtgg agaatatgga aggcatattt agagtcagta taaatactga17281 cacacaatcc ttttgcaaga gtgagggctc gagttaaggc aatgagttcg gcttgctgag17341 agggagtgga gtggggcaga gtggtagcct caatgataga tgtgaaagat actatagcgt17401 agcctgcctt tgctggtgag tggtgattag gcctagtgga actgccatca ataaaccaag17461 5817521 5817524 175 gattgaagtc caggccagga acaatggtaa ttgtgggaga ctcaacaaag agtgagttca17641 actgaaggag ccgggggagg gggagagcgg cagaaagtat atgcatcagg tgtgaggaag17 aaaatacatt ttgaaagtta tgagaactgt agagagtgag ttgatcatag tttgtgattt17761 tgagggcctt taaaagtatt aaagcagtgg cagctgccac acacagacat gagagccagc17821 ctaaaacagt aaggtcaatc tgtttagaca gaaaggctgc agggcactgt ccaagctctt17881 gtgtaaggat tctgaccgca cagccttgta ctttggctgt gtgtaatgaa aagggttggg17941 atgagttagg gagagctagt gtgggagtag cttctagggc tgtttttaag gaacataaag18001 aggagtgggg aaaggattta ggatctatgg ggtcagctag gtttcctttt gtgagtttat gtaatggttt agtcaggatg gcaaaaccag gtatccaaag gtgaaagtac ccaaccatgt18121 18181 cacagatcag gagggagagc acttgtattt ttatgaagaa ttatgccgat aggtaacgga18241 tgaggaagaa atttgggctt tggaggggga tacacgatat tcccttgaga atagatgttg18301 gaggagcagg agggtgtcct gttgggaaga ttcataggag gggctataaa gtagaaggcc18361 atcaaaatat tgaataaggt gacaagcaga tggacagaaa agtaaattat gagaaagggc18421 ttgactgaag taatggaggc tgtccctgaa gccttgtggc agtacagccc aggtaagttg18481 ctgagactga tgggtgtcag ggtcagtcca agtgtaagtg aagagaggct ggggtgaaga18541 gtgcaaagga atagtaaaga aagcatcttc aagatccaga acagaataat gggttgtgga18601 gggaggtatt gaggatagga gagtatatgg gtttggcacc acagagtgga taggcaagac18661 aatttggttg ataagctgaa gatcctggac aggctttagt cccttcaaag cctgttgtgg18721 gatgggatac tggcattgag caggataagg gtaattaggt tttaatggga tggtagggtt18781 gcgtgatcgg tcaccaagga gggagtagag gtatcccata cttgtgggtt aagataggga18841 gtcaggaggg gaggttgtga aggaggcttt gaactgggga aaagggtggc aatgaggtgt18901 ggctgtagcc caggaatagt cagggaagca gataatttag ttaaaatgtc tcaatttaat18961 19021 tggcaccaga gttggggagt tttaagaggt ttagcagcct gaccatcaat aaccacaaca19081 gttatggagg caagggaaac aggcccttga aaggaaagta atatggagtg ggtagcctcc19141 atattgatta agaaagggac agacttaccc tccactgtaa gagttaccca aagtgtctgt192 gatgatccag gaggcttctg aggtgatcag gcagtgtcag tcttcagctg ctaagctgag 19268661 1932 19321 ggctgacggg caagttggac agtccgattt ccaatgcggt cccacacaga tgggatacag19381 tttaggagga atcctgggct gtaggcattc cttggcccag tggccagatt tctagcactt19441 gaagcaagat cctggaggaa tgcctgacca cagtggttta ggtgttttga agttcttgtg19501 tgctggagat gtggctgagg tttttctcac agcagaggca agtaattgca actcagaaat195 acattgccac ttggctgtct cttctctatt attgtacacc ttgaaggtga ggttaattaa19621 gtcctgttgt ggggtttgag ggccataatc taatttttga agctttttta atgttgggag196 tggattgggt aataaaatgc atattgagag taagacagcc ttctggcccc tctgaaccta19741 gggcagtaaa atgtctaaga gttgttgcca aagggaccat ggactgggct gcgttttcat19801 atttgatgaa aaaaaaagag cctaaatgct aactaatttg ggagaggtca gataaagtaa19861 aaggaacatt aatcttgact atgccttcag ctcttgccac ctctctaaga ggaaattgtt19921 gggcaagtgg aggagtgcta gtcgtggaat gaaaccataa gctggactgg gtgtgaggag19981 20041 gctcagcctg gtgaggagtg gcctggtgag gagcagcctg gggaggagga gagaggttag20101 atgggttcgt agaaaagaag gattcaaagg actcggagct tggtgaggag actgaaggaa 461 cagacaggag agaaagaaga aagatttggg acaagtcgca ttgggagcag agactaggaa20221 gggagtgatg tgtaaagaat gcctggacat caggcacctc agaccatttg cccattttat20281 gacaaaaatt atctaagtct tgtagggtgg agaaatcaaa agtgccattt tctggccatt20341 tggaacaatt atcgagtttg tattggggcc aaatggtgtt gcagaagaaa ataagatgct20401 taggttttag gtcaggtgag agttgaagag gttttaggtt ttttagaaca caggctaagg20461 cagaagaagg aggaatggag ggtggaaggc tgcccataat aaaaaggtaa gtttagagaa20521 aagagaggat agagacacag agagaggggg tggtggtact catcagccag gggaggtggt 6381 acttgccacc aaggtgatgg atcaaggcag tcatccccac ggtgatcaga cacctctgaa20641 atgtgggtga ataatcaggc aggtgtccct gcagtgatta gacaccaagg ggagactgtc20701 ttcccgagtc cgtgaccggt gctggagttt tgagttcaca gataaaacac atctcctctg20761 tctctaccag aaagggaaag gaactgaaat taaggaaggg agagattgaa gggtggagag20821 atagcaagag agttggaaaa gagaataaaa agaggccact tactcaattt aaaattggtg20881 agatgttcct tgggctgatc tgaggaccca aggttgtagg tggatctcct cacggaatga 8620941 gggtgaggac aggggactgg tctccagaag gagttcccga gtcctggatc ttcagcacca21001 aatgtcatgt gcatccatgt gaagagagtc caccaacagg ctttgtgtta tcaataaagc tttttaatca ccttggtgca ggtgggctga gtctgaaaaa ggagtcagca aagagagata21121 ggggtgggtc agttttataa gatttgggta ggtagtggaa agttacagtt agaggtggtt21181 atctcttgag ggcagaggtg ggggtcacaa ggtgctgggt ggggaaatcc tgagacttat21241 catccaggga aggagtgtca caaggtcgat tgatcagttg gggtggggca ggaacaaatc21301 gcatggtgga atgtcatcag ttaaggcagg aactcactat ttcacttctt ttgtggttct21361 tcagtttctt caggccatct ggatgtacac gtgaaggtta cggggatata tgatggctta21421 gcttgggctc agaggcctga cactaacctc ctgcagaagc cacaaaaggt tattacacat21481 aaaccatggt ttccacaggc aggcactctt gatgtggaaa attgggatag agcaggatta21541 aaacaagctc atcaaaaagg tcttaaagtt gattcttcag ttttctccac ttggagttta21601 gttcatactg tacttctgcc attatctcct tattattctg cggaacagca ggctgaatct21661 aaaaattgga aagaatttgt tgtcctactc acagctccaa ttgaatataa aaaacaggag21721 agggaggata aaaattggcc tataccgcct cctccagatg cagaaacatc tgtaccatct21781 ccttcagtgg cagaaataga gatcccagta caaagaattt tatgctctgc tgtcatagct21841 ggagagccct taggaccttg tgcttttcct atttctgtaa ggcctgatcc aaataatcca21901 cagcagttta ttcatgaaca ctctccacta gaatttaagt tgttgaagga attaaaaact21961 agtgtggtca ataatggagt acaaagccaa tggttcctgg aggaaggaat gctagacata22021 22028 ccagtaaaat cttttatgtt aggggctttg agtagagcag ccctggttgt tacacacaaa22141 2222 22201 agtgccaata tcactgggcc aaaataacaa agaggaaatg gaggtcttac ctaagcttcc22261 tcctccaata gataggaaga aggacagagg atacgctaca gctatcagtc cctgtcttaa22321 gcaggcagca ttagaaggag agctcttagc cgggtgcagt ggctcatgcc tataatccca 8681 gcactttggg aggccgaggc aggcagatca tgaggtcagg agatccagac catcctagct 2247 22501 cacctgtagc cccagctact tgggaggctg aggcaggaga atggcatgaa cccaggaggt22561 ggagcttgga gctttcagtg acctgagatt gcaccactgc actacagcct gggcaacaga22621 gcaagactcc atctaaaaaa agaagaagaa ggagagctct taacctgctc agtaatgcaa22681 aatcggcaag gcaatcaggt gtatgtttat aaaaagataa gaaaaaggca ttagaagcca22741 aaaccacgtg gccaagcagg cagtgggcag gagaaaatgc tcagaggcag aaaagctcac22801 agcgacaaag ccaacaaggt ctgcccagga cggcagcatc cctctggcaa aggagcaagg22861 gagcagcaca gacacaggca aagcctaaac aagtacaatg tggccacctc ccaggacctg22921 caccactgcc ctctggctct gtgggcagcc cattgcaaaa tttcatgtgt tacatctcag22981 gctatgattc tctgctaaga tgtaagtaaa atgtaagaat ttgaaaagca tcttttctaa23041 taatggccac tattgtcatc tctctcctat ccctgatgta gctttccaaa ttcaatttaa23101 gtaaaacagt aacctttgaa gggaaagaga ttacagaggg cccatgaatt agttgaagag23161 taattaaaag ctaggcatgt aaaaccacac attacgcttt aaagaagaaa tttaaaccta23221 attaaatgat atttgttaaa ttagaaggta aaaatgttgt gccctgttgg gaacaggccc23281 ccaaatctgg ccataaactg gccccaaaac aggccataaa caaaatctct gcagcaccat233 gacatgtttg tgatggccat gatgcccacc ttgaaggttg ttggtttact ggaatgaggg23401 caaggaacac ctggcccacc cagggcagaa aattccttaa aggcattccc aaaccactaa23461 234 tgatagcatg agcaatctgt gccttaagga catgttcctgctgcagacag ctagccagag23521 cccatccctt tgttttggcc catccctttg tttcccataa ggaatgcttt cagttaatct23581 atgatctata gaaacgatgc ttatcactgg cttgctgtca ataaatatgg gagtaaaact23 ctgttcaggg ctttcagctc agaaagccat aagccccctg atttcccact tcccaccctt23701 tatttctgtg tgtgtgtctt gaattcctct agcgcctctg ggttatggtc tccacaacca23761 cgctggtctt ggcagtgccc ttctcagaaa gtgaaaaaga gttgtatgta agtgtagtga23821 aaacataagc atgaatcact gtcttaaccc actgattaga tagtctttga tttgtacttg23881 ctaaaagagt cctaaattga gttcctcagc tagtgagtca ctgttttcaa gactgtttgc23941 cagattgaag tccataaact tggtcagccc gaaaactcaa ttacaagatc taagctattc24001 tgcctgtggc tttaagcaca tggttaaagt atattattta agtctctcct tctagatatg24061 ctttcagatt ttctttttaa acttcttgtt acttatttca gctttccata ttgataatta24121 atgcagtcaa ttgctcagtt atgactgtga tatcatcagg attcctttaa gtaaaaggca24181 24227 24241 tggtaaacat ggaaaagctg cagtctagta gagaccacat aattcaatca ctcgatctga24301 gttcactagc actcagagag ctaaggttac tctgtttatt tattaaagaa tttttacaac24361 cttaagctca ctctggactt tccagcctta tgtggcaaat gtagccatca atttatgggg24421 tcaagactta cttacagcat gggatatgag gcttacaaat gagactttga taacccagga24481 ttttaaatgt tgaagaacac gggatatcag agtgaaaaag gtttagggaa aattctgaca 2456245641 agggaaaatt ctaacctgat atcaataact ggaaagacag gttaaaccct gcaaggggat24601 acattgacat tttttcttcc tcacttgctc ttttctgctg tctgaatatg ggcatgaggg24661 caagagtcat tttagaccac caagtgacct tgaggataga agccttatac tagaggtggt24721 24 gggaaagaaa aaacagaagg actcataaag aaaaaaataa taaacctcag tattaagatg24781 gaaaaattcc cccaattggt ctataggttg aacttcatct ctattaaatt tcagctatgt24841 ttttgcagaa tttgatatgc tgatcataaa atttatatga aaatgcaaga gacacagaat24901 agtcaaaact ttgaaaagaa gaaagttgga ggacttacac ttgttgattt taaggctttt24961 tacaaagcta taataatcaa gacaatgtgt tactgacata atgatagaca tattgatcaa25021 tatagacaat ggatgaatgg agtagaattg acagtctaga aataaaacct tatatatatg250 gtcaatttat ttctttatgt attctgtcat ccagaataca taaagaacac cttcaactca25141 ataacaacaa taccaacaag ggtgccaaga ccaatcaatg gaggaaataa tagtcttttc25201 aagaaatttt gctgagacaa ctaagtattt atatgcaaaa taatgagttt gaatggctac25261 catatacaaa aattaactca aatggactat attaggtcag tgcaacagta attgcagttt25321 accaccatta cttgtttttt ttttttggtt tttttttttg agacagagtc ttgctctgtc25381 acccagacca gagtgcagtg gcatgatctc agctcactgc aagctccact tcctgagttc25 acgccattct ccttcctcag cctcctgagt agctgggact acaggcatct gggtaatttt25501 tttgtatttt tagtggagat ggagtttcac catgttagcc aggatggtct caatctcttg25561 acctcgtgat ctgcccacct cagcctccca aagtgctggg attacaggca tgagccacca25621 cgcctggcct accattactt ttaatggcaa aaatgcagtt acttttgcac caccctaata25681 gaactaaatg taagagctaa aactacaaaa ctgttagaag aaagcatagg agcaaatctt25741 aatgacatga gagttggcaa ttgtttttta gatatgacac caaaagcatc aaggacaaaa25801 gaaaaaaatg gataaattgg acttcctcca aattaagaga acttttgtcc tgcaagcaat25861 actattaaga aagtgaaaag acaagtcaca aaatgggaga acatttttgc acataatata25921 tttaataata ggctgacatc cagaatacat aaatacctac aactcaatac caaaaagaca25981 gcccaattta aaaatgggcc aaggatatga ataaacattt ctctaaagaa gatacaaaaa tggtcaatat gcacatgaaa agatgctcaa tatcaatatc tattaggaaa atacaaatta26101 aaacacaaaa tataaaacac aagatatcaa tttacactca ccaggatggc tgttatcaaa 4661 aagacagata acaagtattg gcaaggattt ggggaaattg taaccttcat acattgctgg26221 taggaatata aaatttgcag caggtttgga aaacagttta gcagtttctc aaaaagcctg25281 ggcatggtgg ctcatgccta caatcccagt gctttaggga gctgaggtga gaggattgct26341 tgagcccagg agttggagac cagcctgagt aacacagtga gacctctttt ctaccaaaaa26401 2624 26461 aagaaagttg aaaacatata ctgacacaaa aacttacata tgaatcttca tattagcctt26521 ataataatag ccaaaaagta gaaacaaccc aaatacccat caactaatta aaatatggtg26 tatctataca tattatttgg ccataaaagg aagtactgat acatgtcata acacaaatga26641 accttggaag cactatgatc tctgtattag tcagctcttg tattgctata aagaactacc26701 6862 26761 agggatcatg gcccaggaga cctcaggaaa cacagttatg atggaaggaa gagagtgaag gaggaggtgc tacatacttt taaaccacca gatcttgtga gaagtcactc actatcatga26881 gaacagcaag ggagaagtcc acccccatga tccagtcagc cccagccagg ccccaactcc26941 941 aatattgggg attacaattc cacatgagat ttgggtgggg acactaatcc aaacaatatc27001 attctgcccc agcccctccc aaatcctgtg tccttctcac attggaagat acaatcatcc27061 cttctcaaca gtttcatttc agtattaact caaaaatcca aagtctcatc tgagacaaga27121 caagtccctt ccacctatga gcctataaga tcaaaaagaa gttagttact tccaagatac27181 aatggaggta caggcattgg gcaaatatat ccattccaaa agggaaaaat tagccaaaac27241 aaaggggcca caggccccac gcaagtccaa aatcaagcag ggaaatcatt aaatcttaaa27301 gcttcaaaat gatatccttt gactccatgt ctcacatcca ggccacacca atgcaaggag27361 tgtgctccca aggccttggg cagctctacc ctgttgctct acagggtata gcccccatgg27421 ctgctttcac aggctggcat tgagtgcctc cagcttttcc aggtacacag tgcaagctgt27481 tagtggatct accattctag ggtctggaag attgtggccc tcttctcata gctccagtag27541 acagtgcccc agtggggaat ctgtatgggg gctgcaaccc cacatttctc ctctgcactg27601 cccaatagag gttctccatg agggctccat tcctgtagca tacttctacc tggacatcca27661 ggtgttttca tacatcctct aaaatctagg taggggctcc caagccttaa ctcttgccct27721 ctgcacatcc gcaggcttaa taccacatgg aaaccaccaa tgcttatggc ttgcacccta27781 tgaagcagta gtctgagaca tatctgggcc cttttggcca tggctgggat gcagggaaca27841 gtgtcctgaa gtggcacagg gcagcggggc catgggcctg gcccatgaaa ccttctttcc27901 tcctaggcct ccagacctgt gatgggaggg tctgcctcga cggtctctag aatgtgtttg27961 aggcatattc ctcattgtct tggctattaa tatttggctc ctctttactt atgcaaattt28021 ctacagcctg attaattcct ttccaaaaaa atggggtttt cttttctact acatggtcag28081 gtcacaaatt ttccaaactt ttacgcttcc ctttgaaatg taagttccag ttgcaggtca28141 tttctttgat cacaaatata agcatatatt tgtagaatca gccaggccac atcttgaatg28201 ttttgctgct tagaaactgc ttccaccaga taccctaaat cattgctatc aggttcaaaa28261 ttctacatat ctctagggca agggcacaat gcctccaaga cctttgctaa tgcataagaa28321 aattgacctt tgctccagtt cccaataagt tccccatctt catctgaggt ctccttagcc28381 tggacttcat tgtccatatc agtatcagca ttttcatcac aataatttaa ctagtctcta28441 agaagttcca aactttccct tatcttccta tcttcttctg agccctccaa actgctccaa28501 cctctgccca ttacccgggt tccaaagctg cttccacatt ttcggtatct ttatagcaat28561 2827 28621 cctgagactg ggtaatttat aaagaaaaga ggtttaattg actcacagtt ccacaagctg28681 tataggaagc atggttcaga aggccacagg aaacttacaa tcatggagga aggcgaagag28741 aaagaaggca cgtcttacgt ggctggagta ggaggaagag agtgaagggg gaggtgttac28801 acacttttaa acaaccagat cttgtgagaa ctcactcact atcatgagaa cagcaaggga28861 gaggtctgcc tccatgatcc aatcacctcc taccaggctc ctcctccaac attggggatt28921 atgatttgac atgagatttg ggtagggaca caactccaaa ccatatcaat cccatttata28981 tgaaatgtcc acaatagata aatctataga gacataaaat agattggtgc ttgcctagtg29041 ctggacgtga caggagggtg tgagtaaaag aggcaatgga gtgataggta cagggtttct29101 ttttggggtg atgaaaatat tataaaatta gattgtggtt atagttgtat aactcttgaa29161 tatcctaaaa atatattgaa ttttccattt ccattttaaa tgggtgaatc ttatggtatg29221 tgaattatat ctcaataaaa ctgcaaaaaa tgcacaattt gcaattgcaa aaatatggaa29281 ccagtccaaa tgcccatcaa tgagtggata aaggaactgt ggtatatata tatatatata29341 tactactcag ccataaaagg gaataaaaca atggcattct cagcaacctg gatggaattg29461 gagaccatta ttctaagtga aataactcag taatggaaaa ccgaatatca tacattctca29521 ctcataagtg ggagctaagc tatgaggatg caaaggcata agaatgatat aatggacttt29 gggaactcag ggaaagggtg agagaggggt gaggaataaa aggctaccca ttgggtacag29641 tgtacactgt tcaagtgatg gctgcaccaa aatctcagaa atcaccacta aagaacttat29701 actgctgaaa tcaatagtga aaggatggac tattcaataa tgacacagtt aattgaatat29821 catattttaa aaattagatc cttacctcac actataacat aacaataaat tccaggtgaa29881 ttatagacca aatatgaaaa gcaaaatttt aatattttag aagacaattt ttatgacctt29941 aagttagaaa atgattttta aaaacaggat gcaaaaacac taatcataaa gagatatttt30001 aggccaagca tggtggctca cacctgtaat cctagtactt tgggaagctg aggcaggtgg30061 atcacttgag gtcaggagtt caagacaagc ctggccaata gggtgaaaca tgtctctact30121 aaaaatacaa aaattagctg gaaatcgctc gaacccagga ggcagaggtt gcagtgagct30181 gagattgtgc cactgcactc cagcctgggt gacagagaga gactccacct caaaaaaata30241 aataaataaa aataaagaga gattttaata aggtgcatta aaataaaaaa ctatccatca30301 aagacaccat gaataaagtt aaaataggcc acaatgagaa tatatttgcc atgaattttt30361 tctttttttt tgagatggag tcttgctctg tcacccaggc tggagtgcag tggtgcaatc30421 tcggcttact gcaaacttca cctcccaggt tcaagcaatt ctcctgcctc agcctcctga30481 gtagctggga ttacaggtgt gtgccaccat gcctggctaa tttttgtatt ttttgtagac30541 acggggtttc accatgttgg tcaggctgag ctcaaacccc tgacctcgtg atccaccttc30601 ctcagcctcc caaagtgctg ggattacagg catgagccac cgtgcctggc ctaccatgaa30661 5961 30 tattttttta aaggtagcat ccagaattaa taatcttctc caacaaattt cattagtagt30 cagggaactg caaattaaaa tcaaagtaaa atactacttt ccactcatta gactaaaatc30781 cattcaagtc tgataatacc tagtactgag ttggagtaat agaaactgct aatgggacag30 ttagttggtc atcactttgg agagaaatta gtcagtatct agtaaaagtt agtgatacac30901 cttccatttt catctgttct gtgctgctac caaagaatac ctgagactag gtaatttata30961 aataatagaa atgtatttct aatggttcta gaggctgaga agtccaagat tgaagggcca31021 gcctctgcag agagccttct tgctgtgtca tgccatggca gaagggcaaa gagagggcaa31081 gagagagcaa aagcaaattc acagcatcaa tcccttttat aatcagcatt actctattaa31141 31231201 31258 312 accctatagc ccaacatttc tactcctagg agtatgccct agagaaattc tgcataaata31321 tctaaagaga ggccattgtt gcattgttag gtactggaaa attggaatca attactatgt31381 ctaccagcag cagaagatgg ctttttaaaa gttttggttt attcatgaaa tggaatattg31441 cataaagtat gctccatctc accagatgaa aacatttttc actaggacta tttcaaaagt31501 agtcttatca ctgggcttct ctattatgca taaaaatttt aagtgaacat gttctttgac31561 ctagtactcc tacttttagg aatttgccca aaagggacaa ttatactact gggataaatc31621 tttgaatcat aaagtaagtt gtaaatggta caagcagtat gtcttatttt tatttaaagc31681 acattaacaa tattacacat atagtaaaaa ataaataaat aaaacatgtg aataataaac31741 acccaattta gaacaagtgt tgacagtgga gagggaaaga gagagaaaga aggagaaatg31801 gggagtggga gcgggtacac aaggaaattt tagttgcagc tccaaatttt tactttttac31861 acaatgaagc gaatatggca aaataagatt tgttaaagtt gggcagcagg tacacagata31921 ttctatcatt atcctttgaa tatttctgta gatttaagtt gtccattaaa aaaataaaat31981 acacacataa tttttaagat tagttttttc tatttcctgg ccttcgcatg cactgttaac32041 tttacctgga attctttatg cagtaattaa gagcaaaggt gtagagcaag actgcttgag32101 cttggatccc agcactgagt tgatttaggg agaataactt aatctcttaa tcccaagaga32161 aaatatgata taatagtttt gagctcataa agttttcata agcattaaat gtgacctata32221 tatgtaaagc aatctaacag tgcctatagt atttataagt gtctgcatta ccaaattcat322 cattatcatg gcatgtcatg tcaccatcca ctacattacc atcactgtca ccatcatcat32341 catcaccacc accatcatca ttaactccct ttgtctagtc aattcatatt tgttcttcgt32401 attttagata cctgttaaaa tattttttca aagatgtcta ctctgattct tcagtacaaa32461 tttgatttaa taagatccta tcattttgtc caaatactta taaaaatttg tagttctata32521 tttaatgtgt tttgtttgtt taacatctct ctcctacatt gtgttaagtt ttttaaagag32581 aaggtaaggg ttaaagagag acatagagag agaaagagag acagagagag agagagagcg32641 gttctacagc aatacaggta tattagaaaa acctgcaaag gtggggacca gcttaatgcc32701 agagcccccc actgcttata ggctggggta cttataggtc tgggggtact tataggcctg32761 ggtgggtggg gtctgagcag tatggcttgc tgcccaagaa gatgttgata agacgttccc32821 atgatgaggc agtttggtcc ttgcttccat agagtgtgat gcttcttgca ctttttccca32881 gcagaatgtg gtagggatgt tccttcaggt gggcctttgc ctggcagggt atgataagga32941 tgttcctgtg ccttggaatc aggtagttag acaggatgtt tctcacagcc tgaaccccca33001 tggaatgttt cactttgacc agggtctgcg aaatagcagg gggcttacaa aatggtgtag33061 tttggactaa caccttggaa cacaaaagtt tcttggggcc aaggctggcg tattagtctg33121 ttttcatgct gctagtaaag acatacctga gactgggtaa tttataaaga gaaaagaggt33181 ttaatggact cacaattcca catggctgga ggcctcacaa tcatgaggga ggcaaaggag33241 gagcaaaggc acgtcttaca tggtggtagg caagagaacg tgtgcagggg aactgccctt33301 tataaaacca tcagatcttg tgatacttat tcactatcaa aagaacagca cgggaaaaat33361 ctgcctccat gattcaatta cctcccacca gattcctccc atgacatgtg gtaattatgg33421 gaactacaat tcaagatgaa atttgggtgg ggacacagtc aaaccatatc agctgggtat33481 gttttattca cctttttata cccattgtca tgtcttctgg acaaacaatg gatgtaaaat33541 ggtatagact cctgagtact catttgttga atgacaaatc tatgaaccat ttgaccagta33601 tgcagcagcc attaaaatta tgtttatgaa taatttacag catggaaaaa tttggggttg33661 ctagtagaaa aacaaaaagg tacaaaagga tatatataat aagcctacaa tgccatataa33 acaatactaa cagcaaaaac aaacctataa attgggggaa gatggggcag atagaagtaa33781 cctaaaatac taacatgttg ttttggggtc atgaaattat aaatgattat gcacccctta33841 atttttactt tctatgtttg atttttctat ggtaaatgca tttttattga ggtggaattc 3386901 acataacatg aaatgaaaaa tttagtggca tttattatat tcacaatatt gtacaaccac33961 34021 3407 34081 gggatttatt tattctggat attccataaa aatggaggca caatatgtac cttttatgtc34141 tggcttcttt caccaagcat gtttttgagg ctaatccaca ttgcagcatg tatcagtact34201 tcatttcttt ttatgaataa ctgtatacag accacaattt gttatccatt ttttggttta34261 tggacatttg ggttgtttcc atctctcaac tattgtgaat agtgctgcta tgtatatttg34321 tgtacaagaa tttggttacc tattttcaat tcttttatgt atatatctaa gatgaaattg34381 cagggttata tgctaatcct atgtttagca ttttttttta ggaaccatta aactgttttc34441 caaatctgat gccccatttt atattcctac tagcaatgta agcaagttcc aatttctcca34501 tatcctcaac aacacttgtt attttctatt tttgttatag ccattctaat gagtgtaaag34561 tgatatatca ttgtggtttt ctttgcattt tccttatgaa cattgatgtt gagtaccttt34621 tcatgtactt tttggtcatt tatatatcat ctttggagaa atgcctcttc gtgtatgttt34681 tgcccatttt aaaactagat tgtctttgtt gttgacatgc atgcattctt taaatattct34741 gcatactagg cccttatcag atatatgatt tgcaaatgtt ttttctcatt ttactggctg34801 tcttttcact ttattgataa tgtcctttga tgcccaaaag ttgtttattt tgatgaagca34861 tatttatcaa tttatttctt ttattgctca tgcttttgat gtcacctcta agaatttata34921 accaaatcag aggtaatgaa ggtttacccc tctattttct tctaagagtt ttatagtttt34981 gactcattta cttaggtcgc tgattcattt ttagttaatt tttgcatatg atgtgaggaa35041 35026 35041 gaggtccaac tttactcatt tgcatgtgga tattcagctg tgccagcacc atttgtgaag35101 agtctatcat ctcctcattt aataatagta ttgacacctt tgttgaaagt caattgataa35161 35 35161 taaatgtatg agtttatttc tggaatctaa attctattcc attgatctac atgtctatcc35221 35281 35221 ttgtatcagt atcacactat cttgattact gtagatttgt agtaagtttt gaaactagaa35281 agtgtgagta ctgcaatatt cttctttttc ttttttaaag attgtcaggg cctcttgcaa35341 tttaataggg atatgaggat tgacttttct attctacaaa attaaaattt tgttagagat35401 35 35401 tgcattgaca ctgtaggtag ctttcagtaa cattgccatc tcaacaattt taagtattct35461 aatacatgaa tatgagcttt ctttctcttt atttaggtct tctttaattt ctttcagcag35521 35 35521 tgttttgtag ttttggggta caagtctttc acctttaaat tttggtgaaa tttattccta35581 35 35581 ggtattgcat ttttttatgc tattgtaaat aaaattattt tctcaatttc ctgttggatg35641 ttcattgcag gtgtatagaa actcaactga ttctttgtgt tgatcttatg ctgagaccag35701 35761 tatagaggtg taaagtggga aatcaggcgt ctcacagcct tcagagctga gagcttcaaa35821 cagagattta cccacatatt tattaacagc aagccagtca ttagcattgt ttctatagat35881 attagattaa ctaaaagtat cccttatggg aaacgaaggg aagggctgaa ataaagggat35941 gggttgggct agttatctgc agcaggagca tgtccttaag tcatagatca ctcatgctat36001 tgtttgtggt ttaagaatgc ctttaagcgg ttttctgccc tgtgtgggac aggtgttcct36061 tgccctcatt ccggtaagcc cacaaccttc cagcgtgggc attatggcca tcatgaacat36121 gtcacggtgc tgcagcggtt tttatggcca gttttggggc cagtttatgg ccagattttg36 gggggcctgt tcccaacaat cttatacctt gcaattttgc tgaatttgct tgttaacttt36241 gatagttttt ttgaggatta tttgggattt tctacatatc atgtcatctg tgaataaaga36301 tagttttgct tctttctttc tcatttggat gccttttatt tccttttctt gcctaatttc36361 cctggctaga acttccagta tgatgttgaa taaccatggt gaaatgggca ttcttgtctt 59 tttcctgatg ttagagagaa atttttcagt ctttaaccat tgagtataat gttagctgtg36481 ggttttttac aaatatcttt tatcatgttg aggaagttcc ttcctactcc tacttcttgg36541 agtgtttttg atataaaggg tatttaattt gtcaaatgct ttttctgtgt cagttgagat36601 tatcatgtga gatttttttt ccttcattct attagtgttg atgttacatt ggttgatttt36661 ttatgttgta ctacatttgc attctttata taaatttcac ttggtcatgg tgtataaccc36721 ttttaatatg ccattggatt tagtttgcta gtattttgtt tagagttttt gcatctatat36781 tcataagcaa tatcagtcca caggtttttt gtggtttatt tgtctggctt tgctataatg36841 gtaatgctgt cttcttagaa tgaatgaggg agtgttttct cctctttcat tttttaaacg369 tttgagaagg agtgatatta atttttcttt aaatgtttgg tagaacttac cagtgaagcc gtctggttct taacattttt ctgtgttggg aggtttctga ttaccaattt gatctcttta37021 atttttacag atcttttcag attttctatt tcttcttgag taacttttta gcaatttatg37081 tattttagaa atttgttcat ttaatctagg ttatttaatt tattggtgtg cattttttca37141 tagtattatc ttataatctt ttaatttttg taaagttgat aatgtcccca ccttacctga37201 tcttagttat ttgtgtcttc tctgtattct ttttgtcttc ttcttctgtc ttagcatagc37261 taaaggtttg tcaactttgt tgatctttta aagagtcaac ttttgctttc agcatgcatt37321 actttttaaa tagaaatata tacacctaag ttgcattaca aaggagttgt cctccacaca37381 cttattcttt cccaccatca gaggtttatg gtccccgcaa aagtcaccat cagttgggct37441 caactccaat cagtcatggt aggtcagggt ccatctcatt gtctccatca ctcatgccca37501 cccagggtaa gtctaatcat gttcaccaat cagaacctct gccacatcag ctctgtgggt37561 ttcctctcat gccatctgta ccaacaatga gcacagtctg ggtttcctga tgttttctat37621 agcatggtgc ccctccctgg gacacctcag aagccacaat gatattcatt aaacttcttc37681 ctgcaagtac tccctctatt gctccttcta ctcaccaagc ttagtgtcag ggaatatgct37741 37 37741 ggtggggagt atgaatctta gcttctcact cccagactcg gctcccaacc tgctgttgcc37801 aagtcttggg gacatctata aatgccttct aaatacctgt cttggcctat ccccagccac37861 agattcctcc ctagagcagg ctacctctga ggcatctata ctgagatctt aatcacagag37921 acatttaaaa catctaggct acaaaagaat tcctactata gggttcaaat gaatttcttt37981 ccgtcacttg agacagcttt ttagcaagta catgtattaa agattctgat ttcccctttt38041 ttctcctaca gtttgtttgg cctaaaggta tgacatctaa tctgctgcat ttacactcta38101 agtcaaaatt accattttgt tcttttaatt tctatttcta atcatacatt cttgtctact38161 cctggttcat ctggagacaa agttgaactt agaagatgga ggagaaattc ttatctgccc38221 tctgctagtt gacacttcct ttccaagaat catttgcagt tgctgggctt tcttgctgtg38281 actctatgcc ctgttgtgtt actttttcat ttgtgacaaa aacagtggta atagtttgct38341 tcatttttat tatgaagact tgaccaggat aggtaggaac ataattactg ctttttctgt38401 38 38401 gggcatcata ttggtccaga tcatgtttaa ccagaattga agatgtaaaa tcctagaact38461 cactaatcta ttttagtagg tcacaggaag catgcaaacc ataaaaaccg caatgaacca38521 aaagcatctg tgttgacaag aggcaagaat ttctctattt tctaaaggca ctaactgaac38581 aaatctattg cccattactt aggaaattgc taagggcatc gttaaagtac ttcaggctgt38641 tgaaaaacct tttctgtctt cttgccccac caccaattct ctctagctat gctttctctc38701 acatgttctt gccatccatg gagtggcaga gaggttctga gtacaactct aactttcagt38761 ttcaatggcc taatccccaa ctcaactgct gaccttgagt gtaaaaataa acaagatctt38821 39821 38881 tcatatcatt ggcttgcaga aaaattgagc ttctcctctt ccttgcccca tgtcaccttg38941 aggtgaccac agccctgcct tctatgtaat cctgcttggt cagcaggcac atcagagctc39001 agtggcttgt gacatacttt ccttcaagcc tgctcgaagg gccatactca tcattgagac39061 tgggaacctt agaaaccatg aacccagtgc caatgggtag atacagaatt ctcaaactca39121 tgaaaaaaca tcctttttaa ctctctccgt gtgcataaag aattctaaga tgtactgatc39181 aagattccca attttctaac tatctattaa tatatggacg aggtaagaag aaagttgcaa39241 gaaaaaaatt tgtttgactt gacggttgtg tggttatttg ccacactccc ccagatccac39301 tctgagtccc aggatgctga ttttaggggc tacattgcct agactgtcca ttattccctc39361 ttcccatctg gttcagtcac tgggaagcac tggtaggagg tcagagtggg agaaggaggt39421 taggatactt tctgcccctg ctgtcctact gctttgctga acttctagca gtggctgagc39481 catcaacctg cagctctcaa ttccagctgt ctgtagcact caagtggtat tgtttattct39541 82601 cttggaatgg acccctgtaa caaaagacag attaacacga gaaaagttta ttaacgtaca39661 tattttatac gtacatagga gctatccagg gaatgaataa ttcttaaaaa ggtgactttg 39393973 39393939393939393977 3979 39901 ggtccacaag gatttaaatt tgtcttcagt ggtgaacctt tgttcaccct ggcagaaggt39961 gtggaggggg gtgcagatcc gttttgtctt tgtaagtcta tatcctgctt ttagacaaat40021 aaagggaggg aaaagagctt tccttcatct gcttcttaat tgccttcagc tcaacaatcc40081 ttatgcaaaa gaggtacatt ttagggtgtc aaattctggt ctcccacaaa gcatagggat40141 gacagaccac ctcaccatcc ctgttgcttc ttttaagcct gctcacccct ccaaaaatat40201 tttcattcta tactgtctct tcaaaatctc agcggagggt gccctctgtt atcctgccct40261 ctgtgtcagt ataagccaaa ggtttgaatc ctggctctgc aactatctac ctctgtgcct40321 ctccttgttt atgaaattac agggctggag acaaagatca caatgtgaag acaaaattgg 4681 agagcggtcc taatcagcca gagcaaaatt tctggctctt gctcttcccc atcctgggtt40441 gaatcatagg aacaggtggc aagatgccag ggtcaggaga ttccagaagt ggcagcaagc40501 tcagtgttac caggtcaggg atgacctgtcttattattga aatctcagag atatgctcca40561 attccggccc agagacacat tgagagacaa ctggggaact tgctatgttc ctgaacaggc40621 aatgagctgt cttccaagaa aaaacctgag acccttcaag tctcaggtct tacttagcac40681 atataccagg tcttacacag gacacatggt tacaactgac tgaaatctgg gctgggtgta40741 ggagctcaca cctgtaatcc cagcccttca ggaggctgag gcaggcagat tgcctgagcc40801 caggagttcg agaccagccc gggcaacatg acaaaacccc atctctacaa aaaatagtca40861 ggcatggtgg catgcacctg tagtctcagc tacttgggag gctgagatga gaggattgct40921 tgaggttgag actgcagtga agcatgatca tgccaccgca ctccagccta ggcaacagag40981 41041 aacaacagca aaaaagccaa cttcttgaaa tctggaaagg acacctggac tgccctgagc 41141101 atttgattgt tgttggctct agcagtggat gcatccttca acctctggca ctctgcaggg41161 ctcagactgt tctgttctgt ttgttacctg tggagtgcct gccagaccct gctctagctg41221 41 ctttaggtcc atttaccctc atagaccccc agtcttgtta ttcatatttc atatttggga41281 aatggaaact tagaaacttg ccaagtccac agcatgagat cctgcctccg gtgtctgctg41 gattccagaa agtgccaggg gccaacttag atgacaccat gttctctgca caatcttagg41401 aatgctccta gtctgatgtc cccattgcaa aatttacatt atcttttaac aaaacgtctt41461 tccaaggagg ggcatttaaa ataactgagg ttcttcttgc taaggacgtt cctgacacaa41521 gagataattt agcatttcct tttcattaaa aagtttgaaa tcctgtaatt tgtgataatg41581 tggatgaacc tagaggatgt taagtgaaat aagccacaca cagatagaca aataccacgt41641 gatctcactc ttatgtggaa ttttttttta aataagttgc ttagccgggc atgatggcac41701 acacctgtaa tcctagctac tcaggaggct gaggtgggag gatggcttga actcagaagg41761 tggaggtagc agtgagctga gactgtgcca gtgcactccg gtctgggtga cagaatgaaa41821 cccaatttaa aaaaaaaaaa aaagttgcta tcttagaaaa agacagtaga gcagtggtta41881 ccagagactg gggaggaaag agaggaggtg agaatgggca gcagttgatc aacgggtaca41941 aagttaccat gagataggag aaacaagtgc tggtgctctg ctccaagtag ggtgacggta42001 gttaataatg aattctgtat atataaatag ctagaagaga gggttttcaa tatcattatt42061 atttcaaaag aaatgataaa tgtttcagag gatggatatg taattaccct gatttgatca42121 ttgcacaatg tatacatgta gcaaaacatc acattgtgtc ccataaatat atacaattat42181 42 42181 tatgtgaatt aaataaaaaa aaattttaaa gtcttatcta aatgaaattt ctaaccagat42241 tctgaatcca tgataccact gaaaccagca cacatgatcg cagtaaaacc tcattatact42301 4242301 tcctccacta tcaccaatac cctttattct ctggaacatg aaacattctg ttgtgctcat42361 atcatgcaaa ttatcactag taggagagca gagagtggaa atgttccagg tataaagacc42421 cacaagataa agaagctcag agtcgttaga aacaggagca gatgtacagg gtttgcctga42481 ctcacactca aggttgcata agcaagattt caaaattaat cctattctgg agacctcaac42541 ccaatgtaca atgttcctga ctggaaaaga agaactatat ttttctgatt ttttttttca42601 aatctttacc attagttgcc ctgtatctcc gccttcactt tctgcaggaa actttatttc42661 ctacttctgc atgccaagtt tctacctcta gatctgtttg gttcagttgc tgagaagcct42721 gacataccag gactgcctga gacaagccac aagctggtga gttgtaggca ttttttccat42781 tactttctga ttcataggct caacgcacct caaagctgga aatgccgggt ctgggtacac42841 tactttctga ttcataggct caacgcacct caaagctgga aatgccgggt ctgggtacac 42781 cctggggaac tgcaaagcct gcacacttgg gggaaatgat caagatgaga ggcaggggtg42901 gggatggcat gtgcaccagg agatgttaga gaaaccctga ggaagagcag cgtgcagcag42961 gtgatggggg agagtgggca gcaagcgagg ccaggacagc cactctgctc agtcaccagt43021 ccacacaccc aggggctcac tctgcccctc tgagcaccca aggacgttaa agagctggaa43081 430 43081 ctgttagtct aaatatagga ccatccaagc tctgaaccaa aatgtgtccc ttgcctcaac43141 tcaggagatc cacagaggca gaagtaagga atttattttc tgaaagatag atttctatca43201 gttctgggtg acatgttctg acacttgaaa tgacacctag gacagcacat ttcaggcatc43261 ttgctcattg ttcactgtag tagaagctac atgctagcca gttgtaaaaa tgaaattaag43321 taatgtgtgc acagcattta acatagcatc tgagcttcag gagcactcaa ttaatgacca43381 cagttgtgat tctttaggca gatgcatttt tttccaactt tgatcagagg tcttatttag43441 cttctccaga tttcaagaat ctggctcagt gatatgaaat acaagacttg tgaaaagtgt43501 caattgcaag agaaatggaa ggataaagta tacaggtggg tggaaaagaa attcacagtc43561 actgccagaa aaaaaattct tgagaatcaa gtcctgatga tgttagggct tatagttctt43621 attataaaga gttttatgta ctcattcagt gaacatttat tggtgcctcc tttagccagg43681 tactatcata agagctgaaa ataaaagcat aatccagtcc ttgatcttga ggaacatgct43741 gtgtgtagca gataacataa taagtgctta tctagatgca tgcagtgtta tgtgataaga43801 43 43801 gtaatatgac agaggataca gattaggctt cacagagaag ggggatttga gcaggaggta43861 ttgaagggtg aatagaagct caccaatcat tttgggcaga ggggcaagga cctgcaaaac43921 cactgaagca tgaaggaaat ggtgagtttagggaaaatga agagaagatg gctgtgactg43981 aagcacagga tttgggattg gagaagggac tggaggtgag gctgagaaga ggcaaactca44041 gaaaagatgt tgtgctgggc agtctggaca ttatctttga agcccaccac atataagtca44101 tagggctact ggaggtttta agctaaaagt gactattcaa tttcaactta agagaagata44161 ggttgagagg gaacatggct tgagatgagc catgagcaaa ggaaagacta caacaaagcc44221 aggagtgagg agtgtgtgaa gcaagaaagt gacagttgaa agcagtgcag aggggatgaa44281 tctgagaggc atctatgagg tggaactcaa atgacatgat aataatacag ggcatttctc44341 tgtgtcagat gctgtcctaa gtccttactc cattgatctt cacagcaact cagcatagtt44401 aatattttat gcataaagaa atcggcactt gaaggagtaa ttggccccag attacactgc44461 ctataaggat tcaaatccag gtttgtttgg ctccaaaaac tggctcctaa ttttcagaag44521 gagaagcgac ccagggcaat gcccaatttt gcttcttagg caatggagga atccacaatc44581 ggaaggagtt ttcagcagtg ccccatttgg ggtgggttga atttgaggtc cctgcatgat44641 acccactttg ctcacttcag tgcctaaaac tgagtatggt tcatagtagg tgttcaataa44701 gtgttgatgc agtgaataca tgcatgggga gatatgcatc aggcaatggg aaattcaact44761 ctaaggctta ggggaaagct ggagcttgaa gacagagctt tagaaaacag tagcatagaa44821 gggagtagga accatgagtt tagacaatac aattcaggaa gaactttgta gcaaggataa44881 agaggcaaaa aattaaagag gtgagagcta agtgtggtgc ctggggaatc ttaaggtgtg44941 ggcacgggga ggagatgcca gcaaagaaca tgaataaaaa gcggtagcac agcccctccc45001 atctggaagc caaaaagaat tgtaaatgga ggaagttagc agaaggatca aatacttgaa45061 gagggtggaa ttggaataaa accagggcat ttgaaaaatt gggttgtcac tgcaatctta45121 acaagagaag ttttggcagg atgatggagg cagaaagctg agagaatcat cagttagaac45181 45 45181 gtttttgact tcagagaaca gaaaatgcag ttcataatgg ctttaaaaca ggggcttgtt45241 tttctcccag caatttgaga ggccaaggcg ggtgcatcag gaggtcaaga gaccgagacc45301 45 45301 atcctggcca acatggtgaa tccccatctc tactaaaaat acaaaaatta gcggggcatg45361 gtggtgcacg cctatagtcc catctactca ggaggctgag gcaggagaat cacttgaacc45421 caggaggtgg aggttgcagt gagctgagat catggccact gcactatagc ctggagacac45481 agcgagactc cgtctccaaa aaaaaaaaaa aagaaggcag aaggtgaata gttcaagggt45541 gggtttagga ctcagtgata ataggattct gcctggcttc tcatggttct ctaggtcttc45601 cattcatggc accatgccct cactaggcat gctgccagag caggaggggc aggtggaggg45661 45 45661 ttctcttgtg tctgtcttat cagggaagaa gagctttctc agaagccccc agcagactcc45721 cttttcatat tatggtccag caatgagtca cagacctatg caccacctgc aaaggagcca45781 gagaaaacaa acgcccagcg cttttagcct gaaaatgaga atctggtttg ctggggaaga45 taaagggtgt cggaaaatgg ctgttgggta aatcattgat gtctgccact aggaatgaaa45901 ggcaaatcag gaactggcac acatgctttc agggagatgg ctgcaaggga gagggcaaag45961 actgggaagt tgcttatgtg gtgccagact atttggaaga tcatggattg cggtgtttgt46021 gttgtgtggt catcattttg ttctttgttt acagaacaga gaaagtggat tgaacaagga46081 cgcatttccc cagtacatcc acaacatgct gtccacatct cgttctcggt ttatcagaaa46141 taccaacgag agcggtgaag aagtcaccac cttttttgat tatgattacg gtgctccctg46201 46261 gttcatcttt ggttttgtgg gcaacatgct ggtcgtcctc atcttaataa actgcaaaaa46321 gctgaagtgc ttgactgaca tttacctgct caacctggcc atctctgatc tgctttttct46381 tattactctc ccattgtggg ctcactctgc tgcaaatgag tgggtctttg ggaatgcaat46 gtgcaaatta ttcacagggc tgtatcacat cggttatttt ggcggaatct tcttcatcat46 cctcctgaca atcgatagat acctggctat tgtccatgct gtgtttgctt taaaagccag46561 gacggtcacc tttggggtgg tgacaagtgt gatcacctgg ttggtggctg tgtttgcttc46621 tgtcccagga atcatcttta ctaaatgcca gaaagaagat tctgtttatg tctgtggccc46681 ttattttcca cgaggatgga ataatttcca cacaataatg aggaacattt tggggctggt46741 cctgccgctg ctcatcatgg tcatctgcta ctcgggaatc ctgaaaaccc tgcttcggtg46801 tcgaaacgag aagaagaggc atagggcagt gagagtcatc ttcaccatca tgattgttta46861 ctttctcttc tggactccct ataacattgt cattctcctg aacaccttcc aggaattctt46921 cggcctgagt aactgtgaaa gcaccagtca actggaccaa gccacgcagg tgacagagac46981 47041 cagaaggtat ctctcggtgt tcttccgaaa gcacatcacc aagcgcttct gcaaacaatg 4758 ggagcaggaa gtctcggctg gtttataaaa cgaggagcag tttgattgtt gtttataaag47221 ggagataaca atctgtatat aacaacaaac ttcaagggtt tgttgaacaa tagaaacctg47281 taaagcaggt gcccaggaac ctcagggctg tgtgtactaa tacagactat gtcacccaat47341 gcatatccaa catgtgctca gggaataatc cagaaaaact gtgggtagag actttgactc47401 4729 47461 tctagtcttc ataatttctt cactcaatct ctgattctgt caatgtcttg aaatcaaggg47521 4742 47581 gggtcagggc tgagaggaga aggagggaga catgagcatg gctgagcctg gacaaagaca47641 aaggtgagca aagggctcac gcattcagcc aggagatgat actggtcctt agccccatct47701 gccacgtgta tttaaccttg aagggttcac caggtcaggg agagtttggg aactgcaata47761 57361 47 acctgggagt tttggtggag tccgatgatt ctcttttgca taagtgcatg acatattttt47821 gctttattac agtttatcta tggcacccat gcaccttaca tttgaaatct atgaaatatc47881 atgctccatt gttcagatgc ttcttaggcc acatccccct gtctaaaaat tcagaaaatt47941 tttgtttata aaagatgcat tatctatgat atgctaatat atgtatatgc aatatatata48001 ggctcttgct tgatctctcc aggaggtagt gattatgaga agggggtgga gaatgatgag48061 ttccttcacc aggagcaaag gacggggatc gtgtggaacc actgcagaac tatttccgga48121 atcaactaag tggagagagc caggaaggct gcatcagaac ccagtaaagc ttcttgtctg48181 gatctgagct ggtttgtttt gtgcttgctt ttccctgcct tgccactccc ctcactcttc48241 tcttttcccc acagcctttt tcacatagct cttggctgta ggattgcccc actccaaaaa48301 ccagtgtgtg gaggtccagg agtgagacca ggaaagaatg tgaaagtgac tacacaagga48361 ctcctcgatg gtcgtggaaa aggaaagtca attggcagag cccctgaagc cagtcttcag48421 gacaaagaag gagcctagag acagaaatga cagatctctg ctttggaaat cacacgtctg48481 gcttcacaga tgtgtgattc acagtgtgaa tcttggtgtc tacgttacca ggcaggaagg48541 ctgagaggag agagactcca gctgggttgg aaaacagtat tttccaaact accttccagt48601 tcctcatttt tgaatacagg catagagttc agactttttt taaatagtaa aaataaaatt48661 aaagctgaaa actgcaactt gtaaatgtgg taaagagtta gtttgagtta ctatcatgtc48721 aaacgtgaaa atgctgtatt agtcacagag ataattctag ctttgagctt aagaattttg48781 agcaggtggt atgtttggga gactgctgag tcaacccaat agttgttgat tggcaggagt48841 tggaagtgtg tgatctgtgg gcacattagc ctatgtgcat gcagcatcta agtaatgatg48901 tcgtttgaat cacagtatac gctccatcgc tgtcatctca gctggatctc cattctctca48961 ggcttgctgc caaaagcctt ttgtgttttg ttttgtatca ttatgaagtc atgcgtttaa49021 tcacattcga gtgtttcagt gcttcgcaga tgtccttgat gctcatattg ttccctattt49081 tgccagtggg aactcctaaa tcaaattggc ttctaatcaa agcttttaaa ccctattggt49141 aaagaatgga aggtggagaa gctccctgaa gtaagcaaag actttcctct tagtcgagcc49201 aagttaagaa tgttcttatg ttgcccagtg tgtttctgat ctgatgcaag caagaaacac49261 tgggcttcta gaaccaggca acttgggaac tagactccca agctggacta tggctctact49321 5849324 49381 cttcatatat ttgtatgatc ctaatgaatg cataaaatgt taagttgatg gtgatgaaat49441 gtaaatactg tttttaacaa ctatgatttg gaaaataaat caatgctata actatgttga49 taaaagattt aaaaacaact ggctgttttt ttacactgtg gtgtggaaga ttgtgttgtg49561 ttcacaactt ttcacttctt cccctgtgtg attacacaca cctgcccttg tggtgtgact49621 tgcagtgcgc cctacaggcc acacaacccc atgccctcca ccactggctc tgctgctgga49681 atgtgagcag aagtgacatc tgcctcatcc aagcagagcc tcttgctcag ccacaggaag49741 gcccattcca gatcacaccc gtcagcccgt gcgccctggt gaatgagaag acacagggag49801 ctgcagccac atataacatg agcaagaagt ctgtgtttgc tgtgataagc cactgagttt49861 taggggttgt ttgttaagaa gcacaaaaac cgattaagac atgtggtata tagtgacttc49921 atatatagaa tctggaaaac tatccattta ttttcaatca tggaattcaa tatgacaagc49981 atcccggagg gtctacctat gccagactgg gttggaaaca gaaagacaga tgttaatgcc50041 agtgtccttt acacctccaa gtccagggcc agctgtggag tgggaggggt agagaaggtc50101 ctgtgcacag tcacagtgcg ctgtgcagag caggaacaga ggcatctgtg aaaagtgctg50161 agagcctgga ggacagagtg actaatgcaa tgacagtctt gcatcatagg aataacagcc50221 acagcaggat tttattgctg ccaaagaaac tgccatttaa aaattgccag ccatccggga50281 ggctgaggca ggagaatggc atgaatccag gaggcggagc ttgcagtgag ccgagatcgg50341 gccactgcac tccagcctgg gcaacagagc cagactccat ctcaaaaaaa aaaaaaaatg50401 ccagccatct ctctttctaa agtggaatcc tcaagtctcg tttattctgg ggacatttga50461 gtaggctgtt cgagttaagc aggtggaagt tgatgatccc tcatcatcat tctgagggat50521 gagtgtctga agactttttg gtaaggaagg gtcttggcat agcccacccc atgccacctc50581 ccttgatctg tgatatcccc agcagctggg gaggttggag cattttgcaa agaggccccg50641 aagcctccag aaagtaaacc ttcaagagcc catccttcct tcctcttttg tttttgctca50701 56 50701 ttatgaaaac ttccctgaca aattgaaaag gcttcaggtg agattagccc acaggaaaaa50761 ccaccaaggg ccacccagag gggccacact gtgacagaag gagtatgggc tggtgagctg50821 acctctggaa gacagtgcat gaattgagga gaagagattg gttccaggca tgggaggaat50881 gaggctggaa atttcttcag acattgccac ttcggcactc tgtgtgtgtg tgtgtgtgtg50941 tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtaaacaga gtcctgtaat gcaaggtccg51001 gccttggcag ccccagcctg gagccacagt gagatgtgag ctgagggtta tgctgggaaa51061 510 51061 aacctctccc tcccagcacc tgaaaggctc tgcaggccca gcagctcagc aagcaagggt51121 51 51121 aagggcatgg actaacatct tatttcatac tatcccttat aacacatcct aatgtaatca51181 51829 51181 gctcacaata tgaaattatt tcatttctct ccagtcattg tttcaatggg gccttagggt51241 tgactggatt ctggaggtcc ctgcctagag gagggggtgc attctgtccc tatgtcccct51301 51 51301 cctgctccat cctccacagc acgtgcctag tggtctacct tgtggggaat tcttgtacct51361 ccctcttcta ggcatggact agcattgaga agtgggagag gagtgttagg aaaaagggca51421 51 51421 aatatagaca taccttgtct tattgtgctt tacagatatt gtttttgttg ttgttgttgt51481 tgtttacaaa ttgaaggttt gtggcaaccc tgcctcgagc aagtctattg gtgctgtttt51541 tccaacagca tgtgcttgtt ttacatctct gtgtcacatt ttggtaattc tcccaatatt51601 tcaaactttg tcattatttc tatatctgtt atggtaatct gtgatcagtg atctttgatg51661 tcactattgt agttgttttg gggcaccatg aagtgcaccc atgtaagatg gcaaacaatc51721 aataaatgtt gtgtgtgttc tgactgctcc atggactgcc tgttcctgag acacaataat51781 gtatatataa caattatata tatatatatt tataacaatt atatatatat atattttttt51841 tttttttttg aggcagagtc gcactctgat tgcccaggct ggagtgcaat gatgtgattt51901 5135901 51901 cagctcactg caacctctgc ctccccaggc tcaggtgatt ctcccacttc agcctcccaa51961 gctgggacta caggtgtgca ccatcacacc cggctaattt tttttttgta tttttaggag52021 agacagggtt ttgccatgtt gcccaggctg gccttaaact cctagactca aacaatccac52081 ctgcctcagc ttcccaaagg gctgggatta caggcatgag ccactgtgcc cagcccaaga52141 cacaataata ttgaaattaa gccaattaat aaccctacaa tggcctctaa gtgttcaagt52201 gaagggaaaa gtcccacgtc tctcacttta aatcaaaatc tagaaatgat taagcttagt52261 aaggaggaca tattgaaagt caaggccaaa agctcacctc tgcaccagtt agccaaattg52321 cgacttcaca ggaaaagttc ttgaaggata tttaagctct actccaggga acatgcaaat52381 gaagagaaaa caaagcagcc atattgctaa tatggagaaa gtttgagtgg tctggagaaa52441 agatccaacc agccacaaca tttccttaag tcaaagccta atccagagca agactctaac52501 tctcttcaat gctatgaagg cggagagagg tgaggaagct gcagaagaaa agtttgaagc52561 tagcggaggt tggtttgtga ggtttaatga aagacaacat ctccataaca taaaaatgca52621 agatgaagca gcaagtgcaa agggagaagc tgtggcaagt tatccagaaa atctagataa52681 gataattgat gaaagtgtct acacgaaaca acagattttc agtgtagaca aaacagtctt52741 atgttggaag aagatgccat ccaggacttt cacagctaga gaggagatgt caaggcaagc52801 tgcaaagctc cacaggacag gctgactctc tttttagagg tgaatgcagc tgatgacttt52861 aagttgaagt aaatgttcat ttactatttt gtaaatcctg gtgtcattaa gaattatgcg52921 aaatctactc tatctgtgct ccataaatgg aacaataaag cctggatgac aacacatctg52981 tttacagcat ggtttactga atatttcaag cccactattg agaactattg ctcagaaaaa53041 aagattcctt tcaaaatatt actgctctgc accatgtcga tcaagagctg tgttggagat53101 5327 53161 tggaccaaga ctttcaagtc ttattaagaa atatatttca taaggctatt aagaaatagc53221 tatatatata tatatatata gccttatata gtttatatag ctaccattga tagtgattcc53281 attgatggat ctgagcaaag caaattgaaa agcttctgga aagtagtcat tattctagat53341 gccattagga acatttgtaa ttcatgggag gaggtcaaaa taccaacatt aacaggagtg53401 tgaaagacat tgattccaac ccccatagat gactttcagg ggttcacgtc ttcagtggag53461 gaagttgctg tagatgtggt ggaaacagca agagaactag aactagaagt ggagcctgaa53521 gttgtgactg aattgccgca ctctcatgat caaacttgaa cagatgaaga gttgcttctt53581 acatatgagc agtgaaagtg gtctcttgag atggaatctc ctcctggtga agatgctgtg53641 aacacggtta aaatgacaac aatcgattta gaatattaca taaatttagt taataaagca53701 gtggcagggt ttgagaggat tgactccaat tttgaaagaa gtgggtaaaa tgctatcaaa53761 tagcatcaca tggtatggag aaatcttttg tgaagggaag agtcgaccaa ggtggcaaat53821 tgcattgtca tcttatttta agaaattgcc acagccaccc ccagctttag caaccaccac53881 cctgatcagt aagcagccat caacatcaaa acaagaccgc catcctcttc agcaaaaaca53941 ctatgacttg ctgaaggctc agatgatggt tagcattttt agcaatacaa tatttttaat54001 taaggtatgc acattggttt ttctgacata atactattgc atacttaata gactacagta54061 taggataaac acaactttta tatgcactgg gaaaccaaaa aggttatttt tgagatattt54121 gctttactgt ggtggtctga agctgaactc acaatctcac caaggtgtgc ctgaacctct54181 86241 54 ggcacactgt gtggtcacat ccaagggcct agatatggtg ggggctccaa atggatctag54 atatgtgaga tctctctttg atttgacttc ttccaaccca ccattttctg ggtgctgggc54 tcatctcacc cagaaagtag gacccaatgt gacagttcct gcccagttcc ctcctgtggt54421 agccacttga cccaggggca ctcttgatcc ttgcagcctc acttacacac cctatctcta54481 cccctattaa ctctctccaa tccccactcc ccctgctcag cttgtctgct gcccagtggg54541 ggccccaccc atgctggcct ctccttttgc aagtccccat tcctcatatg gtttcttcag54601 agcccctttc tttggctttg aggagagatg ccctcactcg cttccccacc aatcctgccc54661 acttctacaa tccattcattatcctaattg cctccgtata cagactggag tgagaggagt54721 3954781 gtgtctgagc ccaggtgtca gtggttttct ttggaactgt gagtgcataa cacttctttg54841 ccttcagcct taggccatag ttgctagttc tgggacaacc agaaaagccc tacataatct54901 cgtgttatgt gcagagctga gtatagagct ccaggtatga tctgactcac ttaagatcac54961 agtgagtcta ttgtattgtt gaactgttag cttagacatc tgttactgta cctacatggc55021 actagcctca cgcctagaca ccgatctgaa agaaatcccc taaatgcata gagaagactt55081 ctcagctgag ctaaggggct cccaccaggt ttgagcctat ctaatgaatc catgaggtag55141 55201 tcatgggctg ggaagtgggt taccctggga aaggtctaca ggacagaggc agggatggag55261 acaacagcat ggtgagttcc caacccaccc acgatgatag gtgtctgagg cagaaggtaa55321 agaggctgtc acctggtggg tgtcataaga ctcaagtgtc attgttgagg cacatgggta55381 acaaagcgtg gcactggatg ggggtagatt cttcctattt ctgtgaggat cagggggact55441 ccctggctct cctgctaaag gtggctctag ggacaggaag agtgtacttc ttgacaggga55501 tgtcagagca ctgatggtga caatcagtgt gacactgctc acatgactga acaaccgaga55561 agagcccgac tgtctactga acaacgggaa gagcccgact gtcaatgacg gagctctgtt55621 aaatatagtt aaggctattt tgttgaatga atgaagccag acaggaaaga ggacagtatc55681 tttaatccat ttatagaagt taaagacagg cttatttaat ctctatgaag acagagtggc55741 55801 ttgatccgga gtggtagtta catgcatgta tgcatatcaa aactcaccaa gctgtaccac55861 taagtgtgtt cttcctcaat aaaaataata aagaactaca cttataaaga attttttaat55921 aatataggaa aatgtctaca ctataatctt tagctaaaaa aaaaaaaaaa gaagccgcct55981 acagaatggt atatgcatga gaacaattaa tcgaaaagtg catgggaaaa gtcaggattg56041 aaacatcatg ttttaaaaga cattgttttg atactgtgag aatgtaccta agtttttcct56101 tttttctgtt tttcccaatt ttatacaatg agcatgtgtt ggttttataa ttagacattt56161 tgtttgtttg gtttggtttt gagacacagc ttgctgtcac ccaggttgga gtgcaatggc56221 ccaatcttgg ttcactgcaa cctccatctc ctgggttcaa gagattctcc cacttcagcc56281 tcctgagtag ctgggactat aggggcgcac caccacatcc agctaatttt gtgtattttt 56565641 agtagagatg gggtttcacc at-tggcca ggttggtctc aaactcctga cctcaagtta56401 tccactcgcc ttggcttccc aaagtgctgg gattataggc atgagccacc gcacttggcc56461 tagacatttg tttttaaaaa taaaagattc atttgctctt tttacagccc gtctcactgt56521 tgactgatat tgaccaggag tcaactcagg ccccagggat tttcacaaca gctgctgtat56581 ggcagggttt ctgctcactg tgctcatgta gttggccctt gcacccaaag tgaataatta56641 acattctccc catcctgttg acgatgctct gaaaatatgg tccagaaatg gtgtgagcaa56701 ggagacagca aagcaatgct tggaacatag gtgcagtgac tagacatggg gcagctgttt56761 aaagacaaaa aggccccaaa aaggagggat ggcacgaaac accctccaat atgggcatgg56821 agtctagagt gacaaagtga tcaaaagttc atttcctatg gggtgtccga atgtacttaa56881 taataaaaag agaacaagag ccatgcaaac tgagagggac aaagtagaaa gagtagcaga56941 caccaagcaa ctaagtcaca gcatgataag ctgctagctt gttgtcatta ttgtatccag 5772 57061 aacaacattt catttaaatg ctgaagaatt tcccatgggt ccccactttc ttgtgaatcc 57121 5772 5736241 aacaacattt catttaaatg ctgaagaatt tcccatgggt ccccactttc ttgtgaatcc gatgaggaaa tggaagcttg57301 ggcagtggaa gtatcttgcc gaggtcacac agcaagtcag cagcacagcg tgtgtgactc57361 cgagcctgct ccgctagccc acattgccct ctgggggtga gtatgtcttc acatcctcca57421 ataccctaat gacagacaaa cagaacatgg caaagcctca gctctgcatg gtgaaagtaa57481 gaaccagcaa ttgccacaaa cagaaataca gtgttggtcc ggcagcctcc gggggttctg57541 cacaagtgga ttaccagtga atacaaggct atctatcttt cgaaaaacca acgttgtatt57601 tatgctattt tctataaaat tttatattaa tttatttgtt acctattttt gaactctttc57661 aaaagcacac tttatatttc cctgcttaaa cagtcccccg agggtgggtg cccaaaaggc57 tctacacttg ttatcattcc ctctccacca caggcatatt gagtaagttt gtatttgggt57781 ttttttaaaa cctccactct acagttaaga aaactaaggc acagagcttc aataatttgg57841 tcagagccaa gtagcagtaa tgaagctgga ggttaaaccc agcagcatga ctgcagttct57901 taatcaatgc cttttgaatt gcacatatgg gatgaactag aacattttct cgatgattcg57961 ctgtccttgt tatgattatg ttactgagct ctgttgtagc acagacatat gtccctatat58021 ggggcggggt tgggggtgtc ttgatcgctg ggctatttct atactgttct ggcttttccc58081 aagcagtcat ttctttctat tctccaagca ccagcaatta gctttacctt ttcagcttct58141 agtttgctga aactaatctg ctatagacag agactccggt gaaccaattt tattaggatt58201 tgatcaaata aactctctct gacaaaggac tgctgaaaga gtaactaaga gtttgatgtt58261 tactgagtgc atagtatgtg ctagatgctg gccgtggatg cctcatagaa tcctcccaac58321 aactcatgaa atgactactg tcattcagcc caatacccag acgagaaagc tgagggtaag 381 acaggtttca agcttggcag tctgactaca gaggccactg gcttagcccc tgggttagtc58441 tgcctctgtaggattggggg cacgtaattt tgctgtttgg ggtctcattt gccttcttag58501 agatcacaag ccaaagcttt ttattctaga gccaaggtca cggaagccca gagggcatct58 tgtggctcgg gagtagctct ctgctgtctt ctcagctctg ctgacaatac ttgagatttt58621 cagatgtcac caaccaccaa gagagcttga tatgactgta tatagtatag tcataaagaa58681 cctgaacttg accatatact tatgtcatgt ggaaaatttc tcatagcttc agatagatta58741 tatctggagt gaagaatcct gccacctatg tatctggcat agtgtgagtc ctcataaatg58801 cttactggtt tgaagggcaa caaaatagtg aacagagtga aaatccccac taagatcctg58861 ggtccagaaa aagatgggaa acctgtttag ctcacccgtg agcccatagt taaaactctt58921 tagacaacag gttttttccg tttacagaga acaataatat tgggtggtga gcatctgtgt58981 gggggttggg gtgggatagg ggatacgggg agagtggaga aaaagggggc acagggttaa59041 tgtgaagtcc aggatccccc tctacattta aagttggttt aagttggctt taattaatag59101 caactcttaa gataatcaga attttcttaa ccttttagcc ttactgttga aaagccctgt59161 gatcttgtac aaatcatttg cttcttggat agtaatttct tttactaaaa tgtgggcttt59221 tgactagatg aatgtaaatg ttcttctagc tctgatatcc tttattcttt atattttcta59281 acagattctg tgtagtggga tgagcagaga acaaaaacaa aataatccag tgagaaaagc59341 ccgtaaataa actttcagac cagagatcta ttctctagct tattttaagc tcaacttaaa59401 aggaagaact gttctctgat tcttttcgcc ttcaatacac ttaatgattt aactccaccc59461 tccttcaaaa gaaacagcat ttcctacttt tatactgtct atatgattga tttgcacagc59521 tcatctggcc agaagagctg agacatccgt tcccctacaa gaaactctcc ccggtaagta59581 acctctcagc tgcttggcct gttagttagc ttctgagatg agtaaaagac tttacaggaa59641 acccatagaa gacatttggc aaacaccaag tgctcataca attatcttaa aatataatct59701 695 59761 acaaaacatg attgtgagtg aaagacttta aagggagcaa tagtatttta ataactaaca59821 atccttacct ctcaaaagaa agatttgcag agagatgagt cttagctgaa atcttgaaat59881 cttatcttct gctaaggaga actaaaccct ctccagtgag atgccttctg aatatgtgcc59941 cacaagaagt tgtgtctaag tctggttctc ttttttcttt ttcctccaga caagagggaa60001 87461 atatcagttt catggcacag ttagtatata attctttatg gttcaaaatt aaaaatgagc60121 ttttctaggg gcttctctca gctgcctagt ctaaggtgca gggagtttga gactcacagg60181 gtttaataag agaaaattct cagctagagc agctgaactt aaatagacta ggcaagacag60241 ctggttataa gactaaacta cccagaatgc atgacattca tctgtggtgg cagacgaaac60301 6027 60361 tacaaacaca aacttcacag aaaatgtgag gattttacaa ttggctgttg tcatctatga60421 ccttccctgg gacttgggca cccggccatt tcactctgac tacatcatgt caccaaacat60481 ctgatggtct tgccttttaa ttctcttttt gaggactgag agggagggta gcatggtagt60541 taagagtgca ggcttcccgc attcaaaatc ggttgcttac tagctgtgtg gctttgagca60601 agttactcac cctctctgtg cttcaaggtc cttgtctgca aaatgtgaaa aatatttcct60661 gcctcataag gttgccctaa ggattaaatg aatgaatggg tatgatgctt agaacagtga60721 ttggcatcca gtatgtgccc tcgaggcctc ttaattatta ctggcttgct catagtgcat60781 gttctttgtg ggctaactct agcgtcaata aaaatgttaa gactgagttg cagctgggca60841 tggtggctca tgcctgtaat cccagcattc taggaggctg aggcaggagg atcgcttgag60901 cccaggagtt cgagaccagc ctgggcaaca tagtgtgatc ttgtatctat aaaaataaac60961 aaaattagct tggtgtggtg gcgcctgtag tccccagcca cttggagggg tgaggtgaga61021 ggattgcttg agcccgggat gatccaggct gcagtgagcc atgatcgtgc cactgcactc61081 cagcctgggc gacagagtga gaccctgtct cacaacaaca acagcaacaa aaaggctgag61141 ctgcaccatg cttgacccag tttcttaaaa ttgttgtcaa agcttcattc actccatggt61201 gctatagagc acaagatttt atttggtgag atggtgcttt catgaattcc cccaacagag61261 ccaagctctc catctagtgg acagggaagc tagcagcaaa ccttcccttc actacaaaac61321 ttcattgctt ggccaaaaag agagttaatt caatgtagac atctatgtag gcaattaaaa61381 acctattgat gtataaaaca gtttgcattc atggagggca actaaataca ttctaggact61441 ttataaaaga tcacttttta tttatgcaca gggtggaaca agatggatta tcaagtgtca 61561 agtccaatct atgacatcaa ttattataca tcggagccct gccaaaaaat caatgtgaag61 caaatcgcag cccgcctcct gcctccgctc tactcactgg tgttcatctt tggttttgtg61621 ggcaacatgc tggtcatcct catcctgata aactgcaaaa ggctgaagag catgactgac61681 atctacctgc tcaacctggc catctctgac ctgtttttcc ttcttactgt ccccttctgg61741 gctcactatg ctgccgccca gtgggacttt ggaaatacaa tgtgtcaact cttgacaggg61801 ctctatttta taggcttctt ctctggaatc ttcttcatca tcctcctgac aatcgatagg61861 tacctggctg tcgtccatgc tgtgtttgct ttaaaagcca ggacggtcac ctttggggtg61921 gtgacaagtg tgatcacttg ggtggtggct gtgtttgcgt ctctcccagg aatcatcttt61981 accagatctc aaaaagaagg tcttcattac acctgcagct ctcattttcc atacagtcag62041 tatcaattct ggaagaattt ccagacatta aagatagtca tcttggggct ggtcctgccg 46101 6248 62161 gagaagaaga ggcacagggc tgtgaggctt atcttcacca tcatgattgt ttattttctc62221 ttctgggctc cctacaacat tgtccttctc ctgaacacct tccaggaatt ctttggcctg62281 aataattgca gtagctctaa caggttggac caagctatgc aggtgacaga gactcttggg62 atgacgcact gctgcatcaa ccccatcatc tatgcctttg tcggggagaa gttcagaaac62401 tacctcttag tcttcttcca aaagcacatt gccaaacgct tctgcaaatg ctgttctatt62461 ttccagcaag aggctcccga gcgagcaagc tcagtttaca cccgatccac tggggagcag62521 gaaatatctg tgggcttgtg acacggactc aagtgggctg gtgacccagt cagagttgtg62 cacatggctt agttttcata cacagcctgg gctgggggtg gggtgggaga ggtctttttt62641 aaaaggaagt tactgttata gagggtctaa gattcatcca tttatttggc atctgtttaa62701 agtagattag atcttttaag cccatcaatt atagaaagcc aaatcaaaat atgttgatga62761 aaaatagcaa cctttttatc tccccttcac atgcatcaag ttattgacaa actctccctt62821 cactccgaaa gttccttatg tatatttaaa agaaagcctc agagaattgc tgattcttga62 gtttagtgat ctgaacagaa ataccaaaat tatttcagaa atgtacaact ttttacctag tacaaggcaa catataggtt gtaaatgtgt ttaaaacagg tctttgtctt gctatgggga63 gaaaagacat gaatatgatt agtaaagaaa tgacactttt catgtgtgat ttcccctcca63061 aggtatggtt aataagtttc actgacttag aaccaggcga gagacttgtg gcctgggaga63121 gctggggaag cttcttaaat gagaaggaat ttgagttgga tcatctattg ctggcaaaga63181 cagaagcctc actgcaagca ctgcatgggc aagcttggct gtagaaggag acagagctgg63241 ttgggaagac atggggagga aggacaaggc tagatcatga agaaccttga cggcattgct63301 ccgtctaagt catgagctga gcagggagat cctggttggt gttgcagaag gtttactctg63361 tggccaaagg agggtcagga aggatgagca tttagggcaa ggagaccacc aacagccctc63421 aggtcagggt gaggatggcc tctgctaagc tcaaggcgtg aggatgggaa ggagggaggt63481 attcgtaagg atgggaagga gggaggtatt cgtgcagcat atgaggatgc agagtcagca63541 gaactggggt ggatttggtt tggaagtgag ggtcagagag gagtcagaga gaatccctag63601 tcttcaagca gattggagaa acccttgaaa agacatcaag cacagaagga ggaggaggag63661 gtttaggtca agaagaagat ggattggtgt aaaaggatgg gtctggtttg cagagcttga63721 acacagtctc acccagactc caggctgtct ttcactgaat gcttctgact tcatagattt63781 637 63781 ccttcccatc ccagctgaaa tactgagggg tctccaggag gagactagat ttatgaatac63841 acgaggtatg aggtctaggaacatacttca gctcacacat gagatctagg tgaggattga63901 63 63901 ttacctagta gtcatttcat gggttgttgg gaggattcta tgaggcaacc acaggcagca63961 tttagcacat actacacatt caataagcat caaactctta gttactcatt cagggatagc64021 actgagcaaa gcattgagca aaggggtccc atagaggtga gggaagcctg aaaaactaag64081 atgctgcctg cccagtgcac acaagtgtag gtatcatttt ctgcatttaa ccgtcaatag64141 gcaaaggggg gaagggacat attcatttgg aaataagctg ccttgagcct taaaacccac64201 aaaagtacaa tttaccagcc tccgtatttc agactgaatg ggggtggggg gggcgcctta64261 ggtacttatt ccagatgcct tctccagaca aaccagaagc aacagaaaaa atcgtctctc64321 cctccctttg aaatgaatat accccttagt gtttgggtat attcatttca aagggagaga64381 gagaggtttt tttctgttct ttctcatatg attgtgcaca tacttgagac tgttttgaat64441 ttgggggatg gctaaaacca tcatagtaca ggtaaggtga gggaatagta agtggtgaga64501 actactcagg gaatgaaggt gtcagaataa taagaggtgc tactgacttt ctcagcctct64561 gaatatgaac ggtgagcatt gtggctgtca gcaggaagca acgaagggaa atgtctttcc64621 ttttgctctt aagttgtgga gagtgcaaca gtagcatagg accctaccct ctgggccaag64681 tcaaagacat tctgacatct tagtatttgc atattcttat gtatgtgaaa gttacaaatt64741 64801 gctctttcag tcaagtgtac atttagagaa tagcacataa aactgccaga gcattttata64861 agcagctgtt ttcttcctta gtgtgtgtgc atgtgtgtgt gatgtataca aagagagaga64921 taattgtatt tttgtatttt cttttaaata atttttaaaa ttgacccttt tcctgagaca64981 aattgccaga atagtttgta tttagagatg gtacctctaa gagtaaggtt gctggttgct65041 gagcaattga cttgaaaact tttaaaattc aaattttaat tccactactc aaaagaattg65101 ccatgtttta aaaaagagaa ttggtgccat aagttagttg tctatgtttg aaaatgaaga65161 agatatgcaa cgtcatggcc tggtcactta cccgcagccc tgagttgtag gcacatcata65221 tgtgagaatg aggatgcttt tctttcattt aaaatccctc cccaaaactt ggctctaatt65281 gcagtcatga caatcatgta catttggatt tatgtgcacg agtctcttac cctgagagag65341 gacaggtgct acaggtggag gggacccgtc tgggtcacgt tcacattttg aacatgctgg65401 65 ttttcagtca ctgcacactc atctcccagc gcaggtcatg ggcagcagat gcaaaagctg65461 cccgtggtcc tatttggagg tgcatgaaat gagcagaaga cagaatagct tgatctgact65521 agaagggcag cttgtcccta ccaagacttg aaggattgcc tttcatctgt tagggtaaaa65581 ggtagaatga accaaggaag ggcaggaggg ggctggggtt agggtagaag gaaggggcca65641 tggagaaggg agatccatcc cataggagga aggcagtgcg gcagggaggt ttgaaggtat65 cagcttttgt ggctgacata catgcagtca tgtcaattgc tcgtttttcc ttttccatct65761 tattaaatgt cttccaatgt tagcacgaag aaaagctatt tgcagtgttg ccagcctttc65821 cagagcccgt ccccattacc tccccaggcc catgccttta ctccttggag tttcaactca65881 cgaccttcag gatctgactt tattcaccaa ctctggggtg aacgtacctt ctgtctccac65941 ccagaggtct ctatcaaaga ggagattgca tgccatggat aaagtcaaag tagaggtgac66001 tgtccttagg aagagtaatg tgaaaattca taaactggga ttctgtttac attttgtact66061 ccaggggttc ttagtttaaa tcgctctgaa taaattaaga tgcaatggca tttcaactgt66121 tatgattaaa tttacaaatc atttattttc tatcacgggg agagatagag ctccaaatgc66181 aaacataact gctcaagtgt taacacttat aatgaaaaca taagaattac caccaactac66241 cctgggggct agaagcagaa atgtgaacca gaaaacaaat catgaacttt cctttttttt66301 tttgagatgg agtctcgctc tgttgcccag gctggagtgc aatggtgcga tctcggctca66361 ctgcaaccac tgcctcccgg gttcaagcaa ttctcctgcc tcagcctcct gagtagctgg66421 gactacaggc atgcaccacc acgcctgggt aattttttgt atttttagta gagacagggt66481 ttcaccgtat tagccaggat gctctcgatc tcctgacctc gtgatctgcc cgcctcggcc66541 tcccaccgaa gtgctgggat tacaggcatg agccactgtg cccggccaac aaatcatgaa66601 ctttctaact gcagttcctt gtagcttgtt aacacatcca cttacttatt gtcagagtac66661 gtggagattt tccacaaccc tcggggataa ggctgaacag aagaggcaaa aacgtgaaaa66721 catttcgata gctcctatac tttgaaataa aattcactgt aaaagttgct tgtatttttc66781 caaaacagag tcaaccctta atatttaaga ttctgtatac aaatacatat ttttatataa66841 ttaatatata ttgtcatatg acatatatct ttatattaat atgcatgcat ataatatata66901 tttccttcct aattttctat aagcaatttt acaagactga cttctatttg cctccttatt66961 67021 ttatttttgt ttctctgggt ggtcactagt ttttttaaag cattcatgga agagtgtgaa67081 tcttttacaa gctaggaagc catggcaagc cttgggtcat actgcccccg cgaggccaca67141 ttggcaaacc agcaagggtg ttcaacttcc agacttggcc atggagaaga catacgagga67201 ggcttttcac attcagctct ttaatgtttg tctctgccgg caccatccca gttgtgaata67 agaggtattt ccacagcggc tcagggtagg tagtgcacag ctcacattca tcatttctga67321 aaaccgagag gagtctccat tcggggtaca ggttgatgcc tgtcgtggaa tgaaggttcc67 aacacccaga ccaatctctg cagtgtgctg ctctcatgag cttgcaacaagatcagaaaa67441 tgttttgtga ctaagcattt ttcatattgc ataaaatgct tcaagctcct cccttgtttc67501 tctctataat cctgtatatc tgatgattgt gggtaccaag tgtttgaaat aatcaaatgt67561 gatttgatgt tggtaaattt cttttttttt ttttttttac ttctattttt tttattatac67621 tttaagtttt agggtacatg tgcacattgt gcaggttagt tacatatgta tacatgtgcc67681 atgctggtgc actgcaccca ctaactcgtc atctagcatt aggtatatct cccaatgcta67741 3967842 67801 tccatgtgat ctcattgttc aattcccacc tatgagtgag aatatgcggt gtttggtttt67861 ttgttcttgc gatagtttac tgagaatgat ggtttccaat ttcatccatg tccctacaaa67921 ggacatgaac atagcaaaga cttggaacca acccaaatgt ccaacaatga tagactggat67981 taagaaaatg tggcacatat acaccatggt aaatttcttt atcattcgca ctctcctttc68041 tctattattg ttattgtaac tgaaccgcag attagtcact cattgcttgc agaatccaat68101 taacaagagc gaggtcagat ataaagaaaa tgatttattc caaacctcct tcagggaaga68161 ggtgcagcct cctgcctcta aatgcactgc ttcgccaggc gtggtggctc acacctgtaa68221 tcccagcact ttgggagacc gaggagggca gatcacttaa ggtcaggagt tcaagaccgg68281 cctggccaat atagtgaaac ccctgcctct actaaaaata caaaaaatta gccagacgtg68341 gtggcgggtg cttgtaatcc cagctactcg ggaggctgag gcaggagaat cgcttgaacc68401 6842 68461 agtgagactc tgtctcaaaa taaataaata aataaataaa taaataaata gtaaatgcac68521 tgctttgctt ttggagcaga aagcaggcac tttgaaaagg caggggagga agtgagcaag68581 ggcagggggt ctgcacactg gcatggtgcc tgatctatcc aggcagttga attggcactt68641 tcataggcag aaataagttg aaaaagtggc ctaaaactct ctaggtggga gtggatagtg68 ggcatgcctt caacctgcct ttctggaggg tgagttccat ggcaaccccc tgaagggtga68761 gagttccatg gagatcatgc tttggtctgt aaatcagctg ttaactctct agaaagttct68821 gtcttggagc atatagttag atgaacttgc cctgtaaaga atgtctggtg aaggggaagt6888 68881 aaaaggtgag atttgcattt ctaaagggct aagtagaacg tggggtacaa gaggaaagga68941 gaaaagagaa aataatttaa aaaataattg taacttattc ccttttactt agaaaaaagg69001 gaatactcag ttacattatc acctcgttta catcaaaccc tcttatggaa tcctatggtt69061 tgaaaacaaa aaggttgttg aggaccagtg agcccaaccc ctttgcttta taaatgaaga69121 gcattgcctg ccctaagccc cagagactct gatgtcgtgg gtctggagtg ggctccaaca69181 3969241 agtaggagca ctcgtgactc ccttcacgat cagcacctgt gtgctaataa attcacaaaa69301 gccaacatat tggagtcact cagggagttt tacaaatagt gaggttaaat ccaacctcaa69361 atagttctga ttcgatctgc ctgcattgct gccctgtggt tccccactgt agaagctccc69421 caggtgattc taagtgtagc caagtctgag aaatactgcc taaagcctgt tggactgaca69481 gcaagggctg ttgtctgagc aagactttgc ctggcctggg gtggcatgtg caccaggaag69541 agtctcaact ttcataacag aacattcccc aagctggttt ttttaaagca tgtgaatcta69601 gacttcattg gcaataccaa agatctgtat ttgaggctcc aagtatttca ctttcatttt69661 tggttttggg ttatgttttc acccttcctt tccaagtgaa aagtaaacag aagtgggatg69721 tctggcgccc atgctgagct tggcaacttc aaattcaata gagaagaagt ctcttgtata69781 gaaaagggcc tgtctgagat gtttctcaaa taaatataga ttttgcttat gtggctaaag69841 gattcttctc cccccatttc cttatccctg cagtgagcca tccttcttaa ctctttccat69901 gaaagcatta ttcctgaaga actgggaact catgccagcc ctgatcaggc aatgataatt69961 ctgcagagaa ttagaattta gatttaaatt gtcaactctt atacatcctg gcatatggtt70021 taaacacatg tacacacaca caaacacctc ctactattta ctgaagagca gatatctgat70081 aacttaatct ttttggtttt gagtcaagac aattcctcct tttgaaactg cataccgctg70141 aatataataa aatgtaatta agattaaaaa taagaaacta atgggagaat ttcaatattg70201 tctctgttca ctttaaaatt cctctactta ggtttactgc cattaccaaa gactattcaa70261 aaatcctttt taggagaatc ctaatggttt cctgacatat aatcaaataa ggactctgtt70321 gattggctaa ctcaatcttc ctgtgccaaa aagcagagcc cagcagagaa gagggcaggg70381 acttgaaagt cagactgact cgagttccag ccttggggct gtgggagctt gggcaagtga70441 cttaacgtct ctggctctca ggatctaaaa ggatttccag tagtaatttg gggtgttact70501 gatacaggag ctaaaaagaa attatttagg tggttagtga gggtcagaga gtcctcggta70561 agatttgcct tttaacaaaa agcagcccca aaatcatttg tttgctaaca aagagaagcc70621 tgtaaaattg agctgcagac atagataagc aagctggaag cttgcacggg tgaatgccgg70681 cagctgtgcc aataggaaaa ggctatctgg gggccaggca tgttcaacat ggattctcca70741 tcttcccttt tctttgtcaa ccaagtgtac agtaaaggaa caggcaacat ggcacgggcc70801 aggtagagaa cccttctgca taataaaaga ttagggtgag atggccagct tcttcccgtg70861 ctatgtaaat ggcatacctg gtccaaccag tcttttgggc cctgtgtaaa tcagacaccg70921 cctcctcaag ttagtctata aaaccccatg cattttaccg tgaaactggg agatccactc70981 ggaaccccct cctgcacgag agaccttttc tcttttgcct attacacttc cgctcttaaa71041 ctcactgctc atgtgttagc atccttgatt tccttggcat gaggcaatga accttgtgta71101 ttaccccata caaatgatgc tgcttcatta ctaatagcaa cctgacaggg ttgtgttggg71161 gtataaatta tctagaccag ggagatccaa tataattttt ttgtaatgac gggaatgctt71221 tgtatctgca tcatccaaaa tggtagccac caggccaggg tgaaatgtgg ccagtgtgac71281 tgaggaactg aatgttttcc atgatttaat ttaaatgtgg ccaatggcta ctgtaggaga71341 cagtgtgagt ctggcatatt ataaataata aatattaata taatttgaac tttggcatca71401 gtgtttccta gatttgaatt actatgcaag ttgcttactg tttccaagcc tcagctttct71461 aatctgtaat tggggctaat aatagtatct gccttacagg tttgttcaga ggataaatga71521 gaaattgcat gttgagggct taacacagtg cctggcacat aaaagctctg gtaacagtta71581 gccactttaa taatttgcta ataatggcta tttcttcttc agattaggat gtgctccccc71641 aaacagtgca cttagacata gcgggcaatc cagctcactc tctgcagtga gagagaagca71701 701 71701 ctggccgacc agagtcagcc aggggctcat 71701 gggtatgaaa tcaacagcat gattttgtaa71761 gtaatggatg gaaagggcct cacaacttta tggcactgtg ttcaatttgc ttggtcttct71821 gtagctcctt ttgaaagcct tttagggtgg attaacctgc taccaataat tctggtcaga71881 tgtagactcc atagctcaaa gcaaactgag agagtgaggg cagcaggcca attccccacc71941 ccttccttct ggactctgac agaagcttac actcaaggaa gagcaagtag gaattaacgt72001 gttaagagct aggtaagcaa aacccaatga gaagttctgg caaagcccca tgggcagggg72061 tggcttaggc acaggaaaca agtaggattt cataccacgc gcctcagtct acttccgggg72121 ccctcatcct cagctgtgcc tatgcaaagg agagcaacca ataaacccca ccgccactct72181 cctactgtgg aggccaggga tggccagggg taagagaggg atgggaagtg tttcctccag72241 ccgtcctctg agaaggagag gaaactgggc agagcttctg tcctccttca agcagaaaca72301 gaaacaaaag aaacccctaa gggggttctt acttcccctc tagttcagtt gtgcactaac72361 catctgcagc tcaacattca gcattcattc attgattcag caaacattga aggagggcca72 gctatgtgcc agatgccaac tcatgccatg aaagagagtc cctgtcctta tgaaattcac72481 tatttagaga gaaaagcaag caaaaaggca aagtttgaaa agtactgttg aagtggcatc72 attgtctggg gtgaatacct gaggtttgtg gtctcacgcc aagggaatca aggactcagg72601 cacacaagaa gtgagtttaa gagcagaggt ttaataggca aaagaaagag aaaaaagaat72661 agctctcttg cctgcacaga gagaggggca cctgagtgga tcttcctgtt ttgtggtgaa72721 atgcaaggca ttttatagac gagcttgagg aagtggtgtc tgatttactt aggacccgag72781 agattggtca gaccaggtgt gatgtttaca tagcatacaa agaagctggc catcccatcc72841 taatctttta ttacgcagac ggggtctata cctggctggt gccatgttgt ctgttcctta72901 ctgtacacgt ggttgacaaa gaaaagggaa gatgaagaat ccatgttgaa catgcctggc72961 73021 ttgcttatct atgtctgcag cccaatttta caggttgctc tttgctagaa aagaaatgat73081 ttgggggctg cttttcatta aaaggaaaac cttaccaagg ttaaaaagaa aaaaatttct 733672 ttttaatgcc tatgttactg tgaacagtgt cgggataagg ctctgagagc cagatgagga73201 tgagttatcc aatccaagga tgggggtctg gaggaaaaaa tcctagagag cattgctgca73261 gttgaataag gattagttag aagctactga gtggagcata ggagtaggaa ctcttatgca73321 aatgtgcaga ggtgaaataa agcaaggtat agtccaggtg cctaaagtag cacagctgac73381 ttgagataga tgatagatag gtagatagat ggatagggta catagatgat agatagatag73441 atagatagat agatagatag atagatagat agacagacag acagacactg gtgtgagtgt73501 gggtgtgtgt gtctggctgc gtgcatgcat tcctcctgca ggagatcagg agcagtgggc73561 agtatggagt gacaagaaga ttgggaggta ctccttctag ccctcccctc tgctctgccc73621 tccactggag cagaagcaaa gcatatggtg aaggggaaca aggagtctcc ccagcacagt73681 acccgagtgc attagctatt tatcactcca cagtccccat tcacgtgtta attcagcatt73741 tattgaatgc ttactgtttg caatgtctat gtcaagctgt caagtgtagt ttttattcta73801 caggccacag gcacccccta actgtgttaa acaagatggt agtattgaga caggaataat73861 aagggtggtc acaggagaat ggaagattcc aggcagcagt ttgactagta aaaaaggaaa73921 ctgttgaaat agctgcataa tccaggggtc aataagaacc tgagaaccag ggtgtgagcc73981 aaggctggtt aaaagcaact ggatccaata tggtgctgag tttctcctag gttttgcctg74041 gaacctcatt atatgctcaa taacatacca aatcacacac ccaccagggc cattccattt74101 74 74101 cctggaacac tcatgtttgg tgtaaaaatg ggtggcacca cagctctgag aaatctttac74161 ctttttcagg aaacttcatg aatattccat cctttggtta aagaaaccca taatgtagaa74221 74 74221 gccccaaacc ctactgggcg caactctctc tctcttgagt atgcctgcac ttccctttat74281 tatttattta tttatttatt atttatttat ttatttttta gatggagtct ggctctgtca74341 cccaggctgg agtgcagtgg cgcagtctca gctcactgca agctctgcct ccagggttca74401 ggccattctc ctgcctcagc ctcctgagca gcagggacta caggcgccca ccacaacgcc74461 74 74461 tagctaattt tttgtatttt cagtagagat ggggtttcac catattttat tttatttttg74521 agacagggtc tcactttgtt ggctcgctgc aacctctgcc tcccaggctc aagcaatcct74581 74 74581 ccaacctcag ccccccaagt agctgggagg acagacgtgc accaccacac ctggctaata74641 ttttgtattt ttttttgtag agacagggtc ttgccatgtt ccccaggctg gtcttgaact74701 cctggactca ggtgatcagc ctgcctccac cttccaaagt gctaggatta caggaatgag74761 ccaccccacc cgaccacact cccatttctt gagtgtgtgc attttgctct gcaataaatc74821 tctctacttt cacttttctc tgactcgtcc ttgaattcct tcttgtgaca gcgtcaacag74881 cctggacacc aggtgcagtc aacgtctcac cagtgtttag ggacctcccc taatccactg74941 gtatcagcat gatcagactt gctttttcag aaaaagcctt ctgtccatag accaaaggga75001 agtgactcag agaaggggca ggaggaatca caagctccct gcctgaccag gcctggacta75061 tggcagagac agtgagatgg tgagaaagca agggtagaca gccagccaaa tccagaatat75121 agaaagttct acaggaaaag gtggggccaa ggtgggacag ggggaaagga attgttgcac75181 attaacagtg caatgcagag cactggtctt gtttatgtcc aggttagaac aaaccaatga75241 gaaagcacat ctttgagaca actggagaaa tttgaacact gactagatat aatattatgt75301 taattatgct ttaatttggg gtacaataat gcttttgtag ctatttctaa agagtcctta75361 tctcttaagg atacactcta aaatactagt ggattaagtt atatgatgtt tagactcttt75 ttaaaataat ccagtggggt gagaggcaga gggaagggag aggagcatag aggaaacagt75481 gttggccata tgtttgtaat tgttaaaact gagtgatggg aatatggaga tttaacatat75541 taatactatt ttctgcccat gtaatatttg aatattttca taataaaatt gagagagaga75601 taaagaaaga aaagagaaaa gaagagaaga gagaagagat aagggaagtg gaggaaaaag75661 agctttcttc aaggaccatt gtggtggaca caaatgaaag ataccccctt cctactatga75721 attctaggtg tgtactaccc aagatgagtc aatcggatcc tagcttccag aaatcgtgag75781 catgatgcag ccctacagac gcagtgccct ggaaaggaga cccatgacca tccaaggaag 75901 75 ccttctttcc tatgaccaat gccaccagtc ttccagcact gtcctttatt gctaggcaaa75961 cctgagccat cctcttcttc ttgcaacttg tgcctgaagt aacatggaca caaagtcccc76021 acttttccca cattctcaga atgaagtagt tctccctcca cactttaggt gctagaggca76081 agtggattgc ttgagctcaa gagttcaaga ccagcctgag caacatggca aaaccccgtc76141 tctacaaaaa atacaaaaat taactggggg tggtggtgtg cacctgcagt cccagctact76201 caggaggcag agaaggagga tttcttgagc cctgaaggtg gttgtgttac gtgcattcat76261 gttaagagac caccaaacag gctttgtgtg agcaattaag ctttttaatc atgtgggtgc76321 aggcagactg agtctgaaaa aagagtcagc aaagggagat agggatgggg cggttttata76381 ggatttgtgt aggtagtgga aaattacagt taaagggggt tgtcctcttg cgggtacagg76441 cgggggtcac aaggtgctca gtggggagct cctgagattt attgtccagg agaaggaatg76501 tcacaaggtc aactgatcag ttagggtggg gcaggaacaa attacaatgg tggaatgtca76561 tcagttaagg caggaactgg gtattttcac ttctttgtgg ttcttcagtt gcttcaggcc76621 atctggatgt ataagcgcag gtcacagggg atatgatggc ttagctcggg ctcagaggcc 7665 76681 tgacattcct gtcttcttat attaataaga aaaacaaaac aaaatagtga tgaaatgttg76 gggcagcgaa aatttttggg ggtggtatgg agagataatg ggtgatgttt ctcagggctg76801 cttcaagcag gattaggggt gacacaggaa cctagagagt gagagagatt aaactgaaga76861 aagattttgt ggtaaggggt gatattgtgg ggttgttaga aagagcaatt ctcatataga76921 atgattggta atggcctgga tgcagttttg tatgaattga gaaactaaac ggaagacaca76981 aggtctgaat aagagaagga gaaaaacagg cattaaagga ctaagaactg ggaggaccca77041 ggacatccaa ttagagagtg cccaaggggg ttcagcataa ttatttgctt ggttggtgag77101 tttttggtct ccatccttga gtttttttta tgttgtcata tgccaggcca gattgattta77161 ggtaaaaaca acactcttca tttaaaaata tacagagttc tcctttctca gcagtgagta77221 agtcaaggcc tcagcagttt tggaggaaag agaaatgcaa aggaagcaat tgtttgttaa77281 gaaggattag aaatggctag gagagagtga gtgagattga tagtgtggtg gagatagctg77341 aggagaggta gagggtggca taagaatggg aacgagaata agagtgagta taaaagtaaa 77458 ccactccaag agggagtcaa gagtggcgga ttggggatag taccaggaga tatccactat77521 gatggtttgg aggaaaagtg taaactggca gtgtaaacag gggcagggca tttatgagtc 7756 attgagaatg gtgaatagga gtatgactag acagaagata gtggagatga caaattttgg77641 gggcacagtc caaatagtgg gggtgactgc gtagagctct gttgcaaaaa gtagggtaag77701 gataaataga cttaatagaa tgaagagatg tattaggctc ataagggtta ttattgttct77761 tcagaaatgc gagtgagttt aagggaagta ggggtgagta cttgcgactt ccagaaggaa77821 gaggagagat caggctggct gtctgatggg cacagcttta ttctggaaca gtgaatccaa77881 tggggagggt cgtgcagacg gatggcagtt ggggtgctat aaatgaccag gtagggtcca77941 gtccatcaaa gctgtagagt gtgaggggtc agacttgaca aggactgatt gcccagctaa78001 ggtatcttca catggctggg agtttggagg aggcaagaga agattagcag cctggcgaat78061 ttcctgtcta gcctgctgga ggactggaag ataaaggcaa caggtcgtgg gcctggatcc78121 tgtgtgagga ctctagcagc acagccttgt atttcagctg tgtgtaagga aaaaggatgg78181 gacgagtcgg ggagtgctag tgtgggagct gtctccaggt cctttttgag agagtgaaag78241 gaagaatggg gaaaagactt atggtctatg ggattagtta aattaccctt tgtgagctag78301 taaagtggtt tgattaggat agcaaagccc ggtatccaaa gttggaaata tccaacaatg78361 78 cctaagaagg aagggagttg ttgtttggtg gtgggggttg gggtctggga gattaactga78421 acagagtctg caggaagggt atgtgtatgt tgatggagca ttataccaag ataggtaatg78481 ctaggggaag aaatttgtgc ctcagagggc aatactttgt acccctttga gtaaagatgt78541 tgaagaagca ggctagtgtc ctgctgggaa gattggtaag aggggctgca aagaagaaga78601 tcatcaacat attgaataag gtgggaggta gatgggtgaa aagaaagcag atcatgagaa78661 agggcctggc caaagtaatg tgggctgtcc ctgaagcctt ggggtagaaa aatccaggtg78721 agttgttggg actggtgggt gtcagagtca gtccaagtaa ggcaaaaaga ggctgggagg78781 agggatgcaa ggggatagta aagaaggcat ctttgaggtc gataacagaa tagagttgtg78841 gaagggtgta ttgaagatag gagggtgtac gggtttggca ctataggatg gatgggaagg78901 acgatttgat caacaagacg aagatcctga acaaacctgt aagacttgtc cggtttctgg78961 acgggtagga taggggagtt gtaaggagaa tttgtaggct ttaagaggcc atgttgaaac79021 aggcaggtga taacaggctt taaccctttt aaagcctgct gtgggatggg atattggcat79081 tgagcggggt aagggtgatt acattttaat gggatgataa ggggtgcatg atcggttgcc79141 aaggtaggag tagaggtttc ttatacttgt ggattaaggt ggggagatac aaggggagga79201 tgtgaaacag gtcttgagtt gggtaaaagt gcagcaaaga gatgtggctg cagcccagga79261 atactcaggg aagcagataa tttggttaaa atgtctcagc ctattaagga agctggacag79321 gtggggataa ctaaaaaagt gcataaaaga atgttgtcca agttggcacc agagtggggg79381 agttttaagc ggtttagaag cctcgccgac aatacccaca acagttatgg aggcaaggga79 aacaggccct tgaaaagaaa gtaatgtgga gtgggtagcc tccgtattga ttaagaaggg79501 gacagactta ccctccactg taagagttac ccaaagcatc tgtgatggtc caggaggctt79561 ctgaggtgat caggcagtgt cagtcttcag ctgctaagct gagaagatct gggaaggagt79621 cagtcagaga gccttgggcc agagttccag gggctctggg agtggttgcc aggcaagttg79681 aacagtctga tttccagtgg ggtctcgcac agatgggaca ttccttggcc cagtggccag79741 atttccggca cttgaaggaa gatcctgggg gaggaggtcc tggagaaatg cctggcccct79801 gcagtttagg tgttttgaag ttcttgtgtg ctggagatgt ggctggggtt tctcttacag79861 cggaggcaag taattgcaac tcagaaatat gttgtcactt ggctgcctct tttctattat79921 tgtacacctt aaggcgaggg taattaaatc ctgttgtggg gtttgagggc tggaatctaa79981 tttttggagc tttttctaat gtcaggagca gattgggtaa taaaatgcat attgagaata80041 agacggcctt ctggcacctc tgggtctaga gaggtaaagt gtctaagggt tgttgccaaa80101 caggccatgg actcagctgg gttttcatat ttgatgaaaa agagcctaaa cgctaactga80161 80221 ccacctctct aagaggaaat tgttgggccg gtgggggagg gctagttgtg gaacgaaact80281 gtaagccaga ccaggtgtga ggagagaagg tgaccaaagg tttatagggt aggggagcag80341 aggctgggga agaattggga cctggctagg cctagcgagg aacagcctgg ggaggagggg80401 agaaatcaga tgggtccgta gaaaaggagg attcaaagga ctcagagctt ggggtggaga80461 ctgaaggaac agacaggaga gaaagaggaa agatttggga tgagtcacat tgggagcaga80521 gactagagag ggactgatgt gtaaagaatg cctggacgtc aggcacctca gaccatttgc80581 ccattttacg acaaaaatta tctagatctt gtaggatgga taaatcgaaa gtgtcattct80641 ctggccactt ggaactattg tcaagtttgt attggggcca agcagtatta cagaagaaaa80701 taagatgttt aggtttttaa aagagtgcat aaaagaatgt tgtccaagtc catgcccttc80761 ttaatcaata tgggagctac ccactccaca ttaccttctt ttcaagggcc tgtttccctt80821 gcctccataa ctgttgtggg tattgatggc caggcttata agccccttaa aattacccca80881 ctctggtgcc aacttggaga ggtcaggtgt tagtcaaagg tgttttaagt tttaagaaca80941 caggctaagg gagaagaagg gggaatgaag cgtggaaggt tgcccatagt gaaagaggta81001 agtttaaaga gaaaggtaga gacatggaga aggggggagg tgagcagccc tgggctgtca81061 468145 81121 tgaatgacca aggcaggcat ccccccggtg atcagacacc aaatggaatg tgggtgaaag81181 atcaaggtag gtgtccccat gatgatcaga caccaaagga aggctgtctt cccaaatcca81241 tgatccatgt tggagttttt gagttcatgg ataaaatgtg tctcctttgt ctctactaga81301 gaggaaaaag aactggaatt tgaaggacag ggagattgaa gggtagggag agaggctgaa81361 gaagagagtg aggagaccgc ttacccggtt tgaaattggt gagatgttcc ttgggctggt81421 ctgaggacct gaggtcgtag gtggatcttc tcatggagtg agggtgagga gaggggacca81481 atctcccgaa ggagtcaccc tgtccggggt cttcggcacc aaatgttatg cgcatccata81541 tgaagagacc accaaacagg ctttgtgtga gcaataaagc tttttaatca tgtgggtgca81601 ggcagactga gtctgaaaaa ggagtcagca atgggagtta gggttggggt ggttctatag 8182661 8153 81781 aaggtcaatt gatcagttgg ggtggggcag gaacaaatta caatggtgga atgtcatcag81841 ttaaggcagg agcggcctat tttcacttct tttgtggttc ttcagttgct tcaggcaatc81901 tggatgtata tgtgcaggtc acagaggata tgatggctta gcttggactc agaggcctga81961 caggttgctg cagtgagcca agatcacact actgcactcc tgcctgggca acagagccac82021 aaaaaaaaaa aaaaagaaaa gaaaagaaaa aaaaagaaga agaaaaaaaa attttttttc82081 caccaagaat ttagtaaaaa attataggga aaagtgtcac taattcaagg gaattgcact82141 gaaaattatt cattcattca acagatattt attgagaagc aagtatgctg gtgctagggt82201 tacaacagcg cacaaattct tgtattcaag gaatgaggta agagtatgca gataggagcc82261 agagaggtca agaggcaatt gcaacataga gtgacacgtg ctccagaaca cataggaggg82321 cttccaggcc ccatgctggg ctatcagagc tggcttcctg caggtggtgt ggctcagcta82381 aaacctgaga accaagaatg agccttctga tatctcaggg ttaaatcggc acaaatgaaa82441 ccattttata accaaacaac attttccctc ctgaactgca ctttttctag aacccattta82501 atccttccta acatgttcaa tccagccccg tgatttttca gtcaaatgca agatgcgtag82561 gattcctttt ctgttcagtg ctccccagcc aatctttttc ccttctccca ccccacagtt82621 actaattcca gcgtttcagt tctcagcaga ggatgacagt tccaccagga gacatcagtg82681 ttatctggag acattttagt tgtcccagct gagggcacag tgctgctggc atctagtggg82741 tgaaggtcag gaatgcacct caacatcctg gaacactcag gacaatcccc agcaacaaaa82801 acctacccat ccagaacatc aacagggctg tggctgagga gccctgctct agtgcttcct82861 ccttactgta tcctcatcaa ggagggctct ggggcatgtc aggggctgct acaggctcct82921 ggcagatttc ggcgacttac tccagacttg tggaacattc aggattctta gcatggccac829 aggagagtca ggctgtccac aagcactctc tctttcttca cccactcatt cctgtcactc83041 taccatttcc actgccttcc caaatgccca tcgtgagtcc caccaggggc cagaacacca83 ctctctcaag cctccccagt ggcgcgtgca cacctggaga acatgtctca catcccccag83161 ccagcgagac gtcctgagat tccagcactt ctcagtgtct ttcccagctt gtttgtatct83 ggaatggggt ggggtctctc acacaggaga aattacaagg aaaagtgtac gtgacaggaa83281 tggaggaatt tctgtggaaa cggtgtgtga gaaaatgtag gaagaaagaa acttcaggaa83341 atggtaagtg gcatcttgag agcagaaagt gagaagggag cagaaagaaa tggggctgga83401 acctgggaag gagaggacag gtggggatgg ccttgcacac cgtgggcact gaggagtgtg83461 ggcccatggc atgggtggag aggagtttca agatagggag tagattccta ttttgaactt83521 cggattgccc ctggcgatgt ggagactgta ttggaagaag gcaagaatgg aggagagccc83581 ctaggtggag gtttggcaat gctctctcca gaatatagca gaggcctctt ccaaggtagg83641 aaagccctga ctggagagaa gttaatggct ctgagggctc aagggaggac ttggattatc83701 aggactttta gggaggcata tgatcaaggc ttgggtcttg gcccattgaa atggggagca83761 ctggttttag gatgtgggtc aattagtttg gttttcagga caggctgagt tggatatcct83821 gggggacctc caggtggcag tgtcagggga agctggatgt gctgacactg aactcagcag83881 agtgactgag tagagatcga catctggggt cacaggcagt ggatgccgta ggggtggact83941 caatagctca agcagaaccc ggaggaatgc aggcagcaaa gggagcccta aagaacagtg84001 aggagatgtg ccaagaaaga gccaaatccg ggggattggc tgtgggagag agggctgtgg84061 gagtaagagg aagtgtcagc aacgtcaaat gttgcagaga catagagtaa ggtaagagtg84121 gaaaaaacat ccatggaacc ctgtgatgca atcggaatgc agaaagactt tgtaactcct84181 gcctggtctc ctcctctgcc cactcatggc aaaggaatac aaagtaatgt tccctccttc84241 cgcctagaaa agcacaactt ctgcccccaa gccctgggct ctcctgagag gacaggacca84301 gcctctgaag ttgaaggtcc tggttctgcc cccaagccct gggctctcct gagaggacag84361 gaccagcctc tgaagttgaa ggtcctggtt taccagatag ggaaggggcc ctttccaaga84421 ccctttccag aaggtgtggc tgagatggga accgtggact ctgtgcagat gtaggagctg84481 gctccagtca agtgctagga ggttgtgggt cctgggaagg aagaggctct ggagcctctg84541 tggagactct gggactgtcc ttgggggaga cgtgagcagg aagaagcagg gccttcacag84601 tccccagctt aggggcctca ccacccagac tgaagaccag gaccaaaccc tttcctgcac84661 agttacaatg tgtcatttaa ttttactaaa gggaatattt tttaaatgag gatgctactt84721 tgtgtattaa tttttacctc tattcataaa agaaacgttt cttatctatt taagatgatt84781 catatcagac cagtgtctgc ccaactcgac tgaccctgtg aaaactgggc acttcacact84841 ccaatgatga tggatgagtc cccagcagca tagtttaagg gagtgagtgg gcagtgtggc84901 ctcctgtgca cgtgacttcc tccttcagtg tgcccacatg tgggttccac ggtcttgtga84961 cattgtggct ttagaaattt ctgtttccat tttctatcat tcagagtaaa tgaaatttgc85021 aggaaattca gaaccttcca cctgtacagt ggatactgtg agactctgcc cagatgccct85081 cttcaagcca atgcatctct ccatgctccc actcccatag atgggaacag aggtgctgga85141 actcagatct actccccttt ctgggaactg gagctgcctg cccaggcaat gcccccttcc85201 cagggatggc tgagccaatg actggctaat gttggattgc agaggcctag cgccctcccc85261 tcaattccta attccttgta ggaataactg aggcctcctc tgtgaccacg tgggcagctt85321 ctccctctgc ctggtcctgt cttgttctct cctttccaat tgtgtctcct ggaagccctc85381 cccacaagtc tgctgcatac aactctcctt ctcagagagc ctgagccctg gattcccagg85441 aatccagcct aaaatagtct ggcatttggt ttcaattttc tctttcacta agactcagtc85501 acaggtgcta ataaataata aaatgtcacc accttgaatt ctatcactct ctcttttctt85561 gccccatctc tgacaagtag gtggtccctc aagaacctga aaagcagaca ttaggaggaa85621 aggaggagtg ggggcaagag gcccacacct cacctggccg gctcccatcc atgcgccctt85681 gactgaggta acacctaccc tgggaatcct tcccctgcct ctcgtgagcc aggccgggtg85741 ctcttgggac agctcccact gctcctgtgt gctcccccag cttggcacat gactccctga85801 attatagtca gttccgtacc tgaatctccc tctagaatgc cagtgccacg aggacagagg85861 acggttccac tttgttcact attttctccc cagggtctgg caaagttcct gggacttggg85921 agaggtgtcc ttcaggagct tggcagaagc caaacggcac acttaagtag ggcaactgag85981 gtgagtttaa tgaaggattc tatacaaaaa tttggacaag gtatagggag gccacaatac86041 acagtgcagt gcctggtgcc agtgagagca gggcactatt cccactgcaa ggccagacag86101 ggcaagggga gggagctgcc tgacaagagc tgcccttacg tcaagggaca catcagccca86161 ctagacccca tcaggaggga gccagggcct gactcccctg accttgctct ccaatcttct86221 gcctaaaatt ccccatcagc caaacacaac tgaaaactga aagacagggg agcctgctgt86281 taataaggtg agcttccccc agaataaagc tgggtagaga gtggagaatg gatatggaag86341 ggcaaaagga agatttataa gacagtgggc actaaatatc tatgagatga ataaaggaac86401 cacattttac aacaaacggt cattgaaacg ctactcaatg gaaagagatc atttcggtca86461 461 84 86521 cgacacgggg cagacagcaa ggctgaagcc tatggggtat gtggagccgg aactgagaga86581 tcctgatgta aatctagcac ttgggaaaag ggggactaga agaaattcac ccacaggcag86641 aggaaaacac aaacacttat ctatttttgc ctaggcttta agtggtatgg gaaaaatctc86701 8648 86761 caaaaccagg cgcggaaaat tcatatcagg ccattgatgc cctcaatgtt cccggctgaa86821 5886823 agagaaaata atccccagtc aagacacact cacattgaaa ctgcaaggca cacaaggaaa86941 tggatcacct tgagtgatag ctggcagagc taataaacct ctgtatacct ctaagaagct87001 ccacgcacta gtataaccct taaagatttg atgaaatcat tactttatta aaattgtttt87061 tataaaaaat caaaatccaa aaaaagcaac aaattttata ccagagccaa ttcggtatat87121 acaagggtgt cttactcttt tggaatttgt cttattgtcc taactcagca cattgtcctg87181 gtctatgaaa agtcctagaa acccttctac cctctgtaat gtaggagctt taactcaata87241 gggtttttta aattcttttt tcttgtcttt ttttcttttt taattttttc cattttttca87301 agtcaaactg aagaaatatt tttcttttct ttctaggaat gcatattcac cccccaaggc87361 cacttgtctc ctgattggag agtattagac aattctcagg atttctttat tttccttctt87421 tattccatag gattgggaaa cccagtagga ttgggtttag gcatatctct aaagcaccat gtttcaacgt tttgatgtaa gattgtgccc tatttcttgt tcagttgctg ccagcagatg87541 ttatagtttt aaaactagtt tttggtcatt gagatattag aggagggaag agtctgctat87601 cctgctttac tcatcttcat ctacactaca ctgtcatctt cactgcaaag tcctgtatta87661 atgtttttag attctataac attttaacag gtgtcaaaaa atcttaagca ccacttcagc87721 ttgggaatct ctaaatgtaa tggtgtttgt gggctggact gatgtctgcg tcttgttgtt87781 gttattgtct gtagtaatgg agagccggga gatcctggac acttcctgtt catgggcact87841 tgatgcatta gctgccccag cagctgatta catttaaaca aggatgtgtg ggtgaaccca87901 gggagaccaa tctcagtgga atggtggggg cagaagccag gctgcagggt gtagagtagg87961 gaatgagcag tgatgaagta gaaacagagt ttggacaact agtgaaactg cctggaagag88021 ggggagaaga gacagtaaat ggtctgacca atgtttgagg tcaaagtggg tttgtaatct88081 ttatttaagg gacagatctg agcatttaaa aattctgaat aatctaatag agaggaaaaa88141 gttgggactc aaagaaaatg tgggaaaaaa tgatgaaggt taaacggaat gagatccaga88201 gtgcaggggg agagattagc ctttggtgtt agaggagcaa ctctgtccat ggagagagga88261 aaaatgtaga cataccacag ttgcatttga agttggggcc tgaggagttg aggagttctg88321 agaaaagcag aagatgagat catttcctga gagtaaatgg gagtcattag aacgggggtg88381 aagagactgg aagctttagg tagcttgaaa tagttgatgg aaaaattgga taaagtgaca88 atttgtcaca ctcagaacag ctatcaggga atctagaaga atctctggaa gctagttgaa88501 gatcttaaat taccaatgta tcttgtccac atagctaagc ggttttactt atttttattt88561 ttttgaaaca gggtctcact ctgtcacaca ggctggagtg tagtagtagt agcacaatca88621 cagctcaatg caatctctgc ctcccgggct caagcaatcc tcccacccca gcctcccggg88681 681 cctgggacta cagacacaca ccaccactcc cagctatatt ttgtacattt gtagagacag88741 ggtctcgcca tgttgcccaa gctggtcttg aactcctggg ctcaagtaat ctgcccacct88801 cggcctccca aagtgctggg attacaagct tgagcccggc tgctaagtgg ttttaaacag88861 ctgttctcgg aaacacacac tcaaagaaaa aatgtagagg ataatttatc taaggctggg88921 gcttcaagag aggtcagggt gttgacaaga gaatgactaa gtggcagact actggatctc88981 agctagataa agagggatgt gatcgtggga ggggctgata gtcagaggct ggaaggcttg89041 atgaacaaca catattacac aaagaataaa tggagtgaga gaaaccaaag gagtaaaagt89101 tgtcatcaga aaagtgagaa attttattgt gagaattcag tggtaaatca atgttaacaa89161 89 acctcagctg ggcactagtg gagtgaaacc gaaggccagg gagttgagtt aatgagctga89221 gacttgggca ccagatgggg gtccacatgg acaactaagc caccaggatg atgtgggaaa89281 ctggggtgaa tagaagcccc ttatccatgt gcacaagtct tgaataaaat aggggcaacc89341 aggcagtcag tggatgatag cagtgaggtg gagcagagag caatgtagtt ggagaagtgg89401 agcccacagc agtctccttt atatctagaa gggaattaat agccaaaaaa tggcaccgag89461 gccaaggatg tcaccttctg actcccaaat ctgagacaga tgtgagaggg aaggagtatc89521 ctcaagggac aggagatggt gcgaatgttt ttggcataaa tcaaagatgt cagggaaatt89 gtcagaattc aggttccaga gacacagagg aaaagcgtgg gagaaagtgg aatattggga89641 641 ggtgagatta gggcagagga agcacaaatc aaagaacgag gaatagaaaa agtcatatga89701 gctgaggagt tggccaaaca tgacagaatg ggaatatgat ggaattaagt ggctttatgt89761 gttccaaaag gattggtcca cgcaggccac aggaaaatgg gaggtaagaa gaaagggatc89821 gaaatgctgc aaagtgtatt acttcatggt aagcaaagga ctcaagactc tagaaaatga89881 tgcccttcct tccaagacta tgttagtcca aatctttcaa gatacagaac ccaaggtggg89941 gtctggcata caagaagtat aatagaggaa atgtctgtga catttgcagg actgcaaagg90001 90061 gatggggaat gacgcaaggt ttggctgaag catgtgccaa aggcacccat cagaggagtc90121 cctctccaag ggatgggcct atcatagtgt ccctaatagt gtcatggagt gggagcagcc90181 cacggagggc acagccttgg catgaacgca gacatgggtc tcagagtgca gcagctgggc90241 ccctcagtca attaggctcc ctcagagctg gggcaggagg tgcactagac cacacagtaa90301 tatttattta ttattaattt aattaataat attaatttat taatttaatt aataatatat90361 ttatttattt attattacta gaccacacag tagtatttgt atgtctaagg aagcatttct90421 cagaatatac tcactgaact tttagcctat aagtacctgt atgaaaattt taaaaggggt90481 ttcatgatca aaacattttg ggaaacactc catacccttt cttcctcatg aaggatcata90541 atgcctatta gtatatgaag ggctctgaga agtcctgtag taaagaaact tgctttagtt90601 ttttagtcca gcaatttttc aaacttaaat gagcaatagc ctcccatcct tttttttaca90661 ctttttagca tactgcggaa taaactcaac atgcattgag aaagactgct ttagggaata90721 gtcaacacta tttcactccc agtaagtaca tataaaatct gtatttccag ggtggattat90781 caacacagct gtattttaga aatattatct gccctcccag gtatcacagc tactaattat90841 tgggtactga ggtggaattt tagggatcag ccaattatgg gaaagaaaat ctgggggcag90901 gataagatgg tctccgaagc cttaaaatta tatgccatta tttacctctt tgatctacta90961 ctcaatatca aacaactaat tcagaagaaa attgattgtt ttctaaaagt agtttttcta91021 catttcccat taagaagcag tggtatttaa aacttataat ggctattatg tgagattatc91081 actatcatag tttttctcta tacaaatttt ctgtaacatt ttatttgcta ataaaaatta91141 gatagatgga ttgactaatt gataatctaa gaaagattat atttgaagaa gccatagtaa91201 gggacagatt aaattatcat cagtctaaac attctaatac ctatttctct ttttttgaaa91261 ttttccaaat ttgttattat gcatttaaac aataattttt tgaactttta ttttaggttc91321 tggggtacat gtgaaagctt gttacatagg taaccttttg tcatgagggt ttgttgtaca91381 aattatttca tcactcagct atcaagccca gtactcaata ggtatctttt ctgctcctct91 ccctcctccc accctccagt ctcaagtaga cctcggtgtc tgttgttccc ttctttgagt91501 tcatgtgttc tcatcattta gctcccactt ataagtgaga atacaaggta tttggttttc91561 tgttcctgtg ttagtttgct aagggtaata gcctccagct ccattcgtgt ttccacaaaa91621 aaacatgatc tcgttctttt catggctgca tagtattcca tggtgtatat gtaccacact91681 681 ttctttatct aatctgtcat tgatgggcat ttaggtttat tccatgtctt tgctactgtg91741 aatagtgctg caatgaacat tcacatgcgt gtgtcttcat ggtagaatga tttatattcc91 tctgggtgta tacccagtaa tgggatttct gtttttagct ctttgatcta atacctattt91861 ctcaagatca agttagatct ctaaaaaagg catcatccta gcatttcccc atcccttccc91921 tgaactaaat ttaatgttgt gtgtatcaat cagcatacag tcaagacaga aaccacacat91981 gaacattaaa tataatgagt tattaactta taaaagggta tgaactacta aagggggtaa92041 ggagaatgct gaagaatgca ggaatggcag atgtagagag cagccataac ctctaagcta92101 aggcacagca gccaaggaag gggcgaactc aaaaaatgcc ctccctcccc agctgatcca92161 cccttgttgg agggggtgtg gctgcaaccc aatggatgcc caagaagttt gcagagttgt92221 ggcaggttgg ggctgctgag caggaaactg cccgaagggg taccagtgag attcccaaga92281 atgtgggcat gcctctggcg aggaagacgc tcttggagtg ccagcaaaat ttactaggaa92341 gctacccagt agggtgccag caaaagtcag caggaagcca ctgtcgtggt gtcggcaaaa92401 ttcactgagg agtgggcact gcagggtctc cacccagcac tggcaaatca gccaaaagaa92461 92521 57348 92521 accctcttat gccttctaca gcaactggca aaggagaaat gtttatgggg tccagctcta92581 gactcacaaa gcagaacaca gaagagtgaa tgaagagctg aaaggcgata aatcagtaac92641 tggagcctca catcctttgc cttttttatt gagggtcaat atattaagaa gaatatgtct92701 gcgtcttcgg taaaattatt gctaaggtta tcacccagtg tgtgttttca acctccctga92761 tataagaact tagtgacaag aaagaatgag acaatgatca tgaactattg gacccaacca92821 tttgtggctt tagtgcccat cttctcagca aggctttctc tctctctctc tctctctctc92881 tctctctctc tttttttttt tttttttttt ttttaagatg gagtctcact ctgtcaccca92941 ggccggagtg cagtggcaca atcttggctc acggcaacct ccacctcctg ggttcgagtg93001 attctcctgc ttcagcctcc cgagtagctg ggattacggg cacccatcgc cacccctcct93061 ggctaatttt tgtattttta gtagagatga agttttgcca tgtcggccag gctgttctca93 aactcctgac ctcaagtgat ccacccacct cagcctccca aagtgctggg attacaggca93 tgagccacca cagccagctc tcagcaaggc tttttctgac tacactattt aaaatgtgat93241 933241 ccctgagcca ccttggcctc tcttgctgtc cttccctgct tcgccttctc catagcactt93301 ctctcctact aatctacaat ttacttgagc tctgtgaagg tcaggatttt tgcctatttt gtccattggt gcatccccag cacctggaac agagctaggc 933933933 933 9337 acaggctagg cactctagaa93421 atacttgctg aataattgaa ttaagtaaat gagtgatcta cacgtagtgg ggaatgagag93481 tatacagtga tagttccttc gactaaaact ggggtcaaat tatagtgata aagaggaact93541 cagaccttca gaggtaagct ttgtggacca cttgccaagg ctgcagaatg tgatgtcgtt93601 tcacaaacaa ggaggcccta ttatggcttc agatatgaga ataataaaga gaactttcct93661 ttcgcctcaa ctgcagcctt ctaaactctt ccttccttcc tatgtagaag tttcaaggac93721 ctcatggcct gagtgtggat aggcagaatg ctgggaatca ggcaaaaata aaataatact93781 gaaagtgaag gtcatgctaa tattagtaag ccagggtgat cctgaattta caaaacattt93 ttctttggga aatttcacac ctcacatgat tctgtgtttt tacttgggaa atttcacatc93901 tcacatgact ctgtgacatg cggtacatga ggtgcctgac tgctgttttt gtcctctact93961 aatgaggaag agtgtgcgta ctcccagcgt tttgcaagtt tcaaagtctg acttgacttt94021 ccttcctttt cctggaactg atccatgagt atcgagagta aagctgcccg cacctactca94081 ttcaagatcc tgagtgtcct gcccagctgc aggaggtgga gagacccagg aggaggggcc94141 actgctgatc ccaggctgta gggggtggga agagtgtccc agggcaccat gacccccact94201 cactcactca caggagaccc acacaagaga ggagagggca cttacagctt aggttcccac94261 cagcaccaac tcctctgcca tcaaacatca ttgtgtttct ctttctgcct tgtctgtcgg94321 cacacgtgga gttaaattta atgctcaatc acatatttgt ctgggctctt tctgtgttta94381 tttttctctt aatagttctc tctcctccct tcctctcccc gcccctcctc ctccttcttc94441 tttttttttt ccagagacag tgtctcgctc tgccacccag gccagagtgc agagtggcat94501 gatcatggct caccgcagcc tccaactcct gggctcacgt gaacatccca ccttggcctc94561 tggaatgtct gggattacag gcacttgcca ctgcatctgg ctaattttta tattgtttat94621 agatccggga tctcactatg ttgcccaggc tggcctcaaa ctcctgggct caagcgaccc94681 tcccacctca tacttctgag tagctggggc tgtaggaatg cgcctcagtg ccaggctagt94 ttcttaattt tctatttcta ttttgacagg tacaaatttt gtattcaatc ctacctcaga94801 cacatctttg gtgggaaaag gatgtcattt aatcaatata taaattctaa gcaaataggt94861 ctgatcccca aattaggtta gtcacagctg ctgagtcgtt gacccaagag aagctcatct94921 agattttttc attattttca agttcctctt ctcggttcgt ccttcttcca gaccatgccc94981 tccccgtccc actctcttcc cacagcctcc cctccccaca gcctcctccc accattccaa95041 atctgggctg ttctctcaat ttccttctct ctggactcaa acctacccta gcccccagcc95101 tcagtttggg gttaaacttg tcctcctcac attctctccc acccaacttg atgtcgcctc95161 tgtgtcatca ccacgggatt ttcctcctct gggttctcct tttccgagtg gggtcagctc95221 ccccatgagt cacagcacca atcacttctg gctgcttgca aacccctttg ctttcctcag95281 tgttgacacc cagggcagcc ctatgctcac tgccgctgag accccacctc tgcccctggc95341 cttttcccag ctgacatcac cctgtggctt ccattttcct aaaattctct tttgaggcct95401 cagtcttaac caaagcacac agtgcccctc aaaaatgaca ataaaaaccc aaacacaccg95461 tgactgtcat ggcaggttcc tggtccccgt attgaatcag cgggtgggtt tctgcgaaca95521 ctggtgagag gccgcattag agggtcagga ccctcaggtc tggactcgtg gtcaccacat95581 accttcctcc ctgctgacag tagctggtac ctgttaccta ctcagagtgt cacatgccac 9559 aagccagagc gtcttggcag ttctcagcac cttgacatca cttccttgct accactcaga95701 gcggcagtga cacagttccc ttatctcaga aggccagaag acggctgtca aaggtcacag95761 ggaaatcaaa ggcggggtac agggccagag ggaggaggaa acaacttccc ggttgctttc95821 agacgcttca gagatcctct ggaggcctgg gggagctttt gagtacttta tttcagttgg95881 tccctgagct cggtgagtgg ggcgggtaga gccaccaggg gaatcaacag tggtttctcg95941 tgcccctcag ggtcaggagc agtctgatca aaaggagggc atccactgtc cggggccatt96001 cccacagctc ccggatgctg ggtctggagg ctgcgccctt cccctgcagg agctcagccc96061 agtggtaagt catctgtgtg tcatctatgt atttaacccc ttatggccat gttgatgctg96121 agcatggttt cacttttgca aacatttatt tatacccttc gagagaaaaa cgtctcagct96181 gtcacaggaa gctgcttcgg ggggtgagca aactttttaa aatgcagaaa ttatgatcta 963672 cacccgtttc ttaaaagtaa gccatcgtac ttggttctct ttaattatat attttcttac96301 atattgtgtt catgtaggca agtcctgttt ctgctaaaag aaggtaagtt ctaccaaggc96361 ggtgtcatgc cagctttatt tcccgtggca cctggcacac tgctaagcac ttacatgctt96421 aacaactaga ttgggaatgg tgctgctctg gggaagtggg cacacgttaa agaaatgttt96481 atttcagtct tctgaaatag ggaattactc tggctaaaat gtagctccag aaagggaaag96541 tggggctgta tgaatccagg tccagtttgt tgtttcctcc aggataaggc agctgtcgga96601 ggggaaaatc atctcccatt tctccacagg gcagtctgaa gatggccaat tacacgctgg96661 caccagagga tgaatatgat gtcctcatag aaggtgaact ggagagcgat gaggcagagc96721 aatgtgacaa gtatgacgcc caggcactct cagcccagct ggtgccatca ctctgctctg96781 ctgtgtttgt gatcggtgtc ctggacaatc tcctggttgt gcttatcctg gtaaaatata96841 aaggactcaa acgcgtggaa aatatctatc ttctaaactt ggcagtttct aacttgtgtt96901 tcttgcttac cctgcccttc tgggctcatg ctgggggcga tcccatgtgt aaaattctca96961 ttggactgta cttcgtgggc ctgtacagtg agacattttt caattgcctt ctgactgtgc97021 aaaggtacct agtgtttttg cacaagggca actttttctc agccaggagg agggtgccct97081 gtggcatcat tacaagtgtc ctggcatggg taacagccat tctggccact ttgcctgaat97141 acgtggttta taaacctcag atggaagacc agaaatacaa gtgtgcattt agcagaactc97201 ccttcctgcc agctgatgag acattctgga agcattttct gactttaaaa atgaacattt cggttcttgt cctcccccta tttattttta catttctcta tgtgcaaatg agaaaaacac97321 8297381 tccttctgat gtgggcgccc tacaatattg catttttcct gtccactttc aaagaacact97 tctccctgag tgactgcaag agcagctaca atctggacaa aagtgttcac atcactaaac97501 tcatcgccac cacccactgc tgcatcaacc ctctcctgta tgcgtttctt gatgggacat97561 97621 ggcagtctgc acaaggcaca tcgagggaag aacctgacca ttccaccgaa gtgtaaacta97681 gcatccacca aatgcaagaa gaataaacatggattttcat ctttctgcat tatttcatgt97741 aaattttcta cacatttgta tacaaaatcg gatacaggaa gaaaagggag aggtgagcta97801 acatttgcta agcactgaat ttgtctcagg caccgtgcaa ggctctttac aaacgtgagc97861 tccttcgcct cctaccactt gtccatagtg tggataggac tagtctcatt tctctgagaa97921 gaaaactaag gcgcggaaat ttgtctaaga tcacataact aggaagtggc agaactgatt 97981 ctccagccct ggtagcattt gctcagagcc tacgcttggt ccagaacatc aaactccaaa 98041 ccctggggac aaacgacatg aaataaatgt attttaaaac atctatttaa tgtattttaa 98101 aataatttgt aagttgattt taaaaccaat ttaactacat tccaaattat agacagccca 98161 tttatatggg agtaactttt caggctcatt gcctcgccgg tgatgagaag aactagctag 98221 ctggaagctg tgggaaaaag aggtaaggta acttgttctg tcgaagttct ctaaattctc 98281 ttgcttactt gccacacccc taggccccca gcttccccta acccaaggtt tctggtattt 98341 tctcgtactt tatcaagact atggaatctt aggagactta acaaaagcaa atgagaaatt 98401 atgtttagaa atgtctaaca aaatgaattc tttgtccttt taagtataac acatacctca 98461 ggcctcacca gcacataact acaaaaggtt gtcccacttc ctttctgtgg ctgagttagt 98521 agaacacagg ctcccacctg ccacatcagc agaaggtcac ctcaacatgt gagctacctc 98581 cccggagacc ccccagatcc gtaaggatga tgcatccttg atcctaaaaa cattttcctg 98641 ttcctggtgt tcagaattgg actccacact cactggtctc tttataatct tgcttctggc 98701 cctttgaggc ctcaaagcta ccagggcctt gctgccaggg gacaatcacc gctcccggct 98761 gagtcctgca gacatagggc ctgggctggc tgcctcctcc tgctggccca gcatcttgct 98821 tgcactaaag agagctggag gcttggcact gatgcttgct aaaaacctac ccaggccgcc 98881 cactgctgcc gcactgcagg gcaccagccc acactcctcc cctcctggca tcaggcacac 98941 gttcacggca ctaaacctta caggaaagca gtggaaccct gtctttcctt cacaggaggc 99001 actttccttc ctaggcaaaa acgatgatac ccatgggcac agcatctcac atagggacac 99061 atagagatgt ctgactcatt aaaacccaag tctctggcca attaaaaggg gtccttaatg 99121 tcctactcaa cagtggtgga aggaaatttg ctctatattg atgaaatgag gtggagaaaa 99181 tctgattttc caaacatgag aattctccat atgccacccc ataaccaaag accccttatt 99241 tgtgttagat gaaacattca aagagcctat taggatagcg gatgagaccc ccaagggaca 99301 tgcttataca acaataactg gctccaaacc acactccatg gcagtggctc tcaaatgcca 99361 gctcacatca caagccctgt gctaaaacac agagttctgg gccccatccc ggagtttgtg 99421 gttcaggagg tctggagtgt gacctcagaa tatgcatttc taacaaattc cccaggggat 99481 gcagatactg ctgacccaag gccctccttc tgagaaccac tgttccaggg agaagaaact 99541 cagctaagta agggtttggc tttgtgctga agacaatgtg gaatttagag ttggggtgaa 99601 ttattcagga aagtagagag gtttggagat gtgagggtgg gaagcgcagt ggagggaggc 99661 agagaggaaa tatgaagcag cgtcagttgg agagaaatta ggaagaggaa taaaatgata 99721 tatgccaggg atttcagttt tgctgagccc atgatgacag actcttctct ggcaccttat 99781 gccactcatt gagggcttgt agctggctct gctctttcag agtcataata gggctatggg 99841 tctgacctca aggtgagctg gaatgggcac aagtaataga taaaactgca agaagtcact 99901 caagggtcct tcctagaaca aaggatccct acattccaaa ggcgaatgcc ggtcactatc 99961 ataaaagaaa agaaagaaag aaactgatgg tgacatttta aatggcaatt tttctagctt100021 ctaaaaggtt gtggagcaac tggaactttc ataccctgct ggtgggaatg taaaatggta100081 taatcacttt ggaaaaattg gcagtgtcac caaaagcaaa gcctatacct actatccatt100141 tcactcctca gtatttaccc aagagaaatg agcatgtatg tccatacaaa gatttggacc100201 caaatgttca tgacagcctt atttatatag cctcaaacta gaaaaagtct gtctatcaac100261 aggtgaatgg ataaacaaat actggcctgt gtatctaatg gaatactgct catccacaaa100321 aagaaacgag ctattgatac acacaggagc atgcacgaaa tctcaaaatg ctgaatgaag100381 gaggccagat tttaatttta tttttaatta tttatttatt tatttatttt tgagacagag100441 tctcgctctg tcacccagcc tggaatgcaa tggtgtgatc ttggctgact gcaacctctg100501 cctcctgagt tcaagcaatt ctcatgcctc agcctcccaa gtagctgtga ctacagtcat100561 gcacaagagc aactgactaa tttttgtaat tttagtagag acggggtttt gccatgttgg100621 ccagctgctc tcacactcct gacctcaggt gatccacctg cctcggcctc ctaaagtgct100681 gggattacag gcatgagtca ccgtgcccag ccggaagcca gatatttttt aaaagtactt100741 attttgtgat tctatttata taaaattcta gaaaatgcaa acaaatccat agcgacagca100801 aatcagtggt tgctggagat gttggagggg agaggagagg aatagattgc aaaggggaac100861 aaggaaattc ggggggacag tggatatgtc tgctattttg actgtggtga tggtttcatt100921 ggtatataca tatgtcaaaa acgtaacaag ttgtatacgt gatttattat gtgttgacta 1009824 101041 tgtgacttgt cttggaaata tactttgagc atttgccgga ggagatccag tgcctgggcc 10159101 tctgtttctt ctcccaagta gaattggcag ctaaaacggg atgcccatgg gcacaacttg101 tcacccccat caccgaacag ggagcagaag gaggctgctg ggggtgcccc cacagggagc101221 acagtctcat cgggaatgac ctgccatggc aaataaaatc accagggcaa gtcaagggag101281 agaccaggga agagagtgat ccagtctata ttaaaaaagg atgagaaagg ttgaagaaaa101341 agagaagaag ggacagaaat tctcttcaca catttgcaga agtaggtccg gactctccat101401 ccacttctcc tcctccgata ggtaggacag gaatctcaga ggaaatggca tcatcttccc101461 atgtttacag acacagcaat gaactcaaag aacaatctta tcaggatttt ccaaatgaaa101521 acatggagca tatagagaat aaagatccat aaactcgtat ggtggctgag actgaaatgg101 ttaatgaaaa gcaaaagtgt gtgctgaatg acaccagcca caatggcctg aacacttaag101641 tagtgtaata tacttggaac attgacagct aacaaggtct tcctcccatg tcagaccaag101 aacacagttt cctaaagata aaaatagcac atgcttttcc acttttccat aagtgactgc101761 attagaaaac taacaaacca tgaaaagcaa aatatggcta gtctcttcaa gaaaaactgg101821 tgtttctatt ttgtctgtaa attactttct aatacaaaaa acaattcctg ttacattgag101881 gtaattctaa ctagggacat atgagagaga gattgaaatc tcatgagctg tctccttttc101941 atctcaattc tgtgtactcg tgggtacaaa tggaactagt ttttgtttgt ttgtttgttt102001 tttgagatgg agtcttgcgc tgttgcccag gctggagtgc aaaggtgtga tctcggctca102061 ctgcaacctc tgcctcctgg gttcaagcaa ttctcctgcc tcagcctcct gaatagctga102121 gattacaggc gcctgccacc atgcctgact aatttttttt ttgtttgtat tttttagtag102181 agacagggtt tcaccatgtt ggtcaggctg gtctcaaact cctgacctca ggtgatccac102241 ccacctcggc ctcccaaagt gctgggatta caggcgtgag ccactgcacc tggcccggaa102301 ctagttttaa aacaggaaac agttgatata ctgaatggaa aaacaataca atttgaagtt102361 gaaaaaacaa aataagatgc ccagttaaat ttaaatttca gttaagcagc taatagttat102421 ttagtataag tacaacccat atacgacaat tgcagtattt gttatttatc tgaaattcag102481 acttacctgg gcatcctagt atcctgtttt ttgttttgtt ttgtttttcc ctttgttttc102541 ttttttttcc ccgaaatctg accaccttaa ctttaaggta tttattcatt tttaaaaact102 aaatattttt cggcagtcag aactagagca aagataaatg atcccaggac tctgtttagc102661 aggcagtcag gaagtgtgac agtgtggtgg gtggcagccc cggccaggcc tttcctcttc102 cctaaactgc cacagcagga ctgccacact tgggaatccc agtttccatc tgagcagccc102781 ctccagagtt tggaaggagt cagtgcttta gcctgaggag ccgtggatgg ctctaacact102841 ttgcttgtcg gttgaataaa aatcaaccca aaggtggcct acactcattg aagtaggaat102901 gccagaactt cagtggtgtc acatagaaga aaatatctaa gtgcttaggg agatggcagt102961 103021 acacccttgc cacactggga agtgtaaatg agctccagca tctttatttt tttttatttt103081 ttatttgttt tattatactt taagttttag ggtacacgtg cacaaagtgc aggtttgtta catatgtata catgtgccat gttggtgtgc tgcacccatt aactcgtcat ttaacattag103201 gtatatctcc taatgctatc cctccccccg cccccggtgt gtgatgtccc ccttcctgtg103261 tccatgtgtt cttattgttc aattcccacc tatgagtgag aacatggggt gtttggtttt103321 ttgtccttgt gatagtttgc tgagaatgat ggtttccagc ttcatccatg tcccgcatct103381 ttaaaaaaaa aaaaaaatct ctaagtggtg gctcttctct gtagatcagg agctgtagtg103441 agcaatgcta caaaactgga gtttctaaat acagggggga tggtgggatt ctgaggaagg103501 acaggccacg tggtaacact tacaaaagac caagtgggtg tggttgccac tgtggacggt103561 ggagccaaag cagtcctcag aatagtctga cccccagagg tctttggcat tggctggttg103621 atcatggtgt ccctggaatt gaaatagaag gacggtctac taaattttta cctgatctgt103681 10348 741 103 agtcaattca atcaattccc agatttgaca tagtttatag acctagaacc ccttgaatga103801 aaggtaagct ggctcccctt gaggaaggac cctgttacat ttccggcatt ttattctgat103861 aatctttttt cccagccttc cccaaagcaa cttagggcca tttaccaggg aaagccatgg103921 aggaaaagga aataattagg ctatttggag attccaggac actggctcta cgctgacacc103981 agttctaaga gacccaaaat atctttgtgg tctaccagcc aaagtagggc ttcatagagg104041 tcaggggtca ctagagtttg agctcaggtc tgtttcactg tgagtctaga gggtccctga104101 acttatccta tagttattcc cccagttcca gaatgcagaa ttgagctgag agcagtggct104 catgcttgta gtcccaacac tctgggaggc gaaggtgaga ggatcacttg agccaagcgg104221 tttgagacca gcctgggaaa tatagtgaga ccccatcttt taaaaagaca aagaaaaata104281 aagaaaattg acatggaaaa ataatataaa atgtgaataa tctcacatct actaaagaaa104341 ttcaatctgt aattagaact cctcccacag agaactataa gcccagtgcc cccatcaact104401 ggagaaacag aaagaaacaa tcttcttaac agaaagcata attggaatag agatactctg104 catcggggaa gaatccccat attgattctc tgatccatag agtgaaggcc aagtggaagc104521 ctttggaact ccctctacct gccaagatac taaacaaaac aacactgcac gtctggagga104 attgtagcaa gaacttgaaa gatgaaggat gatgatgtcc acctctctcc attcagctca104641 cctatctggt ttgtgcagaa gacaaatagg tgttggaaaa tgacagtgga ccagtgtaaa104701 cttaatcagg cgggggctcc agctgcagct gcaggatcag gtgttgttt9 atttctgcag104761 ctaatcaacc cttctcctgg cacctggtgt gcagatggca atttttcttt tctattatct104821 gttagtaaag actatcagaa gctgtttatt ttcagttggc aaggtcagca atacactcca104881 agggaagagc agtctgtctc agatcttacc gatgcctggg gatagggagg gagtggcccc104941 ctcaccgtct ccaaggccta gtcctctgct cctgctactg gcagcaaatc cacgcaggtc105001 tgcaacaacc tcaattcctg cctcctcaga agaaagaatt caattgaggg acgtaagaca105061 gaaggagaga ctgaggcaag ttttagcaca ggagtaaaag tttatttaaa agctttagaa105121 taggaacaaa aggaaggaaa gtacacttgg aagagggcca agtggacgac ttaaaaagca105181 agtgcgtggt ttgacctttt gacttggggt tttatacgtc agcatgcttt cggggtcttg105241 cgttatttct cccctggttc ttcccttggg gtgggctgtc ccatgtgcct gcctgagccc105301 actggctcaa ctcctgagat cttataggga aactactgct caccagtttc gagtgttttc105361 tatctattag gagccggctt ttccctgttg ccgggtgtga ccaattatta ctttagaaag105421 acagtcaaca accgccagac catcacctga tggtcacctg acactcctgg tgtgtggggt105481 atggggagcc ctctcctgcc ctgctctttc tgactagcta cccactataa cactcccaga105541 gggacctgca cattttgtgc tctttgcaag acagtgcctg cccagcacct gtaggcctgc105 tcaccccttc agggtcatga tttttgcttt ttaccgcagg tacccataag caaaacatgg105661 cattgttcac catgctttta cattattcac ataattttaa gttatttaca caacaatgta105 aaaccatggt gaaccatgcc acatgttgct tatgggtacc tgtggtaaaa atcctgctac105781 tagctcattt tgcagtgtct ataatgacag gtaatgctcc attcactcct ttatgacact105 tgcaaaaact gagaacataa cgcctcccag ttaagcaggc atctgggcaa tgtgaggaga105901 acagaaatag accacgctgc atttatctct cttgatgaca ggcattgaga tttccacttt105961 106021 agtttctcta gggcagtggt tcacaaactt tttggataca gaatactttt atgtgcttga106081 aaactgagga ccccatacag ctttagttta tgtgggtgta aggttctagc ccaaactgaa106141 gtccgaaggg agttggtggg tgggtgaggg gtagctgaaa aaacacccga ggaatcatag106201 gcagtttgaa catggcctta tcctctctct gggcacgagc catatgtcca gtgtcagcag106261 ggtaattata ccttttacag acaatagagg ctctgaagca atcacgagct cacgtgagtg106321 gtcacctaat gcacctcaag tggcatggtt cataatgtgc ggagtcgtgt gcctacgctc106381 caaacccact gagtcatggt gcaccaaaaa gtggcctcag cctgctcctg actaaagcgc106441 10635 106441 agccatcttc cttacactcc acccctaggc caggggcatc ctccaggtag ggacatgtgc106501 ccgtagggtg gagccctgaa tccataatcc acagcaacaa tacggagagc aacagctcat106561 gactaggatt ccagctatgc tacttatgac tatcagggcc cagcgtaggc cagagcccag106621 ggatgtctac catctctgca gggggtcatc agtaaggctc ttgactacct taatctcctg106681 tgagacccct tgcagggctg ctgttatgtt ctgccaattg tcagggataa aggtacaaca106741 106 106741 ttgtgttcct aaaagggcac aggtgcctcc ttaggcagca gttactatgt ctaagaccat106801 tcggtttcgc aacaccacct ttctgatctg atcaacctca tccattaatg ggaagagggc106861 cactcaggtg taattcagag cctgagcagc atgctctgca agagcagtaa cttggcttct106921 acagttgtga cacacactcc agggctagtg cctgtcaagg ggtaaaacca ccagggtgct106981 cattacactt gcaaaaaccg agagtgtagc acctcccagt tatgcaggca tctgggcaat107041 gtgagaacag tggcaggtac atgaggccac cctcaggtat aatgtccagt ccagtttgct107101 tataggtaag gccaccctgt gtccccacag acccataaac tcccaggggg cacacagtcc107161 atcgaggccc cttggtgggg ccgcgtcttc caccatacct ttggtgtggt gacatgtatt107221 107 107221 atgcttacac acactgtgac gggtacccat cccacagtgc tattacccca gtgttgctat107281 atgcaccaca gtgcctgggc caggggtact gcacgttacc tcactagcca gccccaccca107341 107 107341 tcataaatgc tatgggccag ccagggaatg gctgtgctgt gggtcttgtg gcatcctttg107401 tccaaaactt gccacgttgc gttccaggca tcagccatgg gaccccaagt ctccagccat107461 gtctggttct ctgcagatgc tgaatgtatg tgctaaggca agccatctgc agctgctaga107521 agggcggtgc agatccaaca gttggaaaca ttggtcactt cagtgtaggt gtgggcccag107581 tccacaatgc agttggagca tgttaaccta cagttggaat gacagagtag gcataggtac107641 taacagagga aaatcacatc cctcaggtaa aatacaggct aacctttcat ccctggataa107701 caatgcagcc cccaaggggt tctgccctgg gcaatagtac cacacctttt cagctcccca107761 tggttccttt gggtcctgta ttcatgcgaa agtcacaggg gagcttgtag taggccacac107821 agacagtaca tttgaaccct ggaggaaagt ttcttccctg gccgttttcc tacaaacagt107881 taacttcggg gaccattcat tgaacaccca aagagtgaca tacaagtcat actgtaggcc107941 ctccccacag ggagctacga tggacaacca ccagcagccg ggggcttgga ggggctatgg108001 ccacagccag gttttctgtt cccctgcctt cagggacgtt ggggcaggca acaacaggtt108061 actgttcatc cccatacctg gtcagaggcg gttacccttg gtgtgtatct gcaactgaat108121 108 108121 aggggtggtg gcccatgtaa caaagcctcc acctgggctg ggctgctttt ccatggccat108181 108 108181 tcattcaagg tttggagcat caggtccagc ctggaacttc agccctgcaa agacaggagt108241 108 108241 gtgacatgca agtaaaaccc attcttcaag agctcgctat atcactcaat catacccaca108301 108 108301 gcttgcaagt tgtgcggtac atggaatccc tactttatgt ccattgttgt gcctgttgtc108361 108 108361 cagtaaaatg tgtcccccat cactctcaat gaccaaaggg caaccatata gagcacataa108421 108 108421 gtgttgcagg gtctggatgg tgtgctgttg gttggccacc ctgcaaggat aggcaaacaa108481 caggcctgtg gctgtgtcca cagctgttag cgcatgagta tacccttgtg acttcggcag108541 cagcccaatg tagtctactt gccacctggt caagggcact tgccctgttg tcacttgtgt108601 agcactggac agctgcctcc atttagggta tgcctgagca catgccgggc atttctgaca108661 agcctcccaa atgtcttgca tgggcagaga cagaccccaa catttattga cttgttgcat108721 108 108721 cagtttaccc cctgcatgtc ccagtttccg gtgtagctac aaggccacat ctcatgtaga108781 108 108781 tgccaactct aaccatcgga ccttggccaa ggcttctgcc tcgtcattgc tgggggtggc108841 108 108841 cagaggcata tggcctgaca aatgataaat agttacatct ttgcaatgac ccatttccca108901 gaggtcttgc tacatgggtt ggtggcccca aatgggttgg tggccaacta gccaattctg108961 tattttccaa gtagttaaac acaaagttag gcctccatag actgcccagc tatcggtacg109021 gattaccata ggtgtctccg ccttgttgat caccatccat actgctttaa attcagccca109081 ttgactactt tgtccacatc tggtttcaaa ccatatggtt ttggtactaa gttggactgc109141 aacactggtc caagcaggag tagcacctcg actagaccca tctgtgtgcc atgccccatc109201 aggaatagag ggatgccctt ccttaaatgg cagtggctca gggtcaaggg gtgcctcagg109261 ccccatggcc ttctcttgca ttaggactgc aggtcccaag acctcttgca actctgctgc109321 taatgggctt gtgctcagcg tactctgttg ctccaagtaa gtgcctcact ttgccaaagt109381 ggatgtctgc accatcccag tctggggggt cattacacat gaatgcaccc atcccgctgt109441 caggtaagtc atccacactg tgactgtagc ccatcctatc acttctcaca agcctgaagg109501 gcagcatata cagctgctag ctatttctct atcaaggaat accagagctc agctcctttc109561 catagttggg accaaaagcc tcctggcatt ctcaggcact ctgtgtgctg ccacaggccc109621 aaactaaaac catctgtggt cacatgcata tccagttcaa atgggcaccc cttgtcaaat109681 acccacaggg ctcgtgcctg ctgaatagcc cacttggctg ccaggaagcc agtctcagcc109741 acatcagccc aatcccagat tgctcccttc tttgttaactgatacaatgg ttttatcatt109801 109 109801 tgagctaaat gaggcaggaa tgtccaccaa tatcccagga ggctcacaaa agtttgcagc109861 tgcctcaccg tggtgggcca gggatatgcc taaattttgt caatgatagc ctcttgtatg109921 gccttcatct tacccgacca gataactccc aagaatttag caggtaatcc aggccctcgg109981 accttggatt tgttgatggc ccaactgcat gctgccaaat gttgccacaa gaggggtgcc110041 actgcttcta aatctgcaag agaatcagag gttaacataa tatcatcaac gtaatggaac110101 aagtggactc cctttggaca ttttcaggct gttaaatcca tggcaacaag accatgacat110161 110 110161 atggtggagc tatgcacata gccctgcagc aacactgtga aagtccattg tcatcaaggc110221 aaactgttcc tggctctcta gagcaaggtc aactgagaag aatgcattgg ccaagtccac110281 cacatagtgg tactgtccta attccattgt cgagtggttc atcaaatcca tgatagatgg110341 cacagcttcc aagccatgta aaatatccac ctccagaatg tattcaggta tgggagagac110401 atacacagtg tataagcaag gagccaagtg gccaatgcca aggtacagag atacaggttt110461 cactttcact gactggcctc cgtaaccttt aatatatgca gatttgccca aaaacttaac110521 tgggttccca taaacaaggc tacaatctat gccagtatct accagcacca gcacccactg110581 tacattggtg ggggaccagt ggattgccaa ttccacatgt ggcctctggt catctggtgt110641 ccccccaagc cagacacctt tggccagttc cctagttgaa cagaaaaggc tctacatttc110701 cacctggctg cagcaagtag tctctgagct gggtaggacc aggtcacaca gcaatgcctt110761 tctccccttt gggcattttc cggaattgct gccctgcata caactgtctc cgcaaagtta110821 ggagtatttc attgggctgc ttatcaattt tctctcagtc aaccccagcc aaaatcaaat110881 ctatccacat ctgtgagcgt gtcactcgtt ggggccccct ttttttatgg gggagccccc110941 tgtgggtggg gtaacttccc cttctttatg gtgtggaccc tccaatcccc ctgaaggcct111001 tctgcttccc tgagagccgc catggcagtg gttacttcat gtatgcggtg ccctacgtat111061 ggggtgagga cagcagctag ggagccaaag gggctcagga gcatcaaacc caacatgaga111121 tccctcatgt gggaggtgaa acatttatca tctggccctc aggtattcag gacaaacata111 gcctgccgca tacccatctc ccgaatgact tacaccaaat tggcatatga ctgccattta111241 ctcacagttt tgggcatttc accagcatta ttccacacag ttcatatggc tgcctgtagc111 cactcagtca gggtgtggtc tccttgcgct gccactaacc acctgctcac ttgcagccgc 111111111 tgacagagag aggggtgagt catggtggag gccagcttgt ccatctcaga ggtggaatgg111421 gagataccat ctgctccctt gttccacaga cgaagcatcc aggcaggcaggggttcccct111481 ggacactggc aacactgctt gcctaattcc tgcaactcag ttggggtaca ggcaatatac111541 11153 111601 tcatgatcta ccttctgtca gaccaccggg tgagcccgca acaggggttc ttcctccttg 11186661 111 gcctctaatt ccttttccaa gctctgaagc cacacctcca ggcatcctgc ctgcacctgg 1117817 111781 aggtccccat tcatggcagc ctctaattat tttccagatc ggtgtagcca gacctccagt111 ctgcatccct cagggactgg gtgtgtactt ttcttagcac agttaaaaat gcccatccaa111901 35 111901 ctctgccagc aaaggctctc tccttcttgg tgctctgcac ttccagctgc ttcagcgcct111961 tctccatgct catgggggac ccatctactg ccacccaggt ttccactcaa gcccaccctc112021 acagcacggc taccaccggg taccacaacc catgttgtgg tcacatggcc aacctggaat112081 cagcagggac cgaaggctca cttaccttag gatcctgttc gtgatgccaa ttgtcaggtt112141 ctagcccaaa ctaaagtcca aggggagttg gtgggtgggt ggcaggtaac tggaaaaaca112201 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg112261 1123535353535 112261 tcagcagggt aattttacct tttacagaca atagtggctt tgagccaagc acgtgctcat112321 atgagtggtc acctaatgca cctcacatgg catggttaca taatgtgtgg agttgtgtgc112381 ctgcctccaa acccactgag tcatgctgca ccagaaggct gcctcggcct actcctgact112441 aaagcacaac catctccctt agagtgggct aaatctactg ctatttatac tattagaaat112501 tttaacacag aagttttaaa tatttacatt gttaattgat tttgaaataa taagcccatt112561 1125 112561 acaggttaac ataattaaca tacttttatt aaaaatatct gtatttttta aaagaaaaaa112621 aattagcaac aacagtgatc cttggaatcg tcccacctca gcctcccaag tagctgagac112681 cacaggcgca catcaccatg cgagctaatt tctatatttt ttggtagaga tgggatcttg112741 cacaggcgca catcaccatg cgagctaatt tctatatttt ttggtagaga tgggatcttg112 112741 ccatgctggc cagggtggtc tcgagctcct aagctcaagt gatcctcctg cctcggtctc112801 112 112801 ccaaagtgct gagattacag gtgtgagcca ccacttctgg ccagaagctg gattctctgt112861 cttgttctcc atccaatctg ttagactgtc aaatgccaaa taacctttgg aaaattctac112921 tcgtaaaata aggagagaga taaataactt ctgagtatca tcattaaaat agtttgacct112981 catggaccca ctgggtccca tgtggagaat agctctaagc taaagagtag aatggctggg113041 aggggacata aacattcagc ccatagctgc tgaccacaat aacacatttt aagtctcttc113101 ctctcctgct ccttgtgatt gcagacagac tcaatctgta ggagagctgt agagagaaca113161 agctcaagcc cctgattttg cctacaaaga aagctgagcc cagcaaagtt aagggactta113221 113 113221 cccaaggtca cacagccaca cagcagagct ggggctgagc tccaggtgtc ctgctacaga113281 ggccacttct ttctcccact agggactggc ctgtgattac ttcagaaaac aatggtcagc113341 taactgattc tgaacgccct ttgctggtaa aagctaatct cctgaggaaa aatgtatgca113401 35401 11342 113461 gatcacttga ggtcaggagt ttaagaccag cctggcagtc atggtgaaac cccgtctcta113521 ctaaaactac aaatattaag ctcggcatgg tggcaggcac ctgtaatccc agctactgga113581 gagactgagg caggagaatc gcttgaaccc aggaggcgga ggttgcagtg agccgaggtc113641 641 gcaccactgc attccatcct gggcaacaga gtgagattct gtctcaaaaa ataataatag113701 taaaataaaa ataaataaac aaataagtat gcatcacctc aggtggtcag tcagctttcc113761 caagacccca aagcacacaa tgttctttct ggtatgagtg acatggggtt cacagcacca113821 caaagtccat gacttttccc tcagaagtga atgcatggct aattattttg tattttttgt113881 agacatggag ttttgccatg ttgcccacgc tgctctcaaa ttcctggact caagtaatcc113941 acccacctca gcttcccaag gtgctgggat tacaggcatg agacaccgca tggcctgcac114001 ctatagtccc agctatcagg aggctgaggt gggaggatca cctgaaccgg ggaagttgaa114061 cctgcagtga actgtgatcg ctccggtgca ctccatcctg ggcaacagag tgagatcctg 11459121 cctcaaaaaa aaaaaaaaag tgaacacaca tgctggggaa gaggcctgca ggcacccctg114181 ccagttctgc accagagcac actgtagcag ccctgctgtg atgcaggaag cagctccagg 1146328 114241 tcctgcagtc tgaagcatgg agcctgaagc ctggagcccc ccatccaatg ctgcgccatg114 ctcaccagta tcccccagca tcagcaccga ggcaccagct gcagataaat ttctcaccta114361 aaatgttgag agatgttgct aaactgtcct tctaagggta tgtataataa tacggtcctg114421 ccgatactga ataagactat ctgtttcatt acatcctcac aatactgaat atcattagca114481 acttgaattt taaattgtgc taatcaatga aaatgattgc ctaattacta gtgagttgag114541 gttatttaac attaatactc cttctgatga aatattttgc atttatcaca ttttacataa114601 attctctcta tataattagc actagaatgt ccgacttggt tttcattgtt cctcacctgt114661 ttggaaacac attaagaatg agggagagaa tggatgggga ctcacctagg gatgcatgga114 gctggtcggc agccactctg aggccctctt aacacttccc caccacacac ttaatttccc114781 ctggtttgtc catagataca tccaacaatt tttatgtaaa taagaaagac tcagctttca114 atggaaaatg gtaggttgga ttttatgact gaagtggcaa aaagaaataa gggattttat114901 tatgggggag gtccaaaccc tggtgaaaaa cgaaattcat tgaaattgtt tgaaaattca114961 aggattaaat cagattattt tggattcagt aggaattaga ttactttaaa gccccaggat115021 actttattct gtagaatgca tggaaagtat agaaaagaga aacaaagagg gaaagtcatg115081 gctaataacc tggaaggggt aaatagggag ccaaaggcct gtgggacgta accaactcag115141 cattccactg gaggctttat gatcaaatag caagctattt atcatgaatg caggatgtgg115201 gcaaactcac gactgctccc actgccagaa ggtttgctga gggcaatcac ttcctggcac115261 cgagctcctt gaggttatct actgggacat ctggagaatg cagtcttgca agcctactct115321 ggacccagca gctgacccct tcttccatgc ccctcttcct gctatctctt ttgcctaata115381 aatatggagg gctgtgtaaa gctcagggcc cttgtccact agaggcaaac tgcccgctga115 ccccttcttc caaatatgct cttttgtctc atgtctttta ttcccgcttt caccccactt115501 tgttcagtcc ccctagggcc gtgtgggtta catagtggcg ccctgaacag cgacagaatc115561 59561 aggtgctcta caagtggcgt ccgaacacag ggactatgag gatgtgaatg aagaagatct115621 gctggagcag aggaattgaa attgacaagg tgaatgggga tcccgggaca agtctgccgg115681 686 cagcagatat aaggtcagtg ccctaaagag gtactgggag cagtgcctta aagtagtact115 gggaatggga agttttctga atcagggtaa catggggcag aattggtctg ttgaagaaaa115801 acattatgtg cagttgctta aagttttgtt gaaacaaact ggtgctcagg ttagttctca115861 cattaactac gatgctacag gaagtcatta tgcataaccc atggtttcca caggcaggga115921 ctcttgatgt agaaaattgg gatagagcag aaggattaaa acaggctcat caaaaaggtt ttcaagttga ttcttcagtt ttctccactt ggagtttagt tcgtactgta cttctgccat116041 tatctccttg ttattctgcg ggacagcagg ctgaatgtaa aaatctgaaa gaatctgttg116101 116161 taccgccccc tccagttgca gaaacatctg taccgcctcc ttcggtggca gaaacagaga116221 ccccaataca aagaatttta cgctctgccg ccacggctgg agagccctta ggaccttgca116281 cttttcctat ttccgtaagt cctgatccaa ataatccaca gcagcttaat catgaacaca116341 ttccactaga gtttaagttg ttaaaggaat taaaagtgag tgtggtaaat aatggcatac116401 agagcccatt cactttagga ttgctagaat ctatgtttgg tgctatgtgt cttttaccct116461 ttgatgtgaa acacttggca tgaacttgct tgtctgctag cgcatatctg acatggaatt116521 taaactggca agaacagggt gcagaccagg ctagacagaa ccatgctgct ggaaatggag116581 acattacaga ggataggcta ttgggtaatg gcccttattc tgacctggta catcaactag116641 cactcacaaa tgctgcttat cagcagtgca cacaggctgc taaatgtgcc tgggccataa116701 11636701 116701 ttcctgaaga gggagtccca gtactatcat ttttacatat catgcaaggg tcacaggaac116761 cctacgcaca atttcttgca agattacaag aggcagtgag gcatcagatt cctcatacct116821 tggctgcaga aatgctaacc tttactctag cttttgagaa tgcaaatgca gattgtaaat116881 116881 gtgcactggc accggttagg tgtacaaaaa cttgggaaat tttctcagag cttgttaaga116941 tgtagcaact gagctttatc gatctgcaat gttagctgaa gcaatggcta atttagctgt117001 tgacaaatct aaaaagagcc aagggtcaaa ccctaaaatg ggaaaatgtt ataattgtgg117061 aaaaactgga cattttaaaa aggaacgcca ccagatctca ggacagaaag gatcttacaa117121 117181 117121 tgcttttccc cccggccccc agcggaaaga acacctggac tttgtcctcg ctatgacaaa117181 117 117181 ggaaataact cggctaatca gtgctgctca aaatttcatc agaatggcac ccccctgttg117241 ggaaatgaga tgggggcctg tacccgggcc tcacaaacaa tgagggcatt cccaattcag117301 acctcaaccc tgtttcaggc atgggttccc agaggcatat tgagtccctc acccgaggaa117361 ctccaggaag tgcaggatta gatctcccag ccagagaaag ggttacataa ggtggggaag117421 117 117421 acaaacccac caagattctc actggcattt ggggaccttt accagcagga tatatgggac117481 117 117481 taattttagg caaaagccac cttaacttgc aaaggcatta ctgtagtccc agaagttgtt117541 117 117541 gactctgatt atgaaggaga aattcaagta gttttattgt cacgagatct tcgggttttt117601 gaaccgagag aatacataat gcaattatta cttattccct gcaaattaca cccttctcca117661 tgaaaggaga aacaaggaaa taaagggttt gggagcacag ctacacggga aatctatcta117 tcccgaccca tagcctctaa tagacccacc tgtgtagtac aaattaaagg aaagaaattt117781 tatgggttta tggataccgg agctgatgtg tcagtgttac cagcaggtct ttgttcttag117841 agctcccaag atggcggcaa gccttttgtt ctctgacctg gagttcttgg cctcacagat117901 tccaaggaat ggatccttgg gccatgcagt gagtgtcata gctctattag aagctcttcc117961 aaaagtcgtg ctgctatcta tggactaaaa catactcaaa caataatgac ctctggcgtt118021 taggctcaat gctcagagct aattgcagtc attcaggttt tacagctcac agcttcagat118081 cctgtcaaca ttgtctgtgt tcagtttatg tcgtaaatgt agccggtcac atagaaactg118141 ctacaattaa aagtacgcta aacccagaac tgctaattta tttttaagac ttcaacaagt118201 tatttgttct agtgcagctc cttttcatat ttctcatatt ccttctcaca cacaacttcc118261 tgggccgcta tctctaagta atgagaaaac agacaaactg attgcctctg tgtttcagca118321 agctcaacca tctcatgtgc ttctgcacca aaatacttcc gcccttactc acatgttcct118381 acaggtttgt attatattat gcagtatatc cctcgagcca cacctataga aggatgtaat 1185924 118 ccacgaggtt tggctccaaa tgaaatctgg caaatggatg ttacacacac agcaaccttt118501 gataagctga gctatgttca tgtgactata gacacttatt ctcatatgct gcctgctaca118561 tgccaaacag gtgagacagc tggtcatgta cagcgacact gtctgtcatc atttgctcat118621 atggggatat ctaaacaatt aaaaactgac aatggacccg cttatactag tcatgctttt118681 aaaaatttct tgcagctttg ggctataacc cataaaacag gaattcctta taatcctaga118741 ggacaaggca ttatagagca ggcacatcaa acattacaat gcatgttgaa aagacaaaaa118801 gcgggtatag gaggccaact accacctcaa taaaaactac atttagcctt atttacttta118861 aattttttga ctcctggtat ggatggtaag actccagcag aaagacattg gcaagtgtta118921 gaagaaaaga ggaaaattta tccaaaagtg ttatggaaat ccctggaaga aggaaaatgg118981 aaaggtctgg tggatttact gacgtgggga agagagtatg cttgtgtttt tacaggagat119041 ggacaagccg tgtgggtgcc ctcaaggtgt gtgcaaccat ggaacgggag actagaggaa119101 cccagggtgg ccaaccatgg acagggtccc cccggtacga gccatgagcc agctgagcct119 gagtgcaaag acggagagaa ggccaactgg agtcacaaca cagttctaat gttatatttg119221 taaagaatat cactactcaa cttacagttt gtgtttatag atatagatat agatatagat119281 atagatatgg atatagatat agatatagtt atagatatag atagatatac actttaagtt119341 ctagggtaca tgtgcacaac ttgcaggttt gttacatagg tatacatgtg ccatgttggt119401 ttgctgcacc catcaactca tcatttacat taggtatttc tcctaatgct ctccctcccc119461 cagcaccgcc tcccaacagg ccctggtatg tgatgttccc tgccctgtgt ccaagtgttc119521 tcattgttca atttccacct atgaatgaga acatgcagtg ttttattttc tgttcctgta119581 ttagtttgct gagaatgatg gtttccagct tcatccatgt ccctgcaaag gacatgaact119641 catccttttt tatggctgca tagtattcca tggtgtatcc ttatgtcttt ttgacagcta119701 agaaggacca gctccaggta aacaataccc aattgacctg taaatcttac caattatatc119761 actgcattaa tcatagcaca ttgcaaacac ataatatctc tactttgatg attttaggcc119821 acatccctgg gctatgtatt cctgttaatc tgtccgaggc ttgggctgcc acacctgctt119881 tgcattttgt gaaacttctt ctaactgagc ttactcatca tgtctgtaga gccttagaca119941 taataatttt agctattgtt tccttggtcg cactaataac ttctgttgtg atgtcctctg120001 tagctttgca taattctatt caaacagctc agtacatgga gaactggaca cacacagccg120061 accaagcatg gctacttcag aataaaatta acactgagtt acaaactgaa gtggtgttat120121 gggaagtcag ggaccccaaa gagagggacc agctggagcc acagcagagg aacgtaaatt120181 gtgaagattt catcttaata cggatattta tcagttctca aataatactt ttacaatttc120241 241 ttatgcctgt ctttaatctc ttaatcctgt taccttcgta agctgaggat gtgcatcacc 120120120361 caatatgaaa tcagtgcacc ttgaaaaaga acagaataac ggtgattttt atggaacaag 12012058 120481 ttttgcagag agcctataaa tgaatgtgca agtaggaaac atatcgctaa attcttttcc120541 tagcaaggaa tattaatatt aataccctcg gaaaagaatg cattcctgag gggaggtcta120601 taaatggccg ctctgggaat gtctgtcttg tgcagttgag ataaggactg agatacgccc120661 tggtctcctg cagaaccctc aggcttacta gagtggggaa aaactctgct gtagtaaatt120721 tttggtcaga ccagttttct gctctcaaac cctgttttct gttaagatgt ttatcaagac120781 aatacgtgca ccactgaaca tagaccctta tcaggagttt atgatttttc tcctgtcctg120841 120 120841 tttcctcagg agcatgtgat ctttgttctc ctttttgccc tttgaagcat gtgatctttg120901 tgacctactc cctgttctta caccccctcc ccttttgaaa tccttaataa aaacctgctg120961 gttttgcggc tcaggtgggc atcacggtcc taccaatatg tgatgtcacc cctggaggcc121021 cagctgtaaa attcttctct ttgtactctt tctctttatt tctcagccag ccgacactta121081 tggaaaatag aacgaaccta cgtgaaatat tgggggtggg ttcccccgat atgtgatgtc121141 acccctggtg gcccagctgt aaaattcctc tctttgtact gtctctcttt atttctcagc121201 tggccaacac ttatggaaaa tagaaggaac ctatgttgaa atactgaggg tgggttctcc121261 caataaagtg gtaatgttga aatccacagt tctatggtta ggggaaaagc acaaagcttg121321 12163321 121 121321 caattgcagc agcaattgca ttgtcatttt aatcacactc atatttgtgt aaccaactta121381 gaatataacc aaagtgagta tctgtgggac gttgtgaaag cccatttgca gggagctttc121441 121 121441 acatctaaca tcacctttga tattggtgaa ttacaaaaca aaattcttga tttacatagg121501 caaattcaag agtttctgcc ttctttagaa gactggacca aattccagca aggcctggag121561 agcctcaatc cttggactta tctaaggcac tacattaaca tcttacatgt agttcttgga121621 ataatattgt tttgtctctg tcttctgttc atagcctgta aaattggatg gaccaccaat121681 681 121681 cggaaaatga gagctgccca ccctggcctt acattctttc aattaattca taaacagaaa121741 12126 121 121741 gggggatatt tagggagcctaaggctcgtg ggactgacca actcatcatt ccactggagg121801 ctatatgata aaacagcaaa ctgtttatca tgaatgcagg atgtgggcaa actcacgact121861 gctcccactg ccagaaggtt tgctgagggc aatcacttcc tggcaccagg ctccttgagg121921 921 121 121921 ttatctactg ggacatctgg agaatgcagt cttgcaagcc tactgtggac tgagcagctg121981 atcccttctt ccacgccccc cttctcacta tctcttttgt ctaatcacta cggagggttg122041 tgtaaagctc agggcccttg tccactagag gcaaagtgcc ccctgaccgc ttcttccaaa122101 tatactcttt tgtctcttgt cttttattcc cacgtttgcc ccctttgttc agtttcccta122161 ggtccatgtg ggttacatag tggcaacctg aacaatgaca gaatcaggtg ctctacagaa122221 ataacttttt aaggaaagat ttgggactta gagaccccag gagacataca caaaaatgat122281 aagaggatgt gcccaaacca gtcttaaagt tgtggcacag ggtgaggaag atgaagctgt122341 tactgaacct cagagagtga ctggtgttac agcaaaagtt agcaatggcc tgaagggagg122401 gtttctgaaa tcaaatatga atgattcccc ctcagggaac ccaaccttgg gaactactgc122461 atggttctct gtatgggaaa atatcattaa tgcaggataa attgtgaaat atcacaggaa122521 gcatcctgca tctagtcaat cttctgtttc tggggtggcc tgtgcagctg tgcaggcaga122581 ggcccaacca tcctggtgag tggcacacag ggactgagat ccagccacac ctaccaggcc122641 atgctctggg aagggggtgg gacctgggca aaggacacct ctctaggact gcacagaagc122701 ctttgtgggt gggtgggaca ttcctgtgat ggccttctgg ctgggcacta tgaaatgctc122761 tgaagatttt tccttgcact gttgcactaa ccccagtcct ctatcactgc cccttcctcc122821 tgggcgactt cactgatgtt gtggccatgt gaattctctg gccaatgaaa tgataaagat122881 gatatggcct ctgccaagca gacactgtaa gtattattgt atgatgcttt tgtctctttt122941 tttaaagtta aagcagttta ttaagaaaat aaaggaataa aagaatagca ctccataggc123001 123 123001 agagcagctg cctctgtctc ttatattttc ccctctgcct caagcccaac atgcccaaaa123061 ttggggctgc tggttcagcc tgggtctcag aataaagaca tgagccacag atccattgct123121 gacccatgat ggagatggac acaagagaga aacacatttt tgtcatgtta gccactaaga123181 123 123181 ttttgatttg gaggccattt gctacagcaa tataacctag cgtgaacaga gagacacagc123241 123 123241 gatgttccat ttcttttcaa cctggaacag gagaatttca taggtgggcc tcaatttcac123301 123 123301 tttagtatct tatttagaca agaaagttca tactgttcaa atgtcatgtt taagagtgct123361 123 123361 ggcattatca ctgctgtggc taccccatca gatgttgctc actgactaatcttctcatgt123421 tagtgaggat ggacaacata tcaggccata attcaaagta gcaaatagga aaagagcttc123481 atcctagcat tatgggacct taattaatgt cctttcctga caggtttcag aggcttttgc123541 aggcagcagc agagctattc atctcactga cagtggggaa catggccaaa tggttgcccc123601 cacaatggag gcagagtttc aggacacttg tctgatctct gcccttgaag gaacagtctc123661 accctgattg acacttttgc ctgttatgtc caaagaacca atggaaaagc aggaaaatta123 ttccttcttc atttctctct tcattattta aaattattct gtcttcactt ctctctcctt123781 ttctctgctt cctacttagc tctttagaaa tgcaattata atcttttatc tccccttcac123 cagacactcc caacagggca agttcatcta actatgtgct cttagttaga cgctacagag123901 cagaactctc tcccaccaag agactacctt gagacataac agtcaattca caagccaaaa123961 tatgcccgct atgaaactct cccatctgga aattttttgg ctgcttttac aacctagttt124021 tgcccacaaa ggcaccagca gtaaccaact caactgcctg gtagacaagg caccaaagcc124081 agtacccaga ccctctacct gctcacttcc tgccttgcat gccacgcccc ccatttaaaa124141 gcctctgctt tctgctccaa aggtgaagca gttaccctta aggaaagaag cctgtacttc 12459201 ttcccctaag gtagctttgg aataaaagtc actttatacc aaacctagct cttgttaatt124261 agactctgca agtgatgagc aactgaacct acatttcagt tataattcct atgcttgttc124321 686381 gacagctatg tgaataacca acaagatccc cttaggaaaa ccggtgcttg gcctggcctt124441 aaattccaga cccttgggca tcatacccaa gactgcaaga aagaggaggg gctggacctg124501 aaaaacttgg aagggaaggt ccaactgtac aggtattttg tcaggcatgt gatttcagta124561 taaaattcta gaaaagatga gtgacacttt ataaggagag aatatcaaca aaatttctca124621 ttttacttct tgctaagacg acagcaggga attgtaagca gatggatggg caatccccac124681 cttcagcagg ggaggccaag gccccaacac acctggggag aagagctggg ggcagtgaat 12436801 caggcttcca ggagggctgt gggacacaac agagcaagag attcagaaac tgatttcttc124861 cattaaacca gttatttaat ccaataaatc aaagagaata ctaagagttt tctctgccct124921 tctcccatca ctgagtcagt gcttgccaca ctcatattcc cactccccta ctcctagcga124981 ctacggtgtt caagggagcc agagtctagc cctcaccagc cagggtgttt ccctgctctg125041 gcctgagaga cacaaccacc ctgcacttgt ctctgattga atcgactgtc acattctcaa125101 12584 125161 gttcacctgc agattcactc attcattcac agatccttac tgagcacctg ctttgtgtga125221 gttgctgtgc taagtgctgg ggacacagca tggatagact ggcctgccct caagaagcat125281 gtggtctatg cagtcctgag ctggctgctc acaagaagag ccctgtagcc atatttctca125 gagggtggtc ctgacctgca tcacagtgac ctgagttgtt tgtcaataca gaaaagggtt125401 tctcaacctt ggcactattg acatttgggg cctgataata accctttatt gcagggggct125461 ggctgtgctt tgtttagtag catccctggc ctctacctat ttgttaccag cagcaccctc125521 tatgttgtaa gaatcaaaaa aatgcttctc acattgtcaa atatcccctc aggggaaaaa125 ttgtctctca ttgaaaacta ccgataaaga catttctggc cctgccccca tccttggacc125 aacagcatcc ctaatgcccc caactctggg tgagggacca ggaataggaa tctgaatgat125701 tgcagtgcac agggagctgt gcacactgaa atcccacagt tatcaccggg agccttacaa125761 tactctgtga tgtcttctaa atatttttaa gggattaaat taatatcaac atatttccct125821 ggttaagatg tgttttccta cacttgaatt tttttgagat tttgttttct ctatagttgg125881 catctatggt aactgtctag aatcagattt tttttttttt ttttttgagg aagggtcttt125941 cggtgtcacc taggctgtag tgcagtggta caatcatagc tcactgcagc ttcaaccttc126001 tgggatcaag caatcctcct atttcagcct ctcaagtagc tgggactaga ggtgcttgac126061 126121 1261267 126181 gatgacaggt gtgagccatc acacctggct ggttttgtca tttctcaatg catatgtata126241 tatgcacctt tcattttact gaataaaatg gattatcagt ttccaaagat ttcatgacag126301 tgccgtcact atccgtacta taaaatttat aaaaatttat tacatactgc tctattttat126361 tctctaatta ttttatcaat gagattataa tttcctgaac tgtaaagaga tattatcttt126421 ccttaacatt tttacacctg tgttcgttcc tagaatgctg tttggccctc aaaccttgac126481 cttcacccat ggtggtttct cggggatgct agctagggtc tacttacggg aggttgagca126541 ctttttcaga ttagtaatgc ctgcgacata ctgtggtccc aaatattttt catatgttgt126601 tttgccatgg agtctggcca gacactcagt gttgtcattg aacagaaggt ttttggtttc126661 agactggaat aagcaaaact tgtccgggca gtcagatcca tttctcccaa atttagcctg126721 126 126721 cgacaaaagg gcagacagtg agtagctaag gaaaagagga atttgtgggt taaaggaggc126781 781 126781 aaaggggtat ttcttccacc caagaacagc cctgagaaaa ccatggggca gaaggagctg126841 agttctggag tcattccacc tccttagtgg agtcccccac cccacactcc tggtggcagg126901 cccgccttgg gcagcatcca ggcctcacac cacttctggt cctacctcct accatctgcc126961 atctttcctt ccttcttaac ctgtgacctt ttcccataca acttcttatg ggtgacaagg127021 caacaatgga ggggttttga gatctgccct cacaagtcaa ttgctcagga cattctaata127081 tgcagctctt ctagagaggc aggctgctag gaaaacccag gctcagccac taaccagctc127141 agtgtgcagg tcggtcaccc tgcctccctc acacagttcc tgctctgtcc caggctccca127201 tgtggggaga ctgagaccca aacccctcag tcacggcagc tctctcacca gcaccactgt127261 gtgtgcacat taagagctcc ataaaggcca gttatggtgg ccagtcttgt tattcctgag127321 ttgttttctt caaaagcaca cagagacatg atgttatatg ataaaaatag aagttctaat127381 127 127381 aaaatcccag attttaagaa aattttggga tttcgttcaa atcacattta gagagcccta127441 12739441 127 127441 aatctatagg gcaccttctg agtttgctgt tttagaggcc tggtctagag cactgttcac127501 127 127501 tcggcccagg ttcaggaaat gtcacctgag taaaaagcac tatactaatg catgtgggag127561 gaaggctcag tggcttcctc atttgccaga agaacagcag gagggaaaaa gacagcctct127621 127 127621 gagccaggca gtgatggcaa caaggccagg gcacagagtc tcagcagaaa tggagtgagt127681 681 127681 cccagaaagc ccagagtcaa aagcctctgt tgttcttgtt gacactctgg gcaacgccac127741 741 agcatgaagc caatactctc accatgagct tcaagtagag gactagagag gatcgagtgg127801 gctggtgcac ctagctctgt gatctcctca cctaacatga gcccacacag ctaagaaagc127861 actagaagcc ctgtggtcca tacctgttgg tggagcaaca cctgtttcag gcgttccacc127921 ttatccatcc gagacaccac ggcatgattc ggggccatgg caagatggca gcttctagcc127981 tcagtcacag gcttccgttt gccatcgagg cacagcagcg caaagtctgc cagcttcaaa128041 tccttagccc atgcgtcatt gttatttcct ggggagaaaa agaaggtggc atcatccacg128101 cctcccctgc ttagccaaga agtctcttct gggtgggtgt ggccattcca ctgacctccc128161 aaatgcacac actggggttg tggtgatgtg aggaacagag aaggagcttc atcctacaca128221 agctgtacaa acttcaaata taccaaatat tagtgctgtg tccatgcaat ggaatgttat128281 tcagcaataa aagggagtga agttctggta catcctgcaa tatgcatgaa cctcgaaaac128341 gatgctaagt gaaagaagcc agtcacaaaa gaccacacaa taggctgggc acggtggctc128401 atgcctgtaa tcccagccct ttggaggcca aggtgggaga atcacttgaa gctaggagtt128461 12824 128521 tatatgactc catttatatg aaatgtccag aataggccag cctatggaga cagaaagtgg128581 attgatggtt gccaatgctg aagaaggata gggcaatgac tgataatagg tgcaagggtt128641 tctttatggg aggatacaag cgttctagag ttggattgtg ttgatggctg cacaactctg128701 tgaatgtgct ggagatcact gaattgtaca ctttgcatgg gtggattttt tagtatatga128761 attctacctc aataaagctg tttagagttc ttattttttt aaagaagaaa accctccacc128821 82128881 ttggtttctc ctccctttca tattcaaatg ctattagtgt aaccagagaa aggaaaggaa128941 cttttatagg tttatcaaat atatacagcc aattctaaca aaatacagtt gtaaagtacc129001 12928 129061 1291297 gttccggctc ccgtttgtct ctctgctctc tccctttaag aaagcacttt attcattctc129181 ttggattcct ctatttgata ttgaaataat ttcaaattta catgtcttgt tttaatctct129241 gtcccaagag acactagaag gagcagaagc agaagggaga agtggctgag actgcagtga129301 12942 129361 tcacctgctg agacttgggg gttggaatgc tgaagtgggg ctaaggagac agatgcagat129421 tggaaggtag caaatggctg aggaccagga gagagagtga ttgttcaaac attggctgga129481 agattatctt ccatcatctg caaccacctg taattttgtt cccactaact cccaaggagt129541 ctccagacca aggctcacat ggggatgaat gaaggcctct acttcctttt tcataaaggg129601 aggcttcatt tgcatatgtt cacccagttt gtagcatcat ccacagtttc caataggcat129661 gcatgatctc atgtgggcag acagtgtgtt tctgtggttg actagaggaa gccagggaga129721 12948 129781 gtgagagaaa gagagagagt gtgtgtgtat gaatttcgtt tcaaaatcca tatgacacct129841 acagatgtta tcatgttgtc tattgagata aagaattttg gagttctttt aatcacaaat129901 atggaaaatg ttataaaacc ttcccaaagg caaatctgaa cactaagatg tgttgtgatg129961 ccaaagactc tgctttgaag gagaaaagga aacaccttca cctaccatca gtgttctgca130021 agacagtgac atctttcaca aatgcaacgt ctccagcatt ctcagccagg cacctaaaat130081 gttccagaaa atatacacat aattacagaa gagaaactag tggggctttc ataaatattt130141 gtaatatgca ttccaaaaac tgaaatatgg aagtaaacat ctaaaagaca actatttcta130201 ggaatttact gtttacagcg gcagattgaa cacaggtgta cctgccctcc ttttaaaacc130261 ctatataaaa gacattacaa aaccaagaaa tctaaagata tgcgacccag gaaacaggca130321 atctaacatg aagtaagaca aaggaaagca ccaaaataat ggtcaacagg acccccagga130381 ccacagatgt gcaggcggcc tacacagcaa ccagtccaaa ctgcagcagg aagatggatg130441 ccttctggag cagcacttcc aagtaaatga tgaaactgtg atagcaccca gagagagaga 130561 130 gtgtgtgtgt atgcatgttg ttaggagatt tacattactg gcagacagtt tggggatgag130 atagtgatgt gtttttttaa gtgcagaaaa ttaagcaaat aagaaaagac atttatgaac130681 tccagagtaa acaaaaagtt tgtacaataa gggaaatata atatgagaat aacgcttaca130741 cagtcataag tactgaatat gacattagcg tgttgggtgc tgaagagagt tgaagtctgt130801 ggttgtgtgg tggaaaaggt gctgggggca gtgtgagagg ctagatcttc ttctatacta130861 cagagtcagc agaaagttaa aaattaagaa ccagcattat aaggatgata gaaataaagg130921 84 130981 agatataatt taaacaaaag acaagggatt ttcttccagt ataattagga atattaaaat131041 gtgggtgttt ccagtgaact aataccttgc tgcaggtctg aaaaaaaaaa aaagaggagc131101 acatgcttct ttcgggctct tatgagacat gtgttcagca tttctgagta gaatcacatt131161 tccatttgca aatccttagt cccttaaaga tatttttata cattcacaaa acattttttt131221 ttgttttggg tcttttttta tgagccactt atatagcaaa agctactttt ctgtcattcc131281 attactggaa caaggctgtt gaatttatat taaaaagttc agacaccctc agacacatga131 cgccatctgg tcgtgaaatg tactcttggc aaatggagga aaaggaacag gggaagatcc131401 tctctgcacc cttcacactg gtaaatagtg cccctgagaa gcaacacccg gatgaatggt131461 gctgtaaaac gtggggtgtg gttacaagtc actaagtggt tataacttat gaattctgaa131521 aacttgtttt ttggcttatt tttcacttcg ttactggaga ataacactgc aattctgcca131 tctctttgcc atttctaagg ccaaagtcag agaaaaaggg aaacctaagc catagtcatg131641 acctaggtga gaagaaaagg ggcggcgatg ggaaagagaa ttcttcccca taaatggaat131701 82761 ggcctactgc tgttgatctt ggctcaaagc cacagggaga agcactgcgg agctgaggtc131821 agacagccct ggtgccagcc tccactctct ggggcggtgg gtgtggtggg gacagccctc 131941 874 7 132001 132061 gttgggcacg cacttattct caccctgctc gtcgccaata cacagagcac agagattaga132121 tctcgggtca gacccagggg cacagctttg actgaaatat tcatctggag agaaggaaca132181 cggggagtca gctcttcaaa cctgagtcca cacaagcaac ctttacctaa cagccgatgc132241 agggtggttt cagttcatta gacttcccag gacagcaatc tagatagaac acactcacca132301 132361 aggcacagat ggacacccaa ctaaggctgg ggatgagagc tgtggctgcc tggagggtcc132421 cgtcatcaca gccttgagct ggggactcag ctcatgaccg tgatggctgt gtgcagcaga132481 gcctgtgagt tgcctagtcc aggatctgat tttgttttta tcagtaatgg aaaccctgct132541 ttgtatctgg gtgcttggcc ctttggtata aagactagac ttatcagact ccctggggct132601 catatggcca tatgggtagc tataggccag tgaaatatca gcaggagtgt tgggcgccag132661 cttctcagaa acatccttga aagacaattg gtacatgcct tttgcccttt cttctccttc132721 tctttcttca tcctgcacat agaatgcaga agcagggact ggacttagag atgcaatgtg132781 ggccatgagg tgaccttgag catgaaagcc acacaaatgg cagagtagccaaatgattaa132841 agcccaggtt ccagacccca tattgtcttc ataccagccc taggcaaacc acctctggac132901 tacatgacac agaaattaac ttctgtcttg tttaagcctc tactatttca ggagttttct132961 gttccttgca gctgaacctg atctgaattc gttcattgtg tgatttaacc caagaaagaa133021 686 9 133081 ccactgctgc tggaagagcc acactatgtg tcaacctcag gaaaagctgg gagttcccat133141 tccatcctgg cagtttccct acagctcaga ggctgccatg gagctggtga ggagcagagc133201 cacgtgaaag ctgcctgccc cggccaggat caaaaaccca tgcagtggag cccctgccct133261 aggagacgcc catacaagaa gggagtcaca ttgaggatgt gctacacacc atgccacggg133321 gcccacagca ggcagggtgt ggctgatgct gactaggatg agtgtggggt gtggtgggga133 gagaaaactg cagaagcagg tggagccagg ctcttgaggt cttattcagg ctccgttgca133441 gtgtagagta agcgtcagtt ttgcttagta acaggagtca cctttcatga ggcaggcaga133 catctttccc caagctggga agccagagtt taagaggaat ttaggtctgg agctccaaga133561 ggtaaaaagc atttgcacat cttggaactt gcatttattc ttagggtgca gcgaaatagg133621 cagatattcc aatctttaat cttggggtgg ggtgaatggg gcatgggaag tgctgtgcag133681 ggaaaccccc agtgcaccca cgcctccagg gggcagccac agggagaatt tccttatgct133741 ggaagaggcc tgcaggccac tatcagcctg caaatcccct cccctccctt ccctaaggtt133801 ccacagcaca atatgcctac cctccagggt ggcccaccca ccgcaccttt ggaactcctt133861 accaaatttg caggagcccg tctggttgaa gagcaggccc atggggatat tccagcctgc133921 agtcctgtcc acggcggtgt ggcaggactt cttgcctttc acagagttcc aggtaaggct133981 agtgtctgat ctcctaacca ccgccacagc aagatatcct ggcataacag atgacagaaa134041 aacaagtctt aacctccagg aggcctggca catggattcc agtggagctg tctacagccc134101 aggccaaaac aggccaagaa gcaacaccag gcaatgattc cctcaaagaa ctggcctttt134161 taggtagacc gagaaagcat aagctgctgc cttatgttaa ggtgagattg atgaaataaa134221 acagtaagaa aagctgatta ttttagtgat tacaggggac tgtcttcaac cagccacaca134281 atgtccctga gttacaaacc agcaatgcat ctctcagtgt aagcttctac agcaacaaac134341 actataaaca acaagagaga ccccaacagt gcataaatca ccaaccacag tgtgcatcag134401 gcaagagcac caacatccag ccagctaacg gctgtgtggg tacaggggca catgtcccca134461 gggactgccc tgagctgagt ctgaacccac cctgcactgg ttgaactcaa catggttgcc134521 gttgtcctcc tgagagaatg catctgacag acacccacca agggcaagtc ttttctgaaa134 ctgagcaagcaccagctctg gtgggcagga ggagtggtgc acagagcact gggacacgag134641 tcccaggtca cgaggacccg gggtcaagac caggatctac cacagtatta cctatggctg 13486701 tgagtgagat cctgggcact tggggactct cggtgccact gtttcctcat ccccatgagg134761 tggggaagta gcacccccca ttccatgacc atgacaaaat gagggactat atggatgttc134821 tttgccaagt gtgaaggtca atataaacat taattagaac tattcctctg tgaattattt134881 gcacccttaa aattattgct cctagaagcc ctatagcttc tagggctgca attctttctg134941 ttttttttac agttcctgcc acttcctctt ccagcaacaa gaacttatcc ttgaccctga135001 aagtggctaa tgccaactca ccttccacag gtctatccac acagttagga tcagggtcac135061 tgctttgttg ggattctgaa agaataaaga caagccagac atcattatcc attcagatgt135121 agtgagaagc cacaaactct taaatctcaa tgatgcagaa tcaaatccaa agagaccgtc135181 ccagcagttc catgcaggag aaatgcgtct atatgttcaa caaaagacat ggcacagaga135241 ttcacagctg cattattcac cacagccacc aactggaaac tactcaaatg cccatccaca135301 ctcaaatgat gaataatcac agtagactca cacagcgacg agactgaaca gtctacaact135361 acacacttag gtggatgaaa agcataacga tgagcaagag aaaccagaca taaaaaaaca135421 catgctgtgt aattccttta acatgaagtt taaaacatag gcaaacttag atctgcgacc135481 ttagaagcca ggagagaggc ttcccttgca ggagtaaggg ggcgggggac aggaggacat135541 aaggggcttc tgaaacttgc agtgtttgtt ctgggcccga gagcatggac tgtacagtgt135601 gtgaagtgcc atgagttgta catttatgtg cacttttctg tttgtatgtt ataattcact135661 gagatcttct ggaaaattaa gaagataaaa ccaacctgtc ccttgttaat tctcaacaca135721 ataggctttg tgggtaacac ggcccctttc atttcttctt tccctgattc tcccttttga135781 atgtatctgt tcatcataat gtttcacctg cattcaccga atgggattac tcatagcccc135841 actcccatga cccagaggga atataccaga ggatgctaac tccacttact gtagttctct135901 gccaggacag gcaccaaacc acatttgcct gcagtgtaca catatcctcc atccaaactc135961 atggcatcag cttctccttt ctgcaaagac agagcagatc tccagcacca cagtgaggct136021 gcatcccgtc ctgcctgtct atatagctct ctgagagaat ggttttctgt caggtgacca136081 gtgaaacagc agaaagagat ggactattca aactgagcag ccagaggaaa caccgtgtgc136141 accactaatt ctctcccagc cctgcctact ttctgggctg tcaattcaac tggaaagacc136201 136 aggcacaggt tgcactaatc ctctgtcctc tgagcaaaac cttttctgtg tccctggcac136261 tttggggaca ccttcctgga gcagtctcac tgactgagga cacagatggg aacagctggc ctcatctaat ctgaactcat tagcactcca ctccaagcgc tacacagaag ttgtccaaca136 cataagctga agtcgtcata ttggcccacc accagaatga acaagtccag gctacaacac136441 aggatcatgg actcatcagt agtatgaaac ttcctctttg acccagtaat atttttacaa136501 13635561 attgataata gcaaagtaag ggacaaagag gaatgggggc atgactaaac tgagccatat136621 tcacataaaa gatatcctgg aagcatgttt aaaaaatgtt ttcgtccgag tgctgtggct136681 cacacccgta atcccagcac tttgggaggc cgaagcagga agattgcttg agcccaggag136741 ttcgagacga gcctgggcaa caaagcgaga ccctgtcgct acaataataa taataataat136801 tatgcaggtg tggtggcgta tgcctgtagc cccagctact tgggaagctg agatgggagg136861 atcacttgag cccaagagtt ccaggctgca gtgagatgtg gtcgcaccac tgcactccag136921 cctgggtgac agatcaagaa tctgtctctt aaaaaaaaaa aaattaatgc tttccaagag136981 taaatattca tgtggaagaa tgcccattat acgctgttta gtgaaaaggg cttaaaaacg137041 acatactgca acacttcatt attgttgcat gcatatctgc agatgtgcag agaaatactg137101 gaatggagaa ttagccagac tttaaccatg tctgtccctc tgtgtgagat cacaggtggt137161 ttggggggtt tgttgttgtt ttgttttaac ataatacctt tccatatttt ccaaattcct 1375924 137221 tataataatc ctgagttgtt cttataacca gaggagtggg aaacccacag taaactgctt137281 tttgaaacta aaatgctttc tggccctgag cacacctctc caggcatccc tgcctcaccc137341 aggcccccgt ggcctctttg actgttgact tcactttaag cagatgccca ggccctaggt137401 cttccaccgg gcccaccgcc cgcccctgtg atggagctcc ctaccagcac cagggcgatg137461 cagtcctctg tggtggaggc cgaggagcag gtcacgctgc cttcgctcaa gccactccac137521 tggttacact tgcgcagctc ctgctcgccc accgcacacc acacgacccg cgcacgccgg 13786581 137641 137 agctacagta catgtgtgga catgtggacc cataccctct cctcctccac ttctcagctc137761 caagcccctt cttcaggtcc acagagctcc ctgtgtttcc cacttctgtt cctttggaga137821 agttccctgg cttctaatct atccattaat ctttagagtc aggaggcgcc tattgtctct137881 gtctctgagg ataaacgctc catgacccag agaccagtga cagtcccaag agatggccta137941 ggggaccttg agcccaaccc tgacttcccc taacgcctgc aatcaccacc aataactacg138001 gtgcagcctc tgggttcccc cagactccca cccccagccc cccagtagag aaggagccat138061 agctgagttc ccccaccatg gtgtccccaa ctaagttcaa ggtctgggcc tgggaagtgt138121 gggtaaatcc aggcccccgg attcatccag gaggggtcct ggctatcttt gttcatgttc138181 atgtttctca cttaatagga ggcaaactga tttttctgcc aggcctgggg agcctgacgt138241 gcactgatca ggtggccaga ctattctttt agagacacct gacctaatcc acagaagaca138301 ctcacacctg catcaaacct ccacgatgac cccacagtgt ctgggaaaag gagtgaccgc138361 cacaaagtag ggccacctgc tgggaagtag aagaccacac caggcggacc tcaggaccct138421 cctgggctca ctcacttttc ctcaagttct ggatggcagt gaagtagccg gagccaaggt138481 acagcccaga atctatcctc gggggcaccc tcgaaaaccc aatggcagag tccttgaaca138541 gcagatcttt ctgcccacta ggggagccaa agagctggaa tttcggtgac ttgtcctttc138601 caaacttttc ctaattaaga aaaaatagaa ttatggtgtc aatggtaaat agggaggaaa138661 caaaaaaatg atgttaaaaa agagtatctg gagctttggg atcattctaa ctgagagcag138721 gagcctcggt tgagaccctc ctgcagaggg acttgtgcca tctcggagac ccaagctcag138781 ctatggctca ttctttgaag agttgctgag gtccaagcac cttagggccc tgagaagatt138841 gcatcgacca ccccctgctt ctgctcccat cataagacgc tgtcagcccg tgtgacagaa138901 gagtttcatt gcttctgctg tccacagtac agcctgggca agcagcccaa tgcattagtg138961 tgctatcctg cagcaaagct acaggacttc tggagtggca gaagtcaggg aagtaagaaa139021 ccttgctccc tgccccccat atccaagcaa gtggggagga ccgtgggtga agatacctgt139081 gcctggcgga gaagattcca gatggcatcc tccttgccat tcacacttcg tgccacaacg139141 139 139141 gcatgagaag ggacccgggc cagatggcag tctttgaact tgtccactgg cttccgagtg139201 ttgtctgggc agagtaactc atactcgtcc ctttcagcct cgtctgacag gtcctctgca139261 gggaaggtga ggtgggaggg agtctagata agccgactcc agcagtaacc tcgagctata139321 gttccccttc tccctataga attttgagct tggggagata gctgacaaaa ctgagggtca139381 3535441 agggggcagc cgaggtgtga tcctcatcct aaatcactta ggccaccctg gggttcccgt139501 gcagctgctg cctggcaggc cagagaggcc aaaccagacc cgtctgtttc tgcggcatct139561 ctgcctggaa aagtcacttt gcagagacaa gctcaggggg ccaccaaggg ttgctccctt139621 actcacatct ctgggaagaa taaaaatgac aaaaatgtta acaaggcagg gaataaggca139681 ggaaggtgag acactttcca acactgagta tatcaaaaga aggggaagaa tggttttatg139741 46139801 aaaaatcttg cccgagtcat tttatgagat tagtacaacc ttgatgtcaa aatcagaaaa139861 agtataggag ggaagaatta aaagtttatt ttacttacga acataaatgc aaaatttgta139921 58139981 5814024 140041 tctgcattta atggcagaaa accatgagat cgtcttcatc ttaatagatg cagaacgatt140 gtttatgtgt tcaacatcta tttgtgtgtg gttttttttt cagcctcaga aaaatagtaa140161 140 tagatagaat cggtaaagtt tttttgtttg ttttgagacg gagtctcact ctgttgccca140221 140281 attctcttgc ctcagcctcc caagtagctg ggaccacaag cgcacgccac caggcccagc140341 140401 tcctgacctc atgtgatcca cccgcctcag tctcccaaag tgctgggatt acaggggtga140461 gacaccacgc ctggccataa gttattggct tgataaatgc cattaatcta cagcaaaaac140521 140 cactgttaca atgccagcac aattctagat atccagatca cacaatttac aaaagaaatg 140140140140140 ctacaaaaaa ccaatgaaac caacagaaac taataaaact actcagagga gtaacaagtt140761 ataagagcaa cctacaaaaa tcagatgtta tcctcattaa caataaccaa atagaaacca140821 atatggacta taagatgtta caatagcaac taaaaccatt aagtagctaa taattagcct140881 cccacaaaga cacatcagac ccacaaagga aaaattttag ttctatcaaa gaaactaaaa140941 agaggtgtga tcaaatgggg gagatttagc atcaccatgg actggacaac ttaatgttat141001 aaatatgctg atttttcatg gaacaattta aattcagtac aattcgaatc aaaattaaag141061 tatgattttt tccagaaatt caacaaaata attctgaagt tttagctgag tatatttgaa141121 aaggaataat aaagtgagag gggagaggga gctctctctc attctctctc tcttcctctc 14146181 actggctctc tctctttctc tccaccagat agtaagaccc attggtaagc cacagtaaca141241 aaagcagaaa aaatgcaaat acaccaatga aataaaatag ctcagaaact ggtccacttg141301 gatatataca aacttggtgt agaattggct tcacatatgg cagaaaaaat atactttttt141361 tattgtaagg taaattgcct cactgtaaag gggataaaat gctaaagcca aatctatatc 14158421 141 tgactttcta ggtagagcac atataaatag atgaggaagg ggatcttcaa atcttatttt141481 aggaaataat tatgatttgg gtgtgaagaa gggcatcttt gaaatatctc aaaactacaa141 accaacaagg tgaggcttgt ggatttgacc ttatcaatat caaggatttt tgatcaacag141601 agactaccgt tgtcagattt ttgactgaga agaggtttta ctaaagttta aaatcagcaa141661 tagtttgata cctagataga aggaacttct gtccttgaat caaaatcatg cagaaacaag141 gtgtgaaact caatttaaaa agtagtcaaa tgtcacaaaa taagaaaggg aagcccaaac141781 ggctagcaaa tatgttgaaa tgatcaaact caccagctgt cagagaaatg aaaattaaaa141841 ataaaacgaa ctatctattg cattacaacc atcattcgga caaaaagtat gaaagtcaaa141901 aatacttcta actgaagttg tggggaaatt agaacacttg cagagtgtca ttccagacag141961 021 ggtctgtttc tggtggcctc tgatgaatgc ggggtctgtc tctgatggtc ctaggtgaat142081 gtgggtgttg tctctttctc tggtggtcct gggtggatgt ggggtgtgtc tctgatggtc142141 ctgagtgaat gtgggtgtct gtcactttct ctagtggccc tgggtggaat atagtagccc142201 tgtctctatt ggtcttgcat gaaatgtagt gagcttatgt ccactagtcc tgggtgcagt142261 gtgtttagcc tctacatact catcaactgc tttattataa gtccaggagg gacgctgtcc142321 agcaggtaag taaggaacac aggtgaaggt atcagtcgtg tggctgcatg tggtagagga142381 aaagagagca caacctctgt ccatcactat ggtgacagag aagtaaaagg tggatgtatt142441 ccacggaaca ctcctcaact gttaggaccc ctgagctaga catgtataca acaataccga142501 taaacctcta aaacaaaatg ctgagcagaa aacccaagta gcaggatttc taatgctcac142561 taaaacctct atgaacccag aaaccggaaa cacaaaccag cacaatctgt tctgcatgag142621 cacatgtgtc ttggaggact ggaggacgca ttgccaagca cctaggcatg ggtgtctatg142681 aggggaagag aaaggcagta ggcacaggag gtttgaagaa aactgatcat ttaaaatatg142741 aaagatcata aaatcagagc tgtgccctgt aggaatcttg aaaatggtct gccatgaact142801 taggaatcta attagctcaa aggtcagagt catgatcaag taagataaaa ggggtcagta142861 cccacggctc attaccctgc tcttaccaaa cactgtgctc tctctgataa aagccacgtc142921 921 142921 tccagccccg tctctcagac acctgtgaaa agagaaacca tcaggggtaa gcacaggcag142981 ccctccccag cccctccctg tggaacagta gccctggcac tcagcatcta tgggtttcta143041 ctccctgcag ggcagggctc tgaagctt (2) SEQ ID NO: 2673 for data: (i) sequence characteristics:

(A) Length: 2277 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2573 sequence description: 1 gagctcagaa attcaagacc agcctgggca aggtagagag acccccatgt ctacaaaaaa 61 taaaaaatga ttagtcaggt gtggtggccc gcacctgtag ttccagctac tcaggacgct 121 gaggtgggag aatgactcga gcccgtgagt tgaggctgca gtgagccgag atcacaccac 181 721 ggtagagacg ggggtttctc catgttggcc aggctggtct cgaactcttg acctcaggtg 781 181 tccagcctag gcaagagtga gaccctctct caaaaaaaaa aaaaaaaaaa aaaaaaaaag 241 aaccatcaaa atgttttgca cagcagtcac gccattttac atttctgcca gcaatgtgca 301 ccaggcttcc agtttcttca catcttcact aactcttatt tcctttgctt taaactctaa 361 ccatcaaagt aggtgtaaag ggtatctcac tgtggtttga tttgcatttc tctaatgact 421 aatagtgtta agtatcattt catgtgcatg ttggccattt atatgtcatt ggagaaatgt 481 ctactcaaac cgtttgctca tttagaaact taggtaggtt ggtctgagtg cagtggtgtt 541 taaaactaat ttttttttga gacaaagtct cactctgtcg cccaggctgg aatgcaatgg 601 tgagatcttg gctcactaca acctccatct cctgggttca agcaattctt ctgcctcagc 661 ctctcaagta gctgggatta caggcatgcg ccaccacgcc tggctaattt ttgtattttt 721 ggtagagacg ggggtttctc catgttggcc aggctggtct cgaactcttg acctcaggtg 781 atccacctgc ctcggcctcc acagggctag gattagaggt gtgagccacc gcaccaggcc 841 gtttaaaact aatggagcac aaccagttac caatatcttt gttccttctc cactccctct 901 gcttcaactt gactagccta aaataaataa atttaaaaaa ctgggcacag tggctcacac 961 ctgtaatccc agcactttgg gaggccgagg caggaggatt acttgagcat aggagttcaa1021 gatcagcctg ggcaactagt gaaaaaccat ctcaaaaaag aaaaattagc caggcatggt1081 ggcatgcacc tgtggtttca gctacttaga gcagaggtgg aggatcgctt gattctggag1141 ttcaaggttg cattgagctg tgatcgcgcc agtgcactct cgcttgggtg acagagtaag1201 accttgtctc aaaaaattta aaacaaaaca aaaaaaactg gttatttgtc tttttattgg1261 tgaattataa gagttttaaa aaatatattc tggaaacaaa tcccttatta gagatatgat1321 ttgcaaatat tttctccaat tttttttttt tttaaagaca aagtttcact ttgtcgccca1381 ggctggtctt gattcctggc ttcaagagat gctcttacct ccacctcctg aagcccaaag1441 ggctggaatt acagccagtg agcctgcacc cagcctccaa ttctttagat tttacatttt1501 agaaccaaaa tgggttaaat acactgttct gtaatctgct cttttcttta atagtagttc1581 atgtacatct ttcaaggtcc agagaaagct ctcactttct ccccgtttta tttttccttc1621 cctcattctt tttcactgct gcatagcatt ccattgtaat tttgccactg tttattagac1681 cagtcctctg ctgagcttta cagagccctt agttggatgt tagtgagaac catgacagca1741 gtgagactgt catctccctg acatgctgtc agcttttgga tgatgtgaaa atgcaagcag1801 gcacaggaaa tgtctctaac ttgcttacac ttcctccctg aaccctgcgg tttcacaact1861 cctgcaggca cacctccctc cccgcctgcc agtgtcacca gcctgttgcc tctgtgagaa1921 agtaccactg taagaggcca aagggcatga tcattttcct ctttcaccct gtctaggttg1981 ccagcaaatc ccacgggcct cctgacgctg cccctggggc cacaggtccc tcgagtgctg2041 gaaggatgaa ggattcctgc atcactgtgatggccatggc gctgctgtct gggttctttt2101 tcttcggtag gcaagggagg aggcagggga agggacatgt gtctgtgacc agagaaactg2161 cagggcttgg tgcagctgga gtaaacaagg agctgccccc taaaagtggg attggcctta2221 gggatatggg gccccaggga tcttggaagg agaaagggga gagcggggaa ataaaag (2) SEQ ID NO: 2674 data: (i) sequence characteristics:

(A) length: 1520 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2674 sequence description: 1 gatcttggct cactacaacc tccatctggt gggttcaagc aattcttctg cctcagcctc 61 tcaagtagct gggattacag gcatgcgcca ccacgcccgg ctaatttttg tatttttggt121 agagacgggg gtttctccat gttggccagg ctggtctcga actcttgacc tcaggtgatc181 721 tttgcaaata ttttctccaa tttttttttt tttaaagaca aagtttcact ttggtgccca 781 181 cacctgcctc ggcctcccac aggctaggat tagaggtgtg agccaccgca ccaggccgtt241 taaaactaat ggagcacaac cagttaccaa tatctttgtt ccttctccac tccctctgct 301 tcacttgact agcctaaaat aaataaattt aaaaaactgg gcacagtggc tcacacctgt 361 aatcccagca ctttgggagg ccgaggcagg aggattactt gagcatagga gttcaagatc 421 agcctgggca acatagtgaa aaaccatctc aaaaaagaaa aaattagcca ggcatggtgg 481 catgcacctg tggtttcagc tacttaggag cagaggtggg aggatcgctt gattctggga 541 gttcaaggtt gcattgagct gtgatcgcgc cagtgcactc tcgcttgggt gacagagcaa 601 gaccttgtct caaaaaattt aaaacaaaac aaaaaaaact ggttatttgt ctttttattg 661 ttgaattata agagttttaa aaaatatatt ctggaaacaa atcccttatt agagatatga 721 tttgcaaata ttttctccaa tttttttttt tttaaagaca aagtttcact ttggtgccca 781 ggctggtctt cattcctggc ttcaagagat gctcttacct ccacctcctg aagccccaaa 841 gggctggaat tacagccagt gagccactgc acccagcctc caattcttta gattttacat 901 tttagaacca aaatgggtta aatacactgt tctgtaatct gctcttttct ttaatagtag 961 ttcatgtaca tctttcaagg tccagagaaa gctctcactt tctccccgtt ttatttttcc1021 ttccctcatt ctttttcact gctgcatagc attccattgt aattttgcca ctgtttatta1081 gaccagtcct ctgctgagct ttacagagcc cttagttggg atgttagtga gaaaccatga1141 cagcagtgga gactgtcatctccctgacat gctgtcagct tttggatgat gtgaaaatgc1201 aagcaggcac aggaaatgtc tctctaactt gcttacactt cctccctgaa ccctgcggtt1261 tcacaactcc tgcaggcaca cctccctccc cgcctgccag tgtcaccagc ctgttgcctc1321 tgtgagaaag taccactgta agaggccaaa gggcatgatc attttcctct ttcaccctgt1381 ctaggttgcc agcaaatccc acgggcctcc tgacgctgcc cctggggcca caggtccctc1441 gagtgctgga aggatgaagg attcctgcat cactgtgatg gccatggcgc tgctgtctgg1501 gttctttttc ttcggtaggc (2) SEQ ID NO: 2675 for data: (i) sequence characteristics:

(A) length: 2776 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2675 sequence description: 1 cagggcagac tggtagcaaa gcccccacgc ccagccagga gcaccgccgc ggactccagc 61 acaccgaggg acatgctggg cctgcgcccc ccactgctcg ccctggtggg gctgctctcc 121 ctcgggtgcg tcctctctca ggagtgcacg aagttcaagg tcagcagctg ccgggaatgc 181 721 tttcagaccg aggtcgggaa gcagctgatt tccggaaacc tggatgcacc cgagggtggg 781 181 atcgagtcgg ggcccggctg cacctggtgc cagaagctga acttcacagg gccgggggat 241 cctgactcca ttcgctgcga cacccggcca cagctgctca tgaggggctg tgcggctgac 301 gacatcatgg accccacaag cctcgctgaa acccaggaag accacaatgg gggccagaag 361 cagctgtccc cacaaaaagt gacgctttac ctgcgaccag gccaggcagc agcgttcaac 421 gtgaccttcc ggcgggccaa gggctacccc atcgacctgt actatctgat ggacctctcc 481 tactccatgc ttgatgacct caggaatgtc aagaagctag gtggcgacct gctccgggcc 541 ctcaacgaga tcaccgagtc cggccgcatt ggcttcgggt ccttcgtgga caagaccgtg 601 ctgccgttcg tgaacacgca ccctgataag ctgcgaaacc catgccccaa caaggagaaa 661 gagtgccagc ccccgtttgc cttcaggcac gtgctgaagc tgaccaacaa ctccaaccag 721 tttcagaccg aggtcgggaa gcagctgatt tccggaaacc tggatgcacc cgagggtggg 781 ctggacgcca tgatgcaggt cgccgcctgc ccggaggaaa tcggctggcg caacgtcacg 841 cggctgctgg tgtttgccac tgatgacggc ttccatttcg cgggcgacgg aaagctgggc 901 gccatcctga cccccaacga cggccgctgt cacctggagg acaacttgta caagaggagc 961 aacgaattcg actacccatc ggtgggccag ctggcgcacaagctggctga aaacaacatc1021 cagcccatct tcgcggtgac cagtaggatg gtgaagacct acgagaaact caccgagatc1081 atccccaagt cagccgtggg ggagctgtct gaggactcca gcaatgtggt ccatctcatt1141 aagaatgctt acaataaact ctcctccagg gtcttcctgg atcacaacgc cctccccgac1201 accctgaaag tcacctacga ctccttctgc agcaatggag tgacgcacag gaaccagccc1261 agaggtgact gtgatggcgt gcagatcaat gtcccgatca ccttccaggt gaaggtcacg1321 gccacagagt gcatccagga gcagtcgttt gtcatccggg cgctgggctt cacggacata1381 gtgaccgtgc aggttcttcc ccagtgtgag tgccggtgcc gggaccagag cagagaccgc1441 agcctctgcc atggcaaggg cttcttggag tgcggcatct gcaggtgtga cactggctac1501 attgggaaaa actgtgagtg ccagacacag ggccggagca gccaggagct ggaaggaagc1561 tgccggaagg acaacaactc catcatctgc tcagggctgg gggactgtgt ctgcgggcag1621 tgcctgtgcc acaccagcga cgtccccggc aagctgatat acgggcagta ctgcgagtgt1681 gacaccatca actgtgagcg ctacaacggc caggtctgcg gcggcccggg gagggggctc1741 tgcttctgcg ggaagtgccg ctgccacccg ggctttgagg gctcagcgtg ccagtgcgag1801 aggaccactg agggctgcct gaacccgcgg cgtgttgagt gtagtggtcg tggccggtgc1861 cgctgcaacg tatgcgagtg ccattcaggc taccagctgc ctctgtgcca ggagtgcccc1921 ggctgcccct caccctgtgg caagtacatc tcctgcgccg agtgcctgaa gttcgaaaag1981 ggcccctttg ggaagaactg cagcgcggcg tgtccgggcc tgcagctgtc gaacaacccc2041 gtgaagggca ggacctgcaa ggagagggac tcagagggct gctgggtggc ctacacgctg2101 gagcagcagg acgggatgga ccgctacctc atctatgtgg atgagagccg agagtgtgtg2161 gcaggcccca acatcgccgc catcgtcggg ggcaccgtgg caggcatcgt gctgatcggc2221 attctcctgc tggtcatctg gaaggctctg atccacctga gcgacctccg ggagtacagg2281 cgctttgaga aggagaagct caagtcccag tggaacaatg ataatcccct tttcaagagc2341 gccaccacga cggtcatgaa ccccaagttt gctgagagtt aggagcactt ggtgaagaca2401 aggccgtcag gacccaccat gtctgcccca tcacgcggcc gagacatggc ttggccacag2461 ctcttgagga tgtcaccaat taaccagaaa tccagttatt ttccgccctc aaaatgacag2521 ccatggccgg ccggtgcttc tgggggctcg tcggggggac agctccactc tgactggcac2581 agtctttgca tggagacttg aggagggctt gaggttggtg aggttaggtg cgtgtttcct2641 gtgcaagtca ggacatcagt ctgattaaag gtggtgccaa tttatttaca tttaaacttg2701 tcagggtata aaatgacatc ccattaatta tattgttaat caatcacgtg tatagaaaaa2761 27 2761 aaaataaaac ttcaat (2) SEQ ID NO: 2676 data: (i) sequence characteristics:

(A) length: 2291 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2676 sequence description: 1 ctcgccctgg tggggctgct ctccctcggg tgcgtcctct ctcaggagtg cacgaagttc 61 aaggtcagca gctgccggga atgcatcgag tcggggcccg gctgcacctg gtgccagaag 121 ctgaacttca cagggccggg ggatcctgac tccattcgct gcgacacccg gccacagctg 181 721 gaaatcggct ggcgcaacgt cacgcggctg ctggtgtttg ccactgatga cggcttccat 781 181 ctcatgaggg gctgtgcggc tgacgacatc atggacccca caagcctcgc tgaaacccag 241 gaagaccaca atgggggcca gaagcagctg tccccacaaa aagtgacgct ttacctgcga 301 ccaggccagg cagcagcgtt caacgtgacc ttccggcggg ccaagggcta ccccatcgac 361 ctgtactatc tgatggacct ctcctactcc atgcttgatg acctcaggaa tgtcaagaag 421 ctaggtggcg acctgctccg ggccctcaac gagatcaccg agtccggccg cattggcttc 481 gggtccttcg tggacaagac cgtgctgccg ttcgtgaaca cgcaccctga taagctgcga 541 aacccatgcc ccaacaagga gaaagagtgc ccgcccccgt ttgccttcag gcacgtgctg 601 aagctgacca acaactccaa ccagtttcag accgaggtcg ggaagcagct gatttccgga 661 aacctggatg cacccgaggg tgggctggac gccatgatgc aggtcgccgc ctgcccggag 721 gaaatcggct ggcgcaacgt cacgcggctg ctggtgtttg ccactgatga cggcttccat 781 ttcgcgggcg acggaaagct gggcgccatc ctgaccccca acgacggccg ctgtcacctg 841 gaggacaact tgtacaagag gagcaacgaa ttcgactacc catcggtggg ccagctggcg 901 cacaagctgg ctgaaaacaa catccagccc atcttcgcgg tgaccagtag gatggtgaag 961 acctacgaga aactcaccga gatcatcccc aagtcagccg tgggggagct gtctgaggac1021 tccagcaatg tggtccatct cattaagaat gcttacaata aactctcctc cagggtcttc1081 ctggatcaca acgccctccc cgacaccctg aaagtcacct acgactcctt ctgcagcaat1141 ggagtgacgc acaggaacca gcccagaggt gactgtgatg gcgtgcagat caatgtcccg1201 atcaccttcc aggtgaaggt cacggccaca gagtgcatcc aggagcagtc gtttgtcatc1261 cgggcgctgg gcttcacgga catagtgacc gtgcaggtcc ttccccagtg tgagtgccgg1321 tgccgggacc agagcagaga ccgcagcctc tgccatggca agggcttctt ggagtgcggc1381 atctgcaggt gtgacactgg ctacattggg aaaaactgtg agtgccagac acagggccgg1441 agcagccagg agctggaagg aagctgccgg aaggacaaca actccatcat ctgctcaggg1501 ctgggggact gtgtctgcgg gcagtgcctg tgccacacca gcgacgtccc cggcaagctg1561 atatacgggc agtactgcga gtgtgacacc atcaactgtg agcgctacaa cggccaggtc1621 tgcggcggcc cggggagggg gctctgcttc tgcgggaagt gccgctgcca cccgggcttt1681 gagggctcag cgtgccagtg cgagaggacc actgagggct gcctgaaccc gcggcgtgtt1741 gagtgtagtg gtcgtggccg gtgccgctgc aacgtatgcg agtgccattc aggctaccag1801 ctgcctctgt gccaggagtg ccccggctgc ccctcaccct gtggcaagta catctcctgc1861 gccgagtgcc tgaagttcga aaagggcccc tttgggaaga actgcagcgc ggcgtgtccg1921 192 1921 ggcctgcagc tgtcgaacaa ccccgtgaag ggcaggacct gcaaggagag ggactcagag1981 ggctgctggg tggcctacac gctggagcag caggacggga tggaccgcta cctcatctat2041 gtggatgaga gccgagagtg tgtggcaggc cccaacatcg ccgccatcgt cgggggcacc2101 gtggcaggca tcgtgctgat cggcattctc ctgctggtca tctggaaggc tctgatccac2161 ctgagcgacc tccgggagta caggcgcttt gagaaggaga agctcaagtc ccagtggaac2221 aatgataatc cccttttcaa gagcgccacc acgacggtca tgaaccccaa gtttgctgag2281 agttaggagc a (2) SEQ ID NO: 2677 data: (i) sequence characteristics:

(A) length: 8864 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2677 sequence description: 1 gagctcagaa attcaagacc agcctgggca aggtagagag acccccatgt ctacaaaaaa 61 taaaaaatga ttagtcaggt gtggtggccc gcacctgtag ttccagctac tcaggacgct 121 gaggtgggag aatgactcga gcccgtgagt tgaggctgca gtgagccgag atcacaccac 181 721 ggtagagacg ggggtttctc catgttggcc aggctggtct cgaactcttg acctcaggtg 781 181 tccagcctag gcaagagtga gaccctctct caaaaaaaaa aaaaaaaaaa aaaaaaaaag 241 aaccatcaaa atgttttgca cagcagtcac gccattttac atttctgcca gcaatgtgca 301 ccaggcttcc agtttcttca catcttcact aactcttatt tcctttgctt taaactctaa 361 ccatcaaagt aggtgtaaag ggtatctcac tgtggtttga tttgcatttc tctaatgact 421 aatagtgtta agtatcattt catgtgcatg ttggccattt atatgtcatt ggagaaatgt 481 ctactcaaac cgtttgctca tttagaaact taggtaggtt ggtctgagtg cagtggtgtt 541 taaaactaat ttttttttga gacaaagtct cactctgtcg cccaggctgg aatgcaatgg 601 tgagatcttg gctcactaca acctccatct cctgggttca agcaattctt ctgcctcagc 661 ctctcaagta gctgggatta caggcatgcg ccaccacgcc tggctaattt ttgtattttt 721 ggtagagacg ggggtttctc catgttggcc aggctggtct cgaactcttg acctcaggtg 781 atccacctgc ctcggcctcc acagggctag gattagaggt gtgagccacc gcaccaggcc 841 gtttaaaact aatggagcac aaccagttac caatatcttt gttccttctc cactccctct 901 gcttcaactt gactagccta aaataaataa atttaaaaaa ctgggcacag tggctcacac 961 ctgtaatccc agcactttgg gaggccgagg caggaggatt acttgagcat aggagttcaa1021 gatcagcctg ggcaactagt gaaaaaccat ctcaaaaaag aaaaattagc caggcatggt1081 ggcatgcacc tgtggtttca gctacttaga gcagaggtgg aggatcgctt gattctggag1141 ttcaaggttg cattgagctg tgatcgcgcc agtgcactct cgcttgggtg acagagtaag1201 accttgtctc aaaaaattta aaacaaaaca aaaaaaactg gttatttgtc tttttattgg1261 tgaattataa gagttttaaa aaatatattc tggaaacaaa tcccttatta gagatatgat1321 ttgcaaatat tttctccaat tttttttttt tttaaagaca aagtttcact ttgtcgccca1381 ggctggtctt gattcctggc ttcaagagat gctcttacct ccacctcctg aagcccaaag1441 ggctggaatt acagccagtg agcctgcacc cagcctccaa ttctttagat tttacatttt1501 agaaccaaaa tgggttaaat acactgttct gtaatctgct cttttcttta atagtagttc1561 atgtacatct ttcaaggtcc agagaaagct ctcactttct ccccgtttta tttttccttc1621 cctcattctt tttcactgct gcatagcatt ccattgtaat tttgccactg tttattagac1681 cagtcctctg ctgagcttta cagagccctt agttggatgt tagtgagaac catgacagca1741 gtgagactgt catctccctg acatgctgtc agcttttgga tgatgtgaaa atgcaagcag1801 180 1801 gcacaggaaa tgtctctaac ttgcttacac ttcctccctg aaccctgcgg tttcacaact1861 cctgcaggca cacctccctc cccgcctgcc agtgtcacca gcctgttgcc tctgtgagaa1921 agtaccactg taagaggcca aagggcatga tcattttcct ctttcaccct gtctaggttg1981 ccagcaaatc ccacgggcct cctgacgctg cccctggggc cacaggtccc tcgagtgctg2041 gaaggatgaa ggattcctgc atcactgtga tggccatggc gctgctgtct gggttctttt2101 tcttcggtag gcaagggagg aggcagggga agggacatgt gtctgtgacc agagaaactg2161 cagggcttgg tgcagctgga gtaaacaagg agctgccccc taaaagtggg attggcctta2221 gggatatggg gccccaggga tcttggaagg agaaagggga gagcggggaa ataaaag 1 gatcttggct cactacaacc tccatctggt gggttcaagc aattcttctg cctcagcctc 61 tcaagtagct gggattacag gcatgcgcca ccacgcccgg ctaatttttg tatttttggt121 agagacgggg gtttctccat gttggccagg ctggtctcga actcttgacc tcaggtgatc181 39181 cacctgcctc ggcctcccac aggctaggat tagaggtgtg agccaccgca ccaggccgtt241 taaaactaat ggagcacaac cagttaccaa tatctttgtt ccttctccac tccctctgct 301 tcacttgact agcctaaaat aaataaattt aaaaaactgg gcacagtggc tcacacctgt 361 aatcccagca ctttgggagg ccgaggcagg aggattactt gagcatagga gttcaagatc 421 agcctgggca acatagtgaa aaaccatctc aaaaaagaaa aaattagcca ggcatggtgg 481 catgcacctg tggtttcagc tacttaggag cagaggtggg aggatcgctt gattctggga 541 gttcaaggtt gcattgagct gtgatcgcgc cagtgcactc tcgcttgggt gacagagcaa 601 gaccttgtct caaaaaattt aaaacaaaac aaaaaaaact ggttatttgt ctttttattg 661 ttgaattata agagttttaa aaaatatatt ctggaaacaa atcccttatt agagatatga 721 tttgcaaata ttttctccaa tttttttttt tttaaagaca aagtttcact ttggtgccca 781 ggctggtctt cattcctggc ttcaagagat gctcttacct ccacctcctg aagccccaaa 841 gggctggaat tacagccagt gagccactgc acccagcctc caattcttta gattttacat 901 tttagaacca aaatgggtta aatacactgt tctgtaatct gctcttttct ttaatagtag 961 ttcatgtaca tctttcaagg tccagagaaa gctctcactt tctccccgtt ttatttttcc1021 ttccctcatt ctttttcact gctgcatagc attccattgt aattttgcca ctgtttatta1081 gaccagtcct ctgctgagct ttacagagcc cttagttggg atgttagtga gaaaccatga1141 cagcagtgga gactgtcatc tccctgacat gctgtcagct tttggatgat gtgaaaatgc1201 aagcaggcac aggaaatgtc tctctaactt gcttacactt cctccctgaa ccctgcggtt1261 tcacaactcc tgcaggcaca cctccctccc cgcctgccag tgtcaccagc ctgttgcctc1321 tgtgagaaag taccactgta agaggccaaa gggcatgatc attttcctct ttcaccctgt1381 ctaggttgcc agcaaatccc acgggcctcc tgacgctgcc cctggggcca caggtccctc1441 gagtgctgga aggatgaagg attcctgcat cactgtgatg gccatggcgc tgctgtctgg1501 gttctttttc ttcggtaggc 1 cagggcagac tggtagcaaa gcccccacgc ccagccagga gcaccgccgc ggactccagc 61 acaccgaggg acatgctggg cctgcgcccc ccactgctcg ccctggtggg gctgctctcc 121 ctcgggtgcg tcctctctca ggagtgcacg aagttcaagg tcagcagctg ccgggaatgc 181 atcgagtcgg ggcccggctg cacctggtgc cagaagctga acttcacagg gccgggggat 241 cctgactcca ttcgctgcga cacccggcca cagctgctca tgaggggctg tgcggctgac 301 gacatcatgg accccacaag cctcgctgaa acccaggaag accacaatgg gggccagaag 361 cagctgtccc cacaaaaagt gacgctttac ctgcgaccag gccaggcagc agcgttcaac 421 gtgaccttcc ggcgggccaa gggctacccc atcgacctgt actatctgat ggacctctcc 481 tactccatgc ttgatgacct caggaatgtc aagaagctag gtggcgacct gctccgggcc 541 ctcaacgaga tcaccgagtc cggccgcatt ggcttcgggt ccttcgtgga caagaccgtg 601 ctgccgttcg tgaacacgca ccctgataag ctgcgaaacc catgccccaa caaggagaaa 661 gagtgccagc ccccgtttgc cttcaggcac gtgctgaagc tgaccaacaa ctccaaccag 721 tttcagaccg aggtcgggaa gcagctgatt tccggaaacc tggatgcacc cgagggtggg 781 ctggacgcca tgatgcaggt cgccgcctgc ccggaggaaa tcggctggcg caacgtcacg 841 cggctgctgg tgtttgccac tgatgacggc ttccatttcg cgggcgacgg aaagctgggc 901 gccatcctga cccccaacga cggccgctgt cacctggagg acaacttgta caagaggagc 961 aacgaattcg actacccatc ggtgggccag ctggcgcaca agctggctga aaacaacatc1021 cagcccatct tcgcggtgac cagtaggatg gtgaagacct acgagaaact caccgagatc1081 atccccaagt cagccgtggg ggagctgtct gaggactcca gcaatgtggt ccatctcatt1141 aagaatgctt acaataaact ctcctccagg gtcttcctgg atcacaacgc cctccccgac1201 accctgaaag tcacctacga ctccttctgc agcaatggag tgacgcacag gaaccagccc1261 agaggtgact gtgatggcgt gcagatcaat gtcccgatca ccttccaggt gaaggtcacg1321 gccacagagt gcatccagga gcagtcgttt gtcatccggg cgctgggctt cacggacata1381 gtgaccgtgc aggttcttcc ccagtgtgag tgccggtgcc gggaccagag cagagaccgc1441 agcctctgcc atggcaaggg cttcttggag tgcggcatct gcaggtgtga cactggctac1501 attgggaaaa actgtgagtg ccagacacag ggccggagca gccaggagct ggaaggaagc1561 tgccggaagg acaacaactc catcatctgc tcagggctgg gggactgtgt ctgcgggcag1621 tgcctgtgcc acaccagcga cgtccccggc aagctgatat acgggcagta ctgcgagtgt1681 gacaccatca actgtgagcg ctacaacggc caggtctgcg gcggcccggg gagggggctc1741 tgcttctgcg ggaagtgccg ctgccacccg ggctttgagg gctcagcgtg ccagtgcgag1801 aggaccactg agggctgcct gaacccgcgg cgtgttgagt gtagtggtcg tggccggtgc1861 cgctgcaacg tatgcgagtg ccattcaggc taccagctgc ctctgtgcca ggagtgcccc1921 ggctgcccct caccctgtgg caagtacatc tcctgcgccg agtgcctgaa gttcgaaaag1981 20448 gtgaagggca ggacctgcaa ggagagggac tcagagggct gctgggtggc ctacacgctg2101 gagcagcagg acgggatgga ccgctacctc atctatgtgg atgagagccg agagtgtgtg2161 gcaggcccca acatcgccgc catcgtcggg ggcaccgtgg caggcatcgt gctgatcggc2221 attctcctgc tggtcatctg gaaggctctg atccacctga gcgacctccg ggagtacagg2281 cgctttgaga aggagaagct caagtcccag tggaacaatg ataatcccct tttcaagagc2341 gccaccacga cggtcatgaa ccccaagttt gctgagagtt aggagcactt ggtgaagaca2401 aggccgtcag gacccaccat gtctgcccca tcacgcggcc gagacatggc ttggccacag2461 ctcttgagga tgtcaccaat taaccagaaa tccagttatt ttccgccctc aaaatgacag2521 ccatggccgg ccggtgcttc tgggggctcg tcggggggac agctccactc tgactggcac2581 2641 gtgcaagtca ggacatcagt ctgattaaag gtggtgccaa tttatttaca tttaaacttg2701 tcagggtata aaatgacatc ccattaatta tattgttaat caatcacgtg tatagaaaaa27 aaaataaaac ttcaat ctcgccctgg tggggctgct ctccctcggg tgcgtcctct ctcaggagtg cacgaagttc aaggtcagca gctgccggga atgcatcgag tcggggcccg gctgcacctg gtgccagaag ctgaacttca cagggccggg ggatcctgac tccattcgct gcgacacccg gccacagctg 181 ctcatgaggg gctgtgcggc tgacgacatc atggacccca caagcctcgc tgaaacccag 241 gaagaccaca atgggggcca gaagcagctg tccccacaaa aagtgacgct ttacctgcga 301 ccaggccagg cagcagcgtt caacgtgacc ttccggcggg ccaagggcta ccccatcgac 361 ctgtactatc tgatggacct ctcctactcc atgcttgatg acctcaggaa tgtcaagaag 421 ctaggtggcg acctgctccg ggccctcaac gagatcaccg agtccggccg cattggcttc 481 gggtccttcg tggacaagac cgtgctgccg ttcgtgaaca cgcaccctga taagctgcga 541 aacccatgcc ccaacaagga gaaagagtgc ccgcccccgt ttgccttcag gcacgtgctg aagctgacca acaactccaa ccagtttcag accgaggtcg ggaagcagct gatttccgga 661 aacctggatg cacccgaggg tgggctggac gccatgatgc aggtcgccgc ctgcccggag 721 gaaatcggct ggcgcaacgt cacgcggctg ctggtgtttg ccactgatga cggcttccat 781 ttcgcgggcg acggaaagct gggcgccatc ctgaccccca acgacggccg ctgtcacctg 841 gaggacaact tgtacaagag gagcaacgaa ttcgactacc catcggtggg ccagctggcg 901 cacaagctgg ctgaaaacaa catccagccc atcttcgcggtgaccagtag gatggtgaag 961 acctacgaga aactcaccga gatcatcccc aagtcagccg tgggggagct gtctgaggac1021 tccagcaatg tggtccatct cattaagaat gcttacaata aactctcctc cagggtcttc1081 ctggatcaca acgccctccc cgacaccctg aaagtcacct acgactcctt ctgcagcaat1141 ggagtgacgc acaggaacca gcccagaggt gactgtgatg gcgtgcagat caatgtcccg1201 atcaccttcc aggtgaaggt cacggccaca gagtgcatcc aggagcagtc gtttgtcatc1261 13242 1321 tgccgggacc agagcagaga ccgcagcctc tgccatggca agggcttctt ggagtgcggc1381 atctgcaggt gtgacactgg ctacattggg aaaaactgtg agtgccagac acagggccgg1441 agcagccagg agctggaagg aagctgccgg aaggacaaca actccatcat ctgctcaggg1501 ctgggggact gtgtctgcgg gcagtgcctg tgccacacca gcgacgtccc cggcaagctg1561 atatacgggc agtactgcga gtgtgacacc atcaactgtg agcgctacaa cggccaggtc1621 tgcggcggcc cggggagggg gctctgcttc tgcgggaagt gccgctgcca cccgggcttt1681 gagggctcag cgtgccagtg cgagaggacc actgagggct gcctgaaccc gcggcgtgtt1741 gagtgtagtg gtcgtggccg gtgccgctgc aacgtatgcg agtgccattc aggctaccag1801 ctgcctctgt gccaggagtg ccccggctgc ccctcaccct gtggcaagta catctcctgc1861 gccgagtgcc tgaagttcga aaagggcccc tttgggaaga actgcagcgc ggcgtgtccg1921 ggcctgcagc tgtcgaacaa ccccgtgaag ggcaggacct gcaaggagag ggactcagag1981 ggctgctggg tggcctacac gctggagcag caggacggga tggaccgcta cctcatctat2041 gtggatgaga gccgagagtg tgtggcaggc cccaacatcg ccgccatcgt cgggggcacc2101 gtggcaggca tcgtgctgat cggcattctc ctgctggtca tctggaaggc tctgatccac2161 ctgagcgacc tccgggagta caggcgcttt gagaaggaga agctcaagtc ccagtggaac2221 aatgataatc cccttttcaa gagcgccacc acgacggtca tgaaccccaa gtttgctgag2281 agttaggagc a (2) SEQ ID NO: 2678 data: (i) sequence characteristics:

(A) length: 1539 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2678 sequence description: 1 ggaattccgg gcccggtctt tcctcccgcc gccgccggcc tggtcccggg gactggcctc 61 cacgtccgac tcgtccgagc tgaagcccag cagcactttg ctgccagccg cgggggcggc 121 ggaggcgccc ccgggccctc ccaggaggct ctctgggcca gaggccgaga ttcggcacag 181 721 tcagctgaca taattcacag ggacctaaaa cctagtaatc tagctgtgaa tgaagactgt 781 181 gcccccagga gtccgtaagt aggagaggtc gcccgagacc ggccggaccc ccatccccgc 241 ggccgccgcc gccgctggtc ccgcggctgc gaccgtggcg gctgccgctg gaaaatgtct 301 caggagaggc ccacgttcta ccggcaggag ctgaacaaga caatctggga ggtgcccgag 361 cgttaccaga acctgtctcc agtgggctct ggcgcctatg gctctgtgtg tgctgctttt 421 gacacaaaaa cggggttacg tgtggcagtg aagaagctct ccagaccatt tcagtccatc 481 attcatgcga aaagaaccta cagagaactg cggttactta aacatatgaa acatgaaaat 541 gtgattggtc tgttggacgt ttttacacct gcaaggtctc tggaggaatt caatgatgtg 601 tatctggtga cccatctcat gggggcagat ctgaacaaca ttgtgaaatg tcagaagctt 661 acagatgacc atgttcagtt ccttatctac caaattctcc gaggtctaaa gtatatacat 721 tcagctgaca taattcacag ggacctaaaa cctagtaatc tagctgtgaa tgaagactgt 781 gagctgaaga ttctggattt tggactggct cggcacacag atgatgaaat gacaggctac 841 gtggccacta ggtggtacag ggctcctgag atcatgctga actggatgca ttacaaccag 901 acagttgata tttggtcagt gggatgcata atggccgagc tgttgactgg aagaacattg 961 tttcctggta cagaccatat tgatcagttg aagctcattt taagactcgt tggaacccca1021 ggggctgagc ttttgaagaa aatctcctca gagtctgcaa gaaactatat tcagtctttg1081 actcagatgc cgaagatgaa ctttgcgaat gtatttattg gtgccaatcc cctggctgtc1141 gacttgctgg agaagatgct tgtattggac tcagataaga gaattacagc ggcccaagcc1201 cttgcacatg cctactttgc tcagtaccac gatcctgatg atgaaccagt ggccgatcct1261 tatgatcagt cctttgaaag cagggacctc cttatagatg agtggaaaag cctgacctat1321 gatgaagtca tcagctttgt gccaccaccc cttgaccaag aagagatgga gtcctgagca1381 cctggtttct gttctgttga tcccacttca ctgtgagggg aaggcctttt cacgggaact1441 ctccaaatat tattcaagtg cctcttgttg cagagatttc ctccatggtg gaagggggtg1501 tgcgtgcgtg tgcgtgcgtg ttagtgtgtg tgcatgtgt (2) SEQ ID N0: 2679 data: (i) sequence characteristics:

(A) length: 1550 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2679 sequence description: 1 tggttaacgc cagggttttc ccagtcacga acgttgtaaa acgacggcca gtgccaagct 61 aaaattaacc ttcactaaag ggaataagct tgcggccgct tcgggtttcc ggaggggccg 121 gagggcgggc gagggcgtca cgtgcgcgcc gcccgcgggc cggttggtcc ccgggcgggg 181 721 ctggtgatgc cgttcatggg caccgacctg ggcaagctca tgaaacatga gaagctaggc 781 181 gaggggccgt gcgcagcctg ggtcggggtc gggccggggt cggcacctgg gacatccctg 241 agggaagggc cgggagcggg agcgccccag cggccggcgg gcgggcgggc gagcggacga 301 gcggcgcgga gccggcccga ggcgcgcgcc gagggagccc cgtccccggt cgtgggggca 361 ccgcccgcag gctctgcggg gtgggcagct cccgggcctg ccatgagctc tccgccgccc 421 gcccgcagtg gcttttaccg ccaggaggtg accaagacgg cctgggaggt gcgcgccgtg 481 taccgggacc tgcagcccgt gggctcgggc gcctacggcg cggtgtgctc ggccgtggac 541 ggccgcaccg gcgctaaggt ggccatcaag aagctgtatc ggcccttcca gtccgagctg 601 ttcgccaagc gcgcctaccg cgagctgcgc ctgctcaagc acatgcgcca cgagaacgtg 661 atcgggctgc tggacgtatt cactcctgat gagaccctgg atgacttcac ggacttttac 721 ctggtgatgc cgttcatggg caccgacctg ggcaagctca tgaaacatga gaagctaggc 781 gaggaccgga tccagttcct cgtgtaccag atgctgaagg ggctgaggta tatccacgct 841 gccggcatca tccacagaga cctgaagccc ggcaacctgg ctgtgaacga agactgtgag 901 ctgaagatcc tggacttcgg cctggccagg caggcagaca gtgagatgac tgggtacgtg 961 gtgacccggt ggtaccgggc tcccgaggtc atcttgaatt ggatgcgcta cacgcagacg1021 gtggacatct ggtccgtggg ctgcatcatg gcggagatga tcacaggcaa gacgctgttc1081 aagggcagcg accacctgga ccagctgaag gagatcatga aggtgacggg gacgcctccg1141 gctgagtttg tgcagcggct gcagagcgat gaggccaaga acaacatgaa gggcctcccc1201 gaattggaga agaaggattt tgcctctatc ctgaccaatg caagccctct ggctgtgaac1261 ctcctggaga agatgctggt gctggacgcg gagcagcggg tgacggcagg cgaggcgctg1321 gcccatccct acttcgagtc cctgcacgac acggaagatg agccccaggt ccagaagtat1381 gatgactcct ttgacgacgt tgaccgcaca ctggatgaat ggaagcgtgt tacttacaaa1441 gaggtgctca gcttcaagcc tccccggcag ctgggggcca gggtctccaa ggagacgcct1501 ctgtgaagat ctctgggctc cggggtggca gtgaggacca ccttcacctt (2) SEQ ID NO: 2680 data: (i) sequence characteristics:

(A) length: 3089 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2680 sequence description: 1 ggaattccgg gcccggtctt tcctcccgcc gccgccggcc tggtcccggg gactggcctc 61 cacgtccgac tcgtccgagc tgaagcccag cagcactttg ctgccagccg cgggggcggc 121 ggaggcgccc ccgggccctc ccaggaggct ctctgggcca gaggccgaga ttcggcacag 181 721 tcagctgaca taattcacag ggacctaaaa cctagtaatc tagctgtgaa tgaagactgt 781 181 gcccccagga gtccgtaagt aggagaggtc gcccgagacc ggccggaccc ccatccccgc 241 ggccgccgcc gccgctggtc ccgcggctgc gaccgtggcg gctgccgctg gaaaatgtct 301 caggagaggc ccacgttcta ccggcaggag ctgaacaaga caatctggga ggtgcccgag 361 cgttaccaga acctgtctcc agtgggctct ggcgcctatg gctctgtgtg tgctgctttt 421 gacacaaaaa cggggttacg tgtggcagtg aagaagctct ccagaccatt tcagtccatc 481 attcatgcga aaagaaccta cagagaactg cggttactta aacatatgaa acatgaaaat 541 gtgattggtc tgttggacgt ttttacacct gcaaggtctc tggaggaatt caatgatgtg 601 tatctggtga cccatctcat gggggcagat ctgaacaaca ttgtgaaatg tcagaagctt 661 acagatgacc atgttcagtt ccttatctac caaattctcc gaggtctaaa gtatatacat 721 tcagctgaca taattcacag ggacctaaaa cctagtaatc tagctgtgaa tgaagactgt 781 gagctgaaga ttctggattt tggactggct cggcacacag atgatgaaat gacaggctac 841 gtggccacta ggtggtacag ggctcctgag atcatgctga actggatgca ttacaaccag 901 acagttgata tttggtcagt gggatgcata atggccgagc tgttgactgg aagaacattg 961 tttcctggta cagaccatat tgatcagttg aagctcattt taagactcgt tggaacccca1021 ggggctgagc ttttgaagaa aatctcctca gagtctgcaa gaaactatat tcagtctttg1081 actcagatgc cgaagatgaa ctttgcgaat gtatttattg gtgccaatcc cctggctgtc1141 gacttgctgg agaagatgct tgtattggac tcagataaga gaattacagc ggcccaagcc1201 cttgcacatg cctactttgc tcagtaccac gatcctgatg atgaaccagt ggccgatcct1261 tatgatcagt cctttgaaag cagggacctc cttatagatg agtggaaaag cctgacctat1321 gatgaagtca tcagctttgt gccaccaccc cttgaccaag aagagatgga gtcctgagca1381 cctggtttct gttctgttga tcccacttca ctgtgagggg aaggcctttt cacgggaact1441 ctccaaatat tattcaagtg cctcttgttg cagagatttc ctccatggtg gaagggggtg1501 tgcgtgcgtg tgcgtgcgtg ttagtgtgtg tgcatgtgt 1 tggttaacgc cagggttttc ccagtcacga acgttgtaaa acgacggcca gtgccaagct 61 aaaattaacc ttcactaaag ggaataagct tgcggccgct tcgggtttcc ggaggggccg 121 gagggcgggc gagggcgtca cgtgcgcgcc gcccgcgggc cggttggtcc ccgggcgggg 181 gaggggccgt gcgcagcctg ggtcggggtc gggccggggt cggcacctgg gacatccctg 241 agggaagggc cgggagcggg agcgccccag cggccggcgg gcgggcgggc gagcggacga 301 gcggcgcgga gccggcccga ggcgcgcgcc gagggagccc cgtccccggt cgtgggggca 361 ccgcccgcag gctctgcggg gtgggcagct cccgggcctg ccatgagctc tccgccgccc 421 gcccgcagtg gcttttaccg ccaggaggtg accaagacgg cctgggaggt gcgcgccgtg 481 taccgggacc tgcagcccgt gggctcgggc gcctacggcg cggtgtgctc ggccgtggac 541 ggccgcaccg gcgctaaggt ggccatcaag aagctgtatc ggcccttcca gtccgagctg 601 ttcgccaagc gcgcctaccg cgagctgcgc ctgctcaagc acatgcgcca cgagaacgtg 661 atcgggctgc tggacgtatt cactcctgat gagaccctgg atgacttcac ggacttttac 721 ctggtgatgc cgttcatggg caccgacctg ggcaagctca tgaaacatga gaagctaggc 781 gaggaccgga tccagttcct cgtgtaccag atgctgaagg ggctgaggta tatccacgct 841 gccggcatca tccacagaga cctgaagccc ggcaacctgg ctgtgaacga agactgtgag 901 ctgaagatcc tggacttcgg cctggccagg caggcagaca gtgagatgac tgggtacgtg 961 gtgacccggt ggtaccgggc tcccgaggtc atcttgaatt ggatgcgcta cacgcagacg1021 gtggacatct ggtccgtggg ctgcatcatg gcggagatga tcacaggcaa gacgctgttc1081 aagggcagcg accacctgga ccagctgaag gagatcatga aggtgacggg gacgcctccg1141 gctgagtttg tgcagcggct gcagagcgat gaggccaaga acaacatgaa gggcctcccc1201 gaattggaga agaaggattt tgcctctatc ctgaccaatg caagccctct ggctgtgaac1261 ctcctggaga agatgctggt gctggacgcg gagcagcggg tgacggcagg cgaggcgctg1321 gcccatccct acttcgagtc cctgcacgac acggaagatg agccccaggt ccagaagtat1381 gatgactcct ttgacgacgt tgaccgcaca ctggatgaat ggaagcgtgt tacttacaaa1441 gaggtgctca gcttcaagcc tccccggcag ctgggggcca gggtctccaa ggagacgcct1501 ctgtgaagat ctctgggctc cggggtggca gtgaggacca ccttcacctt (2) SEQ ID NO: 2681 for data: (i) sequence characteristics:

(A) length: 2400 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2681 sequence description: 1 ctcgatcaaa cctttttttt atggtacaca atagtcacag tacttttcca tataaaacag 61 gtttagtggt cttaatttag tttggcacat ttaatacact cccatgacca gcatcccaaa 121 tgtacctatc cgttttattt tattgtctca gaattgtcag ttatttaata aattatgtaa 181 721 gccataaatg gaatgatgaa atatgactag aggaggagaa aggctcctag atgagatggg 781 181 cttttttcct tatgctcaga tttgcacttc tttctaaaac tctgcccatc cttaaagtcc 241 cagattctcc ttgaactttt ttttttgact ttccaagtac atggaactct tcactctatc 301 ctgctatata aggtgacaga atttccacta tgggatagat ggagttcaat tcctttgagt 361 ttaaaataat ctaaatataa ttattcctta tgccctgttt ttccctcact tttgtatcca 421 aatctctttt cagacaacag aacaattaat gtctgataag gaagacaatg atgatgatca 481 cttcaaaatg aattcaggat tgtaatgtaa aattttagta ctctctcaca gtatggattc 541 taacatggct tctaacccaa actaacatta gtagctctaa ctataaactt caaatttcag 601 tagatgcaac ctactccttt aaaatgaaac agaagattga aattattaaa ttatcaaaaa 661 gaaaatgatc cacgctctta gttgaaattt catgtaagat tccatgcaat aaataggagt 721 gccataaatg gaatgatgaa atatgactag aggaggagaa aggctcctag atgagatggg 781 attttaggca tccgtgtctc atgaggaatc agttgtgtca ctaggcaaaa cagtaaaaaa 841 aaaaacctcc aagtgagtct cttatttatt tttttcttat aagacttcta caaattgagg 901 tacctggtgt agttttattt caggttttat gctgtcattt tcctgtaatg ctaaggactt 961 aggacataac tgaattttct attttccact tcttttctgg tgtgtgtgta tatatatatg1021 tatatataca cacacacata tacatatata tattttttag tatctcaccc tcacatgctc1081 ctccctgagc actacccatg atagatgtta aacaaaagca aagatgaaat tccaactgtc1141 aaaatccccc ctccatctaa ttaatccctc acccaactat gttccaaaac gagaatagaa1201 aattagcccc aataagccca ggcaactgaa aagtaaatgc tatgttgtac tttgatccat1261 ggtcacaact cataatcttg gaaaagtgga cagaaaagac aaaagagtga actttaaaac1321 tcgaatttat tttaccagta tctcctatga agggctagta accaaaataa tccacgcatc1381 agggagagaa atgccttaag gcatacgttt tggacattta gcgtccctgc aaattctggc1441 catcgccgct tcctttgtcc atcagaaggc aggaaacttt atattggtga cccgtggagc1501 tcacattaac tatttacagg gtaactgctt aggaccagta ttatgaggag aatttacctt1561 tcccgcctct ctttccaaga aacaaggagg gggtgaaggt acggagaaca gtatttcttc1621 tgttgaaagc aacttagcta caaagataaa ttacagctat gtacactgaa ggtagctatt1681 tcattccaca aaataagagt tttttaaaaa gctatgtatg tatgtgctgc atatagagca1741 gatatacagc ctattaagcg tcgtcactaa aacataaaac atgtcagcct ttcttaacct1801 tactcgcccc agtctgtccc gacgtgactt cctcgaccct ctaaagacgt acagaccaga1861 cacggcggcg gcggcgggag aggggattcc ctgcggcccc ggacctcagg gccgctcaga1921 ttcctggaga ggaagccaag tgtccttctg ccctcccccg gtatcccatc caaggcgatc1981 agtccacaac tggctctcgg aagcactcgg gcaaagactg cgaagaagaa aagacatctg2041 gcggaaacct gtgcgcctgg ggcggtggaa ctcggggagg agagggaggg atcagacagg2101 agagtgggga ctaccccctc tgctcccaaa ttggggcagc ttcctgggtt tccgattttc2161 tcatttccgt gggtaaaaaa ccctgccccc accggcttac gcaatttttt taaggggaga2221 ggagggaaaa atttgtgggg ggtacgaaaa ggcggaaaga aacagtcatt tcgtcacatg2281 ggcttggttt tcagtcttat aaaaaggaag gttctctcgg ttagcgacca attgtcatac2341 gacttgcagt gagcgtcagg agcacgtcca ggaactcctc agcagcgcct ccttcagctc (2) SEQ ID NO: 2682 materials: (i) sequence characteristics:

(A) length: 3387 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2682 sequence description: 1 gtccaggaac tcctcagcag cgcctccttc agctccacag ccagacgccc tcagacagca 61 aagcctaccc ccgcgccgcg ccctgcccgc cgctgcgatg ctcgcccgcg ccctgctgct 121 gtgcgcggtc ctggcgctca gccatacagc aaatccttgc tgttcccacc catgtcaaaa 181 721 cgggctgggc catggggtgg acttaaatca tatttacggt gaaactctgg ctagacagcg 781 181 ccgaggtgta tgtatgagtg tgggatttga ccagtataag tgcgattgta cccggacagg 241 attctatgga gaaaactgct caacaccgga atttttgaca agaataaaat tatttctgaa 301 acccactcca aacacagtgc actacatact tacccacttc aagggatttt ggaacgttgt 361 gaataacatt cccttccttc gaaatgcaat tatgagttat gtgttgacat ccagatcaca 421 tttgattgac agtccaccaa cttacaatgc tgactatggc tacaaaagct gggaagcctt 481 ctctaacctc tcctattata ctagagccct tcctcctgtg cctgatgatt gcccgactcc 541 cttgggtgtc aaaggtaaaa agcagcttcc tgattcaaat gagattgtgg gaaaattgct 601 tctaagaaga aagttcatcc ctgatcccca gggctcaaac atgatgtttg cattctttgc 661 ccagcacttc acgcatcagt ttttcaagac agatcataag cgagggccag ctttcaccaa 721 cgggctgggc catggggtgg acttaaatca tatttacggt gaaactctgg ctagacagcg 781 taaactgcgc cttttcaagg atggaaaaat gaaatatcag ataattgatg gagagatgta 841 tcctcccaca gtcaaagata ctcaggcaga gatgatctac cctcctcaag tccctgagca 901 tctacggttt gctgtggggc aggaggtctt tggtctggtg cctggtctga tgatgtatgc 961 cacaatctgg ctgagggaac acaacagagt atgcgatgtg cttaaacagg agcatcctga1021 atggggtgat gagcagttgt tccagacaag caggctaata ctgataggag agactattaa1081 gattgtgatt gaagattatg tgcaacactt gagtggctat cacttcaaac tgaaatttga1141 cccagaacta cttttcaaca aacaattcca gtaccaaaat cgtattgctg ctgaatttaa1201 caccctctat cactggcatc cccttctgcc tgacaccttt caaattcatg accagaaata1261 caactatcaa cagtttatct acaacaactc tatattgctg gaacatggaa ttacccagtt1321 tgttgaatca ttcaccaggc aaattgctgg cagggttgct ggtggtagga atgttccacc1381 cgcagtacag aaagtatcac aggcttccat tgaccagagc aggcagatga aataccagtc1441 ttttaatgag taccgcaaac gctttatgct gaagccctat gaatcatttg aagaacttac1501 aggagaaaag gaaatgtctg cagagttgga agcactctat ggtgacatcg atgctgtgga1561 gctgtatcct gcccttctgg tagaaaagcc tcggccagat gccatctttg gtgaaaccat1621 ggtagaagtt ggagcaccat tctccttgaa aggacttatg ggtaatgtta tatgttctcc1681 tgcctactgg aagccaagca cttttggtgg agaagtgggt tttcaaatca tcaacactgc1741 ctcaattcag tctctcatct gcaataacgt gaagggctgt ccctttactt cattcagtgt1801 tccagatcca gagctcatta aaacagtcac catcaatgca agttcttccc gctccggact1861 agatgatatc aatcccacag tactactaaa agaacgttcg actgaactgt agaagtctaa1921 tgatcatatt tatttattta tatgaaccat gtctattaat ttaattattt aataatattt1981 atattaaact ccttatgtta cttaacatct tctgtaacag aagtcagtac tcctgttgcg2041 gagaaaggag tcatacttgt gaagactttt atgtcactac tctaaagatt ttgctgttgc2101 tgttaagttt ggaaaacagt ttttattctg ttttataaac cagagagaaa tgagttttga2161 cgtcttttta cttgaatttc aacttatatt ataaggacga aagtaaagat gtttgaatac2221 ttaaacacta tcacaagatg ccaaaatgct gaaagttttt acactgtcga tgtttccaat2281 gcatcttcca tgatgcatta gaagtaacta atgtttgaaa ttttaaagta cttttgggta2341 tttttctgtc atcaaacaaa acaggtatca gtgcattatt aaatgaatat ttaaattaga2401 cattaccagt aatttcatgt ctacttttta aaatcagcaa tgaaacaata atttgaaatt2461 tctaaattca tagggtagaa tcacctgtaa aagcttgttt gatttcttaa agttattaaa2521 cttgtacata taccaaaaag aagctgtctt ggatttaaat ctgtaaaatc agatgaaatt2581 ttactacaat tgcttgttaa aatattttat aagtgatgtt cctttttcac caagagtata2641 aaccttttta gtgtgactgt taaaacttcc ttttaaatca aaatgccaaa tttattaagg2701 tggtggagcc actgcagtgt tatctcaaaa taagaatatc ctgttgagat attccagaat2761 27 2761 ctgtttatat ggctggtaac atgtaaaaac cccataaccc cgccaaaagg ggtcctaccc2821 ttgaacataa agcaataacc aaaggagaaa agcccaaatt attggttcca aatttagggt2881 ttaaactttt tgaagcaaac ttttttttag ccttgtgcac tgcagacctg gtactcagat2941 tttgctatga ggttaatgaa gtaccaagct gtgcttgaat aacgatatgt tttctcagat3001 tttctgttgt acagtttaat ttagcagtcc atatcacatt gcaaaagtag caatgacctc3061 ataaaatacc tcttcaaaat gcttaaattc atttcacaca ttaattttat ctcagtcttg3121 aagccaattc agtaggtgca ttggaatcaa gcctggctac ctgcatgctg ttccttttct3181 tttcttcttt tagccatttt gctaagagac acagtcttct caaacacttc gtttctccta3241 ttttgtttta ctagttttaa gatcagagtt cactttcttt ggactctgcc tatattttct3301 tacctgaact tttgcaagtt ttcaggtaaa cctcagctca ggactgctat ttagctcctc3361 ttaagaagat taaaaaaaaa aaaaaag (2) SEQ ID NO: 2683 data: (i) sequence characteristics:

(A) length: 9453 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2683 sequence description: 1 gagctcacat taactattta cagggtaact gcttaggacc agtattatga ggagaattta 61 cctttcccgc ctctctttcc aagaaacaag gagggggtga aggtacggag aacagtattt 121 cttctgttga aagcaactta gctacaaaga taaattacag ctatgtacac tgaaggtagc 181 721 ggagaggagg gaaaaaattt gtgggggggt acgaaaaggc ggaaagaaac agtcattcac 781 181 tatttcattc cacaaaataa gagtttttta aaaagctatg tatgtatgtg ctgcatatag 241 agcagatata cagcctatta agcgtcgtca ctaaaacata aaacatgtca gcctttctta 301 accttactcg ccccagtctg tcccgacgtg acttcctcga ccctctaaag acgtacagac 361 cagacacggc ggcggcggcg ggagagggga ttccctgcgc ccccggacct cagggccgct 421 cagattcctg gagaggaagc caagtgtcct tctgccctcc cccggtatcc catccaaggc 481 gatcagtcca gaactggctc tcggaagcgc tcgggcaaag actgcgaaga agaaaagaca 541 tctggcggaa acctgtgcgc ctggggcggt ggaactcggg gaggagaggg agggatcaga 601 caggagagtg gggactaccc cctctgctcc caaattgggg cagcttcctg ggtttccgat 661 tttctcattt ccgtgggtaa aaaaccctgc ccccaccggg cttacgcaat ttttttaagg 721 ggagaggagg gaaaaaattt gtgggggggt acgaaaaggc ggaaagaaac agtcattcac 781 atgggcttgg ttttcagtct tataaaaagg aaggttctct cggttagcga ccaattgtca 841 tacgacttgc agtgagcgtc aggagcacgt ccaggaactc ctcagcagcg cctccttcag 901 ctccacagcc agacgccctc agacagcaaa gcctaccccc gcgccgcgcc ctgcccgccg 961 ctcggatgct cgcccgcgcc ctgctgctgt gcgcggtcct ggcgctcagc catacaggtg1021 agtacctggc gccgcgcacc ggggactccg gttccacgca cccgggcaga gtttccgctc1081 tgacctcctg ggtctatccc agtactccga cttctctccg aatagagaag ctacgtgact1141 tgggaaagag cttggaccgc tagagtccga aagaactccg tggatattcc agctttccca1201 caagcactga tcattatgag ccagttactt aaccgatctg agacactctc acctcctaaa1261 tagggataga tgatactaat ttgcaggttg tcattatgat aagacaggat ctgatcaata1321 tatgtgaatt gtttatattt ggaacctttt tattgagtgg aagaagttgt tttaaatatt1381 ctagtcagtt ctttcctgct cccaggaaag cccggattat gttttaagat aagcaaaatg1441 tcttaaaagt aagctgtttt actttgaatt tttccctaaa tgttgattag tgtactagat1501 ccattttaat ttggaaagtg aagtgctact tatttgaact tcttaaaaat gctaatttta1561 acatctaaag agttaactaa gaaaagctta gtaacatgat gtaccaagtt gaatatgctg1621 ttatccttat ttagaataga aaattggtat ttctacgttt tatccattct aaggcaggtt1681 aaaaaattgt atttccatga ctacctatat atttcttgaa tttattattg taaagttgat1741 tcatagtcaa acaattaaat gtttaaatta agattaagac actagagaat gatttatttg1801 ctgtccttta attgcagcaa atccttgctg ttcccaccca tgtcaaaacc gaggtgtatg1861 tatgagtgtg ggatttgacc agtataagtg cgattgtacc cggacaggat tctatggaga1921 aaactgctca acacgtaagt ttgtcctttg gttgcctcat taggagtggg gctggataca1981 gttatcattg tatagatttg tgtcttataa tgagtcccat taatttctcc ctccctttct2041 tcgtcttctt gcagcggaat ttttgacaag aataaaatta tttctgaaac ccactccaaa2101 cacagtgcac tacatactta cccacttcaa gggattttgg aacgttgtga ataacattcc2161 cttccttcga aatgcaatta tgagttatgt cttgacatgt aagtacaagt gtctttctaa2221 ggtttttagc cttctcaaag aaaaatatgc tttataatac tgtaagccta atctaaaaac2281 atatttccaa gcttatcaaa aagactttaa gatagctttt aagtttgcct tccatcttaa2341 tcgccaaaaa tattgacatt tagtcccatc cagtttatac agtctgctca caactctgta2401 tacctcttct aacctttact gtttggtcag tttgtggagg tagcatggtc cagctgttta2461 ttgaatgccc atgggccaca gaattgttct gaacatgtag cacccattaa aataaatttg2521 gatttggatc agcaagaaaa taactttcca tgattctaaa gtgggtgcca tactcagcca2581 ttcctttcat aggcctcttg gatagtgagc agatggctac ctgaaaaatc aatattgcca2641 gattataatg tgcagagtat atgtatttta ttaaagatgt atttcaagtg gccattagac2701 tataaagtgt agttgtttaa aaatagattt tttttatttt ggagttacat tcaacctcag2761 gtgccacttt ccacatttta caataaaaat aatggttgat ttacttaaca aatgagaata2821 aataaaacat ttttttcttt gaaaatttca gccagatcac atttgattga cagtccacca2881 acttacaatg ctgactatgg ctacaaaagc tgggaagcct tctctaacct ctcctattat2941 actagagccc ttcctcctgt gcctgatgat tgcccgactc ccttgggtgt caaaggtgag3001 taagaagaat ccattagaga tgtattaact ataagacggg ctgcattgct gccaaaaaaa3061 aaaattgacc ttagactacc atttatttat taacaaaagc agtttttact tttagcatgg3121 ttatctatgg gtatttttta aagtatgagt ctatataaac tattatgtaa aagcaaatga3181 gcgtcttggt ataatgtctt aatattttca aattatttct ttagaaatga aataattcta3241 attaaaatag ataaaatcat tcagtaagaa gttgttccac catatcttag aactgttgtt3301 tatattatga tcctattcac aattgtaatt ctcatataaa tgaagaattc ttggtagatt3361 gacagtcacc atctcctttc ttgaatacat agatggattc ttaccttagc tttctcattt3421 ttcaggtaaa aagcagcttc ctgattcaaa tgagattgtg gaaaaattgc ttctaagaag3481 aaagttcatc cctgatcccc agggctcaaa catgatgttt gcattctttg cccagcactt3541 593601 ccatggggta agatagagtt aatatcttag agttagtaaa attataccaa atcatagtca3661 agggctaaca ttaaaggaga tatacagata gatagatcca aataacttat ccactttttt3721 taaaaagaag tcttatctat aaaaacctta aaggaatttt ccatttactt cactggtcta3781 gtaaaattat acacacacac agacatgcac acacatatat aaacattcac acacatacat3841 atgtacaggt attgttattt gtaatttgac ccttgtattt tttagtttaa aatgttagta3901 ctgcaaaatg ttatgtcctc aaaaacacat tgtaccatga ttatgccgct ttcaatattg 398661 taaagtgagg tttttgccgc attattattt tttggatttc aatagcatag cttcaagtta4021 ttcgtaagaa ttttttataa ataatacatt tttatacttt tttataatta ccatatcatc atagtgaagt atataatata tatgatataa gctcaatata gtatattaat tccgttaaac4141 acaaagacat atcagtttgt agctttggtg gataaacaaa ttaatttagc aattcatggc4201 tatgaaaaat gtatatttta tttaaaaatt ttaaagaaag ctaaatgatc aaattattta4261 atgatgaatt atatgataga cactttatat aagaaaaact tcaacagcaa caaattaaaa4321 ttttttcatc attttctagg tggacttaaa tcatatttac ggtgaaactc tggctagaca4381 gcgtaaactg cgccttttca aggatggaaa aatgaaatat caggtatgct tcctttgact4441 attaagactt agttattacc gcttataccc atattttaaa atccctaaaa atgtgttcct4501 taacttttta actgatgttt atttatttat ttattttttt agataattga tggagagatg4561 tatcctccca cagtcaaaga tactcaggca gagatgatct accctcctca agtccctgag4621 catctacggt ttgctgtggg gcaggaggtc tttggtctgg tgcctggtct gatgatgtat4681 gccacaatct ggctgcggga acacaacaga gtatgcgatg tgcttaaaca ggagcatcct4741 gaatggggtg atgagcagtt gttccagaca agcaggctaa tactgatagg taaacaagaa4801 aatgatttat ataaaaccct cttccccagg gaaaattagt gtgctatctt tgttatgttt4861 tgagtaaatg acaagatgtg gtaaatgaaa actcacacat tctatataca ttaaatatgt4921 aagcatgact gataaaatag ctatcttttg atactgacaa ggaagaaaac agaaatgaag4981 gaatagcaaa ttttaaaaat tgcattccag ttgcttgaaa gcttgtgatc agatgcaata5041 aatgttttta ttatttattt tgtgcaaata ggagagacta ttaagattgt gattgaagat5101 tatgtgcaac acttgagtgg ctatcacttc aaactgaaat ttgacccaga actacttttc5161 51 5161 aacaaacaat tccagtacca aaatcgtatt gctgctgaat ttaacaccct ctatcactgg5221 catccccttc tgcctgacac ctttcaaatt catgaccaga aatacaacta tcaacagttt5281 829 5281 atctacaaca actctatatt gctggaacat ggaattaccc agtttgttga atcattcacc5341 aggcaaattg ctggcagggt aagcattatt attgaaaacc aaaacaaaag actagtcagt5401 aactttagaa tttctgccac ggaaattatt tttcttaaac ttactaaaag agtagttagt5461 tatattgcta gtaaaattat tttattgata taagaagcct aactttgttt gaaaagtcta5521 aacttttagt ctagtctaca gttgtcagac aaatagcaaa ttgtacccct accttaaaaa5581 tattttcaaa aagtatctat aatcttatag gaataaatat tttaggcttg aatactagtg5641 ttatttttga aatgtaaaaa ggcaaattag ttctaggctg gtgtcccatt gaattttaag5701 cagagctcct gttgaaatgt aggtaagcat ctttccagca aataaaaatt gtctccgctg5761 ggagtttcag ttttacctga tttgtaccta aggcaagctg aatacaaaca gtaaatatgc5821 ctaaaattct tgttttacaa ctaattttac tttccacagg ttgctggtgg taggaatgtt5881 ccacccgcag tacagaaagt atcacaggct tccattgacc agagcaggca gatgaaatac5941 cagtctttta atgagtaccg caaacgcttt atgctgaagc cctatgaatc atttgaagaa6001 cttacaggta agaaacagtt tctaaacttc ttcgtttttt gtttgtttgt ttgtttttgt6061 tgtttttggt tttcttttcg agatggagcc gccctctgtc acccaggctg gagtgcagtg6121 gcgccatctc ggctcactgc aacctccgcc tcctgggttc aagcaattct cctgcctcaa6181 5731 6241 cagtatagac ggggtttcac cgtgttagcc aggctggtct caaactcctg acctagtgat6301 ccgccggctt cggcctcccg aagtgctggg attacaggcg tgagccaccg cgcctggccc6361 ctaaacttct taaaagaatc aggggtcaaa tggaaacaga gaagttggca gcaaattgag6421 caaaagaatc aaactgtttt ttattttgtg aagtttgaca ttggttgtat ctctgtcttc atcgccttca caggagaaaa ggaaatgtct gcagagttgg aagcactcta tggtgacatc6541 666601 66 ggtgaaacca tggtagaagt tggagcacca ttctccttga aaggacttat gggtaatgtt6661 826721 atcaacactg cctcaattca gtctctcatc tgcaataacg tgaagggctg tccctttact6781 tcattcagtg ttccagatcc agagctcatt aaaacagtca ccatcaatgc aagttcttcc6841 cgctccggac tagatgatat caatcccaca gtactactaa aagaacgttc gactgaactg6901 tagaagtcta atgatcatat ttatttattt atatgaacca tgtctattaa tttaattatt6961 taataatatt tatattaaac tccttatgtt acttaacatc ttctgtaaca gaagtcagta7021 ctcctgttgc ggagaaagga gtcatacttg tgaagacttt tatgtcacta ctctaaagat7081 tttgctgttg ctgttaagtt tggaaaacag tttttattct gttttataaa ccagagagaa7141 atgagttttg acgtcttttt acttgaattt caacttatat tataagaacg aaagtaaaga7201 tgtttgaata cttaaacact atcacaagat ggcaaaatgc tgaaagtttt tacactgtcg7261 atgtttccaa tgcatcttcc atgatgcatt agaagtaact aatgtttgaa attttaaagt7321 acttttggtt atttttctgt catcaaacaa aaacaggtat cagtgcatta ttaaatgaat7381 atttaaatta gacattacca gtaatttcat gtctactttt taaaatcagc aatgaaacaa7441 taatttgaaa tttctaaatt catagggtag aatcacctgt aaaagcttgt ttgatttctt7501 aaagttatta aacttgtaca tataccaaaa agaagctgtc ttggatttaa atctgtaaaa7561 tcagatgaaa ttttactaca attgcttgtt aaaatatttt ataagtgatg ttcctttttc7621 accaagagta taaacctttt tagtgtgact gttaaaactt ccttttaaat caaaatgcca7681 aatttattaa ggtggtggag ccactgcagt gttatctcaa aataagaata ttttgttgag7741 atattccaga atttgtttat atggctggta acatgtaaaa tctatatcag caaaagggtc7801 tacctttaaa ataagcaata acaaagaaga aaaccaaatt attgttcaaa tttaggttta7861 aacttttgaa gcaaactttt ttttatcctt gtgcactgca ggcctggtac tcagattttg7921 ctatgaggtt aatgaagtac caagctgtgc ttgaataacg atatgttttc tcagattttc7981 tgttgtacag tttaatttag cagtccatat cacattgcaa aagtagcaat gacctcataa8041 aatacctctt caaaatgctt aaattcattt cacacattaa ttttatctca gtcttgaagc8101 caattcagta ggtgcattgg aatcaagcct ggctacctgc atgctgttcc ttttcttttc 8461 8253 8221 ttttactagt tttaagatca gagttcactt tctttggact ctgcctatat tttcttacct8281 gaacttttgc aagttttcag gtaaacctca gctcaggact gctatttagc tcctcttaag8341 aagattaaaa gagaaaaaaa aaggcccttt taaaaatagt atacacttat tttaagtgaa 8458 aagcagagaa ttttatttat agctaatttt agctatctgt aaccaagatg gatgcaaaga ggctagtgcc tcagagagaa ctgtacgggg tttgtgactg gaaaaagtta cgttcccatt8521 ctaattaatg ccctttctta tttaaaaaca aaaccaaatg atatctaagt agttctcagc8581 aataataata atgacgataa tacttctttt ccacatctca ttgtcactga catttaatgg8641 tactgtatat tacttaattt attgaagatt attatttatg tcttattagg acactatggt8701 tataaactgt gtttaagcct acaatcattg attttttttt gttatgtcac aatcagtata8761 ttttctttgg ggttacctct ctgaatatta tgtaaacaat ccaaagaaat gattgtatta8821 agatttgtga ataaattttt agaaatctga ttggcatatt gagatattta aggttgaatg8881 tttgtcctta ggataggcct atgtgctagc ccacaaagaa tattgtctca ttagcctgaa8941 tgtgccataa gactgacctt ttaaaatgtt ttgagggatc tgtggatgct tcgttaattt9001 gttcagccac aatttattga gaaaatattc tgtgtcaagc actgtgggtt ttaatatttt9061 taaatcaaac gctgattaca gataatagta tttatataaa taattgaaaa aaattttctt9121 ttgggaagag ggagaaaatg aaataaatat cattaaagat aactcaggag aatcttcttt9181 acaattttac gtttagaatg tttaaggtta agaaagaaat agtcaatatg cttgtataaa9241 acactgttca ctgttttttt taaaaaaaaa acttgatttg ttattaacat tgatctgctg9301 acaaaacctg ggaatttggg ttgtgtatgc gaatgtttca gtgcctcaga caaatgtgta9361 tttaacttat gtaaaagata agtctggaaa taaatgtctg tttatttttg tactatttaa9421 aaaaaaaaaa aaaaatcgat gtcgactcga gtc (2) SEQ ID NO: 2684 data: (i) sequence characteristics:

(A) length: 15240 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2684 sequence description: 1 ctcgatcaaa cctttttttt atggtacaca atagtcacag tacttttcca tataaaacag 61 gtttagtggt cttaatttag tttggcacat ttaatacact cccatgacca gcatcccaaa 121 tgtacctatc cgttttattt tattgtctca gaattgtcag ttatttaata aattatgtaa 181 721 gccataaatg gaatgatgaa atatgactag aggaggagaa aggctcctag atgagatggg 781 181 cttttttcct tatgctcaga tttgcacttc tttctaaaac tctgcccatc cttaaagtcc 241 cagattctcc ttgaactttt ttttttgact ttccaagtac atggaactct tcactctatc 301 ctgctatata aggtgacaga atttccacta tgggatagat ggagttcaat tcctttgagt 361 ttaaaataat ctaaatataa ttattcctta tgccctgttt ttccctcact tttgtatcca 421 aatctctttt cagacaacag aacaattaat gtctgataag gaagacaatg atgatgatca 481 cttcaaaatg aattcaggat tgtaatgtaa aattttagta ctctctcaca gtatggattc 541 taacatggct tctaacccaa actaacatta gtagctctaa ctataaactt caaatttcag 601 tagatgcaac ctactccttt aaaatgaaac agaagattga aattattaaa ttatcaaaaa 661 gaaaatgatc cacgctctta gttgaaattt catgtaagat tccatgcaat aaataggagt 721 gccataaatg gaatgatgaa atatgactag aggaggagaa aggctcctag atgagatggg 781 attttaggca tccgtgtctc atgaggaatc agttgtgtca ctaggcaaaa cagtaaaaaa 841 aaaaacctcc aagtgagtct cttatttatt tttttcttat aagacttcta caaattgagg 901 tacctggtgt agttttattt caggttttat gctgtcattt tcctgtaatg ctaaggactt 961 aggacataac tgaattttct attttccact tcttttctgg tgtgtgtgta tatatatatg1021 tatatataca cacacacata tacatatata tattttttag tatctcaccc tcacatgctc1081 ctccctgagc actacccatg atagatgtta aacaaaagca aagatgaaat tccaactgtc1141 aaaatccccc ctccatctaa ttaatccctc acccaactat gttccaaaac gagaatagaa1201 aattagcccc aataagccca ggcaactgaa aagtaaatgc tatgttgtac tttgatccat1261 ggtcacaact cataatcttg gaaaagtgga cagaaaagac aaaagagtga actttaaaac1321 tcgaatttat tttaccagta tctcctatga agggctagta accaaaataa tccacgcatc1381 agggagagaa atgccttaag gcatacgttt tggacattta gcgtccctgc aaattctggc1441 catcgccgct tcctttgtcc atcagaaggc aggaaacttt atattggtga cccgtggagc1501 tcacattaac tatttacagg gtaactgctt aggaccagta ttatgaggag aatttacctt1561 tcccgcctct ctttccaaga aacaaggagg gggtgaaggt acggagaaca gtatttcttc1621 tgttgaaagc aacttagcta caaagataaa ttacagctat gtacactgaa ggtagctatt1681 tcattccaca aaataagagt tttttaaaaa gctatgtatg tatgtgctgc atatagagca1741 gatatacagc ctattaagcg tcgtcactaa aacataaaac atgtcagcct ttcttaacct1801 tactcgcccc agtctgtccc gacgtgactt cctcgaccct ctaaagacgt acagaccaga1861 cacggcggcg gcggcgggag aggggattcc ctgcggcccc ggacctcagg gccgctcaga1921 ttcctggaga ggaagccaag tgtccttctg ccctcccccg gtatcccatc caaggcgatc1981 agtccacaac tggctctcgg aagcactcgg gcaaagactg cgaagaagaa aagacatctg2041 gcggaaacct gtgcgcctgg ggcggtggaa ctcggggagg agagggaggg atcagacagg2101 agagtgggga ctaccccctc tgctcccaaa ttggggcagc ttcctgggtt tccgattttc2161 tcatttccgt gggtaaaaaa ccctgccccc accggcttac gcaatttttt taaggggaga2221 ggagggaaaa atttgtgggg ggtacgaaaa ggcggaaaga aacagtcatt tcgtcacatg2281 ggcttggttt tcagtcttat aaaaaggaag gttctctcgg ttagcgacca attgtcatac2341 gacttgcagt gagcgtcagg agcacgtcca ggaactcctc agcagcgcct ccttcagctc 1 gtccaggaac tcctcagcag cgcctccttc agctccacag ccagacgccc tcagacagca 61 aagcctaccc ccgcgccgcg ccctgcccgc cgctgcgatg ctcgcccgcg ccctgctgct 121 gtgcgcggtc ctggcgctca gccatacagc aaatccttgc tgttcccacc catgtcaaaa 181 ccgaggtgta tgtatgagtg tgggatttga ccagtataag tgcgattgta cccggacagg 241 attctatgga gaaaactgct caacaccgga atttttgaca agaataaaat tatttctgaa 301 acccactcca aacacagtgc actacatact tacccacttc aagggatttt ggaacgttgt361 gaataacatt cccttccttc gaaatgcaat tatgagttat gtgttgacat ccagatcaca 421 tttgattgac agtccaccaa cttacaatgc tgactatggc tacaaaagct gggaagcctt 481 ctctaacctc tcctattata ctagagccct tcctcctgtg cctgatgatt gcccgactcc 541 cttgggtgtc aaaggtaaaa agcagcttcc tgattcaaat gagattgtgg gaaaattgct 601 tctaagaaga aagttcatcc ctgatcccca gggctcaaac atgatgtttg cattctttgc 661 ccagcacttc acgcatcagt ttttcaagac agatcataag cgagggccag ctttcaccaa 721 cgggctgggc catggggtgg acttaaatca tatttacggt gaaactctgg ctagacagcg 781 taaactgcgc cttttcaagg atggaaaaat gaaatatcag ataattgatg gagagatgta 841 tcctcccaca gtcaaagata ctcaggcaga gatgatctac cctcctcaag tccctgagca 901 tctacggttt gctgtggggc aggaggtctt tggtctggtg cctggtctga tgatgtatgc 961 cacaatctgg ctgagggaac acaacagagt atgcgatgtg cttaaacagg agcatcctga1021 atggggtgat gagcagttgt tccagacaag caggctaata ctgataggag agactattaa1081 gattgtgatt gaagattatg tgcaacactt gagtggctat cacttcaaac tgaaatttga1141 cccagaacta cttttcaaca aacaattcca gtaccaaaat cgtattgctg ctgaatttaa1201 caccctctat cactggcatc cccttctgcc tgacaccttt caaattcatg accagaaata1261 caactatcaa cagtttatct acaacaactc tatattgctg gaacatggaa ttacccagtt1321 tgttgaatca ttcaccaggc aaattgctgg cagggttgct ggtggtagga atgttccacc1381 cgcagtacag aaagtatcac aggcttccat tgaccagagc aggcagatga aataccagtc1441 ttttaatgag taccgcaaac gctttatgct gaagccctat gaatcatttg aagaacttac1501 aggagaaaag gaaatgtctg cagagttgga agcactctat ggtgacatcg atgctgtgga1561 gctgtatcct gcccttctgg tagaaaagcc tcggccagat gccatctttg gtgaaaccat1621 ggtagaagtt ggagcaccat tctccttgaa aggacttatg ggtaatgtta tatgttctcc tgcctactgg aagccaagca cttttggtgg agaagtgggt tttcaaatca tcaacactgc1741 ctcaattcag tctctcatct gcaataacgt gaagggctgt ccctttactt cattcagtgt1801 1861 agatgatatc aatcccacag tactactaaa agaacgttcg actgaactgt agaagtctaa1921 tgatcatatt tatttattta tatgaaccat gtctattaat ttaattattt aataatattt1981 atattaaact ccttatgtta cttaacatct tctgtaacag aagtcagtac tcctgttgcg2041 gagaaaggag tcatacttgt gaagactttt atgtcactac tctaaagatt ttgctgttgc2101 21648 2161 cgtcttttta cttgaatttc aacttatatt ataaggacga aagtaaagat gtttgaatac2221 ttaaacacta tcacaagatg ccaaaatgct gaaagttttt acactgtcga tgtttccaat2281 gcatcttcca tgatgcatta gaagtaacta atgtttgaaa ttttaaagta cttttgggta2341 tttttctgtc atcaaacaaa acaggtatca gtgcattatt aaatgaatat ttaaattaga2401 cattaccagt aatttcatgt ctacttttta aaatcagcaa tgaaacaata atttgaaatt2461 tctaaattca tagggtagaa tcacctgtaa aagcttgttt gatttcttaa agttattaaa2521 2581 2641 aaccttttta gtgtgactgt taaaacttcc ttttaaatca aaatgccaaa tttattaagg2701 2761 ctgtttatat ggctggtaac atgtaaaaac cccataaccc cgccaaaagg ggtcctaccc2821 ttgaacataa agcaataacc aaaggagaaa agcccaaatt attggttcca aatttagggt2881 ttaaactttt tgaagcaaac ttttttttag ccttgtgcac tgcagacctg gtactcagat 2958 3001 tttctgttgt acagtttaat ttagcagtcc atatcacatt gcaaaagtag caatgacctc3061 ataaaatacc tcttcaaaat gcttaaattc atttcacaca ttaattttat ctcagtcttg3121 5961 aagccaattc agtaggtgca ttggaatcaa gcctggctac ctgcatgctg ttccttttct3181 tttcttcttt tagccatttt gctaagagac acagtcttct caaacacttc gtttctccta3241 ttttgtttta ctagttttaa gatcagagtt cactttcttt ggactctgcc tatattttct3301 tacctgaact tttgcaagtt ttcaggtaaa cctcagctca ggactgctat ttagctcctc3361 ttaagaagat taaaaaaaaa aaaaaag1 gagctcacat taactattta cagggtaact gcttaggacc agtattatga ggagaattta cctttcccgc ctctctttcc aagaaacaag gagggggtga aggtacggag aacagtattt cttctgttga aagcaactta gctacaaaga taaattacag ctatgtacac tgaaggtagc 181 tatttcattc cacaaaataa gagtttttta aaaagctatg tatgtatgtg ctgcatatag agcagatata cagcctatta agcgtcgtca ctaaaacata aaacatgtca gcctttctta accttactcg ccccagtctg tcccgacgtg acttcctcga ccctctaaag acgtacagac 39361 accttactcg ccccagtctg tcccgacgtg acttcctcga ccctctaaag acgtacagac cagacacggc ggcggcggcg ggagagggga ttccctgcgc ccccggacct cagggccgct 421 cagattcctg gagaggaagc caagtgtcct tctgccctcc cccggtatcc catccaaggc 481 gatcagtcca gaactggctc tcggaagcgc tcgggcaaag actgcgaaga agaaaagaca 541 tctggcggaa acctgtgcgc ctggggcggt ggaactcggg gaggagaggg agggatcaga 601 caggagagtg gggactaccc cctctgctcc caaattgggg cagcttcctg ggtttccgat 661 tttctcattt ccgtgggtaa aaaaccctgc ccccaccggg cttacgcaat ttttttaagg 721 ggagaggagg gaaaaaattt gtgggggggt acgaaaaggc ggaaagaaac agtcattcac 781 atgggcttgg ttttcagtct tataaaaagg aaggttctct cggttagcga ccaattgtca 841 tacgacttgc agtgagcgtc aggagcacgt ccaggaactc ctcagcagcg cctccttcag 901 ctccacagcc agacgccctc agacagcaaa gcctaccccc gcgccgcgcc ctgcccgccg 961 ctcggatgct cgcccgcgcc ctgctgctgt gcgcggtcct ggcgctcagc catacaggtg1021 agtacctggc gccgcgcacc ggggactccg gttccacgca cccgggcaga gtttccgctc1081 tgacctcctg ggtctatccc agtactccga cttctctccg aatagagaag ctacgtgact1141 tgggaaagag cttggaccgc tagagtccga aagaactccg tggatattcc agctttccca1201 caagcactga tcattatgag ccagttactt aaccgatctg agacactctc acctcctaaa1261 tagggataga tgatactaat ttgcaggttg tcattatgat aagacaggat ctgatcaata1321 tatgtgaatt gtttatattt ggaacctttt tattgagtgg aagaagttgt tttaaatatt1381 ctagtcagtt ctttcctgct cccaggaaag cccggattat gttttaagat aagcaaaatg1441 tcttaaaagt aagctgtttt actttgaatt tttccctaaa tgttgattag tgtactagat1501 1561 acatctaaag agttaactaa gaaaagctta gtaacatgat gtaccaagtt gaatatgctg1621 ttatccttat ttagaataga aaattggtat ttctacgttt tatccattct aaggcaggtt1681 aaaaaattgt atttccatga ctacctatat atttcttgaa tttattattg taaagttgat1741 tcatagtcaa acaattaaat gtttaaatta agattaagac actagagaat gatttatttg1801 ctgtccttta attgcagcaa atccttgctg ttcccaccca tgtcaaaacc gaggtgtatg1861 1929 1926951 1981 gttatcattg tatagatttg tgtcttataa tgagtcccat taatttctcc ctccctttct2041 tcgtcttctt gcagcggaat ttttgacaag aataaaatta tttctgaaac ccactccaaa2101 21627 2161 cttccttcga aatgcaatta tgagttatgt cttgacatgt aagtacaagt gtctttctaa222 ggtttttagc cttctcaaag aaaaatatgc tttataatac tgtaagccta atctaaaaac2281 2341 tcgccaaaaa tattgacatt tagtcccatc cagtttatac agtctgctca caactctgta2401 tacctcttct aacctttact gtttggtcag tttgtggagg tagcatggtc cagctgttta2461 ttgaatgccc atgggccaca gaattgttct gaacatgtag cacccattaa aataaatttg2521 gatttggatc agcaagaaaa taactttcca tgattctaaa gtgggtgcca tactcagcca2581 ttcctttcat aggcctcttg gatagtgagc agatggctac ctgaaaaatc aatattgcca2641 gattataatg tgcagagtat atgtatttta ttaaagatgt atttcaagtg gccattagac2701 tataaagtgt agttgtttaa aaatagattt tttttatttt ggagttacat tcaacctcag2761 gtgccacttt ccacatttta caataaaaat aatggttgat ttacttaaca aatgagaata2821 aataaaacat ttttttcttt gaaaatttca gccagatcac atttgattga cagtccacca2881 acttacaatg ctgactatgg ctacaaaagc tgggaagcct tctctaacct ctcctattat2941 actagagccc ttcctcctgt gcctgatgat tgcccgactc ccttgggtgt caaaggtgag3001 taagaagaat ccattagaga tgtattaact ataagacggg ctgcattgct gccaaaaaaa3061 aaaattgacc ttagactacc atttatttat taacaaaagc agtttttact tttagcatgg3121 ttatctatgg gtatttttta aagtatgagt ctatataaac tattatgtaa aagcaaatga3181 gcgtcttggt ataatgtctt aatattttca aattatttct ttagaaatga aataattcta3241 attaaaatag ataaaatcat tcagtaagaa gttgttccac catatcttag aactgttgtt3301 tatattatga tcctattcac aattgtaatt ctcatataaa tgaagaattc ttggtagatt33 gacagtcacc atctcctttc ttgaatacat agatggattc ttaccttagc tttctcattt3421 ttcaggtaaa aagcagcttc ctgattcaaa tgagattgtg gaaaaattgc ttctaagaag aaagttcatc cctgatcccc agggctcaaa catgatgttt gcattctttg cccagcactt3541 cacgcatcag tttttcaaga cagatcataa gcgagggcca gctttcacca acgggctggg 360861 3661 agggctaaca ttaaaggaga tatacagata gatagatcca aataacttat ccactttttt3721 taaaaagaag tcttatctat aaaaacctta aaggaatttt ccatttactt cactggtcta gtaaaattat acacacacac agacatgcac acacatatat aaacattcac acacatacat3841 atgtacaggt attgttattt gtaatttgac ccttgtattt tttagtttaa aatgttagta3901 ctgcaaaatg ttatgtcctc aaaaacacat tgtaccatga ttatgccgct ttcaatattg3961 taaagtgagg tttttgccgc attattattt tttggatttc aatagcatag cttcaagtta4021 ttcgtaagaa ttttttataa ataatacatt tttatacttt tttataatta ccatatcatc4081 atagtgaagt atataatata tatgatataa gctcaatata gtatattaat tccgttaaac4141 acaaagacat atcagtttgt agctttggtg gataaacaaa ttaatttagc aattcatggc4201 tatgaaaaat gtatatttta tttaaaaatt ttaaagaaag ctaaatgatc aaattattta4261 atgatgaatt atatgataga cactttatat aagaaaaact tcaacagcaa caaattaaaa4321 ttttttcatc attttctagg tggacttaaa tcatatttac ggtgaaactc tggctagaca4381 gcgtaaactg cgccttttca aggatggaaa aatgaaatat caggtatgct tcctttgact4441 attaagactt agttattacc gcttataccc atattttaaa atccctaaaa atgtgttcct4501 taacttttta actgatgttt atttatttat ttattttttt agataattga tggagagatg4561 45 4561 tatcctccca cagtcaaaga tactcaggca gagatgatctaccctcctca agtccctgag4621 catctacggt ttgctgtggg gcaggaggtc tttggtctgg tgcctggtct gatgatgtat4681 gccacaatct ggctgcggga acacaacaga gtatgcgatg tgcttaaaca ggagcatcct4741 gaatggggtg atgagcagtt gttccagaca agcaggctaa tactgatagg taaacaagaa4801 aatgatttat ataaaaccct cttccccagg gaaaattagt gtgctatctt tgttatgttt4861 tgagtaaatg acaagatgtg gtaaatgaaa actcacacat tctatataca ttaaatatgt4921 aagcatgact gataaaatag ctatcttttg atactgacaa ggaagaaaac agaaatgaag4981 gaatagcaaa ttttaaaaat tgcattccag ttgcttgaaa gcttgtgatc agatgcaata5041 aatgttttta ttatttattt tgtgcaaata ggagagacta ttaagattgt gattgaagat5101 tatgtgcaac acttgagtgg ctatcacttc aaactgaaat ttgacccaga actacttttc5161 aacaaacaat tccagtacca aaatcgtatt gctgctgaat ttaacaccct ctatcactgg5221 catccccttc tgcctgacac ctttcaaatt catgaccaga aatacaacta tcaacagttt5281 atctacaaca actctatatt gctggaacat ggaattaccc agtttgttga atcattcacc5341 aggcaaattg ctggcagggt aagcattatt attgaaaacc aaaacaaaag actagtcagt5401 aactttagaa tttctgccac ggaaattatt tttcttaaac ttactaaaag agtagttagt5461 tatattgcta gtaaaattat tttattgata taagaagcct aactttgttt gaaaagtcta5521 aacttttagt ctagtctaca gttgtcagac aaatagcaaa ttgtacccct accttaaaaa5581 tattttcaaa aagtatctat aatcttatag gaataaatat tttaggcttg aatactagtg5641 ttatttttga aatgtaaaaa ggcaaattag ttctaggctg gtgtcccatt gaattttaag5701 cagagctcct gttgaaatgt aggtaagcat ctttccagca aataaaaatt gtctccgctg5761 ggagtttcag ttttacctga tttgtaccta aggcaagctg aatacaaaca gtaaatatgc5821 ctaaaattct tgttttacaa ctaattttac tttccacagg ttgctggtgg taggaatgtt5881 ccacccgcag tacagaaagt atcacaggct tccattgacc agagcaggca gatgaaatac5941 cagtctttta atgagtaccg caaacgcttt atgctgaagc cctatgaatc atttgaagaa6001 cttacaggta agaaacagtt tctaaacttc ttcgtttttt gtttgtttgt ttgtttttgt6061 tgtttttggt tttcttttcg agatggagcc gccctctgtc acccaggctg gagtgcagtg6121 gcgccatctc ggctcactgc aacctccgcc tcctgggttc aagcaattct cctgcctcaa6181 cttcctgagt agctgggact acaggctcac gtcgcacgca tggataattt tttgtatttt6241 cagtatagac ggggtttcac cgtgttagcc aggctggtct caaactcctg acctagtgat6301 ccgccggctt cggcctcccg aagtgctggg attacaggcg tgagccaccg cgcctggccc 8461 ctaaacttct taaaagaatc aggggtcaaa tggaaacaga gaagttggca gcaaattgag6421 866427 atcgccttca caggagaaaa ggaaatgtct gcagagttgg aagcactcta tggtgacatc6541 gatgctgtgg agctgtatcc tgcccttctg gtagaaaagc ctcggccaga tgccatcttt 6658 6661 atatgttctc ctgcctactg gaagccaagc acttttggtg gagaagtggg ttttcaaatc6721 atcaacactg cctcaattca gtctctcatc tgcaataacg tgaagggctg tccctttact6781 tcattcagtg ttccagatcc agagctcatt aaaacagtca ccatcaatgc aagttcttcc6841 cgctccggac tagatgatat caatcccaca gtactactaa aagaacgttc gactgaactg6901 tagaagtcta atgatcatat ttatttattt atatgaacca tgtctattaa tttaattatt 6963 taataatatt tatattaaac tccttatgtt acttaacatc ttctgtaaca gaagtcagta7021 ctcctgttgc ggagaaagga gtcatacttg tgaagacttt tatgtcacta ctctaaagat7081 tttgctgttg ctgttaagtt tggaaaacag tttttattct gttttataaa ccagagagaa7141 atgagttttg acgtcttttt acttgaattt caacttatat tataagaacg aaagtaaaga7201 tgtttgaata cttaaacact atcacaagat ggcaaaatgc tgaaagtttt tacactgtcg7261 atgtttccaa tgcatcttcc atgatgcatt agaagtaact aatgtttgaa attttaaagt7321 acttttggtt atttttctgt catcaaacaa aaacaggtat cagtgcatta ttaaatgaat7381 atttaaatta gacattacca gtaatttcat gtctactttt taaaatcagc aatgaaacaa7441 taatttgaaa tttctaaatt catagggtag aatcacctgt aaaagcttgt ttgatttctt7501 aaagttatta aacttgtaca tataccaaaa agaagctgtc ttggatttaa atctgtaaaa7561 tcagatgaaa ttttactaca attgcttgtt aaaatatttt ataagtgatg ttcctttttc7621 accaagagta taaacctttt tagtgtgact gttaaaactt ccttttaaat caaaatgcca7681 aatttattaa ggtggtggag ccactgcagt gttatctcaa aataagaata ttttgttgag7741 atattccaga atttgtttat atggctggta acatgtaaaa tctatatcag caaaagggtc7801 tacctttaaa ataagcaata acaaagaaga aaaccaaatt attgttcaaa tttaggttta7861 aacttttgaa gcaaactttt ttttatcctt gtgcactgca ggcctggtac tcagattttg 861 ctatgaggtt aatgaagtac caagctgtgc ttgaataacg atatgttttc tcagattttc7981 tgttgtacag tttaatttag cagtccatat cacattgcaa aagtagcaat gacctcataa aatacctctt caaaatgctt aaattcattt cacacattaa ttttatctca gtcttgaagc 8172 ttttcttttc8161 ttcttttagc cattttgcta agagacacag tcttctcatc acttcgtttc tcctattttg8221 ttttactagt tttaagatca gagttcactt tctttggact ctgcctatat tttcttacct8281 gaacttttgc aagttttcag gtaaacctca gctcaggact gctatttagc tcctcttaag8341 aagattaaaa gagaaaaaaa aaggcccttt taaaaatagt atacacttat tttaagtgaa8401 aagcagagaa ttttatttat agctaatttt agctatctgt aaccaagatg gatgcaaaga8461 ggctagtgcc tcagagagaa ctgtacgggg tttgtgactg gaaaaagtta cgttcccatt8521 ctaattaatg ccctttctta tttaaaaaca aaaccaaatg atatctaagt agttctcagc85 aataataata atgacgataa tacttctttt ccacatctca ttgtcactga catttaatgg8641 tactgtatat tacttaattt attgaagatt attatttatg tcttattagg acactatggt8701 tataaactgt gtttaagcct acaatcattg attttttttt gttatgtcac aatcagtata8761 ttttctttgg ggttacctct ctgaatatta tgtaaacaat ccaaagaaat gattgtatta8821 agatttgtga ataaattttt agaaatctga ttggcatatt gagatattta aggttgaatg8881 tttgtcctta ggataggcct atgtgctagc ccacaaagaa tattgtctca ttagcctgaa8941 tgtgccataa gactgacctt ttaaaatgtt ttgagggatc tgtggatgct tcgttaattt9001 gttcagccac aatttattga gaaaatattc tgtgtcaagc actgtgggtt ttaatatttt9061 taaatcaaac gctgattaca gataatagta tttatataaa taattgaaaa aaattttctt9121 589123 5881 acaattttac gtttagaatg tttaaggtta agaaagaaat agtcaatatg cttgtataaa9241 acactgttca ctgttttttt taaaaaaaaa acttgatttg ttattaacat tgatctgctg9301 acaaaacctg ggaatttggg ttgtgtatgc gaatgtttca gtgcctcaga caaatgtgta9361 tttaacttat gtaaaagata agtctggaaa taaatgtctg tttatttttg tactatttaa9421 aaaaaaaaaa aaaaatcgat gtcgactcga gtc (2) SEQ ID NO: 2685 data: (i) sequence characteristics:

(A) length: 865 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2685 sequence description: 1 gaattccgga gttccgggcg cgcgcgacgt cagtttgagt tctgtgttct ccccgcccgt 61 gtcccgcccg acccgcgccc gcgatgctgg cgctgcgctg cggctcccgc tggctcggcc121 tgctctccgt cccgcgctcc gtgccgctgc gcctccccgc ggcccgcgcc tgcagcaagg181 gctccggcga cccgtcctct tcctcctcct ccgggaaccc gctcgtgtac ctggacgtgg241 acgccaacgg gaagccgctc ggccgcgtgg tgctggagct gaaggcagat gtcgtcccaa301 agacagctga gaacttcaga gccctgtgca ctggtgagaa gggcttcggc tacaaaggct361 ccaccttcca cagggtgatc ccttccttca tgtgccaggc gggcgacttc accaaccaca421 atggcacagg cgggaagtcc atctacggaa gccgctttcc tgacgagaac tttacactga481 agcacgtggg gccaggtgtc ctgtccatgg ctaatgctgg tcctaacacc aacggctccc541 agttcttcat ctgcaccata aagacagact ggttggatgg caagcatgtt gtgttcggtc601 acgtcaaaga gggcatggac gtcgtgaaga aaatagaatc tttcggctct aagagtggga661 ggacatccaa gaagattgtc atcacagact gtggccagtt gagctaatct gtggccaggg721 tgctggcatg gtggcagctg caaatgtcca tgcacccagg tggccgcgtt gggctgtcag781 ccaaggtgcc tgaaacgata cgtgtgccca ctccactgtc acagtgtgcc tgaggaaggc841 tgctagggat gttagacgga attcc (2) SEQ ID NO: 2686 data: (i) sequence characteristics:

(A) length: 49 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2686 sequence description: 1 ttttgcagac gccaccgccg aggaaaaccg tgtactatta gccatggtc (2) SEQ ID NO: 2687 data: (i) sequence characteristics:

(A) length: 851 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2687 sequence description: 1 cgggaacgca acatgaaggt gctccttgcc gccgccctca tcgcggggtc cgtcttcttc 61 ctgctgctgc cgggaccttc tgcggccgat gagaagaaga aggggcccaa agtcaccgtc121 aaggtgtatt ttgacctacg aattggagat gaagatgtag gccgggtgat ctttggtcta181 ttcggaaaga ctgttccaaa aacagtggat aattttgtgg ccttagctac aggagagaaa241 ggatttggct acaaaaacag caaattccat cgtgtaatca aggacttcat gatccagggc301 ggagacttca ccaggggaga tggcacagga ggaaagagca tctacggtga gcgcttcccc361 gatgagaact tcaaactgaa gcactacggg cctggctggg tcagcatggc caacgcaggc421 aaagacacca acggctccca gttcttcatc acgacagtca agacagcctg gctagatggc481 aagcatgtgg tgtttggcaa agttctagag ggcatggagg tggtgcggaa ggtggagagc541 accaagacag acagccggga taaacccctg aaggatgtga tcatcgcaga ctgcggcaag601 atcgaggtgg agaagccctt tgccatcgcc aaggagtagg gcacagggac atctttcttt661 gagtgaccgt ctgtgcaggc cctgtagtcc gccacagggc tctgagctgc actggccccg721 gtgctggcat ctggtggagc ggacccactc ccctcacatt ccacaggccc atggactcac781 ttttgtaaca aactcctacc aacactgacc aataaaaaaa aatgtgggtt tttttttttt841 ttaataaaaa a (2) SEQ ID NO: 2688 data: (i) sequence characteristics:

(A) length: 833 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2688 sequence description: 1 gaaggtgctc cttgccgccg ccctcatcgc ggggtccgtc ttcttcctgc tgctgccggg 61 accttctgcg gccgatgaga agaagaaggg gcccaaagtc accgtcaagg tgtattttga121 cctacgaatt ggagatgaag atgtaggccg ggtgatcttt ggtctctttg gaaagactgt181 tccaaaaaca gtggataatt ttgtggcctt agctacagga gagaaaggat ttggctacaa241 aaacagcaaa ttccatcgtg taatcaagga cttcatgatc cagggcggag acttcaccag301 gggagatggc acaggaggaa agagcatcta cggtgagcgc ttccccgatg agaacttcaa361 actgaagcac tacgggcctg gctgggtgag catggccaac gcaggcaaag acaccaacgg421 ctcccagttc ttcatcacga cagtcaagac agcctggcta gatggcaagc atgtggtgtt481 tggcaaagtt ctagagggca tggaggtggt gcggaaggtg gagagcacca agacagacag541 ccgggataaa cccctgaagg atgtgatcat cgcagactgc ggcaagatcg aggtggagaa601 gccctttgcc atcgccaagg agtagggcac agggacatct ttctttgagt gaccgtctgt661 gcaggccctg tagtccgcca cagggctctg agctgcactg gccccggtgc tggcatctgg721 tggagcggac ccactcccct cacattccac aggcccatgg actcactttt gtaacaaact781 cctaccaaca ctgaccaata aaaaaaaatg tgggtttttt tttttaataa aag (2) SEQ ID NO: 2689 data: (i) sequence characteristics:

(A) length: 6711 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2689 sequence description: 1 gaattccctt gtaaggtttt cttaacaaaa caccagtcac ataagtgcat tttattttat 61 atttttgttt atttatttga gacggagtct cttgtctctc aggctggagt gcagtggcgc121 catctctgct cgctgcaacc tccacctcct gggttccagc gattctcctg cctcagcctc181 721 acttatcttt cacccaaaaa tcaaagcaca attcagcccc gaggcggggg cggtaggagc 781 181 ccgagggggt agctgggact acaggtgcgc accaccatgc ccagctaatt ttgtattttt241 cgtagagatg gggtttcacc atgttgtcca ggctggtctt gaactcctga cctcaggtga301 tcctcccgcc tcggcctccc aaagtgctgg aattacaggc gtgatccacc gcacccggcc361 tattttttga gagagggtca cactctgtcg tcccggctgg aatgcagtga tgcgatcacc 421 gcccactaca gcctcgacct ccgggctcaa gcaatcctcc ccgcccagcc tcctgagtag 481 cgagcgcctc gacgcccagc taatttttat ttttatttat ttttttgtag agacggcgtc 541 tctctaagat gcccaggctg gtggccggtg tcgaactcct aagatgaagc gatcctcccc 601 ggccttggcc tccgcgcctc ctaaagcgcc aggtatgagc caccgcgcct ggcctacaag 661 tgcattttaa ttaaagtatt attaatgtct ttgcctgaag aaattcgctt ttaaattgtg 721 acttatcttt cacccaaaaa tcaaagcaca attcagcccc gaggcggggg cggtaggagc 781 tgggcggggc gggggcaggg aaagaccagg agcagagatt caaaaagagt aagagggcaa 841 aatgtgcata atgcatcttc acaggtaaga gcctggccag gctcctgttt taatggcttc 901 ctcctgaaga agattcaagc agagtgtaag atattttcgg aaagtagagc attttgaaag 961 catttcataa tctctcaaaa ccggagactg ctcctgtccc acctcgttag agaaaacagc1021 gatgctcaaa ggcaacctcc ttcctgacat tgcctggtag gacgcgacgt ggtgtttgcc1081 cgcgcggaat gcggacgcaa ggctgctcct aggtctcggg gacgcgccat ccccatttcc1141 gctcgcggag gcgtagggtc cgggcgcggg accccagtcg accttgactg gcggcgcgac1201 cttgaggcct gcgttcgcct cagttgcccc ctctgtgcaa tggggagacg cgcctcatcg1261 cttgacaacg gccgaagagc cgccgcgctt ccgtctcccg cgtgcgcgcg ccatgctgcc1321 cacccccgtt ccgcactgac cctcccccgt gccccgcgtc ccgtactgcc gccccgcccc1381 gagtcccatg ccgcagccac cgcgacggag cccgcaggcg ggaacctgcc tccgcgcgtt1441 agcgcgcacg cgcgcctcat gtgtcgtccc catcagcgcc ggcttccgtc tataggccag1501 atgcactgtc actctggcga agtcgcagac ccgattggcc gggacggagg cgcgagaccg1561 ggttgcgggc ggggccgaac gtggtataaa acgggcggga ggccaggctc gtgccgtttt1621 gcagacgcca ccgccgagga aaaccgtgta ctattagcca tggtcaaccc caccgtgttc1681ttcgacattg ccgtcgacgg cgagcccttg ggccgcgtct cctttgaggt cgggcgggcg1741 gcggcgtgcg ggaatggggc ccagaaagtg ggccggggtc ggggtgggtg gtagcgcccc1801 aaaggcccgg gcgcggggcg accctgcttg aggggcgagc gcgggcgggc tgcggcgcca1861 tttcctgacg aggggccatt ttgggaggtc cgcgagtcgc gggaggaggc cgggacgcgg1921 cggacaaagg caggcggggc ggctgcgagg ccgttggggg agggggcccg cgtccgcccg1981 cccgcctcat gtggccgcgc cctgtcctgt ccgacgcacg tgctcggcgg ccgcgctcag2041 gtccgcgcct tgagagtcgt tgtccgccct agcttggcct gggcgccgca gaccggagcc2101 agaagcacgc tcgcgggggc ttgcgaccgc cttcctggga agctgtcccc tggcaggcat2161 gggtgcttta catcctgagc tgggaagctg tttgcttgag ggtttttctc aaggatcgag2221 gcgcggtgtg agcccgtcca tgctcggtcc tgtagatccc gggaggccat gttataaaag2281 gagacttgct gggatgtgac gggttgccac ttgaaatatc ttccatttgg ataaagtagg2341 aatatttata catgtgcccc aaacgtccct ccgtgtcccc cacccccaag cggaaatgtg2401 aaaatgggcc ttgcctttgc tggtgcccaa ggaccgcctt ccactgcagt gacggcgctg24 gcgggggagg cgctcttgag cccctcccga ttgtccctct gcctagcaag caagttgcga2521 ctggccacaa ggcaggcctc ttccgaccaa ggtggattac cagtgattac ctaattagtt 8681 ttgagagcgt taaatgagtt cttaaagatc agttgtaatt atagcatagt atctaaactt2641 ggcgcgtgtc ttcaaagtta aatattgagt acgattccgt tccagttaac atggatagac 27058 362761 gccaccaatg gctagtttgg atcttattcc gaaaatagat tgatcctcat gcagtcttcg2821 tgaggacaga gcgatttcct tgttgcctac cctgtccata gtgcctggca cataggcact2881 gaaacactgc atgttaatcc acaccccacc ccacctatga gtgtagtcaa agctggtaag2941 tgacaagggc tttcgtggaa acttggcctg acctaatgtt gggcatcagg ttacccaaag3001 agcttcaggg aaatgagaaa ggacttgcag gtcttgatga gaatggaggg gtaactgcca3061 atgagggctt tggctttagc gaaagtctga aagggaagcc ataggaactt aaacgtaccg3121 actataaagc tctgagaaaa gctgatgttt tagaaagacc atacattcta ggtacaaata3181 cctaaaaact aaaaaataag tacgttggcc aggcgggcgg atcacgaagt caggagattg3241 agaccatcct gggcccctgg tgaaacccca cctctattaa aaatacaaaa attagctggg3301 cgtggtggcg cttgcctgta atctcagcta ctctagaggc tgaggcagga gatcgcttga3361 accccggagg cggaggctgc agtgagccga gatcgtgcca ctgcactcca gcctggtgac3421 agcgagactc ttgtctcaaa aaaaaaaaag tacattgcta taagagaagt gcacacggat3481 actagtagtt aattcagtca catctgtgaa atagcttata aaatgctact tttaaacaag3541 ctgtttttat gaaagggctt gtaaatgttt atggtattta agctacctct ctagccataa3601 cgtattatac attcaagaaa ggttcaaaac cagatatact agaaaccaat ctttattttt3661 taccccacta ctaggtaagg gcctggatac caagaagtga ctgctcatct aatccataaa3721 gctatgttaa cagattggag gtagtagcat tttcattaca agtgactaaa agaacagctg3781 tttacccctg atcgtgcagc agtgcttgct gttccttaga attttgcctt gtaagttcta3841 gctcaagttg gggggtggtg atagacattt aagaagccat atatcttttc agaagtaggt3901 gtgatgtact aaaagtttga gacactttct agaagtctca ctatttaagt tatgactagt3961 attggatttt tggcatgtct ttgggtttca tgtttcttaa cccaactgcc tgcagggcct4021 tatggctgtc aggagcagtt cttgggaatt aaagtaatta ctgaagaagt attctagtga4081 4158 4141 agatgttaat taactgtaat tttctcttac agctgtttgc agacaaggtc ccaaagacag 42072 cattttctaa gtttaacaaa gatgttccaa ttgtgacagt ttgtgtgtgt4261 gtgtgtatat atatattttt atgtatgtat atatgtgttt aatttttttt taaacagaaa4321 attttcgtgc tctgagcact ggagagaaag gatttggtta taagggttcc tgctttcaca4381 gaattattcc agggtttatg tgtcaggtac gaaatttact gaattttatt ttatttgggt4441 tgctcccttc atttgggatt gagccagaat atttcaggat acacatatct gaactgttac4501 tctaccattt cggttctatt taacccttct attcagtttg aacttgggtt taaagtttga4561 accttgcaga tttggcacac ttcatggtta tgttgtcaga agtgacattt ttcctatatg4621 ttgacagggt ggtgacttca cacgccataa tggcactggt ggcaagtcca tctatgggga4681 gaaatttgaa gatgagaact tcatcctaaa gcatacgggt cctggcatct tgtccatggc4741 aaatgctgga cccaacacaa atggttccca gtttttcatc tgcactgcca agactgagtg4801 gtaagggtac aacatggcac actaaccacc tgactaaatg aaaagttgcc ctggggggaa4861 cggaacaaac actacttttc ttcaaccttt gcttccacag actttttcat ccctaagata4921 ctagaagaag agcatacata aatgacaaat atagccaatg tgatacagaa tgtcagatac4981 tatgatagaa acttggccct tagctgggtg gttgaattag gtgctacttt tttgagatgg5041 agttttgctc tgttgccagg ttggagtgca gtggcacaat ctgggctcac tgcaacctct5101 gcctcctggg ttcaagcgat tctcctgcct tggcctcctg agtagctgag aatacagatg5161 tgtgccagca tgcctggcta attttttgta tttttgtgga gacggggttt catcatgttg5221 gccaagctgg tcttgaactc gtgacttaag gtgaaccacc tgccttggcc ccccaaagtg5281 ctgggatttc aggcatgagc cactgcgccc aaccaattaa gtgctttttt tttttttttt5341 cttttctcag actggatctc gctcttatct cccaggttgg agtgcagtgg tgccatctca5401 gctcactgca acctcctccc gggttcaagc aattcttctg cctcagcctc tcaagtagct5461 ggaactacag gcatgcacca ccactcccag ctaaattgtg tattattagt agagcgggat5521 ttaccatgtt gtccaggctg gtctcgaact cctgggctca agtgatctgc ctgccttgac5581 ccccccgaag tgctgggatt acaggcatga gccactgtgc ccacccaatt aagtgctgct5641 tttatgttac tattaataac atgcggttgg ttgggttttt tgtttctttg gggtttttgt5701 tttgttttgt ttgtttttgg gggagggggg cgcaattcat tctatatgtg taactctttt5761 ttgagatgga gtttcgctct gtcgcccagg ctggagtgca gtggcgcgat ctcggctcac5821 tgcaagctcc gcctcccagg ttcacgccat tctcctgcct cagcctcccg agtagctggg5881 actataggca catgccacca tgcccggcta attttttgta tttttagtag agacagggtt5941 tcaccgtgtt agccaggatg gtctcgatct cctgacctcg tgatccgccc gccttggcct6001 cccaaagtgc tgggattaca ggcgtgagcc accgcacccg gcctatatgt gtaactcttt6061 aatggtaatt ggagaatcat gtttaatgac atttagtaca aaaggcttca gttaaaaaaa6121 aaaaaaaaaa gctacctttc tcgtcttggt tcatgacaca tggaggctgc ttgtttgtgg6181 ttgccagtca taatgattgt tcttcctttt caaggttgga tggcaagcat gtggtgtttg6241 gcaaagtgaa agaaggcatg aatattgtgg aggccatgga gcgctttggg tccaggaatg6301 gcaagaccag caagaagatc accattgctg actgtggaca actcgaataa gtttgacttg6361 tgttttatct taaccaccag atcattcctt ctgtagctca ggagagcacc cctccacccc6421 atttgctcgc agtatcctag aatctttgtg ctctcgctgc agttcccttt gggttccatg6481 ttttccttgt tccctcccat gcctagctgg attgcagagt taagtttatg attatgaaat6541 aaaaactaaa taacaattgt cctcgtttga gttaagtgtt gatgtaggct ttattttaag6601 cagtaatggg ttacttctga aacatcactt gtttgcttaa ttctacacag tacttagatt6661 ttttttactt tccagtccca ggaagtgtca atgtttgttg agtggaatat t (2) SEQ ID NO: 2690 data: (i) sequence characteristics:

(A) length: 723 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2690 sequence description: 1 gtgtactatt agccatggtc aaccccaccg tgttcttcga cattgccgtc gacggcgagc 61 ccttgggccg cgtctccttt gagctgtttg cagacaaggt cccaaagaca gcagaaaatt121 ttcgtgctct gagcactgga gagaaaggat ttggttataa gggttcctgc tttcacagaa181 ttattccagg gtttatgtgt cagggtggtg acttcacacg ccataatggc actggtggca241 agtccatcta tggggagaaa tttgaagatg agaacttcat cctaaagcat acgggtcctg301 gcatcttgtc catggcaaat gctggaccca acacaaatgg ttcccagttt ttcatctgca361 ctgccaagac tgagtggttg gatggcaagc atgtggtgtt tggcaaagtg aaagaaggca421 tgaatattgt ggaggccatg gagcgctttg ggtccaggaa tggcaagacc agcaagaaga481 tcaccattgc tgactgtgga caactcgaat aagtttgact tgtgttttat cttaaccacc541 agatcattcc ttctgtagct caggagagca cccctccacc ccatttgctc gcagtatcct601 agaatctttg tgctctcgct gcagttccct ttgggttcca tgttttcctt gttccctccc661 atgcctagct ggattgcaga gttaagttta tgattatgaa ataaaaacta aataacaatt721 gtc (2) SEQ ID NO: 2691 for data: (i) sequence characteristics:

(A) length: 10032 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2691 sequence description: 1 gaattccgga gttccgggcg cgcgcgacgt cagtttgagt tctgtgttct ccccgcccgt 61 gtcccgcccg acccgcgccc gcgatgctgg cgctgcgctg cggctcccgc tggctcggcc121 tgctctccgt cccgcgctcc gtgccgctgc gcctccccgc ggcccgcgcc tgcagcaagg181 721 tgctggcatg gtggcagctg caaatgtcca tgcacccagg tggccgcgtt gggctgtcag781 181 gctccggcga cccgtcctct tcctcctcct ccgggaaccc gctcgtgtac ctggacgtgg241 acgccaacgg gaagccgctc ggccgcgtgg tgctggagct gaaggcagat gtcgtcccaa301 agacagctga gaacttcaga gccctgtgca ctggtgagaa gggcttcggc tacaaaggct361 ccaccttcca cagggtgatc ccttccttca tgtgccaggc gggcgacttc accaaccaca421 atggcacagg cgggaagtcc atctacggaa gccgctttcc tgacgagaac tttacactga481 agcacgtggg gccaggtgtc ctgtccatgg ctaatgctgg tcctaacacc aacggctccc541 agttcttcat ctgcaccata aagacagact ggttggatgg caagcatgtt gtgttcggtc601 acgtcaaaga gggcatggac gtcgtgaaga aaatagaatc tttcggctct aagagtggga661 ggacatccaa gaagattgtc atcacagact gtggccagtt gagctaatct gtggccaggg721 tgctggcatg gtggcagctg caaatgtcca tgcacccagg tggccgcgtt gggctgtcag781 ccaaggtgcc tgaaacgata cgtgtgccca ctccactgtc acagtgtgcc tgaggaaggc841 tgctagggat gttagacgga attcc1 ttttgcagac gccaccgccg aggaaaaccg tgtactatta gccatggtc 1 cgggaacgca acatgaaggt gctccttgcc gccgccctca tcgcggggtc cgtcttcttc 61 3961 61 ctgctgctgc cgggaccttc tgcggccgat gagaagaaga aggggcccaa agtcaccgtc121 aaggtgtatt ttgacctacg aattggagat gaagatgtag gccgggtgat ctttggtctc181 ttcggaaaga ctgttccaaa aacagtggat aattttgtgg ccttagctac aggagagaaa241 ggatttggct acaaaaacag caaattccat cgtgtaatca aggacttcat gatccagggc301 ggagacttca ccaggggaga tggcacagga ggaaagagca tctacggtga gcgcttcccc361 gatgagaact tcaaactgaa gcactacggg cctggctggg tcagcatggc caacgcaggc421 aaagacacca acggctccca gttcttcatc acgacagtca agacagcctg gctagatggc481 aagcatgtgg tgtttggcaa agttctagag ggcatggagg tggtgcggaa ggtggagagc541 accaagacag acagccggga taaacccctg aaggatgtga tcatcgcaga ctgcggcaag601 atcgaggtgg agaagccctt tgccatcgcc aaggagtagg gcacagggac atctttcttt661 gagtgaccgt ctgtgcaggc cctgtagtcc gccacagggc tctgagctgc actggccccg721 gtgctggcat ctggtggagc ggacccactc ccctcacatt ccacaggccc atggactcac781 ttttgtaaca aactcctacc aacactgacc aataaaaaaa aatgtgggtt tttttttttt841 ttaataaaaa a1 gaaggtgctc cttgccgccg ccctcatcgc ggggtccgtc ttcttcctgc tgctgccggg 61 6761 61 accttctgcg gccgatgaga agaagaaggg gcccaaagtc accgtcaagg tgtattttga121 cctacgaatt ggagatgaag atgtaggccg ggtgatcttt ggtctctttg gaaagactgt181 tccaaaaaca gtggataatt ttgtggcctt agctacagga gagaaaggat ttggctacaa241 aaacagcaaa ttccatcgtg taatcaagga cttcatgatc cagggcggag acttcaccag301 gggagatggc acaggaggaa agagcatcta cggtgagcgc ttccccgatg agaacttcaa361 actgaagcac tacgggcctg gctgggtgag catggccaac gcaggcaaag acaccaacgg421 ctcccagttc ttcatcacga cagtcaagac agcctggcta gatggcaagc atgtggtgtt481 tggcaaagtt ctagagggca tggaggtggt gcggaaggtg gagagcacca agacagacag541 ccgggataaa cccctgaagg atgtgatcat cgcagactgc ggcaagatcg aggtggagaa601 gccctttgcc atcgccaagg agtagggcac agggacatct ttctttgagt gaccgtctgt661 gcaggccctg tagtccgcca cagggctctg agctgcactg gccccggtgc tggcatctgg721 tggagcggac ccactcccct cacattccac aggcccatgg actcactttt gtaacaaact781 cctaccaaca ctgaccaata aaaaaaaatg tgggtttttt tttttaataa aag1 gaattccctt gtaaggtttt cttaacaaaa caccagtcac ataagtgcat tttattttat 61 atttttgttt atttatttga gacggagtct cttgtctctc aggctggagt gcagtggcgc121 catctctgct cgctgcaacc tccacctcct gggttccagc gattctcctg cctcagcctc181 ccgagggggt agctgggact acaggtgcgc accaccatgc ccagctaatt ttgtattttt241 cgtagagatg gggtttcacc atgttgtcca ggctggtctt gaactcctga cctcaggtga301 tcctcccgcc tcggcctccc aaagtgctgg aattacaggc gtgatccacc gcacccggcc361 tattttttga gagagggtca cactctgtcg tcccggctgg aatgcagtga tgcgatcacc 421 gcccactaca gcctcgacct ccgggctcaa gcaatcctcc ccgcccagcc tcctgagtag 481 cgagcgcctc gacgcccagc taatttttat ttttatttat ttttttgtag agacggcgtc 541 tctctaagat gcccaggctg gtggccggtg tcgaactcct aagatgaagc gatcctcccc 601 ggccttggcc tccgcgcctc ctaaagcgcc aggtatgagc caccgcgcct ggcctacaag 661 tgcattttaa ttaaagtatt attaatgtct ttgcctgaag aaattcgctt ttaaattgtg 721 acttatcttt cacccaaaaa tcaaagcaca attcagcccc gaggcggggg cggtaggagc 781 tgggcggggc gggggcaggg aaagaccagg agcagagatt caaaaagagt aagagggcaa 841 aatgtgcata atgcatcttc acaggtaaga gcctggccag gctcctgttt taatggcttc 901 ctcctgaaga agattcaagc agagtgtaag atattttcgg aaagtagagc attttgaaag 961 catttcataa tctctcaaaa ccggagactg ctcctgtccc acctcgttag agaaaacagc1021 gatgctcaaa ggcaacctcc ttcctgacat tgcctggtag gacgcgacgt ggtgtttgcc1081 cgcgcggaat gcggacgcaa ggctgctcct aggtctcggg gacgcgccat ccccatttcc1141 gctcgcggag gcgtagggtc cgggcgcggg accccagtcg accttgactg gcggcgcgac1201 cttgaggcct gcgttcgcct cagttgcccc ctctgtgcaa tggggagacg cgcctcatcg1261 cttgacaacg gccgaagagc cgccgcgctt ccgtctcccg cgtgcgcgcg ccatgctgcc1321 cacccccgtt ccgcactgac cctcccccgt gccccgcgtc ccgtactgcc gccccgcccc1381 gagtcccatg ccgcagccac cgcgacggag cccgcaggcg ggaacctgcc tccgcgcgtt1441 agcgcgcacg cgcgcctcat gtgtcgtccc catcagcgcc ggcttccgtc tataggccag1501 atgcactgtc actctggcga agtcgcagac ccgattggcc gggacggagg cgcgagaccg1561 ggttgcgggc ggggccgaac gtggtataaa acgggcggga ggccaggctc gtgccgtttt1621 gcagacgcca ccgccgagga aaaccgtgta ctattagcca tggtcaaccc caccgtgttc1681 ttcgacattg ccgtcgacgg cgagcccttg ggccgcgtct cctttgaggt cgggcgggcg1741 gcggcgtgcg ggaatggggc ccagaaagtg ggccggggtc ggggtgggtg gtagcgcccc1801 aaaggcccgg gcgcggggcg accctgcttg aggggcgagc gcgggcgggc tgcggcgcca1861 tttcctgacg aggggccatt ttgggaggtc cgcgagtcgc gggaggaggc cgggacgcgg1921 cggacaaagg caggcggggc ggctgcgagg ccgttggggg agggggcccg cgtccgcccg1981 cccgcctcat gtggccgcgc cctgtcctgt ccgacgcacg tgctcggcgg ccgcgctcag2041 gtccgcgcct tgagagtcgt tgtccgccct agcttggcct gggcgccgca gaccggagcc2101 agaagcacgc tcgcgggggc ttgcgaccgc cttcctggga agctgtcccc tggcaggcat2161 gggtgcttta catcctgagc tgggaagctg tttgcttgag ggtttttctc aaggatcgag2221 gcgcggtgtg agcccgtcca tgctcggtcc tgtagatccc gggaggccat gttataaaag gagacttgct gggatgtgac gggttgccac ttgaaatatc ttccatttgg ataaagtagg2341 aatatttata catgtgcccc aaacgtccct ccgtgtcccc cacccccaag cggaaatgtg2401 aaaatgggcc ttgcctttgc tggtgcccaa ggaccgcctt ccactgcagt gacggcgctg2461 gcgggggagg cgctcttgag cccctcccga ttgtccctct gcctagcaag caagttgcga2521 ctggccacaa ggcaggcctc ttccgaccaa ggtggattac cagtgattac ctaattagtt2581 ttgagagcgt taaatgagtt cttaaagatc agttgtaatt atagcatagt atctaaactt2641 ggcgcgtgtc ttcaaagtta aatattgagt acgattccgt tccagttaac atggatagac2701 cttagggagt agcgaaatag gatgttagtg gttttattcc tttaaatcac atctcaaaag27 gccaccaatg gctagtttgg atcttattcc gaaaatagat tgatcctcat gcagtcttcg2821 tgaggacaga gcgatttcct tgttgcctac cctgtccata gtgcctggca cataggcact2881 gaaacactgc atgttaatcc acaccccacc ccacctatga gtgtagtcaa agctggtaag2941 tgacaagggc tttcgtggaa acttggcctg acctaatgtt gggcatcagg ttacccaaag3001 agcttcaggg aaatgagaaa ggacttgcag gtcttgatga gaatggaggg gtaactgcca3061 atgagggctt tggctttagc gaaagtctga aagggaagcc ataggaactt aaacgtaccg3121 actataaagc tctgagaaaa gctgatgttt tagaaagacc atacattcta ggtacaaata3181 cctaaaaact aaaaaataag tacgttggcc aggcgggcgg atcacgaagt caggagattg3241 agaccatcct gggcccctgg tgaaacccca cctctattaa aaatacaaaa attagctggg3301 cgtggtggcg cttgcctgta atctcagcta ctctagaggc tgaggcagga gatcgcttga3361 accccggagg cggaggctgc agtgagccga gatcgtgcca ctgcactcca gcctggtgac3421 agcgagactc ttgtctcaaa aaaaaaaaag tacattgcta taagagaagt gcacacggat3481 actagtagtt aattcagtca catctgtgaa atagcttata aaatgctact tttaaacaag3541 ctgtttttat gaaagggctt gtaaatgttt atggtattta agctacctct ctagccataa3601 cgtattatac attcaagaaa ggttcaaaac cagatatact agaaaccaat ctttattttt3661 taccccacta ctaggtaagg gcctggatac caagaagtga ctgctcatct aatccataaa3721 gctatgttaa cagattggag gtagtagcat tttcattaca agtgactaaa agaacagctg3781 tttacccctg atcgtgcagc agtgcttgct gttccttaga attttgcctt gtaagttcta3841 gctcaagttg gggggtggtg atagacattt aagaagccat atatcttttc agaagtaggt3901 gtgatgtact aaaagtttga gacactttct agaagtctca ctatttaagt tatgactagt3961 attggatttt tggcatgtct ttgggtttca tgtttcttaa cccaactgcc tgcagggcct4021 tatggctgtc aggagcagtt cttgggaatt aaagtaatta ctgaagaagt attctagtga 408681 4141 agatgttaat taactgtaat tttctcttac agctgtttgc agacaaggtc ccaaagacag 42058 364261 gtgtgtatat atatattttt atgtatgtat atatgtgttt aatttttttt taaacagaaa4321 attttcgtgc tctgagcact ggagagaaag gatttggtta taagggttcc tgctttcaca4381 gaattattcc agggtttatg tgtcaggtac gaaatttact gaattttatt ttatttgggt4441 tgctcccttc atttgggatt gagccagaat atttcaggat acacatatct gaactgttac4501 tctaccattt cggttctatt taacccttct attcagtttg aacttgggtt taaagtttga4561 accttgcaga tttggcacac ttcatggtta tgttgtcaga agtgacattt ttcctatatg4621 ttgacagggt ggtgacttca cacgccataa tggcactggt ggcaagtcca tctatgggga4681 gaaatttgaa gatgagaact tcatcctaaa gcatacgggt cctggcatct tgtccatggc4741 aaatgctgga cccaacacaa atggttccca gtttttcatc tgcactgcca agactgagtg4801 4848 4861 cggaacaaac actacttttc ttcaaccttt gcttccacag actttttcat ccctaagata4921 ctagaagaag agcatacata aatgacaaat atagccaatg tgatacagaa tgtcagatac4981 tatgatagaa acttggccct tagctgggtg gttgaattag gtgctacttt tttgagatgg5041 agttttgctc tgttgccagg ttggagtgca gtggcacaat ctgggctcac tgcaacctct5101 gcctcctggg ttcaagcgat tctcctgcct tggcctcctg agtagctgag aatacagatg5161 tgtgccagca tgcctggcta attttttgta tttttgtgga gacggggttt catcatgttg5221 gccaagctgg tcttgaactc gtgacttaag gtgaaccacc tgccttggcc ccccaaagtg5281 ctgggatttc aggcatgagc cactgcgccc aaccaattaa gtgctttttt tttttttttt5341 cttttctcag actggatctc gctcttatct cccaggttgg agtgcagtgg tgccatctca5401 gctcactgca acctcctccc gggttcaagc aattcttctg cctcagcctc tcaagtagct5461 ggaactacag gcatgcacca ccactcccag ctaaattgtg tattattagt agagcgggat5521 ttaccatgtt gtccaggctg gtctcgaact cctgggctca agtgatctgc ctgccttgac5581 ccccccgaag tgctgggatt acaggcatga gccactgtgc ccacccaatt aagtgctgct5641 tttatgttac tattaataac atgcggttgg ttgggttttt tgtttctttg gggtttttgt5701 5772 5761 ttgagatgga gtttcgctct gtcgcccagg ctggagtgca gtggcgcgat ctcggctcac5821 tgcaagctcc gcctcccagg ttcacgccat tctcctgcct cagcctcccg agtagctggg5881 actataggca catgccacca tgcccggcta attttttgta tttttagtag agacagggtt5941 tcaccgtgtt agccaggatg gtctcgatct cctgacctcg tgatccgccc gccttggcct6001 cccaaagtgc tgggattaca ggcgtgagcc accgcacccg gcctatatgt gtaactcttt6061 aatggtaatt ggagaatcat gtttaatgac atttagtaca aaaggcttca gttaaaaaaa6121 aaaaaaaaaa gctacctttc tcgtcttggt tcatgacaca tggaggctgc ttgtttgtgg6181 ttgccagtca taatgattgt tcttcctttt caaggttgga tggcaagcat gtggtgtttg6241 gcaaagtgaa agaaggcatg aatattgtgg aggccatgga gcgctttggg tccaggaatg6301 gcaagaccag caagaagatc accattgctg actgtggaca actcgaataa gtttgacttg6361 tgttttatct taaccaccag atcattcctt ctgtagctca ggagagcacc cctccacccc6421 atttgctcgc agtatcctag aatctttgtg ctctcgctgc agttcccttt gggttccatg6481 ttttccttgt tccctcccat gcctagctgg attgcagagt taagtttatg attatgaaat6541 aaaaactaaa taacaattgt cctcgtttga gttaagtgtt gatgtaggct ttattttaag6601 cagtaatggg ttacttctga aacatcactt gtttgcttaa ttctacacag tacttagatt6661 3561 6661 ttttttactt tccagtccca ggaagtgtca atgtttgttg agtggaatat t1 gtgtactatt agccatggtc aaccccaccg tgttcttcga cattgccgtc gacggcgagc 61 ccttgggccg cgtctccttt gagctgtttg cagacaaggt cccaaagaca gcagaaaatt121 ttcgtgctct gagcactgga gagaaaggat ttggttataa gggttcctgc tttcacagaa181 ttattccagg gtttatgtgt cagggtggtg acttcacacg ccataatggc actggtggca241 agtccatcta tggggagaaa tttgaagatg agaacttcat cctaaagcat acgggtcctg301 gcatcttgtc catggcaaat gctggaccca acacaaatgg ttcccagttt ttcatctgca361 ctgccaagac tgagtggttg gatggcaagc atgtggtgtt tggcaaagtg aaagaaggca421 tgaatattgt ggaggccatg gagcgctttg ggtccaggaa tggcaagacc agcaagaaga481 tcaccattgc tgactgtgga caactcgaat aagtttgact tgtgttttat cttaaccacc541 agatcattcc ttctgtagct caggagagca cccctccacc ccatttgctc gcagtatcct601 agaatctttg tgctctcgct gcagttccct ttgggttcca tgttttcctt gttccctccc661 atgcctagct ggattgcaga gttaagttta tgattatgaa ataaaaacta aataacaatt721 gtc (2) SEQ ID NO: 2692 data: (i) sequence characteristics:

(A) length: 56583 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2692 sequence description: 1 gatctgtcta gggctgtcag tggagtattg aagtccccca cgattattgt gttactgtct 61 atctcatttc ttaggtctat taataacagg tttttttgtt ttgttttgtt ttgttttgtt 121 tttttgagat ggagttttgc tcttgttgcc caggctggag tgcaatggca tgatctcagc 181 721 atatttttga tgaacacaga tgctaaaatc ctcaacaaaa tactagctaa ccagttgcaa 781 181 tcactgcaac ctccgcctcc tgggttcaag cgattctcct gcctcagcct cccgagcagc 241 tgggactaca ggcatgcacc accacacctg gctaattttg tatttttagt agagacaagg 301 gttctccatg ttggtcaggc tggtcttgaa ctcccgacct ctggtgatct tcccacctca 361 gcctcccaaa gcgctgggat tacaggcatg agccaccgtg cccggcccat agtaactgtt 421 ttataaattt gggagctcca gtgtttagta catatatgtt tagaattgtg atatttccct 481 gttggacaag gccttttacc attatataat gccctctttt gtctctttta gctgctgttg 541 ctttaaaatt tgttttgtct gatataagaa tagctacctc tgctcacttt tggtgtctat 601 gtgcatgaaa tgcctttctc caccccttta ctttatgtga gtccttatgt gttgttaggc 661 cagcatcacc ctaatatcaa aaccagcaaa ggacatacca aaaaagaaca ttacagacca 721 atatttttga tgaacacaga tgctaaaatc ctcaacaaaa tactagctaa ccagttgcaa 781 caacatacca aaaagataat ccaccatgat caagtaagtt tcgtaccagg gatgcagaaa 841 agcagcagat ggtttgtgag ttcttatcta ttctgcaatt ctgtagaaaa gtggagcatt 901 taggccattt acattcaatg ttagtattga aatttgaggt accattgcat tcatcatgct 961 ctttgttgcc tgcgtacttt ggtttgtttt ttgattttgc tctttaactt gtatttttgt1021 tttataggtc ctgtgtgatt tatgctttaa agagattctg ttttgatgtg tttccaggat1081 ttctttcaag atttagagct cctttaaaca gttcttgtag cagtgccttg gtaatggcaa1141 attctctcag tatttgtttg tctgaaaacg actgtatctt tccttcatat gtgatgctta1201 gtttcactgg atgcaaaatt cttgactgat aattgttttg tttgaggagg ctgaagatag1261 ggccccaacc ccttctagct tgtagggtct ctgctgagaa atctgctatt aatctgatag1321 gttttcctta taggttacct ggtgcttctg tctcacagct cttaagattc tttccttggt1381 cttaactttg tataacctga cgacaatgtg cctaggtgaa tatctttttg tatccatcgc1441 ccaggctgga gtgcagtggc gcaattttgg ctcactgcaa cctctgcctc ccaggttcaa1501 gcaattctcc tgcctcagcc tcccaaggag ctgggattac aggctcctgc caccacaccc1561 agctaatttt ttttttttgt atttttagta gagacagggt tttgccatgt tggccagcct1621 ggtctcaaac tcctgacctc aggtgatcca cctgcctcgg cctcccaaag tgctaggatt1681 acaggcgtga gcccccgcac ccgagccctg atattaattt ttaaattaaa agactttatt1741 tttaaaagca gtttgaggtt tacagaaaaa ctgagcagaa agtacagtct ctatataccc1801 cctactccct gcccccagtt ttccctgtta ttaacatttg tgttaatgtg gcatatttgt1861 tacaatcagt gaatcaatat tgataaatta aagtccatat gttagtgttc actctgtgtg1921 ttatacagtt ctatgggttt tgccaaatgt attaatatgt catgtatcca tcattacagt1981 atcatccagc ataatttcac tgtcctgaaa atgccctgtg ctccacttat tcatcttttc2041 cccacttgct atcaccacac caaagccctc acaaccactt atctttttaa tatatccata2101 gttttgcctt ttgcagaaca tcatatcatt agaatcacaa taatatgtgg cttttcagac2161 tggtttcttt cactcagcaa catgcagtta agggtcttcc gggtcttttg tggcttgaca2221 gctcatttct ttttatcact gaataatatt gcattgtata gatataccac agtttttttt2281 aaatttactc atcattaaag gacatcttga ttacttctaa tttctggcaa taatgaataa2341 agttgataca aaaacttttg tgtaggattt tgtgtggaca tatgttttca actcattgag2401 gtaaatgcct aaggcatatt tagttttgta agaaactgct aaactatctt ccaaagtatc2461 tgtaccattt tgcattccca ccagctatga aagagtttct gttctacatc ttcacaaaca2521 ttggtgttat cagtgttttg gattttagcc attctaattg gtgtggagtg gtatctcatt2581 gttgttttaa ttttgcaatt ccctaatgac atatatgttg agcatctttt catatgcata2641 tttaccatct gtatatcttc tttgggcata tgtccattca gatcttttgc acatcttttc2701 attgggttgc tcattttctt attgagtttt aagagttctt catatatttt tgataacagt2761 cctttatcag atatgtcttc tgcaaatatt ttctcccagt ctttgtcgtg tcttttcatt2821 tacttaacag tgtctttcat aaaacagaag gttttaactt tgatgaagtc taacttgcca2881 attttttctt tcatggattg tgctttgtgt gttgtatcta aaaactcatt gccaaacaca2941 aggtcacctc tatgttctcc tatgttatct tctagaagct ttgtagtttt ctgttttaca3001 tttatagggg ctgtgagaag gtgacagagg ttacatgagg taataaggat agggccttag3061 ttgaataagg ctagtgccct tataagagga agagacgcca gttttctctc tctctaccat3121 acgaagacac agcaagaaag tggccatcta caagtcaaga agtgggccat caccagaaac3181 caaattactg gcaccttgat cttaaacttc ccagcttcca aaactgtgag aaataaattt3241 ctgctgttta agccatgcaa cctacagtat aagttatagc agcccaagca gactaagaca3301 gaacccttag catattaatc atagttactt taaatctctg gtcccataat tccaaaatat3361 ctgccacatc tgagtctggt tctagtgctt gctttgtttc ttcaagactg tggttttttt3421 tctcttttta gcatatctta taatttttct gttcaaagca aggcatgatg tactgggtaa3481 agggaactga actgaggtag ataggtgttt agaatgaaat ttagaggcaa cttaagaaag3541 593601 cttgcaatgg acaaagttgg aacaatttga gcaacaaaat aagttattct tccttataga3661 ggaattctaa ataatttata tagatacttg ccttccagga agtggcactt aatccccatc3721 aaaccctcat aagtgtgggc tggacttggt aacttccttc caaaaaatag agtatggaaa3781 aggggtgaag taacttcata gtggaaaaac ctggcaaaca ctaccttggt tagctgagca3841 aagccttgat atggtgtgat gagaatggaa tattaccttt gtgatctttc tctcaaacac3901 ttataatccc attctaatca tgaggaaagc gtaagacaaa tcccaattga gggacattct 398661 acaaaatacc tgaggagtac tcctcaatag gtcatcaaaa caagtcttag aaactgtcac4021 agtcaagaag aaactaagga aaaatgacaa ctaaatgcaa tgtggtatca tggactggct cctagaacag aaaaagtcag tatataaaaa ctaagaaaat ctgaataaag tatggacttt4141 agtgataata atgtatcaat attggtttat tacttgtagc aaatgtacca tactaatcta4201 agatgataat aaaaacaata actctgtgta gggccaaagg gagggaagtg ggctgatacg4261 ggaactctcc gcactatctt agcaactttt tggcaaatct aaaattactc caagatacta4321 agcttctttt ttaaaaaaaa tcacaaaacc tgaaaaattt taaagaaata aaaatttaaa4381 aattaaaaag agtcaaatcc cagctgtatt tttattaatt atgtaatatt gtacaagtca4441 ctctctgagc tttggtgtcc ctgtttataa aagtgataga atacattttt gagtgacatc4501 tgaaagatag cagagtagga agctccaggc cctcctttcc ccatgtaatc tgtgaaagga4561 aattcaattt cgggacgcca aactcattta gcgaaaggga aaagtcaaag tgggaactgg4621 gtcatgcaaa cctgcctccc acttttgggt cctcaataag atggctacaa gatgaaaagc4681 tacatgcctc cgccatattt tgcccacaag gaaattccta gtgagttgtt aaaatttcac4741 cgtagcaatg caaattgata gcttatcttt acaggtgcag tcgcccccgg cgcactagac4801 ataaatgcac atctgagtgt tcccctgccc cattttgtcc atgttatctt atgtaaaatg4861 catattcccc acatttttcc tctgcctctt ttatgtcatc ttattaatgc agattccctg4921 agccagacaa aggcatgaat gactattttt ccctaccctc ctcttacatg aaaattgtgt4981 acttctcagt atcgcaccct ttccccttta aattttgagc cctcaaaatc atcttcggag5041 acaggcatag acctgtctcc tgagtgcatc cttaactttg gcaaataaat cccctaaaat5101 gattgagact tgtcattttt ctcaattgac atctggtaac cacgaaggga tcctgagtga5161 51 5161 aagtgaccca gcctgcagta gctcacctct cagtgcttgg caccggcttg gtcaccttat5221 agcccaaact gagaggacaa tttgccaaag tcgaggacct ctttccaggg atctctgatc5281 829 5281 ttccaacatt ttccagttgg gggtctgaag tttatttgct gttaaaaaca aaacaaaaca5341 acaaaaacaa caaaaattcc tttttttgta ggcgtttcca ctcacttcca tcaaggaagg5401 cgagcctgtc tgcttctgca tatgcagaga gcaatcttca gcttgggccc ccatcactag5461 gtaagaaact ggtttggaat tctgtcttgc aaattctttt aaacgactag aattagcact5521 aacaaccagc tggtgttaat ttcctgctta cccttagagc gctcagaaat catataattt5581 gcgtgatcat tgttagtttt gtttaattgt tttgtttctg ggtttgtgtg tgtgtgtgtg5641 tgtgtgtata tatatctgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtatgtgtg5701 tgtgtgtgtg ttttggtcct ttcccctatc ggatttgacc aattctgaac cttcaagctc5761 atgagtgtga aattttccac tctgaagaaa cagaacacat tgctcccctc agccctttgg5821 ggcattctca ggcgactgag aatcacatga gggtttctgg gagaaatgct ccctaagaca5881 tgcagcagct ctaaataggt ttccccctca aaagaacata cttagggtct aatctcagcc5941 agcagatgca tataaggaac tgacccctcc caaactttga gcccctgaca cactgtgcca6001 ggtggccaca acgctggtgg accaaactgg ttcagggtgt aatggccctg tgaaaagcta6061 ggtttgcaag cagcacattt tgggtccaac acacatccca acttggtcaa atccaaaggg6121 gaactctaaa ttatagagaa caaggcctct aagaccccag cagttgcaga atataaagtt6181 5731 6241 tatttaacca agcggaccac tataactaaa gcagattcta agttacaatg gcctaaatgg6301 ggatcttttg agatgcccaa attagtgtac ctgtgaacca ggatggagaa tgcagacaca6361 aaaaccaaac aaccagaatg ggacagctat tttcagtggt agctgcaaag tagcaaaagt6421 ggggaagacc actgtcacgc gtgtctgggt gaagtgacca ccaaacaggc tttgtgtgtg caacaaggct gtttatttca cctgggtgca ggtgggctga gtccgaaaaa gatgtcagca6541 666601 66 cactcctgtc ttcttatatt aataagaaaa acaaaacaag atagtggcga agtgttgggg6661 826721 cgagcaggat taggggcagc gtgggaacct agagtgggag agattaagct gaaggaagat6781 tttgtggtaa ggggtgatat tgtggggttg ttagaagcaa tatttgttgt acagaatgat6841 tggtgatggc ctggatacag ttttgtatga attgagaaac taaacagaag acacaaggtc6901 cgaataagag aaggagaaaa acaggtatta aaggactaag aattgggagg acccaggaca6961 tctaattaga gtgcctaagg gggttcagcg tgattattgc ttggttggtc agttttgggg7021 ctctatcctt gagttttttt atgttgtcac ataccaggcc agattgattt aggtgaaaac7081 aacactcttc atttaaaaat atagagtccc ctttttttaa gcagtgagta agcggaagtc7141 tcggtgattt tggaggaaat agaaatgcaa agccagcaat tgtttgttaa agaaggatta7201 gaaacggcta ggagagagtg agattgatag tgtggtggag atagctgggg agaggtagag7261 ggtggcataa gaatgggaac gagaataaga gtgagtaaaa aagtaaagaa taggacttca7321 tcagggtgaa agtaccggac tgtgccttgc cactgaagat cttttatcca cttcaagaga7381 gatttaaggg tggtggtttg agataaaacc aggagatacc agttatgatg gtttggagga7441 aaagtgtaaa ctgggagtgt aaacaagggc agggcattta tgagtagttg agaatggtga7501 ataggagtat gactagacag aagatagtag ggatgacaag tttttggggt gcagtccaag7561 ttgggctggt gtctggaatg agactggggc ctaataaaaa ggagtgtcca tacaggagct7621 caaatgggct gtaccctgta gcatcccgag gacaggccca aattctgaga agggcaagtg7681 gtaaaagtat tgtccagtcc tttttaagtt ggaggctgag cttggtgagg tgtgttttta7741 aaagaccatt agtccatttt acctttcctg aagattgagg atgggaaggg gtatgaaggt7801 tccactgaat accaggagcc tgagaaactg cttgggtgat ttgactaata aaggccggtc7861 cgttatcaga ctgtatagag gtgggaaggc caaaccgagg aattgtgtct gacagaaggg7921 aagaaatgac cacagtggac ttctcagacc ctgtgggaaa tgtctctacc catccagtga7981 aagtgtctac ccagaccaag aggtatttta gtttcctgac tcagggcatg tgagtaaagt8041 caatttgcca gtcctgggca ggggcaaatc cctgagcttg atgtgtaggg aagggagggg8101 gcctgaacaa tccctgagaa gtagtagaat agcagatgga acactgagaa gtgatttcct 8461 8253 8221 tgtaacctac atggaagaag ttatgaaatg atgacagaat agaatgggcc tgtaaggctg8281 gaagcaaata ttttccttgg tccaagaacc atttgccttg tgtgggaaga gattgatagg8341 tggaagtttc agcgggggag taggtgggag tgaccaatga aaaggagaaa aactggcagt 8458 gagggacaga agttggaatg ctagctgctt ttttagttat cttattagca taagtgttgc cttgagcgat gggatctgat gccttttgat ggcccttgca gtgaatgact agcttttttg8521 gaagtagagc agctttaaga agagttttta ttaaggaggc attaattatg gaggaccttt8581 gtgtagtggg gaaacttttt tctgctcata taacagcatg gtagtgcagg atatggaagg8641 catatttaaa gtcagtataa atattaacac atagtccctt tgcaagagtg agggcctgag8701 ttaaggcaat gagtttggct tgctgagagg tagtggaggg gggcagagca gtagcctcaa8761 ggatagatgt ggaagacact atagcttagc ctgcctttgc cagtgattgg cgattaggcc8821 tggtggaact gccatcaagt gtgatcaggg tgaagaacag gaaagaagga aatatgggga8881 aatggagtga atgccaggtg gatcagagag atacagtcat gggggtcaga tgtggtatca8941 ggaataatgt gggaggccgg attgaagtcc aggccaggaa caacggtaac tgtgggagac9001 tcaagaaaga gtaagtacag ctgaaggagc cagggggcag gaagtgtgag gaggaaaata9061 gattttgaaa gttatgggaa ctgtagaggg ttagtggagc atagcttgtg atttttaggg 9121 cctctaaaag tattaaagcg gcagcaatga ggtgtggctg tagcctagga atagtcaggg 9181 9125 9181 aagcggataa tttagttaaa atgtctcaat ctaataaggg agctgggcag gtggggataa 9241 ctaaaaaaga gtgcataaaa gaatgttgtc caagttggca ccagagttgg ggagttttaa 9301 ggggtttaga agccttgctg tcaataccca caacagttat ggaggcaagg gaaacagtcc 9361 cttaaaaaga aggtaatgtg gagtgggtag cctccatatt gattaagaag gggacggact 9421 taccctccac tgtaagagtt acccaaagtg tctgtgatgg tccaggaggt ttccgaggcg 9481 attaggcaat gtcagtcttc aactgctaag ccacgaatat ctgggaagga gtcagtcaga 9541 gagccttggg ccagagttcc aggggatctg ggagtggctg ccaggcgagt tggacagtcc 9601 aatttccagt ggggtcccgc acagatggga catggcttag gaggaatccc gggctgcggg 9661 cattccttgg cccagtggcc agatttccgg cacttgaagc aagatcctgg gggtggcagt 9721 cctggaggaa cgcctggctg ctgcagttca ggtgttttga agttcttgtg tgctggagat 9781 gtggctgggg tttctctcac agtggaggca agtaattgca actcagaaat acgttgctac 9841 ttggctgcct ctactccatt attgtccaca ttgaaggaga ggttaattaa gtcctgttgt 9901 ggggtttgag ggccggaatc taatttttgg agctttttct aatgtcagga gcaggttggg 9961 taataaaatg catattgaga ataagatggc tttctggccc ttctgggtct agggcagtaa10021 agcatctaag ggttgttgcc aaacgggaca tgaactaggc tggattttta tatttgatga10081 101 aaaagagcct aaccactaac tgatttggga gaggtcagat aaagaaaaag gagaattaac10141 cttggctatg ccttcagctc cagccacctc tttaagagga aattgttggg caggtcgggg10201 agggctagtc acagaacaaa actataagct ggaccaggtg tgaggagggg aggtgataaa10261 aggattatag ggtgggagag cagaggctga ggaagaattg ggacctggct cggcgtggca10321 aggagcagcc tggggaggag gggagaggtc agataggtcc gtagaaaagg aggattcaaa10381 ggactcagag cttgggatgg agactgaagg aacaggagag aaagaagaaa gatttgggac10441 aagtcgcact gggagcagag actaaggagg gatcaatgtg taaaagaatg cctggacgtc10501 aggcacctca gacccatttg cccatttttt gaccaaaatc atccaggtct tgtaaaatgg10561 agaaatcaaa agtgccgttt tctggctatt tagaaccatt attgagtttg tattggggcc10621 aagcagtgtt gcagaagaaa ataagacgct taggttttag gtcaggcgag agttgaagag10681 gttttaagtt tttgagaaca caggctaagg gataagaaga gggaatggag ggtggaaggt10741 tgcccatagt gaagaaggca agccccgaga aaatagaggg tagagacatg gagaaggggg10801 1082 10851 gcaattgact tgccaccaag ggaatgtggg tgaatgacca aggtaggcat ccctgcggtg10921 atcagacacc aatggagtgt gggtgaataa tcaggcaggt gtccccgcag tgattaaaca10981 ccaagggaag actgtcttcc tgagttcatg actggcgccg gagttctggg tccatggata11041 aaatgtgtct cctttgtctc tactagagag gaaaaagaac tagaattgga aggacagaga11101 gattgaaggg tagcgagaga gggagactga agggtggcaa gagaggctgg agaagagagt111 aaaaagacca cttacccgat ttgaaattgg tgagatgttc cttgggctgg ttggtctgag11221 gacccgaggt cataggtgga tctcctcatg gagtgagggc gaggacaggg gactggtctc11281 ccaaaggagt cctcctgtcc cgggtcttcg gcaccaaatg tcacactcgt ccgtgtgaag11341 agaccaccaa acaggctttg tgtgagcaac aaggctgttt atttcacctg ggcgcagttg11401 ggctgagtcc gaaaaaggag tcagcaaagg gagttagggg tggggcagtt ttataggatt11461 taggtaggta gtggaaaatt acagtcaaag ggggttgttc tcttgcgggc aggggctggg11521 gtcacaaggt gctcggtggg ggagcttctg agctaggaca tttcacaagg taatgtaatc11581 agttaaggca ggaacaggcc attttcactt cttttgtgat tcttcagttg cttcaggcca11641 tctggatata tacgtgcagg cttgggctca gaggcctgac aaccacctca tctccctaca11701 ggaggccaac aaacaactta gaaatgctaa ccaagaactc tgtaatcttg tatctctctt11761 aaagaaatcc tcagaattcc ttacttcccc cttggtacct ccccctacac ccctactcta11821 ccctgaccaa tctgaacttc ctggaccaga tctgtccgcc gcctctactg catgtctaac11881 acttgctcaa cagaaggcag ttcagagtct gactgcaaag accccacccc ctcatgattc11941 cctgacagct ccaatggcaa catctcatct ggaagatgtg gaaaaggggg accgtgcagg12001 gatatctctc atgatcaccc tattttggga acaactgcta acaggtaggg gaaccctggt12061 aattgtctac caacaccctg gtcaaaggct gaattccaag gcataaagaa tttcctgacc12121 cccataaaga tccaattggg tttgagtatt tgagctcatt gtcagaacct atgacccagg12181 tcattcagac ttttatcagc tagtccacat gttggtctca gaagctaaag ctaaggaatg12241 12301 gccacaacaa ccagccccca caaatccaga agacaggcac aaagatgtgc aggaatgagc12361 8461 12453 12421 ccaacaatgt caccagaacc caaataaatt agttttagat tatttaacac attttgataa 8681 aactttaaaa caacattgtg ggatgtcagc tgattgcttt gaaaacaata aaaatgatac12541 1267 12658 12661 ctatgataaa acaaggaaaa acagaagatt gcccaagtta tgcatttaca gctaaagcaa12721 ttaacttctc aagcctctcg gccccagaaa gattttaagc tccctcggtc tgaggactct12781 tccctcccag tctgttacaa ctgtaaatga ccgagacacc ttatgatgga ttgccttagg12841 ctgaaacaaa agaaaaggca gaatgcaact caggaagaca aggggtgctc caaggaaata12901 caggggtttc acctctccaa atattctacc ctgacaaacc aattggggga gattaatata12961 ataataaacc atgagtttac aactgcctta actgacatag gtgtgactat ctctgaaaaa13021 tcccacctta tttagaaacc ccattcctca gagtaatgaa agaatgaaca tggtgggtat13081 gtctaataaa atgatctcat gttttaagtc caaacccgta ccttagggtt catcaggttc13141 cactaccctg tcgcaggctc taagtgtgac acactcagta ggtcccatat gtttctaata13201 tgcactgggg cccctgtcaa acttttgggc tgtgatctca acatccataa tgcccatatc13261 tctttttcat caaaaggtga aactttttta gaattggagc caggagacca aaaataccat13321 atttaaaaat gtcctgacaa cgtacaattt agtactagta atgttaaaat gtcatcttgt13381 gaccaggaaa ataaaataga gacagagaag gaaatattag ggaagaagag agaacattgg13441 aatacagagc aggaaacagt aaaactcctt ttagtttccc cagtcttcct gttaacacca13501 gaagcagagc acttgctcaa ggatgtgtcc tcccacttat agtctcagtc aaatacagat13561 acagagaaag tattctcagc cattccaata aaggtagaga taaatccaaa gaaaccccta13621 tccaacctta aacactatcc tctgcaaaag gaagccatag atggaattgc tcctgtcata13681 caagattatc tgagaaacgg gctcattatt ccctgcacaa tcccctgaaa cagccctata13741 ttccctgtaa agaaactaag cgggagagga tggaaatttg tgcaggaatt gagggcaata13801 aacaatatca taattctcag gcacacagta gtccccaacc cacaaaccct tctatcacct13861 atatccacta ccagccagta tttctcagtt gtggatctct gcagtgcctt ctttagtatt13921 cctgtagaac cagacagcca atatttgttt gtctttattt ggaaagaatg gcaatatacg13981 tggactataa tgccccaaag gtatacagaa agtcccactt agtgttccca aatattagaa14041 140 14041 gctgatttgg agaattaaat attttcccag ggctcaacat tcatctactc tcctttgttc14101 agacacactc tcttcctctc aggaagatag tctatattta ctcaaacagc caccaaggga14161 cacaaatgtc taaagacaaa cttcagctat gcttacctga agttaagtat ttgggacata14221 ttatctcagc caaaggactg agtattaacc ctgatagagt gaggaatttt agctttccca14281 atgcccgtca ctaagaaaca acttagagta ttttggggcc tggcaggcta ttgtagaaac14341 tggataccaa atttctccct tatggctcaa cttcagtgta catacctaaa aaatgaacaa14401 14484 14461 ctgactaatg ccccagcctt agggcacccg aactacaaat tgcctttctc ccttttcata14521 cacgaagttg gaggtactgc atccggagta ctgacccaga aacatggtga tcatcagaga 4681 cctataggct attatagcca acagctggac cctgtggctc aagggctgcc tccctatgtg14641 14748 ccccttaaca tttttgtgcc acattctctt gagacccttc taaactctca tcatacacaa14761 cacctgtctg tcaactggtt agcctcttat gaaattttgc ttttatcatc tcccaatatt14821 actagttcct gctgtaataa tcttaatctg gccactctct tgccaggccc ttctgacaaa14881 14941 5941 atgccactgg ataatgctga gatagaatgg tatacagatg gatcttattt aagaggagag15001 gatggaaatt ttatagcagg atatgctgtg gtttccttac tagaggtaat tgaagccaat15061 cctctccccc aagccagatc agctcaagtg accaaattgg ttgccctgac cgaagcttgt15121 1512 15181 15241 aaaaaatgga caagtatcag agttgttaga agctgttcta acaccaaaac gcttggcaat 15353 15301 tataaaaatc ccaggttggc caggcgcagt ggctcacgcc tgtaatcccagcactttggg 8661 aggccgaggc aggaggatca cgaggtcagg agatcgagac catcctggct aacatggcga15421 aaccccgtct ctactaaaaa tacaaacccc gtctctacta aaaatacaaa aagttagccg ggcgtggtgg tgggcgcttg tagtcccagc tactcgggag gctgaggcag gagaatggca15541 tgaacctggg aggcagagct tgcagtgagc cgagatggcg ccactgcact ccagcctggg15601 caacagagag agactccgtc tcaaaaataa ataaataaaa ttaaaaaaaa atcccaggtc actcaaaatt agacaccaca gtaagtcagg gtaaccaatt tgctgaagcc acagctaaaa15721 gagcagcatt caagccatca gccccaagtt ggaaaatggc cataaaaccc aaaacactta15781 15841 aggcaggggg atacttgtct cccaaaactg aaatatggtg tggacctaat tattccattc15901 caagaaaccc attattccaa tggaatgtca ggtgtccctt atgaaatatg ttcataatct15961 aacccattgg aatccagata aaataatatc ctggtgtaaa caatattact ggaaaccatc16021 cttcacagtg gcacaaaaag tttactctca gccgggcacc atggctcaca cctgtaatcc16081 16141 ggctaacatg gcaaaaccct gtatctacta aaaatacaaa aattagccag gcatggtggt16201 gcgtgcctgt aatcctgctt cttgggaggc tgaggcagaa gaatcgcctg aacccaggag16261 16324 16321 aactccatct caaaaaacca aacaaaaaag tttactctca atgtgttatc tgtcccaaac16381 ataacccagg aaaacccctc catggggccc agggtcattt tccccttccg gctgaccttt16441 tgaggtatga cagcttgatt ttatccagct gccatcatct caatgttaca agtatgtttt16501 agtaatggtc tgcatgtttt atcattgggt tgaagctttt ccctgcaggc aagcaacagc165 cacgacagtt ggaaaaatcc tactagaaaa aattgtccca ctgtggggag tcccctgtga16621 acttcacagt gatgggggat catactttac tggccaggtt actcaaaata tttgtaaaat 8481 16753 16741 aggaccaatg gaataattaa aacacaattg gctaagttca cagaggcatt tcacctcccc tggcccaaag cactacccct agtgctgctt atactacgat ccactccttt tggaaaacat16861 caactgtctc cttatgaaat tataacagga aggcccatgt gtatgggaac gaacataacc169 aatccaactt ttctccaggg agatatattg caatattgtg agggactcat ttatcatctt16981 agaaaaaacc aaaatttgtt aaaaaattcc tttcacggtg cgctccccga agataaggtg17041 cctggtcatc tgcaacctgg agatttcatc tattggaaaa gacatctaat aaaggattcc 1713501 17161 ttaaagagta tagattcatg gattcacatc tctcatctta aaaaggcaca acctcctgag17221 tggactgtaa ctcccaccaa agaccttcac ctccggttca ctaaacatca acctgcaacc17281 17384 17341 cctgtataca aagggaacgc ctctgtttat tgtacagtaa ccattacaat tattgtccta17401 gatataccgg caactgctgt cttataaatg acagggcact tgccttgtct gatttaacac17461 4617521 ttcttgccac tgccacccac tgatgcccat gaaacaaacc tgtttctaca atgggctcag17581 cattatgcag acaaattaca aagaacacct gctggatatg cagactcatg cctctttcca17641 gtggctccag cctgccatgg tggatatccc ccttccaagg tcaggactgg atagaatacc17701 aaaaatttat cacatcacag aaatggtctg gtattcttag tgctgggata acaaaagaca17761 atacatacaa ttggcccatt aaaaacactc ttaagaacaa gggacatggg aaaagatttt17821 gaatggaaag gaccaggtca ttagctctca ctttagcatc cccccagcta aaacagaagg17881 tggtaaccac accccaaaca acagctcatt ttcaaaatgg aataatgcaa atttgggctg17941 gatttatctg gctcacccgt tcgtctggcc aactcagcca aaattctcct ctgtgctggg18001 agaaagaaac catatcaagg acctatggcc aaacagtacg agagatacgg ggtggacacc18061 tggagaatgc tgtgaccaca ttatcatatt acaagacgct gactggaatg ccaccgattg18121 ggtgcagcaa tcaggtattt attggatagc tccaaatggg acatattggc tatgtggcac18181 taacttatgg ccgtggttac ctctagggta gttaggatga tgttccctag gttatgcttg18241 ggcacaagac acgtaatcca gaccctgcca aaaccagcaa acctttttca tttacaattt18301 cattggacat gttaggtatt ccaatggtat gatcacttag ctttaatctt tgtaccacag18361 acaggtattg aagatgttat atggcatata gaggccttac ccaattacat ccaaaaggcc18421 ctgaatgata gccacatgag tattgccttg ctaagcaatg aggtcatgct tatgaggaaa18481 gttgtgctat acaaccatat ggctttagat atactcattg cagcacaagg ggggacctgt18541 gccgtcataa aaactgaatg ttgtgtgtat attcagatga attgaagaac ataactcgat18601 ttatgactga tatgaaaacc cagataacca acctgtcaga tctaaaaccc tcactaatca18661 attggttgag tagttggttt ggatcctggg gaacttggtg gcagaagcta ctgcttataa18721 18784 18781 cttgcaaata agttaatgca caactgaaag ggctggggta ataattgccc agagaattgc18841 tttaattgag gaagcagtaa tatagcttga cccagcttca aggtttgctt tccttttgtt18901 gctataaata tgacctaggt ccctatatat atattttttt ctttttcttt tttcctttcc18961 tttttccttt tttcctctcc cttttttttt taaatattcg tgggacacaa tttcctagga19021 atgagccttc ctagcgacaa tgggcgtgac ttcctaggaa tgagccttcc tggtgatgtg19081 ggacctaaac ttctagaaat aaactatcct agcaacagga aaccagttca gaaaagggag19141 gaaaaatcaa cctgtagcca agaacccata ttccttttaa aatgcttcct tcaaaagatt19201 ttaaataaaa aaagagggga aacctgaaag gaaattaaat tttgggaccc cccaaactca19261 tttagcaaaa ggcaaaagtc aaaatgggaa ctgggtcatc caaacctgcc tccccctttt19321 ggttcctcaa taaaattgtt acaagatgaa aagctacatg tctcctccat attttgccca193 cagagaaatt tctagtgagt tgttaaaatt tcaccatggc aatgcaaatc gatagcttat19441 ctttacaggt gcagtcgccc ctggcccacc agacataaat gcatatctga gtgttcccct195 gcccaatttt gtctatgtta tcttatgtaa aatgcagatt ccccagattt ttcctctgcc19561 ccttttatgt catcttttat ttatttattt atttatttat ttatttactt atttattttg19621 agatggagtt tcgctcttgt tgcccaggct ggagtgcaat ggcacgatct cggctcacag 1968681 19741 tacaggcatg caccaccaat cccagctaat ttttgtattt ttagtagaga tggggtttct19801 ccatgttggt caggctggtc tcgaactcca gacctcaggt gatccacccg cctcggcctc19861 ccaaagtgct gggattacag gcgtgagcca ccacgcctgg cctttttgtt gttatttagt19921 461 19921 tttatttcat atcataaact taactctgca atccagctag acatggaaag gaacaaggaa19981 aacatggaac ccaaagggaa ctgcaatgag agcacaaaga ttataggcta ttgccagcaa20041 atggggtgga ggggtgctct cctgagctac agaaggaatg gtctggtggt taagataaaa20101 cacaagtcaa actttaataa gttgtccata gtcagcaatg gtgatcttct tgctggtctt20161 gccattcctg gacccaaagc attccatggc ccccacaata tttatgcctt cttttacctt20221 gccaaagacc acatgtttgt catccactca gtcttggcag tgcagatgaa aaactgggaa20281 ctgtttgtgt ccagcatttg ccatggacaa gatgccagga cctgtatgct ttaggatgaa20341 gttcttgtca tcaaatttct ccctgtagat ggacttgcca ccagtgccat tatggcaatg20401 tgaagtcacc accctgacac ataaaccctg gaataagtct gtgaacgcag gaacccttat20461 aaccaaatcc tttctctcca gtgtgcacag catgaaattt ttctggtgtc ttggaaactt20521 gtctgcaaac agcttgaagg agatgtggcc caagagccca ccatctatgg tgatgttgaa20581 gaacaaggtg gggttgacca tggctgatag tacggggctc ctggcagcag cagcatctgt20641 gaagtggcca ttctatgtta tcttatattt aaaaaatgca gatttgctga accagacaaa20701 ggcatgaatg actatttttc cctaccccct cttacatgaa aattgtttac ttctcaatat20761 cctacccttt cccctttaaa tttgaagccc tcaaaatcac cttcggagaa aggcatagac20821 ctgtctcctg ggcacgtcct taactttggc aaataaatct aaaatcattg ggacttattt20881 catcattttt ctcaattgac aaaacattta aaaaataata cagactggac ccagcctgcc20941 caactcccag tggagagcaa ggtttccttc tattttcata ggcaaccaga acaatgttct21001 atgcacattt tgtcctcagt aagagggcct ctggccaaaa tttggctagc ggcccattgg21061 gataagaagc taaccaaagc ccctgtgtta cagtgtaatt tagagagcag catggagagt21121 4621 21121 atcatctcac caaaggtgaa gatagcatta cggacatcag gacatctctt actgggagta21181 gtttgaatct atcacaggaa agccaaatat cttcttgcag actgtaatga agcattcatt21241 aagataaaga tggctttttg atcaggtgtt gacctgcctg aggaaaatca ggaagcagct21301 tataacacca ttactttact tgaataattt catgactttg atcagccact gcctgactta21361 gatgacatcg atgtggccca gaagttcagc ctgggtcaga gtagagtgga agaaataacc21421 gtgagagaag aagttgggaa tatcagtatt ttacaagaaa atggttttgg cgattttgga21481 atggatgatc attgagatca gagaaagcag tgcttttgag gatgatgaca tgttagtagg21541 cactactgct tctaatctcc tattagagtc tgaacagagc accagcaatc tgaatgagaa21601 21684 21661 tggtggaata ttagaagaca aacttattag taataatgat ggtagtatct ttgatgatcc21721 ccctgccctc tctgaggcag aggtaatgtt gccagagcag cctgcacatg atgatatacg21781 ggtgaggatg ataatacatc aatgggtggg cctgatagtc ctgattcagt gaatcctgtt21841 gaaccagcca actatgactg atcaaacaac acttgttcca aatgaggaag aagcatttgc21901 attggaacct attgatataa ctgttaaaga aacaaacgcc aagaggaaga ggaagctaat21961 tgttgacagt gtcaaaaact tggatagcaa gacaattaga gcccagctta atgattattc22021 tgatattgtt actactttgg atctggcacc acccaccaag aaataggtga tgtggaaaga220 gacaggagta gtagaaaaac tgttttcttt acctgctcag cctttgtgga ataacagact22141 actgacgctc tttacatgct gtcttacacc acttgtacca gaagacctta gaaaaagggg22201 gaaaggaggg acagataatt tggatgagtt cctcaaagaa cttgaaaatc cagaggttcc22261 tagagagaac tagcaacagc tacaccagca gcatgatgtt attgataagc ccattttgga22321 agagccaagc catctccaga agtcagtgat gaggccagca gaacaaatct ggatgagtca22381 22441 cctgtgatgc ctcctcagca ggttgagcag atggaaatac tgcctgtaga gcttccccaa22501 gaagaacctc caaatatctg tcagctaata ccagagttag aacttctgcc agaaaaagag22561 aatgagaaag aaaaggggaa aaaaagatga tgaaggggaa aaggatgaag atgtttcagg22621 gggtgatcaa gatcaggaag aaagaagatg gaagaaaagg actcagcaga tgcttcacgg22681 2258 362272 22801 gcaagctatt gagctgacac aggaagaact gtacagtaac atcatcgcaa cacccgggcc22861 aaagttccat attttatgag gagctagaag cattatagct agtgttcatt tcactagtgc22921 ttacaaattg cccccatgtg taggagacac agaacccttt gagaaaactt agatttttgt22981 ctgtacaaag tctttgcctt tttctttctc attttttccc agtatattaa atttgtcagt23041 ttcatctttg agggaaactg attagatgga tgtgtttgtg ttctgatgga gaaaacagca23101 ccctaaggac tcagaagatt aacagttcag aacagatgtg tgcaatattg gtgcatgcaa23161 tgatgttgag tggcagttga aagtcatgat ttttatctta gttcttcatt actgcattga23221 23229 23281 ttgaaaagaa aaaaaaaaag cctttccatc agtagtaaca ctggcaatct tcttgttaac23341 cactctcctt agggatggta cctgaaataa caaaggtcac cctcttgaga ttcgttttaa23401 gtgtaattcc ctaatgagca aacgtgtacg tgaaattgtg ttgtgactga tacccttcag23461 ctacagatag gactgacttg gtttaaagtg ttctattttg taaatcattc catttgagtc23521 tttctgatga acttcgctat ctcgaaatct gtcattttag tgaggctcca aaatgagcag23581 23641 23 agaagtttta aaaagatgtt tggatatatt tgactattca gatcatgaaa acagaaatta23701 ccctgcctac tacaaggaca gactgatggg aaattataca ccaggtcaac ttaaccttta23761 agcagacaat gctgtaaaaa ctaatggctt ctctgatatt tattgtaagt tttagtactg23821 atctcctttt ccagtgctgc acactcctgt gtttggaact ttaatagctt tgcaacgaaa23881 tcctatatcc ggtttcctat aatttaactg aagaaaaaca catccaaata aaggtctata23941 ttaacagacc agatagcatc agaaatcatg tgactattat gattatcaga atatgtctta 24069501 2402 aaaaaaatca cttttgaaac agacttcagt gtatactcaa taatttaaaa ttatgtgaaa24121 tgttttaaat ttgtgaactc attactgttt taatgattcc gtttcttgag agtttaacca24181 8624227 24241 ccctgtttgt aaaaagacat tgtagataat tgaatgtttg attttagaaa ggtcattggt24301 ttcttgttac acattttgtt agtctgtttt ttttgcttat tgggtttaat attgttcttg24361 aaaatagttg atgctatgtt atgtataact cttctaataa aagttgtgtt ataagttgaa24421 acaaattata gtattacaga ctggctacaa taactttata ggaagtctga aaaatactca24481 aagttctata gcaaccaagc aaacacctag tcaagaaaac gatacagtca aaatggttag 2456322456 aaattttgtg acatttttac ttgcctgtac cccatccttc cctcctggca cacctgggga24601 agcagcagcc ctgctcccaa ttccctccct ggaaccccag agagaggaaa gtggacttta24661 tttgcaacat tctaacctgt caaggggctg cctgaggtac tggtctctgt tttacctaat24721 tcggaggtca gacagggaaa agcaacatgg ctggatactc aggctcagga aaagccacag24781 gaaatgatgg gcactactca tgaacactgc agggggccta caaactcaca gatacctgga24841 gcaagagatc agaagtagaa gaatacaata gaacatctaa gcccaccttc tgagaagcag24901 5824961 aaacaacaac aacaacaaca acaacagata cccaggccaa ggcaaaatgc atagccaaaa25021 gaggtctaag aagaccttaa gacctcacat ggggctgatc ccaaagctga cagcatgccc25081 tgctaattag tgaaggtctt ccctggcaca gaacctactt gtaatgacta gcagaggtgg25141 ctgttttttt gaatgatcaa ttttaaaaat gaacaaaaaa ataacaaacc atgcaaagaa25201 acaggaaaat atggcccatt caaaggaaga taataaactg tcagaaactg tccctgaaga25261 aacacaagca tcagaagtac tagacaaaga caaaatgtct taaatatgct caaagagcta25321 aatgaaaact caaagaacta aaggaaatga gaaaaatgac acataaacaa aagagaatat 381 taacaaagag aaactataaa aaggaaccaa acagaaattc tggagctgaa aatacagtat25441 ctgaattgaa aaacgcctag agggattcaa cagtagattc aaacaggaag aaaaaagaat25501 cagtgaactt gaagataagt cctttgaaat tattgaatct gaagaccaaa taataataat25561 aataattaag aaaagtggac agagactaag agacctatgg gataccatca agctaaccaa25621 tatatgcatt acagaaatct cagatggtga cgggataaag aaaggagcag aggaactatt25681 tgaaaaaata atggctgaaa acttcccaaa tttgaggaaa ggcattgatt cacaaatcca25741 aaaatcttgc tgatctccag gtaggataaa cccaaagcag tacataccaa gacacattat25801 attctaacaa aagccaaaga catggaacac tgcaggggga ctacagactc acagaaaccg25861 ggggcaagag atcagaggta aaggaataca atacaaagtc taaggccccc tcaagaatct25921 tgaaagaagc aagagaaaag taactcatca tgcacaatgg atcttcaata acattatcag25981 tggatttctc agcaaaaacc ttgaaggaca caaggaattg aataccatat ttaaaggaaa26041 ttttttaatt gttatttttc cataagttat tggagttcag gtggtatttg gttacgagta26101 agttatttaa tggtgatttg tgagattttg gtgacctgtc accgaagcag tatacactgc26161 actgtatttg tagtctttca tccctcaccc acctcccact cttccctcca agtccccaaa26221 gtccattgta tcattcttat gcttttgtgt cctcatagct tagctcccgc atatcagtga26281 gaacacgtga tgcttggttt tccattcctg agttacttca cttagaataa tagtctccaa26341 tctcatccag gtcactgcaa atgctgctaa ttcattcctt tttatggctg cacagtattc26401 catcatatat atataccaca gtttctttat ccacttgttg attgctgggc atttgggttg26461 gttccatgat tttgcaattg tgaattgtgc cgctataaac atacatatgc aagttatctt26521 ttttgaataa tgacttcttt tcctctgggt agacacccag tagtgggatt gctggatcaa26581 581 26581 atggtagttc acttttagtt ctttaaggaa tctccacact attttccata gtggctgtag26641 26 26641 tagtttactt tccaccagca gtgtggaagt gttccctgtt taccacatcc acaccaacgt26701 ctactgtttt ttttattatg gccattcttg caggagtaag gaggtattgc attgtggttt26761 829 26761 tgatttgcat ttccctgatc attagtgatg ttgagcattt tttcgccatt tgtgtatctt26821 ttgagaattg tctattcatc tccttagtcc actttttgat gggattgtgg gtttttcttt26881 cttattgatt tgtttgagtt cgttgtagat tctggatatt agtcctttgt cagatgtata26941 gattctgaag cttttctccc actctgtggg ttgtctgttt actctgctga ctgttccttt27001 tctgtgcaaa agctctttag tttaattaga tcccagctat ttatcttttt attgcatttg27061 cttttgggtt cttggtcatg aaatccttgc tgaagccaat gtctagaagg gtttttccaa27121 tgttatcttc tagaattttt atagtttcag gtcttaggtt taagtcctta atccatcttg27181 agttgatttt tgtataaggt gagagatgag gatccattgt cattctccta catgtggcta27241 gccaattacc ccagcaccat ttgttgaaaa aggtgccctt ttcccacttt gtttttgttt27301 gctttgttga agatcagttg gctctaagta tttgggttta tttctgggtt ctctattctg27361 ttccattggt ctacgtgcct atttttatac cagtaccaca ttgttttggt gactatggcc27421 ttatagtata gtttgaaatc agctagtgtg atgcctccac atttgtcctt tttgcttagt27481 cttcctttgg ctatgcgggc tcttttttgg ttccatatga ttttgggaat tgttttttct27 aattctgtga agaatgatgg tggtattctg atagagattg cattgaattt gtagatggct27601 tttggcagta tggtcatttt cacaatatta attctaccca tccatgagca tgggagatgt27661 ttccatttgt ttgtgtcata tatgatttct tacagcagtg tttgtagttt tccttgtaaa27 ggtcttttaa ctcattggtt aggtatattc ttaagtgttt tttttttttt tttgcaacta27781 ttgcaaaagg ggttgagttc ttgatttgat tctctgcttg gttgctgttg gtgtatagaa27841 gagctactta tttgtgtaca ttaatcttgt atgcagaaat tttgctgaat tcttttatca27901 gttctaggag ctttctggag gagtctttag gggtttcaag gtaaatgact gctatatata27961 aagtttcagt ggcacaaaag aaatagcact caaatataaa attttctttt taattctcag28021 caaggctagt tacttctcta tagaagggtg tgcccttaca gatggaacaa tggtgagcgc28081 acacttggac gaggggaagg gattcttatc cctgacacac atggcccctg ctgctgttgt28141 tcccctattg gctagggtca gaccgaacag actaaactaa ttccgaccag ctaatttaaa28201 gagaatgacg gggtgagtgc tttggaggga gtcagggcag agcaggtagc aggtaaatgg28261 aatgagttag ggtggagcag gtgattggaa tgtagggtgg agcaggtgat cagaatgagt28321 cagggtggag taggtaaccg aaaaaggttg ctttacgagg aagttaagtt taaaagtaga28381 aggcaaagaa ttgaacatac tgacatatta attcttcgaa aagaaattta gaactcatat28441 ctaacatgat catatcatca gcaaacagtg acagtttgac ttcctcttta ccaattggat28501 2858 28 gaggagtggt gagagtgggc atgcttgtct tgttccagtt ctcagaggga atggtttcaa28621 cttttcctca atcagtatta tgttggctgt gggtttgtca tagatggatt ttattacatt28681 aaggtatgtc ccttgtatgc cgattttact cagagtttta atcatatagg aatgctgggt28741 2827 28801 gtttatgtgg tgtataacat ttattgactt gtgtaggtaa aaccatccct gcgtccctgg28861 tacaaaactt acttgatcat ggtggattat ctttttgata tgttgttaga actggttagc28921 tagtattttg ttgaggattt tagcatctgt gttcatcaaa aatattggtc tgtaattgtc28981 ttttttggtt atgttctttg ctggttttgg tattaggatg atgctggctt catagaatga29041 attagggagg gttccttctt tctctgtctt gtaaaatagt gtcaaaagga ttgataccaa29101 ttctttgaat gtctgctaga agtctgctgt gaatccgtct ggtcctggac ttttttttgt29161 tggtaatttt cttaattacc atttcaatct cactgcttgt tgttggtctg ttcagggtat29221 cttatccttc ctgatttaaa ctaggagggt tgtatttttc cacgaattta tccatctctt29281 ctgggttttc tagtttatgt gcataaaggt attcatagca gccttgaatg atcttctgtt29 tctgtggtgt cagttgtaat atctcccatt tcatttcttt cctttttttt ttttttgaga29401 tggagtctca ctctgtcccc caggctggag tgcagtggtg ccatctcagc tcactgcaac29461 ctccactcct gggttcacgc cattctcctg cctcagcctc ccgagtagct gggactacgg29521 gcacccacca ccacgcccag ctaatttttt ttctgttttt agtagagaca gggtttcact29 gtgttagcca ggatggtctc gatctcctga ccccatgatc cgcccacctc agcctcccaa29641 agtgctggga ttacaggtgt gagccaccgc acccggccct ctcccgtctc atttcttact29701 gagcttattt ggattttctc tcttctttac ttggttaatc ttgctaatgg tctatcaatt29761 ttatttgtct ttcaaagaac cagcttttca tttcatttac cttctgtatt tttgttcatt29821 tcaatttcac ttagttctgc tctgatcttg gtgatttcct ttcttctgct gggtttgggt29881 ttggtttgtt cttgtttctc tagttccttg aggtgtgacc ttagattgtc tgtttgtgct29941 ctttcagact ttttgatgta ggcgtttagg gctatgaact ttcctcttag cactgccttt30001 gctgaatccc agaggttttg atagttgtgg cattattgtc attcagtttg aagagttttt30061 aaatttccat cttgatttca tttttgaccc aatgctcatt ctggaccagg ttatttaact30121 tccatgtatt tgcatggttt tgaaggttcc ctttgaagtt gatttccagt tttattccac30181 tgtggtctga gagagtgttt gatataattt caattttctt aaatgtattg aagctcattt30241 tatggcctat catatagtct atcttggaga aagttccatg tattgttgaa tagaatgttt30301 tattctgcag ttgttggatg aaatgttctg tatatatctg ttaagtccaa ttgttccaac30361 gtatagttta aatccattgt ttctttgttg actttctgcc ttgatgaact gtctatggct30421 gtcagtggag taatgaagtc ctccatgatt attgtgttgc tatctatctc atttcttagg30481 4630541 attgtgatat tttcctgttg gaaaggcctt ttaccattat atactgtccc tctttgtctt30601 ttgtaactgc tattgcttca aagtttgttt tgtctaagaa tagctacccc tgctcgtttt30661 tggtgtccat ttgcatgaaa tgcctttttc caccccttta ttttaagttt atgtgagtcc30721 ttatgtgtta ggtgagtctc ctgaaggcag cagatagttg gttggtgagt tcttattcat30781 tctgcagttc tgtatctttt aagcggagca tttagaccat ttatattcaa tgttaatatt30841 gaaatgtgag gtactgttgc tttcatcatg ctctttgttg cttgtgtact ttggtttttg30901 ttgtttttgc tttttaactt atatttttgt ttcataggtc ctctatgatt tatgctttaa30961 agaagttctg tttttatgtg tttccaggat ttgtttcaag atttagagat ccttttagca31021 gttcttgtaa tggtggtttc ctaatggcaa attctctcag catttgtttg tctgaaaatg31081 8241 aattattttg tttgaggagg ctgaagatag gtccccggtc ccttcttgct tgtagggttt31201 ctgttgagaa atctgctgct aatctgatag gctttccttt ataggtaacc tggtgcttct31261 gtctcacagc tcttaagatt ctttccttgg tcttaagttt ggataacctg atgacaaagt31321 gcctaggtga atatcttttt gcgatgaatt tcccaggtgt tctttgtgct tcttgtattt ggacatctag gtctctcgca aggccaggaa aggtttcctc gattattccc ttaaacatgt31 tttccaggct tttagaattc tcttctttct caggtacact gattattctt aagtttggtc31501 atttaacata attccagatt tcttggaggc tttgttcata tttccttatt cttttttctt31561 tgtctttgct ggatggggta attcatagac cttaaagctc tgaatttctt tattctactt31621 gttcagttct attgctgaga ctttccagag aatttcacat ttctgaaagt gtgtccaaag31681 tttcctgagt ttttgactgt ggtttcttta agctatctat ttccatgaat atttctccct31741 tcacttcttg tatcattttt tgaacttcct tgtattgggc ttcgcctttc tctggtccct31801 ccctgattag cttaataact aacctcctga attctttttc aggtaaacca ggtatttctt31861 cttggtttgg atccattgct ggtgaagtac tgtaattttt ggggggtgtg gaagagcctt31921 gtattgtcat attactgggt atctcagccg tggataccag cacctgttcc aatggaggtg31981 gcggagggtg caatggactc cgtgagggtc tttagttttg gtgatttaat gctctatttt32041 tgtgctggtt ggtctcctgc caggaagtgg tgctttccag aaagcatcag ctgtagtagc32101 gtggagaggg actggtggtg tgcagggccc tagaactccc aagattatat gccctttgtt32161 ttccactacg agggtggata aggaaggacc atcagatggg ggaagggcta ggcgtgtctg32221 aactcagact ctccttgggt gggtcttgct aaggctgctg tggaggatgg gggtgagatt32281 cccaggtcac tggagttgtg cacctaggag gattatggct gtctctgctg agtcatgcag32341 gttgtcaggg aagtggggga aagccggcag tcacaggcct cacccagctc ccacacaaac32401 tgaagggcag gtctcattcc caccgtgccc tgaccaacag ccccaagtct gtttccatgc32461 ggagagtgag aagggcttga aaacttgctc aaggctatct gcctcccagc tgtgagagaa32521 aagggcttta attcttctcc ctgcctgtga agtatgcatg cccaattcac gccctccgct32581 gagttctggc caggaggctt ctcgccacat tcaaattgtt acaaagttca gctagagaat32641 tccttctccc tgtggagttt caccccctgc tcctctggcc gatggatccc tgtggtgcca32701 ggcaggaatg ggctgcttgg gtcccagcaa gttcctgggt cctctacctc tgtatttcac32761 tcggctctct aacttgactc agctccaggt aaagctggaa acttcacctg caaacagacc32821 ttcagcctct ccagtggggg tgtgtcttca ggagaggagg gtctaccttt cccacttccg32881 cagttgggaa actcacagga attttttttt tttaatgtca acagataatt ctacatcttg32941 gaaaactgcc cttcagaaat gagggacaaa ttaagacatt ccaagataaa taatagtcaa33001 cattgcatgg gaatttttgg ccagaacaat taggcaagac agaaacaaaa ggcatccaaa33061 ttggaaagga agaagtaata ttatctctgt ttgcagagga tatgatctta caggtagaac33121 actgtaaata tttccccaaa atcactgtta gaactagtaa atgaattcag caaaaatgca33181 gaatacaaaa tcaacacaca aaaatgagtt atgtatctat attggcatta aacaatctga33241 agaggaaatt aagaaaacaa ttccatttac agtagcattg aaaataataa tattcttaga33301 aataaactta accaaagagg tgaaagactt gtacacagaa aactacaaaa tgttgctgaa33361 agaagctaaa gaagacacaa atagatggaa atacatccca tattaatgag ttggaagact33421 taaaattgtt aagatgtcaa tactacccaa agtgatctac aaattcaatg caatccctat33481 tattaaataa aatcctaatt atgtttttgc agaaatagaa aaatcaaccc taaaattcat33541 atggaaattc aaggaatcgc aaagaaccaa aacaatttcg aaaaaaaaaa atttttttta33601 acttggtggt ctctcacttc ctgatttcaa aactacaagc tacagtaatc aaaaccatgt33661 ggcataaaga cagacataca gactaatgga ataataaaga gcccagaaat aaacccttgc33 atatatggtc aaataattct caacaagggt gccaagacca tccaatgggg aaaagaaagt 781 cttttcaaca aatggtgctg ggaaaactgt atgtccacat agaaaaaaat gaagttggac33841 ccttaccttg caccatgcaa aaattaattc aaattcaaat tagattaaag acctaaatgt33901 aagagctaaa actataaaac tcttagaaga aaacataggg ggaaattttc gtaacaagat33961 ttagcaaaga tttcttgtat ctgataccaa aagtacaggc aacaatttaa aattatatga34021 gttggactcc atcaaaatta aaaacttttg tatatcaaag gacactatca gcagagtgaa34081 aaggcaaccc acagaatagg agaaaatatt tgcatatcat atatgtgata agggactaat34141 atccagaata tataaagaac tcctatgact caacaacaaa aaaaacaaac aacctgattt34201 aaaaatgggc aaagaacctg aacttcaaag aagttataca aatgaccagt aaacatatga34261 aaagatgttc aacatcacta accactagag aaatacaaat caaaaccata atgaaatacc34321 atttcacacc ccctaggatg gctattataa aaaacagaaa ataacaaatg ttggcaagga34381 tatggagaaa ttggaactct tgtgcattgc tgtaggaatg taaaatggtg caaccactgt34441 caaaaagagt atgacagttt ctcaacagat caaacataaa attaccatgt atattagtca34501 aggttctcca cagagacaaa accaataggc tatatataga gagaaagata caagagggga34561 tttattaggg gaattggctc atgtgattat ggaggctgat aagtcccaca acaggctttc34621 tgcaaattgg agaccttaga atgccagtag catggcccca ttcaagtctg aaggcatgag34681 aacccagggg gctgctagag tccaaaggat aaagagcctg gagtgctgat gtctaagggc34741 aggagaagag tgtatcccac ctgcaagagc gagaaaaatc tctctgctat ttttgttcta34801 tcctggctcc agctgattag atggtgcctg cccacattga gggcaaatct tccccactta34861 gtccactcac actcacatgc caatatcctc tgtaaacaca ctcacagaaa caccaaaaaa34921 taatgcttca cctgttctct agttattcct taatccagac aagttgacac ctaaaactaa34981 tcatcacacc atgggaccta gcaattccac ttctgggcac aaaagaactg aaagccggga35041 ctcaaagaga tacttgtata cccatgttca tagcagtatg attcacaatg gccaaaaggt35101 gaaagcaacc caagtgtcca ttaacagatg aataaacaaa atgtgtattt atatataata 355942 tatatacaat aaaatattca gtcttaaaaa ctaaagaaat tctgacacat ggataacata35221 gatgaacctt aaagacatta tgctaagtga aataagtcaa ccacagaggg acaaatattg35281 tatgattcta cttacatgat gtacctagag tagtcaaatt catagagaca gaaagtagaa35341 cagtggttgt taggggctac gaggagggga tgggcagtta gcatttaatg ggtatgaagt35401 ttcattttgg gaaaataaaa aaattctgga gatgaatggt ggagactggc gcacaacaat 84461 atgaatgtac ttaatgaccc tgaactgtac acttaaaaat ggctaaaatg gtaaatttta35521 agttatttat attttactac aaaaaaaagg taacatacta aaatgatctc atgggttttg35581 35641 35 ttagctcttc ttagtcatta tcactccatt ttccccaatc tgataccatt atccacacac35 tttacccagc cacacttacc caacagcaca ctgtttgagt ttgagtgcta tctggtgaat35761 actcatcttc attttgctaa accctggatg ccatgtgcta gccaacaata tcctattgtt35821 ctggttctta aacaaaacaa aatctcaaag acttcttcct cttacctagt tttacccaat35881 35941 agggcaaatc ttcctccaat tcagttgaac tccctggccg tctagcaaac aacatatctc36001 ataacacatc ctttgagcag gtgaacaact ctgaaccttc tttgaaggaa caggattctg36061 ggaaaggaat aaaagaaatg catgcagtgt gtattgagaa taaaatctat tagctaagaa36121 ataaaaaatg aaaatgctac aacatgatca gttttgatgg actagacaac tctctgtaga36181 gtagccacag ggctgaaccc tcaaatattc ccagaaagta tagacattgc tgtagaacca36241 gcctgataat gcagcagtgc agaacttaag aatgatattt ctttctagaa agcagaccaa36301 ttgatatctt catcctgtta ttgatcagaa tccacgtcag cattcaggtg ctctctggct36361 acaagtttcc ttagctcttg caggcgctgc tcattgaaga tttctcttaa cacaggtaat36421 gctaccagtc tcatctggca cctttttcat gcaatgacaa ctatccagga gttgctgcct36481 ttccagatat cccctgcgag accaatgagg gattttattc catgactctt tgaagaggtt36541 caaacatgga tcaaacatga agtagtatgt accccagcct tagaaattta atcttttatg36601 actgggagaa agaacccaag tctctgtgcc ttcacagtct tgaatatctc tgcttgtttc36661 acttacgttt acctcactca agattcttag tgtcatcgac atgactggtt aagaactcag36721 gacttttcaa caaagttttc tgccagtgcc ccacaaatca tgactgtggt ctcccaaatt36781 ctttgattct ccactaggtt ccctttctcc tccattcaaa gccccaaata acatttaccc36841 tatatattta gtcccgtttt ttgtagaaat gcttctttgc ttgtgttccc cctacctttt36901 catatcatac ctacatcgtt aactgaggct cagtcataac atcaacaaca gcatgaaaca36961 tcccaccttc tgtcttcatt ttgctataaa ctggaggcaa aggaaatgct gtcactcagg37021 8681 37141 acacacctcc tcttttataa ccagtagagt gaagttggtt gctgaagtca cagaatcaat37201 agtctatttc ccacagacgg ctgatgatag cagaacaagc cctggctaag tcccccaccc37261 ttttcttgag tagctcattg ttatgagcca cggacccacc atcaccaggt cacatgttct37321 gtactctttc ctaaaaacag tgacaaaata tgctgagcca tccatatttc ctcagttaca37381 ttgagaggca ggagatataa caattaagca gtctctggag ccagagcaac ctgagctcaa37441 accatgcctt agcttgcttg ttgtgggacc taggcaaagt tactgaaact tctttagaca37501 84 37561 tttgccctgc ataattccta agactgtgat tataatggat tttactctta tgattaggtt37621 ttcacatagc acagttgact ttaatacagg gagattatct gggtaggcct tgcctaaaca37681 caagagccat ttaaaagcag agttctcccc agctggtcaa aagagagaat ctctggtcag37741 agattcacag cataagaagg tttcaatgtg ccatcactgg ctctgagatg tagaaaccca37801 catgtaagga ccaaaaagaa gcccttagga gctaagagct acagccctcc agccaatagc37861 cagcaaagaa acaaggacct cggtcctaca accacagcca accaaattct gccaacaaga37921 aaaatgagct tggaagctga ttcttctccc aaagattcca gataagagta caacaccttg37981 atttcagcct tgtgagatcc taagcaaaga acccactcat gtccacccaa acttctgacc38041 tacagaactg tgagctaaca aatgagtgtt gtaagccact aagtttgtgg aaatttgtta38101 cacagcaata gaaaactaat acaatgagga cacagcaagt gcttaataaa tgttagcttt38 tattattact aactcattgg gatcagctac acagttgtaa gaaggctaaa gtaaaaatta38221 tttatgcaag gctggcagtg caacatagca ttcagatcca gggtccattt ggtctaatat38281 ggctgatatt aagtgtttct caaggggaga gacattattg gcattcagtg gggggagggg38 ttcatcctgt agaactgcct tggacatggc agtccattta tcatctctgg cttctcttcc38401 cctagcagta gtcattgcaa caactgaaaa tgccactgta catttccaaa aatgctcctc38461 cacaagggtt gagaactttg agaactactt taagggaaat ttcataagaa agcatgcgtg 38874521 738 taagaatcgc cagtggcact tgtttaaata taacgattcc caagttcttt ccctggagtc38641 ccattccata gggctggggt ggagccccag gaatctatac tcttactcaa agaccccagg38701 ttaatctttt gtttatgtaa gtttgccaaa cactgagtta gaaatatact cagccgtaca38761 tgcatttagc aaaagttcac cacaacggaa caatgacaca ccaaaactct ttgaaactgt38821 gccttctaca gagctgtaaa tctccttttg gaccattcca ttacacaagg tgtcctcttg38881 gtcacacagt gattgcaaat gggactctag agtcatggaa atgggtatac tcttctcaaa38941 ctttccatct ttaccagaat tacttcttaa agtgatatgc ttcatggtgt aaactagcac39001 ttattaattt tttctaaata tttatcatat ttcatatact tttattttgg agatggagtt39061 tcgctcttgt tgcccaggct ggagcgcaat ggcagatctc ggatcaccgc aacatccatc39121 tcccgggttc aagcgattct ctggcctcag cctcctgagc agctgggatt acaggcatgc39181 gccaccacgc ccggctaatt ttgtattttt agtagaaaag gggttctcca tgttggccag39241 gctggtctcc aactcccgac ctcaggtgat gcgcccgcct cggcctccca aagtgttggc39301 attacaggca tgagccaccg cgcccggccc atatactttt aatacatgtg gaattaataa39361 aaacgtccat gcctccaatt ccgtggctat tttaccgtct tcctttttcg gacaagtccc39421 tcaaaggtag cgctcttggc tccttccttt gcttatcccc taaccctgtc ctcctgaggt39481 gccccctgga tttcctccaa ccccggcagg gtctgccttt ccgggatgat acaacgacct39541 gccctgcatg ccatatccca ggcgcgtggg caccaaagtg tggaaaaacc gatgaatgac39601 gttttctgtt tccgatactc tgcctgccag aatcccctgc cgcaccgccc caccacgaag39661 cacatggaac ccacggacta cacgaggaca gaggtctgtt ctccctttac ctctcccatt 393939393939393975 393939393939 aggtttagca aataatatgc acgctgctgg gacgggccca agcatttccc tcccttgata39841 gggcggaact aaaatgcaag ccccacagtt gtcagcaaag gacttccctg ttaccatggt39901 aaagccgctg cgcctttatt gtggttgagg agtacttgca tcaacctaag agaaaattaa39961 taagaaggaa gtctgcaggc tgaaaccctt caaattagcc tggactcgcc tgcatctggc40021 tcggaacaga gttaatctca ggagtgagaa tatagccctc cggtggacgc aactcgcgcc40081 tgcggctaac agaatgtctc caggggaggg gctctgcgtc cgttccgccc aggcccttcc40141 ggctcacgcg ccgtacggaa gcgtgctcag cgctgggctt gtgctccgta cggaagtgtg 4026301 ctttggcgca ccggaagccg actcaacaga gctatggcgg gtttgactgt gagagaccca40261 gcggtggatc gttctctacg ttctgtgttc ggtgagagga attcgttgta gtcaagcttc40321 ggggagggac tcccctctgc accttctatc tcatgaatcg ctaccggagc cgctgacggt40381 tcggacgtgc agttctccct gcttatcctg tagggcgtcc aacctggtgg actcatgagc40441 aaagagatat tcccattctg ccgaggtctc gtaggctttc cgcaatatca gtggggaagt40501 tagactagcg ttcagcttct gtgcgtttct cctttcatga gcttcaatta ttctctagag40561 gagaaggctc acggtaacag ctcctcactg tcccgtacta cttctcatcc tctgccccag40621 aatacagact atatgctgag ggtatagatc ctagtgtcca cttactgtcc tctcctaagg40681 actttcatcc tttgcttttt atctgtaaca ttttagtgca tcaatagtgg tagcggccac40741 ctggtgtcct gagatggctt gtaagtgaat gaatgaatga actattaaga tctcctcaga40801 ggaattttaa aaaggatcga aacgattctg aattatcttt ttggctgaaa taagttgttt40861 ttaaaaatac gtgtgattat tttagagtac catttgaaag ggacatgaca aagtagttca40921 gaatactttt taaacatctt tcactacatt catcgtcatt ctcccttaaa tgttgtatgt40981 gtggaaatac ataggaacct gttttaaaaa ttatattaaa taacattgat attttttgta41041 41124 41141101 caaagttaag gaaaatctaa cacgtgtcagatcagtctga gaactaacat ttgagagtac41161 41 acaatggaat tgggattgga gaacactatt ttgagtctta tatttgatga tataagttta41281 ctttctcact aaagatctat gttataaact cagaatttta atgttaccta ttttcttcct41341 241 ttggacctgt tgttagtttc aggtgagatc cccttttcct tcatggtggg agcttcttaa41461 aaatcaccac agatttggct cttagtaata atggcaggtt ttctttactg gtgacttttc41521 acatacattt tgttcttgta acagctttat tgagatataa ttgatacact atacaattga 581 catttattct tacctaaaat atgttttttt cgttaaaaat gttttttagg cagggcatag41641 tgactcaagc ctgtaatccc agcactttgg gaggccgagg caggcggatc acctggggtc41701 aggagttcga gaccagcctg accaatgtgg tgaaaccttg tctctactaa aaatacaaaa41761 attagccgcc gtggtggccc atgcctgtag tcccagctac tcaggaggct gagacaggag41821 aattgcttga acccgggagg cagagatagc agtgagccaa gatcatgcca ctgcactcca41881 gcctgggcaa cagagcaaga ctccatctca ggaaaaaaaa aaaaaaagtt ttaaaaaata41941 tttctgtgag gctgtcagag atataaggtt atttatgtta cagtgggccc aattaaagca42001 tggcaatgtt agcaggaacc ctgtatgtgt gtaacatttg ttcctgacac ttggttctgc42061 tctccagatt ggtatacgat agagagacag gaaagccaaa gggttatggc ttctgtgaat42121 accaagacca agagacagca cttagtgcca tgcggaacct gaatgggcgc gaattcagtg42181 ggagagcact tcgagtggac aatgctgcca gtgaaaagaa caaagaagag ctgaagagtg42241 agtacaaatc caacttggat gcagtatgag ttagtaaaga tgtaacaatg aagattttcc42301 atttctgata tgttttagaa tatgctgaaa tggttagcca cgcagcttgt ttattacttg42361 actgacctga tgtgcctgag ttaggcaagt attatatata tctttttaaa aactttttat42 aaattttttt tcaagtaatt gtctgaaatt tctataccct tgctctggat ggagcagggc42481 aaggcctcaa accgtttcaa aactgttctg gcaagcactg tagggatgca tagggtcact42541 gcagacctaa gcatgctgga ggcttgctag taagtgtata tctttaagaa acagataaag42601 ttgacattag aaattcttca gttgctccag cctgggcgac agagtgagac tctgtctcaa42 aaaaaaaaaa aaaaaaaaga atttccattg ctaaggagtt atttccagtt aaagatgaat42721 tcaaattcat caagccatta gtagtactaa ctgtggcatt agtcattcct gtcactcttt42781 tcaggaattt ttgaagttag cgtatttttc tcttttaacc ttttgtttct gaaatgactt42841 gttaaaagaa gtcaatgtgc ctagttctct aacttaggtt aacattgtcc ttccatgtga42901 42961 caagaggctt tcacatcatt tatttctcag ctctggagaa tctaaaatta tcagctggtt43021 cttacagcag ccctgaaaag tagatatttg aaatgattta gctttttgtt ttgcctccct43081 4304681 43081 aactttcttg tactttcttc ttgattaggc cttggcactg gtgcccctgt cattgagtca43141 43 43141 ccttatggag agaccatcag tcctgaggat gcccctgagt ccattagcaa agcagttgcc43201 agccttccac cagagcagat gtttgagctg atgaaacaaa tgaaggtggg aggaggcatt43261 aggttatgaa taaagcaaat cacatcaggt tttcaaggag ttacttgaat tagttccctg43321 agctcaaata gaaattgtct gtagaccacc atttcttgca ccttcaatat tctgtatgta43381 cacagtatat tttacatttt gtacaaagag ctttctattt ttgtacacaa acacagctat43441 ccaaacaatc cagctggagt tttgtggccc atagatgtca gatgtagata ttaaaatttg43501 gcttttttcc taaatgataa tatcacagta tttgaaatgc ctctttcttc tcttgcctgc43561 catgaccaag gtttttttgt gccatgcaaa aactaatgat aaagagcctc ttgaatatta43621 catttctcag aggggaatgg ctctaaatca ctatcagttt ctaagtcata agtattaaac43681 ctgaatctgc ttatcttctc agctctgtgt ccagaatagt ccccaggagg cacggaacat43741 gttacttcag aaccctcaac tggcttatgc tttgctgcaa gcacaggtag tgatgagaat43801 43 43801 tgtggatccg gaaattgccc tggtgagtgc ttctggttct tttatggaaa tggtcgggta43861 aaccttgaat gggataggaa ctacctgatt gctttgttaa acagacagct cataggtttg43921 tcttttcact ttttagaaaa ttctgcatcg ccagacaaat atcccaacgc tgattgcagg43981 caaccctcag ccagtccatg gtgctgggcc tggctcagga tccaatgtgt caatgaacca44041 gcagaatcct caggcccctc aggcccagtc tttggtaggg ctttatccct taacattttt44101 ttgtatctgt cttagaatgt cattttcttt ttaggagaat atattgaaag aagaatggtc44161 aggaaccaga gatgataatt tcaatttcca ggcataaaag caatttccag gttgcagagc44221 4444221 44221 acatgacatc tgaatgaata tagattcgat tccaagtttg taaaacaaag agatccttcc44281 cgtatgccct tttcttataa gctaactttg tgtgtatgtg catgcctggc actgtggttg44341 gcacttcgtt attccatatg cattatctca tttaatcctc aaagcaattg tatgaggttg44401 44 44401 gcactcttat tatctccatt cttactgatg aaaaaagtaa agcttgcttt caaagcatga44461 cacaaaacct taaagccata aaaaattgat acatttgaaa actaaaaaat ttctatataa44521 agaaaaaaat aagtatcaaa gacatgacaa attgagaaaa agtatttacc acacatgtga44581 tggaaaacag actaataaag agcccatagt cattcacaag aatgtttatt gccttagagt44641 gaaaaattgg aaatgtccta aatgtacgtc agtggaagaa tggagaaaat gtgtggtaca44701 ttcatccagt gaaatactgtacaacagtta aataaactac acgtatcaac atgaatgact44761 ttgaaaaaca taattccata cagcagttaa gatgaactag gatacataat atcaacacaa44821 ctccaaaaca gtgacatacg gacatgaaac taagtgaata tggatgcatt cccgaaatgt44881 aggatatatg tttctgcata aatccccaaa atatgtggaa tgagttgcaa aataatatat 4644941 tgagtatgta atgattcata taaaattttg aaacattaag aagacgtctt agtggtcatc45001 aaaggagaag agagcacagg atgcaattgg ggaagaccgt acaggccatt ggtttatttt45061 atttacttat ttatttccta agctgggtgg ctattttatt ttctatatga tttgtatatc45121 tgtaattttt cataataaat tttaaaaggc ctcctataaa ttagtaagaa aatttccaat45 aacccagtag aaaaatggga aatagacata aatatttcac aaaaggagaa atataaatat45241 ataaaaattt attcaacttc aaaataagat aatgtaataa attatcattt atatatgtaa45301 tgttataaga taatgtaaat agaaactaca ataagctacc atttttcatc tctcaggttg45361 gcagaggtac agggcaggga ccagcaaaca tttttctgta aatgatcaga cagtaaatat45421 ttttggcttt gcaagtcaca ggatctgcca cagctactct gccatggtag tatgaaatca45481 gccataggca ataagtgaac aagtgtgtgt ggttgtgttc cgttaaaagt ttgtttataa45541 aaccaggcag tgagcccgat ttggcccatg ggtcatagtt tgccaacccc tgctctaaat45601 aaataaatac attttcagag atagaaaaaa aaagctaagg cccagagagg ttagctggtc45661 caaaaattga cacaattata agtggcagat ctatttctga acctggtttt atctgacctc45721 acagccagtt ttctcttaac tactttccta tacagctctt ccttttcttt tgtagagttt45781 tgtgttcctt aaacgtatat gtgatttttt ttatataact tggcttttat tctttattta45841 3645901 tgacattctc tttttctcaa cgagttttaa tgtagcattt aaaaaaatat atttcacatt45961 cccccaaaac cagaattata tctaaggaca ggagtgagaa aagattggtt aaattaaaaa46021 aaaaatttaa ttttaaaaat gtggactacc agcagttgtt ttttttaaaa gagtcccagt46081 ctccttttat gtttcttggg tttagggctt tttttttttt ttttttttac tcttattggc46141 4629 46201 tgtcaatctc tacattgaga atatgttcca tcttaaccgt gttccatata accaggctca46261 tgacgtatat tgcttctgtg gagtttaaag tgtgtgacaa atctaatgct gcataagaca46321 tgccatacaa aaaggatgtt tagtagtgta tttggggctg ttcatttgaa gaggactttt46381 aaggtcgtag acttagtata ttgagtatcc acagaggcat atacatactc tgtttttttt46441 gcttggtcag ggtggaatgc atgtcaatgg cgcacctcct ctgatgcaag cttctatgca gggtggagtt ccagcaccag ggcaaatgcc agctgctgtc acaggacctg gccctggttc46561 46621 gtcatagcca ctgttgcagt gcagccaaat atgataatgg gatccttagg taaaattaat46681 acacagctag aaagtatata tcttaggtgg aggaaatagt agatttctta cgttaaatcc46741 tgtatgtcta attataagaa cagggaaagg gacagtaaag tgaaagagca tagtaaaact46 tccaagttaa caagggggaa aatggaatga gtggaaacaa aatcaagcca gcaaaaatag46861 agaagaggaa aaaagtaaga gacagtgtaa aataagtaat aataaatgta gagtaagatg46 gaaggaataa aaactaatgt agttgttact ctgctaaata tgaatgaact gtcagattag46981 gttcaaaagc tcatgaagaa aacagacaaa aaaatacaag gtcacatttg ttatagcata47041 ttaaactgac ataaaattgt attttaacaa acataatcag aacaaacaac aaaagggaaa47101 aagagaaatt taaaagctat gtacatttat tgaaaatgta tagatcggca attaataaga47161 gtattgctca tatacttgta actgttcctt gttcaacaat tgtaactaag aagattgagt47 gaaataatga ttccccatat gaaacatctg tatgaacaca tgatgtatta ccaatattta47281 aagttttttt atgtaacaaa cttggttttt gttaatttat ctaatctagg gtaggttgag tacaacacta ctcatggaga atgatttaat tctaaattgt tctgttctgt agagaatcca47401 gtctgcagag ctaagttgat gaggaatgga agaagagatt ttttgaagaa atttctgcaa47461 actcaggaat tttttgtatc tactttagga ttgttatgta tctactttat cctaatagag47521 ttatacttgt atttaaatta tctttcatga caggaggtcc atgggtaagt gacattgttt47581 tcctgtatta tagaagagct tcctgccaag agtttggtaa ccaatgaaat gaattattct47641 tattgaactc actattctgt cactgaaaca taaagtacaa attgtaaata tactaacaaa47701 ccccatcttc tctctcattg cattgttgaa tatcttcctt tgtaggtttc tgcttgtgga47761 gcagaatgag gaaatttgta aactcagcca ctgttctaat ttttcttttc cgctgttcta47821 attggtgttt tttcttgtct gccctttatc ttctaggagg aatgcaggct caggttggaa47881 tgccaggaag tggaccagtg tccatggaac gggggcaagg taaataaata ttaatgtctg47941 actaatgtta attggtcatg gaagtgttcc acatccacag tatctaatat ggcagccact48001 aaccacccat ggctatttca atattaagtt aattaaaatt aagtaaaatt taaaactcag48061 24 48121 catacaggac attacagata tagaacattt ctatcatcgt aaaaagatct attggacagt48181 gctggtctag actttccacc tggtgattca gagtccagct ctacaagaat tgataatgaa48241 gcaagtggat cgtttgtttc ctgattccta gtctaataat tccactgaca tgttctctct48301 68661 gctgggtatg tagaagacta gatttaaacc ccagagaaaa ctgggaggga atcataggtc48421 tgtaacgcct acttaatgaa catatgttgt accgtggctg tactgctata tacaacagta48481 gctgctgctc caaaatctcc atgttgtttc ttcatgttac tggagtttga aggacaagaa48541 agtgcagtgg ttcagttgga aacaatgtta ggaggagaga tcgtaagaaa agagaaggaa48601 ctgagtgcat actatatgcc aggcacttta attttcataa ataatcttgt gagttaggtg48661 48721 48758 48781 tctcttccaa ctagtaagtg gcagagctaa gattcagaag tctttgactc cagaatctgt48841 cctctttctg tcactccaca ctgcctctgt taacttccaa gcatattctt cagtgtcttc48901 tactcttatt ccttgggaat aaaatgatgg gaaagactgc tttggacaag catagagaag48961 cttaaggttt tttcttttgt agcatatggt ttataagtgg aacccattta aaaagcaaaa49021 tattggccag gcgcagtggc tcatgcctgt aatcccagca ctttgggagg ctgaggtggg49081 tggattgctt gagctcagag gtttgaaact agcctagaca acatggcaaa accccgtctc49141 tataaaaaat acaaaaacta gttgggcaat ggtggtgtgc acttgtggtc ccagctactt49201 gggaggccga agtggaagga tcacttgagc ccaacaggtt gagactgcag tgagccataa49261 tcgggcacca ctgcactcca gcctgggcaa cagagcaaga ccctgtctca aagaatatat49321 atatatacac acacacacac atatatatac acacatacat acataaacat taatatacaa49381 gcctgtggtt tttacactgg ggttggttgc tgaagtgaca gaattaactt tttcttgtta49441 gaagtctgac agcaggacaa actccctggc caaatatctc atattttctc taagcatcca49501 atgcttttgt gctattgtac atccctctat ccccaccgca ccactgtcaa tagatcatat49 atgttcccca gagtatttct gcagtaatga gaaggtatta gggtttcagt catacttctg49621 cctgtcatgg ggccagccct caatccatca ggttttagct gtttaacgca tacttgcaca49681 agacatcttc ctattatagt tatcttcacc tttttgtcag aaattggcaa agggaagtga49741 ctcatgtttt gagggtattt ccaggatgtc ttcatgcaga gactaagtga gatgagcttt49801 49 cttttatagt ttccttcagt acccagcaga ggaagcaaga gtcttttcgt gtgtgcctag49861 tttgtcttac ttttcctgaa atccatgctg cttttaatgc tgaaaggaga tggagatgtt49921 tgagaagata cttcttgctt ccctgccatg tttgtttagt gtcggttccc atgtcatctc49981 attagtcttt gtttgctgtt gtcatgatgt ttattatcaa agacttgctg tggcagagta50041 501 tgatacattt ttgacagcag aaatttttgt gctttaaaat gtgacaaaaa tagaattgcc 50187461 gtacttcagt tatggccgtt tcagaatgaa tcttgccttc cagattcagt gcagtttctt50221 ttatgttttg cttctgaaac tacatttatg ttctttgcat aactagaaga ttcaaaacta50281 tcctttttat atattttttt cctaatgatt tcataaggag acctaacgga aaactagtag50341 cagaggtgaa aatcgaaaat gtcaggttat tcccacctag atcaaaccag tgcccccatg50401 ggattccctt tcaaaagcta tctggtcaaa atggaactat ttcagagacc caaaggagct50461 agtgtagttt agggagattt tgtagcctgg agcaagccga tgaactcttg gctttttaac50521 ttatatatgt aaatctcaat ctccatgtgt gtgtgtttct gcgtgtgtat gcaagctatt50581 ttaagtgtct gctctttctc cttttgaact tactgcttac ctaggaaccc tacagcactc50641 gcccgtggga cccgccgggc ctgcatcaat tgagcgagtt caaggtaccc attgtatctg50701 tgggtttcct tttgcttgtg gtgttcaggg tgggacgttg agaggaaaag agctgcgtgg50761 cagtcatcct cgcgttcaga acccaaaagg gtagtgtttt tgggtttttg tttttttaat50821 tttttcctgt tgaggccaca agcctaagat tgacctcttc acacagggca gagaacatgg50881 atgatatggg catctgtccg aggctgtact ccctccctac tggtgtcagg aggcttggat50941 ggaatagcag tctgtaagga gacagcgggt tcttgcagag ccatggcagt gttcacatat51001 gccaagactc tacctctgtt ttgtgactct ggtccttgaa ctaagattga ttagaaggaa51061 aaccaggagc ataagtttct ccaggtcgca gtgctagtcc ttggcaggtt gctccccagt51121 ttgctcttta tataattcca tccatacctc tgacatggca cagattctgc ctacaccctg51181 51 51181 cttctgttct tgagctgcaa gaggattctg ctgtggtgag gtttcaccca ctctaaggtg51241 tctgaattat gttgtcagtg gtatatagag tcatttcttg tttgcttatg tgtctttcac51301 51 51301 agcagtaact ccccgtttgt ttccctgtca gtgccgatgc aagaccccag agcagctatg51361 cagcggggat ccttgcctgc gaatgtccca acccctcgag gcttgttagg agatgctccg51421 aatgatccac ggggaggcac tttactttct gtaactggag aggtagagcc taggtaagca51481 ctaacataga aggaaacagt tgaagaaatc agaattgtcc cttcttccct gagaacaaaa51541 tctttctgta ccagttgtac ctgtttgcct acttcaaaag gtagatcaat attcatggcc51601 51 51601 actgtccaag ggtaagcact tctcctaagg cagaactatg tacttgagta tgtcattttg51661 51 51661 agctattata tttttagaaa ttggaaattt tagtatacat acttgaacag ggaaatttat51721 agtagtggaa atattaataa tagcaataat aggccgggtg cagtggctga cgcctataat51781 cccagtactt tgggaggcca aggtgggtgg atcacttgag gtcaggagtt cgagacctgc51841 ctggcctaca tggtgaaatc ccatctctac taaaaataga aaaattagcc gggcgtggtg51901 gcgggcgcct ataattacag ctactgggga ggctgaggca ggagaatcgc ttgaacccag51961 gaggtggagg ttgcagtgag ccgaggtcat gccactgcac tccagcctgg gcaacaagag52021 tgaaactcca tttcaaaagt aaataaataa ataaaataat gatagtaata ataattgaca52081 ttaatgggga tcatgcctct gactctgctc tgagtacttt acttagatca tcttattaaa52141 tccacaagat cctgtgagat ggataccatt attagtccca ttttacacgt gaaactgatg52201 tgtggaaaag ttaaataatg tgtccaatat cacacagcta ataagtgata gagcctagat52261 ttgaacccat acagtctgaa tccagagctc atgttcttat gcattgttct gcaaactcat52321 acatataatg aatattcgtt gattcctccc taattatgaa ccaaataacg aaattctaga52381 atacatggat ttatatctct gtagcttttc ttccatctat ttggtgttat tttcttgtta52441 gtattcatag actacatcag ctctttgttg gatgtttact tactgatctg gttggtactt52501 tgttgttgtt ttgttctatt ttaaaataca acgtttttct ccatctccag aggttacttg52561 ggaccacctc atcagggtcc acccatgcac catgtccctg gccatgagag ccgaggacca52621 cccccacatg aactgagggg agggccatta cccgagccca gacctctaat ggcagaacca52681 agaggaccca tgctagatca gaggggtcca cccttggatg gcagaggtaa ggggagatca52741 cattgcaaat gccataatga actcaactgt cttaggctct aatctgggat aaagaatgct52801 ggaacagtag gtttgcaagc atctttaagg tttatccaca aatctgagaa actggggagg52861 agacaatagt ctcatatgtt aatagctgag gggacaaatg tgactagaag agatttctat52921 ctttcttgga ttgttcatca ttcttgcagt acatgcaagt agctacataa tggttttgtt 52987 53041 cgagccatgg aggcaagagg gttagatgcc agaggattag aggcccgtgc aatggaggcc53101 cgtgcgatgg aagctcgtgc aatggaggcc cgagcgatgg aggcccgtgc aatggaagtc53161 cgagggatgg aggccagagg catggatacc agaggcccag tgcctggccc cagaggacct53221 atacctagtg gaatgcaggg tcccagtcca attaacatgg gggcggttgt cccccaggga53281 tccagacagg tatgtgtaac actgacttct ggcatccaag tgaaatcttg atctattcag53341 gaattgatta ttgagcctaa ttattactgc cttctgactt gggctgtttc ttagcttgtt53401 agaaagggaa gacttggatc tccctgtagc ttctctgtcc cttagggtgg tgattttctg53461 gctatcagga ttgtagttca aaaaaaaaca accttatccc acaataaata gctattcatt53521 tggagcagag cccctgaaaa tttaggggtt agaaagtagt cttgattggg gtacaaacca53581 acatcatgta cacggttttt tccaagatat acttgcccgg atctcatccg aggtataact53641 cagaatctct tattagtagg atctgagcat ggatagtttg aaaaacttcc cccaaatgat53701 tctaatgtga accctgactg ggaaccactg ggttagagta tatgaagagc tgttagtggc53761 catttagata atcttaggtt tagagagacc tgtgttaatt tattgtcatc acatagccta53821 agtgaacagt ggaatgtgaa aggcagttta ttaataatca ccttaaaagg tgtggaaccg53881 aagtcttgtc tcctctcttt tatttggatc tctctgcctg tgtgtacatg ctccctcttc53941 atctcgactt ggttgtggag aggtggtatg tgtgtttctt ccgtgagttt ttatatgctg54001 gcaccttcat ttccctctaa ctgctccacc ttccttttcc ccccttcctc tgcgtacttc54061 tctcttcttt ttttatgtgt cttcctcccc atgtctgtgt gtatgagaga gagaaagata54121 atggcagagc tggaatggaa tacatcaatc atctaattcc ctcagtttat agatttggaa54181 attaaggccc aagaattcag gtgacttgac caaattcaca tgactaaaaa gtggcagagc54241 aaggaacaga agccactact ttttccactt tactactctg tcctgttatc tgcacatttg54301 tgtgtgtgta tatgtgtgga tatgtgtcta ccccctcctc tgtaatatga aatacaaata54361 gagggttttt ttgctatgtg tagaataaaa ctgttctcta ttgtgtttga agtgtttgtg54421 ggccttgatt tttattgtac tctctatggt cagtagccta gtaacagaaa tggtttttat54481 gcattcattc tgtcactcag caaatattta ttgagcacct actatgtacc aaacatagat54541 ctaggtacgg gggatactgc agtgtgaaca gaacaaagcc ccttccccca tgggcttaca54601 ttctagttgg gaagacagat aacaaacaaa taactacata atgcgcttac ataattttac54661 tggtagttct atgatgcaag acattgcaag taagggttgg aagaacattt ctggataata54721 ttttgctcct ttctctctgc tggtacttga acttattacc ctaatactag gtttatacca54781 tttttattag tagattcgat aaagccaatt agatctgagg caagagaaaa tacaaatttt54841 atcttcaaac ctttaaaaaa attttaaatt aatatattaa cttataaata tatatattcg54901 ttcatctata aaagatatat gtattaagaa cttcaagcca ggcatggtga catgcacctg54961 tagtgccagc actctggagg ctggggcagg aagaccattt aagtctagga acttgaggct55021 gtggtgcatt ctgatcgcac ctgtgactag ccactgcact ccagcctggg cagcatatta55081 gactcccatc tttaaaaaaa aaaaaaaagc cagggtagaa tcctgtagtc ccagctactc55141 tggaggctaa ggcaggagga tcagtagagc ccaggagttg gaggcccgcc tacacaagat55201 agtgagacca catcttaaac taaaaggaac cttgcttcct ctcctatgct tgtctcccct55261 gtggccctct aggtcctgta gataatcact tttattagat ttttcatgtt actttctgga55321 aaacatgaat atatattatt tttccccttt cactgttcta tacctttttt ttttttaact55381 taacaacatg tccttaattc atacttttaa attagatttt aaaattaact ctagtccact55441 tagttagaaa cttgtgggca aaaggcttat tattactagg gtgattatat aatttatcat55501 ctaaaggaga acatgaaaga aagtgctgtt actttacttg gaggcaaaaa cataaactgg55561 gactatctta gggaaaccaa gatgtatggt cacttttgct agtacttgtc tgcctagaac55621 aagcacacct agaaacttaa aatggccgtt attgagtggt tagatcacaa ttacagtacc55681 tcagattaaa gcttcaaaaa gattatactc aattccgaat tgtgctgcta taaactcatg55741 tgaccaaaca ccacctgttc cccaataacc tatggaaata aaaaatttta aaaaaaaaga55801 ttatactcat aggtgtttca gacccataat agctcgttaa tgttcagact ggtctctgga55861 aacttgtctc tggtttcagt attgataatg aacagaacag tgataatatt ctagcagtct55 atacaaatct gtactaatgt ttcatctatc cattgtcttt gggaaatgag ttaatgcatg55981 taagtgaatg ttccagataa tagaactatt ctaccaagtt ttttaacttt tttaataaaa56041 aattataaaa agtatttgat atttcctttc ttgaacagga tacaaaaaaa tagtttaatc56101 agttttgact actcaaggtc atcattgaat agattcatta ttgtctatac cgtaatataa56161 aacatagtta tctcctgttt ggtttctggt ctccttcact gtcaggccgt cacctggctc56221 ttcatattac tgaagtggta tctgctccta acagttattt atccgtattt cttttatgtt56281 ttgctgcttc taatctgctg ggtaagcagg taacaagttt gttaacaata tgtgtttatt56341 565656 56341 aagagagtac ctaagctctg ggtgaatgcc tgagtgtgaa cataatgctt gtatagggac56401 attctaacag ttagatttgg tactcaagag gtcttttcct tgggttctgg tagtcttgca56461 aagggttgaa ctcattgaag atcttaagta ccagtaagta tgatatcact gtacttggtt56521 ttttcactcc agtcagtcat attttttggt ctacatttag cagaaagcat ctgccatatg56581 ttc (2) SEQ ID NO: 2693 data: (i) sequence characteristics:

(A) length: 1681 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2693 sequence description: 1 ttcagttcta gcgtcaaccc ggtgctctac gtcttcaccg ctggagatct gctgccccgg 61 gcaggtcccc gtttcctcac gcggctcttc gaaggctctg gggaggcccg agggggcggc121 cgctctaggg aagggaccat ggagctccga actacccctc agctgaaagt ggtggggcag181 ggccgcggca atggagaccc ggggggtggg atggagaagg acggtccgga atgggacctt241 tgacagcaga ccctacaacc tgctgccctt ccctgtccct ttccaccccc cacccaccct301 ccagaggtcc tcccgacggc catgaacact acatcttctg cagcaccccc ctcactaggt361 gtagagttca tctctctgct ggctatcatc ctgctgtcag tggcgctggc tgtggggctt421 cccggcaaca gctttgtggt gtggagtatc ctgaaaagga tgcagaagcg ctctgtcact481 gccctgatgg tgctgaacct ggccctggcc gacctggccg tattgctcac tgctcccttt541 ttccttcact tcctggccca aggcacctgg agttttggac tggctggttg ccgcctgtgt601 cactatgtct gcggagtcag catgtacgcc agcgtcctgc ttatcacggc catgagtcta661 gaccgctcac tggcggtggc ccgccccttt gtgtcccaga agctacgcac caaggcgatg 721 gcccggcggg tgctggcagg catctgggtg ttgtcctttc tgctggccac acccgtcctc 781 gcgtaccgca cagtagtgcc ctggaaaacg aacatgagcc tgtgcttccc gcggtacccc 841 agcgaagggc accgggcctt ccatctaatc ttcgaggctg tcacgggctt cctgctgccc 901 ttcctggctg tggtggccag ctactcggac atagggcgtc ggctacaggc ccggcgcttc 961 cgccgcagcc gccgcaccgg ccgcctggtg gtgctcatca tcctgacctt cgccgccttc1021 tggctgccct accacgtggt gaacctggct gaggcgggcc gcgcgctggc cggccaggcc1081 gccgggttag ggctcgtggg gaagcggctg agcctggccc gcaacgtgct catcgcactc1141 gccttcctga gcagcagcgt gaaccccgtg ctgtacgcgt gcgccggcgg cggcctgctg1201 cgctcggcgg gcgtgggctt cgtcgccaag ctgctggagg gcacgggttc cgaggcgtcc1261 agcacgcgcc gcgggggcag cctgggccag accgctagga gcggccccgc cgctctggag1321 cccggccctt ccgagagcct cactgcctcc agccctctca agttaaacga actgaactag1381 gcctggtgga aggaggcgca ctttcctcct ggcagaatgc tagctctgag ccagttcagt1441 acctggagga ggagcagggg cgtggagggc gtggagggcg tgggagcgtg ggaggcggga1501 gtggagtgga agaagaggga gagatggagc aaagtgaggg ccgagtgaga gcgtgctcca1561 gcctggctcc cacaggcagc tttaaccatt aaaactgaag tctgaaattt ggtcaaaaaa1621 aataaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa1681 a (2) SEQ ID NO: 2694 data: (i) sequence characteristics:

(A) length: 141589 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2694 sequence description: 1 gatcaaaatt tttacctatt atgcatttga tatataaata agtatataaa tgcacacaca 61 gacacagcaa tgatggtgaa cagtcttcat acaattatat ggatgaatct cataaaatgc 121 tgagttaaag aaatcagacc aaagaacata tactgaaaga ttctctctat atacaaagtt 181 721 aggagaaatt tggtgcctat ttcctaccag gcaccaataa gtgggaccaa taggtgggat 781 181 caaaaatagg tggaccaatt catggtggtg ttagaaatca gaagagaggc tacctttgtg 241 gggaggggac agtttaatgc ccagaagcgg taaataagga atcctctggg gagtggtaat 301 gatctggatg ctggctacag gatgtgttgg ttgtaaaaat gcattttttt atatctagct 361 ttttccatgt gtatattata cttcaaagaa gttcagttaa taatttctca tgtcactgta 421 gagtagctca gttagcccca gcaagcctct ggcttaatct tgttttacct taagccatca 481 gtcatttaca agtaggaaaa ttcacaggga aagttagagt ataaaatcca gaatgaaggt 541 ttactgggta agagtctctc cattttccaa agcccgttta tttcttgatt ccagttctta 601 agaagtctca gcattgtgtc tttttcatgt atcttacaag aagacagcat gtgcttctaa 661 cacctgatac attgtatcta ccagcacttg gtaaacagaa aagaaccaca tttttcttgt 721 aggagaaatt tggtgcctat ttcctaccag gcaccaataa gtgggaccaa taggtgggat 781 taaagataca gtagaaagta tttaaaactt gccagggggc aatagtctga aaataagtaa 841 attggtgcta tagaatggaa gttacaggct tctttctttt ttcccacaag atctgctcct 901 tgagccccta gagacttttc tgtctgttac tgtttcttca ttcctcatct gcagagccag 961 ccctgagaag tgcagaccaa agccagggaa ggctctgcaa agatgtacaa atggaagtca1021 ccttaataac ctctgactgc tgcgcataat acatttcact caaaagaggg gttaaacaat1081 ggaacagaat acagaggcca gaaataatgc tgaacactga caaccatctg atctttgaca1141 aaatccacaa aaacaagcaa tggagaaagg actccctatt ccataatggt gctgggataa1201 ctgtctagct atatacagaa gattgaacct gggccccttc cttacatcat atacaaaaaa1261 taactcaaga tggagtaaag acttaaatct aaaaccaaac actataaaaa ccctggaaga1321 tagcctggga aataccattc tggacatagg acctggcaaa gacttcatga caagacacca1381 aaagcaatag caacaaaaac caaattgact aatgaaacta atgaaactct ttagttgtac1441 aacagatagt ttatctgtac aacaaaataa actatcaaca gagtaaacaa cctacagaat1501 ggaaaaattt tttgcaaact atgcatctga caaaggtcta atatccagaa tctataagga1561 atttaaacaa atttacaagc aaaaaaatga cctcattaaa aagtgggcaa aggacatgaa1621 cagatgcttt tcaaaataag acattcacac atccaacaac catatgaaaa gatgtttaac1681 atcactaatc attagaggaa tacaaatcaa aagcataata agataccatc taataccagt1741 aggaatgact actattaaaa agtcagacaa taacagatgc tggtgaaggt tgtggagaaa1801 agggaatgtt tatgcactgc tagtgggaat gtaaactagt tcagccattg tggaagagag1861 tgtggtgatt cctcaaagaa tgtaaaaccg aactgccttt caatccagca atcccattat1921 tggatataca ccaaaaggaa tagaaattgt tttaccgtaa aggcgcatgc atgcatatgt1981 tcattacagc actatttacg atagcaaaga catggaatcg tctaaatgcc catcagtggt2041 agactagcta aaaaaaaaaa aatgtggtac atatacatca cagaatagta tgcagccata2101 aaaatgaaca agatcatcat gtcctttgca gcaacatgga tgtagttgga ggccattatc2161 ctaagcaaat taatgcagga acagaaagcc aaataccaca tgttctcatt tataagtgac2221 agctaaatat tgagtacaca tggacacaaa gaagggaaca atagacatgg gacctacttg2281 agaatagagg gtgggaggag ggtgaggatc aaaaagtacc cataggacac tgtgcttatt2341 acctgggtga tgaaataatt tgcacaccaa acccctgtga cacacaattt acctatatag2401 aaaacctgtg catgtacccc tgaacctaaa agttaatggt gggggggtgg ggttaagcta2461 ctttgtggta taaatctgag cattcatatt aaaataaaat atttacctca ttagagtaat2521 taacatttat taagcaaaga gccaagtacc ttacacacat gatgtttaat ctcacaatga2581 tctttaatct cataacaacc gtccattgta tgtacatatg tggaaattga gccttggaga2641 gattaaatgc atggggcatg ccatttgact agaaactgga agcatcagga tttaaactca2701 gttctgaatg gttttgtagg ctttgttttt tccacattat agcatggcct gccatgaaga2761 acaggtcctt tctggtgttt gtcttgtttg gtttaagtga agcaaatatt tatttaaata2821 ttcaagatat gctgttaaat ttttactcaa aaatttgagt acagtatgga tcttctgaag2881 ccaaataact cttattcaat gcttagttga gaaattttat ggagtagttc tcaattttta2941 tgtagttcca ctgcaaaggt aagtcttatg gaaagattca ctgtaatttt ttttcctcat3001 ttggacatca gctttttctt ttcctcagac ccgctgaaag ataattttta aaataaaaac3061 cttgttttta tatcaagtgg ggacattttt tccaaatgaa aaccgtgtat tcattttata3121 tgataaaatc aatgttatta tttttaaaat tttgatttaa aaatcattaa aaataaattt3181 tcagatatta cctgaaattc taccatccag agataatagt gcttaaagat ttgatatata3241 gacacacaca catatataca tatatatcat cctaaacttc tttgtataaa tgtatataaa3301 gtttttaata aaaactagga gattaatgcc ctttgaatga aaataaatac aatgtgtatg3361 ctttaacatc ttgcctttac tttataacat ttatcacagc agtcatgaga taatgattta3421 catggtcatt gttagtaagc taatagctaa gtgcatgaac tctggagcta gcctccctgg3481 attttaatcc cagatctgtc actgaccagc tgagcaatac taggtaaatt gctcttgttc3541 593601 gagcattaaa tgagcatacg tatgtaggcc acttaacaac aatgccttca catactgaac3661 acaaatatac gagctgttgt cttattgggc tcatgttttt cctaccacta agccgcatgc3721 atgcaaggac catgttggtt ttgttccaca ttgcatcccc aacctggtat acagtgtgca3781 ttcaatagtt gttgactatt attactagtg gcatttaaca aatatctgtt aaatgagtga3841 agaaataccc atttactgca agtgtgtcta atattgatgg cataatgggg gaaactcaaa3901 ctctggagtc aaacaggttt taaaacctta ttccctcatc ctcagttatt gacgtttttt 398661 ttttggcagg tgtgtgtgtg ggacaactta ttgaactttt ctgaatttcc agcttcgcat4021 atataaaata gagatagtga ttcattcttg caatgtatgg atttgagaca attgtgtaag tttatcaata aatagtagct atttttgtat aagtattaca tataatatcc aggccactgc4141 tttgcataac ccaaaagggg caccattcat gcagaataca acataaatgg tgtccctgga4201 gcagtgcagt ataggaaccc tgaggggacc tacagtatac tttatagttc atagattaca4261 aattatccct ttatcagagt ctctcaaggt tggatgtatt tgaggtccat aagagcaatt4321 taggattaac agtagctgca gaaaccatct gcagtgatat tctcatttta aatccgcggg4381 aaagaagaca gctataaact tgggacctgg gtttaagcat tttaaatgcc aagttcacca4441 ttttctaaaa cacaacaaat acccagtgag agagggagaa gggaagtaaa tgcctctgaa4501 taagcaagtt aatgtcagta gttgtactgt atgcatattg atgaacaata gaggaaccaa4561 tgtccaatca gatgagcagg atatttggca ataacaagtt gcctttgagg aaaaatgatt4621 ttcttggcaa gttctttatc agcattacaa agctaaaagc tacgcttatc atcacttata4681 ctagcatacc ctgttgtgca aatgctgtct gtgtttgcat ctgctattgt tgatgcctgg4741 tgcatgaatc aggactccag cccacaagtt ttcccagaac tttcttatgg ccatcatctt4801 taagtgtctg gtgaacagtc atagtttggt acacaaaagg gtcaacctgg gggatggcta4861 gggtttgact cagtcgttac atttcaatag agcaggaagg ggaaatggtg gcctgtaacc4921 tcagggaatt ttgccagttg gtccacccca ctctctctct cctgctctga ggaagtggca4981 cagcctagaa cagcaccaca ggtgagagaa atgcaaaccc taaccagaga agcagactct5041 ttgccagtag taatagttca ggaccaccac cagcttttat taaaattttt aataacactc5101 aagtattggc agaaagaaat aatcttgggt taactataac tagaatattg actcttcctc5161 51 5161 tgtggaagaa tcagccaatc acatttgttt acatcagttc ccctgaagaa gaaaaataca5221 ctgatgttgc agcaagacaa atttaagcta gatgtaaata acttccttta gcctgtaatg5281 829 5281 ctaggctaat tacatattgg aactattttt tcagggaaga attgtgtagg gtttcaggga5341 agaattctga agaaaatata gagctgaaat gatcttgcag ctcactgaaa ctgcagggtt5401 tagatccaca ctgatactcg ttctattatc actgtaatga aggctgatgg aataagtaaa5461 aatgttttgt attagtatgt ttttacactt atttgcaagg cataaatagg ttaggttttg5521 atcttaattt aattctaaca tgtattgtgc acaagctgtg agcagttttc aggagttagg5581 tatctggcca tgactgattt ttcaggagtt aatcatctgg tagaagggtc atacacaata5641 ggaagatgtg tgtgacaggt tgtgatcatt actataatca cacagagagc tgtagaattt5701 taggctggca gggtggctca cgcctgtaat cccagcactt tgggaggcca aggcaggcgg5761 atcaagaggt caggagatgg agaccatcct ggctaacacg gtgaaacccc gtctgtacta5821 aaaatacaaa aaaaaaaaaa agccaggcgt ggtggtgggc gcctgtagtc ccagctactt5881 gggaggctga ggcaggagaa tggcgtgaac ccgggaggtg gagcttgcag tgagccgaga5941 tcgcatcact gcaatccaac ctgggcgaca gagggagact cagtctcaaa aaaaaaaaaa6001 aaaaaaagtc atgttagatc cagaggggta gcaactgggg ctgggctgtc agtcaactca6061 gtcaactcag tcaactctgc tcccccacag gagatgccag tgatgcattt tcatggccaa6121 cattgtcagt cagcatcatt gaattactcc tgattataga gacacagctg caaacgattc6181 5731 6241 cccctcttct ggcttgctga aagttttttc tttccatttt aaaaatcgtg aattcctttt6301 tgcaatattg aggtggttat atggtttctc ttctctaatc tgttaatatg gtgatttaat6361 ggttagaaat tttctaatgt aaattccact catattgcag aaataaacct aaactgagca6421 tgaggctata ttttttattt gcttctatat ttggttgcta tacagtatta tgtttaagat ttgttcacat atatttgtga atgggattgg actatttttc cttcttgccg atttttatct6541 666601 66 taattttttg gggaatttgt tttggctatt ttgagtatta cccaatatat tttaattaag6661 826721 tccagatttt gtctatttat accacttttc ttttttcctc gatgagtgtc atagatgttc6781 atctattttt ttatcttctt tgatcttctc ttattccttg tttctattaa cttctgaagt6841 ttattatttt cttttttcca cttccttatg gtttattctt tcaatttttc tctaacttct6901 taagttgggt gtttaatttt tagcttgctt tgctttttta ggataagcat taaaactaca6961 aattttcctt gttattcttt tgctgcaccc caaattgttg atatttctat tgtctaattt7021 ctattcaatt agaatacttt aaagtttctt tttggttttt aaaaactaac tttttaaatt7081 gacaaataaa aattgtgtat atttattgtg cacagcatat ggctttgaaa tatatgtaca7141 ttgtggaatg gctaaattta gcttattaat gtatgcatta tctcacatac ttatcatttt7201 ttgtggtgag agctatgtga cttttgaact tatgagttat ttaaatattt ttaaattatt7261 aagcatattg ggattttaag taatttacct ttttattatt aacttataac aagtagaaca7321 gttaacctgt atgattctac atcattgaaa tttattgaca tttgcttcat agtctattat7381 atggtctact tttgttcatg ttacatctgt agtagaattg gctaatagtt gagtaaagta7441 cacatatgtc tatgaaatca agtgtaatcc agagaaaaag agaaatttac tgaatatatt7501 gttctaggtg ctattatatg ttgtcatgtt taatcctcac cacaattgta tgaggcagcc7561 ataattaatt ccactttaca catgaggagc ctgagggtta aaaaaaaagc tagctctact7621 atttgtaaag aatgaagcaa agatacaaat gaaggcccac atatcctata actagatatt7681 taagcatttt aattcaagct ttaaaactgc taaataaaat gtgctccaat ttctatattg7741 acagacatac cttcctaatg agctggggtt cgaatttaga aatctttgat gcttcagagt7801 ccacactgaa atgtggaggc acatagtgag ttggtcccca gccttcagtc cacccacctt7861 ctctttacta aatcaccttt cacatacatg tatgaacacc ccagcctcca agtccaaacc7921 ctaaacaaaa tgggacaccc ttgtgcatac acagagacac agcccatcct caggaaaacc7981 tggaaaagtc catacaagtt ctggaagcaa gcttgggacg gtttcagtag tgtggtctat8041 aagggaggcc tcagaagaca ggttttctta attctgtgaa cttctcccac agtagaaagg8101 gtgctggagg agggtcagag tgaggacttc taaagcatgg gtcctgagta ggggccactc 8461 8253 8221 tacaagcaca ggtcttctga aattaataat aataataact attaccatta ttataccagt8281 agctgtcatt tatttagtgc ttattatttg ccagtcactg ttctaaattc tttacatgta8341 ttatacaact gccatataac tgccatatga gggatgtacc ctcattgtca ccattttacc 8458 gatgagaaaa ctggcataaa acgtttaagt aacttgtcca agttacagag cttagtgaag ccacaatgtt gctcaatttg ctctcaaact tcaaagggat gggaaggaca cctaagtcat8521 agagtcttta agaatcagag ctagaaggaa tcttagatgt tatctagtca gcctcctccc8581 attacagtcc aagagaagat ggccctgagt tacttgtagc tatttttgca tgtgaattgc8641 aagtgaatat acattctact gaagataaaa gatatttaaa gatatcgctg gatataggaa8701 cagtggtttt aaatctctag gctttaactt ttctcagaac aagaaatcct ttttggtttt8761 aatctatatg cacatctgta tttttctcaa ttatcgggta gtaaaatata acttttcttc8821 tgtaatattt tttaacttta atgagtgttc ctcataatag aaaagtttgg aaaccattgc8881 tatgggtata tactttctaa agggatagta atttctctag aatattcatt taatgctcca 8941 gaagtaatta gcacaattgt gcaagtctgt gcatcatcaa ctatacattc tgcctgttta 9001 ctccaaatcc acatgaaact gattatacag tcaaaggcga gcccagtgga gaggcatttt 9061 tggagacttc ctggtacatt gagacagggt cggccagtct gcgttagggt cttggtcaaa 9121 actgcatttc tgaaactaaa ctcagattgc tttcttttaa ggggtcagaa ctgattcaaa 9181 9125 9181 tctacatttt taaaagcctt agatgtgggg cttttcctat tcccagtctc cgctattggt 9241 ctttgtgaat ccacaggcaa tttggccaca tccttgactc tctcttatat taagaattaa 9301 acagctaagt tcatgcagag gaaatataac aaaggaggga ctttcctaca agatctttga 9361 aaaatggaac atttgcataa gtcatattta gccagaactg ttgttttata ttttcctttc 9421 tgaatacttt gttacacctc ctcccagcca accccccccc tccctgaccc caactagtca 9481 gagaccaaag ccttcacaat ggtttacact tgaaccttcc tggccccacc ctcatcatca 9541 cgcctgaata attacattca ctgactggtc tcccctgctt ccgtttatct ccactcctaa 9601 accctctgac accttaatct tcccagaata ccattgtgat cctgttccac tcttgctcaa 9661 gttttcccag aaactagagt acaaacttta taagctttag agttgaaagc cactctatct 9721 ctttttcatc cccaggtctc tgccaaggca gtataacctg tccaacatct ctaacttcaa 9781 tacctttgtc ttagatacta gactctcctc ctggtttcta attaaacctg atctaggatc 9841 taattttgcc tctgaattct gttgcccttt gccaagtgat ctcttcctcc tctgagccgc 9901 agcatctctg agcttgcaca cttagcatag ccatagcaca cacagccttagcttgcagtt 9961 cagggtgttt accttccctc cccttccaga tgctggatcc ccagggatag gaactctgcc10021 cttatgtgtc catagcccct ggtagtatgt cttgcagtcg tacattttca gcaaatgttt10081 aattggttaa ttgaagacaa ctgtcccatg ccttaagcct ctctttttgc taaacatgcc10141 tgtgtccttt gtcattgaac aactattttg atctattttc ttcctgacat aggggtcagt10201 tccgaggatg ctgaaatcaa gagacatagc ttattctctc aaaattgctt tcaagagtga10261 ttttgttgtg aattgagaac tggctgccta cttttggact acccacttca gcaagagtgt10321 ttgaaaccaa atctattcta agtaattttt tattcccttt tctctatggc attagacaca10381 cagctctttt aaactacctt tcgttatcta ttaaacagac attcagtaac tctatagaca10441 ctgtctagct atatgaactt agacaaacta atatctctga gcttcagttt cttaaaattt10501 aaaatgagga caataccatc tatggccggg gattaaatgc tatgaggaat gtaaaccaga10561 tgtcaggtac catctctcta aaatccagat aaaatgaatt aaaaatactg gccgcaaacc10621 ctctctaaga gttctcaaaa ttctcagaga gcttaatttt catgctcacc atagcaccga10681 ttttcttcta aatattttgt ttctaccaaa atattttgtc ccaattttgc cttttatggc10741 tatttcttca tatccacttt cccaaactaa agaagcagcc ccttcacctt aaactcctcc10801 ttcaaagcaa cctaaataca ggtctgggtt tgtattccta gtgggatgtt acagaggtta10861 108 10861 gtgtgatgca gaggaggagt catgctgttt aaatccatac tagtccccag aggccaggct10921 gcttctgcca cccctacccc tcccgccaca gagctcttca gcttctcaca tttctagttc10981 ttctctctct actttcatta ccttctctct tttttttttt cttctcatgt gctcacggga11041 gcagagaaaa ttaactcctc taagttttct taacacagag tgccttaatt acatattact11101 attgtttgag ttcctgccaa cactacgtct gtagggtcac acctgctata ttagaggctt11161 111 11161 atcaaaaaaa gatagctttc tcctaaaaag ggatttggat gcctactaag ataactggat11221 gccaagataa gtttaaccta acaaacttta ttattattat tattattatt attagagata11281 ggtacttatt ctgtcaccca gactgcagtg cagggatgca ataatagctc actgcagcct11341 caaagtcctg agttcatgca atccttctgc ttcagctccc tgagtagcta ggactacagg11401 catatgctac tctgcccagc tacttttaaa aaaataatta gggatggggt cttgttgtat11461 tgcccaggct cgtctcaaac ttctggtttc aagcaatcct cctgcctttt acctccctaa11521 ttgttggagt tacaggcatg agccacagca ctcaaccaag atttaaaaac ttttaaaaga11581 aatcacatta cttactgtta tcatcattat ggttactacc agtgttaaaa caattggtat11641 tgaaaacacc actaccagat caagcttcaa accaagatgt caagtaaata ttattgtcag11701 acctctgagc ccaagcctgc aggtatacac ccagatggcc tgaagcaagt gaagaatcac11761 aaaagaactg aaaatggccg gttcctgcct taactgatga cattccacca ttgtgatttg11821 ttcctgcccc accttgactg agggattaac cttgtgaaat tccttcccct ggctcagaag11881 ctccccgact gagtaccttg tgacccccac ccctgcccac aagtgaaaaa ccccctttga11941 ctgtaatttt ccactaccca cccaaatcct ataaaacagc ctcaccccta tctcccttcg12001 ctgactctct tttcagactc aacctgcctg cacctaggtg attcaaaagc tttattgctc12061 acacaaagcc tgtttggtgg tctcttcaca cagaccatgt gacatttggt gccgtaactc12121 agatcgggga acctcccttg ggagatcagt cccctgtcat cctgctcttt gctccatgag12181 aaagatccac ctatgacctc tggtcctcag accaaccagc ccaaggaaca tctcaccaat12241 tttaaattgg gtaagtggcc tctttttact ctcttctcca gcctctctca ctatccctca12301 acatctttct cctttcaatc ttggcaccac gcttcaatct ctcccttccc ttaatttcag12361 ttcctttctt tttctggtag agacagagga aacgtgttct atctgtgaac ccaaaactcc12421 agcactggtc atggacttgg aaagacagtc ttcccttgat gtttaatcac tgcagggatg12481 cctgcctgat tattcaccca catttcagag ctgtctgatc actgcaggga cgcctgcctg12541 125 12541 gatccttcac cttagtggca agtaccactt tgcctgggtg gcaagcacca cctctcctgg12601 ggggcaagca ccacctctcc tggggggcaa gtacccccca accccttctc tccatgtctc12661 caccctctct tctctgggct tgcctccttc actatgggcc accttccacc ctccattcct12721 cccttttctc ccttagcctg tgttctcaag aacttaaaac ctcttcaact cacgtctgac12781 ctaaaaccta aatgccttac tttcttctgc aataccgctt gaccccaata caaactcaac12841 aatggttcca aatagcctga aaacggcact ttcaatttct ccatcccaca agatctaaat12901 aattcttgtc gtaaaatgga caaatggtct gaggtgcctg acatctgggc attcttttac12961 acgtcggtcc ctccctagtc tctgttccca atgcaactca tcccaaatcc tccttctttc13021 cctcctgcct gtcccctcag tcccaacccc aagtgtcgct gagtctttcc aatcttcctt13081 ttctactgac ccatctgacc tctcccctct tccccagact gctcctcctc aggtcgctcc13141 ccgccaggct gaatcaggct ccaattcttc ctcagcgtcc gctcctccac cctataatcc13201 ttctatcacc tcccctcctc acacctggtc cagcttacag tttcattctg tgactagccc13261 tcccccacct gcccaacaat ttcctcttaa agaggtggct ggagctaaag gcatagtcaa13321 ggttaatgct cctttttctt tatccaacct ctcccatctc agttagtatt taggcttttt13381 ttcatcaaat atgaatacct agcccactcc atggctcatt tggcagcaac tcctagacat13441 tttacagcct tggacccaga ggggccagaa ggtcatctta ttctcaatat gcattttatt13501 acccaatcca ctcccaacat tagaaaaagc tccaaaagtt agactccggc cctcaaaccc13561 cacaacagga cttaattaac cttgccttca aagcgtacaa taatagagta gaggcagcca13621 agtagcaaca tatttctgag ttgcaattcc ttgcctccac tgtgagagaa accccagcca13681 catctccagt acacaagaac ttcaaaatgc ctaagccaca gtggtcaagc attcctacag13741 gacctcctcc atcaggatct tgcttcaagt gccagaaatc tggccactgg gccaaggaat13801 gccctcagcc tgggattcct cctaagccat gttccatctg tgtgggaccc cactggaaat13861 cggactgtcc aacttgccca gcacccactc ccagagcccc tggaactctg gcccaaggct13921 ctctgactga ctccttccca gatcttcttg gcttagtggc tgaagactga tgctgcctga13981 tcgcctcaga agcctcctgg accatcacag atgcttttgg taactcttac agtggagggt14041 aagtccgtcc ccttcttaat caatgcagag gctacccact ccacattacc ttctcttcaa14101 ggtcctgttt cccttgtctt cataaatgtt gtgggtattg atggccaggc ttctaaaccc14161 cttaaaactc cccaactctg gtgccgattt aaacaacatt cttttataca cttcttttta14221 cttaaaactc cccaactctg gtgccgattt aaacaacatt cttttataca cttcttttta gttatcccca cctgcccagt tcccttatta ggctgagaca ttttaaccaa attatttgct14281 tccctgacta ttcctggact acagccacat ctcattgctg cccttcttcc caacccaaaa14341 gtggcaactc ctttgccact tcctctcata tccccctacc ttaacccaca ggtatgggac14401 acctctactc cctccctggc aacaaatcac accctcatta ctatcccatt aaaacctaat14461 cacccttacc tgggtcaacg ccagtatccc atcccacaac aggctttaaa gggattaaag14521 cctgttatca cttgcctgtt acaacatgtc cttttaaagc ctgtaaactc tccttacaat14581 146 tcccccattt tacctgtcca aaaactggac atgccttaca ggttagttca ggatctgtgc14641 3901 tcctcaatac ctccctccaa aacccctcca taacccttat tctgttctgg atctcaaaac14761 atgctttctt tactattcat ttgcaccctt catcccagcc tctcttcact ttcacttgga 4621 ctgaccctga cacccatcag cctcagcaac ttacctgggc tgtactgccg caaggcttca14881 tggacagccc ccattacctc agtcaaccca aatttcttct tcatccatta cctatccagg14941 catagttctt catgaaaaca cacgtgctct ccctgctgat catgtccagc taatctcccc15001 aaccccagga ctggcaaatt gactttactc acatgcccca aatcaggaca ctaaagtacc15061 tcttggtctg ggtagacact ttcactggat aggtagatgc ctttcccaca gggcctaaga15121 15142 15181 152 cctctataca gtctgataat ggacaagcct ttactagtca aagcacgcaa gcagtttctc15241 aggctcttgg tattcagtga aaccttcata ccccttaccg tcctcaatcc ttaggaaagg15301 tagaactgat taatggtctt ttaaaaacac acctcaccaa gctcagcctc caacttaaaa15361 aggactggac agtactttta ccacttgcca ttctcagaat tcgggcctgt cctcgaaatg15421 ctacaaggta cagcccattt aagattctgt atggacgctc ctttttatta ggccccagtc15481 15541 8641 tctgtctagt catactccta ttcaccattc tcaactactt gtaaatgccc tgcccttttt15601 tacagtgctg atttatactt ttcctccaaa ccatcataac tgatatctcc tggttttacc tcaaaccgcc acccttaagt ctctcttaaa gtggatagaa gatcttcagt gacaaggtac15721 actccaatac tttcacccta ataaagccct attctttact tttatattca ctcttattct15781 15841 tcactcactc tctcctagcc atttctaatc cttctttaac aaacaattgc tggctttaca15901 atttctcttt cctccaaaat caccgagtcc tcaatttact cactgctaaa aaaggggact15961 ctgcatattt ttaaatgaag agtgttgttt ttacctaaat caatctggcc tggtatatga16021 caacataaaa aaaactcaag gatagagcca aaaaccttgc caaccaagca agtaattatg16081 16141 atacctgttt ttctccttct cttatgcaga ccttgtgtct tccatttagt ttctcaattc16201 atacaaaacc gtatccaggc catcaccaat cattctatac gacaaatgtt ttaagggagg16261 16324 16321 aaaaggcaga aatgaaatcc acaggcagac agcctgatgc cacaccctgg gcctggtggt16381 taagatcaac ccctgaccta atcagttatg ttatctatag attacagaca ttgtatggaa16441 aagcactgtg aaaatccctg tcttgttctg ttcctctaat taccagtaca cgcagcccct16501 agtcatgtac cccctgcttg ctccccctgc ttgctcaatc agtcatgacc ctctcacgca165 gaccccctta gagttgtaag cccttaagag gaaaaggaat tgttcactcg gagagctcgg16621 tttttgagac atgagtcttg ccaatgctcc cagctgaata aagcccttcc ttctttaact 8481 16753 16741 aatatcaccc cttaccacaa aatcttcctt cagcttaatc tctcccactc taggttctca cgccacccct aatcctgctc gaagcagccc tgagaaacat cgcccgttat ctctccacac16861 cacccccaaa aattttcact gccccaacac tttaccacta tttcgtttta tttttcttat169 taatataaga agatagaaat gtcaggcctc tgagcccaag cctgcacgta tacatccaca16981 tggcctgaag caagtgaaga atcacaaaag aagtgaaaat ggctggttcc tgccttaact17041 gatgatattc caccattgtg atttgttcct gcgccacctt gactgaggga ttaaccttgt 1713501 17161 cccacaagtg aaaaaccccc tttgactgta attttccact acccacccaa atcctataaa17221 acagccccac cccatctccc tttgctgact ctatttttgg actcagccca cctgcaccca17281 17384 17341 cgcgtgataa ttattatatt acttttaact aaaacccttt cagagtctcg cagggaaggc17401 tgtatatatc tcataaaatg ttggggccca ctggatcaga caaggccaca aaggccaaag17461 4617521 gtaggctgtt atggtgatgg cagattttct ttccataaaa tgtccataat aggacatttg17581 aacagaaggg aaaaatcaaa ttgctgaagt tgaaagaggg caatgcaaag aactttggag17641 aaagaactgt acagagaagt caactggcag atgggaggaa gtttaagggg aaaaatatag17701 atgtctaaag aatacattta ttcattttcc acagtgcaat ttggacaaga agcctctttc17761 ttgcttcttt ctattctcat taaatcatta gagctcaagc aatccttctg cctcagcttc17821 ccgactagct aggactacag gtatgtgcta ctatgcccag ctaatttttt aaaaattaga17881 ttttaatttg gtgaactatt tctgtaggaa actacaataa tacagcccag gcacattgat17941 cttgggtgaa caaatcagaa ggaatgaata attctgtgtt cctgggactc tgacaatttc18001 atgaacttgg tactctgagt aaagcatagg aggagttatt tcataaaatg tggagcacaa18061 tcatgtgaca aagataatgg gatccccatt tcataaataa atctgaagtt cagagagagt18121 aacaactggc cagggtcaca tcacggagac agaggcaggg ttcccactga tgcctctgac18181 tccctgtccc aggcccttcc tcctcccgca agcagaagtg cagggggcag agctgaccct18241 gtgcagtgaa aatctgaggg ctgagttcct attggaacac aagtgaaaga cttcctggct18301 tctaatctca ggataaggac tcagagctcc atctgttcca gccttaggat aagaaccaga18361 atcttacacc atgaaagcat gaaaggtaag atttgagtga ggaaaaaaaa aaaaaaagtc18421 tgtgtttcag attcagttca caaagcagtt tcatacttaa ggtaccatca caataaccct18481 gtggggtaag caaggcaaat ttcattcttg ttttatgggc ataggaagta agtctcaggg18541 aggttaagac caaggtttct ggagaatttt atattatgaa tcttgattta tgggattact18601 attatgtaat tcctaagatc atataggaat cctagagctt gaatatagaa ctttattttt18661 aaatctatat acatcataat tacaaggagt agtgtccatt tgggttcctt ggccctgatg18721 18784 18781 tacacctcca ggggatgtac cctaaaccac atgaatgtga tttgcacatc caagatttac18841 agtgtactat agggagaatc ttttgcaaca gcttttgcta taatacagaa tctgagatgt18901 ctttgagaaa gaaaagtgta atcattacca aaaaattatt ctcataatgt gtgcaaattt18961 gtatgaaatc tatattggcc atgggacaag gaggtatttc cagctagctt ctgaaagggc19021 tctattctct cataagaatt cagctgttga cattaggtga tatctgccca ggtcatcaga19081 tgccatagag aaagagggtt tgctgaaact tatatcagca gtgcactgta tgctctttct19141 gatttatttg aacattcatt tattgagtgt caagtaatgc actagatact ccagggatct19201 gacacaaact ctgccctgaa ggagcatgta atctcactgg ggagaaaaca aaacatatga19261 taatttcaaa ataacaaact aggcaaacta gttaacactt aaaaagcagg ctttattcaa19321 atgcaaaatt gcatgttaca gggtaacctt tcagtaagaa gccaggaaga ggagctcatc193 atgggttgga ttagtaaagg actagttata aaagaagtgg tggggttgag ggaggcctga19441 gatgaaattt aaagaatatg tagaatctag gtaagtggat aaaaggtctg ggggcagggg195 aaaggagagc atttcattgt gaatcaagga atttctccac ctgttttaac tcttccatat19561 gacatcaaag agatgtcact tgcagctagc atttcagtga tgttttctta ctaataatat19621 cgtgataaaa gaaacattga ctataagaaa taggaatggg tctcataaaa ggaaacagca 1968681 19741 tcatgagatg ctaggtgtgg aagtcagcca actgaaaaag agaggtggct gaagaaggtg19801 gggaggctga agccagttaa ataggatggt ccaattcaca gacggcgagg ctacagtgca19861 aataggactc tttcaacttg agcaggaccc cattacttca ctggagttag aaagaaagga19921 461 19921 gagcgtagac tttttgaact ttctataaga gtgtacctcc acagtataca gaagacgacg19981 tgaaatttga tctgcaagaa aactgagtcc atattcacat atgtatcaaa tttgcacttc20041 atttagaagt gtctgtcatc aagtacagca ctgaattgaa actgaaaaca agagtcaaga20101 aagagcaaag tcagccatct ttatattcca catgaatcct ttccctttat ggtcttattt20161 gtttctcctc agaaaagaca aaaagctgag ctgtataaac acctgtgggc tgggggttga20221 gggataaatg aggggcgaaa tggaagctga aggaactgtt ggtcaggtag aaatcttccc20281 agatgcactg aaggaaacac acttcatgtt tgacgtagga ggtgccacca cacaaaacgt20341 ttcatggaag gatttaaagg atctcatgat ttttagtatt ccaagaattt tctttcacca20401 agggcgattt aatatgggtc attcatactg aaagaaaaac aaaagataat aagagtttaa20461 aaattgcaaa acttggagtg ttagtagtaa aggtaaatat tcattagaga tgagaagagg20521 agcaaggaaa tgctttcagc tggaaatctc agacaagagg ccaggcttta ggaacctctg20581 aagatgaaca aatgtaagca aaccctagta gcagcacttc tcagattttc atgtgcttac20641 cactcagaga tggtgttaaa atgcagactc tgattcagta ggtctgagtg gagcctgaga20701 ttctgcaccc ctaacaagct ctttagtgat gcttatgcca ctggcgcaca gaccccactt20761 ggagaaattt ttgtggtgca tacggtcttt gtctccagat ctaatgagtc tgaaggacag20821 tgtagattga ttttttaaat ttatgtttat tttaatttaa tttaatttaa tttatttatt20881 tatttatttt tgagatggag tctcactctg ttgcccagtc cggagtgcag tggcacggag20941 gcagctcatg caaccacggc ctcctgggtt caagcgattc ttccgcctca acttcctgag21001 tagctgggaa tacaggcacg tgccagcaca cccagctaat ttttgtattt ttagtagaga21061 tggggtttca ccacattggc caagctaatc tcaaactcct gacctcatga tccacctgcc21121 4621 21121 acggcctccg aaagtgctgg gattacaggc gtgagccacc gagcccagct gtagattgat21181 tttgagcagt ggaaagtcaa ggaattagaa ggcatgctta aatggaaagt gaaattggag21241 aaaatttaaa ctcatgaaat agtggtggtt ataaactcgt gataaattat atcctgggat21301 ataatttaat gagatggtaa cacatttagt ttaaagaaat aagtgacact ttttttgtgt21361 gacacaactg tcttattctt ggaaaggaca aggagagaat gaaatatggt atgtcttcac21421 agcacctttc aaagggagaa ccagattctg aggagctggt ctcatgatga actgtcaggg21481 taaaccacag ttcagcagct gcaaatgtgc ttgccaaaat agagacaaaa aaatgtttct21541 gaaaacaaaa tttcacatat gccctcctct gaggttggca tcatatcttc ctgtgtatct21601 21684 21661 gagtcatttt gcagaagagt caaaataacc cagcaagaaa tgaaaccaca aatgcccaag21721 gagtcattca ttcaccattc aaaagctaat agaaatgaac acaaactact atgaaaattc21781 acccaagaac ttaaaaaaaa aaaaaaaggc tcatggtgtt tagtgtgata gtattcattt21841 tacctttgac ttgttctaaa aacacaccat acttctaccc cacccttcct cagtgccgtc21901 acacaatggt ttcagtgtga aaaaaaaaac cacgttactg gaaaaggagg gtgcctggga21961 cttgccactc taagctggta gtcaagggtc ttgagttcta aaagcatacg cgttaagagc22021 atgattcctg gatccaaatg agtatggatc tcagcattgc catttattgt gacctcaggc220 tattttattt ctctgtgcct gtttctttat cagtaatgaa gatgttcata gacccttctc22141 ccacagactt aaaggcatat ttcatgattt aagacatgta aaccattcat aacagtatac22201 aacatggaat taatatttga taaaggttta tgattattgt aactaactct gtcacttgct22261 caaggcctat agaaaactta cttaattagt tcaactacaa aaagagtttg aatgtgatat22321 2232 22381 8222441 gaagcattca agacttatgt tattggggcc agccttcctt tccaacttca actccacaac22501 tcctcaataa gccatgggct caagaaagtt ctgctcagtg gcccctgaaa aatgctttca22661 226 tagtctcact accataccac tgcttacaca atttccttcc tacagactgc cttcctttcc22621 tgcttttctc catataccta aatcctatct attcttcata agcaaccttc tttataacat22681 tttctataac caccaagcca aatgaccttt tccttcttaa atatagcacc cattggccat22 taccatgctctgccttgtat ttttctgatt tttttctttc tatattcctg tcttaactcc22801 ccagctaggt aataattttc ctgaaatcag ggaccaggct gactcctctt gctgtctcaa22861 gaaagcttag cagtttccaa cacaaaaatg ttcaataaac aactattaat tgactgatta22921 taaaaaatca gtgaaccatt aaacttaata tagcaatttg cttagcatgg taattagctt22981 tttgctaata ttcttccagc cagtctctcc tcctgtgcct caaggacatc ttaaaaaaaa23041 aaaatctagt tgatctgctt ccatctagtg gcaattaaaa caggtggttc cggtagccag23101 aaaacagctc tgggtagatt gtgccagaaa atactttcac tcagtaggtg cgagtttgaa23161 agaaatcttc acatctgtgg gtttcctgcc acagacatag ggagaccagc ccagagaaag 4621 aagcctttcc tcactagact ccatttgcac tagtaaagag aagacagagt aattaaaaag 4681 aataaaaaga acctccactg atcgtacatc ctcatccagt tacccctgcc ccacttctcc23341 ttcacagcca aacattttaa aagagatgac tgcttgttct gtctctactt tctcatcctc23401 agtaatgctc aatgcttggc cgtctgacct ctgtcttgat gtctgcactg caaatagtct23461 23521 aaccgttccc ctttctttgt ttccttggca ttcattaccc cacactcttt ctcctcttcc 2355981 23 ttctccctgc ctggcaacat cttttcattt ctctttccct taggtgactt attagataat23641 gatgttcctc tggctcccat actctctccc aggtcctctt ccattcttaa agcactcaca23701 ccctccctgg atgatagtac ccactcctga gatggcagtt acctcctgaa atgtgaggga23761 cccaaatcca cttctcctgc catagcctct gtgctttgga taggtccaat gagccacagt23821 gaatgatgtg catacaccca aagctcagta caaaactgaa cccatgatct ttacctccaa 881 aacctctcat tcttttatgt tcccttctca gaagtaaaca ggactaccat ccgccagttt23941 ccaggtgaga aagatgataa tttgattctt ctctctcact tttagccaat taacagacac24001 attcagttaa tatcacctcc tcttatttca tgaacccatt cttactacta gttccctaga240 caggcgccat cggttttaat ctaataactg caaatgcctc caaaacaagt ctctttgaat24121 ccaggctcac ctgtctccca cacttgccat actgctctgc agggtgacct tataagatgc 24172 ctttagtgat atcccaaaag acctcaagat24241 aaagcccata tcacatggct tatacattag tttatgatct ggcttctggt gcctcatttt24301 tccccacttt ttcctttgca ttctaagcaa tggcccatac taagtttgtg attggtagga24361 tggttgccca aaccagcatc caatcccttc agaaatcatc tcacttcatt tctagcattt24421 taaaggaagc tcagttgtcc agctgggtac tgaatatgtc accaaagtcc tcctttcata24481 gtttatttta cttaaactct ccttcctaaa attccagagc aagtcactaa accctagata 245639 3924601 catctcctcc cactgtgcta tttctccagt agaagaaatt tgagcttcaa gaccaaactg24661 aaaaatactt gcctccttgg ggaagctgta ggtagaattc atgctcccta tctttcccac24721 24781 24573 5 24841 acaagaagaa cacaccacaa tgtttttaac cctcagaaaa aattctgagg taatcagaaa24901 24 aatctccctt tacataaact gcccttttct aatagggatt acttgttcgt tcattcattc24961 attcagctcc actagcacca aaaagcacag ctctgaaagg aagctagtag atttatcacc25021 ttatctggtc atttggatga ggaccccagg taaataaact actatggggt taatgtgtct25081 agctagagca ggaagtaact taaggaagta gagaatgaat cagcagatgt ggaaactcct25141 cgccactaat aaaacttacc ttctcttgga tttcttgcct gaaaatagaa aatagagaaa252 aggcattagc aaaaattaga caatttaaag tttttcaagt aagggagaag gaagactccc25261 8225321 aaaggagatt tgaggaactg gcttaataaa cagtggtaga cactaataca gaacagacat25381 gttgatgcag atgcctcctg aggttccatt ccattctccg tgctactcaa gaagacagaa25441 ttgctaaatt gcctggtggc aagacccaat atgtccattc aagtgtttat cccttcccaa25501 tctgccatct catcctacct gcagattctt cccttgaggg acagctgcta atactgtaaa25561 actatgtgcc attacagctc acagcatcat ctctatgaga atccacaaga gaatttcact25621 ttggtcttgt tggtaggaat tgtgcagcct catctgagta actaatgtgt ttttatctta25681 caaacacaag gaatatcaca tggttctcct ttgactggct gtaaggaaac tcagagctag25741 atctgagacc ctctcctacc aagtatataa aactttgtga catacatttt tgtgccataa25801 cttcaacctt ggttccaaat gatttttgta ccctaagttt aaatttggct ttcttttttt25861 tttttttgta ctcaataaaa catcaagctc atttattatt gcgaagagcg aaacaacaaa25921 84 25981 ttttaattaa ttttaatttg ctatactgaa cacattttgt actgttctca cattcttttt26041 gaaaaaagca gaatataaat aagtagataa cttaaaaaaa actctttgag cagaaagaat26101 catttgggag gcaatatatt tcagtggctg taaagtggca ttctagaatc atcctaccca26161 ggtgaaagcc ctattttgcc acctgtagtg tagtgtgtat ttgaacagct actttctttt26221 ctaaactaca atttcttcat ctgttaaaga ggcataataa ttgtatcatc ctcattgggt26281 tgataaaata aaatatttcc aagtatttag ttcaggtcct agcacgtaga cagtgttgca26341 26401 tcagcctgct gatgaccaag tgcacttgag cagggggaat caaatctgaa ttaatttcag26461 attctggtta gcttcacata aatatttttt ttagggatga tgaacctaac agcaatagat26521 gagtaagaat ctgttcctac tgagagagtt tcattttgaa gaaaaaggaa ctaagggggc26581 atgtgttcag tttcatgccc tggtctaacc ctgtgtgttg gttctggtgg gaaattcttc26641 caaccgagga aaaaaccagt tcacaaatct gaagaccagt gattttagaa gatgtatctg26 gactggagtc taatctctga ctctgggtcc tgctgatatg gtatttttga gatttggcct 761 aaaacatcat tgccctggtt tccttattta ccaaacaggg ccaatggtag tgactaatca26821 gaaaatgata atgcctggtg cacaaaatgt gtctagatga gcccatgcac aaggacacat26881 gtttctggaa ctgttcctta ttcctttcct aaaagaaagg agggaaagtc tccatactaa26941 gactactagg gcaggggaca aagtgctaga gtcagaagat tcatctgagg acagaagaat27001 aggggtgaag gctctagtca cttcattggc taccatgctc taaatagtta cctgtgccct27061 ttttctaact attagaaccc aaaaagccta taaattctct ctctctctct ctctctctct27121 gtgtatatat atacatatac acacacacat agacacacac acacacctaa acacacacat27181 agagatttat gactttttac ttttatcctt gtaaatgcca ttaactatat tttgtcttag27241 atttagcctg ggaatgtagc cattatttct accattgcct ccataggaaa aatactcttc27301 atgttttaaa ggaccaacct acaactaaaa tctttggaaa gcagaatcat ttgtaagttg27361 gtgaaaatgg aagatgttgt tttataaatg aagacttttt tttttttttt ttttgagaca27421 gggcctcact ctgttgtgga gtgcagtggt gctgtcatgg cttactgcag ccttgacctc27481 ctgggttcaa gtgatcctcc cacctcagtc tcctgggtag ctgggactac atgtgcatgc27541 taccatgcct gactaatttt ttgtattttt gtagagatgt ggtttcgcca tgttgcccag27601 gctggtcttg aactcgtggg ctcaagtaat cctcctgcct cagcctccaa aagtgctggg27661 attagaggtg acagccaagg tgcctggccc acagatgaag actatttaat gttatcttaa27721 27 27721 agatacccta agcttcctac caagccagtg atcttttggg gcttctgttt tctttgttgg27781 35781 27781 cataactgta actagcctaa ctgcccgtta tctgtttcct gtttgcccca cactgattcc27841 27 27841 cacagcagtt ttcaagttat cggtttgaga tcttgtacag aaatgactcc aaggtaaaaa27901 atttaaaaac aacccctcta atttttttac ccttgcttat aaaacagcct tagccagcta27961 acccctcact acatgcaaat gagtttgatt ctattctttt gattctacaa acacttatta28021 aaagatttta gaattcggaa ataaatagct tccttattaa ggtgacttac agccccaaag28081 tccttaaaat tatttagaca atagccacct tatcccaggg ggcagtgtgt aataacccac28141 cctgttctct atccgtcagt tctgccatca tcgcccaagg taggaagaaa gacaggacaa28201 ccggggtcaa gatttgaagt ctcaatggaa agaataatca gtggttggag aaaactgtca28261 ttcttctttt gccttaatgc agtacttgat acttatactt agtactgtat agtacttagt28321 28 28321 actgtataat actataagat agtgagattc aatcagcaca gaatttctaa tagcaagggc28381 agagacattt taactgctca gtgctctcag gttatacata gctaatgaag ttcttgcata28441 tcaacaatcc ccacccccct cacacacttt gtctttctgg attggttaga aaacttacct28501 agcgcccact attctcaaat ttaaatgaaa gataagatca gagtggcacg caattaggga28561 ctgataaata atatttttgt aattgccagt gtaaatggac agggggcaac ctttacatac28621 catattcagt gaacagaata cgtactaact aatttgatgg aaggaaaatt aaaatgacaa28681 tcaactgagc ccacagaaag gcaacacaga gcagttggtt agcaattgtt tcgagatcat28741 ccctgaactt gaaacaggta tatctttttt tttttttttt ttgagacaga gtctcactct28801 gtcaccaggc tggagtgcaa tggtgcggtc tcagctcact gcaacctccg cctcccgggt28861 tcaagtgatt cttctgtctc agcctcccga gtagctggga ttacaggtgc ccgccaccac28921 gcctggctaa tttttgtatt tttagtagag acagggtttc accatgttgg ccaggctggt28981 cttgaactgc tgagctcatg atccgcccgc ctcggcctcc caaagtgctg ggattacagg29041 catgagccac cacacctggc caaaacaggt atatcttaaa agctgcccaa tgtccatgaa29101 tgttacagcc ttgaatggtt cttccaggtg agtttggcca aatgtggcac catacaccca29161 aggcctgctg caggctagtg ggttgctcac actttaaagc tgagacacac tcatgcctta29221 aggtaaaggg agtgataatc tgggcagcag atgttaactt ctcaaggcag tcctccttct29281 cttttcctct ccagtgacgg atggttggaa agcatatatg gtgcatttgg ttagagctgt29 ggccttggtg aatagatact tgggagaata catgggaatt tctcccaggg ttaatgcaat29401 gcccatgtgt tgggaaccag gtgactcttg aagaggtcag gtatttggga gcagtgcctt29461 gaaaccttag tggacattag acccacttcc tagtggaatt gtagcattga aatccaaggc29521 atgtaggctc ttagaggaca gagatagtgt gtcatttttt cagaattaat taagagcagg29581 ccaggcgtgg tggctcacac ctgtaatcca agccctttgg gaggccaagg caggcagatc29641 acgaggtcag gagatcgaga ccactctggc taacacagtg aaaccccgtg tctactaaaa29 atacaaaaaa ttagctgggc atggtggcac gctcctgtag tcccagctac ttgggaggct29761 gaggtgggag aatagcttga acccagaagg cggaggttgc agtgagctga aattgcacca29821 ctgcactcta gcctggtgac agagtgaggc tctgtctcaa aaaaaaaaaa gtattaaaga29881 attacataag agcaaagaac cattagaata tctcacttag ttgttatcag cctagcaagc29941 tgccttgaag gtaatagaca tttttaaaag tttatcagat gaaaagcgaa aatcagccaa30001 cctgttttaa tgaaggtgtg tcctgggctg atttacatgt ctccagggac tgatggctct30061 agaatgtaaa gcttggcatc ctgcttgtgt tgaatctatc acatttaatt tcctgtgggt30121 ttcttttttt tttctttttc actttaaagt tgtgttcttt tcatgtgaag ttaaactcac30181 ataccttttt ttaatctcct tgccagccaa atgataaatg ccaacccaga gaatgcagta30241 accatgactg ccactggaat gaagaggggg ttataatcac cctccttaat cattgagaaa30301 cttttgtcca attctgaaag agaaatcagt aaggcacata gcatgagacc accagcatta30361 tttccttagt ctatctcatg atatttgact tttttcctcc ttacatctcc cagtagtagc30421 ccatttgatg ccatttgaca gatgaggaaa ctggcatggg aaggcccctg atgagtctac30481 agcataggca aagactggac cagccttgct agtctaatgc ctacagaatc tcaatgccca30541 gatttgtggt tcatagagtt cctgaaaatg cacctaaaaa tgttggcaag aatggtcatc30601 gttgtattta gctccatgga cttgttcaat gactggaact ctgaaacaca gagaagagct30661 30 aaaagcctaa tacaacttca ggaaaaataa aagccaatga tctgaactgg ataattcacc30721 30 agtcaaagga aatcattaat gcttttactt taaagcagtt gtgcaaaaat aagcacttga 595959 tttttacatg ccaaggacct gcactaattt ctttccaatg cagtagttac cacttccctc30841 tacttccttc acgaataagt aaaagggcat gtttagagat actcttgtaa gtgtaaacta30901 agttcatttg ggagcctcta tttgaaaata ctggtataaa aaaaaatctg tctcctgata30961 31021 ttcttcccat tactttgatg aaccttttca aggtgatttg atccccacac ccaaatatat31081 gattgagaga aggctcaagt tcccaggagc tccagacaga aggtacctgt tggcttgatg31141 aagatgagga ggaaatgaac actagctagg ccttaaaggg aaatgtctct gataggccta31201 atacacagtc ctctgctaaa ggcctccctg cctctctctg ctcatccact ctactccctg31261 31321 ttaaagactt ttgtcatcca tgcagatagt ctcaggagca gacacaggta gctattcttt31381 cacatgctag cttaacatgc atttgcttta gcacctattg ccaggcactg tgtcaggtgg31441 441 agggtataca aagatgaaca agacatgatt cttctcatat acagatagat tttggaggca31501 ttagcttagt gatgattcag gagtatccat tatttgggga agtaggtggt cattagtgac31561 cttttacagg catttcaatg ggctaacaga gatgttagat tgtagtggaa tagaagaatg31621 ggtaaaaagt aaatcagtga gttcagattt taggagttaa gatggcaaga ggtgagaaca31681 aaaaaaggaa atgattgtca ttaaaggagg aggaaagacc agccaaagat tttacagtga31741 gttaagcata caaatttatt tctaggccac atattcttag caaaacaaca tgtaaatgtt31801 tatgtatgtc tttcctcata tctgctcatc catcagctcc atcgttaaga tttcagtttt31861 ccaggacaaa cttactcact ttgacatatt ggactaggat ttgaccagat tccagatgat31921 tcacaaatgg ttttcttctt cccaattaac tcagttcctt ctgagcagat gaaggtacat31981 gcagaggtaa agctgaagct ggccagggga tggctacagt tcatgatccc caaatctggt32041 gctgatagag gctcacactg aatcacttca atgaaaaaga aaaaaaaaaa aaagacaaaa32101 cagtatttct gagtagagac cctcccttga gcaaaggatt tttagccaaa gctgcctgac32161 tacattactt gtgatattgc ttccaggctt tattttcttg agaatgatgg tgggtggtga32221 atgagagatg aaggcaagga agcattgaaa gctgtgggga gaggagtagc tactccaggc32281 tgctgcccta gctaaggtga ccctcccctt ctgctggaag taccatgcca tatggcctct32341 gcatcaaggg ctcttatggg atattctcag agaatctctg ccgtttcatc tgttctgata32401 tctacccaag cattttgaaa aacatcccaa ttcactgaag caagtccaac ttccgtaaat32461 tccagtaggt gggttgacag ttttataatt tcaataaggg attttgatag cacttctaag32521 aattaaacta cttaaactaa tgcatcagga gcatacttgt agaaaagtta accaaaactt32581 cgtaagttca gatgacattg gttttctccc atatggagat aaggttggca gttaaaaatg32641 aaaaaaaaaa aaaaacctac cttatttcaa acttgaaaag atcaagagat tgtgtttttg32701 tttttcagtt gttattctcc taaaagttta tgcatgagga aaagtaaaag tgattttaag32761 aataagccaa ataaaacaac caagaaagac ctccactacc ctgggaagga aactggttgg32821 tattaagtag gacaccacat aaaacaggtg ttattgagag gagaagaacc aaaatgtaac32881 tgaggttcaa caagacatta tttatgcaat ggcaatgaga aaaataaaaa acacagtata32941 accatgctgt attgctataa gtcatgttac acactgggag atggcttcag gggtatttgg33001 tttttacttt ttgtttggga ggtttttcaa aaaaatttag ttagaataag tcctttgaga33061 aacatcacag taggttaaac aaagttaggt taaattaggc tcctaagttt gacttctcag33121 caaacttcta ctgaatgttc tgactgtaag cccaggattg catgacaaaa cctctagtct33181 gaagttactc accttgacag gttggttctg gagatgacca gtttccaaat ggtccacagg33241 tggtttcttc aatcccagtt aagtttgttc cttcagagca gctgaaggca cactgtgagc33301 tgaagctgaa gtttcccaaa gggtgagtac agtccatggt acccagctct ggggcctcca33361 aaggctcaca ctgaatcact tcaataggga aagaaacagt atggggaaga gttaagagga33421 actgacgcct ggatttgaat cctagccctg ccacttgata accatgtgcc tttaaacaag33481 gttacttgaa ccctccaact tcagtttctt catctatata agaggaataa tgaaattgtg33541 ttatctttat caaattgata tggaaactaa atgtaattca attagcataa gtcaaggacc33601 ttagaacaaa gcctgactca tcagaaattc taagtaaaca ttagctagtc ttcatattat33661 tatcttcagc attatctgta gtgagaatcc ttaaagccaa ataggtgtaa ctgggaatga33 ccagcttagt cgggaaataa ctatcacatc agagcccctg agtctactag agtattggga 781 gcaagatgtt cagagaaaga gtgggtctcc ataataagcc ttctttgcaa ggagagaata33841 taaaagtcta ggaagcattt tgacctcaat tctgtcttct attctagctc agttccagaa33901 ttttaactct tttgattttg acaaccctct ccagaaactg tatctatttc cctgttctga33961 ttggtggtac aataggtaaa tttaagactt ggaaatcaaa gttttcacat tttagaccct34021 gccatgccat ttagtaaaca gtacaacttt catgtcttat tcctcatctg tcaaatttaa34081 gccattattg ctaccttgct ctagagactt caaggaagaa tggactcaag gaatcagaag34141 aatttttgta tttggaaact atatgagatg agattaggga gaaacatggg aactaagaga34201 aaatgttatc ttttttcatt gatttaaaga gtatctatta tatatcaagc attactctgg34261 ggcttgaaga gcttagattt caccctgtag gacaaaatgg taggtagaaa ttaatgggtg34321 gattgtcatg tatgtgtgat gtgttttaat tgcttttaat tgatcagtct ccctgtagta34381 tgaataatgt atttgagggg agctaattta aaattgtgga actcatctaa taaactattg34441 caagaatcta gaagaaagat aatgacggca atggtagtag agttgacaag tggaagacaa34501 attagaaaaa cactaagttg taaaaattgg tagaatgtta ccctgcataa atgttggggg34561 agttaagaga gtctcatacc agggtgccca tgtaaatggt gattccacat actgagataa34621 gaaatacgaa gagaaaagct gactgggaac aattggtttt atagtctttt aaacatccca34681 aaggacatcc ttagcatatt tgagttcaga gctggagata ggcttatcag tccaaagatc34741 acatagattt gtgagtccgc aaaagtcagt aagtttgacc aaaggataca tgtagattag34801 agtcagaaga gcaatataca aaagacaaaa gctgagaaat tatagtagtt tatggtcctg34861 gataagtgct catgaaggat ctcaggagaa atgatcacag gtagaaagaa tgagaaaaga34921 gtgatatgag agaaaccaag acaaagaaaa gtaaaatgtt aaaaatgagt gaaataggca34981 taccaataat taaaaatgag taaaataggc ataccaataa cataagggtt aaaaaataga35041 gttcaaaaat ggggtgaggg taaagtatta ggaaggagtc atggcccagg gatcaagtga35101 aatgagttag atctatagat ctatttcagt tggttgacat ttaaatgtat tttggtttta 355942 attctttatt gtttacaaac attgcttttt taaaaaatta aattgtccaa ttcaattcag35221 gctcacaagc aagtgcctca tatatacagg cattttgtgg atcccaaaga tgcaatgata35281 aataggacac ttactgatct caagaagttt tcagtaccag aggagacgga caagtgaaca35341 gatgacttca acataagtgg gagaaatgag gaagaaatat gtggagctat cagaactaag35401 aaagcttcct agaagaaact gtctttgaac aatgtcttaa agatgacatg ttttttggcc 84461 atgtgcaaaa tgagagagaa ggccaccagc aaagtcagtg tgctacagag cacatgtgtt35521 aagtgtggag aactgcaaga aggaaaggaa ctactagaag gaaaaagcaa gatactttct35581 35641 35 taatctaaca agctcattag atcgtgagct tcttgagagc gggaatctac catgctaatt35 ccttatggta accctgacag cttttatccc aacactgtgc ttcttgtggt actcaaaaag35761 acttgttgag aagtgagtcg aaacttcatg ctgacttatg aaatctttac ggaaaggtaa35821 caatattgtg aaagcagagc tttctgatca aaacttccca tttctcagag tggctagtat35881 35941 gaagcaaaga aaggaaagag acttaccaaa ctgacactgg ggcccatagt accccacatc36001 acagttgcag gtgtaattat tgatgatttc tacacattct ccatggccac tgcatgacca36061 gggctggcaa gaagctttaa ggaggtcaga aaaaaaatat tttaatgtga ttacatttta36121 gtactcaaag tcatttcttt agacatagat aaccttttgt ctgagatgat ttaaataatc36181 aggaaaggtt tatttgtaaa ttcatagcat aaaaatcata tgctaaaatt tttacgtata36241 aaatacacta agcatatagt cataggcatt tatttgcttt tggaatgaaa ttaccaatac36301 taatattctg taacacttat aggaaactta gtggcatacc ttgaaactct tgaaattact36361 tgtttttaat gagtgagaag gttaaatgat gacctgacct caatcatttc tgcatgcaat36421 tatttcttgg caatcccttt ctttatagaa atcaaagatt aaaaagtcca aatttgctaa36481 aacggtagag tccaatttat aagagaccaa attaactatg gttcattatt aaaacatcac36541 ttggaaaatg ctggctgttt tggaattgta gaagatttta cagaaatatt catacaccaa36601 agatagtgca atttttatat aaaattatat aaggttagac caagaaggaa gcacgcagca36661 ccacactctc tacttcacaa tgtgaaaact gaggtgatgt gagcctaagt ttccaactgg36721 ccccagctgt cagcttctcc tcccctgcct tattatcaaa ggcactgatt gtctagctct36781 tcctctgtac ttcctacgta gatctatcat tttgatgtaa cttgatttag gggtatagct36841 tttgtgcaca gggacaaatc ttacacacca aaaattctta ggagtgacac gatgcaagat36901 tatatagagg gctagatgta ttttagaatg aaccagaagc tgttctcatc cccccacctt36961 tccatggggt aaatctgagt attctcttaa ccgtggccct tcctgagtct gaggcagcat37021 8681 37141 tgttcttctt gttgttgggc tcaccatctc cccagttctc tgcttcttca gtaagagatt37201 tgttggttcc cacccacgtc catattcctc ctatcttccg gattcctatc cagtagtaag37261 aacgactgaa aggcagagtc ttctccagat actcaatttc cgccttgttt tgtatggcaa37321 ctaaatctgt gtaattgtct cggcagaatc ttctagccct ttgccagttc atgggttttt37381 cagaataatg gtaagtccag cagtcggttc catgatgtgc caggaaatct gcaagacatc37441 agtgtgacct atgcagactt acataatgtt acagctaaaa agaacctagc actactccag37501 84 37561 gatcacagaa tagttgtttg cagatttgaa gtagaaccta gaccttctgg cttgaatata37621 agatgctttt atctaaggtt ctatttgaaa caaatttagt ggttttctag gtttattttc37681 ttattaattt ttttctcaaa attatttcag gtgaaattta accaacatat tttagacatt37741 catatttctt tttctttgta gctgttaatg atttacaact aattaccgtg taatatcata37801 taactataca atttacgtat actttttaat cctggaatca tttcttgaag gccaacacat37861 atgtacctat gggagaagca taataaggac aggaagaaca gtgacatact tttaagtaac37921 ctcttttaca taaaaaacat tttattttac cataggaaga actgcttctg gaaaagccca37981 atataccact caactcttat atatctaact gtataatttt taaaaagaac aatttacaaa38041 gccaaatggt ataggattat gaaattcatt agatcatgtt ctatacacaa agagactcaa38101 ctgatgatgt ttaataaaca tatggaccca tcaaatatga gggctttgaa gatatctaat38 taaacacata attacacaat gacttcataa taatatatgg cattctaagc atggtatgat38221 ctacatgaat cactatttaa tacagtaaag aaacagatat aattgatggt aaagagcatc38281 ataaaataaa cattttgaac agagttttga atgagcattc cactagaatg caagttctaa38 gagggaaaaa actgttgtgt ccactgctgt atccttagtg cctagcataa atttcacaca38401 ttgtagggac tcagaaaata cctgttgtat gaaaagagca ctaagtttct atgtgacaca38461 gtgcagacat ggcataagga atgtgtgaac gggagagtta gcatgtttgc ttggctagag 38874521 738 ttcaaagcta ttgctggaga gtcttcaaga atcagatata aaatttgtca caacaatggg38641 agaaggacca aaaaatgata aacccccgtc ccttaataag ctcgtattgt aattgtagaa38701 atgacattaa tgtacactga actatgaata aaaaatagaa aatgaggtgc taaatatttg38761 gtacagattg taagtacctt aacagagatt tcttaattaa cattattcct ttataattga38821 gggattttgt ggggttattg ggatttgaac tctacagcat gggctattat aggttaaaaa38881 tagtgttcag gagtttctgg ggaagaacta aaggtaagaa gaaaagagat gtttacagaa38941 gggatagaat taacagctct gtgaaataat tttcccttag actatgtata actagtggat39001 atttaagaaa aatgaatata agtaaaatag acttagcgat atataaatat cataacatac39061 cacaacagag cattgtccac ccccacaact tgaagatgtt ccataagtcc ctctgggtgc39121 tctgacattt ccatggaaat atctgcaaat gaaatacaaa attatattta gatgtatact39181 cttaaaccac acatttatag cctttgaggt ggtgcttaca actttcttaa taatcagaat39241 aaaacacata tgtctactaa ccctgtctga ggtaacaggt ttctcagaca tagatgaaaa39301 attacttcaa atttacatca gaactgatgc acagttttgt tttgttctat tttattttta39361 cgctttagtc tcaagttgct aatcggtact gccctgaatt ttttctatgg tttggtaatt39421 tttatacctg cttttctgct gagctattag ataaaactat ttaatattta ctatgtatat39481 tttttaaagt attgttgctg cttaattaac tattgatgct tatatttaat gttatagcct39541 cactcttgat cataatgggt caatgcctca aatacctaaa aaaaaaaaaa attagatagc39601 cagacaccag gaaagaaaag tatttctttt tttaataaaa agaaatacct ttttgagcaa39661 ctgaaatgac aaagtcacaa atttcctgca caccttaaaa tatacttaat gtaaatgacg 3939393939393939393975 39 tgtgcacatg taccctagaa cttaaagtat aattttaaaa aaattctatc ttccaaagca39841 tatcacttct caggtagaca cagtgtttat tgcaaaagat ctgatttcaa tagtatttct39901 tcaagagtct ccccagagac aaagtcaaga agaggaaatc agcatatctg agaagaaaga39961 tttcaggatc actttttttg agggtctgag aaaatgttta gtttctatat tatttaaaac40021 cagaattgaa atggggtgat tcctatcctt gccacctgcc tctacaaccc caagagtttc40081 tatctgagca tctaaacgtc ttttaggctg aaaggctcac catggctttg cttggtcctt40141 ctctagttct tctgcagccc attgagcctc ttgacttagc acaagggtct caggtccttg40201 cccaaaggga gtgtgctgtg ctgcaggtag actgcactga atgtcaacag aaagccttgc tttctttcat ttctctaacc cagtctcaca tcctcctcct cctccccttt tccctcccct40321 tcctcctgca cttctctttc ctctttcccc acccctttcc tagactggcc tctattgcct40381 cccactgaga caaaaatgaa ctgctgatca gaaagtaatg tgactagatt ctctcttcct40441 tccctccttt ctatccttcc ttccattctc ctatgcatct ttccttaccc tcctcctcct40501 tcactcattg ttgttgctgt tcttcttcct cttctttttc ctcctgctcc tcttcttcta40561 cttgttcttg ttcttgtttt tgtttggttc ttgttctcct cttcctcctt ctctctctcc40621 tcctcctcct tcttttccac caccctcccc tatctttttc ataaatgcta aactaactct40681 tggctacctg tggtaaatgg cccttggaaa ttgcaaatac tacaaatcaa aactgcattt40741 cagacatatt tatgatgttt gcaaaacttc agtagagcta agcagtggac ttgactcgtt40801 tcggttcctt cacctccgtc tttccttgct caccacctag tggacgtcct tgttagtggc40861 acttcctgaa gttaacccct gaagagagcc catgctctct agcttttcac cgtgtaggtt40921 tgggagccta caagtacctt taatattctt ggactataaa atgagatggt tttataagac 6381 41041 agtcaatgag tcaaatgcaa atcagatttg catttttagg aaaataataa taacaacaac 41169501 411 aaaaactctg aagctcagcg ccccatattt attatattgt ttaatcttta taacagctct 8261 41221 ttcaaaaact agcgaaagac aagaaataac taagatcaga gcagaaccat aggaggtaga41281 gacacgaaaa agccttcaaa aaatcaataa atccaggagc tgcattttga aaagattaac41341 4128 41401 41461 ataaacatct ttacacaaat aaactagaaa atctagaaga aatggataaa ttcctggaca41 catacaccct cccaagacta aaccaggaag aagtcaaatc cctgaataga ctaataacaa41581 gttctgaaat taaggcagca attaatagcc taccaactaa aaaaagccca ggaccagatg41641 gattcacagc caaattctac cagaggtaca aagaggtgct ggtaccattc cttctgaaac41 tattccagag aatagaaaaa gaggaactcc tccctcactc attttatgag gccagcatca41761 tcctgatact aaaacctggc agagacacaa caaaaaaaga aaatttcagg ccaatatccc41821 tgatgaacat cattgcgaaa atactcaata aaatacggca aactgaatcc agcagcacat41881 caaaaagctt atcaaccaca atcaagttgg cttcatccct ggaatgcaag gctggttcaa41941 catacacaaa tcaataaaca gaatccatta cgtaaacaga accaatcaca aaaaccacgt42001 gattatctca atagatgcag aaaaggcctt ggataaaatt caacacccct tcatgctaaa42061 aactctcaat aaactaggta ttgatggaac gtatctcaaa ataataagag ctatttatga42121 caaacccaca gccaatagca tactgaatgg gcaaaaactg aaagcgttcc ctttaaaaac42181 tggcacaaga caagtatgcc tctctcacca ctcctgttca acatagtatt ggaagttctg42241 gccagggcaa tcaggcaaga gaaagaaata aagtgtattc aaatagaaga gaggaagtca42 aattgtgtct gtttgcagat gacatgattg tatatttaga aaatcccatt gtctcagccc42361 aaaatctcct taaactgatc agcaacttca gcaaagtctc aggttacaaa atcaatgtga42421 aaaaatcaca agaattccta tacagcaata atagacaaac agagagccaa atcatgagtg42481 aactcccatt cacgattgct acaaagagaa taaaatacct aggaatccaa cttacaagga42541 atgtgaagga cctattcaag gagaactaca aaccactgct caaggaaata agagaggaca42601 caaatgaatg gaaaaacatt ccatgctcat gggtaggaag aatcaatatc atgaaaatga42661 ccatactgcc caaggtaatt tatagattca gtgctatccc catcaagcta ctactgactt42721 ttttcacaga attagaaaaa aactacttta aatttcatat ggaaccaaaa aagagcttgt42781 atagccaaga caatcctaag caaaaagaac aaagctggag gcatcatgct acctgacttc42 aaactatact acaaggctat agtaaccaaa acagcatggt gctggtacaa aaacagatat42901 atggaccaac ggaacagaac agaggcatca gaaataacac cacacatcta caaccatctg42961 atctttgaca aagctgacaa aaagaagcaa ttgggaaagg attccccatt taataaatga43021 tgttgggaaa actggctagc catatgcaga aaactgaaac tggatccctt ccttacacct430 tatataaaaa ttaactcaag atggattaaa gacttaaatg gaagacctaa aaccataaaa43141 attctaggag aaaacctagg caataccatt caggacgtag gtatgggcaa agacttcatg43201 43261 ctaaagagct tctgcacagt agaaaaaaaa aaactatcat caaagtgaac aggaaaccta43321 cagaatggga gaaaattttt gcaatctatt cacctgacaa agggctaata tccaaaatct43381 acaagaaact taaacaaatt tacaagaaaa aacaaacaac accatcaaaa agtgagtgaa43441 ggatatgaac agatgcttct caaaagaaga agtttatgca gtcaacaaac atatgaaaaa43501 aagctcatca tcactggtca ttagagaaat gcaaatcaaa accacaatga gatgccatct43561 catgccagtt agaatggcga ttattaaaaa gtcaggaaac aacagatgct ggagaggatg43621 tggagaaata agaatgcttt ttacagtgtt ggtggaagtg taaattagtt caatcattgt43681 ggaagacaat gtggcgattt ctcaaggatc tataactaga aaaaccattt gacccagcaa43741 tcccattact gggtatatac ccaaaggatt ataaatcatt ctacgataaa gacacatgca43801 cacttatgtt tattgaggca ctattcacaa cagcaaagag ttggaaccaa cccaaatgcc43861 caccaatgat aaactggata aagatgatgt ggcacatata catcatggaa tactatacag43921 ccataaaaaa ggatgagttc atgtcctttg cagggacatg gatgaagctg gaaaccgtca43981 ttctcagcaa actaacactg gaacagaaaa ccaaacatta cccattctca ctcataagtg44041 ggagttgaac aatgagaaca catggacaca gggaggggaa catcacacac tggggcatgt44101 caggggatgt ggggctaggg gaggaacagc attaggagaa atacctaatg tagatgacag44161 gttgatgaat gcagcaaacc accatggcac atgtatacct atgtaacaaa cctgcacgtt44221 ctgctcatgt atcccagaaa ttaaagtata atttaaaaaa agtttaaaaa aagaaagttg44281 ccttagtcac ataactagta agagacatgg ttgggaattt gaacagaggc caatcagttc44 caaatccatg ctcttgatca ttaagctgaa cttatggcag gaacttggaa gacatggtaa44 aatggggaaa aacgtggagc cagggagact tgtgaaagtg ccagtgctcc cactataccc44461 tgaaagaagt atctagactt acttttttct aagtcctctc ctctaattct ctcaatctct44521 ctctctcttt ctctaagaga tgggaatgct gctctgtcac tcaggctaga gtgcagtggt44581 gcgatcatag ctcattgcac tcaaggaatc ctagggtcta gtgccccttc tccctcagcc44641 tcccatgtag ctaagactac aggcacatgc cccaaccctc gactaatttt tttatttttt44701 atttttgtag agacaggatc tcactatgtt gctcaggctg taattctgtc ttgaagcttg44761 tccaatcagg ctttcagcca caccaattcc ctgagactgc tctcaccaag gtcctacact44821 tcactaacac aaacagccta ttctccatcc tcatcttact tcaccaggga gctcctggtt44881 ttcctcctac ttcactggct atttcttctg tatcatgtgt tgattctccc tcatctcccc44941 aacctccaaa cccttggagt actccagaga tcaccgcttt gctcttctgt gtctaacctc45001 actaacttgg tggtccaatt cacactcttg actttgaata ccatttaaat gcgaacgaat45061 tctaaattct gtacaaccag aaccattctc ctgtagccaa atgcctactc aacatctcca45121 45 45121 tccccaaaca aatttagttg ttcaataagc ctctcatatt ttacatatcc caaactgaac45181 45 45181 ttctgaattt ctcctccaat ctgtagggct cttcccacag cctttccatc tcagtggatt45241 ataactccat ccttccagtt actcagacca aaacttttgg agttaactga gacacctctc45301 ttttttttca caagtcatat ccaatgtgtc aacaaatttt ggtagtggaa atattgcggg45361 attttttaag aaatcagaga gaccgatggg gttcaggagg atatttatta tttaggtgca45421 ctggccaagt cagattaaca tccaaaggac tgagccctga acaaagagtt aagttacctt45481 ttaagcattt tgtggggtgg gagagagggg tatctgtgca gggggaagca tactacagaa45541 gtgagaaata aagacagtta ttcaattaat tgagacatgc attacatcat ttcttacttt45601 tcaagaagaa acatgttttg cgacttgagt ttatctgtct agtgaccttg cagctgcaca45661 45 45661 gctagagaaa cagggtcttc acaatgcctg ggaaaggagg agaggtaagt ctcactagcc45721 acagaaaaac aggcagttaa tttttaaagg gctccagctc tttctctttc tcagggggag45781 45781 ttgggttttg ttacatacaa ctgagtttcc gcttacacat tatttaattt cttttaattc45841 ctgttccaaa agaagccaga tacaaaaggt tacatgttgt ctgattccat ttatatgaaa45901 catatagaag aggtaaatcc atagagacag aaagtagatt agaggttccc aggggctgag45961 gaagaaatgg ggactaactg cttatagggt acagagtttt cttctgataa aaatattttg46021 gaactagata gacattttgt taggccattc ttgcattgtt ataaagaatt acctgagact46081 tggtaattta taaagaaaag atgtttaatt ggcttacact tctgcaagct ttacaggaag46141 catggtgccg atatctgctc agcttctggt aaggcctcag gaagcttaca atcatggcag46201 aaggtgaaag gggagcaggc atatcacata gcaaaagcag gagcaagaga gggatgtggg46261 gaggtgacag tcacttttaa acagccagat cttgtgagaa ctcattcact atcatgaaga46321 cagtaccaag aggatggtac taaatcattc atgagaaacc ccaccctcat gatcaaatca46381 cctcccacca ggccccacct ccaacactgg ggattacaat ttgacatgag atttgagtga 441 gaacacggat ccaaaccata tcagagatgg tggttataca atgcgataaa cgtcactgga46501 ttgtacactt taagatggtt gttttatgtt gtgtgaactt cacctcaata aaaaaaaata46561 tttaatgtac attcagccaa aagaagattt ggaataggaa aggtcatgga gatatattaa46621 cagccatttg atgggtggta aggaaaagag tggttattag actgttttgt ggccctcaaa46681 aggtagaact agatcgagtt ggtgagcatt ataaaaccat cacaaaaccc tggagagagg46741 acccagtgct gaagaaccgt ttgcctgcca tgagacatga gggaagtacc agtgaatgcc46801 attgaaagca gcatccctgg gtccaaggga tggtcaaagg accactaccc aacccttccc46861 tagcctacgc ctccattaca gatgaccgca agatttattt gctcattgct gccaaccaag46921 gctgcactca ctgcagttgc tatcagttta tcatgggtaa aaggaatgtg cagtagagaa46981 ctaactaact gcccacctac ctccacaatc ctatcaggac aaatcaccat ggctcacatt47041 tccttacatt tggcatgtaa gcccctctta ctgtctgtca tctatctcct acacagttca47101 cctaaactgt tctctcctga cccaaccttg attttcatcc caaatgcttc cttgccatct47 ctgggattcc tgtcttcacc atcaccaaac tcccctcaat cttccagttt cctgttcaaa47221 cttttctcct acctccttgc tttgtcatta gcccgactgc ctccctagga catcacttcc47281 cctgcagatc tctcaagatg acaatattta ttctccacac agcacatact tcagggttgg47341 aaggcagggg caatcttctc ctttataatg agtgcctctt atatatgttt attcatctgc47401 4742 47461 tgaagcttgt gacactgaga taaaccatct cactgtcctc attgtagtga cctctcaact47521 cctcatgcaa gattggcttt ggcacctagt tcctgatctt cctttccctg taagcacttc47581 tcatagtctt acgggacttc accatccatg gcacaaccaa taccacagcc cagatcctca47641 gctctccaat gacattttcc tccactagac ttgagctacc tccttcccta ggcacagcct47701 caacctcgac aacacctaag actgtaccgt ctctaaagtc acatgttcaa acacttcact47761 ctttaaccac tgtctcctat tcttgcaagt gtattgctca agtatctcat tgcaatgctt47821 tttacttcta cctcattgaa cctccaggcc attaaacatt tccttatttc taaccatcag47881 gtttctcctt acttgtttgt ttgtttattt gtttcttttt tttttttttt tttgagacag47941 ggtctcactc tgttgcccag gctggagtgc agtggtatga tctcggctca ctgcagcctc48001 catctccctg gttcaagtga ttctcatgtc tcagcctccc gagtagctgg gactacaggt 4806124 gcatgccact acgcctggct aagattttgt atttttatta gagaaggggt tttgccatgt48121 tggccaagct ggtctcgaac tcctaacctc aggtgatcca cctgcctcag cctcccaaag48 tgctgagatt ataggcatga gccactatgc cccacctggt ttctccttat ttatttcaag48241 tctatgctgc actattaaaa ctgccttgac aaaaattata atagtgagaa aattatgaca48301 gtgaaagaga tctgaaataa tcaaccccca tcttgccttt accttccaga ctgcccttaa48361 taattcctga gcttgggcca agctatcttt ggcagaaatt tagtttatag tttaaatgat48421 aatagccctt ctccaaaact aaactgcctt tgtaaaacta ataaaagacc accaatgaaa48481 ggttaggagg atgagaggag cctgaattct gctaaggtgt agatgtaaac aattaccaac48541 tgttattccg gaggtcacaa gatttgcaac atcgccaatt actcctgcag ataacagcac48601 tatcatagaa tctgattggc cttttgagat gtcttttcag attcttacat ttcaactggt48661 ggctctacct ggacccatca acaagtcctg tggctccacc cagaagcaga cttaacatgc48721 acaaggacca ttttccacac cgctatgatt gcatcccaac caatcagcag caaccattcc48781 tctgcctgcc aaattatcct tgaaaaatct tagccttaga attttggggg aggctgattt48841 cagtaataac aaaaccccgg tctcccattt ggctggctct gcatgaatta aattctttct48901 ctattgcagt tcccatcttg ataaatcacc tttatctggg cagcaaacaa aaggaaccca48961 ttggacagtt acactgttgg cagatatatc ttgcttccaa aattggattt ttgtttaatg49021 aatttattct gttttcttga tatttacaac tgtgaatgtt gtgtctgaat tctctttatt49081 tcttgttgaa aagaactata ttgctacagc cagtacatac agatggatag ctaattactc49141 aacacggggg gatgtgacca tcaccgcact gtgcaaatga atgttaccca ttgtccactt49201 49 ttcccaaact acatagtgtt atatggtata tgacccaatc aacggtggca aagctccaga49261 aataccacat agacatcagg gacactttaa actaatcagc ctatagtcct ttttcagtaa49321 tttccaaacc tggttgtgca tccaaatcac ttggtaacat taaaaaaaca aaaaaatata49381 cacgcaacat tcgctcccaa tcctactgaa tcagaatatt ttgggttggt tcaggaacat49441 tcaggagttt ttcagggtcc aaggtttata taatttgagg tctctctttg agaaaaggaa49501 cgtaaaagcg tcttgctttt atagatctta caaagatgta ttaccatgta aacacattcc49561 taggacccag gcccttgtaa tttaaaggtt tatctaagta atgggccctg aagcttaatt49621 ttcattatct tcagggcaaa ttacctgtgg gttagggttt aggaatatat ctctctgtgt49681 atgtgtgtgc acattagcat gtacgcttgt gtggattttt tttttttttt tttttttttc49741 tgagacagag tctcgctctg tcgccaggct ggagtgcagt ggcgtgatct ctgctcactg49801 49 caaactccgc ctcccaggct caagcgattc ttctgcctca gcctcttgag tagctgggac49861tataggcacg caccactatg cccagctaat ttttgtattt ttagtagagt tggggtttcg49921 9 49981 aaagtgctgg gattacaggc gtgagtcacc atgcccagca cttgtgtgga tgttttaagc50041 tcccaggtga gtgaatacaa aactagatct ttcccttctg tagcatctgt actgtttact50101 501 ctatgcatct caatattttt tcttttagta tctttccttt ttctctctta ttacttcctc50161 ttgtgctatt tttacacctc cttttttaaa aaattttttc ccttttattt ctattgacct50221 ttagccctca caatgattcc tacaagcccc atttctgtaa atggggattg aaataattgc50281 tggacttttg agagatagat atattaaatt gcaaactggc agtagtgggg gcagttgata50341 cataactagg ttttaaagtc tagccttctg agaccactca ttccatttgt gaaaagtgat50401 tctacttctt attatgagcc aaaatatgca ttcattcacc catgcattga tttattcatt50461 caataaatat ttgttggatg tccactctgt atcaggaatg tgctaggttc tgggaataca50521 gcaatgaaca aggtaatttt tccctacccc taaggaactt agagtttagt ggggaagaca50581 gacattaaac aaacaattgt gcaagtaata atctataatt atttattaca attaaaggaa50641 ggaagagaca tatggattat gagggcatta aagaggagac ctagtgtaag tagccagttc50701 tcgtgaaggg acatgtatta gttggagttc tccagagaaa cagaaccaat ggtgtgtgtg50761 tgtgtgtgtg cgtgtgtgcg tgtgtgtgtt ggggtgtggg ggtgtggtat tttttataga50821 aattgtctca cacaattatg gaagctgaga agtcccatgg cctgctgtct acgagctgag50881 aaccaggaaa gccagtggaa tacttcaaag tccaaaggcc ctggaaccaa gagtgccagt50941 gttggaaggc aggagaagat gggtgtccca gcttaaaaag acagtgaatt cactcttttt51001 gctctacata gggcctcaat gggttggatc atggccaccc acattggtga aggcaatcct51061 cttagtctac caattaaata ctaatctctt tggaaatact ctcacagaca cactgagaaa51121 taatgtttta tcagggtgat agaaatcttc tggagttaaa caatggtgat agctgtacaa51181 51 51181 tcacatacat ttttaaaggg tgcgttttat ggaaagtgag ttttatctaa ataaaatttc51241 taagaaagag acttaacaca gagataaaca taagcacatt tattgtcaac ctttatagtg51301 51 51301 ttatgtcaaa taggtctgac ataagcttaa ataaatatat actttaaaaa ttataaaata51361 ttttaagtta taatttaaaa ttctcaataa aactcaaaca caaaccacac tggtatttca51421 cacagctaat ttctaatgca gtttacataa atatttacaa cacttaaaca atttcaaaga51481 aaataacact gtattccata catagcctga tcacagtagt tgttctctct tatttcccag51541 agtttttctg cccctttaaa agaacctctg ctgttctgat ccttatcaca tctctgtttt51601 51 51601 gactgttggc tttgttgttg ccagtgttca gccagaactt ctctgaaact tttttttcaa51661 51 51661 cacatgctaa gttaatggaa gtgtaggaga gttttgattc tcacactcct caaggctaga51721 gcagctttgg caattactga ctgagaattt ttcattgcca gtgatcaact gaaaactgga51781 gattcctttg gaattgttaa atctgcttat aaataaacat aaatgcttgc tcacacaggc51841 attcctctct tccagagcac cctaacatac agaagaaaac aaatagggaa taactattag51901 acatcttcat tcgttaaaaa tctaccagat gactctttta catggtgagt ttctattgtg51961 aatttaaaat cttccataat atacaagaat tatgtttaca tatcatatct gacaaacatc52021 tttgtaggaa tgcaaagcac atccatcttt ctgtattctt ttccaacaaa gacattcata52081 aaattatacc tttgtgtgtt tgcatttatg cttttattag ttcaaaacgt ttggcctcat52141 ggaagttttt catcgtggaa accacatatt tctgaaaaaa tatctgacaa tatacaaacc52201 ttccattcag tttttactct ccaattctac catgttttca aaaaacaact gtagtaaaaa52261 cactcagaac tttattctgg ttaacatcat gccttgctag gggacaatag tttccctttt52321 tgaaataaat ttaaaacaga tgtaacataa tttgttaata aacaatgagg gggtaatcta52381 gaataagtaa cttttaccat atcatagttg acagcattta caagtttttt aagtccctac52441 cacacttgta ttgaatgaag aagtatggaa gattataata tattcaatgc aagtaaaaat52501 atcacaatcc ttaagaactc tttaagaagc actgaatccc atagggatga aagtgattaa52561 attgtgcata gtaaccctcg cacagagcat tcagtaggat ttgcaccatt aacaaccctc52621 catgcatttg cctgtgggca ttcaacatct gtcatttttt taagttataa tatttttagt52681 catttttttc ctctaaactc tggataatta ttattcattc ttatgacagc aactgtgtaa52741 tcagctgtcg aaacactgtg aagggcaaaa gaaagaaagc cacaaaatat tgtgtttctg52801 tgccaagatt ttacagcgag caagggagag ttagaaaagg aattctgaga tttcagagtc52861 ttggtctctt cacctttgct tggaagaaaa tatcctttcc cttcattagc caacactttc52921 ttgatcctga gagtaggaaa gggaacactg agtcttttca gttgaaggcc gtccttgcct 52987 53041 ggcatagtag gcaagaaggg ccagagaccc gaggagagtt atctgtctct gttaacttca53101 gtgtatccct ctagttcccc agatgcacct gtttctgtaa atataaacat gcatgtcatc53161 agaacactta atattctgca tactgatcat gacaacaaaa tgtaccttct aacacagaca53221 ctctcactag gatagaccat gtaggaacat cgaattctat tcagttagga cagtgatgat53281 gtctacatat tatacctctg tcaaaaccta cagaatatac aacacagcac agagtgaatt53341 ctaatgtagc ctgtggacat taatgaataa taatgtatca atattggccc atcagttgta53401 acactaatat aagatgttaa taacaggggg aattgaaggg gtggtgggga gatatgttgg53461 aactctttgt gctttctgct caatttttct gtaaacttaa aaccgcacac acaaaaaaag53521 ttattttaat tttttaaaaa gtattcagag ggacttgacc tttccaaatt ctctcaaagc53581 aggtcggagt agttaagaac acaaatttta gaaccagact gccagagttt gaatcctggc53641 tacaccactt actagctttg agatttcaga caatttactt aacttctctg tctcattttc53701 ttcatctgtg tgataagaaa taaagtaaca ggccaggccc agtggctcac gcctgtaatc53761 ccagcacttt gagaggccaa ggcgggtgga tcaggagttc aagatcagcc tggccaacat53821 gacgaaaaaa tacaaaatct ctactaaaaa tacaaaaatt agctgggtgt ggtggcaggc53881 acctgtaatc ccagctactc aggaggctga ggcaggagaa ttgcttgaac gcaggaggtg53941 gaggttgcag tgagccaaga tcatgccact gcactccagt ctaggcaaca gaatgagact54001 ccatctcaaa attaaaaaaa aaaaaagtaa aaagaaaaga taagaaatat agtaccagcc54061 cctatctcag agttcctagc ttagaaaaat tcccagaata taataagtgc aatgtaaggg54121 tcagctatct tcattattat tatctatcat aaatgaaatt acacaataaa gctagatccg54181 tttctttcct ctccttctac aaaaaataaa gcaactttcc agaacaatac ccaggtgatg54241 atttctcccc tgctccctcc ctaagatatt ggcaagtttg gagggttcaa ggagaaacag54301 agcatgtaga gaagatacct ctctcataac catttgtgat ttacaagtct tacctgattc54361 ttttgaactt aaaggatgta agaaggcttt tggtagcttc catctgattc aaggctttgg54421 cagctgctgt ggaatacatg agaacactag gtaaagcact gtcttccaac atgaagagag54481 aaaaatatgt ggaatgttca atggcatgct ttgtataaga atgcaactta cctggcagga54541 acaaatttct ttgctgcaaa agaaaagaca aacaaccatt aattcagact aaatgacttt54601 taaggatata ttaaatccag atacaatatg acttaattca tcaagtgttg caaactcgat54661 gcttcagggc ctctgtaata atcagagcac aagcatggct ctgtggcatc tagggtaaaa54721 tgcaaagtgc acagccatcc aaagggcata gcagcttcct aatgccagca aatagctacg54781 gggtcatctt gcccaattca gctcccaatt tttcatgaga agtccaaagt cttaatttaa54841 atgtgagatt tcctattttg taaacgtcag aacttaactc aaaaatgttt taagtactct54901 taaacatgta agccaaacaa accatgagtg tagtcagatg tgcttccata ttccttatga54961 gagactctca aatttaagcc tgtactccaa ataaatctcc ttaggaagaa ttttatccat55021 tttccttaga gtgctcatca tggcagttcc attgcacaat tccgggaggc atcatataat55081 tcaacatgaa tagcaccccc tggagttgta caatattagg cacgactaac atttttattt55141 cctgaaacac ttcccacact gagttgtact actaactctt ttcttaatac ttctgcttaa55201 ttatactgca ttttatccag attctaatta ttgtttaaat cagtaagcaa gaccatgact55261 tatcaatgag aaagaaatgt attttcaaaa acatttttga agtacattca taaacttcct55321 cacctttccg taagcatttc cgaagccaga ggagaaatgg tgctaatgtc aggagggaga55381 gtccagcagc agaaagtcca gctaccaagg gaatgttgga ctcagtggga gctaaggaag55441 taagagacga agaaaggtca tgaggaagaa ttgatgttaa agtctctccg tcctgtccct55501 ttggcctttt ttctgtacat tcattactag gagcagaaga gctatctagt ttaatacaag55561 aagcagagat gtggcattac aggcctttga gatctgctcc aagccacctt tgaagctatt55621 tccaccattg gcaggcagaa ctctaacttg ccaagctcgt tcacaatacc acaccacacc55681 ttggttaata aacactgcac ttgcttgctc tcttgctctc actccctctt gttttccatt55741 tcccctttct cctctcctct ctctgtctcc tttttccagt tgtcagaatt ctaccctttc55801 catcaacatg caacttctgt tttttctcta tccccataca acttaatatt cacaacttgt55861 caacctgggc gaactttctg gtttggatat aatgaatagt tgattactgt aacaagatag55 ctcccccttt ttctttttaa tcaccagaca accaccatca atcaatgcat caccttcaca55981 ggtaggtagc aggccagacc agtgtcctgt ggctccacat gtccgagctg cagagccatt56041 gagcgtccat ccttcaggac aggcgaactt gcacacagtg ccaaacacgg gctccccact56101 gcagctcatg ttgatctttc ccggaactgc caggcttgaa cattttacca ctgcaaatgt56161 taggtacaca ggcagagttt cagaaaaatc tactggaaaa cttccaaaac ttgcttaaaa56221 gtcaacaatg aatgtaaagt gtaagcgcta cttagttttc agcatgtagg aaattaggac56281 caaacccctt tggggcaatc taggttcaga aactttatga agtatttgac ctgtacccta 5656563241 aaaaagtctg cactcaattc taccttggca ggaaggaacc tcttctgtcc attgtccctg56401 agatgtgcac tcaagttgag ttgatccatg taattcaaat ccctcctcac agctgaaggc56461 acaagaggac ttgtaggtga attctccaat aggggaatga gcacacctca ccaaaccctt58521 57348 56581 gtttgtttgc atctccagca atacgtttcc caaggtaacc aagttcccaa gctcttcaat56641 agttcttttt atcttaaaat aaaataaaaa caaagactgt accttcacat gtgggcttct56701 cgttgtccca ctcccctgtg gggccacatt ggagcctttt ggatcccttc aacacaaaac56761 cctgctcaca ggagaactca cagctggacc cataacggaa actgccagaa gcactaggaa56821 gacaattcat gtagcctcgc tcggggttgg acaaggctgt gcactggaaa gctgagacat56881 caaaatgatg gtcagaaaat attgcagtgg aactagagag tacttggcgt ttgttgagtg56941 aacccagttc attcaagcaa cacttggaga actgaagatt ctttataatt ccctggacaa57001 atgggaagat ggctgtgttt tctttgaatt tcagccccct cactgatcat ggcactaatt57061 aaaagactaa ttaatcagaa cattagttcc tgagcactgt tcttctaaca cacaaaataa57121 attatggtcc aaggaaagat ttcacgcagt ctgaggacaa catatgggtc atggatgttt 5757181 atagatggtg ccaaaaagaa agaaaagaaa gcacccctat aaaatttgtc tgttttgcag57241 tttggttttt gtgttatgtt ttgctactgg aaatcattct gtgctggctt tggctaggac573 aaggccagtg cctgatagta aaaactgctt gttttcaata tccttgctct cactttaaag tgaattaaaa tttactgctt atatatgcat caatactatc tctgtagctg acaccatgct57421 tgaaacagtc tcatcactgc taattatgag ccatttcaga agacaggtgt gatgagagtt57481 ttacattcaa atcatgttct cattattctg ctttccgaat tttctaatat gattccttta57541 gattaagaat tctgtctatt ccatgctaat gtctacaaag ttttatcagc acatcacagt57601 taaaaaaaaa cagcaaagaa ttcattctta acacatatga tcctttccct ggccaaacat57661 tagttctttt aaatgaatct caaagatacg agggttgctc atcaaatctg atttctatag57721 ttaaagtggg tattggtttt ttttttcact gtccaagttt gaagatggtt gttctttaag57781 aaagtataaa tcgaaggatc tcaagcttac cttcacaaac tgggatttgc tgtgtccact57841 gcccttgagt ggtgcattca acctgggctg gtccctgcaa catgaagcct tcctcacagg57901 tgaagttgca ggatgatttg aaggtgaact ctccagcagg ggaatggctg cacctcacag57961 58021 atattagcac ggcctagaat tagcttgccc atttccagta tgggttgaga gaaagaatgt58081 tcacagtaag tctccatgtg gaacaactct acctttacac gttggcttct cgttgtccca58141 58201 58 gtcaaatgta caggttgtgt tccatgggaa gcttccaggg ttttggaaac attccacgaa58261 cccattggct ggatttgtca cagcatcaca ctcaaccact gaggatttta aagagcacca58321 tgaattttac agaagaatga tcttttcact tcctattgag ctgggtgcct aacagagtga58381 ggaagctgcc ttcaaagggt agatcccaaa gtcctatgtc aattcttagg gacatgcaca58441 gccagaataa aagcttttat tctttttcat ggatattcta tcttttctga tttccacttt58501 gcctatgctg agtggtctct aatctatgtt atcatttacg tgaggtaaaa atttaaaaaa58561 aatagattcc agattaggag ttatgactag tactgacata cgtaggctat tcatttattt58621 tagcccatca gagcctgaag aactgatttt tctttttttg gcctctggtt cagaaagata58681 aaattaagag agaaaaagag atactaagac tgcttgacta tcatggtctt aagttagtcc58 catggcttgg aaaagttaaa cagggaaaca agatgagaaa tccattgaga tttctagagc58801 tttattgttt tatggtctcc cttacaaatc accagagcct cagaaacacc catttcaagc58861 atagaataaa aaaacctctc tcaacccaag caggtactgg gttggcaata tacattggct58921 gagagaacaa attgtattaa aaacaaaaac aaaaaaaaaa ctttccctga agttttgaaa58981 atgtaagttg aatcaaaaaa cagaagcaat gagggatgag ttacagaacg ttctgtgcat59041 tctcagaggg atttaccatt gcaggctgga ataggagcac tccattctcc agaggacata59101 cactgcatgg tctccatgct gcttggcagg taacccctat cacagctgat agagcaggaa59161 gaattgtagc tgaagtttcc cagtgggtga ctgcaaacca ggcttccatg ctcaggggat59221 3959281 cctttaacag ataagaacac tggaaactag aactacagtt tggttttttt tttttttagt59341 ttaaaaattt ataaaatttc taatggaatt tgtaaaattg actgtaattc tacccctttt59401 cttttattca agaaaatgct gatccataac aacaacaaca aaaaagcagt gatgacaacc59461 ataaaaaaga aatattgagt gatatgggga gagtagtgta attgtgttta cctcaaaact59521 gttcaaatta tatgaacaaa cacagcaaac ttaggtacca caacaaattt cttgttactt59581 ttctcacaac tgctaaaaat actacagtaa gcttccaacc aggatgagaa ccattcacaa59641 agctatattt caaatttaag tactagaata cattacaaat tttaaaaccc taatgctgca59701 ctgtctacta tagtagccac tatctgtgtg gctactcaaa tttaaacttg aattcgttga59761 aatcaaataa catttaaaat tcagttcctc agtgtcacca gccacatttc aagtactcaa59821 taaccacatg tggctcatag gtacacactg gaaaacacag ctatggaaca tttccattat59881 cacaaaagct ctactgcaca acgctgtgct aaggaatctt ggagagaagc tcatctaact59941 ctcttaatgt acaaatttag gaactgagac ctcatttcat tcaagtgact tgctccatgc60001 tacacggcta gtcattacag agccagaggc cagagcatga accaagatac cctggactct60061 gtaactcact catttctact gcaacgtctt gttaccacct agatgaggtg agtacatgtt60121 8681 60281 60241 tagagagtta aactatcttg tcaaggtgcc aaaataaata actggtgaat ctaggactca60301 aacccagcag ggtctgactt catagtctca gctcacgatc accatatgac accatctgca60361 ccagggaagg gaaggcatgc agacctgact ctaatgccag ctaggacgtg agatggtgct60421 accatctcaa gtgaagaaag aggcaagaac cagacttact ttgctcacac ttgagtccac60481 tgaagccagg gtcacacttg caagtgtaat tattgatggt ctctacacat tcaccgtggc60541 cactgcagga tgtattggta caggcagcta cggaaaatac aaagcatgat gaggaggact60601 attactgtgc ttatactgag tgcctttgat tttagaatcaacagtgtgca acagagacat60661 cagcagtcct acagagtgcc atagacttta actgaagtgt tttacaaagt tccaaatctg60721 agtttcaggc ccacctatcc taaaccttga tgctaatgta tagctgtggc tggcacctac60781 cgtagaaaat ttacttcttc acaaactctg aagacagttc ccctaccaca aataaacaag60841 taattaaaat atgtattgtg tgtgtgcatt tttatatgta aagaactaca tatttgccta60901 cagtatttat atatatttta tatatataca tacacacata tatgtgtgta tatgtgtgta60961 tgtatatata taaaatgtat ataaatgctg taggctatat atatatacac acacacatat61021 atgtgtgtgt gtatatatgt gtgtgtgtgt atatatatac atatccacat attcttgccc61081 acattcacac aaaacagcaa aagagagaaa ctttagcagt taaacagaat cttttggaac61141 ataaaatgac cacaatagag agcagttttt gcatgctgta aatttgccaa gatgcccaca61201 cactgaaact acctcccact gctgccgcaa actccctacc tgtgtagcat agggcaagct61261 tcttcttgct gcacctctca tcattccaca tgcccacatc tttttctctc ttgatgtaga61321 tctccacgca gtcctcatct ttttgcctat tgttgggttc acctggagcc cagttcttgg61381 cttcttctgt cagaggtttc tgggttccta cccagaccca cacattgttg acttttctga61441 ttccaatcca gtaataactt ggtgaatagc tcaatatgga gtttaggtac tcaatctctt61501 ctttgttttg aattgcaacc aggtgtgtgt acctttgctg acaataagca ctggcctcat61561 cataagtcat agcttccgtg gaggtgttgt aagaccaggc tccactctct ttaatgagaa61621 gcactagtgg gagaaaaaga aaagaaatgg tagagtttgg tactgttgtg gtttaactct61681 gacaactgtg ctttttattg tcttattttt ggcaatgttt gtgacatggc ccagactttt 6136741 ctcatctttt caaaagtaag aagtacgtat gaagaaacag 741 cgacttattg tttatctctt61801 ttgtgactgc cacccactag gtaccttatc cacactcact cacaacatta tagtataccc61861 attttgtagt agaataataa tcagaataac taagctttat tgagcactta gtatgcacca61921 agaagcactg tatgaggtac tttccatgaa ccatgctatt gaatcctcac aatgcatctg61981 ggaaataggt cattatgatc cacactttac acttaaggaa agggagacac caagaggtaa62041 agtaaatgac cccaagccca gggaagaaca cattgcaggt agaggtcaag gatgctgcca62101 gatatcctgt gcaggacagc cccagacaag caaggatatt tcagtctgaa atatctatag62161 tgcgagaatg agaaatcttg gtctaatggc actgacttac ccaaagtgag agctgagaga62221 aactgtgaag caatcatgac ttcaagagtt cttttcaccc aaaggtttag gcttgaaata62281 ctttcctggg gagataaaac acaaaatgaa ttaaagaagg aaatcgtggg tagctagtta62 cattattcta ccatgatgtt taaggcagca tcctaagatt ttgggcaaag gacactagtg62401 caataatctt tatttcagag tttaatcaaa taaataaaca aattttaaga ctttcattat62461 ttaggtcaaa gagaaaagac aggttttagc tacaatacaa taagagcttg tacagatgtg62521 gtttttatta gaaggccttt tgcatatctg tgtttcatgg cccgaggctg cccttataaa62581 gcgttctgca cttaccgttt tgggaagcag ttgttcaaac acaggatctc tcaggtgggt62641 atcactgctg cctctgtctc aggtcagtat aggagttttg atgtgaagtc agccaagaac62701 agctgaacac tacttcggct gaggcccttt tataggaggg attgcttcct gtgaataata62761 695 2 62821 gggaatatcc acgatgctta aaattacaat gatgtcagaa actctgtctc ttgaagctac62881 84629881 62953 62941 tgatttttaa ttataataac ataaagtcta tgtctttaaa aagttgtaaa actttgcttg63001 63061 874 63121 accaatcact actcattttt tcttcctttt tcacctgcca attcaacata tttaacatgc63 actgtctcac agaggaatga ctcacaaggt agatattaat cttcagattt tgcacggcag63241 ttatgcctaa attaaaatat tatctaaaaa taatatctaa cactcaaatg gttaaaataa63301 tgccttattt taaaaaaaga aaaatgggaa atagatattt acatctggga aagtttcatg63361 gtttgttcag tgaaaaaaat aaaaaggagg ccaggcacag tggctcacgc ctgtaatccc63421 accactttgg gaggccgagg caggcggatc acctgaggcc gggagttcaa gaccagcctg63481 accaacatgg agaaacgcca tctctactaa aaatacaaaa ttagctgggc atggtggcgc63541 atgcctgtaa tcccagctac tcgggaggct gaggcaggag aatcgcttga acccgggaag63601 tggaggttgc agtgagccaa gatcacgcca gtgcactcca gcctgggaaa cgagtgaaac63661 tctgtcttaa aaaaaaaaaa aaaaaaagaa aagaaaagaa aaaaaataaa acggaaaact63721 atatatatat atttaattgg tcaaaatttt gtttaaaatt tttgaaatgt taatgtgcaa63781 agaataaaaa ttcttccaca atgttaacag tgactaactc tggatggcag gatttgggat63841 aatttttata tccttcatta ttattttcag gattttaaag tttttttcaa tttccctttt63901 tttcaccttt atagtaacaa gaatacagtt taaagaaact tgtctctagg ccaggcatga63961 tggctcatgc ctgtaatccc agcactttgg gaggctgagg tgggtggatc acctgaggtc64021 aggagttcca gaccagcgtg gccaatatgg tgaaaccctg tctctactaa aaatacaaaa64081 attagccggg gtgtagtggc gcatgcctgt aatcccagct actggggagc ctgatgcaag64141 agaatcgctt gaacccagga ggcagaggtt gcagtgagct gaaatcacac cattgcactc64201 cagcctgggc gacagagcaa gactccatct caaaaaaaaa gaaaaaaaga aaaagaaaag64261 aaaagaaatt tgtttccaaa tgcaacagaa ggagatgtat gtggtatcct atattcctgc64321 tcttcatttt gacatttctt ctgggtgatt gtatacattc cccatctctg catcttaccc64381 tatctaaatg atggtaacag taaatgggga tcattttaat ttccatattc tgtaggtttt64441 cagagctcaa gtcaagctaa tattctatat ctacagcctt tcaaaatagg aggtctatct64501 aaaaatgtac tgtcagcaga cctgaacgag tagtggtaaa agcctcgttt ttctctttac64561 ttgttagcac tggtctttct gtgttcataa agatgtcaag acccaaaaaa aaaacaagaa64621 aagagaagaa aaattccaaa aaagacaact gattagaaaa aaataactta attaacgaat64681 ttaattcaac ccctatcaaa aagcatagaa tttattccct ccaccttacc actctcttac64741 atgatccaga tactgacatt attccaattc tttatcccac tttacttagc tcaatgtggt64801 tgttgcttca ataaattcag aagagtaatc actcatatag tgtttattta gattttaggg64861 cagaatgtca agttgggtta atacattatc tgtatgtatt ttatttttaa taaagtatga64921 atacataatc tgctattttt aaaaagcatg gtcaaatgta tagagtagcc aaatcttaaa64981 aaacaattta tcttcgatat caataaagta cctaataatt atattgctaa tagaaattag65041 tcgttaacat ccctagataa ctaactttat tattgcgaat ttttcataac taagtttata65101 gtttatctct tccccttttt aaaattagtt caaagatatc taaaaatagc cccagtggtg65161 atgaagtttc tattttactt acatatatat gtcctggacc cccaattata atctctaaca65221 tttattgagt gcttactatg tgccaggcca tattctgagc attttgtatg ttcacctatt65281 gattattcaa tccgtacaac agcctatgaa ataggtactc ctattatccc cattttacag65341 atgaggaaat tgagaatctg gggattttat ctcattcaaa agcacagagc taagggttga65401 aaccaggcag ttgatatcca gagcccactc ccttacctgc tactccaaac catgatttct65461 tttgttgtta tgccccgaga ttccttgttc tacccaagtt tcctgtactc ttcttgccct65521 cttcttcctg agacatcctt gaccatcaca gctctccact gagataactg tgtcctgggt65581 tctgagacat gggggctgga agggacccca gggacagtga gcagtaggga gaggatgcag65641 tgagaacaga ccctggatcc ccggtgcata ggcagggaga aagtggacaa aggaaaaaac65701 aagcaaggca ggtggagcca tgcctaggta aagttgatcc ctaagccaca gttcccagaa 761 gttcctgatt caaaagcaaa ttttctctaa ggtcaaaggg caaactgatt attctaaatt65821 ctaaactgat tatttctaaa ttgagaaagc ttcagggaga gatcccaata ttcgaaggat 65941 874 taatatataa tatatgtaga gtatatatat ataattacaa tatattatat atgtggaata66001 66061 ataaatatag atatttttat attttatata taaatataga tatttttata tatattatat66121 ataaatatat gtaaaatactgtgaaagaag aatagaatct tgagacctca aattcactat66181 gccaaaggga aagttaagct tgggaaatga gtcatgcaaa aactgccttc cttttgttcc66241 caaatacctg taatttcaca tgcttacttt atcttatata aaatgtagat gtactgagca66301 tgagatccat gcataatttc cctctagtcc cttcttttta catgtaaagt gtagactcac66361 tgagtgttac agagccttgc cacaatgtaa acacttgtct cattgccaac ccatctttcg66421 tttattttct tcccctcctg cttgctcttt cccctctaaa gatggaagtt cccaaaactc66481 tctttggaaa aagcgcaggt cacagatcct acagtgattt gtgtttcttt tacctgggac66541 35 66541 aaaataaacc tctaatctgt tgagatatgc ttcagttact ttttggttta caatatgtac66601 atgtatgtat ataatttata tgtatataat atatgtactt gttttaacca gaggtatgtt66661 attcaaaatc cattcatcct tacaattacc tgcattctcc cacagtattt tctgtgtccc66721 tgcccccgag gttgtcactg caaatcaggt acatggatac tgggagctga tgggctcccc66781 tctggctacc tgggctgctg aaggggccat agacagaccc agctttcctc tcgtggagag66841 gccctgggcc agcgctgcgt gggagtggga ttacaaccag actatagctt cttcacctgc66901 tttttcctat caggatttca taagaggcaa ttgcttgttt tttgagggtg ggggcaaatc66961 agggggagtt gaagaggaaa ttgggtaaga tttgaatagt tgggcatgtt gaatattatg67021 aatatcatct ccctcttcaa ataatccaaa atataccccc aagaaacagg ctgattagag67081 gtgcttcaag gctccactga atctcccaag ctctgaagat gtagctagct gttaccggat67141 tgccggtttt caagcctcgc ctcacatgga ccctcttggc agtttctcgc atgggggaag67201 catccgctac atagatggga atgaaaagag gaaagaagac ggtgcaaact caggcacacc 67321 ctcttcctgg aagtctcttg tcctctcctc cacacccttt aatcaggcat caaagacttt67381 1 ccggtgtctg ccaccagtgc tatttaatct ctgaggtgtc acccttcctg gctttattgt67321 ctcttcctgg aagtctcttg tcctctcctc cacacccttt aatcaggcat caaagacttt67381 aaccagtttt gctgtgtgcc caggcccact cattctcact tttatggcaa agggagtggg67441 agacagagag atagccagaa agaagagatt ggggacccca agacaaatgt tagaatttta67501 67561 67501 accaaggcca ccctgtggac aggagattat tgggtttagt ggaaagcagc actggccaca67561 accacacgtg gcaaaagcat ctatcgagga gtgaagttat atttggtgaa tgtgaccggg67621 aagcaggggc agtggtgtcc tcctgccttc ctgaggcact ctgttccctt acctctgcga67681 aggcttattt tacccctgag tgcttagttt tgaaagcctt agttccctct ctcccataaa67741 aaagctctac tctgctaaca tctaagttac ctttgcagag tcttaggtag agggaggaaa67801 tcccaataaa gattccaccc tatctgcaaa atacaaacat ggtatttctt gcattcccaa67861 aattgtgaaa gaaaatgtgt atcaccacag tagagaatgg cattttttgt ttgatcaaaa67921 cctaaatata tttgatgaaa atgtgtctgg ttctaagttt atttcccaga aagccatgtt67981 tactcacttg gaatttatag acatcttata atatctgagt cgagtaggag ctccgggctc68041 tacctcactc ttttctccca cacccagggg gaagtgtagg gttctcagac tttagaataa68101 agaggaatca cctggacaac tcacctaaaa tgcacatctt caggtctcat actcagaggc68161 tctgactcaa caggtctggg tggcgcccaa gaatttgggc tttaaatgag tatctcagat68221 gattctaata cagaatgtgt aagatgacca gatcctatca cacttagatg tattggccta68281 gggccaccta acttggagaa aatgttagta agaccccgtg gttggtgctc agctataggt68341 accagaattt tgatcaaaat ttactatcat tgtgacactt ctcttcggaa ctggaaggcc68401 agaaccccac ttgtaaagtg ctgggaaaat acaaggaaaa tttagggtga gtagcatttt68461 gaattcttac acatggaaag taaatgtata agaattctta ccaataaaaa aaaagcaaga gagaatagct gctaaagaat taacacaaat atgtatatat tagttattct cttttctcct 68521 68681 6862 68641 acttgaattt ttcatgtgct ttttgcttcc tatttggcag catcttatct tgaagtttcc68701 gctttctgct tggggaccta aaaactaact aatgggaatt tcttcaaaat gagcaaactc68761 tggtgaattc ccaaagcgga agaaacaagt gaggatcggg ctggttaatt aagagaactt68821 68828 688 ggattttaga agagcccctt gtttgttttc cttggccatt tgtgctgctt gttttgtaag68941 tcagaaattt cctgaaggac tattattagc tttgttctca cgtcagaaaa cttctgctct69001 ggccactttt aaacatataa cttggatttt actgtattag aaaatgtaac aattacagac69061 agcactaaaa ggacaccaaa gggcaaagaa aatgggtaac ttttttttct tccccaaatc69121 taaaataggt gattttggag aagtaggaga aaaacctgga tttgctagat ctctttagag69181 ctcaacaact gatatagtta attatgtaag tctttgatat ttggaaatga ttggattaac69241 cggataacaa tgaatattta aatacagtga tttggccagg agcagtggct catgcctgta69301 atcccagcat ttggggaggc tgaggcgggt ggatcaccta aggccgggag ttccagacca69361 3969421 ggtgcaagac tgtaatccca gcaactcggg aggctgaggc aggagaattg cttgaacccg69481 ggaggcagag gttgcagtga gccaagatca cgccattgca ctccagcctg ggcaacaaga69541 gcgaaattcc atctcaataa ataaataaat aaatacagtg atttaacaca agagatttct69601 atttcacact aatgagctct gtcactgggg caagcttctt tgcctcatta agtctcagat69661 ttcccgagag cttatttatt tataccaaga gtgctttact accgtctctg ctagctgtga69721 cataatatga caaaaggtat aaatatggga aaaggcacta atttatatca aagcgttctt69781 cgtttttcct tgctgtgaag tttttagcta ataattcata agaatatacc atatttagag69841 tgtttactat gcatgggcct ggcacttcac atacattgct tcttacaaat tttacaaagt69901 gaaaggtaga tattaatctc attttatgga ggacaagata gagatctgga gaggttacat69961 aacttgccag tgttttttca gttaataaat ggtagggtgg agattcaatc tgtgttactc70021 taaagtccgt gtccttttta ttggctccat gcctactcag atttaaatct cagcagggaa70081 70141 catcccagtt tcacgagctt agtgccttag atcgggttcc tttagaagca gacctcgaaa70201 taaggatgtg ggtgccagtc atttattgaa aagatgatcc caagaaagcc tagtaggaga70261 gtgaggaagt gagatgggga aaggaagaaa ctccacaaga agtgtgttaa taagcaggtt70321 accgctgtgg gcagccatgg ggctcagctg cactaacaaa ctctgtctag tacagaaaac70381 ctcagggtct ccccaaggag gggcaagaag tctgcctagg gtatatatcc gccaactcag70 tcactggctg agagctgatc ctgggagggc atggttaatt cctctgcact ttcaagtgga70501 ttcctgtggt cagaaaaagc cctctacaat gaattccaga tgcttgtatt taaatctgac70561 atgatctgaa tgctgtgttg ggacagggtg ggcgttatta gttttctgtc attactgtaa70621 cagattacta caaacctgat ggctgcaaac aacacatatt tattatgtca tagtttgtgt70681 gggtcagaag tacaggttag ctcaactagt ttctctgctc taggtttcac attgccaata70741 tcaaggtgtc atccagttgg gctcttcttg ggaggcttgg ggatgaatcc actttcaagc70801 tcattcagat tgttggcaga atccagttcc ttgtggttgc aggaccaagg tccctgttgc70861 cttgctggct gttggccagg agtcattctt agcttctaga gactacctgt actctctgac70921 tcgtgtctcc acttcacctt tcaaaccagc agcggctagt cgagtccctc tcttcaaatg70981 tctccaactg tgccttcacc tcatttctcc tctgtgtacc atgtctgcct ctactgcttg71041 taagggctca tgggattaca ttggatttat tcaatccagg ataatctcca tattttaagg71101 ctagctgact agtgatctta attccatcta caaagtccct tccaatagta ctgtattagt71161 71 71161 ccattttcat gctactgata aagacatacc caagactggg caattcacaa aagaaagagg71221 tttaattaga tttacagttc cacatggctg gggaagcctc acaatcatgg cagaagtcaa71281 ggaagagcaa gtcatgtctt acatagatgg cagcaggcaa agagagagag cttgtgcagg71341 gaactcctct ttttaaaacc atcagatctc ataatactta ttcactatca caagaacagc71401 atgggaaagt cttgccccca tgattcaatt actcccacca ggtccctccc acaacatgca71461 ggaattcaag atgagatttg tgtggggaca cagccaaacc atatcaagta cctagattca71521 tgtttgatta aacaaccagg gagcagaaat cttcaggagt ggggggcatc tttagaattc71581 tgcccaccaa ggctgggcgc ggtggctcac acctgtaatc ccagcacttt gggaggccaa71641 ggtgggtgga tcatgaggtc aagagatcga gaccaccctg gccatggtga aaccccattt71701 ctactaaaaa tacaaaaatt agccaggtat ggtggtgggc acctgtagtc ccagctactc71761 aggaggctga ggtaggagaa tcacttgaac ccaggaagcg gaggttgcag tgagccaaga71821 ttgcgccgct gcactccagc ctgggagaca gagcaagact gtctcaaaaa aaaagaattc71881 tgcccatcat agtaggctgt 639 cctacagaga cataacccag gaattaggtg aatggctaac71941 ctaaattagc actgtgatgt gttttctgac ttggtcctta tagctcctct gcttagatgt72001 ggaactaatc catgaatgca agggtttgtc tagagtttta agtgggagtt aaatatccaa72061 agtacaggag atattatggg tgcctcatcc atgtcccctt ggcatttatc tttcttggat72121 aacccaactc tattagtttt tatatctcac ttgttcctat actctgtgaa ctgatgtccc72181 ataaatagac atttcatttt gccagtcttc ttgaacaata attacgatta ttaatctagc72241 agttatcatt aattggccac ttcacattag acacagcact taggacttaa gaataccatg72301 7272361 72361 ggcactgagg gttagagttt aaataacttg cttaagatgt catagcctgt aagtgacaaa72421 actaggactc aaatacaggt ccatctgact ccaaagtcta tgttcttggc taccacactg72481 cctctcctac aagtgacctg tggttttact actatattca cactctacta actttaccat72541 ctcccatgag tctgtctaga ggagggcaca cacagcacag aaaacacatg aatgcaaaat72601 aaggaagggc ctacttacta cacagagcca ttctaatacc tgatgtttgc tctaatccag72661 ttttactatt aattagttgc tggtgcccaa gtttttactg agaaatgggg ataattttgg72721 aagtcataat gatgccttct tctcataggg tattttattt gttgttgtat ctccaggccc72781 caacacagcc tggcttttag taaatgatca aaaatacctg ttgaatgaat aaatggagtc72841 acctgaaaca tgttaaacat ttgttcatgt gtcctaatcg tggatttcag gatagtaagc72901 atcctaaaag gaaagcatgc acactgttct tgctacatta atttctcaca atataaaaaa72961 agaaaagcat ctgaaaaaag ctgccagccg ctgtgtctcc taatatcaaa ctgagcacag73021 atatggagaa gctaagggag agggatgatg ggccatgcct ctaacctcat catggcaaaa73081 gtcctggggg tcagacccga ggagagcagg aagtgtcttt tgagggatac atttccacag73141 73201 ggtagtaggt tttcacagta aggaagcact tctttttttt tttgtttgag acagagtctc73261 gctctgtctc ccagcctgga gtacagtggt gctatctcgg ctcactgcaa tctctgcctc73321 ctggattcaa gtgattctcc tgcctcagcc tcccgagtag ctgggacaac aggtgtgtgc73 cattacacct ggctaatttt tgtattttta gcagagatgc ggtttcacca tgttggccag 7335441 gctgatctcg aactcctgac ctcaggtgtt ctgcccgcct ctgcctccca atgtgctggg73501 attacaggca tgagccactg cactcaccaa gcacttctac tgatagcatt tacaaaccct73561 tcttagaata tttaaaaatt ctaagagaag agtaaattga gccttcccaa ctaatactag73621 gaggttataa ccttcatacc aaaactggac aatgcttgca caaaagaagg aagccaatga73681 ggccacctag aaggaagact gggcattggg cccagtgagt cctggaaacc tcatctgtgc73741 cagccacccc ggcatggcct gtatgagtgg atgagggtga cttgtccaca gacaatagcc73801 atctagctgt gataaaggag tcaaggtagt cagctgcatc tctttcacct gtttgccaat73861 gttacacagg ttgaaaagct aaggtttatg taaagcaagc atcaaagatg atgaaatgat73921 caacctgaca atgagtacta tgctgcattg tccagaaagg aactgtggaa gattttgggc73981 tgaatttcaa aacagaattt cctcactctc tggatgttgg cttacttggc ctttgatgtt74041 cagaggtggt gcctttgtgt tgttgaacaa tgttgatttt ggagagaaaa cagagttgaa74 aaacccacaa gtcattccct ggggagtatt accggaatac agaggataat ttcagcaagc74161 cagcaaggcc tcatctctgc ttctaataga taggaagaaa ggaagagagg aacaatactt74221 ttttaagaag ctcagcttta tcgccttatc tcatagaaag atgcctccag tctgtctggc74281 taaaggtaat tggcatggga aagtctttat ctgtgattct aacaagtgga atgtttccct74341 tcattaagag agccttgtct ggcttgggga aatgaaacac tttctccgat atgagtgggc74401 tgtaacccct gctactaaat actcagaaga aataaggcgg ttgtggagca gtcaggaatg74461 agtcacttgc ctccctggaa tattcagaaa actgaatcaa aagtacattc ttctgggttt74521 86521 27 74581 863 74 tattgctgct aactagctat gtgaccttaa gcaaggtatt aactctctct gaatttcagg 74761 ttcttcatct gttaaatagc atatctgtaa aatgggaatt attttcatat cataatgctg 36761 tagctttaaa aaataaaata aaatggatga gataatcaga attaaagagc ctgggatata74821 tagttaatat atagcagcat gtaaagatcc tgttagaaat gctaatttta cagttaacca74881 tttggagatg atccgccaaa gctgctagtg tagaggcaac tgagaatttg cctgtccttc74941 agaatatgaa taaataactg tcaatgatgt ctcaagccta gaaaaaccta tccatctgga75001 tgggtgggaa atttctaggc tagtattgag aagcccattt cttgggaaat aggtcctgga75061 ctgagtgaag gaaaagaaac agtaaaaccc atggtaaagc agcaaggctc tctagaggct75121 ctggagagga tgaattgaat tctagaagat gaagtaggga agacgcttta ccttcttgtg75181 aaatggattc aaagattcaa agaccttcgg gaatctccaa ttgtataaat ggcaccatag75241 ctgtatgttc catggaacac tacttcccag agatgcccag tgaaaaaaga atgccacagt75301 caaataagtt tggaaacact ccattatgtg gccacctcct tgaagactct aatgcacatt 75348 agcatgttaa acagtcttga gaagtcctgc agagcagaaa ttgcttcaca tctgctaagc75421 cggcagtttc ccaatatact tgattatgga tagttttttc cttacaacac cattctctga75481 tatgcttcca atgacatgaa ataaatatat atgcatgagg ttcttcatta gggcatactt75541 tttaatagaa aatattgaga ataatctaaa tataaatgca cagcatttac cttttctgca75601 taaactatat acaggcatac cttggagata ctatgggttt ggttcccaca atatctccaa75661 aaccacattc ggttttatga ccactgccat aaaaccagcc acatgaattt tttggtttcc75 caatgtatat caaagttaca tttttactat accatagtct attatatata caatagcatt75781 atatctaaaa aacaacgtaa acaccttaat ttaaggctgt ggctggtttg attttctacc75841 cagaccacta aaactttctt catatcagca ataaggctgt ttcactttct tactattttt75 tgtgatagca cttttccttt ccttcaagaa tttttccttt ctattcacaa tttgtttgat75961 8676021 gctaatgatc atctgagact tcagcaagtc ataatctttt gctggtggaa ggtcttgcct76081 cagtgttgat gtctgctgac tgggtggctt tggcaatttc ttaaagtaag acaacaatca76141 76201 caatgctctt tgatagcatt ttacccacag tagaattttc aaaattggag tcaatccttt76261 caaactctgg tgctgtttta tcaactaagt ttatggagta ttagaaatcc cttgttgtca76321 tttcaacaat gttcacacca tcttccccag gagtatattc tacctcaaga aaccactttc76381 tttgctcatc tataagaagc agctcctcat ccactaaagt tttatcctga gattgcaaca76441 attcagttac atcttcaggc tctacttcta attctagttc tcttgctgtt tctatctcat76501 ttgtgcttac tttctccgct gaagtcttga accccttaaa gtcactcatg agggttggaa76561 tcaacttctt acaaactcct gttgatgttg atattttgac ctgctcccat gattcatggg76621 tattcttaat ggcatctaga atggtgaacg ttttcagaag gttttcagtt ggctttgccc76681 ggatccatca gacgaatccc tatctatgga agctatagat ttataaaatg tatttctttt76741 76801 actcactgaa gactcaaact cctgggctca agtgattctt ccaccttggc ctcccaaaac76861 actggattac aagcttgagc cactgtgtct agcccaaaat gtatatcata actaatgagg76921 cttgaaagtc aaagtgactc cttgatccat gggctacaga atggacgctg ggttaccaga76981 catgaaaaca atactcatct cctcatacat ctccttcaga gctcctgggt gagcaggccc77041 attgtcaaat gagcagtagt atcttgaaag aaattttttt tctgagcagt agatctccac77101 agtggactta aaatagtcag taaactatgc tgtaaacaga agtgctgtca tccaagctct77161 gtttttccac tgatagggca aaagcagagt agatttggca taattctcta gggccttagg77221 atttttggaa tggcaaattg agcattggct tcaacttttt tttttttttt tttttttgag77281 acagagtctt ggtctgtcac ccaggctgga gtgcagtggt gcaatctcgg cccactgcaa77341 gctctgcctc ctaggttcac accattctcc tgcctctgcc tcctgagtag ctgggactac774 aggcacccgc caccatgccc ggctaatttt ttgtatttta gtacagacgg ggtttcgcca77461 tgttagccag gatggtctcg atctcctgac ctcgtgatcc acccgcctcg gcctcccaaa77521 87481 3641 ttctcttctc tagctatgaa aatcttagat agcatcttct cccaatagga agccattttt77701 tatgccctaa aaatctgtcg tttggtgtag ccaccttcat cattgatctt acctagatcc77761 gctggataac ttaccacagt gtctacatca ttacttctgc ttcaccttgc acttttatgt77821 tatggggatg gctcctttcc tctaacctca taaactaacc tccactagcc tcacattctt77881 cttttacagc ttcctcgcct ctctcagagt tcacagaatt gaagaatgtt gggccttgga77941 ttacactttg gtttaaggga atgctgtggc tggtttgatt ttctatccag aacactaaaa78001 ctttcttcat atcagcaata agactgtttc actttcttac tattttttgt gatagcactt78061 ttcctttcct tcaagaattt ttcctttcta ttcacaattt gaccgtttga tatgagaggc78121 ctagatttta gccaatctca gtttacacca tgcctttttc actaagcttc atcattttag78181 ctttttattt aaagtaagat gtgtgaccct tcctttcatt tgaacactta catgatgatg78241 cctggcttca aagcttgaaa ggacaggcag actctcttat taggggctaa cacagctggc78301 78 78301 gacttttaag ttgaagccaa tgctcaattt gccattagaa gccattgtag ggttaattaa78361 tttgcctaat tttaatatta tggtgtctca gggaataagg aggcctgagt agagggaggg78421 agatggggaa acagccagtc atcagagcac acacaacatt tatcaattaa gtttatcacc78481 ttgagggcac aggtcatgat acttcaaaac aattacaata ataaaataaa aaatcattga78541 tcgcagatca ccataacaga tataatgata atgaaaaatt tgaagtattg tgagaattac78601 caaaacgtga cacacagaca caaagtgagc acatgtcatt ggaaaagtgg tgctgataga78661 cttacttcat gcagggttgc cacaaatact caatctgtaa aaaattcaat tatctacata78721 gtaccataaa aacaaggtat acctgtttat ataatcaaga ccaacagaac cctagagaaa78781 atagctcact ccctagctcg gagacattct aaccaacata cacttacctt tctttttgct78841 gtgtacagaa ttcaaatccc tgtctcagca aaattgcaaa gtatcaaatg tcatgtccat78901 ctaatactca aaactgcaaa tgttaagtct tgtaagccca gagaccactg tatatacaag78961 tgttgctata agcattagtt cttctccaaa gaaaatagtc cacttggtag aaacaaacaa79021 aaagaaaaaa aaagaaagaa aaaacatttt ttacaagaag attcagtctc ttacctacat79081 aagcaaaaat atgagatgtt ctcttatcat ttttccatct atcttataat ctttggtgct79141 gacttagaca ctcattttcc tttttgtacg tgaccatgta aaagttcaag tcaagaaaaa79201 cttgttttga catttgtttt gctgagtgat gggtccctaa aagaaatttg gctttgcttt79261 tgaaaagttc agcatgatat tgtgtgaatt tttcatggct aatgattttt agaacagttg79321 tgatgtgttt aggtgtttta agaatatgaa gcattcagtg gtttaagttg gttgttataa79381 aatgaaagaa tatgaaggaa agccttcttg tcttagaaca cactgattca caaataagca79441 gcttctctca aaatgttgta attacaaaaa ttccaaggca aatataataa actccttgtc79501 ggtgctatgt ctagaaactt aacagcccca aagaaagtcc tgacaaggca aaaaatatat79561 atatatatac aaattgtgga agcagggtgt tgaaagaaga ataaagacta tataaggaca79621 aactgtttaa aagggagggt atccttgaaa gcttgacact tgactctttt gacgaggctg79681 agggaaaaca ctcagtttca tagattgctg gtacggatgt aaaatagtga catccctata79741 gagaggaatt tggcaatatc tagcaaaagt gcttatgcat ttattctttg acctagtaat79801 cccgcttcta ggattagtgg tgaagataca cctcaacaat aaaaatatat atacattagg79861 ttattagtta tggtttaatt tttaatagca aaatatttaa aacaacctac atgaacaaat79921 aggagactta ctgaataaac tatggtatat ctgtacaata aagtgcaatt cacttatgtt 98981 gttaatttgt tccaaaaatc cagagccaaa gagtatttgt tatgctctct ttagtataag80041 aaaggggaaa taagatatgt gtgcatctgt ttatttttgt gaaaataagt acagaaagga80101 taagtaagaa actagtaaaa ctagttatct cctagtgtta gtagaaatag aatgaaagtg80161 aattaggctt ctttgagtat atgtttatat atagttttga cttttgaatt atgtttatgt80221 ttacatagtc aaaaatataa attaatcaac agaaataaca aaaaaagaag aaatcacaag80281 ctttaaaatt taatacaaac agaaataatt gaatctaaca gtatatcaaa gtgataacgt80341 aaactcagaa gaaaaaaaca taatccaaca taccagtgga acacaatatt ctaactgtat80401 acattcagtg gttatagtct aaggacaaga aaaattgcaa aaatatcttg aactttagct80461 tgtaggattt ttattggtag caatactaat gtactaattc tgaaattaat gttcgtgtat80521 tatagaattg agtaaatgaa taaatatgtt gatgttattg ggaactaaaa ttatcattct80581gggagtagag aaatataaat atggacttgg caaatgaaac aaagacctgc agagagataa80641 ccatataaac tcattatttt aaaaattata agtgtcctag ctctgttact gaaaaggcct80701 agattcaatc ttatcttgat agacaggagg gcaccccttt ctcagaacat ggtttccaaa80761 tgccattctc cattaaaagg aacaaggtct tcttggagaa aagactgatt ctaggtctgg80821 attaggtaaa gtacaacgtt agtctggaat ttcttgctga atcagaagta agaaagtgct80881 caaaaacatg ggaacatgtc acaaacacac gtgaggcaac ttgaatcctc actggccata80941 tttaggacaa tcgagcatca aaaaaaaaaa aaatgttgag aataatggat tctaacactt81001 aaaacaaaaa ataatccata gcccacagaa ggggaagaga gggggagctc ttatttacag81061 atgaatatca aatagcaaag acagaagaaa tgacagaatt agagaaacat cattttgcaa81121 aacaccactg taataatcaa ttcaggcaag tattattaat ggatgtatta ctattgcgta81181 aaaccagttg gggaacagga tattcataca gtctgaaggt gtcaccctaa acataactta81241 ttacaagtgg aaaatggtgc ctttacaatg aagaaatcta gcagaaacca tcttaatcta81301 gtgatcaaac ttagtatcac caataatgga tcatactgag tcatgtgtct cctaatatga81361 tgcaccagga aggatgcaac gtcatgaacg ttgtattctt ttgtattcaa cagaccaccc81421 agggtaaagg cagctttctc acttactaat cagaattgtt ggttttaatt cattttggat81481 tttaagattt cttactttct tgtcagctca gaaatttatt taagatgatt tttatctttt81541 attcaatact ttagcttgga gaaccattca gagtttctaa ctcattgtat tgccaaaaat81601 81661 cagattcaca tagctttttt gcctagtaat gtagtatcat gtggcaaggc tataaaaatg81721 tttacaatct tttatttaat atgactcttg agagtttatt ctaaggaaat aattgaatag81781 taacaaaaca ctattaacac aaagcatagc aatttgattt gggcaaccaa acactggaaa81841 caacctaaat gtccattaca ggaatcattt atgaagcaaa cactaaaata tttattgtga81901 agattatgag aacatagaag acagttatga gagtaaattt gaaaacctga acacaaaact81961 tacatatact ccaattgtaa cttataaaaa atacgtgcat ataaggataa aacagtacaa82021 acaaaaaaat agttgcgtta gattggtaga attatggctc cttttgctgt cttaattttt82081 tccttttaca ttttgataca ttattttaat tttaatttta aaattcaaaa gaatttgcca82141 ctcatctttg ccacttcaag gaaaaaagaa atgtgttcga ttattctgtt cttagtatag82201 8229 82261 8284 82321 attatggact ttttttctca cacccaagta gggaggaatc agtggtcccc tagaggccca82381 gtgtagaggt ggcagcacca atccctaggg gagaagatct tggtgatgat aattcctgag82 cagacagtta gctgagaatt caagagcaga aaagtaagaa agaaacaact tcttgctaac82501 8248 82561 cagaggaaag agaaccaagt ttgctcttag tcattcacta tgttgtttaa tctgccttcc82621 82 atctttctta tcagttcaaa ttagaatgta gacctgaatt taaatccccg ttctgtcagt82681 tataatgtga ccctagacaa aacacattct ctgaacctca gagaacattc ttcatttgta82741 gaatgggaag attaatctat attccacttg gatggcaagt cttttataaa ctttataacc82 taaacatgtg tgagttgcta gtatcattat gttggtaaag ttattctgag atatgataac82861 agaactgttt tgtctaactc cactagcatg gttcaggttt agagagtgtg gaattaaaag82921 68681 atcctcagga aatgacaaac tttacatggt taaacatcag ttttgtttag tctttgacat83041 ccacatggtt aaatcataca tttgaaaact gcttatattt gtgttgtcta tgtctaaatt83101 gaaaagactt attgaggaat agaagactac acatttttca gcaaacactg cacgttttgc83161 agaatttccc caggcaccag tctccaggaa tttattggct actaacaata ctaagatatg83221 gatgaatgag gaaatcaaaa tggagatctt gcaagttttg tgagaatggg tgaatggtcc83281 aaatgaagag ataagttgtg aaatattagt acaagtaaaa attatttaca atgaaagaca 36341 83401 8372 83461 461 aaagttttaa aaatcagaag ctatctaaac tatggtatat ctaggtcata gaaatcaaat83521 gactaaaaat gttaatataa gcatatgttt ttaaattaac ttggcttggg tcttcagcaa83581 aattggcttc ttaacattgc actccagagt tagacttacc cactcagtca cttatcatgc83641 aggagcagac tcctaatacc acatatcata gagcagagta ggacacaggt tctctgcagg83701 caggcaaatc ccaaagagaa gggaggaaag ggctgagaca ctgcatggtc aatttcttct83761 gaactctgca atgtacggag gtggacagtg tccacaaaga ttgctcccct ggacccacca83821 tcataataac acaacggctt tgttttgttt ttgtttttgt tttttgacac ggagttttgc83881 tcttgttgtc caggctggag tgcaatggtg tgatctcgac tcaccacaac ctccacttcc83941 tgggttcaag tgattctcct gcctcagcct cctgagtgga tgggattaca ggcatgcacc84001 accatgccca gctaattttg tatttttagt agagacgagg tttctccacg ttggccaggc84061 tggtctcaaa ctcttaacct caggtgatcc acccgtcttg gcctcccaaa gtgctgcgat84121 tacaggtgtg agccaccgcg cccagcccac aatggccttt tgtttacatc tctagtgcag84181 cactcatttc atgttctttc aagaagaata catatttcat ctttttattt tatacagcaa84241 ttagcacagt gcctggcata aggaaaatga tcattaaaag ctgggtgaaa aacctaataa84301 agctactgag gataggaact gcagaccagc atggaaagaa aactatgagc cagatattga84361 catcatcctg aaaggcagaa gatttagtat aggcaagaag tatgcttttg gaatatagaa84421 aatctggatt atgataagaa aagaatcata tttgtcttat cttacctact cacttctcag84481 ttccacatgt ttctgaggct gtttgtcctt actttctttt ctgttttatc cactctttct84541 gttctttaga ttggatcatt cctattgagc tgacatcaag ttaactgacc ttttattttg84601 tccaaactgc tgttaaatgc atccagtgaa tttttaactt tatatagtat atcttttagt84661 cctagaattt ccacatgagt tttttaagtt tccatttctc tgctgagatc tcctatttgt84721 tcattcatta tgaccatatt tttctctaca ttattgagca taattataac agctcttcta84781 aaattcttgt ctgcacattc taacacctga attattctgg ggtcagtctc tgttacattg84841 ccttattaca aaaacagtat aagtcacatt gccttgtttc ttaatatgca aaatgatttt84901 901 tgattgcaga ctagacattt tgaattaaac attatagaga ttctggattc tcgagagagt84961 attgacttgt tttttccatc aggcaggtaa cttgactgga ctcaaactcc aaactctagg85021 tcctctgtaa tgggcaactg cagtaatctt tgtttagttc tttaagactt attggccagg85081 cacgggggct catgcctgca atcccagcac tgtgggaggc caaggtggga ggatcacctg85141 aggtcaggag ttcgagacca gcctggccca catggtgaaa ccctgcctct actaaaaata85201 caaaaattag ccgggtgtgg tggtgggcgc ctgtagtccc agctactcag aaggctaagg85261 cagaagaatc acttgaacct ggaaggcaga ggttgcagtg agccgagatt gtgccactat85321 actccagcct gggtgacaaa agcgagactc cctctcaaaa aaaaatttat tggcactgct85381 tggcatctgc tatgaataca tgaagttcat gggtcagcta tagatctggg cacgttatac85441 acagaatttg ggtctccctt tctctggatt tctccttttc tggatttctt ttctcatttt85501 ccagcagctg tggttgccct aaactcggtc ctctgtttct ttacggcagt aagatttggg85561 aacttttagg ttttacctgc ctctcagaca aaataaaaaa taattttcat cttgatgcta85621 ctcctttctt ccagatgtag acacctctct aatttccagt tgctttttat tgctctccag85681 agtctaaaga ttatcattgt tttctgtggg agagttggtc tgataaaaac tactccccca85741 aaactggaag ctggaagctt gtaattatga atagactttg agtagtattc ttctttggaa85801 85 aaggatttta actactccct atgtacttct ttatttcctg tttttctcat ccgtaatctt85861 tttattttca tacttcctaa gtcagacaat tttcctactt gaagattcag tgactgctat85921 caaatgaccc ccatattact aaatacaata tccccaactg catttataaa aagaaaattt85981 actgtttatt agtaaacaat gttgtagaat agtaaaatat tgctgggctt tggagccaga86041 taatcaaggt tagaatccca gattctaact tactagctgg tgtattagtc ctttctcatg86101 ctgctaataa agacataccc cagactggga gactgggtaa tttatgaaga aaagaggttt861 86221 gcaaggagaa gttccaagca aagagggaaa agccccttat aaaaccatct gatcttatga 281 gaactcactc actatcacga gaacagcatg agggtaactg ccctcacgtt taattacctt86341 ccaccagttc ccccccatga cacatgggga ttatgaaagc tataattcaa gatgagattt86401 gggtggagaa atagccaaac catataattc cacccctggc ccctctcaaa tctcatgtcc86461 tcacatttca aaactcaatc atgccctccc aactgtcccc caaggtctta actcattcca86521 gcattaagtc aaaaatccaa gttcaaagtc tcatctgaga caaggcaagt cccttctgcc86581 tatgagccta taaaatcaaa agcatgttag ttacttccta gatacagtgg gggtacaggc86641 gttgggtaaa tacactgatt ccaaatggga gaaattgcca aaacaaaaga gttacagacc86701 ccatgcaagt ccaaaaccca atagggcagt cattaacatt aaagttccaa aatgatctcc86761 tttgacttca tgtctcacat ccaggtcaca ctgatgcaag aggtgggctt ccaatggcct86821 tgggcagctc tgcccctgtg gctttgcagg gtatagcctg cttcctgttt gctttttcac86881 aggctgacat tgagtgtctg tggcttttcc atgagtatgg tgcaagctgt tggtggattt86941 accattctgg ggtctgggcc aggtgcagtg gctcatgcct gtaatcccag cactttggga87001 ggctgaggtg ggggatcaca aggtcaggag atcgagacca tcctggctaa cacggtaaaa87061 cccagtctct gcttaaaaaa tacaaaaaat tagccaggcg tggtggtggg tgcctgtagt87121 cccagatact tgggaggctg aggcaggaga atggcgtgaa cccaggaggt ggagcttgca 8715981 87 gcgagctgag attgtgccac tgcactccag cctgggcgac agagcaagac tccatcaaaa87241 aaaaaaacaa aaaaaccatt ctggggtctg gagaatggta gcccttacag caccaccagg87301 cagtgcccca gtggggactc tgtgtggggg ctctgacccc acatttccct tctgcacggc87361 cctagtagag gttctccatg agggttctac ccctgcagca aacttctgcc tggacatcca87421 8287481 ctcctgtgca cccacaggct caataccaca tgtaagccac caatgcttgg tcagggcttg87541 aaccctctga agcaatggcc tgagctgtac gttgacacct tttagcctag acatctagga87601 cacagggcac catgacccga agcttcataa agtgggaggg ccttgggact agctgaggaa87661 accatttttc catcctaggc ctccaggcct gtgatgggaa gggcagccat gaaggtgcct87721 gacatgccct ggagacgttt tccccattgt cttggtaact aacattcagc tccgtgtgca87781 gcaccaactt acttatgcaa atttctgtca ctggtttgaa tttctcccca gaaaacagga87841 tttttctttt ctattgcatc atcatgctgc aaattttcaa acttttatgc tatgcttcct87901 gttgaagact ttgcggctta gaaatttctt cccccagata cccaaaatta tctctctcaa87961 gttcaaagttccacagatat ctaggggaca aaatgttgcc agtctctttg catagcaaga88021 gtgaccttta ctccagttcc caacaagttt ctcatctcca tatgagacca tctcagcttg88081 gacttagttg tccatgttac tatcaacatt ttggtcaaag ccattcaaca agtctctatg88141 aagtttcaaa cttccccatg ttttcctgtc ttctaatagc cctccaaatt tttccaacct88201 ctgtctgtta cccagttcta aagtcacttc tacatttttg ggtatcttta cagcagtggc88261 actccccatg gtactaattt actgtattag tctgttctca tgctgctaat aaagacttac88321 8848 88381 381 ggaggcctca ggaaacttac aaacatggtg gcagcaaaga gaagttccaa gcaaagaggg88 aaaagcccct tataaaacca tcagatcttg tgagaattca ctatcatgaa aatagcatga88501 gggtaactgc ccccatgatt aatttacctc ccacagggtc cctcccatga caggtgggga88561 ttatgggaac tacaattcaa gatgagattt gggtggggac acagccatac catgccagct88621 agagagcctt aagaaagtca cctaatctcc acaaataaaa ggtttcctat ttgttcaaca88681 aaaataatga cacccctttt atgggatttc tgtgaggaca aatgataact aacatagcct 886328 88 tgcatagtgt ctggcacaaa atagctactc aaaaaataat agaaacaaca tttaaaaaat88801 gtagacttta ttttttagag ttttatgtac aaagcaaaat tgagcagaat gtacagagag88861 tttccgtata gcactcccta cccccaagca cagatagcct cccccagtat cagcatcccg88921 caccagagtg gtacatttat tataactgat gaatctatat tgacgtgtca ttttcatcca88981 8689041 86101 89 aatctttgat cttcttccta ttcatcactc cctccccatt aatccctgac aactactgct89161 3689221 atgtaggatt ttcaaactgg tttatttcac ttagtaatat gcatttgatg ttcttccata89281 tcttttcaaa gcttcatagt tcaatattta tagaattgaa taatattcca ttgtctggat89341 gtactacagt ttatgtattc attcacctat caaagaacac cttggttgct tccaagtttc89401 aacaatcatg agtaaagctg ctataaacat ctatgtacat gtttttttgt gaattgaaca89461 ttttcagctt ttttagctcc attcctagga gtgcaattgc tggattgtat gataagggta89521 84 89581 caccagcaat gaaagagttc ctgttgctcc acatactcac cagcatttgg tgtcgtcaat89641 gttttgagca atagcatttt gatctaactt ttcctaggta ttctttttga aggaaataat89701 atgacagata atagagaaag gatatacgag gacagttctg tcctttattt atagtccatc89761 atttaatgaa ggactctgtc cacacttggt atttttaact ctgatcctcc tctcccatga89821 actctgacaa tctcctaaat ccctgttgct ggcacacatg gttgtgtatc aggccccctg89881 tggtctgtct gaagcatggc tttttttttt tttttttttt tttttttgag acggagtctc89941 gctctgtcgc ccaggctgga gtgcagtggc gcgatctcgg ctcactgcaa gctccgcctc90001 ccgggttcac gccattctcc tgcctcagcc tcccgagtag ctgggactac aggcgcccgc90061 caccacgcct ggctaatttt ttgtattttt agtagaggcg gggtttcact gtgttagcca90121 ggatggtctc gatctcctga ccttgtgatc cgcccgcctc tgcctcccaa agtgctggga90181 ttacaggcgt gagccaccgc gcccggcctt tttttttttt tttttttttt tttgagatgg90241 agtctgtcac tctgtcaccc aggctggtgc agtgatgcaa tcttggctca ctacaacctc90301 catctttcag gttcaagtga ttctgccacc tcagcctccc aagtacctgg gattacaggt90361 gcccgccacc acacccagct atttttttgt atttttagta gagacgtagt ttcaccatgt90421 tggccaggct ggtctcattc ctgaccttga gtgatccacc tgccttggcc tcccaaagtg90481 ctgggattac aggcatgggt catcacatgt ggcctgaagc atgactgttg ctttaatcat90 atgaaatact gctctgtatt gttatctatt tgaaatgcca cacctcctga gctaaattgc90601 aagcttttat ggagcacaaa ccatatttat atatattagc atgataccat gacacatatc90 aaaagctgtt atatattgtt acgtgaattg attctttctc agttaagagg acctctgtag90721 tagcactttc ataccgttaa tttttcattt tgtgcccagc ccctactctg tgaaaaatga90781 aatgaatcct gttatcattt ccctcccagg ccttttctcc ttgtggacaa tgtgtggctc90841 aagagaaaat tcagtcagta aatttgttca gtgcacaaac tctttatcac ctctcactgt90901 tctcaagtga gatagaacag aacatccatc cagtgtctta caaattgtct ggtatatagt90961 aggcactcaa taaatgtttt ttgaataaat gcatacatga atcctattcc tatatatagt91021 atggtagaca gatcattgat acccaaagat gcccaaatgc tgatccccag aacttgtgaa91081 tatgttacat ttcatgtcaa aagggacttt gctaatgtga ttaaggattc agacccttgg91141 attgtaagat tatcccggat taaccagggc caatctaatc acatgagacc ttaaaaaagc91201 agaaaacatt tcccagctgg gttagagaga gatgagacag agtaaaaagg aaagagattc91261 261 agggcatgaa aatgactcta cccactgttg ctggctttga agatagagga actaggccac91321 aaaacaagga gtatgagtgg ccttaagaaa taggaaaaag ccctcatctg acagccagct91381 agaaagcagt cctctgacca caagaaattg gattctgcca accactcaaa tgagcaagga91441 aatggattct cccctagaac ctccagaaag gaacacagct ctgtaatgcc ttgattttag91501 ccaggtgaga cctgtttcag acttttgacc tatggaaata taagataata aagttttatt91561 gtatgctgct aaatttgcgg tagtttatta ctgaagcaat ggaaagccaa tacagacaga91621 686681 695 2 91741 agcctccctt tcttaggccc agcatatgtc agctgtgtgc atagaaaaat caaagcagga91801 ccctgagtag ttggaaagaa aagatggttg gaaatgggtt gcacttcaag tgaggaaaca91861 agaggtagga gaccggcatc tctttctcat atgtcccagg ctgactcttg tgagttgttt91921 91981 gaagtaagtg tcaatggctc cgacttccaa ggactctgat gtcccacagc actagctaaa92041 caaagccagt tggaaatgag cttaaatggg gaatttcctg aatatattcc ctattgttag92101 gaagccaggt tggcttcctt gcctacaatt atgccaagca gtcacactat agagtcccta92161 gggacatgat attaagtgat tcttttaaca caaacaactt aataatcatt tatactaata 92161 gcaaaacggc caacggctga tattccactt gaagtagaat tggctatcca actggaagag92281 aagacaggaa gacgtgatct ccagggagcc actaaaagga ttggcacctg cctctggatt92341 ccccttttcc ttatattacc tctcagcact ggcaggcctt tatttcagga tacagtttca92401 caagtattat gtcacgtctc tgagaattat gttggtagat atttgctcct ctggccagaa92461 agacctagtt tggagtctgg agtcatgaag gtgacataca tgtagctagt gacataagtg92521 tagctagtaa aaatagtgag taatggccct gaaattctat tgaatgccca aagtgctgac92581 caggaacaag catgctctag cttatctcac aaggaacttg acaattttct tcaaaaatcc92641 tagtagctaa gatttcttag taacaaagcc actaaggcac aattatgatt aacttgaccc92701 ttaggtgact tttaaggact attctataaa atattacaac taatagtgga tccaagccag92761 cacactctgc tatataagat taattgacag tgtccacact ggtaaaataa gttgtttcat92821 aaatacatta gaattcattt gcactttcta cacagcccca agtccagaac tttccccaga92881 ataggtctat gttttgcaat ctgctactcc atacagagat ttgagttcac ttggcaattt92941 agtgctgctt atatgtgacc agttagtctg ttttacttat ctatgcctta aacattacta93001 tacttactaa ctccaagatg cctggtctca acttgacaaa aataccccaa gttgggaaat 061 939 ccttatgtga atatgtagat agtcacaatt gctggttgat gatgatctgt cttttcctgt93 atttgagaaa atggagataa aatggaccaa tccaaataat ggattaaaca tgggaatagg93181 tgagagagag agaggaatac atggtggctc tcagtgtctg gcttaggcag taaacacttt93241 cgttaataaa gacggaaaat aaaaaaggaa taattggtgt ctaggggaaa ataatgagct93301 caagttttaa cactctgagt tcccggatgt gagacatcca ggcgcattta tccaagaggc93361 93421 gaaaaggtat ggccattctg gaaaactgtt tggcagtttc ttagaaaatt aaacatgtac93481 taacaaccca gcaattgtac tcttgagcat ttgtcccaga taaatgaaaa aaaaaaaaag93541 catttttttt acacaaaaac atatacatga aagttcatag aagtgttatt cataaaaaac93601 tggaaaaaac tgagatgtct ttattgagtg aatgcttagg caaacggtgg tctatccata93661 caatggaatt atgcttagca ataaagagaa aagaactatt gatacatgca ataacacaga93721 tgaatctcaa aggaattaat gctgagtggg aaaaaaagca catctcaaaa tggtatatac93781 tgtactattt tatttactta acattttaaa aatagcaaaa tcatagagat ggagaacaga93841 ttaatgggta ctgtgttttg ggatggggag tgagaaaagg gtaaggtgta aatataaagg93901 ggtagcacaa aagagccttg tggttgaagg attctatgtc ttggttgtag tcgtgattgc93961 aggaatctac atgtgataaa attgtatggg tctacatacg catacacaca agagcatata94021 aaactggtga catgtgaaga agctccgcac attgtgccaa catcagtatc ctagtttcaa94081 tatcagacta cagttataca aaacattgtc attgagggaa actgggtaaa gggaacacag94141 gacatttggc atatattttt gcaatttcct gtgaatccgt aattatttaa aaataacaga94201 tatactacat atcaaaaatt taatgtcata aagttgatga gtttacctag tggatagctt94261 tgttaatatc tgctataaga ctactgaaaa tgacagttat gcaagtataa gctcagagaa94321 ctttcctccc ccttcgtaaa tgaaatgagc aaaagaaatg aaacaggaaa ggcaagcagt94381 actgaaaaca gggaagggct cttccccata taactatatc tgcgacttca acagctattc94441 atccagaaac acagcctctt gcgctaagag gaaactttgg ataacaatat gttttcactc94501 tccaagagag aaaatggata gattaatttt taagaaaaaa aaaaaaacct caccaatttc94561 atgctgtggc ttgcaccttt aatcccagct acctacaagg ctgaggtgag aggcttactt94621 gagcccagga gttcaaggct gcaatgagct atgattgatt gtgctatcgc actccaacct94681 ggagtactaa gctaagagct aagaacacag ctgagagcgg agaagaaaca aacaaatctg94741 accaataacc cccactcccc tcattttact ggagtgagct gagactgctg gcaaacatgg94801 cctttgacct agcctgaact gtagcaaaag tcatcagata tttttccacc aatcaacaga94861 cagaagtggg gagaaaacaa tcgtagttca taactacaac aagcagataa acgaaggcca94921 tggtgaggga tggaagacat tgtgatatat caaaggcagg ctcatttaaa actcaaccca94981 aattccaaac aaaatatata attgaatatg tattaatgcc aaaggagctt gagtgagctt95041 tagcacaaac cccgccctcc agcccccacc caaaaaaatc actctgttct ctccccattc95101 3595161 agaactctaa tacactgcta gcaggaatgt aaaatgaagc atctacttca gaaaaccatt95221 ttatcagttt ctagaaagtt aaacatagac ccaccatgca gcccagccac tctactccta95281 agtatttaca caagagaaat gaaaacgtgt ccccacacag ttgtatttaa aggtgatggt95341 tagccttgtg tgtcaacttg gctaggctat aatacccagt tactgaatca aatagtaatc95401 taggtgcatc tgtgaaggta ttttgtagat gtggttaaca gctacaatct gttgacttca95461 agtaaaggag attgctcttg atagtatggg tgggcttcat ccaatcaatt gaaggcctta95521 95581 48 95581 ctcctgcctg agtttccagt cagccagcca gcctaaagat ttgctaggca ttataatcac95641 atcagctaat ttcttaaaat aaacctcttt atatatattg atacaatgaa tggttatagc95701 agccttattt gtaatagcca caaactggaa acaacctaaa tgtccttcaa taagtgaata95761 cataaacaaa ttgtggtata tccacaattt ttacgcagca gtaaaaagga ataaatggtt95821 gaataaggaa taaacacata acaaggatga accttaaaac cgtaaggctg aatggaaaaa95881 gtcagacaaa actaatacat actgaataat tccatttata ttgaagttct agaaaatgag95941 gactaaccta tagtaacaaa aagcagaaaa attttgccca ctggtgatgg agggggcgca96001 ggtattgtag agtatctgag aaaggacaac tggataaaag ggggcacaag aaaacttttg96061 agggtgattg atatgttcat tatcttgtgg catggtttca taggtgcata catatgtcaa96121 aacatcaagt tatacacttt taaaatgttc agtttactgt atatctatta tacttcagta96181 gagaggaagg aagaaagtgg gcagggtggg ggagaggaaa ggaaacgagg gaggaaaggc96241 cctaatagga aggattttgg agtttagatt ttaaaatgat aaaggatgtt tgacactcta96 ggcatatgac gaatatagga ttatgagtcc acaaaaacca ccaggaagtc atgtatgttt96361 atacttttaa gtgaaggatc agtggattat caactcccta atgctttgcc tctctatgac96 tggctgctgt ccttctcatc ccaatactcc ttccaaagcc ccttgcttaa atgtaagcct96481 tctttcctcc tttcaacaca tcctgcattc cgtgacaaaa taagttttcc ttaaacagaa96541 tgtacagcat attatttgta caattaaaaa tttttggcca ggtgtgatga ctcatgcctg96601 taatcccagc aatttgggag gccgagatgt gtggattacc tgaggtcagg agttcgagac96661 cagcctggcc aacatggtga aaccctgtct ctactaaaaa tacaaaaatt agctgagtgt96721 agtgtggcag gtacctgtaa tcccagctac tcaggaagct gaggcaggag aatcgcttga96781 acctgggagg tggaggttgc tgtgagcaga gatcagacta ttgcattcta ggctaggaga96841 cagagtgaga ctcggtcccc aaaaaaaaac acattttttt ttaatgtttc ctccttgcct96901 gtaggaaaaa ggctctgact ccttagcctg ggcatcagag ctctatctaa atggacttta96961 acctgatttt gtggcactaa ttccattgca gtacttgtcc gctcactggc ctgtgcctct97021 ctgccactat ttttggaata atgtcctctc tccatcttgt ttactcaact atatccaacc97081 tctaaggctg tgctcctaca aagcctcccc tggctacttc agcccacaga gatatttaac97141 tgctctgcag ttcaggacat tcttctgact ctttaaatca catttactta tatatgatct97201tgtgatattt tttgttgacg tgtttacttt aattttcttc cataacctat tcattcaaca97261 aactcaacaa ttatttatta aatgccaagt tagaaaaata ttattgattt tatatagatt97321 atagatatgt ttgaaatttt atttggcaat ctgcaagtag aaaaataatt ataatgtggt97381 atatctgtga tagaagtatt agtgcagaga ccatggggaa cataatccag cctggaagtt97441 caggagagat acgtggaaga aaggacgtca gagccttttt cctacaggca tggaagaaac97501 attaaaaaaa attttttttt ttgagatgga gtctcactct gtctcccagc ctagactgtg97561 gtggtgcgat ctctgctcac tgcaacctct gtctcccggg ttcaagtgat tctcctgcct97621 cagcttccca agtagctggg attacaggta cctgccacac atggatgata aatatgatca97681 tattttcttg ttcttttcct cctcagttgt cttccctgaa gaaaggaatg ccttttatag97 atgacaaact cccattctca agaacaagga tttttgacca atttaattta atcagatgtc97801 3697861 gagcatttct taggaaacac agtaaagatc tgagagaccc aagagcagaa gggcgagaaa97921 ccaaaagcca tcagtttgca taggaaacac cttgtttagc ctaatctttt tatttttatt97981 actctattag tcactacaac tattttctga ttgctatggt gatagatggt ttaaaacaag98041 ccttcattaa gaattgtcac accatggtct cagtcaaaaa caccaacatt tttattggta98101 ttgacaatta tgggaatatc caattccaag aagacaagga gacctctgaa ctttctaaat98161 gaagactcca atcttcctga tctgatggga agcagcttgg caagattacc aaccaccacc98221 acagagagtg gactctaagc taagacttaa aagataagta gaaattatcc aggtaaagat98281 gtgtacagag aaggaagtac atccagggga aaagaacaat acgtgcaaaa gtacggaaat98341 ggtaaaaagt aatactacat agtcaaagcc aagcagagtt cagaagggat ctggtggtga98401 aaaatacggc tagagaaagc agcaaggatt ggcttctaaa acctatgtag tatcttggac98461 cttaccctaa atgtaatgag aagcttctaa agaatctttc atttattcat tcattgaaca98521 aatattttga ggctttctgt gaagaacatc attctaagta gtaaagatac agcagtgaat98581 aggacacata aaatcctaga tctcacagaa ttgacattcc agagagggaa aggtagacaa98 taaatacata aacaaatcat ttaacaagat gatttcagac aatggtacgt actgtgaaaa 9859701 aaatgaaaca aggtaatgga cagcgaaaag gcactggaag gaagcctgct tacctttgca98761 tggttagaaa agatctctct aagaaagaga ccacatgtga gctgcgacct gaaggatacc98821 gagaagctag gtgtgcaaag atgtggggac agaacttttg gactgaatag caaatacaaa98881 695 2 98941 catactaagc acagaggaaa acactgttat atgctgagat tggaattata agtagagcca99001 gataatatag tctcttatag gtcataataa ggcaaccaga ttttattcca agaggattta99061 aaaatcactg gaggttttgc actagggtga gaggtgtgat ttgtattttt aaaagataat99 tctggagaat taactataat gaggtaggag taaactaagt taggggctat ttcagtggct99181 cagacaagag ataatggtag cttagactag gatagtagtc gtagaaataa ataaaagtgg99241 9958 99301 aaaaaaagaa aataaattaa taatggttcc taggtttgta cctgagcaac tgaataaatg99361 ggtgctgtga attgagataa aggagattga gaatcacagg ctttgttttg caaattaatt 99421 ttgagaggct tattagacat cccagtggag atttcaggtg agtggagccc attgaaaggt 99481 aagggacagg gtcaggtgtg gtaggtcagg cctgtgatcc caggactttg gaaggccaag 99541 gcagacagat cagttgagct caggagtttg agaccagcct gggcaacatg ggaaaaccct 99601 gtctctacaa aatatgcaaa atattacctg ggcatggtgg catatgactg tggtccaagc 99661 cacttggggg gctgagatgg gaggatcact tgagtacagg aggcggaggt tgcagtgagc 99721 caagatctcg ccactgcaaa ccagcttagg tgacagagtg agaacctgtc tcaataaata 99781 aataagaaac gtaagggaaa aggaaattaa tctgatcatt ggcaaatgca tagtatttaa 99841 agccagggga gtagatgaga tactcaaagt aggtgaagat aaggaggcaa tgaaggccta 99901 ggactctggt gtacatttag atggttataa gaggaataga aactggcaaa ataagtaaca 99961 ctgagcaccc aatgaggtgg agaggaaagc caggagatga agcatcatag aaggcaagag100021 aagaagggtg tcaaagaggc gaggcagtca tcaacttctg ggcagtcaaa taatataagg100081 acagaaaagt gaccattgga tttggaaata tgatgagcac tttgagtgga gtgttgagac100141 agaagaccaa ttagagtaga ttgaggagat aacgagaaat gagaaaatgt aacctgcaag100201 cacagacaat tcttgagaga cttttctgtg aaaggaaaca gacacagagt cttagcatgt100261 cttgtctttc tatgggaaat gtaaatagtt tgagatcagg gatagtattt tattctgctt100321 tttgtacctc tacattacct agcatagagc tagctaatgt gcacttaagt atgttctcaa100381 ttcttatcgc ctgaatgact ggatgggtga aagaatggat ggatggatgg atggatggat100441 ggaaggatgg atggatggat ggaagacttc tgatttgcca agaagaggat actggtagca100501 100 100501 gaaataaaaa cagcactgga gaaagaagag tttagatttt tattctttgg tgtcagttag100561 acaggaaagt aagacattag aagagtcctt agataattta tgtaattgtt cacttaggat100621 ttttaaatgt gatcactgat attggacatg ttcctagtga agcatttttg gtgtttcact100681 ggttgaagtt aataactgta aaattatttc ccgttcagga cagaaaaaca gaaaacttga100741 agctcctatt agaaagttca agattctctg gggttcttag gatttactgt tcccaaaact100801 ctgtcaagaa caagaaaatg acctgtatac ttaactggtc taggcaacag tggaaagaca100861 attctcagag aagatttgtt ttaagaagac actttccata ggaatcaaac aatagctttc100921 agtgactaac atggtaagac acagggtgtt agctctttcc ttccaacctc atggctgttg100981 taccttacct ttcgaccccg tgttcctgaa attgttaaat tcataaactt accaaggact101041 aaccagcctc tggggaattg ctgtatactt agcaaactta caatggacat atttataagc101101 10135101 101101 cataatgata actgactaat aggaaatacc ctcaactgaa aatgagagat catcatttgc101161 101 101161 aaatgagttc ccttgcccag gcaactactg gggaaaatgt catgcaagca aaattaatct101221 ttgaaatcct ccttttccat tttttgtgtc ttccttttcc ataggcacca gaaatatcat101281 ggtgcctgga tctcatctct acagaaaaaa aaagtgattt gataaactga tttatattgt101341 gtccaaatgt gattgtattt tcaaagataa cctaagggga gaatgctgtc tggcccaaca101401 gcaggctctc gacttcattt cagacactgt ggccaatggc tgggaaacag gtatgaacag101461 taggtttctg agtcccctgg aattattcca tttatgtagc cacctccatg acaggaagcc101521 tccctactct tacttcccag tttgttcatt catggcacca ggttgcagat taaaatttgc101581 101 101581 tcagtgacct tttatctaat aatgtgttac cttcttctct taaaaagtac aagggacaaa101641 tgctcatggt atacttttag gagattgtgg ctctctatta acagtattta ttcaacaaac101701 atttattgag catttatatg tgcatcatgc tagggactgg aacctagtaa gtgtagcaca101761 tattatttca tttaatcctc acaacaaacc catgaggttg gttttatgat cccaattttt101821 cagaagaaga aactgatatt cagaaccagt taactaactg gttcaaggtc atgcaatttc101881 taagatacag aaccaagagt caaagacatg attttaaacc aaagcttttt ctgctactcc101941 acattgcttc cctaggtgag atctgaggca ttccgcgaaa agagaagggt cataaagcca102001 agggaagaca agcttaggaa aaaaaaggga aatgtcctaa ataaacagct ttcctattta102061 061 102061 ccagaaacca ctagtttaaa aatataatgg gaaaaatcct attcacttta acaatgttaa102121 aaaaaaaaaa gatagaagaa acatagggat aaacttaaca catttgtagg atatgtaaag102181 aaactaaaag atgttaataa tggcctaaag aaaaaaaaac ttacatgtat ggggagatag102241 accatcttac tggattctaa tatttaatag tctaggtgtt ccatttctca ccaaattaat102301 gtatacattt aatacaatgt caaacgaaat atcttaggaa ttgcttacaa attgtcagat102361 aattacaaag tttacctggg aaatataagc atatatgaag agtgaatggg accccaccac102421 tccccccaaa acaaaaaagg tctgaaaagg acagaaatcaaggagagtct tgcctgccag102481 atacaaaatt ctattataaa ggtgtattga tgaaaacaat ttaatactag tgtagcaata102541 ggcagcaaag caatgaaaca gcataaaaag accagaacta tacctaatta tgatgaagat102601 ttaaggtatg ataaacatga cataattcaa atcagcagaa attggcatag atagggttaa102661 gacaaatagc taatcattag aggggaggaa ggaaaggagg gaggataaaa ttaggttcct102721 gccttcatct tacattaaaa taaattccag atgtattaca tttaaatttt tttaaaaaaa102781 gaaaccacaa aatacttgaa gaaaatataa gttgttatat agtcttttga tgggaatttt102841 tttttttttc agagacaggg tcttgctctg tcacctagcc tagagtgcaa tggcatgatc102901 atggctcact gcagccttga actcctgggc tcaagtgatc ctcccagctc agccccccag102961 gtagcaggaa ctacaggcat gcgacacccc atccaactta ttttttattt tttgtagaga103021 caggggtctt gctttgtttc ccaggcttat ctcgaacttc tgccttcaag cacctcagcc103081 tcccaaagag ctgggctgat gggacatttt ttaacatagt gccacattac cataaatgaa103141 103201 taaaaagcaa acacaaaaaa tttgtagcac ttatgacaaa tatatgtata tatatgaata103261 caaaaagagc ctttacaaaa cagtaagaaa acaatgaata ctcccaatgg agtattcaaa103321 actaaactgc taaaagcaat tcaaaacaaa aaacataaac tatgcatata tgtatgtgaa103381 aaagtttaac cttatcaaag aagtaaactc tcaaagaaat aaacatcaaa taaggaaata103 gccttttccc acaaataacc aaaatctgta agaatactga gctgcgaatg tttcagaaaa1035 aaaaaaaaat catacaccta gttcggcatg taattaatat agatcagaac actttaaaaa tatttatagg ccaggcacgg tggctcatgc ctataatccc agcactttgg gaggccaagg103621 cgggtggatc acctgaagtc aggagtttga gaccatcctg accaacatgg tgaaaccctg103681 tctctactaa aaatacaaaa actagccagg catgttggcg tatgctggta atcctggcta103741 103 103741 ctcgggaggc tgaggcagga gaattgcttg aacccaggag gtggaggttg cagtgagctg103801 acattgtgcc actgtactcc agcctgggca acaagagcaa aactctgtct caaaaaataa103861 taataaataa aaataaaata tttatatact ctgacccatc aatttgtcca gcataattag103921 gcatgtgtac aagggtttac acacaagaat gcctattgca atattgcttt taatgctaaa103981 aaaaattggg gaaaatgctt taaaaatata gattaagact gtacattgtg gtacagtcat104041 ataatcaata gtatacagct attatttatt ttcagccact gtccaaaata tagcctggcc104101 taacaacatt ctgttaggat acgcaagcac cgtgaggaga tcagctataa agtatcagtg104161 tttcacacca ctgctccttt gctaataacc ttcaatggct tttaaagaag taaaaaacaa104221 104 104221 aggcaaaatt ccttagtcag cccttaagac tctctgttac ttagctcaaa ctaccctttt104281 caacaacact gccctaacca ggatgagttt tttgcccccc tggagtacat tcagcctttc104341 cttatcaaac cttcctttaa ataagtatct tctccaggac cacttcactt tcttccccaa104401 tttagcattt tctatatctc caggcctacc tctataaagc ctgtcctaac cactcaaacc104461 ctagcttttt ctctgaactg ctagaaatat ttttctctca ttggccattt aggtaaaaag104521 gtttttactg tttattacct actcaataaa aattttcttt ttttgagaca aggtcttact104581 ctgtcgccta gaatgggggg aagtggtgtg atcacaactc actgcagctt ctacctccca104641 gctcaacagt cctcccacct cagcctagtg agtagctgtg actacaggca tgtgccacca104701 taccccacta cttttcattt tttatttttt gtgagatgga atctcactat gttacccagg104761 ctggtctgct gatctcaatt gatcctccca ctgtggcctc ccaaaatgct gggattacag104821 gcatgagcca caatatctgg ccccagtaag cttttaaggc cattaacatg aggaacagtg104881 ttctttacac tattttatca gctagggctt tgcatggagt aggagtttag taaatgcggt104941 tgatgggtta atcaatgtgt gaaaatattc agagccacca aaaacagata ttatgtctat105001 tctcatcaac aatcaaaatt gagtaaacag ccattttcta atacaggaaa ccacaaaaca105061 ttgaatggtg acattaaaaa attcccccag caggagccaa ccaatttttt catcctgatc105121 caagttagca aactgcaaaa gataggaagc actaatgagt ggaaatttga gtagaagcat105181 ttcttatgaa ggctgtcttg actggatcac atttttattg ctgttggagg tgccaaatgt105241 gtgtgtttat gctaatcctc cacctcaggc aacacacagt caaggatcct accaagtgtt105301 accgtcaagt gtctgttggc agctcaaggc cccagcgttg ttcccttgca ctagggaaaa105361 gacatattcc aggtacaagt actcccactt tgatgctaca gaggagttgc tgaactttgt105421 gtcattaatc tctcttcgtt agatcccaac cctgtttaaa tcccactatc tgcctactct105481 gggtcttcac caatttacta gatcatagtt ggagaaaatc tacaaagcct tgctcccttt105541 agatttaaac aggtctccgt ttaaatttag aattgctaac ttcaagcggg cccttatgcg105601 acagtatgcc tgtcagtcat actacatttc ctcaattcca ttcatgtgac tgctccatac105661 ccttccctct ctcttcatac tactattatc tcttcccccc tccctcattt ttaactgatg105 atcttgtttc ctatttctct gagaaaatag aagccatcaa aagagagttt ccacaaactc105781 ctactgcctt atctagccct gtaccatata ctttgcattt cctctcatta ccatggatgt105841 actgcctatc tgtgcttcta tctaaggcta acccttccac ttcagttttg aatattatca105901 gctcttacca actcaaggcc attgctctag caattctctc attctctctc attttcttcc105961 atcaagtttt ccttttcttc aattaacaga gtagctccta aagggaaaaa aaagtcttct106021 ttttcaatgc tcatcatcac tggccatcag agaaatgcaa atcaaaacca caatgagata106081 tcatctcaca ccagttagaa tggcaatcat taaaaagtca ggaaacaaca ggtgctggag106141 aggatgtgga gaaataggaa cacttttaca ctgttggtgg gactgtaaac tagttcaacc106201 attgtggaag acagtgtggc gattcctcag ggatctagaa ttagaaatac catttgaccc106261 agccatccca ttactgggta tatacccaaa ggattataaa caatgctgct ataaagacac106 atgcacacgt atgtttattg tggcactact cacaatagca aagacttgga accaacccaa106 acgtccaaca atgatagact ggattaagaa aatgtggcac atatacacca tggaatacta106 tgcagccata aaaaatgatg agttcatgtc ctttgtaggg acatggagga agctggaaac106501 catcactctc agcaaactat cacaaggaca aaaaaccaaa cactgcatgt tctcactcat106561 aggtgggaat tgaacaatga gaacacttgg acacaggaag gggaacatca cccactgggg106621 cctgttgtgg gatgagggga gtggggaggg atagcattag gagatatacc taatgttaaa106881 tgatgagtta atgggtgcag cacaccaaca tagcacatgt atacatatgt aacaaacctg108741 cacgttgtgc acatgtaccc taaaacttaa agtataataa aaaaatatat atatatatat106801 aaaacaacta aaaataaatc ttctttttct gcaggatcag tccatcacca cacacacagg108861 ctgtgtttta tgttgttccc cagcttaaga gatcgttctc cagatcccac tgctccttcc108921 agttgtcacc tcagttctcc acttcttttt gctgataaac tactctaact agttacatat106981 gatttctgtc cccaggtccc ctccctcagt tgttttgaac ataatcattt atatcattta107041 tcattttcac tctaattgca caaccaaaaa ctcccttttt ttttagatgg agtctcactc107101 tgtcacctag gctggagtgc agtggcatga tctcggctca ctccaacctc cgcctcacgg107 gttcaagtga tccccctgcc ttagcctcct gaatagctgg gattatacac atgcaccacc107221 acacctggct aattgctttg tttttgtttg tgtgtgtgtg tgtttttttt tttttttgga107281 cagagtctca ctctgttgcc caggctagac tgcagtggca tgatctcagc tcactgcaac107 ctccacctcc tgggttcaag cgattctcct gcctcagcct cccgagtagc tgggactaca107401 ggcatgcacc accatgccag gctaattttt ttgtattttc agtagagacc aggtttcacc107461 atgttggtca ggctggtctt gaactcctga cctcaaatga tctgcgcacc tggacctccc107521 aaagtgctgg gattacagac ttgagctact gcgccgggct attttgtgtt tttagtaaag107581 acggggtttc accatgttgt ccaggctggt ctcaaactcc tgacctcaag tgatccgctc107 gcctcaggcc ctcaaagtgc tgggattaca ggagtgagcc accatgcctg gccataaaac107701 tgccctttgt taatatgact gttggcctgc acattgtcaa atccagtggc attcatctta107761 ctcggccaac ctacggcatt tgacactgtc tgtctttcct tctgttcctc tatctgtttc107821 cagtatactg gcctggcttt ctttttacct cttttatatg ctcttccagt ctcaggctcc107881 tttggggatt tgaaggtatg ttgcattttg ctattcaatg aataatgaca agtaatgatc107941 acttaagaca ttaagtggtc agttccttta ctaggataaa aataattttc ttcccaacat108 ggggcatatt ccatttccag tctgactgtt ctgtgtaatc tttgtattcc ttggcagccc108061 cttttatatc agttcatcta ctgtgcagga aattggacaa acatttgcac tggtataacc 10829 108181 10884 108241 aggtagattt gaatttcaga taaacaacaa atactttttt agtatgtcta ctgaaatatt108301 tgtatcttat ctggcaattc tacctggtac agaactaatc cattctcttg aaagatcttg108361 actctgtaat aagttctttg gtgatggaag ggaggtattt ctgtaattag agtcactgtc108421 ttcctcccag ttttttatcc tggcccagat ctgcaatgaa cacacgacag aatccagggg108481 481 ggatgaagat gggtgctttg caggaaaaaa aaattaaaaa catctgaaaa agcttttgta108541 ctaaaagaat gtgatctaaa aaagaaagca ggagaacttt ctgtctgcac tttacatcag108601 aacaaccttg gcgtctagaa gctgtgccct gtgggaagtg gtggtgcttg gtaagagatg108661 ccaggaccag tggtacccac tgggagcact gccaataccc agcaaggagc atgggtgcac 1085924 108 agtaaggcat tgcactgtga ttcagcataa aataacaata agggaacgtc acggagaaaa108781 ggccagactt cctttgttta gaatgtggga aatgtcttct gaaaaatggt agtaaaaaag108 catgcttgga tggtccactc caggcaaaac tgactaatcg ggggtcaggg atacaacccc108901 tgcatcatat gtttgtttct gttgggctga catgaggttc actgtgacca ctgtggttta108961 accccatagt ctcctggaaa tacagccagg tcaagagagc tccacataaa acataatcaa109021 aaaaataaac tcaagtttcc actgatcagc ttttcacaac tcttatcctt tcactaactt109081 tggagcaaga tttgagaatt ggatggctat ttgagggcta tttctgcgct ttagttcaat109141 gttttgttct ttctttatta gagaactatg gttttttatt atatttacac tttaagttct109201 agggtacatg tgcacaacgt gcagatttgt tacacaggta taaatgtgcc atgttggttt109261 gctgcaccca tcaactcgtc atttacatta ggtatttctc ctaatgctat ccctccccca109321 gtcccccacc ccccgacagg ccctggtgtg tgatgttccc cttcctgtgt ccaagtgttc109381 tgtttatgtg atagattacg tttattgatt tgtgtatgtt gaaccagcct tgcatcacag109441 tcacttgctt acaagaaaca aacacttcac agatggatca ttatgtgtga taagtgaaat109501 ccaaggattt atgctcagag gtgggcttaa caggtaggaa gagcagtatt ttccttcaac109561 catgagtgta tgcaggtttt tcttttcttt tttgagatgg agtctcactc ttttacccag109621 gctggcgcgc agtggtgcga tcttggctca ctgtaacctc tgccacctgg gttcaagcaa109681 ttctcctgcc tcagcctccc aagtggctgg gattacaggc acctgccact gtctccggct109741 aatttttgtc tttttagtag agatggggtt tcaccatctt ggccagcctt gtcttgaact109801 cctgacctca tgaatcatcc ttctcagcct cccaaagtgc tgggattaca ggcatgagcc109861 actgcgccca gcccacaggt ttttcaaaga ctaaacttaa aaaaaaaaaa aaaatttccc109921 aatgaaatat aaaactaaag tgctaaactg tgatagactg ttttacaaga atgccagttt109981 tcacaagtgt ctatagaaca tgtaatttag ataggtaaga tgaaattttg ataatatttg110041 atggcaaatt taaacaggta tacaacaaaa ataaaattct aagcccctca accaactgaa110 tggactcctt ctctcagcca aaggaatacc aaagtaaacc tgaaaaacta gttttggcca110 ggattggggg taggtggggg aagcccaaca tgactcatta ttctctcctc cctttggaat110221 tcaggcacaa ctgaatgtca gcattgacac taaaacacag atcttaagac tgacaagcca110281 gactctttgt agcagagagc caggccctgg aagaaatcaa gttattttat cccaaaaaat110341 atttctttga tatattttca aatggccctg caaagctgtc tcttgtgggg aaaattgaca110401 tgctgtacag aatttccttc tctttccaag tttttactga tccaggagag atttaactaa110461 gaggctagca tgtttttttt tttttttttt tgaggcggag tcttgctctg ttgcccaggc 11086521 110581 ctcctgcctc agcttcccga gtagctggga ttacagatcc atgccactat gcccagctaa110641 110701 tgacctcgtg atccgcccac ctcggcctcc caaagtgctg gcattacagg cgtgagccac110761 cgtgcccagc acaagacatt taccgtctat tctctctgaa gctactatct agaggcttca110821 tcaacataat aagacccttg gtctccacaa ctccttatct tatcctatta gtttctactg110881 attccaggtc tttagataat aacaactctt tcaaccaatt gccaatcaga aagtctttga110941 atccacctat gacttaaaag ccccactcct tcaagttatc ccgcctttct ggactgaacc111001 aatgtacacc ttatatgtgt tgatggatat ctgcctgtaa cttccattcc cctaaaatgt111061 ataacatcaa gctgtaaccc aaccaccttg ggcacatgtt ttcaggaact catgagactg111121 tgttgcagac cttggtcact catatttggc tcacagtaaa cttctttaaa tattgtatag111181 agtttggctt ttttcattga cacaggaaaa ataaagaatt ggaaggtctt tcatcagtca111241 ctgagccagc ttcatatctg actgaggtca tacagttcag tgatttgtag ctttgctact111301 tagattgcta tccattatct agaagcatca ggatcacgtg ggacctattg gaaatgcaga111361 ctttcctcct agaacccagg accttggaat attcttggca catagtaggt gctcaataca111421 tattgaactc ctaggtgcaa ttcattaatt catgaattaa tgaattaaca cgctctcaaa111481 gtttagtgct ttttcacaga ctagtctttc tgcctcttaa gcactcagct caccacgctt111541 ccagtctcac tcccctatta gtctgattaa aatctgctta catgtgagtc tgagatcaag111601 tgttatctct tctgagaagt cttccctcac tggcccaaag gaatttctcc tctattttag111661 cactgtccca gttgacttgt cattattcta gtctttttca tattagttgt ttttcatata111 tatgttatta aggaaactag tcatttcccc taatagaaca aaattgctgg cctttggggt111781 tggcaatgga ggggaggctc ttcttgaaaa gggggaagag tgttctccta atatttttct111841 tacgagattt atgttgctca tctttagcct ttagtccccc attgcctgcc tacagttggc111901 agagaccatc tgttctctca ctgtcaggaa ctgtctcaat tcttgaagtt cagagtcaaa111961 aaagaagcaa gttttcctag ctctttgatc aactttcaaa gttttacttc catttgaaaa112021 tttactaagt caccaggaga tggtttatac tgagaaatat ccactcatac tcttcctctt112081 caactttctt ccatatacac cctattacag ggatatagtc ttactctata gctcaaaagg112141 atgaccctat cagaaacctg cacagtatgt aaaacattct caccagaggt tcacttgtgt112201 atttccaccc tagaatggaa gctctacaaa agcacagaat gtatcatttt aactttagat112261 tctattttca cacccagtgc ttgacacatg atttgaagtt aatatttatt tatcaagtga112321 ttgttttaaa atcatgactc actcaacaaa gttataagaa taagaatagt gttacagaat112381 tggtatacac aagctgacca taatcaacac acctattatc atttttttgc gacaggttct112441 cgctgtctca ccctggctgg agtggagtgg catgaccacg gttcactgca ggtttgaact112501 tccaggctca agcaatcctc ccacctcagc ctcccacata gctgagccca caggtgtgtg112561 ccaccatgtc cagctaactt tttaattctt tgtagagaca gggtcaccct atgttgccca112621 agctggtctt gaactccttg gctagagaga tcctccctcc aaggtccccc aaaatgctgg112681 gatctcaggc aagagccacc atgcctggcc ataatcaata cacttttaag aatgctagaa112741 tgttatatca gatgcatact tcagcactat ctcaagcaaa ctggggtgtg ggttattcta112801 catataaagt tcagcagtgt tgttccacag tcccaaactc caactgaggt caaatgtagg112861 gtgcagcaag gtcactgggg ctgtcatcaa gggcctctcc ttgcactctt gccaaccctg112921 tttcttgatt gtctctacca ccatgagtca ccagcaatct cccacagtca cttgtttaaa112981 agttcacaag tattgtgtga attgcaggca accccttgac tccctgattg cctggtcttc113041 ttccttgggc tctaccattt tttttcccca gcactctttc tgctgctcta aattttaatt113101 35101 113101 catgcaattc catatgtgtt tctctatcat tcttcatctc tttcctctcc cttccatcca113161 113 113161 attttgtttg tctgtttgct tgcttgcttg ctttaataca tttctctttt tctgagaagg113221 cttgagtcca aaactctcag ttacctgttg ttctgtttcc cgttagttaa tctccgaacc113281 ttcataaatt aaatctgaca aagtcccctg actaacaaag gaaatgcaca agtcacagta113341 113 113341 aaaggggcac acacagaaca caaatagacc cagggtcttt tctgttcatc actcagcttt113401 ttataggaga tccaggagaa atgaagtgga aagggaagtg tgttgagtta ctatacaaca113461 caagagtaaa ctttcttata agtggtaatt tttttttaca ggaataattg aaaatggaaa113521 ttaccttctc tactcatagt aagtactcag tgcgttcttg atgggatgag aatgtgtttg113581 113 113581 agctttagtg taaggcagaa ttctgtttag tctgccagta ttggagaaaa ataaaacaca113641 113 113641 aagggactga catgtaggaa gtggcacctg ggagggtctc aattcttcct attacaaaaa113701 tgccccagag aaataaaaag cttgtgtaca tgttgagatg ggagagttct ctggcccccc113761 tcgcaggatg tgtgacagtg gggtggctct ctgctgcgcc accatgagct caaacccctc113821 821 113821 ataggagggg gagcacacag gcaggaaggt gcaggagctg ggcgagctct ttgggctctg113881 gccccgtggt actgtctaga ggtgggtgcc tgcaactcct gaaagcccaa gtgggcatgt113941 gttacagtgc actctttcag ctttgctgtc tgcagcttaa gcgttaacca gctcagtttc114001 ttcttggtac ccaggtcctt gtctggcatc caggaagaat caggttacac atggacttga114061 aggatgaatg tgggagtttt atggagtggt ggaggtggct ctcagtggga tggatgggga114121 gctggaaggg ggatggagtg ggaagatgat attctcctgg agtttggctg tccagcagcc114181 gatctcctct ccagtcgtcc ccagcctctc gacgttcaga tgctcctctt ctctccttct114241 ctgccatgct gttctgccgt tcatctgcct gtctctctct ggagcctgga atttggggtt114301 tatatggtac acaataaggg gcatggcagg ccaaaaggga actttttagg tgcaaaaaac114361 aggaatgcct cttctcactt agggctatag attttcaggc ttgaaggtgg ggcctttacc114421 agcgaacctg tatttccctg tctcctgtgc atatcaatgt aatcaaatac tgggctgatc114481 caggatgttt ctttagacca attatgggta aaataattta cattcaggtt tttatatttg114541 cttttgtcat ttctttttaa gcaatcatgt aaaatatcta tacgacagta atagatgata114601 gcgaacctaa ttaaaattac cagaaactta agaatctcta atgatttcaa ctgtaactaa114661 ggttatttct ctttatgttg aacaatgttg ggagataaga cacaagagtt tctgaagtat114721 114 114721 ttcagaaaca caaagaggga ggttatataa ataatatttt tttcctactt tgggaaaatg114781 aaagctagtc acaaagttaa acgagtggtt attttaatat ttaaaataca ggcttggatg114841 tatttcctgt taaagaaaat aaaatgcaga atattcaaaa cgtctgacca cccttctaag114901 aaaatgcatc tctgaggtat ttttccttag aagttattgt aaaaatcctg gagaagcttg114961 aacacagcaa agcaaacagg atgcagagtt taatctgtgg aaagcttagg gaagaaaagc115021 aaatcattaa aaataggtct tcctctgaag atttttaaaa cgcaaagagg gtggaatagc115081 081 115081 aatgataata aaaaagctgg catagagagt ggcacaattt gctgtgccac tgagctgact115141 ggatgtgttc tgaatttcta ggcattagtg tacctttcca cacgcattct ccctttaaaa115201 aaaatgccca cacactgaat acttttttca tgcaatttaa aataagcgca ccatctagtt115261 tacagaaatt cactagaagt tatttatcct aaaatagcag agatctagaa gaattttgag115321 ctctaggaca ttttagacac acagaaagaa gaatctggac aagtcttgac cagacatgac115381 agaatagaaa tttcttttcc tatttatctc tttgaataaa attttcagga tcttacagtg115 gacaagtttg ttatctacac attgtgaagc acattgattt ctcctctgta gccttaggaa115501 gatctgagag gtgactgagc tgattgaatg atccgtgacc gctctactgg gaccagtagt115561 agaactttac tggtggagac ctgctggagg tttgagagca gactttgaaa attactagag115621 ctacacagat actgtgtggc taactggatt atgtttagag gctttcagaa ctatgctgct115681 gctgctgcag tgtagccagg acgcacagag aacatctaag gctcttgaat ggggcgatag115741 ggacagattt cagcagccat ctgacttcag tgctcatttt gatgctttcc ctgcagggtg115801 cagtgtgcag tgtgcagtgt gcagtggtgg gaggctcaca caggaatact tgcttctgta115861 gccctaattt ccggttcaaa ctctgcattc accttgacag attctttcct tggccaaaat115921 ttagttaggc ttctgggctt tctcttatgc ccacctgcag actttttggt aaaatccagt115981 tttagtaaag agctctgcta agtcagttta gcaagaatcc ccacctcaaa agtcactatc116041 tccctccctg gtagtgtctg gcttgtcttc agcgagaatt ctattaggtt ctgttagatt 1169 116 ccaccttgct cctcggctat aaattcccac ttgcccatac tctgcagtta agactatttt116221 ctccccacta ctgcaaaatc ccattgccat ggtccctata ctatctcaat ggtaatgaat116281 aaagtctgcc ttaccatgct ttaacaagta acattgaacc atttttttct ttaacaatct116341 gctgcacaat gagattacta aaactttatt ccattttgcc atgctggatg tcctcaatgg116401 aatggctctt gtgagcacca aatcattgtg agaaggaaaa cccatctctt acagccccct116461 521 116 ttttgcccat tttcctatat cttatcagtt ggaagactgt ggaagtttgt agtactaagc116581 cacaagatga ctaagaagag ttgaaagggc aagtggggct aaaaacagat tttgtttgac116641 ttaccccacc attcccccta tcatggggct gaatctgcct ggaggaagga gcatctttat116 ctttgtactg tgaaccacac agtctagcag cagcacagcc aaggcacttg gggtttcatg116761 agactaagta catgcaattc tattgtaaag gcttaaaata tatacaactg acccttgaac116821 aacatgaatt tgaattgcat ggtcagttat acgcagattt tcttccacct ctgccacccc116881 tgagacagta agatcaatca atcctcttcc tcctactcct cagtctactc aaagatactt116941 3911742 46001 117061 tttattgtta agaatacaat ctataataca tatgacatac aaaatatgtc ttagttgact117121 gtttatgtta tctgtaaggc ttcaggtcaa gagtatgcta ttagtggtta agttttcgag117181 gagtcaaaag gtgtatgtgg actttcaact gcaggggggt gggcacccct gcccccatgt117241 tgttcaaggg tcaactttac tgccaaaggc aagcctttac atccactttt tccatcccat117301 cagtaaatgg aaaaagatag ctacagtatc cctgcgtcaa atcttttttt ttgcagatca117361 caaattggcc actcaccttg ctctgtgagg ggtaaaatgc cccactttct ttagtaatat 11759421 ttaagttaga taatatttaa gttataaagt tgttctttgt aatcgttaat tgtaattttt117481 acatagtttc tttcaaacag aaatagcatt tttgttagat aacctcccgt atagatgatg 117481 aaactccttt taagggctat ctgaatttta attccttgaa aaggcagaaa ttggatagct117601 agtagtcata aatgtactgt ggcttccccc aaccatctgg gctatataga agctgcatcc117661 ttggactgca gtagaggagt cttacaaagc acagagcaac ttctctcctg ggttgcgcta117721 gttatgatgg caattttaaa tgtgtacttt tacccaaaga aaatccttat tatcaacaat117781 cacaatgcca tcataaccat ggtataaaaa attcaaaatg tcccagctga agtggaggca117841 aagactcaag ttcatggagt cagagtttcc ttgctattcc tctttttcaa atgaccattt117901 117961 ctcgaaaatc taattctcca gatgaaacgc tgacacttat ccaccccaca gaccctatag118021 cagatgtgtc actggccatc acatttgaca cagagaagtc ataactcagt cagcacagag118081 acatttccat gagtttctga accatggaca gaacgtcgtc tgtgggacat gaaaactgga118141 acttagagga caggcacatc tgagaaatgg gcagtttaaa ggcagaacat agcacatatg118201 tgactgggtt ttagaagcaa atttacaaga cgcactcttc ttcatcctaa ataatctgca118261 accaaagctt ccaaaaaaga caatttagga atgcagaggt gaggagtagg gaggggaatg118321 ggatgagaga gagtggagat taatggtggg cagagcgagg tttagaactt agtggtttct118381 tcaggttctg aactgaaatt tgtatactgt aaaggcacaa acaccatttt taacaaaagt118441 gagcaggact tcctatctgg ttcagaaaat aggtgaataa atagtacgaa ttattaaaaa118501 taataatttc cacttataca taggaaactt gataggaacc atgataaatg cttaactctt118561 aatcttcaag gaactctgct agggatataa tattataaat cttgttttgc agatggagaa118621 attgaatttt aacccaagtt atcataaccc ttaaatgatt aaatgatact gttacatgag118681 aaagctgcgt atctgtttcc tggatttgta gccataattt gtgtctcaag tcccttttgc118741 118 118741 tgccagctat cttgggtagg tgtgttccct ttgggctgtt tgataccccc acatttatct118801 tttttttttc tctttttttg ttgagagagt ctttccctgt tgcctaggct ggagggcaat118861 ggcgcgatct cggctcactg caacctccgc ctcctgggtt caagtgcttc tcacgattct118921 cttgtcccag cctctctaat agctcggatt actggcatgc accaccacgc ccacctaatt118981 ttgtattttt agtagacaag gggtttctcc atgttggtca gggtggtctc aaactcctga119041 cctcaggtga tctgcctgcc ttggcctccc aaagtgctgg gattacaggt gtgagccacc119101 atgcctggcc ccaaatttat ctttaatgcc ccaaattatc tagttcccat gactgggctt119161 ctgctttgat cctttctgca cttgctggac cctctccctg ggaaatgaga ttgtgtcctg119221 agcccctagt tagaggctat gtctctgctg ttcctgaatg ggcctcctgg atgagacctc119281 attaaaagtc taattctctt ggagaattga gagataccta tttgtctcaa aatcattgaa119341 119 119341 accaattaat gtattatgag cctctatcca gtgatttgta cctcaattcc ccaatccagc119401 119 119401 tgtcaaggcc aatttgttct accttaccta gtaggtaagt ctggaattgt agctgtggca119461 119 119461 ttttcagtaa tggtactcta 1196392 119989 ggttagcagt ccccaacctt tttggcacca gggaccagtt119521 ttgtggaaga caatttttcc atgaagggct gggcagggga gtggtttcag gatgaaactg119 ttccacctca gatcatcagg cattagattc tcacaaggag tgcgcaagct agatccctca119641 cacatgcagt tcacaatagg gtgtgcactc ccatgagaat ctaacaccgc tgctgatctg119701 acaggagaca gagctcaggc agtaatactc atttgcctac cgctcacctc ctgccgtgca119761 gctcagttcc taacaggcca cggaccagta ctggtccacg gcgcaggcat cagggacccc119821 tgttgctagg tataagcatc tggctgctgc atgtcttctg tgtagctaca tctgtatgtg119881 tatctgatga gatataaatt atttgattat aaattacttt cttcatatta gagttgtgaa119941 tgagtatcac atataattat acataaacta ggaatatgct ttttaataat gtatataagt120001 aagtttcctt aactatgact ttcatcttag cgtagtaaga gggtgctaag aaatatttgt120061 gatgaaaata ggcattggta gagttgagac cactgggtga tgaaagagtg taaagatttt120121 aaagccttca gatgctggtt caaggtgaga aatgtgattg ggagcaaatc aattaacttc120 ttgaagtctt atagggcagt tatgaatact taatgttaac atatgtaaag ctcttctgcc120241 ctgtatacag taaatgctag ttagctatta tgatcactac taaaatgggg atgacataaa120301 cctcataagg ttttaagtat tatgcaagat actatacaaa gtccagtaaa tatcacattc120 aattgaatcc atgatgtccg attattttag ctacttccaa gagagaaaaa aatgctgtca120421 gttttactgt tcttatagag agcaaggcag atcccaattc ccaatgtggt aacgtgaaaa tttttgcatt tgaatcaaca aaacactttc tcctttcttt cctactattt aacaactggt120541 aagtctatac tcccccaaat ctggaattct cctttcttat tctttttcct cctaccaaga120601 ccgcaggatc ttttacttgg ctataagggg taaacctcaa gtagtacaag ttctctgtat120661 tacttttata ctctgtcaca gattcccttt gtttcctcat ctccatgtga atttagttaa120721 120 attctcagca ttctgatcct tactatacaa ggtaaatgaa tataaaaaca aaacgaaaca120781 aaaacctctt cctatttaca taaggcccca acctaatatt tagtgatata tattaatgtg 120901 tttcctggga acaatttcat gtaacgtcaa aggtggtaaa aggtcaaata gaatgaagat120961 ggagaatacc ggattttctt acaaaatgat ttcccaggag atctcatcaa atgcacgagg121021 ataccttctc agtttcacct agtgagtaaa agactggtaa catagctcac ttacaatttg121081 gataaacaaa actaaacaaa caacatcaaa atttcagaaa aaataatagc aaaacagaaa121141 121 tcaaacactc aaatttttgg tccttctgtt tatttcattt tggatactca gtgaatgtta121201 attaaccagg aaacttaaaa gttatttcaa ttatgaacct cttcaatcct tcatcaatta121261 ttttgagtat tctggtctta aaaacatctc tttcttctac aaacttctga aagagatgaa121321 cacctccacc tacaccaaaa taatgtgctt tgctggccaa aagtacacgt ccatttttac121381 ttaacagtct aaggaaagtc tggtgcaaat tactataata atctgggttg taaatggttt121441 12148 121501 aaaactcaga ccactcacca gaaaaaaatc ggcatttata tagttgtgtt acttttggtt121561 tcctgcatct tttcacatct ggctcattta catcattttc ttcatcttcc aaagtggagt121621 121 tagctactac attaggtaag gttacttcat caatcaccat actgttataa tcttgaaagt121681 gaatttcttt ggaccctccc ttgaatgcag ttatacctag taaacctgat ccacaaccaa121741 gatccaagac ttttttccca gcaaatttca ctttggcctt tgtgaaataa gccaggaggt121801 121 caaaggtaca ttcccagatt tttaagcctc cctcataaac acctgtaatc agatcagagt121861 gagaagaaaa gctttttgaa actatgtttt ctccagggaa gttctctttc aacaagatgg121921 ttttcactac tgataactta acatgctgga aacctggtaa tgtttctatg actttatttt121981 ctaacatctt ctttaaatct ttaggcatag catgctcttt ggcagctctc aaggagggct122041 gttttccatg tggctccaag ttccttgaac tgctggctgc actgagtgga ctgtctgtgt122101 cttgagaggg agctgcattt tccattgact tatgttccca caagtgatcc tgaggcaagt122 caaattgttc tgcagaacat tttctgtccc tctcttctcc tttttgactt tctgagactg122221 acagctcttt tgaggaatcc agggtcaaag ctccatctct aatgggtgtt aattcatttt122281 ccagatggtc ttctatagtg aaattaaact gaaaggtcat cctcttatta aatgcacaca 1223672 atctttaaat tcagattctt caacttctgg atagaatttg atgatacaca caaatctgcc122401 tcaattattc aattagtttt gttgggccca atttctcttt agcagcttat acatggtaac122461 aaatatttag agatatttcc aaatgacttt ttagacgtct ttggtcctct ttccaagcag122521 ctctggaaag aaaaaaaaaa aaaaaagaaa gaaaatgatg attaaagcaa aatggcacat122581 ttcactaaag tgtaatatta aacagccacc cccacccctc cctgtcccac catacagctg122641 ctttttctta aaaagttgtg gggaagagag agagataaga gatttggaca ctcatacaca122701 ccttaagggt tccaaagtgg gagaagaaaa tcaactataa aaacaaacag aagaacaaca122761 gcaaccacca ccactaccac ctggacaaac ataaagtcca agatattcag acaggacagc122821 ctagctactt gctgtctttc agctgtcttg atttgtgtcc aaccatattc accccctaag122881 cttccagaat aacttcactt ctgtctttta cagaagaggt gcagtatttt attttggtaa122941 gtcagcgtcc ctttaaaaac atgcataggt atggcctggt gtgtgtaaat tcatccaaga123001 12356 123001 cttcactcca aacatttagt cgagaacagc agccctaagt gtatagaagt gggggtaatt123061 tggcaataat tagtaaagac taattcggtg gcagagcaaa cgcaaactag ggcactgcag123121 tagtttggag agacctgtag aaataagaag caactttatt gagaatcttc tatctactgc123181 gctagacact ataccatctg cctcaatttt cacagttctg gcaagtggga tctttgttcc123241 123 123241 ctttatacaa gatttacaat ttgggggaga ggcgggtcac ccagtcccgc ggctaggaac123301 123 123301 gcgcctcttt cctctcccat cacgctgcaa ggcttggagt cacttccggc tgcaggtccc123361 123 123361 ggaacaaatc cgaccccaga agtggggact tctggccctc acctccccat ttgaatgtaa123421 123 123421 tgtttacagt gatccagacc tggggatgct tgcttcccga cgtgtcctgg gatcgcgctt123481 ctgaaaaagc tcacctcaca acgcctcctc cggacctaaa tcgcgcacca gtgagtcgag123541 tcctccaggg gctagagaag cccgactttc tttccggcct tgagggaccc gggctcacca123601 agaaaccagc cgccctcctc tctatggttt tggagccggc ggagagcgcg caagggttgg123661 123123661 123661 cgggactgcg agtttccggt ctgggctttg gcgggtctgg tttgaagctc tcctgtttga123721 12363123 123721 cgaaagtatg tctcaggaag gtgcggtccc agctagcgcg gttcccctgg aagaattaag123781 123 123781 tagctggcca gaggagctat gccgccggga actgccgtcc 781865 4 gtcctgcccc gactcctcat123841 atccttcctt ggttgtcact tctacctaga gaagggtgtg ggcgggtcgc gaacctttct123901 cttctgtccc ttcagaccca ccgccaggct gggttatatt accgcggcct gaaccccctc123961 ttttctttgt cagtgagtgg gatgaaaagt gagggactgg aggggaagcg acaaccgtgg124021 tagatttaag taaggctttg gccctggaaa gcctcgcgga cgtgttctga cccaaggttt124081 tagcagtgga tgtggcgttt tcttccattc cttctttcag tttttctgta ctcgttgctt124141 gcaattaagt gtaaatactt ttgctagtgg ataatggggg aggcaaggac tgagacctgc124201 ggtatgacga tagctctggc tcttaatagt ttgaggtaaa gcgagatact ctgagctttt124261 gtctcccgta aaaagggtgg tgaatatgaa taagggcttt cttagcgtta taagaattaa124321 agggcatagt tctgtggtgt gaaatcttta aaagatgttc agtaaataaa aatgattttc124381 ctccttcccc tctcagacct ctttttcttc tttctttctt tttttttgac aagttctcac124441 tcctctcacc caggctggag tctttctgaa agagttcttc cgcttgttgt tggctttcaa124501 ctgttggatt tgaggcgctt agcgccttct tcgtccgggt gcagcacatt cttgattggt124561 ctcatgcctt tgtggttgta aatgtgcctg gaatcctagc ctttcatggt aaaccatatg124621 tatatgtatc tttttcacaa catttgagcc cagctttata caattacact caaaagaaaa124681 aaagtaacct tcacttgaga gaatctcaat actgcacaaa tattgtgcag ctaaagccct124741 atgtaatcac atagaagtca ttcacctagg cattagcaaa atctcagaag gtgccaaagc124801 cccctttttt agtttttgtg taggtacaga actgccgtct tcaaggagtt tcaacttgaa124861 aacaaatagc caccctcaaa acattcaaaa acacttaaac tgcgtgcata atgtgtgtga124921 gacatggtgt taggctttgg gagaacagag acacggaacg tgattcctct tcttccccac124981 8612527 041125 aaacgacata ttcaaaaaag cccaaacttc ctctagtttt cttcatctga gtaaatggtt125 tcacaaactg aaaccttgaa tcctctctgt ctcacacacc cgatcagtaa gttctattgt125 ttctgattcc aaactatgtc ttgaatcaat ccgtttatct ccatcctcat tgctaccact 1253672 ctgattccaa acccttatca cctctcactt ggagtattaa tagtttcctt gtttctactc125281 ataattcatt attccaaaaa agttaagagg ggaaaaacat agatctcgtc atttcccttt125341 ttaaaccact ttaccttcaa ggttccaggt gatctaagcc ttgcccttct ctcataccta125401 gttaattaac tacactctgt tcatgaatac attaggctca cctacctcaa gatctttttg125461 ctcagcctga tttgttctct cagccttttg catatttcat gtttatgtct tggcccaaat125521 84 125581 581 gtcttacact tgtatcacat tggcctgttc agttttctaa aaagcacatt accattaaaa125641 gaaatgctct tgtttgcttt gtatattttc cacttctaca cattatgttg caaagttcat 12546701 aaaggcagga tgttgatttt cttcacagcg ttaccctcag cacctagaac agtgcctgac125761 acatagtaag cattcattaa agggctaaaa atatttcatg ttttaaaaat acttgggagt125821 ctaattagac aatacttttt ttcagcttaa tggtagtatt ttagcttcac tattttaaca125881 aatgaaaaat ttgcaataaa tctacaatgc cattaccccc caaaatcttt ttcatgtttt125941 gcattttacg tattattttc caggccttac ctgcatgtct gcataatcat aactgactaa126001 ttttggaaca gctggtaatt atttgagctt tactgaaatt ttttcatgag gccaattcta126061 ccctactgaa ctcaaatttg agttaatgat gacctcattt tgattgctgc tgtaaaaaat126121 aagatttcgg aagaggaatg aattcttgta ttactgtggt aggactatgg gttttttttt126181 gtttgtttgt ttgttttgag acggagtctc accctgtcac ccaggctgga gtgcagtggt126 gcgatctcag ctcacagcag ccaggttcaa gtgattctcc ttcctcagcc tcccgagtag126301 ctgagattac aggcacgtgc caccatgccc ggctaatttt ttgtatcttt agtagagatg126361 gtttcaccat gttggccagg ctggtctcga actcctgacc tcgtgatccg cctgcctcag126421 cctcccaaag tgctgggact acaggcgtga gccaccgtgc ccggccgggt tattcatttt126481 tcttattaac attctttgat gattcttatg gtgttgttac agtaaaacat ttctaacaat126541 126601 tgctatgtgc agaagaattt cagtcaaata aagttggtaa gataggtatg taagtaatat126661 gaaaaaagat agaaggtgat gagtgactta ggtataaatt aagtacaata gaaatgttga126721 ggaaagaaaa atttcttgta atagaaatcg gaagtacaaa ctgggcatgg tggtgtgcat126781 ctctaatccc agctccttga gaggctggta tgggaggatc actttagccc aggagcttga126841 ggctgcagtg aggtgtgatc atgtcaccgc actccatcct gggtgacagc aagaccgtct126901 ctcttttttt ttttttttga gacggagtct cgcctatgct ggagtgcaat ggcgcgatct126961 tggctcactg caacctctgc ctcccagttt caagtgattc tcctgcctca gcctcctgag127021 cagctgggat tacaggtgtg cgccaccatg cccagctaat tattttgtat tttaagtaga127081 gacgggttct caccatactg gccaggctgg tcttcaactc ctgacctctt gttcgcccat127141 ctaggtctcc caaagtgctg ggattacagg tgtgagccac cccacttggc cccgagcgag127201 accctctctc taaaaaaaaa taaataaata aatcataaac ctgtggatta ttgtagcatt127261 gtttctcatc tgtcaaaaat atttcatgac tatgcatagt ttgaaaaggc aagtttgtcc127321 ctgggcaatt ttcaaaatat ttctttaatg tgttttcaca atactgttta cctaataaat127381 127 127381 cttaagtttt taaaagcaaa attaagccag taatttgagt ccaattccaa tctcttatga127441 127 127441 gtcattgctt aaatttcaaa agggttttat ttttttttta ggtttgttct gagtaatgaa127501 taccctatta ctatgatact agtatcttcc ttaattatcc tactcattgt ctcaacattc127561 tgacagttgg attgagcata ttcgtaagta aaattgtttt aactgtatga tgtactttga127621 tgttaaggtc cgagtcccca catacctcgg tagatgtgtt cttacagttt tgtattccct127681 681 127681 tgaaatgtaa ctgttctcta tgttacagcc tttataacct tcagttactt gaaatgaaca127741 127 127741 aattcattca aattccagca cttaaaagtt ttaaattaca ttttggataa ataccaaagt127801 gttttgttga tgatgtatgt ataaacaaat tgtaaatatt aaacgttagt tgttacgatt127861 agacctatat aaaacatgat atgcagtcta ctgaatagct atcagcctct aacatgttta127921 gtgtcattta gaaaatgctt tctaaattgc caaaagctga ttgtctaggt gataacaaat127981 ttaccatttg gaggaagttg actttctcat tttcatgtct tcatcagtct tacttgatga128041 gattcattct tctagtcaga agagagttta gactgctcag tttactcata ttttgagtta128101 128 128101 gcttttctat ttagagttca cttggttgtg gaatattcat ttataatttg aatctacgtt128161 gtgtaatggg acctaatttt tttttccttt gtttttgttg gagtctcgtt ttgtcaccca128221 ggttggagtg cagtggcgtg atctttgctc actgcaacct ccaccttcca ggttcaggtg128281 attctcctgc ctcagtctcc caagtagctg ggattacagg catgcttcac cacgcctggc128341 taatttttgt atttttagta gagatggggt ttcaccatgt tggccaggct ggtctcaaaa128401 ctcctgagct caagtgatcc tcctgccttg gcctccataa gtgctgggat tacaggcgtg128461 agccgctgag cctggcccca gagtttgttt tgttttgttt tcaagacaag atctcactct128521 attgcccagg ctggagagca gtagtgcgat catagctcac tgcagcctga actcctgggt128581 tcaagctatt ctcctgcctc catcttctaa agtgctgtga ttacaggtct gagccatgat128641 gcttggcctg tgtttttgtt tgtttgtttt gggggacagg gtcttgcttt gtcaccaaaa128701 ctggagtgta gtggtgcgaa catagctagc tcactgcagc ctccatctcc cacgctcaag128761 caatcctctc acctcagcct tccaagtagc tgagaccgca ggtgcgtgct accatgcgtg128821 gctaattttc tatttatata tttatttttt ggtagacatg aggtcttgtc atgtttccca128881 ggtggtcttt aactcctggg ctcagacagt cctcccgcct cagccaccca aagtgttggg128941 attacaggcg tgagccacca tgcgtggcat aatttttttt aagtaaatta tttttttatc129001 ttgagtatag aagtgattca tgttcattgt ggaaaatatg aaacatatag aaaaacagaa 0611299 aagattacaa aacatctaat ctgaaatggt taagattttg atgagaacag tctcatctca129121 tttccgtata ttcctgccag cctatccatc attcttcgta catgtttatc tacattaaaa129181 82129241 aaatgtcatt ttaatgatgg cagatcctat tcaatagatg tacacacacc tatttaactg129301 129361 12928 129 ggtagtattc ttgcatttaa taaagggcag tggcctttgt tgactgacat gacaatattt129481 ttataaaatt tgttatttgc tttacagaaa ttttgaaaat tattgtagaa atgtttttac129541 12972 129601 12951 gtccacaatt gttggatatg taggtcgttt cctttctctc tttttttttt tttttggcta129361 12928 129129481 aatactatta cctgaaaata catgttataa ggaatctagc ctcagtctta gatgatttat129661 tattaattat ggctctcttt ttctaatata tcaaatatat tcaaaataaa aataaggagt129721 63 aagtagatct catgtgagac tataatggtg ttagtgtgat cattaggcag ttaaaaactg129781 ttacaggctg ggcacggtgg ctcatgcctg taatcccagc tctctgagag gctgaggtgg129841 gcagatcatc tgaggtcagg agttcgagac cacccatggt caacatgatg aaacctcgtc129901 tctactaaaa gtacaaaaaa ttagctggac atggtggcag gtgcctgtaa tcccagctac129961 ttgggagact gagacaggag aattgcttga gcctgggagg cggaggttgc attgagtcaa130021 gatcgtgcca ttgcactcca gcctgggcaa taagagcgat gctccgtctc aaaaaaaaaa130081 aaaaaaaaaa aagaacttat attttcagat tgtgtggttc ctttactaac tgaatttaaa130141 ttatttgtag tcaattttaa atgctcttgt attttaaagc cactgtactc cagcctgggt130201 gacagagtga aacccttaat tcaaaaaaaa aaaaaaaaaa aagaaaagct ggaatattgg130261 caaaatcaag taactaagag aaaacattaa attcacagaa tacattatta cattttagat130321 atatatggta tatgttttct ctgaaaagca caagcatacc ttttttgttt taaatggagg130381 gaactaaaga tactttggtg ccaaaatgaa acattatttg taattaatct cttattgaaa130441 tgggtttcta actttagctt tgaatcgtaa tctttcaaat ttcttgtact catagtcact130501 tgatgattct ctatctgaaa tatttcttag aatttgttct tgaccaccag aaaaagattc130561 aactgttaca tagatgaaaa tggatgttga gtgttaacag gcctatggga aacagtattt130621 tctttagcta cattgtattg ttgactgtgt tgctattctt ataatgttta ggtcatttaa130681 attgttagaa agatccaagt attaagatct agggtggcta acttttcaca gacaaaaagc130741 ttgtttgtaa ggtcatttac tataccctta attcaggaag gttagcttga attgggtcaa 130695801 130861 82921 gtgcgaaagt aatactttta ttttttgcat ctctaaaaca tgaactttga gtgatttttt130981 aaaaaaattg atgctattaa atagattcaa accatagaaa tggaaaataa atttctgttt131041 ggggcttttg gggggattat gttgtaaaaa taccttttct ctgtattttg tgcttaatta131101 ggtacaattg ttaagctaga tgatagcctg tggatgttac tagtgcaaaa tcaaattatc131 gtattgtgtt ttctctgtaa agttttgtct tgtcttttct agtgatttct cttattcctg131221 tttattactt gatttgtttt tacagactgt gaaattattc gatgacatga tgtatgaatt131281 aaccagtcaa gccagaggac tgtcaagcca aaatttggaa atccagacca ctctaaggaa131341 84 131401 caaaattttt atactgatac tgattagcta tgtattctta tgtaatggcc taatgttgga131461 attaaattta tagaattaaa gacgtgaata tagaaacatg aattctgaat aataaactct131521 tataagaaga gaagtcatca agctagctga ccctacctgt attttcaagg atatgtgtgg131 aacacctgcc atgtgttttg aagtttgtgt tagtattcta aatggctaga cagttgttcc131641 agtatttgta gttctgatag actaaagttc tgtgaaaaga ggaagagact gtgttttgtt131701 cattgctgta tttgtagcac ccagcatgct gactaatacc ttttcagtgc acaaaaaata131761 tattctaagt gaaatttcct tccttattca cagacaatgg tgcagctctt aggagctctc131821 acaggatgtg ttcagcatat ctgtgccaca caggaatcca tcattttgga aaatattcag131881 agtctcccct cctcagtcct tcatataatt aaaagcacat ttgtgcattg taaggtgagt131941 aaaggtctaa ttatactttg aatggtatat aatcaatgtg cataggggct gagtaaaata132001 atgtttgtat aagattttac attttagtct atattattga aataaacttt tccatagaat132061 695 2 132121 tggctttttg gggtttttta gttttatctt atttcccctc tataaagaaa gaagttttaa 13282 gaatttgtgt tgagacagac acagggatcc tgaaatagtt atgtcatgtt gcattgacca132241 13227 132132301 ttatttagtc catctctaca tgccagaggt agccttgagg cacaaaagct tgcctagaat132361 ttatgggtca cagacagttt taatattgct atttgttggg cgaatgaaaa tcactagtta132421 attaatacct ctctttgctg ataggatgct aaaaatgtca cgcacctggc ctaatgttac132481 ccttttttag ttctgtattt gcaagatcat ggaagtcaga aataatattt tatacatgct132541 tgcatctctt gaagcacact atatttaatg gatgttcact aaacaatgaa tgaatatgtg132601 attcagtaaa tttatgatct ctaatagtat gaattaaagt aaatttggct cttgagcttt132661 gatttgtttt ttctctcatt tttatttatc cgtaatcaga atagtgaatc tgtgtattct132721 gggtgtttac acctagtttc agaccttctc caggctcttt tcaaggaggc ctattctctt132781 caaaagcagt taatggaact gctggacatg gtttgcatgg accctttagt agatgacaat132841 132 132841 gatgatattt tgaatatggt aataggtgag tgaagaaaac tttctgctta gtatatggtg132901 actataaatc atgtatcaat taaaattgtc tctaatgatt catgttattt tcttactaat132961 tatgcattaa aattgattta aatcttacca aataaatttt taatcttgaa atttggaatt133021 tgtaaaattt attttgggta ccttaaccta gatttgcgta tttagttact gtaatttctc133081 cacaatgatt aacttatata actttataat ctctgaggtt gtccatattc agagacaata133141 actttcacat ttttttaacc ataactgata ttgagatgca gtttatattt ccttccagaa133201 tacatataaa tacgtgcata tgtgtatgta aatatgtcta ttctcatata catattataa133261 tgaaataact cattttacat gtgatgcact ttatactagt ttatttttat tttattttat133321 ttttttgaga cagagtctca ctgtgtagcc caggctggag tgcagtggca caatctcggc133381 tcactgcaac ctcgcctccc ggactcaagc gattctcctg cctcagcctc atgagtagct133441 gggattatag gcgtccgcca ccacacctgg ctaatttttg tatttttagt agagacaggg133501 tttcaccgtg ttggccaggc tggtcttgaa ctcctgacct caggtaatcc acctgcctca133561 gcctcccaaa gtgctgggat tacaggcatg agccaccgtg cccagccaat actagtttat133621 ttttaaagaa ttgctggtcg taacacactt cattgatttt atcactcatt aatggattat133681 58681 133681 gaacaagagt ttgaaaaaca atataaaggc aaagtttgca ttcaaaactt tggtataaag133741 agagtaagtt ggttttgtgc agtgtatcag gcacctgttg ctctgcaaca caccacctca133801 aaatctattt attcactatt tatttattca tgattctgtg agtctgcagt ttagggtggg133861 atgtcctgag acaactttct ctgatccacc tggggcacta gctcacccat gtgacttcag133921 tgacttcatt cacatctggc tgttggcaga ggcagaagta cttgagaaag ccatgtgcat133981 catccagcag gttcacccta tctcagatac ctgatgccag tggtttcagg gtttctaaga134041 gtagcaaaag tgtgagcagg tcgctgtgtg ctagcacttt tcaagtttct gcttgcctta134101 attttattat tgtcccccgg gccacagcag gtcatagcgt ttagcccaga gtcattgtag134161 aaaagtgtgg attcacaaag ggcagtcatt gtggccattt ttataaataa tctaccacag134221 actgagtaaa agccttgcat gaataccatg gatattaatt tgaattcttc ctttttagat134281 tttctttcct tagcaatttg ttttgtcatt ttggattaga attatatctg tagaatattt134341 cagttataat agggtacaac ttttattcca ctgaacatct ttagttttat ttaggtcatc134401 tggtaggtat aaacttcaga agttaatatt caatatttat aaaaaccatt aacaagtgtg134461 57348 134521 ttaattcaat caaatgttga aattgttcag tagatagttt taattatagg agaaactcac134581 ccccatgaca tttggatgtc ttaaaagttc tgttatcttt ctttgcagtt attcattctt134641 tattggatat ctgctctgtt atttccagta tggaccatgc atttcatgcc aatacttgga134 agtttataat taagtaagtt tgtttgttat tttttacttt ttagaaaatg ttttccatat134761 tccccaatct taattattca tgattcttta gattgcattt aaaacatttt gtgtgaattt134821 aatgttcact gacactgctg tctgataatc cagatattct acatgtagct ctcaagccaa134881 attggacttc tttaccctgt ggcctctaaa attaaaaaaa atgttcttcc tagttagcta134941 gtacttcaga aataatgggc catgggccag actagaactt aaccactttt cttctgctac135 tgttgtttaa ccagctatca agtatcctat ttctaggatt agataaattg ataactataa135061 ttaaaactga atataatctt ttcattaggt acttttaagt tgttcacact taattccatt135121 tgtacagtaa ttttaacttt ctgaaactga agcattttaa agggtcacca gggatagtgc 13586181 ctgtagcatt catcagattc ttaggggtga gaggagatgt ggttgagatg taaaaatggt135241 taagaatatc tactttatac acatacataa aacattaaag gtcagtgtat tttcaggtct135301 taggtacttt tcttgtacta ccaggacatt aagttgccat tcagtggtta agagtgttgc135361 ctgggagctg tatcacatgt gcttaaatcc attcttgaaa tcatttactc cttctgagcc135421 cttgggctat ttggttaatt tctctgaacg ttagtttgct catctgaaaa tggaaataat135481 aatagcaact tcttgacagg gttatagtga gaattgagtt catcactgtg aaatgcttag135541 aaatgtgcat gacacatagt taatactcaa ggaattagcc acatcactat catcatcact135601 gattatcttc cactcttacc ctcttccagt tcattttctg cccagcagaa tgatctttta135661 84 135721 acaacctaat cctctgtgga tgctgcctcc ttcaccagcc tgtctcatgc tgctctccct135781 actcttagtt cctcaaacat accaaactct cctgtcccag agtcttttcg tggtttttcc135 atctgcctag gatgcttctc tctcctattt tgtgtacctt gctaactcct gcttactgtc135901 tttcagttct cagcttaaga gttatatctt catgataaca ttctttgata tccttaccct135961 aagattaagt tagattgata tccttaccct aagaataagt tagattaggt ctctctattg136021 tagcacctta gactctgtca tttgacaaat cacagcccta attaattatt cttaaaatta136081 tttaacattc tctctcatgc tagaccacaa gtttcatgca ggtaaggcgg agattgtgtc136141 catttgtttg acccctttgt ctccagggcc tggtagaatg cctcatacat agtaagaatt136201 caattaatat tttacacaga gaaaaaatta gcaacttatt taaacaaata taactgcttc136261 agaggtaaac tgggcacatc ttagttatat tatgtgatat atgatgcttt ttgattgttt136321 ttttaaatgt tctacaaggt agatattgtt agaggtccta agttacttga tgtgttactt136381 gtggtgattg tattcttttc tttttattca tttaggcaga gccttaagca ccagtccata136441 ataaaaagcc agttgaaaca caaagatata attactagct tgtgtgaaga cattcttttc136501 tccttccatt cttgtttaca gttagctgag cagatgacac agtcagatgc acaggtaaaa136561 tttgggctaa tagcatttta aacagcaact cttattttct ttggcagtta gtaaatctca 621 136 tttgaatgtc tgggtcagtc tatttaagag gattttaatt tatttcattt gggtgttttt136681 ttttgatctg tgggattatt tatatcccat aattactttt cacccagagc attgtattag136 attcctaact gctgtcattg cctctggggt ctgcctggct ccctctttgc ttggtaactg136801 gttggtcaca gcattcttct cagaatcctt tcattctttt ctgcatgaga acaaaaattc136861 ttttgttcat atttgtataa gatctgatat agctgcaatc aatcttgcat tttttcttca136921 ccaacgcatt gcgaccttta gggatacaag tatgtttgtg catgtatatg tatgtatcag136981 tcttttaaat ttgatatagt catacatttg tttttatttt gaaaagttag agtgttgaat137041 tggtatccca tttatgaaac attatattct aaaaatttgt agtacgatta ttgggaatta137101 taactcattt tcctgtaaca ctgttataca tagtaccttt tgctttcaga ctagccctca137161 attttattta actatagtag tcctaaatta taagattaat agtactcagg acctaacagt137221 tatatgtcat ttgttttttt tttttttgag atggcgtctc actctgtcac ccaagctgga 13746281 gtgcagtggt atgaccttgg ctcactgcag cctctgcctc acgggttcaa gggatcgttc137341 tgccttagcc tcctgagtag ctgggattat aggcgcctgc caccacgcct ggctaatttt137401 tttagtagag acggggtttc gccatgttgg ccaggctggt ctcgaactcc tgacctcagg137461 tggtccaccc gccttggcct cccaaagtgc tgggattaca ggtgtgagcc accgcgccca137521 gcctatatgt aataatttta atgggaccat gaattgaata tttcttcctt gaatagcaat137581 gacatagccc cttctattgt acatctgcaa gctgatacag ggaattcctt tgtacctgcg137641 ctcttccctg ccagtcagct atgggggtga aagtgtaggg gttcatccaa gtcctaaaac137701 tggtagcaac tcctagggca gggctgatct ggaaggacag accctagggg agggtggaac137761 tttaaaaaga agttctgaag gtagtaagaa ggaaatgagg agtagtgtta ggaaggggct137821 aacttttttc ttcttgcttc tcttctttat ctcacctgcc cctccccttg tatcccttct137881 tcctttttcc ctttcctttt ttgtcctcac ttcattcgtg catcctttct gattcctctt137941 accttgctaa aaggagaagt ttgtttgggt atcctatatc aatggcagga aggttgtttt138001 cttctttacc tttatcctat agattcatat tctcaacacc aacctcctcc tttttcagtt138061 tccttcttgc ttctcttgac accacagagt ttgcagctag tacttggaga ggaaaattaa138 acagagatac ttggaccaag agtaagatga agaaagtcta aacaacagta tagtctatag138181 tggcaagaga gagtatgggg gctgcttagc cagggtggct gtacataaag tatatcttca138241 gtttatataa actgcttata gatggaaatc agaaaattta aattctctta actgtccaag138301 aaaattctca ttttttcaaa tttgggactg ataaatgtga ccagttctgc ttactgtcca138361 ttgcctgaaa tggagctttg aggtggactg tataatttct tcaatcttaa ctccaaattc138421 tgatcagcga cgccctctgc tgttcactat taatatttat ttaccaatca aagtaaagta138481 ttgaagtttt cctggcagtt ttcactttgt gttttagtcc atttaggctg ctataacaaa138541 atcccttaaa ctgggtaagg gattataaat attagaaatt tatctctcac agttctggaa138601 gctgggaagc ccaatatcaa ggcaccagta gatttggtgt ctaacgaggg tgtgccgtct138661 gcttcaaaaa tggccccttg ttgctgcatc ctcacttagt gcaaggggca agacagctcc138721 cttcaacctc ttttataagg gcacttatgt cattcatgag ggcagagccc tcatgactta138781 atcacttccc caaaggcccc acctcttaat agtatcacat tgggtgttag gtgtctggga138841 ggacaccaat cttcaagcca tatcatctca cttggaaaaa agtcaaaata aaaccagtag138901 atttaattaa tattacacta tttatagaag catgtgatgt atcattcctt gtattaattt138961 58139021 ctctcacatt tctagaggca gaagttcaca gtgtgtcaat agggccatgt tctctggaag139081 gctttagggg agaatatatt tcatatcttt ctcttagctt ctcggtgtca ctggcaatcc139141 ttagcttact ttggctttct gtgtcttcac atcatctttt tataagaaca ccagtgatag139201 139261 ccctatttcc aaataaggcc acattctgaa gtattgggag ttagaactta aagctttttg139321 139381 ttgaaattgg tttcaaaaag agaatattct attagagttt ttaatgtata gttttaacat139441 atagttcttt agcccccaat tttttttttt tttttttttt tttttttttt tttttgagac 139561 tgcaagctcc gcttcccggg ttcacgccat tcccctgcct cagcctcccg agtagctggg139621 actacaggcg cctgccaccg cgcccggcta atttttttgt atttttagta gagacggggt139681 ttcaccttgt tagccaggat ggtctcgatc tcctgacctc atgatccacc cgcctcggcc139741 tcccaaagtg ctgggattac aggcgtgagc caccgcgccc ggcctgcccc caattattta139801 3535861 ctaattccta cttatgttta tataatgctt ttagaaattt gtattattca gaaaataaac139921 36921 atatactatt gtatctgttg cctacactta gattttattg cctgctatat ttaaatttta139981 ttagtatttt aattgtttta ttaaagaaag aatgtgcctg taatctcagc acttttgaga140041 ggccaaggca gaaggattgc ttgagcccag gagtttgaga ccagactgag caacacaggg140101 agacccccat ctctacaaaa aataaaaaaa ttctccaggc ctcatggcac atacctgtag140 ttctagttac ttgggagact ggggtgggag gatgcattga gcccaggaga ttgaggctgc140221 agtgagccat gatcaggcca ctgtactcca gcttggacaa cagagtgaga gcttgtctag140281 atagatagat agatagataa tctaaataga taatagacag attatctaaa tagataatag140341 acagattatc taaatagata atagacagat tatctaaata gataatagac agattatcta140401 140 aatagataat agacagatta tctaaataga taatagacag attatctatc taaatagata140461 atagattatc taaatagata atagatagat agattagata gatagataga tagatagagc140521 ttggacaaca gagtgagagc ctgtctagat agatagaaac aaagaaagaa agaaagaatg140581 581 28 140641 140701 ttaagttatt tgtgttattt acctgctttt tgaaaatgta aaaataaaac tctaggttta140761 attagtagta tgctatttag taatgaagta aagctagagg cttcgaacaa atcttgtgta140821 atttcctctt gaatgagaga gaaaatttaa agtaagcaaa caaataagtt gtgtgtcacc140881 actcattcag tcatttaaca agtatttcca gagtacttat tctgtgccag gaaatgttgt140941 aggtgccctc aacaacttag agtctagcct gagacacaag taagtaggta attattatag 001 141 aatggtatga tctttggagg actgggtatt ggctggctca tgggagtaca agataggtac141061 ccagtgatga agtcaggaaa ggtttcttat ggtgatatga tgacgtctat gctgattata141121 aggtcagtgt agaataaact ttgtgctttt aaatttgcat agcactgtat tagagagttc141181 atcttcaaaa taatcgaaaa ggctgagtgt ggtgacccat ggctgtaatc ccagcacttt141241 gggaggccga ggtgggcaga ttgcttgagc taggagttcg agaccaggct ggccaacatg141301 gtgaaacccc gtctctacta aaaatacaaa aattagccag gagtgatggt gcgcacctgt141361 aatgccagct acttgggagg ctgaggcagg aggatcactt gaacccagga ggtggaggtt141421 gaagtaagcc gaggtcatgc cactgcactc cagcctgggc aacagagtga gactccatct141481 caaaaaaaaa aaaaatgatc aaagaaaggt gaattttcat ctaccctatt tctgctgagg141541 aaaatggact attttcaaat atttttaata agggtcaaaa tgagggatc (2) SEQ ID NO: 2695 data: sequence characteristics:

(A) Length: 1052 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2695 sequence description: 1 cctctctcgg ctagacgagc ttccccaact ggtaaccctt ccacacccca atcttcatgg 61 accagagatc ttggatgttc cttccacagt tcaaaagacc cctttcgtca cccaccctgg 121 gtatgacact ggaaatggta ttcagcttcc tggcacttct ggtcagcaac ccagtgttgg 181 gcaacaaatg atctttgagg aacatggttt taggcggacc acaccgccca caacggccac 241 ccccataagg cataggccaa gaccataccc gccgaatgta ggtgaggaaa tccaaattgg 301 tcacattccc agggaagatg tagactatca cctgtaccca cacggtccgg gactcaatcc 361 aaatgcctct acaggacaag aagctctctc tcagacaacc atctcatggg ccccattcca 421 ggacacttct gagtacatca tttcatgtca tcctgttggc actgatgaag aacccttaca 481 ggtaattaat tgttctcttc acttctcatg gggcagcaca gaaaggaata agttaggtaa 541 ctgaagtgac cagccctcga ataaaaagtg gcttcatggc cgggtgtgat ggctcacgcc 601 tgtaatccca gcactttggg aggccgaggc aggtggatca tttgaggtta ggagttcaag 661 accagcctgg ccaacatggt gaaacctcgt ctcttgaaaa aaaaaaaaaa aaagtggctc 721 caccttttag aacctcttag aagatggcac atttaagccc tgcttttttt tttttttaaa 781 tcccaatatg gctctacttt ggaggacata ccagagagtc actagccttt tatttccata 841 gagaaaatga aactatttct cttattctca cacatttgag gttccttttt gagtaagata 901 gatggttcta gaaaagaaag aaagatattc tacctgaatt tccatttgtg tgcagaagtc 961 taaaacacta cctttacgat ttgtccttga agaaccccac tatctacaac atatctaaag1021 aaaaaaaaaa acagcgaagc tgtgcatagc ag (2) SEQ ID N0: 2696 materials: (i) sequence characteristics:

(A) length: 3185 base pairs

(B) Type (2): nucleic acids

(C)Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2696 sequence description: 1 atcaaacaga aatgactatt gaaggcttgc agcccacagt ggagtatgtg gttagtgtct 61 atgctcagaa tccaagcgga gagagtcagc ctctggttca gactgcagta accagtacgt121 aaccactgct tggtttccat tttcaaagtc aaattttgtt cttgggtgtc tgaatgccca181 cgacatgtct tttgcaatta cacataggga aagtgaactt gttggttagt ttatgtcttg241 agctgagccc tttacgaaca tcttttttcc ttctcagtgc caagcgagga atttacagag301 aaagaagttg tgaaaccacc atagttagtt gctgtgcttt gaatttcttt ttgctcaaat361 ggcctcagcg aaatcttatt tgcctatagc aaatctacaa aaaattttcc tagaccgtct421 tttctacaac tggatggtaa agttgattga agtgtgcctc atgtagcttt atgtttgggg481 catttgaagg gctatggctg gaccagagtg taatataaat gcttaataga gaggggaaaa541 gaagagtgta agaaccatta tagggctggg ctcacgcctg taatcccagc attttgggag601 gctgaggcgg atcacgaggt caggagttcg agaccagcct gaccaacatg gtgaaacccc661 atctctacta aaaatacaaa aattagccag tcgcggtggc acgtgcctgt aatcccagct721 actcacggag gctgaggcag aagaatcact tggacccagg aggcagaagt tgcagtgagc781 caagatcatg cctctgcacc ccagcctagg tgatagagtg agactccatc tcaaaaaaaa841 acaaaacaaa acaattataa caatttgaat ctgaaccata tgcaaatcag ctttaccact901 tccaaggtat aagaaaatcc aggtctatga gactaacatc acattgtaaa aatcaaatcg 961 tggtagaata cctttaaatt aatataaata catccccatt gtggggacat tttgcagggt1021 atctgcttat ctcacataca ccatgtttta ataagtgatg caacattgca tattttctaa1081 accaagaaaa attaagcaag tgtttaagtg atttttcctt tgatagtggg ttaattggac1141 ttcatcaaag aaaatggtat ctgcaaaact gctttgcatg ttataaaaat gcttatttca1201 caacttgctt tcacataacc tcttaccatt aatttgccta acagacattg atcgccctaa1261 aggactggca ttcactgatg tggatgtcga ttccatcaaa attgcttggg aaagcccaca1321 ggggcaagtt tccaggtaca gggtgaccta ctcgagccct gaggatggaa tccatgagct1381 attccctgca cctgatggtg aagaagacac tgcagagctg caaggcctca gaccgggttc1441 tgagtacaca gtcagtgtgg ttgccttgca cgatgatatg gagagccagc ccctgattgg1501 aacccagtcc acaggtatat ggttaattgc acacaggtgc catgggagca gcggctttat1561 gcctactgaa tgaattatgc ttcactgggc tattgattcc cgtgtaaggg tgaaaaagaa1621 ttattaggaa agatcctctt taaagaggaa tggtaagaaa caataaaact taggtgatat1681 ttaaggaaac aagtctgatt aaaagaaatt ttggagtatc ctggcttata cacaagacca1741 taaagcaaga catttgaaga ggatactaaa gttgtggatt atttcctaag ctctgactcc1801 ctgtgattac cctcactatg tataaagaaa agaagtttgg cattacagag cttacttata1861 aaaaggaacc caaactcggg catttcatag cagcatgatt ctgagcacac gtgggtaaga1921 cctttcttct ctggttagat atcatatgct ggtgtataat tagcttaaat gattgtgatt1981 tagacaccta ggaaataatc aatagggcaa ttgctttcca taatacttta tcttcttgtg2041 ctttatttct gaagcagagt agaatgctaa agatgtatcc tagtgacagc ataaacccta2101 gaggtgacag tctgtattat tgcttttcgc ttctcttttc tgcttctgtt gggagccagt2161 tttcttctta cgccgcatta cagagagaac gtcaaattta gcaagccata tctgccatag2221 gtccaaataa agagacaata aaaattattc tctctttttt ggatggaata ctgcgtgaaa tggttatcca tacaaagata ctttatgtag aatagaaaaa ggaggccggg tgcagtggct2341 cacacatgta atcctagtgc tttgggaggc taagccggga gcactgattg aggccaggag2401 ttcatgatca gcctgggcaa tgaagtgaga ccccgtctct acaaaaaaat atgaaaaaat2461 tagcgaggtg tggtgacaca tgcctgtagt cccagctact caagaggctg aggtagagga2521 tcacttgagc ctacgagttc aaggctgcag tgagctatga taactccact gcactgctgc2581 ctggatgaca cagagagacc gtttctaaat taattaatta acaattttaa gaaagaaaaa2641 gggccattgc ttatttttcc atacaaaagt aaaataaatc ataatggcca ataagccaat2701 gtaacttttt tttttaaggg aaagcaaaac ttgtaaaacc taaaatctct tagagttttg27 gcatttaccc aaatgttttc agtgattctg agaattggtg gatataaaac acatttctca2821 gcaaacactt tcttcatttt gcatccctta ctgtactttc ttgtactgaa tctttgcttg2881 accagggaac ccacctagcc caacaagaac aatccattct acttcttgga actacgttta2941 ttttcctttt cccccatttc ctataagata acctctaacc aatgacaatc tcgacagcta3001 ttcctgcacc aactgacctg aagttcactc aggtcacacc cacaagcctg agcgcccagt3061 ggacaccacc caatgttcag ctcactggat atcgagtgcg ggtgaccccc aaggagaaga3121 ccggaccaat gaaagaagtc aaccttgctc ctgacagctc atccgtggtt gtatcaggac3181 ttatc (2) SEQ ID N0: 2697 data: (i) sequence characteristics:

(A) length: 2823 base pairs

(B) Type (2): nucleic acids

(C) Chain type: singlestrand

(D) Topology: linear (xi) SEQ ID NO: 2697 the sequence description: 1 ctgcactttt gataacctga gtcccggcct ggagtacaat gtcagtgttt acactgtcaa 61 ggatgacaag gaaagtgtcc ctatctctga taccatcatc ccaggtaata gaaaataagc121 tgctatcctg agagtgacat tccaataaga gtggggatta gcatcttaat ccccagatgc181 ttaagggtgt caactatatt tgggatttaa ttccgatctc ccagctgcac tttccaaaac241 caagaagtca aagcagcgat ttggacaaaa tgcttgctgt taacactgct ttactgtctg301 tgcttcactg ggatgctgtg tgttgcagcg agtatgtaat ggagtggcag ccatggcttt361 aactctgtat tgtctgctca catggaagta tgactaaaac actgtcacgt gtctgtactc421 agtactgata ggctcaaagt aatatggtaa atgcatccca tcagtacatt tctgcccgat481 tttacaatcc atatcaattt ccaacagctg cctatttcat cttgcagttt caaatccttc541 tttttgaaaa ttggatttta aaaaaaagtt aagtaaaagt cacaccttca gggttgttct601 ttcttgtggc cttgaaagac aacattgcaa aggcctgtcc taaggatagg cttgtttgtc661 cattgggtta taacataatg aaagcattgg acagatcgtg tccccctttg gactcttcag 721 tagaatgctt ttactaacgc taattacatg ttttgattat gaatgaacct aaaatagtgg 781 caatggcctt aacctaggcc tgtctttcct cagcctgaat gtgcttttga atggcacatt 841 tcacaccata cattcataat gcattagcgt tatggccatg atgttgtcat gagttttgta 901 tgggagaaaa aaaatcaatt tatcacccat ttattatttt ttccggttgt tcatgcaagc 961 ttattttcta ctaaaacagt tttggaatta ttaaaagcat tgctgatact tacttcagat1021 attatgtcta ggctctaaga atggtttcga catcctaaac agccatatga tttttaggaa1081 tctgaacagt tcaaattgta ccctttaagg atgttttcaa aatgtaaaaa atatatatat1141 atatatatat tccctaaaag aatattcctg tttattcttc tagggaagca aactgttcat1201 gatgcttagg aagtcttttc agagaattta aaacagattg catattacca tcattgcttt1261 aacattccac caattttact actagtaacc tgatatacac tgctttattt tttcctcttt1321 ttttccctct attttccttt tgcctccccc tccctttgct ttgtaactca atagaggtgc1381 cccaactcac tgacctaagc tttgttgata taaccgattc aagcatcggc ctgaggtgga1441 ccccgctaaa ctcttccacc attattgggt accgcatcac agtagttgcg gcaggagaag1501 gtatccctat ttttgaagat tttgtggact cctcagtagg atactacaca gtcacagggc1561 tggagccggg cattgactat gatatcagcg ttatcactct cattaatggc ggcgagagtg1621 cccctactac actgacacaa caaacgggtg aattttgaaa acttctgcgt ttgagacata1681 gatggtgttg catgctgcca ccagttactc cggttaaata tggatgtttc atgggggaag1741 tcagcaattg gccaaagatt cagataggtg gaattggggg gataaggaat caaatgcatc1801 tgctaaactg attggagaaa aacacatgca atatcttcag tacactctca tttaaaccac1861 aagtagatat aaagcctaga gaaatacaga tgtctgctct gttaaatata aaatagcaaa1921 tgttcattca atttgaagac ctagaatttt tcttcttaaa taccaaacac gaataccaaa1981 ttgcgtaagt accaattgat aagaatatat caccaaaatg taccatcatg ctcttccttc2041 taccctttga taaactctac catgctcctt ctttgtagct aaaaacccat caaaatttag2101 ggtagagtgg atgggcattg ttttgaggta ggagaaaagt aaacttggga ccattctagg2161 ttttgttgct gtcactaggt aaagaaacac ctctttaacc acagtctggg gacaagcatg2221 caacatttta aaggttctct gctgtgcatg ggaaaagaaa catgctgaga accaatttgc2281 atgaacatgt tcacttgtaa gtagaattca ctgaatggaa ctgtagctct agatatctca2341 catgggggga agtttaggac cctcttgtct ttttgtctgt gtgcatgtat ttctttgtaa2401 agtactgcta tgtttctctt tgctgtgtgg caacttaagc ctcttcggcc tgggataaaa24 taatctgcag tggtattaat aatgtacata aagtcaacat atttgaaagt agattaaaat2521 cttttttaaa tatatcaatg atggcaaaaa ggttaaaggg ggcctaacag tactgtgtgt 8681 agtgttttat ttttaacagt agtacactat aacttaaaat agacttagat tagactgttt2641 gcatgattat gattctgttt cctttatgca tgaaatattg attttacctt tccagctact 27058 tcgttagctt taattttaaa atacattaac tgagtcttcc ttcttgttcg aaaccagctg2761 ttcctcctcc cactgacctg cgattcacca acattggtcc agacaccatg cgtgtcacct2821 ggg (2) SEQ ID NO: 2698 data: (i) sequence characteristics:

(A) length: 7680 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2698 sequence description: 1 gaagagcaag aggcaggctc agcaaatggt tcagccccag tccccggtgg ctgtcagtca 61 aagcaagccc ggttgttatg acaatggaaa acactatcag ataaatcaac agtgggagcg121 gacctaccta ggtaatgtgt tggtttgtac ttgttatgga ggaagccgag gttttaactg181 cgaaagtaaa cctgaagctg aagagacttg ctttgacaag tacactggga acacttaccg241 agtgggtgac acttatgagc gtcctaaaga ctccatgatc tgggactgta cctgcatcgg301 ggctgggcga gggagaataa gctgtaccat cgcaaaccgc tgccatgaag ggggtcagtc361 ctacaagatt ggtgacacct ggaggagacc acatgagact ggtggttaca tgttagagtg421 tgtgtgtctt ggtaatggaa aaggagaatg gacctgcaag cccatagctg agaagtgttt481 tgatcatgct gctgggactt cctatgtggt cggagaaacg tgggagaagc cctaccaagg541 ctggatgatg gtagattgta cttgcctggg agaaggcagc ggacgcatca cttgcacttc601 tagaaataga tgcaacgatc aggacacaag gacatcctat agaattggag acacctggag661 caagaaggat aatcgaggaa acctgctcca gtgcatctgc acaggcaacg gccgaggaga721 gtggaagtgt gagaggcaca cctctgtgca gaccacatcg agcggatctg gccccttcac781 cgatgttcgt gcagctgttt accaaccgca gcctcacccc cagcctcctc cctatggcca 841 ctgtgtcaca gacagtggtg tggtctactc tgtggggatg cagtggttga agacacaagg 901 aaataagcaa atgctttgca cgtgcctggg caacggagtc agctgccaag agacagctgt 961 aacccagact tacggtggca acttaaatgg agagccatgt gtcttaccat tcacctacaa1021 tggcaggacg ttctactcct gcaccacgga agggcgacag gacggacatc tttggtgcag1081 cacaacttcg aattatgagc aggaccagaa atactctttc tgcacagacc acactgtttt1141 ggttcagact caaggaggaa attccaatgg tgccttgtgc cacttcccct tcctatacaa1201 caaccacaat tacactgatt gcacttctga gggcagaaga gacaacatga agtggtgtgg1261 gaccacacag aactatgatg ccgaccagaa gtttgggttc tgccccatgg ctgcccacga1321 ggaaatctgc acaaccaatg aaggggtcat gtaccgcatt ggagatcagt gggataagca1381 gcatgacatg ggtcacatga tgaggtgcac gtgtgttggg aatggtcgtg gggaatggac1441 atgcattgcc tactcgcaac ttcgagatca gtgcattgtt gatgacatca cttacaatgt1501 gaacgacaca ttccacaagc gtcatgaaga ggggcacatg ctgaactgta catgcttcgg1561 tcagggtcgg ggcaggtgga agtgtgatcc cgtcgaccaa tgccaggatt cagagactgg1621 gacgttttat caaattggag attcatggga gaagtatgtg catggtgtca gataccagtg1681 ctactgctat ggccgtggca ttggggagtg gcattgccaa cctttacaga cctatccaag1741 ctcaagtggt cctgtcgaag tatttatcac tgagactccg agtcagccca actcccaccc1801 catccagtgg aatgcaccac agccatctca catttccaag tacattctca ggtggagacc1861 taaaaattct gtaggccgtt ggaaggaagc taccatacca ggccacttaa actcctacac1921 catcaaaggc ctgaagcctg gtgtggtata cgagggccag ctcatcagca tccagcagta1981 cggccaccaa gaagtgactc gctttgactt caccaccacc agcaccagca cacctgtgac2041 cagcaacacc gtgacaggag agacgactcc cttttctcct cttgtggcca cttctgaatc2101 tgtgaccgaa atcacagcca gtagctttgt ggtctcctgg gtctcagctt ccgacaccgt2161 gtcgggattc cgggtggaat atgagctgag tgaggaggga gatgagccac agtacctgga2221 tcttccaagc acagccactt ctgtgaacat ccctgacctg cttcctggcc gaaaatacat tgtaaatgtc tatcagatat ctgaggatgg ggagcagagt ttgatcctgt ctacttcaca2341 aacaacagcg cctgatgccc ctcctgaccc gactgtggac caagttgatg acacctcaat2401 tgttgttcgc tggagcagac cccaggctcc catcacaggg tacagaatag tctattcgcc2461 atcagtagaa ggtagcagca cagaactcaa ccttcctgaa actgcaaact ccgtcaccct2521 cagtgacttg caacctggtg ttcagtataa catcactatc tatgctgtgg aagaaaatca2581 agaaagtaca cctgttgtca ttcaacaaga aaccactggc accccacgct cagatacagt2641 gccctctccc agggacctgc agtttgtgga agtgacagac gtgaaggtca ccatcatgtg2701 gacaccgcct gagagtgcag tgaccggcta ccgtgtggat gtgatccccg tcaacctgcc27 tggcgagcac gggcagaggc tgcccatcag caggaacacc tttgcagaag tcaccgggct2821 gtcccctggg gtcacctatt acttcaaagt ctttgcagtg agccatggga gggagagcaa2881 gcctctgact gctcaacaga caaccaaact ggatgctccc actaacctcc agtttgtcaa2941 tgaaactgat tctactgtcc tggtgagatg gactccacct cgggcccaga taacaggata3001 ccgactgacc gtgggcctta cccgaagagg ccagcccagg cagtacaatg tgggtccctc3061 tgtctccaag taccccctga ggaatctgca gcctgcatct gagtacaccg tatccctcgt3121 ggccataaag ggcaaccaag agagccccaa agccactgga gtctttacca cactgcagcc3181 tgggagctct attccacctt acaacaccga ggtgactgag accaccatcg tgatcacatg3241 gacgcctgct ccaagaattg gttttaagct gggtgtacga ccaagccagg gaggagaggc3301 accacgagaa gtgacttcag actcaggaag catcgttgtg tccggcttga ctccaggagt3361 agaatacgtc tacaccatcc aagtcctgag agatggacag gaaagagatg cgccaattgt3421 aaacaaagtg gtgacaccat tgtctccacc aacaaacttg catctggagg caaaccctga3481 cactggagtg ctcacagtct cctgggagag gagcaccacc ccagacatta ctggttatag3541 aattaccaca acccctacaa acggccagca gggaaattct ttggaagaag tggtccatgc3601 tgatcagagc tcctgcactt ttgataacct gagtcccggc ctggagtaca atgtcagtgt3661 ttacactgtc aaggatgaca aggaaagtgt ccctatctct gataccatca tcccagctgt3721 tcctcctccc actgacctgc gattcaccaa cattggtcca gacaccatgc gtgtcacctg3781 ggctccaccc ccatccattg atttaaccaa cttcctggtg cgttactcac ctgtgaaaaa3841 tgaggaagat gttgcagagt tgtcaatttc tccttcagac aatgcagtgg tcttaacaaa3901 tctcctgcct ggtacagaat atgtagtgag tgtctccagt gtctacgaac aacatgagag3961 cacacctctt agaggaagac agaaaacagg tcttgattcc ccaactggca ttgacttttc4021 tgatattact gccaactctt ttactgtgca ctggattgct cctcgagcca ccatcactgg 408681 4141 ccactctcgg aattccatca ccctcaccaa cctcactcca ggcacagagt atgtggtcag 42058 364261 ttctgatgtt ccgagggacc tggaagttgt tgctgcgacc cccaccagcc tactgatcag4321 ctgggatgct cctgctgtca cagtgagata ttacaggatc acttacggag aaacaggagg4381 aaatagccct gtccaggagt tcactgtgcc tgggagcaag tctacagcta ccatcagcgg4441 ccttaaacct ggagttgatt ataccatcac tgtgtatgct gtcactggcc gtggagacag4501 ccccgcaagc agcaagccaa tttccattaa ttaccgaaca gaaattgaca aaccatccca4561 gatgcaagtg accgatgttc aggacaacag cattagtgtc aagtggctgc cttcaagttc4621 ccctgttact ggttacagag taaccaccac tcccaaaaat ggaccaggac caacaaaaac4681 taaaactgca ggtccagatc aaacagaaat gactattgaa ggcttgcagc ccacagtgga4741 gtatgtggtt agtgtctatg ctcagaatcc aagcggagag agtcagcctc tggttcagac4801 4848 4861 catcaaaatt gcttgggaaa gcccacaggg gcaagtttcc aggtacaggg tgacctactc4921 gagccctgag gatggaatcc atgagctatt ccctgcacct gatggtgaag aagacactgc4981 agagctgcaa ggcctcagac cgggttctga gtacacagtc agtgtggttg ccttgcacga5041 tgatatggag agccagcccc tgattggaac ccagtccaca gctattcctg caccaactga5101 cctgaagttc actcaggtca cacccacaag cctgagcgcc cagtggacac cacccaatgt5161 tcagctcact ggatatcgag tgcgggtgac ccccaaggag aagaccggac caatgaaaga5221 aatcaacctt gctcctgaca gctcatccgt ggttgtatca ggacttatgg tggccaccaa5281 atatgaagtg agtgtctatg ctcttaagga cactttgaca agcagaccag ctcagggtgt5341 tgtcaccact ctggagaatg tcagcccacc aagaagggct cgtgtgacag atgctactga5401 gaccaccatc accattagct ggagaaccaa gactgagacg atcactggct tccaagttga5461 tgccgttcca gccaatggcc agactccaat ccagagaacc atcaagccag atgtcagaag5521 ctacaccatc acaggtttac aaccaggcac tgactacaag atctacctgt acaccttgaa5581 tgacaatgct cggagctccc ctgtggtcat cgacgcctcc actgccattg atgcaccatc5641 caacctgcgt ttcctggcca ccacacccaa ttccttgctg gtatcatggc agccgccacg5701 tgccaggatt accggctaca tcatcaagta tgagaagcct gggtctcctc ccagagaagt5761 ggtccctcgg ccccgccctg gtgtcacaga ggctactatt actggcctgg aaccgggaac5821 cgaatataca atttatgtca ttgccctgaa gaataatcag aagagcgagc ccctgattgg5881 aaggaaaaag acagacgagc ttccccaact ggtaaccctt ccacacccca atcttcatgg5941 accagagatc ttggatgttc cttccacagt tcaaaagacc cctttcgtca cccaccctgg6001 gtatgacact ggaaatggta ttcagcttcc tggcacttct ggtcagcaac ccagtgttgg6061 gcaacaaatg atctttgagg aacatggttt taggcggacc acaccgccca caacggccac6121 ccccataagg cataggccaa gaccataccc gccgaatgta ggacaagaag ctctctctca6181 gacaaccatc tcatgggccc cattccagga cacttctgag tacatcattt catgtcatcc6241 tgttggcact gatgaagaac ccttacagtt cagggttcct ggaacttcta ccagtgccac6301 tctgacaggc ctcaccagag gtgccaccta caacatcata gtggaggcac tgaaagacca6361 gcagaggcat aaggttcggg aagaggttgt taccgtgggc aactctgtca acgaaggctt6421 gaaccaacct acggatgact cgtgctttga cccctacaca gtttcccatt atgccgttgg6481 agatgagtgg gaacgaatgt ctgaatcagg ctttaaactg ttgtgccagt gcttaggctt6541 tggaagtggt catttcagat gtgattcatc tagatggtgc catgacaatg gtgtgaacta6601 caagattgga gagaagtggg accgtcaggg agaaaatggc cagatgatga gctgcacatg6661 669 679 tgggaagaca taccacgtag gagaacagtg gcagaaggaa tatctcggtg ccatttgctc6781 ctgcacatgc tttggaggcc agcggggctg gcgctgtgac aactgccgca gacctggggg6841 tgaacccagt cccgaaggca ctactggcca gtcctacaac cagtattctc agagatacca6901 tcagagaaca aacactaatg ttaattgccc aattgagtgc ttcatgcctt tagatgtaca6961 ggctgacaga gaagattccc gagagtaaat catctttcca atccagagga acaagcatgt7021 ctctctgcca agatccatct aaactggagt gatgttagca gacccagctt agagttcttc 7058 tttctttctt aagccctttg ctctggagga agttctccag cttcagctca actcacagct7141 tctccaagca tcaccctggg agtttcctga gggttttctc ataaatgagg gctgcacatt7201 gcctgttctg cttcgaagta ttcaataccg ctcagtattt taaatgaagt gattctaaga7261 tttggtttgg gatcaatagg aaagcatatg cagccaacca agatgcaaat gttttgaaat7321 gatatgacca aaattttaag taggaaagtc acccaaacac ttctgctttc acttaagtgt7381 ctggcccgca atactgtagg aacaagcatg atcttgttac tgtgatattt taaatatcca7441 cagtactcac tttttccaaa tgatcctagt aattgcctag aaatatcttt ctcttacctg7501 ttatttatca atttttccca gtatttttat acggaaaaaa ttgtattgaa aacacttagt7561 atgcagttga taagaggaat ttggtataat tatggtgggt gattattttt tatactgtat7621 gtgccaaagc tttactactg tggaaagaca actgttttaa taaaagattt acattccaca (2) SEQ ID NO: 2699 data:

(i) sequence characteristics:

(A) length: 14740 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2699 description of the sequence:

1 cctctctcgg ctagacgagc ttccccaact ggtaaccctt ccacacccca atcttcatgg

61 accagagatc ttggatgttc cttccacagt tcaaaagacc cctttcgtca cccaccctgg

121 gtatgacact ggaaatggta ttcagcttcc tggcacttct ggtcagcaac ccagtgttgg

181 gcaacaaatg atctttgagg aacatggttt taggcggacc acaccgccca caacggccac

241 ccccataagg cataggccaa gaccataccc gccgaatgta ggtgaggaaa tccaaattgg

301 tcacattccc agggaagatg tagactatca cctgtaccca cacggtccgg gactcaatcc

361 aaatgcctct acaggacaag aagctctctc tcagacaacc atctcatggg ccccattcca

421 ggacacttct gagtacatca tttcatgtca tcctgttggc actgatgaag aacccttaca

481 ggtaattaat tgttctcttc acttctcatg gggcagcaca gaaaggaata agttaggtaa

541 ctgaagtgac cagccctcga ataaaaagtg gcttcatggc cgggtgtgat ggctcacgcc

601 tgtaatccca gcactttggg aggccgaggc aggtggatca tttgaggtta ggagttcaag

661 accagcctgg ccaacatggt gaaacctcgt ctcttgaaaa aaaaaaaaaa aaagtggctc

721 caccttttag aacctcttag aagatggcac atttaagccc tgcttttttt tttttttaaa

781 tcccaatatg gctctacttt ggaggacata ccagagagtc actagccttt tatttccata

841 gagaaaatga aactatttct cttattctca cacatttgag gttccttttt gagtaagata

901 gatggttcta gaaaagaaag aaagatattc tacctgaatt tccatttgtg tgcagaagtc

961 taaaacacta cctttacgat ttgtccttga agaaccccac tatctacaac atatctaaag

1021 aaaaaaaaaa acagcgaagc tgtgcatagc ag1 atcaaacaga aatgactatt gaaggcttgc agcccacagt ggagtatgtg gttagtgtct

61 atgctcagaa tccaagcgga gagagtcagc ctctggttca gactgcagta accagtacgt

121 aaccactgct tggtttccat tttcaaagtc aaattttgtt cttgggtgtc tgaatgccca

181 cgacatgtct tttgcaatta cacataggga aagtgaactt gttggttagt ttatgtcttg

241 agctgagccc tttacgaaca tcttttttcc ttctcagtgc caagcgagga atttacagag

301 aaagaagttg tgaaaccacc atagttagtt gctgtgcttt gaatttcttt ttgctcaaat

361 ggcctcagcg aaatcttatt tgcctatagc aaatctacaa aaaattttcc tagaccgtct

421 tttctacaac tggatggtaa agttgattga agtgtgcctc atgtagcttt atgtttgggg

481 catttgaagg gctatggctg gaccagagtg taatataaat gcttaataga gaggggaaaa

541 gaagagtgta agaaccatta tagggctggg ctcacgcctg taatcccagc attttgggag

601 gctgaggcgg atcacgaggt caggagttcg agaccagcct gaccaacatg gtgaaacccc

661 atctctacta aaaatacaaa aattagccag tcgcggtggc acgtgcctgt aatcccagct

721 actcacggag gctgaggcag aagaatcact tggacccagg aggcagaagt tgcagtgagc

781 caagatcatg cctctgcacc ccagcctagg tgatagagtg agactccatc tcaaaaaaaa

841 acaaaacaaa acaattataa caatttgaat ctgaaccata tgcaaatcag ctttaccact

901 tccaaggtat aagaaaatcc aggtctatga gactaacatc acattgtaaa aatcaaatcg

961 tggtagaata cctttaaatt aatataaata catccccatt gtggggacat tttgcagggt

1021 atctgcttat ctcacataca ccatgtttta ataagtgatg caacattgca tattttctaa

1081 accaagaaaa attaagcaag tgtttaagtg atttttcctt tgatagtggg ttaattggac

1141 ttcatcaaag aaaatggtat ctgcaaaact gctttgcatg ttataaaaat gcttatttca

1201 caacttgctt tcacataacc tcttaccatt aatttgccta acagacattg atcgccctaa

1261 aggactggca ttcactgatg tggatgtcga ttccatcaaa attgcttggg aaagcccaca

1321 ggggcaagtt tccaggtaca gggtgaccta ctcgagccct gaggatggaa tccatgagct

1381 attccctgca cctgatggtg aagaagacac tgcagagctg caaggcctca gaccgggttc

1441 tgagtacaca gtcagtgtgg ttgccttgca cgatgatatg gagagccagc ccctgattgg

1501 aacccagtcc acaggtatat ggttaattgc acacaggtgc catgggagca gcggctttat

1561 gcctactgaa tgaattatgc ttcactgggc tattgattcc cgtgtaaggg tgaaaaagaa

1621 ttattaggaa agatcctctt taaagaggaa tggtaagaaa caataaaact taggtgatat

1681 ttaaggaaac aagtctgatt aaaagaaatt ttggagtatc ctggcttata cacaagacca

1741 taaagcaaga catttgaaga ggatactaaa gttgtggatt atttcctaag ctctgactcc

1801 ctgtgattac cctcactatg tataaagaaa agaagtttgg cattacagag cttacttata

1861 aaaaggaacc caaactcggg catttcatag cagcatgatt ctgagcacac gtgggtaaga

1921 cctttcttct ctggttagat atcatatgct ggtgtataat tagcttaaat gattgtgatt

1981 tagacaccta ggaaataatc aatagggcaa ttgctttcca taatacttta tcttcttgtg 2048 631 ctttatttct gaagcagagt agaatgctaa agatgtatcc tagtgacagc ataaacccta2101 gaggtgacag tctgtattat tgcttttcgc ttctcttttc tgcttctgtt gggagccagt2161 tttcttctta cgccgcatta cagagagaac gtcaaattta gcaagccata tctgccatag2221 gtccaaataa agagacaata aaaattattc tctctttttt ggatggaata ctgcgtgaaa2281 2341 cacacatgta atcctagtgc tttgggaggc taagccggga gcactgattg aggccaggag2401 ttcatgatca gcctgggcaa tgaagtgaga ccccgtctct acaaaaaaat atgaaaaaat2461 tagcgaggtg tggtgacaca tgcctgtagt cccagctact caagaggctg aggtagagga2521 2542 2581 ctggatgaca cagagagacc gtttctaaat taattaatta acaattttaa gaaagaaaaa2641 gggccattgc ttatttttcc atacaaaagt aaaataaatc ataatggcca ataagccaat2701 gtaacttttt tttttaaggg aaagcaaaac ttgtaaaacc taaaatctct tagagttttg2761 gcatttaccc aaatgttttc agtgattctg agaattggtg gatataaaac acatttctca2821 gcaaacactt tcttcatttt gcatccctta ctgtactttc ttgtactgaa tctttgcttg2881 accagggaac ccacctagcc caacaagaac aatccattct acttcttgga actacgttta2941 ttttcctttt cccccatttc ctataagata acctctaacc aatgacaatc tcgacagcta300 ttcctgcacc aactgacctg aagttcactc aggtcacacc cacaagcctg agcgcccagt ggacaccacc caatgttcag ctcactggat atcgagtgcg ggtgaccccc aaggagaaga3121 ccggaccaat gaaagaagtc aaccttgctc ctgacagctc atccgtggtt gtatcaggac3181 ttatc1 ctgcactttt gataacctga gtcccggcct ggagtacaat gtcagtgttt acactgtcaa ggatgacaag gaaagtgtcc ctatctctga taccatcatc ccaggtaata gaaaataagc tgctatcctg agagtgacat tccaataaga gtggggatta gcatcttaat ccccagatgc ttaagggtgt caactatatt tgggatttaa ttccgatctc ccagctgcac tttccaaaac241 caagaagtca aagcagcgat ttggacaaaa tgcttgctgt taacactgct ttactgtctg301 tgcttcactg ggatgctgtg tgttgcagcg agtatgtaat ggagtggcag ccatggcttt361 aactctgtat tgtctgctca catggaagta tgactaaaac actgtcacgt gtctgtactc421 agtactgata ggctcaaagt aatatggtaa atgcatccca tcagtacatt tctgcccgat481 tttacaatcc atatcaattt ccaacagctg cctatttcat cttgcagttt caaatccttc541 tttttgaaaa ttggatttta aaaaaaagtt aagtaaaagt cacaccttca gggttgttct601 ttcttgtggc cttgaaagac aacattgcaa aggcctgtcc taaggatagg cttgtttgtc661 cattgggtta taacataatg aaagcattgg acagatcgtg tccccctttg gactcttcag 721 tagaatgctt ttactaacgc taattacatg ttttgattat gaatgaacct aaaatagtgg 781 caatggcctt aacctaggcc tgtctttcct cagcctgaat gtgcttttga atggcacatt 841 tcacaccata cattcataat gcattagcgt tatggccatg atgttgtcat gagttttgta 901 tgggagaaaa aaaatcaatt tatcacccat ttattatttt ttccggttgt tcatgcaagc 961 ttattttcta ctaaaacagt tttggaatta ttaaaagcat tgctgatact tacttcagat1021 attatgtcta ggctctaaga atggtttcga catcctaaac agccatatga tttttaggaa1081 tctgaacagt tcaaattgta ccctttaagg atgttttcaa aatgtaaaaa atatatatat1141 atatatatat tccctaaaag aatattcctg tttattcttc tagggaagca aactgttcat1201 gatgcttagg aagtcttttc agagaattta aaacagattg catattacca tcattgcttt1261 aacattccac caattttact actagtaacc tgatatacac tgctttattt tttcctcttt1321 ttttccctct attttccttt tgcctccccc tccctttgct ttgtaactca atagaggtgc1381 cccaactcac tgacctaagc tttgttgata taaccgattc aagcatcggc ctgaggtgga1441 ccccgctaaa ctcttccacc attattgggt accgcatcac agtagttgcg gcaggagaag1501 gtatccctat ttttgaagat tttgtggact cctcagtagg atactacaca gtcacagggc 631 tggagccggg cattgactat gatatcagcg ttatcactct cattaatggc ggcgagagtg1621 cccctactac actgacacaa caaacgggtg aattttgaaa acttctgcgt ttgagacata1681 gatggtgttg catgctgcca ccagttactc cggttaaata tggatgtttc atgggggaag1741 tcagcaattg gccaaagatt cagataggtg gaattggggg gataaggaat caaatgcatc1801 tgctaaactg attggagaaa aacacatgca atatcttcag tacactctca tttaaaccac1861 aagtagatat aaagcctaga gaaatacaga tgtctgctct gttaaatata aaatagcaaa1921 tgttcattca atttgaagac ctagaatttt tcttcttaaa taccaaacac gaataccaaa1981 ttgcgtaagt accaattgat aagaatatat caccaaaatg taccatcatg ctcttccttc taccctttga taaactctac catgctcctt ctttgtagct aaaaacccat caaaatttag2101 ggtagagtgg atgggcattg ttttgaggta ggagaaaagt aaacttggga ccattctagg2161 ttttgttgct gtcactaggt aaagaaacac ctctttaacc acagtctggg gacaagcatg2221 caacatttta aaggttctct gctgtgcatg ggaaaagaaa catgctgaga accaatttgc2281 atgaacatgt tcacttgtaa gtagaattca ctgaatggaa ctgtagctct agatatctca2341 catgggggga agtttaggac cctcttgtct ttttgtctgt gtgcatgtat ttctttgtaa2401 agtactgcta tgtttctctt tgctgtgtgg caacttaagc ctcttcggcc tgggataaaa2461 24 taatctgcag tggtattaat aatgtacata aagtcaacat atttgaaagt agattaaaat2521 2581 2641 gcatgattat gattctgttt cctttatgca tgaaatattg attttacctt tccagctact2701 tcgttagctt taattttaaa atacattaac tgagtcttcc ttcttgttcg aaaccagctg2761 ttcctcctcc cactgacctg cgattcacca acattggtcc agacaccatg cgtgtcacct2821 ggg1 gaagagcaag aggcaggctc agcaaatggt tcagccccag tccccggtgg ctgtcagtca aagcaagccc ggttgttatg acaatggaaa acactatcag ataaatcaac agtgggagcg gacctaccta ggtaatgtgt tggtttgtac ttgttatgga ggaagccgag gttttaactg181 cgaaagtaaa cctgaagctg aagagacttg ctttgacaag tacactggga acacttaccg241 agtgggtgac acttatgagc gtcctaaaga ctccatgatc tgggactgta cctgcatcgg301 ggctgggcga gggagaataa gctgtaccat cgcaaaccgc tgccatgaag ggggtcagtc361 ctacaagatt ggtgacacct ggaggagacc acatgagact ggtggttaca tgttagagtg421 tgtgtgtctt ggtaatggaa aaggagaatg gacctgcaag cccatagctg agaagtgttt481 tgatcatgct gctgggactt cctatgtggt cggagaaacg tgggagaagc cctaccaagg541 ctggatgatg gtagattgta cttgcctggg agaaggcagc ggacgcatca cttgcacttc tagaaataga tgcaacgatc aggacacaag gacatcctat agaattggag acacctggag661 caagaaggat aatcgaggaa acctgctcca gtgcatctgc acaggcaacg gccgaggaga721 gtggaagtgt gagaggcaca cctctgtgca gaccacatcg agcggatctg gccccttcac781 cgatgttcgt gcagctgttt accaaccgca gcctcacccc cagcctcctc cctatggcca 841 ctgtgtcaca gacagtggtg tggtctactc tgtggggatg cagtggttga agacacaagg 901 aaataagcaa atgctttgca cgtgcctggg caacggagtc agctgccaag agacagctgt 961 aacccagact tacggtggca acttaaatgg agagccatgt gtcttaccat tcacctacaa1021 tggcaggacg ttctactcct gcaccacgga agggcgacag gacggacatc tttggtgcag1081 cacaacttcg aattatgagc aggaccagaa atactctttc tgcacagacc acactgtttt1141 ggttcagact caaggaggaa attccaatgg tgccttgtgc cacttcccct tcctatacaa1201 caaccacaat tacactgatt gcacttctga gggcagaaga gacaacatga agtggtgtgg1261 13242 1321 ggaaatctgc acaaccaatg aaggggtcat gtaccgcatt ggagatcagt gggataagca1381 gcatgacatg ggtcacatga tgaggtgcac gtgtgttggg aatggtcgtg gggaatggac1441 atgcattgcc tactcgcaac ttcgagatca gtgcattgtt gatgacatca cttacaatgt1501 gaacgacaca ttccacaagc gtcatgaaga ggggcacatg ctgaactgta catgcttcgg1561 tcagggtcgg ggcaggtgga agtgtgatcc cgtcgaccaa tgccaggatt cagagactgg1621 gacgttttat caaattggag attcatggga gaagtatgtg catggtgtca gataccagtg1681 ctactgctat ggccgtggca ttggggagtg gcattgccaa cctttacaga cctatccaag1741 ctcaagtggt cctgtcgaag tatttatcac tgagactccg agtcagccca actcccaccc1801 catccagtgg aatgcaccac agccatctca catttccaag tacattctca ggtggagacc1861 taaaaattct gtaggccgtt ggaaggaagc taccatacca ggccacttaa actcctacac1921 catcaaaggc ctgaagcctg gtgtggtata cgagggccag ctcatcagca tccagcagta1981 cggccaccaa gaagtgactc gctttgactt caccaccacc agcaccagca cacctgtgac2041 cagcaacacc gtgacaggag agacgactcc cttttctcct cttgtggcca cttctgaatc2101 tgtgaccgaa atcacagcca gtagctttgt ggtctcctgg gtctcagctt ccgacaccgt2161 gtcgggattc cgggtggaat atgagctgag tgaggaggga gatgagccac agtacctgga2221 tcttccaagc acagccactt ctgtgaacat ccctgacctg cttcctggcc gaaaatacat tgtaaatgtc tatcagatat ctgaggatgg ggagcagagt ttgatcctgt ctacttcaca2341 aacaacagcg cctgatgccc ctcctgaccc gactgtggac caagttgatg acacctcaat2401 tgttgttcgc tggagcagac cccaggctcc catcacaggg tacagaatag tctattcgcc2461 atcagtagaa ggtagcagca cagaactcaa ccttcctgaa actgcaaact ccgtcaccct2521 cagtgacttg caacctggtg ttcagtataa catcactatc tatgctgtgg aagaaaatca2581 agaaagtaca cctgttgtca ttcaacaaga aaccactggc accccacgct cagatacagt2641 gccctctccc agggacctgc agtttgtgga agtgacagac gtgaaggtca ccatcatgtg2701 gacaccgcct gagagtgcag tgaccggcta ccgtgtggat gtgatccccg tcaacctgcc27 tggcgagcac gggcagaggc tgcccatcag caggaacacc tttgcagaag tcaccgggct2821 gtcccctggg gtcacctatt acttcaaagt ctttgcagtg agccatggga gggagagcaa2881 gcctctgact gctcaacaga caaccaaact ggatgctccc actaacctcc agtttgtcaa2941 tgaaactgat tctactgtcc tggtgagatg gactccacct cgggcccaga taacaggata3001 ccgactgacc gtgggcctta cccgaagagg ccagcccagg cagtacaatg tgggtccctc3061 tgtctccaag taccccctga ggaatctgca gcctgcatct gagtacaccg tatccctcgt3121 ggccataaag ggcaaccaag agagccccaa agccactgga gtctttacca cactgcagcc3181 tgggagctct attccacctt acaacaccga ggtgactgag accaccatcg tgatcacatg3241 gacgcctgct ccaagaattg gttttaagct gggtgtacga ccaagccagg gaggagaggc3301 accacgagaa gtgacttcag actcaggaag catcgttgtg tccggcttga ctccaggagt3361 agaatacgtc tacaccatcc aagtcctgag agatggacag gaaagagatg cgccaattgt3421 aaacaaagtg gtgacaccat tgtctccacc aacaaacttg catctggagg caaaccctga3481 cactggagtg ctcacagtct cctgggagag gagcaccacc ccagacatta ctggttatag3541 aattaccaca acccctacaa acggccagca gggaaattct ttggaagaag tggtccatgc3601 tgatcagagc tcctgcactt ttgataacct gagtcccggc ctggagtaca atgtcagtgt3661 ttacactgtc aaggatgaca aggaaagtgt ccctatctct gataccatca tcccagctgt3721 tcctcctccc actgacctgc gattcaccaa cattggtcca gacaccatgc gtgtcacctg3781 ggctccaccc ccatccattg atttaaccaa cttcctggtg cgttactcac ctgtgaaaaa3841 tgaggaagat gttgcagagt tgtcaatttc tccttcagac aatgcagtgg tcttaacaaa3901 tctcctgcct ggtacagaat atgtagtgag tgtctccagt gtctacgaac aacatgagag3961 cacacctctt agaggaagac agaaaacagg tcttgattcc ccaactggca ttgacttttc4021 tgatattact gccaactctt ttactgtgca ctggattgct cctcgagcca ccatcactgg 408681 4141 ccactctcgg aattccatca ccctcaccaa cctcactcca ggcacagagt atgtggtcag 42058 364261 ttctgatgtt ccgagggacc tggaagttgt tgctgcgacc cccaccagcc tactgatcag4321 ctgggatgct cctgctgtca cagtgagata ttacaggatc acttacggag aaacaggagg4381 aaatagccct gtccaggagt tcactgtgcc tgggagcaag tctacagcta ccatcagcgg4441 ccttaaacct ggagttgatt ataccatcac tgtgtatgct gtcactggcc gtggagacag4501 ccccgcaagc agcaagccaa tttccattaa ttaccgaaca gaaattgaca aaccatccca4561 gatgcaagtg accgatgttc aggacaacag cattagtgtc aagtggctgc cttcaagttc4621 ccctgttact ggttacagag taaccaccac tcccaaaaat ggaccaggac caacaaaaac4681 taaaactgca ggtccagatc aaacagaaat gactattgaa ggcttgcagc ccacagtgga4741 gtatgtggtt agtgtctatg ctcagaatcc aagcggagag agtcagcctc tggttcagac4801 4848 4861 catcaaaatt gcttgggaaa gcccacaggg gcaagtttcc aggtacaggg tgacctactc4921 gagccctgag gatggaatcc atgagctatt ccctgcacct gatggtgaag aagacactgc4981 agagctgcaa ggcctcagac cgggttctga gtacacagtc agtgtggttg ccttgcacga5041 tgatatggag agccagcccc tgattggaac ccagtccaca gctattcctg caccaactga5101 cctgaagttc actcaggtca cacccacaag cctgagcgcc cagtggacac cacccaatgt5161 tcagctcact ggatatcgag tgcgggtgac ccccaaggag aagaccggac caatgaaaga5221 aatcaacctt gctcctgaca gctcatccgt ggttgtatca ggacttatgg tggccaccaa5281 atatgaagtg agtgtctatg ctcttaagga cactttgaca agcagaccag ctcagggtgt5341 tgtcaccact ctggagaatg tcagcccacc aagaagggct cgtgtgacag atgctactga5401 gaccaccatc accattagct ggagaaccaa gactgagacg atcactggct tccaagttga5461 tgccgttcca gccaatggcc agactccaat ccagagaacc atcaagccag atgtcagaag5521 ctacaccatc acaggtttac aaccaggcac tgactacaag atctacctgt acaccttgaa5581 tgacaatgct cggagctccc ctgtggtcat cgacgcctcc actgccattg atgcaccatc5641 caacctgcgt ttcctggcca ccacacccaa ttccttgctg gtatcatggc agccgccacg5701 tgccaggatt accggctaca tcatcaagta tgagaagcct gggtctcctc ccagagaagt5761 ggtccctcgg ccccgccctg gtgtcacaga ggctactatt actggcctgg aaccgggaac5821 cgaatataca atttatgtca ttgccctgaa gaataatcag aagagcgagc ccctgattgg5881 aaggaaaaag acagacgagc ttccccaact ggtaaccctt ccacacccca atcttcatgg5941 accagagatc ttggatgttc cttccacagt tcaaaagacc cctttcgtca cccaccctgg6001 gtatgacact ggaaatggta ttcagcttcc tggcacttct ggtcagcaac ccagtgttgg6061 gcaacaaatg atctttgagg aacatggttt taggcggacc acaccgccca caacggccac6121 ccccataagg cataggccaa gaccataccc gccgaatgta ggacaagaag ctctctctca6181 gacaaccatc tcatgggccc cattccagga cacttctgag tacatcattt catgtcatcc6241 tgttggcact gatgaagaac ccttacagtt cagggttcct ggaacttcta ccagtgccac6301 tctgacaggc ctcaccagag gtgccaccta caacatcata gtggaggcac tgaaagacca6361 gcagaggcat aaggttcggg aagaggttgt taccgtgggc aactctgtca acgaaggctt6421 gaaccaacct acggatgact cgtgctttga cccctacaca gtttcccatt atgccgttgg6481 agatgagtgg gaacgaatgt ctgaatcagg ctttaaactg ttgtgccagt gcttaggctt6541 tggaagtggt catttcagat gtgattcatc tagatggtgc catgacaatg gtgtgaacta6601 caagattgga gagaagtggg accgtcaggg agaaaatggc cagatgatga gctgcacatg6661 669 679 tgggaagaca taccacgtag gagaacagtg gcagaaggaa tatctcggtg ccatttgctc6781 ctgcacatgc tttggaggcc agcggggctg gcgctgtgac aactgccgca gacctggggg6841 tgaacccagt cccgaaggca ctactggcca gtcctacaac cagtattctc agagatacca6901 tcagagaaca aacactaatg ttaattgccc aattgagtgc ttcatgcctt tagatgtaca6961 ggctgacaga gaagattccc gagagtaaat catctttcca atccagagga acaagcatgt7021 ctctctgcca agatccatct aaactggagt gatgttagca gacccagctt agagttcttc 7058 tttctttctt aagccctttg ctctggagga agttctccag cttcagctca actcacagct7141 tctccaagca tcaccctggg agtttcctga gggttttctc ataaatgagg gctgcacatt7201 gcctgttctg cttcgaagta ttcaataccg ctcagtattt taaatgaagt gattctaaga7261 tttggtttgg gatcaatagg aaagcatatg cagccaacca agatgcaaat gttttgaaat7321 gatatgacca aaattttaag taggaaagtc acccaaacac ttctgctttc acttaagtgt7381 ctggcccgca atactgtagg aacaagcatg atcttgttac tgtgatattt taaatatcca7441 cagtactcac tttttccaaa tgatcctagt aattgcctag aaatatcttt ctcttacctg7501 ttatttatca atttttccca gtatttttat acggaaaaaa ttgtattgaa aacacttagt7561 atgcagttga taagaggaat ttggtataat tatggtgggt gattattttt tatactgtat7621 gtgccaaagc tttactactg tggaaagaca actgttttaa taaaagattt acattccaca (2) SEQ ID NO: 2700 of data: (i) sequence characteristics:

(A) length: 2861 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2700 sequence description: 1 ctgctcctgc gcggcagctg ctttagaagg tctcgagcct cctgtacctt cccagggatg 61 aaccgggcct tccctctgga aggcgagggt tcgggccaca gtgagcgagg gccagggcgg 121 tgggcgcgcg cagagggaaa ccggatcagt tgagagagaa tcaagagtag cggatgaggc 181 721 caaccccgtc gcgaccggtg ggcgtgctgc tgtggtggga gcccttcggg gggcgcgata 781 181 gcttgtgggg cgcggcccgg aagccctcgg gcgcgggctg ggagaaggag tgggcggagg 241 cgccgcagga ggctcccggg gcctggtcgg gccggctggg ccccgggcgc agtggaagaa 301 agggacgggc ggtgcccggt tgggcgtcct ggccagctca ccttgccctg gcggctcgcc 361 ccgcccggca cttgggagga gcagggcagg gcccgcggcc tttgcattct gggaccgccc 421 ccttccattc ccgggccagc ggcgagcggc agcgacggct ggagccgcag ctacagcatg 481 agagccggtg ccgctcctcc acgcctgcgg acgcgtggcg agcggaggca gcgctgcctg 541 ttcgcgccat gggggcaccg tggggctcgc cgacggcggc ggcgggcggg cggcgcgggt 601 ggcgccgagg ccgggggctg ccatggaccg tctgtgtgct ggcggccgcc ggcttgacgt 661 gtacggcgct gatcacctac gcttgctggg ggcagctgcc gccgctgccc tgggcgtcgc 721 caaccccgtc gcgaccggtg ggcgtgctgc tgtggtggga gcccttcggg gggcgcgata 781 gcgccccgag gccgccccct gactgccggc tgcgcttcaa catcagcggc tgccgcctgc 841 tcaccgaccg cgcgtcctac ggagaggctc aggccgtgct tttccaccac cgcgacctcg 901 tgaaggggcc ccccgactgg cccccgccct ggggcatcca ggcgcacact gccgaggagg 961 tggatctgcg cgtgttggac tacgaggagg cagcggcggc ggcagaagcc ctggcgacct1021 ccagccccag gcccccgggc cagcgctggg tttggatgaa cttcgagtcg ccctcgcact1081 ccccggggct gcgaagcctg gcaagtaacc tcttcaactg gacgctctcc taccgggcgg1141 actcggacgt ctttgtgcct tatggctacc tctaccccag aagccacccc ggcgacccgc1201 cctcaggcct ggccccgcca ctgtccagga aacaggggct ggtggcatgg gtggtgagcc1261 actgggacga gcgccaggcc cgggtccgct actaccacca actgagccaa catgtgaccg1321 tggacgtgtt cggccggggc gggccggggc agccggtgcc cgaaattggg ctcctgcaca1381 cagtggcccg ctacaagttc tacctggctt tcgagaactc gcagcacctg gattatatca1441 ccgagaagct ctggcgcaac gcgttgctcg ctggggcggt gccggtggtg ctgggcccag1501 accgtgccaa ctacgagcgc tttgtgcccc gcggcgcctt catccacgtg gacgacttcc1561 caagtgcctc ctccctggcc tcgtacctgc ttttcctcga ccgcaacccc gcggtctatc1621 gccgctactt ccactggcgc cggagctacg ctgtccacat cacctccttc tgggacgagc1681 cttggtgccg ggtgtgccag gctgtacaga gggctgggga ccggcccaag agcatacgga1741 acttggccag ctggttcgag cggtgaagcc gcgctcccct ggaagcgacc caggggaggc1801 caagttgtca gctttttgat cctctactgt gcatctcctt gactgccgca tcatgggagt1861 aagttcttca aacacccatt tttgctctat gggaaaaaaa cgatttacca attaatatta1921 ctcagcacag agatgggggc ccggtttcca tattttttgc acagctagca attgggctcc1981 ctttgctgct gatgggcatc attgtttagg ggtgaaggag ggggttcttc ctcaccttgt2041 aaccagtgca gaaatgaaat agcttagcgg caagaagccg ttgaggcggt ttcctgaatt2101 tccccatctg ccacaggcca tatttgtggc ccgtgcagct tccaaatctc atacacaact2161 gttcccgatt cacgtttttc tggaccaagg tgaagcaaat ttgtggttgt agaaggagcc2221 ttgttggtgg agagtggaag gactgtggct gcaggtggga ctttgttgtt tggattcctc2281 acagccttgg ctcctgagaa aggtgaggag ggcagtccaa gaggggccgc tgacttcttt2341 cacaagtact atctgttccc ctgtcctgtg aatggaagca aagtgctgga ttgtccttgg2401 aggaaactta agatgaatac atgcgtgtac ctcactttac ataagaaatg tattcctgaa2461 aagctgcatt taaatcaagt cccaaattca ttgacttagg ggagttcagt atttaatgaa2521 accctatgga gaatttatcc ctttacaatg tgaatagtca tctcctaatt tgtttcttct2581 gtctttatgt ttttctataa cctggatttt ttaaatcata ttaaaattac agatgtgaaa2641 ataaagcaga agcaaccttt ttccctcttc ccagaaaacc agtctgtgtt tacagacaga2701 agagaaggaa gccatagtgt cacttccaca caattattta tttcatgtct ttactggacc2761 tgaaatttaa actgcaatgc cagtcctgca ggagtgctgg cattaccctc tgcagaacag2821 tgaaaggtat tgcactacat tatggaatca tgcaaaaaaa a (2) SEQ ID NO: data of 2701: (i) sequence characteristics:

(A) length: 1256 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2701 sequence description: 1 acgcgtggcg agcggaggca gcgctgcctg ttcgcgccat gggggcaccg tggggctcgc 61 cgacggcggc ggcgggcggg cggcgcgggt ggcgccgagg ccgggggctg ccatggaccg 121 tctgtgtgct ggcggccgcc ggcttgacgt gtacggcgct gatcacctac gcttgctggg 181 ggcagctgcc gccgctgccc tgggcgtcgc caaccccgtc gcgaccggtg ggcgtgctgc 241 tgtggtggga gcccttcggg gggcgcgata gcgccccgag gccgccccct gactgcccgc 301 tgcgcttcaa catcagcggc tgccgcctgc tcaccgaccg cgcgtcctac ggagaggctc 361 aggccgtgct tttccaccac cgcgacctcg tgaaggggcc ccccgactgg cccccgccct 421 ggggcatcca ggcgcacact gccgaggagg tggatctgcg cgtgttggac tacgaggagg 481 cagcggcggc ggcagaagcc ctggcgacct ccagccccag gcccccgggc cagcgctggg 541 tttggatgaa cttcgagtcg ccctcgcact ccccggggct gcgaagcctg gcaagtaacc 601 tcttcaactg gacgctctcc taccgggcgg actcggacgt ctttgtgcct tatggctacc 661 tctaccccag aagccacccc ggcgacccgc cctcaggcct ggccccgcca ctgtccagga 721 aacaggggct ggtggcatgg gtggtgagcc actgggacga gcgccaggcc cgggtccgct 781 actaccacca actgagccaa catgtgaccg tggacgtgtt cggccggggc gggccggggc 841 agccggtgcc cgaaattggg ctcctgcaca cagtggcccg ctacaagttc tacctggctt 901 tcgagaactc gcagcacctg gattatatca ccgagaagct ctggcgcaac gcgttgctcg 961 ctggggcggt gccggtggtg ctgggcccag accgtgccaa ctacgagcgc tttgtgcccc1021 gcggcgcctt catccacgtg gacgacttcc caagtgcctc ctccctggcc tcgtacctgc1081 ttttcctcga ccgcaacccc gcggtctatc gccgctactt ccactggcgc cggagctacg1141 ctgtccacat cacctccttc tgggacgagc cttggtgccg ggtgtgccag gctgtacaga1201 gggctgggga ccggcccaag agcatacgga acttggccag ctggttcgag cggtag (2) SEQ ID NO: 2702 data: (i) sequence characteristics:

(A) length: 1126 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2702, sequence description: 1 cagatactct gacccatgga tcccctgggc ccggccaagc cacagtggtc gtggcgctgc 61 tgtctgacca cgctgctgtt tcagctgctg atggctgtgt gtttcttctc ctatctgcgt 121 gtgtctcaag acgatcccac tgtgtaccct aatgggtccc gcttcccaga cagcacaggg 181 721 acgctgtccc ggtacaagtt ctatctggcc ttcgagaact ccttgcaccc cgactacatc 781 181 acccccgccc actccatccc cctgatcctg ctgtggacgt ggccttttaa caaacccata 241 gctctgcccc gctgctcaga gatggtgcct ggcacggctg actgcaacat cactgccgac 301 cgcaaggtgt atccacaggc agacgcggtc atcgtgcacc accgagaggt catgtacaac 361 cccagtgccc agctcccacg ctccccgagg cggcaggggc agcgatggat ctggttcagc 421 atggagtccc caagccactg ctggcagctg aaagccatgg acggatactt caatctcacc 481 atgtcctacc gcagcgactc cgacatcttc acgccctacg gctggctgga gccgtggtcc 541 ggccagcctg cccacccacc gctcaacctc tcggccaaga ccgagctggt ggcctgggca 601 gtgtccaact gggggccaaa ctccgccagg gtgcgctact accagagcct gcaggcccat 661 ctcaaggtgg acgtgtacgg acgctcccac aagcccctgc cccagggaac catgatggag 721 acgctgtccc ggtacaagtt ctatctggcc ttcgagaact ccttgcaccc cgactacatc 781 accgagaagc tgtggaggaa cgccctggag gcctgggccg tgcccgtggt gctgggcccc 841 agcagaagca actacgagag gttcctgccg cccgacgcct tcatccacgt ggacgacttc 901 cagagcccca aggacctggc ccggtacctg caggagctgg acaaggacca cgcccgctac 961 ctgagctact ttcgctggcg ggagacgctg cggcctcgct ccttcagctg ggcactcgct1021 ttctgcaaggcctgctggaa actgcaggag gaatccaggt accagacacg cggcatagcg1081 gcttggttca cctgagaggc ccggcatggg gcctgggctg ccaggg (2) SEQ ID N0: 2703 data: (i) sequence characteristics:

(A) length: 1701 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2703, sequence description: 1 aaggagcaca gttccaggcg gggctgagct agggcgtagc tgtgatttca ggggcacctc 61 tggcggctgc cgtgatttga gaatctcggg tctcttggct gactgatcct gggagactgt 121 ggatgaataa tgctgggcac ggccccaccc ggaggctgcg aggcttgggg gtcctggccg 181 721 atgtctttgg ccgtgccaat ggacggccac tgtgcgccag ctgcctggtg cccaccgtgg 781 181 gggtggctct gctcgctgcc ctctggctcc tgtggctgct ggggtcagcc cctcggggta 241 ccccggcacc ccagcccacg atcaccatcc ttgtctggca ctggcccttc actgaccagc 301 ccccagagct gcccagcgac acctgcaccc gctacggcat cgcccgctgc cacctgagtg 361 ccaaccgaag cctgctggcc agcgccgacg ccgtggtctt ccaccaccgc gagctgcaga 421 cccggcggtc ccacctgccc ctggcccagc ggccgcgagg gcagccctgg gtgtgggcct 481 ccatggagtc tcctagccac acccacggcc tcagccacct ccgaggcatc ttcaactggg 541 tgctgagcta ccggcgcgac tcggacatct ttgtgcccta tggccgcctg gagccccact 601 gggggccctc gccaccgctg ccagccaaga gcagggtggc cgcctgggtg gtcagcaact 661 tccaggagcg gcagctgcgt gccaggctgt accggcagct ggcgcctcat ctgcgggtgg 721 atgtctttgg ccgtgccaat ggacggccac tgtgcgccag ctgcctggtg cccaccgtgg 781 cccagtaccg cttctacctg tcctttgaga actctcagca ccgcgactac attacggaga 841 aattctggcg caacgcactg gtggctggca ctgtgccagt ggtgctgggg cccccacggg 901 ccacctatga ggccttcgtg ccggctgacg ccttcgtgca tgtggatgac tttggctcag 961 cccgagagct ggcggctttc ctcactggca tgaatgagag ccgataccaa cgcttctttg1021 cctggcgtga caggctccgc gtgcgactgt tcaccgactg gcgggaacgt ttctgtgcca1081 tctgtgaccg ctacccacac ctaccccgca gccaagtcta tgaggacctt gagggttggt1141 ttcaggcctg agatccgctg gccgggggag gtgggtgtgg gtggaagggc tgggtgtcga1201 aatcaaacca ccaggcatcc ggcccttacc ggcaagcagc gggctaacgg gaggctgggc1261 acagaggtca ggaagcaggg gtggggggtgcaggtgggca ctggagcatg cagaggaggt1321 gagagtggga gggaggtaac gggtgcctgc tgcggcagac gggaggggaa aggctgccga1381 ggaccctccc caccctgaac aaatcttggg tgggtgaagg cctggctgga agagggtgaa1441 aggcagggcc cttggggctg gggggcaccc cagcctgaag tttgtggggg ccaaacctgg1501 gaccccgagc ttcctcggta gcagaggccc tgtggtcccc gagacacagg cacgggtccc1561 tgccacgtcc atagttctga ggtccctgtg tgtaggctgg ggcggggccc aggagaccac1621 ggggagcaaa ccagcttgtt ctgggctcag ggagggaggg cggtggacaa taaacgtctg1681 agcagtgaaa aaaaaaaaaa a (2) SEQ ID NO: 2704 data: (i) sequence characteristics:

(A) length: 6944 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2704, sequence description: 1 ctgctcctgc gcggcagctg ctttagaagg tctcgagcct cctgtacctt cccagggatg 61 aaccgggcct tccctctgga aggcgagggt tcgggccaca gtgagcgagg gccagggcgg 121 tgggcgcgcg cagagggaaa ccggatcagt tgagagagaa tcaagagtag cggatgaggc 181 721 caaccccgtc gcgaccggtg ggcgtgctgc tgtggtggga gcccttcggg gggcgcgata 781 181 gcttgtgggg cgcggcccgg aagccctcgg gcgcgggctg ggagaaggag tgggcggagg 241 cgccgcagga ggctcccggg gcctggtcgg gccggctggg ccccgggcgc agtggaagaa 301 agggacgggc ggtgcccggt tgggcgtcct ggccagctca ccttgccctg gcggctcgcc 361 ccgcccggca cttgggagga gcagggcagg gcccgcggcc tttgcattct gggaccgccc 421 ccttccattc ccgggccagc ggcgagcggc agcgacggct ggagccgcag ctacagcatg 481 agagccggtg ccgctcctcc acgcctgcgg acgcgtggcg agcggaggca gcgctgcctg 541 ttcgcgccat gggggcaccg tggggctcgc cgacggcggc ggcgggcggg cggcgcgggt 601 ggcgccgagg ccgggggctg ccatggaccg tctgtgtgct ggcggccgcc ggcttgacgt 661 gtacggcgct gatcacctac gcttgctggg ggcagctgcc gccgctgccc tgggcgtcgc 721 caaccccgtc gcgaccggtg ggcgtgctgc tgtggtggga gcccttcggg gggcgcgata 781 gcgccccgag gccgccccct gactgccggc tgcgcttcaa catcagcggc tgccgcctgc 841 tcaccgaccg cgcgtcctac ggagaggctc aggccgtgct tttccaccac cgcgacctcg 901 tgaaggggcc ccccgactgg cccccgccct ggggcatcca ggcgcacact gccgaggagg 961 tggatctgcg cgtgttggac tacgaggagg cagcggcggc ggcagaagcc ctggcgacct1021 ccagccccag gcccccgggc cagcgctggg tttggatgaa cttcgagtcg ccctcgcact1081 ccccggggct gcgaagcctg gcaagtaacc tcttcaactg gacgctctcc taccgggcgg1141 actcggacgt ctttgtgcct tatggctacc tctaccccag aagccacccc ggcgacccgc1201 cctcaggcct ggccccgcca ctgtccagga aacaggggct ggtggcatgg gtggtgagcc1261 actgggacga gcgccaggcc cgggtccgct actaccacca actgagccaa catgtgaccg1321 tggacgtgtt cggccggggc gggccggggc agccggtgcc cgaaattggg ctcctgcaca1381 cagtggcccg ctacaagttc tacctggctt tcgagaactc gcagcacctg gattatatca1441 ccgagaagct ctggcgcaac gcgttgctcg ctggggcggt gccggtggtg ctgggcccag1501 accgtgccaa ctacgagcgc tttgtgcccc gcggcgcctt catccacgtg gacgacttcc1561 caagtgcctc ctccctggcc tcgtacctgc ttttcctcga ccgcaacccc gcggtctatc1621 gccgctactt ccactggcgc cggagctacg ctgtccacat cacctccttc tgggacgagc1681 cttggtgccg ggtgtgccag gctgtacaga gggctgggga ccggcccaag agcatacgga1741 acttggccag ctggttcgag cggtgaagcc gcgctcccct ggaagcgacc caggggaggc1801 caagttgtca gctttttgat cctctactgt gcatctcctt gactgccgca tcatgggagt1861 aagttcttca aacacccatt tttgctctat gggaaaaaaa cgatttacca attaatatta1921 ctcagcacag agatgggggc ccggtttcca tattttttgc acagctagca attgggctcc1981 ctttgctgct gatgggcatc attgtttagg ggtgaaggag ggggttcttc ctcaccttgt2041 aaccagtgca gaaatgaaat agcttagcgg caagaagccg ttgaggcggt ttcctgaatt2101 tccccatctg ccacaggcca tatttgtggc ccgtgcagct tccaaatctc atacacaact2161 gttcccgatt cacgtttttc tggaccaagg tgaagcaaat ttgtggttgt agaaggagcc2221 ttgttggtgg agagtggaag gactgtggct gcaggtggga ctttgttgtt tggattcctc2281 acagccttgg ctcctgagaa aggtgaggag ggcagtccaa gaggggccgc tgacttcttt2341 cacaagtact atctgttccc ctgtcctgtg aatggaagca aagtgctgga ttgtccttgg2401 aggaaactta agatgaatac atgcgtgtac ctcactttac ataagaaatg tattcctgaa2461 aagctgcatt taaatcaagt cccaaattca ttgacttagg ggagttcagt atttaatgaa2521 accctatgga gaatttatcc ctttacaatg tgaatagtca tctcctaatt tgtttcttct2581 gtctttatgt ttttctataa cctggatttt ttaaatcata ttaaaattac agatgtgaaa2641 ataaagcaga agcaaccttt ttccctcttc ccagaaaacc agtctgtgtt tacagacaga2701 agagaaggaa gccatagtgt cacttccaca caattattta tttcatgtct ttactggacc2761 tgaaatttaa actgcaatgc cagtcctgca ggagtgctgg cattaccctc tgcagaacag2821 tgaaaggtat tgcactacat tatggaatca tgcaaaaaaa a

1 acgcgtggcg agcggaggca gcgctgcctg ttcgcgccat gggggcaccg tggggctcgc 61 cgacggcggc ggcgggcggg cggcgcgggt ggcgccgagg ccgggggctg ccatggaccg 121 tctgtgtgct ggcggccgcc ggcttgacgt gtacggcgct gatcacctac gcttgctggg 181 ggcagctgcc gccgctgccc tgggcgtcgc caaccccgtc gcgaccggtg ggcgtgctgc 241 tgtggtggga gcccttcggg gggcgcgata gcgccccgag gccgccccct gactgcccgc301 tgcgcttcaa catcagcggc tgccgcctgc tcaccgaccg cgcgtcctac ggagaggctc 361 aggccgtgct tttccaccac cgcgacctcg tgaaggggcc ccccgactgg cccccgccct 421 ggggcatcca ggcgcacact gccgaggagg tggatctgcg cgtgttggac tacgaggagg 481 cagcggcggc ggcagaagcc ctggcgacct ccagccccag gcccccgggc cagcgctggg 541 tttggatgaa cttcgagtcg ccctcgcact ccccggggct gcgaagcctg gcaagtaacc 601 tcttcaactg gacgctctcc taccgggcgg actcggacgt ctttgtgcct tatggctacc 661 tctaccccag aagccacccc ggcgacccgc cctcaggcct ggccccgcca ctgtccagga 721 aacaggggct ggtggcatgg gtggtgagcc actgggacga gcgccaggcc cgggtccgct 781 actaccacca actgagccaa catgtgaccg tggacgtgtt cggccggggc gggccggggc 841 agccggtgcc cgaaattggg ctcctgcaca cagtggcccg ctacaagttc tacctggctt 901 tcgagaactc gcagcacctg gattatatca ccgagaagct ctggcgcaac gcgttgctcg 961 ctggggcggt gccggtggtg ctgggcccag accgtgccaa ctacgagcgc tttgtgcccc1021 gcggcgcctt catccacgtg gacgacttcc caagtgcctc ctccctggcc tcgtacctgc1081 ttttcctcga ccgcaacccc gcggtctatc gccgctactt ccactggcgc cggagctacg1141 ctgtccacat cacctccttc tgggacgagc cttggtgccg ggtgtgccag gctgtacaga1201 gggctgggga ccggcccaag agcatacgga acttggccag ctggttcgag cggtag

1 cagatactct gacccatgga tcccctgggc ccggccaagc cacagtggtc gtggcgctgc 61 tgtctgacca cgctgctgtt tcagctgctg atggctgtgt gtttcttctc ctatctgcgt 121 gtgtctcaag acgatcccac tgtgtaccct aatgggtccc gcttcccaga cagcacaggg 181 721 acgctgtccc ggtacaagtt ctatctggcc ttcgagaact ccttgcaccccgactacatc 781 181 acccccgccc actccatccc cctgatcctg ctgtggacgt ggccttttaa caaacccata 241 gctctgcccc gctgctcaga gatggtgcct ggcacggctg actgcaacat cactgccgac 301 cgcaaggtgt atccacaggc agacgcggtc atcgtgcacc accgagaggt catgtacaac 361 cccagtgccc agctcccacg ctccccgagg cggcaggggc agcgatggat ctggttcagc 421 atggagtccc caagccactg ctggcagctg aaagccatgg acggatactt caatctcacc 481 atgtcctacc gcagcgactc cgacatcttc acgccctacg gctggctgga gccgtggtcc 541 ggccagcctg cccacccacc gctcaacctc tcggccaaga ccgagctggt ggcctgggca 601 gtgtccaact gggggccaaa ctccgccagg gtgcgctact accagagcct gcaggcccat 661 ctcaaggtgg acgtgtacgg acgctcccac aagcccctgc cccagggaac catgatggag 721 acgctgtccc ggtacaagtt ctatctggcc ttcgagaact ccttgcaccc cgactacatc 781 accgagaagc tgtggaggaa cgccctggag gcctgggccg tgcccgtggt gctgggcccc 841 agcagaagca actacgagag gttcctgccg cccgacgcct tcatccacgt ggacgacttc 901 cagagcccca aggacctggc ccggtacctg caggagctgg acaaggacca cgcccgctac 961 ctgagctact ttcgctggcg ggagacgctg cggcctcgct ccttcagctg ggcactcgct1021 ttctgcaagg cctgctggaa actgcaggag gaatccaggt accagacacg cggcatagcg1081 gcttggttca cctgagaggc ccggcatggg gcctgggctg ccaggg 1 aaggagcaca gttccaggcg gggctgagct agggcgtagc tgtgatttca ggggcacctc 61 tggcggctgc cgtgatttga gaatctcggg tctcttggct gactgatcct gggagactgt 121 ggatgaataa tgctgggcac ggccccaccc ggaggctgcg aggcttgggg gtcctggccg 181 gggtggctct gctcgctgcc ctctggctcc tgtggctgct ggggtcagcc cctcggggta 241 ccccggcacc ccagcccacg atcaccatcc ttgtctggca ctggcccttc actgaccagc 301 ccccagagct gcccagcgac acctgcaccc gctacggcat cgcccgctgc cacctgagtg 361 ccaaccgaag cctgctggcc agcgccgacg ccgtggtctt ccaccaccgc gagctgcaga 421 cccggcggtc ccacctgccc ctggcccagc ggccgcgagg gcagccctgg gtgtgggcct 481 ccatggagtc tcctagccac acccacggcc tcagccacct ccgaggcatc ttcaactggg 541 tgctgagcta ccggcgcgac tcggacatct ttgtgcccta tggccgcctg gagccccact 601 gggggccctc gccaccgctg ccagccaaga gcagggtggc cgcctgggtg gtcagcaact 661 tccaggagcg gcagctgcgt gccaggctgt accggcagct ggcgcctcat ctgcgggtgg 721 atgtctttgg ccgtgccaat ggacggccac tgtgcgccag ctgcctggtg cccaccgtgg 781 cccagtaccg cttctacctg tcctttgaga actctcagca ccgcgactac attacggaga 841 aattctggcg caacgcactg gtggctggca ctgtgccagt ggtgctgggg cccccacggg 901 ccacctatga ggccttcgtg ccggctgacg ccttcgtgca tgtggatgac tttggctcag 961 cccgagagct ggcggctttc ctcactggca tgaatgagag ccgataccaa cgcttctttg1021 cctggcgtga caggctccgc gtgcgactgt tcaccgactg gcgggaacgt ttctgtgcca1081 tctgtgaccg ctacccacac ctaccccgca gccaagtcta tgaggacctt gagggttggt1141 ttcaggcctg agatccgctg gccgggggag gtgggtgtgg gtggaagggc tgggtgtcga1201 aatcaaacca ccaggcatcc ggcccttacc ggcaagcagc gggctaacgg gaggctgggc1261 acagaggtca ggaagcaggg gtggggggtg caggtgggca ctggagcatg cagaggaggt1321 gagagtggga gggaggtaac gggtgcctgc tgcggcagac gggaggggaa aggctgccga1381 ggaccctccc caccctgaac aaatcttggg tgggtgaagg cctggctgga agagggtgaa1441 aggcagggcc cttggggctg gggggcaccc cagcctgaag tttgtggggg ccaaacctgg1501 gaccccgagc ttcctcggta gcagaggccc tgtggtcccc gagacacagg cacgggtccc1561 tgccacgtcc atagttctga ggtccctgtg tgtaggctgg ggcggggccc aggagaccac1621 ggggagcaaa ccagcttgtt ctgggctcag ggagggaggg cggtggacaa taaacgtctg1681 agcagtgaaa aaaaaaaaaa a (2) SEQ ID NO: 2705, data: (i) sequence characteristics:

(A) length: 2025 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2705, sequence description: 1 cccccctcca agataatttt taaaaaacct tctcctttgc tcacctttgc ttcccagcct 61 tcccatcccc ccaccgaaag caaatcattc aacgaccccc gaccctccga cggcaggagc 121 cccccgacct cccaggcgga ccgccctccc tccccggggt tccgggcccg gcgagagggc 181 721 tcggcccggc aggacgagaa agagtgcctc aagtaccagg tgcccctgcc cgacagcatg 781 181 gcgagcacag ccgaggccat ggaggtgacg gcggaccagc cgcgctgggt gagccaccac 241 caccccgccg tgctcaacgg gcagcacccg gacacgcacc acccgggcct cagccactcc 301 tacatggacg cggcgcagta cccgctgccg gaggaggtgg atgtgctttt taacatcgac 361 ggtcaaggca accacgtccc gccctactac ggaaactcgg tcagggccac ggtgcagagg 421 taccctccga cccaccacgg gagccaggtg tgccgcccgc ctctgcttca tggatcccta481 ccctggctgg acggcggcaa agccctgggc agccaccaca ccgcctcccc ctggaatctc 541 agccccttct ccaagacgtc catccaccac ggctccccgg ggcccctctc cgtctacccc 601 ccggcctcgt cctcctcctt gtcggggggc cacgccagcc cgcacctctt caccttcccg 661 cccaccccgc cgaaggacgt ctccccggac ccatcgctgt ccaccccagg ctcggccggc 721 tcggcccggc aggacgagaa agagtgcctc aagtaccagg tgcccctgcc cgacagcatg 781 aagctggagt cgtcccactc ccgtggcagc atgaccgccc tgggtggagc ctcctcgtcg 841 acccaccacc ccatcaccac ctacccgccc tacgtgcccg agtacagctc cggactcttc 901 ccccccagca gcctgctggg cggctccccc accggcttcg gatgcaagtc caggcccaag 961 gcccggtcca gcacagaagg cagggagtgt gtgaactgtg gggcaacctc gaccccactg1021 tggcggcgag atggcacggg acactacctg tgcaacgcct gcgggctcta tcacaaaatg1081 aacggacaga accggcccct cattaagccc aagcgaaggc tgtctgcagc caggagagca1141 gggacgtcct gtgcgaactg tcagaccacc acaaccacac tctggaggag gaatgccaat1201 ggggaccctg tctgcaatgc ctgtgggctc tactacaagc ttcacaatat taacagaccc1261 ctgactatga agaaggaagg catccagacc agaaaccgaa aaatgtctag caaatccaaa1321 aagtgcaaaa aagtgcatga ctcactggag gacttcccca agaacagctc gtttaacccg1381 gccgccctct ccagacacat gtcctccctg agccacatct cgcccttcag ccactccagc1441 cacatgctga ccacgcccac gccgatgcac ccgccatcca gcctgtcctt tggaccacac1501 cacccctcca gcatggtcac cgccatgggt tagagccctg ctcgatgctc acagggcccc1561 cagcgagagt ccctgcagtc cctttcgact tgcatttttg caggagcagt atcatgaagc1621 ctaaacgcga tggatatatg tttttgaagg cagaaagcaa aattatgttt gccactttgc1681 aaaggagctc actgtggtgt ctgtgttcca accactgaat ctggacccca tctgtgaata1741 agccattctg actcatatcc cctatttaac agggtctcta gtgctgtgaa aaaaaaaatg1801 ctgaacattg catataactt atattgtaag aaatactgta caatgacttt attgcatctg1861 ggtagctgta aggcatgaag gatgccaaga agtttaagga atatgggaga aatggtgtgg1921 aaattaagaa gaaactaggt ctgatattca aatggacaaa ctgccagttt tgtttccttt1981 cactggccac agttgtttga tgcattaaaa gaaaataaaa aaaag (2) SEQ ID NO: 2706 data: (i) sequence characteristics:

(A) length: 789 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2706 sequence description: 1 acacagagag aaaggctaaa gttctctgga ggatgtggct gcagagcctg ctgctcttgg61 gcactgtggc ctgcagcatc tctgcacccg cccgctcgcc cagccccagc acgcagccct121 gggagcatgt gaatgccatc caggaggccc ggcgtctcct gaacctgagt agagacactg181 ctgctgagat gaatgaaaca gtagaagtca tctcagaaat gtttgacctc caggagccga241 cctgcctaca gacccgcctg gagctgtaca agcagggcct gcggggcagc ctcaccaagc301 tcaagggccc cttgaccatg atggccagcc actacaagca gcactgccct ccaaccccgg361 aaacttcctg tgcaacccag attatcacct ttgaaagttt caaagagaac ctgaaggact421 ttctgcttgt catccccttt gactgctggg agccagtcca ggagtgagac cggccagatg481 aggctggcca agccggggag ctgctctctc atgaaacaag agctagaaac tcaggatggt541 catcttggag ggaccaaggg gtgggccaca gccatggtgg gagtggcctg gacctgccct601 gggcacactg accctgatac aggcatggca gaagaatggg aatattttat actgacagaa661 atcagtaata tttatatatt tatattttta aaatatttat ttatttattt atttaagttc721 atattccata tttattcaag atgttttacc gtaataatta ttattaaaaa tagcttctaa781 aaaaaaaaaaaaaa (2) SEQ ID NO: 2707 data: (i) sequence characteristics:

(A) length: 1283 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2707, sequence description: 1 ttctctctga ccagcaccat gcttctcctg gtgacaagcc ttctgctctg tgagttacca 61 cacccagcat tcctcctgat cccagagaaa tcggatctgc gaacagtggc accagcctct 121 agtctcaatg tgaggtttga ctccaggacg atgaatttaa gctgggactg ccaagaaaac 181 721 gtacggtgga aacagcccag gacctatcag aagctgtcgt acctggactt tcagtaccag 781 181 acaaccttca gcaagtgttt cttaactgac aagaagaaca gagtcgtgga acccaggctc 241 agtaacaacg aatgttcgtg cacatttcgt gaaatttgtc tgcatgaagg agtcacattt 301 gaggttcacg tgaatactag tcaaagagga tttcaacaga aactgcttta tccaaattca 361 ggaagggagg gtaccgctgc tcagaatttc tcctgtttca tctacaatgc ggatttaatg 421 aactgtacct gggcgagggg tccgacggcc ccccgtgacg tccagtattt tttgtacata 481 cgaaactcaa agagaaggag ggagatccgg tgtccttatt acatacaaga ctcaggaacc 541 catgtgggat gtcacctgga taacctgtca ggattaacgt ctcgcaatta ctttctggtt 601 aacggaacca gccgagaaat tggcatccaa ttctttgatt cacttttgga cacaaagaaa 661 atagaacgat tcaaccctcc cagcaatgtc accgtacgtt gcaacacgac gcactgcctc 721 gtacggtgga aacagcccag gacctatcag aagctgtcgt acctggactt tcagtaccag 781 ctggacgtcc acagaaagaa tacccagcct ggcacggaaa acctactgat taatgtttct 841 ggtgatttgg aaaatagata caactttcca agctctgagc ccagagcaaa acacagtgtg 901 aagatcagag ctgcagacgt ccgcatcttg aattggagct cctggagtga agccattgaa 961 tttggttcct taggatacag cggctgttcc cgccagttcc acagatcaaa gacaaactga1021 atgataacca tgaggtggaa gacgagatca tctgggagga attcacccca gaggaaggga1081 aaggctaccg cgaagaggtc ttgaccgtga aggaaattac ctgagaccca gagggtgtag1141 gaatggcatg gacatctccg cctccgcgac acgggggaac tgttttcttg atgatgctgt1201 gaacctttat atcattttct atgtttttat ttaaaaacat gacatttggg gccaggcgcg1261 gtggctcacg cctgtaatcc cag (2) SEQ ID NO: 2708, data: (i) sequence characteristics:

(A) length: 3043 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2708, sequence description: 1 ttctcagagt ggctgcagtc tcgctgctgg atgtgcacat ggtggtcatt ccctctgctc 61 acaggggcag gggtcccccc ttactggact gaggttgccc cctgctccag gtcctgggtg121 ggagcccatg tgaactgtca gtggggcagg tctgtgagag ctcccctcac actcaagtct181 ctctcacagt ggccagagaa gaggaaggct ggagtcagaa tgaggcacca gggcgggcat241 agcctgccca aaggcccctg ggattacagg caggatgggg agccctatct aagtgtctcc301 cacgccccac cccagccatt ccaggccagg aagtccaaac tgtgcccctc agagggaggg361 ggcagcctca ggcccattca gactgcccag ggagggctgg agagccctca ggaaggcggg421 tgggtgggct gtcggttctt ggaaaggttc attaatgaaa acccccaagc ctgaccacct 481 agggaaaagg ctcaccgttc ccatgtgtgg ctgataaggg ccaggagatt ccacagttca 541 ggtagttccc ccgcctccct ggcattttgt ggtcaccatt aatcatttcc tctgtgtatt 601 taagagctct tttgccagtg agcccagcta cacagagaga aaggctaaag ttctctggag 661 gatgtggctg cagagcctgc tgctcttggg cactgtggcc tgcagcatct ctgcacccgc 721 ccgctcgccc agccccagca cgcagccctg ggagcatgtg aatgccatcc aggaggcccg 781 gcgtctcctg aacctgagta gagacactgc tgctgagatg gtaagtgaga gaatgtgggc 841 ctgtgctagg caccagtggc cctgactggc cacgcctgtc agcttgataa catgacattt 901 tccttttcta cagaatgaaa cagtagaagt catctcagaa atgtttgacc tccaggtaag 961 atgcttctct ctgacatagc tttccagaag cccctgccct ggggtggagg tggggactcc1021 attttagatg gcaccacaca gggttgtcca ctttctctcc agtcagctgg ctgcaggagg1081 agggggtagc aactgggtgc tcaagaggct gctggccgtg cccctatggc agtcacatga1141 gctcctttat cagctgagcg gccatgggca gacctagcat tcaatggcca ggagtcacca1201 ggggacaggt ggtaaagtgg gggtcacttc atgagacagg agctgtgggt ttggggcgct1261 cactgtgccc cgagaccaag tcctgttgag acagtgctga ctacagagag gcacagaggg1321 gtttcaggaa caacccttgc ccacccagca ggtccaggtg aggccccacc cccctctccc1381 tgaatgatgg ggtgagagtc acctccttcc ctaaggctgg gctcctctcc aggtgccgct1441 gagggtggcc tgggcggggc agtgagaagg gcaggttcgt gcctgccatg gacagggcag1501 ggtctatgac tggacccagc ctgtgcccct cccaagccct actcctgggg gctgggggca1561 gcagcaaaaa ggagtggtgg agagttcttg taccactgtg ggcacttggc cactgctcac1621 cgacgaacga cattttccac aggagccgac ctgcctacag acccgcctgg agctgtacaa1681 gcagggcctg cggggcagcc tcaccaagct caagggcccc ttgaccatga tggccagcca1741 ctacaagcag cactgccctc caaccccggt gagtgcctac ggcagggcct ccagcaggaa1801 tgtcttaatc tagggggtgg ggtcgacatg gggagagatc tatggctgtg gctgttcagg1861 accccagggg gtttctgtgc caacagttat gtaatgatta gccctccaga gaggaggcag1921 acagcccatt tcatcccaag gagtcagagc cacagagcgc tgaagcccac agtgctcccc1981 agcaggagct gctcctatcc tggtcattat tgtcattacg gttaatgagg tcagaggtga2041 gggcaaaccc aaggaaactt ggggcctgcc caaggcccag aggaagtgcc caggcccaag2101 tgccaccttc tggcaggact ttcctctggc cccacatggg gtgcttgaat tgcagaggat2161 caaggaaggg aggctacttg gaatggacaa ggacctcagg cactccttcc tgcgggaagg2221 gagcaaagtt tgtggccttg actccactcc ttctgggtgc ccagagacga cctcagccca2281 gctgccctgc tctgccctgg gaccaaaaag gcaggcgttt gactgcccag aaggccaacc2341 tcaggctggc acttaagtca ggcccttgac tctggctgcc actggcagag ctatgcactc2401 cttggggaac acgtgggtgg cagcagcgtc acctgaccca ggtcagtggg tgtgtcctgg24 agtgggcctc ctggcctctg agttctaaga ggcagtagag aaacatgctg gtgcttcctt2521 cccccacgtt acccacttgc ctggactcaa gtgtttttta tttttctttt tttaaaggaa 8681 acttcctgtg caacccagat tatcaccttt gaaagtttca aagagaacct gaaggacttt2641 ctgcttgtca tcccctttga ctgctgggag ccagtccagg agtgagaccg gccagatgag 27058 362761 tcttggaggg accaaggggt gggccacagc catggtggga gtggcctgga cctgccctgg2821 gcacactgac cctgatacag gcatggcaga agaatgggaa tattttatac tgacagaaat2881 cagtaatatt tatatattta tatttttaaa atatttattt atttatttat ttaagttcat2941 attccatatt tattcaagat gttttaccgt aataattatt attaaaaata tgcttctact3001 tgtccagtgt tctagtttgt ttttaaccat gagcaaatgc cat (2) SEQ ID NO: 2709 data: (i) sequence characteristics:

(A) length: 5115 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2709 sequence description: 1 acacagagag aaaggctaaa gttctctgga ggatgtggct gcagagcctg ctgctcttgg61 gcactgtggc ctgcagcatc tctgcacccg cccgctcgcc cagccccagc acgcagccct121 gggagcatgt gaatgccatc caggaggccc ggcgtctcct gaacctgagt agagacactg181 721 atattccata tttattcaag atgttttacc gtaataatta ttattaaaaa tagcttctaa781 181 ctgctgagat gaatgaaaca gtagaagtca tctcagaaat gtttgacctc caggagccga241 cctgcctaca gacccgcctg gagctgtaca agcagggcct gcggggcagc ctcaccaagc301 tcaagggccc cttgaccatg atggccagcc actacaagca gcactgccct ccaaccccgg361 aaacttcctg tgcaacccag attatcacct ttgaaagttt caaagagaac ctgaaggact421 ttctgcttgt catccccttt gactgctggg agccagtcca ggagtgagac cggccagatg481 aggctggcca agccggggag ctgctctctc atgaaacaag agctagaaac tcaggatggt541 catcttggag ggaccaaggg gtgggccaca gccatggtgg gagtggcctg gacctgccct601 gggcacactg accctgatac aggcatggca gaagaatggg aatattttat actgacagaa661 atcagtaata tttatatatt tatattttta aaatatttat ttatttattt atttaagttc721 atattccata tttattcaag atgttttacc gtaataatta ttattaaaaa tagcttctaa781 aaaaaaaaaa1 ttctctctga ccagcaccat gcttctcctg gtgacaagcc ttctgctctg tgagttacca 61 cacccagcat tcctcctgat cccagagaaa tcggatctgc gaacagtggc accagcctct 121 agtctcaatg tgaggtttga ctccaggacg atgaatttaa gctgggactg ccaagaaaac 181 acaaccttca gcaagtgttt cttaactgac aagaagaaca gagtcgtgga acccaggctc 241 agtaacaacg aatgttcgtg cacatttcgt gaaatttgtc tgcatgaagg agtcacattt 301 gaggttcacg tgaatactag tcaaagagga tttcaacaga aactgcttta tccaaattca 361 ggaagggagg gtaccgctgc tcagaatttc tcctgtttca tctacaatgc ggatttaatg 421 aactgtacct gggcgagggg tccgacggcc ccccgtgacg tccagtattt tttgtacata 481 cgaaactcaa agagaaggag ggagatccgg tgtccttatt acatacaaga ctcaggaacc 541 catgtgggat gtcacctgga taacctgtca ggattaacgt ctcgcaatta ctttctggtt 601 aacggaacca gccgagaaat tggcatccaa ttctttgatt cacttttgga cacaaagaaa 661 atagaacgat tcaaccctcc cagcaatgtc accgtacgtt gcaacacgac gcactgcctc 721 gtacggtgga aacagcccag gacctatcag aagctgtcgt acctggactt tcagtaccag 781 ctggacgtcc acagaaagaa tacccagcct ggcacggaaa acctactgat taatgtttct 841 ggtgatttgg aaaatagata caactttcca agctctgagc ccagagcaaa acacagtgtg 901 aagatcagag ctgcagacgt ccgcatcttg aattggagct cctggagtga agccattgaa 961 tttggttcct taggatacag cggctgttcc cgccagttcc acagatcaaa gacaaactga1021 atgataacca tgaggtggaa gacgagatca tctgggagga attcacccca gaggaaggga1081 aaggctaccg cgaagaggtc ttgaccgtga aggaaattac ctgagaccca gagggtgtag1141 gaatggcatg gacatctccg cctccgcgac acgggggaac tgttttcttg atgatgctgt1201 gaacctttat atcattttct atgtttttat ttaaaaacat gacatttggg gccaggcgcg1261 gtggctcacg cctgtaatcc cag1 ttctcagagt ggctgcagtc tcgctgctgg atgtgcacat ggtggtcatt ccctctgctc 61 acaggggcag gggtcccccc ttactggact gaggttgccc cctgctccag gtcctgggtg121 ggagcccatg tgaactgtca gtggggcagg tctgtgagag ctcccctcac actcaagtct181 ctctcacagt ggccagagaa gaggaaggct ggagtcagaa tgaggcacca gggcgggcat241 agcctgccca aaggcccctg ggattacagg caggatgggg agccctatct aagtgtctcc301 cacgccccac cccagccatt ccaggccagg aagtccaaac tgtgcccctc agagggaggg361 ggcagcctca ggcccattca gactgcccag ggagggctgg agagccctca ggaaggcggg421 tgggtgggct gtcggttctt ggaaaggttc attaatgaaa acccccaagc ctgaccacct 481 agggaaaagg ctcaccgttc ccatgtgtgg ctgataaggg ccaggagatt ccacagttca 541 ggtagttccc ccgcctccct ggcattttgt ggtcaccatt aatcatttcc tctgtgtatt 601 taagagctct tttgccagtg agcccagcta cacagagaga aaggctaaag ttctctggag 661 638 661 gatgtggctg cagagcctgc tgctcttggg cactgtggcc tgcagcatct ctgcacccgc ccgctcgccc agccccagca cgcagccctg ggagcatgtg aatgccatcc aggaggcccg 781 gcgtctcctg aacctgagta gagacactgc tgctgagatg gtaagtgaga gaatgtgggc 841 ctgtgctagg caccagtggc cctgactggc cacgcctgtc agcttgataa catgacattt 901 tccttttcta cagaatgaaa cagtagaagt catctcagaa atgtttgacc tccaggtaag 961 391021 attttagatg gcaccacaca gggttgtcca ctttctctcc agtcagctgg ctgcaggagg1081 agggggtagc aactgggtgc tcaagaggct gctggccgtg cccctatggc agtcacatga1141 gctcctttat cagctgagcg gccatgggca gacctagcat tcaatggcca ggagtcacca1201 ggggacaggt ggtaaagtgg gggtcacttc atgagacagg agctgtgggt ttggggcgct1261 cactgtgccc cgagaccaag tcctgttgag acagtgctga ctacagagag gcacagaggg1321 gtttcaggaa caacccttgc ccacccagca ggtccaggtg aggccccacc cccctctccc1381 tgaatgatgg ggtgagagtc acctccttcc ctaaggctgg gctcctctcc aggtgccgct1441 gagggtggcc tgggcggggc agtgagaagg gcaggttcgt gcctgccatg gacagggcag1501 ggtctatgac tggacccagc ctgtgcccct cccaagccct actcctgggg gctgggggca1561 1621 6951 168 gcagggcctg cggggcagcc tcaccaagct caagggcccc ttgaccatga tggccagcca1741 ctacaagcag cactgccctc caaccccggt gagtgcctac ggcagggcct ccagcaggaa1801 tgtcttaatc tagggggtgg ggtcgacatg gggagagatc tatggctgtg gctgttcagg1861 accccagggg gtttctgtgc caacagttat gtaatgatta gccctccaga gaggaggcag1921 acagcccatt tcatcccaag gagtcagagc cacagagcgc tgaagcccac agtgctcccc1981 agcaggagct gctcctatcc tggtcattat tgtcattacg gttaatgagg tcagaggtga2041 gggcaaaccc aaggaaactt ggggcctgcc caaggcccag aggaagtgcc caggcccaag2101 tgccaccttc tggcaggact ttcctctggc cccacatggg gtgcttgaat tgcagaggat2161 caaggaaggg aggctacttg gaatggacaa ggacctcagg cactccttcc tgcgggaagg2221 gagcaaagtt tgtggccttg actccactcc ttctgggtgc ccagagacga cctcagccca2281 gctgccctgc tctgccctgg gaccaaaaag gcaggcgttt gactgcccag aaggccaacc2341 8 2401 cttggggaac acgtgggtgg cagcagcgtc acctgaccca ggtcagtggg tgtgtcctgg2461 632521 cccccacgtt acccacttgc ctggactcaa gtgtttttta tttttctttt tttaaaggaa2581 acttcctgtg caacccagat tatcaccttt gaaagtttca aagagaacct gaaggacttt2641 ctgcttgtca tcccctttga ctgctgggag ccagtccagg agtgagaccg gccagatgag2701 gctggccaag ccggggagct gctctctcat gaaacaagag ctagaaactc aggatggtca27 tcttggaggg accaaggggt gggccacagc catggtggga gtggcctgga cctgccctgg2821 2884 cagtaatatt tatatattta tatttttaaa atatttattt atttatttat ttaagttcat2941 attccatatt tattcaagat gttttaccgt aataattatt attaaaaata tgcttctact3001 tgtccagtgt tctagtttgt ttttaaccat gagcaaatgc cat (2) SEQ ID NO: 2710 for data: (i) sequence characteristics:

(A) length: 2440 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2710: 1 atcctggctg atatggtgaa accccatctc tactaaaaat acaaaaatta gctgggcgtg 61 gtggtgggcg catgtaatcc cagctactca ggaggctgag gcaggagaat tacttgaacc 121 tgggaggcag aggttgcagt gaaccgagat cgcgccattg cactccagtc tggcgacaga 181 721 gcgtgggtgg atcacctgag gtcaggagtt caagtccagc ctgaccaaca tggtgaaacc 781 181 gcgagactcc gtctctaaat aaataaataa ataaatttag ccttctactc aagaacttat 241 ctggctttgt cttaatgtaa aaataatttc tttttgctaa attattgaga gaaatttact 301 atttattagt gtttatcagt tttctttaaa ctcaccactt tttgatgaat atgaaaatct 361 aaaaacttgg ccgggcgcag tggctcacac ctgtaatctc agcactttgg gaggccaagg 421 tgggcggatc atctgaggtc aggagttcaa gatcagcctg accaacatgg tgaaacccct 481 tctctactaa aaatacaaaa attagctggg cgtggtggtg ggtgcctgta attgtagcta 541 cttgggaggc tgaggcatga gaatcacttg aacccagaaa gcagaggttg cagtgagctg 601 agatggtgcc actgcactcc agcctgggtg acagagtgag actctgtcct aaaaaaaaaa 661 aaaaaaaaaa tggctgggcg tggtgcctca tgcctgtaat cccagcactt tgggagtcca 721 gcgtgggtgg atcacctgag gtcaggagtt caagtccagc ctgaccaaca tggtgaaacc 781 ccgtctctac taaaaaagta caaaaaaaat agccgggtgt ggtggcacac tcctgtaatc841 ccagctactc aggaggctga ggcaggagaa tcacttgaat ttgggagctg gagattgtag 901 tcagccaaga tggtgccatt gcactccagt ctgggtgaca gagtgagact ccatctcaaa 961 aaaaaaaaaa aaatcttaaa aactccttcc agaagattta atacttactt tcacccaacc1021 acccgacttg agtatcacca ataacagagg atacagtccg ttttcagtag agccttagta1081 gcaaagggtt ttcattttta tttttcagat acaggatctt gccctgtcac ccaagctgga1141 gtgcagtgat gtgatcatag ctgactgcag cctcctgagt agctaggact ataggtgtat1201 tataggacaa tttttaaaaa atttcattgt aaagacagga ttccactgtg ttgcccaggc1261 tgcaagtctt ggcctcaagt gatcattcca cctttaactc ttgccctcaa gcagtcctcc1321 cacctcagac tcccaaaatg ctgggattat gggtgtgagc caccatttcc agcctactag1381 caagggtctt gttacatatt acttggcatg atttatgtaa tttaaaaaaa ttgtttgttt1441 ttcaaataga aaagtaaaat aacgaatatg cttttccaat aacataatcc ccttctcact1501 tgagaatttt cctctaaaaa gatatgctag atttatttca tgctttatgt gcctctggtg1561 tgtcccctta taacctcctc catatcattt agggatggtc tcagctgcaa gtaagaactg1621 ccacaacagg tgatgtaagc ccaaaaaaaa aaaaaaaaaa aaagcaaagc caagcaaaac1681 aaagcccatt taattatttc ccataataat aagtctggga gaaagaagat tccagagttg1741 gctcagcagc ttagtgacag caaggcccta ggctggcatt ttcttggcct tcccgatggt1801 cccaagatga ctctcatggc ctcaaacatc acttcctcac atcctgtcag ggagaaagag1861 gcaagtgagc aacaacaatt tgtggtgttt ggatcatttg tcagagagga agaacgttcc1921 taaaaactcc gcctctgctg tttgacatcc tcatcctatt ccttggccat ggtggtatct1981 catggtcact cctctatctg ccactgtaaa gaggaactgg attgctatat tctgcttaga2041 cacatgagga tgcagcccac cttcccagaa catgtgcgga attagatttc tacaaacaca2101 tttgtcttgc ttctgcccaa ctctctcact agaatgcaca ttccataggg gcaaacattt2161 ttgtctattt tgttcacagc tatattctca acacctagaa gagtgacaga aattcaataa2221 atagttgtta agtgagcaaa tgaatgcatg aataaggaaa agggtacatg gctattgagt2281 aggtaaccag cagtgttgat cacccccaac agcatacaac tccagtctga tgaacatcat2341 gctactaagt ggccactcat cacccaagtc tctgacctta ctttttctct cttttctccc2401 agggagtgag ccataactgg cggctgctct tgcgccaatg (2) SEQ ID NO: 2711 data: (i) sequence characteristics:

(A) length: 1654 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2711: 1 ccaatgagcc tccccaattc ctcctgcctc ttagaagaca agatgtgtga gggcaacaag 61 accactatgg ccagccccca gctgatgccc ctggtggtgg tcctgagcac tatctgcttg 121 gtcacagtag ggctcaacct gctggtgctg tatgccgtac ggagtgagcg gaagctccac 181 721 aggccagaga accccaaggg ggatgccaag aaaccaggga aggagtctcc ctgggaggtt 781 181 actgtgggga acctgtacat cgtcagcctc tcggtggcgg acttgatcgt gggtgccgtc 241 gtcatgccta tgaacatcct ctacctgctc atgtccaagt ggtcactggg ccgtcctctc 301 tgcctctttt ggctttccat ggactatgtg gccagcacag cgtccatttt cagtgtcttc 361 atcctgtgca ttgatcgcta ccgctctgtc cagcagcccc tcaggtacct taagtatcgt 421 accaagaccc gagcctcggc caccattctg ggggcctggt ttctctcttt tctgtgggtt 481 attcccattc taggctggaa tcacttcatg cagcagacct cggtgcgccg agaggacaag 541 tgtgagacag acttctatga tgtcacctgg ttcaaggtca tgactgccat catcaacttc 601 tacctgccca ccttgctcat gctctggttc tatgccaaga tctacaaggc cgtacgacaa 661 cactgccagc accgggagct catcaatagg tccctccctt ccttctcaga aattaagctg 721 aggccagaga accccaaggg ggatgccaag aaaccaggga aggagtctcc ctgggaggtt 781 ctgaaaagga agccaaaaga tgctggtggt ggatctgtct tgaagtcacc atcccaaacc 841 cccaaggaga tgaaatcccc agttgtcttc agccaagagg atgatagaga agtagacaaa 901 ctctactgct ttccacttga tattgtgcac atgcaggctg cggcagaggg gagtagcagg 961 gactatgtag ccgtcaaccg gagccatggc cagctcaaga cagatgagca gggcctgaac1021 acacatgggg ccagcgagat atcagaggat cagatgttag gtgatagcca atccttctct1081 cgaacggact cagataccac cacagagaca gcaccaggca aaggcaaatt gaggagtggg1141 tctaacacag gcctggatta catcaagttt acttggaaga ggctccgctc gcattcaaga1201 cagtatgtat ctgggttgca catgaaccgc gaaaggaagg ccgccaaaca gttgggtttt1261 atcatggcag ccttcatcct ctgctggatc ccttatttca tcttcttcat ggtcattgcc1321 ttctgcaaga actgttgcaa tgaacatttg cacatgttca ccatctggct gggctacatc1381 aactccacac tgaaccccct catctacccc ttgtgcaatg agaacttcaa gaagacattc1441 aagagaattc tgcatattcg ctcctaaggg aggctctgag gggatgcaac aaaatgatcc1501 ttatgatgtc caacaaggaa atagaggacg aaggcctgtg tgttgccagg caggcacctg1561 ggctttctgg aatccaaacc acagtcttag gggcttggta gtttggaaag ttcttaggca1621 ccatagaaga acagcagatg gcggtgatca gcag (2) SEQ ID NO: 2712 data: (i) sequence characteristics:

(A) length: 1742 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2712: 1 atgagcctcc ccaattcctc ctgcctctta gaagacaaga tgtgtgaggg caacaagacc 61 actatggcca gcccccagct gatgcccctg gtggtggtcc tgagcactat ctgcttggtc 121 acagtagggc tcaacctgct ggtgctgtat gccgtacgga gtgagcggaa gctccacact 181 721 ccagagaacc ccaaggggga tgccaagaaa ccagggaagg agtctccctg ggaggttctg 781 181 gtggggaacc tgtacatcgt cagcctctcg gtggcggact tgatcgtggg tgccgtcgtc 241 atgcctatga acatcctcta cctgctcatg tccaagtggt cactgggccg tcctctctgc 301 ctcttttggc tttccatgga ctatgtggcc agcacagcgt ccattttcag tgtcttcatc 361 ctgtgcattg atcgctaccg ctctgtccag cagcccctca ggtaccttaa gtatcgtacc 421 aagacccgag cctcggccac cattctgggg gcctggtttc tctcttttct gtgggttatt 481 cccattctag gctggaatca cttcatgcag cagacctcgg tgcgccgaga ggacaagtgt 541 gagacagact tctatgatgt cacctggttc aaggtcatga ctgccatcat caacttctac 601 ctgcccacct tgctcatgct ctggttctat gccaagatct acaaggccgt acgacaacac 661 tgccagcacc gggagctcat caataggtcc ctcccttcct tctcagaaat taagctgagg 721 ccagagaacc ccaaggggga tgccaagaaa ccagggaagg agtctccctg ggaggttctg 781 aaaaggaagc caaaagatgc tggtggtgga tctgtcttga agtcaccatc ccaaaccccc 841 aaggagatga aatccccagt tgtcttcagc caagaggatg atagagaagt agacaaactc 901 tactgctttc cacttgatat tgtgcacatg caggctgcgg cagaggggag tagcagggac 961 tatgtagccg tcaaccggag ccatggccag ctcaagacag atgagcaggg cctgaacaca1021 catggggcca gcgagatatc agaggatcag atgttaggtg atagccaatc cttctctcga1081 acggactcag ataccaccac agagacagca ccaggcaaag gcaaattgag gagtgggtct1141 aacacaggcc tggattacat caagtttact tggaagaggc tccgctcgca ttcaagacag1201 tatgtatctg ggttgcacat gaaccgcgaa aggaaggccg ccaaacagtt gggttttatc1261 atggcagcct tcatcctctg ctggatccct tatttcatct tcttcatggt cattgccttc1321 tgcaagaact gttgcaatga acatttgcac atgttcacca tctggctggg ctacatcaac1381 tccacactga accccctcat ctaccccttg tgcaatgaga acttcaagaa gacattcaag1441 agaattctgc atattcgctc ctaagggagg ctctgagggg atgcaacaaa atgatcctta1501 tgatgtccaa caaggaaata gaggacgaag gcctgtgtgt tgccaggcag gcacctgggc1561 tttctggaat ccaaaccaca gtcttagggg cttggtagtt tggaaagttc ttaggcacca1621 tagaagaaca gcagatggcg gtgatcagca gagagattga actttgagga ggaagcagaa1681 tctttgcaag aaagtcagac ctgtttcttg taactgggtt caaaaagaaa aaaaaaaaaa1741 aa (2) SEQ ID NO: 2713 data: (i) sequence characteristics:

(A) length: 5836 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2713: 1 atcctggctg atatggtgaa accccatctc tactaaaaat acaaaaatta gctgggcgtg 61 gtggtgggcg catgtaatcc cagctactca ggaggctgag gcaggagaat tacttgaacc 121 tgggaggcag aggttgcagt gaaccgagat cgcgccattg cactccagtc tggcgacaga 181 721 gcgtgggtgg atcacctgag gtcaggagtt caagtccagc ctgaccaaca tggtgaaacc 781 181 gcgagactcc gtctctaaat aaataaataa ataaatttag ccttctactc aagaacttat 241 ctggctttgt cttaatgtaa aaataatttc tttttgctaa attattgaga gaaatttact 301 atttattagt gtttatcagt tttctttaaa ctcaccactt tttgatgaat atgaaaatct 361 aaaaacttgg ccgggcgcag tggctcacac ctgtaatctc agcactttgg gaggccaagg 421 tgggcggatc atctgaggtc aggagttcaa gatcagcctg accaacatgg tgaaacccct 481 tctctactaa aaatacaaaa attagctggg cgtggtggtg ggtgcctgta attgtagcta 541 cttgggaggc tgaggcatga gaatcacttg aacccagaaa gcagaggttg cagtgagctg 601 agatggtgcc actgcactcc agcctgggtg acagagtgag actctgtcct aaaaaaaaaa 661 aaaaaaaaaa tggctgggcg tggtgcctca tgcctgtaat cccagcactt tgggagtcca 721 gcgtgggtgg atcacctgag gtcaggagtt caagtccagc ctgaccaaca tggtgaaacc 781 ccgtctctac taaaaaagta caaaaaaaat agccgggtgt ggtggcacac tcctgtaatc 841 ccagctactc aggaggctga ggcaggagaa tcacttgaat ttgggagctg gagattgtag 901 tcagccaaga tggtgccatt gcactccagt ctgggtgaca gagtgagact ccatctcaaa 961 aaaaaaaaaa aaatcttaaa aactccttcc agaagattta atacttactt tcacccaacc1021 acccgacttg agtatcacca ataacagagg atacagtccg ttttcagtag agccttagta1081 gcaaagggtt ttcattttta tttttcagat acaggatctt gccctgtcac ccaagctgga1141 gtgcagtgat gtgatcatag ctgactgcag cctcctgagt agctaggact ataggtgtat1201 tataggacaa tttttaaaaa atttcattgt aaagacagga ttccactgtg ttgcccaggc1261 tgcaagtctt ggcctcaagt gatcattcca cctttaactc ttgccctcaa gcagtcctcc1321 cacctcagac tcccaaaatg ctgggattat gggtgtgagc caccatttcc agcctactag1381 caagggtctt gttacatatt acttggcatg atttatgtaa tttaaaaaaa ttgtttgttt1441 ttcaaataga aaagtaaaat aacgaatatg cttttccaat aacataatcc ccttctcact1501 tgagaatttt cctctaaaaa gatatgctag atttatttca tgctttatgt gcctctggtg1561 tgtcccctta taacctcctc catatcattt agggatggtc tcagctgcaa gtaagaactg1621 ccacaacagg tgatgtaagc ccaaaaaaaa aaaaaaaaaa aaagcaaagc caagcaaaac1681 aaagcccatt taattatttc ccataataat aagtctggga gaaagaagat tccagagttg1741 gctcagcagc ttagtgacag caaggcccta ggctggcatt ttcttggcct tcccgatggt1801 cccaagatga ctctcatggc ctcaaacatc acttcctcac atcctgtcag ggagaaagag1861 gcaagtgagc aacaacaatt tgtggtgttt ggatcatttg tcagagagga agaacgttcc1921 taaaaactcc gcctctgctg tttgacatcc tcatcctatt ccttggccat ggtggtatct1981 catggtcact cctctatctg ccactgtaaa gaggaactgg attgctatat tctgcttaga2041 cacatgagga tgcagcccac cttcccagaa catgtgcgga attagatttc tacaaacaca2101 tttgtcttgc ttctgcccaa ctctctcact agaatgcaca ttccataggg gcaaacattt2161 ttgtctattt tgttcacagc tatattctca acacctagaa gagtgacaga aattcaataa2221 atagttgtta agtgagcaaa tgaatgcatg aataaggaaa agggtacatg gctattgagt2281 aggtaaccag cagtgttgat cacccccaac agcatacaac tccagtctga tgaacatcat2341 gctactaagt ggccactcat cacccaagtc tctgacctta ctttttctct cttttctccc2401 agggagtgag ccataactgg cggctgctct tgcgccaatg

1 ccaatgagcc tccccaattc ctcctgcctc ttagaagaca agatgtgtga gggcaacaag 61 accactatgg ccagccccca gctgatgccc ctggtggtgg tcctgagcac tatctgcttg 121 gtcacagtag ggctcaacct gctggtgctg tatgccgtac ggagtgagcg gaagctccac 181 actgtgggga acctgtacat cgtcagcctc tcggtggcgg acttgatcgt gggtgccgtc 241 gtcatgccta tgaacatcct ctacctgctc atgtccaagt ggtcactggg ccgtcctctc 301 tgcctctttt ggctttccat ggactatgtg gccagcacag cgtccatttt cagtgtcttc 361 atcctgtgca ttgatcgcta ccgctctgtc cagcagcccc tcaggtacct taagtatcgt 421 accaagaccc gagcctcggc caccattctg ggggcctggt ttctctcttt tctgtgggtt 481 attcccattc taggctggaa tcacttcatg cagcagacct cggtgcgccg agaggacaag 541 tgtgagacag acttctatga tgtcacctgg ttcaaggtca tgactgccat catcaacttc 601 tacctgccca ccttgctcat gctctggttc tatgccaaga tctacaaggc cgtacgacaa 661 cactgccagc accgggagct catcaatagg tccctccctt ccttctcaga aattaagctg 721 aggccagaga accccaaggg ggatgccaag aaaccaggga aggagtctcc ctgggaggtt 781 ctgaaaagga agccaaaaga tgctggtggt ggatctgtct tgaagtcacc atcccaaacc 841 cccaaggaga tgaaatcccc agttgtcttc agccaagagg atgatagaga agtagacaaa 901 ctctactgct ttccacttga tattgtgcac atgcaggctg cggcagaggg gagtagcagg 961 gactatgtag ccgtcaaccg gagccatggc cagctcaaga cagatgagca gggcctgaac1021 acacatgggg ccagcgagat atcagaggat cagatgttag gtgatagcca atccttctct1081 cgaacggact cagataccac cacagagaca gcaccaggca aaggcaaatt gaggagtggg1141 tctaacacag gcctggatta catcaagttt acttggaaga ggctccgctc gcattcaaga1201 cagtatgtat ctgggttgca catgaaccgc gaaaggaagg ccgccaaaca gttgggtttt1261 atcatggcag ccttcatcct ctgctggatc ccttatttca tcttcttcat ggtcattgcc1321 ttctgcaaga actgttgcaa tgaacatttg cacatgttca ccatctggct gggctacatc1381 aactccacac tgaaccccct catctacccc ttgtgcaatg agaacttcaa gaagacattc1441 aagagaattc tgcatattcg ctcctaaggg aggctctgag gggatgcaac aaaatgatcc1501 ttatgatgtc caacaaggaa atagaggacg aaggcctgtg tgttgccagg caggcacctg1561 ggctttctgg aatccaaacc acagtcttag gggcttggta gtttggaaag ttcttaggca1621 ccatagaaga acagcagatg gcggtgatca gcag

1 atgagcctcc ccaattcctc ctgcctctta gaagacaaga tgtgtgaggg caacaagacc 61 actatggcca gcccccagct gatgcccctg gtggtggtcc tgagcactat ctgcttggtc 121 acagtagggc tcaacctgct ggtgctgtat gccgtacgga gtgagcggaa gctccacact 181 721 ccagagaaccccaaggggga tgccaagaaa ccagggaagg agtctccctg ggaggttctg 781 181 gtggggaacc tgtacatcgt cagcctctcg gtggcggact tgatcgtggg tgccgtcgtc 241 atgcctatga acatcctcta cctgctcatg tccaagtggt cactgggccg tcctctctgc 301 ctcttttggc tttccatgga ctatgtggcc agcacagcgt ccattttcag tgtcttcatc 361 ctgtgcattg atcgctaccg ctctgtccag cagcccctca ggtaccttaa gtatcgtacc 421 aagacccgag cctcggccac cattctgggg gcctggtttc tctcttttct gtgggttatt 481 cccattctag gctggaatca cttcatgcag cagacctcgg tgcgccgaga ggacaagtgt 541 gagacagact tctatgatgt cacctggttc aaggtcatga ctgccatcat caacttctac 601 ctgcccacct tgctcatgct ctggttctat gccaagatct acaaggccgt acgacaacac 661 tgccagcacc gggagctcat caataggtcc ctcccttcct tctcagaaat taagctgagg 721 ccagagaacc ccaaggggga tgccaagaaa ccagggaagg agtctccctg ggaggttctg 781 aaaaggaagc caaaagatgc tggtggtgga tctgtcttga agtcaccatc ccaaaccccc 841 aaggagatga aatccccagt tgtcttcagc caagaggatg atagagaagt agacaaactc 901 tactgctttc cacttgatat tgtgcacatg caggctgcgg cagaggggag tagcagggac 961 tatgtagccg tcaaccggag ccatggccag ctcaagacag atgagcaggg cctgaacaca1021 catggggcca gcgagatatc agaggatcag atgttaggtg atagccaatc cttctctcga1081 acggactcag ataccaccac agagacagca ccaggcaaag gcaaattgag gagtgggtct1141 aacacaggcc tggattacat caagtttact tggaagaggc tccgctcgca ttcaagacag1201 tatgtatctg ggttgcacat gaaccgcgaa aggaaggccg ccaaacagtt gggttttatc1261 atggcagcct tcatcctctg ctggatccct tatttcatct tcttcatggt cattgccttc1321 tgcaagaact gttgcaatga acatttgcac atgttcacca tctggctggg ctacatcaac1381 tccacactga accccctcat ctaccccttg tgcaatgaga acttcaagaa gacattcaag1441 agaattctgc atattcgctc ctaagggagg ctctgagggg atgcaacaaa atgatcctta1501 tgatgtccaa caaggaaata gaggacgaag gcctgtgtgt tgccaggcag gcacctgggc1561 tttctggaat ccaaaccaca gtcttagggg cttggtagtt tggaaagttc ttaggcacca1621 tagaagaaca gcagatggcg gtgatcagcagagagattga actttgagga ggaagcagaa1681 tctttgcaag aaagtcagac ctgtttcttg taactgggtt caaaaagaaa aaaaaaaaaa1741 aa (2) SEQ ID NO: 2714 data: (i) sequence characteristics:

(A) length: 3579 base pairs

(B)Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2714: 1 cacgcgtccg cgagaaggag gactcgcaag cctcggcggc ccggaaccgg cctcggactg 61 tcgacggaac ctgaggccgc ttgccctccc gccccatgga gcggcccccg gggctgcggc 121 cgggcgcggg cgggccctgg gagatgcggg agcggctggg caccggcggc ttcgggaacg 181 721 ccatggtatt tgaatgtatt gctggatata ggcctttttt gcatcatctg cagccattta 781 181 tctgtctgta ccagcatcgg gaacttgatc tcaaaatagc aattaagtct tgtcgcctag 241 agctaagtac caaaaacaga gaacgatggt gccatgaaat ccagattatg aagaagttga 301 accatgccaa tgttgtaaag gcctgtgatg ttcctgaaga attgaatatt ttgattcatg 361 atgtgcctct tctagcaatg gaatactgtt ctggaggaga tctccgaaag ctgctcaaca 421 aaccagaaaa ttgttgtgga cttaaagaaa gccagatact ttctttacta agtgatatag 481 ggtctgggat tcgatatttg catgaaaaca aaattataca tcgagatcta aaacctgaaa 541 acatagttct tcaggatgtt ggtggaaaga taatacataa aataattgat ctgggatatg 601 ccaaagatgt tgatcaagga agtctgtgta catcttttgt gggaacactg cagtatctgg 661 ccccagagct ctttgagaat aagccttaca cagccactgt tgattattgg agctttggga 721 ccatggtatt tgaatgtatt gctggatata ggcctttttt gcatcatctg cagccattta 781 cctggcatga gaagattaag aagaaggatc caaagtgtat atttgcatgt gaagagatgt 841 caggagaagt tcggtttagt agccatttac ctcaaccaaa tagcctttgt agtttaatag 901 tagaacccat ggaaaactgg ctacagttga tgttgaattg ggaccctcag cagagaggag 961 gacctgttga ccttactttg aagcagccaa gatgttttgt attaatggat cacattttga1021 atttgaagat agtacacatc ctaaatatga cttctgcaaa gataatttct tttctgttac1081 cacctgatga aagtcttcat tcactacagt ctcgtattga gcgtgaaact ggaataaata1141 ctggttctca agaacttctt tcagagacag gaatttctct ggatcctcgg aaaccagcct1201 ctcaatgtgt tctagatgga gttagaggct gtgatagcta tatggtttat ttgtttgata1261 aaagtaaaac tgtatatgaa gggccatttg cttccagaag tttatctgat tgtgtaaatt1321 atattgtaca ggacagcaaa atacagcttc caattataca gctgcgtaaa gtgtgggctg1381 aagcagtgca ctatgtgtct ggactaaaag aagactatag caggctcttt cagggacaaa1441 gggcagcaat gttaagtctt cttagatata atgctaactt aacaaaaatg aagaacactt1501 tgatctcagc atcacaacaa ctgaaagcta aattggagtt ttttcacaaa agcattcagc1561 ttgacttgga gagatacagc gagcagatga cgtatgggat atcttcagaa aaaatgctaa1621 aagcatggaa agaaatggaa gaaaaggcca tccactatgc tgaggttggt gtcattggat1681 acctggagga tcagattatg tctttgcatg ctgaaatcat ggagctacag aagagcccct1741 atggaagacg tcagggagac ttgatggaat ctctggaaca gcgtgccatt gatctatata1801 agcagttaaa acacagacct tcagatcact cctacagtga cagcacagag atggtgaaaa1861 tcattgtgca cactgtgcag agtcaggacc gtgtgctcaa ggagctgttt ggtcatttga1921 gcaagttgtt gggctgtaag cagaagatta ttgatctact ccctaaggtg gaagtggccc1981 tcagtaatat caaagaagct gacaatactg tcatgttcat gcagggaaaa aggcagaaag2041 aaatatggca tctccttaaa attgcctgta cacagagttc tgcccggtcc cttgtaggat2101 ccagtctaga aggtgcagta acccctcaga catcagcatg gctgcccccg acttcagcag2161 aacatgatca ttctctgtca tgtgtggtaa ctcctcaaga tggggagact tcagcacaaa2221 tgatagaaga aaatttgaac tgccttggcc atttaagcac tattattcat gaggcaaatg2281 aggaacaggg caatagtatg atgaatcttg attggagttg gttaacagaa tgagttgtca2341 cttgttcact gtccccaaac ctatggaagt tgttgctata catgttggaa atgtgttttt2401 cccccatgaa accattcttc agacatcagt caatggaaga aatggctatg aacagaaact2461 acatttctac tatgatcaga agaacatgat tttacaagta taacagtttt gagtaattca2521 agcctctaaa cagacaggaa tttagaaaaa gtcaatgtac ttgtttgaat atttgtttta2581 ataccacagc tatttagaag catcatcacg acacatttgc cttcagtctt ggtaaaacat2641 tacttattta actgattaaa aataccttct atgtattagt gtcaactttt aacttttggg2701 cgtaagacaa agtgtagttt tgtatacaga gaagaaaacc tcaagtaata ggcattttaa2761 gtaaaagtct acctgtgttt ttttctaaaa aggctgctca caagttctat ttcttgaaga2821 ataaattcta cctccttgtg ttgcactgaa caggttctct tcctggcatc ataaggagtt2881 ggtgtaatca ttttaaattc cactgaaaat ttaacagtat ccccttctca tcgaagggat2941 tgtgtatctg tgcttctaat attagttggc tttcataaat catgttgttg tgtgtatatg3001 tatttaagat gtacatttaa taatatcaaa gagaagatgc ctgttaattt ataatgtatt3061 tgaaaattac atgttttttc atttgtaaaa atgagtcatt tgtttaaaca atctttcatg3121 tcttgtcata caaatttata aaggtctgca ctcctttatc tgtaattgta attccaaaat3181 ccaaaaagct ctgaaaacaa ggtttccata agcttggtga caaaattcat ttgcttgcaa3241 tctaatctga actgaccttg aatcttttta tcccatttag tgtgaatatt cctttatttt3301 gctgcttgat gatgagaggg agggctgctg ccacagactg tggtgagggc tggttaatgt3361 agtatggtat atgcacaaaa ctacttttct aaaatctaaa atttcataat tctgaaacaa3421 cttgccccaa gggtttcaga gaaaggactg tggacctcta tcatctgcta agtaatttag3481 aagatattat ttgtcttaaa aaatgtgaaa tgcttttata ttctaatagt ttttcacttt3541 gtgtattaaa tggtttttaa attaaaaaaa aaaaaaaaa (2) SEQ ID NO: 2715 data: (i) sequence characteristics:

(A) length: 3058 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2715: 1 gcccgcgtta agattcccgc attttaatgt tttcaggggg gtgtcatagc cccgggtttg 61 gccgccccag ccccgccttc cccgccccgg ggagcccgcc cccttccccg cgtccctgcc 121 gacagagtta gcacgacatc agtatgagct ggtcaccttc cctgacaacg cagacatgtg 181 721 tactggagca gcagaagtac acagtgaccg tcgactactg gagcttcggc accctggcct 781 181 gggcctggga aatgaaagag cgccttggga cagggggatt tggaaatgtc atccgatggc 241 acaatcagga aacaggtgag cagattgcca tcaagcagtg ccggcaggag ctcagccccc 301 ggaaccgaga gcggtggtgc ctggagatcc agatcatgag aaggctgacc caccccaatg 361 tggtggctgc ccgagatgtc cctgagggga tgcagaactt ggcgcccaat gacctgcccc 421 tgctggccat ggagtactgc caaggaggag atctccggaa gtacctgaac cagtttgaga 481 actgctgtgg tctgcgggaa ggtgccatcc tcaccttgct gagtgacatt gcctctgcgc 541 ttagatacct tcatgaaaac agaatcatcc atcgggatct aaagccagaa aacatcgtcc 601 tgcagcaagg agaacagagg ttaatacaca aaattattga cctaggatat gccaaggagc 661 tggatcaggg cagtctttgc acatcattcg tggggaccct gcagtacctg gccccagagc 721 tactggagca gcagaagtac acagtgaccg tcgactactg gagcttcggc accctggcct 781 ttgagtgcat cacgggcttc cggcccttcc tccccaactg gcagcccgtg cagtggcatt 841 caaaagtgcg gcagaagagt gaggtggaca ttgttgttag cgaagacttg aatggaacgg 901 tgaagttttc aagctcttta ccctacccca ataatcttaa cagtgtcctg gctgagcgac 961 tggagaagtg gctgcaactg atgctgatgt ggcacccccg acagaggggc acggatccca1021 cgtatgggcc caatggctgc ttcaaggccc tggatgacat cttaaactta aagctggttc1081 atatcttgaa catggtcacg ggcaccatcc acacctaccc tgtgacagag gatgagagtc1141 tgcagagctt gaaggccaga atccaacagg acacgggcat cccagaggag gaccaggagc1201 tgctgcagga agcgggcctg gcgttgatcc ccgataagcc tgccactcag tgtatttcag1261 acggcaagtt aaatgagggc cacacattgg acatggatct tgtttttctc tttgacaaca1321 gtaaaatcac ctatgagact cagatctccc cacggcccca acctgaaagt gtcagctgta1381 tccttcaaga gcccaagagg aatctcgcct tcttccagct gaggaaggtg tggggccagg1441 tctggcacag catccagacc ctgaaggaag attgcaaccg gctgcagcag ggacagcgag1501 ccgccatgat gaatctcctc cgaaacaaca gctgcctctc caaaatgaag aattccatgg1561 cttccatgtc tcagcagctc aaggccaagt tggatttctt caaaaccagc atccagattg1621 acctggagaa gtacagcgag caaaccgagt ttgggatcac atcagataaa ctgctgctgg1681 cctggaggga aatggagcag gctgtggagc tctgtgggcg ggagaacgaa gtgaaactcc1741 tggtagaacg gatgatggct ctgcagaccg acattgtgga cttacagagg agccccatgg1801 gccggaagca ggggggaacg ctggacgacc tagaggagca agcaagggag ctgtacagga1861 gactaaggga aaaacctcga gaccagcgaa ctgagggtga cagtcaggaa atggtacggc1921 tgctgcttca ggcaattcag agcttcgaga agaaagtgcg agtgatctat acgcagctca1981 gtaaaactgt ggtttgcaag cagaaggcgc tggaactgtt gcccaaggtg gaagaggtgg2041 tgagcttaat gaatgaggat gagaagactg ttgtccggct gcaggagaag cggcagaagg2101 agctctggaa tctcctgaag attgcttgta gcaaggtccg tggtcctgtc agtggaagcc2161 cggatagcat gaatgcctct cgacttagcc agcctgggca gctgatgtct cagccctcca2221 cggcctccaa cagcttacct gagccagcca agaagagtga agaactggtg gctgaagcac2281 ataacctctg caccctgcta gaaaatgcca tacaggacac tgtgagggaa caagaccaga2341 gtttcacggc cctagactgg agctggttac agacggaaga agaagagcac agctgcctgg2401 agcaggcctc atgatgtggg gggactcgac cccctgacat ggggcagccc atagcaggcc2461 ttgtgcagtg gggggactcg accccctgac atggggctgc ctggagcagg ccgcgtgacg2521 tggggctgcc tggccgcggc tctcacatgg tggttcctgc tgcactgatg gcccaggggt2581 ctctggtatc cagatggagc tctcgcttcc tcagcagctg tgactttcac ccaggaccca2641 ggacgcagcc ctccgtgggc actgccggcg ccttgtctgc acactggagg tcctccatta2701 cagaggccca gcgcacatcg ctggccccac aaacgttcag gggtacagcc atggcagctc2761 27 2761 cttcctctgc cgtgagaaaa gtgcttggag tacggtttgc cacacacgtg actggacagt2821 gtccaattca aatctttcag ggcagagtcc gagcagcgct tggtgacagc ctgtcctctc2881 ctgctctcca aaggccctgc tccctgtcct ctctcacttt acagcttgtg tttcttctgg2941 attcagcttc tcctaaacag acagtttaat tatagttgcg gcctggcccc atcctcactt3001 cctcttttta tttcactgct gctaaaattg tgtttttacc tacaaaaaaa aaaaaaaa (2) SEQ ID NO: 2716 data: (i) sequence characteristics:

(A) length: 1994 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2716: 1 ggcacgagca tggcccttgt gatccaggtg gggaaactaa ggcccagaga agtgaggacc 61 ccgcagacta tcaatcccag tctcttcccc tcactccctg tgaagctctc cagcatcatc 121 gaggtcccat cagcccttgc cctgttggat gaataggcac ctctggaaga gccaactgtg 181 721 gcagcagcag cacagcgtgc aggtggacca gctgcgcatg cagggccaga gcgtggaggc 781 181 tgagatggtg cagcccagtg gtggcccggc agcagatcag gacgtactgg gcgaagagtc 241 tcctctgggg aagccagcca tgctgcacct gccttcagaa cagggcgctc ctgagaccct 301 ccagcgctgc ctggaggaga atcaagagct ccgagatgcc atccggcaga gcaaccagat 361 tctgcgggag cgctgcgagg agcttctgca tttccaagcc agccagaggg aggagaagga 421 gttcctcatg tgcaagttcc aggaggccag gaaactggtg gagagactcg gcctggagaa 481 gctcgatctg aagaggcaga aggagcaggc tctgcgggag gtggagcacc tgaagagatg 541 ccagcagcag atggctgagg acaaggcctc tgtgaaagcc caggtgacgt ccttgctcgg 601 ggagctgcag gagagccaga gtcgcttgga ggctgccact aaggaatgcc aggctctgga 661 gggtcgggcc cgggcggcca gcgagcaggc gcggcagctg gagagtgagc gcgaggcgct 721 gcagcagcag cacagcgtgc aggtggacca gctgcgcatg cagggccaga gcgtggaggc 781 cgcgctccgc atggagcgcc aggccgcctc ggaggagaag aggaagctgg cccagttgca 841 ggtggcctat caccagctct tccaagaata cgacaaccac atcaagagca gcgtggtggg 901 cagtgagcgg aagcgaggaa tgcagctgga agatctcaaa cagcagctcc agcaggccga 961 ggaggccctg gtggccaaac aggaggtgat cgataagctg aaggaggagg ccgagcagca1021 caagattgtg atggagaccg ttccggtgct gaaggcccag gcggatatct acaaggcgga1081 cttccaggctgagaggcagg cccgggagaa gctggccgag aagaaggagc tcctgcagga1141 gcagctggag cagctgcaga gggagtacag caaactgaag gccagctgtc aggagtcggc1201 caggatcgag gacatgagga agcggcatgt cgaggtctcc caggccccct tgccccccgc1261 ccctgcctac ctctcctctc ccctggccct gcccagccag aggaggagcc cccccgagga1321 gccacctgac ttctgctgtc ccaagtgcca gtatcaggcc cctgatatgg acaccctgca1381 gatacatgtc atggagtgca ttgagtaggg ccggccagtg caaggccact gcctgcccga1441 ggacgtgccc gggaccgtgc agtctgcgct ttcctctccc gcctgcctag cccaggatga1501 agggctgggt ggccacaact gggatgccac ctggagcccc acccaggagc tggccgcggc1561 accttacgct tcagctgttg atccgctggt cccctctttt ggggtagatg cggccccgat1621 caggcctgac tcgctgctct ttttgttccc ttctgtctgc tcgaaccact tgcctcgggc1681 taatccctcc ctcttcctcc acccggcact ggggaagtca agaatggggc ctggggctct1741 cagggagaac tgcttcccct ggcagagctg ggtggcagct cttcctccca ccggacaccg1801 acccgcccgc cgctgtgccc tgggagtgct gccctcttac catgcacacg ggtgctctcc1861 ttttgggctg catgctattc cattttgcag ccagaccgat gtgtatttaa ccagtcacta1921 ttgatggaca tttgggttgt ttcccatctt tttgttacca taaataatgg catagtaaaa1981 aaaaaaaaaa aaaa (2) SEQ ID NO: 2717 data: (i) sequence characteristics:

(A) length: 8631 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2717: 1 cacgcgtccg cgagaaggag gactcgcaag cctcggcggc ccggaaccgg cctcggactg 61 tcgacggaac ctgaggccgc ttgccctccc gccccatgga gcggcccccg gggctgcggc 121 cgggcgcggg cgggccctgg gagatgcggg agcggctggg caccggcggc ttcgggaacg 181 721 ccatggtatt tgaatgtatt gctggatata ggcctttttt gcatcatctg cagccattta 781 181 tctgtctgta ccagcatcgg gaacttgatc tcaaaatagc aattaagtct tgtcgcctag 241 agctaagtac caaaaacaga gaacgatggt gccatgaaat ccagattatg aagaagttga 301 accatgccaa tgttgtaaag gcctgtgatg ttcctgaaga attgaatatt ttgattcatg 361 atgtgcctct tctagcaatg gaatactgtt ctggaggaga tctccgaaag ctgctcaaca 421 aaccagaaaa ttgttgtgga cttaaagaaa gccagatact ttctttacta agtgatatag 481 ggtctgggat tcgatatttg catgaaaaca aaattataca tcgagatcta aaacctgaaa 541 acatagttct tcaggatgtt ggtggaaaga taatacataa aataattgat ctgggatatg 601 ccaaagatgt tgatcaagga agtctgtgta catcttttgt gggaacactg cagtatctgg 661 ccccagagct ctttgagaat aagccttaca cagccactgt tgattattgg agctttggga 721 ccatggtatt tgaatgtatt gctggatata ggcctttttt gcatcatctg cagccattta 781 cctggcatga gaagattaag aagaaggatc caaagtgtat atttgcatgt gaagagatgt 841 caggagaagt tcggtttagt agccatttac ctcaaccaaa tagcctttgt agtttaatag 901 tagaacccat ggaaaactgg ctacagttga tgttgaattg ggaccctcag cagagaggag 961 gacctgttga ccttactttg aagcagccaa gatgttttgt attaatggat cacattttga1021 atttgaagat agtacacatc ctaaatatga cttctgcaaa gataatttct tttctgttac1081 cacctgatga aagtcttcat tcactacagt ctcgtattga gcgtgaaact ggaataaata1141 ctggttctca agaacttctt tcagagacag gaatttctct ggatcctcgg aaaccagcct1201 ctcaatgtgt tctagatgga gttagaggct gtgatagcta tatggtttat ttgtttgata1261 aaagtaaaac tgtatatgaa gggccatttg cttccagaag tttatctgat tgtgtaaatt1321 atattgtaca ggacagcaaa atacagcttc caattataca gctgcgtaaa gtgtgggctg1381 aagcagtgca ctatgtgtct ggactaaaag aagactatag caggctcttt cagggacaaa1441 gggcagcaat gttaagtctt cttagatata atgctaactt aacaaaaatg aagaacactt1501 tgatctcagc atcacaacaa ctgaaagcta aattggagtt ttttcacaaa agcattcagc1561 ttgacttgga gagatacagc gagcagatga cgtatgggat atcttcagaa aaaatgctaa1621 aagcatggaa agaaatggaa gaaaaggcca tccactatgc tgaggttggt gtcattggat1681 acctggagga tcagattatg tctttgcatg ctgaaatcat ggagctacag aagagcccct1741 atggaagacg tcagggagac ttgatggaat ctctggaaca gcgtgccatt gatctatata1801 agcagttaaa acacagacct tcagatcact cctacagtga cagcacagag atggtgaaaa1861 tcattgtgca cactgtgcag agtcaggacc gtgtgctcaa ggagctgttt ggtcatttga1921 gcaagttgtt gggctgtaag cagaagatta ttgatctact ccctaaggtg gaagtggccc1981 tcagtaatat caaagaagct gacaatactg tcatgttcat gcagggaaaa aggcagaaag2041 aaatatggca tctccttaaa attgcctgta cacagagttc tgcccggtcc cttgtaggat2101 ccagtctaga aggtgcagta acccctcaga catcagcatg gctgcccccg acttcagcag2161 aacatgatca ttctctgtca tgtgtggtaa ctcctcaaga tggggagact tcagcacaaa2221 tgatagaaga aaatttgaac tgccttggcc atttaagcac tattattcat gaggcaaatg2281 aggaacaggg caatagtatg atgaatcttg attggagttg gttaacagaa tgagttgtca2341 cttgttcact gtccccaaac ctatggaagt tgttgctata catgttggaa atgtgttttt2401 cccccatgaa accattcttc agacatcagt caatggaaga aatggctatg aacagaaact2461 acatttctac tatgatcaga agaacatgat tttacaagta taacagtttt gagtaattca2521 agcctctaaa cagacaggaa tttagaaaaa gtcaatgtac ttgtttgaat atttgtttta2581 ataccacagc tatttagaag catcatcacg acacatttgc cttcagtctt ggtaaaacat2641 tacttattta actgattaaa aataccttct atgtattagt gtcaactttt aacttttggg2701 cgtaagacaa agtgtagttt tgtatacaga gaagaaaacc tcaagtaata ggcattttaa2761 gtaaaagtct acctgtgttt ttttctaaaa aggctgctca caagttctat ttcttgaaga2821 ataaattcta cctccttgtg ttgcactgaa caggttctct tcctggcatc ataaggagtt2881 ggtgtaatca ttttaaattc cactgaaaat ttaacagtat ccccttctca tcgaagggat2941 tgtgtatctg tgcttctaat attagttggc tttcataaat catgttgttg tgtgtatatg3001 tatttaagat gtacatttaa taatatcaaa gagaagatgc ctgttaattt ataatgtatt3061 tgaaaattac atgttttttc atttgtaaaa atgagtcatt tgtttaaaca atctttcatg3121 tcttgtcata caaatttata aaggtctgca ctcctttatc tgtaattgta attccaaaat3181 ccaaaaagct ctgaaaacaa ggtttccata agcttggtga caaaattcat ttgcttgcaa3241 tctaatctga actgaccttg aatcttttta tcccatttag tgtgaatatt cctttatttt3301 gctgcttgat gatgagaggg agggctgctg ccacagactg tggtgagggc tggttaatgt3361 agtatggtat atgcacaaaa ctacttttct aaaatctaaa atttcataat tctgaaacaa3421 cttgccccaa gggtttcaga gaaaggactg tggacctcta tcatctgcta agtaatttag3481 aagatattat ttgtcttaaa aaatgtgaaa tgcttttata ttctaatagt ttttcacttt3541 gtgtattaaa tggtttttaa attaaaaaaa aaaaaaaaa

1 gcccgcgtta agattcccgc attttaatgt tttcaggggg gtgtcatagc cccgggtttg 61 gccgccccag ccccgccttc cccgccccgg ggagcccgcc cccttccccg cgtccctgcc 121 gacagagtta gcacgacatc agtatgagct ggtcaccttc cctgacaacg cagacatgtg 181 721 tactggagca gcagaagtac acagtgaccg tcgactactg gagcttcggc accctggcct 781 181 gggcctggga aatgaaagag cgccttggga cagggggatt tggaaatgtc atccgatggc 241 acaatcagga aacaggtgag cagattgccatcaagcagtg ccggcaggag ctcagccccc 301 ggaaccgaga gcggtggtgc ctggagatcc agatcatgag aaggctgacc caccccaatg 361 tggtggctgc ccgagatgtc cctgagggga tgcagaactt ggcgcccaat gacctgcccc 421 tgctggccat ggagtactgc caaggaggag atctccggaa gtacctgaac cagtttgaga 481 actgctgtgg tctgcgggaa ggtgccatcc tcaccttgct gagtgacatt gcctctgcgc 541 ttagatacct tcatgaaaac agaatcatcc atcgggatct aaagccagaa aacatcgtcc 601 tgcagcaagg agaacagagg ttaatacaca aaattattga cctaggatat gccaaggagc 661 tggatcaggg cagtctttgc acatcattcg tggggaccct gcagtacctg gccccagagc 721 tactggagca gcagaagtac acagtgaccg tcgactactg gagcttcggc accctggcct 781 ttgagtgcat cacgggcttc cggcccttcc tccccaactg gcagcccgtg cagtggcatt 841 caaaagtgcg gcagaagagt gaggtggaca ttgttgttag cgaagacttg aatggaacgg 901 tgaagttttc aagctcttta ccctacccca ataatcttaa cagtgtcctg gctgagcgac 961 tggagaagtg gctgcaactg atgctgatgt ggcacccccg acagaggggc acggatccca1021 cgtatgggcc caatggctgc ttcaaggccc tggatgacat cttaaactta aagctggttc1081 atatcttgaa catggtcacg ggcaccatcc acacctaccc tgtgacagag gatgagagtc1141 tgcagagctt gaaggccaga atccaacagg acacgggcat cccagaggag gaccaggagc1201 tgctgcagga agcgggcctg gcgttgatcc ccgataagcc tgccactcag tgtatttcag1261 acggcaagtt aaatgagggc cacacattgg acatggatct tgtttttctc tttgacaaca1321 gtaaaatcac ctatgagact cagatctccc cacggcccca acctgaaagt gtcagctgta1381 tccttcaaga gcccaagagg aatctcgcct tcttccagct gaggaaggtg tggggccagg1441 tctggcacag catccagacc ctgaaggaag attgcaaccg gctgcagcag ggacagcgag1501 ccgccatgat gaatctcctc cgaaacaaca gctgcctctc caaaatgaag aattccatgg1561 cttccatgtc tcagcagctc aaggccaagt tggatttctt caaaaccagc atccagattg1621 acctggagaa gtacagcgag caaaccgagt ttgggatcac atcagataaa ctgctgctgg1681 cctggaggga aatggagcag gctgtggagc tctgtgggcg ggagaacgaa gtgaaactcc1741 tggtagaacg gatgatggct ctgcagaccg acattgtgga cttacagagg agccccatgg1801 gccggaagca ggggggaacg ctggacgacc tagaggagca agcaagggag ctgtacagga1861 gactaaggga aaaacctcga gaccagcgaa ctgagggtga cagtcaggaa atggtacggc1921 tgctgcttca ggcaattcag agcttcgaga agaaagtgcg agtgatctat acgcagctca1981 gtaaaactgt ggtttgcaag cagaaggcgc tggaactgtt gcccaaggtg gaagaggtgg2041 tgagcttaat gaatgaggat gagaagactg ttgtccggct gcaggagaag cggcagaagg2101 agctctggaa tctcctgaag attgcttgta gcaaggtccg tggtcctgtc agtggaagcc2161 cggatagcat gaatgcctct cgacttagcc agcctgggca gctgatgtct cagccctcca2221 cggcctccaa cagcttacct gagccagcca agaagagtga agaactggtg gctgaagcac2281 ataacctctg caccctgcta gaaaatgcca tacaggacac tgtgagggaa caagaccaga2341 gtttcacggc cctagactgg agctggttac agacggaaga agaagagcac agctgcctgg2401 agcaggcctc atgatgtggg gggactcgac cccctgacat ggggcagccc atagcaggcc2461 ttgtgcagtg gggggactcg accccctgac atggggctgc ctggagcagg ccgcgtgacg2521 tggggctgcc tggccgcggc tctcacatgg tggttcctgc tgcactgatg gcccaggggt2581 ctctggtatc cagatggagc tctcgcttcc tcagcagctg tgactttcac ccaggaccca2641 ggacgcagcc ctccgtgggc actgccggcg ccttgtctgc acactggagg tcctccatta2701 cagaggccca gcgcacatcg ctggccccac aaacgttcag gggtacagcc atggcagctc2761 cttcctctgc cgtgagaaaa gtgcttggag tacggtttgc cacacacgtg actggacagt2821 gtccaattca aatctttcag ggcagagtcc gagcagcgct tggtgacagc ctgtcctctc2881 ctgctctcca aaggccctgc tccctgtcct ctctcacttt acagcttgtg tttcttctgg2941 attcagcttc tcctaaacag acagtttaat tatagttgcg gcctggcccc atcctcactt3001 cctcttttta tttcactgct gctaaaattg tgtttttacc tacaaaaaaa aaaaaaaa1 ggcacgagca tggcccttgt gatccaggtg gggaaactaa ggcccagaga agtgaggacc 61 ccgcagacta tcaatcccag tctcttcccc tcactccctg tgaagctctc cagcatcatc 121 gaggtcccat cagcccttgc cctgttggat gaataggcac ctctggaaga gccaactgtg 181 tgagatggtg cagcccagtg gtggcccggc agcagatcag gacgtactgg gcgaagagtc 241 tcctctgggg aagccagcca tgctgcacct gccttcagaa cagggcgctc ctgagaccct 301 ccagcgctgc ctggaggaga atcaagagct ccgagatgcc atccggcaga gcaaccagat 361 tctgcgggag cgctgcgagg agcttctgca tttccaagcc agccagaggg aggagaagga 421 gttcctcatg tgcaagttcc aggaggccag gaaactggtg gagagactcg gcctggagaa 481 gctcgatctg aagaggcaga aggagcaggc tctgcgggag gtggagcacc tgaagagatg 541 ccagcagcag atggctgagg acaaggcctc tgtgaaagcc caggtgacgt ccttgctcgg 601 ggagctgcag gagagccaga gtcgcttgga ggctgccact aaggaatgcc aggctctgga 661 gggtcgggcc cgggcggcca gcgagcaggc gcggcagctg gagagtgagc gcgaggcgct 721 gcagcagcag cacagcgtgc aggtggacca gctgcgcatg cagggccaga gcgtggaggc 781 cgcgctccgc atggagcgcc aggccgcctc ggaggagaag aggaagctgg cccagttgca 841 ggtggcctat caccagctct tccaagaata cgacaaccac atcaagagca gcgtggtggg 901 cagtgagcgg aagcgaggaa tgcagctgga agatctcaaa cagcagctcc agcaggccga 961 ggaggccctg gtggccaaac aggaggtgat cgataagctg aaggaggagg ccgagcagca1021 caagattgtg atggagaccg ttccggtgct gaaggcccag gcggatatct acaaggcgga1081 cttccaggct gagaggcagg cccgggagaa gctggccgag aagaaggagc tcctgcagga1141 gcagctggag cagctgcaga gggagtacag caaactgaag gccagctgtc aggagtcggc1201 caggatcgag gacatgagga agcggcatgt cgaggtctcc caggccccct tgccccccgc1261 ccctgcctac ctctcctctc ccctggccct gcccagccag aggaggagcc cccccgagga1321 gccacctgac ttctgctgtc ccaagtgcca gtatcaggcc cctgatatgg acaccctgca1381 gatacatgtc atggagtgca ttgagtaggg ccggccagtg caaggccact gcctgcccga1441 ggacgtgccc gggaccgtgc agtctgcgct ttcctctccc gcctgcctag cccaggatga1501 agggctgggt ggccacaact gggatgccac ctggagcccc acccaggagc tggccgcggc1561 accttacgct tcagctgttg atccgctggt cccctctttt ggggtagatg cggccccgat1621 caggcctgac tcgctgctct ttttgttccc ttctgtctgc tcgaaccact tgcctcgggc1681 taatccctcc ctcttcctcc acccggcact ggggaagtca agaatggggc ctggggctct1741 cagggagaac tgcttcccct ggcagagctg ggtggcagct cttcctccca ccggacaccg1801 acccgcccgc cgctgtgccc tgggagtgct gccctcttac catgcacacg ggtgctctcc1861 ttttgggctg catgctattc cattttgcag ccagaccgat gtgtatttaa ccagtcacta1921 192 1921 ttgatggaca tttgggttgt ttcccatctt tttgttacca taaataatgg catagtaaaa1981 aaaaaaaaaa aaaa (2) SEQ ID NO: 2718 data: (i) sequence characteristics:

(A) length: 1589 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2718 sequence description: 1 gaattcctct ggtcctcatc caggtgcgcg ggaagcaggt gcccaggaga gaggggataa 61 tgaagattcc atgctgatga tcccaaagat tgaacctgca gaccaagcgc aaagtagaaa 121 ctgaaagtac actgctggcg gatcctacgg aagttatgga aaaggcaaag cgcagagcca 181 721 atactgttga actgcactgg ccaggttaaa ggaagaaaac cagctgccct gggtgaagcc 781 181 cgccgtagtg tgtgccgccc cccttgggat ggatgaaact gcagtcgcgg cgtgggtaag 241 aggaaccagc tgcagagatc accctgccca acacagactc ggcaactccg cggaagacca 301 gggtcctggg agtgactatg ggcggtgaga gcttgctcct gctccagttg cggtcatcat 361 gactacgccc gcctcccgca gaccatgttc catgtttctt ttaggtatat ctttggactt 421 cctcccctga tccttgttct gttgccagta gcatcatctg attgtgatat tgaaggtaaa 481 gatggcaaac aatatgagag tgttctaatg gtcagcatcg atcaattatt ggacagcatg 541 aaagaaattg gtagcaattg cctgaataat gaatttaact tttttaaaag acatatctgt 601 gatgctaata aggaaggtat gtttttattc cgtgctgctc gcaagttgag gcaatttctt 661 aaaatgaata gcactggtga ttttgatctc cacttattaa aagtttcaga aggcacaaca 721 atactgttga actgcactgg ccaggttaaa ggaagaaaac cagctgccct gggtgaagcc 781 caaccaacaa agagtttgga agaaaataaa tctttaaagg aacagaaaaa actgaatgac 841 ttgtgtttcc taaagagact attacaagag ataaaaactt gttggaataa aattttgatg 901 ggcactaaag aacactgaaa aatatggagt ggcaatatag aaacacgaac tttagctgca 961 tcctccaaga atctatctgc ttatgcagtt tttcagagtg gaatgcttcc tagaagttac1021 tgaatgcacc atggtcaaaa cggattaggg catttgagaa atgcatattg tattactaga1081 agatgaatac aaacaatgga aactgaatgc tccagtcaac aaactatttc ttatatatgt1141 gaacatttat caatcagtat aattctgtac tgatttttgt aagacaatcc atgtaaggta1201 tcagttgcaa taatacttct caaacctgtt taaatatttc aagacattaa atctatgaag1261 tatataatgg tttcaaagat tcaaaattga cattgcttta ctgtcaaaat aattttatgg1321 ctcactatga atctattata ctgtattaag agtgaaaatt gtcttcttct gtgctggaga1381 tgttttagag ttaacaatga tatatggata atgccggtga gaataagaga gtcataaacc1441 ttaagtaagc aacagcataa caaggtccaa gatacctaaa agagatttca agagatttaa1501 ttaatcatga atgtgtaaca cagtgccttc aataaatggt atagcaaatg ttttgacatg1561 aaaaaaggac aatttcaaaa aaataaaat (2) SEQ ID NO: 2719 data: (i) sequence characteristics:

(A) length: 141589 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2719 sequence description: 1 gatcaaaatt tttacctatt atgcatttga tatataaata agtatataaa tgcacacaca 61 gacacagcaa tgatggtgaa cagtcttcat acaattatat ggatgaatct cataaaatgc 121 tgagttaaag aaatcagacc aaagaacata tactgaaaga ttctctctat atacaaagtt 181 721 aggagaaatt tggtgcctat ttcctaccag gcaccaataa gtgggaccaa taggtgggat 781 181 caaaaatagg tggaccaatt catggtggtg ttagaaatca gaagagaggc tacctttgtg 241 gggaggggac agtttaatgc ccagaagcgg taaataagga atcctctggg gagtggtaat 301 gatctggatg ctggctacag gatgtgttgg ttgtaaaaat gcattttttt atatctagct 361 ttttccatgt gtatattata cttcaaagaa gttcagttaa taatttctca tgtcactgta 421 gagtagctca gttagcccca gcaagcctct ggcttaatct tgttttacct taagccatca 481 gtcatttaca agtaggaaaa ttcacaggga aagttagagt ataaaatcca gaatgaaggt 541 ttactgggta agagtctctc cattttccaa agcccgttta tttcttgatt ccagttctta 601 agaagtctca gcattgtgtc tttttcatgt atcttacaag aagacagcat gtgcttctaa 661 cacctgatac attgtatcta ccagcacttg gtaaacagaa aagaaccaca tttttcttgt 721 aggagaaatt tggtgcctat ttcctaccag gcaccaataa gtgggaccaa taggtgggat 781 taaagataca gtagaaagta tttaaaactt gccagggggc aatagtctga aaataagtaa 841 attggtgcta tagaatggaa gttacaggct tctttctttt ttcccacaag atctgctcct 901 tgagccccta gagacttttc tgtctgttac tgtttcttca ttcctcatct gcagagccag 961 ccctgagaag tgcagaccaa agccagggaa ggctctgcaa agatgtacaa atggaagtca1021 ccttaataac ctctgactgc tgcgcataat acatttcact caaaagaggg gttaaacaat1081 ggaacagaat acagaggcca gaaataatgc tgaacactga caaccatctg atctttgaca1141 aaatccacaa aaacaagcaa tggagaaagg actccctatt ccataatggt gctgggataa1201 ctgtctagct atatacagaa gattgaacct gggccccttc cttacatcat atacaaaaaa1261 taactcaaga tggagtaaag acttaaatct aaaaccaaac actataaaaa ccctggaaga1321 tagcctggga aataccattc tggacatagg acctggcaaa gacttcatga caagacacca1381 aaagcaatag caacaaaaac caaattgact aatgaaacta atgaaactct ttagttgtac1441 aacagatagt ttatctgtac aacaaaataa actatcaaca gagtaaacaa cctacagaat1501 ggaaaaattt tttgcaaact atgcatctga caaaggtcta atatccagaa tctataagga1561 atttaaacaa atttacaagc aaaaaaatga cctcattaaa aagtgggcaa aggacatgaa1621 cagatgcttt tcaaaataag acattcacac atccaacaac catatgaaaa gatgtttaac1681 atcactaatc attagaggaa tacaaatcaa aagcataata agataccatc taataccagt1741 aggaatgact actattaaaa agtcagacaa taacagatgc tggtgaaggt tgtggagaaa1801 agggaatgtt tatgcactgc tagtgggaat gtaaactagt tcagccattg tggaagagag1861 tgtggtgatt cctcaaagaa tgtaaaaccg aactgccttt caatccagca atcccattat1921 tggatataca ccaaaaggaa tagaaattgt tttaccgtaa aggcgcatgc atgcatatgt1981 tcattacagc actatttacg atagcaaaga catggaatcg tctaaatgcc catcagtggt2041 agactagcta aaaaaaaaaa aatgtggtac atatacatca cagaatagta tgcagccata2101 aaaatgaaca agatcatcat gtcctttgca gcaacatgga tgtagttgga ggccattatc2161 ctaagcaaat taatgcagga acagaaagcc aaataccaca tgttctcatt tataagtgac2221 agctaaatat tgagtacaca tggacacaaa gaagggaaca atagacatgg gacctacttg2281 agaatagagg gtgggaggag ggtgaggatc aaaaagtacc cataggacac tgtgcttatt2341 acctgggtga tgaaataatt tgcacaccaa acccctgtga cacacaattt acctatatag2401 aaaacctgtg catgtacccc tgaacctaaa agttaatggt gggggggtgg ggttaagcta2461 ctttgtggtataaatctgag cattcatatt aaaataaaat atttacctca ttagagtaat2521 taacatttat taagcaaaga gccaagtacc ttacacacat gatgtttaat ctcacaatga2581 tctttaatct cataacaacc gtccattgta tgtacatatg tggaaattga gccttggaga2641 gattaaatgc atggggcatg ccatttgact agaaactgga agcatcagga tttaaactca2701 gttctgaatg gttttgtagg ctttgttttt tccacattat agcatggcct gccatgaaga2761 acaggtcctt tctggtgttt gtcttgtttg gtttaagtga agcaaatatt tatttaaata2821 ttcaagatat gctgttaaat ttttactcaa aaatttgagt acagtatgga tcttctgaag2881 ccaaataact cttattcaat gcttagttga gaaattttat ggagtagttc tcaattttta2941 tgtagttcca ctgcaaaggt aagtcttatg gaaagattca ctgtaatttt ttttcctcat3001 ttggacatca gctttttctt ttcctcagac ccgctgaaag ataattttta aaataaaaac3061 cttgttttta tatcaagtgg ggacattttt tccaaatgaa aaccgtgtat tcattttata3121 tgataaaatc aatgttatta tttttaaaat tttgatttaa aaatcattaa aaataaattt3181 tcagatatta cctgaaattc taccatccag agataatagt gcttaaagat ttgatatata3241 gacacacaca catatataca tatatatcat cctaaacttc tttgtataaa tgtatataaa3301 gtttttaata aaaactagga gattaatgcc ctttgaatga aaataaatac aatgtgtatg3361 ctttaacatc ttgcctttac tttataacat ttatcacagc agtcatgaga taatgattta3421 catggtcatt gttagtaagc taatagctaa gtgcatgaac tctggagcta gcctccctgg3481 attttaatcc cagatctgtc actgaccagc tgagcaatac taggtaaatt gctcttgttc3541 593601 gagcattaaa tgagcatacg tatgtaggcc acttaacaac aatgccttca catactgaac3661 acaaatatac gagctgttgt cttattgggc tcatgttttt cctaccacta agccgcatgc3721 atgcaaggac catgttggtt ttgttccaca ttgcatcccc aacctggtat acagtgtgca3781 ttcaatagtt gttgactatt attactagtg gcatttaaca aatatctgtt aaatgagtga3841 agaaataccc atttactgca agtgtgtcta atattgatgg cataatgggg gaaactcaaa3901 ctctggagtc aaacaggttt taaaacctta ttccctcatc ctcagttatt gacgtttttt 398661 ttttggcagg tgtgtgtgtg ggacaactta ttgaactttt ctgaatttcc agcttcgcat4021 atataaaata gagatagtga ttcattcttg caatgtatgg atttgagaca attgtgtaag tttatcaata aatagtagct atttttgtat aagtattaca tataatatcc aggccactgc4141 tttgcataac ccaaaagggg caccattcat gcagaataca acataaatgg tgtccctgga4201 gcagtgcagt ataggaaccc tgaggggacc tacagtatac tttatagttc atagattaca4261 aattatccct ttatcagagtctctcaaggt tggatgtatt tgaggtccat aagagcaatt4321 taggattaac agtagctgca gaaaccatct gcagtgatat tctcatttta aatccgcggg4381 aaagaagaca gctataaact tgggacctgg gtttaagcat tttaaatgcc aagttcacca4441 ttttctaaaa cacaacaaat acccagtgag agagggagaa gggaagtaaa tgcctctgaa4501 taagcaagtt aatgtcagta gttgtactgt atgcatattg atgaacaata gaggaaccaa4561 tgtccaatca gatgagcagg atatttggca ataacaagtt gcctttgagg aaaaatgatt4621 ttcttggcaa gttctttatc agcattacaa agctaaaagc tacgcttatc atcacttata4681 ctagcatacc ctgttgtgca aatgctgtct gtgtttgcat ctgctattgt tgatgcctgg4741 tgcatgaatc aggactccag cccacaagtt ttcccagaac tttcttatgg ccatcatctt4801 taagtgtctg gtgaacagtc atagtttggt acacaaaagg gtcaacctgg gggatggcta4861 gggtttgact cagtcgttac atttcaatag agcaggaagg ggaaatggtg gcctgtaacc4921 tcagggaatt ttgccagttg gtccacccca ctctctctct cctgctctga ggaagtggca4981 cagcctagaa cagcaccaca ggtgagagaa atgcaaaccc taaccagaga agcagactct5041 ttgccagtag taatagttca ggaccaccac cagcttttat taaaattttt aataacactc5101 aagtattggc agaaagaaat aatcttgggt taactataac tagaatattg actcttcctc5161 51 5161 tgtggaagaa tcagccaatc acatttgttt acatcagttc ccctgaagaa gaaaaataca5221 ctgatgttgc agcaagacaa atttaagcta gatgtaaata acttccttta gcctgtaatg5281 829 5281 ctaggctaat tacatattgg aactattttt tcagggaaga attgtgtagg gtttcaggga5341 agaattctga agaaaatata gagctgaaat gatcttgcag ctcactgaaa ctgcagggtt5401 tagatccaca ctgatactcg ttctattatc actgtaatga aggctgatgg aataagtaaa5461 aatgttttgt attagtatgt ttttacactt atttgcaagg cataaatagg ttaggttttg5521 atcttaattt aattctaaca tgtattgtgc acaagctgtg agcagttttc aggagttagg5581 tatctggcca tgactgattt ttcaggagtt aatcatctgg tagaagggtc atacacaata5641 ggaagatgtg tgtgacaggt tgtgatcatt actataatca cacagagagc tgtagaattt5701 taggctggca gggtggctca cgcctgtaat cccagcactt tgggaggcca aggcaggcgg5761 atcaagaggt caggagatgg agaccatcct ggctaacacg gtgaaacccc gtctgtacta5821 aaaatacaaa aaaaaaaaaa agccaggcgt ggtggtgggc gcctgtagtc ccagctactt5881 gggaggctga ggcaggagaa tggcgtgaac ccgggaggtg gagcttgcag tgagccgaga5941 tcgcatcact gcaatccaac ctgggcgaca gagggagact cagtctcaaa aaaaaaaaaa6001 aaaaaaagtc atgttagatc cagaggggta gcaactgggg ctgggctgtc agtcaactca6061 gtcaactcag tcaactctgc tcccccacag gagatgccag tgatgcattt tcatggccaa6121 cattgtcagt cagcatcatt gaattactcc tgattataga gacacagctg caaacgattc6181 5731 6241 cccctcttct ggcttgctga aagttttttc tttccatttt aaaaatcgtg aattcctttt6301 tgcaatattg aggtggttat atggtttctc ttctctaatc tgttaatatg gtgatttaat6361 ggttagaaat tttctaatgt aaattccact catattgcag aaataaacct aaactgagca6421 tgaggctata ttttttattt gcttctatat ttggttgcta tacagtatta tgtttaagat ttgttcacat atatttgtga atgggattgg actatttttc cttcttgccg atttttatct6541 666601 66 taattttttg gggaatttgt tttggctatt ttgagtatta cccaatatat tttaattaag6661 826721 tccagatttt gtctatttat accacttttc ttttttcctc gatgagtgtc atagatgttc6781 atctattttt ttatcttctt tgatcttctc ttattccttg tttctattaa cttctgaagt6841 ttattatttt cttttttcca cttccttatg gtttattctt tcaatttttc tctaacttct6901 taagttgggt gtttaatttt tagcttgctt tgctttttta ggataagcat taaaactaca6961 aattttcctt gttattcttt tgctgcaccc caaattgttg atatttctat tgtctaattt7021 ctattcaatt agaatacttt aaagtttctt tttggttttt aaaaactaac tttttaaatt7081 gacaaataaa aattgtgtat atttattgtg cacagcatat ggctttgaaa tatatgtaca7141 ttgtggaatg gctaaattta gcttattaat gtatgcatta tctcacatac ttatcatttt7201 ttgtggtgag agctatgtga cttttgaact tatgagttat ttaaatattt ttaaattatt7261 aagcatattg ggattttaag taatttacct ttttattatt aacttataac aagtagaaca7321 gttaacctgt atgattctac atcattgaaa tttattgaca tttgcttcat agtctattat7381 atggtctact tttgttcatg ttacatctgt agtagaattg gctaatagtt gagtaaagta7441 cacatatgtc tatgaaatca agtgtaatcc agagaaaaag agaaatttac tgaatatatt7501 gttctaggtg ctattatatg ttgtcatgtt taatcctcac cacaattgta tgaggcagcc7561 ataattaatt ccactttaca catgaggagc ctgagggtta aaaaaaaagc tagctctact7621 atttgtaaag aatgaagcaa agatacaaat gaaggcccac atatcctata actagatatt7681 taagcatttt aattcaagct ttaaaactgc taaataaaat gtgctccaat ttctatattg7741 acagacatac cttcctaatg agctggggtt cgaatttaga aatctttgat gcttcagagt7801 ccacactgaa atgtggaggc acatagtgag ttggtcccca gccttcagtc cacccacctt7861 ctctttacta aatcaccttt cacatacatg tatgaacacc ccagcctcca agtccaaacc7921 ctaaacaaaa tgggacaccc ttgtgcatac acagagacac agcccatcct caggaaaacc7981 tggaaaagtc catacaagtt ctggaagcaa gcttgggacg gtttcagtag tgtggtctat8041 aagggaggcc tcagaagaca ggttttctta attctgtgaa cttctcccac agtagaaagg8101 gtgctggagg agggtcagag tgaggacttc taaagcatgg gtcctgagta ggggccactc 8161 ttgcccaagt ctaagaaggg tactagaata gcacactact actagatact agaacccaga 8221 8281 agctgtcatt tatttagtgc ttattatttg ccagtcactg ttctaaattc tttacatgta 8341 ttatacaact gccatataac tgccatatga gggatgtacc ctcattgtca ccattttacc 8401 gatgagaaaa ctggcataaa acgtttaagt aacttgtcca agttacagag cttagtgaag 8461 ccacaatgtt gctcaatttg ctctcaaact tcaaagggat gggaaggaca cctaagtcat 8521 agagtcttta agaatcagag ctagaaggaa tcttagatgt tatctagtca gcctcctccc 8581 attacagtcc aagagaagat ggccctgagt tacttgtagc tatttttgca tgtgaattgc 8641 aagtgaatat acattctact gaagataaaa gatatttaaa gatatcgctg gatataggaa 8701 cagtggtttt aaatctctag gctttaactt ttctcagaac aagaaatcct ttttggtttt 8761 aatctatatg cacatctgta tttttctcaa ttatcgggta gtaaaatata acttttcttc 8821 tgtaatattt tttaacttta atgagtgttc ctcataatag aaaagtttgg aaaccattgc 8881 tatgggtata tactttctaa agggatagta atttctctag aatattcatt taatgctcca 8941 gaagtaatta gcacaattgt gcaagtctgt gcatcatcaa ctatacattc tgcctgttta 9001 ctccaaatcc acatgaaact gattatacag tcaaaggcga gcccagtgga gaggcatttt 9061 tggagacttc ctggtacatt gagacagggt cggccagtct gcgttagggt cttggtcaaa 9121 actgcatttc tgaaactaaa ctcagattgc tttcttttaa ggggtcagaa ctgattcaaa 9181 tctacatttt taaaagcctt agatgtgggg cttttcctat tcccagtctc cgctattggt 9241 ctttgtgaat ccacaggcaa tttggccaca tccttgactc tctcttatat taagaattaa 9301 acagctaagt tcatgcagag gaaatataac aaaggaggga ctttcctaca agatctttga 9361 aaaatggaac atttgcataa gtcatattta gccagaactg ttgttttata ttttcctttc 9421 tgaatacttt gttacacctc ctcccagcca accccccccc tccctgaccc caactagtca 9481 gagaccaaag ccttcacaat ggtttacact tgaaccttcc tggccccacc ctcatcatca 9541 cgcctgaata attacattca ctgactggtc tcccctgctt ccgtttatct ccactcctaa 9601 accctctgac accttaatct tcccagaata ccattgtgat cctgttccac tcttgctcaa 9661 gttttcccag aaactagagt acaaacttta taagctttag agttgaaagc cactctatct 9721 ctttttcatc cccaggtctc tgccaaggca gtataacctg tccaacatct ctaacttcaa 9781 tacctttgtc ttagatacta gactctcctc ctggtttcta attaaacctg atctaggatc 9841 taattttgcc tctgaattct gttgcccttt gccaagtgat ctcttcctcc tctgagccgc 9901 99 agcatctctg agcttgcaca cttagcatag ccatagcaca cacagcctta gcttgcagtt 9961 cagggtgttt accttccctc cccttccaga tgctggatcc ccagggatag gaactctgcc10021 cttatgtgtc catagcccct ggtagtatgt cttgcagtcg tacattttca gcaaatgttt10081 aattggttaa ttgaagacaa ctgtcccatg ccttaagcct ctctttttgc taaacatgcc10141 tgtgtccttt gtcattgaac aactattttg atctattttc ttcctgacat aggggtcagt10201 tccgaggatg ctgaaatcaa gagacatagc ttattctctc aaaattgctt tcaagagtga10261 ttttgttgtg aattgagaac tggctgccta cttttggact acccacttca gcaagagtgt10321 ttgaaaccaa atctattcta agtaattttt tattcccttt tctctatggc attagacaca10381 cagctctttt aaactacctt tcgttatcta ttaaacagac attcagtaac tctatagaca10441 ctgtctagct atatgaactt agacaaacta atatctctga gcttcagttt cttaaaattt10501 aaaatgagga caataccatc tatggccggg gattaaatgc tatgaggaat gtaaaccaga10561 tgtcaggtac catctctcta aaatccagat aaaatgaatt aaaaatactg gccgcaaacc10621 ctctctaaga gttctcaaaa ttctcagaga gcttaatttt catgctcacc atagcaccga10681 10741 tatttcttca tatccacttt cccaaactaa agaagcagcc ccttcacctt aaactcctcc10801 ttcaaagcaa cctaaataca ggtctgggtt tgtattccta gtgggatgtt acagaggtta10861 gtgtgatgca gaggaggagt catgctgttt aaatccatac tagtccccag aggccaggct10921 gcttctgcca cccctacccc tcccgccaca gagctcttca gcttctcaca tttctagttc10981 ttctctctct actttcatta ccttctctct tttttttttt cttctcatgt gctcacggga11041 gcagagaaaa ttaactcctc taagttttct taacacagag tgccttaatt acatattact11101 attgtttgag ttcctgccaa cactacgtct gtagggtcac acctgctata ttagaggctt11161 atcaaaaaaa gatagctttc tcctaaaaag ggatttggat gcctactaag ataactggat11221 gccaagataa gtttaaccta acaaacttta ttattattat tattattatt attagagata 11229 ggtacttatt ctgtcaccca gactgcagtg cagggatgca ataatagctc actgcagcct11341 caaagtcctg agttcatgca atccttctgc ttcagctccc tgagtagcta ggactacagg11401 catatgctac tctgcccagc tacttttaaa aaaataatta gggatggggt cttgttgtat11461 tgcccaggct cgtctcaaac ttctggtttc aagcaatcct cctgccttttacctccctaa 4621 ttgttggagt tacaggcatg agccacagca ctcaaccaag atttaaaaac ttttaaaaga11581 aatcacatta cttactgtta tcatcattat ggttactacc agtgttaaaa caattggtat11641 tgaaaacacc actaccagat caagcttcaa accaagatgt caagtaaata ttattgtcag11701 acctctgagc ccaagcctgc aggtatacac ccagatggcc tgaagcaagt gaagaatcac11761 aaaagaactg aaaatggccg gttcctgcct taactgatga cattccacca ttgtgatttg11821 ttcctgcccc accttgactg agggattaac cttgtgaaat tccttcccct ggctcagaag11881 ctccccgact gagtaccttg tgacccccac ccctgcccac aagtgaaaaa ccccctttga11941 ctgtaatttt ccactaccca cccaaatcct ataaaacagc ctcaccccta tctcccttcg12001 ctgactctct tttcagactc aacctgcctg cacctaggtg attcaaaagc tttattgctc120 acacaaagcc tgtttggtgg tctcttcaca cagaccatgt gacatttggt gccgtaactc12121 8281 121 aaagatccac ctatgacctc tggtcctcag accaaccagc ccaaggaaca tctcaccaat12241 tttaaattgg gtaagtggcc tctttttact ctcttctcca gcctctctca ctatccctca 8601 acatctttct cctttcaatc ttggcaccac gcttcaatct ctcccttccc ttaatttcag12361 123 ttcctttctt tttctggtag agacagagga aacgtgttct atctgtgaac ccaaaactcc12421 agcactggtc atggacttgg aaagacagtc ttcccttgat gtttaatcac tgcagggatg cctgcctgat tattcaccca catttcagag ctgtctgatc actgcaggga cgcctgcctg12541 gatccttcac cttagtggca agtaccactt tgcctgggtg gcaagcacca cctctcctgg12601 ggggcaagca ccacctctcc tggggggcaa gtacccccca accccttctc tccatgtctc12661 caccctctct tctctgggct tgcctccttc actatgggcc accttccacc ctccattcct12721 cccttttctc ccttagcctg tgttctcaag aacttaaaac ctcttcaact cacgtctgac12781 ctaaaaccta aatgccttac tttcttctgc aataccgctt gaccccaata caaactcaac12841 aatggttcca aatagcctga aaacggcact ttcaatttct ccatcccaca agatctaaat12901 aattcttgtc gtaaaatgga caaatggtct gaggtgcctg acatctgggc attcttttac12961 acgtcggtcc ctccctagtc tctgttccca atgcaactca tcccaaatcc tccttctttc13021 13048 57381 1315 13141 ccgccaggct gaatcaggct ccaattcttc ctcagcgtcc gctcctccac cctataatcc13201 ttctatcacc tcccctcctc acacctggtc cagcttacag tttcattctg tgactagccc13261 tcccccacct gcccaacaat ttcctcttaa agaggtggct ggagctaaag gcatagtcaa13321 ggttaatgct cctttttctt tatccaacct ctcccatctc agttagtatt taggcttttt13381 ttcatcaaat atgaatacct agcccactcc atggctcatt tggcagcaac tcctagacat13441 tttacagcct tggacccaga ggggccagaa ggtcatctta ttctcaatat gcattttatt13501 acccaatcca ctcccaacat tagaaaaagc tccaaaagtt agactccggc cctcaaaccc13561 cacaacagga cttaattaac cttgccttca aagcgtacaa taatagagta gaggcagcca agtagcaaca tatttctgag ttgcaattcc ttgcctccac tgtgagagaa accccagcca13681 catctccagt acacaagaac ttcaaaatgc ctaagccaca gtggtcaagc attcctacag13741 gacctcctcc atcaggatct tgcttcaagt gccagaaatc tggccactgg gccaaggaat13801 gccctcagcc tgggattcct cctaagccat gttccatctg tgtgggaccc cactggaaat13861 cggactgtcc aacttgccca gcacccactc ccagagcccc tggaactctg gcccaaggct13921 ctctgactga ctccttccca gatcttcttg gcttagtggc tgaagactga tgctgcctga13981 tcgcctcaga agcctcctgg accatcacag atgcttttgg taactcttac agtggagggt14041 aagtccgtcc ccttcttaat caatgcagag gctacccact ccacattacc ttctcttcaa14101 ggtcctgttt cccttgtctt cataaatgtt gtgggtattg atggccaggc ttctaaaccc14161 cttaaaactc cccaactctg gtgccgattt aaacaacatt cttttataca cttcttttta14221 gttatcccca cctgcccagt tcccttatta ggctgagaca ttttaaccaa attatttgct14281 tccctgacta ttcctggact acagccacat ctcattgctg cccttcttcc caacccaaaa14341 gtggcaactc ctttgccact tcctctcata tccccctacc ttaacccaca ggtatgggac14401 acctctactc cctccctggc aacaaatcac accctcatta ctatcccatt aaaacctaat14461 cacccttacc tgggtcaacg ccagtatccc atcccacaac aggctttaaa gggattaaag14521 cctgttatca cttgcctgtt acaacatgtc cttttaaagc ctgtaaactc tccttacaat14581 tcccccattt tacctgtcca aaaactggac atgccttaca ggttagttca ggatctgtgc14641 cttatcaacc aaattgtctt gcctatccac gccatggtgc caaacccata tactctccta14701 tcctcaatac ctccctccaa aacccctcca taacccttat tctgttctgg atctcaaaac14761 atgctttctt tactattcat ttgcaccctt catcccagcc tctcttcact ttcacttgga14821 ctgaccctga cacccatcag cctcagcaac ttacctgggc tgtactgccg caaggcttca14881 tggacagccc ccattacctc agtcaaccca aatttcttct tcatccatta cctatccagg14941 catagttctt catgaaaaca cacgtgctct ccctgctgat catgtccagc taatctcccc15001 aaccccagga ctggcaaatt gactttactc acatgcccca aatcaggaca ctaaagtacc15061 tcttggtctg ggtagacact ttcactggat aggtagatgc ctttcccaca gggcctaaga15121 aggccaccgt ggtcatttct tcccttctgt cagacataat tccttggttt ggccttccca 8681 cctctataca gtctgataat ggacaagcct ttactagtca aagcacgcaa gcagtttctc15241 aggctcttgg tattcagtga aaccttcata ccccttaccg tcctcaatcc ttaggaaagg15301 tagaactgat taatggtctt ttaaaaacac acctcaccaa gctcagcctc caacttaaaa aggactggac agtactttta ccacttgcca ttctcagaat tcgggcctgt cctcgaaatg15421 ctacaaggta cagcccattt aagattctgt atggacgctc ctttttatta ggccccagtc15481 tcattccaga caccagccca acttgaactg tgccccaaaa acttgtcatc cctacaatct15541 tctgtctagt catactccta ttcaccattc tcaactactt gtaaatgccc tgcccttttt15601 tacagtgctg atttatactt ttcctccaaa ccatcataac tgatatctcc tggttttacc15661 tcaaaccgcc acccttaagt ctctcttaaa gtggatagaa gatcttcagt gacaaggtac15721 actccaatac tttcacccta ataaagccct attctttact tttatattca ctcttattct15781 15841 tcactcactc tctcctagcc atttctaatc cttctttaac aaacaattgc tggctttaca15901 atttctcttt cctccaaaat caccgagtcc tcaatttact cactgctaaa aaaggggact15961 ctgcatattt ttaaatgaag agtgttgttt ttacctaaat caatctggcc tggtatatga16021 caacataaaa aaaactcaag gatagagcca aaaaccttgc caaccaagca agtaattatg16081 ctgaaccccc ttgggcactc taattagatg tcctgggttc tcccgattct taatccttta16141 atacctgttt ttctccttct cttatgcaga ccttgtgtct tccatttagt ttctcaattc16201 atacaaaacc gtatccaggc catcaccaat cattctatac gacaaatgtt ttaagggagg16261 agaccacccc tcatattgtc ttatgcccaa tttctgcctc caaagaaaga agtaaaaatg16321 aaaaggcaga aatgaaatcc acaggcagac agcctgatgc cacaccctgg gcctggtggt16381 16441 aagcactgtg aaaatccctg tcttgttctg ttcctctaat taccagtaca cgcagcccct16501 agtcatgtac cccctgcttg ctccccctgc ttgctcaatc agtcatgacc ctctcacgca16561 gaccccctta gagttgtaag cccttaagag gaaaaggaat tgttcactcg gagagctcgg 1668621 16628 cagtgtctga ggggttttgt ctgtgtcttg tcctgctaca gtttcatcta acaaccccat16741 aatatcaccc cttaccacaa aatcttcctt cagcttaatc tctcccactc taggttctca16801 cgccacccct aatcctgctc gaagcagccc tgagaaacat cgcccgttat ctctccacac16861 cacccccaaa aattttcact gccccaacac tttaccacta tttcgtttta tttttcttat 169651 taatataaga agatagaaat gtcaggcctc tgagcccaag cctgcacgta tacatccaca16981 tggcctgaag caagtgaaga atcacaaaag aagtgaaaat ggctggttcc tgccttaact17041 gatgatattc caccattgtg atttgttcct gcgccacctt gactgaggga ttaaccttgt171 gaaattcctt cccctggctc agaagctccc ccactgagca ccttgtgacc cccaccccta17161 3517221 acagccccac cccatctccc tttgctgact ctatttttgg actcagccca cctgcaccca 1723681 ggtgattcaa aagcttcatt gctcacacaa agcctgtttg gtggtctctt cacaccgaca17341 cgcgtgataa ttattatatt acttttaact aaaacccttt cagagtctcg cagggaaggc17401 tgtatatatc tcataaaatg ttggggccca ctggatcaga caaggccaca aaggccaaag17461 ggaagtaaag atctcattat ttctcctaat aatttccctg tcctttgtca taaatggtgg17521 gtaggctgtt atggtgatgg cagattttct ttccataaaa tgtccataat aggacatttg17581 aacagaaggg aaaaatcaaa ttgctgaagt tgaaagaggg caatgcaaag aactttggag17641 aaagaactgt acagagaagt caactggcag atgggaggaa gtttaagggg aaaaatatag17701 atgtctaaag aatacattta ttcattttcc acagtgcaat ttggacaaga agcctctttc17761 ttgcttcttt ctattctcat taaatcatta gagctcaagc aatccttctg cctcagcttc17821 ccgactagct aggactacag gtatgtgcta ctatgcccag ctaatttttt aaaaattaga17881 ttttaatttg gtgaactatt tctgtaggaa actacaataa tacagcccag gcacattgat17941 cttgggtgaa caaatcagaa ggaatgaata attctgtgtt cctgggactc tgacaatttc18001 atgaacttgg tactctgagt aaagcatagg aggagttatt tcataaaatg tggagcacaa tcatgtgaca aagataatgg gatccccatt tcataaataa atctgaagtt cagagagagt18121 8281 tccctgtccc aggcccttcc tcctcccgca agcagaagtg cagggggcag agctgaccct18241 8618327 18301 tctaatctca ggataaggac tcagagctcc atctgttcca gccttaggat aagaaccaga18361 atcttacacc atgaaagcat gaaaggtaag atttgagtga ggaaaaaaaa aaaaaaagtc18421 tgtgtttcag attcagttca caaagcagtt tcatacttaa ggtaccatca caataaccct18481 gtggggtaag caaggcaaat ttcattcttg ttttatgggc ataggaagta agtctcaggg18541 18601 attatgtaat tcctaagatc atataggaat cctagagctt gaatatagaa ctttattttt18661 aaatctatat acatcataat tacaaggagt agtgtccatt tgggttcctt ggccctgatg18721 tgttagtgga ataaacattt ttgtcagggt tgccatgtgt gtctgtgcac gtgtgcactg18781 tacacctcca ggggatgtac cctaaaccac atgaatgtga tttgcacatc caagatttac18841 agtgtactat agggagaatc ttttgcaaca gcttttgcta taatacagaa tctgagatgt18901 ctttgagaaa gaaaagtgta atcattacca aaaaattatt ctcataatgt gtgcaaattt18961 gtatgaaatctatattggcc atgggacaag gaggtatttc cagctagctt ctgaaagggc19021 tctattctct cataagaatt cagctgttga cattaggtga tatctgccca ggtcatcaga19081 tgccatagag aaagagggtt tgctgaaact tatatcagca gtgcactgta tgctctttct19141 gatttatttg aacattcatt tattgagtgt caagtaatgc actagatact ccagggatct19201 gacacaaact ctgccctgaa ggagcatgta atctcactgg ggagaaaaca aaacatatga 19268661 taatttcaaa ataacaaact aggcaaacta gttaacactt aaaaagcagg ctttattcaa19321 atgcaaaatt gcatgttaca gggtaacctt tcagtaagaa gccaggaaga ggagctcatc19381 atgggttgga ttagtaaagg actagttata aaagaagtgg tggggttgag ggaggcctga19441 gatgaaattt aaagaatatg tagaatctag gtaagtggat aaaaggtctg ggggcagggg19501 aaaggagagc atttcattgt gaatcaagga atttctccac ctgttttaac tcttccatat19561 gacatcaaag agatgtcact tgcagctagc atttcagtga tgttttctta ctaataatat196 cgtgataaaa gaaacattga ctataagaaa taggaatggg tctcataaaa ggaaacagca19681 19741 tcatgagatg ctaggtgtgg aagtcagcca actgaaaaag agaggtggct gaagaaggtg19801 gggaggctga agccagttaa ataggatggt ccaattcaca gacggcgagg ctacagtgca19861 aataggactc tttcaacttg agcaggaccc cattacttca ctggagttag aaagaaagga19921 gagcgtagac tttttgaact ttctataaga gtgtacctcc acagtataca gaagacgacg19981 20041 atttagaagt gtctgtcatc aagtacagca ctgaattgaa actgaaaaca agagtcaaga20101 aagagcaaag tcagccatct ttatattcca catgaatcct ttccctttat ggtcttattt 461 20227 4621 gggataaatg aggggcgaaa tggaagctga aggaactgtt ggtcaggtag aaatcttccc20281 20341 ttcatggaag gatttaaagg atctcatgat ttttagtatt ccaagaattt tctttcacca20401 agggcgattt aatatgggtc attcatactg aaagaaaaac aaaagataat aagagtttaa20461 aaattgcaaa acttggagtg ttagtagtaa aggtaaatat tcattagaga tgagaagagg20521 agcaaggaaa tgctttcagc tggaaatctc agacaagagg ccaggcttta ggaacctctg20581 aagatgaaca aatgtaagca aaccctagta gcagcacttc tcagattttc atgtgcttac20641 cactcagaga tggtgttaaa atgcagactc tgattcagta ggtctgagtg gagcctgaga20701 ttctgcaccc ctaacaagct ctttagtgat gcttatgcca ctggcgcaca gaccccactt 20769561 2082 20821 tgtagattga ttttttaaat ttatgtttat tttaatttaa tttaatttaa tttatttatt tatttatttt tgagatggag tctcactctg ttgcccagtc cggagtgcag tggcacggag20941 8621027 8601 21028 21087461 21121 3621158 tttgagcagt ggaaagtcaa ggaattagaa ggcatgctta aatggaaagt gaaattggag21241 aaaatttaaa ctcatgaaat agtggtggtt ataaactcgt gataaattat atcctgggat21301 ataatttaat gagatggtaa cacatttagt ttaaagaaat aagtgacact ttttttgtgt21361 gacacaactg tcttattctt ggaaaggaca aggagagaat gaaatatggt atgtcttcac21421 agcacctttc aaagggagaa ccagattctg aggagctggt ctcatgatga actgtcaggg21481 taaaccacag ttcagcagct gcaaatgtgc ttgccaaaat agagacaaaa aaatgtttct21541 gaaaacaaaa tttcacatat gccctcctct gaggttggca tcatatcttc ctgtgtatct21601 tgggtgtagc ttctatcctg ccagaattta gacagtagaa accaaatgag gtgataaaca21661 4621 21748 acccaagaac ttaaaaaaaa aaaaaaaggc tcatggtgtt tagtgtgata gtattcattt21841 tacctttgac ttgttctaaa aacacaccat acttctaccc cacccttcct cagtgccgtc21901 acacaatggt ttcagtgtga aaaaaaaaac cacgttactg gaaaaggagg gtgcctggga21961 cttgccactc taagctggta gtcaagggtc ttgagttcta aaagcatacg cgttaagagc22021 atgattcctg gatccaaatg agtatggatc tcagcattgc catttattgt gacctcaggc22081 tattttattt ctctgtgcct gtttctttat cagtaatgaa gatgttcata gacccttctc22141 ccacagactt aaaggcatat ttcatgattt aagacatgta aaccattcat aacagtatac22201 aacatggaat taatatttga taaaggttta tgattattgt aactaactct gtcacttgct22261 caaggcctat agaaaactta cttaattagt tcaactacaa aaagagtttg aatgtgatat22321 ccaccaagat catattcaga cctagaattc tgtgattctt atgaattaat acagccttgg22381 tcaataaatg agagctgggc aaataattct tctttgctag gcctttctag accatctggt22441 gaagcattca agacttatgt tattggggcc agccttcctt tccaacttca actccacaac22501 tcctcaataa gccatgggct caagaaagtt ctgctcagtg gcccctgaaa aatgctttca tagtctcact accataccac tgcttacaca atttccttcc tacagactgc cttcctttcc22621 tgcttttctc catataccta aatcctatct attcttcata agcaaccttc tttataacat22681 tttctataac caccaagcca aatgaccttt tccttcttaa atatagcacc cattggccat22741 taccatgctc tgccttgtat ttttctgatt tttttctttc tatattcctg tcttaactcc22801 ccagctaggt aataattttc ctgaaatcag ggaccaggct gactcctctt gctgtctcaa22861 gaaagcttag cagtttccaa cacaaaaatg ttcaataaac aactattaat tgactgatta22921 84 22981 tttgctaata ttcttccagc cagtctctcc tcctgtgcct caaggacatc ttaaaaaaaa23041 aaaatctagt tgatctgctt ccatctagtg gcaattaaaa caggtggttc cggtagccag23101 aaaacagctc tgggtagatt gtgccagaaa atactttcac tcagtaggtg cgagtttgaa23161 agaaatcttc acatctgtgg gtttcctgcc acagacatag ggagaccagc ccagagaaag23221 aagcctttcc tcactagact ccatttgcac tagtaaagag aagacagagt aattaaaaag23281 aataaaaaga acctccactg atcgtacatc ctcatccagt tacccctgcc ccacttctcc23341 ttcacagcca aacattttaa aagagatgac tgcttgttct gtctctactt tctcatcctc23401 agtaatgctc aatgcttggc cgtctgacct ctgtcttgat gtctgcactg caaatagtct23461 ccccactgac acccttgttg catccagggg atacttactg gttctcttgg caatgtttga23521 aaccgttccc ctttctttgt ttccttggca ttcattaccc cacactcttt ctcctcttcc23581 ttctccctgc ctggcaacat cttttcattt ctctttccct taggtgactt attagataat23641 gatgttcctc tggctcccat actctctccc aggtcctctt ccattcttaa agcactcaca23 ccctccctgg atgatagtac ccactcctga gatggcagtt acctcctgaa atgtgaggga23761 cccaaatcca cttctcctgc catagcctct gtgctttgga taggtccaat gagccacagt23821 gaatgatgtg catacaccca aagctcagta caaaactgaa cccatgatct ttacctccaa23881 aacctctcat tcttttatgt tcccttctca gaagtaaaca ggactaccat ccgccagttt23941 ccaggtgaga aagatgataa tttgattctt ctctctcact tttagccaat taacagacac24001 attcagttaa tatcacctcc tcttatttca tgaacccatt cttactacta gttccctaga240 caggcgccat cggttttaat ctaataactg caaatgcctc caaaacaagt ctctttgaat24121 ccaggctcac ctgtctccca cacttgccat actgctctgc agggtgacct tataagatgc24181 cagaggtaag gctactcact gtttaaaccc ctttagtgat atcccaaaag acctcaagat24241 aaagcccata tcacatggct tatacattag tttatgatct ggcttctggt gcctcatttt24301 tccccacttt ttcctttgca ttctaagcaa tggcccatac taagtttgtg attggtagga24361 tggttgccca aaccagcatc caatcccttc agaaatcatc tcacttcatt tctagcattt24421 taaaggaagc tcagttgtcc agctgggtac tgaatatgtc accaaagtcc tcctttcata24481 gtttatttta cttaaactct ccttcctaaa attccagagc aagtcactaa accctagata 24562456 ctgagaaata tttttccatc ttcatttctg ccaggtgggc catcaacttt cacatgtctg24601 catctcctcc cactgtgcta tttctccagt agaagaaatt tgagcttcaa gaccaaactg24661 aaaaatactt gcctccttgg ggaagctgta ggtagaattc atgctcccta tctttcccac24721 atttctgaag gacaatgcct gttagagcaa ttgaatgcaa atagtcaatt gaataagcat24781 ttattcattt ctcaataagt gcttgttcaa ttgaatattt cttaaataat atatttaaga24841 acaagaagaa cacaccacaa tgtttttaac cctcagaaaa aattctgagg taatcagaaa24901 aatctccctt tacataaact gcccttttct aatagggatt acttgttcgt tcattcattc24961 attcagctcc actagcacca aaaagcacag ctctgaaagg aagctagtag atttatcacc25021 ttatctggtc atttggatga ggaccccagg taaataaact actatggggt taatgtgtct25081 agctagagca ggaagtaact taaggaagta gagaatgaat cagcagatgt ggaaactcct25141 cgccactaat aaaacttacc ttctcttgga tttcttgcct gaaaatagaa aatagagaaa25201 aggcattagc aaaaattaga caatttaaag tttttcaagt aagggagaag gaagactccc25261 actctcaaaa ctgtcttttg aagtatatta ggtatttgtt aggtggaccc tatctgtgtc25321 aaaggagatt tgaggaactg gcttaataaa cagtggtaga cactaataca gaacagacat25 gttgatgcag atgcctcctg aggttccatt ccattctccg tgctactcaa gaagacagaa25441 ttgctaaatt gcctggtggc aagacccaat atgtccattc aagtgtttat cccttcccaa25501 tctgccatct catcctacct gcagattctt cccttgaggg acagctgcta atactgtaaa25561 actatgtgcc attacagctc acagcatcat ctctatgaga atccacaaga gaatttcact25621 ttggtcttgt tggtaggaat tgtgcagcct catctgagta actaatgtgt ttttatctta25681 caaacacaag gaatatcaca tggttctcct ttgactggct gtaaggaaac tcagagctag25741 atctgagacc ctctcctacc aagtatataa aactttgtga catacatttt tgtgccataa25801 cttcaacctt ggttccaaat gatttttgta ccctaagttt aaatttggct ttcttttttt25861 tttttttgta ctcaataaaa catcaagctc atttattatt gcgaagagcg aaacaacaaa25921 gcttccacag cgtggaaggg gacccgagtg ggttgcccaa attggcttct ttttcttact25981 ttttaattaa ttttaatttg ctatactgaa cacattttgt actgttctca cattcttttt26041 gaaaaaagca gaatataaat aagtagataa cttaaaaaaa actctttgag cagaaagaat26101 catttgggag gcaatatatt tcagtggctg taaagtggca ttctagaatc atcctaccca26161 ggtgaaagcc ctattttgcc acctgtagtg tagtgtgtat ttgaacagct actttctttt26221 ctaaactaca atttcttcat ctgttaaaga ggcataataa ttgtatcatc ctcattgggt26281 tgataaaata aaatatttcc aagtatttag ttcaggtcct agcacgtaga cagtgttgca26341 ttactgtttt aatcctttaa agtattaaag actactattt gaaatctttt cttctaaaat26401 tcagcctgct gatgaccaag tgcacttgag cagggggaat caaatctgaa ttaatttcag26461 attctggtta gcttcacata aatatttttt ttagggatga tgaacctaac agcaatagat26521 gagtaagaat ctgttcctac tgagagagtt tcattttgaa gaaaaaggaa ctaagggggc26581 atgtgttcag tttcatgccc tggtctaacc ctgtgtgttg gttctggtgg gaaattcttc26641 caaccgagga aaaaaccagt tcacaaatct gaagaccagt gattttagaa gatgtatctg26701 gactggagtc taatctctga ctctgggtcc tgctgatatg gtatttttga gatttggcct26761 aaaacatcat tgccctggtt tccttattta ccaaacaggg ccaatggtag tgactaatca26821 gaaaatgata atgcctggtg cacaaaatgt gtctagatga gcccatgcac aaggacacat26881 gtttctggaa ctgttcctta ttcctttcct aaaagaaagg agggaaagtc tccatactaa26941 gactactagg gcaggggaca aagtgctaga gtcagaagat tcatctgagg acagaagaat27001 aggggtgaag gctctagtca cttcattggc taccatgctc taaatagtta cctgtgccct27061 ttttctaact attagaaccc aaaaagccta taaattctct ctctctctct ctctctctct27121 gtgtatatat atacatatac acacacacat agacacacac acacacctaa acacacacat27181 agagatttat gactttttac ttttatcctt gtaaatgcca ttaactatat tttgtcttag27241 atttagcctg ggaatgtagc cattatttct accattgcct ccataggaaa aatactcttc27301 atgttttaaa ggaccaacct acaactaaaa tctttggaaa gcagaatcat ttgtaagttg27361 gtgaaaatgg aagatgttgt tttataaatg aagacttttt tttttttttt ttttgagaca27421 gggcctcact ctgttgtgga gtgcagtggt gctgtcatgg cttactgcag ccttgacctc27481 ctgggttcaa gtgatcctcc cacctcagtc tcctgggtag ctgggactac atgtgcatgc27541 taccatgcct gactaatttt ttgtattttt gtagagatgt ggtttcgcca tgttgcccag27601 gctggtcttg aactcgtggg ctcaagtaat cctcctgcct cagcctccaa aagtgctggg27661 attagaggtg acagccaagg tgcctggccc acagatgaag actatttaat gttatcttaa27721 agatacccta agcttcctac caagccagtg atcttttggg gcttctgttt tctttgttgg27781 cataactgta actagcctaa ctgcccgtta tctgtttcct gtttgcccca cactgattcc27841 cacagcagtt ttcaagttat cggtttgaga tcttgtacag aaatgactcc aaggtaaaaa27901 atttaaaaac aacccctcta atttttttac ccttgcttat aaaacagcct tagccagcta27961 acccctcact acatgcaaat gagtttgatt ctattctttt gattctacaa acacttatta28021 aaagatttta gaattcggaa ataaatagct tccttattaa ggtgacttac agccccaaag28081 tccttaaaat tatttagaca atagccacct tatcccaggg ggcagtgtgt aataacccac28141 cctgttctct atccgtcagt tctgccatca tcgcccaagg taggaagaaa gacaggacaa28201 ccggggtcaa gatttgaagt ctcaatggaa agaataatca gtggttggag aaaactgtca28261 ttcttctttt gccttaatgc agtacttgat acttatactt agtactgtat agtacttagt28321 actgtataat actataagat agtgagattc aatcagcaca gaatttctaa tagcaagggc28381 agagacattt taactgctca gtgctctcag gttatacata gctaatgaag ttcttgcata28441 tcaacaatcc ccacccccct cacacacttt gtctttctgg attggttaga aaacttacct28501 agcgcccact attctcaaat ttaaatgaaa gataagatca gagtggcacg caattaggga28561 2827 28621 catattcagt gaacagaata cgtactaact aatttgatgg aaggaaaatt aaaatgacaa28681 tcaactgagc ccacagaaag gcaacacaga gcagttggtt agcaattgtt tcgagatcat28741 ccctgaactt gaaacaggta tatctttttt tttttttttt ttgagacaga gtctcactct28801 gtcaccaggc tggagtgcaa tggtgcggtc tcagctcact gcaacctccg cctcccgggt28861 tcaagtgatt cttctgtctc agcctcccga gtagctggga ttacaggtgc ccgccaccac28921 gcctggctaa tttttgtatt tttagtagag acagggtttc accatgttgg ccaggctggt28981 cttgaactgc tgagctcatg atccgcccgc ctcggcctcc caaagtgctg ggattacagg29041 catgagccac cacacctggc caaaacaggt atatcttaaa agctgcccaa tgtccatgaa29101 tgttacagcc ttgaatggtt cttccaggtg agtttggcca aatgtggcac catacaccca29161 aggcctgctg caggctagtg ggttgctcac actttaaagc tgagacacac tcatgcctta29221 aggtaaaggg agtgataatc tgggcagcag atgttaactt ctcaaggcag tcctccttct29281 cttttcctct ccagtgacgg atggttggaa agcatatatg gtgcatttgg ttagagctgt29341 gcccatgtgt tgggaaccag gtgactcttg aagaggtcag gtatttggga gcagtgcctt29461 gaaaccttag tggacattag acccacttcc tagtggaatt gtagcattga aatccaaggc29521 atgtaggctc ttagaggaca gagatagtgt gtcatttttt cagaattaat taagagcagg29 ccaggcgtgg tggctcacac ctgtaatcca agccctttgg gaggccaagg caggcagatc29641 acgaggtcag gagatcgaga ccactctggc taacacagtg aaaccccgtg tctactaaaa29701 gaggtgggag aatagcttga acccagaagg cggaggttgc agtgagctga aattgcacca29821 ctgcactcta gcctggtgac agagtgaggc tctgtctcaa aaaaaaaaaa gtattaaaga29881 attacataag agcaaagaac cattagaata tctcacttag ttgttatcag cctagcaagc29941 tgccttgaag gtaatagaca tttttaaaag tttatcagat gaaaagcgaa aatcagccaa30001 cctgttttaa tgaaggtgtg tcctgggctg atttacatgt ctccagggac tgatggctct30061 agaatgtaaa gcttggcatc ctgcttgtgt tgaatctatc acatttaatt tcctgtgggt30121 ttcttttttt tttctttttc actttaaagt tgtgttcttt tcatgtgaag ttaaactcac30181 ataccttttt ttaatctcct tgccagccaa atgataaatg ccaacccaga gaatgcagta30241 accatgactg ccactggaat gaagaggggg ttataatcac cctccttaat cattgagaaa30301 cttttgtcca attctgaaag agaaatcagt aaggcacata gcatgagacc accagcatta30361 tttccttagt ctatctcatg atatttgact tttttcctcc ttacatctcc cagtagtagc30421 ccatttgatg ccatttgaca gatgaggaaa ctggcatggg aaggcccctg atgagtctac30481 agcataggca aagactggac cagccttgct agtctaatgc ctacagaatc tcaatgccca30541 gatttgtggt tcatagagtt cctgaaaatg cacctaaaaa tgttggcaag aatggtcatc30601 gttgtattta gctccatgga cttgttcaat gactggaact ctgaaacaca gagaagagct30661 5961 30 aaaagcctaa tacaacttca ggaaaaataa aagccaatga tctgaactgg ataattcacc30 agtcaaagga aatcattaat gcttttactt taaagcagtt gtgcaaaaat aagcacttga30781 tttttacatg ccaaggacct gcactaattt ctttccaatg cagtagttac cacttccctc30 tacttccttc acgaataagt aaaagggcat gtttagagat actcttgtaa gtgtaaacta30901 agttcatttg ggagcctcta tttgaaaata ctggtataaa aaaaaatctg tctcctgata30961 ctaacatttg aaggaatcta cttttttaca tattggcaga gggtctgatt ctatccttag31021 ttcttcccat tactttgatg aaccttttca aggtgatttg atccccacac ccaaatatat31081 gattgagaga aggctcaagt tcccaggagc tccagacaga aggtacctgt tggcttgatg31141 31231201 31258 312 gccctgggca cgcagcacac agagatcagc atttctgaca gcttctgtag atcctaccat31321 ttaaagactt ttgtcatcca tgcagatagt ctcaggagca gacacaggta gctattcttt31381 cacatgctag cttaacatgc atttgcttta gcacctattg ccaggcactg tgtcaggtgg31441 agggtataca aagatgaaca agacatgatt cttctcatat acagatagat tttggaggca31501 ttagcttagt gatgattcag gagtatccat tatttgggga agtaggtggt cattagtgac31561 cttttacagg catttcaatg ggctaacaga gatgttagat tgtagtggaa tagaagaatg31621 ggtaaaaagt aaatcagtga gttcagattt taggagttaa gatggcaaga ggtgagaaca31681 aaaaaaggaa atgattgtca ttaaaggagg aggaaagacc agccaaagat tttacagtga31741 gttaagcata caaatttatt tctaggccac atattcttag caaaacaaca tgtaaatgtt31801 tatgtatgtc tttcctcata tctgctcatc catcagctcc atcgttaaga tttcagtttt31861 ccaggacaaa cttactcact ttgacatatt ggactaggat ttgaccagat tccagatgat31921 tcacaaatgg ttttcttctt cccaattaac tcagttcctt ctgagcagat gaaggtacat31981 gcagaggtaa agctgaagct ggccagggga tggctacagt tcatgatccc caaatctggt32041 gctgatagag gctcacactg aatcacttca atgaaaaaga aaaaaaaaaa aaagacaaaa32101 cagtatttct gagtagagac cctcccttga gcaaaggatt tttagccaaa gctgcctgac32161 tacattactt gtgatattgc ttccaggctt tattttcttg agaatgatgg tgggtggtga32221 atgagagatg aaggcaagga agcattgaaa gctgtgggga gaggagtagc tactccaggc322 tgctgcccta gctaaggtga ccctcccctt ctgctggaag taccatgcca tatggcctct32341 gcatcaaggg ctcttatggg atattctcag agaatctctg ccgtttcatc tgttctgata32401 tctacccaag cattttgaaa aacatcccaa ttcactgaag caagtccaac ttccgtaaat32461 tccagtaggt gggttgacag ttttataatt tcaataaggg attttgatag cacttctaag32521 aattaaacta cttaaactaa tgcatcagga gcatacttgt agaaaagtta accaaaactt32581 cgtaagttca gatgacattg gttttctccc atatggagat aaggttggca gttaaaaatg32641 aaaaaaaaaa aaaaacctac cttatttcaa acttgaaaag atcaagagat tgtgtttttg32701 tttttcagtt gttattctcc taaaagttta tgcatgagga aaagtaaaag tgattttaag32761 aataagccaa ataaaacaac caagaaagac ctccactacc ctgggaagga aactggttgg32821 tattaagtag gacaccacat aaaacaggtg ttattgagag gagaagaacc aaaatgtaac32881 tgaggttcaa caagacatta tttatgcaat ggcaatgaga aaaataaaaa acacagtata32941 accatgctgt attgctataa gtcatgttac acactgggag atggcttcag gggtatttgg33001 tttttacttt ttgtttggga ggtttttcaa aaaaatttag ttagaataag tcctttgaga33061 aacatcacag taggttaaac aaagttaggt taaattaggc tcctaagttt gacttctcag33121 caaacttcta ctgaatgttc tgactgtaag cccaggattg catgacaaaa cctctagtct33181 gaagttactc accttgacag gttggttctg gagatgacca gtttccaaat ggtccacagg33241 tggtttcttc aatcccagtt aagtttgttc cttcagagca gctgaaggca cactgtgagc33301 tgaagctgaa gtttcccaaa gggtgagtac agtccatggt acccagctct ggggcctcca33361 aaggctcaca ctgaatcact tcaataggga aagaaacagt atggggaaga gttaagagga33421 actgacgcct ggatttgaat cctagccctg ccacttgata accatgtgcc tttaaacaag33481 gttacttgaa ccctccaact tcagtttctt catctatata agaggaataa tgaaattgtg33541 ttatctttat caaattgata tggaaactaa atgtaattca attagcataa gtcaaggacc33601 ttagaacaaa gcctgactca tcagaaattc taagtaaaca ttagctagtc ttcatattat33661 tatcttcagc attatctgta gtgagaatcc ttaaagccaa ataggtgtaa ctgggaatga33 ccagcttagt cgggaaataa ctatcacatc agagcccctg agtctactag agtattggga33781 gcaagatgtt cagagaaaga gtgggtctcc ataataagcc ttctttgcaa ggagagaata33841 taaaagtcta ggaagcattt tgacctcaat tctgtcttct attctagctc agttccagaa 3386901 ttttaactct tttgattttg acaaccctct ccagaaactg tatctatttc cctgttctga33961 34021 34081 gccattattg ctaccttgct ctagagactt caaggaagaa tggactcaag gaatcagaag34141 aatttttgta tttggaaact atatgagatg agattaggga gaaacatggg aactaagaga34201 aaatgttatc ttttttcatt gatttaaaga gtatctatta tatatcaagc attactctgg34261 ggcttgaaga gcttagattt caccctgtag gacaaaatgg taggtagaaa ttaatgggtg34321 gattgtcatg tatgtgtgat gtgttttaat tgcttttaat tgatcagtct ccctgtagta 6334381 tgaataatgt atttgagggg agctaattta aaattgtgga actcatctaa taaactattg34441 caagaatcta gaagaaagat aatgacggca atggtagtag agttgacaag tggaagacaa34501 attagaaaaa cactaagttg taaaaattgg tagaatgtta ccctgcataa atgttggggg34561 agttaagaga gtctcatacc agggtgccca tgtaaatggt gattccacat actgagataa34621 gaaatacgaa gagaaaagct gactgggaac aattggtttt atagtctttt aaacatccca34681 aaggacatcc ttagcatatt tgagttcaga gctggagata ggcttatcag tccaaagatc34741 acatagattt gtgagtccgc aaaagtcagt aagtttgacc aaaggataca tgtagattag34801 agtcagaaga gcaatataca aaagacaaaa gctgagaaat tatagtagtt tatggtcctg34861 gataagtgct catgaaggat ctcaggagaa atgatcacag gtagaaagaa tgagaaaaga34921 gtgatatgag agaaaccaag acaaagaaaa gtaaaatgtt aaaaatgagt gaaataggca34981 taccaataat taaaaatgag taaaataggc ataccaataa cataagggtt aaaaaataga35041 gttcaaaaat ggggtgaggg taaagtatta ggaaggagtc atggcccagg gatcaagtga35101 aatgagttag atctatagat ctatttcagt tggttgacat ttaaatgtat tttggtttta35161 attctttatt gtttacaaac attgcttttt taaaaaatta aattgtccaa ttcaattcag35 gctcacaagc aagtgcctca tatatacagg cattttgtgg atcccaaaga tgcaatgata35281 aataggacac ttactgatct caagaagttt tcagtaccag aggagacgga caagtgaaca35341 gatgacttca acataagtgg gagaaatgag gaagaaatat gtggagctat cagaactaag35401 aaagcttcct agaagaaact gtctttgaac aatgtcttaa agatgacatg ttttttggcc35 atgtgcaaaa tgagagagaa ggccaccagc aaagtcagtg tgctacagag cacatgtgtt35521 35 aagtgtggag aactgcaaga aggaaaggaa ctactagaag gaaaaagcaa gatactttct35581 gggtaactca gcctcctaat gataaatggc atagtttctt ccagacctta gagttctaat35641 641 35641 taatctaaca agctcattag atcgtgagct tcttgagagc gggaatctac catgctaatt35701 ccttatggta accctgacag cttttatccc aacactgtgc ttcttgtggt actcaaaaag35761 35821 caatattgtg aaagcagagc tttctgatca aaacttccca tttctcagag tggctagtat35881 cattttgttc caaccagctt catgataagc tataatgatt cctgtgactt tacctaagaa35941 gaagcaaaga aaggaaagag acttaccaaa ctgacactgg ggcccatagt accccacatc36001 acagttgcag gtgtaattat tgatgatttc tacacattct ccatggccac tgcatgacca36061 gggctggcaa gaagctttaa ggaggtcaga aaaaaaatat tttaatgtga ttacatttta36121 gtactcaaag tcatttcttt agacatagat aaccttttgt ctgagatgat ttaaataatc36181 aggaaaggtt tatttgtaaa ttcatagcat aaaaatcata tgctaaaatt tttacgtata36241 aaatacacta agcatatagt cataggcatt tatttgcttt tggaatgaaa ttaccaatac36301 taatattctg taacacttat aggaaactta gtggcatacc ttgaaactct tgaaattact36361 tgtttttaat gagtgagaag gttaaatgat gacctgacct caatcatttc tgcatgcaat36421 tatttcttgg caatcccttt ctttatagaa atcaaagatt aaaaagtcca aatttgctaa36481 aacggtagag tccaatttat aagagaccaa attaactatg gttcattatt aaaacatcac36541 ttggaaaatg ctggctgttt tggaattgta gaagatttta cagaaatatt catacaccaa36601 agatagtgca atttttatat aaaattatat aaggttagac caagaaggaa gcacgcagca36661 ccacactctc tacttcacaa tgtgaaaact gaggtgatgt gagcctaagt ttccaactgg36721 ccccagctgt cagcttctcc tcccctgcct tattatcaaa ggcactgatt gtctagctct36781 tcctctgtac ttcctacgta gatctatcat tttgatgtaa cttgatttag gggtatagct36841 tttgtgcaca gggacaaatc ttacacacca aaaattctta ggagtgacac gatgcaagat 36927 tttgtgcaca gggacaaatc ttacacacca aaaattctta ggagtgacac gatgcaagat 36961 tccatggggt aaatctgagt attctcttaa ccgtggccct tcctgagtct gaggcagcat37021 agccgtcttg tcactcccta cctgtgtaac agagggctgc ctttagtttg tggcaggcgt37081 catcgttcca tttgcctgca tctttgtttc tcttgatata gatctccacg cagtcctcct37141 tgttcttctt gttgttgggc tcaccatctc cccagttctc tgcttcttca gtaagagatt37201 tgttggttcc cacccacgtc catattcctc ctatcttccg gattcctatc cagtagtaag37261 aacgactgaa aggcagagtc ttctccagat actcaatttc cgccttgttt tgtatggcaa37321 ctaaatctgt gtaattgtct cggcagaatc ttctagccct ttgccagttc atgggttttt37381 cagaataatg gtaagtccag cagtcggttc catgatgtgc caggaaatct gcaagacatc37441 agtgtgacct atgcagactt acataatgtt acagctaaaa agaacctagc actactccag37501 gctgagctag acacttagag atgaggaaac agagcctaag agtgtatgtg accatctcag37561 gatcacagaa tagttgtttg cagatttgaa gtagaaccta gaccttctgg cttgaatata37621 agatgctttt atctaaggtt ctatttgaaa caaatttagt ggttttctag gtttattttc37681 ttattaattt ttttctcaaa attatttcag gtgaaattta accaacatat tttagacatt37741 catatttctt tttctttgta gctgttaatg atttacaact aattaccgtg taatatcata37801 taactataca atttacgtat actttttaat cctggaatca tttcttgaag gccaacacat37861 atgtacctat gggagaagca taataaggac aggaagaaca gtgacatact tttaagtaac37921 ctcttttaca taaaaaacat tttattttac cataggaaga actgcttctg gaaaagccca37981 atataccact caactcttat atatctaact gtataatttt taaaaagaac aatttacaaa38041 gccaaatggt ataggattat gaaattcatt agatcatgtt ctatacacaa agagactcaa38101 ctgatgatgt ttaataaaca tatggaccca tcaaatatga gggctttgaa gatatctaat38161 taaacacata attacacaat gacttcataa taatatatgg cattctaagc atggtatgat38221 ctacatgaat cactatttaa tacagtaaag aaacagatat aattgatggt aaagagcatc38281 ataaaataaa cattttgaac agagttttga atgagcattc cactagaatg caagttctaa38 gagggaaaaa actgttgtgt ccactgctgt atccttagtg cctagcataa atttcacaca38401 38 ttgtagggac tcagaaaata cctgttgtat gaaaagagca ctaagtttct atgtgacaca38461 gtgcagacat ggcataagga atgtgtgaac gggagagtta gcatgtttgc ttggctagag38521 ctgaaaatcc aggctaggga gaaagaagac attagtttac ttaggaaatg aaaaaccaag38581 ttcaaagcta ttgctggaga gtcttcaaga atcagatata aaatttgtca caacaatggg38641 agaaggacca aaaaatgata aacccccgtc ccttaataag ctcgtattgt aattgtagaa38701 atgacattaa tgtacactga actatgaata aaaaatagaa aatgaggtgc taaatatttg38761 gtacagattg taagtacctt aacagagatt tcttaattaa cattattcct ttataattga38821 gggattttgt ggggttattg ggatttgaac tctacagcat gggctattat aggttaaaaa38881 tagtgttcag gagtttctgg ggaagaacta aaggtaagaa gaaaagagat gtttacagaa38941 gggatagaat taacagctct gtgaaataat tttcccttag actatgtata actagtggat39001 atttaagaaa aatgaatata agtaaaatag acttagcgat atataaatat cataacatac39061 cacaacagag cattgtccac ccccacaact tgaagatgtt ccataagtcc ctctgggtgc39121 tctgacattt ccatggaaat atctgcaaat gaaatacaaa attatattta gatgtatact39181 cttaaaccac acatttatag cctttgaggt ggtgcttaca actttcttaa taatcagaat39241 aaaacacata tgtctactaa ccctgtctga ggtaacaggt ttctcagaca tagatgaaaa39301 attacttcaa atttacatca gaactgatgc acagttttgt tttgttctat tttattttta39361 cgctttagtc tcaagttgct aatcggtact gccctgaatt ttttctatgg tttggtaatt39421 tttatacctg cttttctgct gagctattag ataaaactat ttaatattta ctatgtatat39481 tttttaaagt attgttgctg cttaattaac tattgatgct tatatttaat gttatagcct39541 cactcttgat cataatgggt caatgcctca aatacctaaa aaaaaaaaaa attagatagc39601 cagacaccag gaaagaaaag tatttctttt tttaataaaa agaaatacct ttttgagcaa 661 ctgaaatgac aaagtcacaa atttcctgca caccttaaaa tatacttaat gtaaatgacg 393975 agttaatggg tgcagcacac caacatggca catgtataca tgtgtgacaa acctgtatgt 393939393939393939393979 39901 tcaagagtct ccccagagac aaagtcaaga agaggaaatc agcatatctg agaagaaaga39961 tttcaggatc actttttttg agggtctgag aaaatgttta gtttctatat tatttaaaac40021 cagaattgaa atggggtgat tcctatcctt gccacctgcc tctacaaccc caagagtttc40081 tatctgagca tctaaacgtc ttttaggctg aaaggctcac catggctttg cttggtcctt40141 ctctagttct tctgcagccc attgagcctc ttgacttagc acaagggtct caggtccttg40201 cccaaaggga gtgtgctgtg ctgcaggtag actgcactga atgtcaacag aaagccttgc40261 tttctttcat ttctctaacc cagtctcaca tcctcctcct cctccccttt tccctcccct40321 tcctcctgca cttctctttc ctctttcccc acccctttcc tagactggcc tctattgcct40381 cccactgaga caaaaatgaa ctgctgatca gaaagtaatg tgactagatt ctctcttcct40441 tccctccttt ctatccttcc ttccattctc ctatgcatct ttccttaccc tcctcctcct40501 tcactcattg ttgttgctgt tcttcttcct cttctttttc ctcctgctcc tcttcttcta40561 cttgttcttg ttcttgtttt tgtttggttc ttgttctcct cttcctcctt ctctctctcc40621 tcctcctcct tcttttccac caccctcccc tatctttttc ataaatgcta aactaactct40681 tggctacctg tggtaaatgg cccttggaaa ttgcaaatac tacaaatcaa aactgcattt40741 cagacatatt tatgatgttt gcaaaacttc agtagagcta agcagtggac ttgactcgtt40801 tcggttcctt cacctccgtc tttccttgct caccacctag tggacgtcct tgttagtggc40861 6340921 tgggagccta caagtacctt taatattctt ggactataaa atgagatggt tttataagac40981 tgcatgtgaa attaggaccc atatgatgaa ggacaataaa aaggaagacc cactgatgtg41041 agtcaatgag tcaaatgcaa atcagatttg catttttagg aaaataataa taacaacaac 4118401 41153 41161 ctgctataga tatgattatt atccccattc taaagagtct caaagaggtt aagaaacaaa41221 ttcaaaaact agcgaaagac aagaaataac taagatcaga gcagaaccat aggaggtaga41281 gacacgaaaa agccttcaaa aaatcaataa atccaggagc tgcattttga aaagattaac41 aaaatagatg gaccactagc tagactaata agaaagaaga atcaatagac acaataaaaa41 atggtaaagg ggatattacc actgatcccg tagaaataca aactaccatc agagattact41461 ataaacatct ttacacaaat aaactagaaa atctagaaga aatggataaa ttcctggaca41521 catacaccct cccaagacta aaccaggaag aagtcaaatc cctgaataga ctaataacaa41581 gttctgaaat taaggcagca attaatagcc taccaactaa aaaaagccca ggaccagatg41641 gattcacagc caaattctac cagaggtaca aagaggtgct ggtaccattc cttctgaaac41701 tattccagag aatagaaaaa gaggaactcc tccctcactc attttatgag gccagcatca41761 tcctgatact aaaacctggc agagacacaa caaaaaaaga aaatttcagg ccaatatccc41821 tgatgaacat cattgcgaaa atactcaata aaatacggca aactgaatcc agcagcacat41881 caaaaagctt atcaaccaca atcaagttgg cttcatccct ggaatgcaag gctggttcaa41941 catacacaaa tcaataaaca gaatccatta cgtaaacaga accaatcaca aaaaccacgt42001 gattatctca atagatgcag aaaaggcctt ggataaaatt caacacccct tcatgctaaa42061 aactctcaat aaactaggta ttgatggaac gtatctcaaa ataataagag ctatttatga42121 caaacccaca gccaatagca tactgaatgg gcaaaaactg aaagcgttcc ctttaaaaac42181 tggcacaaga caagtatgcc tctctcacca ctcctgttca acatagtatt ggaagttctg42241 gccagggcaa tcaggcaaga gaaagaaata aagtgtattc aaatagaaga gaggaagtca42301 aattgtgtct gtttgcagat gacatgattg tatatttaga aaatcccatt gtctcagccc42361 aaaatctcct taaactgatc agcaacttca gcaaagtctc aggttacaaa atcaatgtga42421 aaaaatcaca agaattccta tacagcaata atagacaaac agagagccaa atcatgagtg42481 aactcccatt cacgattgct acaaagagaa taaaatacct aggaatccaa cttacaagga42541 atgtgaagga cctattcaag gagaactaca aaccactgct caaggaaata agagaggaca42601 caaatgaatg gaaaaacatt ccatgctcat gggtaggaag aatcaatatc atgaaaatga42661 ccatactgcc caaggtaatt tatagattca gtgctatccc catcaagcta ctactgactt42 ttttcacaga attagaaaaa aactactttaaatttcatat ggaaccaaaa aagagcttgt42781 atagccaaga caatcctaag caaaaagaac aaagctggag gcatcatgct acctgacttc42 aaactatact acaaggctat agtaaccaaa acagcatggt gctggtacaa aaacagatat42901 atggaccaac ggaacagaac agaggcatca gaaataacac cacacatcta caaccatctg42961 atctttgaca aagctgacaa aaagaagcaa ttgggaaagg attccccatt taataaatga43021 tgttgggaaa actggctagc catatgcaga aaactgaaac tggatccctt ccttacacct43081 430 43081 tatataaaaa ttaactcaag atggattaaa gacttaaatg gaagacctaa aaccataaaa43141 attctaggag aaaacctagg caataccatt caggacgtag gtatgggcaa agacttcatg43201 actaaaacac caaaagcaac agcaacaaaa gccaaaattg acaaatggga tctaattaaa43261 ctaaagagct tctgcacagt agaaaaaaaa aaactatcat caaagtgaac aggaaaccta43321 cagaatggga gaaaattttt gcaatctatt cacctgacaa agggctaata tccaaaatct43381 acaagaaact taaacaaatt tacaagaaaa aacaaacaac accatcaaaa agtgagtgaa43441 ggatatgaac agatgcttct caaaagaaga agtttatgca gtcaacaaac atatgaaaaa43501 aagctcatca tcactggtca ttagagaaat gcaaatcaaa accacaatga gatgccatct43561 catgccagtt agaatggcga ttattaaaaa gtcaggaaac aacagatgct ggagaggatg43621 tggagaaata agaatgcttt ttacagtgtt ggtggaagtg taaattagtt caatcattgt43681 ggaagacaat gtggcgattt ctcaaggatc tataactaga aaaaccattt gacccagcaa43741 tcccattact gggtatatac ccaaaggatt ataaatcatt ctacgataaa gacacatgca43801 cacttatgtt tattgaggca ctattcacaa cagcaaagag ttggaaccaa cccaaatgcc43861 caccaatgat aaactggata aagatgatgt ggcacatata catcatggaa tactatacag43921 ccataaaaaa ggatgagttc atgtcctttg cagggacatg gatgaagctg gaaaccgtca43981 ttctcagcaa actaacactg gaacagaaaa ccaaacatta cccattctca ctcataagtg44041 ggagttgaac aatgagaaca catggacaca gggaggggaa catcacacac tggggcatgt44101 caggggatgt ggggctaggg gaggaacagc attaggagaa atacctaatg tagatgacag44161 gttgatgaat gcagcaaacc accatggcac atgtatacct atgtaacaaa cctgcacgtt44221 ctgctcatgt atcccagaaa ttaaagtata atttaaaaaa agtttaaaaa aagaaagttg44281 ccttagtcac ataactagta agagacatgg ttgggaattt gaacagaggc caatcagttc44341 caaatccatg ctcttgatca ttaagctgaa cttatggcag gaacttggaa gacatggtaa44401 aatggggaaa aacgtggagc cagggagact tgtgaaagtg ccagtgctcc cactataccc44461 tgaaagaagt atctagactt acttttttct aagtcctctc ctctaattct ctcaatctct44521 ctctctcttt ctctaagaga tgggaatgct gctctgtcac tcaggctaga gtgcagtggt44581 gcgatcatag ctcattgcac tcaaggaatc ctagggtcta gtgccccttc tccctcagcc44641 tcccatgtag ctaagactac aggcacatgc cccaaccctc gactaatttt tttatttttt44701 atttttgtag agacaggatc tcactatgtt gctcaggctg taattctgtc ttgaagcttg44761 tccaatcagg ctttcagcca caccaattcc ctgagactgc tctcaccaag gtcctacact44821 tcactaacac aaacagccta ttctccatcc tcatcttact tcaccaggga gctcctggtt44881 ttcctcctac ttcactggct atttcttctg tatcatgtgt tgattctccc tcatctcccc44941 aacctccaaa cccttggagt actccagaga tcaccgcttt gctcttctgt gtctaacctc45001 actaacttgg tggtccaatt cacactcttg actttgaata ccatttaaat gcgaacgaat45061 tctaaattct gtacaaccag aaccattctc ctgtagccaa atgcctactc aacatctcca45121 tccccaaaca aatttagttg ttcaataagc ctctcatatt ttacatatcc caaactgaac45181 45 45181 ttctgaattt ctcctccaat ctgtagggct cttcccacag cctttccatc tcagtggatt45241 ataactccat ccttccagtt actcagacca aaacttttgg agttaactga gacacctctc45301 45 45301 ttttttttca caagtcatat ccaatgtgtc aacaaatttt ggtagtggaa atattgcggg45361 attttttaag aaatcagaga gaccgatggg gttcaggagg atatttatta tttaggtgca45421 ctggccaagt cagattaaca tccaaaggac tgagccctga acaaagagtt aagttacctt45481 ttaagcattt tgtggggtgg gagagagggg tatctgtgca gggggaagca tactacagaa45541 gtgagaaata aagacagtta ttcaattaat tgagacatgc attacatcat ttcttacttt45601 tcaagaagaa acatgttttg cgacttgagt ttatctgtct agtgaccttg cagctgcaca45661 45 45661 gctagagaaa cagggtcttc acaatgcctg ggaaaggagg agaggtaagt ctcactagcc45721 acagaaaaac aggcagttaa tttttaaagg gctccagctc tttctctttc tcagggggag45781 ttgggttttg ttacatacaa ctgagtttcc gcttacacat tatttaattt cttttaattc45 ctgttccaaa agaagccaga tacaaaaggt tacatgttgt ctgattccat ttatatgaaa45901 catatagaag aggtaaatcc atagagacag aaagtagatt agaggttccc aggggctgag45961 gaagaaatgg ggactaactg cttatagggt acagagtttt cttctgataa aaatattttg46021 gaactagata gacattttgt taggccattc ttgcattgtt ataaagaatt acctgagact46081 tggtaattta taaagaaaag atgtttaatt ggcttacact tctgcaagct ttacaggaag46141 catggtgccg atatctgctc agcttctggt aaggcctcag gaagcttaca atcatggcag46201 46261 gaggtgacag tcacttttaa acagccagat cttgtgagaa ctcattcact atcatgaaga46321 cagtaccaag aggatggtac taaatcattc atgagaaacc ccaccctcat gatcaaatca46381 cctcccacca ggccccacct ccaacactgg ggattacaat ttgacatgag atttgagtga46 gaacacggat ccaaaccata tcagagatgg tggttataca atgcgataaa cgtcactgga46 ttgtacactt taagatggtt gttttatgtt gtgtgaactt cacctcaata aaaaaaaata46561 tttaatgtac attcagccaa aagaagattt ggaataggaa aggtcatgga gatatattaa46621 cagccatttg atgggtggta aggaaaagag tggttattag actgttttgt ggccctcaaa46681 aggtagaact agatcgagtt ggtgagcatt ataaaaccat cacaaaaccc tggagagagg46741 acccagtgct gaagaaccgt ttgcctgcca tgagacatga gggaagtacc agtgaatgcc46801 attgaaagca gcatccctgg gtccaaggga tggtcaaagg accactaccc aacccttccc46861 tagcctacgc ctccattaca gatgaccgca agatttattt gctcattgct gccaaccaag46921 gctgcactca ctgcagttgc tatcagttta tcatgggtaa aaggaatgtg cagtagagaa46981 47041 tccttacatt tggcatgtaa gcccctctta ctgtctgtca tctatctcct acacagttca 4758 ctgggattcc tgtcttcacc atcaccaaac tcccctcaat cttccagttt cctgttcaaa47221 cttttctcct acctccttgc tttgtcatta gcccgactgc ctccctagga catcacttcc47281 cctgcagatc tctcaagatg acaatattta ttctccacac agcacatact tcagggttgg47341 aaggcagggg caatcttctc ctttataatg agtgcctctt atatatgttt attcatctgc47401 4729 47461 tgaagcttgt gacactgaga taaaccatct cactgtcctc attgtagtga cctctcaact47521 4742 47581 tcatagtctt acgggacttc accatccatg gcacaaccaa taccacagcc cagatcctca47641 gctctccaat gacattttcc tccactagac ttgagctacc tccttcccta ggcacagcct47701 caacctcgac aacacctaag actgtaccgt ctctaaagtc acatgttcaa acacttcact47761 57361 47 ctttaaccac tgtctcctat tcttgcaagt gtattgctca agtatctcat tgcaatgctt47821 tttacttcta cctcattgaa cctccaggcc attaaacatt tccttatttc taaccatcag47881 gtttctcctt acttgtttgt ttgtttattt gtttcttttt tttttttttt tttgagacag47941 ggtctcactc tgttgcccag gctggagtgc agtggtatga tctcggctca ctgcagcctc48001 catctccctg gttcaagtga ttctcatgtc tcagcctccc gagtagctgg gactacaggt48061 gcatgccact acgcctggct aagattttgt atttttatta gagaaggggt tttgccatgt48121 tggccaagct ggtctcgaac tcctaacctc aggtgatcca cctgcctcag cctcccaaag48181 tgctgagatt ataggcatga gccactatgc cccacctggt ttctccttat ttatttcaag48241 tctatgctgc actattaaaa ctgccttgac aaaaattata atagtgagaa aattatgaca48301 gtgaaagaga tctgaaataa tcaaccccca tcttgccttt accttccaga ctgcccttaa48361 taattcctga gcttgggcca agctatcttt ggcagaaatt tagtttatag tttaaatgat48421 aatagccctt ctccaaaact aaactgcctt tgtaaaacta ataaaagacc accaatgaaa48481 ggttaggagg atgagaggag cctgaattct gctaaggtgt agatgtaaac aattaccaac48541 tgttattccg gaggtcacaa gatttgcaac atcgccaatt actcctgcag ataacagcac48601 tatcatagaa tctgattggc cttttgagat gtcttttcag attcttacat ttcaactggt48661 ggctctacct ggacccatca acaagtcctg tggctccacc cagaagcaga cttaacatgc48721 acaaggacca ttttccacac cgctatgatt gcatcccaac caatcagcag caaccattcc48781 tctgcctgcc aaattatcct tgaaaaatct tagccttaga attttggggg aggctgattt48841 cagtaataac aaaaccccgg tctcccattt ggctggctct gcatgaatta aattctttct48901 ctattgcagt tcccatcttg ataaatcacc tttatctggg cagcaaacaa aaggaaccca48961 ttggacagtt acactgttgg cagatatatc ttgcttccaa aattggattt ttgtttaatg49021 aatttattct gttttcttga tatttacaac tgtgaatgtt gtgtctgaat tctctttatt49081 tcttgttgaa aagaactata ttgctacagc cagtacatac agatggatag ctaattactc49141 aacacggggg gatgtgacca tcaccgcact gtgcaaatga atgttaccca ttgtccactt49201 ttcccaaact acatagtgtt atatggtata tgacccaatc aacggtggca aagctccaga49261 aataccacat agacatcagg gacactttaa actaatcagc ctatagtcct ttttcagtaa49321 5849324 49381 cacgcaacat tcgctcccaa tcctactgaa tcagaatatt ttgggttggt tcaggaacat49441 tcaggagttt ttcagggtcc aaggtttata taatttgagg tctctctttg agaaaaggaa49 cgtaaaagcg tcttgctttt atagatctta caaagatgta ttaccatgta aacacattcc49561 taggacccag gcccttgtaa tttaaaggtt tatctaagta atgggccctg aagcttaatt49621 ttcattatct tcagggcaaa ttacctgtgg gttagggttt aggaatatat ctctctgtgt49681 atgtgtgtgc acattagcat gtacgcttgt gtggattttt tttttttttt tttttttttc49741 tgagacagag tctcgctctg tcgccaggct ggagtgcagt ggcgtgatct ctgctcactg49801 caaactccgc ctcccaggct caagcgattc ttctgcctca gcctcttgag tagctgggac49861 tataggcacg caccactatg cccagctaat ttttgtattt ttagtagagt tggggtttcg49921 ccatgttggc caggatggtc ttgatctctt gacctcgtga tccacccgcc tccacctccc49981 aaagtgctgg gattacaggc gtgagtcacc atgcccagca cttgtgtgga tgttttaagc50041 tcccaggtga gtgaatacaa aactagatct ttcccttctg tagcatctgt actgtttact50101 ctatgcatct caatattttt tcttttagta tctttccttt ttctctctta ttacttcctc50161 ttgtgctatt tttacacctc cttttttaaa aaattttttc ccttttattt ctattgacct50221 ttagccctca caatgattcc tacaagcccc atttctgtaa atggggattg aaataattgc50281 tggacttttg agagatagat atattaaatt gcaaactggc agtagtgggg gcagttgata50341 cataactagg ttttaaagtc tagccttctg agaccactca ttccatttgt gaaaagtgat50401 tctacttctt attatgagcc aaaatatgca ttcattcacc catgcattga tttattcatt50461 caataaatat ttgttggatg tccactctgt atcaggaatg tgctaggttc tgggaataca50521 gcaatgaaca aggtaatttt tccctacccc taaggaactt agagtttagt ggggaagaca50581 gacattaaac aaacaattgt gcaagtaata atctataatt atttattaca attaaaggaa50641 ggaagagaca tatggattat gagggcatta aagaggagac ctagtgtaag tagccagttc50701 56 50701 tcgtgaaggg acatgtatta gttggagttc tccagagaaa cagaaccaat ggtgtgtgtg50761 tgtgtgtgtg cgtgtgtgcg tgtgtgtgtt ggggtgtggg ggtgtggtat tttttataga50821 aattgtctca cacaattatg gaagctgaga agtcccatgg cctgctgtct acgagctgag50881 aaccaggaaa gccagtggaa tacttcaaag tccaaaggcc ctggaaccaa gagtgccagt50941 gttggaaggc aggagaagat gggtgtccca gcttaaaaag acagtgaatt cactcttttt51001 gctctacata gggcctcaat gggttggatc atggccaccc acattggtga aggcaatcct51061 510 51061 cttagtctac caattaaata ctaatctctt tggaaatact ctcacagaca cactgagaaa51121 51 51121 taatgtttta tcagggtgat agaaatcttc tggagttaaa caatggtgat agctgtacaa51181 51829 51181 tcacatacat ttttaaaggg tgcgttttat ggaaagtgag ttttatctaa ataaaatttc51241 taagaaagag acttaacaca gagataaaca taagcacatt tattgtcaac ctttatagtg51301 51 51301 ttatgtcaaa taggtctgac ataagcttaa ataaatatat actttaaaaa ttataaaata51361 ttttaagtta taatttaaaa ttctcaataa aactcaaaca caaaccacac tggtatttca51421 51 51421 cacagctaat ttctaatgca gtttacataa atatttacaa cacttaaaca atttcaaaga51481 aaataacact gtattccata catagcctga tcacagtagt tgttctctct tatttcccag51541 agtttttctg cccctttaaa agaacctctg ctgttctgat ccttatcaca tctctgtttt51601 gactgttggc tttgttgttg ccagtgttca gccagaactt ctctgaaact tttttttcaa51661 cacatgctaa gttaatggaa gtgtaggaga gttttgattc tcacactcct caaggctaga51721 gcagctttgg caattactga ctgagaattt ttcattgcca gtgatcaact gaaaactgga51781 gattcctttg gaattgttaa atctgcttat aaataaacat aaatgcttgc tcacacaggc51841 attcctctct tccagagcac cctaacatac agaagaaaac aaatagggaa taactattag51901 acatcttcat tcgttaaaaa tctaccagat gactctttta catggtgagt ttctattgtg51961 aatttaaaat cttccataat atacaagaat tatgtttaca tatcatatct gacaaacatc52021 tttgtaggaa tgcaaagcac atccatcttt ctgtattctt ttccaacaaa gacattcata52081 aaattatacc tttgtgtgtt tgcatttatg cttttattag ttcaaaacgt ttggcctcat52141 ggaagttttt catcgtggaa accacatatt tctgaaaaaa tatctgacaa tatacaaacc52201 ttccattcag tttttactct ccaattctac catgttttca aaaaacaact gtagtaaaaa52261 cactcagaac tttattctgg ttaacatcat gccttgctag gggacaatag tttccctttt52321 tgaaataaat ttaaaacaga tgtaacataa tttgttaata aacaatgagg gggtaatcta52381 gaataagtaa cttttaccat atcatagttg acagcattta caagtttttt aagtccctac52441 cacacttgta ttgaatgaag aagtatggaa gattataata tattcaatgc aagtaaaaat52501 atcacaatcc ttaagaactc tttaagaagc actgaatccc atagggatga aagtgattaa52561 attgtgcata gtaaccctcg cacagagcat tcagtaggat ttgcaccatt aacaaccctc52621 catgcatttg cctgtgggca ttcaacatct gtcatttttt taagttataa tatttttagt52681 catttttttc ctctaaactc tggataatta ttattcattc ttatgacagc aactgtgtaa52741 tcagctgtcg aaacactgtg aagggcaaaa gaaagaaagc cacaaaatat tgtgtttctg52801 52861 ttggtctctt cacctttgct tggaagaaaa tatcctttcc cttcattagc caacactttc52921 ttgatcctga gagtaggaaa gggaacactg agtcttttca gttgaaggcc gtccttgcct52981 gctggacttt gatctattga agtggtgatg ggtgttgcgg tttcagccat aaaggcatct53041 ggcatagtag gcaagaaggg ccagagaccc gaggagagtt atctgtctct gttaacttca53101 gtgtatccct ctagttcccc agatgcacct gtttctgtaa atataaacat gcatgtcatc53161 agaacactta atattctgca tactgatcat gacaacaaaa tgtaccttct aacacagaca53221 ctctcactag gatagaccat gtaggaacat cgaattctat tcagttagga cagtgatgat53281 gtctacatat tatacctctg tcaaaaccta cagaatatac aacacagcac agagtgaatt53341 ctaatgtagc ctgtggacat taatgaataa taatgtatca atattggccc atcagttgta53401 acactaatat aagatgttaa taacaggggg aattgaaggg gtggtgggga gatatgttgg53461 aactctttgt gctttctgct caatttttct gtaaacttaa aaccgcacac acaaaaaaag53521 ttattttaat tttttaaaaa gtattcagag ggacttgacc tttccaaatt ctctcaaagc53581 aggtcggagt agttaagaac acaaatttta gaaccagact gccagagttt gaatcctggc53641 tacaccactt actagctttg agatttcaga caatttactt aacttctctg tctcattttc53701 ttcatctgtg tgataagaaa taaagtaaca ggccaggccc agtggctcac gcctgtaatc53761 ccagcacttt gagaggccaa ggcgggtgga tcaggagttc aagatcagcc tggccaacat53821 gacgaaaaaa tacaaaatct ctactaaaaa tacaaaaatt agctgggtgt ggtggcaggc53881 acctgtaatc ccagctactc aggaggctga ggcaggagaa ttgcttgaac gcaggaggtg53941 gaggttgcag tgagccaaga tcatgccact gcactccagt ctaggcaaca gaatgagact54001 ccatctcaaa attaaaaaaa aaaaaagtaa aaagaaaaga taagaaatat agtaccagcc54061 cctatctcag agttcctagc ttagaaaaat tcccagaata taataagtgc aatgtaaggg54121 tcagctatct tcattattat tatctatcat aaatgaaatt acacaataaa gctagatccg54181 tttctttcct ctccttctac aaaaaataaa gcaactttcc agaacaatac ccaggtgatg54241 atttctcccc tgctccctcc ctaagatatt ggcaagtttg gagggttcaa ggagaaacag54301 agcatgtaga gaagatacct ctctcataac catttgtgat ttacaagtct tacctgattc54361 ttttgaactt aaaggatgta agaaggcttt tggtagcttc catctgattc aaggctttgg54421 cagctgctgt ggaatacatg agaacactag gtaaagcact gtcttccaac atgaagagag54481 aaaaatatgt ggaatgttca atggcatgct ttgtataaga atgcaactta cctggcagga54541 acaaatttct ttgctgcaaa agaaaagaca aacaaccatt aattcagact aaatgacttt54601 taaggatata ttaaatccag atacaatatg acttaattca tcaagtgttg caaactcgat54661 gcttcagggc ctctgtaata atcagagcac aagcatggct ctgtggcatc tagggtaaaa54721 tgcaaagtgc acagccatcc aaagggcata gcagcttcct aatgccagca aatagctacg54781 gggtcatctt gcccaattca gctcccaatt tttcatgaga agtccaaagt cttaatttaa54841 atgtgagatt tcctattttg taaacgtcag aacttaactc aaaaatgttt taagtactct54901 taaacatgta agccaaacaa accatgagtg tagtcagatg tgcttccata ttccttatga54961 gagactctca aatttaagcc tgtactccaa ataaatctcc ttaggaagaa ttttatccat55021 tttccttaga gtgctcatca tggcagttcc attgcacaat tccgggaggc atcatataat55081 tcaacatgaa tagcaccccc tggagttgta caatattagg cacgactaac atttttattt55141 cctgaaacac ttcccacact gagttgtact actaactctt ttcttaatac ttctgcttaa55201 ttatactgca ttttatccag attctaatta ttgtttaaat cagtaagcaa gaccatgact55261 tatcaatgag aaagaaatgt attttcaaaa acatttttga agtacattca taaacttcct55321 cacctttccg taagcatttc cgaagccaga ggagaaatgg tgctaatgtc aggagggaga55381 gtccagcagc agaaagtcca gctaccaagg gaatgttgga ctcagtggga gctaaggaag55441 taagagacga agaaaggtca tgaggaagaa ttgatgttaa agtctctccg tcctgtccct55501 ttggcctttt ttctgtacat tcattactag gagcagaaga gctatctagt ttaatacaag55561 aagcagagat gtggcattac aggcctttga gatctgctcc aagccacctt tgaagctatt55621 tccaccattg gcaggcagaa ctctaacttg ccaagctcgt tcacaatacc acaccacacc55681 ttggttaata aacactgcac ttgcttgctc tcttgctctc actccctctt gttttccatt55741 55801 catcaacatg caacttctgt tttttctcta tccccataca acttaatatt cacaacttgt55861 caacctgggc gaactttctg gtttggatat aatgaatagt tgattactgt aacaagatag55921 ctcccccttt ttctttttaa tcaccagaca accaccatca atcaatgcat caccttcaca55981 ggtaggtagc aggccagacc agtgtcctgt ggctccacat gtccgagctg cagagccatt56041 gagcgtccat ccttcaggac aggcgaactt gcacacagtg ccaaacacgg gctccccact56101 gcagctcatg ttgatctttc ccggaactgc caggcttgaa cattttacca ctgcaaatgt56161 taggtacaca ggcagagttt cagaaaaatc tactggaaaa cttccaaaac ttgcttaaaa56221 gtcaacaatg aatgtaaagt gtaagcgcta cttagttttc agcatgtagg aaattaggac56281 caaacccctt tggggcaatc taggttcaga aactttatga agtatttgac ctgtacccta 565656565641 aaaaagtctg cactcaattc taccttggca ggaaggaacc tcttctgtcc attgtccctg56401 agatgtgcac tcaagttgag ttgatccatg taattcaaat ccctcctcac agctgaaggc56461 acaagaggac ttgtaggtga attctccaat aggggaatga gcacacctca ccaaaccctt56521 cgggggctgg tggacagcat cgcatctcac agctggaaca cacgagagag cactttagaa56581 gtttgtttgc atctccagca atacgtttcc caaggtaacc aagttcccaa gctcttcaat56641 agttcttttt atcttaaaat aaaataaaaa caaagactgt accttcacat gtgggcttct56701 cgttgtccca ctcccctgtg gggccacatt ggagcctttt ggatcccttc aacacaaaac56761 cctgctcaca ggagaactca cagctggacc cataacggaa actgccagaa gcactaggaa56821 gacaattcat gtagcctcgc tcggggttgg acaaggctgt gcactggaaa gctgagacat56881 caaaatgatg gtcagaaaat attgcagtgg aactagagag tacttggcgt ttgttgagtg56941aacccagttc attcaagcaa cacttggaga actgaagatt ctttataatt ccctggacaa57001 atgggaagat ggctgtgttt tctttgaatt tcagccccct cactgatcat ggcactaatt57061 aaaagactaa ttaatcagaa cattagttcc tgagcactgt tcttctaaca cacaaaataa57 attatggtcc aaggaaagat ttcacgcagt ctgaggacaa catatgggtc atggatgttt57 atagatggtg ccaaaaagaa agaaaagaaa gcacccctat aaaatttgtc tgttttgcag57241 tttggttttt gtgttatgtt ttgctactgg aaatcattct gtgctggctt tggctaggac57301 aaggccagtg cctgatagta aaaactgctt gttttcaata tccttgctct cactttaaag57361 tgaattaaaa tttactgctt atatatgcat caatactatc tctgtagctg acaccatgct57421 tgaaacagtc tcatcactgc taattatgag ccatttcaga agacaggtgt gatgagagtt57481 ttacattcaa atcatgttct cattattctg ctttccgaat tttctaatat gattccttta57541 gattaagaat tctgtctatt ccatgctaat gtctacaaag ttttatcagc acatcacagt57601 taaaaaaaaa cagcaaagaa ttcattctta acacatatga tcctttccct ggccaaacat57661 tagttctttt aaatgaatct caaagatacg agggttgctc atcaaatctg atttctatag57721 ttaaagtggg tattggtttt ttttttcact gtccaagttt gaagatggtt gttctttaag57781 aaagtataaa tcgaaggatc tcaagcttac cttcacaaac tgggatttgc tgtgtccact57841 gcccttgagt ggtgcattca acctgggctg gtccctgcaa catgaagcct tcctcacagg57901 tgaagttgca ggatgatttg aaggtgaact ctccagcagg ggaatggctg cacctcacag57961 agccattctg aggctggcgg acggccctgc atgtcacagc tgtaacaaat atacgcattg58021 atattagcac ggcctagaat tagcttgccc atttccagta tgggttgaga gaaagaatgt58081 tcacagtaag tctccatgtg gaacaactct acctttacac gttggcttct cgttgtccca58141 attcccagat gaggtacact gaaggctctg ggctcccatt agttcaaatc cttcttcaca58201 gtcaaatgta caggttgtgt tccatgggaa gcttccaggg ttttggaaac attccacgaa58261 cccattggct ggatttgtca cagcatcaca ctcaaccact gaggatttta aagagcacca58321 tgaattttac agaagaatga tcttttcact tcctattgag ctgggtgcct aacagagtga58381 ggaagctgcc ttcaaagggt agatcccaaa gtcctatgtc aattcttagg gacatgcaca58441 gccagaataa aagcttttat tctttttcat ggatattcta tcttttctga tttccacttt58501 gcctatgctg agtggtctct aatctatgtt atcatttacg tgaggtaaaa atttaaaaaa58561 aatagattcc agattaggag ttatgactag tactgacata cgtaggctat tcatttattt58621 tagcccatca gagcctgaag aactgatttt tctttttttg gcctctggtt cagaaagata58681 aaattaagag agaaaaagag atactaagac tgcttgacta tcatggtctt aagttagtcc58741 catggcttgg aaaagttaaa cagggaaaca agatgagaaa tccattgaga tttctagagc58801 tttattgttt tatggtctcc cttacaaatc accagagcct cagaaacacc catttcaagc58861 atagaataaa aaaacctctc tcaacccaag caggtactgg gttggcaata tacattggct58921 gagagaacaa attgtattaa aaacaaaaac aaaaaaaaaa ctttccctga agttttgaaa58981 atgtaagttg aatcaaaaaa cagaagcaat gagggatgag ttacagaacg ttctgtgcat59041 tctcagaggg atttaccatt gcaggctgga ataggagcac tccattctcc agaggacata59101 cactgcatgg tctccatgct gcttggcagg taacccctat cacagctgat agagcaggaa59161 gaattgtagc tgaagtttcc cagtgggtga ctgcaaacca ggcttccatg ctcaggggat59221 tccagggctg tacagttcac aactgaaaaa gaaacccaaa tcagttctgc tcatctctca59281 cctttaacag ataagaacac tggaaactag aactacagtt tggttttttt tttttttagt59341 ttaaaaattt ataaaatttc taatggaatt tgtaaaattg actgtaattc tacccctttt59401 cttttattca agaaaatgct gatccataac aacaacaaca aaaaagcagt gatgacaacc59461 59521 gttcaaatta tatgaacaaa cacagcaaac ttaggtacca caacaaattt cttgttactt 5959581 59581 ttctcacaac tgctaaaaat actacagtaa gcttccaacc aggatgagaa ccattcacaa59641 agctatattt caaatttaag tactagaata cattacaaat tttaaaaccc taatgctgca59701 ctgtctacta tagtagccac tatctgtgtg gctactcaaa tttaaacttg aattcgttga59761 aatcaaataa catttaaaat tcagttcctc agtgtcacca gccacatttc aagtactcaa59821 8259881 cacaaaagct ctactgcaca acgctgtgct aaggaatctt ggagagaagc tcatctaact59941 ctcttaatgt acaaatttag gaactgagac ctcatttcat tcaagtgact tgctccatgc600 tacacggcta gtcattacag agccagaggc cagagcatga accaagatac cctggactct60061 60187421 cctcgcaggg acacagaatt acagtttatt gaatgtgtcc tgtgtgccag gcaccatgta60181 accatgagcc tatgaagttc acactattat tatcctcatt ttacaatgag aaaactgaca60241 tagagagtta aactatcttg tcaaggtgcc aaaataaata actggtgaat ctaggactca60301 aacccagcag ggtctgactt catagtctca gctcacgatc accatatgac accatctgca60361 ccagggaagg gaaggcatgc agacctgact ctaatgccag ctaggacgtg agatggtgct60421 accatctcaa gtgaagaaag aggcaagaac cagacttact ttgctcacac ttgagtccac60481 tgaagccagg gtcacacttg caagtgtaat tattgatggt ctctacacat tcaccgtggc60541 cactgcagga tgtattggta caggcagcta cggaaaatac aaagcatgat gaggaggact60601 attactgtgc ttatactgag tgcctttgat tttagaatca acagtgtgca acagagacat60661 cagcagtcct acagagtgcc atagacttta actgaagtgt tttacaaagt tccaaatctg60721 agtttcaggc ccacctatcc taaaccttga tgctaatgta tagctgtggc tggcacctac60781 cgtagaaaat ttacttcttc acaaactctg aagacagttc ccctaccaca aataaacaag60841 taattaaaat atgtattgtg tgtgtgcatt tttatatgta aagaactaca tatttgccta60901 cagtatttat atatatttta tatatataca tacacacata tatgtgtgta tatgtgtgta60961 tgtatatata taaaatgtat ataaatgctg taggctatat atatatacac acacacatat61021 atgtgtgtgt gtatatatgt gtgtgtgtgt atatatatac atatccacat attcttgccc61081 acattcacac aaaacagcaa aagagagaaa ctttagcagt taaacagaat cttttggaac61141 ataaaatgac cacaatagag agcagttttt gcatgctgta aatttgccaa gatgcccaca61201 cactgaaact acctcccact gctgccgcaa actccctacc tgtgtagcat agggcaagct61261 tcttcttgct gcacctctca tcattccaca tgcccacatc tttttctctc ttgatgtaga61321 tctccacgca gtcctcatct ttttgcctat tgttgggttc acctggagcc cagttcttgg61381 cttcttctgt cagaggtttc tgggttccta cccagaccca cacattgttg acttttctga61441 ttccaatcca gtaataactt ggtgaatagc tcaatatgga gtttaggtac tcaatctctt61501 ctttgttttg aattgcaacc aggtgtgtgt acctttgctg acaataagca ctggcctcat61561 cataagtcat agcttccgtg gaggtgttgt aagaccaggc tccactctct ttaatgagaa61621 gcactagtgg gagaaaaaga aaagaaatgg tagagtttgg tactgttgtg gtttaactct61681 gacaactgtg ctttttattg tcttattttt ggcaatgttt gtgacatggc ccagactttt61741 ctcatctttt caaaagtaag aagtacgtat gaagaaacag cgacttattg tttatctctt61801 ttgtgactgc cacccactag gtaccttatc cacactcact cacaacatta tagtataccc61861 attttgtagt agaataataa tcagaataac taagctttat tgagcactta gtatgcacca61921 84 61981 ggaaataggt cattatgatc cacactttac acttaaggaa agggagacac caagaggtaa62041 agtaaatgac cccaagccca gggaagaaca cattgcaggt agaggtcaag gatgctgcca62101 gatatcctgt gcaggacagc cccagacaag caaggatatt tcagtctgaa atatctatag 46161 tgcgagaatg agaaatcttg gtctaatggc actgacttac ccaaagtgag agctgagaga62221 aactgtgaag caatcatgac ttcaagagtt cttttcaccc aaaggtttag gcttgaaata62281 ctttcctggg gagataaaac acaaaatgaa ttaaagaagg aaatcgtggg tagctagtta62 cattattcta ccatgatgtt taaggcagca tcctaagatt ttgggcaaag gacactagtg62401 caataatctt tatttcagag tttaatcaaa taaataaaca aattttaaga ctttcattat62461 ttaggtcaaa gagaaaagac aggttttagc tacaatacaa taagagcttg tacagatgtg62521 gtttttatta gaaggccttt tgcatatctg tgtttcatgg cccgaggctg cccttataaa62581 gcgttctgca cttaccgttt tgggaagcag ttgttcaaac acaggatctc tcaggtgggt62641 atcactgctg cctctgtctc aggtcagtat aggagttttg atgtgaagtc agccaagaac62701 agctgaacac tacttcggct gaggcccttt tataggaggg attgcttcct gtgaataata62761 ggaggatatt gtccacatcc agtaaagaggaaatccccaa tggcatccaa aaactttccc62821 gggaatatcc acgatgctta aaattacaat gatgtcagaa actctgtctc ttgaagctac62881 ttcacctttg tccatgcctt tatatcgtat atgcaatttt attaatatga caaaaatgca62941 63 tgatttttaa ttataataac ataaagtcta tgtctttaaa aagttgtaaa actttgcttg ttagtagtgt ctctcatgta gttgtggtag taattagaat ttcagaaaca gaaggaaacc63061 aagaataggt ttgtcatcca tagtctacta ccttcaattt ctcattcata gctgtggata63121 accaatcact actcattttt tcttcctttt tcacctgcca attcaacata tttaacatgc63181 actgtctcac agaggaatga ctcacaaggt agatattaat cttcagattt tgcacggcag63241 ttatgcctaa attaaaatat tatctaaaaa taatatctaa cactcaaatg gttaaaataa63301 tgccttattt taaaaaaaga aaaatgggaa atagatattt acatctggga aagtttcatg63361 gtttgttcag tgaaaaaaat aaaaaggagg ccaggcacag tggctcacgc ctgtaatccc63421 accactttgg gaggccgagg caggcggatc acctgaggcc gggagttcaa gaccagcctg63481 accaacatgg agaaacgcca tctctactaa aaatacaaaa ttagctgggc atggtggcgc63541 atgcctgtaa tcccagctac tcgggaggct gaggcaggag aatcgcttga acccgggaag63601 tggaggttgc agtgagccaa gatcacgcca gtgcactcca gcctgggaaa cgagtgaaac63661 tctgtcttaa aaaaaaaaaa aaaaaaagaa aagaaaagaa aaaaaataaa acggaaaact63721 atatatatat atttaattgg tcaaaatttt gtttaaaatt tttgaaatgt taatgtgcaa63781 637 63781 agaataaaaa ttcttccaca atgttaacag tgactaactc tggatggcag gatttgggat63841 aatttttata tccttcatta ttattttcag gattttaaag tttttttcaa tttccctttt63901 63 63901 tttcaccttt atagtaacaa gaatacagtt taaagaaact tgtctctagg ccaggcatga63961 tggctcatgc ctgtaatccc agcactttgg gaggctgagg tgggtggatc acctgaggtc64021 aggagttcca gaccagcgtg gccaatatgg tgaaaccctg tctctactaa aaatacaaaa64081 attagccggg gtgtagtggc gcatgcctgt aatcccagct actggggagc ctgatgcaag64141 agaatcgctt gaacccagga ggcagaggtt gcagtgagct gaaatcacac cattgcactc64201 cagcctgggc gacagagcaa gactccatct caaaaaaaaa gaaaaaaaga aaaagaaaag64261 aaaagaaatt tgtttccaaa tgcaacagaa ggagatgtat gtggtatcct atattcctgc64321 tcttcatttt gacatttctt ctgggtgatt gtatacattc cccatctctg catcttaccc64381 tatctaaatg atggtaacag taaatgggga tcattttaat ttccatattc tgtaggtttt64441 cagagctcaa gtcaagctaa tattctatat ctacagcctt tcaaaatagg aggtctatct64501 aaaaatgtac tgtcagcaga cctgaacgag tagtggtaaa agcctcgttt ttctctttac64561 ttgttagcac tggtctttct gtgttcataa agatgtcaag acccaaaaaa aaaacaagaa64621 aagagaagaa aaattccaaa aaagacaact gattagaaaa aaataactta attaacgaat64681 ttaattcaac ccctatcaaa aagcatagaa tttattccct ccaccttacc actctcttac64741 64801 tgttgcttca ataaattcag aagagtaatc actcatatag tgtttattta gattttaggg64861 cagaatgtca agttgggtta atacattatc tgtatgtatt ttatttttaa taaagtatga64921 atacataatc tgctattttt aaaaagcatg gtcaaatgta tagagtagcc aaatcttaaa64981 aaacaattta tcttcgatat caataaagta cctaataatt atattgctaa tagaaattag65041 tcgttaacat ccctagataa ctaactttat tattgcgaat ttttcataac taagtttata65101 gtttatctct tccccttttt aaaattagtt caaagatatc taaaaatagc cccagtggtg65161 atgaagtttc tattttactt acatatatat gtcctggacc cccaattata atctctaaca65221 tttattgagt gcttactatg tgccaggcca tattctgagc attttgtatg ttcacctatt65281 gattattcaa tccgtacaac agcctatgaa ataggtactc ctattatccc cattttacag65341 atgaggaaat tgagaatctg gggattttat ctcattcaaa agcacagagc taagggttga65401 65 aaccaggcag ttgatatcca gagcccactc ccttacctgc tactccaaac catgatttct65461 tttgttgtta tgccccgaga ttccttgttc tacccaagtt tcctgtactc ttcttgccct65521 cttcttcctg agacatcctt gaccatcaca gctctccact gagataactg tgtcctgggt65581 tctgagacat gggggctgga agggacccca gggacagtga gcagtaggga gaggatgcag65641 tgagaacaga ccctggatcc ccggtgcata ggcagggaga aagtggacaa aggaaaaaac65701 aagcaaggca ggtggagcca tgcctaggta aagttgatcc ctaagccaca gttcccagaa65761 gttcctgatt caaaagcaaa ttttctctaa 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gcctggccaa catggtgaaa ccccatctct actaaaaata caaaattagc caggcgtggt69421 ggtgcaagac tgtaatccca gcaactcggg aggctgaggc aggagaattg cttgaacccg69481 ggaggcagag gttgcagtga gccaagatca cgccattgcactccagcctg ggcaacaaga69541 gcgaaattcc atctcaataa ataaataaat aaatacagtg atttaacaca agagatttct69601 atttcacact aatgagctct gtcactgggg caagcttctt tgcctcatta agtctcagat69661 69721 cataatatga caaaaggtat aaatatggga aaaggcacta atttatatca aagcgttctt69781 cgtttttcct tgctgtgaag tttttagcta ataattcata agaatatacc atatttagag 6989 69901 gaaaggtaga tattaatctc attttatgga ggacaagata gagatctgga gaggttacat69961 aacttgccag tgttttttca gttaataaat ggtagggtgg agattcaatc tgtgttactc70021 taaagtccgt gtccttttta ttggctccat gcctactcag atttaaatct cagcagggaa70081 gtaaacctta gtttttacat gagaaaatgt tacagcagcc ttctcggctt cctttacccc70141 catcccagtt tcacgagctt agtgccttag atcgggttcc tttagaagca gacctcgaaa70201 taaggatgtg ggtgccagtc atttattgaa aagatgatcc caagaaagcc tagtaggaga70 gtgaggaagt gagatgggga aaggaagaaa ctccacaaga agtgtgttaa taagcaggtt70321 accgctgtgg gcagccatgg ggctcagctg cactaacaaa ctctgtctag tacagaaaac70381 ctcagggtct ccccaaggag gggcaagaag tctgcctagg gtatatatcc gccaactcag70441 tcactggctg agagctgatc ctgggagggc atggttaatt cctctgcact ttcaagtgga70501 ttcctgtggt cagaaaaagc cctctacaat gaattccaga tgcttgtatt taaatctgac70561 atgatctgaa tgctgtgttg ggacagggtg ggcgttatta gttttctgtc attactgtaa70621 cagattacta caaacctgat ggctgcaaac aacacatatt tattatgtca tagtttgtgt70681 gggtcagaag tacaggttag ctcaactagt ttctctgctc taggtttcac attgccaata70741 tcaaggtgtc atccagttgg gctcttcttg ggaggcttgg ggatgaatcc actttcaagc70801 tcattcagat tgttggcaga atccagttcc ttgtggttgc aggaccaagg tccctgttgc70861 7048 70921 tcgtgtctcc acttcacctt tcaaaccagc agcggctagt cgagtccctc tcttcaaatg70981 tctccaactg tgccttcacc tcatttctcc tctgtgtacc atgtctgcct ctactgcttg71041 taagggctca tgggattaca ttggatttat tcaatccagg ataatctcca tattttaagg71101 ctagctgact agtgatctta attccatcta caaagtccct tccaatagta ctgtattagt71161 ccattttcat gctactgata aagacatacc caagactggg caattcacaa aagaaagagg71221 tttaattaga tttacagttc cacatggctg gggaagcctc acaatcatgg cagaagtcaa71281 ggaagagcaa gtcatgtctt acatagatgg cagcaggcaa agagagagag cttgtgcagg71341 gaactcctct ttttaaaacc atcagatctc ataatactta ttcactatca caagaacagc71401 atgggaaagt cttgccccca tgattcaatt actcccacca ggtccctccc acaacatgca71461 ggaattcaag atgagatttg tgtggggaca cagccaaacc atatcaagta cctagattca 7186521 71581 tgcccaccaa ggctgggcgc ggtggctcac acctgtaatc ccagcacttt gggaggccaa71 ggtgggtgga tcatgaggtc aagagatcga gaccaccctg gccatggtga aaccccattt 7136761 aggaggctga ggtaggagaa tcacttgaac ccaggaagcg gaggttgcag tgagccaaga71821 ttgcgccgct gcactccagc ctgggagaca gagcaagact gtctcaaaaa aaaagaattc71881 tgcccatcat agtaggctgt cctacagaga cataacccag gaattaggtg aatggctaac71941 ctaaattagc actgtgatgt gttttctgac ttggtcctta tagctcctct gcttagatgt72001 ggaactaatc catgaatgca agggtttgtc tagagtttta agtgggagtt aaatatccaa72061 agtacaggag atattatggg tgcctcatcc atgtcccctt ggcatttatc tttcttggat72121 7242 72181 ataaatagac atttcatttt gccagtcttc ttgaacaata attacgatta ttaatctagc72241 agttatcatt aattggccac ttcacattag acacagcact taggacttaa gaataccatg72301 tcatttgatc atcataatat ggtcaggaat taagtattgc tatccaaatt ttacaaagaa72361 ggcactgagg gttagagttt aaataacttg cttaagatgt catagcctgt aagtgacaaa72421 actaggactc aaatacaggt ccatctgact ccaaagtcta tgttcttggc taccacactg72481 cctctcctac aagtgacctg tggttttact actatattca cactctacta actttaccat72 ctcccatgag tctgtctaga ggagggcaca cacagcacag aaaacacatg aatgcaaaat72601 aaggaagggc ctacttacta cacagagcca ttctaatacc tgatgtttgc tctaatccag72661 ttttactatt aattagttgc tggtgcccaa gtttttactg agaaatgggg ataattttgg72721 aagtcataat gatgccttct tctcataggg tattttattt gttgttgtat ctccaggccc 68681 caacacagcc tggcttttag taaatgatca aaaatacctg ttgaatgaat aaatggagtc72 acctgaaaca tgttaaacat ttgttcatgt gtcctaatcg tggatttcag gatagtaagc72901 atcctaaaag gaaagcatgc acactgttct tgctacatta atttctcaca atataaaaaa72961 agaaaagcat ctgaaaaaag ctgccagccg ctgtgtctcc taatatcaaa ctgagcacag73021 atatggagaa gctaagggag agggatgatg 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tcaatgatgt ctcaagccta gaaaaaccta tccatctgga75001 tgggtgggaa atttctaggc tagtattgag aagcccattt cttgggaaat aggtcctgga75061 ctgagtgaag gaaaagaaac agtaaaaccc atggtaaagc agcaaggctc tctagaggct75121 ctggagagga tgaattgaat tctagaagat gaagtaggga agacgcttta ccttcttgtg75181 aaatggattc aaagattcaa agaccttcgg gaatctccaa ttgtataaat ggcaccatag75241 ctgtatgttc catggaacac tacttcccag agatgcccag tgaaaaaaga atgccacagt75301 caaataagtt tggaaacact ccattatgtg gccacctcct tgaagactct aatgcacatt75361 agcatgttaa acagtcttga gaagtcctgc agagcagaaa ttgcttcaca tctgctaagc75421 cggcagtttc ccaatatact tgattatgga tagttttttc cttacaacac cattctctga75481 tatgcttcca atgacatgaa ataaatatat atgcatgagg ttcttcatta gggcatactt75541 tttaatagaa aatattgaga ataatctaaa tataaatgca cagcatttac cttttctgca75601 taaactatat acaggcatac cttggagata ctatgggttt ggttcccaca atatctccaa75661 aaccacattc ggttttatga ccactgccat aaaaccagcc acatgaattt tttggtttcc75721 75781 75721 caatgtatat caaagttaca tttttactat accatagtct attatatata caatagcatt75781 atatctaaaa aacaacgtaa acaccttaat ttaaggctgt ggctggtttg attttctacc75841 cagaccacta aaactttctt catatcagca ataaggctgt ttcactttct tactattttt75901 tgtgatagca cttttccttt ccttcaagaa tttttccttt ctattcacaa tttgtttgat75961 acaagaggac tagattttag cttatctcag tttaaggtgt ttacattgtt agctaaaaat76021 gctaatgatc atctgagact tcagcaagtc ataatctttt gctggtggaa ggtcttgcct76081 cagtgttgat gtctgctgac tgggtggctt tggcaatttc ttaaagtaag acaacaatca76141 agtttgacat atcaattgac ccttcctgtc ataaatgatt ttttttttct ctgtagcctg76201 caatgctctt tgatagcatt ttacccacag tagaattttc aaaattggag tcaatccttt76261 caaactctgg tgctgtttta tcaactaagt ttatggagta ttagaaatcc cttgttgtca76321 tttcaacaat gttcacacca tcttccccag gagtatattc tacctcaaga aaccactttc76381 tttgctcatc tataagaagc agctcctcat ccactaaagt tttatcctga gattgcaaca76441 attcagttac atcttcaggc tctacttcta attctagttc tcttgctgtt tctatctcat76501 ttgtgcttac tttctccgct gaagtcttga accccttaaa gtcactcatg agggttggaa76561 tcaacttctt acaaactcct gttgatgttg atattttgac ctgctcccat gattcatggg76621 tattcttaat ggcatctaga atggtgaacg ttttcagaag gttttcagtt ggctttgccc76681 ggatccatca gacgaatccc tatctatgga agctatagat ttataaaatg tatttctttt76741 tttgtggggg catagcgtct caccctgtca cccaacctgg aatgcagtgg cacagtcata76801 actcactgaa gactcaaact cctgggctca agtgattctt ccaccttggc ctcccaaaac76861 actggattac aagcttgagc cactgtgtct agcccaaaat gtatatcata actaatgagg76921 cttgaaagtc aaagtgactc cttgatccat gggctacaga atggacgctg ggttaccaga76981 catgaaaaca atactcatct cctcatacat ctccttcaga gctcctgggt gagcaggccc77041 attgtcaaat gagcagtagt atcttgaaag aaattttttt tctgagcagt agatctccac77101 agtggactta aaatagtcag taaactatgc tgtaaacaga agtgctgtca tccaagctct77161 gtttttccac tgatagggca aaagcagagt agatttggca taattctcta gggccttagg77221 atttttggaa tggcaaattg agcattggct tcaacttttt tttttttttt tttttttgag77281 acagagtctt ggtctgtcac ccaggctgga gtgcagtggt gcaatctcgg cccactgcaa77341 gctctgcctc ctaggttcac accattctcc tgcctctgcc tcctgagtag ctgggactac 7747 77461 tgttagccag gatggtctcg atctcctgac ctcgtgatcc acccgcctcg gcctcccaaa77521 gtgctgggat tacaggcgtg agccacagcg cccagcctgt cttcaactta aagtcgccag7758 77581 ctgtgttagc ctctaataag agagtctgcc tgtcctttca agctttgaag ccaggcatca77641 3541 77701 tatgccctaa aaatctgtcg tttggtgtag ccaccttcat cattgatctt acctagatcc77761 gctggataac ttaccacagt gtctacatca ttacttctgc ttcaccttgc acttttatgt77821 tatggggatg gctcctttcc tctaacctca taaactaacc tccactagcc tcacattctt77881 cttttacagc ttcctcgcct ctctcagagt tcacagaatt gaagaatgtt gggccttgga77941 ttacactttg gtttaaggga atgctgtggc tggtttgatt ttctatccag aacactaaaa78001 ctttcttcat atcagcaata agactgtttc actttcttac tattttttgt gatagcactt78061 ttcctttcct tcaagaattt ttcctttcta ttcacaattt gaccgtttga tatgagaggc78121 7815 78181 ctttttattt aaagtaagat gtgtgaccct tcctttcatt tgaacactta catgatgatg78241 cctggcttca aagcttgaaa ggacaggcag actctcttat taggggctaa cacagctggc78301 78 gacttttaag ttgaagccaa tgctcaattt gccattagaa gccattgtag ggttaattaa78361 tttgcctaat tttaatatta tggtgtctca gggaataagg aggcctgagt agagggaggg78421 agatggggaa acagccagtc atcagagcac acacaacatt tatcaattaa gtttatcacc78481 ttgagggcac aggtcatgat acttcaaaac aattacaata ataaaataaa aaatcattga78541 tcgcagatca ccataacaga tataatgata atgaaaaatt tgaagtattg tgagaattac78601 caaaacgtga cacacagaca caaagtgagc acatgtcatt ggaaaagtgg tgctgataga78661 cttacttcat gcagggttgc cacaaatact caatctgtaa aaaattcaat tatctacata78721 gtaccataaa aacaaggtat acctgtttat ataatcaaga ccaacagaac cctagagaaa78781 atagctcact ccctagctcg gagacattct aaccaacata cacttacctt tctttttgct78841 78 gtgtacagaa ttcaaatccc tgtctcagca aaattgcaaa gtatcaaatg tcatgtccat78901 ctaatactca aaactgcaaa tgttaagtct tgtaagccca gagaccactg tatatacaag78961 tgttgctata agcattagtt cttctccaaa gaaaatagtc cacttggtag aaacaaacaa79021 aaagaaaaaa aaagaaagaa aaaacatttt ttacaagaag attcagtctc ttacctacat79081 aagcaaaaat atgagatgtt ctcttatcat ttttccatct atcttataat ctttggtgct79141 gacttagaca ctcattttcc tttttgtacg tgaccatgta aaagttcaag tcaagaaaaa79201 cttgttttga catttgtttt gctgagtgat gggtccctaa aagaaatttg gctttgcttt79261 tgaaaagttc agcatgatat tgtgtgaatt tttcatggct aatgattttt agaacagttg79321 tgatgtgttt aggtgtttta agaatatgaa gcattcagtg gtttaagttg gttgttataa79381 aatgaaagaa tatgaaggaa agccttcttg tcttagaaca cactgattca caaataagca79441 gcttctctca aaatgttgta attacaaaaa ttccaaggca aatataataa actccttgtc79501 ggtgctatgt ctagaaactt aacagcccca aagaaagtcc tgacaaggca aaaaatatat79561 atatatatac aaattgtgga agcagggtgt tgaaagaaga ataaagacta tataaggaca79621 aactgtttaa aagggagggt atccttgaaa gcttgacact tgactctttt gacgaggctg79681 agggaaaaca ctcagtttca tagattgctg gtacggatgt aaaatagtga catccctata79741 gagaggaatt tggcaatatc tagcaaaagt gcttatgcat ttattctttg acctagtaat79801 cccgcttcta ggattagtgg tgaagataca cctcaacaat aaaaatatat atacattagg79861 ttattagtta tggtttaatt tttaatagca aaatatttaa aacaacctac atgaacaaat79921 aggagactta ctgaataaac tatggtatat ctgtacaata aagtgcaatt cacttatgtt79981 80041 aaaggggaaa taagatatgt gtgcatctgt ttatttttgt gaaaataagt acagaaagga80101 taagtaagaa actagtaaaa ctagttatct cctagtgtta gtagaaatag aatgaaagtg 8018661 80221 ttacatagtc aaaaatataa attaatcaac agaaataaca aaaaaagaag aaatcacaag80281 ctttaaaatt taatacaaac agaaataatt gaatctaaca gtatatcaaa gtgataacgt80341 aaactcagaa gaaaaaaaca taatccaaca taccagtgga acacaatatt ctaactgtat80401 acattcagtg gttatagtct aaggacaaga aaaattgcaa aaatatcttg aactttagct80461 tgtaggattt ttattggtag caatactaat gtactaattc tgaaattaat gttcgtgtat80521 tatagaattg agtaaatgaa taaatatgtt gatgttattg ggaactaaaa ttatcattct80581 gggagtagag aaatataaat atggacttgg caaatgaaac aaagacctgc agagagataa80641 ccatataaac tcattatttt aaaaattata agtgtcctag ctctgttact gaaaaggcct80701 agattcaatc ttatcttgat agacaggagg gcaccccttt ctcagaacat ggtttccaaa80761 tgccattctc cattaaaagg aacaaggtct tcttggagaa aagactgatt ctaggtctgg80821 attaggtaaa gtacaacgtt agtctggaat ttcttgctga atcagaagta agaaagtgct80881 caaaaacatg ggaacatgtc acaaacacac gtgaggcaac ttgaatcctc actggccata80941 tttaggacaa tcgagcatca aaaaaaaaaa aaatgttgag aataatggat tctaacactt81001 aaaacaaaaa ataatccata gcccacagaa ggggaagaga gggggagctc ttatttacag81061 atgaatatca aatagcaaag acagaagaaa tgacagaatt agagaaacat cattttgcaa81121 aacaccactg taataatcaa ttcaggcaag tattattaat ggatgtatta ctattgcgta81181 aaaccagttg gggaacagga tattcataca gtctgaaggt gtcaccctaa acataactta81241 ttacaagtgg aaaatggtgc ctttacaatg aagaaatcta gcagaaacca tcttaatcta81301 8128 81361 81421 agggtaaagg cagctttctc acttactaat cagaattgtt ggttttaatt cattttggat 481 tttaagattt cttactttct tgtcagctca gaaatttatt taagatgatt tttatctttt81541 attcaatact ttagcttgga gaaccattca gagtttctaa ctcattgtat tgccaaaaat81601 agaaaacagc atggtttctt ttgaaaatgt ctaactttaa agttacttgt gtgtgtcact 8186661 28 817817 81781 taacaaaaca ctattaacac aaagcatagc aatttgattt gggcaaccaa acactggaaa caacctaaat gtccattaca ggaatcattt atgaagcaaa cactaaaata tttattgtga81901 agattatgag aacatagaag acagttatga gagtaaattt gaaaacctga acacaaaact81961 tacatatact ccaattgtaa cttataaaaa atacgtgcat ataaggataa aacagtacaa82021 acaaaaaaat agttgcgtta gattggtaga attatggctc cttttgctgt cttaattttt82081 tccttttaca ttttgataca ttattttaat tttaatttta aaattcaaaa gaatttgcca82141 ctcatctttg ccacttcaag gaaaaaagaa atgtgttcga ttattctgtt cttagtatag82201 ttttggcaat ttcctcacgt gtaaaaagag aatactatta ataatttcag tatctataag82261 acaatataaa attaaagaat ctagcccagt aactggtaca tggaacgtaa ttaataaatc82321 attatggact ttttttctca cacccaagta gggaggaatc agtggtcccc tagaggccca82381 gtgtagaggt ggcagcacca atccctaggg gagaagatct tggtgatgat aattcctgag82441 cagacagtta gctgagaatt caagagcaga aaagtaagaa agaaacaact tcttgctaac82501 acctttccac ccacgtttcc ctgttctgtt gtactctgct taccctttca tggatggagg82561 cagaggaaag agaaccaagt ttgctcttag tcattcacta tgttgtttaa tctgccttcc82 atctttctta tcagttcaaa ttagaatgta gacctgaatt taaatccccg ttctgtcagt82681 tataatgtga ccctagacaa aacacattct ctgaacctca gagaacattc ttcatttgta82741 gaatgggaag attaatctat attccacttg gatggcaagt cttttataaa ctttataacc82801 taaacatgtg tgagttgcta gtatcattat gttggtaaag ttattctgag atatgataac82861 agaactgttt tgtctaactc cactagcatg gttcaggttt agagagtgtg gaattaaaag82921 gctttatcct caaatatgac ttaaatccga tttttctcat ccactttcct ccacaaacaa829 atcctcagga aatgacaaac tttacatggt taaacatcag ttttgtttag tctttgacat83041 ccacatggtt aaatcataca tttgaaaact gcttatattt gtgttgtcta tgtctaaatt83 gaaaagactt attgaggaat agaagactac acatttttca gcaaacactg cacgttttgc83161 agaatttccc caggcaccag tctccaggaa tttattggct actaacaata ctaagatatg83 gatgaatgag gaaatcaaaa tggagatctt gcaagttttg tgagaatggg tgaatggtcc83281 aaatgaagag ataagttgtg aaatattagt acaagtaaaa attatttaca atgaaagaca83341 838327 ttttgtcaat agctatgaga attttaccat tgacccagaa attccatttc tttcttcaga83401 aatacccacg taggtataca tataaaaagt tattcattac agtatcgttt ttcataggaa83461 aaagttttaa aaatcagaag ctatctaaac tatggtatat ctaggtcata gaaatcaaat83521 gactaaaaat gttaatataa gcatatgttt ttaaattaac ttggcttggg tcttcagcaa83581 aattggcttc ttaacattgc actccagagt tagacttacc cactcagtca cttatcatgc83641 aggagcagac tcctaatacc acatatcata gagcagagta ggacacaggt tctctgcagg83701 caggcaaatc ccaaagagaa gggaggaaag ggctgagaca ctgcatggtc aatttcttct83761 gaactctgca atgtacggag gtggacagtg tccacaaaga ttgctcccct ggacccacca83821 tcataataac acaacggctt tgttttgttt ttgtttttgt tttttgacac ggagttttgc83881 tcttgttgtc caggctggag tgcaatggtg tgatctcgac tcaccacaac ctccacttcc83941 tgggttcaag tgattctcct gcctcagcct cctgagtgga tgggattaca ggcatgcacc84001 accatgccca gctaattttg tatttttagt agagacgagg tttctccacg ttggccaggc84061 tggtctcaaa ctcttaacct caggtgatcc acccgtcttg gcctcccaaa gtgctgcgat84121 tacaggtgtg agccaccgcg cccagcccac aatggccttt tgtttacatc tctagtgcag84181 cactcatttc atgttctttc aagaagaata catatttcat ctttttattt tatacagcaa84241 ttagcacagt gcctggcata aggaaaatga tcattaaaag ctgggtgaaa aacctaataa84301 agctactgag gataggaact gcagaccagc atggaaagaa aactatgagc cagatattga84361 catcatcctg aaaggcagaagatttagtat aggcaagaag tatgcttttg gaatatagaa84421 aatctggatt atgataagaa aagaatcata tttgtcttat cttacctact cacttctcag84481 ttccacatgt ttctgaggct gtttgtcctt actttctttt ctgttttatc cactctttct84541 gttctttaga ttggatcatt cctattgagc tgacatcaag ttaactgacc ttttattttg84601 tccaaactgc tgttaaatgc atccagtgaa tttttaactt tatatagtat atcttttagt84661 cctagaattt ccacatgagt tttttaagtt tccatttctc tgctgagatc tcctatttgt84721 8684781 781 aaattcttgt ctgcacattc taacacctga attattctgg ggtcagtctc tgttacattg84841 ccttattaca aaaacagtat aagtcacatt gccttgtttc ttaatatgca aaatgatttt84901 tgattgcaga ctagacattt tgaattaaac attatagaga ttctggattc tcgagagagt84961 attgacttgt tttttccatc aggcaggtaa cttgactgga ctcaaactcc aaactctagg85021 tcctctgtaa tgggcaactg cagtaatctt tgtttagttc tttaagactt attggccagg85081 cacgggggct catgcctgca atcccagcac tgtgggaggc caaggtggga ggatcacctg85141 aggtcaggag ttcgagacca gcctggccca catggtgaaa ccctgcctct actaaaaata85201 caaaaattag ccgggtgtgg tggtgggcgc ctgtagtccc agctactcag aaggctaagg85261 cagaagaatc acttgaacct ggaaggcaga ggttgcagtg agccgagatt gtgccactat85321 actccagcct gggtgacaaa agcgagactc cctctcaaaa aaaaatttat tggcactgct85381 tggcatctgc tatgaataca tgaagttcat gggtcagcta tagatctggg cacgttatac85441 acagaatttg ggtctccctt tctctggatt tctccttttc tggatttctt ttctcatttt85501 ccagcagctg tggttgccct aaactcggtc ctctgtttct ttacggcagt aagatttggg85561 aacttttagg ttttacctgc ctctcagaca aaataaaaaa taattttcat cttgatgcta85621 ctcctttctt ccagatgtag acacctctct aatttccagt tgctttttat tgctctccag85681 agtctaaaga ttatcattgt tttctgtggg agagttggtc tgataaaaac tactccccca 856328 85741 aaactggaag ctggaagctt gtaattatga atagactttg agtagtattc ttctttggaa85801 aaggatttta actactccct atgtacttct ttatttcctg tttttctcat ccgtaatctt85861 tttattttca tacttcctaa gtcagacaat tttcctactt gaagattcag tgactgctat85921 caaatgaccc ccatattact aaatacaata tccccaactg catttataaa aagaaaattt85981 8604127 taatcaaggt tagaatccca gattctaact tactagctgg tgtattagtc ctttctcatg86101 861 ctgctaataa agacataccc cagactggga gactgggtaa tttatgaaga aaagaggttt861 aattgactca cagttcagca tggctgggga ggccttagga aacttacagt catggtggca86221 gcaaggagaa gttccaagca aagagggaaa agccccttat aaaaccatct gatcttatga86281 gaactcactc actatcacga gaacagcatg agggtaactg ccctcacgtt taattacctt86341 ccaccagttc ccccccatga cacatgggga ttatgaaagc tataattcaa gatgagattt86401 ggcatttcca tacatcctcg gaaatctaag ccgcggaggt tcccaaactt caattcttga 86461 tcacatttca aaactcaatc atgccctccc aactgtcccc caaggtctta actcattcca86521 gcattaagtc aaaaatccaa gttcaaagtc tcatctgaga caaggcaagt cccttctgcc86581 tatgagccta taaaatcaaa agcatgttag ttacttccta gatacagtgg gggtacaggc86641 gttgggtaaa tacactgatt ccaaatggga gaaattgcca aaacaaaaga gttacagacc86701 ccatgcaagt ccaaaaccca atagggcagt cattaacatt aaagttccaa aatgatctcc86761 tttgacttca tgtctcacat ccaggtcaca ctgatgcaag aggtgggctt ccaatggcct86821 tgggcagctc tgcccctgtg gctttgcagg gtatagcctg cttcctgttt gctttttcac86881 58 aggctgacat tgagtgtctg tggcttttcc atgagtatgg tgcaagctgt tggtggattt86941 accattctgg ggtctgggcc aggtgcagtg gctcatgcct gtaatcccag cactttggga87001 ggctgaggtg ggggatcaca aggtcaggag atcgagacca tcctggctaa cacggtaaaa87061 cccagtctct gcttaaaaaa tacaaaaaat tagccaggcg tggtggtggg tgcctgtagt87121 cccagatact tgggaggctg aggcaggaga atggcgtgaa cccaggaggt ggagcttgca87181 gcgagctgag attgtgccac tgcactccag cctgggcgac agagcaagac tccatcaaaa87241 aaaaaaacaa aaaaaccatt ctggggtctg gagaatggta gcccttacag caccaccagg87301 8287361 cctagtagag gttctccatg agggttctac ccctgcagca aacttctgcc tggacatcca87421 ggcatttcca tacatcctcg gaaatctaag ccgcggaggt tcccaaactt caattcttga 8681 8687541 aaccctctga agcaatggcc tgagctgtac gttgacacct tttagcctag acatctagga87601 cacagggcac catgacccga agcttcataa agtgggaggg ccttgggact agctgaggaa87661 accatttttc catcctaggc ctccaggcct gtgatgggaa gggcagccat gaaggtgcct87721 gacatgccct ggagacgttt tccccattgt cttggtaact aacattcagc tccgtgtgca87781 gcaccaactt acttatgcaa atttctgtca ctggtttgaa tttctcccca gaaaacagga87841 tttttctttt ctattgcatc atcatgctgc aaattttcaa acttttatgc tatgcttcct87901 gttgaagact ttgcggctta gaaatttctt cccccagata cccaaaatta tctctctcaa87961 gttcaaagtt ccacagatat ctaggggaca aaatgttgcc agtctctttg catagcaaga88021 gtgaccttta ctccagttcc caacaagttt ctcatctcca tatgagacca tctcagcttg88081 gacttagttg tccatgttac tatcaacatt ttggtcaaag ccattcaaca agtctctatg 4641 aagtttcaaa cttccccatg ttttcctgtc ttctaatagc cctccaaatt tttccaacct88201 ctgtctgtta cccagttcta aagtcacttc tacatttttg ggtatcttta cagcagtggc88261 actccccatg gtactaattt actgtattag tctgttctca tgctgctaat aaagacttac88321 tcgagactgg gtaatttata aagaacagag gttcaactgg ctcacagttc agcatggctg88381 ggaggcctca ggaaacttac aaacatggtg gcagcaaaga gaagttccaa gcaaagaggg88441 aaaagcccct tataaaacca tcagatcttg tgagaattca ctatcatgaa aatagcatga88501 gggtaactgc ccccatgatt aatttacctc ccacagggtc cctcccatga caggtgggga88561 ttatgggaac tacaattcaa gatgagattt gggtggggac acagccatac catgccagct88621 agagagcctt aagaaagtca cctaatctcc acaaataaaa ggtttcctat ttgttcaaca88681 aaaataatga cacccctttt atgggatttc tgtgaggaca aatgataact aacatagcct88741 tgcatagtgt ctggcacaaa atagctactc aaaaaataat agaaacaaca tttaaaaaat88801 gtagacttta ttttttagag ttttatgtac aaagcaaaat tgagcagaat gtacagagag88861 tttccgtata gcactcccta cccccaagca cagatagcct cccccagtat cagcatcccg88921 28 88987 89041 atgtataatg acatgtattc accattacag tatcataaag aatagtttca ctgtcctaaa89101 aatctttgat cttcttccta ttcatcactc cctccccatt aatccctgac aactactgct89161 aattttcctg tctccattgt tttgtctttt cctgaatgtc atatagttta aatatacagt89221 atgtaggatt ttcaaactgg tttatttcac ttagtaatat gcatttgatg ttcttccata89281 tcttttcaaa gcttcatagt tcaatattta tagaattgaa taatattcca ttgtctggat89341 gtactacagt ttatgtattc attcacctat caaagaacac cttggttgct tccaagtttc89401 aacaatcatg agtaaagctg ctataaacat ctatgtacat gtttttttgt gaattgaaca89461 ttttcagctt ttttagctcc attcctagga gtgcaattgc tggattgtat gataagggta89521 tgtttagtgt tgtaagaaac tgccacgctc ttcctaactg gatgtactgt tttgcattct89581 caccagcaat gaaagagttc ctgttgctcc acatactcac cagcatttgg tgtcgtcaat89641 8948 89701 atgacagata atagagaaag gatatacgag gacagttctg tcctttattt atagtccatc89761 atttaatgaa ggactctgtc cacacttggt atttttaact ctgatcctcc tctcccatga89821 actctgacaa tctcctaaat ccctgttgct ggcacacatg gttgtgtatc aggccccctg89881 tggtctgtct gaagcatggc tttttttttt tttttttttt tttttttgagacggagtctc89941 gctctgtcgc ccaggctgga gtgcagtggc gcgatctcgg ctcactgcaa gctccgcctc90001 ccgggttcac gccattctcc tgcctcagcc tcccgagtag ctgggactac aggcgcccgc90061 caccacgcct ggctaatttt ttgtattttt agtagaggcg gggtttcact gtgttagcca90 ggatggtctc gatctcctga ccttgtgatc cgcccgcctc tgcctcccaa agtgctggga90181 ttacaggcgt gagccaccgc gcccggcctt tttttttttt tttttttttt tttgagatgg90241 agtctgtcac tctgtcaccc aggctggtgc agtgatgcaa tcttggctca ctacaacctc90301 catctttcag gttcaagtga ttctgccacc tcagcctccc aagtacctgg gattacaggt90361 gcccgccacc acacccagct atttttttgt atttttagta gagacgtagt ttcaccatgt90421 tggccaggct ggtctcattc ctgaccttga gtgatccacc tgccttggcc tcccaaagtg90481 ctgggattac aggcatgggt catcacatgt ggcctgaagc atgactgttg ctttaatcat90541 atgaaatact gctctgtatt gttatctatt tgaaatgcca cacctcctga gctaaattgc90601 aagcttttat ggagcacaaa ccatatttat atatattagc atgataccat gacacatatc90661 aaaagctgtt atatattgtt acgtgaattg attctttctc agttaagagg acctctgtag90721 tagcactttc ataccgttaa tttttcattt tgtgcccagc ccctactctg tgaaaaatga90781 aatgaatcct gttatcattt ccctcccagg ccttttctcc ttgtggacaa tgtgtggctc90841 aagagaaaat tcagtcagta aatttgttca gtgcacaaac tctttatcac ctctcactgt90901 tctcaagtga gatagaacag aacatccatc cagtgtctta caaattgtct ggtatatagt90961 aggcactcaa taaatgtttt ttgaataaat gcatacatga atcctattcc tatatatagt91021 atggtagaca gatcattgat acccaaagat gcccaaatgc tgatccccag aacttgtgaa91081 tatgttacat ttcatgtcaa aagggacttt gctaatgtga ttaaggattc agacccttgg91141 attgtaagat tatcccggat taaccagggc caatctaatc acatgagacc ttaaaaaagc91201 agaaaacatt tcccagctgg gttagagaga gatgagacag agtaaaaagg aaagagattc91261 agggcatgaa aatgactcta cccactgttg ctggctttga agatagagga actaggccac91321 aaaacaagga gtatgagtgg ccttaagaaa taggaaaaag ccctcatctg acagccagct 381 agaaagcagt cctctgacca caagaaattg gattctgcca accactcaaa tgagcaagga91441 aatggattct cccctagaac ctccagaaag gaacacagct ctgtaatgcc ttgattttag91501 ccaggtgaga cctgtttcag acttttgacc tatggaaata taagataata aagttttatt91561 gtatgctgct aaatttgcgg tagtttatta ctgaagcaat ggaaagccaa tacagacaga91621 atatacagag agaaagagaa tgagttcttt cctgataatt tgtaaatatt tgggtcttca 681 ctggacaagc ttcacagagg attcactggt tccctagcaa accagcatgt ccagtcctgc91741 agcctccctt tcttaggccc agcatatgtc agctgtgtgc atagaaaaat caaagcagga91801 91861 agaggtagga gaccggcatc tctttctcat atgtcccagg ctgactcttg tgagttgttt91921 tcccttggag gctatcgatg acagtcacag taacctgatg gaacctggat catgatgaaa91981 gaagtaagtg tcaatggctc cgacttccaa ggactctgat gtcccacagc actagctaaa92041 caaagccagt tggaaatgag cttaaatggg gaatttcctg aatatattcc ctattgttag 92041101 gaagccaggt tggcttcctt gcctacaatt atgccaagca gtcacactat agagtcccta92161 gggacatgat attaagtgat tcttttaaca caaacaactt aataatcatt tatactaata92221 gcaaaacggc caacggctga tattccactt gaagtagaat tggctatcca actggaagag92281 aagacaggaa gacgtgatct ccagggagcc actaaaagga ttggcacctg cctctggatt92341 ccccttttcc ttatattacc tctcagcact ggcaggcctt tatttcagga tacagtttca92401 caagtattat gtcacgtctc tgagaattat gttggtagat atttgctcct ctggccagaa92461 agacctagtt tggagtctgg agtcatgaag gtgacataca tgtagctagt gacataagtg92521 tagctagtaa aaatagtgag taatggccct gaaattctat tgaatgccca aagtgctgac92581 caggaacaag catgctctag cttatctcac aaggaacttg acaattttct tcaaaaatcc92641 641 tagtagctaa gatttcttag taacaaagcc actaaggcac aattatgatt aacttgaccc92701 5892761 cacactctgc tatataagat taattgacag tgtccacact ggtaaaataa gttgtttcat92821 aaatacatta gaattcattt gcactttcta cacagcccca agtccagaac tttccccaga92881 ataggtctat gttttgcaat ctgctactcc atacagagat ttgagttcac ttggcaattt92941 agtgctgctt atatgtgacc agttagtctg ttttacttat ctatgcctta aacattacta93 tacttactaa ctccaagatg cctggtctca acttgacaaa aataccccaa gttgggaaat93061 ccttatgtga atatgtagat agtcacaatt gctggttgat gatgatctgt cttttcctgt93121 atttgagaaa atggagataa aatggaccaa tccaaataat ggattaaaca tgggaatagg93 tgagagagag agaggaatac atggtggctc tcagtgtctg gcttaggcag taaacacttt93 cgttaataaa gacggaaaat aaaaaaggaa taattggtgt ctaggggaaa ataatgagct93301 9337 agttggaagc aacgttccgg agcttaggag agaggcatga ccaaaagctg gtgggactgt 933672 gaaaaggtat ggccattctg gaaaactgtt tggcagtttc ttagaaaatt aaacatgtac93481 taacaaccca gcaattgtac tcttgagcat ttgtcccaga taaatgaaaa aaaaaaaaag93541 catttttttt acacaaaaac atatacatga aagttcatag aagtgttatt cataaaaaac93601 tggaaaaaac tgagatgtct ttattgagtg aatgcttagg caaacggtgg tctatccata93661 caatggaatt atgcttagca ataaagagaa aagaactatt gatacatgca ataacacaga93721 tgaatctcaa aggaattaat gctgagtggg aaaaaaagca catctcaaaa tggtatatac93781 tgtactattt tatttactta acattttaaa aatagcaaaa tcatagagat ggagaacaga93841 ttaatgggta ctgtgttttg ggatggggag tgagaaaagg gtaaggtgta aatataaagg93901 ggtagcacaa aagagccttg tggttgaagg attctatgtc ttggttgtag tcgtgattgc93961 aggaatctac atgtgataaa attgtatggg tctacatacg catacacaca agagcatata94021 aaactggtga catgtgaaga agctccgcac attgtgccaa catcagtatc ctagtttcaa94081 tatcagacta cagttataca aaacattgtc attgagggaa actgggtaaa gggaacacag94141 gacatttggc atatattttt gcaatttcct gtgaatccgt aattatttaa aaataacaga94201 tatactacat atcaaaaatt taatgtcata aagttgatga gtttacctag tggatagctt94261 tgttaatatc tgctataaga ctactgaaaa tgacagttat gcaagtataa gctcagagaa94321 ctttcctccc ccttcgtaaa tgaaatgagc aaaagaaatg aaacaggaaa ggcaagcagt94381 actgaaaaca gggaagggct cttccccata taactatatc tgcgacttca acagctattc94441 atccagaaac acagcctctt gcgctaagag gaaactttgg ataacaatat gttttcactc94501 tccaagagag aaaatggata gattaatttt taagaaaaaa aaaaaaacct caccaatttc94561 atgctgtggc ttgcaccttt aatcccagct acctacaagg ctgaggtgag aggcttactt94621 gagcccagga gttcaaggct gcaatgagct atgattgatt gtgctatcgc actccaacct94681 ggagtactaa gctaagagct aagaacacag ctgagagcgg agaagaaaca aacaaatctg94741 94 accaataacc cccactcccc tcattttact ggagtgagct gagactgctg gcaaacatgg94801 cctttgacct agcctgaact gtagcaaaag tcatcagata tttttccacc aatcaacaga94861 cagaagtggg gagaaaacaa tcgtagttca taactacaac aagcagataa acgaaggcca94921 tggtgaggga tggaagacat tgtgatatat caaaggcagg ctcatttaaa actcaaccca94981 aattccaaac aaaatatata attgaatatg tattaatgcc aaaggagctt gagtgagctt95041 tagcacaaac cccgccctcc agcccccacc caaaaaaatc actctgttct ctccccattc95101 tttgataggc atacttgctg ttttctcaca gccaaggtac agaggggact tagaggaact95161 agaactctaa tacactgcta gcaggaatgt aaaatgaagc atctacttca gaaaaccatt95221 ttatcagttt ctagaaagtt aaacatagac ccaccatgca gcccagccac tctactccta95281 agtatttaca caagagaaat gaaaacgtgt ccccacacag ttgtatttaa aggtgatggt95341 tagccttgtg tgtcaacttg gctaggctat aatacccagt tactgaatca aatagtaatc95401 taggtgcatc tgtgaaggta ttttgtagat gtggttaaca gctacaatct gttgacttca95461 agtaaaggag attgctcttg atagtatggg tgggcttcat ccaatcaatt gaaggcctta95521 agagcaaaaa gtaaggtttc ccggagagaa agaaattctg cctcaagact gcagcctcaa95581 95 95581 ctcctgcctg agtttccagt cagccagcca gcctaaagat ttgctaggca ttataatcac95641 atcagctaat ttcttaaaat aaacctcttt atatatattg atacaatgaa tggttatagc95701 agccttattt gtaatagcca caaactggaa acaacctaaa tgtccttcaa taagtgaata95761 cataaacaaa ttgtggtata tccacaattt ttacgcagca gtaaaaagga ataaatggtt95821 gaataaggaa taaacacata acaaggatga accttaaaac cgtaaggctg aatggaaaaa95881 gtcagacaaa actaatacat actgaataat tccatttata ttgaagttct agaaaatgag95941 gactaaccta tagtaacaaa aagcagaaaa attttgccca ctggtgatgg agggggcgca96001 ggtattgtag agtatctgag aaaggacaac tggataaaag ggggcacaag aaaacttttg96061 agggtgattg atatgttcat tatcttgtgg catggtttca taggtgcata catatgtcaa96121 aacatcaagt tatacacttt taaaatgttc agtttactgt atatctatta tacttcagta96181 96 96181 gagaggaagg aagaaagtgg gcagggtggg ggagaggaaa ggaaacgagg gaggaaaggc96241 cctaatagga aggattttgg agtttagatt ttaaaatgat aaaggatgtt tgacactcta96301 ggcatatgac gaatatagga ttatgagtcc acaaaaacca ccaggaagtc atgtatgttt96361 atacttttaa gtgaaggatc agtggattat caactcccta atgctttgcc tctctatgac96421 tggctgctgt ccttctcatc ccaatactcc ttccaaagcc ccttgcttaa atgtaagcct96481 tctttcctcc tttcaacaca tcctgcattc cgtgacaaaa taagttttcc ttaaacagaa96541 tgtacagcat attatttgta caattaaaaa tttttggcca ggtgtgatga ctcatgcctg96601 taatcccagc aatttgggag gccgagatgt gtggattacc tgaggtcagg agttcgagac96661 cagcctggcc aacatggtga aaccctgtct ctactaaaaa tacaaaaatt agctgagtgt96721 agtgtggcag gtacctgtaa tcccagctac tcaggaagct gaggcaggag aatcgcttga96781 acctgggagg tggaggttgc tgtgagcaga gatcagacta ttgcattcta ggctaggaga96841 cagagtgaga ctcggtcccc aaaaaaaaac acattttttt ttaatgtttc ctccttgcct96901 gtaggaaaaa ggctctgact ccttagcctg ggcatcagag ctctatctaa atggacttta96961 acctgatttt gtggcactaa ttccattgca gtacttgtcc gctcactggc ctgtgcctct97021 ctgccactat ttttggaata atgtcctctc tccatcttgt ttactcaact atatccaacc97081 tctaaggctg tgctcctaca aagcctcccc tggctacttc agcccacaga gatatttaac97141 tgctctgcag ttcaggacat tcttctgact ctttaaatca catttactta tatatgatct972 tgtgatattt tttgttgacg tgtttacttt aattttcttc cataacctat tcattcaaca97261 aactcaacaa ttatttatta aatgccaagt tagaaaaata ttattgattt tatatagatt97321 atagatatgt ttgaaatttt atttggcaat ctgcaagtag aaaaataatt ataatgtggt97381 atatctgtga tagaagtatt agtgcagaga ccatggggaa cataatccag cctggaagtt97441 caggagagat acgtggaaga aaggacgtca gagccttttt cctacaggca tggaagaaac97 attaaaaaaa attttttttt ttgagatgga gtctcactct gtctcccagc ctagactgtg97561 gtggtgcgat ctctgctcac tgcaacctct gtctcccggg ttcaagtgat tctcctgcct97 cagcttccca agtagctggg attacaggta cctgccacac atggatgata aatatgatca97681 tattttcttg ttcttttcct cctcagttgt cttccctgaa gaaaggaatg ccttttatag97741 atgacaaact cccattctca agaacaagga tttttgacca atttaattta atcagatgtc97801 tggctttgac ctagaaacac agtcacgaaa cttggtgatt agagaccaat tcccaaacat97861 gagcatttct taggaaacac agtaaagatc tgagagaccc aagagcagaa gggcgagaaa97921 ccaaaagcca tcagtttgca taggaaacac cttgtttagc ctaatctttt tatttttatt97981 actctattag tcactacaac tattttctga ttgctatggt gatagatggt ttaaaacaag98041 ccttcattaa gaattgtcac accatggtct cagtcaaaaa caccaacatt tttattggta98101 ttgacaatta tgggaatatc caattccaag aagacaagga gacctctgaa ctttctaaat98161 gaagactcca atcttcctga tctgatggga agcagcttgg caagattacc aaccaccacc98221 acagagagtg gactctaagc taagacttaa aagataagta gaaattatcc aggtaaagat98281 gtgtacagag aaggaagtac atccagggga aaagaacaat acgtgcaaaa gtacggaaat98341 9898 98341 ggtaaaaagt aatactacat agtcaaagcc aagcagagtt cagaagggat ctggtggtga98401 98 98401 aaaatacggc tagagaaagc agcaaggatt ggcttctaaa acctatgtag tatcttggac98461 cttaccctaa atgtaatgag aagcttctaa agaatctttc atttattcat tcattgaaca98521 aatattttga ggctttctgt gaagaacatc attctaagta gtaaagatac agcagtgaat98581 581 98581 aggacacata aaatcctaga tctcacagaa ttgacattcc agagagggaa aggtagacaa 98641 taaatacata aacaaatcat ttaacaagat gatttcagac aatggtacgt actgtgaaaa 98701 aaatgaaacaaggtaatgga cagcgaaaag gcactggaag gaagcctgct tacctttgca 98761 tggttagaaa agatctctct aagaaagaga ccacatgtga gctgcgacct gaaggatacc 98821 gagaagctag gtgtgcaaag atgtggggac agaacttttg gactgaatag caaatacaaa 98881 tgcccttggg tgcaagcttt gcctgttcaa ggaccaaaaa gaaggccagt gtgcctgcag 98941 catactaagc acagaggaaa acactgttat atgctgagat tggaattata agtagagcca 99001 gataatatag tctcttatag gtcataataa ggcaaccaga ttttattcca agaggattta 99061 aaaatcactg gaggttttgc actagggtga gaggtgtgat ttgtattttt aaaagataat 99121 tctggagaat taactataat gaggtaggag taaactaagt taggggctat ttcagtggct 99181 cagacaagag ataatggtag cttagactag gatagtagtc gtagaaataa ataaaagtgg 99241 cactctactt tgggggtaga gtctataata ggtttggttt atggatcata tatgagagta 99301 aaaaaaagaa aataaattaa taatggttcc taggtttgta cctgagcaac tgaataaatg 99361 ggtgctgtga attgagataa aggagattga gaatcacagg ctttgttttg caaattaatt 99421 ttgagaggct tattagacat cccagtggag atttcaggtg agtggagccc attgaaaggt 99481 aagggacagg gtcaggtgtg gtaggtcagg cctgtgatcc caggactttg gaaggccaag 99541 gcagacagat cagttgagct caggagtttg agaccagcct gggcaacatg ggaaaaccct 99601 gtctctacaa aatatgcaaa atattacctg ggcatggtgg catatgactg tggtccaagc 99661 cacttggggg gctgagatgg gaggatcact tgagtacagg aggcggaggt tgcagtgagc 99721 caagatctcg ccactgcaaa ccagcttagg tgacagagtg agaacctgtc tcaataaata 99781 aataagaaac gtaagggaaa aggaaattaa tctgatcatt ggcaaatgca tagtatttaa 99841 agccagggga gtagatgaga tactcaaagt aggtgaagat aaggaggcaa tgaaggccta 99901 ggactctggt gtacatttag atggttataa gaggaataga aactggcaaa ataagtaaca 99961 ctgagcaccc aatgaggtgg agaggaaagc caggagatga agcatcatag aaggcaagag100021 aagaagggtg tcaaagaggc gaggcagtca tcaacttctg ggcagtcaaa taatataagg100081 acagaaaagt gaccattgga tttggaaata tgatgagcac tttgagtgga gtgttgagac100141 agaagaccaa ttagagtaga ttgaggagat aacgagaaat gagaaaatgt aacctgcaag100201 cacagacaat tcttgagaga cttttctgtg aaaggaaaca gacacagagt cttagcatgt100261 cttgtctttc tatgggaaat gtaaatagtt tgagatcagg gatagtattt tattctgctt100321 tttgtacctc tacattacct agcatagagc tagctaatgt gcacttaagt atgttctcaa100381 ttcttatcgc ctgaatgact ggatgggtga aagaatggat ggatggatgg atggatggat100441 ggaaggatgg atggatggat ggaagacttc tgatttgcca agaagaggat actggtagca100501 gaaataaaaa cagcactgga gaaagaagag tttagatttt tattctttgg tgtcagttag100561 acaggaaagt aagacattag aagagtcctt agataattta tgtaattgtt cacttaggat100621 ttttaaatgt gatcactgat attggacatg ttcctagtga agcatttttg gtgtttcact100681 ggttgaagtt aataactgta aaattatttc ccgttcagga cagaaaaaca gaaaacttga100741 agctcctatt agaaagttca agattctctg gggttcttag gatttactgt tcccaaaact100801 ctgtcaagaa caagaaaatg acctgtatac ttaactggtc taggcaacag tggaaagaca100861 attctcagag aagatttgtt ttaagaagac actttccata ggaatcaaac aatagctttc100921 agtgactaac atggtaagac acagggtgtt agctctttcc ttccaacctc atggctgttg100981 taccttacct ttcgaccccg tgttcctgaa attgttaaat tcataaactt accaaggact101041 aaccagcctc tggggaattg ctgtatactt agcaaactta caatggacat atttataagc101101 cataatgata actgactaat aggaaatacc ctcaactgaa aatgagagat catcatttgc101161 aaatgagttc ccttgcccag gcaactactg gggaaaatgt catgcaagca aaattaatct101221 ttgaaatcct ccttttccat tttttgtgtc ttccttttcc ataggcacca gaaatatcat101281 ggtgcctgga tctcatctct acagaaaaaa aaagtgattt gataaactga tttatattgt101341 101 101341 gtccaaatgt gattgtattt tcaaagataa cctaagggga gaatgctgtc tggcccaaca101401 gcaggctctc gacttcattt cagacactgt ggccaatggc tgggaaacag gtatgaacag101461 taggtttctg agtcccctgg aattattcca tttatgtagc cacctccatg acaggaagcc101521 101 101521 tccctactct tacttcccag tttgttcatt catggcacca ggttgcagat taaaatttgc101581 tcagtgacct tttatctaat aatgtgttac cttcttctct taaaaagtac aagggacaaa101641 tgctcatggt atacttttag gagattgtgg ctctctatta acagtattta ttcaacaaac101701 atttattgag catttatatg tgcatcatgc tagggactgg aacctagtaa gtgtagcaca101761 tattatttca tttaatcctc acaacaaacc catgaggttg gttttatgat cccaattttt101821 cagaagaaga aactgatatt cagaaccagt taactaactg gttcaaggtc atgcaatttc101881 10139881 101881 taagatacag aaccaagagt caaagacatg attttaaacc aaagcttttt ctgctactcc101941 acattgcttc cctaggtgag atctgaggca ttccgcgaaa agagaagggt cataaagcca102001 agggaagaca agcttaggaa aaaaaaggga aatgtcctaa ataaacagct ttcctattta102061 ccagaaacca ctagtttaaa aatataatgg gaaaaatcct attcacttta acaatgttaa102121 aaaaaaaaaa gatagaagaa acatagggat aaacttaaca catttgtagg atatgtaaag102181 aaactaaaag atgttaataa tggcctaaag aaaaaaaaac ttacatgtat ggggagatag102241 accatcttac tggattctaa tatttaatag tctaggtgtt ccatttctca ccaaattaat102301 gtatacattt aatacaatgt caaacgaaat atcttaggaa ttgcttacaa attgtcagat 4661 aattacaaag tttacctggg aaatataagc atatatgaag agtgaatggg accccaccac102421 tccccccaaa acaaaaaagg tctgaaaagg acagaaatca aggagagtct tgcctgccag102481 atacaaaatt ctattataaa ggtgtattga tgaaaacaat ttaatactag tgtagcaata102541 ggcagcaaag caatgaaaca gcataaaaag accagaacta tacctaatta tgatgaagat102601 ttaaggtatg ataaacatga cataattcaa atcagcagaa attggcatag atagggttaa 1025924 102721 gacaaatagc taatcattag aggggaggaa ggaaaggagg gaggataaaa ttaggttcct gccttcatct tacattaaaa taaattccag atgtattaca tttaaatttt tttaaaaaaa102781 781 gaaaccacaa aatacttgaa gaaaatataa gttgttatat agtcttttga tgggaatttt102841 tttttttttc agagacaggg tcttgctctg tcacctagcc tagagtgcaa tggcatgatc102901 atggctcact gcagccttga actcctgggc tcaagtgatc ctcccagctc agccccccag102961 gtagcaggaa ctacaggcat gcgacacccc atccaactta ttttttattt tttgtagaga103021 caggggtctt gctttgtttc ccaggcttat ctcgaacttc tgccttcaag cacctcagcc103081 tcccaaagag ctgggctgat gggacatttt ttaacatagt gccacattac cataaatgaa103141 103201 103 taaaaagcaa acacaaaaaa tttgtagcac ttatgacaaa tatatgtata tatatgaata103261 caaaaagagc ctttacaaaa cagtaagaaa acaatgaata ctcccaatgg agtattcaaa 1033672 actaaactgc taaaagcaat tcaaaacaaa aaacataaac tatgcatata tgtatgtgaa103381 10346381 103381 aaagtttaac cttatcaaag aagtaaactc tcaaagaaat aaacatcaaa taaggaaata103441 gccttttccc acaaataacc aaaatctgta agaatactga gctgcgaatg tttcagaaaa103501 aaaaaaaaat catacaccta gttcggcatg taattaatat agatcagaac actttaaaaa103561 tatttatagg ccaggcacgg tggctcatgc ctataatccc agcactttgg gaggccaagg103621 cgggtggatc acctgaagtc aggagtttga gaccatcctg accaacatgg tgaaaccctg103681 tctctactaa aaatacaaaa actagccagg catgttggcg tatgctggta atcctggcta103741 ctcgggaggc tgaggcagga gaattgcttg aacccaggag gtggaggttg cagtgagctg103801 acattgtgcc actgtactcc agcctgggcaacaagagcaa aactctgtct caaaaaataa103861 taataaataa aaataaaata tttatatact ctgacccatc aatttgtcca gcataattag103921 gcatgtgtac aagggtttac acacaagaat gcctattgca atattgcttt taatgctaaa103981 aaaaattggg gaaaatgctt taaaaatata gattaagact gtacattgtg gtacagtcat104041 ataatcaata gtatacagct attatttatt ttcagccact gtccaaaata tagcctggcc104101 104 104101 taacaacatt ctgttaggat acgcaagcac cgtgaggaga tcagctataa agtatcagtg104161 104 104161 tttcacacca ctgctccttt gctaataacc ttcaatggct tttaaagaag taaaaaacaa104221 104 104221 aggcaaaatt ccttagtcag cccttaagac tctctgttac ttagctcaaa ctaccctttt104281 104 104281 caacaacact gccctaacca ggatgagttt tttgcccccc tggagtacat tcagcctttc104341 104 104341 cttatcaaac cttcctttaa ataagtatct tctccaggac cacttcactt tcttccccaa104401 tttagcattt tctatatctc caggcctacc tctataaagc ctgtcctaac cactcaaacc104461 ctagcttttt ctctgaactg ctagaaatat ttttctctca ttggccattt aggtaaaaag104521 gtttttactg tttattacct actcaataaa aattttcttt ttttgagaca aggtcttact104581 ctgtcgccta gaatgggggg aagtggtgtg atcacaactc actgcagctt ctacctccca104641 gctcaacagt cctcccacct cagcctagtg agtagctgtg actacaggca tgtgccacca104701 104 104701 taccccacta cttttcattt tttatttttt gtgagatgga atctcactat gttacccagg104761 ctggtctgct gatctcaatt gatcctccca ctgtggcctc ccaaaatgct gggattacag104821 gcatgagcca caatatctgg ccccagtaag cttttaaggc cattaacatg aggaacagtg104881 ttctttacac tattttatca gctagggctt tgcatggagt aggagtttag taaatgcggt104941 tgatgggtta atcaatgtgt gaaaatattc agagccacca aaaacagata ttatgtctat 10529 105061 ttgaatggtg acattaaaaa attcccccag caggagccaa ccaatttttt catcctgatc105121 caagttagca aactgcaaaa gataggaagc actaatgagt ggaaatttga gtagaagcat105181 ttcttatgaa ggctgtcttg actggatcac atttttattg ctgttggagg tgccaaatgt105241 gtgtgtttat gctaatcctc cacctcaggc aacacacagt caaggatcct accaagtgtt105301 accgtcaagt gtctgttggc agctcaaggc cccagcgttg ttcccttgca ctagggaaaa105361 gacatattcc aggtacaagt actcccactt tgatgctaca gaggagttgc tgaactttgt105421 gtcattaatc tctcttcgtt agatcccaac cctgtttaaa tcccactatc tgcctactct105481 gggtcttcac caatttacta gatcatagtt ggagaaaatc tacaaagcct tgctcccttt105541 agatttaaac aggtctccgt ttaaatttag aattgctaac ttcaagcggg cccttatgcg105601 acagtatgcc tgtcagtcat actacatttc ctcaattcca ttcatgtgac tgctccatac105661 ccttccctct ctcttcatac tactattatc tcttcccccc tccctcattt ttaactgatg105 atcttgtttc ctatttctct gagaaaatag aagccatcaa aagagagttt ccacaaactc105781 ctactgcctt atctagccct gtaccatata ctttgcattt cctctcatta ccatggatgt105 actgcctatc tgtgcttcta tctaaggcta acccttccac ttcagttttg aatattatca105901 gctcttacca actcaaggcc attgctctag caattctctc attctctctc attttcttcc105961 atcaagtttt ccttttcttc aattaacaga gtagctccta aagggaaaaa aaagtcttct106021 ttttcaatgc tcatcatcac tggccatcag agaaatgcaa atcaaaacca caatgagata 106874 141 106141 aggatgtgga gaaataggaa cacttttaca ctgttggtgg gactgtaaac tagttcaacc106201 attgtggaag acagtgtggc gattcctcag ggatctagaa ttagaaatac catttgaccc106261 agccatccca ttactgggta tatacccaaa ggattataaa caatgctgct ataaagacac106321 atgcacacgt atgtttattg tggcactact cacaatagca aagacttgga accaacccaa106381 10635381 106381 acgtccaaca atgatagact ggattaagaa aatgtggcac atatacacca tggaatacta106441 tgcagccata aaaaatgatg agttcatgtc ctttgtaggg acatggagga agctggaaac106501 catcactctc agcaaactat cacaaggaca aaaaaccaaa cactgcatgt tctcactcat106561 aggtgggaat tgaacaatga gaacacttgg acacaggaag gggaacatca cccactgggg106621 cctgttgtgg gatgagggga gtggggaggg atagcattag gagatatacc taatgttaaa106681 tgatgagtta atgggtgcag cacaccaaca tagcacatgt atacatatgt aacaaacctg106741 cacgttgtgc acatgtaccc taaaacttaa agtataataa aaaaatatat atatatatat106801 aaaacaacta aaaataaatc ttctttttct gcaggatcag tccatcacca cacacacagg106861 ctgtgtttta tgttgttccc cagcttaaga gatcgttctc cagatcccac tgctccttcc106921 106 106921 agttgtcacc tcagttctcc acttcttttt gctgataaac tactctaact agttacatat106981 gatttctgtc cccaggtccc ctccctcagt tgttttgaac ataatcattt atatcattta107041 tcattttcac tctaattgca caaccaaaaa ctcccttttt ttttagatgg agtctcactc107101 tgtcacctag gctggagtgc agtggcatga tctcggctca ctccaacctc cgcctcacgg107161 107 107161 gttcaagtga tccccctgcc ttagcctcct gaatagctgg gattatacac atgcaccacc107221 acacctggct aattgctttg tttttgtttg tgtgtgtgtg tgtttttttt tttttttgga107281 cagagtctca ctctgttgcc caggctagac tgcagtggca tgatctcagc tcactgcaac107341 ctccacctcc tgggttcaag cgattctcct gcctcagcct cccgagtagc tgggactaca107401 107 107401 ggcatgcacc accatgccag gctaattttt ttgtattttc agtagagacc aggtttcacc107461 107 107461 atgttggtca ggctggtctt gaactcctga cctcaaatga tctgcgcacc tggacctccc107521 107 107521 aaagtgctgg gattacagac ttgagctact gcgccgggct attttgtgtt tttagtaaag107581 107 107581 acggggtttc accatgttgt ccaggctggt ctcaaactcc tgacctcaag tgatccgctc107641 gcctcaggcc ctcaaagtgc tgggattaca ggagtgagcc accatgcctg gccataaaac107701 tgccctttgt taatatgact gttggcctgc acattgtcaa atccagtggc attcatctta107761 ctcggccaac ctacggcatt tgacactgtc tgtctttcct tctgttcctc tatctgtttc107821 cagtatactg gcctggcttt ctttttacct cttttatatg ctcttccagt ctcaggctcc107881 tttggggatt tgaaggtatg ttgcattttg ctattcaatg aataatgaca agtaatgatc107941 acttaagaca ttaagtggtc agttccttta ctaggataaa aataattttc ttcccaacat108001 ggggcatatt ccatttccag tctgactgtt ctgtgtaatc tttgtattcc ttggcagccc108061 cttttatatc agttcatcta ctgtgcagga aattggacaa acatttgcac tggtataacc108121 aaatacagtt gaacttttgg cttgactctt agctgaactc accaaaaata atttctgtaa108181 gagactgaga cgtctacgag taggtttttc agaattagta aacataaatc aaggatacac108241 241 aggtagattt gaatttcaga taaacaacaa atactttttt agtatgtcta ctgaaatatt108 tgtatcttat ctggcaattc tacctggtac agaactaatc cattctcttg aaagatcttg108 actctgtaat aagttctttg gtgatggaag ggaggtattt ctgtaattag agtcactgtc108421 ttcctcccag ttttttatcc tggcccagat ctgcaatgaa cacacgacag aatccagggg108481 ggatgaagat gggtgctttg caggaaaaaa aaattaaaaa catctgaaaa agcttttgta108541 ctaaaagaat gtgatctaaa aaagaaagca ggagaacttt ctgtctgcac tttacatcag108601 aacaaccttg gcgtctagaa gctgtgccct gtgggaagtg gtggtgcttg gtaagagatg108661 ccaggaccag tggtacccac tgggagcact gccaataccc agcaaggagc atgggtgcac108721 agtaaggcat tgcactgtga ttcagcataa aataacaata agggaacgtc acggagaaaa108781 ggccagactt cctttgttta gaatgtggga aatgtcttct gaaaaatggt agtaaaaaag108841 catgcttgga tggtccactc caggcaaaac tgactaatcg ggggtcaggg atacaacccc108901 108961 accccatagt ctcctggaaa tacagccagg tcaagagagc tccacataaa acataatcaa109021 58 109081 tggagcaaga tttgagaatt ggatggctat ttgagggcta tttctgcgct ttagttcaat109141 gttttgttct ttctttatta gagaactatg gttttttatt atatttacac tttaagttct109201 agggtacatg tgcacaacgt gcagatttgt tacacaggta taaatgtgcc atgttggttt109261 gctgcaccca tcaactcgtc atttacatta ggtatttctc ctaatgctat ccctccccca109321 gtcccccacc ccccgacagg ccctggtgtg tgatgttccc cttcctgtgt ccaagtgttc109381 tgtttatgtg atagattacg tttattgatt tgtgtatgtt gaaccagcct tgcatcacag109441 tcacttgctt acaagaaaca aacacttcac agatggatca ttatgtgtga taagtgaaat109501 ccaaggattt atgctcagag gtgggcttaa caggtaggaa gagcagtatt ttccttcaac109561 catgagtgta tgcaggtttt tcttttcttt tttgagatgg agtctcactc ttttacccag109621 gctggcgcgc agtggtgcga tcttggctca ctgtaacctc tgccacctgg gttcaagcaa109681 ttctcctgcc tcagcctccc aagtggctgg gattacaggc acctgccact gtctccggct109741 aatttttgtc tttttagtag agatggggtt tcaccatctt ggccagcctt gtcttgaact109801 cctgacctca tgaatcatcc ttctcagcct cccaaagtgc tgggattaca ggcatgagcc109861 actgcgccca gcccacaggt ttttcaaaga ctaaacttaa aaaaaaaaaa aaaatttccc109921 aatgaaatat aaaactaaag tgctaaactg tgatagactg ttttacaaga atgccagttt109981 tcacaagtgt ctatagaaca tgtaatttag ataggtaaga tgaaattttg ataatatttg110041 atggcaaatt taaacaggta tacaacaaaa ataaaattct aagcccctca accaactgaa110101 tggactcctt ctctcagcca aaggaatacc aaagtaaacc tgaaaaacta gttttggcca110161 ggattggggg taggtggggg aagcccaaca tgactcatta ttctctcctc cctttggaat110221 tcaggcacaa ctgaatgtca gcattgacac taaaacacag atcttaagac tgacaagcca110281 gactctttgt agcagagagc caggccctgg aagaaatcaa gttattttat cccaaaaaat110341 atttctttga tatattttca aatggccctg caaagctgtc tcttgtgggg aaaattgaca110 tgctgtacag aatttccttc tctttccaag tttttactga tccaggagag atttaactaa110461 gaggctagca tgtttttttt tttttttttt tgaggcggag tcttgctctg ttgcccaggc110521 tggagtgcag tggcgtgatc tcagctcact gcaaccttcg cctcccgggt tcaagcgatt110581 ctcctgcctc agcttcccga gtagctggga ttacagatcc atgccactat gcccagctaa110641 tttttgtatt ttttgtagag acagggtttc accatgttgg ccaggctagt attgaactcc110701 tgacctcgtg atccgcccac ctcggcctcc caaagtgctg gcattacagg cgtgagccac110761 cgtgcccagc acaagacatt taccgtctat tctctctgaa gctactatct agaggcttca110821 tcaacataat aagacccttg gtctccacaa ctccttatct tatcctatta gtttctactg110881 attccaggtc tttagataat aacaactctt tcaaccaatt gccaatcaga aagtctttga110941 atccacctat gacttaaaag ccccactcct tcaagttatc ccgcctttct ggactgaacc111001 aatgtacacc ttatatgtgt tgatggatat ctgcctgtaa cttccattcc cctaaaatgt111061 ataacatcaa gctgtaaccc aaccaccttg ggcacatgtt ttcaggaact catgagactg111121 tgttgcagac cttggtcact catatttggc tcacagtaaa cttctttaaa tattgtatag111181 agtttggctt ttttcattga cacaggaaaa ataaagaatt ggaaggtctt tcatcagtca111241 ctgagccagc ttcatatctg actgaggtca tacagttcag tgatttgtag ctttgctact 11159301 111 tagattgcta tccattatct agaagcatca ggatcacgtg ggacctattg gaaatgcaga111361 ctttcctcct agaacccagg accttggaat attcttggca catagtaggt gctcaataca111421 tattgaactc ctaggtgcaa ttcattaatt catgaattaa tgaattaaca cgctctcaaa111481 gtttagtgct ttttcacaga ctagtctttc tgcctcttaa gcactcagct caccacgctt111541 111601 tgttatctct tctgagaagt cttccctcac tggcccaaag gaatttctcc tctattttag111661 cactgtccca gttgacttgt cattattcta gtctttttca tattagttgt ttttcatata111721 tatgttatta aggaaactag tcatttcccc taatagaaca aaattgctgg cctttggggt111781 tggcaatgga ggggaggctc ttcttgaaaa gggggaagag tgttctccta atatttttct111841 tacgagattt atgttgctca tctttagcct ttagtccccc attgcctgcc tacagttggc111901 agagaccatc tgttctctca ctgtcaggaa ctgtctcaat tcttgaagtt cagagtcaaa111961 aaagaagcaa gttttcctag ctctttgatc aactttcaaa gttttacttc catttgaaaa112021 tttactaagt caccaggaga tggtttatac tgagaaatat ccactcatac tcttcctctt112081 caactttctt ccatatacac cctattacag ggatatagtc ttactctata gctcaaaagg112141 atgaccctat cagaaacctg cacagtatgt aaaacattct caccagaggt tcacttgtgt112201 atttccaccc tagaatggaa gctctacaaa agcacagaat gtatcatttt aactttagat112261 tctattttca cacccagtgc ttgacacatg atttgaagtt aatatttatt tatcaagtga112321 ttgttttaaa atcatgactc actcaacaaa gttataagaa taagaatagt gttacagaat112 tggtatacac aagctgacca taatcaacac acctattatc atttttttgc gacaggttct 11246441 cgctgtctca ccctggctgg agtggagtgg catgaccacg gttcactgca ggtttgaact112501 tccaggctca agcaatcctc ccacctcagc ctcccacata gctgagccca caggtgtgtg112561 ccaccatgtc cagctaactt tttaattctt tgtagagaca gggtcaccct atgttgccca112621 agctggtctt gaactccttg gctagagaga tcctccctcc aaggtccccc aaaatgctgg112681 gatctcaggc aagagccacc atgcctggcc ataatcaata cacttttaag aatgctagaa112 tgttatatca gatgcatact tcagcactat ctcaagcaaa ctggggtgtg ggttattcta112801 catataaagt tcagcagtgt tgttccacag tcccaaactc caactgaggt caaatgtagg112861 gtgcagcaag gtcactgggg ctgtcatcaa gggcctctcc ttgcactctt gccaaccctg112921 tttcttgatt gtctctacca ccatgagtca ccagcaatct cccacagtca cttgtttaaa112981 113041 ttccttgggc tctaccattt tttttcccca gcactctttc tgctgctcta aattttaatt113101 catgcaattc catatgtgtt tctctatcat tcttcatctc tttcctctcc cttccatcca113161 attttgtttg tctgtttgct tgcttgcttg ctttaataca tttctctttt tctgagaagg113 cttgagtcca aaactctcag ttacctgttg ttctgtttcc cgttagttaa tctccgaacc113281 ttcataaatt aaatctgaca aagtcccctg actaacaaag gaaatgcaca agtcacagta 113113113113 aaaggggcac acacagaaca caaatagacc cagggtcttt tctgttcatc actcagcttt ttataggaga tccaggagaa atgaagtgga aagggaagtg tgttgagtta ctatacaaca113461 caagagtaaa ctttcttata agtggtaatt tttttttaca ggaataattg aaaatggaaa113521 ttaccttctc tactcatagt aagtactcag tgcgttcttg atgggatgag aatgtgtttg113581 agctttagtg taaggcagaa ttctgtttag tctgccagta ttggagaaaa ataaaacaca113641 11329 113701 tgccccagag aaataaaaag cttgtgtaca tgttgagatg ggagagttct ctggcccccc113761 tcgcaggatg tgtgacagtg gggtggctct ctgctgcgcc accatgagct caaacccctc113821 ataggagggg gagcacacag gcaggaaggt gcaggagctg ggcgagctct ttgggctctg113881 gccccgtggt actgtctaga ggtgggtgcc tgcaactcct gaaagcccaa gtgggcatgt113941 gttacagtgc actctttcag ctttgctgtc tgcagcttaa gcgttaacca gctcagtttc114 ttcttggtac ccaggtcctt gtctggcatc caggaagaat caggttacac atggacttga114061 aggatgaatg tgggagtttt atggagtggt ggaggtggct ctcagtggga tggatgggga 11424 114181 gatctcctct ccagtcgtcc ccagcctctc gacgttcaga tgctcctctt ctctccttct 1145924 59241 ctgccatgct gttctgccgt tcatctgcct gtctctctct ggagcctgga atttggggtt114 tatatggtac acaataaggg gcatggcagg ccaaaaggga actttttagg tgcaaaaaac114361 aggaatgcct cttctcactt agggctatag attttcaggc ttgaaggtgg ggcctttacc114421 agcgaacctg tatttccctg tctcctgtgc atatcaatgt aatcaaatac tgggctgatc114481 caggatgttt ctttagacca attatgggta aaataattta cattcaggtt tttatatttg114541 cttttgtcat ttctttttaa gcaatcatgt aaaatatcta tacgacagta atagatgata114601 gcgaacctaa ttaaaattac cagaaactta agaatctcta atgatttcaa ctgtaactaa 11486661 11487428 114 ttcagaaaca caaagaggga ggttatataa ataatatttt tttcctactt tgggaaaatg114781 aaagctagtc acaaagttaa acgagtggtt attttaatat ttaaaataca ggcttggatg 841 tatttcctgt taaagaaaat aaaatgcaga atattcaaaa cgtctgacca cccttctaag 36901 114901 aaaatgcatc tctgaggtat ttttccttag aagttattgt aaaaatcctg gagaagcttg114961 aacacagcaa agcaaacagg atgcagagtt taatctgtgg aaagcttagg gaagaaaagc115021 aaatcattaa aaataggtct tcctctgaag atttttaaaa cgcaaagagg gtggaatagc115081 aatgataata aaaaagctgg catagagagt ggcacaattt gctgtgccac tgagctgact115141 ggatgtgttc tgaatttcta ggcattagtg tacctttcca cacgcattct ccctttaaaa115201 aaaatgccca cacactgaat acttttttca tgcaatttaa aataagcgca ccatctagtt115261 tacagaaatt cactagaagt tatttatcct aaaatagcag agatctagaa gaattttgag115321 ctctaggaca ttttagacac acagaaagaa gaatctggac aagtcttgac cagacatgac115381 agaatagaaa tttcttttcc tatttatctc tttgaataaa attttcagga tcttacagtg115 gacaagtttg ttatctacac attgtgaagc acattgattt ctcctctgta gccttaggaa115501 gatctgagag gtgactgagc tgattgaatg atccgtgacc gctctactgg gaccagtagt115561 agaactttac tggtggagac ctgctggagg tttgagagca gactttgaaa attactagag115621 ctacacagat actgtgtggc taactggatt atgtttagag gctttcagaa ctatgctgct115681 gctgctgcag tgtagccagg acgcacagag aacatctaag gctcttgaat ggggcgatag115741 ggacagattt cagcagccat ctgacttcag tgctcatttt gatgctttcc ctgcagggtg115801 cagtgtgcag tgtgcagtgt gcagtggtgg gaggctcaca caggaatact tgcttctgta115861 gccctaattt ccggttcaaa ctctgcattc accttgacag attctttcct tggccaaaat115921 ttagttaggc ttctgggctt tctcttatgc ccacctgcag actttttggt aaaatccagt115981 tttagtaaag agctctgcta agtcagttta gcaagaatcc ccacctcaaa agtcactatc 041 686 tccctccctg gtagtgtctg gcttgtcttc agcgagaatt ctattaggtt ctgttagatt116101 agaatcctcc ttacccttga tgcttcctct tagtattttt tcatccactg actccttgac116 ccaccttgct cctcggctat aaattcccac ttgcccatac tctgcagtta agactatttt116 ctccccacta ctgcaaaatc ccattgccat ggtccctata ctatctcaat ggtaatgaat116281 aaagtctgcc ttaccatgct ttaacaagta acattgaacc atttttttct ttaacaatct116341 116801 gctgcacaat gagattacta aaactttatt ccattttgcc atgctggatg tcctcaatgg116401 aatggctctt gtgagcacca aatcattgtg agaaggaaaa cccatctctt acagccccct116461 gtaacgtgat gtatgttaca tgtgatgtat gttacatagt tttttttcat gttgatcact116521 ttttgcccat tttcctatat cttatcagtt ggaagactgt ggaagtttgt agtactaagc116581 cacaagatga ctaagaagag ttgaaagggc aagtggggct aaaaacagat tttgtttgac116641 ttaccccacc attcccccta tcatggggct gaatctgcct ggaggaagga gcatctttat116701 ctttgtactg tgaaccacac agtctagcag cagcacagcc aaggcacttg gggtttcatg116761 agactaagta catgcaattc tattgtaaag gcttaaaata tatacaactg acccttgaac116821 aacatgaatt tgaattgcat ggtcagttat acgcagattt tcttccacct ctgccacccc116881 tgagacagta agatcaatca atcctcttcc tcctactcct cagtctactc aaagatactt116941 gaagtctact tgaagatgac aagcacaaag acatttatga tgatccactt ccacttagtg117001 aatagtaaat atgttttctc ttcctcctaa ttttttaaca ctttcttctc tctagcttaa117061 tttattgtta agaatacaat ctataataca tatgacatac aaaatatgtc ttagttgact117 gtttatgtta tctgtaaggc ttcaggtcaa gagtatgcta ttagtggtta agttttcgag117 gagtcaaaag gtgtatgtgg actttcaact gcaggggggt gggcacccct gcccccatgt117241 tgttcaaggg tcaactttac tgccaaaggc aagcctttac atccactttt tccatcccat117301 cagtaaatgg aaaaagatag ctacagtatc cctgcgtcaa atcttttttt ttgcagatca117361 caaattggcc actcaccttg ctctgtgagg ggtaaaatgc cccactttct ttagtaatat117421 82117481 8456 117481 acatagtttc tttcaaacag aaatagcatt tttgttagat aacctcccgt atagatgatg117541 aaactccttt taagggctat ctgaatttta attccttgaa aaggcagaaa ttggatagct117601 agtagtcata aatgtactgt ggcttccccc aaccatctgg gctatataga agctgcatcc117 ttggactgca gtagaggagt cttacaaagc acagagcaac ttctctcctg ggttgcgcta117 gttatgatgg caattttaaa tgtgtacttt tacccaaaga aaatccttat tatcaacaat117 cacaatgcca 78172 781 cacaatgcca 7811178672 tcataaccat ggtataaaaa attcaaaatg tcccagctga agtggaggca117841 aagactcaag ttcatggagt cagagtttcc ttgctattcc tctttttcaa atgaccattt117901 35117961 ctcgaaaatc taattctcca gatgaaacgc tgacacttat ccaccccaca gaccctatag118021 cagatgtgtc actggccatc acatttgaca cagagaagtc ataactcagt cagcacagag118081 acatttccat gagtttctga accatggaca gaacgtcgtc tgtgggacat gaaaactgga118141 acttagagga caggcacatc tgagaaatgg gcagtttaaa ggcagaacat agcacatatg118201 tgactgggtt ttagaagcaa atttacaaga cgcactcttc ttcatcctaa ataatctgca118261 accaaagctt ccaaaaaaga caatttagga atgcagaggt gaggagtagg gaggggaatg118321 ggatgagaga gagtggagat taatggtggg cagagcgagg tttagaactt agtggtttct118381 tcaggttctg aactgaaatt tgtatactgt aaaggcacaa acaccatttt taacaaaagt118441 58501 11824 118561 aatcttcaag gaactctgct agggatataa tattataaat cttgttttgc agatggagaa118621 118 attgaatttt aacccaagtt atcataaccc ttaaatgatt aaatgatact gttacatgag118681 aaagctgcgt atctgtttcc tggatttgta gccataattt gtgtctcaag tcccttttgc118741 tgccagctat cttgggtagg tgtgttccct ttgggctgtt tgataccccc acatttatct118801 tttttttttc tctttttttg ttgagagagt ctttccctgt tgcctaggct ggagggcaat118861 ggcgcgatct cggctcactg caacctccgc ctcctgggtt caagtgcttc tcacgattct118921 cttgtcccag cctctctaat agctcggatt actggcatgc accaccacgc ccacctaatt118981 86041 cctcaggtga tctgcctgcc ttggcctccc aaagtgctgg gattacaggt gtgagccacc119101 119 atgcctggcc ccaaatttat ctttaatgcc ccaaattatc tagttcccat gactgggctt119161 119 ctgctttgat cctttctgca cttgctggac cctctccctg ggaaatgaga ttgtgtcctg 1193672 agcccctagt tagaggctat gtctctgctg ttcctgaatg ggcctcctgg atgagacctc119281 attaaaagtc taattctctt ggagaattga gagataccta tttgtctcaa aatcattgaa 11935341 119401 11927 119461 ttttcagtaa tggtactcta ggttagcagt ccccaacctt tttggcacca gggaccagtt119521 84 119581 ttccacctca gatcatcagg cattagattc tcacaaggag tgcgcaagct agatccctca119641 cacatgcagt tcacaatagg gtgtgcactc ccatgagaat ctaacaccgc tgctgatctg119701 acaggagaca gagctcaggc agtaatactc atttgcctac cgctcacctc ctgccgtgca119761 gctcagttcc taacaggcca cggaccagta ctggtccacg gcgcaggcat cagggacccc119821 tgttgctagg tataagcatc tggctgctgc atgtcttctg tgtagctaca tctgtatgtg119881 tatctgatga gatataaatt atttgattat aaattacttt cttcatatta gagttgtgaa119941 tgagtatcac atataattat acataaacta ggaatatgct ttttaataat gtatataagt120001 aagtttcctt aactatgact ttcatcttag cgtagtaaga gggtgctaag aaatatttgt120061 gatgaaaata ggcattggta gagttgagac cactgggtga tgaaagagtg taaagatttt120 aaagccttca gatgctggtt caaggtgaga aatgtgattg ggagcaaatc aattaacttc120181 ttgaagtctt atagggcagt tatgaatact taatgttaac atatgtaaag ctcttctgcc120241 ctgtatacag taaatgctag ttagctatta tgatcactac taaaatgggg atgacataaa120301 cctcataagg ttttaagtat tatgcaagat actatacaaa gtccagtaaa tatcacattc120361 aattgaatcc atgatgtccg attattttag ctacttccaa gagagaaaaa aatgctgtca120421 gttttactgt tcttatagag agcaaggcag atcccaattc ccaatgtggt aacgtgaaaa120481 tttttgcatt tgaatcaaca aaacactttc tcctttcttt cctactattt aacaactggt120541 120 aagtctatac tcccccaaat ctggaattct cctttcttat tctttttcct cctaccaaga ccgcaggatc ttttacttgg ctataagggg taaacctcaa gtagtacaag ttctctgtat 12036661 tacttttata ctctgtcaca gattcccttt gtttcctcat ctccatgtga atttagttaa120721 attctcagca ttctgatcct tactatacaa ggtaaatgaa tataaaaaca aaacgaaaca120781 aaaacctctt cctatttaca taaggcccca acctaatatt tagtgatata tattaatgtg120841 aacaaggaac taacgaagac tgggaagaaa ttcacagact tgagagaaga aatggcagga120901 tttcctggga acaatttcat gtaacgtcaa aggtggtaaa aggtcaaata gaatgaagat120961 121021 84121 ataccttctc agtttcacct agtgagtaaa agactggtaa catagctcac ttacaatttg121081 gataaacaaa actaaacaaa caacatcaaa atttcagaaa aaataatagc aaaacagaaa121141 tcaaacactc aaatttttgg tccttctgtt tatttcattt tggatactca gtgaatgtta121201 attaaccagg aaacttaaaa gttatttcaa ttatgaacct cttcaatcct tcatcaatta121261 ttttgagtat tctggtctta aaaacatctc tttcttctac aaacttctga aagagatgaa121321 cacctccacc tacaccaaaa taatgtgctt tgctggccaa aagtacacgt ccatttttac121381 ttaacagtct aaggaaagtc tggtgcaaat tactataata atctgggttg taaatggttt121441 ctgaggtgag aatgagatca tattttacaa aaagtttttc actacttagt acaagcttac121501 aaaactcaga ccactcacca gaaaaaaatc ggcatttata tagttgtgtt acttttggtt121561 tcctgcatct tttcacatct ggctcattta catcattttc ttcatcttcc aaagtggagt121621 121686681 695 2 121741 gatccaagac ttttttccca gcaaatttca ctttggcctt tgtgaaataa gccaggaggt121801 caaaggtaca ttcccagatt tttaagcctc cctcataaac acctgtaatc agatcagagt121861 gagaagaaaa gctttttgaa actatgtttt ctccagggaa gttctctttc aacaagatgg121921 861 121981 ctaacatctt ctttaaatct ttaggcatag catgctcttt ggcagctctc aaggagggct122 gttttccatg tggctccaag ttccttgaac tgctggctgc actgagtgga ctgtctgtgt122101 cttgagaggg agctgcattt tccattgact tatgttccca caagtgatcc tgaggcaagt122161 caaattgttc tgcagaacat tttctgtccc tctcttctcc tttttgactt tctgagactg122221 acagctcttt tgaggaatcc agggtcaaag ctccatctct aatgggtgtt aattcatttt122281 ccagatggtc ttctatagtg aaattaaact gaaaggtcat cctcttatta aatgcacaca122341 atctttaaat tcagattctt caacttctgg atagaatttg atgatacaca caaatctgcc122401 tcaattattc aattagtttt gttgggccca atttctcttt agcagcttat acatggtaac122461 aaatatttag agatatttcc aaatgacttt ttagacgtct ttggtcctct ttccaagcag122521 ctctggaaag aaaaaaaaaa aaaaaagaaa gaaaatgatg attaaagcaa aatggcacat122 ttcactaaag tgtaatatta aacagccacc cccacccctc cctgtcccac catacagctg122641 ctttttctta aaaagttgtg gggaagagag agagataaga gatttggaca ctcatacaca122701 ccttaagggt tccaaagtgg gagaagaaaa tcaactataa aaacaaacag aagaacaaca122761 gcaaccacca ccactaccac ctggacaaac ataaagtcca agatattcag acaggacagc122821 ctagctactt gctgtctttc agctgtcttg atttgtgtcc aaccatattc accccctaag122881 cttccagaat aacttcactt ctgtctttta cagaagaggt gcagtatttt attttggtaa122941 gtcagcgtcc ctttaaaaac atgcataggt atggcctggt gtgtgtaaat tcatccaaga123001 cttcactcca aacatttagt cgagaacagc agccctaagt gtatagaagt gggggtaatt123061 686 tggcaataat tagtaaagac taattcggtg gcagagcaaa cgcaaactag ggcactgcag123 tagtttggag agacctgtag aaataagaag caactttatt gagaatcttc tatctactgc 12382181 gctagacact ataccatctg cctcaatttt cacagttctg gcaagtggga tctttgttcc123241 ctttatacaa gatttacaat ttgggggaga ggcgggtcac ccagtcccgc ggctaggaac123301 gcgcctcttt cctctcccat cacgctgcaa ggcttggagt cacttccggc tgcaggtccc123361 86 tgtttacagt gatccagacc tggggatgct tgcttcccga cgtgtcctgg gatcgcgctt123481 ctgaaaaagc tcacctcaca acgcctcctc cggacctaaa tcgcgcacca gtgagtcgag 541 tcctccaggg gctagagaag cccgactttc tttccggcct tgagggaccc gggctcacca123601 agaaaccagc cgccctcctc tctatggttt tggagccggc ggagagcgcg caagggttgg123661 cgggactgcg agtttccggt ctgggctttg gcgggtctgg tttgaagctc tcctgtttga123721 cgaaagtatg tctcaggaag gtgcggtccc agctagcgcg gttcccctgg aagaattaag123781 tagctggcca gaggagctat gccgccggga actgccgtcc gtcctgcccc gactcctcat123841 atccttcctt ggttgtcact tctacctaga gaagggtgtg ggcgggtcgc gaacctttct123901 cttctgtccc ttcagaccca ccgccaggct gggttatatt accgcggcct gaaccccctc123961 ttttctttgt cagtgagtgg gatgaaaagt gagggactgg aggggaagcg acaaccgtgg124021 tagatttaag taaggctttg gccctggaaa gcctcgcgga cgtgttctga cccaaggttt124081 tagcagtgga tgtggcgttt tcttccattc cttctttcag tttttctgta ctcgttgctt124141 gcaattaagt gtaaatactt ttgctagtgg ataatggggg aggcaaggac tgagacctgc124201 124 ggtatgacga tagctctggc tcttaatagt ttgaggtaaa gcgagatact ctgagctttt124261 gtctcccgta aaaagggtgg tgaatatgaa taagggcttt cttagcgtta taagaattaa124321 agggcatagt tctgtggtgt gaaatcttta aaagatgttc agtaaataaa aatgattttc124381 ctccttcccc tctcagacct ctttttcttc tttctttctt tttttttgac aagttctcac124441 tcctctcacc caggctggag tctttctgaa agagttcttc cgcttgttgt tggctttcaa124501 124561 124 ctcatgcctt tgtggttgta aatgtgcctg gaatcctagc ctttcatggt aaaccatatg124621 tatatgtatc tttttcacaa catttgagcc cagctttata caattacact caaaagaaaa124681 681 aaagtaacct tcacttgaga gaatctcaat actgcacaaa tattgtgcag ctaaagccct124741 atgtaatcac atagaagtca ttcacctagg cattagcaaa atctcagaag gtgccaaagc124801 cccctttttt agtttttgtg taggtacaga actgccgtct tcaaggagtt tcaacttgaa124861 aacaaatagc caccctcaaa acattcaaaa acacttaaac tgcgtgcata atgtgtgtga124921 gacatggtgt taggctttgg gagaacagag acacggaacg tgattcctct tcttccccac124981 aagcttatag agagacttca ttaagttgaa agtcaacatt cccacctagc tttgcacttc125041 aaacgacata ttcaaaaaag cccaaacttc ctctagtttt cttcatctga gtaaatggtt125 tcacaaactg aaaccttgaa tcctctctgt ctcacacacc cgatcagtaa gttctattgt125161 ttctgattcc aaactatgtc ttgaatcaat ccgtttatct ccatcctcat tgctaccact125221 ctgattccaa acccttatca cctctcactt ggagtattaa tagtttcctt gtttctactc125281 ataattcatt attccaaaaa agttaagagg ggaaaaacat agatctcgtc atttcccttt125341 ttaaaccact ttaccttcaa ggttccaggt gatctaagcc ttgcccttct ctcataccta125401 gttaattaac tacactctgt tcatgaatac attaggctca cctacctcaa gatctttttg 12546461 ctcagcctga tttgttctct cagccttttg catatttcat gtttatgtct tggcccaaat125521 gtcacttcct tagaggggct ttttcagagc cttcaatctt aggcagttcc cccaaacgca125581 gtcttacact tgtatcacat tggcctgttc agttttctaa aaagcacatt accattaaaa125641 gaaatgctct tgtttgcttt gtatattttc cacttctaca cattatgttg caaagttcat125701 aaaggcagga tgttgatttt cttcacagcg ttaccctcag cacctagaac agtgcctgac125761 acatagtaag cattcattaa agggctaaaa atatttcatg ttttaaaaat acttgggagt125821 ctaattagac aatacttttt ttcagcttaa tggtagtatt ttagcttcac tattttaaca125881 63881 aatgaaaaat ttgcaataaa tctacaatgc cattaccccc caaaatcttt ttcatgtttt125941 gcattttacg tattattttc caggccttac ctgcatgtct gcataatcat aactgactaa126 ttttggaaca gctggtaatt atttgagctt tactgaaatt ttttcatgag gccaattcta126061 ccctactgaa ctcaaatttg agttaatgat gacctcattt tgattgctgc tgtaaaaaat126121 aagatttcgg aagaggaatg aattcttgta ttactgtggt aggactatgg gttttttttt126181 gtttgtttgt ttgttttgag acggagtctc accctgtcac ccaggctgga gtgcagtggt126241 gcgatctcag ctcacagcag ccaggttcaa gtgattctcc ttcctcagcc tcccgagtag126 ctgagattac aggcacgtgc caccatgccc ggctaatttt ttgtatcttt agtagagatg126361 gtttcaccat gttggccagg ctggtctcga actcctgacc tcgtgatccg cctgcctcag126421 cctcccaaag tgctgggact acaggcgtga gccaccgtgc ccggccgggt tattcatttt126481 tcttattaac attctttgat gattcttatg gtgttgttac agtaaaacat ttctaacaat126541 tattctaaca attattcttg atggtgtata tgaagaattt attgtcgtgt atttgtaagc126601 tgctatgtgc agaagaattt cagtcaaata aagttggtaa gataggtatg taagtaatat126661 gaaaaaagat agaaggtgat gagtgactta ggtataaatt aagtacaata gaaatgttga126721 ggaaagaaaa atttcttgta atagaaatcg gaagtacaaa ctgggcatgg tggtgtgcat126781 ctctaatccc agctccttga gaggctggta tgggaggatc actttagccc aggagcttga126841 ggctgcagtg aggtgtgatc atgtcaccgc actccatcct gggtgacagc aagaccgtct126901 ctcttttttt ttttttttga gacggagtct cgcctatgct ggagtgcaat ggcgcgatct126961 12748 021 127 cagctgggat tacaggtgtg cgccaccatg cccagctaat tattttgtat tttaagtaga127081 gacgggttct caccatactggccaggctgg tcttcaactc ctgacctctt gttcgcccat127141 ctaggtctcc caaagtgctg ggattacagg tgtgagccac cccacttggc cccgagcgag127201 accctctctc taaaaaaaaa taaataaata aatcataaac ctgtggatta ttgtagcatt127261 gtttctcatc tgtcaaaaat atttcatgac tatgcatagt ttgaaaaggc aagtttgtcc127321 ctgggcaatt ttcaaaatat ttctttaatg tgttttcaca atactgttta cctaataaat127 cttaagtttt taaaagcaaa attaagccag taatttgagt ccaattccaa tctcttatga127 gtcattgctt aaatttcaaa agggttttat ttttttttta ggtttgttct gagtaatgaa127501 taccctatta ctatgatact agtatcttcc ttaattatcc tactcattgt ctcaacattc127561 tgacagttgg attgagcata ttcgtaagta aaattgtttt aactgtatga tgtactttga127621 tgttaaggtc cgagtcccca catacctcgg tagatgtgtt cttacagttt tgtattccct127681 86681 aattcattca aattccagca cttaaaagtt ttaaattaca ttttggataa ataccaaagt127801 gttttgttga tgatgtatgt ataaacaaat tgtaaatatt aaacgttagt tgttacgatt127 agacctatat aaaacatgat atgcagtcta ctgaatagct atcagcctct aacatgttta127921 gtgtcattta gaaaatgctt tctaaattgc caaaagctga ttgtctaggt gataacaaat127981 ttaccatttg gaggaagttg actttctcat tttcatgtct tcatcagtct tacttgatga128041 128041 gattcattct tctagtcaga agagagttta gactgctcag tttactcata ttttgagtta128101 gcttttctat ttagagttca cttggttgtg gaatattcat ttataatttg aatctacgtt128161 gtgtaatggg acctaatttt tttttccttt gtttttgttg gagtctcgtt ttgtcaccca128221 ggttggagtg cagtggcgtg atctttgctc actgcaacct ccaccttcca ggttcaggtg128281 attctcctgc ctcagtctcc caagtagctg ggattacagg catgcttcac cacgcctggc128341 taatttttgt atttttagta gagatggggt ttcaccatgt tggccaggct ggtctcaaaa128401 ctcctgagct caagtgatcc tcctgccttg gcctccataa gtgctgggat tacaggcgtg128461 agccgctgag cctggcccca gagtttgttt tgttttgttt tcaagacaag atctcactct128521 attgcccagg ctggagagca gtagtgcgat catagctcac tgcagcctga actcctgggt128581 128 128581 tcaagctatt ctcctgcctc catcttctaa agtgctgtga ttacaggtct gagccatgat128641 128 128641 gcttggcctg tgtttttgtt tgtttgtttt gggggacagg gtcttgcttt gtcaccaaaa128701 ctggagtgta gtggtgcgaa catagctagc tcactgcagc ctccatctcc cacgctcaag128761 caatcctctc acctcagcct tccaagtagc tgagaccgca ggtgcgtgct accatgcgtg128821 gctaattttc tatttatata tttatttttt ggtagacatg aggtcttgtc atgtttccca128881 ggtggtcttt aactcctggg ctcagacagt cctcccgcct cagccaccca aagtgttggg128941 829 128941 attacaggcg tgagccacca tgcgtggcat aatttttttt aagtaaatta tttttttatc129001 129 129001 ttgagtatag aagtgattca tgttcattgt ggaaaatatg aaacatatag aaaaacagaa129061 aagattacaa aacatctaat ctgaaatggt taagattttg atgagaacag tctcatctca129121 tttccgtata ttcctgccag cctatccatc attcttcgta catgtttatc tacattaaaa129181 129 129181 ttggtgttat attttggaaa ctttttgttt aactacattg tgaacatttt tcatgtttta129241 129 129241 aaatgtcatt ttaatgatgg cagatcctat tcaatagatg tacacacacc tatttaactg129301 gtccacaatt gttggatatg taggtcgttt cctttctctc tttttttttt tttttggcta129361 ctacttaata gtttctctgt atagaatgtg gtattttgaa agtgtatcaa gctttagatt129 ggtagtattc ttgcatttaa taaagggcag tggcctttgt tgactgacat gacaatattt129481 ttataaaatt tgttatttgc tttacagaaa ttttgaaaat tattgtagaa atgtttttac129541 ctcatatgaa ccacctgaca ttggaacaga ctttcttttc acaagtgtta ccaaaggtat129601 aatactatta cctgaaaata catgttataa ggaatctagc ctcagtctta gatgatttat129661 tattaattat ggctctcttt ttctaatata tcaaatatat tcaaaataaa aataaggagt129721 aagtagatct catgtgagac tataatggtg ttagtgtgat cattaggcag ttaaaaactg129781 ttacaggctg ggcacggtgg ctcatgcctg taatcccagc tctctgagag gctgaggtgg129841 gcagatcatc tgaggtcagg agttcgagac cacccatggt caacatgatg aaacctcgtc129901 tctactaaaa gtacaaaaaa ttagctggac atggtggcag gtgcctgtaa tcccagctac129961 ttgggagact gagacaggag aattgcttga gcctgggagg cggaggttgc attgagtcaa130021 gatcgtgcca ttgcactcca gcctgggcaa taagagcgat gctccgtctc aaaaaaaaaa130081 aaaaaaaaaa aagaacttat attttcagat tgtgtggttc ctttactaac tgaatttaaa130141 ttatttgtag tcaattttaa atgctcttgt attttaaagc cactgtactc cagcctgggt130 gacagagtga aacccttaat tcaaaaaaaa aaaaaaaaaa aagaaaagct ggaatattgg130261 caaaatcaag taactaagag aaaacattaa attcacagaa tacattatta cattttagat130321 atatatggta tatgttttct ctgaaaagca caagcatacc ttttttgttt taaatggagg130381 gaactaaaga tactttggtg ccaaaatgaa acattatttg taattaatct cttattgaaa130441 tgggtttcta actttagctt tgaatcgtaa tctttcaaat ttcttgtact catagtcact130501 tgatgattct ctatctgaaatatttcttag aatttgttct tgaccaccag aaaaagattc130561 aactgttaca tagatgaaaa tggatgttga gtgttaacag gcctatggga aacagtattt130 tctttagcta cattgtattg ttgactgtgt tgctattctt ataatgttta ggtcatttaa130681 attgttagaa agatccaagt attaagatct agggtggcta acttttcaca gacaaaaagc130 ttgtttgtaa ggtcatttac tataccctta attcaggaag gttagcttga attgggtcaa130801 aaggaaactg gttagaaaat aagtgagtag tgaataggcg attcagtgca aattccttcc130861 agaaaatacc cttgtaaatg actgtatgaa tgtggattct tcaagacagt caaatttatt130921 gtgcgaaagt aatactttta ttttttgcat ctctaaaaca tgaactttga gtgatttttt130981 aaaaaaattg atgctattaa atagattcaa accatagaaa tggaaaataa atttctgttt131041 ggggcttttg gggggattat gttgtaaaaa taccttttct ctgtattttg tgcttaatta131101 ggtacaattg ttaagctaga tgatagcctg tggatgttac tagtgcaaaa tcaaattatc131161 gtattgtgtt ttctctgtaa agttttgtct tgtcttttct agtgatttct cttattcctg131221 131281 aaccagtcaa gccagaggac tgtcaagcca aaatttggaa atccagacca ctctaaggaa131341 tattttacaa gtaagtcaaa tgtattagaa agcaggagag agagggagct taaagaatgt131401 caaaattttt atactgatac tgattagcta tgtattctta tgtaatggcc taatgttgga131461 59521 tataagaaga gaagtcatca agctagctga ccctacctgt attttcaagg atatgtgtgg131581 aacacctgcc atgtgttttg aagtttgtgt tagtattcta aatggctaga cagttgttcc131641 agtatttgta gttctgatag actaaagttc tgtgaaaaga ggaagagact gtgttttgtt131701 cattgctgta tttgtagcac ccagcatgct gactaatacc ttttcagtgc acaaaaaata131761 695 2 131821 acaggatgtg ttcagcatat ctgtgccaca caggaatcca tcattttgga aaatattcag131881 agtctcccct cctcagtcct tcatataatt aaaagcacat ttgtgcattg taaggtgagt131941 aaaggtctaa ttatactttg aatggtatat aatcaatgtg cataggggct gagtaaaata132 atgtttgtat aagattttac attttagtct atattattga aataaacttt tccatagaat132061 1327 13258 132181 gaatttgtgt tgagacagac acagggatcc tgaaatagtt atgtcatgtt gcattgacca132241 atattcaatt accattatga ttagatgtca gaacttcctt ttataaagga aagttaatcc132301 ttatttagtc catctctaca tgccagaggt agccttgagg cacaaaagct tgcctagaat132361 ttatgggtca cagacagttt taatattgct atttgttggg cgaatgaaaa tcactagtta132421 attaatacct ctctttgctg ataggatgct aaaaatgtca cgcacctggc ctaatgttac132481 ccttttttag ttctgtattt gcaagatcat ggaagtcaga aataatattt tatacatgct132541 tgcatctctt gaagcacact atatttaatg gatgttcact aaacaatgaa tgaatatgtg132601 attcagtaaa tttatgatct ctaatagtat gaattaaagt aaatttggct cttgagcttt132661 gatttgtttt ttctctcatt tttatttatc cgtaatcaga atagtgaatc tgtgtattct132721 gggtgtttac acctagtttc agaccttctc caggctcttt tcaaggaggc ctattctctt132781 caaaagcagt taatggaact gctggacatg gtttgcatgg accctttagt agatgacaat132841 gatgatattt tgaatatggt aataggtgag tgaagaaaac tttctgctta gtatatggtg132901 actataaatc atgtatcaat taaaattgtc tctaatgatt catgttattt tcttactaat132961 tatgcattaa aattgattta aatcttacca aataaatttt taatcttgaa atttggaatt133021 tgtaaaattt attttgggta ccttaaccta gatttgcgta tttagttact gtaatttctc133081 cacaatgatt aacttatata actttataat ctctgaggtt gtccatattc agagacaata133141 actttcacat ttttttaacc ataactgata ttgagatgca gtttatattt ccttccagaa133201 tacatataaa tacgtgcata tgtgtatgta aatatgtcta ttctcatata catattataa133261 tgaaataact cattttacat gtgatgcact ttatactagt ttatttttat tttattttat133 ttttttgaga cagagtctca ctgtgtagcc caggctggag tgcagtggca caatctcggc133381 tcactgcaac ctcgcctccc ggactcaagc gattctcctg cctcagcctc atgagtagct133441 gggattatag gcgtccgcca ccacacctgg ctaatttttg tatttttagt agagacaggg133501 tttcaccgtg ttggccaggc tggtcttgaa ctcctgacct caggtaatcc acctgcctca133561 gcctcccaaa gtgctgggat tacaggcatg agccaccgtg cccagccaat actagtttat133621 ttttaaagaa ttgctggtcg taacacactt cattgatttt atcactcatt aatggattat133681 gaacaagagt ttgaaaaaca atataaaggc aaagtttgca ttcaaaactt tggtataaag133741 agagtaagtt ggttttgtgc agtgtatcag gcacctgttg ctctgcaaca caccacctca133801 aaatctattt attcactatt tatttattca tgattctgtg agtctgcagt ttagggtggg133861 atgtcctgag acaactttct ctgatccacc tggggcacta gctcacccat gtgacttcag133921 tgacttcatt cacatctggc tgttggcaga ggcagaagta cttgagaaag ccatgtgcat133981 catccagcag gttcacccta tctcagatac ctgatgccag tggtttcagg gtttctaaga134041 gtagcaaaag tgtgagcagg tcgctgtgtg ctagcacttt tcaagtttct gcttgcctta134101 attttattat tgtcccccgg gccacagcag gtcatagcgt ttagcccaga gtcattgtag134161 aaaagtgtgg attcacaaag ggcagtcatt gtggccattt ttataaataa tctaccacag134221 actgagtaaa agccttgcat gaataccatg gatattaatt tgaattcttc ctttttagat134281 tttctttcct tagcaatttg ttttgtcatt ttggattaga attatatctg tagaatattt134341 134 134341 cagttataat agggtacaac ttttattcca ctgaacatct ttagttttat ttaggtcatc134401 tggtaggtat aaacttcaga agttaatatt caatatttat aaaaaccatt aacaagtgtg134461 acacttaaat agtttaaata attcttttga cacaactgtt tccaagttgt gttacgtatt134521 ttaattcaat caaatgttga aattgttcag tagatagttt taattatagg agaaactcac134581 134521 ttaattcaat caaatgttga aattgttcag tagatagttt taattatagg agaaactcac134 134581 ccccatgaca tttggatgtc ttaaaagttc tgttatcttt ctttgcagtt attcattctt134641 134493 134641 tattggatat ctgctctgtt atttccagta tggaccatgc atttcatgcc aatacttgga134701 agtttataat taagtaagtt tgtttgttat tttttacttt ttagaaaatg ttttccatat134761 tccccaatct taattattca tgattcttta gattgcattt aaaacatttt gtgtgaattt134821 aatgttcact gacactgctg tctgataatc cagatattct acatgtagct ctcaagccaa134881 attggacttc tttaccctgt ggcctctaaa attaaaaaaa atgttcttcc tagttagcta134941 gtacttcaga aataatgggc catgggccag actagaactt aaccactttt cttctgctac135001 tgttgtttaa ccagctatca agtatcctat ttctaggatt agataaattg ataactataa135061 ttaaaactga atataatctt ttcattaggt acttttaagt tgttcacact taattccatt135121 tgtacagtaa ttttaacttt ctgaaactga agcattttaa agggtcacca gggatagtgc135181 ctgtagcatt catcagattc ttaggggtga gaggagatgt ggttgagatg taaaaatggt135241 taagaatatc tactttatac acatacataa aacattaaag gtcagtgtat tttcaggtct135301 taggtacttt tcttgtacta ccaggacatt aagttgccat tcagtggtta agagtgttgc135361 ctgggagctg tatcacatgt gcttaaatcc attcttgaaa tcatttactc cttctgagcc135421 cttgggctat ttggttaatt tctctgaacg ttagtttgct catctgaaaa tggaaataat135481 aatagcaact tcttgacagg gttatagtga gaattgagtt catcactgtg aaatgcttag135541 aaatgtgcat gacacatagt taatactcaa ggaattagcc acatcactat catcatcact135601 gattatcttc cactcttacc ctcttccagt tcattttctg cccagcagaa tgatctttta135661 aaaagtaaat cagatcatgt tactctattg cttgaagtct atcccatttg attaagaata135721 135 135721 acaacctaat cctctgtgga tgctgcctcc ttcaccagcc tgtctcatgc tgctctccct135781 actcttagtt cctcaaacat accaaactct cctgtcccag agtcttttcg tggtttttcc135841 135 135841 atctgcctag gatgcttctc tctcctattt tgtgtacctt gctaactcct gcttactgtc135901 tttcagttct cagcttaaga gttatatctt catgataaca ttctttgata tccttaccct135961 aagattaagt tagattgata tccttaccct aagaataagt tagattaggt ctctctattg136021 tagcacctta gactctgtca tttgacaaat cacagcccta attaattatt cttaaaatta136081 49381 136081 tttaacattc tctctcatgc tagaccacaa gtttcatgca ggtaaggcgg agattgtgtc136141 136 136141 catttgtttg acccctttgt ctccagggcc tggtagaatg cctcatacat agtaagaatt136201 caattaatat tttacacaga gaaaaaatta gcaacttatt taaacaaata taactgcttc136261 agaggtaaac tgggcacatc ttagttatat tatgtgatat atgatgcttt ttgattgttt136321 136 136321 ttttaaatgt tctacaaggt agatattgtt agaggtccta agttacttga tgtgttactt136381 136 136381 gtggtgattg tattcttttc tttttattca tttaggcaga gccttaagca ccagtccata136441 ataaaaagcc agttgaaaca caaagatata attactagct tgtgtgaaga cattcttttc136501 tccttccatt cttgtttaca gttagctgag cagatgacac agtcagatgc acaggtaaaa136561 tttgggctaa tagcatttta aacagcaact cttattttct ttggcagtta gtaaatctca136621 tttgaatgtc tgggtcagtc tatttaagag gattttaatt tatttcattt gggtgttttt136681 ttttgatctg tgggattatt tatatcccat aattactttt cacccagagc attgtattag136741 attcctaact gctgtcattg cctctggggt ctgcctggct ccctctttgc ttggtaactg136801 gttggtcaca gcattcttct cagaatcctt tcattctttt ctgcatgaga acaaaaattc136861 ttttgttcat atttgtataa gatctgatat agctgcaatc aatcttgcat tttttcttca136921 ccaacgcatt gcgaccttta gggatacaag tatgtttgtg catgtatatg tatgtatcag136981 tcttttaaat ttgatatagt catacatttg tttttatttt gaaaagttag agtgttgaat137041 137041 tggtatccca tttatgaaac attatattct aaaaatttgt agtacgatta ttgggaatta137101 taactcattt tcctgtaaca ctgttataca tagtaccttt tgctttcaga ctagccctca137161 attttattta actatagtag tcctaaatta taagattaat agtactcagg acctaacagt137221 tatatgtcat ttgttttttt tttttttgag atggcgtctc actctgtcac ccaagctgga137281 137 137281 gtgcagtggt atgaccttgg ctcactgcag cctctgcctc acgggttcaa gggatcgttc137341 137 137341 tgccttagcc tcctgagtag ctgggattat aggcgcctgc caccacgcct ggctaatttt137401 tttagtagag acggggtttc gccatgttgg ccaggctggt ctcgaactcc tgacctcagg137461 137 137461 tggtccaccc gccttggcct cccaaagtgc tgggattaca ggtgtgagcc accgcgccca137521 gcctatatgt aataatttta atgggaccat gaattgaata tttcttcctt gaatagcaat137581 137 137581 gacatagccc cttctattgt acatctgcaa gctgatacag ggaattcctt tgtacctgcg137641 ctcttccctg ccagtcagct atgggggtga aagtgtaggg gttcatccaa gtcctaaaac137701 tggtagcaac tcctagggca gggctgatct ggaaggacag accctagggg agggtggaac137761 tttaaaaaga agttctgaag gtagtaagaa ggaaatgagg agtagtgtta ggaaggggct137821 821 137137941 137821 aacttttttc ttcttgcttc tcttctttat ctcacctgcc cctccccttg tatcccttct137881 tcctttttcc ctttcctttt ttgtcctcac ttcattcgtg catcctttct gattcctctt137941 137 137941 accttgctaa aaggagaagt ttgtttgggt atcctatatc aatggcagga aggttgtttt138001 cttctttacc tttatcctat 137989 369 agattcatat tctcaacacc aacctcctcc tttttcagtt138061 tccttcttgc ttctcttgac accacagagt ttgcagctag tacttggaga ggaaaattaa138 acagagatac ttggaccaag agtaagatga agaaagtcta aacaacagta tagtctatag138181 tggcaagaga gagtatgggg gctgcttagc cagggtggct gtacataaag tatatcttca138241 gtttatataa actgcttata gatggaaatc agaaaattta aattctctta actgtccaag138301 13884 138361 ttgcctgaaa tggagctttg aggtggactg tataatttct tcaatcttaa ctccaaattc138421 tgatcagcga cgccctctgc tgttcactat taatatttat ttaccaatca aagtaaagta138481 ttgaagtttt cctggcagtt ttcactttgt gttttagtcc atttaggctg ctataacaaa138541 atcccttaaa ctgggtaagg gattataaat attagaaatt tatctctcac agttctggaa138601 gctgggaagc ccaatatcaa ggcaccagta gatttggtgt ctaacgaggg tgtgccgtct138661 gcttcaaaaa tggccccttg ttgctgcatc ctcacttagt gcaaggggca agacagctcc138721 cttcaacctc ttttataagg gcacttatgt cattcatgag ggcagagccc tcatgactta138781 atcacttccc caaaggcccc acctcttaat agtatcacat tgggtgttag gtgtctggga138841 ggacaccaat cttcaagcca tatcatctca cttggaaaaa agtcaaaata aaaccagtag138901 atttaattaa tattacacta tttatagaag catgtgatgt atcattcctt gtattaattt138961 cctggggttg ccgtaacaag ttaccacaaa ctaggtggct taaaacaata gaattttatt139021 ctctcacatt tctagaggca gaagttcaca gtgtgtcaat agggccatgt tctctggaag139081 gctttagggg agaatatatt tcatatcttt ctcttagctt ctcggtgtca ctggcaatcc139 ttagcttact ttggctttct gtgtcttcac atcatctttt tataagaaca ccagtgatag139201 tgattaaggg cataccttac tttaatatga cctcatctta actaattatg tcttcaataa 139321 ggagggacac agttcaaccc ataacaaccc ctaaaatcga tatttattct caattaagtc139381 ttgaaattgg tttcaaaaag agaatattct attagagttt ttaatgtata gttttaacat139441 atagttcttt agcccccaat tttttttttt tttttttttt tttttttttt tttttgagac139501 ggagtctcgc tctgtcgccc aggccggact gcggactgca gtggcgcaat ctcggctcac139561 tgcaagctcc gcttcccggg ttcacgccat tcccctgcct cagcctcccg agtagctggg139621 actacaggcg cctgccaccg cgcccggcta atttttttgt atttttagta gagacggggt139681 ttcaccttgt tagccaggat ggtctcgatc tcctgacctc atgatccacc cgcctcggcc139741 tcccaaagtg ctgggattac aggcgtgagc caccgcgccc ggcctgcccc caattattta139801 139391 gtttttctat aaacagggaa atttatttgt gtggccctta gaactaattt aatttccact139861 ctaattccta cttatgttta tataatgctt ttagaaattt gtattattca gaaaataaac139921 46981 ttagtatttt aattgtttta ttaaagaaag aatgtgcctg taatctcagc acttttgaga140041 ggccaaggca gaaggattgc ttgagcccag gagtttgaga ccagactgag caacacaggg140101 agacccccat ctctacaaaa aataaaaaaa ttctccaggc ctcatggcac atacctgtag140161 140 ttctagttac ttgggagact ggggtgggag gatgcattga gcccaggaga ttgaggctgc140221 agtgagccat gatcaggcca ctgtactcca gcttggacaa cagagtgaga gcttgtctag140281 atagatagat agatagataa tctaaataga taatagacag attatctaaa tagataatag140341 acagattatc taaatagata atagacagat tatctaaata gataatagac agattatcta140401 140140140461 atagattatc taaatagata atagatagat agattagata gatagataga tagatagagc140521 ttggacaaca gagtgagagc ctgtctagat agatagaaac aaagaaagaa agaaagaatg140581 gtgctcatat tttaaagcat tgaaaaatgg tcttccttgc ttatattacc cacaccttct 14014086641 140641 140701 86140761 140821 atttcctctt gaatgagaga gaaaatttaa agtaagcaaa caaataagtt gtgtgtcacc 881 actcattcag tcatttaaca agtatttcca 881 gagtacttat tctgtgccag gaaatgttgt140941 aggtgccctc aacaacttag agtctagcct gagacacaag taagtaggta attattatag141001 aatggtatga tctttggagg actgggtatt ggctggctca tgggagtaca agataggtac141061 ccagtgatga agtcaggaaa ggtttcttat ggtgatatga tgacgtctat gctgattata141121 aggtcagtgt agaataaact ttgtgctttt aaatttgcat agcactgtat tagagagttc141181 atcttcaaaa taatcgaaaa ggctgagtgt ggtgacccat ggctgtaatc ccagcacttt141241 gggaggccga ggtgggcaga ttgcttgagc taggagttcg agaccaggct ggccaacatg141301 gtgaaacccc gtctctacta aaaatacaaa aattagccag gagtgatggt gcgcacctgt141361 aatgccagct acttgggagg ctgaggcagg aggatcactt gaacccagga ggtggaggtt141421 gaagtaagcc gaggtcatgc cactgcactc cagcctgggc aacagagtga gactccatct141481 caaaaaaaaa aaaaatgatc aaagaaaggt gaattttcat ctaccctatt tctgctgagg141541 aaaatggact attttcaaat atttttaata agggtcaaaa tgagggatc (2) SEQ ID NO: 2720 data: (i) sequence characteristics:

(A) Length: 533 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2720 sequence description: 1 atttttttgt agagacaggg tctctctatg ttgcccaggc tggtttcaaa ctcccaggct 61 caagcaatcc tcctgccttg gcctcccaaa gtgctggcat tacaggcgtg agccactgcg121 cctggcccgt attaatgttt agaacacgaa ttccaggagg caggctaagt ctattcagct181 tgttcatatg cttgggccaa cccaagaaac aagtgggtga caaatggcac cttttggata241 gtggtattga ctttgaaagt ttgggtcagg aagctgggga ggaagggtgg gcaggctgtg301 ggcagtcctg ggcggaagac caggcagggc tatgtgctca ctgagcctcc gccctcttcc361 tttgaatctc tgatagactt ctgcctccta cttctccttt tctgcccttc tttgctttgg421 tggcttcctt gtggttcctc agtggtgcct gcaacccctg gttcacctcc ttccaggttc481 tggctccttc cagccatggc tctcagagtc cttctgttaa caggtgcatg ggg (2) SEQ ID NO: 2721: (i) sequence characteristics:

(A) length: 4740 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2721 sequence description: 1 gaattccgtg gttcctcagt ggtgcctgca acccctggtt cacctccttc caggttctgg 61 ctccttccag ccatggctct cagagtcctt ctgttaacag ccttgacctt atgtcatggg121 ttcaacttgg acactgaaaa cgcaatgaccttccaagaga acgcaagggg cttcgggcag181 agcgtggtcc agcttcaggg atccagggtg gtggttggag ccccccagga gatagtggct241 gccaaccaaa ggggcagcct ctaccagtgc gactacagca caggctcatg cgagcccatc301 cgcctgcagg tccccgtgga ggccgtgaac atgtccctgg gcctgtccct ggcagccacc361 accagccccc ctcagctgct ggcctgtggt cccaccgtgc accagacttg cagtgagaac421 acgtatgtga aagggctctg cttcctgttt ggatccaacc tacggcagca gccccagaag481 ttcccagagg ccctccgagg gtgtcctcaa gaggatagtg acattgcctt cttgattgat541 ggctctggta gcatcatccc acatgacttt cggcggatga aggagtttgt ctcaactgtg601 atggagcaat taaaaaagtc caaaaccttg ttctctttga tgcagtactc tgaagaattc661 cggattcact ttaccttcaa agagttccag aacaacccta acccaagatc actggtgaag 721 ccaataacgc agctgcttgg gcggacacac acggccacgg gcatccgcaa agtggtacga 781 gagctgttta acatcaccaa cggagcccga aagaatgcct ttaagatcct agttgtcatc 841 acggatggag aaaagtttgg cgatcccttg ggatatgagg atgtcatccc tgaggcagac 901 agagagggag tcattcgcta cgtcattggg gtgggagatg ccttccgcag tgagaaatcc 961 cgccaagagc ttaataccat cgcatccaag ccgcctcgtg atcacgtgtt ccaggtgaat1021 aactttgagg ctctgaagac cattcagaac cagcttcggg agaagatctt tgcgatcgag1081 ggtactcaga caggaagtag cagctccttt gagcatgaga tgtctcagga aggcttcagc1141 gctgccatca cctctaatgg ccccttgctg agcactgtgg ggagctatga ctgggctggt1201 ggagtctttc tatatacatc aaaggagaaa agcaccttca tcaacatgac cagagtggat1261 tcagacatga atgatgctta cttgggttat gctgccgcca tcatcttacg gaaccgggtg1321 caaagcctgg ttctgggggc acctcgatat cagcacatcg gcctggtagc gatgttcagg1381 cagaacactg gcatgtggga gtccaacgct aatgtcaagg gcacccagat cggcgcctac1441 ttcggggcct ccctctgctc cgtggacgtg gacagcaacg gcagcaccga cctggtcctc1501 atcggggccc cccattacta cgagcagacc cgagggggcc aggtgtccgt gtgccccttg1561 cccagggggc agagggctcg gtggcagtgt gatgctgttc tctacgggga gcagggccaa1621 ccctggggcc gctttggggc agccctaaca gtgctggggg acgtaaatgg ggacaagctg1681 acggacgtgg ccattggggc cccaggagag gaggacaacc ggggtgctgt ttacctgttt1741 cacggaacct caggatctgg catcagcccc tcccatagcc agcggatagc aggctccaag1801 ctctctccca ggctccagta ttttggtcag tcactgagtg ggggccagga cctcacaatg1861 gatggactgg tagacctgac tgtaggagcc caggggcacg tgctgctgct caggtcccag1921 ccagtactga gagtcaaggc aatcatggag ttcaatccca gggaagtggc aaggaatgta1981 tttgagtgta atgatcaggt ggtgaaaggc aaggaagccg gagaggtcag agtctgcctc2041 catgtccaga agagcacacg ggatcggcta agagaaggac agatccagag tgttgtgact2101 tatgacctgg ctctggactc cggccgccca cattcccgcg ccgtcttcaa tgagacaaag2161 aacagcacac gcagacagac acaggtcttg gggctgaccc agacttgtga gaccctgaaa2221 ctacagttgc cgaattgcat cgaggaccca gtgagcccca ttgtgctgcg cctgaacttc2281 tctctggtgg gaacgccatt gtctgctttc gggaacctcc ggccagtgct ggcggaggat2341 gctcagagac tcttcacagc cttgtttccc tttgagaaga attgtggcaa tgacaacatc2401 tgccaggatg acctcagcat caccttcagt ttcatgagcc tggactgcct cgtggtgggt24 gggccccggg agttcaacgt gacagtgact gtgagaaatg atggtgagga ctcctacagg2521 acacaggtca ccttcttctt cccgcttgac ctgtcctacc ggaaggtgtc cacactccag 8681 aaccagcgct cacagcgatc ctggcgcctg gcctgtgagt ctgcctcctc caccgaagtg2641 tctggggcct tgaagagcac cagctgcagc ataaaccacc ccatcttccc ggaaaactca 27058 gaggtcacct ttaatatcac gtttgatgta gactctaagg cttcccttgg aaacaaactg2761 ctcctcaagg ccaatgtgac cagtgagaac aacatgccca gaaccaacaa aaccgaattc2821 caactggagc tgccggtgaa atatgctgtc tacatggtgg tcaccagcca tggggtctcc2881 actaaatatc tcaacttcac ggcctcagag aataccagtc gggtcatgca gcatcaatat2941 caggtcagca acctggggca gaggagcctc cccatcagcc tggtgttctt ggtgcccgtc3001 cggctgaacc agactgtcat atgggaccgc ccccaggtca ccttctccga gaacctctcg3061 agtacgtgcc acaccaagga gcgcttgccc tctcactccg actttctggc tgagcttcgg3121 aaggcccccg tggtgaactg ctccatcgct gtctgccaga gaatccagtg tgacatcccg3181 31 3181 ttctttggca tccaggaaga attcaatgct accctcaaag gcaacctctc gtttgactgg3241 tacatcaaga cctcgcataa ccacctcctg atcgtgagca cagctgagat cttgtttaac3301 gattccgtgt tcaccctgct gccgggacag ggggcgtttg tgaggtccca gacggagacc3361 aaagtggagc cgttcgaggt ccccaacccc ctgccgctca tcgtgggcag ctctgtcggg3421 ggactgctgc tcctggccct catcaccgcc gcgctgtaca agctcggctt cttcaagcgg3481 caatacaagg acatgatgag tgaagggggt cccccggggg ccgaacccca gtagcggctc3541 cttcccgaca gagctgcctc tcggtggcca gcaggactct gcccagacca cacgtagccc3601 ccaggctgct ggacacgtcg gacagcgaag tatccccgac aggacgggct tgggcttcca3661tttgtgtgtg tgcaagtgtg tatgtgcgtg tgtgcgagtg tgtgcaagtg tctgtgtgca3721 agtgtgtgca cgtgtgcgtg tgcgtgcatg tgcactcgca cgcccatgtg tgagtgtgtg3781 3726 3781 caagtatgtg agtgtgtcca gtgtgtgtgc gtgtgtccat gtgtgtgcag tgtgtgcatg3841 tgtgcgagtg tgtgcatgtg tgtgctcagg ggctgtggct cacgtgtgtg actcagagtg3901 tctctggcgt gtgggtaggt gacggcagcg tagcctctcc ggcagaaggg aactgcctgg3961 gctcccttgt gcgtgggtaa gccgctgctg ggttttcctc cgggagaggg gacggtcaat4021 cctgtgggtg aagagagagg gaaacacagc agcatctctc cactgaaaga agtgggactt4081 cccgtcgcct gcgagcctgc ggcctgctgg agcctgcgca gcttggatgg atactccatg4141 agaaaagccg tgggtggaac caggagcctc ctccacacca gcgctgatgc ccaataaaga4201 420 4201 tgcccactga ggaatcatga agcttccttt ctggattcat ttattatttc aatgtgactt4261 taattttttg gatggataag cctgtctatg gtacaaaaat cacaaggcat tcaagtgtac4321 agtgaaaagt ctccctttcc agatattcaa gtcacctcct taaaggtagt caagattgtg4381 ttttgaggtt tccttcagac agattccagg cgatgtgcaa gtgtatgcac gtgtgcacac4441 accacacaca tacacacaca caagcttttt tacacaaatg gtagcatact ttatattggt4501 ctgtatcttg ctttttttca ccaatatttc tcagacatcg gttcatatta agacataaat4561 tactttttca ttcttttata ccgctgcata gtattccatt gtgtgagtgt accataatgt4621 atttaaccag tcttcttttg atatactatt ttcatctctt gttattgcat ctgctgagtt4681 aataaatcaa atatatgtca aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa (2) SEQ ID NO: 2722, data: (i) sequence characteristics:

(A) length: 1774 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2722 sequence description: 1 ggttcaagtg attctgctgc ctcagcctcc caggcgggat tacaggtgcc tgccaccacg 61 cctggctaat ttttttgtct ttttagtaaa gatgaggttt caccatgttg ggcaggctgg 121 tttcaattgc tgacctcaag tgagccaccc cgcctcagcc tccaaaatgc taggattaca 181 721 agggcggctt ccatttccat gggctggagg aggacatttt gcaaagtgtg ttttcaggaa 781 181 ggcatgagcc accgcaccca gccaagtttg tacatatatt tttgactaca cttcttaact 241 attcttagga taaattacta gaagtgaaaa ttcttgggtg aagagcttga ggcctttaca 301 cacacacaca cacacacaca cacacacaca caaataggct ggatcgagtg gctcacacct 361 gtaatctcag cagtttggga ggctgaggaa ggaggatcac ttgagtccag gaggttgaga 421 atagcctgaa caacatagca agatcttgtc tctacaaaaa agtttaaaaa aaattagctg 481 gccatggcag catgtgcctg tagtaccagc tactcggaag gctgaggtag gaggatcgct 541 tgagcccagg aggtgattga agctgcagtg agctgtgatt acaccactgc actccagcct 601 gggcaacaga gctagactct gtctctaaaa aaaggcacaa aataatattt aaaaagcacc 661 aggtatgcct gtacttgagt tgtctttgtt gatggctaca aatgagacag ctctggctga 721 agggcggctt ccatttccat gggctggagg aggacatttt gcaaagtgtg ttttcaggaa 781 gacacagagt tttacctcct acacttgttt gatctgtatt aatgtttgct tatttattta 841 tttaattttt tttttgagac agagtctcac tctgtcacct gggctggagt gcagtggcat 901 tattgaggct cattgcagtc tcagactcct gagctcaaac aatcctcctg cctcagcctc 961 tggagtagct aggactacag gcatgtgcca ccatgcctgg ctaatttttt aaatgtattt1021 ttttgtagag tcggggtctc cctatgttgc ccaggctgga gtgcagtggt gtgatcctag1081 ctcactgcag cctggacctc gggctcaaga aattctcaca cctcagcctg tccagtagca1141 ggggctacag gcgcgcacca ccatcccagc taattaaaaa tatttttttg tagagacagg1201 gtctctctat gttgcccagg ctggtttcaa actcccaggc tcaagcaatc ctcctgcctt1261 gcctcccaaa tgacatcgga ttacaggcgt gagccactga gcctggcccg tattaatgtt1321 tagaacacga attccaggag gcaggctaag tctattcagc ttgttcatat gcttgggcca1381 acccaagaaa caagtgggtg acaaatggca ccttttggat agtggtattg actttgaaag1441 tttgggtcag gagctgggga ggaagggtgg gcaggctgtg ggcagtcctg ggcggaagac1501 caggcagggc tatgtgctca ctgagcctcc gccctcttcc tttgaatctc tgatagactt1561 ctgcctccta cttctccttt tctgcccttc tttgctttgg tggcttcctt gtggttcctc1621 agtggtgcct gcaaccctgg ttcactcttc caggttctgg ctccttccag ccatggctct1681 cagagtcctt ctgttaacag gtgcatgggg gtggggtggg ggactctggg tggggaggag1741 ggtaactttt gggtctgtca taaatagagg gccc (2) SEQ ID NO: 2723: (i) sequence characteristics:

(A) length: 7047 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2723 sequence description: 1 atttttttgt agagacaggg tctctctatg ttgcccaggc tggtttcaaa ctcccaggct 61 caagcaatcc tcctgccttg gcctcccaaa gtgctggcat tacaggcgtg agccactgcg121 cctggcccgt attaatgttt agaacacgaa ttccaggagg caggctaagt ctattcagct181 tgttcatatg cttgggccaa cccaagaaac aagtgggtga caaatggcac cttttggata241 gtggtattga ctttgaaagt ttgggtcagg aagctgggga ggaagggtgg gcaggctgtg301 ggcagtcctg ggcggaagac caggcagggc tatgtgctca ctgagcctcc gccctcttcc361 tttgaatctc tgatagactt ctgcctccta cttctccttt tctgcccttc tttgctttgg421 tggcttcctt gtggttcctc agtggtgcct gcaacccctg gttcacctcc ttccaggttc481 tggctccttc cagccatggc tctcagagtc cttctgttaa caggtgcatg ggg

1 gaattccgtg gttcctcagt ggtgcctgca acccctggtt cacctccttc caggttctgg 61 ctccttccag ccatggctct cagagtcctt ctgttaacag ccttgacctt atgtcatggg121 ttcaacttgg acactgaaaa cgcaatgacc ttccaagaga acgcaagggg cttcgggcag181 721 ccaataacgc agctgcttgg gcggacacac acggccacgg gcatccgcaa agtggtacga 781 181 agcgtggtcc agcttcaggg atccagggtg gtggttggag ccccccagga gatagtggct241 gccaaccaaa ggggcagcct ctaccagtgc gactacagca caggctcatg cgagcccatc301 cgcctgcagg tccccgtgga ggccgtgaac atgtccctgg gcctgtccct ggcagccacc361 accagccccc ctcagctgct ggcctgtggt cccaccgtgc accagacttg cagtgagaac421 acgtatgtga aagggctctg cttcctgttt ggatccaacc tacggcagca gccccagaag481 ttcccagagg ccctccgagg gtgtcctcaa gaggatagtg acattgcctt cttgattgat541 ggctctggta gcatcatccc acatgacttt cggcggatga aggagtttgt ctcaactgtg601 atggagcaat taaaaaagtc caaaaccttg ttctctttga tgcagtactc tgaagaattc661 cggattcact ttaccttcaa agagttccag aacaacccta acccaagatc actggtgaag 721 ccaataacgc agctgcttgg gcggacacac acggccacgg gcatccgcaa agtggtacga 781 gagctgttta acatcaccaa cggagcccga aagaatgcct ttaagatcct agttgtcatc 841 acggatggag aaaagtttgg cgatcccttg ggatatgagg atgtcatccc tgaggcagac 901 agagagggag tcattcgcta cgtcattggg gtgggagatg ccttccgcag tgagaaatcc 961 cgccaagagc ttaataccat cgcatccaag ccgcctcgtg atcacgtgtt ccaggtgaat1021 aactttgagg ctctgaagac cattcagaac cagcttcggg agaagatctt tgcgatcgag1081 ggtactcaga caggaagtag cagctccttt gagcatgaga tgtctcagga aggcttcagc1141 gctgccatca cctctaatgg ccccttgctg agcactgtgg ggagctatga ctgggctggt1201 ggagtctttc tatatacatc aaaggagaaa agcaccttca tcaacatgac cagagtggat1261 tcagacatga atgatgctta cttgggttat gctgccgcca tcatcttacg gaaccgggtg1321 caaagcctgg ttctgggggc acctcgatat cagcacatcg gcctggtagc gatgttcagg1381 cagaacactg gcatgtggga gtccaacgct aatgtcaagg gcacccagat cggcgcctac1441 ttcggggcct ccctctgctc cgtggacgtg gacagcaacg gcagcaccga cctggtcctc1501 atcggggccc cccattacta cgagcagacc cgagggggcc aggtgtccgt gtgccccttg1561 cccagggggc agagggctcg gtggcagtgt gatgctgttc tctacgggga gcagggccaa1621 ccctggggcc gctttggggc agccctaaca gtgctggggg acgtaaatgg ggacaagctg1681 acggacgtgg ccattggggc cccaggagag gaggacaacc ggggtgctgt ttacctgttt1741 cacggaacct caggatctgg catcagcccc tcccatagcc agcggatagc aggctccaag1801 ctctctccca ggctccagta ttttggtcag tcactgagtg ggggccagga cctcacaatg1861 gatggactgg tagacctgac tgtaggagcc caggggcacg tgctgctgct caggtcccag1921 ccagtactga gagtcaaggc aatcatggag ttcaatccca gggaagtggc aaggaatgta1981 tttgagtgta atgatcaggt ggtgaaaggc aaggaagccg gagaggtcag agtctgcctc2041 catgtccaga agagcacacg ggatcggcta agagaaggac agatccagag tgttgtgact2101 tatgacctgg ctctggactc cggccgccca cattcccgcg ccgtcttcaa tgagacaaag2161 aacagcacac gcagacagac acaggtcttg gggctgaccc agacttgtga gaccctgaaa2221 ctacagttgc cgaattgcat cgaggaccca gtgagcccca ttgtgctgcg cctgaacttc2281 tctctggtgg gaacgccatt gtctgctttc gggaacctcc ggccagtgct ggcggaggat2341 gctcagagac tcttcacagc cttgtttccc tttgagaaga attgtggcaa tgacaacatc2401 tgccaggatg acctcagcat caccttcagt ttcatgagcc tggactgcct cgtggtgggt2461 gggccccggg agttcaacgt gacagtgact gtgagaaatg atggtgagga ctcctacagg2521 acacaggtca ccttcttctt cccgcttgac ctgtcctacc ggaaggtgtc cacactccag2581 aaccagcgct cacagcgatc ctggcgcctg gcctgtgagt ctgcctcctc caccgaagtg2641 tctggggcct tgaagagcac cagctgcagc ataaaccacc ccatcttccc ggaaaactca2701 gaggtcacct ttaatatcac gtttgatgta gactctaagg cttcccttgg aaacaaactg2761 ctcctcaagg ccaatgtgac cagtgagaac aacatgccca gaaccaacaa aaccgaattc2821 caactggagc tgccggtgaa atatgctgtc tacatggtgg tcaccagcca tggggtctcc2881 actaaatatc tcaacttcac ggcctcagag aataccagtc gggtcatgca gcatcaatat2941 caggtcagca acctggggca gaggagcctc cccatcagcc tggtgttctt ggtgcccgtc3001 cggctgaacc agactgtcat atgggaccgc ccccaggtca ccttctccga gaacctctcg3061 agtacgtgcc acaccaagga gcgcttgccc tctcactccg actttctggc tgagcttcgg3121 aaggcccccg tggtgaactg ctccatcgct gtctgccaga gaatccagtg tgacatcccg3181 ttctttggca tccaggaaga attcaatgct accctcaaag gcaacctctc gtttgactgg3241 tacatcaaga cctcgcataa ccacctcctg atcgtgagca cagctgagat cttgtttaac3301 gattccgtgt tcaccctgct gccgggacag ggggcgtttg tgaggtccca gacggagacc3361 aaagtggagc cgttcgaggt ccccaacccc ctgccgctca tcgtgggcag ctctgtcggg3421 ggactgctgc tcctggccct catcaccgcc gcgctgtaca agctcggctt cttcaagcgg3481 caatacaagg acatgatgag tgaagggggt cccccggggg ccgaacccca gtagcggctc3541 593601 ccaggctgct ggacacgtcg gacagcgaag tatccccgac aggacgggct tgggcttcca3661 tttgtgtgtg tgcaagtgtg tatgtgcgtg tgtgcgagtg tgtgcaagtg tctgtgtgca3721 agtgtgtgca cgtgtgcgtg tgcgtgcatg tgcactcgca cgcccatgtg tgagtgtgtg3781 caagtatgtg agtgtgtcca gtgtgtgtgc gtgtgtccat gtgtgtgcag tgtgtgcatg3841 tgtgcgagtg tgtgcatgtg tgtgctcagg ggctgtggct cacgtgtgtg actcagagtg3901 tctctggcgt gtgggtaggt gacggcagcg tagcctctcc ggcagaaggg aactgcctgg 398661 gctcccttgt gcgtgggtaa gccgctgctg ggttttcctc cgggagaggg gacggtcaat4021 cctgtgggtg aagagagagg gaaacacagc agcatctctc cactgaaaga agtgggactt cccgtcgcct gcgagcctgc ggcctgctgg agcctgcgca gcttggatgg atactccatg4141 agaaaagccg tgggtggaac caggagcctc ctccacacca gcgctgatgc ccaataaaga4201 tgcccactga ggaatcatga agcttccttt ctggattcat ttattatttc aatgtgactt4261 taattttttg gatggataag cctgtctatg gtacaaaaat cacaaggcat tcaagtgtac4321 agtgaaaagt ctccctttcc agatattcaa gtcacctcct taaaggtagt caagattgtg4381 ttttgaggtt tccttcagac agattccagg cgatgtgcaa gtgtatgcac gtgtgcacac4441 accacacaca tacacacaca caagcttttt tacacaaatg gtagcatact ttatattggt4501 ctgtatcttg ctttttttca ccaatatttc tcagacatcg gttcatatta agacataaat4561 tactttttca ttcttttata ccgctgcata gtattccatt gtgtgagtgt accataatgt4621 atttaaccag tcttcttttg atatactatt ttcatctctt gttattgcat ctgctgagtt4681 aataaatcaa atatatgtca aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 1 ggttcaagtg attctgctgc ctcagcctcc caggcgggat tacaggtgcc tgccaccacg 61 cctggctaat ttttttgtct ttttagtaaa gatgaggttt caccatgttg ggcaggctgg 121 tttcaattgc tgacctcaag tgagccaccc cgcctcagcc tccaaaatgc taggattaca 181 ggcatgagcc accgcaccca gccaagtttg tacatatatt tttgactaca cttcttaact 241 attcttagga taaattacta gaagtgaaaa ttcttgggtg aagagcttga ggcctttaca 301 cacacacaca cacacacaca cacacacaca caaataggct ggatcgagtg gctcacacct 361 gtaatctcag cagtttggga ggctgaggaa ggaggatcac ttgagtccag gaggttgaga 421 atagcctgaa caacatagca agatcttgtc tctacaaaaa agtttaaaaa aaattagctg 481 gccatggcag catgtgcctg tagtaccagc tactcggaag gctgaggtag gaggatcgct 541 tgagcccagg aggtgattga agctgcagtg agctgtgatt acaccactgc actccagcct 601 gggcaacaga gctagactct gtctctaaaa aaaggcacaa aataatattt aaaaagcacc 661 aggtatgcct gtacttgagt tgtctttgtt gatggctaca aatgagacag ctctggctga 721 agggcggctt ccatttccat gggctggagg aggacatttt gcaaagtgtg ttttcaggaa 781 gacacagagt tttacctcct acacttgttt gatctgtatt aatgtttgct tatttattta 841 tttaattttt tttttgagac agagtctcac tctgtcacct gggctggagt gcagtggcat 901 tattgaggct cattgcagtc tcagactcct gagctcaaac aatcctcctg cctcagcctc 961 tggagtagct aggactacag gcatgtgcca ccatgcctgg ctaatttttt aaatgtattt1021 ttttgtagag tcggggtctc cctatgttgc ccaggctgga gtgcagtggt gtgatcctag1081 ctcactgcag cctggacctc gggctcaaga aattctcaca cctcagcctg tccagtagca1141 ggggctacag gcgcgcacca ccatcccagc taattaaaaa tatttttttg tagagacagg1201 gtctctctat gttgcccagg ctggtttcaa actcccaggc tcaagcaatc ctcctgcctt1261 gcctcccaaa tgacatcgga ttacaggcgt gagccactga gcctggcccg tattaatgtt1321 tagaacacga attccaggag gcaggctaag tctattcagc ttgttcatat gcttgggcca1381 acccaagaaa caagtgggtg acaaatggca ccttttggat agtggtattg actttgaaag1441 tttgggtcag gagctgggga ggaagggtgg gcaggctgtg ggcagtcctg ggcggaagac1501 caggcagggc tatgtgctca ctgagcctcc gccctcttcc tttgaatctc tgatagactt1561 ctgcctccta cttctccttt tctgcccttc tttgctttgg tggcttcctt gtggttcctc1621 agtggtgcctgcaaccctgg ttcactcttc caggttctgg ctccttccag ccatggctct1681 cagagtcctt ctgttaacag gtgcatgggg gtggggtggg ggactctggg tggggaggag1741 ggtaactttt gggtctgtca taaatagagg gccc (2) SEQ ID NO: 2724: (i) sequence characteristics:

(A) length: 779 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2724 sequence description: 1 ctgcagctcc ggaacggggg ggggctgctc tccaccgccc ctgtgcggcc gcccgggaaa 61 gtgcaggcgg gccgggcgcg gtggctcacg cctgtgatct cagcactttg ggaggccgag121 gtgggcggat cacctgaggt cgggagttcg aggccagcct gcccaacatg gagaaaccct181 gtctctacta aagatacaaa attagccagg cgtggtgacg catgcctgta atcccagcta241 ctggagtggc tgaggcagga gaatcgcttg agcccgggag acagaggttg cggtgagctg301 agatcgcacc attgcactcc agcctgggca acaagagcga aactcagaaa aaaaagaaaa361 gaaagtgcag gggacccgcc gtcggggtgg gggcggcgct gcccagcctc tgtcccactt421 ccatgcactt gacctcgacc ctccggcctc cgtctgcgat cttcccgtgc ctgaatatga481 ggcttggaac agacccagac cttcctgcct gcccgtcctg agtggccccg ggaccccgcc541 ccatctttgg cccccagccc ctgcctctct gccgcctcca gggtcggggg tcaggccagg601 aaagcccctt gggaagcccc cggggagcag ctggagcggg gtcgccgggc ggcgggaagg661 agtgggcgcc tctatttaag cggcttcccc gcggcctcgg gacagagggg actgagcatg721 39 721 gatttcggac tggccctcct gctggcgggg cttctggggc tcctcctcgg tgagaaggg (2) SEQ ID NO: 2725: (i) sequence characteristics:

(A) length: 1598 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2725 sequence description: 1 atggatttcg gactggccct cctgctggcg gggcttctgg ggctcctcct cggccagtcc 61 ctccaggtga agcccctgca ggtggagccc ccggagccgg tggtggccgt ggccttgggc121 gcctcgcgcc agctcacctg ccgcctggcc tgcgcggacc gcggggcctc ggtgcagtgg 181 721 cccaacacca cctcEccgga gtctcccgac accacctccc cggagtctcc cgacaccacc 781 181 cggggcctgg acaccagcct gggcgcggtg cagtcggaca cgggccgcag cgtcctcacc 241 gtgcgcaacg cctcgctgtc ggcggccggg acccgcgtgt gcgtgggctc ctgcgggggc 301 cgcaccttcc agcacaccgt gcagctcctt gtgtacgcct tcccggacca gctgaccgtc 361 tccccagcag ccctggtgcc tggtgacccg gaggtggcct gtacggccca caaagtcacg 421 cccgtggacc ccaacgcgct ctccttctcc ctgctcgtcg ggggccagga actggagggg 481 gcgcaagccc tgggcccgga ggtgcaggag gaggaggagg agccccaggg ggacgaggac 541 gtgctgttca gggtgacaga gcgctggcgg ctgccgcccc tggggacccc tgtcccgccc 601 gccctctact gccaggccac gatgaggctg cctggcttgg agctcagcca ccgccaggcc 661 atccccgtcc tgcacagccc gacctccccg gagcctcccg acaccacctc cccggagcct 721 cccaacacca cctcEccgga gtctcccgac accacctccc cggagtctcc cgacaccacc 781 tcccaggagc ctcccgacac cacctcccag gagcctcccg acaccacctc ccaggagcct 841 cccgacacca cctccccgga gcctcccgac aagacctccc cggagcccgc cccccagcag 901 ggctccacac acacccccag gagcccaggc tccaccagga ctcgccgccc tgagatctcc 961 caggctgggc ccacgcaggg agaagtgatc ccaacaggct cgtccaaacc tgcgggtgac1021 cagctgcccg cggctctgtg gaccagcagt gcggtgctgg gactgctgct cctggccttg1081 cccacgtatc acctctggaa acgctgccgg cacctggctg aggacgacac ccacccacca1141 gcttctctga ggcttctgcc ccaggtgtcg gcctgggctg ggttaagggg gaccggccag1201 gtcgggatca gcccctcctg agtggccagc ctttccccct gtgaaagcaa aatagcttgg1261 accccttcaa gttgagaact ggtcagggca aacctgcctc ccattctact caaagtcatc1321 cctctgctca cagagatgga tgcatgttct gattgcctct ttggagaagc tcatcagaaa1381 ctcaaaagaa ggccactgtt tgtctcacct acccatgacc tgaagcccct ccctgagtgg1441 tccccacctt tctggacgga accacgtact ttttacatac attgattcat gtctcacgtc1501 tccctaaaaa tgcgtaagac caagctgtgc cctgaccacc ctgggcccct gtcgtcagga1561 cctcctgagg ctttggcaaa taaacctcct aaaatgat (2) SEQ ID NO: 2726: (i) sequence characteristics: length (A): 350 base pairs (B) type: nucleic acid (C) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2726 sequence description: 1 tccatcacag ccttcccgga ccagctgacc gtctccccag cagccctggt gcctggtgac 61 ccggaggtgg cctgtacggc ccacaaagtc acgcccgtgg accccaacgc gctctccttc121 tccctgctcg tcgggggcca ggaactggag ggggcgcaag ccctgggccc ggaggtgcag181 gaggaggagg aggagcccca gggggacgag gacgtgctgt tcagggtgac agagcgctgg241 cggctgccgc ccctggggac ccctgtcccg cccgccctct actgccaggc cacgatgagg301 ctgcctggct tggagctcag ccaccgccag gccatccccg gtgagtccgc (2) SEQ ID NO: 2727: (i) sequence characteristics:

(A) length: 305 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2727 sequence description: 1 gtcgccgcag gccagtccct ccaggtgaag cccctgcagg tggagccccc ggagccggtg 61 gtggccgtgg ccttgggcgc ctcgcgccag ctcacctgcc gcctggcctg cgcggaccgc121 ggggcctcgg tgcagtggcg gggcctggac accagcctgg gcgcggtgca gtcggacacg181 ggccgcagcg tcctcaccgt gcgcaacgcc tcgctgtcgg cggccgggac ccgcgtgtgc241 gtgggctcct gcgggggccg caccttccag cacaccgtgc agctccttgt gtacggtgag301 gcgtc (2) SEQ ID NO: 2728: (i) sequence characteristics:

(A) length: 353 base pairs

(B) Type (2): nucleic acid (C) strand type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2728 sequence description: 1 ctgtttccag tcctgcacag cccgacctcc ccggagcctc ccgacaccac ctccccggag 61 cctcccaaca ccacctcccc ggagtctccc gacaccacct ccccggagtc tcccgacacc121 acctcccagg agcctcccga caccacctcc caggagcctc ccgacaccac ctcccaggag181 cctcccgaca ccacctcccc ggagcctccc gacaagacct ccccggagcc cgccccccag241 cagggctcca cacacacccc caggagccca ggctccacca ggactcgccg ccctgagatc301 tcccaggctg ggcccacgca gggagaagtg atcccaacag gctgtgagtt ctg (2) SEQ ID NO: 2729 data: (i) sequence characteristics:

(A) length: 608 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2729 sequence description: 1 ctctccccag cgtccaaacc tgcgggtgac cagctgcccg cggctctgtg gaccagcagt 61 gcggtgctgg gactgctgct cctggccttg cccacgtatc acctctggaa acgctgccgg121 cacctggctg aggacgacac ccacccacca gcttctctga ggcttctgcc ccaggtgtcg181 gcctgggctg ggttaagggg gaccggccag gtcgggatca gcccctcctg agtggccagc241 ctttccccct gtgaaagcaa aatagcttgg accccttcaa gttgagaact ggtcagggca301 aacctgcctc ccattctact caaagtcatc cctctgttca cagagatgga tgcatgttct361 gattgcctct ttggagaagc tcatcagaaa ctcaaaagaa ggccactgtt tgtctcacct421 acccatgacc tgaagcccct ccctgagtgg tccccacctt tctggacgga accacgtact481 ttttacatac attgattcat gtctcacgtc tccctaaaaa tgcgtaagac caagctgtgc541 cctgaccacc ctgggcccct gtcgtcagga cctcctgagg ctttggcaaa taaacctcct601 aaatgat (2) SEQ ID NO: 2730 data: (i) sequence characteristics:

(A) length: 1546 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2730 description of the sequence: 1 gggactgagc atggatttcg gactggccct cctgctggcg gggcttctgg ggctcctcct 61 cggccagtcc ctccaggtga agcccctgca ggtggagccc ccggagccgg tggtggccgt 121 ggccttgggc gcctcgcgcc agctcacctg ccgcctggcc tgcgcggacc gcggggcctc 181 721 cccggagtct cccgacacca cctccccgga gtctcccgac accacctccc cggagcctcc 781 181 ggtgcagtgg cggggcctgg acaccagcct gggcgcggtg cagtcggaca cgggccgcag 241 cgtcctcacc gtgcgcaacg cctcgctgtc ggcggccggg acccgcgtgt gcgtgggctc 301 ctgcgggggc cgcaccttcc agcacaccgt gcagctcctt gtgtacgcct tcccggacca 361 gctgaccgtc tccccagcag ccctggtgcc tggtgacccg gaggtggcct gtacggccca 421 caaagtcacg cccgtggacc ccaacgcgct ctccttctcc ctgctcgtcg ggggccagga 481 actggagggg gcgcaagccc tgggcccgga ggtgcaggag gaggaggagg agccccaggg 541 ggacgaggac gtgctgttca gggtgacaga gcgctggcgg ctgccgcccc tggggacccc 601 tgtcccgccc gccctctact gccaggccac gatgaggctg cctggcttgg agctcagcca 661 ccgccaggcc atccccgtcc tgcacagccc gacctccccg gagcctcccg acaccacctc 721 cccggagtct cccgacacca cctccccgga gtctcccgac accacctccc cggagcctcc 781 cgacaccacc tccccggagc ctcccgacaa gacctccccg gagcccgccc cccagcaggg 841 ctccacacac acccccagga gcccaggctc caccaggact cgccgccctg agatctccca 901 ggctgggccc acgcagggag aagtgatccc aacaggctcg tccaaacctg cgggtgacca 961 gctgcccgcg gctctgtgga ccagcagtgc ggtgctggga ctgctgctcc tggccttgcc1021 cacgtatcac ctctggaaac gctgccggca cctggctgag gacgacaccc acccaccagc1081 ttctctgagg cttctgcccc aggtgtcggc ctgggctggg ttaaggggga ccggccaggt1141 cgggatcagc ccctcctgag tggccagcct ttccccctgt gaaagcaaaa tagcttggac1201 cccttcaagt tgagaactgg tcagggcaaa cctgcctccc attctactca aagtcatccc1261 tctgttcaca gagatggatg catgttctga ttgcctcttt ggagaagctc atcagaaact1321 caaaagaagg ccactgtttg tctcacctac ccatgacctg aagcccctcc ctgagtggtc1381 cccacctttc tggacggaac cacgtacttt ttacatacat tgattcatgt ctcacgtctc1441 cctaaaaatg cgtaagacca agctgtgccc tgaccaccct gggcccctgt cgtcaggacc1501 tcctgaggct ttggcaaata aacctcctaa aatgataaaa aaaaaa (2) SEQ ID NO: 2731 materials: (i) sequence characteristics:

(A) length: 5539 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2731 sequence description: 1 ctgcagctcc ggaacggggg ggggctgctc tccaccgccc ctgtgcggcc gcccgggaaa 61 gtgcaggcgg gccgggcgcg gtggctcacg cctgtgatct cagcactttg ggaggccgag121 gtgggcggat cacctgaggt cgggagttcg aggccagcct gcccaacatg gagaaaccct181 gtctctacta aagatacaaa attagccagg cgtggtgacg catgcctgta atcccagcta241 ctggagtggc tgaggcagga gaatcgcttg agcccgggag acagaggttg cggtgagctg301 agatcgcacc attgcactcc agcctgggca acaagagcga aactcagaaa aaaaagaaaa361 gaaagtgcag gggacccgcc gtcggggtgg gggcggcgct gcccagcctc tgtcccactt421 ccatgcactt gacctcgacc ctccggcctc cgtctgcgat cttcccgtgc ctgaatatga481 ggcttggaac agacccagac cttcctgcct gcccgtcctg agtggccccg ggaccccgcc541 ccatctttgg cccccagccc ctgcctctct gccgcctcca gggtcggggg tcaggccagg601 aaagcccctt gggaagcccc cggggagcag ctggagcggg gtcgccgggc ggcgggaagg661 agtgggcgcc tctatttaag cggcttcccc gcggcctcgg gacagagggg actgagcatg721 gatttcggac tggccctcct gctggcgggg cttctggggc tcctcctcgg tgagaaggg1 atggatttcg gactggccct cctgctggcg gggcttctgg ggctcctcct cggccagtcc 61 ctccaggtga agcccctgca ggtggagccc ccggagccgg tggtggccgt ggccttgggc121 gcctcgcgcc agctcacctg ccgcctggcc tgcgcggacc gcggggcctc ggtgcagtgg 181 cggggcctgg acaccagcct gggcgcggtg cagtcggaca cgggccgcag cgtcctcacc 241 gtgcgcaacg cctcgctgtc ggcggccggg acccgcgtgt gcgtgggctc ctgcgggggc 301 cgcaccttcc agcacaccgt gcagctcctt gtgtacgcct tcccggacca gctgaccgtc 361 tccccagcag ccctggtgcc tggtgacccg gaggtggcct gtacggccca caaagtcacg 421 cccgtggacc ccaacgcgct ctccttctcc ctgctcgtcg ggggccagga actggagggg 481 gcgcaagccc tgggcccgga ggtgcaggag gaggaggagg agccccaggg ggacgaggac 541 gtgctgttca gggtgacaga gcgctggcgg ctgccgcccc tggggacccc tgtcccgccc 601 gccctctact gccaggccac gatgaggctg cctggcttgg agctcagcca ccgccaggcc 661 atccccgtcc tgcacagccc gacctccccg gagcctcccg acaccacctc cccggagcct 721 cccaacacca cctccccgga gtctcccgac accacctccc cggagtctcc cgacaccacc 781 tcccaggagc ctcccgacac cacctcccag gagcctcccg acaccacctc ccaggagcct 841 cccgacacca cctccccgga gcctcccgac aagacctccc cggagcccgc cccccagcag 901 ggctccacac acacccccag gagcccaggc tccaccagga ctcgccgccc tgagatctcc 961 caggctgggc ccacgcaggg agaagtgatc ccaacaggct cgtccaaacc tgcgggtgac1021 cagctgcccg cggctctgtg gaccagcagt gcggtgctgg gactgctgct cctggccttg1081 cccacgtatc acctctggaa acgctgccgg cacctggctg aggacgacac ccacccacca1141 gcttctctga ggcttctgcc ccaggtgtcg gcctgggctg ggttaagggg gaccggccag1201 gtcgggatca gcccctcctg agtggccagc ctttccccct gtgaaagcaa aatagcttgg1261 accccttcaa gttgagaact ggtcagggca aacctgcctc ccattctact caaagtcatc1321 cctctgctca cagagatgga tgcatgttct gattgcctct ttggagaagc tcatcagaaa1381 ctcaaaagaa ggccactgtt tgtctcacct acccatgacc tgaagcccct ccctgagtgg1441 tccccacctt tctggacgga accacgtact ttttacatac attgattcat gtctcacgtc1501 tccctaaaaa tgcgtaagac caagctgtgc cctgaccacc ctgggcccct gtcgtcagga1561 cctcctgagg ctttggcaaa taaacctcct aaaatgat

1 tccatcacag ccttcccgga ccagctgacc gtctccccag cagccctggt gcctggtgac 61 ccggaggtgg cctgtacggc ccacaaagtc acgcccgtgg accccaacgc gctctccttc 121 tccctgctcg tcgggggcca ggaactggag ggggcgcaag ccctgggccc ggaggtgcag 181 gaggaggagg aggagcccca gggggacgag gacgtgctgt tcagggtgac agagcgctgg 241 cggctgccgc ccctggggac ccctgtcccg cccgccctct actgccaggc cacgatgagg 301 ctgcctggct tggagctcag ccaccgccag gccatccccg gtgagtccgc

1 gtcgccgcag gccagtccct ccaggtgaag cccctgcagg tggagccccc ggagccggtg 61 gtggccgtgg ccttgggcgc ctcgcgccag ctcacctgcc gcctggcctg cgcggaccgc 121 ggggcctcgg tgcagtggcg gggcctggac accagcctgg gcgcggtgca gtcggacacg 181 ggccgcagcg tcctcaccgt gcgcaacgcc tcgctgtcgg cggccgggac ccgcgtgtgc 241 gtgggctcct gcgggggccg caccttccag cacaccgtgc agctccttgt gtacggtgag 301 gcgtc

1 ctgtttccag tcctgcacag cccgacctcc ccggagcctc ccgacaccac ctccccggag 61 cctcccaaca ccacctcccc ggagtctccc gacaccacct ccccggagtc tcccgacacc121 acctcccagg agcctcccga caccacctcc caggagcctc ccgacaccac ctcccaggag181 cctcccgaca ccacctcccc ggagcctccc gacaagacct ccccggagcc cgccccccag241 cagggctcca cacacacccc caggagccca ggctccacca ggactcgccg ccctgagatc301 tcccaggctg ggcccacgca gggagaagtg atcccaacag gctgtgagtt ctg1 ctctccccag cgtccaaacc tgcgggtgac cagctgcccg cggctctgtg gaccagcagt 61 gcggtgctgg gactgctgct cctggccttg cccacgtatc acctctggaa acgctgccgg121 cacctggctg aggacgacac ccacccacca gcttctctga ggcttctgcc ccaggtgtcg181 gcctgggctg ggttaagggg gaccggccag gtcgggatca gcccctcctg agtggccagc241 ctttccccct gtgaaagcaa aatagcttgg accccttcaa gttgagaact ggtcagggca301 aacctgcctc ccattctact caaagtcatc cctctgttca cagagatgga tgcatgttct361 gattgcctct ttggagaagc tcatcagaaa ctcaaaagaa ggccactgtt tgtctcacct421 acccatgacc tgaagcccct ccctgagtgg tccccacctt tctggacgga accacgtact481 ttttacatac attgattcat gtctcacgtc tccctaaaaa tgcgtaagac caagctgtgc541 cctgaccacc ctgggcccct gtcgtcagga cctcctgagg ctttggcaaa taaacctcct601 aaatgat 1 gggactgagc atggatttcg gactggccct cctgctggcg gggcttctgg ggctcctcct 61 3961 61 cggccagtcc ctccaggtga agcccctgca ggtggagccc ccggagccgg tggtggccgt 121 ggccttgggc gcctcgcgcc agctcacctg ccgcctggcc tgcgcggacc gcggggcctc 181 ggtgcagtgg cggggcctgg acaccagcct gggcgcggtg cagtcggaca cgggccgcag 241 cgtcctcacc gtgcgcaacg cctcgctgtc ggcggccggg acccgcgtgt gcgtgggctc 301 ctgcgggggc cgcaccttcc agcacaccgt gcagctcctt gtgtacgcct tcccggacca 361 gctgaccgtc tccccagcag ccctggtgcc tggtgacccg gaggtggcct gtacggccca 421 caaagtcacg cccgtggacc ccaacgcgct ctccttctcc ctgctcgtcg ggggccagga 481 actggagggg gcgcaagccc tgggcccgga ggtgcaggag gaggaggagg agccccaggg 541 ggacgaggac gtgctgttca gggtgacaga gcgctggcgg ctgccgcccc tggggacccc 601 tgtcccgccc gccctctact gccaggccac gatgaggctg cctggcttgg agctcagcca 661 ccgccaggcc atccccgtcc tgcacagccc gacctccccg gagcctcccg acaccacctc 721 cccggagtct cccgacacca cctccccgga gtctcccgac accacctccc cggagcctcc 781 cgacaccacc tccccggagc ctcccgacaa gacctccccg gagcccgccc cccagcaggg 841 ctccacacac acccccagga gcccaggctc caccaggact cgccgccctg agatctccca 901 ggctgggccc acgcagggag aagtgatccc aacaggctcg tccaaacctg cgggtgacca 961 gctgcccgcg gctctgtgga ccagcagtgc ggtgctggga ctgctgctcc tggccttgcc1021 cacgtatcac ctctggaaac gctgccggca cctggctgag gacgacaccc acccaccagc1081 ttctctgagg cttctgcccc aggtgtcggc ctgggctggg ttaaggggga ccggccaggt1141 cgggatcagc ccctcctgag tggccagcct ttccccctgt gaaagcaaaa tagcttggac1201 cccttcaagt tgagaactgg tcagggcaaa cctgcctccc attctactca aagtcatccc1261 tctgttcaca gagatggatg catgttctga ttgcctcttt ggagaagctc atcagaaact1321 caaaagaagg ccactgtttg tctcacctac ccatgacctg aagcccctcc ctgagtggtc1381 cccacctttc tggacggaac cacgtacttt ttacatacat tgattcatgt ctcacgtctc1441 cctaaaaatg cgtaagacca agctgtgccc tgaccaccct gggcccctgt cgtcaggacc1501 tcctgaggct ttggcaaata aacctcctaa aatgataaaa aaaaaa (2) SEQ ID NO. 3 NO: 2732 data: (i) sequence characteristics:

(A) length: 1539 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2732 sequence description: 1 ggaattccgg gcccggtctt tcctcccgcc gccgccggcc tggtcccggg gactggcctc 61 cacgtccgac tcgtccgagc tgaagcccag cagcactttg ctgccagccg cgggggcggc 121 ggaggcgccc ccgggccctc ccaggaggct ctctgggcca gaggccgaga ttcggcacag 181 721 tcagctgaca taattcacag ggacctaaaa cctagtaatc tagctgtgaa tgaagactgt 781 181 gcccccagga gtccgtaagt aggagaggtc gcccgagacc ggccggaccc ccatccccgc 241 ggccgccgcc gccgctggtc ccgcggctgc gaccgtggcg gctgccgctg gaaaatgtct 301 caggagaggc ccacgttcta ccggcaggag ctgaacaaga caatctggga ggtgcccgag 361 cgttaccaga acctgtctcc agtgggctct ggcgcctatg gctctgtgtg tgctgctttt 421 gacacaaaaa cggggttacg tgtggcagtg aagaagctct ccagaccatt tcagtccatc 481 attcatgcga aaagaaccta cagagaactg cggttactta aacatatgaa acatgaaaat 541 gtgattggtc tgttggacgt ttttacacct gcaaggtctc tggaggaatt caatgatgtg 601 tatctggtga cccatctcat gggggcagat ctgaacaaca ttgtgaaatg tcagaagctt 661 acagatgacc atgttcagtt ccttatctac caaattctcc gaggtctaaa gtatatacat 721 tcagctgaca taattcacag ggacctaaaa cctagtaatc tagctgtgaa tgaagactgt 781 gagctgaaga ttctggattt tggactggct cggcacacag atgatgaaat gacaggctac 841 gtggccacta ggtggtacag ggctcctgag atcatgctga actggatgca ttacaaccag 901 acagttgata tttggtcagt gggatgcata atggccgagc tgttgactgg aagaacattg 961 tttcctggta cagaccatat tgatcagttg aagctcattt taagactcgt tggaacccca1021 ggggctgagc ttttgaagaa aatctcctca gagtctgcaa gaaactatat tcagtctttg1081 actcagatgc cgaagatgaa ctttgcgaat gtatttattg gtgccaatcc cctggctgtc1141 gacttgctgg agaagatgct tgtattggac tcagataaga gaattacagc ggcccaagcc1201 cttgcacatg cctactttgc tcagtaccac gatcctgatg atgaaccagt ggccgatcct1261 tatgatcagt cctttgaaag cagggacctc cttatagatg agtggaaaag cctgacctat1321 gatgaagtca tcagctttgt gccaccaccc cttgaccaag aagagatgga gtcctgagca1381 cctggtttct gttctgttga tcccacttca ctgtgagggg aaggcctttt cacgggaact1441 ctccaaatat tattcaagtg cctcttgttg cagagatttc ctccatggtg gaagggggtg1501 tgcgtgcgtg tgcgtgcgtg ttagtgtgtg tgcatgtgt (2) SEQ ID NO: 2733 data: (i) sequence characteristics: length (A): 3160 base pairs (type B): nucleic acid (c) strand type:single chain (D) topology: linear (xi) SEQ ID NO: 2733 sequence description: 1 aattaaccct cactaaaggg agtcgactcg atccccccgc ctcagcccct tttttctttt 61 ttttttcatt ttcagttcag gagagtttta gcttaattat aggctacaga accagctttg 121 ggcttcatct atcctttcta atatttactg tttcctattt ctctaatcct agctctttat 181 721 ttttggtcaa gttatttaat ctctctgcat ccgtttcctc ttctatgaaa tgggcatgat 781 181 ttcttccctt tactttcact gggcttattt tgctatagtg gaatgcagag ggatgagtat 241 tccaggaagg cacaaaaact gtgccaagtc ttggagctag ggatgagtgg gaaagggaca 301 tgttcaacca ttttaggcca ttccctcccc acctcccagc tcccagatat gtgcccctcg 361 caggaggagc ccaggaatgg gccaaacacc tcacttcttt gctctgaggg ccaccccagc 421 cctcccatca acagctctag aaacccaatg gtccttcctg gaaacacggg gcctgcatca 481 atcagaggtg tttgaaccat gtccctctgg gcctgagggg cagaagggga cacaatatgt 541 aatgtaagga gcccctgtca tcagaaatct gacttaatct gttttcagat attagacttc 601 cacataaaag ttgacttgga aaaagacttc tgctgctaaa caaaagttga aactgccttg 661 gtgataaaat ataagcagac cagctttctc ttctagcttt ccctctcatt tcccataaga 721 ttttggtcaa gttatttaat ctctctgcat ccgtttcctc ttctatgaaa tgggcatgat 781 aataatggta tatacctcct caaggggggt ataacgtgaa cagagtcctt agcacagcac 841 tctgtctcta cgggagtgaa ttttcattgt ttttctcttt cctgttggag aaagtaagaa 901 gaaaacagcg cctttatggc ttcccatggt gaatggctgg ggcgcgtctg tgtccctgtc 961 tcctctctgg ctccttgtgg cctgaacagc cagaaggaag ccatgccatg ctgtttcagc1021 cctcagcttc cctcttgcat ttcctagaaa agtctttggt gcccagctcc agctcagcag1081 attcaggatc ccccttcatc atgacttggt caacgccctg ctcaggccaa ggtcctctga1141 gagttccaag cttctccact ccctataaaa ggccggcgga acagccagag gagcagagag1201 gcaaagaaac attgtgaaat ctccaactct taaccttcaa catgaaagtc tctgcagtgc1261 ttctgtgcct gctgctcatg acagcagctt tcaaccccca gggacttgct cagccaggta1321 agtcacctcc cttcgactct ccctctcttt ccctctgttt ctctattcaa ggaagaccta1381 agcccgagtg ctcctccact ttttttttag attgagtctc attatgttgc ccaggctgaa1441 gtgcaggggt gcgatcttgg ctcattgcaa ccttcacctc ccaggttcaa gcgattctct1501 tgcctcagcc ttctgagtag ctgtgattac aggcaccgcc atcacgtgca gctaattttt1561 gtatttttag tagagaaggg gtttcactat gttggccagg ctggtctcaa actcttgacc1621 tcaagtgatc ctcccgtctc ggcctcccaa agtgctggga ttacaggcgt gagcaccagg1681 cccagccaag tgccccactt ctaagcccac cagaatagta aggctcctca gaggttcact1741 ttaacatcta attttaaaga tagaaagctg aagcccatgt tggaggcaga agggacccta1801 gccatccacc tccaggttat tgcagagcaa gaatgaaacc taagcttctg actccagatt1861 tagggccttt tctttgacct catctgatcg tcccaaactc tgcagatctg gaccacaccc1921 agaccttccc actggccttg cccgtggcct cccctagatg gctgtgacat gtctccacca1981 tgcagctgag cctttgagah cctgaggcac atgtcacagg tcccacctca cctcagggtc2041 tagggtggga gtgctgggct tgggggtgag taagatctac ttcttcctct ttgctttgca2101 tcccatacag atgctccctg ctgtattcaa gctgagaaaa gcctaacaca tcctcaaagt2161 ctttttcttt gtaactattt ctagatgcac tcaacgtccc atctacttgc tgcttcacat2221 ttagcagtaa gaagatctcc ttgcagaggc tgaagagcta tgtgatcacc accagcaggt2281 gtccccagaa ggctgtcatg tgggtagaaa aatccctgct cgcctggctc ctccccactc2341 ccacattccc caatccaaag ttctgcccca ggagacagac gtcagactga cttgagatct2401 taggatgaga tctagccaga ctgtgtgatg caaaatcctc caattttggc tgcacaacag2461 gtccaaagag gacctataat ttcccacacc ttgtttcctg gatgggcacc agcccacacc2521 ctttagcaga tgccaggatc agtttcccag gggcagcaag agcagtggct gcctccagag2581 accccttctg tccacacacc tcctacttcc tgtcctggag gggtgcccct tcacctgtag2641 taggtggacc aggcaggttt agaacccagt gtgtcatctc ctaggtaaac cctcaaaggg2701 ttccatctaa ctgtgccaga tctccttcct ccacagcttc agaaccaaac tgggcaagga2761 27 2761 gatctgtgct gacccaaagg agaagtgggt ccagaattat atgaaacacc tgggccggaa2821 agctcacacc ctgaagactt gaactctgct acccctactg aaatcaagct ggagtacgtg2881 aaatgacttt tccattctcc tctggcctcc tcttctatgc tttggaatac ttctaccata2941 attttcaaat aggatgcatt cggttttgtg attcaaaatg tactatgtgt taagtaatat3001 tggctattat ttgacttgtt gctggtttgg agtttatttg agtattgctg atcttttcta3061 aagcaaggcc ttgagcaagt aggttgctgt ctctaagccc ccttcccttc cactatgagc3121 tgctggcagt gggtttgtat tcggttccca ggggttgagc (2) SEQ ID NO: 2734 materials: (i) sequence characteristics:

(A) length: 855 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2734 sequence description: 1 ggcaaagaaa cattgtgaaa tctccaactc ttaaccttca acatgaaagt ctctgcagtg 61 cttctgtgcc tgctgctcat gacagcagct ttcaaccccc agggacttgc tcagccagat121 gcactcaacg tcccatctac ttgctgcttc acatttagca gtaagaagat ctccttgcag181 aggctgaaga gctatgtgat caccaccagc aggtgtcccc agaaggctgt catcttcaga241 accaaactgg gcaaggagat ctgtgctgac ccaaaggaga agtgggtcca gaattatatg301 aaacacctgg gccggaaagc tcacaccctg aagacttgaa ctctgctacc cctactgaaa361 tcaagctgga gtacgtgaaa tgacttttcc attctcctct ggcctcctct tctatgcttt421 ggaatacttc taccataatt ttcaaatagg atgcattcgg ttttgtgatt caaaatgtac481 tatgtgttaa gtaatattgg ctattatttg acttgttgct ggtttggagt ttatttgagt541 attgctgatc ttttctatag caaggccttg agcaagtagg ttgctgtctc taagccccct601 tcccttccac tatgagctgc tggcagtggg tttgtattcg gttcccaggg gttgagagca661 tgcctgtggg agtcatggac atgaagggat gccgcaatgt aggaaggaga gctctttgtg721 aatgtgaggt gttgctaaat atgttattgt ggaaagatga atgcaatagt aggactgctg781 acattttgca gaaaatacat tttatttaaa aatctcctaa aaaaaaaaaa aaaaaaaaaa841 aagaaaaaaa aaaaa (2) SEQ ID NO: 2735 materials: (i) sequence characteristics:

(A) length: 825 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2735 sequence description: 1 acattgtgaa atctccaact cttaaccttc aacatgaaag tctctgcagt gcttctgtgc 61 ctgctgctca tgacagcagc tttcaacccc cagggacttg ctcagccaga tgcactcaac121 gtcccatcta cttgctgctt cacatttagc agtaagaaga tctccttgca gaggctgaag181 agctatgtga tcaccaccag caggtgtccc cagaaggctg tcatcttcag aaccaaactg241 ggcaaggaga tctgtgctga cccaaaggag aagtgggtcc agaattatat gaaacacctg301 ggccggaaag ctcacaccct gaagacttga actctgctac ccctactgaa atcaagctgg361 agtacgtgaa atgacttttc cattctcctc tggcctcctc ttctatgctt tggaatactt421 ctaccataat tttcaaatag gatgcattcg gttttgtgat tcaaaatgta ctatgtgtta481 agtaatattg gctattattt gacttgttgc tggtttggag tttatttgag tattgctgat541 cttttctaaa gcaaggcctt gagcaagtag gttgctgtct ctaagccccc ttcccttcca601 ctatgagctg ctggcagtgg gttgtattcg gttcccaggg gttgagagca tgcctgtggg661 agtcatggac atgaagggat gctgcaatgt aggaaggaga gctctttgtg aatgtgaggt721 tgttgctaaa ttattgttta ttgtggaaag atgaatgcaa tagtaggact gctgacattt781 tgcagaaaat acattttatt taaaatctcc taaaaaaaaa aaaaa (2) SEQ ID NO: 2736 materials: (i) sequence characteristics:

(A) length: 860 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2736 sequence description: 1 aaaaggccgg cggaacagcc agaggagcag agaggcaaag aaacattgtg aaatctccaa 61 ctcttaacct tcaacatgaa agtctctgca gtgcttctgt gcctgctgct catgacagca121 gctttcaacc cccagggact tgctcagcca gatgcactca acgtcccatc tacttgctgc181 ttcacattta gcagtaagaa gatctccttg cagaggctga agagctatgt gatcaccacc241 agcaggtgtc cccagaaggc tgtcatcttc agaaccaaac tgggcaagga gatctgtgct301 gacccaaagg agaagtgggt ccagaattat atgaaacacc tgggccggaa agctcacacc361 ctgaagactt gaactctgct acccctactg aaatcaagct ggagtacgtg aaatgacttt421 tccattctcc tctggcctcc tcttctatgc tttggaatac ttctaccata attttcaaat481 aggatgcatt cggttttgtg attcaaaatg tactatgtgt taagtaatat tggctattat541 ttgacttgtt gctggtttgg agtttatttg agtattgctg atcttttcta aagcaaggcc601 ttgagcaagt aggttgctgt ctctaagccc ccttcccttc cactatgagc tgctggcagt661 gggtttgtat tcggttccca ggggttgaga gcatgcctgt gggagtcatg gacatgaagg721 gatgctgcaa tgtaggaagg agagctcttt gtgaatgtga ggtgttgcta aatatgttat781 tgtggaaaga tgaatgcaat agtaggactg ctgacatttt gcagaaaata cattttattt841 aaaatctcca aaaaaaaaaa (2) SEQ ID NO: 2737 materials: (i) sequence characteristics:

(A) length: 5700 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2737 sequence description: 1 aattaaccct cactaaaggg agtcgactcg atccccccgc ctcagcccct tttttctttt 61 ttttttcatt ttcagttcag gagagtttta gcttaattat aggctacaga accagctttg 121 ggcttcatct atcctttcta atatttactg tttcctattt ctctaatcct agctctttat 181 721 ttttggtcaa gttatttaat ctctctgcat ccgtttcctc ttctatgaaa tgggcatgat 781 181 ttcttccctt tactttcact gggcttattt tgctatagtg gaatgcagag ggatgagtat 241 tccaggaagg cacaaaaact gtgccaagtc ttggagctag ggatgagtgg gaaagggaca 301 tgttcaacca ttttaggcca ttccctcccc acctcccagc tcccagatat gtgcccctcg 361 caggaggagc ccaggaatgg gccaaacacc tcacttcttt gctctgaggg ccaccccagc 421 cctcccatca acagctctag aaacccaatg gtccttcctg gaaacacggg gcctgcatca 481 atcagaggtg tttgaaccat gtccctctgg gcctgagggg cagaagggga cacaatatgt 541 aatgtaagga gcccctgtca tcagaaatct gacttaatct gttttcagat attagacttc 601 cacataaaag ttgacttgga aaaagacttc tgctgctaaa caaaagttga aactgccttg 661 gtgataaaat ataagcagac cagctttctc ttctagcttt ccctctcatt tcccataaga 721 ttttggtcaa gttatttaat ctctctgcat ccgtttcctc ttctatgaaa tgggcatgat 781 aataatggta tatacctcct caaggggggt ataacgtgaa cagagtcctt agcacagcac 841 tctgtctcta cgggagtgaa ttttcattgt ttttctcttt cctgttggag aaagtaagaa 901 gaaaacagcg cctttatggc ttcccatggt gaatggctgg ggcgcgtctg tgtccctgtc 961 tcctctctgg ctccttgtgg cctgaacagc cagaaggaag ccatgccatg ctgtttcagc1021 cctcagcttc cctcttgcat ttcctagaaa agtctttggt gcccagctcc agctcagcag1081 attcaggatc ccccttcatc atgacttggt caacgccctg ctcaggccaa ggtcctctga1141 gagttccaag cttctccact ccctataaaa ggccggcgga acagccagag gagcagagag1201 gcaaagaaac attgtgaaat ctccaactct taaccttcaa catgaaagtc tctgcagtgc1261 ttctgtgcct gctgctcatg acagcagctt tcaaccccca gggacttgct cagccaggta1321 agtcacctcc cttcgactct ccctctcttt ccctctgttt ctctattcaa ggaagaccta1381 agcccgagtg ctcctccact ttttttttag attgagtctc attatgttgc ccaggctgaa1441 gtgcaggggt gcgatcttgg ctcattgcaa ccttcacctc ccaggttcaa gcgattctct1501 tgcctcagcc ttctgagtag ctgtgattac aggcaccgcc atcacgtgca gctaattttt1561 gtatttttag tagagaaggg gtttcactat gttggccagg ctggtctcaa actcttgacc1621 tcaagtgatc ctcccgtctc ggcctcccaa agtgctggga ttacaggcgt gagcaccagg1681 cccagccaag tgccccactt ctaagcccac cagaatagta aggctcctca gaggttcact1741 ttaacatcta attttaaaga tagaaagctg aagcccatgt tggaggcaga agggacccta1801 gccatccacc tccaggttat tgcagagcaa gaatgaaacc taagcttctg actccagatt1861 tagggccttt tctttgacct catctgatcg tcccaaactc tgcagatctg gaccacaccc1921 agaccttccc actggccttg cccgtggcct cccctagatg gctgtgacat gtctccacca1981 tgcagctgag cctttgagah cctgaggcac atgtcacagg tcccacctca cctcagggtc2041 tagggtggga gtgctgggct tgggggtgag taagatctac ttcttcctct ttgctttgca2101 tcccatacag atgctccctg ctgtattcaa gctgagaaaa gcctaacaca tcctcaaagt2161 ctttttcttt gtaactattt ctagatgcac tcaacgtccc atctacttgc tgcttcacat2221 ttagcagtaa gaagatctcc ttgcagaggc tgaagagcta tgtgatcacc accagcaggt2281 gtccccagaa ggctgtcatg tgggtagaaa aatccctgct cgcctggctc ctccccactc2341 ccacattccc caatccaaag ttctgcccca ggagacagac gtcagactga cttgagatct2401 taggatgaga tctagccaga ctgtgtgatg caaaatcctc caattttggc tgcacaacag2461 gtccaaagag gacctataat ttcccacacc ttgtttcctg gatgggcacc agcccacacc2521 ctttagcaga tgccaggatc agtttcccag gggcagcaag agcagtggct gcctccagag2581 accccttctg tccacacacc tcctacttcc tgtcctggag gggtgcccct tcacctgtag2641 taggtggacc aggcaggttt agaacccagt gtgtcatctc ctaggtaaac cctcaaaggg2701 ttccatctaa ctgtgccaga tctccttcct ccacagcttc agaaccaaac tgggcaagga2761 gatctgtgct gacccaaagg agaagtgggt ccagaattat atgaaacacc tgggccggaa2821 agctcacacc ctgaagactt gaactctgct acccctactg aaatcaagct ggagtacgtg2881 aaatgacttt tccattctcc tctggcctcc tcttctatgc tttggaatac ttctaccata2941 attttcaaat aggatgcatt cggttttgtg attcaaaatg tactatgtgt taagtaatat3001 tggctattat ttgacttgtt gctggtttgg agtttatttg agtattgctg atcttttcta3061 aagcaaggcc ttgagcaagt aggttgctgt ctctaagccc ccttcccttc cactatgagc3121 tgctggcagt gggtttgtat tcggttccca ggggttgagc

1 ggcaaagaaa cattgtgaaa tctccaactc ttaaccttca acatgaaagt ctctgcagtg 61 cttctgtgcc tgctgctcat gacagcagct ttcaaccccc agggacttgc tcagccagat121 gcactcaacg tcccatctac ttgctgcttc acatttagca gtaagaagat ctccttgcag181 721 aatgtgaggt gttgctaaat atgttattgt ggaaagatga atgcaatagt aggactgctg781 181 aggctgaaga gctatgtgat caccaccagc aggtgtcccc agaaggctgt catcttcaga241 accaaactgg gcaaggagat ctgtgctgac ccaaaggaga agtgggtcca gaattatatg301 aaacacctgg gccggaaagc tcacaccctg aagacttgaa ctctgctacc cctactgaaa361 tcaagctgga gtacgtgaaa tgacttttcc attctcctct ggcctcctct tctatgcttt421 ggaatacttc taccataatt ttcaaatagg atgcattcgg ttttgtgatt caaaatgtac481 tatgtgttaa gtaatattgg ctattatttg acttgttgct ggtttggagt ttatttgagt541 attgctgatc ttttctatag caaggccttg agcaagtagg ttgctgtctc taagccccct601 tcccttccac tatgagctgc tggcagtggg tttgtattcg gttcccaggg gttgagagca661 tgcctgtggg agtcatggac atgaagggat gccgcaatgt aggaaggaga gctctttgtg721 aatgtgaggt gttgctaaat atgttattgt ggaaagatga atgcaatagt aggactgctg781 acattttgca gaaaatacat tttatttaaa aatctcctaa aaaaaaaaaa aaaaaaaaaa841 aagaaaaaaa aaaaa1 acattgtgaa atctccaact cttaaccttc aacatgaaag tctctgcagt gcttctgtgc 61 ctgctgctca tgacagcagc tttcaacccc cagggacttg ctcagccaga tgcactcaac121 gtcccatcta cttgctgctt cacatttagc agtaagaaga tctccttgca gaggctgaag181 agctatgtga tcaccaccag caggtgtccc cagaaggctg tcatcttcag aaccaaactg241 ggcaaggaga tctgtgctga cccaaaggag aagtgggtcc agaattatat gaaacacctg301 ggccggaaag ctcacaccct gaagacttga actctgctac ccctactgaa atcaagctgg361 agtacgtgaa atgacttttc cattctcctc tggcctcctc ttctatgctt tggaatactt421 ctaccataat tttcaaatag gatgcattcg gttttgtgat tcaaaatgta ctatgtgtta481 agtaatattg gctattattt gacttgttgc tggtttggag tttatttgag tattgctgat541 cttttctaaa gcaaggcctt gagcaagtag gttgctgtct ctaagccccc ttcccttcca601 ctatgagctg ctggcagtgg gttgtattcg gttcccaggg gttgagagca tgcctgtggg661 agtcatggac atgaagggat gctgcaatgt aggaaggaga gctctttgtg aatgtgaggt721 tgttgctaaa ttattgttta ttgtggaaag atgaatgcaa tagtaggact gctgacattt781 tgcagaaaat acattttatt taaaatctcc taaaaaaaaa aaaaa1 aaaaggccgg cggaacagcc agaggagcag agaggcaaag aaacattgtg aaatctccaa 61 ctcttaacct tcaacatgaa agtctctgca gtgcttctgt gcctgctgct catgacagca121 gctttcaacc cccagggact tgctcagcca gatgcactca acgtcccatc tacttgctgc181 ttcacattta gcagtaagaa gatctccttg cagaggctga agagctatgt gatcaccacc241 agcaggtgtc cccagaaggc tgtcatcttc agaaccaaac tgggcaagga gatctgtgct301 gacccaaagg agaagtgggt ccagaattat atgaaacacc tgggccggaa agctcacacc361 ctgaagactt gaactctgct acccctactg aaatcaagct ggagtacgtg aaatgacttt421 tccattctcc tctggcctcc tcttctatgc tttggaatac ttctaccata attttcaaat481 aggatgcatt cggttttgtg attcaaaatg tactatgtgt taagtaatat tggctattat541 ttgacttgtt gctggtttgg agtttatttg agtattgctg atcttttcta aagcaaggcc601 ttgagcaagt aggttgctgt ctctaagccc ccttcccttc cactatgagc tgctggcagt661 gggtttgtat tcggttccca ggggttgaga gcatgcctgt gggagtcatg gacatgaagg721 gatgctgcaa tgtaggaagg agagctcttt gtgaatgtga ggtgttgcta aatatgttat781 tgtggaaaga tgaatgcaat agtaggactg ctgacatttt gcagaaaata cattttattt841 aaaatctcca aaaaaaaaaa (2) SEQ ID NO: 2738 materials: (i) sequence characteristics:

(A) length: 2248 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2738 sequence description: 1 cgcccgggca ggtcctctgc ctagcactgc tcccccaagg ctcccagaaa tctcaggtca 61 gaggcacgga cagcctctgg agctctcgtc tggtgggacc atgaactgcc agcagctgtg 121 gctgggcttc ctactcccca tgacagtctc aggccgggtc ctggggcttg cagaggtggc 181 721 catcattgca gcccatgaag tgggccatgc tctggggctt gggcactccc gatattccca 781 181 gcccgtggac tacctgtcac aatatgggta cctacagaag cctctagaag gatctaataa 241 cttcaagcca gaagatatca ccgaggctct gagagctttt caggaagcat ctgaacttcc 301 agtctcaggt cagctggatg atgccacaag ggcccgcatg aggcagcctc gttgtggcct 361 agaggatccc ttcaaccaga agacccttaa atacctgttg ctgggccgct ggagaaagaa 421 gcacctgact ttccgcatct tgaacctgcc ctccaccctt ccaccccaca cagcccgggc 481 agccctgcgt caagccttcc aggactggag caatgtggct cccttgacct tccaagaggt 541 gcaggctggt gcggctgaca tccgcctctc cttccatggc cgccaaagct cgtactgttc 601 caatactttt gatgggcctg ggagagtcct ggcccatgcc gacatcccag agctgggcag 661 tgtgcacttc gacgaagacg agttctggac tgaggggacc taccgtgggg tgaacctgcg 721 catcattgca gcccatgaag tgggccatgc tctggggctt gggcactccc gatattccca 781 ggccctcatg gccccagtct acgagggcta ccggccccac tttaagctgc acccagatga 841 tgtggcaggg atccaggctc tctatggcaa gaagagtcca gtgataaggg atgaggaaga 901 agaagagaca gagctgccca ctgtgccccc agtgcccaca gaacccagtc ccatgccaga 961 cccttgcagt agtgaactgg atgccatgat gctggggccc cgtgggaaga cctatgcttt1021 caagggggac tatgtgtgga ctgtatcaga ttcaggaccg ggccccttgt tccgagtgtc1081 tgccctttgg gaggggctcc ccggaaacct ggatgctgct gtctactcgc ctcgaacaca1141 atggattcac ttctttaagg gagacaaggt gtggcgctac attaatttca agatgtctcc1201 tggcttcccc aagaagctga ataggtcaga acctaacctg gatgcagctc tctattggcc1261 tctcaaccaa aaggtgttcc tctttaaggg ctccgggtac tggcagtggg acgagctagc1321 ccgaactgac ttcagcagct accccaaacc aatcaagggt ttgtttacgg gagtgccaaa1381 ccagccctcg gctgctatga gttggcaaga tggccgagtc tacttcttca agggcaaagt1441 ctactggcgc ctcaaccagc agcttcgagt agagaaaggc tatcccagaa atatttccca1501 caactggatg cactgtcgtc cccggactat agacactacc ccatcaggtg ggaataccac1561 tccctcaggt acgggcataa ccttggatac cactctctca gccacagaaa ccacgtttga1621 atactgactg ctcacccaca gacacaatct tggacattaa cccctgaggc tccaccaccc1681 accctttcat ttccccccca gaagcctaag gcctaatagc tgaatgaaat acctgtctgc1741 tcagtagaac cttgcaggtg ctgtagcagg cgcaagaccg tagatctcag gcctctaaca1801 cttccaactc cagccaccac tttcctgtgc attttcactc ctgagaagtg ctcccctaac1861 tcagatcccc taacttagat ttggccccca actccatttc ctgtctgtct tagacagccc1921 ttccaactgt gtcatctctt ctctggaggt caatggtgga gggagatgcc tgggtcctgt1981 tcttcctaca taaaatgcaa gaaaacagca tggccagtaa actgagcaag ggccttggaa2041 tccttgagaa tcacatttat gtgcttatga ttacgggcaa gctaattaac cttgttgaat2101 ctcagattcc ccatttgcaa cattaggtta agaccagtac tgcaggattg ttgcactaaa2161 tgaaatactg tatgtgaagt gcctggcaca gtgtctggta catttgtgtt taataaaagc2221 taactccatg ttcataagaa aaaaaaaa

(2) SEQ ID NO: 2739 materials:

(i) sequence characteristics:

(A) length: 627 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2739 sequence description: 1 ggagaccggc cgcatggacc cagggacagt ggccaccatg cgtaagcccc gctgctccct 61 gcctgacgtg ctgggggtgg cggggctggt caggcggcgt cgccggtacg ctctgagcgg121 cagcgtgtgg aagaagcgaa ccctgacatg gagggtacgt tccttccccc agagctccca181 gctgagccag gagaccgtgc gggtcctcat gagctatgcc ctgatggcct ggggcatgga241 gtcaggcctc acatttcatg aggtggattc cccccagggc caggagcccg acatcctcat301 cgactttgcc cgcgccttcc accaggacag ctaccccttc gacgggttgg ggggcaccct361 agcccatgcc ttcttccctg gggagcaccc catctccggg gacactcact ttgacgatga421 ggagacctgg acttttgggt caaaagcctc tcagcagctg gagcaggagc tggcaggcgg481 ctcaccggtt gatgaggagc tgggcttcag ccggggctgg cgtgtgaatc ctctgggtcc541 tggcagtcct gagcgcctga gctgaataca gagggaagag gctgggagca aggccgggtg601 ctggggccgg caggctgtgt tctgaga (2) SEQ ID NO: 2740 materials: (i) sequence characteristics:

(A) length: 1532 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2740 sequence description: 1 atgatcttac tcacattcag cactggaaga cggttggatt tcgtgcatca ttcgggggtg 61 tttttcttgc aaaccttgct ttggatttta tgtgctacag tctgcggaac ggagcagtat 121 ttcaatgtgg aggtttggtt acaaaagtac ggctaccttc caccgactga ccccagaatg 181 721 tttcttgtag cagtccatga actgggacat gctctgggat tggagcattc caatgacccc 781 181 tcagtgctgc gctctgcaga gaccatgcag tctgccctag ctgccatgca gcagttctat 241 ggcattaaca tgacaggaaa agtggacaga aacacaattg actggatgaa gaagccccga 301 tgcggtgtac ctgaccagac aagaggtagc tccaaatttc atattcgtcg aaagcgatat 361 gcattgacag gacagaaatg gcagcacaag cacatcactt acagtataaa gaacgtaact 421 ccaaaagtag gagaccctga gactcgtaaa gctattcgcc gtgcctttga tgtgtggcag 481 aatgtaactc ctctgacatt tgaagaagtt ccctacagtg aattagaaaa tggcaaacgt 541 gatgtggata taaccattat ttttgcatct ggtttccatg gggacagctc tccctttgat 601 ggagagggag gatttttggc acatgcctac ttccctggac caggaattgg aggagatacc 661 cattttgact cagatgagcc atggacacta ggaaatccta atcatgatgg aaatgactta 721 tttcttgtag cagtccatga actgggacat gctctgggat tggagcattc caatgacccc 781 actgccatca tggctccatt ttaccagtac atggaaacag acaacttcaa actacctaat 841 gatgatttac agggcatcca gaagatatat ggtccacctg acaagattcc tccacctaca 901 agacctctac cgacagtgcc cccacaccgc tctattcctc cggctgaccc aaggaaaaat 961 gacaggccaa aacctcctcg gcctccaacc ggcagaccct cctatcccgg agccaaaccc1021 aacatctgtg atgggaactt taacactcta gctattcttc gtcgtgagat gtttgttttc1081 aaggaccagt ggttttggcg agtgagaaac aacagggtga tggatggata cccaatgcaa1141 attacttact tctggcgggg cttgcctcct agtatcgatg cagtttatga aaatagcgac1201 gggaattttg tgttctttaa agtgaaggga gacactctat ctgtaatcca agatggttgg1261 ctctacaaat accattggaa atggattcta gaacaaaggc agtcagtgcc tgtgctctca1321 agacaaactg aaaagcacaa gacctatgaa gaattatctt ccatcacata ctaacaaaga1381 acaatcagga attgaaaatt taaaataaaa ggccatttac aattgcattc gaaaacacca1441 aataccgagg gatcaatctg caaaaaatgt gcatgacctc tacattgaaa acaacaaaac1501 actactaaat gtttgtcttt aaaggcagct gg (2) SEQ ID NO: 2741 data: (i) sequence characteristics:

(A) length: 1778 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2741 sequence description: 1 tagaagttta caatgaagtt tcttctaata ctgctcctgc aggccactgc ttctggagct 61 cttcccctga acagctctac aagcctggaa aaaaataatg tgctatttgg tgagagatac121 ttagaaaaat tttatggcct tgagataaac aaacttccag tgacaaaaat gaaatatagt181 ggaaacttaa tgaaggaaaa aatccaagaa atgcagcact tcttgggtct gaaagtgacc241 gggcaactgg acacatctac cctggagatg atgcacgcac ctcgatgtgg agtccccgat301 ctccatcatt tcagggaaat gccagggggg cccgtatgga ggaaacatta tatcacctac361 agaatcaata attacacacc tgacatgaac cgtgaggatg ttgactacgc aatccggaaa421 gctttccaag tatggagtaa tgttaccccc ttgaaattca gcaagattaa cacaggcatg481 gctgacattt tggtggtttt tgcccgtgga gctcatggag acttccatgc ttttgatggc 541 aaaggtggaa tcctagccca tgcttttgga cctggatctg gcattggagg ggatgcacat 601 ttcgatgagg acgaattctg gactacacat tcaggaggca caaacttgtt cctcactgct 661 gttcacgaga ttggccattc cttaggtctt ggccattcta gtgatccaaa ggctgtaatg 721 ttccccacct acaaatatgt cgacatcaac acatttcgcc tctctgctga tgacatacgt 781 ggcattcagt ccctgtatgg agacccaaaa gagaaccaac gcttgccaaa tcctgacaat 841 tcagaaccag ctctctgtga ccccaatttg agttttgatg ctgtcactac cgtgggaaat 901 aagatctttt tcttcaaaga caggttcttc tggctgaagg tttctgagag accaaagacc 961 agtgttaatt taatttcttc cttatggcca accttgccat ctggcattga agctgcttat1021 gaaattgaag ccagaaatca agtttttctt tttaaagatg acaaatactg gttaattagc1081 aatttaagac cagagccaaa ttatcccaag agcatacatt cttttggttt tcctaacttt1141 gtgaaaaaaa ttgatgcagc tgtttttaac ccacgttttt ataggaccta cttctttgta1201 gataaccagt attggaggta tgatgaaagg agacagatga tggaccctgg ttatcccaaa1261 ctgattacca agaacttcca aggaatcggg cctaaaattg atgcagtctt ctattctaaa1321 aacaaatact actatttctt ccaaggatct aaccaatttg aatatgactt cctactccaa1381 cgtatcacca aaacactgaa aagcaatagc tggtttggtt gttagaaatg gtgtaattaa1441 tggtttttgt tagttcactt cagcttaata agtatttatt gcatatttgc tatgtcctca1501 gtgtaccact acttagagat atgtatcata aaaataaaat ctgtaaacca taggtaatga1561 ttatataaaa tacataatat ttttcaattt tgaaaactct aattgtccat tcttgcttga1621 ctctactatt aagtttgaaa atagttacct tcaaagcaag ataattctat ttgaagcatg1681 ctctgtaagt tgcttcctaa catccttgga ctgagaaatt atacttactt ctggcataac1741 taaaattaag tatatatatt ttggctcaaa taaaattg (2) SEQ ID NO: 2742 materials: (i) sequence characteristics:

(A) length: 1743 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2742 sequence description: 1 aaagaaggta agggcagtga gaatgatgca tcttgcattc cttgtgctgt tgtgtctgcc 61 agtctgctct gcctatcctc tgagtggggc agcaaaagag gaggactcca acaaggatct 121 tgcccagcaa tacctagaaa agtactacaa cctcgaaaag gatgtgaaac agtttagaag 181 721 tttgatgtac ccactctaca actcattcac agagctcgcc cagttccgcc tttcgcaaga 781 181 aaaggacagt aatctcattg ttaaaaaaat ccaaggaatg cagaagttcc ttgggttgga 241 ggtgacaggg aagctagaca ctgacactct ggaggtgatg cgcaagccca ggtgtggagt 301 tcctgacgtt ggtcacttca gctcctttcc tggcatgccg aagtggagga aaacccacct 361 tacatacagg attgtgaatt atacaccaga tttgccaaga gatgctgttg attctgccat 421 tgagaaagct ctgaaagtct gggaagaggt gactccactc acattctcca ggctgtatga 481 aggagaggct gatataatga tctctttcgc agttaaagaa catggagact tttactcttt 541 tgatggccca ggacacagtt tggctcatgc ctacccacct ggacctgggc tttatggaga 601 tattcacttt gatgatgatg aaaaatggac agaagatgca tcaggcacca atttattcct 661 cgttgctgct catgaacttg gccactccct ggggctcttt cactcagcca acactgaagc 721 tttgatgtac ccactctaca actcattcac agagctcgcc cagttccgcc tttcgcaaga 781 tgatgtgaat ggcattcagt ctctctacgg acctccccct gcctctactg aggaacccct 841 ggtgcccaca aaatctgttc cttcgggatc tgagatgcca gccaagtgtg atcctgcttt 901 gtccttcgat gccatcagca ctctgagggg agaatatctg ttctttaaag acagatattt 961 ttggcgaaga tcccactgga accctgaacc tgaatttcat ttgatttctg cattttggcc1021 ctctcttcca tcatatttgg atgctgcata tgaagttaac agcagggaca ccgtttttat1081 ttttaaagga aatgagttct gggccatcag aggaaatgag gtacaagcag gttatccaag1141 aggcatccat accctgggtt ttcctccaac cataaggaaa attgatgcag ctgtttctga1201 caaggaaaag aagaaaacat acttctttgc agcggacaaa tactggagat ttgatgaaaa1261 tagccagtcc atggagcaag gcttccctag actaatagct gatgactttc caggagttga1321 gcctaaggtt gatgctgtat tacaggcatt tggatttttc tacttcttca gtggatcatc1381 acagtttgag tttgacccca atgccaggat ggtgacacac atattaaaga gtaacagctg1441 gttacattgc taggcgagat agggggaaga cagatatggg tgtttttaat aaatctaata1501 attattcatc taatgtatta tgagccaaaa tggttaattt ttcctgcatg ttctgtgact1561 gaagaagatg agccttgcag atatctgcat gtgtcatgaa gaatgtttct ggaattcttc1621 acttgctttt gaattgcact gaacagaatt aagaaatact catgtgcaat aggtgagaga1681 atgtattttc atagatgtgt tattacttcc tcaataaaaa gttttatttt gggcctgttc1741 ctt (2) SEQ ID NO: 2743 materials: (i) sequence characteristics:

(A) length: 1209 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2743 sequence description: 1 ctgaggtggg taagagtaca atggctaaat cttaacacac tcttacgtgt acaccctacc 61 gtacaccatc cagactcgtc cccatacaat caggagtgat cagtacgtaa atgcttatgg 121 tgtgatttga aggggtgtta gagtagatca tctctcacac cgcagcagca ctgcttccaa 181 721 ggaagtatta taatgaaaac caagttatca ggctttaaga aaatatattt taagttctcc 781 181 ttcatccttt ggaattttat tccctgactg ttaaaagttt ttagtgctta aatattctct 241 attgaggtaa gagacagatt ctgtgcaatg ggacaattag gtcaagaggg aaagaagctg 301 aggtgatagg cagatagatt ccagaggcaa acttttccca tctgctaaag ttgaaaagag 361 taacccacat cctaccaacg ctagacaatc taggatgtag ggaaagtttg tctctggaat 421 ctatccaggt acccagttgg gactgagctt cagcttagat gtctgaagat gttaagttat 481 agaatcaggt ttaagtctga agatgttaag ttatagaatc aggatctgag ccggtacaac 541 acgtggataa acaatgaagt cgatgttaca aatttttttt tgctacttgt aaaatctctg 601 tatcacattt ctctagggag ctggattccg tttaggagca ctcatttact ccaggaaaag 661 gattttattt aatctttcaa catttacttt aaaaactttt tttatctata atgaatataa 721 ggaagtatta taatgaaaac caagttatca ggctttaaga aaatatattt taagttctcc 781 ttctctttta gttgcttgat atttctttta caagggctta ttttgtagat aggtggacgt 841 agaggcttat ttatcatttt gaaggtacat actctgaatt gcttgagtga tggactagat 901 gctaattgat ccattgtcgt ctgaataaag tcatgctttt gtttgcatgt ttttagagat 961 agtcaaggga tgatatcaac tatgagtcac tcataggatt catattcaca gaacccggac1021 taagggctat ataaagagga acagttcagg aacttaggct agaaaggaca cagtaaactg1081 aattgatccg tttagaagtt tacaatgaag tttcttctaa tactgctcct gcaggccact1141 gcttctggag ctcttcccct gaacagctct acaagcctgg aaaaaaataa tgtgctattg1201 ggtgagaga (2) SEQ ID NO: 2744 materials:

(i) sequence characteristics:

(A) length: 9137 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID N0: 2744 sequence description: 1 cgcccgggca ggtcctctgc ctagcactgc tcccccaagg ctcccagaaa tctcaggtca 61 gaggcacgga cagcctctgg agctctcgtc tggtgggacc atgaactgcc agcagctgtg 121 gctgggcttc ctactcccca tgacagtctc aggccgggtc ctggggcttg cagaggtggc 181 721 catcattgca gcccatgaag tgggccatgc tctggggctt gggcactccc gatattccca 781 181 gcccgtggac tacctgtcac aatatgggta cctacagaag cctctagaag gatctaataa 241 cttcaagcca gaagatatca ccgaggctct gagagctttt caggaagcat ctgaacttcc 301 agtctcaggt cagctggatg atgccacaag ggcccgcatg aggcagcctc gttgtggcct 361 agaggatccc ttcaaccaga agacccttaa atacctgttg ctgggccgct ggagaaagaa 421 gcacctgact ttccgcatct tgaacctgcc ctccaccctt ccaccccaca cagcccgggc 481 agccctgcgt caagccttcc aggactggag caatgtggct cccttgacct tccaagaggt 541 gcaggctggt gcggctgaca tccgcctctc cttccatggc cgccaaagct cgtactgttc 601 caatactttt gatgggcctg ggagagtcct ggcccatgcc gacatcccag agctgggcag 661 tgtgcacttc gacgaagacg agttctggac tgaggggacc taccgtgggg tgaacctgcg 721 catcattgca gcccatgaag tgggccatgc tctggggctt gggcactccc gatattccca 781 ggccctcatg gccccagtct acgagggcta ccggccccac tttaagctgc acccagatga 841 tgtggcaggg atccaggctc tctatggcaa gaagagtcca gtgataaggg atgaggaaga 901 agaagagaca gagctgccca ctgtgccccc agtgcccaca gaacccagtc ccatgccaga 961 cccttgcagt agtgaactgg atgccatgat gctggggccc cgtgggaaga cctatgcttt1021 caagggggac tatgtgtgga ctgtatcaga ttcaggaccg ggccccttgt tccgagtgtc1081 tgccctttgg gaggggctcc ccggaaacct ggatgctgct gtctactcgc ctcgaacaca1141 atggattcac ttctttaagg gagacaaggt gtggcgctac attaatttca agatgtctcc1201 tggcttcccc aagaagctga ataggtcaga acctaacctg gatgcagctc tctattggcc1261 tctcaaccaa aaggtgttcc tctttaaggg ctccgggtac tggcagtggg acgagctagc1321 ccgaactgac ttcagcagct accccaaacc aatcaagggt ttgtttacgg gagtgccaaa1381 ccagccctcg gctgctatga gttggcaaga tggccgagtc tacttcttca agggcaaagt1441 ctactggcgc ctcaaccagc agcttcgagt agagaaaggc tatcccagaa atatttccca1501 caactggatg cactgtcgtc cccggactat agacactacc ccatcaggtg ggaataccac1561 tccctcaggt acgggcataa ccttggatac cactctctca gccacagaaa ccacgtttga1621 atactgactg ctcacccaca gacacaatct tggacattaa cccctgaggc tccaccaccc1681 accctttcat ttccccccca gaagcctaag gcctaatagc tgaatgaaat acctgtctgc1741 tcagtagaac cttgcaggtg ctgtagcagg cgcaagaccg tagatctcag gcctctaaca1801 cttccaactc cagccaccac tttcctgtgc attttcactc ctgagaagtg ctcccctaac1861 tcagatcccc taacttagat ttggccccca actccatttc ctgtctgtct tagacagccc1921 ttccaactgt gtcatctctt ctctggaggt caatggtgga gggagatgcc tgggtcctgt1981 tcttcctaca taaaatgcaa gaaaacagca tggccagtaa actgagcaag ggccttggaa2041 tccttgagaa tcacatttat gtgcttatga ttacgggcaa gctaattaac cttgttgaat2101 ctcagattcc ccatttgcaa cattaggtta agaccagtac tgcaggattg ttgcactaaa2161 tgaaatactg tatgtgaagt gcctggcaca gtgtctggta catttgtgtt taataaaagc2221 taactccatg ttcataagaa aaaaaaaa

1 ggagaccggc cgcatggacc cagggacagt ggccaccatg cgtaagcccc gctgctccct 61 gcctgacgtg ctgggggtgg cggggctggt caggcggcgt cgccggtacg ctctgagcgg 121 cagcgtgtgg aagaagcgaa ccctgacatg gagggtacgt tccttccccc agagctccca 181 gctgagccag gagaccgtgc gggtcctcat gagctatgcc ctgatggcct ggggcatgga 241 gtcaggcctc acatttcatg aggtggattc cccccagggc caggagcccg acatcctcat 301 cgactttgcc cgcgccttcc accaggacag ctaccccttc gacgggttgg ggggcaccct 361 agcccatgcc ttcttccctg gggagcaccc catctccggg gacactcact ttgacgatga 421 ggagacctgg acttttgggt caaaagcctc tcagcagctg gagcaggagc tggcaggcgg 481 ctcaccggtt gatgaggagc tgggcttcag ccggggctgg cgtgtgaatc ctctgggtcc 541 tggcagtcct gagcgcctga gctgaataca gagggaagag gctgggagca aggccgggtg 601 ctggggccgg caggctgtgt tctgaga

1 atgatcttac tcacattcag cactggaaga cggttggatt tcgtgcatca ttcgggggtg 61 tttttcttgc aaaccttgct ttggatttta tgtgctacag tctgcggaac ggagcagtat 121 ttcaatgtgg aggtttggtt acaaaagtac ggctaccttc caccgactga ccccagaatg 181 tcagtgctgc gctctgcaga gaccatgcag tctgccctag ctgccatgca gcagttctat 241 ggcattaaca tgacaggaaa agtggacaga aacacaattg actggatgaa gaagccccga 301 tgcggtgtac ctgaccagac aagaggtagc tccaaatttc atattcgtcg aaagcgatat361 gcattgacag gacagaaatg gcagcacaag cacatcactt acagtataaa gaacgtaact 421 ccaaaagtag gagaccctga gactcgtaaa gctattcgcc gtgcctttga tgtgtggcag 481 aatgtaactc ctctgacatt tgaagaagtt ccctacagtg aattagaaaa tggcaaacgt 541 gatgtggata taaccattat ttttgcatct ggtttccatg gggacagctc tccctttgat 601 ggagagggag gatttttggc acatgcctac ttccctggac caggaattgg aggagatacc 661 cattttgact cagatgagcc atggacacta ggaaatccta atcatgatgg aaatgactta 721 tttcttgtag cagtccatga actgggacat gctctgggat tggagcattc caatgacccc 781 actgccatca tggctccatt ttaccagtac atggaaacag acaacttcaa actacctaat 841 gatgatttac agggcatcca gaagatatat ggtccacctg acaagattcc tccacctaca 901 agacctctac cgacagtgcc cccacaccgc tctattcctc cggctgaccc aaggaaaaat 961 gacaggccaa aacctcctcg gcctccaacc ggcagaccct cctatcccgg agccaaaccc1021 aacatctgtg atgggaactt taacactcta gctattcttc gtcgtgagat gtttgttttc1081 aaggaccagt ggttttggcg agtgagaaac aacagggtga tggatggata cccaatgcaa1141 attacttact tctggcgggg cttgcctcct agtatcgatg cagtttatga aaatagcgac1201 gggaattttg tgttctttaa agtgaaggga gacactctat ctgtaatcca agatggttgg1261 ctctacaaat accattggaa atggattcta gaacaaaggc agtcagtgcc tgtgctctca1321 agacaaactg aaaagcacaa gacctatgaa gaattatctt ccatcacata ctaacaaaga1381 acaatcagga attgaaaatt taaaataaaa ggccatttac aattgcattc gaaaacacca1441 aataccgagg gatcaatctg caaaaaatgt gcatgacctc tacattgaaa acaacaaaac1501 actactaaat gtttgtcttt aaaggcagct gg

1 tagaagttta caatgaagtt tcttctaata ctgctcctgc aggccactgc ttctggagct 61 cttcccctga acagctctac aagcctggaa aaaaataatg tgctatttgg tgagagatac 121 ttagaaaaat tttatggcct tgagataaac aaacttccag tgacaaaaat gaaatatagt181 ggaaacttaa tgaaggaaaa aatccaagaa atgcagcact tcttgggtct gaaagtgacc 241 gggcaactgg acacatctac cctggagatg atgcacgcac ctcgatgtgg agtccccgat 301 ctccatcatt tcagggaaat gccagggggg cccgtatgga ggaaacatta tatcacctac 361 agaatcaata attacacacc tgacatgaac cgtgaggatg ttgactacgc aatccggaaa 421 gctttccaag tatggagtaa tgttaccccc ttgaaattca gcaagattaa cacaggcatg 481 gctgacattt tggtggtttt tgcccgtgga gctcatggag acttccatgc ttttgatggc 541 aaaggtggaa tcctagccca tgcttttgga cctggatctg gcattggagg ggatgcacat 601 ttcgatgagg acgaattctg gactacacat tcaggaggca caaacttgtt cctcactgct 661 gttcacgaga ttggccattc cttaggtctt ggccattcta gtgatccaaa ggctgtaatg 721 ttccccacct acaaatatgt cgacatcaac acatttcgcc tctctgctga tgacatacgt 781 ggcattcagt ccctgtatgg agacccaaaa gagaaccaac gcttgccaaa tcctgacaat 841 tcagaaccag ctctctgtga ccccaatttg agttttgatg ctgtcactac cgtgggaaat 901 aagatctttt tcttcaaaga caggttcttc tggctgaagg tttctgagag accaaagacc 961 agtgttaatt taatttcttc cttatggcca accttgccat ctggcattga agctgcttat1021 gaaattgaag ccagaaatca agtttttctt tttaaagatg acaaatactg gttaattagc1081 aatttaagac cagagccaaa ttatcccaag agcatacatt cttttggttt tcctaacttt1141 gtgaaaaaaa ttgatgcagc tgtttttaac ccacgttttt ataggaccta cttctttgta1201 gataaccagt attggaggta tgatgaaagg agacagatga tggaccctgg ttatcccaaa1261 ctgattacca agaacttcca aggaatcggg cctaaaattg atgcagtctt ctattctaaa1321 aacaaatact actatttctt ccaaggatct aaccaatttg aatatgactt cctactccaa1381 cgtatcacca aaacactgaa aagcaatagc tggtttggtt gttagaaatg gtgtaattaa1441 tggtttttgt tagttcactt cagcttaata agtatttatt gcatatttgc tatgtcctca1501 gtgtaccact acttagagat atgtatcata aaaataaaat ctgtaaacca taggtaatga1561 ttatataaaa tacataatat ttttcaattt tgaaaactct aattgtccat tcttgcttga1621 ctctactatt aagtttgaaa atagttacct tcaaagcaag ataattctat ttgaagcatg1681 ctctgtaagt tgcttcctaa catccttgga ctgagaaatt atacttactt ctggcataac1741 taaaattaag tatatatatt ttggctcaaa taaaattg

1 aaagaaggta agggcagtga gaatgatgca tcttgcattc cttgtgctgt tgtgtctgcc 61 agtctgctct gcctatcctc tgagtggggc agcaaaagag gaggactcca acaaggatct 121 tgcccagcaa tacctagaaa agtactacaa cctcgaaaag gatgtgaaac agtttagaag 181 721 tttgatgtac ccactctaca actcattcac agagctcgcc cagttccgcc tttcgcaaga 781 181 aaaggacagt aatctcattg ttaaaaaaat ccaaggaatg cagaagttcc ttgggttgga 241 ggtgacaggg aagctagaca ctgacactct ggaggtgatg cgcaagccca ggtgtggagt 301 tcctgacgtt ggtcacttca gctcctttcc tggcatgccg aagtggagga aaacccacct 361 tacatacagg attgtgaatt atacaccaga tttgccaaga gatgctgttg attctgccat 421 tgagaaagct ctgaaagtct gggaagaggt gactccactc acattctcca ggctgtatga 481 aggagaggct gatataatga tctctttcgc agttaaagaa catggagact tttactcttt 541 tgatggccca ggacacagtt tggctcatgc ctacccacct ggacctgggc tttatggaga 601 tattcacttt gatgatgatg aaaaatggac agaagatgca tcaggcacca atttattcct 661 cgttgctgct catgaacttg gccactccct ggggctcttt cactcagcca acactgaagc 721 tttgatgtac ccactctaca actcattcac agagctcgcc cagttccgcc tttcgcaaga 781 tgatgtgaat ggcattcagt ctctctacgg acctccccct gcctctactg aggaacccct 841 ggtgcccaca aaatctgttc cttcgggatc tgagatgcca gccaagtgtg atcctgcttt 901 gtccttcgat gccatcagca ctctgagggg agaatatctg ttctttaaag acagatattt 961 ttggcgaaga tcccactgga accctgaacc tgaatttcat ttgatttctg cattttggcc1021 ctctcttcca tcatatttgg atgctgcata tgaagttaac agcagggaca ccgtttttat1081 ttttaaagga aatgagttct gggccatcag aggaaatgag gtacaagcag gttatccaag1141 aggcatccat accctgggtt ttcctccaac cataaggaaa attgatgcag ctgtttctga1201 caaggaaaag aagaaaacat acttctttgc agcggacaaa tactggagat ttgatgaaaa1261 tagccagtcc atggagcaag gcttccctag actaatagct gatgactttc caggagttga1321 gcctaaggtt gatgctgtat tacaggcatt tggatttttc tacttcttca gtggatcatc1381 acagtttgag tttgacccca atgccaggat ggtgacacac atattaaaga gtaacagctg1441 gttacattgc taggcgagat agggggaaga cagatatggg tgtttttaat aaatctaata1501 attattcatc taatgtatta tgagccaaaa tggttaattt ttcctgcatg ttctgtgact1561 gaagaagatg agccttgcag atatctgcat gtgtcatgaa gaatgtttct ggaattcttc1621 acttgctttt gaattgcact gaacagaatt aagaaatact catgtgcaat aggtgagaga1681 atgtattttc atagatgtgt tattacttcc tcaataaaaa gttttatttt gggcctgttc1741 ctt1 ctgaggtggg taagagtaca atggctaaat cttaacacac tcttacgtgt acaccctacc 61 gtacaccatc cagactcgtc cccatacaat caggagtgat cagtacgtaa atgcttatgg 121 tgtgatttga aggggtgtta gagtagatca tctctcacac cgcagcagca ctgcttccaa 181 ttcatccttt ggaattttat tccctgactg ttaaaagttt ttagtgctta aatattctct 241 attgaggtaa gagacagatt ctgtgcaatg ggacaattag gtcaagaggg aaagaagctg 301 aggtgatagg cagatagatt ccagaggcaa acttttccca tctgctaaag ttgaaaagag 361 taacccacat cctaccaacg ctagacaatc taggatgtag ggaaagtttg tctctggaat 421 ctatccaggt acccagttgg gactgagctt cagcttagat gtctgaagat gttaagttat 481 agaatcaggt ttaagtctga agatgttaag ttatagaatc aggatctgag ccggtacaac 541 acgtggataa acaatgaagt cgatgttaca aatttttttt tgctacttgt aaaatctctg 601 tatcacattt ctctagggag ctggattccg tttaggagca ctcatttact ccaggaaaag 661 gattttattt aatctttcaa catttacttt aaaaactttt tttatctata atgaatataa 721 ggaagtatta taatgaaaac caagttatca ggctttaaga aaatatattt taagttctcc 781 ttctctttta gttgcttgat atttctttta caagggctta ttttgtagat aggtggacgt 841 agaggcttat ttatcatttt gaaggtacat actctgaatt gcttgagtga tggactagat 901 gctaattgat ccattgtcgt ctgaataaag tcatgctttt gtttgcatgt ttttagagat 961 agtcaaggga tgatatcaac tatgagtcac tcataggatt catattcaca gaacccggac1021 taagggctat ataaagagga acagttcagg aacttaggct agaaaggaca cagtaaactg1081 aattgatccg tttagaagtt tacaatgaag tttcttctaa tactgctcct gcaggccact1141 gcttctggag ctcttcccct gaacagctct acaagcctgg aaaaaaataa tgtgctattg1201 ggtgagaga (2) SEQ ID NO: 2745 materials: (i) sequence characteristics:

(A) length: 776 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2745 sequence description: 1 aaggacacgg gcagcagaca gtggtcagtc ctttcttggc tctgctgaca ctcgagccca 61 cattccgtca cctgctcaga atcatgcagg tctccactgc tgcccttgct gtcctcctct121 gcaccatggc tctctgcaac cagttctctg catcacttgc tgctgacacg ccgaccgcct181 gctgcttcag ctacacctcc cggcagattc cacagaattt catagctgac tactttgaga 241 cgagcagcca gtgctccaag cccggtgtca tcttcctaac caagcgaagc cggcaggtct301 gtgctgaccc cagtgaggag tgggtccaga aatatgtcag cgacctagag ctgagtgcct361 gaggggtcca gaagcttcga ggcccagcga cctcggtggg ccagtgggga ggagcaggag421 cctgagcctt gggaaacatg cgtgtgacct ccacagctac ctcttctatg gactggttgt481 tgccaaacag ccacactgtg ggactcttct taacttaaat tttaatttat ttatactatt541 tagtttttgt aatttatttt cgatttcaca gtgtgtttgt gattgtttgc tctgagagtt601 cccctgtccc ctcccccttc cctcacaccg cgtctggtga caaccgagtg gctgtcatca661 gcctgtgtag gcagtcatgg caccaaagcc accagactga caaatgtgta tcggatgctt721 39 721 ttgttcaggg ctgtgatcgg cctggggaaa taataaagca cgctctttta aaaggt (2) SEQ ID NO: 2746 data: (i) sequence characteristics:

(A) length: 4124 base pairs

(B) Type (2): nucleic acid strand type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2746 sequence description: 1 acagccttga ccttatgtca tgggttcaac ttggacactg aaaacgcaat gaccttccaa 61 gagaacgcaa ggggcttcgg gcagagcgtg gtccagcttc agggatccag ggtggtggtt121 ggagcccccc aggagatagt ggctgccaac caaaggggca gcctctacca gtgcgactac181 agcacaggct catgcgagcc catccgcctg caggtccccg tggaggccgt gaacatgtcc241 ctgggcctgt ccctggcagc caccaccagc ccccctcagc tgctggcctg tggtcccacc301 gtgcaccaga cttgcagtga gaacacgtat gtgaaagggc tctgcttcct gtttggatcc361 aacctacggc agcagcccca gaagttccca gaggccctcc gagggtgtcc tcaagaggat421 agtgacattg ccttcttgat tgatggctct ggtagcatca tcccacatga ctttcggcgg481 atgaaggagt ttgtctcaac tgtgatggag caattaaaaa agtccaaaac cttgttctct 541 ttgatgcagt actctgaaga attccggatt cactttacct tcaaagagtt ccagaacaac 601 cctaacccaa gatcactggt gaagccaata acgcagctgc ttgggcggac acacacggcc 661 acgggcatcc gcaaagtggt acgagagctg tttaacatca ccaacggagc ccgaaagaat 721 gcctttaaga tcctagttgt catcacggat ggagaaaagt ttggcgatcc cttgggatat 781 gaggatgtca tccctgaggc agacagagag ggagtcattc gctacgtcat tggggtggga 841 gatgccttcc gcagtgagaa atcccgccaa gagcttaata ccatcgcatc caagccgcct 901 cgtgatcacg tgttccaggt gaataacttt gaggctctga agaccattca gaaccagctt 961 cgggagaaga tctttgcgat cgagggtact cagacaggaa gtagcagctc ctttgagcat1021 gagatgtctc aggaaggctt cagcgctgcc atcacctcta atggcccctt gctgagcact1081 gtggggagct atgactgggc tggtggagtc tttctatata catcaaagga gaaaagcacc1141 ttcatcaaca tgaccagagt ggattcagac atgaatgatg cttacttggg ttatgctgcc1201 gccatcatct tacggaaccg ggtgcaaagc ctggttctgg gggcacctcg atatcagcac1261 atcggcctgg tagcgatgtt caggcagaac actggcatgt gggagtccaa cgctaatgtc1321 aagggcaccc agatcggcgc ctacttcggg gcctccctct gctccgtgga cgtggacagc1381 aacggcagca ccgacctggt cctcatcggg gccccccatt actacgagca gacccgaggg1441 ggccaggtgt ccgtgtgccc cttgcccagg gggcagaggg ctcggtggca gtgtgatgct1501 gttctctacg gggagcaggg ccaaccctgg ggccgctttg gggcagccct aacagtgctg1561 ggggacgtaa atggggacaa gctgacggac gtggccattg gggccccagg agaggaggac1621 aaccggggtg ctgtttacct gtttcacgga acctcaggat ctggcatcag cccctcccat1681 agccagcgga tagcaggctc caagctctct cccaggctcc agtattttgg tcagtcactg1741 agtgggggcc aggacctcac aatggatgga ctggtagacc tgactgtagg agcccagggg1801 cacgtgctgc tgctcaggtc ccagccagta ctgagagtca aggcaatcat ggagttcaat1861 cccagggaag tggcaaggaa tgtatttgag tgtaatgatc aggtggtgaa aggcaaggaa1921 gccggagagg tcagagtctg cctccatgtc cagaagagca cacgggatcg gctaagagaa1981 ggacagatcc agagtgttgt gacttatgac ctggctctgg actccggccg cccacattcc2041 cgcgccgtct tcaatgagac aaagaacagc acacgcagac agacacaggt cttggggctg2101 acccagactt gtgagaccct gaaactacag ttgccgaatt gcatcgagga cccagtgagc2161 cccattgtgc tgcgcctgaa cttctctctg gtgggaacgc cattgtctgc tttcgggaac2221 ctccggccag tgctggcgga ggatgctcag agactcttca cagccttgtt tccctttgag2281 aagaattgtg gcaatgacaa catctgccag gatgacctca gcatcacctt cagtttcatg2341 agcctggact gcctcgtggt gggtgggccc cgggagttca acgtgacagt gactgtgaga2401 aatgatggtg aggactccta caggacacag gtcaccttct tcttcccgct tgacctgtcc24 taccggaagg tgtccacgct ccagaaccag cgctcacagc gatcctggcg cctggcctgt2521 gagtctgcct cctccaccga agtgtctggg gccttgaaga gcaccagctg cagcataaac 8681 caccccatct tcccggaaaa ctcagaggtc acctttaata tcacgtttga tgtagactct2641 aaggcttccc ttggaaacaa actgctcctc aaggccaatg tgaccagtga gaacaacatg 27058 362761 gtggtcacca gccatggggt ctccactaaa tatctcaact tcacggcctc agagaatacc2821 agtcgggtca tgcagcatca atatcaggtc agcaacctgg ggcagaggag cctccccatc2881 agcctggtgt tcttggtgcc cgtccggctg aaccagactg tcatatggga ccgcccccag2941 gtcaccttct ccgagaacct ctcgagtacg tgccacacca aggagcgctt gccctctcac3001 tccgactttc tggctgagct tcggaaggcc cccgtggtga actgctccat cgctgtctgc3061 cagagaatcc agtgtgacat cccgttcttt ggcatccagg aagaattcaa tgctaccctc3121aaaggcaacc tctcgtttga ctggtacatc aagacctcgc ataaccacct cctgatcgtg3181 agcacagctg agatcttgtt taacgattcc gtgttcaccc tgctgccggg acagggggcg3241 tttgtgaggt cccagacgga gaccaaagtg gagccgttcg aggtccccaa ccccctgccg3301 ctcatcgtgg gcagctctgt cgggggactg ctgctcctgg ccctcatcac cgccgcgctg3361 tacaagctcg gcttcttcaa gcggcaatac aaggacatga tgagtgaagg gggtcccccg3421 ggggccgaac cccagtagcg gctccttccc gacagagctg cctctcggtg gccagcagga3481 ctctgcccag accacacgta gcccccaggc tgctggacac gtcggacagc gaagtatccc3541 cgacaggacg ggcttgggct tccatttgtg tgtgtgcaag tgtgtatgtg cgtgtgtgcg3601 agtgtgtgca agtgtctgtg tgcaagtgtg tgcacgtgtc ggtgtgcgtg catgtgcact3661 3561 3661 cgcacgccca tgtgtgagtg tgtgcaagta tgtgagtgtg tccaagtgtg tgtgcgtgtg3721 tccatgtgtg tgcaagtgtg tgcatgtgtg cgagtgtgtg catgtgtgtg ctcaggggcg3781 tgtggctcac gtgtgtgact cagatgtctc tggcgtgtgg gtaggtgacg gccagcgtag3841 cctctccggc agaagggaac tgcctgggct cccttgtgcg tgggtgaagc cgctgctggg3901 ttttcctccg ggagagggga cggtcaatcc tgtgggtgaa gacagaggga aacacagcag3961 cttctctcca ctgaaagaag tgggacttcc cgtcgcctgc agcctgcggc ctgctggagc4021 ctgcgcagct tggatggaga ctccatgaga agccgtgggt ggaaccagga gcctcctcca4081 caccagcgct gatgcccaat aaagatgccc actgaggaat gatg (2) SEQ ID NO: 2747 materials: (i) sequence characteristics:

(A) length: 2998 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2747 sequence description: 1 agcaggaagc tcgcgccgcc gtcgccgccg ccgctcagct tccccgggcg cgtccaggac 61 ccgctgcgcc aggcgcgccg tccccggacc cggcgtgcgt ccctacgagg aaagggaccc121 cgccgctcga gccgcctccg ccagccccac tgcgaggggt cccagagcca gccgcgcccg181 721 gagccccgct agcagcggct cctctgccag cttcatttct gacaccttct ccccctacac 781 181 ccctcgcccc cggccccgca gccttcccgc cctgcgcgcc atgaacgccc ccgagcggca241 gccccaaccc gacggcgggg acgccccagg ccacgagcct gggggcagcc cccaagacga301 gcttgacttc tccatcctct tcgactatga gtatttgaat ccgaacgaag aagagccgaa361 tgcacataag gtcgccagcc caccctccgg acccgcatac cccgatgatg taatggacta421 tggcctcaag ccatacagcc cccttgctag tctctctggc gagccccccg gccgattcgg481 agagccggat agggtagggc cgcagaagtt tctgagcgcg gccaagccag caggggcctc541 gggcctgagc cctcggatcg agatcactcc gtcccacgaa ctgatccagg cagtggggcc601 cctccgcatg agagacgcgg gcctcctggt ggagcagcct cccctggccg gggtggccgc661 cagcccgagg ttcaccctgc ccgtgcccgg cttcgagggc taccgcgagc cgctttgctt 721 gagccccgct agcagcggct cctctgccag cttcatttct gacaccttct ccccctacac 781 ctcgccctgc gtctcgccca ataacggcgg gcccgacgac ctgtgtccgc agtttcaaaa 841 catccctgct cattattccc ccagaacctc gccaataatg tcacctcgaa ccagcctcgc 901 cgaggacagc tgcctgggcc gccactcgcc cgtgccccgt ccggcctccc gctcctcatc 961 gcctggtgcc aagcggaggc attcgtgcgc cgaggccttg gttgccctgc cgcccggagc1021 ctcaccccag cgctcccgga gcccctcgcc gcagccctca tctcacgtgg caccccagga1081 ccacggctcc ccggctgggt acccccctgt ggctggctct gccgtgatca tggatgccct1141 gaacagcctc gccacggact cgccttgtgg gatccccccc aagatgtgga agaccagccc1201 tgacccctcg ccggtgtctg ccgccccatc caaggccggc ctgcctcgcc acatctaccc1261 ggccgtggag ttcctggggc cctgcgagca gggcgagagg agaaactcgg ctccagaatc1321 catcctgctg gttccgccca cttggcccaa gccgctggtg cctgccattc ccatctgcag1381 catcccagtg actgcatccc tccctccact tgagtggccg ctgtccagtc agtcaggctc1441 ttacgagctg cggatcgagg tgcagcccaa gccacatcac cgggcccact atgagacaga1501 aggcagccga ggggctgtca aagctccaac tggaggccac cctgtggttc agctccatgg1561 ctacatggaa aacaagcctc tgggacttca gatcttcatt gggacagctg atgagcggat1621 ccttaagccg cacgccttct accaggtgca ccgaatcacg gggaaaactg tcaccaccac1681 cagctatgag aagatagtgg gcaacaccaa agtcctggag atccccttgg agcccaaaaa1741 caacatgagg gcaaccatcg actgtgcggg gatcttgaag cttagaaacg ccgacattga1801 gctgcggaaa ggcgagacgg acattggaag aaagaacacg cgggtgagac tggttttccg1861 agttcacatc ccagagtcca gtggcagaat cgtctcttta cagactgcat ctaaccccat1921 cgagtgctcc cagcgatctg ctcacgagct gcccatggtt gaaagacaag acacagacag1981 ctgcctggtc tatggcggcc agcaaatgat cctcacgggg cagaacttta catccgagtc2041 caaagttgtg tttactgaga agaccacaga tggacagcaa atttgggaga tggaagccac2101 ggtggataag gacaagagcc agcccaacat gctttttgtt gagatccctg aatatcggaa2161 caagcatatc cgcacacctg taaaagtgaa cttctacgtc atcaatggga agagaaaacg2221 aagtcagcct cagcacttta cctaccaccc agtcccagcc atcaagacgg agcccacgga2281 tgaatatgac cccactctga tctgcagccc cacccatgga ggcctgggga gccagcctta2341 ctacccccag cacccgatgg tggccgagtc cccctcctgc ctcgtggcca ccatggctcc2401 ctgccagcag ttccgcacgg ggctctcatc ccctgacgcc cgctaccagc aacagaaccc2461 agcggccgta ctctaccagc ggagcaagag cctgagcccc agcctgctgg gctatcagca2521 gccggccctc atggccgccc cgctgtccct tgcggacgct caccgctctg tgctggtgca2581 cgccggctcc cagggccaga gctcagccct gctccacccc tctccgacca accagcaggc2641 ctcgcctgtg atccactact cacccaccaa ccagcagctg cgctgcggaa gccaccagga2701 gttccagcac atcatgtact gcgagaattt cgcaccaggc accaccagac ctggcccgcc2761 27 2761 cccggtcagt caaggtcaga ggctgagccc gggttcctac cccacagtca ttcagcagca2821 gaatgccacg agccaaagag ccgccaaaaa cggacccccg gtcagtgacc aaaaggaagt2881 attacctgcg ggggtgacca ttaaacagga gcagaacttg gaccagacct acttggatga2941 tgttaatgaa attatcagga aggagttttc aggacctcct gccagaaatc agacgtaa (2) SEQ ID NO: 2748 data: (i) sequence characteristics:

(A) length: 3784 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2748 sequence description: 1 gctgcagcac cctgggccac gccgatgact actgcaaact gtggcgccca cgacgagctc 61 gacttcaaac tcgtctttgg cgaggacggg gcgccggcgc cgccgccccc gggctcgcgg 121 cctgcagatc ttgagccaga tgattgtgca tccatttaca tctttaatgt agatccacct 181 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 181 ccatctactt taaccacacc actttgctta ccacatcatg gattaccgtc tcactcttct 241 gttttgtcac catcgtttca gctccaaagt cacaaaaact atgaaggaac ttgtgagatt 301 cctgaatcta aatatagccc attaggtggt cccaaaccct ttgagtgccc aagtattcaa 361 attacatcta tctctcctaa ctgtcatcaa gaattagatg cacatgaaga tgacctacag 421 ataaatgacc cagaacggga atttttggaa aggccttcta gagatcatct ctatcttcct 481 cttgagccat cctaccggga gtcttctctt agtcctagtc ctgccagcag catctcttct 541 aggagttggt tctctgatgc atcttcttgt gaatcgcttt cacatattta tgatgatgtg 601 gactcagagt tgaatgaagc tgcagcccga tttacccttg gatcccctct gacttctcct 661 ggtggctctc cagggggctg ccctggagaa gaaacttggc atcaacagta tggacttgga 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 aattggctga gccccaggcc agcctcagga ccctcatcaa ggcccacatc cccctgtggg 841 aaacggaggc actccagtgc tgaagtttgt tatgctgggt ccctttcacc ccatcactca 901 cctgttcctt cacctggtca ctcccccagg ggaagtgtga cagaagatac gtggctcaat 961 gcttctgtcc atggtgggtc aggccttggc cctgcagttt ttccatttca gtactgtgta1021 gagactgaca tccctctcaa aacaaggaaa acttctgaag atcaagctgc catactacca1081 ggaaaattag agctgtgttc agatgaccaa gggagtttat caccagcccg ggagacttca1141 atagatgatg gccttggatc tcagtatcct ttaaagaaag attcatgtgg tgatcagttt1201 ctttcagttc cttcaccctt tacctggagc aaaccaaagc ctggccacac ccctatattt1261 cgcacatctt cattacctcc actagactgg cctttaccag ctcattttgg acaatgtgaa1321 ctgaaaatag aagtgcaacc taaaactcat catcgagccc attatgaaac tgaaggtagc1381 cgaggggcag taaaagcatc tactggggga catcctgttg tgaagctcct gggctataac1441 gaaaagccaa taaatctaca aatgtttatt gggacagcag atgatcgata tttacgacct1501 catgcatttt accaggtgca tcgaatcact gggaagacag tcgctactgc aagccaagag1561 ataataattg ccagtacaaa agttctggaa attccacttc ttcctgaaaa taatatgtca1621 gccagtattg attgtgcagg tattttgaaa ctccgcaatt cagatataga acttcgaaaa1681 ggagaaactg atattggcag aaagaatact agagtacgac ttgtgtttcg tgtacacatc1741 ccacagccca gtggaaaagt cctttctctg cagatagcct ctatacccgt tgagtgctcc1801 cagcggtctg ctcaagaact tcctcatatt gagaagtaca gtatcaacag ttgttctgta1861 aatggaggtc atgaaatggt tgtgactgga tctaattttc ttccagaatc caaaatcatt1921 tttcttgaaa aaggacaaga tggacgacct cagtgggagg tagaagggaa gataatcagg1981 gaaaaatgtc aaggggctca cattgtcctt gaagttcctc catatcataa cccagcagtt2041 acagctgcag tgcaggtgca cttttatctt tgcaatggca agaggaaaaa aagccagtct2101 caacgtttta cttatacacc agttttgctg aagcaagaac acagagaaga gattgatttg2161 tcttcagttc catctttgcc tgtgcctcat cctgctcaga cccagaggcc ttcctctgat2221 tcagggtgtt cacatgacag tgtactgtca ggacagagaa gtttgatttg ctccatccca2281 caaacatatg catccatggt gacctcatcc catctgccac agttgcagtg tagagatgag2341 agtgttagta aagaacagca tatgattcct tctccaattg tacaccagcc ttttcaagtc2401 acaccaacac ctcctgtggg gtcttcctat cagcctatgc aaactaatgt tgtgtacaat2461 ggaccaactt gtcttcctat taatgctgcc tctagtcaag aatttgattc agtttggttt2521 cagcaggatg caactctttc tggtttagtg aatcttggct gtcaaccact gtcatccata2581 ccatttcatt cttcaaattc aggctcaaca ggacatctct tagcccatac acctcattct2641 gtgcataccc tgcctcatct gcaatcaatg ggatatcatt gttcaaatac aggacaaaga2701 tctctttctt ctccagtggg tgaccagatt acaggtcagc cttcgtctca gttacaacct2761 attacatatg gtccttcaca ttcagggtct gttacaacag cttccccagc agcttctcat2821 cccttgggta gttcaccgct ttctgggcca ccatctcctc agtttcagcc tatgccttac2881 caatctccta gctcaggaac tggctcatca ccgtctccag ccaccagaat gcattctgga2941 cagcactcaa ctcaagcaca aagtacgggc caggggggtc tttctgcacc ttcatcctta3001 atatgtcaca gtttgtgtga tccagcgtca tttccacctg atggggcaac tgtgagcatt3061 aaacctgaac cagaagatcg agagcctaac tttgcaacca ttggtctgca ggacatcact3121 ttagatgatg accaatttat atctgacttg gaacaccagc catcaggttc agcagagaaa3181 tggcctaacc acagtgtgct ctcatgtcca gctcctttct ggagaatcta gaggtgaacg3241 agataattgg gagagacatg tcccaggttt ctgtttccca aggagcaggg gtaagcaggc3301 aggctcccct cccgagtcct gagtccctgg atttaggaag atctgatggg ctctaacagt3361 gcttactgca gccttgtgtc caccaccaac ttctcagcat gtttctctcc ttggaccttg3421 ggtttccaac tcttcaacct tcaggtctgg ggccaggagt gggacccacc atttgtgggg3481 aaagtagcat tcctccacct caggccttgg gtagatttgg caaaagaaca ggagcagcat3541 aggctgtttg agctttgggg aaatgaactt tgctttttat atttaactag gatactttta3601 aatgatgggt gctttgagtg tgaatccagc aggctctctt gtttccgagg tgctgctttt3661 gcaggtgacc tggttactta actaggagtg gtgatttgta ctgctttatg gtcatttgaa3721 gggcccttta gtttttatga taatttttaa aataggaact tttgataaga ccttctagaa3781 gcaa

(2) SEQ ID NO: 2749 materials:

(i) sequence characteristics:

(A) length: 3769 base pairs (B) type: nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2749 sequence description:

1 gctgcagcac cctgggccac gccgatgact actgcaaact gtggcgccca cgacgagctc 61 gacttcaaac tcgtctttgg cgaggacggg gcgccggcgc cgccgccccc gggctcgcgg 121 cctgcagatc ttgagccaga tgattgtgca tccatttaca tctttaatgt agatccacct 181 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 181 ccatctactt taaccacacc actttgctta ccacatcatg gattaccgtc tcactcttct 241 gttttgtcac catcgtttca gctccaaagt cacaaaaact atgaaggaac ttgtgagatt 301 cctgaatcta aatatagccc attaggtggt cccaaaccct ttgagtgccc aagtattcaa 361 attacatcta tctctcctaa ctgtcatcaa gaattagatg cacatgaaga tgacctacag 421 ataaatgacc cagaacggga atttttggaa aggccttcta gagatcatct ctatcttcct 481 cttgagccat cctaccggga gtcttctctt agtcctagtc ctgccagcag catctcttct 541 aggagttggt tctctgatgc atcttcttgt gaatcgcttt cacatattta tgatgatgtg 601 gactcagagt tgaatgaagc tgcagcccga tttacccttg gatcccctct gacttctcct 661 ggtggctctc cagggggctg ccctggagaa gaaacttggc atcaacagta tggacttgga 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 aattggctga gccccaggcc agcctcagga ccctcatcaa ggcccacatc cccctgtggg 841 aaacggaggc actccagtgc tgaagtttgt tatgctgggt ccctttcacc ccatcactca 901 cctgttcctt cacctggtca ctcccccagg ggaagtgtga cagaagatac gtggctcaat 961 gcttctgtcc atggtgggtc aggccttggc cctgcagttt ttccatttca gtactgtgta1021 gagactgaca tccctctcaa aacaaggaaa acttctgaag atcaagctgc catactacca1081 ggaaaattag agctgtgttc agatgaccaa gggagtttat caccagcccg ggagacttca1141 atagatgatg gccttggatc tcagtatcct ttaaagaaag attcatgtgg tgatcagttt1201 ctttcagttc cttcaccctt tacctggagc aaaccaaagc ctggccacac ccctatattt1261 cgcacatctt cattacctcc actagactgg cctttaccag ctcattttgg acaatgtgaa1321 ctgaaaatag aagtgcaacc taaaactcat catcgagccc attatgaaac tgaaggtagc1381 cgaggggcag taaaagcatc tactggggga catcctgttg tgaagctcct gggctataac1441 gaaaagccaa taaatctaca aatgtttatt gggacagcag atgatcgata tttacgacct1501 catgcatttt accaggtgca tcgaatcact gggaagacag tcgctactgc aagccaagag1561 ataataattg ccagtacaaa agttctggaa attccacttc ttcctgaaaa taatatgtca1621 gccagtattg attgtgcagg tattttgaaa ctccgcaatt cagatataga acttcgaaaa1681 ggagaaactg atattggcag aaagaatact agagtacgac ttgtgtttcg tgtacacatc1741 ccacagccca gtggaaaagt cctttctctg cagatagcct ctatacccgt tgagtgctcc1801 cagcggtctg ctcaagaact tcctcatatt gagaagtaca gtatcaacag ttgttctgta1861 aatggaggtc atgaaatggt tgtgactgga tctaattttc ttccagaatc caaaatcatt1921 tttcttgaaa aaggacaaga tggacgacct cagtgggagg tagaagggaa gataatcagg1981 gaaaaatgtc aaggggctca cattgtcctt gaagttcctc catatcataa cccagcagtt2041 acagctgcag tgcaggtgca cttttatctt tgcaatggca agaggaaaaa aagccagtct2101 caacgtttta cttatacacc agttttgctg aagcaagaac acagagaaga gattgatttg2161 tcttcagttc catctttgcc tgtgcctcat cctgctcaga cccagaggcc ttcctctgat2221 tcagggtgtt cacatgacag tgtactgtca ggacagagaa gtttgatttg ctccatccca2281 caaacatatg catccatggt gacctcatcc catctgccac agttgcagtg tagagatgag2341 agtgttagta aagaacagca tatgattcct tctccaattg tacaccagcc ttttcaagtc2401 acaccaacac ctcctgtggg gtcttcctat cagcctatgc aaactaatgt tgtgtacaat2461 ggaccaactt gtcttcctat taatgctgcc tctagtcaag aatttgattc agtttggttt2521 cagcaggatg caactctttc tggtttagtg aatcttggct gtcaaccact gtcatccata2581 ccatttcatt cttcaaattc aggctcaaca ggacatctct tagcccatac acctcattct2641 gtgcataccc tgcctcatct gcaatcaatg ggatatcatt gttcaaatac aggacaaaga2701 tctctttctt ctccagtggg tgaccagatt acaggtcagc cttcgtctca gttacaacct2761 attacatatg gtccttcaca ttcagggtct gttacaacag cttccccagc agcttctcat2821 cccttgggta gttcaccgct ttctgggcca ccatctcctc agtttcagcc tatgccttac2881 caatctccta gctcaggaac tggctcatca ccgtctccag ccaccagaat gcattctgga2941 cagcactcaa ctcaagcaca aagtacgggc caggggggtc tttctgcacc ttcatcctta3001 atatgtcaca gtttgtgtga tccagcgtca tttccacctg atggggcaac tgtgagcatt3061 aaacctgaac cagaagatcg agagcctaac tttgcaacca ttggtctgca ggacatcact3121 ttagatgatg atttgtttac cagtaataat tttgacttgc ttcagttgag acctacgttt3181 tggccagtcc cagcaggaag atatctgagg aatctagagt gaacgagata attgggagag3241 acatgtccca gatttctgtt tcccaaggag caggggtgag caggcaggct cccctcccga3301 gtcctgagtc cctggattta ggaagatctg atgggctcta acagtgctta ctgcagcctt3361 gtgtccacca ccaacttctc agcatgtttc tctccttgga ccttgggttt ccaactcttc3421 aaccttcagg tctggggcca ggagtgggac ccaccatttg tggggaaagt agcattcctc3481 cacctcaggc cttgggtaga tttggcaaaa gaacaggagc agcataggct gtttgagctt3541 tggggaaatg aactttgctt tttatattta actaggatac ttttaaatga tgggtgcttt3601 gagtgtgaat ccagcaggct ctcttgtttc cgaggtgctg cttttgcagg tgacctggtt3661 acttaactag gagtggtgat ttgtactgct ttatggtcat ttgaagggcc ctttagtttt3721 tatgataatt tttaaaatag gaacttttga taagaccttc tagaagcaa (2) SEQ ID NO: 2750 materials: (i) sequence characteristics:

(A) length: 3583 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2750 sequence description: 1 gctgcagcac cctgggccac gccgatgact actgcaaact gtggcgccca cgacgagctc 61 gacttcaaac tcgtctttgg cgaggacggg gcgccggcgc cgccgccccc gggctcgcgg 121 cctgcagatc ttgagccaga tgattgtgca tccatttaca tctttaatgt agatccacct 181 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 181 ccatctactt taaccacacc actttgctta ccacatcatg gattaccgtc tcactcttct 241 gttttgtcac catcgtttca gctccaaagt cacaaaaact atgaaggaac ttgtgagatt 301 cctgaatcta aatatagccc attaggtggt cccaaaccct ttgagtgccc aagtattcaa 361 attacatcta tctctcctaa ctgtcatcaa gaattagatg cacatgaaga tgacctacag 421 ataaatgacc cagaacggga atttttggaa aggccttcta gagatcatct ctatcttcct 481 cttgagccat cctaccggga gtcttctctt agtcctagtc ctgccagcag catctcttct 541 aggagttggt tctctgatgc atcttcttgt gaatcgcttt cacatattta tgatgatgtg 601 gactcagagt tgaatgaagc tgcagcccga tttacccttg gatcccctct gacttctcct 661 ggtggctctc cagggggctg ccctggagaa gaaacttggc atcaacagta tggacttgga 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 aattggctga gccccaggcc agcctcaggaccctcatcaa ggcccacatc cccctgtggg 841 aaacggaggc actccagtgc tgaagtttgt tatgctgggt ccctttcacc ccatcactca 901 cctgttcctt cacctggtca ctcccccagg ggaagtgtga cagaagatac gtggctcaat 961 gcttctgtcc atggtgggtc aggccttggc cctgcagttt ttccatttca gtactgtgta1021 gagactgaca tccctctcaa aacaaggaaa acttctgaag atcaagctgc catactacca1081 ggaaaattag agctgtgttc agatgaccaa gggagtttat caccagcccg ggagacttca1141 atagatgatg gccttggatc tcagtatcct ttaaagaaag attcatgtgg tgatcagttt1201 ctttcagttc cttcaccctt tacctggagc aaaccaaagc ctggccacac ccctatattt1261 cgcacatctt cattacctcc actagactgg cctttaccag ctcattttgg acaatgtgaa1321 ctgaaaatag aagtgcaacc taaaactcat catcgagccc attatgaaac tgaaggtagc1381 cgaggggcag taaaagcatc tactggggga catcctgttg tgaagctcct gggctataac1441 gaaaagccaa taaatctaca aatgtttatt gggacagcag atgatcgata tttacgacct1501 catgcatttt accaggtgca tcgaatcact gggaagacag tcgctactgc aagccaagag1561 ataataattg ccagtacaaa agttctggaa attccacttc ttcctgaaaa taatatgtca1621 gccagtattg attgtgcagg tattttgaaa ctccgcaatt cagatataga acttcgaaaa1681 ggagaaactg atattggcag aaagaatact agagtacgac ttgtgtttcg tgtacacatc1741 ccacagccca gtggaaaagt cctttctctg cagatagcct ctatacccgt tgagtgctcc1801 cagcggtctg ctcaagaact tcctcatatt gagaagtaca gtatcaacag ttgttctgta1861 aatggaggtc atgaaatggt tgtgactgga tctaattttc ttccagaatc caaaatcatt1921 tttcttgaaa aaggacaaga tggacgacct cagtgggagg tagaagggaa gataatcagg1981 gaaaaatgtc aaggggctca cattgtcctt gaagttcctc catatcataa cccagcagtt2041 acagctgcag tgcaggtgca cttttatctt tgcaatggca agaggaaaaa aagccagtct2101 caacgtttta cttatacacc agttttgctg aagcaagaac acagagaaga gattgatttg2161 tcttcagttc catctttgcc tgtgcctcat cctgctcaga cccagaggcc ttcctctgat2221 tcagggtgtt cacatgacag tgtactgtca ggacagagaa gtttgatttg ctccatccca2281 caaacatatg catccatggt gacctcatcc catctgccac agttgcagtg tagagatgag2341 agtgttagta aagaacagca tatgattcct tctccaattg tacaccagcc ttttcaagtc2401 acaccaacac ctcctgtggg gtcttcctat cagcctatgc aaactaatgt tgtgtacaat2461 ggaccaactt gtcttcctat taatgctgcc tctagtcaag aatttgattc agtttggttt2521 cagcaggatg caactctttc tggtttagtg aatcttggct gtcaaccact gtcatccata2581 ccatttcatt cttcaaattc aggctcaaca ggacatctct tagcccatac acctcattct2641 gtgcataccc tgcctcatct gcaatcaatg ggatatcatt gttcaaatac aggacaaaga2701 tctctttctt ctccagtggg tgaccagatt acaggtcagc cttcgtctca gttacaacct2761 attacatatg gtccttcaca ttcagggtct gttacaacag cttccccagc agcttctcat2821 cccttgggta gttcaccgct ttctgggcca ccatctcctc agtttcagcc tatgccttac2881 caatctccta gctcaggaac tggctcatca ccgtctccag ccaccagaat gcattctgga2941 cagcactcaa ctcaagcaca aagtacgggc caggggggtc tttctgcacc ttcatcctta3001 atatgtcaca gtttgtgtga tccagcgtca tttccacctg atggggcaac tgtgagcatt3061 aaacctgaac cagaagatcg agagcctaac tttgcaacca ttggtctgca ggacatcact3121 ttagatgatg gtaagttcat ctctgatatg ttcttgaagt agtgaagatt cagggacttt3181 attctcccaa gtgtcatgaa aaagtttcta tggattgctt attggcatat ggttgggctt3241 ttaaataagt tgttattaga aatatatgtt aatatataac tttgccaggt accacggctc3301 acgcctgtat cccagcactt tggaaggctg aggcgggtgg atcacaaggt caggagttca3361 agaccagcct ggccaacatg gtgtaacgct gtctctacta aaaatacaaa aaattagcca3421 ggcatggtgg tgtgtgacta taatcccagc tactcgggag gctgagacag gagaatcact3481 tgaacccggg aggtggcagt tgcagggagc taagatcgcg ccattgcact ccagcctggg3541 cggcagagca agactccgtc tcgggaaaaa aaaaaaaaaa aaa

(2) SEQ ID NO: 2751 materials:

(i) sequence characteristics: (A) length: 2935 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2751 sequence description: 1 gaattccggg ccgggagaac cgaacccctg gcggccgcga ccccggctcc cgccccggcc 61 ccggcccgac ccgccatgac ggggctggag gaccaggagt tcgacttcga gttcctcttc121 gagtttaacc agcgcgacga gggcgccgcc gcggccgccc cagaacacta tggctatgca181 tcctccaacg tcagccccgc cctgccgctc cccacggcgc actccaccct gccggccccg241 tgccacaacc ttcagacctc cacaccgggc atcatcccgc cggcggatca cccctcgggg301 tacggagcag ctttggacgg tgggcctgcg ggctacttcc tctcctccgg ccacaccagg361 cctgatgggg cccctgccct ggagagtcct cgcatcgaga taacctcgtg cttgggcctg421 taccacaaca ataaccagtt tttccacgat gtggaggtgg aagacgtcct ccctagctcc481 aaacggtccc cctccacggc cacgctgagt ctgcccagcc tggaggccta cagagacccc541 tcgtgcctga gcccggccag cagcctgtcc tcccggagct gcaactcaga ggcctcctcc601 tacgagtcca actactcgta cccgtacgcg tccccccaga cgtcgccatg gcagtctccc 661 tgcgtgtctc ccaagaccac ggaccccgag gagggctttc cccgcgggct gggggcctgc 721 acactgctga gttccccgcg gcactccccc tccacctcgc cccgcgccag cgtcactgag 781 gagagctggc tgggtgcccg ctcctccaga cccgcgtccc cttgcaacaa gaggaagtac 841 agcctcaacg gccggcagcc gccctactca ccccaccact cgcccacgcc atccccgcac 901 ggctccccgc gggtcagcgt gaccgacgac tcgtggttgg gcaacaccac ccagtacacc 961 agctcggcca tcgtggccgc catcaacgcg ctgaccaccg acagcagcct ggacctggga1021 gatggcgtcc ctgtcaagtc ccgcaagacc accctggagc agccgccctc agtggcgctc1081 aaggtggagc ccgtcgggga ggacctgggc agccccccgc ccccggccga cttcgcgccc1141 gaagactact cctctttcca gcacatcagg aagggcggct tctgcgacca gtacctggcg1201 gtgccgcagc acccctacca gtgggcgaag cccaagcccc tgtcccctac gtcctacatg1261 agcccgaccc tgcccgccct ggactggcag ctgccgtccc actcaggccc gtatgagctt1321 cggattgagg tgcagcccaa gtcccaccac cgagcccact acgagacgga gggcagccgg1381 ggggccgtga aggcgtcggc cggaggacac cccatcgtgc agctgcatgg ctacttggag1441 aatgagccgc tgatgctgca gcttttcatt gggacggcgg acgaccgcct gctgcgcccg1501 cacgccttct accaggtgca ccgcatcaca gggaagaccg tgtccaccac cagccacgag1561 gccatcctct ccaacaccaa agtcctggag atcccactcc tgccggagaa cagcatgcga1621 gccgtcattg actgtgccgg aatcctgaaa ctcagaaact ccgacattga acttcggaaa1681 ggagagacgg acatcgggag gaagaacaca cgggtacggc tggtgttccg cgttcacgtc1741 ccgcaaccca gcggccgcac gctgtccctg caggtggcct ccaaccccat cgaatgctcc1801 cagcgctcag ctcaggagct gcctctggtg gagaagcaga gcacggacag ctatccggtc1861 gtgggcggga agaagatggt cctgtctggc cacaacttcc tgcaggactc caaggtcatt1921 ttcgtggaga aagccccaga tggccaccat gtctgggaga tggaagcgaa aactgaccgg1981 gacctgtgca agccgaattc tctggtggtt gagatcccgc cgtttcggaa tcagaggata2041 accagccccg ttcacgtcag tttctacgtc tgcaacggga agagaaagcg aagccagtac2101 cagcgtttca cctaccttcc cgccaacgtt ccaattataa aaacagaacc cactgatgat2161 tatgagcctg ctccaacctg tggaccggtg agccaggggt taagtcctct cccaagacca2221 tactacagcc agcagctcgc gatgccaccc gaccccagct cctgcctcgt ggccggcttc2281 ccgccctgtc cgcagagaag caccctgatg ccagcggccc ctggcgtgag ccccaagctc2341 cacgaccttt ctcccgctgc ctacaccaag ggcgttgcca gcccgggcca ctgtcacctc2401 ggactcccgc agccggccgg agaggccccc gccgtccagg acgtgcccag gccagtggcc24 acgcaccccg gctcgcccgg gcagccaccc ccggccctgc tgccacagca gtaaatgaaa2521 taatacgaaa tgacctctcc agcacgagca cccactccta gttgccacat tggagcactc 8681 agttcagcag gggtatgctg acttcagcag acaaagactt ttgaataaat aaactgaact2641 cacacctggt accactcaga acctccaact gactgaatgc caggagctga acattaatat 27058 362761 cctggaggag aagtcatctc atgacaacag aagggaggtg gccgggctga gcacggagac2821 ccaccgtgca ggggcctttc atgggaacgg cccacacgca gtttgacccc acgcccagcc2881 cttctggcac ccctggggtt caatactgga agtgccttat ttaaccagac catca (2) SEQ ID NO: 2752 materials: (i) sequence characteristics:

(A) length: 17069 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2752 sequence description: 1 agcaggaagc tcgcgccgcc gtcgccgccg ccgctcagct tccccgggcg cgtccaggac 61 ccgctgcgcc aggcgcgccg tccccggacc cggcgtgcgt ccctacgagg aaagggaccc121 cgccgctcga gccgcctccg ccagccccac tgcgaggggt cccagagcca gccgcgcccg181 ccctcgcccc cggccccgca gccttcccgc cctgcgcgcc atgaacgccc ccgagcggca241 gccccaaccc gacggcgggg acgccccagg ccacgagcct gggggcagcc cccaagacga301 gcttgacttc tccatcctct tcgactatga gtatttgaat ccgaacgaag aagagccgaa361 tgcacataag gtcgccagcc caccctccgg acccgcatac cccgatgatg taatggacta421 tggcctcaag ccatacagcc cccttgctag tctctctggc gagccccccg gccgattcgg481 agagccggat agggtagggc cgcagaagtt tctgagcgcg gccaagccag caggggcctc541 gggcctgagc cctcggatcg agatcactcc gtcccacgaa ctgatccagg cagtggggcc601 cctccgcatg agagacgcgg gcctcctggt ggagcagcct cccctggccg gggtggccgc661 cagcccgagg ttcaccctgc ccgtgcccgg cttcgagggc taccgcgagc cgctttgctt 721 gagccccgct agcagcggct cctctgccag cttcatttct gacaccttct ccccctacac 781 ctcgccctgc gtctcgccca ataacggcgg gcccgacgac ctgtgtccgc agtttcaaaa 841 catccctgct cattattccc ccagaacctc gccaataatg tcacctcgaa ccagcctcgc 901 cgaggacagc tgcctgggcc gccactcgcc cgtgccccgt ccggcctccc gctcctcatc 961 gcctggtgcc aagcggaggc attcgtgcgc cgaggccttg gttgccctgc cgcccggagc1021 ctcaccccag cgctcccgga gcccctcgcc gcagccctca tctcacgtgg caccccagga1081 ccacggctcc ccggctgggt acccccctgt ggctggctct gccgtgatca tggatgccct1141 gaacagcctc gccacggact cgccttgtgg gatccccccc aagatgtgga agaccagccc1201 tgacccctcg ccggtgtctg ccgccccatc caaggccggc ctgcctcgcc acatctaccc1261 ggccgtggag ttcctggggc cctgcgagca gggcgagagg agaaactcgg ctccagaatc1321 catcctgctg gttccgccca cttggcccaa gccgctggtg cctgccattc ccatctgcag1381 catcccagtg actgcatccc tccctccact tgagtggccg ctgtccagtc agtcaggctc1441 ttacgagctg cggatcgagg tgcagcccaa gccacatcac cgggcccact atgagacaga1501 aggcagccga ggggctgtca aagctccaac tggaggccac cctgtggttc agctccatgg1561 ctacatggaa aacaagcctc tgggacttca gatcttcatt gggacagctg atgagcggat1621 ccttaagccg cacgccttct accaggtgca ccgaatcacg gggaaaactg tcaccaccac1681 cagctatgag aagatagtgg gcaacaccaa agtcctggag atccccttgg agcccaaaaa1741 caacatgagg gcaaccatcg actgtgcggg gatcttgaag cttagaaacg ccgacattga1801 gctgcggaaa ggcgagacgg acattggaag aaagaacacg cgggtgagac tggttttccg1861 agttcacatc ccagagtcca gtggcagaat cgtctcttta cagactgcat ctaaccccat1921 cgagtgctcc cagcgatctg ctcacgagct gcccatggtt gaaagacaag acacagacag1981 ctgcctggtc tatggcggcc agcaaatgat cctcacgggg cagaacttta catccgagtc2041 caaagttgtg tttactgaga agaccacaga tggacagcaa atttgggaga tggaagccac2101 ggtggataag gacaagagcc agcccaacat gctttttgtt gagatccctg aatatcggaa2161 caagcatatc cgcacacctg taaaagtgaa cttctacgtc atcaatggga agagaaaacg2221 aagtcagcct cagcacttta cctaccaccc agtcccagcc atcaagacgg agcccacgga2281 tgaatatgac cccactctga tctgcagccc cacccatgga ggcctgggga gccagcctta2341 ctacccccag cacccgatgg tggccgagtc cccctcctgc ctcgtggcca ccatggctcc2401 ctgccagcag ttccgcacgg ggctctcatc ccctgacgcc cgctaccagc aacagaaccc24 agcggccgta ctctaccagc ggagcaagag cctgagcccc agcctgctgg gctatcagca2521 gccggccctc atggccgccc cgctgtccct tgcggacgct caccgctctg tgctggtgca 8681 cgccggctcc cagggccaga gctcagccct gctccacccc tctccgacca accagcaggc2641 ctcgcctgtg atccactact cacccaccaa ccagcagctg cgctgcggaa gccaccagga 27058 gttccagcac atcatgtact gcgagaattt cgcaccaggc accaccagac ctggcccgcc2761 cccggtcagt caaggtcaga ggctgagccc gggttcctac cccacagtca ttcagcagca2821 gaatgccacg agccaaagag ccgccaaaaa cggacccccg gtcagtgacc aaaaggaagt2881 attacctgcg ggggtgacca ttaaacagga gcagaacttg gaccagacct acttggatga2941 tgttaatgaa attatcagga aggagttttc aggacctcct gccagaaatc agacgtaa

1 gctgcagcac cctgggccac gccgatgact actgcaaact gtggcgccca cgacgagctc 61 gacttcaaac tcgtctttgg cgaggacggg gcgccggcgc cgccgccccc gggctcgcgg 121 cctgcagatc ttgagccaga tgattgtgca tccatttaca tctttaatgt agatccacct 181 ccatctactt taaccacacc actttgctta ccacatcatg gattaccgtc tcactcttct 241 gttttgtcac catcgtttca gctccaaagt cacaaaaact atgaaggaac ttgtgagatt 301 cctgaatcta aatatagccc attaggtggt cccaaaccct ttgagtgccc aagtattcaa 361 attacatcta tctctcctaa ctgtcatcaa gaattagatg cacatgaaga tgacctacag 421 ataaatgacc cagaacggga atttttggaa aggccttcta gagatcatct ctatcttcct 481 cttgagccat cctaccggga gtcttctctt agtcctagtc ctgccagcag catctcttct 541 aggagttggt tctctgatgc atcttcttgt gaatcgcttt cacatattta tgatgatgtg 601 gactcagagt tgaatgaagc tgcagcccga tttacccttg gatcccctct gacttctcct 661 ggtggctctc cagggggctg ccctggagaa gaaacttggc atcaacagta tggacttgga 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 aattggctga gccccaggcc agcctcagga ccctcatcaa ggcccacatc cccctgtggg 841 aaacggaggc actccagtgc tgaagtttgt tatgctgggt ccctttcacc ccatcactca 901 cctgttcctt cacctggtca ctcccccagg ggaagtgtga cagaagatac gtggctcaat 961 gcttctgtcc atggtgggtc aggccttggc cctgcagttt ttccatttca gtactgtgta1021 gagactgaca tccctctcaa aacaaggaaa acttctgaag atcaagctgc catactacca1081 ggaaaattag agctgtgttc agatgaccaa gggagtttat caccagcccg ggagacttca1141 atagatgatg gccttggatc tcagtatcct ttaaagaaag attcatgtgg tgatcagttt1201 ctttcagttc cttcaccctt tacctggagc aaaccaaagc ctggccacac ccctatattt1261 cgcacatctt cattacctcc actagactgg cctttaccag ctcattttgg acaatgtgaa1321 ctgaaaatag aagtgcaacc taaaactcat catcgagccc attatgaaac tgaaggtagc1381 cgaggggcag taaaagcatc tactggggga catcctgttg tgaagctcct gggctataac1441 gaaaagccaa taaatctaca aatgtttatt gggacagcag atgatcgata tttacgacct1501 catgcatttt accaggtgca tcgaatcact gggaagacag tcgctactgc aagccaagag1561 ataataattg ccagtacaaa agttctggaa attccacttc ttcctgaaaa taatatgtca1621 gccagtattg attgtgcagg tattttgaaa ctccgcaatt cagatataga acttcgaaaa1681 ggagaaactg atattggcag aaagaatact agagtacgac ttgtgtttcg tgtacacatc1741 ccacagccca gtggaaaagt cctttctctg cagatagcct ctatacccgt tgagtgctcc1801 cagcggtctg ctcaagaact tcctcatatt gagaagtaca gtatcaacag ttgttctgta1861 aatggaggtc atgaaatggt tgtgactgga tctaattttc ttccagaatc caaaatcatt1921 tttcttgaaa aaggacaaga tggacgacct cagtgggagg tagaagggaa gataatcagg1981 gaaaaatgtc aaggggctca cattgtcctt gaagttcctc catatcataa cccagcagtt2041 acagctgcag tgcaggtgca cttttatctt tgcaatggca agaggaaaaa aagccagtct2101 caacgtttta cttatacacc agttttgctg aagcaagaac acagagaaga gattgatttg2161 tcttcagttc catctttgcc tgtgcctcat cctgctcaga cccagaggcc ttcctctgat2221 tcagggtgtt cacatgacag tgtactgtca ggacagagaa gtttgatttg ctccatccca2281 caaacatatg catccatggt gacctcatcc catctgccac agttgcagtg tagagatgag2341 agtgttagta aagaacagca tatgattcct tctccaattg tacaccagcc ttttcaagtc2401 acaccaacac ctcctgtggg gtcttcctat cagcctatgc aaactaatgt tgtgtacaat2461 ggaccaactt gtcttcctat taatgctgcc tctagtcaag aatttgattc agtttggttt2521 cagcaggatg caactctttc tggtttagtg aatcttggct gtcaaccact gtcatccata2581 ccatttcatt cttcaaattc aggctcaaca ggacatctct tagcccatac acctcattct2641 gtgcataccc tgcctcatct gcaatcaatg ggatatcatt gttcaaatac aggacaaaga2701 tctctttctt ctccagtggg tgaccagatt acaggtcagc cttcgtctca gttacaacct2761 attacatatg gtccttcaca ttcagggtct gttacaacag cttccccagc agcttctcat2821 cccttgggta gttcaccgct ttctgggcca ccatctcctc agtttcagcc tatgccttac2881 caatctccta gctcaggaac tggctcatca ccgtctccag ccaccagaat gcattctgga2941 cagcactcaa ctcaagcaca aagtacgggc caggggggtc tttctgcacc ttcatcctta3001 atatgtcaca gtttgtgtga tccagcgtca tttccacctg atggggcaac tgtgagcatt3061 aaacctgaac cagaagatcg agagcctaac tttgcaacca ttggtctgca ggacatcact3121 ttagatgatg accaatttat atctgacttg gaacaccagc catcaggttc agcagagaaa3181 tggcctaacc acagtgtgct ctcatgtcca gctcctttct ggagaatcta gaggtgaacg3241 agataattgg gagagacatg tcccagattt ctgtttccca aggagcaggg gtgagcaggc3301 aggctcccct cccgagtcct gagtccctgg atttaggaag atctgatggg ctctaacagt3361 gcttactgca gccttgtgtc caccaccaac ttctcagcat gtttctctcc ttggaccttg3421 ggtttccaac tcttcaacct tcaggtctgg ggccaggagt gggacccacc atttgtgggg3481 aaagtagcat tcctccacct caggccttgg gtagatttgg caaaagaaca ggagcagcat3541 aggctgtttg agctttgggg aaatgaactt tgctttttat atttaactag gatactttta3601 aatgatgggt gctttgagtg tgaatccagc aggctctctt gtttccgagg tgctgctttt3661 gcaggtgacc tggttactta actaggagtg gtgatttgta ctgctttatg gtcatttgaa3721 gggcccttta gtttttatga taatttttaa aataggaact tttgataaga ccttctagaa3781 gcaa

1 gctgcagcac cctgggccac gccgatgact actgcaaact gtggcgccca cgacgagctc 61 gacttcaaac tcgtctttgg cgaggacggg gcgccggcgc cgccgccccc gggctcgcgg 121 cctgcagatc ttgagccaga tgattgtgca tccatttaca tctttaatgt agatccacct 181 ccatctactt taaccacacc actttgctta ccacatcatg gattaccgtc tcactcttct 241 gttttgtcac catcgtttca gctccaaagt cacaaaaact atgaaggaac ttgtgagatt 301 cctgaatcta aatatagccc attaggtggt cccaaaccct ttgagtgccc aagtattcaa 361 attacatcta tctctcctaa ctgtcatcaa gaattagatg cacatgaaga tgacctacag 421 ataaatgacc cagaacggga atttttggaa aggccttcta gagatcatct ctatcttcct 481 cttgagccat cctaccggga gtcttctctt agtcctagtc ctgccagcag catctcttct 541 aggagttggt tctctgatgc atcttcttgt gaatcgcttt cacatattta tgatgatgtg 601 gactcagagt tgaatgaagc tgcagcccga tttacccttg gatcccctct gacttctcct 661 ggtggctctc cagggggctg ccctggagaa gaaacttggc atcaacagta tggacttgga 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 aattggctga gccccaggcc agcctcaggaccctcatcaa ggcccacatc cccctgtggg841 aaacggaggc actccagtgc tgaagtttgt tatgctgggt ccctttcacc ccatcactca 901 cctgttcctt cacctggtca ctcccccagg ggaagtgtga cagaagatac gtggctcaat 961 gcttctgtcc atggtgggtc aggccttggc cctgcagttt ttccatttca gtactgtgta1021 gagactgaca tccctctcaa aacaaggaaa acttctgaag atcaagctgc catactacca1081 ggaaaattag agctgtgttc agatgaccaa gggagtttat caccagcccg ggagacttca1141 atagatgatg gccttggatc tcagtatcct ttaaagaaag attcatgtgg tgatcagttt1201 ctttcagttc cttcaccctt tacctggagc aaaccaaagc ctggccacac ccctatattt1261 cgcacatctt cattacctcc actagactgg cctttaccag ctcattttgg acaatgtgaa1321 ctgaaaatag aagtgcaacc taaaactcat catcgagccc attatgaaac tgaaggtagc1381 cgaggggcag taaaagcatc tactggggga catcctgttg tgaagctcct gggctataac1441 gaaaagccaa taaatctaca aatgtttatt gggacagcag atgatcgata tttacgacct1501 catgcatttt accaggtgca tcgaatcact gggaagacag tcgctactgc aagccaagag1561 ataataattg ccagtacaaa agttctggaa attccacttc ttcctgaaaa taatatgtca1621 gccagtattg attgtgcagg tattttgaaa ctccgcaatt cagatataga acttcgaaaa1681 ggagaaactg atattggcag aaagaatact agagtacgac ttgtgtttcg tgtacacatc1741 ccacagccca gtggaaaagt cctttctctg cagatagcct ctatacccgt tgagtgctcc1801 cagcggtctg ctcaagaact tcctcatatt gagaagtaca gtatcaacag ttgttctgta1861 aatggaggtc atgaaatggt tgtgactgga tctaattttc ttccagaatc caaaatcatt1921 tttcttgaaa aaggacaaga tggacgacct cagtgggagg tagaagggaa gataatcagg1981 gaaaaatgtc aaggggctca cattgtcctt gaagttcctc catatcataa cccagcagtt2041 acagctgcag tgcaggtgca cttttatctt tgcaatggca agaggaaaaa aagccagtct2101 caacgtttta cttatacacc agttttgctg aagcaagaac acagagaaga gattgatttg2161 tcttcagttc catctttgcc tgtgcctcat cctgctcaga cccagaggcc ttcctctgat2221 tcagggtgtt cacatgacag tgtactgtca ggacagagaa gtttgatttg ctccatccca2281 caaacatatg catccatggt gacctcatcc catctgccac agttgcagtg tagagatgag2341 agtgttagta aagaacagca tatgattcct tctccaattg tacaccagcc ttttcaagtc2401 acaccaacac ctcctgtggg gtcttcctat cagcctatgc aaactaatgt tgtgtacaat2461 ggaccaactt gtcttcctat taatgctgcc tctagtcaag aatttgattc agtttggttt2521 cagcaggatg caactctttc tggtttagtg aatcttggct gtcaaccact gtcatccata2581 ccatttcatt cttcaaattc aggctcaaca ggacatctct tagcccatac acctcattct2641 gtgcataccc tgcctcatct gcaatcaatg ggatatcatt gttcaaatac aggacaaaga2701 tctctttctt ctccagtggg tgaccagatt acaggtcagc cttcgtctca gttacaacct2761 attacatatg gtccttcaca ttcagggtct gttacaacag cttccccagc agcttctcat2821 cccttgggta gttcaccgct ttctgggcca ccatctcctc agtttcagcc tatgccttac2881 caatctccta gctcaggaac tggctcatca ccgtctccag ccaccagaat gcattctgga2941 cagcactcaa ctcaagcaca aagtacgggc caggggggtc tttctgcacc ttcatcctta3001 atatgtcaca gtttgtgtga tccagcgtca tttccacctg atggggcaac tgtgagcatt3061 aaacctgaac cagaagatcg agagcctaac tttgcaacca ttggtctgca ggacatcact3121 ttagatgatg atttgtttac cagtaataat tttgacttgc ttcagttgag acctacgttt3181 tggccagtcc cagcaggaag atatctgagg aatctagagt gaacgagata attgggagag3241 acatgtccca gatttctgtt tcccaaggag caggggtgag caggcaggct cccctcccga3301 gtcctgagtc cctggattta ggaagatctg atgggctcta acagtgctta ctgcagcctt3361 gtgtccacca ccaacttctc agcatgtttc tctccttgga ccttgggttt ccaactcttc3421 aaccttcagg tctggggcca ggagtgggac ccaccatttg tggggaaagt agcattcctc3481 cacctcaggc cttgggtaga tttggcaaaa gaacaggagc agcataggct gtttgagctt3541 tggggaaatg aactttgctt tttatattta actaggatac ttttaaatga tgggtgcttt3601 gagtgtgaat ccagcaggct ctcttgtttc cgaggtgctg cttttgcagg tgacctggtt3661 acttaactag gagtggtgat ttgtactgct ttatggtcat ttgaagggcc ctttagtttt3721 tatgataatt tttaaaatag gaacttttga taagaccttc tagaagcaa

1 gctgcagcac cctgggccac gccgatgact actgcaaact gtggcgccca cgacgagctc 61 gacttcaaac tcgtctttgg cgaggacggg gcgccggcgc cgccgccccc gggctcgcgg 121 cctgcagatc ttgagccaga tgattgtgca tccatttaca tctttaatgt agatccacct 181 ccatctactt taaccacacc actttgctta ccacatcatg gattaccgtc tcactcttct 241 gttttgtcac catcgtttca gctccaaagt cacaaaaact atgaaggaac ttgtgagatt 301 cctgaatcta aatatagccc attaggtggt cccaaaccct ttgagtgccc aagtattcaa 361 attacatcta tctctcctaa ctgtcatcaa gaattagatg cacatgaaga tgacctacag 421 ataaatgacc cagaacggga atttttggaa aggccttcta gagatcatct ctatcttcct 481 cttgagccat cctaccggga gtcttctctt agtcctagtc ctgccagcag catctcttct541 aggagttggt tctctgatgc atcttcttgt gaatcgcttt cacatattta tgatgatgtg 601 gactcagagt tgaatgaagc tgcagcccga tttacccttg gatcccctct gacttctcct 661 ggtggctctc cagggggctg ccctggagaa gaaacttggc atcaacagta tggacttgga 721 cactcattat cacccaggca atctccttgc cactctccta gatccagtgt cactgatgag 781 aattggctga gccccaggcc agcctcagga ccctcatcaa ggcccacatc cccctgtggg 841 aaacggaggc actccagtgc tgaagtttgt tatgctgggt ccctttcacc ccatcactca 901 cctgttcctt cacctggtca ctcccccagg ggaagtgtga cagaagatac gtggctcaat 961 gcttctgtcc atggtgggtc aggccttggc cctgcagttt ttccatttca gtactgtgta1021 gagactgaca tccctctcaa aacaaggaaa acttctgaag atcaagctgc catactacca1081 ggaaaattag agctgtgttc agatgaccaa gggagtttat caccagcccg ggagacttca1141 atagatgatg gccttggatc tcagtatcct ttaaagaaag attcatgtgg tgatcagttt1201 ctttcagttc cttcaccctt tacctggagc aaaccaaagc ctggccacac ccctatattt1261 cgcacatctt cattacctcc actagactgg cctttaccag ctcattttgg acaatgtgaa1321 ctgaaaatag aagtgcaacc taaaactcat catcgagccc attatgaaac tgaaggtagc1381 cgaggggcag taaaagcatc tactggggga catcctgttg tgaagctcct gggctataac1441 gaaaagccaa taaatctaca aatgtttatt gggacagcag atgatcgata tttacgacct1501 catgcatttt accaggtgca tcgaatcact gggaagacag tcgctactgc aagccaagag1561 ataataattg ccagtacaaa agttctggaa attccacttc ttcctgaaaa taatatgtca1621 gccagtattg attgtgcagg tattttgaaa ctccgcaatt cagatataga acttcgaaaa1681 ggagaaactg atattggcag aaagaatact agagtacgac ttgtgtttcg tgtacacatc1741 ccacagccca gtggaaaagt cctttctctg cagatagcct ctatacccgt tgagtgctcc1801 cagcggtctg ctcaagaact tcctcatatt gagaagtaca gtatcaacag ttgttctgta1861 aatggaggtc atgaaatggt tgtgactgga tctaattttc ttccagaatc caaaatcatt1921 tttcttgaaa aaggacaaga tggacgacct cagtgggagg tagaagggaa gataatcagg1981 gaaaaatgtc aaggggctca cattgtcctt gaagttcctc catatcataa cccagcagtt2041 acagctgcag tgcaggtgca cttttatctt tgcaatggca agaggaaaaa aagccagtct2101 caacgtttta cttatacacc agttttgctg aagcaagaac acagagaaga gattgatttg2161 tcttcagttc catctttgcc tgtgcctcat cctgctcaga cccagaggcc ttcctctgat2221 tcagggtgtt cacatgacag tgtactgtca ggacagagaa gtttgatttg ctccatccca2281 caaacatatg catccatggt gacctcatcc catctgccac agttgcagtg tagagatgag2341 agtgttagta aagaacagca tatgattcct tctccaattg tacaccagcc ttttcaagtc2401 acaccaacac ctcctgtggg gtcttcctat cagcctatgc aaactaatgt tgtgtacaat2461 ggaccaactt gtcttcctat taatgctgcc tctagtcaag aatttgattc agtttggttt2521 cagcaggatg caactctttc tggtttagtg aatcttggct gtcaaccact gtcatccata2581 ccatttcatt cttcaaattc aggctcaaca ggacatctct tagcccatac acctcattct2641 gtgcataccc tgcctcatct gcaatcaatg ggatatcatt gttcaaatac aggacaaaga2701 tctctttctt ctccagtggg tgaccagatt acaggtcagc cttcgtctca gttacaacct2761 attacatatg gtccttcaca ttcagggtct gttacaacag cttccccagc agcttctcat2821 cccttgggta gttcaccgct ttctgggcca ccatctcctc agtttcagcc tatgccttac2881 caatctccta gctcaggaac tggctcatca ccgtctccag ccaccagaat gcattctgga2941 cagcactcaa ctcaagcaca aagtacgggc caggggggtc tttctgcacc ttcatcctta3001 atatgtcaca gtttgtgtga tccagcgtca tttccacctg atggggcaac tgtgagcatt3061 aaacctgaac cagaagatcg agagcctaac tttgcaacca ttggtctgca ggacatcact3121 ttagatgatg gtaagttcat ctctgatatg ttcttgaagt agtgaagatt cagggacttt3181 attctcccaa gtgtcatgaa aaagtttcta tggattgctt attggcatat ggttgggctt3241 ttaaataagt tgttattaga aatatatgtt aatatataac tttgccaggt accacggctc3301 acgcctgtat cccagcactt tggaaggctg aggcgggtgg atcacaaggt caggagttca3361 agaccagcct ggccaacatg gtgtaacgct gtctctacta aaaatacaaa aaattagcca3421 ggcatggtgg tgtgtgacta taatcccagc tactcgggag gctgagacag gagaatcact3481 tgaacccggg aggtggcagt tgcagggagc taagatcgcg ccattgcact ccagcctggg3541 cggcagagca agactccgtc tcgggaaaaa aaaaaaaaaa aaa

1 gaattccggg ccgggagaac cgaacccctg gcggccgcga ccccggctcc cgccccggcc 61 ccggcccgac ccgccatgac ggggctggag gaccaggagt tcgacttcga gttcctcttc121 gagtttaacc agcgcgacga gggcgccgcc gcggccgccc cagaacacta tggctatgca181 721 acactgctga gttccccgcg gcactccccc tccacctcgc cccgcgccag cgtcactgag 781 181 tcctccaacg tcagccccgc cctgccgctc cccacggcgc actccaccct gccggccccg241 tgccacaacc ttcagacctc cacaccgggc atcatcccgc cggcggatca cccctcgggg301 tacggagcag ctttggacgg tgggcctgcg ggctacttcc tctcctccgg ccacaccagg361 cctgatgggg cccctgccct ggagagtcct cgcatcgaga taacctcgtg cttgggcctg421 taccacaaca ataaccagtt tttccacgat gtggaggtgg aagacgtcct ccctagctcc481 aaacggtccc cctccacggc cacgctgagt ctgcccagcc tggaggccta cagagacccc541 tcgtgcctga gcccggccag cagcctgtcc tcccggagct gcaactcaga ggcctcctcc601 tacgagtcca actactcgta cccgtacgcg tccccccaga cgtcgccatg gcagtctccc 661 tgcgtgtctc ccaagaccac ggaccccgag gagggctttc cccgcgggct gggggcctgc 721 acactgctga gttccccgcg gcactccccc tccacctcgc cccgcgccag cgtcactgag 781 gagagctggc tgggtgcccg ctcctccaga cccgcgtccc cttgcaacaa gaggaagtac 841 agcctcaacg gccggcagcc gccctactca ccccaccact cgcccacgcc atccccgcac 901 ggctccccgc gggtcagcgt gaccgacgac tcgtggttgg gcaacaccac ccagtacacc 961 agctcggcca tcgtggccgc catcaacgcg ctgaccaccg acagcagcct ggacctggga1021 gatggcgtcc ctgtcaagtc ccgcaagacc accctggagc agccgccctc agtggcgctc1081 aaggtggagc ccgtcgggga ggacctgggc agccccccgc ccccggccga cttcgcgccc1141 gaagactact cctctttcca gcacatcagg aagggcggct tctgcgacca gtacctggcg1201 gtgccgcagc acccctacca gtgggcgaag cccaagcccc tgtcccctac gtcctacatg1261 agcccgaccc tgcccgccct ggactggcag ctgccgtccc actcaggccc gtatgagctt1321 cggattgagg tgcagcccaa gtcccaccac cgagcccact acgagacgga gggcagccgg1381 ggggccgtga aggcgtcggc cggaggacac cccatcgtgc agctgcatgg ctacttggag1441 aatgagccgc tgatgctgca gcttttcatt gggacggcgg acgaccgcct gctgcgcccg1501 cacgccttct accaggtgca ccgcatcaca gggaagaccg tgtccaccac cagccacgag1561 gccatcctct ccaacaccaa agtcctggag atcccactcc tgccggagaa cagcatgcga1621 gccgtcattg actgtgccgg aatcctgaaa ctcagaaact ccgacattga acttcggaaa1681 ggagagacgg acatcgggag gaagaacaca cgggtacggc tggtgttccg cgttcacgtc1741 ccgcaaccca gcggccgcac gctgtccctg caggtggcct ccaaccccat cgaatgctcc1801 cagcgctcag ctcaggagct gcctctggtg gagaagcaga gcacggacag ctatccggtc1861 gtgggcggga agaagatggt cctgtctggc cacaacttcc tgcaggactc caaggtcatt1921 ttcgtggaga aagccccaga tggccaccat gtctgggaga tggaagcgaa aactgaccgg1981 gacctgtgca agccgaattc tctggtggtt gagatcccgc cgtttcggaa tcagaggata2041 accagccccg ttcacgtcag tttctacgtc tgcaacggga agagaaagcg aagccagtac2101 cagcgtttca cctaccttcc cgccaacgtt ccaattataa aaacagaacc cactgatgat2161 tatgagcctg ctccaacctg tggaccggtg agccaggggt taagtcctct cccaagacca2221 tactacagcc agcagctcgc gatgccaccc gaccccagct cctgcctcgt ggccggcttc2281 ccgccctgtc cgcagagaag caccctgatg ccagcggccc ctggcgtgag ccccaagctc2341 cacgaccttt ctcccgctgc ctacaccaag ggcgttgcca gcccgggcca ctgtcacctc2401 ggactcccgc agccggccgg agaggccccc gccgtccagg acgtgcccag gccagtggcc2461 acgcaccccg gctcgcccgg gcagccaccc ccggccctgc tgccacagca gtaaatgaaa2521 taatacgaaa tgacctctcc agcacgagca cccactccta gttgccacat tggagcactc2581 agttcagcag gggtatgctg acttcagcag acaaagactt ttgaataaat aaactgaact2641 cacacctggt accactcaga acctccaact gactgaatgc caggagctga acattaatat2701 gtgcaaagat tggctctcca acaagaagga aagcagggag gaagggagac cactgtgtcg2761 cctggaggag aagtcatctc atgacaacag aagggaggtg gccgggctga gcacggagac2821 ccaccgtgca ggggcctttc atgggaacgg cccacacgca gtttgacccc acgcccagcc2881 cttctggcac ccctggggtt caatactgga agtgccttat ttaaccagac catca (2) SEQ ID NO: 2753 data: (i) sequence characteristics:

(A) length: 261 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2753 sequence description: 1 gaattcccaa ggcgcccccg accgcctgct acgcgggggc cgcgccggcg ccctcgcagg 61 tcaagagcaa ggccaagaag accgtggaca agcacagcga cgagtacaag atccggcgcg121 agcgcaacaa catcgccgtg cgcaagagcc gcgacaaggc caagatgcgc aacctggaga181 cgcagcacaa ggtcctggag ctcacggccg agaacgagcg gctgcagaag aaggtggagc241 agctgtcgcg cgagggaatt c (2) SEQ ID NO: 2754 materials: (i) sequence characteristics: length (A): 1910 base pairs (B) type: nucleic acid (C) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2754 sequence description: 1 gtccttcgcg tcccggcggc gcggcggagg ggccggcgtg acgcagcggt tgctacgggc 61 cgcccttata aataaccggg ctcaggagaa actttagcga gtcagagccg cgcacgggac 121 tgggaagggg acccacccga gggtccagcc accagccccc tcactaatag cggccacccc 181 721 cctggggcgc ctgggggctg ccaagggcgc gctgcacccc ggctgcttcg cgcccctgca 781 181 ggcagcggcg gcagcagcag cagcgacgca gcggcgacag ctcagagcag ggaggccgcg 241 cacctgcggg ccggccggag cgggcagccc caggccccct ccccgggcac ccgcgttcat 301 gcaacgcctg gtggcctggg acccagcatg tctccccctg ccgccgccgc cgcctgcctt 361 taaatccatg gaagtggcca acttctacta cgaggcggac tgcttggctg ctgcgtacgg 421 cggcaaggcg gcccccgcgg cgccccccgc ggccagaccc gggccgcgcc cccccgccgg 481 cgagctgggc agcatcggcg accacgagcg cgccatcgac ttcagcccgt acctggagcc 541 gctgggcgcg ccgcaggccc cggcgcccgc cacggccacg gacaccttcg aggcggctcc 601 gcccgcgccc gcccccgcgc ccgcctcctc cgggcagcac cacgacttcc tctccgacct 661 cttctccgac gactacgggg gcaagaactg caagaagccg gccgagtacg gctacgtgag 721 cctggggcgc ctgggggctg ccaagggcgc gctgcacccc ggctgcttcg cgcccctgca 781 cccaccgccc ccgccgccgc cgccgcccgc cgagctcaag gcggagccgg gcttcgagcc 841 cgcggactgc aagcggaagg aggaggccgg ggcgccgggc ggcggcgcag gcatggcggc 901 gggcttcccg tacgcgctgc gcgcttacct cggctaccag gcggtgccga gcggcagcag 961 cgggagcctc tccacgtcct cctcgtccag cccgcccggc acgccgagcc ccgctgacgc1021 caaggccccc ccgaccgcct gctacgcggg ggccgggccg gcgccctcgc aggtcaagag1081 caaggccaag aagaccgtgg acaagcacag cgacgagtac aagatccggc gcgagcgcaa1141 caacatcgcc gtgcgcaaga gccgcgacaa ggccaagatg cgcaacctgg agacgcagca1201 caaggtcctg gagctcacgg ccgagaacga gcggctgcag aagaaggtgg agcagctgtc1261 gcgcgagctc agcaccctgc ggaacttgtt caagcagctg cccgagcccc tgctcgcctc1321 ctccggccac tgctagcgcg gcccccgcgg cgtccccctg gggccggccg gggctgagac1381 tccggggagc gcccgcgccc gcgccctcgc ccccccccccc nnccgcaa aacttggca 1441 ctggggcact tggcagcngg ggagcccgtc ggtaatttta atattttatt atatatatat1501 atctatattt tgccaaccaa ccgtacatgc agatggctcc cgcccgtggt gtataaagaa1561 gaaatgtcta tgtgtacaga tgaatgataa actctctgct ctccctctgc ccctctccag1621 gcccggcggg cggggccggt ttcgaagttg atgcaatcgg tttaaacatg gctgaacgcg1681 tgtgtacacg ggactgacgc aacccacgtg taactgtcag ccgggccctg agtaatcgct1741 taaagatgtt ctagggcttg ttgctgttga tgttttgttt tgttttgttt tttggtcttt1801 361801 1801 ttttgtatta taaaaaataa tctatttcta tgagaaaaga ggcgtctgta tattttggga1861 atcttttccg tttcaagcaa ttaagaacac ttttaataaa cttttttttg (2) SEQ ID NO: 2755 materials: (i) sequence characteristics:

(A) length: 2171 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2755 sequence description: 1 gaattcccaa ggcgcccccg accgcctgct acgcgggggc cgcgccggcg ccctcgcagg 61 tcaagagcaa ggccaagaag accgtggaca agcacagcga cgagtacaag atccggcgcg121 982 cctggggcgc ctgggggctg ccaagggcgc gctgcacccc ggctgcttcg cgcccctgca1042 121 agcgcaacaa catcgccgtg cgcaagagcc gcgacaaggc caagatgcgc aacctggaga181 cgcagcacaa ggtcctggag ctcacggccg agaacgagcg gctgcagaag aaggtggagc241 agctgtcgcg cgagggaatt c262 gtccttcgcg tcccggcggc gcggcggagg ggccggcgtg acgcagcggt tgctacgggc322 cgcccttata aataaccggg ctcaggagaa actttagcga gtcagagccg cgcacgggac382 tgggaagggg acccacccga gggtccagcc accagccccc tcactaatag cggccacccc442 ggcagcggcg gcagcagcag cagcgacgca gcggcgacag ctcagagcag ggaggccgcg502 cacctgcggg ccggccggag cgggcagccc caggccccct ccccgggcac ccgcgttcat562 gcaacgcctg gtggcctggg acccagcatg tctccccctg ccgccgccgc cgcctgcctt622 taaatccatg gaagtggcca acttctacta cgaggcggac tgcttggctg ctgcgtacgg682 cggcaaggcg gcccccgcgg cgccccccgc ggccagaccc gggccgcgcc cccccgccgg 742 cgagctgggc agcatcggcg accacgagcg cgccatcgac ttcagcccgt acctggagcc 802 gctgggcgcg ccgcaggccc cggcgcccgc cacggccacg gacaccttcg aggcggctcc 862 gcccgcgccc gcccccgcgc ccgcctcctc cgggcagcac cacgacttcc tctccgacct 922 cttctccgac gactacgggg gcaagaactg caagaagccg gccgagtacg gctacgtgag 982 cctggggcgc ctgggggctg ccaagggcgc gctgcacccc ggctgcttcg cgcccctgca1042 cccaccgccc ccgccgccgc cgccgcccgc cgagctcaag gcggagccgg gcttcgagcc1102 cgcggactgc aagcggaagg aggaggccgg ggcgccgggc ggcggcgcag gcatggcggc1162 gggcttcccg tacgcgctgc gcgcttacct cggctaccag gcggtgccga gcggcagcag1222 cgggagcctc tccacgtcct cctcgtccag cccgcccggc acgccgagcc ccgctgacgc1282 caaggccccc ccgaccgcct gctacgcggg ggccgggccg gcgccctcgc aggtcaagag1342 caaggccaag aagaccgtgg acaagcacag cgacgagtac aagatccggc gcgagcgcaa1402 caacatcgcc gtgcgcaaga gccgcgacaa ggccaagatg cgcaacctgg agacgcagca1462 caaggtcctg gagctcacgg ccgagaacga gcggctgcag aagaaggtgg agcagctgtc1522 gcgcgagctc agcaccctgc ggaacttgtt caagcagctg cccgagcccc tgctcgcctc1582 ctccggccac tgctagcgcg gcccccgcgg cgtccccctg gggccggccg gggctgagac1642 tccggggagc gcccgcgccc gcgccctcgc ccccccccncccncccncgcaa aacttggca 1702 ctggggcact tggcagcngg ggagcccgtc ggtaatttta atattttatt atatatatat1762 atctatattt tgccaaccaa ccgtacatgc agatggctcc cgcccgtggt gtataaagaa1822 gaaatgtcta tgtgtacaga tgaatgataa actctctgct ctccctctgc ccctctccag1882 gcccggcggg cggggccggt ttcgaagttg atgcaatcgg tttaaacatg gctgaacgcg1942 tgtgtacacg ggactgacgc aacccacgtg taactgtcag ccgggccctg agtaatcgct2002 taaagatgtt ctagggcttg ttgctgttga tgttttgttt tgttttgttt tttggtcttt2062 ttttgtatta taaaaaataa tctatttcta tgagaaaaga ggcgtctgta tattttggga2122 atcttttccg tttcaagcaa ttaagaacac ttttaataaa cttttttttg (2) SEQ ID NO: 2756 materials: (i) sequence characteristics:

(A) length: 2426 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2756 sequence description: 1 gaccagagca atttctgctt ttcacagggc gggtttctca acggtgactt gtgggcagtg 61 ccttctgctg agcgagtcat ggcccgaagg cagaactaac tgtgcctgca gtcttcactc121 tcaggatgca gccgaggtgg gcccaagggg ccacgatgtg gcttggagtc ctgctgaccc181 721 accgcgtttt atccttccga tgtcaagcta ggatcatttc tgggatccat atgcagacct781 181 ttctgctctg ttcaagcctt gagggtcaag aaaactcttt cacaatcaac agtgttgaca241 tgaagagcct gccggactgg acggtgcaaa atgggaagaa cctgaccctg cagtgcttcg301 cggatgtcag caccacctct cacgtcaagc ctcagcacca gatgctgttc tataaggatg361 acgtgctgtt ttacaacatc tcctccatga agagcacaga gagttatttt attcctgaag421 tccggatcta tgactcaggg acatataaat gtactgtgat tgtgaacaac aaagagaaaa481 ccactgcaga gtaccaggtg ttggtggaag gagtgcccag tcccagggtg acactggaca541 agaaagaggc catccaaggt gggatcgtga gggtcaactg ttctgtccca gaggaaaagg601 ccccaataca cttcacaatt gaaaaacttg aactaaatga aaaaatggtc aagctgaaaa661 gagagaagaa ttctcgagac cagaattttg tgatactgga attccccgtt gaggaacagg721 accgcgtttt atccttccga tgtcaagcta ggatcatttc tgggatccat atgcagacct781 cagaatctac caagagtgaa ctggtcaccg tgacggaatc cttctctaca cccaagttcc 841 acatcagccc caccggaatg atcatggaag gagctcagct ccacattaag tgcaccattc 901 aagtgactca cctggcccag gagtttccag aaatcataat tcagaaggac aaggcgattg 961 tggcccacaa cagacatggc aacaaggctg tgtactcagt catggccatg gtggagcaca1021 gtggcaacta cacgtgcaaa gtggagtcca gccgcatatc caaggtcagc agcatcgtgg1081 tcaacataac agaactattt tccaagcccg aactggaatc ttccttcaca catctggacc1141 aaggtgaaag actgaacctg tcctgctcca tcccaggagc acctccagcc aacttcacca1201 tccagaagga agatacgatt gtgtcacaga ctcaagattt caccaagata gcctcaaagt1261 cggacagtgg gacgtatatc tgcactgcag gtattgacaa agtggtcaag aaaagcaaca1321 cagtccagat agtcgtatgt gaaatgctct cccagcccag gatttcttat gatgcccagt1381 ttgaggtcat aaaaggacag accatcgaag tccgttgcga atcgatcagt ggaactttgc1441 ctatttctta ccaactttta aaaacaagta aagttttgga gaatagtacc aagaactcaa1501 atgatcctgc ggtattcaaa gacaacccca ctgaagacgt cgaataccag tgtgttgcag1561 ataattgcca ttcccacgcc aaaatgttaa gtgaggttct gagggtgaag gtgatagccc1621 cggtggatga ggtccagatt tctatcctgt caagtaaggt ggtggagtct ggagaggaca1681 ttgtgctgca atgtgctgtg aatgaaggat ctggtcccat cacctataag ttttacagag1741 aaaaagaggg caaacccttc tatcaaatga cctcaaatgc cacccaggca ttttggacca1801 agcagaaggc taacaaggaa caggagggag agtattactg cacagccttc aacagagcca1861 accacgcctc cagtgtcccc agaagcaaaa tactgacagt cagagtcatt cttgccccat1921 ggaagaaagg acttattgca gtggttatca tcggagtgat cattgctctc ttgatcattg1981 cggccaaatg ttattttctg aggaaagcca aggccaagca gatgccagtg gaaatgtcca2041 ggccagcagt accacttctg aactccaaca acgagaaaat gtcagatccc aatatggaag2101 ctaacagtca ttacggtcac aatgacgatg tcggaaacca tgcaatgaaa ccaataaatg2161 ataataaaga gcctctgaac tcagacgtgc agtacacgga agttcaagtg tcctcagctg2221 agtctcacaa agatctagga aagaaggaca cagagacagt gtacagtgaa gtccggaaag2281 ctgtccctga tgccgtggaa agcagatact ctagaacgga aggctccctt gatggaactt2341 agacagcaag gccagatgca catccctgga aggacatcca tgttccgaga agaacagatg2401 atccctgtat ttcaagacct ctgtcc (2) SEQ ID NO: 2757 data: (i) sequence characteristics:

(A) length: 2557 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2757 sequence description: 1 gaattccggg agaagtgacc agagcaattt ctgcttttca cagggcgggt ttctcaacgg 61 tgacttgtgg gcagtgcctt ctgctgagcg agtcatggcc cgaaggcaga actaactgtg121 cctgcagtct tcactctcag gatgcagccg aggtgggccc aaggggccac gatgtggctt181 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 181 ggagtcctgc tgacccttct gctctgttca agccttgagg gtcaagaaaa ctctttcaca241 atcaacagtg ttgacatgaa gagcctgccg gactggacgg tgcaaaatgg gaagaacctg301 accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca gcaccagatg361 ctgttctata aggatgacgt gctgttttac aacatctcct ccatgaagag cacagagagt421 tattttattc ctgaagtccg gatctatgac tcagggacat ataaatgtac tgtgattgtg 481 aacaacaaag agaaaaccac tgcagagtac cagctgttgg tggaaggagt gcccagtccc 541 agggtgacac tggacaagaa agaggccatc caaggtggga tcgtgagggt caactgttct 601 gtcccagagg aaaaggcccc aatacacttc acaattgaaa aacttgaact aaatgaaaaa 661 atggtcaagc tgaaaagaga gaagaattct cgagaccaga attttgtgat actggaattc 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 atccatatgc agacctcaga atctaccaag agtgaactgg tcaccgtgac ggaatccttc 841 tctacaccca agttccacat cagccccacc ggaatgatca tggaaggagc tcagctccac 901 attaagtgca ccattcaagt gactcacctg gcccaggagt ttccagaaat cataattcag 961 aaggacaagg cgattgtggc ccacaacaga catggcaaca aggctgtgta ctcagtcatg1021 gccatggtgg agcacagtgg caactacacg tgcaaagtgg agtccagccg catatccaag1081 gtcagcagca tcgtggtcaa cataacagaa ctattttcca agcccgaact ggaatcttcc1141 ttcacacatc tggaccaagg tgaaagactg aacctgtcct gctccatccc aggagcacct1201 ccagccaact tcaccatcca gaaggaagat acgattgtgt cacagactca agatttcacc1261 aagatagcct caaagtcgga cagtgggacg tatatctgca ctgcaggtat tgacaaagtg1321 gtcaagaaaa gcaacacagt ccagatagtc gtatgtgaaa tgctctccca gcccaggatt1381 tcttatgatg cccagtttga ggtcataaaa ggacagacca tcgaagtccg ttgcgaatcg1441 atcagtggaa ctttgcctat ttcttaccaa cttttaaaaa caagtaaagt tttggagaat1501 agtaccaaga actcaaatga tcctgcggta ttcaaagaca accccactgaagacgtcgaa1561 taccagtgtg ttgcagataa ttgccattcc catgccaaaa tgttaagtga ggttctgagg1621 gtgaaggtga tagccccggt ggatgaggtc cagatttcta tcctgtcaag taaggtggtg1681 gagtctggag aggacattgt gctgcaatgt gctgtgaatg aaggatctgg tcccatcacc1741 tataagtttt acagagaaaa agagggcaaa cccttctatc aaatgacctc aaatgccacc1801 caggcatttt ggaccaagca gaaggctagc aaggaacagg agggagagta ttactgcaca1861 gccttcaaca gagccaacca cgcctccagt gtccccagaa gcaaaatact gacagtcaga1921 gtcattcttg ccccatggaa gaaaggactt attgcagtgg ttatcatcgg agtgatcatt1981 gctctcttga tcattgcggc caaatgttat tttctgagga aagccaaggc caagcagatg2041 ccagtggaaa tgtccaggcc agcagtacca cttctgaact ccaacaacga gaaaatgtca2101 gatcccaata tggaagctaa cagtcattac ggtcacaatg acgatgtcag aaaccatgca2161 atgaaaccaa taaatgataa taaagagcct ctgaactcag acgtgcagta cacggaagtt2221 caagtgtcct cagctgagtc tcacaaagat ctaggaaaga aggacacaga gacagtgtac2281 agtgaagtcc ggaaagctgt ccctgatgcc gtggaaagca gatactctag aacggaaggc2341 tcccttgatg gaacttagac agcaaggcca gatgcacatc cctggaagga catccatgtt2401 ccgagaagaa cagataatcc ctgtatttca agacctctgt gcacttattt atgaacctgc2461 cctgctccca cagaacacag caattcctca ggctaagctg ccggttctta aatccatcct2521 gctaagttaa tgttgggtag aaagagatac agagggg (2) SEQ ID NO: 2758 materials:

(i) sequence characteristics: (A) length: 1560 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2758 sequence description: 1 cccgggttca agcgattctc ctgcctcagc ctcttgggta gctgggatta taggcgtgtg 61 ccaccgtgcc tggctaattt ttgtattttt attggagaca gggtttcacc atgttggcca 121 ggctggtctg aaactcctga cctcaggcaa tcctcctacc tcagcctctc aaagtgctgg 181 721 tgtatgttct tcttctatct tacatctttt gcttttgcta ttgcttaagc tagcctacgc 781 181 gattaccggc atgagccacg actcccggcc ccaaaggtca atcttaaagc tacaaggtat 241 cttttaaaag gagtaggaat aacgtatttt gaggcttaaa ggagtaggaa tagtgtattt 301 ttagatttga agccatcttc taaagggtac gatatttggt taacatgtca ctccttatcg 361 ccatggaaga agttaattct attctttttt tttttttttt gagatggagt ctcactctgt 421 tgcccaggct ggagtacaat ggtgtgatct cagctcactg caacctctgc ctcctgggtt 481 caagcaattc tcctgcctca gcctcctgag tagcagggat tacaggggtt ctccaccatg 541 cctgtctaat ttttgtattt ttttttttag tagaggtgga gtttcaccat gttggtcagg 601 ctggtctcaa acccctaacc tcatgatccg cccgccttgg cctcccaaag tgctgggatt 661 acaggcgtga gccaccatgc ccagccgtta attctattct tactgcttac tcccttattt 721 tgtatgttct tcttctatct tacatctttt gcttttgcta ttgcttaagc tagcctacgc 781 caagggtgct ctttgccccc tacttcctct gctattctcg cctcagttcc gctgcattcc 841 aagctcagcc tgccccagca gcaggtctct ttgacaaacc tgcaattttg gggaaaagtc 901 agccccaaga aaggcagggg gcccagactt atgctgtgtg gcaaaagccc tctttgatgg 961 gggaagggga ggactggaaa agcagagaga tctttctgga tgtcctggga gagcagccct1021 ttgggtggtg ggtggaggct ggaggcaggg aggaatcccc tcacagtgcc atgagaaggg1081 cccccaaacc caggcgagac agagggaggg tcaagaacgc caaggcaaat gtcacttgtg1141 ccttgttttt tccctaaaga aactaaacaa agcggccgcg ttcggtggcc cctcaggaag1201 gccggtcatt tcctgaggag atatcaggcc agcccaggcc ccattgttcc cggtttccag1261 ccatggctgc cattacctga ccagcgccac agccggtctc tctgcaggcg ccgggagaag1321 tgaccagagc aatttctgct tttcacaggg cgggtttctc aacggtgact tgtgggcagt1381 gccttctgct gagcgagtca tggcccgaag gcagaactaa ctgtgcctgc agtcttcact1441 ctcaggatgc agccgaggtg ggcccaaggg gccacgatgt ggcttggagt cctgctgacc1501 cttctgctct gtgagtgttt actctgtttc cacatcactt taactccatg agcatcgaag (2) SEQ ID NO: 2759 materials: (i) sequence characteristics:

(A) length: 2537 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2759 sequence description: 1 gaattccggg agaagtgacc agagcaattt ctgcttttca cagggcgggt ttctcaacgg 61 tgacttgtgg gcagtgcctt ctgctgagcg agtcatggcc cgaaggcaga actaactgtg121 cctgcagtct tcactctcag gatgcagccg aggtgggccc aaggggccac gatgtggctt181 ggagtcctgc tgacccttct gctctgttca agccttgagg gtcaagaaaa ctctttcaca241 atcaacagtg ttgacatgaa gagcctgccg gactggacgg tgcaaaatgg gaagaacctg301 accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca gcaccagatg361 ctgttctata aggatgacgt gctgttttac aacatctcct ccatgaagag cacagagagt421 tattttattc ctgaagtccg gatctatgac tcagggacat ataaatgtac tgtgattgtg 481 aacaacaaag agaaaaccac tgcagagtac cagctgttgg tggaaggagt gcccagtccc 541 agggtgacac tggacaagaa agaggccatc caaggtggga tcgtgagggt caactgttct 601 gtcccagagg aaaaggcccc aatacacttc acaattgaaa aacttgaact aaatgaaaaa 881 atggtcaagc tgaaaagaga gaagaattct cgagaccaga attttgtgat actggaattc 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 781 atccatatgc agacctcaga atctaccaag agtgaactgg tcaccgtgac ggaatccttc 841 tctacaccca agttccacat cagccccacc ggaatgatca tggaaggagc tcagctccac 901 attaagtgca ccattcaagt gactcacctg gcccaggagt ttccagaaat cataattcag 961 aaggacaagg cgattgtggc ccacaacaga catggcaaca aggctgtgta ctcagtcatg1021 gccatggtgg agcacagtgg caactacacg tgcaaagtgg agtccagccg catatccaag1081 gtcagcagca tcgtggtcaa cataacagaa ctattttcca agcccgaact ggaatcttcc1141 ttcacacatc tggaccaagg tgaaagactg aacctgtcct gctccatccc aggagcacct1201 ccagccaact tcaccatcca gaaggaagat acgattgtgt cacagactca agatttcacc1281 aagatagcct caaagtcgga cagtgggacg tatatctgca ctgcaggtat tgacaaagtg1321 13248 1321 gtcaagaaaa gcaacacagt ccagatagtc gtatgtgaaa tgctctccca gcccaggatt1381 tcttatgatg cccagtttga ggtcataaaa ggacagacca tcgaagtccg ttgcgaatcg1441 atcagtggaa ctttgcctat ttcttaccaa cttttaaaaa caagtaaagt tttggagaat1501 agtaccaaga actcaaatga tcctgcggta ttcaaagaca accccactga agacgtcgaa1561 taccagtgtg ttgcagataa ttgccattcc catgccaaaa tgttaagtga ggttctgagg1621 gtgaaggtga tagccccggt ggatgaggtc cagatttcta tcctgtcaag taaggtggtg1681 gagtctggag aggacattgt gctgcaatgt gctgtgaatg aaggatctgg tcccatcacc1741 tataagtttt acagagaaaa agagggcaaa cccttctatc aaatgacctc aaatgccacc1801 caggcatttt ggaccaagca gaaggctagc aaggaacagg agggagagta ttactgcaca1861 gccttcaaca gagccaacca cgcctccagt gtccccagaa gcaaaatact gacagtcaga1921 gtcattcttg ccccatggaa gaaaggactt attgcagtgg ttatcatcgg agtgatcatt1981 gctctcttga tcattgcggc caaatgttat tttctgagga aagccaaggc caagcagatg2041 ccagtggaaa tgtccaggcc agcagtacca cttctgaact ccaacaacga gaaaatgtca2101 gatcccaata tggaagctaa cagtcattac ggtcacaatg acgatgtcag aaaccatgca2161 atgaaaccaa taaatgataa taaagagcct ctgaactcag acgtgcagta cacggaagtt2221 caagtgtcct cagctgagtc tcacaaagat ctaggaaaga aggacacaga gacagtgtac2281 agtgaagtcc ggaaagctgt ccctgatgcc gtggaaagca gatactctag aacggaaggc2341 tcccttgatg gaacttagac agcaaggcca gatgcacatc cctggaagga catccatgtt2401 ccgagaagaa cagataatcc ctgtatttca agacctctgt gcacttattt atgaacctgc2461 cctgctccca cagaacacag caattcctca ggctaagctg ccggttctta aatccatcct2521 gctaagttaa tgttgggtag aaagagatac agagggg (2) SEQ ID NO: 2760 materials: (i) sequence characteristics:

(A) length: 1438 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2760 sequence description: 1 tcttttggtt ttgctattgc ttaagctagc ctacgccaag ggtgctcttt gccccctact 61 tcctctgcta ttctcgcctc agttccgctg cattccaagc tcagcctgcc ccagcagcag121 gtctctttga caaacctgca attttgggga aaagtcagcc caagaaaggc agggggccca181 721 gccacgatgt ggcttggagt cctgctgacc cttctgctct gtgagtgttt actctgtttc781 181 gacttatgct gtgtggcaaa agccctcttt gatggggcaa gggtaggact ggaaaagcag241 agagatcttt ctggatgtcc tgggagagca gccctttggg tggtgggtgg aggctggagg301 cagggaggaa tcccctcaca gtgagaaggg cccccaaacc caggcgagac agagggaggg361 tcaagaacgc caaggcaaat gtcacttgtg ccttgttttt tccctaaaga aactaaacaa421 agcggccgcg ttcggtggcc cctcaggaag gccggtcatt tcctgaggag atatcaggcc481 agcccaggcc ccattgttcc cggtttccag ccatggctgc cattacctga ccagcgccac541 agccggtctc tctgcaggcg ccgggagaag tgaccagagc aatttctgct tttcacaggg801 cgggtttctc aacggtgact tgtgggcagt gccttctgct gagcgagtca tggcccgaag681 gcagaactaa ctgtgcctgc agtcttcact ctcaggatgc agccgaggtg ggcccaaggg721 gccacgatgt ggcttggagt cctgctgacc cttctgctct gtgagtgttt actctgtttc781 cacatcactt taactccatg agcatcgaag cttctggaat caacatgttt cttatgtttc841 ttgcaggttc aagccttgag ggtcaagaaa actgtaagtc tgatgtttcc actgtaacag 901 atgtttctac ctggcttcct cctttctctt ctgtgatgcc taaaacgcac attaaattgc 961 tggggtttga tacttctaac aattaaggaa aagaatccaa ttgagaacta aagtttatcc1021 catgtgggca tttttagaaa ggcttagatc taagccaagt tctggtcagt gtgttttaga1081 agtagcacac gtttccttgg ctggtctgaa agtagtgggt tatcttgatg aattgtttag1141 tcagttacag atcaaactcc atgttctttt ctctgttctc acgactactc ttgactagtc1201 taaaaatata ttaggttgtt gaaaagtaat tgtggttttt gccattactt tttaaaagat1261 ggcaaaaaac acaattataa gtagcacaca ttttcttttt tttttccttt tttttttgag1321 acagagtctc tgttacccag gctggagtgc agtggtgcaa tccggctctc tgcaaactcc1381 gcctccaggg ttcaagggat tctcctgtct cagcctcctg ggtcgctgga attagagg (2) SEQ ID NO: 2761 materials: (i) sequence characteristics:

(A) length: 350 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2761 sequence description: 1 ttggcaggct ggtctcaaac tcctgacctc aggtgatccg ctggcctcca cctcccaaag 61 tgctgggatt acaggtgtga gccaccacgc ccggcctcac attttctaga tttcagtgca121 ttgctgtttt ttgggatggg gaagtgattt ttttatttta atgagcaatt ccataattag181 ttttttgttg ttttaccata atggcttatt tgaatattgt aaggtatccc caactgtttt241 tatttgcaaa tgagatataa ttgatttgtt agacatatga agacagatcc tagtttaaat301 tgttgctact ttttttactc ctaaatgata aaaatcacac actcgagctc (2) SEQ ID NO: 2762 materials: (i) sequence characteristics:

(A) length: 350 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2762 sequence description: 1 ttggcaggct ggtctcaaac tcctgacctc aggtgatccg ctggcctcca cctcccaaag 61 tgctgggatt acaggtgtga gccaccacgc ccggcctcac attttctaga tttcagtgca121 ttgctgtttt ttgggatggg gaagtgattt ttttatttta atgagcaatt ccataattag181 ttttttgttg ttttaccata atggcttatt tgaatattgt aaggtatccc caactgtttt241 tatttgcaaa tgagatataa ttgatttgtt agacatatga agacagatcc tagtttaaat301 tgttgctact ttttttactc ctaaatgata aaaatcacac actcgagctc (2) SEQ ID NO: 2763 materials: (i) sequence characteristics:

(A) length: 265 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2763 sequence description: 1 gctgtcccac agcccaccct tcatcacaat agtcctgaaa ctttttgggt tcagtaagga 61 aatctgtggg ccttctctcc agaaaaagca cacatttgca cacaattgga ggtagttgat121 gagcctccta acacccaccc atgcacctcc caggggctgt gtcccccagg ttgtgaacag181 tcactctgtg taaatagtga gacctacagg cagtaattca gtttggctgt gcttggctgg241 tttatttaga aagatgataa tgttt (2) SEQ ID NO: 2764 data: (i) sequence characteristics:

(A) length: 168 base pairs (B) type: nucleic acid (C) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2764 sequence description: 1 gagctctcca agggcagaca ctgccagcct cactgttctc tgaaccccca gtatgggaca 61 gtgcttggca cagaaaaacc cccttaaatg tttgctatga atggtgctaa ggaagaaggc121 agagaatgtc aaccagaggc caggcactgg caatatatac acggcccc (2) SEQ ID NO: 2765 data: (i) sequence characteristics:

(A) length: 243 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2765 sequence description: 1 ataccttggc tcactgcaac ctctgcctcc caggttcaag cagttctcct gcctcagtct 61 cccaagtagc tgggattaca ggcgcccacc accacacccg gctaattttg tatttttagt121 agagatgagg tttcaccatg ttggccaggc tggtcttgaa ctcctgacct caagtgatcc181 acccgcctcg gcctcccaaa gtgctgggat tacaggcata aaccaccgtg cccggctggt241 cca (2) SEQ ID NO: 2766 materials: (i) sequence characteristics:

(A) length: 272 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2766 sequence description: 1 gagctcatcc agcaggcttc ttaaatcagg agcttgtaag ttgcatataa agacaaaaaa 61 gggagttcca aagagtaatg ctgtgggaaa tgacttgaat ttaaaccgtc accttgtttg121 atctcatgga ctggtcagac accatttttg ttgtcgttgt tgttgttaaa ttaattgctc181 agaatatagc agcaggcgca aattgtagta ctcgttttaa aattgaagat taaattttaa241 attacccaac aaaggcctaa ctttgttaaa ag (2) SEQ ID NO: 2767 data: (i) sequence characteristics:

(A) length: 4308 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2767 sequence description: 1 gaattctacc gacagcctat ggttactgga tataagccaa ttctgttctg gggacttgcc 61 agaaatgaca caattggcca gttgacccac agcctagttc ctagcagaga ttggatagct121 gattgagcgt tgtggctgtt ttgaggcttg accagagatt cctgccgttg gcagagggga181 atctgtagtc tttgcttctt ggtagcaggt gaggctgaaa acgcaagtag caggctaaaa241 actggtttca agtcctcacc atctggtgaa acctcagagc ccatcagata gaaaatgcca301 gctgggactg tgctaattcg gtaaggcctg ggtggagaag gagggcctgg gcacgaccat361 ctggtttcgg aatggaggta gcagtcattt attaagtact taatgtatat cgggcactgt421 acaggagacg ttctggctgt tctcctgtac atttcctgca aagacctaat gagatatgat481 tactccatcc tacaggtaag gaaactgagc tcagagagtc tagctgccca gggtcacaca541 gtaaatgatg agccaggact tgaacacttg actgcttgaa tcctgtactc cctccagggg601 ccaagatgtg gcagctcaca gaatgcctat atcttttttt ttttttgtct tttgagacag661 tctcactctg ttgcccaggc tggagtgcag tggtgagatc tcacctcact gcaacccccg721 cctcccaggt tcaagtgatt cttgtgcctc agcctctcaa gtagctgggt tacaggcctg781 caccaccaaa cctggctaat ttttgtattt ttagtagaga gggggtttca ccatgttggc 841 caggccagtc tctaactgct gacctcaggt gatccaccca ccttggtctc ccaaagtgct 901 gggattatag gcgtgagcca ccatacctag ctctacatct ttatcactct gttcctttgc 961 cttggtggga aaagttgcag cttagtacca actgcctcct gcttgagcca ctgtgcacag1021 ttactatcag cctggccctg taggcacgta gaacccctgg actcaatact gcataggatg1081 ggataagacc acatctgatg tggtgaaggt caccgggatg atgttgtttc tgagataaca1141 ggtatgtctg ccttccttcg ggttgcattt agctttcaca atcaacagtg ttgacatgaa1201 gagcctgccg gactggacgg tgcaaaatgg gaagaacctg accctgcagt gcttcgcgga1261 tgtcagcacc acctctcacg tcaagcctca gcaccagatg ctgttctata aggatgacgt1321 gctgttttac aacatctcct ccatgaagag cacagagagt tattttattc ctgaagtccg1381 gatctatgac tcagggacat ataaatgtac tgtgattgtg aacaacaaag agaaaaccac1441 tgcagagtac cagctgttgg tggaaggtga gtccttggaa ctgagcacag gcaagcagat1501 ggagcatagc acacagtggc gtgaataaca gctgtgaatg aatagtgaca ctggacttaa1561 ctctccaccc atcaccctct cattcatctg cctggcattt tccttacctg aatacgtaag1621 cactagacat attccccaat aggcaggccc ttccttcctt ccttccttcc ttccttcctt1681 ccttccttcc ttccttcctt ccttccttcc ttcctttctt tctttgatgg agtctcactc1741 tgtcacccag tctggagtgc agtgggtgat ctcggctcac tgcaacctct gcctcccagg1801 ttcaagcgat tctcctgcct cagcctccca agtaattggg attacaggtg tgtgccacca1861 cacctggcta attttgtatt tttagtagag atggggtttc actgtgttgg tcaggctggt1921 ctcgaactct gacctcaagt gatccacctg cctcccaaaa tgcttcttca tctcgctcta1981 taaattacaa tttctttctt caagactcaa ctcaatgatg ttttgccaaa acaaaatggg2041 tctaccccag ggtgccagtc agtacagctc tgatgctctc tctacaggca atggtatttg2101 tgtgtataaa ggccacagcg gtgtgttaag acacctcgtt ctgcagtcac tctgcctggg2161 tttcaatctt gggtcaagtc cttaacatgc tctaaacttc aaaatcctca ccagtaaaag2221 gaagataaca acgataccca tttcaggcaa ttattgagag ggttaaaagt gtcatgtggg tagagtgctt agcaaaattt ccagcaccta gtgagttcct aataaataga aatgtattta2341 tttatttgag acagagtctt cctctgtcac ccaggctaaa gagcaatggc gcgaccttgg2401 ctcactgcaa cctctgtctc ctgggttcaa gcgattctcc tgtctcagcc tcccaagaaa2461 ctgggattac aggcacgcgc cactgtgcct ggctaatttt ttgtattttt agtaaggatg2521 gggttttacc atgttggcca gcctggtctc gaactcctaa cttcaagtga tttacccacc2581 ttggcctccc agagtgtcag gattacaggt gtgagccacc atgcccggtc cacaaatatt2641 ctatttcact cagtattggc atccgttctt acacatctgt ctgctcttct ggatagtgaa2701 attgtaaaga cagagatggt gtttgggttt attcttatat cttgaacaat gaatctggct27 catagtaggc attcagtcaa tgttcatgga ataaattaaa gtcagtccta gcctgtgggt2821 gcattcaata aagggtaaca acaatcacag tgacactgac aaatactggg ttacctttcc2881 cctctaagca tcatctgttg ggaatctgat tgtgtcctct tcccaatagg attataaacc2941 attgaaaaca ccaagtacat cttgaccata ttttattttt taaatttatt tatttattta3001 tttatttatt tttagacaga gtctcactct gttgcccagg ctggagggca gtggcacgat3061 ctcagctcac tgcaacctct gccttcgggg ttcaagcaat tctcctgcct cagcctccaa3121 gtagctggga ttacaggtgc ctgccaccat gccggctaat tttgatttaa tagagatggg3181 gttcgccatg ttggccaggc tggtctcaaa ctcctgacct caggtgatcc acctgcctca3241 gcctcccaaa gtgttgagat tacagatgtg agccacctcg cgtggcctta gtggtgattt3301 tggtggaccc atcacccgag cagtgtacac tgtacccagt gtgtagtcat tttatccctc3361 gctccctccc actctttccc ctgagtcccc aaagtccact gtatcattct tatgcctttg3421 tttcctcata gcttagctcc cattgagcat attttatatt ttttcctttc ttttcttctc3481 ttttttgaga cagggtctct gttgcccagg ctggagtgca gtggtgggat tactgctcac3541 tgccgcctca acctcctagg ctcaagtgat tctcccacct cggcctccca agtagctggg3601 actaccagtg cacaccacta actacccctg gctaatttta attttttttt ttgtagagat3661 agcatttcac cgtgttgccc aggctggtct ccaactcctg ggctcaagag atccacccac3721 ctcagcctcc agattttata tatttcaaag tgcctagtac tgtgctgggc acatacctgt3781 tcatttatta cctggtaggt cgcactgggt gttcagagaa caaaaaagag ccctctcatg3841 ggatcaacta cagtcactca gcggagggga gggcttgtgt ctctcaatca ggctgatact3901 gacagacttt cttcttcaat caggctgata ctgacatgac tttctacttt ccccgtagga3961 gtgcccagtc ccagggtgac actggacaag aaagaggcca tccaaggtgg gatcgtgagg4021 gtcaactgtt ctgtcccaga ggaaaaggcc ccaatacact tcacaattga aaaacttgaa 408681 4141 atactggaat tccccgttga ggaacaggac cgcgttttat ccttccgatg tcaagctagg 42058 364261 acgggtcagc atctgctccc ttcctcatcg ttctttgtgg tttctggt (2) SEQ ID NO: 2768 materials: (i) sequence characteristics:

(A) length: 867 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2768 description of the sequence: 1 gttctagaga agaaaggttg aattttaaag ttagttagga acaatagaaa agtttgaaaa 61 ggggaagcag caaaaagagc agaagaggct cctcttgccc aggtttgcac ctgagtccaa121 ccaggttgtc ttcctctctt gcagaatcct tctctacacc caagttccac atcagcccca181 ccggaatgat catggaagga gctcagctcc acattaagtg caccattcaa gtgactcacc241 tggcccagga gtttccagaa atcataattc agaaggacaa ggcgattgtg gcccacaaca301 gacatggcaa caaggctgtg tactcagtca tggccatggt ggagcacagt ggcaactaca361 cgtgcaaagt ggagtccagc cgcatatcca aggtcagcag catcgtggtc aacataacag421 gtagggctgc tgctgccgga gggtgttggc atatggcggg ctcaagaggc caccatgctg481 caatccagca tggccaaaga gagctgatca tttcctgccc ctgcttatct gaatgaatgt541 gctcagatgg ggctttggtg ctcgtgggag gaaaccactg cagagcgagt taacagtcta601 ctgtgcgtgt tgagggtaca ggctccggca ccaaagctta accctgccgc tcactgcttc661 tgtgaccttg ggtgagttat tgaacgtgcc gcagcgctgt gagatggtga taatgacctt721 ttaggactgc tataatgatt aatgagataa ctatactgta agcatgagct gagagatttg781 tacagagtaa gactctgaaa cactggttaa tgttttcatt actctgttat atttctccat841 cccctgtgac aagcactatg ctagatc (2) SEQ ID NO: 2769 materials: (i) sequence characteristics:

(A) length: 1872 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2769 sequence description: 1 gaattccggc ctgtgaatcc atctggttct tggacttttt ttggttggtaagctattgat 61 tattgccaca atttcagatc ccgttattgg tctattcaga gattcaactt cttcctggtt 121 tagtcttggg agagtgtgtg tgttgaggaa tttatccatt tctcctagat tttctagttt 181 721 ggccacaagt tgcaaaactt ttctaatcct tgtcattgaa ataaattgga ttaacaagaa 781 181 atttgcgtag aggtgtttgt agatattctc tgatggtagt ttgtatttgt gtgggatcgg 241 tgatgatatc ccctttatca ttttttattg cgtgtatttg attcttctct ctttttttct 301 ttattaggct tgctagcggt ctatcaattt tgttgatcct ttcaaaaaac cagctcctgg 361 attcattaat tttttgaagg gttttttgtg tctctatttc cttcagttct gctctgattt 421 tagttatttc ttgccttctg ctagcttaag gagtttcatt cttgttgccc aggctggagt 481 gcagtggagc aatctcggct cactgcaatc tctgtctcct gggttcaagg gattctcttg 541 cctcagcctc ccgagtatct gggattacag gcgcccacca ccatgctggc taattttata 601 tttttagtag agatggggtt tcaccatgtt gcccaggctg gtctcaactc ctgacctcag 661 gtgatccacc cacctctgcc tcccaaagtg ctgggattac aggcatgagc caccacacct 721 ggccacaagt tgcaaaactt ttctaatcct tgtcattgaa ataaattgga ttaacaagaa 781 aggaaaacct gccattggaa tcctaggcaa agaatgaacc ctagctcctt actggggtga 841 tcgttaggta catgagaagc aaaggaaaac tttttgctgg aagttggaag ttggttctgc 901 caagagcacc tgagccaagg gcctctccag gaagggtctt tagggtggtg gccagacaca 961 tctcgctcca ttcccactca ctgtttttca gaactatttt ccaagcccga actggaatct1021 tccttcacac atctggacca aggtgaaaga ctgaacctgt cctgctccat cccaggagca1081 cctccagcca acttcaccat ccagaaggaa gatacgattg tgtcacagac tcaagatttc1141 accaagatag cctcaaagtc ggacagtggg acgtatatct gcactgcagg tattgacaaa1201 gtggtcaaga aaagcaacac agtccagata gtcgtatgtg gtgagtatat tgttgcgact1261 cagaggacat ccggggttga atgggagaaa ggaaatttat ctgcagctgc cgccctctcc1321 ggtctccggt ctgagcagac tcaggcaggg taagaactag agggagagaa gtgcgaaatc1381 aaaggccaaa gaaacaagga ggtattcctg ctcagaacac tgattcactg atgatgatgt1441 ggcctctgac ttgcaagatt ctggcaagat tctgcctcct ggagcaagac ccacccaaaa1501 gttcaggaag gaaacactac ttagtcaatg ttaaactttt cttttttttt tttgagacgt1561 gtcgcccagg ctagagtgca gtggcacgat agctcactgc aacctctgcc tcctaggttc1621 aagtgatctc ctgcctcagc ctcccaagta gctgggatta caggtgccca ccaccacgtc1681 tgcctaattt ttgtattttt atttttatta cttttattta tttatttatt tatttttttt1741 cggtctgtca cccaggctgg cagtgccagt ggcacaatct gggcatcact ggaaagcatc1801 cgcactcctg ggtacacgag cattctcctg cctcagccct cccaagtggg tgtggactac1861 aggacacacc gt (2) SEQ ID NO: 2770 materials: (i) sequence characteristics:

(A) length: 5996 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2770 description of the sequence: 1 tcacttgagt ccaggagttc aagaccagcc tgagcacata gtgagaccct gtctctacaa 61 aaaataaaga attagccagg tgtggtgtgc acctatagtc ccagctactc gggaggctga 121 ggtaggagga ttgcttgatt ctgggaggtt gtagtgagct gtcatcgcac cagtgcactc 181 721 cgatcagtgg aactttgcct atttcttacc aacttttaaa aacaagtaaa gttttggaga 781 181 cagcctgggt aatagagtga gaccctgtct caaatacaca cacacacaca cacacacaca 241 cattttgttg gctacttgtt gtactttttc tatgttttct gtgtctttgc tcaacacaag 301 aaaagtatat tatgtgtgca tgtgcgtgtg agatatggta aaatatgaac atgtatttct 361 ggggatgtaa tgttttcctt gaatttctgt cattctctgt tttgcttatt gtacttctct 421 ttccctttcc cttctcacca cacacacaca cacacacaca cacacacaca cacagcctgt 481 cagtctcata ggtgtcctat aaaggtaaat ggcaggcagg catttgaaat tacagcaggg 541 atagaaagca aaactcaggc tttggaggag gaacctcttg tgctggatgc tttgttttta 601 ccttcagtgc cttttggatt gtttctccct ctgttctaga aatgctctcc cagcccagga 661 tttcttatga tgcccagttt gaggtcataa aaggacagac catcgaagtc cgttgcgaat 721 cgatcagtgg aactttgcct atttcttacc aacttttaaa aacaagtaaa gttttggaga 781 atagtaccaa gaactcaaat gatcctgcgg tattcaaaga caaccccact gaagacgtcg 841 aataccagtg tgttgcagat aattgccatt cccacgccaa aatgttaagt gaggttctga 901 gggtgaaggt gataggtaag ttgctgtgct gtgagaagaa atcatgtggg cttggggcat 961 tctttcaccc ccagggactg tggggacaat aagagaagta gggggccagg tgcggtggct1021 catgcctgta atcccagcac tttaggaggc caaggccggt gaatcattga ggccaggagt1081 tcaagaccag cctggccaac atggtgaaac cccatctcta ctaaaaatac aaaaattagc1141 tgggcatgat ggcgtgcgcc tataatccca gccactcggg aggctgaggc aggagaattg1201 cttgaaccca ggaagcacag gttgcactga gccaagttgc gccattgcac tccagcctga1261 gcaacaagag cgaaactcca tctaaaaaaa aaaaagcgag agaagtagtg ggtgcttatg1321 caaagtccat atactagata tgcaccaaag cagggccaag gttcagtaaa ggaggctgga1381 aaatatttgg gggctattga tgaggacaat ataatctctt tccagaacct ttcaacaaac1441 tgctaaaaga tgataagcat gaaagtgtcc tgactgcagg aagcactgaa gttgtgcata1501 tgggcttccc ttagcacttt ctccttttca gatacactgt tctgagaatt gtagatcagg1561 actctgctgt tgtgactcct agccggggaa ccctgccttg tgtgaattcg agattagcct1621 ggccaacatg gtgaaatcct gtctctaata aaaatacaaa aaattagctg ggtgtggtgg1681 tgggcacctt taatgccagc tactcgggag gctgaggcac aagaatcatt tgaacctggg1741 aggcagaggc tgcagtgagc caatatcatt ccgctacact ccagcctggg caacggagca1801 agactccatc tcaaaaaaaa aaaaaattaa cattacatag actaagcacc taatggtgtg1861 aggcatacaa aaaagaagac atattctttg tttcaatgct gtggtaagaa acacaagctc1921 tcctaatgaa aatgatggac aaacatctga atcatactac caataagcat agaaaaaatg1981 ttgggggtca tgtttggttg tcacgtgaac tatatcctta cagtgatggt gatagtaatt2041 tagggtatgc cagacttcat ctagcttaag tgggtaaaca ttgtgaaaaa gctgggctag2101 gtgccagggc ttgagaatgg gtggccagag aaggctgaag atggctgaac atctccagca2161 aacacatgag ccaaaaggtc ccatggggca cttcaaaaga ctgtgcgcag ccaggtgcgg2221 tggctcacgc ctataatccc agcactttgg gagaccgaat ggggtggatc acttgagccc2281 agaggtttgt gactagcttg gccaacatgg caaaaccccg tctctactaa aaatacaaaa2341 attagcccag cgtggtggtg ggtgtcctgt agccccagct actcaggtgg ctgaggtggt2401 agaatcactt gaatccagga ggcagaggtt gcagtgagcc aagatcgtgc cactgcactc2461 cagcctgggt gacagagtga gactctatct ccacaaaaaa aaaaaaaaaa aaaaaaatta2521 aaggactgtg gccaaatcag atggctggaa acaaaggctg gagtttggga atggagaatc2581 accggatatg agctgaaaaa gtggctgagc ctaagcgtga caggtgtcag gtgccagtct2641 caggagtagg caattgtcct gcatgcagtg aaaagccaga agatggaagg aaggacagga2701 tgcaaatgag ttctcggaac gatccacctg gtggctgggt cagggagcag gcatggtgac2761 ttcagacctc atggtacgtt agaggctaat gtgaagccca tgtgaagctg ttggtttaaa2821 ctgggtcgat atcagtggca cacatttact gaccatgtgt ccagccctgt gtgaagtact2881 gtagtaaatt gctccaatgg aaactcacaa taaccacaga aggccagtaa cagcattgtc2941 gttattttatcatgacgcaa ctgaggctta gggcagacag ctggtgggtg gtgggactgg3001 gatttgagcc cactggtgtc ccaggcccgg agcttggctt cttccattgt cttaccacag3061 cctgcactca caggagagtg actcataagt tacaatacca tctgctgacc atctgctctc3121 acactagaag gaaagtctac ttggggagac aatttaggat ccgaattttg gtagttgagg3181 atggagctag gaaaagcgga tacaggaggt agccaagttc tgcttggacc tgcagggagt3241 gaggctggcc gggctccagg tggaaatccc caggtgaaaa gggagacttg gagttcagga3301 aagtaacctg gactggagcc ataggtttag gtgtcagtgg ctcagagaca gaagctcagc3361 gtgtaggtga aatcacccag gaggagaatg gggatggaaa actgaggatt gaattttgca3421 aaatgttcat acttccgggg aaaacaaaga ataaccagtg aataagaaag gggtgccagg3481 taagaaggga agagaatcag agtcatgagg aaccccagaa ccccagaaaa agctgagttc3541 593601 agcatccacc actgaattta atcagccccg gactcaggga cgttggttgg ggaatcaagt3661 gaccttccca gtttcttcaa aacttgagag agagtgcagt gtcacaagat tgtgactaca3721 aaagagtgca gtcagatttc aggggtaaca agaaagtgtg aaataaggga gtcaaagcat3781 aaaggaaaaa ggagaaaaaa tggccgatag ctagagaagg cgtgggtcaa gattgtctgt3841 ggcctggcat ggtggcttat gcctgtaatc ccagcatttt ggaaggccga ggtgggcaaa3901 tcacctgagg tcaggaattc aagaccagcc tggccaacag ggcaaaaccc cgtctctaaa 398661 acaacaacaa caacaaaaaa atccaaaaag ttagctgggc ctggtgggcg cacctgtcat4021 tccagctact cgggaggctg aggcaggaga tttgcttgaa cccaggaggc acacgttgcg gtaagctgag attataccac tgcactccag cctgggtgat aagagcggga ctctgtctca4141 gaggaaaaaa aaaaaagttg agcagtggct gtctcatgtt cctcttcctc tgcccttctt4201 tgctcagtgt gaatcctttt cctgcttttc agccccggtg gatgaggtcc agatttctat4261 cctgtcaagt aaggtggtgg agtctggaga ggacattgtg ctgcaatgtg ctgtgaatga4321 aggatctggt cccatcacct ataagtttta cagagaaaaa gagggcaaac ccttctatca4381 aatgacctca aatgccaccc aggcattttg gaccaagcag aaggctaaca aggaacagga4441 gggagagtat tactgcacag ccttcaacag agccaaccac gcctccagtg tccccagaag4501 caaaatactg acagtcagag gtgagtcagg gtctccatag caagctgtgc tgtgggcccc4561 caagggcaag accagaaaac accccccttg taagagggag tttgggggga gtctagctta4621 tgtgactgaa ggctaggaga gtaatgtcct ccaggctctt ggttgcaagt gacagaaacc4681 cactcaaatt aagtaaaaaa gagaaatcga ttattataag gaattgggag aatgtcacat4741 cgttccaatt acaaattgttggcagactca ccattgagtc atcttgggtc aaacatccaa4801 ccacagacca cctgtagcca aggggattgg gtcacgcaga acagacatga ttggggaacc4861 acttatgtgg gtgtgggggc ggtttcctgg agaagaagag ggctgaaaac acatgccaaa4921 aaggagtcta ctccacttga gccctggagt tggagaccag cctgggcaac atggtgaaac4981 cctgtctcta caaaaagtac aaaaataggc tgggcgcagt ggctcatacc tgtaatccca5041 gctactcggg aggctgagac atgagaatca cttgaaccca ggaggtagag gttgcagtga5101 gcagagcttg ctccactgca ctccagcctg ggcaacagag caagactctg cctcaaaaat5161 51 5161 caaaccaaca aaaaatagct gtgtgtggtg gtgtgctcct gtagtcccag ctactcggga5221 ggctgaggtg gaaggattgc tcaagcccag gaagttgagg ctgcagtgag ctgtcatcag5281 829 5281 cctctagcct gggtgacaga gtgagaccct gttcaaaaag aaagaaaaag aaaagagtct5341 acccagcaaa gctggtttgt tccctccttg aggaccacag ctgacctcta tttgtagcag5401 aaacaatcat ttctgcacca gctctgagtg cagaacccct cagaggtaga tggatgctaa5461 ggcaagctgc cagttacaag agctgtgaga atcagactga cttttgttgc ttaaggcctg5521 atattatttc ttcctggcag aggaagagcc tatatacaaa aaaaattttt tgttttgttt5581 tgttttcagt cattcttgcc ccatggaaga aaggacttat tgcagtggtt atcatcggag5641 tgatcattgc tctcttgatc attgcggcca aatgttattt tctgaggaaa gccaagggtg5701 agcatagttc tttccttcca tactgactgg tcgtccttgc caggaaacca gccagggatg5761 cgtggtgctt ttctgacccc tggattcagc taggcaaaaa tgaaagctat tattttcctc5821 attgggcaaa ccagaaaaga taaaatttgg gggaaattac atctttgtgt ggttagaaga5881 agccatttct gtagatttgt ccacacctag tcctgtaatg cgtgtagagt ggggtgcaag5941 cgtcttggag acacacaaac atgcgcataa cacccacatg ttgcacacac acattg (2) SEQ ID NO: 2771 materials: (i) sequence characteristics:

(A) length: 818 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2771 sequence description: 1 acctctttct tttctgtctt ttgaaaaaga gtgaatatat ttgccttctt tttctctctt 61 tttctgggta ttcaatcttc tgggaagtcc aaacgtagct gaaaagagtg ttccttcaca121 gcttactagg agtaaaacaa aaagaaaaga aaagtgtttt ctatctatta ggttagtgca181 aaagccattg gcgttttggc cattatagtg gtatggatgt gggtactgta tactgacttt241 ggtttttcgt tttctgtttt taaagccaag cagatgccag tggaaatgtc caggtgagtg301 tatttgtaag aagggggcgg ctgctctgtg agcacggtgg acatgtctgg agggagattc361 tggtcattag gaagttttca gtggctcttg gcaaacttag aaaaatatag gccttccttg421 ggtgtgagtt gtgtgtgtga gttgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtatctc481 cgtggaagaa tgccaattgt cctttcatgg gaaggaatgg cttttattct gagatcatgt541 ccttcctaca tgattatttg tgaaatctcc ctttctttat gaaattataa tggtagtaga601 taatttttta aaatttgaca aaatagagtt ggcctttaaa aaatggtttt actaccttta661 ctgttgttga aatcccaaat caaaagtata gaaatgattg ctctgttcca gagagaaaca721 gtagcgtggg ataagaattt cagggggctt ggtagtagcc tgtgaaggac tccggtattc781 atgtgtgctt tggtctgatg ttatttaata ggaaagtt (2) SEQ ID NO: 2772 materials: (i) sequence characteristics:

(A) length: 946 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2772 sequence description: 1 aaaaaaaaaa aaagtttttt tacataatcc ttggagctgc caaaaaatat ttgttttcca 61 aatgagagag taaagttttc cttaccttgg aaaactcttc ctggttttct catgatcttc121 ccttgtttac tttggtggtt tggggttaga acaataacaa caacaaatat atctatatat181 tgttttctgt ttttatattt cattttaaag gccagcagta ccacttctga actccaacaa241 cgagaaaatg tcagatccca atatggaagc taacagtcat tacggtaaag tcatgttctc301 ctgccattta taattccccc caacttgcta catacttcct tacccctctc agaagcagaa361 tatgtaagtg gtgggattac agttggaaga gaaaccctgg cttcaacagg gtacttcatc421 tcatcagcca ctgggccatg taatatacgg aaacgtaaaa ggaaaggtaa catattttat481 tctaactttg ccaccttcca aactccccgt agaagaaaga tggagaataa tcataatgcc541 ttcaaagact ttgaacattg ctccagcgta atattataat tctccatttt caagacagag601 acagatattg aatgaaacat tggtaaacat cttctcagat ggaattatta caagcacaag661 acagttttac ttcaaatttg gcacaaaggg aaagcaattt caatattctc tcagtaaagg721 cataaataaa gtgttccaac taagaaaata tctattcata aggctcatca gtagcttcag781 ggtcagctca gctgaatgag taggcagtcc taggagttct taatcccagg ttagtaagaa841 aattgctcaa gcatttcagc aggatgctac ttacttccca gaggggggta ttattacatc901 acaaaaagtc ctgtcccaga ccaaatttgg ggacactctt cctctt (2) SEQ ID NO: 2773 materials: (i) sequence characteristics:

(A) length: 645 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2773 sequence description: 1 atagccacga ctcaaatata ttgatcttag aatctaaaag acttaggtct gggcgcggtg 61 gctcacgcct gtaatctcaa cactttggga ggccgaggta ggtggatcac ttgaggtcag121 cagttcaaaa accacctggc caacatggtg taaccctgtt tctactaaaa atacaaaaaa181 ttagctgggc atggtggtag atgtttataa tcccagctac tcaggcaggc tgaggcagga241 gaataccctt gaacctggga ggtggaggtt gcatgacctg a1 tggacctcaa catgcacacc agtccgagca acaagagcga aactccatct caaaaaagaa 61 agaaagaaag aaactatatt caggccaggc atggtagttc atgcctataa ccccagctct121 ttgggaggct gaggtgggag gatcattgag cccaggagtt ggagaccagc ctgtgcaaca181 aagcgagaca tggagaatgt ggaacgaggg acccaggacc cagagacagt gctggttgtc241 actacactga ataaatcagg cttgactttg ttaggggtac tgaattttta aaagggtttt301 agaaaactag aatttccctt gtcactcacc ctaattgtta tttttcaact aggtcacaat361 gacgatgtca gaaaccatgc aatgaaacca ataaatgata ataaaggtaa ttatctaatt421 acatgttttt attagaacca acttttacat taaaaaaaag actcatagga aaagaaaact481 aaaacttgaa ggactgtgga taatttccca cctctcttaa tgaccctgta cccagccgat541 gtgtcaatga aggtagctag ctgctttcac cagagatgct atctagtgtc ctcagtggga601 agtacctaaa tcaaagtagg gaagaactgg gttatactca aaaaa (2) SEQ ID NO: 2774 materials: (i) sequence characteristics:

(A) length: 390 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2774 sequence description: 1 acaacaactc tgtggtttct ttaggcagag cctctgaact cagacgtgca gtacacggaa 61 gttcaagtgt cctcagctga gtctcacaaa ggtaagtgcc actcgagtga gtccccaggc121 attcgctttg gcttgggttt aaaccccagt ggtggcgggg gtgctgtgtt cagtgagaag181 agtctgtgca ccctcagtcg ctccaaagga agtgattagc agacctaccg gcctgctaag241 actggaagga gcaaggcccc tggcctggcc tgtctctgag ctgtaaaatt tcaataattt301 aaaagaaaaa aagaaaaggc caggcactgt ggctcacacc tgtaatccta gcactttggg361 aggccaaggc gggtggatca cctgagatca (2) SEQ ID NO: 2775 materials: (i) sequence characteristics:

(A) length: 250 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2775 sequence description: 1 tatattttat atattaatat ataaatataa atacatatat aatatataat atatgttttc 61 tttgtgtata atatatattt tataatattt tatatatttt tattttttat ttttatatat121 tttatatata atatttttat atttatatta tttatatatt ttttatttta tatatatata181 tatatttttt tttttctttg ttgagacgga gtctactctc tgcccaggct ggggtgcagt241 tgcgagatct (2) SEQ ID NO: 2776 data: (i) sequence characteristics:

(A) length: 226 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2776 description of the sequence: 1 tgcaaacctc tgcctccggg ttaaagcagc attctcctcc ctcagcctcc cgagtagctg 61 ggattacagg catgtcaccg ccacagccgg gtaatttatt tatttttttt ttgtattttt121 aagtagagat gggatttcac catgttggcc agcgtgaact cgaacttctg acttcaaaag181 atccaccccc ctcagcctcc caaagtgctg ggattacagg tgtgag (2) SEQ ID NO: 2777 data: (i) sequence characteristics:

(A) length: 1147 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2777 sequence description: 1 gaattcaatt tgagttttcc agacccgtcc tcctccttgg cagctaagga gcagtgtggg 61 aagtcaggcc tgagcctcag gtgttccctc tctgccttcc tgtgggtgga gagccaggta 121 ttaccaggta cgaaaagggg ctttgtgggt acaaggctca gtggtgagta catttgacct 181 ggtcttgacc aagccagttc cctgctctca agacttcctc ctcctatgga ggaggggttg 241 ggaaccacat ccagctctga ccctagtggc aggcgaccaa gtggtcactt ggggtggagg 301 aggggcagga aggaactcag taaatcctgg tttgctgcat gtttgctctg agactaattg 361 ctgggaaaac cccatgacgt tggaagccat ctccttctct gttatcacag agaaaaacag 421 aagccaaaat aaagccccat ccggaaacat ccctgacagc agagacaaag agcctgccag 481 cctggtttac tcattagcaa gcagctgctc cctggagtgg gtggggagga gaggtagtga 541 tgagctgcaa ctctgcctgc ccacccatca cttaactggg cagatttggg ggcagctgca 601 actctagaag ctccaccaag aagcagaacc ccccaggccc aaacaccaag ccctctccct 661 ccatttattc ctcacctgcc ccagccccca ctgtgggcct gggtgggagg gtgagctggc 721 cgtgaccacc ccaccatgcg cctggtatat ggtgtttgat agcatttgtt gcagtgtctg 781 cgttgtttgt gcacctgtct gcctcacagc ctggagctcc tgaaagctgg ggaccaggcc 841 cgatcacctt tcctcttcca cagtgcgggg ttcacactag gtgtctagga ttctgctgag 901 tgagtgattt ggccaggcct gacatcaagc agagggtgtc ttggggatgt ggaggatccc 961 ccaatagggt tggggatccc tacagcttcc cttgagggcc ccacatctgg tgccacagaa1021 agagagtgag gggtgtgtgg gcatctctgc tgtcccagca gtgtggtgcc ctggtagctc1081 agccactcta ctgagttcca aatcctgttt gggtgccctg ggggaagtca gtgtaagggc1141 ctagtca (2) SEQ ID NO: 2778 data: (i) sequence characteristics:

(A) length: 2136 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2778 sequence description: 1 aaggagggaa atccacttga ccatggcaca ggaacccccc ttacccaatc tgggccttcc 61 ctttccccca tctgtaaaag gagaacagtg cccacacgac atcagcctct tttcctacag 121 tgagccttcc tggccctttg tgcagtagac aggagctggg aagtgcccag gttccatcct 181 721 acctcaggat cttgttctgg atcccggggt ctgggctctc aggtgattgg gaggccatag 781 181 gtttcctcag ggttggtggg tatgtatgtg tgtgcacacc ctgtgtgcat gagtgtgtgc 241 acacccagat tgcatgtttg tacatacagt gtgtatacaa tgtgtgtaga cacatcctat 301 acactgtatg agggtataca tagcatgtat acacattgtg tgcatgagtg tgcgtgtgta 361 tatgctgtgt gtgtattttt gtatacacat cctgtgccca taccccagtg taaggtaaac 421 agatggcagg aagggcgccc ttgagtctcc tccaggtata cgccacaccc tgggtcagtc 481 atcatgctgc catattgaga gggtctagcc cagaggatct cagccctgtc tgcatattag 541 ggcccctgag gagatcctaa aaaaccagca ccagggaccc ccccagacca atccaaccag 601 aagctgcagt gaggcccagg agccagcagt gaaaacagcc agcccagctg tctatctctg 661 taagagttct cagtcccagc tattcctagg gtcactgaca acccccaggc tctaacccag 721 acctcaggat cttgttctgg atcccggggt ctgggctctc aggtgattgg gaggccatag 781 cccaaccctg cgttgaggga cctggcagaa tgtctggaca agggtcacgg tggcagggga 841 agaggagtgg gggcagcaag ctggaggctg caggcccttg ctggggggct ctccatccgt 901 gggcccctca ggtccagggg ttcctctggt gcatgtggcc ctgctccaca atggcctgct 961 gacctcctat tcccagactg ggagtgacgc tcgttagacc aagacctcct tcttcttctt1021 cttttttttt tttgggaggt ggtgtgtcac tgtgttgccc aggctggagt gcagtggcgc1081 aatcttggct cactgcaacc tctgcatcct gggttcaagc gattctcgtc ccttagctct1141 cgagtaactg ggatcacagg gacgcaccac catgcccggt taattttttg gaatttttag1201 tagagacggg gtttcggcat gttggccaga atggtctcaa cctcctgacc tcaagtgatc1261 ttgccccctc aacctcccaa agtgctggga ttacaggtat gagccacctt gcccagccag1321 gatcttctaa catcagaaat gacaaggtct ctgggtgctt ctggacctgg ttctggtgg81381 gtgcagtggt ggggtacagc cttgcctgca gagcctcaga ccttttccta tgactgcagt1441 ggactgacct cgttcccaga ggcagctact aacttatgcc tggtcctttt tccagatcta1501 ggaaagaagg acacagagac agtgtacagt gaagtccgga aagctgtccc tggtgagtga1561 gggtctccag tgccccagcc tgggggatgc cccctataat cactgatggg ggcttgggag1621 tgggcagaga aaagaagaag caaagaaggg caaaaaaggg gtggcacctc ttacaccagc1681 gctgtgggct tcctctctcc caccaccctt aaaaagtcac ctcgggtcac atttactatt1741 catgtagtca acgagcgctt cttgaatgct tactgacccc agccggtgac ccttacctgc1801 tccccacaca ggccctggtg gctggggttc cccaaggtct tggacgtcga gtgttttgct1861 ttggagaccc ccagtagctt cagcctttct tcttgttttc ttttttctct tttttttttg1921 gggatacgga gtctcgctct gtcactcagg ctggagtgca gtggtgcaat ctcgactcac1981 tgcaacctcc acttcccgga tttaagtgat tctcctgcct cagcctccca agtagatggg2041 attacaggcg cctgtcacca cactcagcta attttttttt tttatatttg ggagacagag2101 tttcgctctt gatgcccagg ctggggtgca atggag (2) SEQ ID NO: 2779 materials: (i) sequence characteristics:

(A) length: 1183 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2779 sequence description: 1 tgctgggatt accaagtgtg accccccgcc ccagcagctt cagcttttct gacaagaaga 61 ctgactttgg gagtgggtgt gggtttgcgg atctactcta tttcctttgg ttcggctgcc 121 cccacttcgc ttcccgtgac gacccactgc ttactcatga aagggcttcc cccagagctg 181 agcacagagc ttaagcagac ccggaactgg gggagctcaa caagtccttt ttttcggtgg 241 gggggtataa taactgtatt caattcaggt gaaatgaaat acacaatgac aacttttaaa 301 ttctgaaggt aagtcagcaa tccgaaagac gtaaacattg tgggggaaat agtgactgtg 361 tgagtatctc gctttgtaca gcagacctct atttaagtgg gttcttggaa agggaatcat 421 taaaatggtc caggacattt ctgcaaaggg tgcctactca gcctaggcgt ggtggctcat 481 taagcactca gtaagtgctt tatttattta ccccaaataa ataaataaat ataaaaggat 541 gactcctccg agtacagtcg ccaaaccagc agcagcaatc tcgggcccag cccagaccca 601 caaaactagt ctctggaatc tgaacttagc cagcttcaga tgtttctgat gctgccaata 661 tttgagaagc actgtttgtg ttttgttttg tttttttgtt tgaaacagag tctcactctg 721 tcacccagac tggagtacag cagtgccatc tcagctgact gcaactccgt gcaacacccc 781 ccagccccta aggcttaagc gatcctccca agtagctaga accacagaca cacaccacca 841 tgcccagcta agtttttgta tttttggtag agatgaggtt ttaccatgtt gcccagactg 901 gtgttgaatt cctgagctca agcaatccac ccccttcggc ctcccaaagt gctgggatta 961 caagcgtgag ccactgtgcc aggcaaaaag cactgtttta gaagaaccat ccaattctct1021 gaggaccctg ctttttatct gaaatagcga tcacttctta attcactttt aaaagttggt1081 atatctacaa gaagaataga aactcaaccc ttgtggaact tgaccctgaa taatttttga1141 aaaaccaatt ctctggggaa tttttagctc aaatacctca ttt (2) SEQ ID NO: 2780 data: (i) sequence characteristics:

(A) length: 209 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2780 sequence description: 1 aaaaaaaaaa aaaaaaagaa gaagtagttt ctgcttttag tcagataaac aagctctggg 61 gagacttcct tctacatctg aaccagctca aaacaatcct tatgccaaag gggcatattt121 tgtggtggca tattctgatt tccttcatct gctttagggc agctggctgt tcaagtgggt181 tctctcgggg tctccaggtt ggttctaga (2) SEQ ID NO: 2781 materials: (i) sequence characteristics:

(A) length: 326 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2781 sequence description: 1 ctttctttct ttcctttctt tttttttttt ttgagacagg gtcttcgctc tgtcacccag 61 gctggagtgc agtggcgcga tcgcagctca ctgcaacctc cagctcccgg gttcaagtga121 ttcttctgcc tcagcctcct gagtagctgg gaccacagct actgccacca cccccgggta181 attttttttg tatttttagt agagacggtg tttcaccata ttggtcaggc tgatctcgaa241 ctccagacct caggtgatcc acctgccttg gcctcccaaa gtgctgggat aacaggtgtg301 agacaccacg cccggccaga tcatat (2) SEQ ID NO: 2782 materials: (i) sequence characteristics:

(A) length: 634 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2782 description of the sequence: 1 gatcctatct acgggaaaca tgaagagtaa tattctactg tggcctgggt gaccctgggc 61 aagtcataga gcctctcaag accttggtca ccttctctgt gagatgaggt atgggctgga121 ggcaggtcag tggtcctcgg gctttattaa aacatcaata gtttggcgca ccccactccc181 tgtgaatttc ccattcacta ggtctggagc ggtgccgaaa acgtgcattt ctaacaggtg241 tccacacgca gctgctcgcc gacacgctgg ggcccgggct ttgagaacca ctcttgatgc301 agcatgttcc tttctgattg tgccacgcta aggctctgct tcttgttgga aggagtaggg361 tctttctcac cctccagaaa tcctggaggg atctttcagc attggtgggc aggtaaaacc421 cagaaacact gtgcttatta gagggaaggt tgtattgagt gacccccaat aaaacagggg481 gcccagggcc gcgcgcagtg gctcacgcct gtaatcccag caatttggga ggctaaggcg541 ggcggatcat gaggtcagga gatcgagacc atcctggcta acacggtgga aaccccatct601 ctactaaaaa tacaaaaaat tagctggacg tggt (2) SEQ ID NO: 2783 materials: (i) sequence characteristics:

(A) length: 1063 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2783 sequence description: 1 agataagcaa tagggcatgg gcaggcctgc ctccaaggag cagccccagg gccgaggaga 61 gagagctggc gctggcccag gggacttgag tttgatggga aagcttgcag acagtggggg121 agctgcctgg tctttccagt cttggctttt ggctctaagc acagcttttt tttttttttt181 tttaattgtt gtatcatgag gcgccttcca ctcagctgcc tccccacgtt aggggatgga241 cacagcactg gcagggatcc tgtgtgtctc agtttcccta ttgactctct gtggcctaga301 gatgtatggt agaattccac actatgcttt ttttccaccg tgtttttttt tttttttttt361 tttgagacag ggtctctctc tgtcacccag gctggagtgc agtggcgcaa tcttggctca421 ctgcaacctc cacctcccca ggcaggcccc tctgactcag ctgggactac aggcatgcac481 caccagcacc cagcaaaata tttttatatt ttagtagaga tggggtttcg tcacattggc541 caggctggtc ttgaactcca gagctcaagc aatccgcccg cctcagcctc ccaaagtgct601 gggattacaa tgcccagccc actttttttt ttacttttta caattttatt cttaaaattg661 tggtaaaaca catatcacat aaaatttacc attttaactc taagtatcca gctcagtggc721 actaagacta cacttttggt tgtcatagcg tggtgaacag agaagagaat gctactgcgt781 ctcgtggaga gaggccaggg gataccgcta aacatgcgac aatgcacagg acagtcccct841 ccccaccaca aaacaccacc cagcccaaaa tttcaacagg gccaccatgg agaaaccctg 901 gccagaggaa ttcacctcct gcaactcctc caacaggaga gctggttttc ctctccagta 961 ccagcttgtg gctgccctct gtcttgggag ggtgacttaa gggcacatcc cacctgatta1021 ctgtgggctc tggatgggtg ctgagtcttg gtctggggaa cag (2) SEQ ID NO: 2784 data: (i) sequence characteristics:

(A) length: 1532 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2784 sequence description: 1 aaattaccca ggcatggtgg tgtgcgcctg tagtcccacc aacttgggag gctgaggcag 61 gagaattcct tgaatctggg aggcggaggg tgcagtgagc cgagatagtg ccagctgagg 121 caggagaatt ccctggaggt agaggttacg gtgagccaag atggcgccac cacactccag 181 721 gggtgcttag cgccaaacaa gcaaagcaca catttcgttt aacgccaaag tctaggctct 781 181 cctgagtgac aaagcgagac tctgtctcaa aaaaaaaaaa ataaagaaaa ttttaaatga 241 agtgccaggg actttatgcg catgtcatgt ggagctagct acagggtccc ggggaagctg 301 tcttgcacaa aggagccata aacctctaag ggcactgccg gctgatgtct cctggctctc 361 gcctcctccc tcttttctcg acctgctcct gaccctgtga tgttgttggg gcagttgaac 421 tgggttattt gcgttgctca ctgccatgtc atcctttgtt ttgtagatgc cgtggaaagc 481 agatactctg taagtacaca tttcatatac attatattta aaagtactcc actgaacagt 541 gaaatatttc cagactcacc cacgcctgca ttcacacgaa ttcttccccg ctccctagcc 601 tgttcagacc agaagccctg ggcttctctg actagccttg gccagttctg atttcgaata 661 ttctctcctg caatttccat cattacatct cagcccacac gtgaagggat tgggactctg 721 gggtgcttag cgccaaacaa gcaaagcaca catttcgttt aacgccaaag tctaggctct 781 ggaagtgagg cagatctagg gtgtatgctt ggaggagtgg agcagctgac agctcattgc 841 aatttagccg atactaatta ccccctacac accaggccat cagctgcagg aggacaccca 901 agcttcttga cctcagttca ccttctgatg agggaatcag acatgtgatc acttatcata 961 aagccaagtg agctatgcca gagcctatgg gaacacagaa cagagaccta gctagtgccc1021 tcttccccaa ggaatcattt ggaatggccc atgaagaatg aatggagtga tgatgccagc1081 attgagggag aaagatcagc aggagcacaa gggtgaggga tgaccagttt caagcagtgt1141 gggatgggaa agaagagtgt gacagtgaca agtgacggga gaaagataag tcagggctta1201 aatccaaagg atttacatcc cttgttaaga agcttcattc tgtaggaaat ggagttagga1261 atctgcattt ggcagatggg agggtttatg aaagacacag aggcccacgt tcaacttttg1321 caaagacgtg tcttccaatc ccaacctttt tgtgagctac ccagcaatgc aggagttaac1381 tgggcagcta atatctgaag aaatgaggca tttgccgcat aaacttcttt taggtctggg1441 aagaactttc agcaaagatt tcaggtagct cttccagtgg cccctggctt cctttgtttt1501 gcccatgtca ggactcttgt aaaacagagc tc (2) SEQ ID NO: 2785 materials: (i) sequence characteristics:

(A) length: 492 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2785 sequence description: 1 gagctccagc tttccagctg tcttttgggt gagcctgtct tcctcaagct caagcttcct 61 tatctataaa gtggagatgg tgatgacaat gatgataaga gcaacctatt aggattttaa121 ggatgaaatg agcaactgca accaccatat aaaagctgca agctgcaaac caccatataa181 aagctggttg atctcaagct cttttcatca cttgggcaat agtaggtgtg gatgggggac241 ttaacttgat ttggccatga aatgaccctg ccacatatgg agaatgtagc agttgcttac301 ccaaggcata ggattcaacc aaggccaggc tttgacttag gaatcagaga cccacattaa361 catttgactt cccgcttctt agccatgtca ccatgggcaa atttcttggc ctctcaagac421 ctctgcttcc taatctgtaa actgggaatc ataaactccc tcacttggtt gttgcaaggg481 ttgaatgagc ac (2) SEQ ID NO: 2786 data: (i) sequence characteristics:

(A) length: 2069 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2786 sequence description: 1 ctatcaatct ccagagcttt ttctttttaa gtgtgagcga gtttattaga gaagtaaaga 61 gacccaagag tgcctactcc atagacagag cagccactgt gacactgtac ccattaaaca 121 ctaactctcc attgcccctc cagcaacccc tagcacccac tgtctacttt ctgtctctat 181 721 ctaaaaaatt gcttactaaa gaagtggtct cctgaggtct taagacgttc ctggcaatgt 781 181 gtggttgtct atttgaggga catcacataa gtggagtcat atatttgtcc tttcatgtct 241 cccttatttc atttagcata acgttttcaa gggtttcctg tgttgtgaat atatcagaat 301 ttcattctct ttttaaggta gaatcatatc attttaaaac atttcagttg gaccatctaa 361 gttcagtcct tcattttcaa caattaaaaa acagccctca accgggtgca tctcacgtta 421 gctagagaca gaactggagc tagaagtcag atctcttacc aaagttgcct ttcttcttct 481 gtgggtaagt ggggcaccct tgggacgctg tgctgggcgt acatgggtgc ttgatgaagt 541 tacttggtgg actgatgtga ttgatgtcca acatgtatgc agggacagag gctatggtcc 601 ctacagagca ggcatggaga gaaggagaaatacatacggg caggagccag gagagggagg 661 gtgtagtgag cagagaccgc gccactgcac tccagcctga gtgacagagt gagaatccat 721 ctaaaaaatt gcttactaaa gaagtggtct cctgaggtct taagacgttc ctggcaatgt 781 cttgagtggg tgggagagag cctccagtca ttgagctgtg gaatttcaga ggtgagaacc 841 acacctaacc cccaattact ttcccctgtt tgcctcagtg acacagctgc aggaaccctg 901 gtgggtgttg tattaagtaa atttgacctt tattctttgc agatctgtga aatgttgtct 961 tctgaggggc cacgtgtatc tgtagtgctg aggactcctt ggggcctctg aagtcacaga1021 gagaacctgc agggtggggg accagtgtgt gacagccctg ctttgcattt tctttgagaa1081 gtgctgtcat tttgcatttc tctccaccag gggaatcttc aatcttgaga ggtgtgatca1141 taacttgcct tgtttcttgt cgctacagag aacggaaggc tcccttgatg gaacttagac1201 agcaaggcca gatgcacatc cctggaagga catccatgtt ccgagaagaa cagatgatcc1261 ctgtatttca agacctctgt gcacttattt atgaacctgc cctgctccca cagaacacag1321 caattcctca ggctaagctg ccggttctta aatccatcct gctaagttaa tgttgggtag1381 aaagagatac agaggggctg ttgaatttcc cacataccct ccttccacca agttggaaca1441 tccttggaaa ttgggaagag cacaagagga gatccagggc aaggccattg ggatattctg1501 aaacttgaat attttgtttt gtgcagagat aaagaccttt tccatgcacc ctcatacaca1561 gaaaccaatt ttctttttta tactcaatca tttctagcgc atggcctggt tagaggctgg1621 ttttttctct tttcctttgg tccttcaaag gcttgtagtt ttgggtagtc cttgttcttt1681 ggaaatacac agtgctgacc agacagcctc cccctgtccc ctctatgacc tcgccctcca1741 caaatgggaa aaccagacta cttgggagca ccgcctgtga aataccaacc tgaagacacg1801 gttcattcag gcaacgcaca aaacagaaaa tgaaggtgga acaagcacat atgttcttca1861 actgtttttg tctacactct ttctcttttc ctctacatgc tgaaggctga aagacaggaa1921 agatggtgcc atcagcaaat attattctta attgaaaact tgaaatgtgt atgtttctta1981 ctaattttta aaaatgtatt ccttgccagg gcaggcaagg tcgtcacgcc tgtaatccca2041 gcacttcagg aggctgaggt gggcggatc (2) SEQ ID NO: 2787 materials: (i) sequence characteristics:

(A) length: 2557 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2787 sequence description: 1 gaattccggg agaagtgacc agagcaattt ctgcttttca cagggcgggt ttctcaacgg 61 tgacttgtgg gcagtgcctt ctgctgagcg agtcatggcc cgaaggcaga actaactgtg121 cctgcagtct tcactctcag gatgcagccg aggtgggccc aaggggccac gatgtggctt181 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 181 ggagtcctgc tgacccttct gctctgttca agccttgagg gtcaagaaaa ctctttcaca241 atcaacagtg ttgacatgaa gagcctgccg gactggacgg tgcaaaatgg gaagaacctg301 accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca gcaccagatg361 ctgttctata aggatgacgt gctgttttac aacatctcct ccatgaagag cacagagagt421 tattttattc ctgaagtccg gatctatgac tcagggacat ataaatgtac tgtgattgtg 481 aacaacaaag agaaaaccac tgcagagtac cagctgttgg tggaaggagt gcccagtccc 541 agggtgacac tggacaagaa agaggccatc caaggtggga tcgtgagggt caactgttct 601 gtcccagagg aaaaggcccc aatacacttc acaattgaaa aacttgaact aaatgaaaaa 661 atggtcaagc tgaaaagaga gaagaattct cgagaccaga attttgtgat actggaattc 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 atccatatgc agacctcaga atctaccaag agtgaactgg tcaccgtgac ggaatccttc 841 tctacaccca agttccacat cagccccacc ggaatgatca tggaaggagc tcagctccac 901 attaagtgca ccattcaagt gactcacctg gcccaggagt ttccagaaat cataattcag 961 aaggacaagg cgattgtggc ccacaacaga catggcaaca aggctgtgta ctcagtcatg1021 gccatggtgg agcacagtgg caactacacg tgcaaagtgg agtccagccg catatccaag1081 gtcagcagca tcgtggtcaa cataacagaa ctattttcca agcccgaact ggaatcttcc1141 ttcacacatc tggaccaagg tgaaagactg aacctgtcct gctccatccc aggagcacct1201 ccagccaact tcaccatcca gaaggaagat acgattgtgt cacagactca agatttcacc1261 aagatagcct caaagtcgga cagtgggacg tatatctgca ctgcaggtat tgacaaagtg1321 gtcaagaaaa gcaacacagt ccagatagtc gtatgtgaaa tgctctccca gcccaggatt1381 tcttatgatg cccagtttga ggtcataaaa ggacagacca tcgaagtccg ttgcgaatcg1441 atcagtggaa ctttgcctat ttcttaccaa cttttaaaaa caagtaaagt tttggagaat1501 agtaccaaga actcaaatga tcctgcggta ttcaaagaca accccactga agacgtcgaa1561 taccagtgtg ttgcagataa ttgccattcc catgccaaaa tgttaagtga ggttctgagg1621 gtgaaggtga tagccccggt ggatgaggtc cagatttcta tcctgtcaag taaggtggtg1681gagtctggag aggacattgt gctgcaatgt gctgtgaatg aaggatctgg tcccatcacc1741 tataagtttt acagagaaaa agagggcaaa cccttctatc aaatgacctc aaatgccacc1801 caggcatttt ggaccaagca gaaggctagc aaggaacagg agggagagta ttactgcaca1861 gccttcaaca gagccaacca cgcctccagt gtccccagaa gcaaaatact gacagtcaga1921 gtcattcttg ccccatggaa gaaaggactt attgcagtgg ttatcatcgg agtgatcatt1981 gctctcttga tcattgcggc caaatgttat tttctgagga aagccaaggc caagcagatg2041 ccagtggaaa tgtccaggcc agcagtacca cttctgaact ccaacaacga gaaaatgtca2101 gatcccaata tggaagctaa cagtcattac ggtcacaatg acgatgtcag aaaccatgca2161 atgaaaccaa taaatgataa taaagagcct ctgaactcag acgtgcagta cacggaagtt2221 caagtgtcct cagctgagtc tcacaaagat ctaggaaaga aggacacaga gacagtgtac2281 agtgaagtcc ggaaagctgt ccctgatgcc gtggaaagca gatactctag aacggaaggc2341 tcccttgatg gaacttagac agcaaggcca gatgcacatc cctggaagga catccatgtt2401 ccgagaagaa cagataatcc ctgtatttca agacctctgt gcacttattt atgaacctgc2461 cctgctccca cagaacacag caattcctca ggctaagctg ccggttctta aatccatcct2521 gctaagttaa tgttgggtag aaagagatac agagggg (2) SEQ ID NO: 2788 data:

(i) sequence characteristics:

(A) length: 41693 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2788 sequence description: 1 gaccagagca atttctgctt ttcacagggc gggtttctca acggtgactt gtgggcagtg 61 ccttctgctg agcgagtcat ggcccgaagg cagaactaac tgtgcctgca gtcttcactc121 tcaggatgca gccgaggtgg gcccaagggg ccacgatgtg gcttggagtc ctgctgaccc181 ttctgctctg ttcaagcctt gagggtcaag aaaactcttt cacaatcaac agtgttgaca241 tgaagagcct gccggactgg acggtgcaaa atgggaagaa cctgaccctg cagtgcttcg301 cggatgtcag caccacctct cacgtcaagc ctcagcacca gatgctgttc tataaggatg361 acgtgctgtt ttacaacatc tcctccatga agagcacaga gagttatttt attcctgaag421 tccggatcta tgactcaggg acatataaat gtactgtgat tgtgaacaac aaagagaaaa481 ccactgcaga gtaccaggtg ttggtggaag gagtgcccag tcccagggtg acactggaca541 agaaagaggc catccaaggt gggatcgtga gggtcaactg ttctgtccca gaggaaaagg601 ccccaataca cttcacaatt gaaaaacttg aactaaatga aaaaatggtc aagctgaaaa661 gagagaagaa ttctcgagac cagaattttg tgatactgga attccccgtt gaggaacagg721 accgcgtttt atccttccga tgtcaagcta ggatcatttc tgggatccat atgcagacct781 cagaatctac caagagtgaa ctggtcaccg tgacggaatc cttctctaca cccaagttcc 841 acatcagccc caccggaatg atcatggaag gagctcagct ccacattaag tgcaccattc 901 aagtgactca cctggcccag gagtttccag aaatcataat tcagaaggac aaggcgattg 961 tggcccacaa cagacatggc aacaaggctg tgtactcagt catggccatg gtggagcaca1021 gtggcaacta cacgtgcaaa gtggagtcca gccgcatatc caaggtcagc agcatcgtgg1081 tcaacataac agaactattt tccaagcccg aactggaatc ttccttcaca catctggacc1141 aaggtgaaag actgaacctg tcctgctcca tcccaggagc acctccagcc aacttcacca1201 tccagaagga agatacgatt gtgtcacaga ctcaagattt caccaagata gcctcaaagt1261 cggacagtgg gacgtatatc tgcactgcag gtattgacaa agtggtcaag aaaagcaaca1321 cagtccagat agtcgtatgt gaaatgctct cccagcccag gatttcttat gatgcccagt1381 ttgaggtcat aaaaggacag accatcgaag tccgttgcga atcgatcagt ggaactttgc1441 ctatttctta ccaactttta aaaacaagta aagttttgga gaatagtacc aagaactcaa1501 atgatcctgc ggtattcaaa gacaacccca ctgaagacgt cgaataccag tgtgttgcag1561 ataattgcca ttcccacgcc aaaatgttaa gtgaggttct gagggtgaag gtgatagccc1621 cggtggatga ggtccagatt tctatcctgt caagtaaggt ggtggagtct ggagaggaca1681 ttgtgctgca atgtgctgtg aatgaaggat ctggtcccat cacctataag ttttacagag1741 aaaaagaggg caaacccttc tatcaaatga cctcaaatgc cacccaggca ttttggacca1801 agcagaaggc taacaaggaa caggagggag agtattactg cacagccttc aacagagcca1861 accacgcctc cagtgtcccc agaagcaaaa tactgacagt cagagtcatt cttgccccat1921 ggaagaaagg acttattgca gtggttatca tcggagtgat cattgctctc ttgatcattg1981 20427 461 ggccagcagt accacttctg aactccaaca acgagaaaat gtcagatccc aatatggaag2101 ctaacagtca ttacggtcac aatgacgatg tcggaaacca tgcaatgaaa ccaataaatg2161 ataataaaga gcctctgaac tcagacgtgc agtacacgga agttcaagtg tcctcagctg2221 agtctcacaa agatctagga aagaaggaca cagagacagt gtacagtgaa gtccggaaag2281ctgtccctga tgccgtggaa agcagatact ctagaacgga aggctccctt gatggaactt234 agacagcaag gccagatgca catccctgga aggacatcca tgttccgaga agaacagatg2401 240 atccctgtat ttcaagacct ctgtcc gaattccggg agaagtgacc agagcaattt ctgcttttca cagggcgggt ttctcaacgg tgacttgtgg gcagtgcctt ctgctgagcg agtcatggcc cgaaggcaga actaactgtg cctgcagtct tcactctcag gatgcagccg aggtgggccc aaggggccac gatgtggctt181 ggagtcctgc tgacccttct gctctgttca agccttgagg gtcaagaaaa ctctttcaca241 atcaacagtg ttgacatgaa gagcctgccg gactggacgg tgcaaaatgg gaagaacctg accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca and 301 accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca gcaccagatg361 ctgttctata aggatgacgt gctgttttac aacatctcct ccatgaagag cacagagagt421 tattttattc ctgaagtccg gatctatgac tcagggacat ataaatgtac tgtgattgtg 481 aacaacaaag agaaaaccac tgcagagtac cagctgttgg tggaaggagt gcccagtccc 541 agggtgacac tggacaagaa agaggccatc caaggtggga tcgtgagggt caactgttct 601 gtcccagagg aaaaggcccc aatacacttc acaattgaaa aacttgaact aaatgaaaaa 661 atggtcaagc tgaaaagaga gaagaattct cgagaccaga attttgtgat actggaattc 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 atccatatgc agacctcaga atctaccaag agtgaactgg tcaccgtgac ggaatccttc 841 tctacaccca agttccacat cagccccacc ggaatgatca tggaaggagc tcagctccac 901 attaagtgca ccattcaagt gactcacctg gcccaggagt ttccagaaat cataattcag 961 aaggacaagg cgattgtggc ccacaacaga catggcaaca aggctgtgta ctcagtcatg1021 gccatggtgg agcacagtgg caactacacg tgcaaagtgg agtccagccg catatccaag1081 gtcagcagca tcgtggtcaa cataacagaa ctattttcca agcccgaact ggaatcttcc1141 ttcacacatc tggaccaagg tgaaagactg aacctgtcct gctccatccc aggagcacct1201 ccagccaact tcaccatcca gaaggaagat acgattgtgt cacagactca agatttcacc1261 aagatagcct caaagtcgga cagtgggacg tatatctgca ctgcaggtat tgacaaagtg1321 gtcaagaaaa gcaacacagt ccagatagtc gtatgtgaaa tgctctccca gcccaggatt1381 tcttatgatg cccagtttga ggtcataaaa ggacagacca tcgaagtccg ttgcgaatcg1441 atcagtggaa ctttgcctat ttcttaccaa cttttaaaaa caagtaaagt tttggagaat1501 agtaccaaga actcaaatga tcctgcggta ttcaaagaca accccactga agacgtcgaa1561 taccagtgtg ttgcagataa ttgccattcc catgccaaaa tgttaagtga ggttctgagg1621 gtgaaggtga tagccccggt ggatgaggtc cagatttcta tcctgtcaag taaggtggtg1681 gagtctggag aggacattgt gctgcaatgt gctgtgaatg aaggatctgg tcccatcacc1741 tataagtttt acagagaaaa agagggcaaa cccttctatc aaatgacctc aaatgccacc1801 caggcatttt ggaccaagca gaaggctagc aaggaacagg agggagagta ttactgcaca1861 gccttcaaca gagccaacca cgcctccagt gtccccagaa gcaaaatact gacagtcaga1921 gtcattcttg ccccatggaa gaaaggactt attgcagtgg ttatcatcgg agtgatcatt1981 gctctcttga tcattgcggc caaatgttat tttctgagga aagccaaggc caagcagatg2041 ccagtggaaa tgtccaggcc agcagtacca cttctgaact ccaacaacga gaaaatgtca2101 gatcccaata tggaagctaa cagtcattac ggtcacaatg acgatgtcag aaaccatgca2161 atgaaaccaa taaatgataa taaagagcct ctgaactcag acgtgcagta cacggaagtt2221 caagtgtcct cagctgagtc tcacaaagat ctaggaaaga aggacacaga gacagtgtac2281 agtgaagtcc ggaaagctgt ccctgatgcc gtggaaagca gatactctag aacggaaggc2341 tcccttgatg gaacttagac agcaaggcca gatgcacatc cctggaagga catccatgtt2401 ccgagaagaa cagataatcc ctgtatttca agacctctgt gcacttattt atgaacctgc2461 cctgctccca cagaacacag caattcctca ggctaagctg ccggttctta aatccatcct2521 gctaagttaa tgttgggtag aaagagatac agagggg 1 cccgggttca agcgattctc ctgcctcagc ctcttgggta gctgggatta taggcgtgtg 61 ccaccgtgcc tggctaattt ttgtattttt attggagaca gggtttcacc atgttggcca 121 85121 121 ggctggtctg aaactcctga cctcaggcaa tcctcctacc tcagcctctc aaagtgctgg 181 gattaccggc atgagccacg actcccggcc ccaaaggtca atcttaaagc tacaaggtat 241 cttttaaaag gagtaggaat aacgtatttt gaggcttaaa ggagtaggaa tagtgtattt 301 ttagatttga agccatcttc taaagggtac gatatttggt taacatgtca ctccttatcg 361 ccatggaaga agttaattct attctttttt tttttttttt gagatggagt ctcactctgt 421 39421 421 tgcccaggct ggagtacaat ggtgtgatct cagctcactg caacctctgc ctcctgggtt 481 1 tgcccaggct ggagtacaat ggtgtgatct cagctcactg caacctctgc ctcctgggtt 481 caagcaattc tcctgcctca gcctcctgag tagcagggat tacaggggtt ctccaccatg 541 cctgtctaat ttttgtattt ttttttttag tagaggtgga gtttcaccat gttggtcagg 601 ctggtctcaa acccctaacc tcatgatccg cccgccttgg cctcccaaag tgctgggatt 661 acaggcgtga gccaccatgc ccagccgttaattctattct tactgcttac tcccttattt 721 tgtatgttct tcttctatct tacatctttt gcttttgcta ttgcttaagc tagcctacgc 781 caagggtgct ctttgccccc tacttcctct gctattctcg cctcagttcc gctgcattcc 841 aagctcagcc tgccccagca gcaggtctct ttgacaaacc tgcaattttg gggaaaagtc 901 agccccaaga aaggcagggg gcccagactt atgctgtgtg gcaaaagccc tctttgatgg 961 gggaagggga ggactggaaa agcagagaga tctttctgga tgtcctggga gagcagccct1021 ttgggtggtg ggtggaggct ggaggcaggg aggaatcccc tcacagtgcc atgagaaggg1081 cccccaaacc caggcgagac agagggaggg tcaagaacgc caaggcaaat gtcacttgtg1141 ccttgttttt tccctaaaga aactaaacaa agcggccgcg ttcggtggcc cctcaggaag1201 gccggtcatt tcctgaggag atatcaggcc agcccaggcc ccattgttcc cggtttccag1261 ccatggctgc cattacctga ccagcgccac agccggtctc tctgcaggcg ccgggagaag1321 tgaccagagc aatttctgct tttcacaggg cgggtttctc aacggtgact tgtgggcagt1381 gccttctgct gagcgagtca tggcccgaag gcagaactaa ctgtgcctgc agtcttcact1441 ctcaggatgc agccgaggtg ggcccaaggg gccacgatgt ggcttggagt cctgctgacc1501 cttctgctct gtgagtgttt actctgtttc cacatcactt taactccatg agcatcgaag

1 gaattccggg agaagtgacc agagcaattt ctgcttttca cagggcgggt ttctcaacgg 61 tgacttgtgg gcagtgcctt ctgctgagcg agtcatggcc cgaaggcaga actaactgtg 121 cctgcagtct tcactctcag gatgcagccg aggtgggccc aaggggccac gatgtggctt 181 ggagtcctgc tgacccttct gctctgttca agccttgagg gtcaagaaaa ctctttcaca 241 atcaacagtg ttgacatgaa gagcctgccg gactggacgg tgcaaaatgg gaagaacctg 301 accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca gcaccagatg 361 ctgttctata aggatgacgt gctgttttac aacatctcct ccatgaagag cacagagagt 421 tattttattc ctgaagtccg gatctatgac tcagggacat ataaatgtac tgtgattgtg 481 aacaacaaag agaaaaccac tgcagagtac cagctgttgg tggaaggagt gcccagtccc 541 agggtgacac tggacaagaa agaggccatc caaggtggga tcgtgagggt caactgttct 601 gtcccagagg aaaaggcccc aatacacttc acaattgaaa aacttgaact aaatgaaaaa 661 atggtcaagc tgaaaagaga gaagaattct cgagaccaga attttgtgat actggaattc 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 atccatatgc agacctcaga atctaccaag agtgaactgg tcaccgtgac ggaatccttc 841 tctacaccca agttccacat cagccccacc ggaatgatca tggaaggagc tcagctccac 901 attaagtgca ccattcaagt gactcacctg gcccaggagt ttccagaaat cataattcag 961 aaggacaagg cgattgtggc ccacaacaga catggcaaca aggctgtgta ctcagtcatg1021 gccatggtgg agcacagtgg caactacacg tgcaaagtgg agtccagccg catatccaag1081 gtcagcagca tcgtggtcaa cataacagaa ctattttcca agcccgaact ggaatcttcc1141 ttcacacatc tggaccaagg tgaaagactg aacctgtcct gctccatccc aggagcacct1201 ccagccaact tcaccatcca gaaggaagat acgattgtgt cacagactca agatttcacc1261 aagatagcct caaagtcgga cagtgggacg tatatctgca ctgcaggtat tgacaaagtg1321 gtcaagaaaa gcaacacagt ccagatagtc gtatgtgaaa tgctctccca gcccaggatt1381 tcttatgatg cccagtttga ggtcataaaa ggacagacca tcgaagtccg ttgcgaatcg1441 atcagtggaa ctttgcctat ttcttaccaa cttttaaaaa caagtaaagt tttggagaat1501 agtaccaaga actcaaatga tcctgcggta ttcaaagaca accccactga agacgtcgaa1561 taccagtgtg ttgcagataa ttgccattcc catgccaaaa tgttaagtga ggttctgagg1621 gtgaaggtga tagccccggt ggatgaggtc cagatttcta tcctgtcaag taaggtggtg1681 gagtctggag aggacattgt gctgcaatgt gctgtgaatg aaggatctgg tcccatcacc1741 tataagtttt acagagaaaa agagggcaaa cccttctatc aaatgacctc aaatgccacc1801 caggcatttt ggaccaagca gaaggctagc aaggaacagg agggagagta ttactgcaca1861 gccttcaaca gagccaacca cgcctccagt gtccccagaa gcaaaatact gacagtcaga1921 gtcattcttg ccccatggaa gaaaggactt attgcagtgg ttatcatcgg agtgatcatt1981 gctctcttga tcattgcggc caaatgttat tttctgagga aagccaaggc caagcagatg2041 ccagtggaaa tgtccaggcc agcagtacca cttctgaact ccaacaacga gaaaatgtca2101 gatcccaata tggaagctaa cagtcattac ggtcacaatg acgatgtcag aaaccatgca2161 atgaaaccaa taaatgataa taaagagcct ctgaactcag acgtgcagta cacggaagtt2221 caagtgtcct cagctgagtc tcacaaagat ctaggaaaga aggacacaga gacagtgtac2281 agtgaagtcc ggaaagctgt ccctgatgcc gtggaaagca gatactctag aacggaaggc2341 tcccttgatg gaacttagac agcaaggcca gatgcacatc cctggaagga catccatgtt2401 ccgagaagaa cagataatcc ctgtatttca agacctctgt gcacttattt atgaacctgc2461 cctgctccca cagaacacag caattcctca ggctaagctg ccggttctta aatccatcct2521 gctaagttaa tgttgggtag aaagagatac agagggg

1 tcttttggtt ttgctattgc ttaagctagc ctacgccaag ggtgctcttt gccccctact 61 tcctctgcta ttctcgcctc agttccgctg cattccaagc tcagcctgcc ccagcagcag 121 gtctctttga caaacctgca attttgggga aaagtcagcc caagaaaggc agggggccca 181 gacttatgct gtgtggcaaa agccctcttt gatggggcaa gggtaggact ggaaaagcag 241 agagatcttt ctggatgtcc tgggagagca gccctttggg tggtgggtgg aggctggagg 301 cagggaggaa tcccctcaca gtgagaaggg cccccaaacc caggcgagac agagggaggg 361 tcaagaacgc caaggcaaat gtcacttgtg ccttgttttt tccctaaaga aactaaacaa 421 agcggccgcg ttcggtggcc cctcaggaag gccggtcatt tcctgaggag atatcaggcc 481 agcccaggcc ccattgttcc cggtttccag ccatggctgc cattacctga ccagcgccac 541 agccggtctc tctgcaggcg ccgggagaag tgaccagagc aatttctgct tttcacaggg 601 cgggtttctc aacggtgact tgtgggcagt gccttctgct gagcgagtca tggcccgaag 661 gcagaactaa ctgtgcctgc agtcttcact ctcaggatgc agccgaggtg ggcccaaggg 721 gccacgatgt ggcttggagt cctgctgacc cttctgctct gtgagtgttt actctgtttc 781 cacatcactt taactccatg agcatcgaag cttctggaat caacatgttt cttatgtttc 841 ttgcaggttc aagccttgag ggtcaagaaa actgtaagtc tgatgtttcc actgtaacag 901 atgtttctac ctggcttcct cctttctctt ctgtgatgcc taaaacgcac attaaattgc 961 tggggtttga tacttctaac aattaaggaa aagaatccaa ttgagaacta aagtttatcc1021 catgtgggca tttttagaaa ggcttagatc taagccaagt tctggtcagt gtgttttaga1081 agtagcacac gtttccttgg ctggtctgaa agtagtgggt tatcttgatg aattgtttag1141 tcagttacag atcaaactcc atgttctttt ctctgttctc acgactactc ttgactagtc1201 taaaaatata ttaggttgtt gaaaagtaat tgtggttttt gccattactt tttaaaagat1261 ggcaaaaaac acaattataa gtagcacaca ttttcttttt tttttccttt tttttttgag1321 acagagtctc tgttacccag gctggagtgc agtggtgcaa tccggctctc tgcaaactcc1381 gcctccaggg ttcaagggat tctcctgtct cagcctcctg ggtcgctgga attagagg

1 ttggcaggct ggtctcaaac tcctgacctc aggtgatccg ctggcctcca cctcccaaag 61 tgctgggatt acaggtgtga gccaccacgc ccggcctcac attttctaga tttcagtgca 121 ttgctgtttt ttgggatggg gaagtgattt ttttatttta atgagcaatt ccataattag 181 ttttttgttg ttttaccata atggcttatt tgaatattgt aaggtatccc caactgtttt 241 tatttgcaaa tgagatataa ttgatttgtt agacatatga agacagatcc tagtttaaat 301 tgttgctact ttttttactc ctaaatgata aaaatcacac actcgagctc 1 gctgtcccac agcccaccct tcatcacaat agtcctgaaa ctttttgggt tcagtaagga 61 aatctgtggg ccttctctcc agaaaaagca cacatttgca cacaattgga ggtagttgat 121 gagcctccta acacccaccc atgcacctcc caggggctgt gtcccccagg ttgtgaacag 181 tcactctgtg taaatagtga gacctacagg cagtaattca gtttggctgt gcttggctgg 241 tttatttaga aagatgataa tgttt

1 gagctctcca agggcagaca ctgccagcct cactgttctc tgaaccccca gtatgggaca 61 gtgcttggca cagaaaaacc cccttaaatg tttgctatga atggtgctaa ggaagaaggc 121 agagaatgtc aaccagaggc caggcactgg caatatatac acggcccc

1 ataccttggc tcactgcaac ctctgcctcc caggttcaag cagttctcct gcctcagtct 61 cccaagtagc tgggattaca ggcgcccacc accacacccg gctaattttg tatttttagt 121 agagatgagg tttcaccatg ttggccaggc tggtcttgaa ctcctgacct caagtgatcc 181 acccgcctcg gcctcccaaa gtgctgggat tacaggcata aaccaccgtg cccggctggt 241 cca

1 gagctcatcc agcaggcttc ttaaatcagg agcttgtaag ttgcatataa agacaaaaaa 61 gggagttcca aagagtaatg ctgtgggaaa tgacttgaat ttaaaccgtc accttgtttg 121 atctcatgga ctggtcagac accatttttg ttgtcgttgt tgttgttaaa ttaattgctc 181 agaatatagc agcaggcgca aattgtagta ctcgttttaa aattgaagat taaattttaa 241 attacccaac aaaggcctaa ctttgttaaa ag

1 gaattctacc gacagcctat ggttactgga tataagccaa ttctgttctg gggacttgcc 61 agaaatgaca caattggcca gttgacccac agcctagttc ctagcagaga ttggatagct 121 gattgagcgt tgtggctgtt ttgaggcttg accagagatt cctgccgttg gcagagggga 181 atctgtagtc tttgcttctt ggtagcaggt gaggctgaaa acgcaagtag caggctaaaa 241 actggtttca agtcctcacc atctggtgaa acctcagagc ccatcagata gaaaatgcca 301 gctgggactg tgctaattcg gtaaggcctg ggtggagaag gagggcctgg gcacgaccat 361 ctggtttcgg aatggaggta gcagtcattt attaagtact taatgtatat cgggcactgt 421 acaggagacg ttctggctgt tctcctgtac atttcctgca aagacctaat gagatatgat 481 tactccatcc tacaggtaag gaaactgagc tcagagagtc tagctgccca gggtcacaca 541 gtaaatgatg agccaggact tgaacacttg actgcttgaa tcctgtactc cctccagggg 601 ccaagatgtg gcagctcaca gaatgcctat atcttttttt ttttttgtct tttgagacag 661 tctcactctg ttgcccaggc tggagtgcag tggtgagatc tcacctcact gcaacccccg 721 cctcccaggt tcaagtgatt cttgtgcctc agcctctcaa gtagctgggt tacaggcctg 781 caccaccaaa cctggctaat ttttgtattt ttagtagaga gggggtttca ccatgttggc 841 caggccagtc tctaactgct gacctcaggt gatccaccca ccttggtctc ccaaagtgct 901 gggattatag gcgtgagcca ccatacctag ctctacatct ttatcactct gttcctttgc 961 cttggtggga aaagttgcag cttagtacca actgcctcct gcttgagcca ctgtgcacag1021 ttactatcag cctggccctg taggcacgta gaacccctgg actcaatact gcataggatg1081 ggataagacc acatctgatg tggtgaaggt caccgggatg atgttgtttc tgagataaca1141 ggtatgtctg ccttccttcg ggttgcattt agctttcaca atcaacagtg ttgacatgaa1201 gagcctgccg gactggacgg tgcaaaatgg gaagaacctg accctgcagt gcttcgcgga1261 tgtcagcacc acctctcacg tcaagcctca gcaccagatg ctgttctata aggatgacgt1321 gctgttttac aacatctcct ccatgaagag cacagagagt tattttattc ctgaagtccg1381 gatctatgac tcagggacat ataaatgtac tgtgattgtg aacaacaaag agaaaaccac1441 tgcagagtac cagctgttgg tggaaggtga gtccttggaa ctgagcacag gcaagcagat1501 ggagcatagc acacagtggc gtgaataaca gctgtgaatg aatagtgaca ctggacttaa1561 ctctccaccc atcaccctct cattcatctg cctggcattt tccttacctg aatacgtaag1621 cactagacat attccccaat aggcaggccc ttccttcctt ccttccttcc ttccttcctt1681 ccttccttcc ttccttcctt ccttccttcc ttcctttctt tctttgatgg agtctcactc1741 tgtcacccag tctggagtgc agtgggtgat ctcggctcac tgcaacctct gcctcccagg1801 ttcaagcgat tctcctgcct cagcctccca agtaattggg attacaggtg tgtgccacca1861 cacctggcta attttgtatt tttagtagag atggggtttc actgtgttgg tcaggctggt1921 ctcgaactct gacctcaagt gatccacctg cctcccaaaa tgcttcttca tctcgctcta1981 taaattacaa tttctttctt caagactcaa ctcaatgatg ttttgccaaa acaaaatggg2041 tctaccccag ggtgccagtc agtacagctc tgatgctctc tctacaggca atggtatttg2101 tgtgtataaa ggccacagcg gtgtgttaag acacctcgtt ctgcagtcac tctgcctggg2161 tttcaatctt gggtcaagtc cttaacatgc tctaaacttc aaaatcctca ccagtaaaag2221 gaagataaca acgataccca tttcaggcaa ttattgagag ggttaaaagt gtcatgtggg2281 tagagtgctt agcaaaattt ccagcaccta gtgagttcct aataaataga aatgtattta2341tttatttgag acagagtctt cctctgtcac ccaggctaaa gagcaatggc gcgaccttgg2401 ctcactgcaa cctctgtctc ctgggttcaa gcgattctcc tgtctcagcc tcccaagaaa2461 ctgggattac aggcacgcgc cactgtgcct ggctaatttt ttgtattttt agtaaggatg2521 gggttttacc atgttggcca gcctggtctc gaactcctaa cttcaagtga tttacccacc2581 ttggcctccc agagtgtcag gattacaggt gtgagccacc atgcccggtc cacaaatatt2641 ctatttcact cagtattggc atccgttctt acacatctgt ctgctcttct ggatagtgaa2701 attgtaaaga cagagatggt gtttgggttt attcttatat cttgaacaat gaatctggct2761 catagtaggc attcagtcaa tgttcatgga ataaattaaa gtcagtccta gcctgtgggt2821 gcattcaata aagggtaaca acaatcacag tgacactgac aaatactggg ttacctttcc2881 cctctaagca tcatctgttg ggaatctgat tgtgtcctct tcccaatagg attataaacc2941 attgaaaaca ccaagtacat cttgaccata ttttattttt taaatttatt tatttattta3001 tttatttatt tttagacaga gtctcactct gttgcccagg ctggagggca gtggcacgat3061 ctcagctcac tgcaacctct gccttcgggg ttcaagcaat tctcctgcct cagcctccaa3121 gtagctggga ttacaggtgc ctgccaccat gccggctaat tttgatttaa tagagatggg3181 gttcgccatg ttggccaggc tggtctcaaa ctcctgacct caggtgatcc acctgcctca3241 gcctcccaaa gtgttgagat tacagatgtg agccacctcg cgtggcctta gtggtgattt3301 tggtggaccc atcacccgag cagtgtacac tgtacccagt gtgtagtcat tttatccctc3361 gctccctccc actctttccc ctgagtcccc aaagtccact gtatcattct tatgcctttg3421 tttcctcata gcttagctcc cattgagcat attttatatt ttttcctttc ttttcttctc3481 ttttttgaga cagggtctct gttgcccagg ctggagtgca gtggtgggat tactgctcac3541 tgccgcctca acctcctagg ctcaagtgat tctcccacct cggcctccca agtagctggg3601 actaccagtg cacaccacta actacccctg gctaatttta attttttttt ttgtagagat3661 agcatttcac cgtgttgccc aggctggtct ccaactcctg ggctcaagag atccacccac3721 ctcagcctcc agattttata tatttcaaag tgcctagtac tgtgctgggc acatacctgt3781 tcatttatta cctggtaggt cgcactgggt gttcagagaa caaaaaagag ccctctcatg3841 ggatcaacta cagtcactca gcggagggga gggcttgtgt ctctcaatca ggctgatact3901 gacagacttt cttcttcaat caggctgata ctgacatgac tttctacttt ccccgtagga3961 gtgcccagtc ccagggtgac actggacaag aaagaggcca tccaaggtgg gatcgtgagg4021 gtcaactgtt ctgtcccaga ggaaaaggcc ccaatacact tcacaattga aaaacttgaa4081 ctaaatgaaa aaatggtcaa gctgaaaaga gagaagaatt ctcgagacca gaattttgtg4141 atactggaat tccccgttga ggaacaggac cgcgttttat ccttccgatg tcaagctagg4201 atcatttctg ggatccatat gcagacctca gaatctacca agagtgaact ggtcaccgtg4261 acgggtcagc atctgctccc ttcctcatcg ttctttgtgg tttctggt

1 gttctagaga agaaaggttg aattttaaag ttagttagga acaatagaaa agtttgaaaa 61 ggggaagcag caaaaagagc agaagaggct cctcttgccc aggtttgcac ctgagtccaa 121 ccaggttgtc ttcctctctt gcagaatcct tctctacacc caagttccac atcagcccca 181 ccggaatgat catggaagga gctcagctcc acattaagtg caccattcaa gtgactcacc 241 tggcccagga gtttccagaa atcataattc agaaggacaa ggcgattgtg gcccacaaca 301 gacatggcaa caaggctgtg tactcagtca tggccatggt ggagcacagt ggcaactaca 361 cgtgcaaagt ggagtccagc cgcatatcca aggtcagcag catcgtggtc aacataacag 421 gtagggctgc tgctgccgga gggtgttggc atatggcggg ctcaagaggc caccatgctg 481 caatccagca tggccaaaga gagctgatca tttcctgccc ctgcttatct gaatgaatgt 541 gctcagatgg ggctttggtg ctcgtgggag gaaaccactg cagagcgagt taacagtcta 601 ctgtgcgtgt tgagggtaca ggctccggca ccaaagctta accctgccgc tcactgcttc 661 tgtgaccttg ggtgagttat tgaacgtgcc gcagcgctgt gagatggtga taatgacctt 721 ttaggactgc tataatgatt aatgagataa ctatactgta agcatgagct gagagatttg 781 tacagagtaa gactctgaaa cactggttaa tgttttcatt actctgttat atttctccat 841 cccctgtgac aagcactatg ctagatc

1 gaattccggc ctgtgaatcc atctggttct tggacttttt ttggttggta agctattgat 61 tattgccaca atttcagatc ccgttattgg tctattcaga gattcaactt cttcctggtt 121 tagtcttggg agagtgtgtg tgttgaggaa tttatccatt tctcctagat tttctagttt 181 atttgcgtag aggtgtttgt agatattctc tgatggtagt ttgtatttgt gtgggatcgg 241 tgatgatatc ccctttatca ttttttattg cgtgtatttg attcttctct ctttttttct 301 ttattaggct tgctagcggt ctatcaattt tgttgatcct ttcaaaaaac cagctcctgg 361 attcattaat tttttgaagg gttttttgtg tctctatttc cttcagttct gctctgattt 421 tagttatttc ttgccttctg ctagcttaag gagtttcatt cttgttgccc aggctggagt 481 gcagtggagc aatctcggct cactgcaatc tctgtctcct gggttcaagg gattctcttg 541 cctcagcctc ccgagtatct gggattacag gcgcccacca ccatgctggc taattttata 601 tttttagtag agatggggtt tcaccatgtt gcccaggctg gtctcaactc ctgacctcag 661 gtgatccacc cacctctgcc tcccaaagtg ctgggattac aggcatgagc caccacacct 721 ggccacaagt tgcaaaactt ttctaatcct tgtcattgaa ataaattgga ttaacaagaa 781 aggaaaacct gccattggaa tcctaggcaa agaatgaacc ctagctcctt actggggtga 841 tcgttaggta catgagaagc aaaggaaaac tttttgctgg aagttggaag ttggttctgc 901 caagagcacc tgagccaagg gcctctccag gaagggtctt tagggtggtg gccagacaca961 tctcgctcca ttcccactca ctgtttttca gaactatttt ccaagcccga actggaatct1021 tccttcacac atctggacca aggtgaaaga ctgaacctgt cctgctccat cccaggagca1081 cctccagcca acttcaccat ccagaaggaa gatacgattg tgtcacagac tcaagatttc1141 accaagatag cctcaaagtc ggacagtggg acgtatatct gcactgcagg tattgacaaa1201 gtggtcaaga aaagcaacac agtccagata gtcgtatgtg gtgagtatat tgttgcgact1261 cagaggacat ccggggttga atgggagaaa ggaaatttat ctgcagctgc cgccctctcc1321 ggtctccggt ctgagcagac tcaggcaggg taagaactag agggagagaa gtgcgaaatc1381 aaaggccaaa gaaacaagga ggtattcctg ctcagaacac tgattcactg atgatgatgt1441 ggcctctgac ttgcaagatt ctggcaagat tctgcctcct ggagcaagac ccacccaaaa1501 gttcaggaag gaaacactac ttagtcaatg ttaaactttt cttttttttt tttgagacgt1561 gtcgcccagg ctagagtgca gtggcacgat agctcactgc aacctctgcc tcctaggttc1621 aagtgatctc ctgcctcagc ctcccaagta gctgggatta caggtgccca ccaccacgtc1681 tgcctaattt ttgtattttt atttttatta cttttattta tttatttatt tatttttttt1741 cggtctgtca cccaggctgg cagtgccagt ggcacaatct gggcatcact ggaaagcatc1801 cgcactcctg ggtacacgag cattctcctg cctcagccct cccaagtggg tgtggactac1861 aggacacacc gt

1 tcacttgagt ccaggagttc aagaccagcc tgagcacata gtgagaccct gtctctacaa 61 aaaataaaga attagccagg tgtggtgtgc acctatagtc ccagctactc gggaggctga 121 ggtaggagga ttgcttgatt ctgggaggtt gtagtgagct gtcatcgcac cagtgcactc 181 cagcctgggt aatagagtga gaccctgtct caaatacaca cacacacaca cacacacaca 241 cattttgttg gctacttgtt gtactttttc tatgttttct gtgtctttgc tcaacacaag 301 aaaagtatat tatgtgtgca tgtgcgtgtg agatatggta aaatatgaac atgtatttct 361 ggggatgtaa tgttttcctt gaatttctgt cattctctgt tttgcttatt gtacttctct 421 ttccctttcc cttctcacca cacacacaca cacacacaca cacacacaca cacagcctgt 481 cagtctcata ggtgtcctat aaaggtaaat ggcaggcagg catttgaaat tacagcaggg 541 atagaaagca aaactcaggc tttggaggag gaacctcttg tgctggatgc tttgttttta 601 ccttcagtgc cttttggatt gtttctccct ctgttctaga aatgctctcc cagcccagga 661 tttcttatga tgcccagttt gaggtcataa aaggacagac catcgaagtc cgttgcgaat 721 cgatcagtgg aactttgcct atttcttacc aacttttaaa aacaagtaaa gttttggaga 781 atagtaccaa gaactcaaat gatcctgcgg tattcaaaga caaccccact gaagacgtcg 841 aataccagtg tgttgcagat aattgccatt cccacgccaa aatgttaagt gaggttctga 901 gggtgaaggt gataggtaag ttgctgtgct gtgagaagaa atcatgtggg cttggggcat 961 tctttcaccc ccagggactg tggggacaat aagagaagta gggggccagg tgcggtggct1021 catgcctgta atcccagcac tttaggaggc caaggccggt gaatcattga ggccaggagt1081 tcaagaccag cctggccaac atggtgaaac cccatctcta ctaaaaatac aaaaattagc1141 tgggcatgat ggcgtgcgcc tataatccca gccactcggg aggctgaggc aggagaattg1201 cttgaaccca ggaagcacag gttgcactga gccaagttgc gccattgcac tccagcctga1261 gcaacaagag cgaaactcca tctaaaaaaa aaaaagcgag agaagtagtg ggtgcttatg1321 caaagtccat atactagata tgcaccaaag cagggccaag gttcagtaaa ggaggctgga1381 aaatatttgg gggctattga tgaggacaat ataatctctt tccagaacct ttcaacaaac1441 tgctaaaaga tgataagcat gaaagtgtcc tgactgcagg aagcactgaa gttgtgcata1501 tgggcttccc ttagcacttt ctccttttca gatacactgt tctgagaatt gtagatcagg1561 actctgctgt tgtgactcct agccggggaa ccctgccttg tgtgaattcg agattagcct1621 ggccaacatg gtgaaatcct gtctctaata aaaatacaaa aaattagctg ggtgtggtgg1681 tgggcacctt taatgccagc tactcgggag gctgaggcac aagaatcatt tgaacctggg1741 aggcagaggc tgcagtgagc caatatcatt ccgctacact ccagcctggg caacggagca1801 agactccatc tcaaaaaaaa aaaaaattaa cattacatag actaagcacc taatggtgtg1861 aggcatacaa aaaagaagac atattctttg tttcaatgct gtggtaagaa acacaagctc1921 tcctaatgaa aatgatggac aaacatctga atcatactac caataagcat agaaaaaatg1981 ttgggggtca tgtttggttg tcacgtgaac tatatcctta cagtgatggt gatagtaatt2041 tagggtatgc cagacttcat ctagcttaag tgggtaaaca ttgtgaaaaa gctgggctag2101 gtgccagggc ttgagaatgg gtggccagag aaggctgaag atggctgaac atctccagca2161 aacacatgag ccaaaaggtc ccatggggca cttcaaaaga ctgtgcgcag ccaggtgcgg2221 tggctcacgc ctataatccc agcactttgg gagaccgaat ggggtggatc acttgagccc2281 agaggtttgt gactagcttg gccaacatgg caaaaccccg tctctactaa aaatacaaaa2341 attagcccag cgtggtggtg ggtgtcctgt agccccagct actcaggtgg ctgaggtggt2401 agaatcactt gaatccagga ggcagaggtt gcagtgagcc aagatcgtgc cactgcactc2461 cagcctgggt gacagagtga gactctatct ccacaaaaaa aaaaaaaaaa aaaaaaatta2521 aaggactgtg gccaaatcag atggctggaa acaaaggctg gagtttggga atggagaatc2581 accggatatg agctgaaaaa gtggctgagc ctaagcgtga caggtgtcag gtgccagtct2641 caggagtagg caattgtcct gcatgcagtg aaaagccaga agatggaagg aaggacagga2701 tgcaaatgag ttctcggaac gatccacctg gtggctgggt cagggagcag gcatggtgac2761 ttcagacctc atggtacgtt agaggctaat gtgaagccca tgtgaagctg ttggtttaaa2821 ctgggtcgat atcagtggca cacatttact gaccatgtgt ccagccctgt gtgaagtact2881 gtagtaaatt gctccaatgg aaactcacaa taaccacaga aggccagtaa cagcattgtc2941 gttattttat catgacgcaa ctgaggctta gggcagacag ctggtgggtg gtgggactgg3001 gatttgagcc cactggtgtc ccaggcccgg agcttggctt cttccattgt cttaccacag3061 cctgcactca caggagagtg actcataagt tacaatacca tctgctgacc atctgctctc3121 acactagaag gaaagtctac ttggggagac aatttaggat ccgaattttg gtagttgagg3181 atggagctag gaaaagcgga tacaggaggt agccaagttc tgcttggacc tgcagggagt3241 gaggctggcc gggctccagg tggaaatccc caggtgaaaa gggagacttg gagttcagga3301 aagtaacctg gactggagcc ataggtttag gtgtcagtggctcagagaca gaagctcagc3361 gtgtaggtga aatcacccag gaggagaatg gggatggaaa actgaggatt gaattttgca3421 aaatgttcat acttccgggg aaaacaaaga ataaccagtg aataagaaag gggtgccagg3481 taagaaggga agagaatcag agtcatgagg aaccccagaa ccccagaaaa agctgagttc3541 cacgtaagac ctgggcaaca gtgaagtatg gagagcccaa gattgggagc gtggaggaag3601 agcatccacc actgaattta atcagccccg gactcaggga cgttggttgg ggaatcaagt3661 gaccttccca gtttcttcaa aacttgagag agagtgcagt gtcacaagat tgtgactaca3721 aaagagtgca gtcagatttc aggggtaaca agaaagtgtg aaataaggga gtcaaagcat3781 aaaggaaaaa ggagaaaaaa tggccgatag ctagagaagg cgtgggtcaa gattgtctgt3841 ggcctggcat ggtggcttat gcctgtaatc ccagcatttt ggaaggccga ggtgggcaaa3901 tcacctgagg tcaggaattc aagaccagcc tggccaacag ggcaaaaccc cgtctctaaa3961 acaacaacaa caacaaaaaa atccaaaaag ttagctgggc ctggtgggcg cacctgtcat4021 tccagctact cgggaggctg aggcaggaga tttgcttgaa cccaggaggc acacgttgcg4081 gtaagctgag attataccac tgcactccag cctgggtgat aagagcggga ctctgtctca4141 gaggaaaaaa aaaaaagttg agcagtggct gtctcatgtt cctcttcctc tgcccttctt4201 tgctcagtgt gaatcctttt cctgcttttc agccccggtg gatgaggtcc agatttctat4261 cctgtcaagt aaggtggtgg agtctggaga ggacattgtg ctgcaatgtg ctgtgaatga4321 aggatctggt cccatcacct ataagtttta cagagaaaaa gagggcaaac ccttctatca4381 aatgacctca aatgccaccc aggcattttg gaccaagcag aaggctaaca aggaacagga4441 gggagagtat tactgcacag ccttcaacag agccaaccac gcctccagtg tccccagaag4501 caaaatactg acagtcagag gtgagtcagg gtctccatag caagctgtgc tgtgggcccc4561 caagggcaag accagaaaac accccccttg taagagggag tttgggggga gtctagctta4621 tgtgactgaa ggctaggaga gtaatgtcct ccaggctctt ggttgcaagt gacagaaacc4681 cactcaaatt aagtaaaaaa gagaaatcga ttattataag gaattgggag aatgtcacat4741 cgttccaatt acaaattgtt ggcagactca ccattgagtc atcttgggtc aaacatccaa4801 ccacagacca cctgtagcca aggggattgg gtcacgcaga acagacatga ttggggaacc4861 acttatgtgg gtgtgggggc ggtttcctgg agaagaagag ggctgaaaac acatgccaaa4921 aaggagtcta ctccacttga gccctggagt tggagaccag cctgggcaac atggtgaaac4981 cctgtctcta caaaaagtac aaaaataggc tgggcgcagt ggctcatacc tgtaatccca5041 gctactcggg aggctgagac atgagaatca cttgaaccca ggaggtagag gttgcagtga5101 gcagagcttg ctccactgca ctccagcctg ggcaacagag caagactctg cctcaaaaat5161 caaaccaaca aaaaatagct gtgtgtggtg gtgtgctcct gtagtcccag ctactcggga5221 ggctgaggtg gaaggattgc tcaagcccag gaagttgagg ctgcagtgag ctgtcatcag5281 cctctagcct gggtgacaga gtgagaccct gttcaaaaag aaagaaaaag aaaagagtct5341 acccagcaaa gctggtttgt tccctccttg aggaccacag ctgacctcta tttgtagcag5401 aaacaatcat ttctgcacca gctctgagtg cagaacccct cagaggtaga tggatgctaa5461 ggcaagctgc cagttacaag agctgtgaga atcagactga cttttgttgc ttaaggcctg5521 atattatttc ttcctggcag aggaagagcc tatatacaaa aaaaattttt tgttttgttt5581 tgttttcagt cattcttgcc ccatggaaga aaggacttat tgcagtggtt atcatcggag5641 tgatcattgc tctcttgatc attgcggcca aatgttattt tctgaggaaa gccaagggtg5701 agcatagttc tttccttcca tactgactgg tcgtccttgc caggaaacca gccagggatg5761 cgtggtgctt ttctgacccc tggattcagc taggcaaaaa tgaaagctat tattttcctc5821 attgggcaaa ccagaaaaga taaaatttgg gggaaattac atctttgtgt ggttagaaga5881 agccatttct gtagatttgt ccacacctag tcctgtaatg cgtgtagagt ggggtgcaag5941 cgtcttggag acacacaaac atgcgcataa cacccacatg ttgcacacac acattg1 acctctttct tttctgtctt ttgaaaaaga gtgaatatat ttgccttctt tttctctctt 61 tttctgggta ttcaatcttc tgggaagtcc aaacgtagct gaaaagagtg ttccttcaca121 gcttactagg agtaaaacaa aaagaaaaga aaagtgtttt ctatctatta ggttagtgca181 aaagccattg gcgttttggc cattatagtg gtatggatgt gggtactgta tactgacttt241 ggtttttcgt tttctgtttt taaagccaag cagatgccag tggaaatgtc caggtgagtg301 tatttgtaag aagggggcgg ctgctctgtg agcacggtgg acatgtctgg agggagattc361 tggtcattag gaagttttca gtggctcttg gcaaacttag aaaaatatag gccttccttg421 ggtgtgagtt gtgtgtgtga gttgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtatctc481 cgtggaagaa tgccaattgt cctttcatgg gaaggaatgg cttttattct gagatcatgt541 ccttcctaca tgattatttg tgaaatctcc ctttctttat gaaattataa tggtagtaga601 taatttttta aaatttgaca aaatagagtt ggcctttaaa aaatggtttt actaccttta661 ctgttgttga aatcccaaat caaaagtata gaaatgattg ctctgttcca gagagaaaca721 gtagcgtggg ataagaattt cagggggctt ggtagtagcc tgtgaaggac tccggtattc781 atgtgtgctt tggtctgatg ttatttaata ggaaagtt 1 aaaaaaaaaa aaagtttttt tacataatcc ttggagctgc caaaaaatat ttgttttcca 61 aatgagagag taaagttttc cttaccttgg aaaactcttc ctggttttct catgatcttc121 ccttgtttac tttggtggtt tggggttaga acaataacaa caacaaatat atctatatat181 tgttttctgt ttttatattt cattttaaag gccagcagta ccacttctga actccaacaa241 cgagaaaatg tcagatccca atatggaagc taacagtcat tacggtaaag tcatgttctc301 ctgccattta taattccccc caacttgcta catacttcct tacccctctc agaagcagaa361 tatgtaagtg gtgggattac agttggaaga gaaaccctgg cttcaacagg gtacttcatc421 tcatcagcca ctgggccatg taatatacgg aaacgtaaaa ggaaaggtaa catattttat481 tctaactttg ccaccttcca aactccccgt agaagaaaga tggagaataa tcataatgcc541 ttcaaagact ttgaacattg ctccagcgta atattataat tctccatttt caagacagag601acagatattg aatgaaacat tggtaaacat cttctcagat ggaattatta caagcacaag661 acagttttac ttcaaatttg gcacaaaggg aaagcaattt caatattctc tcagtaaagg721 cataaataaa gtgttccaac taagaaaata tctattcata aggctcatca gtagcttcag781 ggtcagctca gctgaatgag taggcagtcc taggagttct taatcccagg ttagtaagaa841 aattgctcaa gcatttcagc aggatgctac ttacttccca gaggggggta ttattacatc901 acaaaaagtc ctgtcccaga ccaaatttgg ggacactctt cctctt 1 atagccacga ctcaaatata ttgatcttag aatctaaaag acttaggtct gggcgcggtg 61 gctcacgcct gtaatctcaa cactttggga ggccgaggta ggtggatcac ttgaggtcag121 cagttcaaaa accacctggc caacatggtg taaccctgtt tctactaaaa atacaaaaaa181 ttagctgggc atggtggtag atgtttataa tcccagctac tcaggcaggc tgaggcagga241 gaataccctt gaacctggga ggtggaggtt gcatgacctg a 1 tggacctcaa catgcacacc agtccgagca acaagagcga aactccatct caaaaaagaa 61 agaaagaaag aaactatatt caggccaggc atggtagttc atgcctataa ccccagctct121 ttgggaggct gaggtgggag gatcattgag cccaggagtt ggagaccagc ctgtgcaaca181 aagcgagaca tggagaatgt ggaacgaggg acccaggacc cagagacagt gctggttgtc241 actacactga ataaatcagg cttgactttg ttaggggtac tgaattttta aaagggtttt301 agaaaactag aatttccctt gtcactcacc ctaattgtta tttttcaact aggtcacaat361 gacgatgtca gaaaccatgc aatgaaacca ataaatgata ataaaggtaa ttatctaatt421 acatgttttt attagaacca acttttacat taaaaaaaag actcatagga aaagaaaact481 aaaacttgaa ggactgtgga taatttccca cctctcttaa tgaccctgta cccagccgat541 gtgtcaatga aggtagctag ctgctttcac cagagatgct atctagtgtc ctcagtggga601 agtacctaaa tcaaagtagg gaagaactgg gttatactca aaaaa 1 acaacaactc tgtggtttct ttaggcagag cctctgaact cagacgtgca gtacacggaa 61 gttcaagtgt cctcagctga gtctcacaaa ggtaagtgcc actcgagtga gtccccaggc121 attcgctttg gcttgggttt aaaccccagt ggtggcgggg gtgctgtgtt cagtgagaag181 agtctgtgca ccctcagtcg ctccaaagga agtgattagc agacctaccg gcctgctaag241 actggaagga gcaaggcccc tggcctggcc tgtctctgag ctgtaaaatt tcaataattt301 aaaagaaaaa aagaaaaggc caggcactgt ggctcacacc tgtaatccta gcactttggg361 aggccaaggc gggtggatca cctgagatca 1 tatattttat atattaatat ataaatataa atacatatat aatatataat atatgttttc 61 tttgtgtata atatatattt tataatattt tatatatttt tattttttat ttttatatat121 tttatatata atatttttat atttatatta tttatatatt ttttatttta tatatatata181 tatatttttt tttttctttg ttgagacgga gtctactctc tgcccaggct ggggtgcagt241 tgcgagatct

1 tgcaaacctc tgcctccggg ttaaagcagc attctcctcc ctcagcctcc cgagtagctg 61 ggattacagg catgtcaccg ccacagccgg gtaatttatt tatttttttt ttgtattttt 121 aagtagagat gggatttcac catgttggcc agcgtgaact cgaacttctg acttcaaaag 181 atccaccccc ctcagcctcc caaagtgctg ggattacagg tgtgag 1 gaattcaatt tgagttttcc agacccgtcc tcctccttgg cagctaagga gcagtgtggg 61 aagtcaggcc tgagcctcag gtgttccctc tctgccttcc tgtgggtgga gagccaggta 121 ttaccaggta cgaaaagggg ctttgtgggt acaaggctca gtggtgagta catttgacct 181 ggtcttgacc aagccagttc cctgctctca agacttcctc ctcctatgga ggaggggttg 241 ggaaccacat ccagctctga ccctagtggc aggcgaccaa gtggtcactt ggggtggagg 301 aggggcagga aggaactcag taaatcctgg tttgctgcat gtttgctctg agactaattg 361 ctgggaaaac cccatgacgt tggaagccat ctccttctct gttatcacag agaaaaacag 421 aagccaaaat aaagccccat ccggaaacat ccctgacagc agagacaaag agcctgccag 481 cctggtttac tcattagcaa gcagctgctc cctggagtgg gtggggagga gaggtagtga 541 tgagctgcaa ctctgcctgc ccacccatca cttaactggg cagatttggg ggcagctgca 601 actctagaag ctccaccaag aagcagaacc ccccaggccc aaacaccaag ccctctccct 661 ccatttattc ctcacctgcc ccagccccca ctgtgggcct gggtgggagg gtgagctggc 721 cgtgaccacc ccaccatgcg cctggtatat ggtgtttgat agcatttgtt gcagtgtctg 781 cgttgtttgt gcacctgtct gcctcacagc ctggagctcc tgaaagctgg ggaccaggcc 841 cgatcacctt tcctcttcca cagtgcgggg ttcacactag gtgtctagga ttctgctgag 901 tgagtgattt ggccaggcct gacatcaagc agagggtgtc ttggggatgt ggaggatccc 961 ccaatagggt tggggatccc tacagcttcc cttgagggcc ccacatctgg tgccacagaa1021 agagagtgag gggtgtgtgg gcatctctgc tgtcccagca gtgtggtgcc ctggtagctc1081 agccactcta ctgagttcca aatcctgttt gggtgccctg ggggaagtca gtgtaagggc1141 ctagtca

1 aaggagggaa atccacttga ccatggcaca ggaacccccc ttacccaatc tgggccttcc 61 ctttccccca tctgtaaaag gagaacagtg cccacacgac atcagcctct tttcctacag 121 tgagccttcc tggccctttg tgcagtagac aggagctggg aagtgcccag gttccatcct 181 gtttcctcag ggttggtggg tatgtatgtg tgtgcacacc ctgtgtgcat gagtgtgtgc 241 acacccagat tgcatgtttg tacatacagt gtgtatacaa tgtgtgtaga cacatcctat 301 acactgtatg agggtataca tagcatgtat acacattgtg tgcatgagtg tgcgtgtgta 361 tatgctgtgt gtgtattttt gtatacacat cctgtgccca taccccagtg taaggtaaac 421 agatggcagg aagggcgccc ttgagtctcc tccaggtata cgccacaccc tgggtcagtc 481 atcatgctgc catattgaga gggtctagcc cagaggatct cagccctgtc tgcatattag 541 ggcccctgag gagatcctaa aaaaccagca ccagggaccc ccccagacca atccaaccag 601 aagctgcagt gaggcccagg agccagcagt gaaaacagcc agcccagctg tctatctctg 661 taagagttct cagtcccagc tattcctagg gtcactgaca acccccaggc tctaacccag 721 acctcaggat cttgttctgg atcccggggt ctgggctctc aggtgattgg gaggccatag 781 cccaaccctg cgttgaggga cctggcagaa tgtctggaca agggtcacgg tggcagggga 841 agaggagtgg gggcagcaag ctggaggctg caggcccttg ctggggggct ctccatccgt 901 gggcccctca ggtccagggg ttcctctggt gcatgtggcc ctgctccaca atggcctgct 961 gacctcctat tcccagactg ggagtgacgc tcgttagacc aagacctcct tcttcttctt1021 cttttttttt tttgggaggt ggtgtgtcac tgtgttgccc aggctggagt gcagtggcgc1081 aatcttggct cactgcaacc tctgcatcct gggttcaagc gattctcgtc ccttagctct1141 cgagtaactg ggatcacagg gacgcaccac catgcccggt taattttttg gaatttttag1201 tagagacggg gtttcggcat gttggccaga atggtctcaa cctcctgacc tcaagtgatc1261 ttgccccctc aacctcccaa agtgctggga ttacaggtat gagccacctt gcccagccag1321 gatcttctaa catcagaaat gacaaggtct ctgggtgctt ctggacctgg ttctggtggg1381 gtgcagtggt ggggtacagc cttgcctgca gagcctcaga ccttttccta tgactgcagt1441 ggactgacct cgttcccaga ggcagctact aacttatgcc tggtcctttt tccagatcta1501 ggaaagaagg acacagagac agtgtacagt gaagtccgga aagctgtccc tggtgagtga1561 gggtctccag tgccccagcc tgggggatgc cccctataat cactgatggg ggcttgggag1621 tgggcagaga aaagaagaag caaagaaggg caaaaaaggg gtggcacctc ttacaccagc1681 gctgtgggct tcctctctcc caccaccctt aaaaagtcac ctcgggtcac atttactatt1741 catgtagtca acgagcgctt cttgaatgct tactgacccc agccggtgac ccttacctgc1801 tccccacaca ggccctggtg gctggggttc cccaaggtct tggacgtcga gtgttttgct1861 ttggagaccc ccagtagctt cagcctttct tcttgttttc ttttttctct tttttttttg1921 gggatacgga gtctcgctct gtcactcagg ctggagtgca gtggtgcaat ctcgactcac1981 tgcaacctcc acttcccgga tttaagtgat tctcctgcct cagcctccca agtagatggg2041 attacaggcg cctgtcacca cactcagcta attttttttt tttatatttg ggagacagag2101 tttcgctctt gatgcccagg ctggggtgca atggag

1 tgctgggatt accaagtgtg accccccgcc ccagcagctt cagcttttct gacaagaaga 61 ctgactttgg gagtgggtgt gggtttgcgg atctactcta tttcctttgg ttcggctgcc 121 cccacttcgc ttcccgtgac gacccactgc ttactcatga aagggcttcc cccagagctg 181 agcacagagc ttaagcagac ccggaactgg gggagctcaa caagtccttt ttttcggtgg 241 gggggtataa taactgtatt caattcaggt gaaatgaaat acacaatgac aacttttaaa 301 ttctgaaggt aagtcagcaa tccgaaagac gtaaacattg tgggggaaat agtgactgtg 361 tgagtatctc gctttgtaca gcagacctct atttaagtgg gttcttggaa agggaatcat 421 taaaatggtc caggacattt ctgcaaaggg tgcctactca gcctaggcgt ggtggctcat 481 taagcactca gtaagtgctt tatttattta ccccaaataa ataaataaat ataaaaggat 541 gactcctccg agtacagtcg ccaaaccagc agcagcaatc tcgggcccag cccagaccca 601 caaaactagt ctctggaatc tgaacttagc cagcttcaga tgtttctgat gctgccaata 661 tttgagaagc actgtttgtg ttttgttttg tttttttgtt tgaaacagag tctcactctg 721 tcacccagac tggagtacag cagtgccatc tcagctgact gcaactccgt gcaacacccc 781 ccagccccta aggcttaagc gatcctccca agtagctaga accacagaca cacaccacca 841 tgcccagcta agtttttgta tttttggtag agatgaggtt ttaccatgtt gcccagactg 901 gtgttgaatt cctgagctca agcaatccac ccccttcggc ctcccaaagt gctgggatta 961 caagcgtgag ccactgtgcc aggcaaaaag cactgtttta gaagaaccat ccaattctct1021 gaggaccctg ctttttatct gaaatagcga tcacttctta attcactttt aaaagttggt1081 atatctacaa gaagaataga aactcaaccc ttgtggaact tgaccctgaa taatttttga1141 aaaaccaatt ctctggggaa tttttagctc aaatacctca ttt

1 aaaaaaaaaa aaaaaaagaa gaagtagttt ctgcttttag tcagataaac aagctctggg 61 gagacttcct tctacatctg aaccagctca aaacaatcct tatgccaaag gggcatattt 121 tgtggtggca tattctgatt tccttcatct gctttagggc agctggctgt tcaagtgggt 181 tctctcgggg tctccaggtt ggttctaga 1 ctttctttct ttcctttctt tttttttttt ttgagacagg gtcttcgctc tgtcacccag 61 gctggagtgc agtggcgcga tcgcagctca ctgcaacctc cagctcccgg gttcaagtga 121 ttcttctgcc tcagcctcct gagtagctgg gaccacagct actgccacca cccccgggta 181 attttttttg tatttttagt agagacggtg tttcaccata ttggtcaggc tgatctcgaa 241 ctccagacct caggtgatcc acctgccttg gcctcccaaa gtgctgggat aacaggtgtg 301 agacaccacg cccggccaga tcatat

1 gatcctatct acgggaaaca tgaagagtaa tattctactg tggcctgggt gaccctgggc 61 aagtcataga gcctctcaag accttggtca ccttctctgt gagatgaggt atgggctgga 121 ggcaggtcag tggtcctcgg gctttattaa aacatcaata gtttggcgca ccccactccc 181 tgtgaatttc ccattcacta ggtctggagc ggtgccgaaa acgtgcattt ctaacaggtg 241 tccacacgca gctgctcgcc gacacgctgg ggcccgggct ttgagaacca ctcttgatgc 301 agcatgttcc tttctgattg tgccacgcta aggctctgct tcttgttgga aggagtaggg 361 tctttctcac cctccagaaa tcctggaggg atctttcagc attggtgggc aggtaaaacc 421 cagaaacact gtgcttatta gagggaaggt tgtattgagt gacccccaat aaaacagggg 481 gcccagggcc gcgcgcagtg gctcacgcct gtaatcccag caatttggga ggctaaggcg 541 ggcggatcat gaggtcagga gatcgagacc atcctggcta acacggtgga aaccccatct 601 ctactaaaaa tacaaaaaat tagctggacg tggt

1 agataagcaa tagggcatgg gcaggcctgc ctccaaggag cagccccagg gccgaggaga 61 gagagctggc gctggcccag gggacttgag tttgatggga aagcttgcag acagtggggg 121 agctgcctgg tctttccagt cttggctttt ggctctaagc acagcttttt tttttttttt 181 tttaattgtt gtatcatgag gcgccttcca ctcagctgcc tccccacgtt aggggatgga 241 cacagcactg gcagggatcc tgtgtgtctc agtttcccta ttgactctct gtggcctaga 301 gatgtatggt agaattccac actatgcttt ttttccaccg tgtttttttt tttttttttt 361 tttgagacag ggtctctctc tgtcacccag gctggagtgc agtggcgcaa tcttggctca 421 ctgcaacctc cacctcccca ggcaggcccc tctgactcag ctgggactac aggcatgcac 481 caccagcacc cagcaaaata tttttatatt ttagtagaga tggggtttcg tcacattggc 541 caggctggtc ttgaactcca gagctcaagc aatccgcccg cctcagcctc ccaaagtgct 601 gggattacaa tgcccagccc actttttttt ttacttttta caattttatt cttaaaattg 661 tggtaaaaca catatcacat aaaatttacc attttaactc taagtatcca gctcagtggc 721 actaagacta cacttttggt tgtcatagcg tggtgaacag agaagagaat gctactgcgt781 ctcgtggaga gaggccaggg gataccgcta aacatgcgac aatgcacagg acagtcccct 841 ccccaccaca aaacaccacc cagcccaaaa tttcaacagg gccaccatgg agaaaccctg901 gccagaggaa ttcacctcct gcaactcctc caacaggaga gctggttttc ctctccagta 961 ccagcttgtg gctgccctct gtcttgggag ggtgacttaa gggcacatcc cacctgatta1021 ctgtgggctc tggatgggtg ctgagtcttg gtctggggaa cag

1 aaattaccca ggcatggtgg tgtgcgcctg tagtcccacc aacttgggag gctgaggcag 61 gagaattcct tgaatctggg aggcggaggg tgcagtgagc cgagatagtg ccagctgagg 121 caggagaatt ccctggaggt agaggttacg gtgagccaag atggcgccac cacactccag 181 cctgagtgac aaagcgagac tctgtctcaa aaaaaaaaaa ataaagaaaa ttttaaatga 241 agtgccaggg actttatgcg catgtcatgt ggagctagct acagggtccc ggggaagctg 301 tcttgcacaa aggagccata aacctctaag ggcactgccg gctgatgtct cctggctctc 361 gcctcctccc tcttttctcg acctgctcct gaccctgtga tgttgttggg gcagttgaac 421 tgggttattt gcgttgctca ctgccatgtc atcctttgtt ttgtagatgc cgtggaaagc 481 agatactctg taagtacaca tttcatatac attatattta aaagtactcc actgaacagt 541 gaaatatttc cagactcacc cacgcctgca ttcacacgaa ttcttccccg ctccctagcc 601 tgttcagacc agaagccctg ggcttctctg actagccttg gccagttctg atttcgaata 661 ttctctcctg caatttccat cattacatct cagcccacac gtgaagggat tgggactctg 721 gggtgcttag cgccaaacaa gcaaagcaca catttcgttt aacgccaaag tctaggctct 781 ggaagtgagg cagatctagg gtgtatgctt ggaggagtgg agcagctgac agctcattgc 841 aatttagccg atactaatta ccccctacac accaggccat cagctgcagg aggacaccca 901 agcttcttga cctcagttca ccttctgatg agggaatcag acatgtgatc acttatcata 961 aagccaagtg agctatgcca gagcctatgg gaacacagaa cagagaccta gctagtgccc1021 tcttccccaa ggaatcattt ggaatggccc atgaagaatg aatggagtga tgatgccagc1081 attgagggag aaagatcagc aggagcacaa gggtgaggga tgaccagttt caagcagtgt1141 gggatgggaa agaagagtgt gacagtgaca agtgacggga gaaagataag tcagggctta1201 aatccaaagg atttacatcc cttgttaaga agcttcattc tgtaggaaat ggagttagga1261 atctgcattt ggcagatggg agggtttatg aaagacacag aggcccacgt tcaacttttg1321 caaagacgtg tcttccaatc ccaacctttt tgtgagctac ccagcaatgc aggagttaac1381 tgggcagcta atatctgaag aaatgaggca tttgccgcat aaacttcttt taggtctggg1441 aagaactttc agcaaagatt tcaggtagct cttccagtgg cccctggctt cctttgtttt1501 gcccatgtca ggactcttgt aaaacagagc tc

1 gagctccagc tttccagctg tcttttgggt gagcctgtct tcctcaagct caagcttcct 61 tatctataaa gtggagatgg tgatgacaat gatgataaga gcaacctatt aggattttaa 121 ggatgaaatg agcaactgca accaccatat aaaagctgca agctgcaaac caccatataa 181 aagctggttg atctcaagct cttttcatca cttgggcaat agtaggtgtg gatgggggac 241 ttaacttgat ttggccatga aatgaccctg ccacatatgg agaatgtagc agttgcttac 301 ccaaggcata ggattcaacc aaggccaggc tttgacttag gaatcagaga cccacattaa 361 catttgactt cccgcttctt agccatgtca ccatgggcaa atttcttggc ctctcaagac 421 ctctgcttcc taatctgtaa actgggaatc ataaactccc tcacttggtt gttgcaaggg 481 ttgaatgagc ac 1 ctatcaatct ccagagcttt ttctttttaa gtgtgagcga gtttattaga gaagtaaaga 61 gacccaagag tgcctactcc atagacagag cagccactgt gacactgtac ccattaaaca 121 ctaactctcc attgcccctc cagcaacccc tagcacccac tgtctacttt ctgtctctat 181 gtggttgtct atttgaggga catcacataa gtggagtcat atatttgtcc tttcatgtct 241 cccttatttc atttagcata acgttttcaa gggtttcctg tgttgtgaat atatcagaat 301 ttcattctct ttttaaggta gaatcatatc attttaaaac atttcagttg gaccatctaa 361 gttcagtcct tcattttcaa caattaaaaa acagccctca accgggtgca tctcacgtta 421 gctagagaca gaactggagc tagaagtcag atctcttacc aaagttgcct ttcttcttct 481 gtgggtaagt ggggcaccct tgggacgctg tgctgggcgt acatgggtgc ttgatgaagt 541 tacttggtgg actgatgtga ttgatgtcca acatgtatgc agggacagag gctatggtcc 601 ctacagagca ggcatggaga gaaggagaaa tacatacggg caggagccag gagagggagg 661 gtgtagtgag cagagaccgc gccactgcac tccagcctga gtgacagagt gagaatccat 721 ctaaaaaatt gcttactaaa gaagtggtct cctgaggtct taagacgttc ctggcaatgt 781 cttgagtggg tgggagagag cctccagtca ttgagctgtg gaatttcaga ggtgagaacc 841 acacctaacc cccaattact ttcccctgtt tgcctcagtg acacagctgc aggaaccctg 901 gtgggtgttg tattaagtaa atttgacctt tattctttgc agatctgtga aatgttgtct 961 tctgaggggc cacgtgtatc tgtagtgctg aggactcctt ggggcctctg aagtcacaga1021 gagaacctgc agggtggggg accagtgtgt gacagccctg ctttgcattt tctttgagaa1081 gtgctgtcat tttgcatttc tctccaccag gggaatcttc aatcttgaga ggtgtgatca1141 taacttgcct tgtttcttgt cgctacagag aacggaaggc tcccttgatg gaacttagac1201 agcaaggcca gatgcacatc cctggaagga catccatgtt ccgagaagaa cagatgatcc1261 ctgtatttca agacctctgt gcacttattt atgaacctgc cctgctccca cagaacacag1321 caattcctca ggctaagctg ccggttctta aatccatcct gctaagttaa tgttgggtag1381 aaagagatac agaggggctg ttgaatttcc cacataccct ccttccacca agttggaaca1441 tccttggaaa ttgggaagag cacaagagga gatccagggc aaggccattg ggatattctg1501 aaacttgaat attttgtttt gtgcagagat aaagaccttt tccatgcacc ctcatacaca1561 gaaaccaatt ttctttttta tactcaatca tttctagcgc atggcctggt tagaggctgg1621 ttttttctct tttcctttgg tccttcaaag gcttgtagtt ttgggtagtc cttgttcttt1681 ggaaatacac agtgctgacc agacagcctc cccctgtccc ctctatgacc tcgccctcca1741 caaatgggaa aaccagacta cttgggagca ccgcctgtga aataccaacc tgaagacacg1801 gttcattcag gcaacgcaca aaacagaaaa tgaaggtgga acaagcacat atgttcttca1861 actgtttttg tctacactct ttctcttttc ctctacatgc tgaaggctga aagacaggaa1921 agatggtgcc atcagcaaat attattctta attgaaaact tgaaatgtgt atgtttctta1981 ctaattttta aaaatgtatt ccttgccagg gcaggcaagg tcgtcacgcc tgtaatccca2041 gcacttcagg aggctgaggt gggcggatc

1 gaattccggg agaagtgacc agagcaattt ctgcttttca cagggcgggt ttctcaacgg 61 tgacttgtgg gcagtgcctt ctgctgagcg agtcatggcc cgaaggcaga actaactgtg 121 cctgcagtct tcactctcag gatgcagccg aggtgggccc aaggggccac gatgtggctt 181 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 181 ggagtcctgc tgacccttct gctctgttca agccttgagg gtcaagaaaa ctctttcaca 241 atcaacagtg ttgacatgaa gagcctgccg gactggacgg tgcaaaatgg gaagaacctg 301 accctgcagt gcttcgcgga tgtcagcacc acctctcacg tcaagcctca gcaccagatg 361 ctgttctata aggatgacgt gctgttttac aacatctcct ccatgaagag cacagagagt 421 tattttattc ctgaagtccg gatctatgac tcagggacat ataaatgtac tgtgattgtg 481 aacaacaaag agaaaaccac tgcagagtac cagctgttgg tggaaggagt gcccagtccc 541 agggtgacac tggacaagaa agaggccatc caaggtggga tcgtgagggt caactgttct 601 gtcccagagg aaaaggcccc aatacacttc acaattgaaa aacttgaact aaatgaaaaa 661 atggtcaagc tgaaaagaga gaagaattct cgagaccaga attttgtgat actggaattc 721 cccgttgagg aacaggaccg cgttttatcc ttccgatgtc aagctaggat catttctggg 781 atccatatgc agacctcaga atctaccaag agtgaactgg tcaccgtgac ggaatccttc 841 tctacaccca agttccacat cagccccacc ggaatgatca tggaaggagc tcagctccac 901 attaagtgca ccattcaagt gactcacctg gcccaggagt ttccagaaat cataattcag 961 aaggacaagg cgattgtggc ccacaacaga catggcaaca aggctgtgta ctcagtcatg1021 gccatggtgg agcacagtgg caactacacg tgcaaagtgg agtccagccg catatccaag1081 gtcagcagca tcgtggtcaa cataacagaa ctattttcca agcccgaact ggaatcttcc1141 ttcacacatc tggaccaagg tgaaagactg aacctgtcct gctccatccc aggagcacct1201 ccagccaact tcaccatcca gaaggaagat acgattgtgt cacagactca agatttcacc1261 aagatagcct caaagtcgga cagtgggacg tatatctgca ctgcaggtat tgacaaagtg1321 gtcaagaaaa gcaacacagt ccagatagtc gtatgtgaaa tgctctccca gcccaggatt1381 tcttatgatg cccagtttga ggtcataaaa ggacagacca tcgaagtccg ttgcgaatcg1441 atcagtggaa ctttgcctat ttcttaccaa cttttaaaaa caagtaaagt tttggagaat1501 agtaccaaga actcaaatga tcctgcggta ttcaaagaca accccactga agacgtcgaa1561 taccagtgtg ttgcagataa ttgccattcc catgccaaaa tgttaagtga ggttctgagg1621 gtgaaggtga tagccccggt ggatgaggtc cagatttcta tcctgtcaag taaggtggtg1681 gagtctggag aggacattgt gctgcaatgt gctgtgaatg aaggatctgg tcccatcacc1741 tataagtttt acagagaaaa agagggcaaa cccttctatc aaatgacctc aaatgccacc1801 caggcatttt ggaccaagca gaaggctagc aaggaacagg agggagagta ttactgcaca1861 gccttcaaca gagccaacca cgcctccagt gtccccagaa gcaaaatact gacagtcaga1921 gtcattcttg ccccatggaa gaaaggactt attgcagtgg ttatcatcgg agtgatcatt1981 gctctcttga tcattgcggc caaatgttat tttctgagga aagccaaggc caagcagatg2041 ccagtggaaa tgtccaggcc agcagtacca cttctgaact ccaacaacga gaaaatgtca2101 gatcccaata tggaagctaa cagtcattac ggtcacaatg acgatgtcag aaaccatgca2161 atgaaaccaa taaatgataa taaagagcct ctgaactcag acgtgcagta cacggaagtt2221 caagtgtcct cagctgagtc tcacaaagat ctaggaaaga aggacacaga gacagtgtac2281 agtgaagtcc ggaaagctgt ccctgatgcc gtggaaagca gatactctag aacggaaggc2341 tcccttgatg gaacttagac agcaaggcca gatgcacatc cctggaagga catccatgtt2401 ccgagaagaacagataatcc ctgtatttca agacctctgt gcacttattt atgaacctgc2461 cctgctccca cagaacacag caattcctca ggctaagctg ccggttctta aatccatcct2521 gctaagttaa tgttgggtag aaagagatac agagggg (2) SEQ ID NO: 2789 materials: (i) sequence characteristics:

(A) length: 562 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2789 sequence description: 1 tggtcatctc agtttctttt ctcaccttga ctgcaagatg aaactccttg tgctagctgt 61 gctgctcaca gtggccgccg ccgacagcgg catcagccct cgggccgtgt ggcagttccg121 caaaatgatc aagtgcgtga tcccggggag tgaccccttc ttggaataca acaactacgg181 ctgctactgt ggcttggggg gctcaggcac ccccgtggat gaactggaca agtgctgcca241 gacacatgac aactgctatg accaggccaa gaagctggac agctgtaaat ttctgctgga301 caacccgtac acccacacct attcatactc gtgctctggc tcggcaatca cctgtagcag361 caaaaacaaa gagtgtgagg ccttcatttg caactgcgac cgcaacgctg ccatctgctt421 ttcaaaagct ccatataaca aggcacacaa gaacctggac accaagaagt attgtcagag481 ttgaatatca cctctcaaaa gcatcacctc tatctgcctc atctcacact gtactctcca541 ataaagcacc ttgttgaaag aa (2) SEQ ID NO: 2790 materials: (i) sequence characteristics:

(A) length: 3375 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2790 sequence description: 1 ctgcagaggc tcaatcactg ttcattgcag ccttgacctc cctggctcac gagatcctcc 61 catctcagcc tcctgagttg ctgggatcac aggtgcaatc caccaccaca cctggttaac 121 attttttttt ttagagatga ggtctctcta tgttgcccag gctgcacttc cttcttgtct 181 721 tggggttccc tcaaggctgg cactttttca acctgcaagt ctgaactcag attgcctgag 781 181 cccttatccc agcgtccgac tgaactgacg gctttgcttt ccccaaccag cccgtgaagc 241 tgggctgagt acaaagtggt gggtatgagg gtcaagattg taagatctga aaactccaga 301 aaccatccct ttggttaaca gttgctaagg acaaatgcat aacatatttt ccagtgatcc 361 catgctggca aatcgtgagg gtcattcctg caacagacag attcaaggcc agccccaaac 421 tcagccaaga gcaaagcaaa cactccagcc ttatctgggc agggttgtgt ggagactgac 481 tataagacta tacctgagac tggtcatctc agttcttttc tcaccttgac tgcaagatga 541 aactccttgt gctagctgtg ctgctcacag gtaggcaagt ctccccggct ccacccgcct 601 ttctctccca agtgagctaa gatctcactc ctctggaatg ggggccacac acagcaaaca 661 gggatggcca gccccgcagt ctcaattcga ggttcccagt gggcttaagg gctcctctat 721 tggggttccc tcaaggctgg cactttttca acctgcaagt ctgaactcag attgcctgag 781 ctaagaaagc ttgcctttat tttctttttt ccagacaggg tcttgctcta taacccaggc 841 tggagttcag tggcatgatc atagctcacc acagcttcca actcgtgggc tcaagtgatc 901 ctcccacctt actcaactaa gtagttaggc caatctccca tttattttat tttattttaa 961 tttttatttt tattttactt tattttattt ttgagacggg gctcactctg tcgccaggct1021 ggagtgcggt gggctgatct cagatcacta caacctccat ctcctggttc aaataattct1081 cttgcctcag cctctcaagt agctggactt gtagctctca agtagctggc acacaccacc1141 atgcccagct aattttttgt gtgttttttt tggtagagac aggttttcac catgttggcc1201 aggctgggtg acctcccttt tagattctcc tcatcctgct ctattcttcc cctttctaaa1261 tgcagtatcc agtttcctta cttatacact ttattattat tcttattatt attgagacag1321 agtcttgctt tgtgcccaag gctggagtac agtggtgcga tctcggctca ctgcaagctc1381 cacctgctgg gttcacgcca ttctcccgcc tcagcctccc cagtagctgg gactaaagcg1441 cctgccacca cgccccgcta atttttttgt atttttaata aagacggggt ttcatcgtgt1501 tagccaggat ggtctcgatc tcatgacctt gtgatccgcc tgcctcggcc tcccaaatgc1561 tggattacag gcatgagcca ccgtgcccgg ccttatcaca tttattattt attgtttttc1621 tctcccacta ggttgtaagc tccatgaggt tagagattat tattattatt attattatta1681 ttattattat tattattatt attatatctg ttcactgctg tatctctagc tcctaggaca1741 gagcctggca catagtaagt gctcaataaa tattcactgg ataaacagtg cagatagttt1801 aaaactatct gacctaggga ggctgaggca ggagaatggc gtgaacccgg gaagcagagt1861 ttgcagtgag ctgaaatcgt gtcactgcac tccaacctgg gcaacagagc aagactccat1921 ctcaaaaaaa aaaaaaaaac tatcaggcct agctgggtgg cacatgcctg taatcctagc1981 tgaggcggta gggtcccaga agaagaagaa gaagaaaaag aagaagatat atatatatat2041 acacacacac aaagatataa actttatata tataaagttt tcattaaaaa aaaaaaaaac2101 ctctacccac tttcacttta ccaggttcct gggtccaacg gtcttcagag gaggcagctg2161 gcaggggtca gggaggcagc gtgggacccg agggagcagg aaggcagtgt gtccccgggg2221 tgctggcaga ccgatttgaa ctctggctat gtcttcttgc agtggccgcc gccgacagcg2281 gcatcagccc tcgggccgtg tggcagttcc gcaaaatgat caagtgcgtg atcccgggga2341 gtgacccctt cttggaatac aacaactacg gctgctactg tggcttgggg ggctcaggca2401 cccccgtgga tgaactggac aagtaagtga tccgcctgca ggaaaattgg agtgcctgcc2461 gggggcgggg tggggcacca cgccaaggat ctcacgaggc atacaaaggg gacttgcata2521 tctgctaagg ataacatatt ttcacctctt gtcaaataaa catatatgtt ccaagaggac2581 cctgtagcga acgcaccccg ttagagatgg aaacattgac cgacgtgcaa aacagtgggc2641 gatgctgccc tccagtggca gaatgtagca acattaaaca tcacagcacc tatccacgtg2701 tcattttcta gcagtggttg tcactgcccc ttctggaata caggatttta ctgtattctt2761 27 2761 gcaaccatgt taaaaatcgc tttcaggcca ggcgcggtgg ctcatgcctg taatcccagc2821 actttgggag gccgaggcgg gcggatcact tgaggtcagg agttcgagac cagcctggcc2881 aacatggtga aaccctgtct ctactaaaaa atacaaaaat tagccggaca tggtggcgag2941 cgcctgtaac cccagctact tgggagactg agttggaggt ttcatgagcc aaggtcgtgt3001 cactgctgtc cagcctgggt aacagagcaa ctctgtctca aaaaaaaaaa atgctttcaa3061 taaatatatg ataaaaggac ttatattttt tcaagccata ggatcatttc tcctgaagca3121 tcttggcgaa gtcatcccca cctgttcctg agagtgggca ggtgagggct gacctattgc3181 tctgcactta ctcctatctc agctgtccct cccactttcc aggtgctgcc agacacatga3241 caactgctac gaccaggcca agaagctgga cagctgtaaa tttctgctgg acaacccgta3301 cacccacacc tattcatact cgtgctctgg ctcggcaatc acctgtagca gtaggtttat3361 cccttccttg accta (2) SEQ ID NO: 2791 materials: (i) sequence characteristics:

(A) length: 2834 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2791 description of the sequence: 1 gcccactccc accgccagct ggaaccctgg ggactacgac gtccctcaaa ccttgcttct 61 aggagataaa aagaacatcc agtcatggat aaaaatgagc tggttcagaa ggccaaactg 121 gccgagcagg ctgagcgata tgatgacatg gcagcctgca tgaagtctgt aactgagcaa 181 721 gacagcacgc taataatgca attactgaga gacaacttga cattgtggac atcggatacc 781 181 ggagctgaat tatccaatga ggagaggaat cttctctcag ttgcttataa aaatgttgta 241 ggagcccgta ggtcatcttg gagggtcgtc tcaagtattg aacaaaagac ggaaggtgct 301 gagaaaaaac agcagatggc tcgagaatac agagagaaaa ttgagacgga gctaagagat 361 atctgcaatg atgtactgtc tcttttggaa aagttcttga tccccaatgc ttcacaagca 421 gagagcaaag tcttctattt gaaaatgaaa ggagattact accgttactt ggctgaggtt 481 gccgctggtg atgacaagaa agggattgtc gatcagtcac aacaagcata ccaagaagct 541 tttgaaatca gcaaaaagga aatgcaacca acacatccta tcagactggg tctggccctt 601 aacttctctg tgttctatta tgagattctg aactccccag agaaagcctg ctctcttgca 661 aagacagctt ttgatgaagc cattgctgaa cttgatacat taagtgaaga gtcatacaaa 721 gacagcacgc taataatgca attactgaga gacaacttga cattgtggac atcggatacc 781 caaggagacg aagctgaagc aggagaagga ggggaaaatt aaccggcctt ccaacttttg 841 tctgcctcat tctaaaattt acacagtaga ccatttgtca tccatgctgt cccacaaata 901 gttttttgtt tacgatttat gacaggttta tgttacttct atttgaattt ctatatttcc 961 catgtggttt ttatgtttaa tattagggga gtagagccag ttaacattta gggagttatc1021 tgttttcatc ttgaggtggc caatatgggg atgtggaatt tttatacaag ttataagtgt1081 ttggcatagt acttttggta cattgtggct tcaaaagggc cagtgtaaaa ctgcttccat1141 gtctaagcaa agaaaactgc ctacatactg gtttgtcctg gcggggaata aaagggatca1201 ttggttccag tcacaggtgt agtaattgtg ggtactttaa ggtttggagc acttacaagg1261 ctgtggtaga atcatacccc atggatacca catattaaac catgtatatc tgtggaatac1321 tcaatgtgta cacctttgac tacagctgca gaagtgttcc tttagacaaa gttgtgaccc1381 attttactct ggataagggc agaaacggtt cacattccat tatttgtaaa gttacctgct1441 gttagctttc attatttttg ctacactcat tttatttgta tttaaatgtt ttaggcaacc1501 taagaacaaa tgtaaaagta aagatgcagg aaaaatgaat tgcttggtat tcattacttc1561 atgtatatca agcacagcag taaaacaaaa acccatgtat ttaacttttt tttaggattt1621 ttgcttttgt gatttttttt tttttttttt gatacttgcc taacatgcat gtgctgtaaa1681 aatagttaac agggaaataa cttgagatga tggctagctt tgtttaatgt cttatgaaat1741 tttcatgaac aatccaagca taattgttaa gaacacgtgt attaaattca tgtaagtgga1801 ataaaagttt tatgaatgga cttttcaact actttctcta cagcttttca tgtaaattag1861 tcttggttct gaaacttctc taaaggaaat tgtacattct ttgaaattta ttccttattc1921 cctcttggca gctaatgggc tcttaccaag tttaaacaca aaatttatca taacaaaaat1981 actactaata taactactgt ttccatgtcc catgatcccc tctcttcctc cccaccctga2041 aaaaaatgag ttcctatttt ttctgggaga gggggggatt gattagaaaa aaatgtagtg2101 tgttccattt aaaattttgg catatggcat tttctaactt aggaagccac aatgttcttg2161 gcccatcatg acattgggta gcattaactg taagttttgt gcttccaaat cactttttgg2221 tttttaagaa tttcttgata ctcttatagc ctgccttcaa ttttgatcct ttattctttc2281 tatttgtcag gtgcacaaga ttaccttcct gttttagcct tctgtcttgt caccaaccat2341 tcttacttgg tggccatgta cttggaaaaa ggccgcatga tctttctggc tccactcagt2401 gtctaaggca ccctgcttcc tttgcttgca tcccacagac tatttccctc atcctattta2461 ctgcagcaaa tctctcctta gttgatgaga ctgtgtttat ctccctttaa aaccctacct2521 atcctgaatg gtctgtcatt gtctgccttt aaaatccttc ctctttcttc ctcctctatt2581 ctctaaataa tgatggggct aagttatacc caaagctcac tttacaaaat atttcctcag2641 tactttgcag aaaacaccaa acaaaaatgc cattttaaaa aaggtgtatt ttttctttta2701 gaatgtaagc tcctcaagag cagggacaat gttttctgta tgttctattg tgcctagtac2761 actgtaaatg ctcaataaat attgatgatg ggaggcagtg agtcttgatg ataagggtga2821 gaaactgaaa tccc (2) SEQ ID NO: 2792 materials: (i) sequence characteristics:

(A) length: 6771 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2792 sequence description: 1 tggtcatctc agtttctttt ctcaccttga ctgcaagatg aaactccttg tgctagctgt 61 gctgctcaca gtggccgccg ccgacagcgg catcagccct cgggccgtgt ggcagttccg121 caaaatgatc aagtgcgtga tcccggggag tgaccccttc ttggaataca acaactacgg181 ctgctactgt ggcttggggg gctcaggcac ccccgtggat gaactggaca agtgctgcca241 gacacatgac aactgctatg accaggccaa gaagctggac agctgtaaat ttctgctgga301 caacccgtac acccacacct attcatactc gtgctctggc tcggcaatca cctgtagcag361 caaaaacaaa gagtgtgagg ccttcatttg caactgcgac cgcaacgctg ccatctgctt421 ttcaaaagct ccatataaca aggcacacaa gaacctggac accaagaagt attgtcagag481 ttgaatatca cctctcaaaa gcatcacctc tatctgcctc atctcacact gtactctcca541 ataaagcacc ttgttgaaag aa 563 ctgcagaggc tcaatcactg ttcattgcag ccttgacctc cctggctcac gagatcctcc 623 catctcagcc tcctgagttg ctgggatcac aggtgcaatc caccaccaca cctggttaac 683 attttttttt ttagagatga ggtctctcta tgttgcccag gctgcacttc cttcttgtct 743 cccttatccc agcgtccgac tgaactgacg gctttgcttt ccccaaccag cccgtgaagc 803 tgggctgagt acaaagtggt gggtatgagg gtcaagattg taagatctga aaactccaga 863 aaccatccct ttggttaaca gttgctaagg acaaatgcat aacatatttt ccagtgatcc 923 catgctggca aatcgtgagg gtcattcctg caacagacag attcaaggcc agccccaaac 983 tcagccaaga gcaaagcaaa cactccagcc ttatctgggc agggttgtgt ggagactgac1043 tataagacta tacctgagac tggtcatctc agttcttttc tcaccttgac tgcaagatga1103 aactccttgt gctagctgtg ctgctcacag gtaggcaagt ctccccggct ccacccgcct1163 ttctctccca agtgagctaa gatctcactc ctctggaatg ggggccacac acagcaaaca1223 gggatggcca gccccgcagt ctcaattcga ggttcccagt gggcttaagg gctcctctat1283 tggggttccc tcaaggctgg cactttttca acctgcaagt ctgaactcag attgcctgag1343 ctaagaaagc ttgcctttat tttctttttt ccagacaggg tcttgctcta taacccaggc1403 tggagttcag tggcatgatc atagctcacc acagcttcca actcgtgggc tcaagtgatc1463 ctcccacctt actcaactaa gtagttaggc caatctccca tttattttat tttattttaa1523 tttttatttt tattttactt tattttattt ttgagacggg gctcactctg tcgccaggct1583 ggagtgcggt gggctgatct cagatcacta caacctccat ctcctggttc aaataattct1643 cttgcctcag cctctcaagt agctggactt gtagctctca agtagctggc acacaccacc1703 atgcccagct aattttttgt gtgttttttt tggtagagac aggttttcac catgttggcc1763 aggctgggtg acctcccttt tagattctcc tcatcctgct ctattcttcc cctttctaaa1823 tgcagtatcc agtttcctta cttatacact ttattattat tcttattatt attgagacag1883 agtcttgctt tgtgcccaag gctggagtac agtggtgcga tctcggctca ctgcaagctc1943 cacctgctgg gttcacgcca ttctcccgcc tcagcctccc cagtagctgg gactaaagcg2003 cctgccacca cgccccgcta atttttttgt atttttaata aagacggggt ttcatcgtgt2063 593 tagccaggat ggtctcgatc tcatgacctt gtgatccgcc tgcctcggcc tcccaaatgc2123 tggattacag gcatgagcca ccgtgcccgg ccttatcaca tttattattt attgtttttc2183 tctcccacta ggttgtaagc tccatgaggt tagagattat tattattatt attattatta2243 ttattattat tattattatt attatatctg ttcactgctg tatctctagc tcctaggaca2303 gagcctggca catagtaagt gctcaataaa tattcactgg ataaacagtg cagatagttt aaaactatct gacctaggga ggctgaggca ggagaatggc gtgaacccgg gaagcagagt2423 ttgcagtgag ctgaaatcgt gtcactgcac tccaacctgg gcaacagagc aagactccat2483 ctcaaaaaaa aaaaaaaaac tatcaggcct agctgggtgg cacatgcctg taatcctagc25 tgaggcggta gggtcccaga agaagaagaa gaagaaaaag aagaagatat atatatatat2603 2663 ctctacccac tttcacttta ccaggttcct gggtccaacg gtcttcagag gaggcagctg2723 gcaggggtca gggaggcagc gtgggacccg agggagcagg aaggcagtgt gtccccgggg2783 tgctggcaga ccgatttgaa ctctggctat gtcttcttgc agtggccgcc gccgacagcg2843 gcatcagccc tcgggccgtg tggcagttcc gcaaaatgat caagtgcgtg atcccgggga2903 gtgacccctt cttggaatac aacaactacg gctgctactg tggcttgggg ggctcaggca2963 cccccgtgga tgaactggac aagtaagtga tccgcctgca ggaaaattgg agtgcctgcc3023 gggggcgggg tggggcacca cgccaaggat ctcacgaggc atacaaaggg gacttgcata3083 tctgctaagg ataacatatt ttcacctctt gtcaaataaa catatatgtt ccaagaggac3143 cctgtagcga acgcaccccg ttagagatgg aaacattgac cgacgtgcaa aacagtgggc3203 gatgctgccc tccagtggca gaatgtagca acattaaaca tcacagcacc tatccacgtg3263 tcattttcta gcagtggttg tcactgcccc ttctggaata caggatttta ctgtattctt3323 gcaaccatgt taaaaatcgc tttcaggcca ggcgcggtgg ctcatgcctg taatcccagc3383 actttgggag gccgaggcgg gcggatcact tgaggtcagg agttcgagac cagcctggcc3443 aacatggtga aaccctgtct ctactaaaaa atacaaaaat tagccggaca tggtggcgag3503 cgcctgtaac cccagctact tgggagactg agttggaggt ttcatgagcc aaggtcgtgt3563 cactgctgtc cagcctgggt aacagagcaa ctctgtctca aaaaaaaaaa atgctttcaa3623 taaatatatg ataaaaggac ttatattttt tcaagccata ggatcatttc tcctgaagca3683 tcttggcgaa gtcatcccca cctgttcctg agagtgggca ggtgagggct gacctattgc3743 tctgcactta ctcctatctc agctgtccct cccactttcc aggtgctgcc agacacatga3803 caactgctac gaccaggcca agaagctgga cagctgtaaa tttctgctgg acaacccgta3863 cacccacacc tattcatact cgtgctctgg ctcggcaatc acctgtagca gtaggtttat3923 cccttccttg accta 393972 cccttccttg accta 4058 4118 cccttccttg accta ggagaggaat cttctctcag ttgcttataa aaatgttgta4178 ggagcccgta ggtcatcttg gagggtcgtc tcaagtattg aacaaaagac ggaaggtgct4238 gagaaaaaac agcagatggc tcgagaatac agagagaaaa ttgagacgga gctaagagat4298 atctgcaatg atgtactgtc tcttttggaa aagttcttga tccccaatgc ttcacaagca4358 gagagcaaag tcttctattt gaaaatgaaa ggagattact accgttactt ggctgaggtt4418 gccgctggtg atgacaagaa agggattgtc gatcagtcac aacaagcata ccaagaagct4478 tttgaaatca gcaaaaagga aatgcaacca acacatccta tcagactggg tctggccctt4538 aacttctctg tgttctatta tgagattctg aactccccag agaaagcctg ctctcttgca4598 aagacagctt ttgatgaagc cattgctgaa cttgatacat taagtgaaga gtcatacaaa4658 gacagcacgc taataatgca attactgaga gacaacttga cattgtggac atcggatacc4718 caaggagacg aagctgaagc aggagaagga ggggaaaatt aaccggcctt ccaacttttg4778 tctgcctcat tctaaaattt acacagtaga ccatttgtca tccatgctgt cccacaaata4838 gttttttgtt tacgatttat gacaggttta tgttacttct atttgaattt ctatatttcc4898 catgtggttt ttatgtttaa tattagggga gtagagccag ttaacattta gggagttatc4958 tgttttcatc ttgaggtggc caatatgggg atgtggaatt tttatacaag ttataagtgt5018 ttggcatagt acttttggta cattgtggct tcaaaagggc cagtgtaaaa ctgcttccat5078 gtctaagcaa agaaaactgc ctacatactg gtttgtcctg gcggggaata aaagggatca5138 ttggttccag tcacaggtgt agtaattgtg ggtactttaa ggtttggagc acttacaagg5198 ctgtggtaga atcatacccc atggatacca catattaaac catgtatatc tgtggaatac5258 tcaatgtgta cacctttgac tacagctgca gaagtgttcc tttagacaaa gttgtgaccc5318 attttactct ggataagggc agaaacggtt cacattccat tatttgtaaa gttacctgct5378 53 5378 gttagctttc attatttttg ctacactcat tttatttgta tttaaatgtt ttaggcaacc5438 taagaacaaa tgtaaaagta aagatgcagg aaaaatgaat tgcttggtat tcattacttc5498 atgtatatca agcacagcag taaaacaaaa acccatgtat ttaacttttt tttaggattt5558 ttgcttttgt gatttttttt tttttttttt gatacttgcc taacatgcat gtgctgtaaa5618 aatagttaac agggaaataa cttgagatga tggctagctt tgtttaatgt cttatgaaat5678 tttcatgaac aatccaagca taattgttaa gaacacgtgt attaaattca tgtaagtgga5738 ataaaagttt tatgaatgga cttttcaact actttctcta cagcttttca tgtaaattag5798 tcttggttct gaaacttctc taaaggaaat tgtacattct ttgaaattta ttccttattc5858 cctcttggca gctaatgggctcttaccaag tttaaacaca aaatttatca taacaaaaat5918 5926 5878 aaaaaatgag ttcctatttt ttctgggaga gggggggatt gattagaaaa aaatgtagtg6038 tgttccattt aaaattttgg catatggcat tttctaactt aggaagccac aatgttcttg6098 gcccatcatg acattgggta gcattaactg taagttttgt gcttccaaat cactttttgg6158 tttttaagaa tttcttgata ctcttatagc ctgccttcaa ttttgatcct ttattctttc6218 tatttgtcag gtgcacaaga ttaccttcct gttttagcct tctgtcttgt caccaaccat6278 tcttacttgg tggccatgta cttggaaaaa ggccgcatga tctttctggc tccactcagt6338 gtctaaggca ccctgcttcc tttgcttgca tcccacagac tatttccctc atcctattta6398 ctgcagcaaa tctctcctta gttgatgaga ctgtgtttat ctccctttaa aaccctacct6458 atcctgaatg gtctgtcatt gtctgccttt aaaatccttc ctctttcttc ctcctctatt6518 ctctaaataa tgatggggct aagttatacc caaagctcac tttacaaaat atttcctcag6578 6638 gaatgtaagc tcctcaagag cagggacaat gttttctgta tgttctattg tgcctagtac6698 actgtaaatg ctcaataaat attgatgatg ggaggcagtg agtcttgatg ataagggtga6758 gaaactgaaa tccc (2) SEQ ID NO: 2793 materials: (i) sequence characteristics:

(A) length: 495 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2793 sequence description: 1 gctgtgcaac ctcggcgcca tgcgcaacct ctatgcgatg caccggcggc tgcagcggca 61 cccgcgctcc tgcaccaggg actgtgccga gccgcgcgcg gacgggaggg aagcgtcccc121 tcagcccctg gaggagctgg atcacctcct gctgctggcg ctgatgaccg tgctcttcac181 tatgtgttct ctgcccgtaa tttatcgcgc ttactatgga gcatttaagg atgtcaagga241 gaaaaacagg acctctgaag aagcagaaga cctccgagcc ttgcgatttc tatctgtgat301 ttcaattgtg gacccttgga tttttatcat tttcagatct ccagtatttc ggatattttt361 tcacaagatt ttcattagac ctcttaggta caggagccgg tgcagcaatt ccactaacat421 ggaatccagt ctgtgacagt gtttttcact ctgtggtaag ctgaggaata tgtcacattt481 tcagtcaaag aacca (2) SEQ ID NO: 2794 data: (i) sequence characteristics:

(A) length: 1216 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2794 description of the sequence: 1 gaattctggc tattttcctc ctgccgttcc gactcggcac cagagtctgt ctctactgag 61 aacgcagcgc gtcagggccg agctcttcac tggcctgctc cgcgctcttc aatgccagcg121 ccaggcgctc accctgcaga gcgtcccgcc tctcaaagag gggtgtgacc cgcgagttta 181 721 ggccatggca ctggagtgct ggctctccct agggcaccct ttcttctacc gacggcacat 781 181 gataggaggt tcctgccgtg gggaacaccc cgccgccctc ggagcttttt ctgtggcgca 241 gcttctccgc ccgagccgcg cgcggagctg ccgggggctc cttagcaccc gggcgccggg 301 gccctcgccc ttccgcagcc ttcactccag ccctctgctc ccgcacgcca tgaagtcgcc 361 gttctaccgc tgccagaaca ccacctctgt ggaaaaaggc aactcggcgg tgatgggcgg 421 ggtgctcttc agcaccggcc tcctgggcaa cctgctggcc ctggggctgc tggcgcgctc 481 ggggctgggg tggtgctcgc ggcgtccact gcgcccgctg ccctcggtct tctacatgct 541 ggtgtgtggc ctgacggtca ccgacttgct gggcaagtgc ctcctaagcc cggtggtgct 601 ggctgcctac gctcagaacc ggagtctgcg ggtgcttgcg cccgcattgg acaactcgtt 661 gtgccaagcc ttcgccttct tcatgtcctt ctttgggctc tcctcgacac tgcaactcct 721 ggccatggca ctggagtgct ggctctccct agggcaccct ttcttctacc gacggcacat 781 caccctgcgc ctgggcgcac tggtggcccc ggtggtgagc gccttctccc tggctttctg 841 cgcgctacct ttcatgggct tcgggaagtt cgtgcagtac tgccccggca cctggtgctt 901 tatccagatg gtccacgagg agggctcgct gtcggtgctg gggtactctg tgctctactc 961 cagcctcatg gcgctgctgg tcctcgccac cgtgctgtgc aacctcggcg ccatgcgcaa1021 cctctatgcg atgcaccggc ggctgcagcg gcacccgcgc tcctgcacca gggactgtgc1081 cgagccgcgc gcggacggga gggaagcgtc ccctcagccc ctggaggagc tggatcacct1141 cctgctgctg gcgctgatga ccgtgctctt cactatgtgt tctctgcccg taattgtgag1201 tccccgggcc ccgagg (2) SEQ ID NO: 2795 data: (i) sequence characteristics:

(A) length: 2372 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2795 sequence description: 1 gggccgccgt cggcgcgctg ggtgcgggaa gggggctctg gatttcggtc cctccccttt 61 ttcctctgag tctcggaacg ctccagctct cagaccctct tcctcccagg taaaggccgg 121 gagaggaggg cgcatctctt ttccaggcac cccaccatgg gcaatgcctc caatgactcc 181 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 181 cagtctgagg actgcgagac gcgacagtgg cttcccccag gcgaaagccc agccatcagc 241 tccgtcatgt tctcggccgg ggtgctgggg aacctcatag cactggcgct gctggcgcgc 301 cgctggcggg gggacgtggg gtgcagcgcc ggccgcagga gctccctctc cttgttccac 361 gtgctggtga ccgagctggt gttcaccgac ctgctcggga cctgcctcat cagcccagtg 421 gtactggctt cgtacgcgcg gaaccagacc ctggtggcac tggcgcccga gagccgcgcg 481 tgcacctact tcgctttcgc catgaccttc ttcagcctgg ccacgatgct catgctcttc 541 gccatggccc tggagcgcta cctctcgatc gggcacccct acttctacca gcgccgcgtc 601 tcggcctccg ggggcctggc cgtgctgcct gtcatctatg cagtctccct gctcttctgc 661 tcgctgccgc tgctggacta tgggcagtac gtccagtact gccccgggac ctggtgcttc 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 gtctcggtgc tcgcctgcaa cttcagtgtc attctcaacc tcatccgcat gcaccgccga 841 agccggagaa gccgctgcgg accttccctg ggcagtggcc ggggcggccc cggggcccgc 901 aggagagggg aaagggtgtc catggcggag gagacggacc acctcattct cctggctatc 961 atgaccatca ccttcgccgt ctgctccttg cctttcacga tttttgcata tatgaatgaa1021 acctcttccc gaaaggaaaa atgggacctc caagctctta ggtttttatc aattaattca1081 ataattgacc cttgggtctt tgccatcctt aggcctcctg ttctgagact aatgcgttca1141 gtcctctgtt gtcggatttc attaagaaca caagatgcaa cacaaacttc ctgttctaca1201 cagtcagatg ccagtaaaca ggctgacctt tgaggtcagt agtttaaaag ttcttagtta1261 tatagcatct ggaagatcat tttgaaattg ttccctggag aaatgaaaac agtgtgtaaa1321 caaaatgaag ctgccctaat aaaaaggagt atacaaacat ttaagctgtg gtcaaggcta1381 cagatgtgct gacaaggcac ttcatgtaaa gtgtcagaag gagctacaaa acctaccctc1441 aatgagcatg gtacttggcc tttggaggaa caatcggctg cattgaagat ccagctgcct1501 attgatttaa gctttcctgt tgaatgacaa agtatgtggt tttgtaattt gtttgaaacc1561 ccaaacagtg actgtacttt ctattttaat cttgctacta ccgttataca catatagtgt1621 acagccagac cagattaaac ttcatatgta atctctagga agtcaatatg tggaagcaac1681 caagcctgct gtcttgtgat cacttagcga accctttatt tgaacaatga agttgaaaat1741 cataggcacc ttttactgtg atgtttgtgt atgtgggagt actctcatca ctacagtatt1801 actcttacaa gagtggactc agtgggttaa catcagtttt gtttactcat cctccaggaa1861 ctgcaggtca agttgtcagg ttatttattt tataatgtcc atatgctaat agtgatcaag1921 aagactttag gaatggttct ctcaacaaga aataatagaa atgtctcaag gcagttaatt1981 ctcattaata ctcttattat cctatttctg ggggaggatg tacgtggcca tgtatgaagc2041 caaatattag gcttaaaaac tgaaaaatct ggttcattct tcagatatac tggaaccctt2101 ttaaagttga tattggggcc atgagtaaaa tagattttat aagatgactg tgttgtacca2161 aaattcatct gtctatattt tatttagggg aacatggttt gactcatctt atatgggaaa2221 ccatgtagca gtgagtcata tcttaatata tttctaaatg tttggcatgt aaatgtaaac2281 tcagcatcaa aatatttcag tgaatttgca ctgtttaatc atagttactg tgtaaactca2341 tctgaaatgt tacaaaaata aactataaaa ca (2) SEQ ID NO: 2796 materials: (i) sequence characteristics:

(A) length: 1682 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2796 description of the sequence: 1 agagaggaag gcgtggctcc ctcccgggcc agtgagccct ggcgccgccg cggccgcggt 61 cccagcagcg gagtagggcg gcggctgcgc cccgcaccat ggggggcagc ccagccccag 121 ccgcggtaaa cgccgacctc cgccgccgcc cgcgccgcgt ctgccccctc ccgctgcggc 181 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 181 tctctggacg ccatcccctc ctcacctcga agccaacatg aaggagaccc ggggctacgg 241 aggggatgcc cccttctgca cccgcctcaa ccactcctac acaggcatgt gggcgcccga 301 gcgttccgcc gaggcgcggg gcaacctcac gcgccctcca gggtctggcg aggattgcgg 361 atcggtgtcc gtggccttcc cgatcaccat gctgctcact ggtttcgtgg gcaacgcact 421 ggccatgctg ctcgtgtcgc gcagctaccg gcgccgggag agcaagcgca agaagtcctt 481 cctgctgtgc atcggctggc tggcgctcac cgacctggtc gggcagcttc tcaccacccc 541 ggtcgtcatc gtcgtgtacc tgtccaagca gcgttgggag cacatcgacc cgtcggggcg 601 gctctgcacc tttttcgggc tgaccatgac tgttttcggg ctctcctcgt tgttcatcgc 661 cagcgccatg gccgtcgagc gggcgctggc catcagggcg ccgcactggt atgcgagcca 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 cgccctgctg ccggtgctgg gcgtgggcca gtacaccgtc cagtggcccg ggacgtggtg 841 cttcatcagc accgggcgag ggggcaacgg gactagctct tcgcataact ggggcaacct 901 tttcttcgcc tctgcctttg ccttcctggg gctcttggcg ctgacagtca ccttttcctg 961 caacctggcc accattaagg ccctggtgtc ccgctgccgg gccaaggcca cggcatctca1021 gtccagtgcc cagtggggcc gcatcacgac cgagacggcc attcagctta tggggatcat1081 gtgcgtgctg tcggtctgct ggtctccgct cctgataatg atgttgaaaa tgatcttcaa1141 tcagacatca gttgagcact gcaagacaca cacggagaag cagaaagaat gcaacttctt1201 cttaatagct gttcgcctgg cttcactgaa ccagatcttg gatccttggg tttacctgct1261 gttaagaaag atccttcttc gaaagttttg ccaggtagca aatgctgtct ccagctgctc1321 taatgatgga cagaaagggc agcctatctc attatctaat gaaataatac agacagaagc1381 atgaaagaaa acacttaact tgcatgtgca cagcttctgg taacaaatat cgctaaacct1441 tactgtgaat ttaggcatct ctggcatgcc actgtttatg cattgaagtg gaatttttgg1501 tataaagcta aatggtctta gaagcataga aaatccctat gtgccaaaag tagtgaaaca1561 caaacaaagg aaaatatatt aataacagtc tagtgttttt gttgagtctg ccattcgtag1621 ctgaatatgt gattaattat gtgatgaaaa ctttttttat aaatgatctt ggtctattgg1681 gg (2) SEQ ID NO: 2797 materials: (i) sequence characteristics:

(A) length: 1870 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2797 the sequence description: 1 cccgggccag tgagccctgg cgccgccgcg gccgcggtcc cagcagcgga gtagggcggc 61 ggctgcgccc cgcaccatgg ggggcagccc agccccagcc gcggtaaacg ccgacctccg121 ccgccgcccg cgccgcgtct gccccctccc gctgcggctc tctggacgcc atcccctcct181 721 gctgtgctgc tcggcgtgtg gctggccgtg ctcgccttcg ccctgctgcc ggtgctgggc 781 181 cacctcgaag ccaacatgaa ggagacccgg ggctacggag gggatgcccc cttctgcacc241 cgcctcaacc actcctacac aggcatgtgg gcgcccgagc gttccgccga ggcgcggggc 301 aacctcacgc gccctccagg gtctggcgag gattgcggat cggtgtccgt ggccttcccg 361 atcaccatgc tgctcactgg tttcgtgggc aacgcactgg ccatgctgct cgtgtcgcgc 421 agctaccggc gccgggagag caagcgcaag aagtccttcc tgctgtgcat cggctggctg 481 gcgctcaccg acctggtcgg gcagcttctc accaccccgg tcgtcatcgt cgtgtacctg 541 tccaagcagc gttgggagca catcgacccg tcggggcggc tctgcacctt tttcgggctg 601 accatgactg ttttcgggct ctcctcgttg ttcatcgcca gcgccatggc cgtcgagcgg 661 gcgctggcca tcagggcgcc gcactggtat gcgagccaca tgaagacgcg tgccacccgc 721 gctgtgctgc tcggcgtgtg gctggccgtg ctcgccttcg ccctgctgcc ggtgctgggc 781 gtgggccagt acaccgtcca gtggcccggg acgtggtgct tcatcagcac cgggcgaggg 841 ggcaacggga ctagctcttc gcataactgg ggcaaccttt tcttcgcctc tgcctttgcc 901 ttcctggggc tcttggcgct gacagtcacc ttttcctgca acctggccac cattaaggcc 961 ctggtgtccc gctgccgggc caaggccacg gcatctcagt ccagtgccca gtggggccgc1021 atcacgaccg agacggccat tcagcttatg gggatcatgt gcgtgctgtc ggtctgctgg1081 tctccgctcc tgataatgat gttgaaaatg atcttcaatc agacatcagt tgagcactgc1141 aagacacaca cggagaagca gaaagaatgc aacttcttct taatagctgt tcgcctggct1201 tcactgaacc agatcttgga tccttgggtt tacctgctgt taagaaagat ccttcttcga1261 aagttttgcc agatcaggta ccacacaaac aactatgcat ccagctccac ctccttaccc1321 tgccagtgtt cctcaacctt gatgtggagc gaccatttgg aaagataatg aaagaacgga1381 gttggacatt ttattgcaat tcctgcttcc ctgaatttgc atatttcttc ccacctgaga1441 aggataatta tatattttaa tttggattat ttcttcattt ttatcttttt attttaatga1501 ttgttttgtc agtaataccc atggagatca actttattat tataatccat gcctctgaat1561 attagattgg tttcttggat gggattttga atatgcattt aagaagttgg gaagaatttc1621 acagatgatg attggaggaa aagtgatgaa aagaaagacc tgtgttccag gagttttctc1681 caacttcaaa cctttacgtg aatcttaacc aaagtggaca tctttacatt tcatgatagc1741 ttgcttttgc aatatgagtt tgaaaaatca gtataagctt atgatggtga aaagtcaaca1801 tattgagagt gataattcaa ttaataggat atgaacttaa cgatataaaa gcaaatgagg1861 gcaggagggg (2) SEQ ID NO: 2798 data: (i) sequence characteristics:

(A) length: 1682 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2798 sequence description: 1 agagaggaag gcgtggctcc ctcccgggcc agtgagccct ggcgccgccg cggccgcggt 61 cccagcagcg gagtagggcg gcggctgcgc cccgcaccat ggggggcagc ccagccccag 121 ccgcggtaaa cgccgacctc cgccgccgcc cgcgccgcgt ctgccccctc ccgctgcggc 181 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 181 tctctggacg ccatcccctc ctcacctcga agccaacatg aaggagaccc ggggctacgg 241 aggggatgcc cccttctgca cccgcctcaa ccactcctac acaggcatgt gggcgcccga 301 gcgttccgcc gaggcgcggg gcaacctcac gcgccctcca gggtctggcg aggattgcgg 361 atcggtgtcc gtggccttcc cgatcaccat gctgctcact ggtttcgtgg gcaacgcact 421 ggccatgctg ctcgtgtcgc gcagctaccg gcgccgggag agcaagcgca agaagtcctt 481 cctgctgtgc atcggctggc tggcgctcac cgacctggtc gggcagcttc tcaccacccc 541 ggtcgtcatc gtcgtgtacc tgtccaagca gcgttgggag cacatcgacc cgtcggggcg 601 gctctgcacc tttttcgggc tgaccatgac tgttttcggg ctctcctcgt tgttcatcgc 661 cagcgccatg gccgtcgagc gggcgctggc catcagggcg ccgcactggt atgcgagcca 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 cgccctgctg ccggtgctgg gcgtgggcca gtacaccgtc cagtggcccg ggacgtggtg 841 cttcatcagc accgggcgag ggggcaacgg gactagctct tcgcataact ggggcaacct 901 tttcttcgcc tctgcctttg ccttcctggg gctcttggcg ctgacagtca ccttttcctg 961 caacctggcc accattaagg ccctggtgtc ccgctgccgg gccaaggcca cggcatctca1021 gtccagtgcc cagtggggcc gcatcacgac cgagacggcc attcagctta tggggatcat1081 gtgcgtgctg tcggtctgct ggtctccgct cctgataatg atgttgaaaa tgatcttcaa1141 tcagacatca gttgagcact gcaagacaca cacggagaag cagaaagaat gcaacttctt1201 cttaatagct gttcgcctgg cttcactgaa ccagatcttg gatccttggg tttacctgct1261 gttaagaaag atccttcttc gaaagttttg ccaggtagca aatgctgtct ccagctgctc1321 taatgatgga cagaaagggc agcctatctc attatctaat gaaataatac agacagaagc1381 atgaaagaaa acacttaact tgcatgtgca cagcttctgg taacaaatat cgctaaacct1441 tactgtgaat ttaggcatct ctggcatgcc actgtttatg cattgaagtg gaatttttgg1501 tataaagcta aatggtctta gaagcataga aaatccctat gtgccaaaag tagtgaaaca1561 caaacaaagg aaaatatatt aataacagtc tagtgttttt gttgagtctg ccattcgtag1621 ctgaatatgt gattaattat gtgatgaaaa ctttttttat aaatgatctt ggtctattgg1681 gg (2) SEQ ID NO: 2799 materials: (i) sequence characteristics:

(A) length: 1379 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2799 description of the sequence: 1 agagaggaag gcgtggctcc ctcccgggcc agtgagccct ggcgccgccg cggccgcggt 61 cccagcagcg gagtagggcg gcggctgcgc cccgcaccat ggggggcagc ccagccccag 121 ccgcggtaaa cgccgacctc cgccgccgcc cgcgccgcgt ctgccccctc ccgctgcggc 181 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 181 tctctggacg ccatcccctc ctcacctcga agccaacatg aaggagaccc ggggctacgg 241 aggggatgcc cccttctgca cccgcctcaa ccactcctac acaggcatgt gggcgcccga 301 gcgttccgcc gaggcgcggg gcaacctcac gcgccctcca gggtctggcg aggattgcgg 361 atcggtgtcc gtggccttcc cgatcaccat gctgctcact ggtttcgtgg gcaacgcact 421 ggccatgctg ctcgtgtcgc gcagctaccg gcgccgggag agcaagcgca agaagtcctt 481 cctgctgtgc atcggctggc tggcgctcac cgacctggtc gggcagcttc tcaccacccc 541 ggtcgtcatc gtcgtgtacc tgtccaagca gcgttgggag cacatcgacc cgtcggggcg 601 gctctgcacc tttttcgggc tgaccatgac tgttttcggg ctctcctcgt tgttcatcgc 661 cagcgccatg gccgtcgagc gggcgctggc catcagggcg ccgcactggt atgcgagcca 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 cgccctgctg ccggtgctgg gcgtgggcca gtacaccgtc cagtggcccg ggacgtggtg 841 cttcatcagc accgggcgag ggggcaacgg gactagctct tcgcataact ggggcaacct 901 tttcttcgcc tctgcctttg ccttcctggg gctcttggcg ctgacagtca ccttttcctg 961 caacctggcc accattaagg ccctggtgtc ccgctgccgg gccaaggcca cggcatctca1021 gtccagtgcc cagtggggcc gcatcacgac cgagacggcc attcagctta tggggatcat1081 gtgcgtgctg tcggtctgct ggtctccgct cctgataatg atgttgaaaa tgatcttcaa1141 tcagacatca gttgagcact gcaagacaca cacggagaag cagaaagaat gcaacttctt1201 cttaatagct gttcgcctgg cttcactgaa ccagatcttg gatccttggg tttacctgct1261 gttaagaaag atccttcttc gaaagttttg ccaggaggaa ttttggggaa attaaaacct1321 gcctttctgc caggatcaca tcactggaag ctccatgact ctctttttgt aaaagaaaa (2) SEQ ID N0: 2800 data: (i) sequence characteristics:

(A) length: 2494 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2800 sequence description: 1 gtgcgcggag gggacgagcg gctggaccac agccggcgcc cgatcaggat ctccgcgctg 61 ggatcggtgg aacttgaggc agcggcggcg cggggcgcca tggcacaccg agcggctccg121 tcttctgctc ctcagagagc ccggctggcg gcctgggatg acaagatgtc tggactgcaa181 tcctgcacag ttttgagagg gagatgactt gagtggttgg cttttatctc cacaacaatg241 tccatgaaca attccaaaca gctagtgtct cctgcagctg cgcttctttc aaacacaacc301 tgccagacgg aaaaccggct ttccgtattt ttttcagtaa tcttcatgac agtgggaatc361 ttgtcaaaca gccttgccat cgccattctc atgaaggcat atcagagatt tagacagaag421 tccaaggcat cgtttctgct tttggccagc ggcctggtaa tcactgattt ctttggccat481 ctcatcaatg gagccatagc agtatttgta tatgcttctg ataaagaatg gatccgcttt541 gaccaatcaa atgtcctttg cagtattttt ggtatctgca tggtgttttc tggtctgtgc601 ccacttcttc taggcagtgt gatggccatt gagcggtgta ttggagtcac aaaaccaata661 tttcattcta cgaaaattac atccaaacat gtgaaaatga tgttaagtgg tgtgtgcttg721 tttgctgttt tcatagcttt gctgcccatc cttggacatc gagactataa aattcaggcg 781 tcgaggacct ggtgtttcta caacacagaa gacatcaaag actgggaaga tagattttat 841 cttctacttt tttcttttct ggggctctta gcccttggtg tttcattgtt gtgcaatgca 901 atcacaggaa ttacactttt aagagttaaa tttaaaagtc agcagcacag acaaggcaga 961 tctcatcatt tggaaatggt aatccagctc ctggcgataa tgtgtgtctc ctgtatttgt1021 tggagcccat ttctggttac aatggccaac attggaataa atggaaatca ttctctggaa1081 acctgtgaaa caacactttt tgctctccga atggcaacat ggaatcaaat cttagatcct1141 tgggtatata ttcttctacg aaaggctgtc cttaagaatc tctataagct tgccagtcaa1201 tgctgtggag tgcatgtcat cagcttacat atttgggagc ttagttccat taaaaattcc1261 ttaaaggttg ctgctatttc tgagtcacca gttgcagaga aatcagcaag cacctagctt1321 aataggacag taaatctgtg tggggctaga acaaaaatta agacatgttt ggcaatattt1381 cagttagtta aatacctgta gcctaactgg aaaattcagg cttcatcatg tagtttgaag1441 atactattgt cagattcagg ttttgaaatt tgtcaaataa acaggataac tgtacatttt1501 caacttgttt ttgccaatgg gaggtagaca caataaaata atgccatggg agtcacactg1561 aaagcaattt tgagcttatc tgtcttattt atgctttgag tgaatcatct gttgaggtct1621 aatgcctcta cttggcctat ttgccagaga acatcttaat gcagcctgca tagtgaaatg1681 gttattttga gatcaccgct ctgtagctaa cccttataaa ctaggctcag taaaataaag1741 cactcttatt ttttgatctg gcctattttg cccctcattg tgtagcctca attaacacat1801 gcatggtcat gacacccaga attcatgatg gtttgttata acaacctctg catattccag1861 gtctggcaga caggttgcct gaccctgcaa tcctatctag aatgggccca ttcttgtcac1921 atttgacaaa taggactgcc tacatttatt attatgaagg tcgattgttg ttggaagtgt1981 tttttcatgt catagattag caattttcaa ataattattt tttctctgaa aattttgtgt2041 gtgattgcac aataaataat ttttagagaa acaaaggctc tttctcagca cattgatggg2101 caactagaat tacagcagtt tcaaactcta ccatggataa tgcaaacaaa ccgaagctac2161 atgccaatga taggtgcaaa gaatattggc aaaaggtgct ttaccttgag ccattatttg2221 tgtcagagaa caaaagaaac agaatcaata tataaattca aagactatct gcagctagtg2281 tgtttcttct ttacacacat atacacacag acatcagaaa attctgttga gagcaggttc2341 attaaatttg taagatggca tattctaaag cctgtgctac cagtactaag aggggaagac2401 tggcaatttg ccaagcactt ggggattatt ataacaatta actaggagat caagagataa2461 taatctctcc ccaaattttc caataataat tgag

(2) SEQ ID NO: 2801, data: (i) sequence characteristics:

(A) length: 1417 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2801 sequence description: 1 ggcacagacg cacgggacag gagagcctgg gcaagactgg agagcccaga cctgggatgg 61 cggattcgtg caggaacctc acctacgtgc ggggctcggt ggggccggcc accagcaccc 121 tgatgttcgt ggccggtgtg gtgggcaacg ggctggccct gggcatcctg agcgcacggc 181 721 gctctctggg tccacggccg cgcaccggag aggacgaggt ggaccacctg atcctgctgg 781 181 gaccggcgcg cccctcggcc ttcgcggtgc tggtcaccgg actggcggcc accgacctgc 241 tgggcaccag cttcctgagc ccggccgtgt tcgtggccta tgcgcgcaac agctccctgc 301 tgggcctggc ccgaggcggc cccgccctgt gcgatgcctt cgccttcgcc atgaccttct 361 tcggcctggc gtccatgctc atcctctttg ccatggccgt ggagcgctgc ctggcgctga 421 gccaccccta cctctacgcg cagctggacg ggccccgctg cgcccgcctg gcgctgccag 481 ccatctacgc cttctgcgtc ctcttctgcg cgctgcccct gctgggcctg ggccaacacc 541 agcagtactg ccccggcagc tggtgcttcc tccgcatgcg ctgggcccag ccgggcggcg 601 ccgccttctc gctggcctac gccggcctgg tggccctgct ggtggctgcc atcttcctct 661 gcaacggctc ggtcaccctc agcctctgcc gcatgtaccg ccagcagaag cgccaccagg 721 gctctctggg tccacggccg cgcaccggag aggacgaggt ggaccacctg atcctgctgg 781 ccctcatgac agtggtcatg gccgtgtgct ccctgcctct cacgatccgc tgcttcaccc 841 aggctgtcgc ccctgacagc agcagtgaga tgggggacct ccttgccttc cgcttctaca 901 ccttcaaccc catcctggac ccctgggtct tcatcctttt ccgcaaggct gtcttccagc 961 gactcaagct ctgggtctgc tgcctgtgcc tcgggcctgc ccacggagac tcgcagacac1021 ccctttccca gctcgcctcc gggaggaggg acccaagggc cccctctgct cctgtgggaa1081 aggaggggag ctgcgtgcct ttgtcggctt ggggcgaggg gcaggtggag cccttgcctc1141 ccacacagca gtccagcggc agcgccgtgg gaacgtcgtc caaagcagaa gccagcgtcg1201 cctgctccct ctgctgacat ttcaagctga ccctgtgatc tctgccctgt cttcgggcga1261 caggagccag aaaatcaggg acatggctga tggctgcgga tgctggaacc ttggccccca1321 aactctgggg ccgatcagct gctgtttctc tgcggcaggg cagtcgctgc tggctctggg1381 aagagagtga gggacagagg aaacgtttat cctggag (2) SEQ ID NO: 2802, data: (i) sequence characteristics:

(A) length: 14507 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2802 sequence description: 1 gctgtgcaac ctcggcgcca tgcgcaacct ctatgcgatg caccggcggc tgcagcggca 61 cccgcgctcc tgcaccaggg actgtgccga gccgcgcgcg gacgggaggg aagcgtcccc121 tcagcccctg gaggagctgg atcacctcct gctgctggcg ctgatgaccg tgctcttcac181 tatgtgttct ctgcccgtaa tttatcgcgc ttactatgga gcatttaagg atgtcaagga241 gaaaaacagg acctctgaag aagcagaaga cctccgagcc ttgcgatttc tatctgtgat301 ttcaattgtg gacccttgga tttttatcat tttcagatct ccagtatttc ggatattttt361 tcacaagatt ttcattagac ctcttaggta caggagccgg tgcagcaatt ccactaacat421 ggaatccagt ctgtgacagt gtttttcact ctgtggtaag ctgaggaata tgtcacattt481 tcagtcaaag aacca 496 gaattctggc tattttcctc ctgccgttcc gactcggcac cagagtctgt ctctactgag 556 aacgcagcgc gtcagggccg agctcttcac tggcctgctc cgcgctcttc aatgccagcg 616 ccaggcgctc accctgcaga gcgtcccgcc tctcaaagag gggtgtgacc cgcgagttta 676 gataggaggt tcctgccgtg gggaacaccc cgccgccctc ggagcttttt ctgtggcgca 736 gcttctccgc ccgagccgcg cgcggagctg ccgggggctc cttagcaccc gggcgccggg 796 gccctcgccc ttccgcagcc ttcactccag ccctctgctc ccgcacgcca tgaagtcgcc 856 gttctaccgc tgccagaaca ccacctctgt ggaaaaaggc aactcggcgg tgatgggcgg 916 ggtgctcttc agcaccggcc tcctgggcaa cctgctggcc ctggggctgc tggcgcgctc 976 ggggctgggg tggtgctcgc ggcgtccact gcgcccgctg ccctcggtct tctacatgct1036 ggtgtgtggc ctgacggtca ccgacttgct gggcaagtgc ctcctaagcc cggtggtgct1096 ggctgcctac gctcagaacc ggagtctgcg ggtgcttgcg cccgcattgg acaactcgtt1156 gtgccaagcc ttcgccttct tcatgtcctt ctttgggctc tcctcgacac tgcaactcct1216 ggccatggca ctggagtgct ggctctccct agggcaccct ttcttctacc gacggcacat1276 8656 1276 caccctgcgc ctgggcgcac tggtggcccc ggtggtgagc gccttctccc tggctttctg1336 cgcgctacct ttcatgggct tcgggaagtt cgtgcagtac tgccccggca cctggtgctt1396 tatccagatg gtccacgagg agggctcgct gtcggtgctg gggtactctg tgctctactc1456 cagcctcatg gcgctgctgg tcctcgccac cgtgctgtgc aacctcggcg ccatgcgcaa1516 cctctatgcg atgcaccggc ggctgcagcg gcacccgcgc tcctgcacca gggactgtgc1576 cgagccgcgc gcggacggga gggaagcgtc ccctcagccc ctggaggagc tggatcacct1636 cctgctgctg gcgctgatga ccgtgctctt cactatgtgt tctctgcccg taattgtgag1696 tccccgggcc ccgagg1712 gggccgccgt cggcgcgctg ggtgcgggaa gggggctctg gatttcggtc cctccccttt1772 ttcctctgag tctcggaacg ctccagctct cagaccctct tcctcccagg taaaggccgg 121 gagaggaggg cgcatctctt ttccaggcac cccaccatgg gcaatgcctc caatgactcc 181 cagtctgagg actgcgagac gcgacagtgg cttcccccag gcgaaagccc agccatcagc 241 tccgtcatgt tctcggccgg ggtgctgggg aacctcatag cactggcgct gctggcgcgc 301 cgctggcggg gggacgtggg gtgcagcgcc ggccgcagga gctccctctc cttgttccac 361 gtgctggtga ccgagctggt gttcaccgac ctgctcggga cctgcctcat cagcccagtg 421 gtactggctt cgtacgcgcg gaaccagacc ctggtggcac tggcgcccga gagccgcgcg 481 tgcacctact tcgctttcgc catgaccttc ttcagcctgg ccacgatgct catgctcttc 541 gccatggccc tggagcgcta cctctcgatc gggcacccct acttctacca gcgccgcgtc 601 tcggcctccg ggggcctggc cgtgctgcct gtcatctatg cagtctccct gctcttctgc 661 tcgctgccgc tgctggacta tgggcagtac gtccagtact gccccgggac ctggtgcttc 721 781 721 atccggcacg ggcggaccgc ttacctgcag ctgtacgcca ccctgctgct gcttctcatt 781 gtctcggtgc tcgcctgcaa cttcagtgtc attctcaacc tcatccgcat gcaccgccga 841 agccggagaa gccgctgcgg accttccctg ggcagtggcc ggggcggccc cggggcccgc 901 aggagagggg aaagggtgtc catggcggag gagacggacc acctcattct cctggctatc 961 atgaccatca ccttcgccgt ctgctccttg cctttcacga tttttgcata tatgaatgaa1021 acctcttccc gaaaggaaaa atgggacctc caagctctta ggtttttatc aattaattca1081 ataattgacc cttgggtctt tgccatcctt aggcctcctg ttctgagact aatgcgttca1141 gtcctctgtt gtcggatttc attaagaaca caagatgcaa cacaaacttc ctgttctaca1201 cagtcagatg ccagtaaaca ggctgacctt tgaggtcagt agtttaaaag ttcttagtta1261 tatagcatct ggaagatcat tttgaaattg ttccctggag aaatgaaaac agtgtgtaaa1321 caaaatgaag ctgccctaat aaaaaggagt atacaaacat ttaagctgtg gtcaaggcta1381 cagatgtgct gacaaggcac ttcatgtaaa gtgtcagaag gagctacaaa acctaccctc1441 aatgagcatg gtacttggcc tttggaggaa caatcggctg cattgaagat ccagctgcct1501 attgatttaa gctttcctgt tgaatgacaa agtatgtggt tttgtaattt gtttgaaacc1561 ccaaacagtg actgtacttt ctattttaat cttgctacta ccgttataca catatagtgt1621 acagccagac cagattaaac ttcatatgta atctctagga agtcaatatg tggaagcaac1681 caagcctgct gtcttgtgat cacttagcga accctttatt tgaacaatga agttgaaaat1741 5818024 actcttacaa gagtggactc agtgggttaa catcagtttt gtttactcat cctccaggaa1861 ctgcaggtca agttgtcagg ttatttattt tataatgtcc atatgctaat agtgatcaag1921 aagactttag gaatggttct ctcaacaaga aataatagaa atgtctcaag gcagttaatt1981 ctcattaata ctcttattat cctatttctg ggggaggatg tacgtggcca tgtatgaagc2041 caaatattag gcttaaaaac tgaaaaatct ggttcattct tcagatatac tggaaccctt2101 ttaaagttga tattggggcc atgagtaaaa tagattttat aagatgactg tgttgtacca2161 aaattcatct gtctatattt tatttagggg aacatggttt gactcatctt atatgggaaa2221 ccatgtagca gtgagtcata tcttaatata tttctaaatg tttggcatgt aaatgtaaac2281 tcagcatcaa aatatttcag tgaatttgca ctgtttaatc atagttactg tgtaaactca2341 tctgaaatgt tacaaaaata aactataaaa ca

1 agagaggaag gcgtggctcc ctcccgggcc agtgagccct ggcgccgccg cggccgcggt 61 cccagcagcg gagtagggcg gcggctgcgc cccgcaccat ggggggcagc ccagccccag 121 ccgcggtaaa cgccgacctc cgccgccgcc cgcgccgcgt ctgccccctc ccgctgcggc 181 tctctggacg ccatcccctc ctcacctcga agccaacatg aaggagaccc ggggctacgg 241 aggggatgcc cccttctgca cccgcctcaa ccactcctac acaggcatgt gggcgcccga 301 gcgttccgcc gaggcgcggg gcaacctcac gcgccctcca gggtctggcg aggattgcgg 361 atcggtgtcc gtggccttcc cgatcaccat gctgctcact ggtttcgtgg gcaacgcact 421 ggccatgctg ctcgtgtcgc gcagctaccg gcgccgggag agcaagcgca agaagtcctt 481 cctgctgtgc atcggctggc tggcgctcac cgacctggtc gggcagcttc tcaccacccc 541 ggtcgtcatc gtcgtgtacc tgtccaagca gcgttgggag cacatcgacc cgtcggggcg 601 gctctgcacc tttttcgggc tgaccatgac tgttttcggg ctctcctcgt tgttcatcgc 661 cagcgccatg gccgtcgagc gggcgctggc catcagggcg ccgcactggt atgcgagcca 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 cgccctgctg ccggtgctgg gcgtgggcca gtacaccgtc cagtggcccg ggacgtggtg 841 cttcatcagc accgggcgag ggggcaacgg gactagctct tcgcataact ggggcaacct 901 tttcttcgcc tctgcctttg ccttcctggg gctcttggcg ctgacagtca ccttttcctg 961 caacctggcc accattaagg ccctggtgtc ccgctgccgg gccaaggcca cggcatctca1021 gtccagtgcc cagtggggcc gcatcacgac cgagacggcc attcagctta tggggatcat1081 gtgcgtgctg tcggtctgct ggtctccgct cctgataatg atgttgaaaa tgatcttcaa1141 tcagacatca gttgagcact gcaagacaca cacggagaag cagaaagaat gcaacttctt1201 cttaatagct gttcgcctgg cttcactgaa ccagatcttg gatccttggg tttacctgct1261 gttaagaaag atccttcttc gaaagttttg ccaggtagca aatgctgtct ccagctgctc1321 taatgatgga cagaaagggc agcctatctc attatctaat gaaataatac agacagaagc1381 atgaaagaaa acacttaact tgcatgtgca cagcttctgg taacaaatat cgctaaacct1441 tactgtgaat ttaggcatct ctggcatgcc actgtttatg cattgaagtg gaatttttgg1501 tataaagcta aatggtctta gaagcataga aaatccctat gtgccaaaag tagtgaaaca1561 caaacaaagg aaaatatatt aataacagtc tagtgttttt gttgagtctg ccattcgtag1621 ctgaatatgt gattaattat gtgatgaaaa ctttttttat aaatgatctt ggtctattgg1681 gg

1 cccgggccag tgagccctgg cgccgccgcg gccgcggtcc cagcagcgga gtagggcggc 61 ggctgcgccc cgcaccatgg ggggcagccc agccccagcc gcggtaaacg ccgacctccg 121 ccgccgcccg cgccgcgtct gccccctccc gctgcggctc tctggacgcc atcccctcct 181 cacctcgaag ccaacatgaa ggagacccgg ggctacggag gggatgcccc cttctgcacc 241 cgcctcaacc actcctacac aggcatgtgg gcgcccgagc gttccgccga ggcgcggggc 301 aacctcacgc gccctccagg gtctggcgag gattgcggat cggtgtccgt ggccttcccg361 atcaccatgc tgctcactgg tttcgtgggc aacgcactgg ccatgctgct cgtgtcgcgc 421 agctaccggc gccgggagag caagcgcaag aagtccttcc tgctgtgcat cggctggctg 481 gcgctcaccg acctggtcgg gcagcttctc accaccccgg tcgtcatcgt cgtgtacctg 541 tccaagcagc gttgggagca catcgacccg tcggggcggc tctgcacctt tttcgggctg 601 accatgactg ttttcgggct ctcctcgttg ttcatcgcca gcgccatggc cgtcgagcgg 661 gcgctggcca tcagggcgcc gcactggtat gcgagccaca tgaagacgcg tgccacccgc 721 gctgtgctgc tcggcgtgtg gctggccgtg ctcgccttcg ccctgctgcc ggtgctgggc 781 gtgggccagt acaccgtcca gtggcccggg acgtggtgct tcatcagcac cgggcgaggg 841 ggcaacggga ctagctcttc gcataactgg ggcaaccttt tcttcgcctc tgcctttgcc 901 ttcctggggc tcttggcgct gacagtcacc ttttcctgca acctggccac cattaaggcc 961 ctggtgtccc gctgccgggc caaggccacg gcatctcagt ccagtgccca gtggggccgc1021 atcacgaccg agacggccat tcagcttatg gggatcatgt gcgtgctgtc ggtctgctgg1081 tctccgctcc tgataatgat gttgaaaatg atcttcaatc agacatcagt tgagcactgc1141 aagacacaca cggagaagca gaaagaatgc aacttcttct taatagctgt tcgcctggct1201 tcactgaacc agatcttgga tccttgggtt tacctgctgt taagaaagat ccttcttcga1261 aagttttgcc agatcaggta ccacacaaac aactatgcat ccagctccac ctccttaccc1321 tgccagtgtt cctcaacctt gatgtggagc gaccatttgg aaagataatg aaagaacgga1381 gttggacatt ttattgcaat tcctgcttcc ctgaatttgc atatttcttc ccacctgaga1441 aggataatta tatattttaa tttggattat ttcttcattt ttatcttttt attttaatga1501 ttgttttgtc agtaataccc atggagatca actttattat tataatccat gcctctgaat1561 attagattgg tttcttggat gggattttga atatgcattt aagaagttgg gaagaatttc1621 acagatgatg attggaggaa aagtgatgaa aagaaagacc tgtgttccag gagttttctc1681 caacttcaaa cctttacgtg aatcttaacc aaagtggaca tctttacatt tcatgatagc1741 ttgcttttgc aatatgagtt tgaaaaatca gtataagctt atgatggtga aaagtcaaca1801 tattgagagt gataattcaa ttaataggat atgaacttaa cgatataaaa gcaaatgagg1861 gcaggagggg 1 agagaggaag gcgtggctcc ctcccgggcc agtgagccct ggcgccgccg cggccgcggt 61 cccagcagcg gagtagggcg gcggctgcgc cccgcaccat ggggggcagc ccagccccag 121 ccgcggtaaa cgccgacctc cgccgccgcc cgcgccgcgt ctgccccctc ccgctgcggc 181 tctctggacg ccatcccctc ctcacctcga agccaacatg aaggagaccc ggggctacgg 241 aggggatgcc cccttctgca cccgcctcaa ccactcctac acaggcatgt gggcgcccga 301 gcgttccgcc gaggcgcggg gcaacctcac gcgccctcca gggtctggcg aggattgcgg 361 atcggtgtcc gtggccttcc cgatcaccat gctgctcact ggtttcgtgg gcaacgcact 421 ggccatgctg ctcgtgtcgc gcagctaccg gcgccgggag agcaagcgca agaagtcctt 481 cctgctgtgc atcggctggc tggcgctcac cgacctggtc gggcagcttc tcaccacccc 541 ggtcgtcatc gtcgtgtacc tgtccaagca gcgttgggag cacatcgacc cgtcggggcg 601 gctctgcacc tttttcgggc tgaccatgac tgttttcggg ctctcctcgt tgttcatcgc 661 cagcgccatg gccgtcgagc gggcgctggc catcagggcg ccgcactggt atgcgagcca 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 cgccctgctg ccggtgctgg gcgtgggcca gtacaccgtc cagtggcccg ggacgtggtg 841 cttcatcagc accgggcgag ggggcaacgg gactagctct tcgcataact ggggcaacct 901 tttcttcgcc tctgcctttg ccttcctggg gctcttggcg ctgacagtca ccttttcctg 961 caacctggcc accattaagg ccctggtgtc ccgctgccgg gccaaggcca cggcatctca1021 gtccagtgcc cagtggggcc gcatcacgac cgagacggcc attcagctta tggggatcat1081 gtgcgtgctg tcggtctgct ggtctccgct cctgataatg atgttgaaaa tgatcttcaa1141 tcagacatca gttgagcact gcaagacaca cacggagaag cagaaagaat gcaacttctt1201 cttaatagct gttcgcctgg cttcactgaa ccagatcttg gatccttggg tttacctgct1261 gttaagaaag atccttcttc gaaagttttg ccaggtagca aatgctgtct ccagctgctc1321 taatgatgga cagaaagggc agcctatctc attatctaat gaaataatac agacagaagc1381 atgaaagaaa acacttaact tgcatgtgca cagcttctgg taacaaatat cgctaaacct1441 tactgtgaat ttaggcatct ctggcatgcc actgtttatg cattgaagtg gaatttttgg1501 tataaagcta aatggtctta gaagcataga aaatccctat gtgccaaaag tagtgaaaca1561 caaacaaagg aaaatatatt aataacagtc tagtgttttt gttgagtctg ccattcgtag1621 ctgaatatgt gattaattat gtgatgaaaa ctttttttat aaatgatctt ggtctattgg1681 gg

1 agagaggaag gcgtggctcc ctcccgggcc agtgagccct ggcgccgccg cggccgcggt 61 cccagcagcg gagtagggcg gcggctgcgc cccgcaccat ggggggcagc ccagccccag 121 ccgcggtaaa cgccgacctc cgccgccgcc cgcgccgcgt ctgccccctc ccgctgcggc181 tctctggacg ccatcccctc ctcacctcga agccaacatg aaggagaccc ggggctacgg 241 aggggatgcc cccttctgca cccgcctcaa ccactcctac acaggcatgt gggcgcccga 301 gcgttccgcc gaggcgcggg gcaacctcac gcgccctcca gggtctggcg aggattgcgg 361 atcggtgtcc gtggccttcc cgatcaccat gctgctcact ggtttcgtgg gcaacgcact 421 ggccatgctg ctcgtgtcgc gcagctaccg gcgccgggag agcaagcgca agaagtcctt 481 cctgctgtgc atcggctggc tggcgctcac cgacctggtc gggcagcttc tcaccacccc 541 ggtcgtcatc gtcgtgtacc tgtccaagca gcgttgggag cacatcgacc cgtcggggcg 601 gctctgcacc tttttcgggc tgaccatgac tgttttcggg ctctcctcgt tgttcatcgc 661 cagcgccatg gccgtcgagc gggcgctggc catcagggcg ccgcactggt atgcgagcca 721 catgaagacg cgtgccaccc gcgctgtgct gctcggcgtg tggctggccg tgctcgcctt 781 cgccctgctg ccggtgctgg gcgtgggcca gtacaccgtc cagtggcccg ggacgtggtg 841 cttcatcagc accgggcgag ggggcaacgg gactagctct tcgcataact ggggcaacct 901 tttcttcgcc tctgcctttg ccttcctggg gctcttggcg ctgacagtca ccttttcctg 961 caacctggcc accattaagg ccctggtgtc ccgctgccgg gccaaggcca cggcatctca1021 gtccagtgcc cagtggggcc gcatcacgac cgagacggcc attcagctta tggggatcat1081 gtgcgtgctg tcggtctgct ggtctccgct cctgataatg atgttgaaaa tgatcttcaa1141 tcagacatca gttgagcact gcaagacaca cacggagaag cagaaagaat gcaacttctt1201 cttaatagct gttcgcctgg cttcactgaa ccagatcttg gatccttggg tttacctgct1261 gttaagaaag atccttcttc gaaagttttg ccaggaggaa ttttggggaa attaaaacct1321 gcctttctgc caggatcaca tcactggaag ctccatgact ctctttttgt aaaagaaaa

1 gtgcgcggag gggacgagcg gctggaccac agccggcgcc cgatcaggat ctccgcgctg 61 ggatcggtgg aacttgaggc agcggcggcg cggggcgcca tggcacaccg agcggctccg 121 tcttctgctc ctcagagagc ccggctggcg gcctgggatg acaagatgtc tggactgcaa 181 tcctgcacag ttttgagagg gagatgactt gagtggttgg cttttatctc cacaacaatg 241 tccatgaaca attccaaaca gctagtgtct cctgcagctg cgcttctttc aaacacaacc 301 tgccagacgg aaaaccggct ttccgtattt ttttcagtaa tcttcatgac agtgggaatc 361 ttgtcaaaca gccttgccat cgccattctc atgaaggcat atcagagatt tagacagaag 421 tccaaggcat cgtttctgct tttggccagc ggcctggtaa tcactgattt ctttggccat 481 ctcatcaatg gagccatagc agtatttgta tatgcttctg ataaagaatg gatccgcttt 541 gaccaatcaa atgtcctttg cagtattttt ggtatctgca tggtgttttc tggtctgtgc 601 ccacttcttc taggcagtgt gatggccatt gagcggtgta ttggagtcac aaaaccaata 661 tttcattcta cgaaaattac atccaaacat gtgaaaatga tgttaagtgg tgtgtgcttg 721 tttgctgttt tcatagcttt gctgcccatc cttggacatc gagactataa aattcaggcg 781 tcgaggacct ggtgtttcta caacacagaa gacatcaaag actgggaaga tagattttat 841 cttctacttt tttcttttct ggggctctta gcccttggtg tttcattgtt gtgcaatgca 901 atcacaggaa ttacactttt aagagttaaa tttaaaagtc agcagcacag acaaggcaga 961 tctcatcatt tggaaatggt aatccagctc ctggcgataa tgtgtgtctc ctgtatttgt1021 tggagcccat ttctggttac aatggccaac attggaataa atggaaatca ttctctggaa1081 acctgtgaaa caacactttt tgctctccga atggcaacat ggaatcaaat cttagatcct1141 tgggtatata ttcttctacg aaaggctgtc cttaagaatc tctataagct tgccagtcaa1201 tgctgtggag tgcatgtcat cagcttacat atttgggagc ttagttccat taaaaattcc1261 ttaaaggttg ctgctatttc tgagtcacca gttgcagaga aatcagcaag cacctagctt1321 aataggacag taaatctgtg tggggctaga acaaaaatta agacatgttt ggcaatattt1381 cagttagtta aatacctgta gcctaactgg aaaattcagg cttcatcatg tagtttgaag1441 atactattgt cagattcagg ttttgaaatt tgtcaaataa acaggataac tgtacatttt1501 caacttgttt ttgccaatgg gaggtagaca caataaaata atgccatggg agtcacactg1561 aaagcaattt tgagcttatc tgtcttattt atgctttgag tgaatcatct gttgaggtct1621aatgcctcta cttggcctat ttgccagaga acatcttaat gcagcctgca tagtgaaatg1681 gttattttga gatcaccgct ctgtagctaa cccttataaa ctaggctcag taaaataaag1741 cactcttatt ttttgatctg gcctattttg cccctcattg tgtagcctca attaacacat1801 gcatggtcat gacacccaga attcatgatg gtttgttata acaacctctg catattccag1861 gtctggcaga caggttgcct gaccctgcaa tcctatctag aatgggccca ttcttgtcac1921 atttgacaaa taggactgcc tacatttatt attatgaagg tcgattgttg ttggaagtgt1981 tttttcatgt catagattag caattttcaa ataattattt tttctctgaa aattttgtgt2041 gtgattgcac aataaataat ttttagagaa acaaaggctc tttctcagca cattgatggg2101 caactagaat tacagcagtt tcaaactcta ccatggataa tgcaaacaaa ccgaagctac2161 atgccaatga taggtgcaaa gaatattggc aaaaggtgct ttaccttgag ccattatttg2221 tgtcagagaa caaaagaaac agaatcaata tataaattca aagactatct gcagctagtg2281 tgtttcttct ttacacacat atacacacag acatcagaaa attctgttga gagcaggttc 2341 attaaatttg taagatggca tattctaaag cctgtgctac cagtactaag aggggaagac 2401 tggcaatttg ccaagcactt ggggattatt ataacaatta actaggagat caagagataa 2461 taatctctcc ccaaattttc caataataat tgag

1 ggcacagacg cacgggacag gagagcctgg gcaagactgg agagcccaga cctgggatgg 61 cggattcgtg caggaacctc acctacgtgc ggggctcggt ggggccggcc accagcaccc 121 tgatgttcgt ggccggtgtg gtgggcaacg ggctggccct gggcatcctg agcgcacggc 181 13811 gctctctggg tccacggccg cgcaccggag aggacgaggt ggaccacctg atcctgctgg13871 181 gaccggcgcg cccctcggcc ttcgcggtgc tggtcaccgg actggcggcc accgacctgc 241 tgggcaccag cttcctgagc ccggccgtgt tcgtggccta tgcgcgcaac agctccctgc 301 tgggcctggc ccgaggcggc cccgccctgt gcgatgcctt cgccttcgcc atgaccttct 361 tcggcctggc gtccatgctc atcctctttg ccatggccgt ggagcgctgc ctggcgctga 421 gccaccccta cctctacgcg cagctggacg ggccccgctg cgcccgcctg gcgctgccag 481 ccatctacgc cttctgcgtc ctcttctgcg cgctgcccct gctgggcctg ggccaacacc 541 agcagtactg ccccggcagc tggtgcttcc tccgcatgcg ctgggcccag ccgggcggcg 601 ccgccttctc gctggcctac gccggcctgg tggccctgct ggtggctgcc atcttcctct13751 gcaacggctc ggtcaccctc agcctctgcc gcatgtaccg ccagcagaag cgccaccagg13811 gctctctggg tccacggccg cgcaccggag aggacgaggt ggaccacctg atcctgctgg13871 ccctcatgac agtggtcatg gccgtgtgct ccctgcctct cacgatccgc tgcttcaccc13931 aggctgtcgc ccctgacagc agcagtgaga tgggggacct ccttgccttc cgcttctacg13991 ccttcaaccc catcctggac ccctgggtct tcatcctttt ccgcaaggct gtcttccagc14051 gactcaagct ctgggtctgc tgcctgtgcc tcgggcctgc ccacggagac tcgcagacac14111 ccctttccca gctcgcctcc gggaggaggg acccaagggc cccctctgct cctgtgggaa14171 aggaggggag ctgcgtgcct ttgtcggctt ggggcgaggg gcaggtggag cccttgcctc14231 ccacacagca gtccagcggc agcgccgtgg gaacgtcgtc caaagcagaa gccagcgtcg14291 cctgctccct ctgctgacat ttcaagctga ccctgtgatc tctgccctgt cttcgggcga14351 caggagccag aaaatcaggg acatggctga tggctgcgga tgctggaacc ttggccccca14411 aactctgggg ccgatcagct gctgtttctc tgcggcaggg cagtcgctgc tggctctggg14471 aagagagtga gggacagagg aaacgtttat cctggag (2) SEQ ID NO: 2803, data: (i) sequence characteristics:

(A) length: 2588 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2803 sequence description: 1 gctttctcct agggactgtg aggggcgctt ctgactttgg acttgagcac tgcctgggac 61 ctgtgctgag agagcgctag catgtctcag tggaatcaag tccaacagtt agaaatcaag 121 tttttggagc aggtggatca attctatgat gacaactttc ccatggaaat tcggcatctg 181 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 181 ttggcccaat ggattgaaaa tcaagactgg gaggcagctt ctaacaatga aaccatggca 241 acgattcttc ttcaaaactt gttaatacaa ctggatgaac agttaggtcg tgtttccaaa 301 gagaaaaacc tactcttgat acacaatcta aaaagaatta ggaaggtcct tcagggaaaa 361 tttcatggaa atccaatgca tgtagctgtg gttatttcaa actgtttaag ggaagagagg 421 agaatattgg ctgcagccaa catgcctgtc caggggcctc tagagaaatc cttacaaagt 481 tcttcagttt cagaaagaca gaggaatgtg gagcacaaag tggctgccat taaaaacagt 541 gtgcagatga cagaacaaga taccaaatac ttagaagatc tgcaagacga atttgactac 601 aggtataaaa caattcagac aatggatcag agtgacaaga atagtgccat ggtgaatcag 661 gaagttttga cactgcagga aatgcttaac agcctcgatt tcaagagaaa ggaggctctc 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 gagctgcaag actggaagcg gcggcagcaa atcgcctgca tcgggggtcc actccacaat 841 gggctcgacc agcttcagaa ctgctttaca ctattggcag aaagtctttt ccaactgaga 901 aggcaattgg agaaactaga ggagcaatct accaaaatga catatgaagg tgatcccatt 961 ccaatgcaaa gaactcacat gctagaaaga gtcaccttct tgatctacaa ccttttcaag1021 aactcatttg tggttgagcg acagccatgt atgccaaccc accctcagag gccgttggta1081 cttaaaaccc taattcagtt cactgtaaaa ctaaggctac taataaaatt gccagaacta1141 aactatcagg taaaggttaa ggcatcaatt gacaagaatg tttcaactct aagcaaccga1201 agatttgtac tttgtggaac taatgtcaaa gccatgtcta ttgaagaatc ttccaatggg1261 agtctctcag tagaatttcg acatttgcaa ccaaaggaaa tgaagtccag tgctggaggt1321 aaaggaaatg agggctgtca catggtgact gaagaacttc attccataac gtttgaaaca1381 cagatctgcc tctatggcct gaccatagat ttggagacca gctcattgcc tgtggtgatg1441 atttccaatg tcagtcagtt acctaatgct tgggcatcca tcatttggta caacgtgtca1501 accaacgatt cccagaactt ggttttcttt aataatcctc cacctgccac attgagtcaa1561 ctactggagg tgatgagctg gcagttttca tcgtacgttg gtcgtggtct taactcagat1621 caactccata tgctggcaga gaagcttaca gtccaatcta gctacagtga tggtcacctc1681 acctgggcca agttctgcaa ggaacattta cctggtaaat catttacctt ttggacatgg1741 cttgaagcaa tattggatct aattaagaaa cacattcttc ccctttggat tgatgggtat1801 gtcatgggct ttgttagcaa agagaaggaa cggctgttgc taaaggataa aatgcctggc1861 acctttttat taagattcag tgaaagccat ctcggaggaa taactttcac ctgggtggac1921 cattctgaaa gtggggaagt gagattccac tctgtagaac cctacaataa aggccggttg1981 tctgctctgc cattcgctga catcctgcga gactacaaag ttattatggc tgaaaacatt2041 cctgaaaacc ctctgaagta cctatatcct gacattccca aagacaaagc cttcggtaaa2101 cactacagct ctcagccttg cgaagtttca agaccaacag aaaggggtga caaaggttat2161 gttccttctg tttttatccc catctcaaca atccgaagtg attcaacaga gccacattct2221 ccatcagacc ttcttcccat gtctccaagt gtgtatgcgg tgttgagaga aaacctgagt2281 cccacaacaa ttgaaactgc aatgaagtct ccttattctg ctgaatgaca ggataaactc2341 tgacgcacca agaaaggaag caaatgaaaa agtttaaaga ctgttctttg cccaataacc2401 acattttatt tcttcagctt tgtaaatacc aggttctagg aaatgtttga catctgaagc2461 tctcttcaca ctcccgtggc actcctcaat tgggagtgtt gtgactgaaa tgcttgaaac2521 caaagcttca gataaacttg caagataaga caactttaag aaaccagtgt taataacaat2581 attaacaag (2) SEQ ID NO: 2804 data:

(i) sequence characteristics: (A) length: 2588 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2804 sequence description: 1 gctttctcct agggactgtg aggggcgctt ctgactttgg acttgagcac tgcctgggac 61 ctgtgctgag agagcgctag catgtctcag tggaatcaag tccaacagtt agaaatcaag 121 tttttggagc aggtggatca attctatgat gacaactttc ccatggaaat tcggcatctg 181 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 181 ttggcccaat ggattgaaaa tcaagactgg gaggcagctt ctaacaatga aaccatggca 241 acgattcttc ttcaaaactt gttaatacaa ctggatgaac agttaggtcg tgtttccaaa 301 gagaaaaacc tactcttgat acacaatcta aaaagaatta ggaaggtcct tcagggaaaa 361 tttcatggaa atccaatgca tgtagctgtg gttatttcaa actgtttaag ggaagagagg 421 agaatattgg ctgcagccaa catgcctgtc caggggcctc tagagaaatc cttacaaagt 481 tcttcagttt cagaaagaca gaggaatgtg gagcacaaag tggctgccat taaaaacagt 541 gtgcagatga cagaacaaga taccaaatac ttagaagatc tgcaagacga atttgactac 601 aggtataaaa caattcagac aatggatcag agtgacaaga atagtgccat ggtgaatcag 661 gaagttttga cactgcagga aatgcttaac agcctcgatt tcaagagaaa ggaggctctc 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 gagctgcaag actggaagcg gcggcagcaa atcgcctgca tcgggggtcc actccacaat 841 gggctcgacc agcttcagaa ctgctttaca ctattggcag aaagtctttt ccaactgaga 901 aggcaattgg agaaactaga ggagcaatct accaaaatga catatgaagg tgatcccatt 961 ccaatgcaaa gaactcacat gctagaaaga gtcaccttct tgatctacaa ccttttcaag1021 aactcatttg tggttgagcg acagccatgt atgccaaccc accctcagag gccgttggta1081 cttaaaaccc taattcagtt cactgtaaaa ctaaggctac taataaaatt gccagaacta1141 aactatcagg taaaggttaa ggcatcaatt gacaagaatg tttcaactct aagcaaccga1201 agatttgtac tttgtggaac taatgtcaaa gccatgtcta ttgaagaatc ttccaatggg1261 agtctctcag tagaatttcg acatttgcaa ccaaaggaaa tgaagtccag tgctggaggt1321 aaaggaaatg agggctgtca catggtgact gaagaacttc attccataac gtttgaaaca1381 cagatctgcc tctatggcct gaccatagat ttggagacca gctcattgcc tgtggtgatg1441 atttccaatg tcagtcagtt acctaatgct tgggcatcca tcatttggta caacgtgtca1501 accaacgatt cccagaactt ggttttcttt aataatcctc cacctgccac attgagtcaa1561 ctactggagg tgatgagctg gcagttttca tcgtacgttg gtcgtggtct taactcagat1621 caactccata tgctggcaga gaagcttaca gtccaatcta gctacagtga tggtcacctc1681 acctgggcca agttctgcaa ggaacattta cctggtaaat catttacctt ttggacatgg1741 cttgaagcaa tattggatct aattaagaaa cacattcttc ccctttggat tgatgggtat1801 gtcatgggct ttgttagcaa agagaaggaa cggctgttgc taaaggataa aatgcctggc1881 acctttttat taagattcag tgaaagccat ctcggaggaa taactttcac ctgggtggac1921 cattctgaaa gtggggaagt gagattccac tctgtagaac cctacaataa aggccggttg1981 tctgctctgc cattcgctga catcctgcga gactacaaag ttattatggc tgaaaacatt2041 cctgaaaacc ctctgaagta cctatatcct gacattccca aagacaaagc cttcggtaaa2101 cactacagct ctcagccttg cgaagtttca agaccaacag aaaggggtga caaaggttat2161 gttccttctg tttttatccc catctcaaca atccgaagtg attcaacaga gccacattct2221 ccatcagacc ttcttcccat gtctccaagt gtgtatgcgg tgttgagaga aaacctgagt2281 cccacaacaa ttgaaactgc aatgaagtct ccttattctg ctgaatgaca ggataaactc2341 tgacgcacca agaaaggaag caaatgaaaa agtttaaaga ctgttctttg cccaataacc2401 acattttatt tcttcagctt tgtaaatacc aggttctagg aaatgtttga catctgaagc2461 tctcttcaca ctcccgtggc actcctcaat tgggagtgtt gtgactgaaa tgcttgaaac2521 caaagcttca gataaacttg caagataaga caactttaag aaaccagtgt taataacaat2581 attaacaag (2) SEQ ID NO: 2805, data: (i) sequence characteristics:

(A) length: 3046 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2805 sequence description: 1 atcttatttt tctttttggt ggtggtggtg gaagggggga ggtgctagca gggccagcct 61 tgaactcgct ggacagagct acagacctat ggggcctgga agtgcccgct gagaaaggga 121 gaagacagca gaggggttgc cgaggcaacc tccaagtccc agatcatgtc tctgtggggt 181 721 accactggag agctagaggc agccaaagcc ctagtgctga agaggatcca gatttggaaa 781 181 ctggtctcca agatgccccc agaaaaagtg cagcggctct atgtcgactt tccccaacac 241 ctgcggcatc ttctgggtga ctggctggag agccagccct gggagttcct ggtcggctcc 301 gacgccttct gctgcaactt ggctagtgcc ctactttcag acactgtcca gcaccttcag 361 gcctcggtgg gagagcaggg ggaggggagc accatcttgc aacacatcag cacccttgag 421 agcatatatc agagggaccc cctgaagctg gtggccactt tcagacaaat acttcaagga 481 gagaaaaaag ctgttatgga acagttccgc cacttgccaa tgcctttcca ctggaagcag 541 gaagaactca agtttaagac aggcttgcgg aggctgcagc accgagtagg ggagatccac 601 cttctccgag aagccctgca gaagggggct gaggctggcc aagtgtctct gcacagcttg 661 atagaaactc ctgctaatgg gactgggcca agtgaggccc tggccatgct actgcaggag 721 accactggag agctagaggc agccaaagcc ctagtgctga agaggatcca gatttggaaa 781 cggcagcagc agctggcagg gaatggcgca ccgtttgagg agagcctggc cccactccag 841 gagaggtgtg aaagcctggt ggacatttat tcccagctac agcaggaggt aggggcggct 901 ggtggggagc ttgagcccaa gacccgggca tcgctgactg gccggctgga tgaagtcctg 961 agaaccctcg tcaccagttg cttcctggtg gagaagcagc ccccccaggt actgaagact1021 cagaccaagt tccaggctgg agttcgattc ctgttgggct tgaggttcct gggggcccca1081 gccaagcctc cgctggtcag ggccgacatg gtgacagaga agcaggcgcg ggagctgagt1141 gtgcctcagg gtcctggggc tggagcagaa agcactggag aaatcatcaa caacactgtg1201 cccttggaga acagcattcc tgggaactgc tgctctgccc tgttcaagaa cctgcttctc1261 aagaagatca agcggtgtga gcggaagggc actgagtctg tcacagagga gaagtgcgct1321 gtgctcttct ctgccagctt cacacttggc cccggcaaac tccccatcca gctccaggcc1381 ctgtctctgc ccctggtggt catcgtccat ggcaaccaag acaacaatgc caaagccact1441 atcctgtggg acaatgcctt ctctgagatg gaccgcgtgc cctttgtggt ggctgagcgg1501 gtgccctggg agaagatgtg tgaaactctg aacctgaagt tcatggctga ggtggggacc1561 aaccgggggc tgctcccaga gcacttcctc ttcctggccc agaagatctt caatgacaac1621 agcctcagta tggaggcctt ccagcaccgt tctgtgtcct ggtcgcagtt caacaaggag1681 atcctgctgg gccgtggctt caccttttgg cagtggtttg atggtgtcct ggacctcacc1741 aaacgctgtc tccggagcta ctggtctgac cggctgatca ttggcttcat cagcaaacag1801 tacgttacta gccttcttct caatgagccc gacggaacct ttctcctccg cttcagcgac1861 tcagagattg ggggcatcac cattgcccat gtcatccggg gccaggatgg ctctccacag1921 atagagaaca tccagccatt ctctgccaaa gacctgtcca ttcgctcact gggggaccga1981 atccgggatc ttgctcagct caaaaatctc tatcccaaga agcccaagga tgaggctttc2041 cggagccact acaagcctga acagatgggt aaggatggca ggggttatgt cccagctacc2101 atcaagatga ccgtggaaag ggaccaacca cttcctaccc cagagctcca gatgcctacc2161 atggtgcctt cttatgacct tggaatggcc cctgattcct ccatgagcat gcagcttggc2221 ccagatatgg tgccccaggt gtacccacca cactctcact ccatcccccc gtatcaaggc2281 ctctccccag aagaatcagt caacgtgttg tcagccttcc aggagcctca cctgcagatg2341 ccccccagcc tgggccagat gagcctgccc tttgaccagc ctcaccccca gggcctgctg2401 ccgtgccagc ctcaggagca tgctgtgtcc agccctgacc ccctgctctg ctcagatgtg2461 accatggtgg aagacagctg cctgagccag ccagtgacag cgtttcctca gggcacttgg2521 attggtgaag acatattccc tcctctgctg cctcccactg aacaggacct cactaagctt2581 ctcctggagg ggcaagggga gtcgggggga gggtccttgg gggcacagcc cctcctgcag2641 ccctcccact atgggcaatc tgggatctca atgtcccaca tggacctaag ggccaacccc2701 agttggtgat cccagctgga gggagaaccc aaagagacag ctcttctact acccccacag2761 27 2761 acctgctctg gacacttgct catgccctgc caagcagcag atggggaggg tgccctccta2821 tccccaccta ctcctgggtc aggaggaaaa gactaacagg agaatgcaca gtgggtggag2881 ccaatccact ccttcctttc tatcattccc ctgcccacct ccttccagca ctgactggaa2941 gggaagttca ggctctgaga cacgccccaa catgcctgca cctgcagcgc gcacacgcac3001 gcacacacac atacagagct ctctgagggt gatggggctg agcagg (2) SEQ ID NO: 2806 data: (i) sequence characteristics:

(A) length: 8222 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2806 sequence description: 1 gctttctcct agggactgtg aggggcgctt ctgactttgg acttgagcac tgcctgggac 61 ctgtgctgag agagcgctag catgtctcag tggaatcaag tccaacagtt agaaatcaag 121 tttttggagc aggtggatca attctatgat gacaactttc ccatggaaat tcggcatctg 181 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 181 ttggcccaat ggattgaaaa tcaagactgg gaggcagctt ctaacaatga aaccatggca 241 acgattcttc ttcaaaactt gttaatacaa ctggatgaac agttaggtcg tgtttccaaa 301 gagaaaaacc tactcttgat acacaatcta aaaagaatta ggaaggtcct tcagggaaaa 361 tttcatggaa atccaatgca tgtagctgtg gttatttcaa actgtttaag ggaagagagg 421 agaatattgg ctgcagccaa catgcctgtc caggggcctc tagagaaatc cttacaaagt 481 tcttcagttt cagaaagaca gaggaatgtg gagcacaaag tggctgccat taaaaacagt 541 gtgcagatga cagaacaaga taccaaatac ttagaagatc tgcaagacga atttgactac 601 aggtataaaa caattcagac aatggatcag agtgacaaga atagtgccat ggtgaatcag 661 gaagttttga cactgcagga aatgcttaac agcctcgatt tcaagagaaa ggaggctctc 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 gagctgcaag actggaagcg gcggcagcaa atcgcctgca tcgggggtcc actccacaat 841 gggctcgacc agcttcagaa ctgctttaca ctattggcag aaagtctttt ccaactgaga 901 aggcaattgg agaaactaga ggagcaatct accaaaatga catatgaagg tgatcccatt 961 ccaatgcaaa gaactcacat gctagaaaga gtcaccttct tgatctacaa ccttttcaag1021 aactcatttg tggttgagcg acagccatgt atgccaaccc accctcagag gccgttggta1081 cttaaaaccc taattcagtt cactgtaaaa ctaaggctac taataaaatt gccagaacta1141 aactatcagg taaaggttaa ggcatcaatt gacaagaatg tttcaactct aagcaaccga1201 agatttgtac tttgtggaac taatgtcaaa gccatgtcta ttgaagaatc ttccaatggg1261 agtctctcag tagaatttcg acatttgcaa ccaaaggaaa tgaagtccag tgctggaggt1321 aaaggaaatg agggctgtca catggtgact gaagaacttc attccataac gtttgaaaca1381 cagatctgcc tctatggcct gaccatagat ttggagacca gctcattgcc tgtggtgatg1441 atttccaatg tcagtcagtt acctaatgct tgggcatcca tcatttggta caacgtgtca1501 accaacgatt cccagaactt ggttttcttt aataatcctc cacctgccac attgagtcaa1561 ctactggagg tgatgagctg gcagttttca tcgtacgttg gtcgtggtct taactcagat1621 caactccata tgctggcaga gaagcttaca gtccaatcta gctacagtga tggtcacctc1681 acctgggcca agttctgcaa ggaacattta cctggtaaat catttacctt ttggacatgg1741 cttgaagcaa tattggatct aattaagaaa cacattcttc ccctttggat tgatgggtat1801 gtcatgggct ttgttagcaa agagaaggaa cggctgttgc taaaggataa aatgcctggc1861 acctttttat taagattcag tgaaagccat ctcggaggaa taactttcac ctgggtggac1921 cattctgaaa gtggggaagt gagattccac tctgtagaac cctacaataa aggccggttg1981 tctgctctgc cattcgctga catcctgcga gactacaaag ttattatggc tgaaaacatt2041 cctgaaaacc ctctgaagta cctatatcct gacattccca aagacaaagc cttcggtaaa2101 cactacagct ctcagccttg cgaagtttca agaccaacag aaaggggtga caaaggttat2161 gttccttctg tttttatccc catctcaaca atccgaagtg attcaacaga gccacattct2221 ccatcagacc ttcttcccat gtctccaagt gtgtatgcgg tgttgagaga aaacctgagt2281 cccacaacaa ttgaaactgc aatgaagtct ccttattctg ctgaatgaca ggataaactc2341 tgacgcacca agaaaggaag caaatgaaaa agtttaaaga ctgttctttg cccaataacc2401 acattttatt tcttcagctt tgtaaatacc aggttctagg aaatgtttga catctgaagc2461 tctcttcaca ctcccgtggc actcctcaat tgggagtgtt gtgactgaaa tgcttgaaac2521 caaagcttca gataaacttg caagataaga caactttaag aaaccagtgt taataacaat2581 attaacaag 1 gctttctcct agggactgtg aggggcgctt ctgactttgg acttgagcac tgcctgggac 61 ctgtgctgag agagcgctag catgtctcag tggaatcaag tccaacagtt agaaatcaag tttttggagc aggtggatca attctatgat gacaactttc ccatggaaat tcggcatctg 181 ttggcccaat ggattgaaaa tcaagactgg gaggcagctt ctaacaatga aaccatggca 241 acgattcttc ttcaaaactt gttaatacaa ctggatgaac agttaggtcg tgtttccaaa 301 gagaaaaacc tactcttgat acacaatcta aaaagaatta ggaaggtcct tcagggaaaa 361 tttcatggaa atccaatgca tgtagctgtg gttatttcaa actgtttaag ggaagagagg 421 agaatattgg ctgcagccaa catgcctgtc caggggcctc tagagaaatc cttacaaagt 481 tcttcagttt cagaaagaca gaggaatgtg gagcacaaag tggctgccat taaaaacagt 541 gtgcagatga cagaacaaga taccaaatac ttagaagatc tgcaagacga atttgactac aggtataaaa caattcagac aatggatcag agtgacaaga atagtgccat ggtgaatcag 661 gaagttttga cactgcagga aatgcttaac agcctcgatt tcaagagaaa ggaggctctc 721 agtaaaatga cccaaatcat ccatgagaca gacctgttaa tgaacaccat gctcatagaa 781 gagctgcaag actggaagcg gcggcagcaa atcgcctgca tcgggggtcc actccacaat 841 gggctcgacc agcttcagaa ctgctttaca ctattggcag aaagtctttt ccaactgaga 901 aggcaattgg agaaactaga ggagcaatctaccaaaatga catatgaagg tgatcccatt 961 ccaatgcaaa gaactcacat gctagaaaga gtcaccttct tgatctacaa ccttttcaag1021 aactcatttg tggttgagcg acagccatgt atgccaaccc accctcagag gccgttggta1081 cttaaaaccc taattcagtt cactgtaaaa ctaaggctac taataaaatt gccagaacta1141 aactatcagg taaaggttaa ggcatcaatt gacaagaatg tttcaactct aagcaaccga1201 agatttgtac tttgtggaac taatgtcaaa gccatgtcta ttgaagaatc ttccaatggg1261 13242 1321 aaaggaaatg agggctgtca catggtgact gaagaacttc attccataac gtttgaaaca1381 cagatctgcc tctatggcct gaccatagat ttggagacca gctcattgcc tgtggtgatg1441 atttccaatg tcagtcagtt acctaatgct tgggcatcca tcatttggta caacgtgtca1501 accaacgatt cccagaactt ggttttcttt aataatcctc cacctgccac attgagtcaa1561 ctactggagg tgatgagctg gcagttttca tcgtacgttg gtcgtggtct taactcagat1621 caactccata tgctggcaga gaagcttaca gtccaatcta gctacagtga tggtcacctc1681 acctgggcca agttctgcaa ggaacattta cctggtaaat catttacctt ttggacatgg1741 cttgaagcaa tattggatct aattaagaaa cacattcttc ccctttggat tgatgggtat1801 gtcatgggct ttgttagcaa agagaaggaa cggctgttgc taaaggataa aatgcctggc1861 acctttttat taagattcag tgaaagccat ctcggaggaa taactttcac ctgggtggac1921 cattctgaaa gtggggaagt gagattccac tctgtagaac cctacaataa aggccggttg1981 20427 461 cctgaaaacc ctctgaagta cctatatcct gacattccca aagacaaagc cttcggtaaa2101 cactacagct ctcagccttg cgaagtttca agaccaacag aaaggggtga caaaggttat2161 gttccttctg tttttatccc catctcaaca atccgaagtg attcaacaga gccacattct2221 ccatcagacc ttcttcccat gtctccaagt gtgtatgcgg tgttgagaga aaacctgagt2281 cccacaacaa ttgaaactgc aatgaagtct ccttattctg ctgaatgaca ggataaactc2341 tgacgcacca agaaaggaag caaatgaaaa agtttaaaga ctgttctttg cccaataacc2401 acattttatt tcttcagctt tgtaaatacc aggttctagg aaatgtttga catctgaagc2461 tctcttcaca ctcccgtggc actcctcaat tgggagtgtt gtgactgaaa tgcttgaaac2521 caaagcttca gataaacttg caagataaga caactttaag aaaccagtgt taataacaat attaacag 1 atcttatttt tctttttggt ggtggtggtg gaagggggga ggtgctagca gggccagcct tgaactcgct ggacagagct acagacctat ggggcctgga agtgcccgct gagaaaggga gaagacagca gaggggttgc cgaggcaacc tccaagtccc agatcatgtc tctgtggggt5357 ctggtctcca agatgccccc agaaaaagtg cagcggctct atgtcgactt tccccaacac5417 ctgcggcatc ttctgggtga ctggctggag agccagccct gggagttcct ggtcggctcc5477 gacgccttct gctgcaactt ggctagtgcc ctactttcag acactgtcca gcaccttcag5537 gcctcggtgg gagagcaggg ggaggggagc accatcttgc aacacatcag cacccttgag5597 agcatatatc agagggaccc cctgaagctg gtggccactt tcagacaaat acttcaagga5657 gagaaaaaag ctgttatgga acagttccgc cacttgccaa tgcctttcca ctggaagcag5717 gaagaactca agtttaagac aggcttgcgg aggctgcagc accgagtagg ggagatccac5777 cttctccgag aagccctgca gaagggggct gaggctggcc aagtgtctct gcacagcttg5837 atagaaactc ctgctaatgg gactgggcca agtgaggccc tggccatgct actgcaggag5897 accactggag agctagaggc agccaaagcc ctagtgctga agaggatcca gatttggaaa5957 cggcagcagc agctggcagg gaatggcgca ccgtttgagg agagcctggc cccactccag6017 gagaggtgtg aaagcctggt ggacatttat tcccagctac agcaggaggt aggggcggct6077 ggtggggagc ttgagcccaa gacccgggca tcgctgactg gccggctgga tgaagtcctg6137 agaaccctcg tcaccagttg cttcctggtg gagaagcagc ccccccaggt actgaagact6197 cagaccaagt tccaggctgg agttcgattc ctgttgggct tgaggttcct gggggcccca6257 gccaagcctc cgctggtcag ggccgacatg gtgacagaga agcaggcgcg ggagctgagt6317 gtgcctcagg gtcctggggc tggagcagaa agcactggag aaatcatcaa caacactgtg6377 cccttggaga acagcattcc tgggaactgc tgctctgccc tgttcaagaa cctgcttctc6437 aagaagatca agcggtgtga gcggaagggc actgagtctg tcacagagga gaagtgcgct6497 gtgctcttct ctgccagctt cacacttggc cccggcaaac tccccatcca gctccaggcc6557 ctgtctctgc ccctggtggt catcgtccat ggcaaccaag acaacaatgc caaagccact 668627 6617 atcctgtggg acaatgcctt ctctgagatg gaccgcgtgc cctttgtggt ggctgagcgg6677 gtgccctggg agaagatgtg tgaaactctg aacctgaagt tcatggctga ggtggggacc6737 366797 agcctcagta tggaggcctt ccagcaccgt tctgtgtcct ggtcgcagtt caacaaggag6857 atcctgctgg gccgtggctt caccttttgg cagtggtttg atggtgtcct ggacctcacc6917 aaacgctgtc tccggagcta ctggtctgac cggctgatca ttggcttcat cagcaaacag6977 tacgttacta gccttcttct caatgagccc gacggaacct ttctcctccg cttcagcgac7037 tcagagattg ggggcatcac cattgcccat gtcatccggg gccaggatgg ctctccacag7097 atagagaaca tccagccatt ctctgccaaa gacctgtcca ttcgctcact gggggaccga 7127 7227 cggagccact acaagcctga acagatgggt aaggatggca ggggttatgt cccagctacc7277 atcaagatga ccgtggaaag ggaccaacca cttcctaccc cagagctcca gatgcctacc7337 atggtgcctt cttatgacct tggaatggcc cctgattcct ccatgagcat gcagcttggc7397 ccagatatgg tgccccaggt gtacccacca cactctcact ccatcccccc gtatcaaggc 4657 ctctccccag aagaatcagt caacgtgttg tcagccttcc aggagcctca cctgcagatg7517 ccccccagcc tgggccagat gagcctgccc tttgaccagc ctcaccccca gggcctgctg7577 ccgtgccagc ctcaggagca tgctgtgtcc agccctgacc ccctgctctg ctcagatgtg7637 accatggtgg aagacagctg cctgagccag ccagtgacag cgtttcctca gggcacttgg 5897 7757 ctcctggagg ggcaagggga gtcgggggga gggtccttgg gggcacagcc cctcctgcag7817 ccctcccact atgggcaatc tgggatctca atgtcccaca tggacctaag ggccaacccc7877 agttggtgat cccagctgga gggagaaccc aaagagacag ctcttctact acccccacag7937 acctgctctg gacacttgct catgccctgc caagcagcag atggggaggg tgccctccta7 tccccaccta ctcctgggtc aggaggaaaa gactaacagg agaatgcaca gtgggtggag8057 ccaatccact ccttcctttc tatcattccc ctgcccacct ccttccagca ctgactggaa8117 gggaagttca ggctctgaga cacgccccaa catgcctgca cctgcagcgc gcacacgcac8177 gcacacacac atacagagct ctctgagggt gatggggctg agcagg (2) SEQ ID NO: 2807, data: (i) sequence characteristics:

(A) length: 11046 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2807 sequence description: 1 tttattttta atttaatcac ttaattttta atttttaaga tggagtctca ctctgttgcc 61 caggctgaag tgcaagggtg taatctcagc tcactgcagc ctctgcctcc cggattccag 121 tgattttcct gcttcagctt cccaggtagc tgggattgca ggcacatgcc actgtgccca 181 721 acttgcatac aaagagaaca gtgtgtgaac gtgaaaatgg ccaaggaggg aggcctggaa 781 181 gataattttt tgtatttttt agtagagacg gggcttcacc atgttggcca ggctggtctt 241 gaactcctaa cctcagatga tccgcacacc tcggcctccc aaagtgctag gattacaggc 301 atgagcctct gcgcctggcc tttacttcag tttcaaagag tgaaggtcaa gacactgttt 361 ttttttatgt tttgttttta attttgtttt aaattttttt tgtagagatg ggatcttgct 421 atgttgccca ggctggtctc gaactcctgg cctccagcaa tcctcctgcc tcagcctccc 481 agagtattgg gattacaggt gtgagccatt gtgcttgatc aagatgctgt tatgggctga 541 gttgtgttcc tcaaaaattc tcttgaagtc ctaatctcaa gtacttcagg acgtgacctt 601 attttgaagg acccccttat agggtcttta cagaggtaat taagttaaaa tgaggccatt 661 aggatggggc ctaatgcaat atgactggta tccttgaaaa aaggggaaac ttggagactg 721 acttgcatac aaagagaaca gtgtgtgaac gtgaaaatgg ccaaggaggg aggcctggaa 781 tagagccttc cttcacatcc ctgagaagga atcaatcaat cctgctcagg ttaaccttga 841 tcttggactt ctagcctcca gcatcttgag agatttctgt tgtttaagtc atgcaatatg 901 tagtactttg ttacagcagc cctagcaaac tgatacactc accaaatcga ttttgtgact 961 cactattggg ttgtaaccag cagtacatag acataaagtt attttttcct tacgctttat1021 cttgtgcaat cgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgacgg1081 agtcttgttc tgtcaccagg ctggagtgca gtggcttgat ctcggctcac tataatcaca1141 gccttccaga ttcaagtgat ttccctgcct cagcctcctg agtagctggg actacaggcg1201 cgcaccacca cgcccgacta attttttgta tttttagtagagacggggtt tcaccatgtt1261 ggccaggatg gtctcaatct cctgaccttg tgatctgcct gcctcagcct cccaaagtgc1321 tgggattaca ggcgtgagcc tctcttgtgc aatctttacc accactcaat gggatgtcaa1381 ggtccagggg agggtgatac agtcaccctc acagtcatgc aggtgcagat gtcattaatg1441 aaggtctgac agaccctgca attgtacaat ctgaagatga gtatctcctt aaatttcata1501 ctctaggcac tttaccctag cctagactct gttgaagtag gtataactat tattctcatt1561 tgagggattg acacctgatt gtgaacctcc taaatggagt catacccaag ccagatttgc1621 ctctaaattc tgttttttcc ccttacatca cagtgttccc attggtatag tcagttacag1681 agggagtaat atatactatt tttctaccag tacttgctcc tcgccttcct accccctaaa1741 aggagccaaa gtcagagatc acatttactc ttttccctcc tcctctccaa gtctttgggg1801 acttgtagct ctgacaccct tagatggtga aacctggctt cacctactgt ctgtggatgt1861 ctgcaggcag agtgggcact caggagcaca tacaaagcac gtgtgccgtg aacacgtatg1921 tgcacacacc ttgatcctag catggcttgt tggacaagcc aatggacaga gtccctgcct1981 gccacctcca cccctgctct cccttctctt ccattcactg tcctgcagac acagcaaaca2041 catacgcaca tacaccctca atatcctttt ggcagtaaca tgacccccaa atctggggac2101 ttctatgtag gatggagacc cttctccttt cctcatacct ggtttattat gaaccataaa2161 aatagtgcct gacagttact gtgtgtcagg cattgttcta agccttcaga tgttttactg2221 cattttattc tcacattatg ggttaagact tatttgctcc attttacaga tgacgagaat2281 gaatcacaga gtaaattgct cagggttgtg tggttagcag cattagcagg atttgaaccc2341 aagcagcctg tatccacagt ccagtctttt aactgctata ttttgctgtg ttcaaaccct2401 ctgctgcctg gctgggtcca cacacgtgca ctcatgcaca gacctgcggg gtagcaaggg2461 atggaggagg aggagctggt tctggaaatc aattcaggca ccagggggca gcataggcct2521 agctttggcc cctcagccca gcccctgcta tgggagggag gaggggagta gaaacttcct2581 cccaccgccc ctcagacacc acctcttcca cacaccgggg ctctcaggtg tccgggagta2641 aaggcctctc tggatccctt ggtctcctcc agctcctccc ccagcaaaaa ctgcagaacc2701 ctccactagt tatgttgatg actcagaagt tgagcaagac tgtgtgtgtg tgtgtgtgtg2761 tgtgtgtgtg tgtgtgtgtg tgtgtgtggt gttgtgattg caatgggctc tgtttgtgag2821 cctgcctgca cgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtagtcttg tggtcaggga2881 agttgtgcat gtgtgtgttt gtttcttggc gtgtctcagt gtttacccca gaaacatata2941 ggaacttggc agataggaac acagcagatt cgtattcaaa cttgcccctt gtgaatctgc3001 aggcagcagc tccggcttgt gctggttccc accacagtct caggaggggt gccctgtgag3061 gagagagcaa agaccagctt cagtccaagg gactcctaga gtcttccaga attctgagct3121 gagggttccc ctcccccact ccctcccgtc agtggtcacg agaccgacct ctaaggcgtt3181 ccctgccgga agggaggggg acctaggagt tggctggcat cgagctccct ggcggctttt3241 tagggtcctc cactggaggg agcgcagagt ccagagggat ttacttttcc tgaggccctg3301 gggagcccag tcccttgtgg gtccaaaccc cagcccttgg cagagtttga gtttgggagc3361 caggcagtta ggggtggcaa atctctgttt gatattgggt gactttctgg agaaaagctg3421 atgcttttga gggggacaga gtaagtgggg gtcagcctcc ccccaagcct ggctccaagg3481 cctggacccc agtcctgatc ccccacgtgt tcccccactc ggcacaggag gcacacatat3541 593601 ctccagggag ggacctgggt agaaggagaa gccggaaaca gcgggctggg gcagccactg3661 cttacactga agagggagga cgggagagga gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt3721 atgtatgtgt gtgctttatc ttatttttct ttttggtggt ggtgttggaa ggggggaggt3781 gctagcaggg ccagccttga actcgctgga cagagctaca gacctatggg gcctggaagt3841 gcccgctgag aaagggagaa gacagcagag gggttgccga ggtgaggggt tgcctccgag3901 gtgggtgcgg gggcctctat gagtgcatgg gggtggattc gtggggggag ctctcgggat3961 cctcccctgg ctgggtggat ggtccccaan gagatggtttccttagtggtgg 4021 tggcactggg ttttancagt ttcgaactcc tggaggaact gggagggtcc agcctctccat 4081 364141 ggaaagtcag ggaaaggagg tgaaggagtg cccctctgcc ctgagtcggg ggaagtggcc4201 gcccctccct ggaaggttga tcgcagaggg cagtggatcc ttgttaaacc cctatcctgc4261 cctccactaa aggttcctgt tcaagggtgt ggctggggcg tgagcaagcc ccagatgtag4321 acctcatggt ggcccagacg agggggaatt tccccctcaa aactgctcca cgcttggctc4381 gtgtagacgc tgagatttcc cagcggcggc gccgaattaa ccctcctcgt gctgaactgg4441 ctccacctcc ccgccttgcc cccaccgcca cattcacgca ttgggcaact cagagaagat4501 gttttaactt tcgatcctgt ggtccacaat gagaggactc gggcagatag gggttgagat4561 aagcgagttt aggccaccaa gcgggcggac gaggatccca gaccttgcgc ttcccttctg4621 agtttgggag gtaacactgg ccccgcccct cacgccgtgg ctcctccctc ccttcccctt4681 caaggggctg aagacaaaag gtgcccctgt cctggtcaag ccaatcgacc cagccttgtt4741 atgggttggg gtggggaaaa atgagtcctc ctgatggctg gggaagaaga ggggttggat4801 atttctagcc agggccatgc caggaggctg gtcactctgc aaggggatgc agaggaaagc4861 ggagcccact cactccagag gacctttctc ttcttgggct agagaaaggc ctattggagg4921 aacctgagca ggaggggtaa ggattctgcc ttgaggagaa aagagctggg gtaagtgggc4981 actggaggaa agaggggcat gaaggtcttg gagcagaaac gtccagagaa gggacctctc5041 cattttccat ccctctgaga ggcctgggag aggtgagagg ctgaacgtgc aacaggagga5101 cttggggtta ctgggtttgg ggagacctgg ggagttgtca tcccatcctc tccctcatct5161 51 5161 ctgggagagg gatattatga gaaacgtgaa ctgagaggcc cctgggaaac cactggttac5221 ccagtcctcc ctgaacctgg aaatggggat gcaaccccct cttctacttc cctgtcccct5281 829 5281 cctctccttt ctacctgttt tcgtctctca tctttgcctt ctagccctcc agcttcctct5341 ctcttctagg ctctttcctc ctagcttact aaacccgcct tttttccagt ctcttccatc5401 ctcttcctta gttctctcta ctttcctttt ccacctctcc tccttcaagt ctcctcccac5461 cttcccccac ttcttaggat gatcagattt gcccctggaa gggatcctaa caacacagtg5521 cgatggttaa tccccactca gattcaaagc ctgctttcca aactcactta ctgagtggcc5581 ttgggcagag tagagaaact ccttaagcct cagtttcttc atctataaaa tgggatatta5641 tatattttaa aaagtgtcgt gaggcctgaa ggagataata cactgagtgt aatgcctcat5701 acacagtaag tgcttaacaa atagtagctg ttattactctcccatcctct tcatcatcta5761 gccttgtggt tttcattttt attttatttc atttatttat ttatttattt tgagcagagt5821 ctctctctgt cgcccaggct ggagtgcagt ggctcgatct ctgctcactg caagctccgc5881 cccccaggtt cacgccattc tgtcacctca gcctccccag tagctgggag tacaggcgct5941 cgccaccacg ccctgctaat tttgtttttg tatttttagt agagatgggg tttcactgtg6001 ttagccagga tggtcttgat ctcctgacct cgtgatctgc ccgcctcggc ctcccaaagc6061 gctgggatta caggcatgag ccactgcgcc tggccgagcc ttgtggtttt caaattatct6121 catggagtcc tagaattttg agaggtttgt ctagggatgc ctttggcgtc aggaggtggg6181 5731 6241 ttcggtttcg taccttttat gtaattgaga ttccacagat taaaagctga cattgcctac6301 cgctttaaaa agtttggaaa gttttccact catctaacac tcatatttta tagatgagaa6361 gatcgaagcc cacaaaggga aggctctttg cccacagaac cagagccagg tctagagctg6421 caactaaatc ctctgccact ctaagagagc tctcgctcta ctgccctgtc tccctttgcc tccccatccc tctggctaca gctcagctct tcccacccct gtgtctatca ctgaaggagt6541 666601 66 ggtggtgggg acggtcccta ggagggctat ctatgggagg tcccctggct gccccaggag6661 826721 tccaagtccc agatcatgtc tctgtggggt ctggtctcca agatgccccc agaaaaagtg6781 cagcggctct atgtcgactt tccccaacac ctgcggcatc ttctgggtga ctggctggag6841 agccagccct ggtgagtcct ggctgctccc tgctggtccc ccaagtcttc cctaactcat6901 cttccttctc cttagatttt tctcccctca cccatggatt cagaacttga gacctgttat6961 tccatgtgta gtgacctaga tttagcaggg agtctgtgcc ccatcaagac caggctatga7021 atgttgacag atggagaccc ccatctctta ggaggctgag ccgaagagga ggggggtttg7081 ggctgggaca aaggcacttc tcataacagc tagaagactg ggaaacaagg cgcatgggtg7141 aaagctacag agggcctaga tggagaataa ggagcgagaa aggaatgctg acttttggct7201 gtggggtaaa ggtcaggaaa ctgaagaagc ctggcctgaa gtacctctcc tgatcttcct7261 gcaagggagt tcctggtcgg ctccgacgcc ttctgctgca acttggctag tgccctactt7321 tcagacactg tccagcacct tcaggcctcg gtgggagagc agggggaggg gagcaccatc7381 ttgcaacaca tcagcaccct tgaggtgggg caggagggga ggggacaagg ctgggtgggg7441 ctgaggttga actgggttga gcattgggcc ctggaagaaa attggttgga tgctggaagc7501 aaattggtgt tcctgtggtt aactgctagc tagcaggcaa attagatttt aaaagcatgc 68661 aaatgcacaa aaacttctgg agtctacagt tgtgcttcct tatagtatat gtgtgaatgc7621 aggcctgggg attggaggga ttgaaggaca tgggtaagag caaagctcac tgtttaccac76 cctcatttct gtagagcata tatcagaggg accccctgaa gctggtggcc actttcagac7741 aaatacttca aggagagaaa aaagctgtta tggaacaggt attgtgatat tccacctccc7801 accccaactc aatcccctga gactttggcc tgagccatga caaactagaa agaatttgat7861 cctcagaaaa ggctcagtgt tctaggccca ggaatgacca aaggaggttc ctagggtcag7921 agtgaacccc aagtcaagct cagggaatct ttctatgagg gactgaaggt aagaggccgg7981 ggagaacaga gcaagggata aggagctgat tctgctagga gcaaggtctt atctccacga8041 468101 cagagcagag agtggaggcc aggtatagag ggatgagcag agtgtttgag ttcttggcat8161 ctgtccttcc tgtgtagttc cgccacttgc caatgccttt ccactggaag caggaagaac8221 tcaagtttaa gacaggcttg cggaggctgc agcaccgagt aggggagatc caccttctcc8281 gacaagccct gcagaagggg gctgaggctg gccaaggtgg gggccagggt ggttctgggg8341 agtgtgtaag agtggttgcc tcttggatct caaccttatc tgaacctcta atctgtctgc8401 acccttgatt tctgccccca accctcagtg tctctgcaca gcttgataga aactcctgct8461 aatgggactg ggccaagtga ggtgagtaat gggctgacag gtggagacct tggtcaaagt8521 gcagctggag ggatggaagc tagacctcag aaagacacag gctgaagtag ggcaagggaa8581 tgccagagga gtgagaaaaa gaccgtatcc caggagctgg gtgtggaggc agcgtgaggc8641 cctggctcag gcccctctct gcccataggc cctggccatg ctactgcagg agaccactgg8701 agagctagag gcagccaaag ccctagtgct gaagaggatc cagatttgga aacggcagca8761 gcagctggca gggaatggcg caccgtttga ggagagcctg gccccactcc aggagaggtt8821 gggctagggc tgatggggaa gagggggcaa gctgggggtg ggcagctgac cctgctgaag8881 gccctacagg tgagagaaag aagccaggcg ggagggcctt ggcagtggac caagatgcat8941 aaaagccagt tccagcgggg ctgtgcacac tgtcgttcag gtcgcatcct gtacaagtgg9001 gcctagtgga ggggcacaag cggggactca tccaacccag gcttctctcc tcaagcccca9061 tgcctagagg aataggaggg cttttccatt tggtttattg ggtgggaaca cttcccaatt9121 tgccacaaag cactgtaagt ggtggcagtt gttcttgggt gcaagaaccg tcggggagag9181 gcagctgggt ttccacaggg ggtgtaggca actgataatg aacctcccac ccacacccta9241 ggccaacaga tcacagaacc ccttcagccc aggtgccttg cagccacacc cactacccac9301 cccacttctc cacacatgat agcctttctc cctgggtata ggggaagggg gtctgggccg9361 93 9361 gagcaagcag ccttaatcct gtgccccctg accactgtcc tggccccagg tgtgaaagcc9421 tggtggacat ttattcccag ctacagcagg aggtaggggc ggctggtggg gagcttgagc9481 94 9481 ccaagacccg ggcatcgctg actggccggc tggatgaagt cctgagaacc ctcgtcacca 9541 ggtattcccc gggagctccc agtctggcct agaacagacc tcgggaagaa aagaaggggg 9601 ctagagctgt ggggagggca ccagcaggga cctagccccc aactcccctt gtgtcctcct 9661 cactcccagt tgcttcctgg tggagaagca gcccccccag gtactgaaga ctcagaccaa 9721 gttccaggct ggagttcgat tcctgttggg cttgaggttc ctgggggccc cagccaagcc 9781 tccgctggtc agggccgaca tggtgacaga gaagcaggcg cgggagctga gtgtgcctca 9841 gggtcctggg gctggagcgt aagctgggat tggacctggg gttggagaag ggctgttagg 9901 gtgatggagg cagcctggag ggctggcact gaaaagagca agggatgggg agggagggcc 9961 992 9961 atgggatgtg gagaccctga atggtcaagg cagaggaaag ggagggaccc atttagggct10021 ggaatggggt gggggcatca tgatttggcc aagatgggga ctcctccctt aagaacccaa10081 acagagacat ggagatttag ggctggtgac agtgggtagt ctacactcac ccatgcactc10141 gccacacctg acgacagtga gatgagctcg ttcacactct gacctcccct gggcagagaa10201 agcactggag aaatcatcaa caacactgtg cccttggaga acagcattcc tgggaactgc10261 tgctctgccc tgttcaagaa cctggtgagg ggctttgggg tgcagtgagg ggggcaccac10321 taggagactg tgggactctc cttggagagg atgtcaggaa gcccaggagg agcggtctct10381 gtcctcatga cctcgccctt gctctccctc accccaccca cagcttctca agaagatcaa10441 3541 10441 gcggtgtgag cggaagggca ctgagtctgt cacagaggag aagtgcgctg tgctcttctc10501 tgccagcttc acacttggcc ccggcaaact ccccatccag ctccaggtga accgtggccc10561 agccctgccc caatctggga ccccgagtcc tcctccaatg ccacgcacaa gggccctgga10621 ccctcacctc ttgtgactgc cccatacccc atgtgtctgg gattcatgca cactggggcc10681 cgggtgagtg ggggtgagca agagcatgga gtgcacaggg cagggaatgg tagtggatag10741 cagcaaacac ttcggaagca cttcctatag accaggggca ctctattaaa tgatacatac10801 1084 10801 tgcacatgcg tgccagcaca cacacgtctg gttttcacaa taacattatg aggtaggcag10861 tattatcagc ctcattttat agcatgagga cattgagaca gagagtttaa gtagtttgtc10921 ccagtcaccc agctaagtgt tggagctggt atctgaaacc tggaagtctg gttccatagc10981 gattatagta accacttctc tacggtgagg ccctgattga gcttcaaaac gcatttaata11041 acatgg (2) SEQ ID NO: 2808 data: (i) sequence characteristics:

(A) length: 690 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2808 sequence description: 1 ggaaagaaag aaagaaaaga aaccctgtcc tcaccctact tcaggccctg tctctgcccc 61 tggtggtcat cgtccatggc aaccaagaca acaatgccaa agccactatc ctgtgggaca121 atgccttctc tgagatggtg aggaaagtcc ttggtagttg gagggaacag ggtgcagggt181 gggttctaac atgggcagtg gtgcaggcct gctgatgggg tggtgggcat gtcggatggg241 tgtgacctta acacttcttc atgggcctgc tttcgtgctt ctgacctctt ttcaccccag301 tcttaacaac tatcaggcca cagcactgta acctagaaaa aacagcatgt ttgtgagcga361 tatcaggggc tgtggagggg taggccacag gcatgtggga cggatgaagg ccggcccgag421 gaataacaag acggtagcct gcagtgctct cttcttcccc cttctcccca ggaccgcgtg481 ccctttgtgg tggctgagcg ggtgccctgg gagaagatgt gtgaaactct gaacctgaag541 ttcatggctg aggtggggac caaccggggg ctgctcccag agcacttcct cttcctggcc601 cagaagatct tcaatgacaa cagcctcagt atggaggcct tccagcaccg ttctgtgtcc661 tggtcgcagt tcaacaaggt tcagttctcc (2) SEQ ID NO: 2809 data: (i) sequence characteristics:

(A) length: 666 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2809 sequence description: 1 gcggccgcga gctctaatac gactcactat agggcgtcga ctcgatcata ccactgcact 61 caagcctggg tgacagagca agactctgtc tcaaaaaaaa aaaaaaaaaa aggccaggca121 tggtggttca tgcctgtaat cccagcactt tgggaggccg agacggatag atcacctgag181 gtcaggagtt cgagaccagc ctggccaaca tggcaaaacc ccgtctctac taaaaacaaa241 aaaatagcca ggatggtcgt ttgcgtctgt aatcccagct actcggctga ggcaggaggt301 gaacccagga ggtaaaggct gcaggggaag atgaaaccat tgcactccag cctgggcaag361 actctgtatc aaaaaaaaaa aaaaaaaggc taggtgtggt ggctcacacc tgtaatccca421 gcactttggg aggctgaggc gggcggatca caaggtcaag aaatcgagac catcctgacc481 aacatggtga aaccccgtct ctactaaaaa tacaaaaatt acctgggcat ggtggcgcat541 gcctgtattc ccaactactc gggaggctga ggcatgaaaa tcacttgaac ctgggaggca601 gaggttgcag gcgagccaag attgtgccac tgcactccag cctgccaaca aaaatgagat661 tctgtc (2) SEQ ID NO: 2810 data: (i) sequence characteristics:

(A) length: 5424 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: sequence description of 2810: 1 ggttaccttc cctttgggcg tcaacttctg ccacacctcc ttagggagag ggtgtagcat 61 agtagttaag aggggtccag ggccagaatg cctgggttta aatcctagct ctgcctctta 121 ccagctatgt agacctgggc aagtcattcg acgtttttgg acttccattt cttcatctgt 181 721 atcaccattg cccatgtcat ccggggccag gatggtgagg ccaccccagc cagtcctctg 781 181 aagatggaat tattataatc cctacttcca tagcctggta aagagcaaat aaatatatgg 241 aaaggcttga aatagtggct ggcacgtgta agcattagga ttggtcgttg tcattgatgg 301 agtctcaggt tcggtctgat cctcagcccc tgtgattctg tcgtgagggc actcacagct 361 cactgcctgc cctaaacagg ctccagctct ggccctccct cggctcacac ctttccccct 421 ctccccctag gagatcctgc tgggccgtgg cttcaccttt tggcagtggt ttgatggtgt 481 cctggacctc accaaacgct gtctccggag ctactggtct gaccggtgag tccccaccct 541 gggtagtttg agcagccata caccagtcac ctccatactc actgcccatg ccccatcctc 601 tccttcatcc cggccaggct gatcattggc ttcatcagca aacagtacgt tactagcctt 661 cttctcaatg agcccgacgg aacctttctc ctccgcttca gcgactcaga gattgggggc 721 atcaccattg cccatgtcat ccggggccag gatggtgagg ccaccccagc cagtcctctg 781 tctctgtgcc tgtgccctct ggggtttctt ctgggaatga aatgtcctga ccttcctgat 841 gccgatcctg atcttcagga agttcttcca gcttctcttc ttccttctgt ggtctaaatg 901 ttcaccttct cactgtgagc tctgtgggaa cggagactag tgggtctctc tccctcagga 961 gccccaccct aggtcctctc tcccttgcct tggtggagtg agaacaggtc ttatggtagg1021 ggttggggaa ggggaagaaa tccggacaga gggatctcag ggtctccttc ctaccatagg1081 ctctccacag atagagaaca tccagccatt ctctgccaaa gacctgtcca ttcgctcact1141 gggggaccga atccgggatc ttgctcagct caaaaatctc tatcccaaga agcccaagga1201 tgaggctttc cggagccact acaagcgtga gctggaactg gcagctctga ttccttcctg1261 tcacccactt cctgccatgc tccccgctgc catcctctcc ccagcccgtg agttatcctg1321 aggtcactcc gaatttccat agctgtgctt ttcttacttc ccggatgatc catgcccacc1381 ttttccacct cccttcctcc ctaacccgag agcaatccat ggcagtcttt tccatctcac1441 aacagctgaa cagctgaaca gatgggtaag gatggcaggg gttatgtccc agctaccatc1501 aagatgaccg tggaaaggtg agtgtggtgg tatggacagt gggtaggtca ggggcttagt1561 gcttatctgc aggaaggagg ggtggcatca acccttggtc agtcacatgt acctccttcc1621 ctcctccagg gaccaaccac ttcctacccc agagctccag atgcctacca tggtgccttc1681 ttatgacctt ggaatggccc ctgattcctc catgagcatg cagcttggcc cagatatggt1741 gtaaggagct ggaaagacag gaatgggagt ggtctgtgca gatgggctaa tcttagcatg1801 ggcagctggg agagctggca ctgggggctg aacagggaat cttcctttcc atgagaggga1861 cacctgttca aaagcagggt gtggtggtgt ccaggagaag ggctggcatc agggggtctg1921 ttttctttcc ccaggcccca ggtgtaccca ccacactctc actccatccc cccgtatcaa1981 ggcctctccc cagaagaatc agtcaacgtg ttgtcagcct tccaggagta agtgaaaaac2041 ctcatgggga taccatccca ctctaagggg gtgggcattt gaattgttag aagaggctct2101 tctgtgagaa aggagcagca aatgctaaca gcctgtcttc ttctcttctg tccactctaa2161 tgagggggta gtagttaaga tctggactgc ctaggtttga attctagctc caccacttac2221 tggtttgggg caaattactt agcctttggt gccttatctg cacaatgggg gataataatg2281 ctaataataa taacctacct cactgcatta ttgtggagat taaatgagtt cataacactt2341 aaaaagctcg agcatagtgc atggctcata gcaaaagctg tgtaagtcca gtcgtggatc2401 acttaatgaa ggagcatttt ctgtctttgg cagtttcata attatgcgga ataccattga2461 gtataattac acaaacctag atggtataga ctactataca ctgaggctat attgtgtagc2521 ctattgatcc tagctttaaa cccgagcagc atgatactgt tctgaatagt ataaggaaat2581 agtaacataa tggtaaatat ttgtgtgata ggaattttca gcttgattat aatttttttt2641 ttttgagaca gggtctcact cactggagtg cagtggtgcg atcttagctc ccctgcaacc2701 tccgcctctt gggctcgagc aatcctcctg ctgtagtgca ccacgacact cggctaattc2761 ttttttaaga tttttctgca gacaaggtct cacttactgc ccaagctggt ctcaaactcc2821 tgggcttaag tgatcctccc acctcggcct cccaaagcgt taggattaca ggcgtgagtc2881 actctgcctg gccttgatta taatcttatg ggaccactgt ggtctgtagt tgacagaaat2941 gtcgttaatg tggtgcatga ctgttattat tattttctgt cctgcccctg agagccactg3001 tcacttctct gctgtattgg tttttgttta ctcatctgtt ttggccttga aatggcctag3061 acatttttct tcccgaagta tgacactcgg gtgcttatta acttagtcaa gacacaacat3121 ctcccttccc agaaagtgag gcgggagtga ggacttgggg acttaagaac taccaaagtt3181 cagagtccaa aggaaacatt agaaattggg taatccaccc ccataacacg cacattttac3241 agatgagaag actgagctca gagcatagaa atagcttgcc caggccatga ctaagtcagg3301 ataaggagct ggagcttgtt tcctcactca gtggtcctga ctttgcacca ctctgcattt3361 gcctagcctg ccttcctcta actgtgctct ccctacttcc aggcctcacc tgcagatgcc3421 ccccagcctg ggccagatga acctgccctt tgaccagcct cacccccagg tgaatgacaa3481 aagcccctcc tgacccatgt gcctcttctt tcctgggcct tgcccgctct ccttatttcc3541 593601 cctgaccccc tgctctgctc agatgtgacc atggtggaag acagctgcct gagccagcca3661 gtgacagcgt ttcctcaggg cacttggtga gtggcagctt gggagtggag gctgggtggc3721 atctagggga gtgggcgcca tgcctactcc actgcttctc ccatctcctt gcaggattgg3781 tgaagacata ttccctcctc tgctgcctcc cactgaacag gacctcacta agcttctcct3841 ggaggggcaa ggggagtcgg ggggagggtc cttgggggca cagcccctcc tgcagccctc3901 ccactatggg caatctggga tctcaatgtc ccacatggac ctaagggcca accccagttg 398661 gtgatcccag ctggagggag aacccaaaga gacagctctt ctactacccc cacagacctg4021 ctctggacac ttgctcatgc cctgccaagc agcagatggg gagggtgccc tcctatcccc acctactcct gggtcaggag gaaaagacta acaggagaat gcacagtggg tggagccaat4141 ccactccttc ctttctatca ttcccctgcc cacctccttc cagcactgac tggaagggaa4201 gttcaggctc tgagacacgc cccaacatgc ctgcacctgc agcgcgcaca cgcacgcaca4261 cacacataca gagctctctg agggtgatgg ggctgagcag gaggggggct gggtaagagc4321 acaggttagg gcatggaagg cttctccgcc cattctgacc cagggcctag gacggatagg4381 caggaacata cagacacatt tacactagag gccagggata gaggatattg ggtctcagcc4441 ctaggggaat gggaagcagc tgaagggacc ctgggtggga gcataggagg agtctggaca4501 tgtggttact agtacaggtt ttgccctgat taaaaaatct cccaaagccc caaattcctg4561 ttagccaggt ggaggcttct gatacgtgta tgagactatg caaaagtaca agggctgaga4621 ttcttcgtgt atagctgtgt gaacgtgtat gtacctagga tatgttaaat atatagctgg4681 caccttagtt gcatgaccac atagaacatg tgtctatctg cttttgccta cgtgacaaca4741 caaatttggg agggtgagac actgcacaga agacagcagc aagtgtgctg gcctctctga4801 catatgctaa cccccaaata ctctgaattt ggagtctgac tgtgcccaag tgggtccaag4861 tggctgtgac atctacgtat ggctccacac ctccaatgct gcctgggagc cagggtgaga4921 gtctgggtcc aggcctggcc atgtggccct ccagtgtatg agagggccct gcctgctgca4981 tcttttctgt tgccccatcc accgccagct tcccttcact cccctatccc attctccctc5041 tcaaggcagg ggtcatagat cctaagccat aaaataaatt ttattccaaa ataacaaaat5101 aaataatcta ctgtacacaa tctgaaaaga aagacgctct aactgctcag ataggtgctg5161 cggtccagcc cccagctgga ggagaccctg agtccaaccc aggcctcccg agggggccag5221 tgaagggatc ccacacccac cgcccctatg tagggcaggg aagaaattgc aaaggacttg5281 ggggatagat gggaatggga gggcaaactg cagcacttgt taaattaatt aaagaaacaa5341 accagaagca caaaaacggg gaaggagaag ggagaaggag caggtccagt gttccaggcc5401 ccaattctgg gggcaaatgt gcca (2) SEQ ID NO: 2811 data: (i) sequence characteristics:

(A) length: 1475 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2811 sequence description: 1 gcagcaccta tctgagcagt tagagcgtct ttcttttcag attgtgtaca gtagattatt 61 tattttgtta ttttggaata aaatttattt tatggcttag gatctatgac ccctgccttg 121 agagggagaa tgggataggg gagtgaaggg aagctggcgg tggatggggc aacagaaaag 181 721 gggctgagac ccaatatcct ctatccctgg cctctagtgt aaatgtgtct gtatgttcct 781 181 atgcagcagg cagggccctc tcatacactg gagggccaca tggccaggcc tggacccaga 241 ctctcaccct ggctcccagg cagcattgga ggtgtggagc catacgtaga tgtcacagcc 301 acttggaccc acttgggcac agtcagactc caaattcaga gtatttgggg gttagcatat 361 gtcagagagg ccagcacact tgctgctgtc ttctgtgcag tgtctcaccc tcccaaattt 421 gtgttgtcac gtaggcaaaa gcagatagac acatgttcta tgtggtcatg caactaaggt 481 gccagctata catttaacat atcctaggta catacacgtt cacacagcta tacacgaaga 541 atctcagccc ttgtactttt gcatagtctc atacacgtat cagaagcctc cacctggcta 601 acaggaattt ggggctttgg gagatttttt aatcagggca aaacctgtac tagtaaccac 661 atgtccagac ccctcctatg ctcccaccca gggtcccttg agctgcttcc cattccccta 721 gggctgagac ccaatatcct ctatccctgg cctctagtgt aaatgtgtct gtatgttcct 781 gcctatccgt cctaggccct gggtcagaat gggcggagaa gccttccatg ccctaacctg 841 tgctcttacc cagcccccct cctgctcagc cccatcaccc tcagagagct ctgtatgtgt 901 gtgtgcgtgc gtgtgcgcgc tgcaggtgca ggcatgttgg ggtgtgtctc agagcctgaa 961 cttcccttcc agtcagtact ggaaggaggt gggcagggga atgatagaaa ggaaggagtg1021 gattggctcc acccactgtg cattctcctg ttagtctttt cctcctgacc caggagtagg1081 tggggatagg agggcaccct ccccatctgc tgcttggcag ggcatgagca agtgtccaga1141 gcaggtctgt gggggtagta gaagagctgt ctctttgggt tctccctcca gctgggatca1201 ccaactgggg ttggccctta ggtccatgtg ggacattgag atcccagatt gcccatagtg1261 ggagggctgc aggaggggct gtgcccccaa ggaccctccc cccgactccc cttgcccctc1321 caggagaagc ttagtgaggt cctgttcagt gggaggcagc agaggaggga atatgtcttc1381 accaatcctg caaggagatg ggagaagcag tggagtaggc atggcgccca ctcccctaga1441 tgccacccag cctccactcc caagctgcca ctcac (2) SEQ ID NO: 2812, data: (i) sequence characteristics:

(A) length: 19327 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2812 sequence description: 1 tttattttta atttaatcac ttaattttta atttttaaga tggagtctca ctctgttgcc 61 caggctgaag tgcaagggtg taatctcagc tcactgcagc ctctgcctcc cggattccag 121 tgattttcct gcttcagctt cccaggtagc tgggattgca ggcacatgcc actgtgccca 181 721 acttgcatac aaagagaaca gtgtgtgaac gtgaaaatgg ccaaggaggg aggcctggaa 781 181 gataattttt tgtatttttt agtagagacg gggcttcacc atgttggcca ggctggtctt 241 gaactcctaa cctcagatga tccgcacacc tcggcctccc aaagtgctag gattacaggc 301 atgagcctct gcgcctggcc tttacttcag tttcaaagag tgaaggtcaa gacactgttt 361 ttttttatgt tttgttttta attttgtttt aaattttttt tgtagagatg ggatcttgct 421 atgttgccca ggctggtctc gaactcctgg cctccagcaa tcctcctgcc tcagcctccc 481 agagtattgg gattacaggt gtgagccatt gtgcttgatc aagatgctgt tatgggctga 541 gttgtgttcc tcaaaaattc tcttgaagtc ctaatctcaa gtacttcagg acgtgacctt 601 attttgaagg acccccttat agggtcttta cagaggtaat taagttaaaa tgaggccatt 661 aggatggggc ctaatgcaat atgactggta tccttgaaaa aaggggaaac ttggagactg 721 acttgcatac aaagagaaca gtgtgtgaac gtgaaaatgg ccaaggaggg aggcctggaa 781 tagagccttc cttcacatcc ctgagaagga atcaatcaat cctgctcagg ttaaccttga 841 tcttggactt ctagcctcca gcatcttgag agatttctgt tgtttaagtc atgcaatatg 901 tagtactttg ttacagcagc cctagcaaac tgatacactc accaaatcga ttttgtgact 961 cactattggg ttgtaaccag cagtacatag acataaagtt attttttcct tacgctttat1021 cttgtgcaat cgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtgacgg1081 agtcttgttc tgtcaccagg ctggagtgca gtggcttgat ctcggctcac tataatcaca1141 gccttccaga ttcaagtgat ttccctgcct cagcctcctg agtagctggg actacaggcg1201 cgcaccacca cgcccgacta attttttgta tttttagtag agacggggtt tcaccatgtt1261 ggccaggatg gtctcaatct cctgaccttg tgatctgcct gcctcagcct cccaaagtgc1321 tgggattaca ggcgtgagcc tctcttgtgc aatctttacc accactcaat gggatgtcaa1381 ggtccagggg agggtgatac agtcaccctc acagtcatgc aggtgcagat gtcattaatg1441 aaggtctgac agaccctgca attgtacaat ctgaagatga gtatctcctt aaatttcata1501 ctctaggcac tttaccctag cctagactct gttgaagtag gtataactat tattctcatt1561 tgagggattg acacctgatt gtgaacctcc taaatggagt catacccaag ccagatttgc1621 ctctaaattc tgttttttcc ccttacatca cagtgttccc attggtatag tcagttacag1681 agggagtaat atatactatt tttctaccag tacttgctcc tcgccttcct accccctaaa1741 aggagccaaa gtcagagatc acatttactc ttttccctcc tcctctccaa gtctttgggg1801 acttgtagct ctgacaccct tagatggtga aacctggctt cacctactgt ctgtggatgt1861 ctgcaggcag agtgggcact caggagcaca tacaaagcac gtgtgccgtg aacacgtatg1921 tgcacacacc ttgatcctag catggcttgt tggacaagcc aatggacaga gtccctgcct1981 gccacctcca cccctgctct cccttctctt ccattcactg tcctgcagac acagcaaaca2041 catacgcaca tacaccctca atatcctttt ggcagtaaca tgacccccaa atctggggac2101 ttctatgtag gatggagacc cttctccttt cctcatacct ggtttattat gaaccataaa2161 aatagtgcct gacagttact gtgtgtcagg cattgttcta agccttcaga tgttttactg2221 cattttattc tcacattatg ggttaagact tatttgctcc attttacaga tgacgagaat2281 gaatcacaga gtaaattgct cagggttgtg tggttagcag cattagcagg atttgaaccc2341 aagcagcctg tatccacagt ccagtctttt aactgctata ttttgctgtg ttcaaaccct2401 ctgctgcctg gctgggtcca cacacgtgca ctcatgcaca gacctgcggg gtagcaaggg2461 atggaggagg aggagctggt tctggaaatc aattcaggca ccagggggca gcataggcct2521 agctttggcc cctcagccca gcccctgcta tgggagggag gaggggagta gaaacttcct2581 cccaccgccc ctcagacacc acctcttcca cacaccgggg ctctcaggtg tccgggagta2641 aaggcctctc tggatccctt ggtctcctcc agctcctccc ccagcaaaaa ctgcagaacc2701 ctccactagt tatgttgatg actcagaagt tgagcaagac tgtgtgtgtg tgtgtgtgtg2761 tgtgtgtgtg tgtgtgtgtg tgtgtgtggt gttgtgattg caatgggctc tgtttgtgag2821 cctgcctgca cgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtagtcttg tggtcaggga2881 agttgtgcat gtgtgtgttt gtttcttggc gtgtctcagt gtttacccca gaaacatata2941 ggaacttggc agataggaac acagcagatt cgtattcaaa cttgcccctt gtgaatctgc3001 aggcagcagc tccggcttgt gctggttccc accacagtct caggaggggt gccctgtgag3061 gagagagcaa agaccagctt cagtccaagg gactcctaga gtcttccaga attctgagct3121 gagggttccc ctcccccact ccctcccgtc agtggtcacg agaccgacct ctaaggcgtt3181 ccctgccgga agggaggggg acctaggagt tggctggcat cgagctccct ggcggctttt3241 tagggtcctc cactggaggg agcgcagagt ccagagggat ttacttttcc tgaggccctg3301 gggagcccag tcccttgtgg gtccaaaccc cagcccttgg cagagtttga gtttgggagc3361 caggcagtta ggggtggcaa atctctgttt gatattgggt gactttctgg agaaaagctg3421 atgcttttga gggggacaga gtaagtgggg gtcagcctcc ccccaagcct ggctccaagg3481 cctggacccc agtcctgatc ccccacgtgt tcccccactc ggcacaggag gcacacatat3541 593601 ctccagggag ggacctgggt agaaggagaa gccggaaaca gcgggctggg gcagccactg3661 cttacactga agagggagga cgggagagga gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt3721 atgtatgtgt gtgctttatc ttatttttct ttttggtggt ggtgttggaa ggggggaggt3781 gctagcaggg ccagccttga actcgctgga cagagctaca gacctatggg gcctggaagt3841 gcccgctgag aaagggagaa gacagcagag gggttgccga ggtgaggggt tgcctccgag3901 gtgggtgcgg gggcctctat gagtgcatgg gggtggattc gtggggggag ctctcgggat3961 cctcccctgg ctgggtggat ggtccccaan gagatggtttccttagtggtgg 4021 tggcactggg ttttancagt ttcgaactcc tggaggaact gggagggtcc agcctctccat 4081 364141 ggaaagtcag ggaaaggagg tgaaggagtg cccctctgcc ctgagtcggg ggaagtggcc4201 gcccctccct ggaaggttga tcgcagaggg cagtggatcc ttgttaaacc cctatcctgc4261 cctccactaa aggttcctgt tcaagggtgt ggctggggcg tgagcaagcc ccagatgtag4321 acctcatggt ggcccagacg agggggaatt tccccctcaa aactgctcca cgcttggctc4381 gtgtagacgc tgagatttcc cagcggcggc gccgaattaa ccctcctcgt gctgaactgg4441 ctccacctcc ccgccttgcc cccaccgcca cattcacgca ttgggcaact cagagaagat4501 gttttaactt tcgatcctgt ggtccacaat gagaggactc gggcagatag gggttgagat4561 aagcgagttt aggccaccaa gcgggcggac gaggatccca gaccttgcgc ttcccttctg4621 agtttgggag gtaacactgg ccccgcccct cacgccgtgg ctcctccctc ccttcccctt4681 caaggggctg aagacaaaag gtgcccctgt cctggtcaag ccaatcgacc cagccttgtt4741 atgggttggg gtggggaaaa atgagtcctc ctgatggctg gggaagaaga ggggttggat4801 atttctagcc agggccatgc caggaggctg gtcactctgc aaggggatgc agaggaaagc4861 ggagcccact cactccagag gacctttctc ttcttgggct agagaaaggc ctattggagg4921 aacctgagca ggaggggtaa ggattctgcc ttgaggagaa aagagctggg gtaagtgggc4981 actggaggaa agaggggcat gaaggtcttg gagcagaaac gtccagagaa gggacctctc5041 cattttccat ccctctgaga ggcctgggag aggtgagagg ctgaacgtgc aacaggagga5101 cttggggtta ctgggtttgg ggagacctgg ggagttgtca tcccatcctc tccctcatct5161 51 5161 ctgggagagg gatattatga gaaacgtgaa ctgagaggcc cctgggaaac cactggttac5221 ccagtcctcc ctgaacctgg aaatggggat gcaaccccct cttctacttc cctgtcccct5281 829 5281 cctctccttt ctacctgttt tcgtctctca tctttgcctt ctagccctcc agcttcctct5341 ctcttctagg ctctttcctc ctagcttact aaacccgcct tttttccagt ctcttccatc5401 ctcttcctta gttctctcta ctttcctttt ccacctctcc tccttcaagt ctcctcccac5461 cttcccccac ttcttaggat gatcagattt gcccctggaa gggatcctaa caacacagtg5521 cgatggttaa tccccactca gattcaaagc ctgctttcca aactcactta ctgagtggcc5581 ttgggcagag tagagaaact ccttaagcct cagtttcttc atctataaaa tgggatatta5641 tatattttaa aaagtgtcgt gaggcctgaa ggagataata cactgagtgt aatgcctcat5701 acacagtaag tgcttaacaa atagtagctg ttattactct cccatcctct tcatcatcta5761 gccttgtggt tttcattttt attttatttc atttatttat ttatttattt tgagcagagt5821 ctctctctgt cgcccaggct ggagtgcagt ggctcgatct ctgctcactg caagctccgc5881 cccccaggtt cacgccattc tgtcacctca gcctccccag tagctgggag tacaggcgct5941 cgccaccacg ccctgctaat tttgtttttg tatttttagt agagatgggg tttcactgtg6001 ttagccagga tggtcttgat ctcctgacct cgtgatctgc ccgcctcggc ctcccaaagc6061 gctgggatta caggcatgag ccactgcgcc tggccgagcc ttgtggtttt caaattatct6121 catggagtcc tagaattttg agaggtttgt ctagggatgc ctttggcgtc aggaggtggg6181 5731 6241 ttcggtttcg taccttttat gtaattgaga ttccacagat taaaagctga cattgcctac6301 cgctttaaaa agtttggaaa gttttccact catctaacac tcatatttta tagatgagaa6361 gatcgaagcc cacaaaggga aggctctttg cccacagaac cagagccagg tctagagctg6421 caactaaatc ctctgccact ctaagagagc tctcgctcta ctgccctgtc tccctttgcc tccccatccc tctggctaca gctcagctct tcccacccct gtgtctatca ctgaaggagt6541 666601 66 ggtggtgggg acggtcccta ggagggctat ctatgggagg tcccctggct gccccaggag6661 826721 tccaagtccc agatcatgtc tctgtggggt ctggtctcca agatgccccc agaaaaagtg6781 cagcggctct atgtcgactt tccccaacac ctgcggcatc ttctgggtga ctggctggag6841 agccagccct ggtgagtcct ggctgctccc tgctggtccc ccaagtcttc cctaactcat6901 cttccttctc cttagatttt tctcccctca cccatggatt cagaacttga gacctgttat6961 tccatgtgta gtgacctaga tttagcaggg agtctgtgcc ccatcaagac caggctatga7021 atgttgacag atggagaccc ccatctctta ggaggctgag ccgaagagga ggggggtttg7081 ggctgggaca aaggcacttc tcataacagc tagaagactg ggaaacaagg cgcatgggtg7141 aaagctacag agggcctaga tggagaataa ggagcgagaa aggaatgctg acttttggct7201 gtggggtaaa ggtcaggaaa ctgaagaagc ctggcctgaa gtacctctcc tgatcttcct7261 gcaagggagt tcctggtcgg ctccgacgcc ttctgctgca acttggctag tgccctactt7321 tcagacactg tccagcacct tcaggcctcg gtgggagagc agggggaggg gagcaccatc7381 ttgcaacaca tcagcaccct tgaggtgggg caggagggga ggggacaagg ctgggtgggg7441 ctgaggttga actgggttga gcattgggcc ctggaagaaa attggttgga tgctggaagc7501 aaattggtgt tcctgtggtt aactgctagc tagcaggcaa attagatttt aaaagcatgc7561 aaatgcacaa aaacttctgg agtctacagt tgtgcttcct tatagtatat gtgtgaatgc7621 aggcctgggg attggaggga ttgaaggaca tgggtaagag caaagctcac tgtttaccac7681 cctcatttct gtagagcata tatcagaggg accccctgaa gctggtggcc actttcagac7741 aaatacttca aggagagaaa aaagctgtta tggaacaggt attgtgatat tccacctccc7801 accccaactc aatcccctga gactttggcc tgagccatga caaactagaa agaatttgat7861 cctcagaaaa ggctcagtgt tctaggccca ggaatgacca aaggaggttc ctagggtcag7921 agtgaacccc aagtcaagct cagggaatct ttctatgagg gactgaaggt aagaggccgg7981 ggagaacaga gcaagggata aggagctgat tctgctagga gcaaggtctt atctccacga8041 tattccaaaa ggtcaggaag aactgccaaa ggggagaggg gaacaagaaa acgctatatg8101 cagagcagag agtggaggcc aggtatagag ggatgagcag agtgtttgag ttcttggcat 8461 8253 8221 tcaagtttaa gacaggcttg cggaggctgc agcaccgagt aggggagatc caccttctcc8281 gacaagccct gcagaagggg gctgaggctg gccaaggtgg gggccagggt ggttctgggg8341 agtgtgtaag agtggttgcc tcttggatct caaccttatc tgaacctcta atctgtctgc 8458 acccttgatt tctgccccca accctcagtg tctctgcaca gcttgataga aactcctgct aatgggactg ggccaagtga ggtgagtaat gggctgacag gtggagacct tggtcaaagt8521 gcagctggag ggatggaagc tagacctcag aaagacacag gctgaagtag ggcaagggaa8581 6381 tgccagagga gtgagaaaaa gaccgtatcc caggagctgg gtgtggaggc agcgtgaggc8641 cctggctcag gcccctctct gcccataggc cctggccatg ctactgcagg agaccactgg8701 agagctagag gcagccaaag ccctagtgct gaagaggatc cagatttgga aacggcagca8761 gcagctggca gggaatggcg caccgtttga ggagagcctg gccccactcc aggagaggtt8821 gggctagggc tgatggggaa gagggggcaa gctgggggtg ggcagctgac cctgctgaag8881 gccctacagg tgagagaaag aagccaggcg ggagggcctt ggcagtggac caagatgcat8941 aaaagccagt tccagcgggg ctgtgcacac tgtcgttcag gtcgcatcct gtacaagtgg9001 gcctagtgga ggggcacaag cggggactca tccaacccag gcttctctcc tcaagcccca9061 tgcctagagg aataggaggg cttttccatt tggtttattg ggtgggaaca cttcccaatt9121 tgccacaaag cactgtaagt ggtggcagtt gttcttgggt gcaagaaccg tcggggagag9181 gcagctgggt ttccacaggg ggtgtaggca actgataatg aacctcccac ccacacccta9241 ggccaacaga tcacagaacc ccttcagccc aggtgccttg cagccacacc cactacccac9301 cccacttctc cacacatgat agcctttctc cctgggtata ggggaagggg gtctgggccg9361 gagcaagcag ccttaatcct gtgccccctg accactgtcc tggccccagg tgtgaaagcc9421 tggtggacat ttattcccag ctacagcagg aggtaggggc ggctggtggg gagcttgagc9481 ccaagacccg ggcatcgctg actggccggc tggatgaagt cctgagaacc ctcgtcacca 9541 ggtattcccc gggagctccc agtctggcct agaacagacc tcgggaagaa aagaaggggg 9601 ctagagctgt ggggagggca ccagcaggga cctagccccc aactcccctt gtgtcctcct 9661 cactcccagt tgcttcctgg tggagaagcagcccccccag gtactgaaga ctcagaccaa 9721 gttccaggct ggagttcgat tcctgttggg cttgaggttc ctgggggccc cagccaagcc 9781 tccgctggtc agggccgaca tggtgacaga gaagcaggcg cgggagctga gtgtgcctca 9841 gggtcctggg gctggagcgt aagctgggat tggacctggg gttggagaag ggctgttagg 9901 gtgatggagg cagcctggag ggctggcact gaaaagagca agggatgggg agggagggcc 9961 atgggatgtg gagaccctga atggtcaagg cagaggaaag ggagggaccc atttagggct10021 ggaatggggt gggggcatca tgatttggcc aagatgggga ctcctccctt aagaacccaa10081 acagagacat ggagatttag ggctggtgac agtgggtagt ctacactcac ccatgcactc10141 gccacacctg acgacagtga gatgagctcg ttcacactct gacctcccct gggcagagaa10201 agcactggag aaatcatcaa caacactgtg cccttggaga acagcattcc tgggaactgc10261 102 10261 tgctctgccc tgttcaagaa cctggtgagg ggctttgggg tgcagtgagg ggggcaccac10321 taggagactg tgggactctc cttggagagg atgtcaggaa gcccaggagg agcggtctct10381 gtcctcatga cctcgccctt gctctccctc accccaccca cagcttctca agaagatcaa10441 gcggtgtgag cggaagggca ctgagtctgt cacagaggag aagtgcgctg tgctcttctc10501 tgccagcttc acacttggcc ccggcaaact ccccatccag ctccaggtga accgtggccc10561 agccctgccc caatctggga ccccgagtcc tcctccaatg ccacgcacaa gggccctgga10621 ccctcacctc ttgtgactgc cccatacccc atgtgtctgg gattcatgca cactggggcc10681 cgggtgagtg ggggtgagca agagcatgga gtgcacaggg cagggaatgg tagtggatag10741 cagcaaacac ttcggaagca cttcctatag accaggggca ctctattaaa tgatacatac10801 tgcacatgcg tgccagcaca cacacgtctg gttttcacaa taacattatg aggtaggcag10861 3561 10861 tattatcagc ctcattttat agcatgagga cattgagaca gagagtttaa gtagtttgtc10921 ccagtcaccc agctaagtgt tggagctggt atctgaaacc tggaagtctg gttccatagc10981 109 10981 gattatagta accacttctc tacggtgagg ccctgattga gcttcaaaac gcatttaata11041 acatgg

1 ggaaagaaag aaagaaaaga aaccctgtcc tcaccctact tcaggccctg tctctgcccc 61 tggtggtcat cgtccatggc aaccaagaca acaatgccaa agccactatc ctgtgggaca 121 atgccttctc tgagatggtg aggaaagtcc ttggtagttg gagggaacag ggtgcagggt 181 gggttctaac atgggcagtg gtgcaggcct gctgatgggg tggtgggcat gtcggatggg 241 tgtgacctta acacttcttc atgggcctgc tttcgtgctt ctgacctctt ttcaccccag 301 tcttaacaac tatcaggcca cagcactgta acctagaaaa aacagcatgt ttgtgagcga 361 tatcaggggc tgtggagggg taggccacag gcatgtggga cggatgaagg ccggcccgag 421 gaataacaag acggtagcct gcagtgctct cttcttcccc cttctcccca ggaccgcgtg 481 ccctttgtgg tggctgagcg ggtgccctgg gagaagatgt gtgaaactct gaacctgaag 541 ttcatggctg aggtggggac caaccggggg ctgctcccag agcacttcct cttcctggcc 601 cagaagatct tcaatgacaa cagcctcagt atggaggcct tccagcaccg ttctgtgtcc 661 tggtcgcagt tcaacaaggt tcagttctcc

1 gcggccgcga gctctaatac gactcactat agggcgtcga ctcgatcata ccactgcact 61 caagcctggg tgacagagca agactctgtc tcaaaaaaaa aaaaaaaaaa aggccaggca 121 tggtggttca tgcctgtaat cccagcactt tgggaggccg agacggatag atcacctgag 181 gtcaggagtt cgagaccagc ctggccaaca tggcaaaacc ccgtctctac taaaaacaaa 241 aaaatagcca ggatggtcgt ttgcgtctgt aatcccagct actcggctga ggcaggaggt 301 gaacccagga ggtaaaggct gcaggggaag atgaaaccat tgcactccag cctgggcaag 361 actctgtatc aaaaaaaaaa aaaaaaaggc taggtgtggt ggctcacacc tgtaatccca 421 gcactttggg aggctgaggc gggcggatca caaggtcaag aaatcgagac catcctgacc 481 aacatggtga aaccccgtct ctactaaaaa tacaaaaatt acctgggcat ggtggcgcat 541 gcctgtattc ccaactactc gggaggctga ggcatgaaaa tcacttgaac ctgggaggca 601 gaggttgcag gcgagccaag attgtgccac tgcactccag cctgccaaca aaaatgagat 661 tctgtc

1 ggttaccttc cctttgggcg tcaacttctg ccacacctcc ttagggagag ggtgtagcat 61 agtagttaag aggggtccag ggccagaatg cctgggttta aatcctagct ctgcctctta 121 ccagctatgt agacctgggc aagtcattcg acgtttttgg acttccattt cttcatctgt 181 721 atcaccattg cccatgtcat ccggggccag gatggtgagg ccaccccagc cagtcctctg 781 181 aagatggaat tattataatc cctacttcca tagcctggta aagagcaaat aaatatatgg 241 aaaggcttga aatagtggct ggcacgtgta agcattagga ttggtcgttg tcattgatgg 301 agtctcaggt tcggtctgat cctcagcccc tgtgattctg tcgtgagggc actcacagct 361 cactgcctgc cctaaacagg ctccagctct ggccctccct cggctcacac ctttccccct 421 ctccccctag gagatcctgc tgggccgtgg cttcaccttt tggcagtggt ttgatggtgt 481 cctggacctc accaaacgct gtctccggag ctactggtct gaccggtgag tccccaccct 541 gggtagtttg agcagccata caccagtcac ctccatactc actgcccatg ccccatcctc 601 tccttcatcc cggccaggct gatcattggc ttcatcagca aacagtacgt tactagcctt 661 cttctcaatg agcccgacgg aacctttctc ctccgcttca gcgactcaga gattgggggc 721 atcaccattg cccatgtcat ccggggccag gatggtgagg ccaccccagc cagtcctctg 781 tctctgtgcc tgtgccctct ggggtttctt ctgggaatga aatgtcctga ccttcctgat 841 gccgatcctg atcttcagga agttcttcca gcttctcttc ttccttctgt ggtctaaatg 901 ttcaccttct cactgtgagc tctgtgggaa cggagactag tgggtctctc tccctcagga 961 gccccaccct aggtcctctc tcccttgcct tggtggagtg agaacaggtc ttatggtagg1021 ggttggggaa ggggaagaaa tccggacaga gggatctcag ggtctccttc ctaccatagg1081 ctctccacag atagagaaca tccagccatt ctctgccaaa gacctgtcca ttcgctcact1141 gggggaccga atccgggatc ttgctcagct caaaaatctc tatcccaaga agcccaagga1201 tgaggctttc cggagccact acaagcgtga gctggaactg gcagctctga ttccttcctg1261 tcacccactt cctgccatgc tccccgctgc catcctctcc ccagcccgtg agttatcctg1321 aggtcactcc gaatttccat agctgtgctt ttcttacttc ccggatgatc catgcccacc1381 ttttccacct cccttcctcc ctaacccgag agcaatccat ggcagtcttt tccatctcac1441 aacagctgaa cagctgaaca gatgggtaag gatggcaggg gttatgtccc agctaccatc1501 aagatgaccg tggaaaggtg agtgtggtgg tatggacagt gggtaggtca ggggcttagt1561 gcttatctgc aggaaggagg ggtggcatca acccttggtc agtcacatgt acctccttcc1621 ctcctccagg gaccaaccac ttcctacccc agagctccag atgcctacca tggtgccttc1681 ttatgacctt ggaatggccc ctgattcctc catgagcatg cagcttggcc cagatatggt1741 gtaaggagct ggaaagacag gaatgggagt ggtctgtgca gatgggctaa tcttagcatg1801 ggcagctggg agagctggca ctgggggctg aacagggaat cttcctttcc atgagaggga1861 cacctgttca aaagcagggt gtggtggtgt ccaggagaag ggctggcatc agggggtctg1921 ttttctttcc ccaggcccca ggtgtaccca ccacactctc actccatccc cccgtatcaa1981 ggcctctccc cagaagaatc agtcaacgtg ttgtcagcct tccaggagta agtgaaaaac2041 ctcatgggga taccatccca ctctaagggg gtgggcattt gaattgttag aagaggctct2101 tctgtgagaa aggagcagca aatgctaaca gcctgtcttc ttctcttctg tccactctaa2161 tgagggggta gtagttaaga tctggactgc ctaggtttga attctagctc caccacttac2221 tggtttgggg caaattactt agcctttggt gccttatctg cacaatgggg gataataatg2281 ctaataataa taacctacct cactgcatta ttgtggagat taaatgagtt cataacactt2341 aaaaagctcg agcatagtgc atggctcata gcaaaagctg tgtaagtcca gtcgtggatc2401 acttaatgaa ggagcatttt ctgtctttgg cagtttcata attatgcgga ataccattga2461 gtataattac acaaacctag atggtataga ctactataca ctgaggctat attgtgtagc2521 ctattgatcc tagctttaaa cccgagcagc atgatactgt tctgaatagt ataaggaaat2581 agtaacataa tggtaaatat ttgtgtgata ggaattttca gcttgattat aatttttttt2641 ttttgagaca gggtctcact cactggagtg cagtggtgcg atcttagctc ccctgcaacc2701 tccgcctctt gggctcgagc aatcctcctg ctgtagtgca ccacgacact cggctaattc2761 ttttttaaga tttttctgca gacaaggtct cacttactgc ccaagctggt ctcaaactcc2821 tgggcttaag tgatcctccc acctcggcct cccaaagcgt taggattaca ggcgtgagtc2881 actctgcctg gccttgatta taatcttatg ggaccactgt ggtctgtagt tgacagaaat2941 gtcgttaatg tggtgcatga ctgttattat tattttctgt cctgcccctg agagccactg3001 tcacttctct gctgtattgg tttttgttta ctcatctgtt ttggccttga aatggcctag3061 acatttttct tcccgaagta tgacactcgg gtgcttatta acttagtcaa gacacaacat3121 ctcccttccc agaaagtgag gcgggagtga ggacttgggg acttaagaac taccaaagtt3181 cagagtccaa aggaaacatt agaaattggg taatccaccc ccataacacg cacattttac3241 agatgagaag actgagctca gagcatagaa atagcttgcc caggccatga ctaagtcagg15733 ataaggagct ggagcttgtt tcctcactca gtggtcctga ctttgcacca ctctgcattt15793 gcctagcctg ccttcctcta actgtgctct ccctacttcc aggcctcacc tgcagatgcc15853 ccccagcctg ggccagatga acctgccctt tgaccagcct cacccccagg tgaatgacaa15913 aagcccctcc tgacccatgt gcctcttctt tcctgggcct tgcccgctct ccttatttcc15973 attgctggtt cctggcaggg cctgctgccg tgccagcctc aggagcatgc tgtgtccagc16033 cctgaccccc tgctctgctc agatgtgacc atggtggaag acagctgcct gagccagcca16093 gtgacagcgt ttcctcaggg cacttggtga gtggcagctt gggagtggag gctgggtggc16153 82953 16153 atctagggga gtgggcgcca tgcctactcc actgcttctc ccatctcctt gcaggattgg16213 tgaagacata ttccctcctc tgctgcctcc cactgaacag gacctcacta agcttctcct16273 ggaggggcaa ggggagtcgg ggggagggtc cttgggggca cagcccctcc tgcagccctc16333 ccactatggg caatctggga tctcaatgtc ccacatggac ctaagggcca accccagttg16393 gtgatcccag ctggagggag aacccaaaga gacagctctt ctactacccc cacagacctg16453 ctctggacac ttgctcatgc cctgccaagc agcagatggg gagggtgccc tcctatcccc16513 acctactcct gggtcaggag gaaaagacta acaggagaat gcacagtggg tggagccaat16573 ccactccttc ctttctatca ttcccctgcc cacctccttc cagcactgac tggaagggaa 4633 16627 16693 cacacataca gagctctctg agggtgatgg ggctgagcag gaggggggct gggtaagagc16753 acaggttagg gcatggaagg cttctccgcc cattctgacc cagggcctag gacggatagg16813 caggaacata cagacacatt tacactagag gccagggata gaggatattg ggtctcagcc16873 ctaggggaat gggaagcagc tgaagggacc ctgggtggga gcataggagg agtctggaca 1699 tgtggttact agtacaggtt ttgccctgat taaaaaatct cccaaagccc caaattcctg 16999 ttagccaggt ggaggcttct gatacgtgta tgagactatg caaaagtaca agggctgaga17053 ttcttcgtgt atagctgtgt gaacgtgtat gtacctagga tatgttaaat atatagctgg17113 caccttagtt gcatgaccac atagaacatg tgtctatctg cttttgccta cgtgacaaca17173 caaatttggg agggtgagac actgcacaga agacagcagc aagtgtgctg gcctctctga17233 1722 17293 tggctgtgac atctacgtat ggctccacac ctccaatgct gcctgggagc cagggtgaga17353 gtctgggtcc aggcctggcc atgtggccct ccagtgtatg agagggccct gcctgctgca17413 tcttttctgt tgccccatcc accgccagct tcccttcact cccctatccc attctccctc17473 tcaaggcagg ggtcatagat cctaagccat aaaataaatt ttattccaaa ataacaaaat17533 17593 cggtccagcc cccagctgga ggagaccctg agtccaaccc aggcctcccg agggggccag 17672 ccacacccac cgcccctatg tagggcaggg aagaaattgc aaaggacttg17713 ggggatagat gggaatggga gggcaaactg cagcacttgt taaattaatt aaagaaacaa17773 accagaagca caaaaacggg gaaggagaag ggagaaggag caggtccagt gttccaggcc17833 ccaattctgg gggcaaatgt gcca17857 gcagcaccta tctgagcagt tagagcgtct ttcttttcag attgtgtaca gtagattatt17917 tattttgtta ttttggaata aaatttattt tatggcttag gatctatgac ccctgccttg17977 agagggagaa tgggataggg gagtgaaggg aagctggcgg tggatggggc aacagaaaag18033 atgcagcagg cagggccctc tcatacactg gagggccaca tggccaggcc tggacccaga18093 ctctcaccct ggctcccagg cagcattgga ggtgtggagc catacgtaga tgtcacagcc18153 acttggaccc acttgggcac agtcagactc caaattcaga gtatttgggg gttagcatat18213 gtcagagagg ccagcacact tgctgctgtc ttctgtgcag tgtctcaccc tcccaaattt18273 gtgttgtcac gtaggcaaaa gcagatagac acatgttcta tgtggtcatg caactaaggt18333 gccagctata catttaacat atcctaggta catacacgtt cacacagcta tacacgaaga18393 atctcagccc ttgtactttt gcatagtctc atacacgtat cagaagcctc cacctggcta18453 acaggaattt ggggctttgg gagatttttt aatcagggca aaacctgtac tagtaaccac18513 atgtccagac ccctcctatg ctcccaccca gggtcccttg agctgcttcc cattccccta18573 gggctgagac ccaatatcct ctatccctgg cctctagtgt aaatgtgtct gtatgttcct186 gcctatccgt cctaggccct gggtcagaat gggcggagaa gccttccatg ccctaacctg 69593 tgctcttacc cagcccccct cctgctcagc cccatcaccc tcagagagct ctgtatgtgt18753 gtgtgcgtgc gtgtgcgcgc tgcaggtgca ggcatgttgg ggtgtgtctc agagcctgaa18813 cttcccttcc agtcagtact ggaaggaggt gggcagggga atgatagaaa ggaaggagtg18873 gattggctcc acccactgtg cattctcctg ttagtctttt cctcctgacc caggagtagg18933 tggggatagg agggcaccct ccccatctgc tgcttggcag ggcatgagca agtgtccaga18993 gcaggtctgt gggggtagta gaagagctgt ctctttgggt tctccctcca gctgggatca19053 ccaactgggg ttggccctta ggtccatgtg ggacattgag atcccagatt gcccatagtg19113 ggagggctgc aggaggggct gtgcccccaa ggaccctccc cccgactccc cttgcccctc19173 caggagaagc ttagtgaggt cctgttcagt gggaggcagc agaggaggga atatgtcttc19233 accaatcctg caaggagatg ggagaagcag tggagtaggc atggcgccca ctcccctaga19293 tgccacccag cctccactcc caagctgcca ctcac (2) SEQ ID NO: 2813, data: (i) sequence characteristics:

(A) length: 3567 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2813 sequence description: 1 cgccatcccg cgctctgcgg actgggaggc ccgggccagg acgcgagtct gcgcagccga 61 ggttccccag cgccccctgc agccgcgcgt aggcagagac ggagcccggc cctgcgcctc 121 cgcaccacgc ccgggacccc acccagcggc ccgtacccgg agaagcagcg cgagcacccg 181 721 gccagacgtg cgaacagctc cagctgggta gccctaatgg agaaccttgt ggaaagactt 781 181 aagctcccgg ctcggcggca gaaaccggga gtggggccgg gcgagtgcgc ggcatcccag 241 gccggcccga acgtccgccc gcggtgggcc gacttcccct cctcttccct ctctccttcc 301 tttagcccgc tggcgccgga cacgctgcgc ctcatctctt ggggcgttct tccccgttgg 361 ccaaccgtcg catcccgtgc aactttgggg tagtggccgc ttagtgttga atgttcccca 421 ccgagagcgc atggcttggg aagcgaggcg cgaacccggg ccccgaagcc gccgtccggg 481 agacggtgat gctgttgctg tgcctggggg tcccgaccgg ccgcccctac aacgtggaca 541 ctgagagcgc gctgctttac cagggccccc acaacacgct gttcggctac tcggtcgtgc 601 tgcacagcca cggggcgaac cgatggctcc tagtgggtgc gcccactgcc aactggctcg 661 ccaacgcttc agtgatcaat cccggggcga tttacagatg caggatcgga aagaatcccg 721 gccagacgtg cgaacagctc cagctgggta gccctaatgg agaaccttgt ggaaagactt 781 gtttggaaga gagagacaat cagtggttgg gggtcacact ttccagacag ccaggagaaa 841 atggatccat cgtgacttgt gggcatagat ggaaaaatat attttacata aagaatgaaa 901 ataagctccc cactggtggt tgctatggag tgccccctga tttacgaaca gaactgagta 961 aaagaatagc tccgtgttat caagattatg tgaaaaaatt tggagaaaat tttgcatcat1021 gtcaagctgg aatatccagt ttttacacaa aggatttaat tgtgatgggg gccccaggat1081 catcttactg gactggctct ctttttgtct acaatataac tacaaataaa tacaaggctt1141 ttttagacaa acaaaatcaa gtaaaatttg gaagttattt aggatattca gtcggagctg1201 gtcattttcg gagccagcat actaccgaag tagtcggagg agctcctcaa catgagcaga1261 ttggtaaggc atatatattc agcattgatg aaaaagaact aaatatctta catgaaatga1321 aaggtaaaaa gcttggatcg tactttggag cttctgtctg tgctgtggac ctcaatgcag1381 atggcttctc agatctgctc gtgggagcac ccatgcagag caccatcaga gaggaaggaa1441 gagtgtttgt gtacatcaac tctggctcgg gagcagtaat gaatgcaatg gaaacaaacc1501 tcgttggaag tgacaaatat gctgcaagat ttggggaatc tatagttaat cttggcgaca1561 ttgacaatga tggctttgaa gatgttgcta tcggagctcc acaagaagat gacttgcaag1621 gtgctattta tatttacaat ggccgtgcag atgggatctc gtcaaccttc tcacagagaa1681 ttgaaggact tcagatcagc aaatcgttaa gtatgtttgg acagtctata tcaggacaaa1741 ttgatgcaga taataatggc tatgtagatg tagcagttgg tgcttttcgg tctgattctg1801 ctgtcttgct aaggacaaga cctgtagtaa ttgttgacgc ttctttaagc caccctgagt1861 cagtaaatag aacgaaattt gactgtgttg aaaatggatg gccttctgtg tgcatagatc1921 taacactttg tttctcatat aagggcaagg aagttccagg ttacattgtt ttgttttata1981 acatgagttt ggatgtgaac agaaaggcag agtctccacc aagattctat ttctcttcta2041 atggaacttc tgacgtgatt acaggaagca tacaggtgtc cagcagagaa gctaactgta2101 gaacacatca agcatttatg cggaaagatg tgcgggacat cctcacccca attcagattg2161 aagctgctta ccaccttggt cctcatgtca tcagtaaacg aagtacagag gaattcccac2221 cacttcagcc aattcttcag cagaagaaag aaaaagacat aatgaaaaaa acaataaact2281 ttgcaaggtt ttgtgcccat gaaaattgtt ctgctgattt acaggtttct gcaaagattg2341 ggtttttgaa gccccatgaa aataaaacat atcttgctgt tgggagtatg aagacattga2401 tgttgaatgt gtccttgttt aatgctggag atgatgcata tgaaacgact ctacatgtca2461 aactacccgt gggtctttat ttcattaaga ttttagagct ggaagagaag caaataaact2521 gtgaagtcac agataactct ggcgtggtac aacttgactg cagtattggc tatatatatg2581 tagatcatct ctcaaggata gatattagct ttctcctgga tgtgagctca ctcagcagag2641 cggaagagga cctcagtatc acagtgcatg ctacctgtga aaatgaagag gaaatggaca2701 atctaaagca cagcagagtg actgtagcaa tacctttaaa atatgaggtt aagctgactg2761 ttcatgggtt tgtaaaccca acttcatttg tgtatggatc aaatgatgaa aatgagcctg2821 aaacgtgcat ggtggagaaa atgaacttaa ctttccatgt tatcaacact ggcaatagta2881 tggctcccaa tgttagtgtg gaaataatgg taccaaattc ttttagcccc caaactgata2941 agctgttcaa cattttggat gtccagacta ctactggaga atgccacttt gaaaattatc3001 aaagagtgtg tgcattagag cagcaaaaga gtgcaatgca gaccttgaaa ggcatagtcc3061 agttcttgtc caagactgat aagaggctat tgtactgcat aaaagctgat ccacattgtt3121 taaatttctt gtgtaatttt gggaaaatgg aaagtggaaa agaagccagt gttcatatcc3181 aactggaagg ccggccatcc attttagaaa tggatgagac ttcagcactc aagtttgaaa3241 taagagcaac aggttttcca gagccaaatc caagagtaat tgaactaaac aaggatgaga3301 atgttgcgca tgttctactg gaaggactac atcatcaaag acccaaacgt tatttcacca3361 tagtgattat ttcaagtagc ttgctacttg gacttattgt acttctgttg atctcatatg3421 ttatgtggaa ggctggcttc tttaaaagac aatacaaatc tatcctacaa gaagaaaaca3481 gaagagacag ttggagttat atcaacagta aaagcaatga tgattaagga cttctttcaa3541 attgagagaa tggaaaacag cccgccc (2) SEQ ID NO: 2814 data: (i) sequence characteristics:

(A) length: 3805 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D)Topology: linear (xi) SEQ ID NO: 2814 sequence description: 1 gaattccggg ccgcttagtg ttgaatgttc cccaccgaga gcgcatggct tgggaagcga 61 ggcgcgaacc cgggccccga agccgccgtc cgggagacgg tgatgctgtt gctgtgcctg 121 ggggtcccga ccggccgccc ctacaacgtg gacactgaga gcgcgctgct ttaccagggc 181 721 gtctacaata taactacaaa taaatacaag gcttttttag acaaacaaaa tcaagtaaaa 781 181 ccccacaaca cgctgttcgg ctactcggtc gtgctgcaca gccacggggc gaaccgatgg 241 ctcctagtgg gtgcgcccac tgccaactgg ctcgccaacg cttcagtgat caatcccggg 301 gcgatttaca gatgcaggat cggaaagaat cccggccaga cgtgcgaaca gctccagctg 361 ggtagcccta atggagaacc ttgtggaaag acttgtttgg aagagagaga caatcagtgg 421 ttgggggtca cactttccag acagccagga gaaaatggat ccatcgtgac ttgtgggcat 481 agatggaaaa atatatttta cataaagaat gaaaataagc tccccactgg tggttgctat 541 ggagtgcccc ctgatttacg aacagaactg agtaaaagaa tagctccgtg ttatcaagat 601 tatgtgaaaa aatttggaga aaattttgca tcatgtcaag ctggaatatc cagtttttac 661 acaaaggatt taattgtgat gggggcccca ggatcatctt actggactgg ctctcttttt 721 gtctacaata taactacaaa taaatacaag gcttttttag acaaacaaaa tcaagtaaaa 781 tttggaagtt atttaggata ttcagtcgga gctggtcatt ttcggagcca gcatactacc 841 gaagtagtcg gaggagctcc tcaacatgag cagattggta aggcatatat attcagcatt 901 gatgaaaaag aactaaatat cttacatgaa atgaaaggta aaaagcttgg atcgtacttt 961 ggagcttctg tctgtgctgt ggacctcaat gcagatggct tctcagatct gctcgtggga1021 gcacccatgc agagcaccat cagagaggaa ggaagagtgt ttgtgtacat caactctggc1081 tcgggagcag taatgaatgc aatggaaaca aacctcgttg gaagtgacaa atatgctgca1141 agatttgggg aatctatagt taatcttggc gacattgaca atgatggctt tgaagatgtt1201 gctatcggag ctccacaaga agatgacttg caaggtgcta tttatattta caatggccgt1261 gcagatggga tctcgtcaac cttctcacag agaattgaag gacttcagat cagcaaatcg1321 ttaagtatgt ttggacagtc tatatcagga caaattgatg cagataataa tggctatgta1381 gatgtagcag ttggtgcttt tcggtctgat tctgctgtct tgctaaggac aagacctgta1441 gtaattgttg acgcttcttt aagccaccct gagtcagtaa atagaacgaa atttgactgt1501 gttgaaaatg gatggccttc tgtgtgcata gatctaacac tttgtttctc atataagggc1561 aaggaagttc caggttacat tgttttgttt tataacatga gtttggatgt gaacagaaag1621 gcagagtctc caccaagatt ctatttctct tctaatggaa cttctgacgt gattacagga1681 agcatacagg tgtccagcag agaagctaac tgtagaacac atcaagcatt tatgcggaaa1741 gatgtgcggg acatcctcac cccaattcag attgaagctg cttaccacct tggtcctcat1801 gtcatcagta aacgaagtac agaggaattc ccaccacttc agccaattct tcagcagaag1861 aaagaaaaag acataatgaa aaaaacaata aactttgcaa ggttttgtgc ccatgaaaat1921 tgttctgctg atttacaggt ttctgcaaag attgggtttt tgaagcccca tgaaaataaa1981 acatatcttg ctgttgggag tatgaagaca ttgatgttga atgtgtcctt gtttaatgct2041 ggagatgatg catatgaaac gactctacat gtcaaactac ccgtgggtct ttatttcatt2101 aagattttag agctggaaga gaagcaaata aactgtgaag tcacagataa ctctggcgtg2161 gtacaacttg actgcagtat tggctatata tatgtagatc atctctcaag gatagatatt2221 agctttctcc tggatgtgag ctcactcagc agagcggaag aggacctcag tatcacagtg2281 catgctacct gtgaaaatga agaggaaatg gacaatctaa agcacagcag agtgactgta2341 gcaatacctt taaaatatga ggttaagctg actgttcatg ggtttgtaaa cccaacttca2401 tttgtgtatg gatcaaatga tgaaaatgag cctgaaacgt gcatggtgga gaaaatgaac2461 ttaactttcc atgttatcaa cactggcaat agtatggctc ccaatgttag tgtggaaata2521 atggtaccaa attcttttag cccccaaact gataagctgt tcaacatttt ggatgtccag2581 actactactg gagaatgcca ctttgaaaat tatcaaagag tgtgtgcatt agagcagcaa2641 aagagtgcaa tgcagacctt gaaaggcata gtccggttct tgtccaagac tgataagagg2701 ctattgtact gcataaaagc tgatccacat tgtttaaatt tcttgtgtaa ttttgggaaa2761 atggaaagtg gaaaagaagc cagtgttcat atccaactgg aaggccggcc atccatttta2821 gaaatggatg agacttcagc actcaagttt gaaataagag caacaggttt tccagagcca2881 aatccaagag taattgaact aaacaaggat gagaatgttg cgcatgttct actggaagga2941 ctacatcatc aaagacccaa acgttatttc accatagtga ttatttcaag tagcttgcta3001 cttggactta ttgtacttct gttgatctca tatgttatgt ggaaggctgg cttctttaaa3061 agacaataca aatctatcct acaagaagaa aacagaagag acagttggag ttatatcaac3121 agtaaaagca atgatgatta aggacttctt tcaaattgag agaatggaaa acagactcag3181 gttgtagtaa agaaatttaa aagacactgt ttacaagaaa aaatgaattt tgtttggact3241 tcttttactc atgatcttgt gacatattat gtcttcatgc aaggggaaaa tctcagcaat 1 gattactctt tgagatagaa gaactgcaaa ggtaataata cagccaaaga taatctctca3361 393448 3421 gaagatatct tgaaatgaaa gtataactga gttaaattat actggagaag tcttagactt3481 gaaatactac ttaccatatg tgcttgcctc agtaaaatga accccactgg gtgggcagag3541 3602 3601 ttagagagct gttcccaaat tttctaacga gtggaccatt atcactttaa agccctttat 366361 ttataataca tttcctacgg gctgtgttcc aacaaccatt ttttttcagc agactatgaa3721 tattatagta ttataggcca aactggcaaa cttcagactg aacatgtaca ctggtttgag3781 cttagtgaaa tgacttccgg aatct (2) SEQ ID NO: 2815 data: (i) sequence characteristics:

(A) length: 7372 base pairs

(B) Type (2): nucleic acid (C) strand type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2815 sequence description:

1 cgccatcccg cgctctgcgg actgggaggc ccgggccagg acgcgagtct gcgcagccga 61 ggttccccag cgccccctgc agccgcgcgt aggcagagac ggagcccggc cctgcgcctc 121 cgcaccacgc ccgggacccc acccagcggc ccgtacccgg agaagcagcg cgagcacccg 181 aagctcccgg ctcggcggca gaaaccggga gtggggccgg gcgagtgcgc ggcatcccag 241 gccggcccga acgtccgccc gcggtgggcc gacttcccct cctcttccct ctctccttcc 301 tttagcccgc tggcgccgga cacgctgcgc ctcatctctt ggggcgttct tccccgttgg 361 ccaaccgtcg catcccgtgc aactttgggg tagtggccgc ttagtgttga atgttcccca 421 ccgagagcgc atggcttggg aagcgaggcg cgaacccggg ccccgaagcc gccgtccggg 481 agacggtgat gctgttgctg tgcctggggg tcccgaccgg ccgcccctac aacgtggaca 541 ctgagagcgc gctgctttac cagggccccc acaacacgct gttcggctac tcggtcgtgc 601 tgcacagcca cggggcgaac cgatggctcc tagtgggtgc gcccactgcc aactggctcg 661 ccaacgcttc agtgatcaat cccggggcga tttacagatg caggatcgga aagaatcccg 721 gccagacgtg cgaacagctc cagctgggta gccctaatgg agaaccttgt ggaaagactt 781 gtttggaaga gagagacaat cagtggttgg gggtcacact ttccagacag ccaggagaaa 841 atggatccat cgtgacttgt gggcatagat ggaaaaatat attttacata aagaatgaaa 901 ataagctccc cactggtggt tgctatggag tgccccctga tttacgaaca gaactgagta 961 aaagaatagc tccgtgttat caagattatg tgaaaaaatt tggagaaaat tttgcatcat1021 gtcaagctgg aatatccagt ttttacacaa aggatttaat tgtgatgggg gccccaggat1081 catcttactg gactggctct ctttttgtct acaatataac tacaaataaa tacaaggctt1141 ttttagacaa acaaaatcaa gtaaaatttg gaagttattt aggatattca gtcggagctg1201 gtcattttcg gagccagcat actaccgaag tagtcggagg agctcctcaa catgagcaga1261 ttggtaaggc atatatattc agcattgatg aaaaagaact aaatatctta catgaaatga1321 aaggtaaaaa gcttggatcg tactttggag cttctgtctg tgctgtggac ctcaatgcag1381 atggcttctc agatctgctc gtgggagcac ccatgcagag caccatcaga gaggaaggaa1441 gagtgtttgt gtacatcaac tctggctcgg gagcagtaat gaatgcaatg gaaacaaacc1501 tcgttggaag tgacaaatat gctgcaagat ttggggaatc tatagttaat cttggcgaca1561 ttgacaatga tggctttgaa gatgttgcta tcggagctcc acaagaagat gacttgcaag1621 gtgctattta tatttacaat ggccgtgcag atgggatctc gtcaaccttc tcacagagaa1681 ttgaaggact tcagatcagc aaatcgttaa gtatgtttgg acagtctata tcaggacaaa1741 ttgatgcaga taataatggc tatgtagatg tagcagttgg tgcttttcgg tctgattctg1801 ctgtcttgct aaggacaaga cctgtagtaa ttgttgacgc ttctttaagc caccctgagt1861 cagtaaatag aacgaaattt gactgtgttg aaaatggatg gccttctgtg tgcatagatc1921 taacactttg tttctcatat aagggcaagg aagttccagg ttacattgtt ttgttttata1981 acatgagttt ggatgtgaac agaaaggcag agtctccacc aagattctat ttctcttcta2041 atggaacttc tgacgtgatt acaggaagca tacaggtgtc cagcagagaa gctaactgta2101 gaacacatca agcatttatg cggaaagatg tgcgggacat cctcacccca attcagattg2161 aagctgctta ccaccttggt cctcatgtca tcagtaaacg aagtacagag gaattcccac2221 cacttcagcc aattcttcag cagaagaaag aaaaagacat aatgaaaaaa acaataaact2281 ttgcaaggtt ttgtgcccat gaaaattgtt ctgctgattt acaggtttct gcaaagattg2341 ggtttttgaa gccccatgaa aataaaacat atcttgctgt tgggagtatg aagacattga2401 tgttgaatgt gtccttgttt aatgctggag atgatgcata tgaaacgact ctacatgtca2461 aactacccgt gggtctttat ttcattaaga ttttagagct ggaagagaag caaataaact2521 gtgaagtcac agataactct ggcgtggtac aacttgactg cagtattggc tatatatatg2581 tagatcatct ctcaaggata gatattagct ttctcctgga tgtgagctca ctcagcagag2641 cggaagagga cctcagtatc acagtgcatg ctacctgtga aaatgaagag gaaatggaca2701 atctaaagca cagcagagtg actgtagcaa tacctttaaa atatgaggtt aagctgactg2761 ttcatgggtt tgtaaaccca acttcatttg tgtatggatc aaatgatgaa aatgagcctg2821 aaacgtgcat ggtggagaaa atgaacttaa ctttccatgt tatcaacact ggcaatagta2881 tggctcccaa tgttagtgtg gaaataatgg taccaaattc ttttagcccc caaactgata2941 agctgttcaa cattttggat gtccagacta ctactggaga atgccacttt gaaaattatc3001 aaagagtgtg tgcattagag cagcaaaaga gtgcaatgca gaccttgaaa ggcatagtcc3061 agttcttgtc caagactgat aagaggctat tgtactgcat aaaagctgat ccacattgtt3121 taaatttctt gtgtaatttt gggaaaatgg aaagtggaaa agaagccagt gttcatatcc3181 aactggaagg ccggccatcc attttagaaa tggatgagac ttcagcactc aagtttgaaa3241 taagagcaac aggttttcca gagccaaatc caagagtaat tgaactaaac aaggatgaga3301 atgttgcgca tgttctactg gaaggactac atcatcaaag acccaaacgt tatttcacca3361 tagtgattat ttcaagtagc ttgctacttg gacttattgt acttctgttg atctcatatg3421 ttatgtggaa ggctggcttc tttaaaagac aatacaaatc tatcctacaa gaagaaaaca3481 gaagagacag ttggagttat atcaacagta aaagcaatga tgattaagga cttctttcaa3541 attgagagaa tggaaaacag cccgccc

1 gaattccggg ccgcttagtg ttgaatgttc cccaccgaga gcgcatggct tgggaagcga 61 ggcgcgaacc cgggccccga agccgccgtc cgggagacgg tgatgctgtt gctgtgcctg 121 ggggtcccga ccggccgccc ctacaacgtg gacactgaga gcgcgctgct ttaccagggc 181 721 gtctacaata taactacaaa taaatacaag gcttttttag acaaacaaaa tcaagtaaaa 781 181 ccccacaaca cgctgttcgg ctactcggtc gtgctgcaca gccacggggc gaaccgatgg 241 ctcctagtgg gtgcgcccac tgccaactgg ctcgccaacg cttcagtgat caatcccggg 301 gcgatttaca gatgcaggat cggaaagaat cccggccaga cgtgcgaaca gctccagctg 361 ggtagcccta atggagaacc ttgtggaaag acttgtttgg aagagagaga caatcagtgg 421 ttgggggtca cactttccag acagccagga gaaaatggat ccatcgtgac ttgtgggcat 481 agatggaaaa atatatttta cataaagaat gaaaataagc tccccactgg tggttgctat 541 ggagtgcccc ctgatttacg aacagaactg agtaaaagaa tagctccgtg ttatcaagat 601 tatgtgaaaa aatttggaga aaattttgca tcatgtcaag ctggaatatc cagtttttac 661 acaaaggatt taattgtgat gggggcccca ggatcatctt actggactgg ctctcttttt 721 gtctacaata taactacaaa taaatacaag gcttttttag acaaacaaaa tcaagtaaaa 781 tttggaagtt atttaggata ttcagtcgga gctggtcatt ttcggagcca gcatactacc 841 gaagtagtcg gaggagctcc tcaacatgag cagattggta aggcatatat attcagcatt 901 gatgaaaaag aactaaatat cttacatgaa atgaaaggta aaaagcttgg atcgtacttt 961 ggagcttctg tctgtgctgt ggacctcaat gcagatggct tctcagatct gctcgtggga1021 gcacccatgc agagcaccat cagagaggaa ggaagagtgt ttgtgtacat caactctggc1081 tcgggagcag taatgaatgc aatggaaaca aacctcgttg gaagtgacaa atatgctgca1141 agatttgggg aatctatagt taatcttggc gacattgaca atgatggctt tgaagatgtt1201 gctatcggag ctccacaaga agatgacttg caaggtgcta tttatattta caatggccgt1261 gcagatggga tctcgtcaac cttctcacag agaattgaag gacttcagat cagcaaatcg1321 ttaagtatgt ttggacagtc tatatcagga caaattgatg cagataataa tggctatgta1381 gatgtagcag ttggtgcttt tcggtctgat tctgctgtct tgctaaggac aagacctgta1441 gtaattgttg acgcttcttt aagccaccct gagtcagtaa atagaacgaa atttgactgt1501 gttgaaaatg gatggccttc tgtgtgcata gatctaacac tttgtttctc atataagggc1561 aaggaagttc caggttacat tgttttgttt tataacatga gtttggatgt gaacagaaag1621 gcagagtctc caccaagatt ctatttctct tctaatggaa cttctgacgt gattacagga1681 agcatacagg tgtccagcag agaagctaac tgtagaacac atcaagcatt tatgcggaaa1741 gatgtgcggg acatcctcac cccaattcag attgaagctg cttaccacct tggtcctcat1801 gtcatcagta aacgaagtac agaggaattc ccaccacttc agccaattct tcagcagaag1861 aaagaaaaag acataatgaa aaaaacaata aactttgcaa ggttttgtgc ccatgaaaat1921 tgttctgctg atttacaggt ttctgcaaag attgggtttt tgaagcccca tgaaaataaa1981 acatatcttg ctgttgggag tatgaagaca ttgatgttga atgtgtcctt gtttaatgct2041 ggagatgatg catatgaaac gactctacat gtcaaactac ccgtgggtct ttatttcatt2101 aagattttag agctggaaga gaagcaaata aactgtgaag tcacagataa ctctggcgtg2161 gtacaacttg actgcagtat tggctatata tatgtagatc atctctcaag gatagatatt2221 agctttctcc tggatgtgag ctcactcagc agagcggaag aggacctcag tatcacagtg2281 catgctacct gtgaaaatga agaggaaatg gacaatctaa agcacagcag agtgactgta2341 gcaatacctt taaaatatga ggttaagctg actgttcatg ggtttgtaaa cccaacttca2401 tttgtgtatg gatcaaatga tgaaaatgag cctgaaacgt gcatggtgga gaaaatgaac2461 ttaactttcc atgttatcaa cactggcaat agtatggctc ccaatgttag tgtggaaata2521 atggtaccaa attcttttag cccccaaact gataagctgt tcaacatttt ggatgtccag2581 actactactg gagaatgcca ctttgaaaat tatcaaagag tgtgtgcatt agagcagcaa2641 aagagtgcaa tgcagacctt gaaaggcata gtccggttct tgtccaagac tgataagagg2701 ctattgtact gcataaaagc tgatccacat tgtttaaatt tcttgtgtaa ttttgggaaa2761 atggaaagtg gaaaagaagc cagtgttcat atccaactgg aaggccggcc atccatttta2821 gaaatggatg agacttcagc actcaagttt gaaataagag caacaggttt tccagagcca2881 aatccaagag taattgaact aaacaaggat gagaatgttg cgcatgttct actggaagga2941 ctacatcatc aaagacccaa acgttatttc accatagtga ttatttcaag tagcttgcta3001 cttggactta ttgtacttct gttgatctca tatgttatgt ggaaggctgg cttctttaaa3061 agacaataca aatctatcct acaagaagaa aacagaagag acagttggag ttatatcaac3121 agtaaaagca atgatgatta aggacttctt tcaaattgag agaatggaaa acagactcag3181 gttgtagtaa agaaatttaa aagacactgt ttacaagaaa aaatgaattt tgtttggact3241 tcttttactc atgatcttgt gacatattat gtcttcatgc aaggggaaaa tctcagcaat 1 gattactctt tgagatagaa gaactgcaaa ggtaataata cagccaaaga taatctctca3361 393448 3421 gaagatatct tgaaatgaaa gtataactga gttaaattat actggagaag tcttagactt3481 gaaatactac ttaccatatg tgcttgcctc agtaaaatga accccactgg gtgggcagag3541 3602 3601 ttagagagct gttcccaaat tttctaacga gtggaccatt atcactttaa agccctttat 366361 ttataataca tttcctacgg gctgtgttcc aacaaccatt ttttttcagc agactatgaa3721 tattatagta ttataggcca aactggcaaa cttcagactg aacatgtaca ctggtttgag3781 cttagtgaaa tgacttccgg aatct (2) SEQ ID NO: 2816 data: (i) sequence characteristics:

(A) length: 1108 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2816 sequence description: 1 cagctgtccc tccccactgc catttattcc ttccttcatt caaaccttat gtggctgcta 61 cttaccgtgt gttaagtgtt cacttttttt cttggaattc aaaaaaagaa ggacagtatt121 tggggcacag atcttttggt gttctataca tttttttaaa gtttcatttt acatttgtgt181 721 gcaggttgtg cagctggagg cagagcagtc ctctctgggg agcctgaagc aaacatggat781 181 gtgcgtgtgt gtgtgtgtgt gagacagtct tgctctgttg cccaggctgg agtgcagtgg241 cataatcatt ggctcactgt agcctcaaag tcctgggccc aagcgatctt cccacctcag301 ccacccaaaa tgctggggtt acaggtttat gccactctgt ctgacctgaa agttttgggt361 ttactttccc ttctttctct ttgctgaagt cagagatgat ggcagcttcc agattctctg421 gtgcctgtgc tgggctcgtg ctggtcatgg tcttgggtcc aggattcatt ctggagactc481 tcagggaagt ttcccatgac aaggaaatgt aggagagtgt gctggctttg cgtgctcctc541 tgccaagccc tgcttctcct ggtgggacac actgaaccac agccagggca ttttggtggt601 tagttaaaaa aaaaaaaaaa aaaaaaaagg aagaagaagg cactgtgtaa ttgtgccggg661 gatcttcaga aattgtaatg atgaaagagt gcaagctctc acttcccctt cctgtacagg721 gcaggttgtg cagctggagg cagagcagtc ctctctgggg agcctgaagc aaacatggat781 caagaaactg taggcaatgt tgtcctgttg gccatcgtca ccctcatcag cgtggtccag 841 aatggtaagg aaagcccttc actcagggaa gaacagaagg ggagattttc tttgatggtt 901 gtttggaagt caggcttaaa caattgtgtc tgtgtgtgcg catgcacaaa cacttttacc 961 ttatctttat tttcttcttt ttatttgaat gtatagggtt gtgtgtattt ctgtgtaaat1021 ttggggtttt cctcctctta gtctttcact tttgtggtga ttaccagtcc catttttaga1081 gccagggctg caacttgaag gttttgct (2) SEQ ID NO: 2817 data: (i) sequence characteristics:

(A) length: 540 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2817 sequence description: 1 tgcgttttgg gggttcctgg agtatcaatc atggatcaag aaactgtagg caatgttgtc 61 ctgttggcca tcgtcaccct catcagcgtg gtccagaatg gattctttgc ccataaagtg121 gagcacgaaa gcaggaccca gaatgggagg agcttccaga ggaccggaac acttgccttt181 gagcgggtct acactgccaa ccagaactgt gtagatgcgt accccacttt cctcgctgtg241 ctctggtctg cggggctact ttgcagccaa gttcctgctg cgtttgctgg actgatgtac301 ttgtttgtgc ggcaaaagta ctttgtcggt tacctaggag agagaacgca gagcacccct361 ggctacatat ttgggaaacg catcatactc ttcctgttcc tcatgtccgt tgctggcata421 ttcaactatt acctcatctt ctttttcgga agtgactttg aaaactacat aaagacgatc481 tccaccacca tctcccctct acttctcatt tcctaactct ctgctgaata tggggttggt (2) SEQ ID NO: 2818 data:

(i) sequence characteristics:

(A) length: 2022 base pairs

(B) Type (2):nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2818 sequence description: 1 atgccctcct acacggtcac cgtggccact ggcagccagt ggttcgccgg cactgacgac 61 tacatctacc tcagcctcgt gggctcggcg ggctgcagcg agaagcacct gctggacaag 121 cccttctaca acgacttcga gcgtggcgcg gtggattcat acgacgtgac tgtggacgag 181 721 tgcaaccctg tgttgatccg gcgctgcaca gagctgcccg agaagctccc ggtgaccacg 781 181 gaactgggcg agatccagct ggtcagaatc gagaagcgca agtactggct gaatgacgac 241 tggtacctga agtacatcac gctgaagacg ccccacgggg actacatcga gttcccctgc 301 taccgctgga tcaccggcga tgtcgaggtt gtcctgaggg atggacgcgc aaagttggcc 361 cgagatgacc aaattcacat tctcaagcaa caccgacgta aagaactgga aacacggcaa 421 aaacaatatc gatggatgga gtggaaccct ggcttcccct tgagcatcga tgccaaatgc 481 cacaaggatt taccccgtga tatccagttt gatagtgaaa aaggagtgga ctttgttctg 541 aattactcca aagcgatgga gaacctgttc atcaaccgct tcatgcacat gttccagtct 601 tcttggaatg acttcgccga ctttgagaaa atctttgtca agatcagcaa cactatttct 661 gagcgggtca tgaatcactg gcaggaagac ctgatgtttg gctaccagtt cctgaatggc 721 tgcaaccctg tgttgatccg gcgctgcaca gagctgcccg agaagctccc ggtgaccacg 781 gagatggtag agtgcagcct ggagcggcag ctcagcttgg agcaggaggt ccagcaaggg 841 aacattttca tcgtggactt tgagctgctg gatggcatcg atgccaacaa aacagacccc 901 tgcacactcc agttcctggc cgctcccatc tgcttgctgt ataagaacct ggccaacaag 961 attgtcccca ttgccatcca gctcaaccaa atcccgggag atgagaaccc tattttcctc1021 ccttcggatg caaaatacga ctggcttttg gccaaaatct gggtgcgttc cagtgacttc1081 cacgtccacc agaccatcac ccaccttctg cgaacacatc tggtgtctga ggtttttggc1141 attgcaatgt accgccagct gcctgctgtg caccccattt tcaagctgct ggtggcacac1201 gtgagattca ccattgcaat caacaccaag gcccgtgagc agctcatctg cgagtgtggc1261 ctctttgaca aggccaacgc cacagggggc ggtgggcacg tgcagatggt gcagagggcc1321 atgaaggacc tgacctatgc ctccctgtgc tttcccgagg ccatcaaggc ccggggcatg1381 gagagcaaag aagacatccc ctactacttc taccgggacg acgggctcct ggtgtgggaa1441 gccatcagga cgttcacggc cgaggtggta gacatctact acgagggcga ccaggtggtg1501 gaggaggacc cggagctgca ggacttcgtg aacgatgtct acgtgtacgg catgcggggc1561 cgcaagtcct caggcttccc caagtcggtc aagagccggg agcagctgtc ggagtacctg1621 accgtggtga tcttcaccgc ctccgcccag cacgccgcgg tcaacttcgg ccagtacgac1681 tggtgctcct ggatccccaa tgcgccccca accatgcgag ccccgccacc gactgccaag1741 ggcgtggtga ccattgagca gatcgtggac acgctgcccg accgcggccg ctcctgctgg1801 catctgggtg cagtgtgggc gctgagccag ttccaggaaa acgagctgtt cctgggcatg1861 tacccagaag agcattttat cgagaagcct gtgaaggaag ccatggcccg attccgcaag1921 aacctcgagg ccattgtcag cgtgattgct gagcgcaaca agaagaagca gctgccatat1981 tactacttgt ccccagaccg gattccgaac agtgtggcca tc (2) SEQ ID NO: 2819 data: (i) sequence characteristics:

(A) length: 2500 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2819 sequence description: 1 gggcccggcg ctcgctgctc ccgcggcccg cgccatgccc tcctacacgg tcaccgtggc 61 cactggcagc cagtggttcg ccggcactga cgactacatc tacctcagcc tcgtgggctc 121 ggcgggctgc agcgagaagc acctgctgga caagcccttc tacaacgact tcgagcgtgg 181 721 agacctgatg tttggctacc agttcctgaa tggctgcaac cctgtgttga tccggcgctg 781 181 cgcggtggat tcatacgacg tgactgtgga cgaggaactg ggcgagatcc agctggtcag 241 aatcgagaag cgcaagtact ggctgaatga cgactggtac ctgaagtaca tcacgctgaa 301 gacgccccac ggggactaca tcgagttccc ctgctaccgc tggatcaccg gcgatgtcga 361 ggttgtcctg agggatggac gcgcaaagtt ggcccgagat gaccaaattc acattctcaa 421 gcaacaccga ctgaaagaac tggaaacacg gcaaaaacaa tatcgatgga tggagtggaa 481 ccctggcttc cccttgagca tcgatgccaa atgccacaag gatttacccc gtgatatcca 541 gtttgatagt gaaaaaggag tggactttgt tctgaattac tccaaagcga tggagaacct 601 gttcatcaac cgcttcatgc acatgttcca gtcttcttgg aatgacttcg ccgactttga 661 gaaaatcttt gtcaagatca gcaacactat ttctgagcgg gtcatgaatc actggcagga 721 agacctgatg tttggctacc agttcctgaa tggctgcaac cctgtgttga tccggcgctg 781 cacagagctg cccgagaagc tcccggtgac cacggagatg gtagagtgca gcctggagcg 841 gcagctcagc ttggagcagg aggtccagca agggaacatt ttcatcgtgg actttgagct 901 gctggatggc atcgatgcca acaaaacaga cccctgcaca ctccagttcc tggccgctcc 961 catctgcttg ctgtataaga acctggccaa caagattgtc cccattgcca tccagctcaa1021 ccaaatcccg ggagatgaga accctatttt cctcccttcg gatgcaaaat acgactggct1081 tttggccaaa atctgggtgc gttccagtga cttccacgtc caccagacca tcacccacct1141 tctgcgaaca catctggtgt ctgaggtttt tggcattgca atgtaccgcc agctgcctgc1201 tgtgcacccc attttcaagc tgctggtggc acacgtgaga ttcaccattg caatcaacac1261 caaggcccgt gagcagctca tctgcgagtg tggcctcttt gacaaggcca acgccacagg1321 gggcggtggg cacgtgcaga tggtgcagag ggccatgaag gacctgacct atgcctccct1381 gtgctttccc gaggccatca aggcccgggg catggagagc aaagaagaca tcccctacta1441 cttctaccgg gacgacgggc tcctggtgtg ggaagccatc aggacgttca cggccgaggt1501 ggtagacatc tactacgagg gcgaccaggt ggtggaggag gacccggagc tgcaggactt1561 cgtgaacgat gtctacgtgt acggcatgcg gggccgcaag tcctcaggct tccccaagtc1621 ggtcaagagc cgggagcagc tgtcggagta cctgaccgtg gtgatcttca ccgcctccgc1681 ccagcacgcc gcggtcaact tcggccagta cgactggtgc tcctggatcc ccaatgcgcc1741 cccaaccatg cgagccccgc caccgactgc caagggcgtg gtgaccattg agcagatcgt1801 ggacacgctg cccgaccgcg gccgctcctg ctggcatctg ggtgcagtgt gggcgctgag1861 ccagttccag gaaaacgagc tgttcctggg catgtaccca gaagagcatt ttatcgagaa1921 gcctgtgaag gaagccatgg cccgattccg caagaacctc gaggccattg tcagcgtgat1981 tgctgagcgc aacaagaaga agcagctgcc atattactac ttgtccccag accggattcc2041 gaacagtgtg gccatctgag cacactgcca gtctcactgt gggaaggcca gctgccccag2101 ccagatggac tccagcctgc ctggcaggtg tctggccagg cctcttggca gtcacatctc2161 ttcctccgag gccagtacct ttccatttat tctttgatct tcagggaact gcatagattg2221 atcaaagtgt aaacaccata gggacccatt ctacacagag caggactgca cagcgtcctg2281 tccacaccca gctcagcatt tccacaccaa gcagcaacag caaatcacga ccactgatag2341 atgtctattc ttgttggaga catgggatga ttattttctg ttctatttgt gcttagtcca2401 attccttgca catagtaggt acccaattca attactattg aatgaattaa gaattggttg2461 ccataaaaat aaatcagttc atttaaaaaa aaaaaaaaaa (2) SEQ ID NO: 2820 data: (i) sequence characteristics:

(A) length: 2484 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2820 sequence description: 1 gggcccggcg ctcgctgctc ccgcggcccg cgccatgccc tcctacacgg tcaccgtggc 61 cactggcagc cagtggttcg ccggcactga cgactacatc tacctcagcc tcgtgggctc 121 ggcgggctgc agcgagaagc acctgctgga caagcccttc tacaacgact tcgagcgtgg 181 721 agacctgatg tttggctacc agttcctgaa tggctgcaac cctgtgttga tccggcgctg 781 181 cgcggtggat tcatacgacg tgactgtgga cgaggaactg ggcgagatcc agctggtcag 241 aatcgagaag cgcaagtact ggctgaatga cgactggtac ctgaagtaca tcacgctgaa 301 gacgccccac ggggactaca tcgagttccc ctgctaccgc tggatcaccg gcgatgtcga 361 ggttgtcctg agggatggac gcgcaaagtt ggcccgagat gaccaaattc acattctcaa 421 gcaacaccga cgtaaagaac tggaaacacg gcaaaaacaa tatcgatgga tggagtggaa 481 ccctggcttc cccttgagca tcgatgccaa atgccacaag gatttacccc gtgatatcca 541 gtttgatagt gaaaaaggag tggactttgt tctgaattac tccaaagcga tggagaacct 601 gttcatcaac cgcttcatgc acatgttcca gtcttcttgg aatgacttcg ccgactttga 661 gaaaatcttt gtcaagatca gcaacactat ttctgagcgg gtcatgaatc actggcagga 721 agacctgatg tttggctacc agttcctgaa tggctgcaac cctgtgttga tccggcgctg 781 cacagagctg cccgagaagc tcccggtgac cacggagatg gtagagtgca gcctggagcg 841 gcagctcagc ttggagcagg aggtccagca agggaacatt ttcatcgtgg actttgagct 901 gctggatggc atcgatgcca acaaaacaga cccctgcaca ctccagttcc tggccgctcc 961 catctgcttg ctgtataaga acctggccaa caagattgtc cccattgcca tccagctcaa1021 ccaaatcccg ggagatgaga accctatttt cctcccttcg gatgcaaaat acgactggct1081 tttggccaaa atctgggtgc gttccagtga cttccacgtc caccagacca tcacccacct1141 tctgcgaaca catctggtgt ctgaggtttt tggcattgca atgtaccgcc agctgcctgc1201 tgtgcacccc attttcaagc tgctggtggc acacgtgaga ttcaccattg caatcaacac1261 caaggcccgt gagcagctca tctgcgagtg tggcctcttt gacaaggcca acgccacagg1321 gggcggtggg cacgtgcaga tggtgcagag ggccatgaag gacctgacct atgcctccct1381 gtgctttccc gaggccatca aggcccgggg catggagagc aaagaagaca tcccctacta1441 cttctaccgg gacgacgggc tcctggtgtg ggaagccatc aggacgttca cggccgaggt1501 ggtagacatc tactacgagg gcgaccaggt ggtggaggag gacccggagc tgcaggactt1561 cgtgaacgat gtctacgtgt acggcatgcg gggccgcaag tcctcaggct tccccaagtc1621 ggtcaagagc cgggagcagc tgtcggagta cctgaccgtg gtgatcttca ccgcctccgc1681 ccagcacgcc gcggtcaact tcggccagta cgactggtgc tcctggatcc ccaatgcgcc1741 cccaaccatg cgagccccgc caccgactgc caagggcgtg gtgaccattg agcagatcgt1801 ggacacgctg cccgaccgcg gccgctcctg ctggcatctg ggtgcagtgt gggcgctgag1861 ccagttccag gaaaacgagc tgttcctggg catgtaccca gaagagcatt ttatcgagaa1921 gcctgtgaag gaagccatgg cccgattccg caagaacctc gaggccattg tcagcgtgat1981 tgctgagcgc aacaagaaga agcagctgcc atattactac ttgtccccag accggattcc2041 gaacagtgtg gccatctgag cacactgcca gtctcactgt gggaaggcca gctgccccag2101 ccagatggac tccagcctgc ctggcaggtg tctggccagg cctcttggca gtcacatctc2161 ttcctccgag gccagtacct ttccatttat tctttgatct tcagggaact gcatagattg2221 atcaaagtgt aaacaccata gggacccatt ctacacagag caggactgca cagcgtcctg2281 tccacaccca gctcagcatt tccacaccaa gcagcaacag caaatcacga ccactgatag2341 atgtctattc ttgttggaga catgggatga ttattttctg ttctatttgt gcttagtcca2401 attccttgca catagtaggt acccaattca attactattg aatgaattaa gaattggttg2461 ccataaaaat aaatcagttc attt (2) SEQ ID NO: 2821 data: (i) sequence characteristics:

(A) length: 2497 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2821 sequence description: 1 gggcgccgag gctccccgcc gctcgctgct ccccggcccg cgccatgccc tcctacacgg 61 tcaccgtggc cactggcagc cagtggttcg ccggcactga cgactacatc tacctcagcc121 tcgtgggctc ggcgggctgc agcgagaagc acctgctgga caagcccttc tacaacgact181 721 actggcagga agacctgatg tttggctacc agttcctgaa tggctgcaac cctgtgttga 781 181 tcgagcgtgg cgcggtggat tcatacgacg tgactgtgga cgaggaactg ggcgagatcc241 agctggtcag aatcgagaag cgcaagtact ggctgaatga cgactggtac ctgaagtaca301 tcacgctgaa gacgccccac ggggactaca tcgagttccc ctgctaccgc tggatcaccg 361 gcgatgtcga ggttgtcctg agggatggac gcgcaaagtt ggcccgagat gaccaaattc 421 acattctcaa gcaacaccga cgtaaagaac tggaaacacg gcaaaaacaa tatcgatgga 481 tggagtggaa ccctggcttc cccttgagca tcgatgccaa atgccacaag gatttacccc 541 gtgatatcca gtttgatagt gaaaaaggag tggactttgt tctgaattac tccaaagcga 601 tggagaacct gttcatcaac cgcttcatgc acatgttcca gtcttcttgg aatgacttcg 661 ccgactttga gaaaatcttt gtcaagatca gcaacactat ttctgagcgg gtcatgaatc 721 actggcagga agacctgatg tttggctacc agttcctgaa tggctgcaac cctgtgttga 781 tccggcgctg cacagagctg cccgagaagc tcccggtgac cacggagatg gtagagtgca 841 gcctggagcg gcagctcagc ttggagcagg aggtccagca agggaacatt ttcatcgtgg 901 actttgagct gctggatggc atcgatgcca acaaaacaga cccctgcaca ctccagttcc 961 tggccgctcc catctgcttg ctgtataaga acctggccaa caagattgtc cccattgcca1021 tccagctcaa ccaaatcccg ggagatgaga accctatttt cctcccttcg gatgcaaaat1081 acgactggct tttggccaaa atctgggtgc gttccagtga cttccacgtc caccagacca1141 tcacccacct tctgcgaaca catctggtgt ctgaggtttt tggcattgca atgtaccgcc1201 agctgcctgc tgtgcacccc attttcaagc tgctggtggc acacgtgaga ttcaccattg1261 caatcaacac caaggcccgt gagcagctca tctgcgagtg tggcctcttt gacaaggcca1321 acgccacagg gggcggtggg cacgtgcaga tggtgcagag ggccatgaag gacctgacct1381 atgcctccct gtgctttccc gaggccatca aggcccgggg catggagagc aaagaagaca1441 tcccctacta cttctaccgg gacgacgggc tcctggtgtg ggaagccatc aggacgttca1501 cggccgaggt ggtagacatc tactacgagg gcgaccaggt ggtggaggag gacccggagc1561 tgcaggactt cgtgaacgat gtctacgtgt acggcatgcg gggccgcaag tcctcaggct1621 tccccaagtc ggtcaagagc cgggagcagc tgtcggagta cctgaccgtg gtgatcttca1681 ccgcctccgc ccagcacgcc gcggtcaact tcggccagta cgactggtgc tcctggatcc1741 ccaatgcgcc cccaaccatg cgagccccgc caccgactgc caagggcgtg gtgaccattg1801 agcagatcgt ggacacgctg cccgaccgcg gccgctcctg ctggcatctg ggtgcagtgt1861 gggcgctgag ccagttccag gaaaacgagc tgttcctggg catgtaccca gaagagcatt1921 ttatcgagaa gcctgtgaag gaagccatgg cccgattccg caagaacctc gaggccattg1981 tcagcgtgat tgctgagcgc aacaagaaga agcagctgcc atattactac ttgtccccag2041 accggattcc gaacagtgtg gccatctgag cacactgcca gtctcactgt gggaaggcca2101 gctgccccag ccagatggac tccagcctgc ctggcaggct gtctggccag gcctcttggc2161 agtcacatct cttcctccga ggccagtacc tttccattta ttctttgatc ttcagggaac2221 tgcatagatt gtatcaaagt gtaaacacca tagggaccca ttctacacag agcaggactg2281 cacaggcgtc ctgtccacac ccagctcagc atttccacac caagcagcaa cagcaaatca2341 cgaccactga tagatgtcta ttcttgttgg agacatggga tgattatttt ctgttctatt2401 tgtgcttagt ccaattcctt gcacatagta ggtacccaat tcaattacta ttgaatgaat2461 taagaattgg ttgccataaa aataaatcag ttcattt (2) SEQ ID NO: 2822 data: (i) sequence characteristics:

(A) length: 10151 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2822 sequence description: 1 cagctgtccc tccccactgc catttattcc ttccttcatt caaaccttat gtggctgcta 61 cttaccgtgt gttaagtgtt cacttttttt cttggaattc aaaaaaagaa ggacagtatt121 tggggcacag atcttttggt gttctataca tttttttaaa gtttcatttt acatttgtgt181 721 gcaggttgtg cagctggagg cagagcagtc ctctctgggg agcctgaagc aaacatggat781 181 gtgcgtgtgt gtgtgtgtgt gagacagtct tgctctgttg cccaggctgg agtgcagtgg241 cataatcatt ggctcactgt agcctcaaag tcctgggccc aagcgatctt cccacctcag301 ccacccaaaa tgctggggtt acaggtttat gccactctgt ctgacctgaa agttttgggt361 ttactttccc ttctttctct ttgctgaagt cagagatgat ggcagcttcc agattctctg421 gtgcctgtgc tgggctcgtg ctggtcatgg tcttgggtcc aggattcatt ctggagactc481 tcagggaagt ttcccatgac aaggaaatgt aggagagtgt gctggctttg cgtgctcctc541 tgccaagccc tgcttctcct ggtgggacac actgaaccac agccagggca ttttggtggt601 tagttaaaaa aaaaaaaaaa aaaaaaaagg aagaagaagg cactgtgtaa ttgtgccggg661 gatcttcaga aattgtaatg atgaaagagt gcaagctctc acttcccctt cctgtacagg721 gcaggttgtg cagctggagg cagagcagtc ctctctgggg agcctgaagc aaacatggat781 caagaaactg taggcaatgt tgtcctgttg gccatcgtca ccctcatcag cgtggtccag 841 aatggtaagg aaagcccttc actcagggaa gaacagaagg ggagattttc tttgatggtt 901gtttggaagt caggcttaaa caattgtgtc tgtgtgtgcg catgcacaaa cacttttacc 961 ttatctttat tttcttcttt ttatttgaat gtatagggtt gtgtgtattt ctgtgtaaat1021 ttggggtttt cctcctctta gtctttcact tttgtggtga ttaccagtcc catttttaga1081 gccagggctg caacttgaag gttttgcttg cgttttgggg gttcctggag tatcaatctg 1 cgttttgggg gttcctggag tatcaatcat ggatcaagaa actgtaggca atgttgtcct 61 gttggccatc gtcaccctca tcagcgtggt ccagaatgga ttctttgccc ataaagtgga 121 gcacgaaagc aggacccaga atgggaggag cttccagagg accggaacac ttgcctttga 181 gcgggtctac actgccaacc agaactgtgt agatgcgtac cccactttcc tcgctgtgct 241 ctggtctgcg gggctacttt gcagccaagt tcctgctgcg tttgctggac tgatgtactt 301 gtttgtgcgg caaaagtact ttgtcggtta cctaggagag agaacgcaga gcacccctgg 361 ctacatattt gggaaacgca tcatactctt cctgttcctc atgtccgttg ctggcatatt 421 caactattac ctcatcttct ttttcggaag tgactttgaa aactacataa agacgatctc 481 caccaccatc tcccctctac ttctcatttc ctaactctct gctgaatatg gggttggtat 1 gccctcctac acggtcaccg tggccactgg cagccagtgg ttcgccggca ctgacgacta 61 catctacctc agcctcgtgg gctcggcggg ctgcagcgag aagcacctgc tggacaagcc 121 cttctacaac gacttcgagc gtggcgcggt ggattcatac gacgtgactg tggacgagga 181 actgggcgag atccagctgg tcagaatcga gaagcgcaag tactggctga atgacgactg 241 gtacctgaag tacatcacgc tgaagacgcc ccacggggac tacatcgagt tcccctgcta 301 ccgctggatc accggcgatg tcgaggttgt cctgagggat ggacgcgcaa agttggcccg 361 agatgaccaa attcacattc tcaagcaaca ccgacgtaaa gaactggaaa cacggcaaaa 421 acaatatcga tggatggagt ggaaccctgg cttccccttg agcatcgatg ccaaatgcca 481 caaggattta ccccgtgata tccagtttga tagtgaaaaa ggagtggact ttgttctgaa 541 ttactccaaa gcgatggaga acctgttcat caaccgcttc atgcacatgt tccagtcttc 601 ttggaatgac ttcgccgact ttgagaaaat ctttgtcaag atcagcaaca ctatttctga 661 gcgggtcatg aatcactggc aggaagacct gatgtttggc taccagttcc tgaatggctg 721 781 721 caaccctgtg ttgatccggc gctgcacaga gctgcccgag aagctcccgg tgaccacgga 781 gatggtagag tgcagcctgg agcggcagct cagcttggag caggaggtcc agcaagggaa 841 cattttcatc gtggactttg agctgctgga tggcatcgat gccaacaaaa cagacccctg 901 cacactccag ttcctggccg ctcccatctg cttgctgtat aagaacctgg ccaacaagat 961 8651 961 tgtccccatt gccatccagc tcaaccaaat cccgggagat gagaacccta ttttcctccc1021 ttcggatgca aaatacgact ggcttttggc caaaatctgg gtgcgttcca gtgacttcca1081 cgtccaccag accatcaccc accttctgcg aacacatctg gtgtctgagg tttttggcat1141 tgcaatgtac cgccagctgc ctgctgtgca ccccattttc aagctgctgg tggcacacgt1201 gagattcacc attgcaatca acaccaaggc ccgtgagcag ctcatctgcg agtgtggcct1261 ctttgacaag gccaacgcca cagggggcgg tgggcacgtg cagatggtgc agagggccat1321 gaaggacctg acctatgcct ccctgtgctt tcccgaggcc atcaaggccc ggggcatgga1381 gagcaaagaa gacatcccct actacttcta ccgggacgac gggctcctgg tgtgggaagc1441 catcaggacg ttcacggccg aggtggtaga catctactac gagggcgacc aggtggtgga1501 ggaggacccg gagctgcagg acttcgtgaa cgatgtctac gtgtacggca tgcggggccg1561 caagtcctca ggcttcccca agtcggtcaa gagccgggag cagctgtcgg agtacctgac1621 cgtggtgatc ttcaccgcct ccgcccagca cgccgcggtc aacttcggcc agtacgactg1681 gtgctcctgg atccccaatg cgcccccaac catgcgagcc ccgccaccga ctgccaaggg1741 cgtggtgacc attgagcaga tcgtggacac gctgcccgac cgcggccgct cctgctggca1801 tctgggtgca gtgtgggcgc tgagccagtt ccaggaaaac gagctgttcc tgggcatgta1861 cccagaagag cattttatcg agaagcctgt gaaggaagcc atggcccgat tccgcaagaa1921 192 1921 cctcgaggcc attgtcagcg tgattgctga gcgcaacaag aagaagcagc tgccatatta1981 ctacttgtcc ccagaccgga ttccgaacag tgtggccatc gggcccggcg ctcgctgctc 1 ccgcggcccg cgccatgccc tcctacacgg tcaccgtggc cactggcagc cagtggttcg 61 ccggcactga cgactacatc tacctcagcc tcgtgggctc ggcgggctgc agcgagaagc 121 39121 121 acctgctgga caagcccttc tacaacgact tcgagcgtgg cgcggtggat tcatacgacg 181 tgactgtgga cgaggaactg ggcgagatcc agctggtcag aatcgagaag cgcaagtact 241 ggctgaatga cgactggtac ctgaagtaca tcacgctgaa gacgccccac ggggactaca 301 tcgagttccc ctgctaccgc tggatcaccg gcgatgtcga ggttgtcctg agggatggac 361 gcgcaaagtt ggcccgagat gaccaaattc acattctcaa gcaacaccga ctgaaagaac 421 tggaaacacg gcaaaaacaa tatcgatgga tggagtggaa ccctggcttc cccttgagca 481 tcgatgccaa atgccacaag gatttacccc gtgatatcca gtttgatagt gaaaaaggag 541 tggactttgt tctgaattac tccaaagcga tggagaacct gttcatcaac cgcttcatgc 601 acatgttcca gtcttcttgg aatgacttcg ccgactttga gaaaatcttt gtcaagatca 661 gcaacactat ttctgagcgg gtcatgaatc actggcagga agacctgatg tttggctacc 721 agttcctgaa tggctgcaac cctgtgttga tccggcgctg cacagagctg cccgagaagc 781 tcccggtgac cacggagatg gtagagtgca gcctggagcg gcagctcagc ttggagcagg 841 aggtccagca agggaacatt ttcatcgtgg actttgagct gctggatggc atcgatgcca 901 acaaaacaga cccctgcaca ctccagttcc tggccgctcc catctgcttg ctgtataaga 961 acctggccaa caagattgtc cccattgcca tccagctcaa ccaaatcccg ggagatgaga1021 accctatttt cctcccttcg gatgcaaaat acgactggct tttggccaaa atctgggtgc1081 gttccagtga cttccacgtc caccagacca tcacccacct tctgcgaaca catctggtgt1141 ctgaggtttt tggcattgca atgtaccgcc agctgcctgc tgtgcacccc attttcaagc1201 tgctggtggc acacgtgaga ttcaccattg caatcaacac caaggcccgt gagcagctca1261 tctgcgagtg tggcctcttt gacaaggcca acgccacagg gggcggtggg cacgtgcaga1321 tggtgcagag ggccatgaag gacctgacct atgcctccct gtgctttccc gaggccatca1381 aggcccgggg catggagagc aaagaagaca tcccctacta cttctaccgg gacgacgggc1441 tcctggtgtg ggaagccatc aggacgttca cggccgaggt ggtagacatc tactacgagg1501 gcgaccaggt ggtggaggag gacccggagc tgcaggactt cgtgaacgat gtctacgtgt1561 acggcatgcg gggccgcaag tcctcaggct tccccaagtc ggtcaagagc cgggagcagc1621 tgtcggagta cctgaccgtg gtgatcttca ccgcctccgc ccagcacgcc gcggtcaact1681 tcggccagta cgactggtgc tcctggatcc ccaatgcgcc cccaaccatg cgagccccgc1741 caccgactgc caagggcgtg gtgaccattg agcagatcgt ggacacgctg cccgaccgcg1801 gccgctcctg ctggcatctg ggtgcagtgt gggcgctgag ccagttccag gaaaacgagc1861 tgttcctggg catgtaccca gaagagcatt ttatcgagaa gcctgtgaag gaagccatgg1921 cccgattccg caagaacctc gaggccattg tcagcgtgat tgctgagcgc aacaagaaga1981 agcagctgcc atattactac ttgtccccag accggattcc gaacagtgtg gccatctgag2041 cacactgcca gtctcactgt gggaaggcca gctgccccag ccagatggac tccagcctgc2101 ctggcaggtg tctggccagg cctcttggca gtcacatctc ttcctccgag gccagtacct2161 ttccatttat tctttgatct tcagggaact gcatagattg atcaaagtgt aaacaccata2221 gggacccatt ctacacagag caggactgca cagcgtcctg tccacaccca gctcagcatt2281 tccacaccaa gcagcaacag caaatcacga ccactgatag atgtctattc ttgttggaga2341 catgggatga ttattttctg ttctatttgt gcttagtcca attccttgca catagtaggt2401 acccaattca attactattg aatgaattaa gaattggttg ccataaaaat aaatcagttc2461 atttaaaaaa aaaaaaaaaa gggcccggcg ctcgctgctc ccgcggcccg cgccatgccc 1 tcctacacgg tcaccgtggc cactggcagc cagtggttcg ccggcactga cgactacatc 61 tacctcagcc tcgtgggctc ggcgggctgc agcgagaagc acctgctgga caagcccttc 121 tacaacgact tcgagcgtgg cgcggtggat tcatacgacg tgactgtgga cgaggaactg 181 ggcgagatcc agctggtcag aatcgagaag cgcaagtact ggctgaatga cgactggtac 241 ctgaagtaca tcacgctgaa gacgccccac ggggactaca tcgagttccc ctgctaccgc 301 tggatcaccg gcgatgtcga ggttgtcctg agggatggac gcgcaaagtt ggcccgagat 361 gaccaaattc acattctcaa gcaacaccga cgtaaagaac tggaaacacg gcaaaaacaa 421 tatcgatgga tggagtggaa ccctggcttc cccttgagca tcgatgccaa atgccacaag 481 gatttacccc gtgatatcca gtttgatagt gaaaaaggag tggactttgt tctgaattac 541 tccaaagcga tggagaacct gttcatcaac cgcttcatgc acatgttcca gtcttcttgg 601 aatgacttcg ccgactttga gaaaatcttt gtcaagatca gcaacactat ttctgagcgg 661 gtcatgaatc actggcagga agacctgatg tttggctacc agttcctgaa tggctgcaac 721 cctgtgttga tccggcgctg cacagagctg cccgagaagc tcccggtgac cacggagatg 781 gtagagtgca gcctggagcg gcagctcagc ttggagcagg aggtccagca agggaacatt 841 ttcatcgtgg actttgagct gctggatggc atcgatgcca acaaaacaga cccctgcaca 901 ctccagttcc tggccgctcc catctgcttg ctgtataaga acctggccaa caagattgtc 961 cccattgcca tccagctcaa ccaaatcccg ggagatgaga accctatttt cctcccttcg1021 gatgcaaaat acgactggct tttggccaaa atctgggtgc gttccagtga cttccacgtc1081 caccagacca tcacccacct tctgcgaaca catctggtgt ctgaggtttt tggcattgca1141 atgtaccgcc agctgcctgc tgtgcacccc attttcaagc tgctggtggc acacgtgaga1201 ttcaccattg caatcaacac caaggcccgt gagcagctca tctgcgagtg tggcctcttt1261 gacaaggcca acgccacagg gggcggtggg cacgtgcaga tggtgcagag ggccatgaag1321 gacctgacct atgcctccct gtgctttccc gaggccatca aggcccgggg catggagagc1381 aaagaagaca tcccctacta cttctaccgg gacgacgggc tcctggtgtg ggaagccatc1441 aggacgttca cggccgaggt ggtagacatc tactacgagg gcgaccaggt ggtggaggag1501 gacccggagc tgcaggactt cgtgaacgat gtctacgtgt acggcatgcg gggccgcaag1561 tcctcaggct tccccaagtc ggtcaagagc cgggagcagc tgtcggagta cctgaccgtg1621 gtgatcttca ccgcctccgc ccagcacgcc gcggtcaact tcggccagta cgactggtgc1681 tcctggatcc ccaatgcgcc cccaaccatg cgagccccgc caccgactgc caagggcgtg1741 gtgaccattg agcagatcgt ggacacgctg cccgaccgcg gccgctcctg ctggcatctg1801 ggtgcagtgt gggcgctgag ccagttccag gaaaacgagc tgttcctggg catgtaccca1861 gaagagcatt ttatcgagaa gcctgtgaag gaagccatgg cccgattccg caagaacctc1921 gaggccattg tcagcgtgat tgctgagcgc aacaagaaga agcagctgcc atattactac1981 ttgtccccag accggattcc gaacagtgtg gccatctgag cacactgcca gtctcactgt2041 gggaaggcca gctgccccag ccagatggac tccagcctgc ctggcaggtg tctggccagg2101 cctcttggca gtcacatctc ttcctccgag gccagtacct ttccatttat tctttgatct2161 tcagggaact gcatagattg atcaaagtgt aaacaccata gggacccatt ctacacagag2221 caggactgca cagcgtcctg tccacaccca gctcagcatt tccacaccaa gcagcaacag2281 caaatcacga ccactgatag atgtctattc ttgttggaga catgggatga ttattttctg2341 ttctatttgt gcttagtcca attccttgca catagtaggt acccaattca attactattg2401 aatgaattaa gaattggttg ccataaaaat aaatcagttc atttgggcgc cgaggctccc 1 cgccgctcgc tgctccccgg cccgcgccat gccctcctac acggtcaccg tggccactgg 61 cagccagtgg ttcgccggca ctgacgacta catctacctc agcctcgtgg gctcggcggg 121 ctgcagcgag aagcacctgc tggacaagcc cttctacaac gacttcgagc gtggcgcggt 181 ggattcatac gacgtgactg tggacgagga actgggcgag atccagctgg tcagaatcga 241 gaagcgcaag tactggctga atgacgactg gtacctgaag tacatcacgc tgaagacgcc 301 ccacggggac tacatcgagt tcccctgcta ccgctggatc accggcgatg tcgaggttgt 361 cctgagggat ggacgcgcaa agttggcccg agatgaccaa attcacattc tcaagcaaca 421 ccgacgtaaa gaactggaaa cacggcaaaa acaatatcga tggatggagt ggaaccctgg 481 cttccccttg agcatcgatg ccaaatgcca caaggattta ccccgtgata tccagtttga 541 tagtgaaaaa ggagtggact ttgttctgaa ttactccaaa gcgatggaga acctgttcat 601 caaccgcttc atgcacatgt tccagtcttc ttggaatgac ttcgccgact ttgagaaaat 661 ctttgtcaag atcagcaaca ctatttctga gcgggtcatg aatcactggc aggaagacct 721 gatgtttggc taccagttcc tgaatggctg caaccctgtg ttgatccggc gctgcacaga 781 gctgcccgag aagctcccgg tgaccacgga gatggtagag tgcagcctgg agcggcagct 841 cagcttggag caggaggtcc agcaagggaa cattttcatc gtggactttg agctgctgga 901 tggcatcgat gccaacaaaa cagacccctg cacactccag ttcctggccg ctcccatctg 961 cttgctgtat aagaacctgg ccaacaagat tgtccccatt gccatccagc tcaaccaaat1021 cccgggagat gagaacccta ttttcctccc ttcggatgca aaatacgact ggcttttggc1081 caaaatctgg gtgcgttcca gtgacttcca cgtccaccag accatcaccc accttctgcg1141 aacacatctg gtgtctgagg tttttggcat tgcaatgtac cgccagctgc ctgctgtgca1201 ccccattttc aagctgctgg tggcacacgt gagattcacc attgcaatca acaccaaggc1261 ccgtgagcag ctcatctgcg agtgtggcct ctttgacaag gccaacgcca cagggggcgg1321 tgggcacgtg cagatggtgc agagggccat gaaggacctg acctatgcct ccctgtgctt1381 tcccgaggcc atcaaggccc ggggcatgga gagcaaagaa gacatcccct actacttcta1441 ccgggacgac gggctcctgg tgtgggaagc catcaggacg ttcacggccg aggtggtaga1501 catctactac gagggcgacc aggtggtgga ggaggacccg gagctgcagg acttcgtgaa1561 cgatgtctac gtgtacggca tgcggggccg caagtcctca ggcttcccca agtcggtcaa1621 gagccgggag cagctgtcgg agtacctgac cgtggtgatc ttcaccgcct ccgcccagca1681 cgccgcggtc aacttcggcc agtacgactg gtgctcctgg atccccaatg cgcccccaac1741 539 1741 catgcgagcc ccgccaccga ctgccaaggg cgtggtgacc attgagcaga tcgtggacac1801 gctgcccgac cgcggccgct cctgctggca tctgggtgca gtgtgggcgc tgagccagtt1861 ccaggaaaac gagctgttcc tgggcatgta cccagaagag cattttatcg agaagcctgt1921 gaaggaagcc atggcccgat tccgcaagaa cctcgaggcc attgtcagcg tgattgctga1981 gcgcaacaag aagaagcagc tgccatatta ctacttgtcc ccagaccgga ttccgaacag2041 tgtggccatc tgagcacact gccagtctca ctgtgggaag gccagctgcc ccagccagat2101 ggactccagc ctgcctggca ggctgtctgg ccaggcctct tggcagtcac atctcttcct2161 ccgaggccag tacctttcca tttattcttt gatcttcagg gaactgcata gattgtatca2221 aagtgtaaac accataggga cccattctac acagagcagg actgcacagg cgtcctgtcc2281 acacccagct cagcatttcc acaccaagca gcaacagcaa atcacgacca ctgatagatg2341 tctattcttg ttggagacat gggatgatta ttttctgttc tatttgtgct tagtccaatt2401 ccttgcacat agtaggtacc caattcaatt actattgaat gaattaagaa ttggttgcca2461 taaaaataaa tcagttcatt t (2) SEQ ID NO: 2823 data: (i) sequence characteristics:

(A) length: 2383 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2823 sequence description: 1 ggcacgaggc tggctgagcc atgatgctgc tgccagaacc cctgcagagg gcctggtttc 61 aggagactca gagtcctctg tgaaaaagcc cttggagagg cgccccagca gggctgcact 121 tggctcctgt gaggaagggg ctcagggtct gggcccctcc gcctgggccg ggctgggagc 181 721 aaccactccc agggctgcgg ggagggccaa gtggcctgtc tctttgagga tgtggtcccc 781 181 caggcgggcg gctgggctgc agcaatggac cgtgagctgg cccagcccgc gtccgtgctg 241 agcctgcctg tcgtctgtgg ccatgccatc atgggctcct cggtgtacat cacggtggag 301 ctggccattg ctgtgctggc catcctgggc aatgtgctgg tgtgctgggc cgtgtggctc 361 aacagcaacc tgcagaacgt caccaactac tttgtggtgt cactggcggc ggccgacatc 421 gcagtgggtg tgctcgccat cccctttgcc atcaccatca gcaccgggtt ctgcgctgcc 481 tgccacggct gcctcttcat tgcctgcttc gtcctggtcc tcacgcagag ctccatcttc 541 agtctcctgg ccatcgccat tgaccgctac attgccatcc gcatcccgct ccggtacaat 601 ggcttggtga ccggcacgag ggctaagggc atcattgcca tctgctgggt gctgtcgttt 661 gccatcggcc tgactcccat gctaggttgg aacaactgcg gtcagccaaa ggagggcaag 721 aaccactccc agggctgcgg ggagggccaa gtggcctgtc tctttgagga tgtggtcccc 781 atgaactaca tggtgtactt caacttcttt gcctgtgtgc tggtgcccct gctgctcatg 841 ctgggtgtct atttgcggat cttcctggcg gcgcgacgac agctgaagca gatggagagc 901 cagcctctgc cgggggagcg ggcacggtcc acactgcaga aggaggtcca tgctgccaag 961 tcactggcca tcattgtggg gctctttgcc ctctgctggc tgcccctaca catcatcaac1021 tgcttcactt tcttctgccc cgactgcagc cacgcccctc tctggctcat gtacctggcc1081 atcgtcctct cccacaccaa ttcggttgtg aatcccttca tctacgccta ccgtatccgc1141 gagttccgcc agaccttccg caagatcatt cgcagccacg tcctgaggca gcaagaacct1201 ttcaaggcag ctggcaccag tgcccgggtc ttggcagctc atggcagtga cggagagcag1261 gtcagcctcc gtctcaacgg ccacccgcca ggagtgtggg ccaacggcag tgctccccac1321 cctgagcgga ggcccaatgg ctatgccctg gggctggtga gtggagggag tgcccaagag1381 tcccagggga acacgggcct cccagacgtg gagctcctta gccatgagct caagggagtg1441 tgcccagagc cccctggcct agatgacccc ctggcccagg atggagcagg agtgtcctga1501 tgattcatgg agtttgcccc ttcctaaggg aaggagatct ttatctttct ggttggcttg1561 accagtcacg ttgggagaag agagagagtg ccaggagacc ctgagggcag ccggttccta1621 ctttggactg agagaaggga gccccaggct ggagcagcat gaggcccagc aagaagggct1681 tgggttctga ggaagcagat gtttcatgct gtgaggcctt gcaccaggtg ggggccacag1741 caccagcagc atctttgctg ggcagggccc agccctccac tgcagaagca tctggaagca1801 ccaccttgtc tccacagagc agcttgggca cagcagactg gcctggccct gagactgggg1861 agtggctcca acagcctcct gccacccaca caccactctc cctagactct cctagggttc1921 aggagctgct gggcccagag gtgacatttg acttttttcc aggaaaaatg taagtgtgag1981 gaaacccttt ttattttatt acctttcact ctctggctgc tgggtctgcc gtcggtcctg2041 ctgctaacct ggcaccagag cctctgccgg ggagcctcag gcagtcctct cctgctgtca2101 cagctgccat ccacttctca gtcccagggc catctcttgg agtgacaaag ctgggatcaa2161 ggacagggag ttgtaacaga gcagtgccag agcatgggcc caggtcccag gggagaggtt2221 ggggctggca ggccactggc atgtgctgag tagcgcagag ctacccagtg agaggccttg2281 tctaactgcc tttccttcta aagggaatgt ttttttctga gataaaataa aaacgagcca2341 catcgtgttt taagcttgtc caaatgaaaa aaaaaaaaaa aaa (2) SEQ ID NO: 2824 data:

(i) sequence characteristics:

(A) length: 2988 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2824 sequence description: 1 catcaccttt ttttaagtag taagaataaa gccactgtat gattctctta atagctatac 61 attaatcctg tttttagtgc tgactgggcc agccttccgg gaactggagt ctgtctcttt 121 cagtgctttt ttgttttttg ttggtttttt cgagacgggg tcgatcacgg ctcaccacag 181 721 cccttggaga gcgccccagc agggctgcac ttggctcctg tgaggaaggg gctcaggggt 781 181 ccttaacctc cagggctcca gcaatcctcc cacctcagcc tcctgagtag ctgggaccac 241 aggtgtgtgc caccatctcc agcagtttgt ttatttattt tttctttttt tttttttggt 301 agaaatgggc ttttcgccca tgttgcccaa gctggtcttg cacttctggg ctgaagcaat 361 cctctcgcct tggcctccca gagccttggg attacagaat catgggtgag agctggcatg 421 gcccctagag gtcatttggg gtccagctgc ctcaccgtat caatgaggaa actgaggccc 481 agaaaagaaa agcatttttg cccagagtcc ctcagaaaaa aacagaccac atctgatcct 541 tggccctgag tccagagtgg gaggcaccgt gacaacaatg cgcagagcag ggaatgcagg 601 gagccatgga tagtgctggg gtgcctcagg aaccctgaag ctgggctgag ccatgatgct 661 gctgccagaa cccctgcaga gggcctggtt tcaggagact cagagtcctc tgtgaaaaag 721 cccttggaga gcgccccagc agggctgcac ttggctcctg tgaggaaggg gctcaggggt 781 ctgggcccct ccgcctgggc cgggctggga gccaggcggg cggctgggct gcagcaatgg 841 accgtgagct ggcccagccc gcgtccgtgc tgagcctgcc tgtcgtctgt ggcatgccca 901 tcatgggctc ctcggtgtac atcacggtgg agctggccat tgctgtgctg gccatcctgg 961 gcaatgtgct ggtgtgctgg gccgtgtggc tcaacagcaa cctgcagaac gtcaccaact1021 actttgtggt gtcactggcg gcggccgaca tcgcagtggg tgtgctcgcc atcccctttg1081 ccatcaccat cagcaccggg ttctgcgctg cctgccacgg ctgcctcttc attgcctgct1141 tcgtcctggt cctcacgcag agctccatct tcagtctcct ggccatcgcc attgaccgct1201 acattgccat ccgcatcccg ctccggtaca atggcttggt gaccggcacg agggctaagg1261 gcatcattgc catctgctgg gtgctgtcgt ttgccatcgg cctgactccc atgctaggtt1321 ggaacaactg cggtcagcca aaggagggca agaaccactc ccagggctgc ggggagggcc1381 aagtggcctg tctctttgag gatgtggtcc ccatgaacta catggtgtac ttcaacttct1441 ttgcctgtgt gctggtgccc ctgctgctca tgctgggtgt ctatttgcgg atcttcctgg1501 cggcgcgacg acagctgaag cagatggaga gccagcctct gccgggggag cgggcacggt1561 ccacactgca gaaggaggtc catgctgcca agtcactggc catcattgtg gggctctttg1621 ccctctgctg gctgccccta cacatcatca actgcttcac tttcttctgc cccgactgca1681 gccacgcccc tctctggctc atgtacctgg ccatcgtcct ctcccacacc aattcggttg1741 tgaatccctt catctacgcc taccgtatcc gcgagttccg ccagaccttc cgcaagatca1801 ttcgcagcca cgtcctgagg cagcaagaac ctttcaaggc agctggcacc agtgcccggg1861 tcttggcagc tcatggcagt gacggagagc aggtcagcct ccgtctcaac ggccacccgc1921 caggagtgtg ggccaacggc agtgctcccc accctgagcg gaggcccaat ggctatgccc1981 tggggctggt gagtggaggg agtgcccaag agtcccaggg gaacacgggc ctcccagacg2041 tggagctcct tagccatgag ctcaagggag tgtgcccaga gccccctggc ctagatgacc2101 ccctggccca ggatggagca ggagtgtcct gatgattcat ggagtttgcc ccttcctaag2161 ggaaggagat ctttatcttt ctggttggct tgaccagtca cgttgggaga agagagagag2221 tgccaggaga ccctgagggc agccggttcc tactttggac tgagagaagg gagccccagg2281ctggagcagc atgaggccca gcaagaaggg cttgggttct gaggaagcag atgtttcatg2341 ctgtgaggcc ttgcaccagg tgggggccac agcaccagca gcagcatctt tctgggcagg2401 cccagccctc cactgcagaa gcatctggaa gcaccacctt gtctccacag agcagcttgg2461 gcacagcaga ctggcctggc cctgagactg gggagtggct ccaacagcct cctgccaccc2521 acacaccact ctccctagac tctcctaggg ttcaggagct gctgggccca gaggtgacat2581 ttgacttttt tccaggaaaa atgtaagtgt gaggaaaccc cttttatttt attacctttc2641 actctctggc tgctgggtct gccgtcggtc ctgctgctaa cctggcagca gagcctctgc2701 ccggggagcc tcaggcagtc ctctcctgct gtcacagctg ccatccactt ctcagtccca2761 27 2761 gggccatctc ttggagtgac aaagctggga tcaaggacag ggagttgtaa cagagcagtg2821 ccagagcatg ggcccaggtc ccaggggaga ggttggggct ggcaggccac tggcatgtgc2881 tgagtagcgc agagctaccc agtgagaggc cttgtctaac tgcctttcct tctaaaggga2941 atgttttttt ctgagataaa ataaaaacga gccacatcgt gttttaag (2) SEQ ID NO: 2825 data: (i) sequence characteristics:

(A) length: 2156 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2825 sequence description: 1 ggcacgagcc cagaaacaaa gacttcacgg acaaagtccc ttggaaccag agagaagccg 61 ggatggaaac tccaaacacc acagaggact atgacacgac cacagagttt gactatgggg 121 atgcaactcc gtgccagaag gtgaacgaga gggcctttgg ggcccaactg ctgccccctc 181 721 cagggattat aaagattctg ctaagacgac caaatgagaa gaaatccaaa gctgtccgtt 781 181 tgtactcctt ggtatttgtc attggcctgg ttggaaacat cctggtggtc ctggtccttg 241 tgcaatacaa gaggctaaaa aacatgacca gcatctacct cctgaacctg gccatttctg 301 acctgctctt cctgttcacg cttcccttct ggatcgacta caagttgaag gatgactggg 361 tttttggtga tgccatgtgt aagatcctct ctgggtttta ttacacaggc ttgtacagcg 421 agatcttttt catcatcctg ctgacgattg acaggtacct ggccatcgtc cacgccgtgt 481 ttgccttgcg ggcacggacc gtcacttttg gtgtcatcac cagcatcatc atttgggccc 541 tggccatctt ggcttccatg ccaggcttat acttttccaa gacccaatgg gaattcactc 601 accacacctg cagccttcac tttcctcacg aaagcctacg agagtggaag ctgtttcagg 661 ctctgaaact gaacctcttt gggctggtat tgcctttgtt ggtcatgatc atctgctaca 721 cagggattat aaagattctg ctaagacgac caaatgagaa gaaatccaaa gctgtccgtt 781 tgatttttgt catcatgatc atcttttttc tcttttggac cccctacaat ttgactatac 841 ttatttctgt tttccaagac ttcctgttca cccatgagtg tgagcagagc agacatttgg 901 acctggctgt gcaagtgacg gaggtgatcg cctacacgca ctgctgtgtc aacccagtga 961 tctacgcctt cgttggtgag aggttccgga agtacctgcg gcagttgttc cacaggcgtg1021 tggctgtgca cctggttaaa tggctcccct tcctctccgt ggacaggctg gagagggtca1081 gctccacatc tccctccaca ggggagcatg aactctctgc tgggttctga ctcagaccat1141 aggaggccaa cccaaaataa gcaggcgtga cctgccaggc acactgagcc agcagcctgg1201 ctctcccagc caggttctga ctcttggcac agcatggagt cacagccact tgggatagag1261 agggaatgta atggtggcct ggggcttctg aggcttctgg ggcttcagtc ttttccatga1321 acttctcccc tggtagaaag aagatgaatg agcaaaacca aatattccag agactgggac1381 taagtgtacc agagaagggc ttggactcaa gcaagatttc agatttgtga ccattagcat1441 ttgtcaacaa agtcacccac ttcccactat tgcttgcaca aaccaattaa acccagtagt1501 ggtgactgtg ggctccattc aaagtgagct cctaagccat gggagacact gatgtatgag1561 gaatttctgt tcttccatca cctccccccc cccgccaccc tcccactgcc aagaacttgg1621 aaatagtgat ttccacagtg actccactct gagtcccaga gccaatcagt agccagcatc1681 tgcctcccct tcactcccac cgcaggattt gggctcttgg aatcctgggg aacatagaac1741 tcatgacgga agagttgaga cctaacgaga aatagaaatg ggggaactac tgctggcagt1801 ggaactaaga aagcccttag gaagaatttt tatatccact aaaatcaaac aattcaggga1861 gtgggctaag cacgggccat atgaataaca tggtgtgctt cttaaaatag ccataaaggg1921 gagggactca tcatttccat ttacccttct tttctgacta tttttcagaa tctctcttct1981 tttcaagttg ggtgatatgt tggtagattc taatggcttt attgcagcga ttaataacag2041 gcaaaaggaa gcagggttgg tttcccttct ttttgttctt catctaagcc ttctggtttt2101 atgggtcaga gttccgactg ccatcttgga cttgtcagca aaaaaaaaaa aaaaaa (2) SEQ ID NO: 2826 data: (i) sequence characteristics:

(A) length: 949 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2826 sequence description: 1 agaagctttt gctcctggga ttaggttgat gggcctctaa tgtcaccagt gaaatgggat 61 attagatatt ttccagctag gatacgacag ctcccaataa aaccaaatta ctaagccttt121 tctgcaagca aggagccgtc tggaacataa ggactttaac cttgggtagg agacaggcaa181 gcagaagtct tcaattgtgt cacaattttc actgaggact caagtgacct aagaaagtaa241 ttgtgattgt cagagccttg ttcttccttt tctttctcca gccgcacgct tcacctactc301 aggagagtgc ctacgcaatc tgacttgaca gcttctagaa agaaattaga gcaacagggg361 tctcagcagg gtggtcttgg gccaaacact gaaagcaggc aggcttaccc tttcctcttc421 tgcccccttc aactttttcc tgatgttctt acccacatcc ctcaccacac cacacccttt481 cattcatcct tgtcccagac ttattaagta tatacagata agcaatccag ggaacttgca541 ttcattagga gaaacccaga aattcaaaag caataatgat ctaatcccag aggagtagaa601 aacaggaagt gggcagctgc cagctttctt gctttgctgg agtattctgg aatttgatgg661 gttgagggtt ctggacacaa tgccccaagc cccttccttg ttgtgctggg ttcctatttc721 tgctctcggc actgacttag cagctgctca agagctcact atgttggctt ggattacact781 ggtctcaccc acatctccgg cagtttgtgg gcaaacctcc tgagcagcct tgggtgatga841 aacctttcat ggtagcagga gaatgggact gtgaattctc aatcccctgt ccccacccct901 tccttcctct ctcagggcct taaagtctag gaggaggaag cacagcagc (2) SEQ ID NO: 2827 data: (i) sequence characteristics:

(A) length: 3734 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2827 sequence description: 1 cttgctttgc tggagtattc tggtaatttg atgggttgag ggttctggac acaatgcccc 61 aagccccttc cttgttgtgc tgggttccta tttctgctct cggcactgac ttagcagctg 121 ctcaagagct cactatgttg gcttggatta cacggtctca cccacatctc cggcagtttg 181 721 catgtctaga tttttaaaca ccagtcccac gtggtcttga attggactca gagggctctg 781 181 tgggcaaacc tcctgagcag ccttgggtga tgaaaccttt catggtagca ggagaatggg 241 actgtgaatt ctcaatcccc tgtccccacc ccttccttcc tctctcaggg ccttaaagtc 301 taggaggagg aagcacagca gcaactgact gggcagcctt tcaggaaaga tgcagccact 361 cctgcttctg ctggcctttc tcctacccac tggggctgag gcaggtgagt gaccatcccc 421 accctcagag gcctgacctc atcccataga ttcttgagcc aaattgcctt ggtatatcct 481 aattctgtac tgttgagcaa gttatttgaa tttgtgtttc ctcatctata aaatgagaat 541 aatattaata ccgatcttgc agagttgcca tgagagttaa ataagttaga gtatttaaat 601 gtcttggaat tgcccgcaca ctataagtgc tataaaaaca tgctttgtgt aaataatttg 661 gcagcatgtg tcagacccta cctaggaggt aagaatacag caataacagt accatcagct 721 catgtctaga tttttaaaca ccagtcccac gtggtcttga attggactca gagggctctg 781 ggaagctcca tgaggataaa agtataaggg aacttcagga acaatcctgt acttacagca 841 aagcattctc ctcaatacct gaggctgaag ctggccttgc ctggaacaag ggttgttctc 901 cctcttttgg agaggaggag ggaggtgagg cctaggatgg ggaaaagggc tcctttcaag 961 acagcagtgt ttcctgtaga accctggagc cccctcccaa tctgctgccc catagactcc1021 aagcctcagc accatctcct ccctctcctg caccctctct cctgccgtcc ccatcttcca1081 gcctttctgg agccaccaat ctggtaccca cattgcaggt tcagcaagca tagagctaag1141 tgccaaatgc ttccttccag gggagatcat cggaggccgg gagagcaggc cccactcccg1201 cccctacatg gcgtatcttc agatccagag tccagcaggt cagagcagat gtggagggtt1261 cctggtgcga gaagactttg tgctgacagc agctcattgc tggggaaggt gaggagctaa1321 ggaacttcct ggccagccag gaacacagcc ctgcggagct cttcggtgga agagccatct1381 gaaagaagag ttgtagcaat gaaagggtga aagaaagacc aagtgagtct ttgcgggagg1441 gaacaggcca gtgtaaatga ggaggaaagg aggataagat caaaaagagc aagaggaaga1501 gatggaagac acatattggg gctcaaaata taaactcagg ctatttatca acttaatctg1561 gggaagtaaa cctgaaggca agtaccaccc tgtcatccct agctcagagc tgctgagaaa1621 gaggatacag ctgagcccca gggccctccc atcccctcga ttctggttag ctgcagtctt1681 gccctccccg tgctgtctgc ctaccctgca gagctggtgg accatagctc ctgcagccca1741 gacctacctc ttgcttttgc agcaatataa atgtcaccct gggcgcccac aatatccaga1801 gacgggaaaa cacccagcaa cacatcactg cgcgcagagc catccgccac cctcaatata1861 atcagcggac catccagaat gacatcatgt tattgcaggt accacctacc tggccctctg1921 gctccttcct agtgtgtccg gggacaatgg aggaggaagt gagggcaagg ctccggggtg1981 gcggggaggg catgggatgt gtactgcacc agcgaccccc gagccttggc tggaggcccc2041 agctgagcgg gaacgcctac attcttcctc cagctgagca gaagagtcag acggaatcga2101 aacgtgaacccagtggctct gcctagagcc caggagggac tgagacccgg gacgctgtgc2161 actgtggccg gctggggcag ggtcagcatg aggaggggaa cagatacact ccgagaggtg2221 cagctgagag tgcagaggga taggcagtgc ctccgcatct tcggttccta cgacccccga2281 aggcagattt gtgtggggga ccggcgggaa cggaaggctg ccttcaaggt aaggcatggg2341 cattggccaa cacaccccgg gagagagggg cccgtgcaga gccaggcagt gcgaacagat2401 tccatcccca cagcctcagc ctggcagcca gaccagggtg ggctggggat tgttttcccc2461 atcaacctgg tctctggggg aataggagga agacccacaa cacatacata ggcaacattc2521 tcctggagaa gggagaggta ccttgactca gattgggctg gagacagtaa ttaaggcaga2581 gctgaagtcc agcgaccgaa aagatccaga ggcttggctc ctgtacccca ccgatcttcc2641 atctcacaca cacccagcaa ttgaaggggc ccacccaccc ctgccttccc tgagagcccg2701 gagctcaggg aagcaggagc agggaggcct gtctcagtct cccttctcct ctctacctac2761 agggggattc cggaggcccc ctgctgtgta acaatgtggc ccacggcatc gtctcctatg2821 gaaagtcgtc aggggttcct ccagaagtct tcaccagggt ctcaagtttc ctgccctgga2881 taaggacaac aatgagaagc ttcaaactgc tggatcagat ggagaccccc ctgtgactga2941 ctcttcttct cggggacaca ggccagctcc acagtgttgc cagagcctta ataaacgtcc3001 acagagtata aataaccaat tcctcatttg ttcattaaac gtcattcagt acttagtttg3061 tttggattgc tacaacaaaa tagcacaaat tgggtggctt ataaataaca aatttatttc3121 tcacaggtct agaggctaag aagtctaaga tcaagtcact agcagattca gtgtctaatt3181 agggcccatt ttctggttca cagacaacca tcctctccct gtgtccacat atggcaaaag3241 gggcaaggga attctctgat gtctctttta caagggacct agtctcattc aaagagctca3301 gcttttacga cctaatcaca tcccaaaggc cccacctaat gccatcacga cattggggat3361 taggtctggg aaacataggg aaagagtgtc tctacacaaa aattttaaaa ttagccaggc3421 atggtggcat gtgtctatag tcccagctac ttgggaggct aaagtggaag gattagttga3481 acccacgagg ttgaggcttc agtgaaccat gcactccagc ctgagcgaca gagcaagaca3541 ccattccaag aaagaaaaaa aaaaagactg gcaggccaaa aagacagaac tgaaattcca3601 aaaaaaaaga cctactttag tgtatgaaaa aggtggcatc tcaaatcact gggaaacaat3661 ggaatttttg aataaatagc attagaacca acctagatag atatttggag gggatggaag3721 gtataattgg atcc (2) SEQ ID NO: 2828 data: (i) sequence characteristics:

(A) Length: 4683 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2828 sequence description: 1 agaagctttt gctcctggga ttaggttgat gggcctctaa tgtcaccagt gaaatgggat 61 attagatatt ttccagctag gatacgacag ctcccaataa aaccaaatta ctaagccttt 121 tctgcaagca aggagccgtc tggaacataa ggactttaac cttgggtagg agacaggcaa 181 721 tgctctcggc actgacttag cagctgctca agagctcact atgttggctt ggattacact 781 181 gcagaagtct tcaattgtgt cacaattttc actgaggact caagtgacct aagaaagtaa 241 ttgtgattgt cagagccttg ttcttccttt tctttctcca gccgcacgct tcacctactc 301 aggagagtgc ctacgcaatc tgacttgaca gcttctagaa agaaattaga gcaacagggg 361 tctcagcagg gtggtcttgg gccaaacact gaaagcaggc aggcttaccc tttcctcttc 421 tgcccccttc aactttttcc tgatgttctt acccacatcc ctcaccacac cacacccttt 481 cattcatcct tgtcccagac ttattaagta tatacagata agcaatccag ggaacttgca 541 ttcattagga gaaacccaga aattcaaaag caataatgat ctaatcccag aggagtagaa 601 aacaggaagt gggcagctgc cagctttctt gctttgctgg agtattctgg aatttgatgg 661 gttgagggtt ctggacacaa tgccccaagc cccttccttg ttgtgctggg ttcctatttc 721 tgctctcggc actgacttag cagctgctca agagctcact atgttggctt ggattacact 781 ggtctcaccc acatctccgg cagtttgtgg gcaaacctcc tgagcagcct tgggtgatga 841 aacctttcat ggtagcagga gaatgggact gtgaattctc aatcccctgt ccccacccct 901 tccttcctct ctcagggcct taaagtctag gaggaggaag cacagcagcc ttgctttgct 961 ggagtattct ggtaatttga tgggttgagg gttctggaca caatgcccca agccccttcc1021 ttgttgtgct gggttcctat ttctgctctc ggcactgact tagcagctgc tcaagagctc1081 actatgttgg cttggattac acggtctcac ccacatctcc ggcagtttgt gggcaaacct1141 cctgagcagc cttgggtgat gaaacctttc atggtagcag gagaatggga ctgtgaattc1201 tcaatcccct gtccccaccc cttccttcct ctctcagggc cttaaagtct aggaggagga1261 agcacagcag caactgactg ggcagccttt caggaaagat gcagccactc ctgcttctgc1321 tggcctttct cctacccact ggggctgagg caggtgagtg accatcccca ccctcagagg1381 cctgacctca tcccatagat tcttgagcca aattgccttg gtatatccta attctgtact1441 gttgagcaag ttatttgaat ttgtgtttcc tcatctataa aatgagaata atattaatac1501 cgatcttgca gagttgccat gagagttaaa taagttagag tatttaaatg tcttggaatt1561 gcccgcacac tataagtgct ataaaaacat gctttgtgta aataatttgg cagcatgtgt1621 cagaccctac ctaggaggta agaatacagc aataacagta ccatcagctc atgtctagat1681 ttttaaacac cagtcccacg tggtcttgaa ttggactcag agggctctgg gaagctccat1741 gaggataaaa gtataaggga acttcaggaa caatcctgta cttacagcaa agcattctcc1801 tcaatacctg aggctgaagc tggccttgcc tggaacaagg gttgttctcc ctcttttgga1861 gaggaggagg gaggtgaggc ctaggatggg gaaaagggct cctttcaaga cagcagtgtt1921 tcctgtagaa ccctggagcc ccctcccaat ctgctgcccc atagactcca agcctcagca1981 ccatctcctc cctctcctgc accctctctc ctgccgtccc catcttccag cctttctgga2041 gccaccaatc tggtacccac attgcaggtt cagcaagcat agagctaagt gccaaatgct2101 tccttccagg ggagatcatc ggaggccggg agagcaggcc ccactcccgc ccctacatgg2161 cgtatcttca gatccagagt ccagcaggtc agagcagatg tggagggttc ctggtgcgag2221 aagactttgt gctgacagca gctcattgct ggggaaggtg aggagctaag gaacttcctg2281 gccagccagg aacacagccc tgcggagctc ttcggtggaa gagccatctg aaagaagagt2341 tgtagcaatg aaagggtgaa agaaagacca agtgagtctt tgcgggaggg aacaggccag2401 tgtaaatgag gaggaaagga ggataagatc aaaaagagca agaggaagag atggaagaca2461 catattgggg ctcaaaatat aaactcaggc tatttatcaa cttaatctgg ggaagtaaac2521 ctgaaggcaa gtaccaccct gtcatcccta gctcagagct gctgagaaag aggatacagc2581 tgagccccag ggccctccca tcccctcgat tctggttagc tgcagtcttg ccctccccgt2641 gctgtctgcc taccctgcag agctggtgga ccatagctcc tgcagcccag acctacctct2701 tgcttttgca gcaatataaa tgtcaccctg ggcgcccaca atatccagag acgggaaaac2761 acccagcaac acatcactgc gcgcagagcc atccgccacc ctcaatataa tcagcggacc2821 atccagaatg acatcatgtt attgcaggta ccacctacct ggccctctgg ctccttccta2881 gtgtgtccgg ggacaatgga ggaggaagtg agggcaaggc tccggggtgg cggggagggc2941 atgggatgtg tactgcacca gcgacccccg agccttggct ggaggcccca gctgagcggg3001 aacgcctaca ttcttcctcc agctgagcag aagagtcaga cggaatcgaa acgtgaaccc3061 agtggctctg cctagagccc aggagggact gagacccggg acgctgtgca ctgtggccgg3121 ctggggcagg gtcagcatga ggaggggaac agatacactc cgagaggtgc agctgagagt3181 gcagagggat aggcagtgcc tccgcatctt cggttcctac gacccccgaa ggcagatttg3241 tgtgggggac cggcgggaac ggaaggctgc cttcaaggta aggcatgggc attggccaac3301 acaccccggg agagaggggc ccgtgcagag ccaggcagtg cgaacagatt ccatccccac3361 agcctcagcc tggcagccag accagggtgg gctggggatt gttttcccca tcaacctggt3421 ctctggggga ataggaggaa gacccacaac acatacatag gcaacattct cctggagaag3481 ggagaggtac cttgactcag attgggctgg agacagtaat taaggcagag ctgaagtcca3541 593601 acccagcaat tgaaggggcc cacccacccc tgccttccct gagagcccgg agctcaggga3661 agcaggagca gggaggcctg tctcagtctc ccttctcctc tctacctaca gggggattcc3721 ggaggccccc tgctgtgtaa caatgtggcc cacggcatcg tctcctatgg aaagtcgtca3781 ggggttcctc cagaagtctt caccagggtc tcaagtttcc tgccctggat aaggacaaca3841 atgagaagct tcaaactgct ggatcagatg gagacccccc tgtgactgac tcttcttctc3901 ggggacacag gccagctcca cagtgttgcc agagccttaa taaacgtcca cagagtataa 398661 ataaccaatt cctcatttgt tcattaaacg tcattcagta cttagtttgt ttggattgct4021 acaacaaaat agcacaaatt gggtggctta taaataacaa atttatttct cacaggtcta gaggctaaga agtctaagat caagtcacta gcagattcag tgtctaatta gggcccattt4141 tctggttcac agacaaccat cctctccctg tgtccacata tggcaaaagg ggcaagggaa4201 ttctctgatg tctcttttac aagggaccta gtctcattca aagagctcag cttttacgac4261 ctaatcacat cccaaaggcc ccacctaatg ccatcacgac attggggatt aggtctggga4321 aacataggga aagagtgtct ctacacaaaa attttaaaat tagccaggca tggtggcatg4381 tgtctatagt cccagctact tgggaggcta aagtggaagg attagttgaa cccacgaggt4441 tgaggcttca gtgaaccatg cactccagcc tgagcgacag agcaagacac cattccaaga4501 aagaaaaaaa aaaagactgg caggccaaaa agacagaact gaaattccaa aaaaaaagac4561 ctactttagt gtatgaaaaa ggtggcatct caaatcactg ggaaacaatg gaatttttga4621 ataaatagca ttagaaccaa cctagataga tatttggagg ggatggaagg tataattgga4681 tcc (2) SEQ ID NO: 2829 data: (i) sequence characteristics:

(A) length: 2156 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2829 sequence description: 1 ggcacgagcc cagaaacaaa gacttcacgg acaaagtccc ttggaaccagagagaagccg 61 ggatggaaac tccaaacacc acagaggact atgacacgac cacagagttt gactatgggg121 atgcaactcc gtgccagaag gtgaacgaga gggcctttgg ggcccaactg ctgccccctc181 721 cagggattat aaagattctg ctaagacgac caaatgagaa gaaatccaaa gctgtccgtt 781 181 tgtactcctt ggtatttgtc attggcctgg ttggaaacat cctggtggtc ctggtccttg241 tgcaatacaa gaggctaaaa aacatgacca gcatctacct cctgaacctg gccatttctg301 acctgctctt cctgttcacg cttcccttct ggatcgacta caagttgaag gatgactggg361 tttttggtga tgccatgtgt aagatcctct ctgggtttta ttacacaggc ttgtacagcg 421 agatcttttt catcatcctg ctgacgattg acaggtacct ggccatcgtc cacgccgtgt 481 ttgccttgcg ggcacggacc gtcacttttg gtgtcatcac cagcatcatc atttgggccc 541 tggccatctt ggcttccatg ccaggcttat acttttccaa gacccaatgg gaattcactc 601 accacacctg cagccttcac tttcctcacg aaagcctacg agagtggaag ctgtttcagg 661 ctctgaaact gaacctcttt gggctggtat tgcctttgtt ggtcatgatc atctgctaca 721 cagggattat aaagattctg ctaagacgac caaatgagaa gaaatccaaa gctgtccgtt 781 tgatttttgt catcatgatc atcttttttc tcttttggac cccctacaat ttgactatac 841 ttatttctgt tttccaagac ttcctgttca cccatgagtg tgagcagagc agacatttgg 901 acctggctgt gcaagtgacg gaggtgatcg cctacacgca ctgctgtgtc aacccagtga 961 tctacgcctt cgttggtgag aggttccgga agtacctgcg gcagttgttc cacaggcgtg1021 tggctgtgca cctggttaaa tggctcccct tcctctccgt ggacaggctg gagagggtca1081 gctccacatc tccctccaca ggggagcatg aactctctgc tgggttctga ctcagaccat1141 aggaggccaa cccaaaataa gcaggcgtga cctgccaggc acactgagcc agcagcctgg1201 ctctcccagc caggttctga ctcttggcac agcatggagt cacagccact tgggatagag1261 agggaatgta atggtggcct ggggcttctg aggcttctgg ggcttcagtc ttttccatga1321 acttctcccc tggtagaaag aagatgaatg agcaaaacca aatattccag agactgggac1381 taagtgtacc agagaagggc ttggactcaa gcaagatttc agatttgtga ccattagcat1441 ttgtcaacaa agtcacccac ttcccactat tgcttgcaca aaccaattaa acccagtagt1501 ggtgactgtg ggctccattc aaagtgagct cctaagccat gggagacact gatgtatgag1561 gaatttctgt tcttccatca cctccccccc cccgccaccc tcccactgcc aagaacttgg1621 aaatagtgat ttccacagtg actccactct gagtcccaga gccaatcagt agccagcatc1681 tgcctcccct tcactcccac cgcaggattt gggctcttgg aatcctgggg aacatagaac1741tcatgacgga agagttgaga cctaacgaga aatagaaatg ggggaactac tgctggcagt1801 ggaactaaga aagcccttag gaagaatttt tatatccact aaaatcaaac aattcaggga1861 gtgggctaag cacgggccat atgaataaca tggtgtgctt cttaaaatag ccataaaggg1921 gagggactca tcatttccat ttacccttct tttctgacta tttttcagaa tctctcttct1981 tttcaagttg ggtgatatgt tggtagattc taatggcttt attgcagcga ttaataacag2041 gcaaaaggaa gcagggttgg tttcccttct ttttgttctt catctaagcc ttctggtttt2101 atgggtcaga gttccgactg ccatcttgga cttgtcagca aaaaaaaaaa aaaaaa (2) SEQ ID NO: 2830 of the data: (i) sequence characteristics:

(A) length: 2955 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2830 sequence description: 1 gagagccccc cccccgagac tgaaagtttt ggagattcag gggtcggggg aaagggttca 61 ggaaatggta attgagtttc caagggatag tgttacaagt ggtatgggag gccccctatt 121 tctgatagta atagagaata ttttctttgt tcattatgat agaacccgtg ggataaagag 181 721 aacagaccaa acttccatta atgcttgcgg ttcttgtggc aaagccagtc tgtgaggttt 781 181 ggaaaataaa tgttgggagt cccccagggg agaggagaga atccaacagg gtgatttgct 241 gatatttgta cgaggaggga aagaattttt caaagacaaa gttggagtga ggagtttttg 301 tagagggaac caggtggggt acaaagagag agacacactg agccggtggg aagggaagaa 361 ttaagagggg tgttccccca cactgtatat taagaaagaa aaacaatggg gacaggacgg 421 cagaagttag agtttcttaa ccaggatgag agggggattt cacggtaact aatgagtgat 481 ttcagacctt attccactat cccagggcaa tcagatatta atcatgtaca agttgaaatc 541 atgcgtgtcc tttgaggtaa gacttacata atcctattta gcataacagg cccccagatc 601 cagaaagggg agggttccgc ccctatcact gaaggggatc agggatatga aagtggctca 661 tggttgacca tcacgtttaa caggaatggg caatcaggag gggtaggtcc aattgtgacc 721 aacagaccaa acttccatta atgcttgcgg ttcttgtggc aaagccagtc tgtgaggttt 781 gatggggatg gacttggtga gcagagagca gggggacaac gaatcccaga agctgagggg 841 aatggggttc caaagagccg ctgctgcctc tgggagcacc catgtcagtt agtttttccg 901 tacgggactc agggttccag attattcgtt tttaaatcct tccattcaca atctttaaga 961 agaagaaaaa aaagaagtct gccgctgacc acaagagctc tatgccctgc ccccatccca1021 catacacaca tcccacactt caattgctcc aaacattctg ggaacatctc actgccaccc1081 acctcaccca actcagcttc acctgccccc aattccctta aggctgagct cccagggcca1141 agactcaaga ggctcagagt gagcagagaa aatcctcgca gttaacttgg cttccaggaa1201 gtggccactg gtgggcgttg tggccattca tgagcaccaa accacacaaa aagaactttg1261 tccctttctt gtcattttga aagactgtga aactggagcc aattctccat catcacacag1321 gaagctgagt acttcctact tggtcaggat cttgaaactt gaattcataa aacccagaaa1381 gccccagaaa caaagacttc acggacaaag tcccttggaa ccagagtaag tgtcacttgt1441 cttttctgtc ttatctgtta ctgtggaggg cagtgttgtt caaagacatg catgcagcta1501 ggggctcctc aaaggtaggg ggaattcttt gagtaggctg ggcaaatgtc taagtagccc1561 atggatgcat ctccaaggca attaatactg tagcaatact gagaatggtg gatttataaa1621 gctgggtgct cagatgaaat ataggctttt ttgctaaaaa ggaagcttac ttgaaggatt1681 ggcttttggt tactgattaa gaaagtcagt cagtactaag ggacaaaagg tgttttctgt1741 ggaaacctat tcaataagaa attacttggc ggggcgcagt ggctcacggc tgtaatccca1801 gcactttggg agaccgaggc aggtggatca tgaggtcaag agatggagac aatcctggcc1861 atatggtgaa accctgtctc tactaaaaat aaaaattagc cgggcaggtg gccgcagcct1921 gttagtccca gctactcaag aggctgaggc aggagaatca ctcgaatccg ggaggtggag1981 gttgcagtga gctgagattg caccacaaca ctccagcctg gcgacagagc aagagtctgt2041 ctgaaaaaaa aaaattgctt gccaaattcc cccaagtaaa ggaaaaccaa acatggtgta2101 tgaagaaatt atagcaagag ggaaatatta gctagaaaaa tcttggcaga tgcaaggatg2161 atttgatact gaacctatct cttaagaaga ctagaaccaa ggatcctcaa aattggcact2221 gctatctttg gaagagaggt aggctttcac tcacccaaag gcaaggagct ggccaggtga2281 tcttgggggg catctgttct gctctactaa caaagacaca ggtcaggatt ttgttctgaa2341 gatagagggg catggtggct ccgtataggt atctacttca taggtggcct tggtgggtcc2401 cagatttcaa agaagagatg gaaactccca aaagtttgca caacctggca ccaggctatg2461 tgccactcac tgatccttta gtccccgcac cgagcagtgg gacagtgctg gactgttcag2521 aatgtggggc ctgggcagtg atgtgctggt aaatgttcaa caactgactc ttctgaagaa2581 aagatccctg ctttataaca tttgttgatt ttcatggtat aaatgccccc actgtggtca2641 gtttcaagct accaacatgc tgaatgtgga gtggggaaga gatgcacgca attggcattt2701 ataaaccagt ataagccagc cagcgcacca taggcctggg tgtctttcac catcacagac2761 27 2761 tgctctactc tgctcagaga ctcaccaact cccaggctgg aagacactag cagtggaagg2821 tccaggatcc agggctatac tgaccactgt gccagtggcc ttgaggcaga ctctgcagta2881 gacaacancc agggctggcc nattagatga caacatgncc ttggtccctc tcgggcccaa2941 cccagacacc tcctg (2) SEQ ID NO: 2831 data:

(i) sequence characteristics:

(A) length: 1495 base pair (B) type: nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2831 sequence description: 1 atggaaactc caaacaccac agaggactat gacacgacca cagagtttga ctatggggat 61 gcaactccgt gccagaaggt gaacgagagg gcctttgggg cccaactgct gccccctctg 121 tactccttgg tatttgtcat tggcctggtt ggaaacatcc tggtggtcct ggtccttgtg 181 721 atttttgtca tcatgatcat cttttttctc ttttggaccc cctacaattt gactatactt 781 181 caatacaaga ggctaaaaaa catgaccagc atctacctcc tgaacctggc catttctgac 241 ctgctcttcc tgttcacgct tcccttctgg atcgactaca agttgaagga tgactgggtt 301 tttggtgatg ccatgtgtaa gatcctctct gggttttatt acacaggctt gtacagcgag361 atctttttca tcatcctgct gacgattgac aggtacctgg ccatcgtcca cgccgtgttt 421 gccttgcggg cacggaccgt cacttttggt gtcatcacca gcatcatcat ttgggccctg 481 gccatcttgg cttccatgcc aggcttatac ttttccaaga cccaatggga attcactcac 541 cacacctgca gccttcactt tcctcacgaa agcctacgag agtggaagct gtttcaggct 601 ctgaaactga acctctttgg gctggtattg cctttgttgg tcatgatcat ctgctacaca661 gggattataa agattctgct aagacgacca aatgagaaga aatccaaagc tgtccgtttg 721 atttttgtca tcatgatcat cttttttctc ttttggaccc cctacaattt gactatactt 781 atttctgttt tccaagactt cctgttcacc catgagtgtg agcagagcag acatttggac 841 ctggctgtgc aagtgacgga ggtgatcgcc tacacgcact gctgtgtcaa cccagtgatc 901 tacgccttcg ttggtgagag gttccggaag tacctgcggc agttgttcca caggcgtgtg 961 gctgtgcacc tggttaaatg gctccccttc ctctccgtgg acaggctgga gagggtcagc1021 tccacatctc cctccacagg ggagcatgaa ctctctgctg ggttctgact cagaccatag1081 gaggccaacc caaaataagc aggcgtgacc tgccaggcac actgaccagc agcctggctc1141 tcccagccag gttctgactc ttggcacagc atggagtccg cctcttggat agagaggaat1201 gtaatggtgg cctggggctt ctgaggcttc tgggcttgag tcttttccat gaacttctcc1261 cctggtagaa aagaagatga atgagcaaaa ccaaatattc cagagactgg gactaagtgt1321 accagagaag ggcttggact caagcaagat ttcagatttg tgaccattag catttgtcaa1381 caaagtcacc cacttcccac tattgcttgc acaaaccaat taaacccagt agtggtgact1441 gtgggctcca ttcaaagtga gctcctaagc catgggagac actgatgtat gagga (2) SEQ ID NO: 2832 data: (i) sequence characteristics:

(A) length: 6606 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2832 sequence description: 1 ggcacgagcc cagaaacaaa gacttcacgg acaaagtccc ttggaaccag agagaagccg 61 ggatggaaac tccaaacacc acagaggact atgacacgac cacagagttt gactatgggg121 atgcaactcc gtgccagaag gtgaacgaga gggcctttgg ggcccaactg ctgccccctc181 721 cagggattat aaagattctg ctaagacgac caaatgagaa gaaatccaaa gctgtccgtt 781 181 tgtactcctt ggtatttgtc attggcctgg ttggaaacat cctggtggtc ctggtccttg241 tgcaatacaa gaggctaaaa aacatgacca gcatctacct cctgaacctg gccatttctg301 acctgctctt cctgttcacg cttcccttct ggatcgacta caagttgaag gatgactggg361 tttttggtga tgccatgtgt aagatcctct ctgggtttta ttacacaggc ttgtacagcg 421 agatcttttt catcatcctg ctgacgattg acaggtacct ggccatcgtc cacgccgtgt 481 ttgccttgcg ggcacggacc gtcacttttg gtgtcatcac cagcatcatc atttgggccc 541 tggccatctt ggcttccatg ccaggcttat acttttccaa gacccaatgg gaattcactc 601 accacacctg cagccttcac tttcctcacg aaagcctacg agagtggaag ctgtttcagg 661 ctctgaaact gaacctcttt gggctggtat tgcctttgtt ggtcatgatc atctgctaca 721 cagggattat aaagattctg ctaagacgac caaatgagaa gaaatccaaa gctgtccgtt 781 tgatttttgt catcatgatc atcttttttc tcttttggac cccctacaat ttgactatac 841 ttatttctgt tttccaagac ttcctgttca cccatgagtg tgagcagagc agacatttgg 901 acctggctgt gcaagtgacg gaggtgatcg cctacacgca ctgctgtgtc aacccagtga 961 tctacgcctt cgttggtgag aggttccgga agtacctgcg gcagttgttc cacaggcgtg1021 tggctgtgca cctggttaaa tggctcccct tcctctccgt ggacaggctg gagagggtca1081 gctccacatc tccctccaca ggggagcatg aactctctgc tgggttctga ctcagaccat1141 aggaggccaa cccaaaataa gcaggcgtga cctgccaggc acactgagcc agcagcctgg1201 ctctcccagc caggttctga ctcttggcac agcatggagt cacagccact tgggatagag1261 agggaatgta atggtggcct ggggcttctg aggcttctgg ggcttcagtc ttttccatga1321 acttctcccc tggtagaaag aagatgaatg agcaaaacca aatattccag agactgggac1381 taagtgtacc agagaagggc ttggactcaa gcaagatttc agatttgtga ccattagcat1441 ttgtcaacaa agtcacccac ttcccactat tgcttgcaca aaccaattaa acccagtagt1501 ggtgactgtg ggctccattc aaagtgagct cctaagccat gggagacact gatgtatgag1561 gaatttctgt tcttccatca cctccccccc cccgccaccc tcccactgcc aagaacttgg1621 aaatagtgat ttccacagtg actccactct gagtcccaga gccaatcagt agccagcatc1681 tgcctcccct tcactcccac cgcaggattt gggctcttgg aatcctgggg aacatagaac1741 tcatgacgga agagttgaga cctaacgaga aatagaaatg ggggaactac tgctggcagt1801 ggaactaaga aagcccttag gaagaatttt tatatccact aaaatcaaac aattcaggga1861 gtgggctaag cacgggccat atgaataaca tggtgtgctt cttaaaatag ccataaaggg1921 gagggactca tcatttccat ttacccttct tttctgacta tttttcagaa tctctcttct1981 tttcaagttg ggtgatatgt tggtagattc taatggcttt attgcagcga ttaataacag2041 gcaaaaggaa gcagggttgg tttcccttct ttttgttctt catctaagcc ttctggtttt2101 atgggtcaga gttccgactg ccatcttgga cttgtcagca aaaaaaaaaa aaaaaagaga2161 gccccccccc cgagactgaa agttttggag attcaggggt cgggggaaag ggttcaggaa2221 atggtaattg agtttccaag ggatagtgtt acaagtggta tgggaggccc cctatttctg2281 atagtaatag agaatatttt ctttgttcat tatgatagaa cccgtgggat aaagagggaa2341 aataaatgtt gggagtcccc caggggagag gagagaatcc aacagggtga tttgctgata2401 tttgtacgag gagggaaaga atttttcaaa gacaaagttg gagtgaggag tttttgtaga2461 gggaaccagg tggggtacaa agagagagac acactgagcc ggtgggaagg gaagaattaa2521 gaggggtgtt cccccacact gtatattaag aaagaaaaac aatggggaca ggacggcaga2581 agttagagtt tcttaaccag gatgagaggg ggatttcacgg taactaatg agtgatttca2641 gaccttattc cactatccca gggcaatcag atattaatcat gtacaagtt gaaatcatgc2701 gtgtcctttg aggtaagact tacataatcc tatttagcat aacaggcccc cagatccaga2761 aaggggaggg ttccgcccct atcactgaag gggatcaggg atatgaaagt ggctcatggt2821 tgaccatcac gtttaacagg aatgggcaat caggaggggt aggtccaatt gtgaccaaca2881 gaccaaactt ccattaatgc ttgcggttct tgtggcaaag ccagtctgtg aggtttgatg2941 gggatggact tggtgagcag agagcagggg gacaacgaat cccagaagct gaggggaatg3001 gggttccaaa gagccgctgc tgcctctggg agcacccatg tcagttagtt tttccgtacg3061 ggactcaggg ttccagatta ttcgttttta aatccttcca ttcacaatct ttaagaagaa3121 gaaaaaaaag aagtctgccg ctgaccacaa gagctctatg ccctgccccc atcccacata3181 cacacatccc acacttcaat tgctccaaac attctgggaa catctcactg ccacccacct3241 cacccaactc agcttcacct gcccccaatt cccttaaggc tgagctccca gggccaagac3301 tcaagaggct cagagtgagc agagaaaatc ctcgcagtta acttggcttc caggaagtgg3361 ccactggtgg gcgttgtggc cattcatgag caccaaacca cacaaaaaga actttgtccc3421 tttcttgtca ttttgaaaga ctgtgaaact ggagccaatt ctccatcatc acacaggaag3481 ctgagtactt cctacttggt caggatcttg aaacttgaat tcataaaacc cagaaagccc3541 593601 tctgtcttat ctgttactgt ggagggcagt gttgttcaaa gacatgcatg cagctagggg3661 ctcctcaaag gtagggggaa ttctttgagt aggctgggca aatgtctaag tagcccatgg3721 atgcatctcc aaggcaatta atactgtagc aatactgaga atggtggatt tataaagctg3781 ggtgctcaga tgaaatatag gcttttttgc taaaaaggaa gcttacttga aggattggct3841 tttggttact gattaagaaa gtcagtcagt actaagggac aaaaggtgtt ttctgtggaa3901 acctattcaa taagaaatta cttggcgggg cgcagtggct cacggctgta atcccagcac 8661 tttgggagac cgaggcaggt ggatcatgag gtcaagagat ggagacaatc ctggccatat4001 ggtgaaaccc tgtctctact aaaaataaaa attagccggg caggtggccg cagcctgtta 4058 4121 cagtgagctg agattgcacc acaacactcc agcctggcga cagagcaaga gtctgtctga4181 aaaaaaaaaa ttgcttgcca aattccccca agtaaaggaa aaccaaacat ggtgtatgaa4241 gaaattatag caagagggaa atattagcta gaaaaatctt ggcagatgca aggatgattt4301 gatactgaac ctatctctta agaagactag aaccaaggat cctcaaaatt ggcactgcta4361 tctttggaag agaggtaggc tttcactcac ccaaaggcaa ggagctggcc aggtgatctt4421 ggggggcatc tgttctgctc tactaacaaa gacacaggtc aggattttgt tctgaagata4481 gaggggcatg gtggctccgt ataggtatct acttcatagg tggccttggt gggtcccaga4541 tttcaaagaa gagatggaaa ctcccaaaag tttgcacaac ctggcaccag gctatgtgcc4601 actcactgat cctttagtcc ccgcaccgag cagtgggaca gtgctggact gttcagaatg4661 4748 4721 475 4781 caagctacca acatgctgaa tgtggagtgg ggaagagatg cacgcaattg gcatttataa 4824 4901 ctactctgct cagagactca ccaactccca ggctggaaga cactagcagt ggaaggtcca4961 ggatccaggg ctatactgac cactgtgcca gtggccttga ggcagactct gcagtagaca5021 acanccaggg ctggccnatt agatcacaca atgncccttgg tccctctcgg gcccaaccca5081 gacacctcct gatggaaact ccaaacacca cagaggacta tgacacgacc acagagtttg5141 actatgggga tgcaactccg tgccagaagg tgaacgagag ggcctttggg gcccaactgc5201 tgccccctct gtactccttg gtatttgtca ttggcctggt tggaaacatc ctggtggtcc tggtccttgt gcaatacaag aggctaaaaa acatgaccag catctacctc ctgaacctgg5341 865427 5427 atgactgggt ttttggtgat gccatgtgta agatcctctc tgggttttat tacacaggct5461 tgtacagcga gatctttttc atcatcctgc tgacgattga caggtacctg gccatcgtcc5521 acgccgtgtt tgccttgcgg gcacggaccg tcacttttgg tgtcatcacc agcatcatca5581 tttgggccct ggccatcttg gcttccatgc caggcttata cttttccaag acccaatggg5641 aattcactca ccacacctgc agccttcact ttcctcacga aagcctacga gagtggaagc5701 tgtttcaggc tctgaaactg aacctctttg ggctggtatt gcctttgttg gtcatgatca5761 tctgctacac agggattata aagattctgc taagacgacc aaatgagaag aaatccaaag5821 ctgtccgttt gatttttgtc atcatgatca tcttttttct cttttggacc ccctacaatt5881 tgactatact tatttctgtt ttccaagact tcctgttcac ccatgagtgt gagcagagca5941 gacatttgga cctggctgtg caagtgacgg aggtgatcgc ctacacgcac tgctgtgtca6001 acccagtgat ctacgccttc gttggtgaga ggttccggaa gtacctgcgg cagttgttcc6061 acaggcgtgt ggctgtgcac ctggttaaat ggctcccctt cctctccgtg gacaggctgg6121 agagggtcag ctccacatct ccctccacag gggagcatga actctctgct gggttctgac6181 tcagaccata ggaggccaac ccaaaataag caggcgtgac ctgccaggca cactgaccag6241 cagcctggct ctcccagcca ggttctgact cttggcacag catggagtcc gcctcttgga6301 tagagaggaa tgtaatggtg gcctggggct tctgaggctt ctgggcttga gtcttttcca6361 tgaacttctc ccctggtaga aaagaagatg aatgagcaaa accaaatatt ccagagactg6421 ggactaagtg taccagagaa gggcttggac tcaagcaaga tttcagattt gtgaccatta6481 gcatttgtca acaaagtcac ccacttccca ctattgcttg cacaaaccaa ttaaacccag6541 tagtggtgac tgtgggctcc attcaaagtg agctcctaag ccatgggaga cactgatgta6601 tgaga (2) SEQ ID NO: 2833 data: (i) sequence characteristics:

(A) length: 1068 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2833 sequence description: 1 atgacaacct cactagatac agttgagacc tttggtacca catcctacta tgatgacgtg 61 ggcctgctct gtgaaaaagc tgataccaga gcactgatgg cccagtttgt gcccccgctg121 tactccctgg tgttcactgt gggcctcttg ggcaatgtgg tggtggtgat gatcctcata181 aaatacagga ggctccgaat tatgaccaac atctacctgc tcaacctggc catttcggac241 ctgctcttcc tcgtcaccct tccattctgg atccactatg tcagggggca taactgggtt301 tttggccatg gcatgtgtaa gctcctctca gggttttatc acacaggctt gtacagcgag361 atctttttca taatcctgct gacaatcgac aggtacctgg ccattgtcca tgctgtgttt421 gcccttcgag cccggactgt cacttttggt gtcatcacca gcatcgtcac ctggggcctg481 gcagtgctag cagctcttcc tgaatttatc ttctatgaga ctgaagagtt gtttgaagag541 actctttgca gtgctcttta cccagaggat acagtatata gctggaggca tttccacact601 ctgagaatga ccatcttctg tctcgttctc cctctgctcg ttatggccat ctgctacaca661 ggaatcatca aaacgctgct gaggtgcccc agtaaaaaaa agtacaaggc catccggctc721 atttttgtca tcatggcggt gtttttcatt ttctggacac cctacaatgt ggctatcctt781 ctctcttcct atcaatccat cttatttgga aatgactgtg agcggagcaa gcatctggac841 ctggtcatgc tggtgacaga ggtgatcgcc tactcccact gctgcatgaa cccggtgatc901 tacgcctttg ttggagagag gttccggaag tacctgcgcc acttcttcca caggcacttg961 ctcatgcacc tgggcagata catcccattc cttcctagtg agaagctgga aagaaccagc1021 tctgtctctc catccacagc agagccggaa ctctctattg tgttttag (2) SEQ ID NO: 2834 data: (i) sequence characteristics:

(A) length: 1201 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2834 sequence description: 1 tttttcttct tctatcacag ggagaagtga aatgacaacc tcactagata cagttgagac 61 ctttggtacc acatcctact atgatgacgt gggcctgctc tgtgaaaaag ctgataccag121 agcactgatg gcccagtttg tgcccccgct gtactccctg gtgttcactg tgggcctctt181 721 cagtaaaaaa aagtacaagg ccatccggct catttttgtc atcatggcgg tgtttttcat781 181 gggcaatgtg gtggtggtga tgatcctcat aaaatacagg aggctccgaa ttatgaccaa241 catctacctg ctcaacctgg ccatttcgga cctgctcttc ctcgtcaccc ttccattctg301 gatccactat gtcagggggc ataactgggt ttttggccat ggcatgtgta agctcctctc361 agggttttat cacacaggct tgtacagcga gatctttttc ataatcctgc tgacaatcga421 caggtacctg gccattgtcc atgctgtgtt tgcccttcga gcccggactg tcacttttgg481 tgtcatcacc agcatcgtca cctggggcct ggcagtgcta gcagctcttc ctgaatttat541 cttctatgag actgaagagt tgtttgaaga gactctttgc agtgctcttt acccagagga601 tacagtatat agctggaggc atttccacac tctgagaatg accatcttct gtctcgttct661 ccctctgctc gttatggcca tctgctacac aggaatcatc aaaacgctgc tgaggtgccc721 cagtaaaaaa aagtacaagg ccatccggct catttttgtc atcatggcgg tgtttttcat781 tttctggaca ccctacaatg tggctatcct tctctcttcc tatcaatcca tcttatttgg841 aaatgactgt gagcggagca agcatctgga cctggtcatg ctggtgacag aggtgatcgc901 ctactcccac tgctgcatga acccggtgat ctacgccttt gttggagaga ggttccggaa 961 gtacctgcgc cacttcttcc acaggcactt gctcatgcac ctgggcagat acatcccatt1021 ccttcctagt gagaagctgg aaagaaccag ctctgtctct ccatccacag cagagccgga1081 actctctatt gtgttttagg tcagatgcag aaaattgcct aaagaggaag gaccaaggag1141 atgaagcaaa cacattaagc cttccacact cacctctaaa acagtccttc aaacttccag1201 t

(2) SEQ ID NO: 2835 data:

(i) sequence characteristics: (A) length: 1689 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2835 sequence description: 1 aatccttttc ctggcacctc tgatatcctt ttgaaattca tgttaaagaa tccctaggct 61 gctatcacat gtggcatctt tgttgagtac atgaataaat caactggtgt gttttacgga 121 ggatgattat gcttcattgt gggattgtat ttttcttctt ctatcacagg gagaagtgaa 181 721 actctttgca gtgctcttta cccagaggat acagtatata gctggaggca tttccacact 781 181 atgacaacct cactagatac agttgagacc tttggtacca catcctacta tgatgacgtg 241 ggcctgctct gtgaaaaagc tgataccaga gcactgatgg cccagtttgt gcccccgctg 301 tactccctgg tgttcactgt gggcctcttg ggcaatgtgg tggtggtgat gatcctcata 361 aaatacagga ggctccgaat tatgaccaac atctacctgc tcaacctggc catttcggac 421 ctgctcttcc tcgtcaccct tccattctgg atccactatg tcagggggca taactgggtt 481 tttggccatg gcatgtgtaa gctcctctca gggttttatc acacaggctt gtacagcgag 541 atctttttca taatcctgct gacaatcgac aggtacctgg ccattgtcca tgctgtgttt 601 gcccttcgag cccggactgt cacttttggt gtcatcacca gcatcgtcac ctggggcctg 661 gcagtgctag cagctcttcc tgaatttatc ttctatgaga ctgaagagtt gtttgaagag 721 actctttgca gtgctcttta cccagaggat acagtatata gctggaggca tttccacact 781 ctgagaatga ccatcttctg tctcgttctc cctctgctcg ttatggccat ctgctacaca 841 ggaatcatca aaacgctgct gaggtgcccc agtaaaaaaa agtacaaggc catccggctc 901 atttttgtca tcatggcggt gtttttcatt ttctggacac cctacaatgt ggctatcctt 961 ctctcttcct atcaatccat cttatttgga aatgactgtg agcggacgaa gcatctggac1021 ctggtcatgc tggtgacaga ggtgatcgcc tactcccact gctgcatgaa cccggtgatc1081 tacgcctttg ttggagagag gttccggaag tacctgcgcc acttcttcca caggcacttg1141 ctcatgcacc tgggcagata catcccattc cttcctagtg agaagctgga aagaaccagc1201 tctgtctctc catccacagc agagccggaa ctctctattg tgttttaggt agatgcagaa1261 aattgcctaa agaggaagga ccaaggagat naagcaaaaca cattaagcct tccacactca1321 cctctaaaac agtccttcaa accttccagt gcaacactga agctcttaag acactgaaat1381 atacacacag cagtagcagt agatgcatgt accctaaggt cattaccaca ggccagggct1441 gggcagcgta ctcatcatca acctaaaaag cagagctttg cttctctctc taaaatgagt1501 tacctatatt ttaatgcacc tgaatgttag atagttacta tatgccgcta caaaaaggta1561 aaacttttta tattttatac attaacttca gccagctatt atataaataa aacattttca1621 cacaatacaa taagttaact attttatttt ctaatgtgcc tagttctttc cctgcttaat1681 gaaaagctt (2) SEQ ID NO: 2836 data: (i) sequence characteristics:

(A) length: 3958 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2836 sequence description: 1 atgacaacct cactagatac agttgagacc tttggtacca catcctacta tgatgacgtg 61 ggcctgctct gtgaaaaagc tgataccaga gcactgatgg cccagtttgt gcccccgctg121 tactccctgg tgttcactgt gggcctcttg ggcaatgtgg tggtggtgat gatcctcata181 721 atttttgtca tcatggcggt gtttttcatt ttctggacac cctacaatgt ggctatcctt781 181 aaatacagga ggctccgaat tatgaccaac atctacctgc tcaacctggc catttcggac241 ctgctcttcc tcgtcaccct tccattctgg atccactatg tcagggggca taactgggtt301 tttggccatg gcatgtgtaa gctcctctca gggttttatc acacaggctt gtacagcgag361 atctttttca taatcctgct gacaatcgac aggtacctgg ccattgtcca tgctgtgttt421 gcccttcgag cccggactgt cacttttggt gtcatcacca gcatcgtcac ctggggcctg481 gcagtgctag cagctcttcc tgaatttatc ttctatgaga ctgaagagtt gtttgaagag541 actctttgca gtgctcttta cccagaggat acagtatata gctggaggca tttccacact601 ctgagaatga ccatcttctg tctcgttctc cctctgctcg ttatggccat ctgctacaca661 ggaatcatca aaacgctgct gaggtgcccc agtaaaaaaa agtacaaggc catccggctc721 atttttgtca tcatggcggt gtttttcatt ttctggacac cctacaatgt ggctatcctt781 ctctcttcct atcaatccat cttatttgga aatgactgtg agcggagcaa gcatctggac841 ctggtcatgc tggtgacaga ggtgatcgcc tactcccact gctgcatgaa cccggtgatc901 tacgcctttg ttggagagag gttccggaag tacctgcgcc acttcttcca caggcacttg961 ctcatgcacc tgggcagata catcccattc cttcctagtg agaagctgga aagaaccagc1021 tctgtctctc catccacagc agagccggaa ctctctattg tgttttag1069 tttttcttct tctatcacag ggagaagtga aatgacaacc tcactagata cagttgagac1129 ctttggtacc acatcctact atgatgacgt gggcctgctc tgtgaaaaag ctgataccag1189 agcactgatg gcccagtttg tgcccccgct gtactccctg gtgttcactg tgggcctctt1249 gggcaatgtg gtggtggtga tgatcctcat aaaatacagg aggctccgaa ttatgaccaa1309 catctacctg ctcaacctgg ccatttcgga cctgctcttc ctcgtcaccc ttccattctg1369 gatccactat gtcagggggc ataactgggt ttttggccat ggcatgtgta agctcctctc1429 agggttttat cacacaggct tgtacagcga gatctttttc ataatcctgc tgacaatcga1489 caggtacctg gccattgtcc atgctgtgtt tgcccttcga gcccggactg tcacttttgg1549 1609 cttctatgag actgaagagt tgtttgaaga gactctttgc agtgctcttt acccagagga1669 tacagtatat agctggaggc atttccacac tctgagaatg accatcttct gtctcgttct1729 ccctctgctc gttatggcca tctgctacac aggaatcatc aaaacgctgc tgaggtgccc1789 1849 469 tttctggaca ccctacaatg tggctatcct tctctcttcc tatcaatcca tcttatttgg1909 aaatgactgt gagcggagca agcatctgga cctggtcatg ctggtgacag aggtgatcgc1969 ctactcccac tgctgcatga acccggtgat ctacgccttt gttggagaga ggttccggaa2029 gtacctgcgc cacttcttcc acaggcactt gctcatgcac ctgggcagat acatcccatt2089 ccttcctagt gagaagctgg aaagaaccag ctctgtctct ccatccacag cagagccgga2149 actctctatt gtgttttagg tcagatgcag aaaattgcct aaagaggaag gaccaaggag2209 atgaagcaaa cacattaagc cttccacact cacctctaaa acagtccttc aaacttccag2269 t2270 aatccttttc ctggcacctc tgatatcctt ttgaaattca tgttaaagaa tccctaggct2330 gctatcacat gtggcatctt tgttgagtac atgaataaat caactggtgt gttttacgga2390 ggatgattat gcttcattgt gggattgtat ttttcttctt ctatcacagg gagaagtgaa2450 atgacaacct cactagatac agttgagacc tttggtacca catcctacta tgatgacgtg2510 ggcctgctct gtgaaaaagc tgataccaga gcactgatgg cccagtttgt gcccccgctg2570 tactccctgg tgttcactgt gggcctcttg ggcaatgtgg tggtggtgat gatcctcata 267 2690 ctgctcttcc tcgtcaccct tccattctgg atccactatg tcagggggca taactgggtt2750 tttggccatg gcatgtgtaa gctcctctca gggttttatc acacaggctt gtacagcgag2810 atctttttca taatcctgct gacaatcgac aggtacctgg ccattgtcca tgctgtgttt2870 gcccttcgag cccggactgt cacttttggt gtcatcacca gcatcgtcac ctggggcctg2930 gcagtgctag cagctcttcc tgaatttatc ttctatgaga ctgaagagtt gtttgaagag2990 actctttgca gtgctcttta cccagaggat acagtatata gctggaggca tttccacact3050 ctgagaatga ccatcttctg tctcgttctc cctctgctcg ttatggccat ctgctacaca3110 ggaatcatca aaacgctgct gaggtgcccc agtaaaaaaa agtacaaggc catccggctc3170 atttttgtca tcatggcggt gtttttcatt ttctggacac cctacaatgt ggctatcctt3230 ctctcttcct atcaatccat cttatttgga aatgactgtg agcggacgaa gcatctggac3290 ctggtcatgc tggtgacaga ggtgatcgcc tactcccact gctgcatgaa cccggtgatc3350 tacgcctttg ttggagagag gttccggaag tacctgcgcc acttcttcca caggcacttg3410 ctcatgcacc tgggcagata catcccattc cttcctagtg agaagctgga aagaaccagc3470 tctgtctctc catccacagc agagccggaa ctctctattg tgttttaggt agatgcagaa3530 aattgcctaa agaggaagga ccaaggagat naagcaaaaca cattaagcct tccacactca3590 cctctaaaac agtccttcaa accttccagt gcaacactga agctcttaag acactgaaat3650 atacacacag cagtagcagt agatgcatgt accctaaggt cattaccaca ggccagggct gggcagcgta ctcatcatca acctaaaaag cagagctttg cttctctctc taaaatgagt3770 tacctatatt ttaatgcacc tgaatgttag atagttacta tatgccgcta caaaaaggta3830 aaacttttta tattttatac attaacttca gccagctatt atataaataa aacattttca3890 cacaatacaa taagttaact attttatttt ctaatgtgcc tagttctttc cctgcttaat3950 gaaaagctt (2) SEQ ID NO: 2837 data: (i) sequence characteristics:

(A) length: 2961 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2837 sequence description: 1 tctagagcca aggtcacgga agcccagagg gcatcttgtg gctcgggagt agctctctgc 61 tgtcttctca gctctgctga caatacttga gattttcaga tgtcaccaac caccaagaga 121 gcttgatatg actgtatata gtatagtcat aaagaacctg aacttgacca tatacttatg 181 721 tctagctctg atatccttta ttctttatat tttctaacag attctgtgta gtgggatgag 781 181 tcatgtggaa aatttctcat agcttcagat agattatatc tggagtgaag aatcctgcca 241 cctatgtatc tggcatagtg tgagtcctca taaatgctta ctggtttgaa gggcaacaaa 301 atagtgaaca gagtgaaaat ccccactaag atcctgggtc cagaaaaaga tgggaaacct 361 gtttagctca cccgtgagcc catagttaaa actctttaga caacaggttt tttccgttta 421 cagagaacaa taatattggg tggtgagcat ctgtgtgggg gttggggtgg gataggggat 481 acggggagag tggagaaaaa gggggcacag ggttaatgtg aagtccagga tccccctcta 541 catttaaagt tggtttaagt tggctttaat taatagcaac tcttaagata atcagaattt 601 tcttaacctt ttagccttac tgttgaaaag ccctgtgatc ttgtacaaat catttgcttc 661 ttggatagta atttctttta ctaaaatgtg ggcttttgac tagatgaatg taaatgttct 721 tctagctctg atatccttta ttctttatat tttctaacag attctgtgta gtgggatgag781 cagagaacaa aaacaaaata atccagtgag aaaagcccgt aaataaactt tcagaccaga 841 gatctattct ctagcttatt ttaagctcaa cttaaaagga agaactgttc tctgattctt 901 ttcgccttca atacacttaa tgatttaact ccaccctcct tcaaaagaaa cagcatttcc 961 tacttttata ctgtctatat gattgatttg cacagctcat ctggccagaa gagctgagac1021 atccgttccc ctacaagaaa ctctccccgg taagtaacct ctcagctgct tggcctgtta1081 gttagcttct gagatgagta aaagacttta caggaaaccc atagaagaca tttggcaaac1141 accaagtgct catacaatta tcttaaaata taatctttaa gataaggaaa gggtcacagt1201 ttggaatgag tttcagacgg ttataacatc aaagatacaa aacatgattg tgagtgaaag1261 actttaaagg gagcaatagt attttaataa ctaacaatcc ttacctctca aaagaaagat1321 ttgcagagag atgagtctta gctgaaatct tgaaatctta tcttctgcta aggagaacta1381 aaccctctcc agtgagatgc cttctgaata tgtgcccaca agaagttgtg tctaagtctg1441 gttctctttt ttctttttcc tccagacaag agggaagcct aaaaatggtc aaaattaata1501 ttaaattaca aacgccaaat aaaattttcc tctaatatat cagtttcatg gcacagttag1561 tatataattc tttatggttc aaaattaaaa atgagctttt ctaggggctt ctctcagctg1621 cctagtctaa ggtgcaggga gtttgagact cacagggttt aataagagaa aattctcagc1681 tagagcagct gaacttaaat agactaggca agacagctgg ttataagact aaactaccca1741 gaatgcatga cattcatctg tggtggcaga cgaaacattt tttattatat tatttcttgg1801 gtatgtatga caactcttaa ttgtggcaac tcaaactaca aacacaaact tcacagaaaa1861 tgtgaggatt ttacaattgg ctgttgtcat ctatgacctt ccctgggact tgggcacccg1921 gccatttcac tctgactaca tcatgtcacc aaacatctga tggtcttgcc ttttaattct1981 ctttttgagg actgagaggg agggtagcat ggtagttaag agtgcaggct tcccgcattc2041 aaaatcggtt gcttactagc tgtgtggctt tgagcaagtt actcaccctc tctgtgcttc2101 aaggtccttg tctgcaaaat gtgaaaaata tttcctgcct cataaggttg ccctaaggat2161 taaatgaatg aatgggtatg atgcttagaa cagtgattgg catccagtat gtgccctcga2221 ggcctcttaa ttattactgg cttgctcata gtgcatgttc tttgtgggct aactctagcg2281 tcaataaaaa tgttaagact gagttgcagc tgggcatggt ggctcatgcc tgtaatccca2341 gcattctagg aggctgaggc aggaggatcg cttgagccca ggagttcgag accagcctgg2401 gcaacatagt gtgatcttgt atctataaaa ataaacaaaa ttagcttggt gtggtggcgc2461 ctgtagtccc cagccacttg gaggggtgag gtgagaggat tgcttgagcc cgggatgatc2521 caggctgcag tgagccatga tcgtgccact gcactccagc ctgggcgaca gagtgagacc2581 ctgtctcaca acaacaacag caacaaaaag gctgagctgc accatgcttg acccagtttc2641 ttaaaattgt tgtcaaagct tcattcactc catggtgcta tagagcacaa gattttattt2701 ggtgagatgg tgctttcatg aattccccca acagagccaa gctctccatc tagtggacag2761 27 2761 ggaagctagc agcaaacctt cccttcacta caaaacttca ttgcttggcc aaaaagagag2821 ttaattcaat gtagacatct atgtaggcaa ttaaaaacct attgatgtat aaaacagttt2881 gcattcatgg agggcaacta aatacattct aggactttat aaaagatcac tttttattta2941 tgcacagggt ggaacaagat g (2) SEQ ID NO: 2838 of the data: (i) sequence characteristics:

(A) length: 3383 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2838 sequence description: 1 agaagagctg agacatccgt tcccctacaa gaaactctcc ccgggtggaa caagatggat 61 tatcaagtgt caagtccaat ctatgacatc aattattata catcggagcc ctgccaaaaa 121 atcaatgtga agcaaatcgc agcccgcctc ctgcctccgc tctactcact ggtgttcatc 181 721 cggtgtcgaa atgagaagaa gaggcacagg gctgtgaggc ttatcttcac catcatgatt 781 181 tttggttttg tgggcaacat gctggtcatc ctcatcctga taaactgcaa aaggctgaag 241 agcatgactg acatctacct gctcaacctg gccatctctg acctgttttt ccttcttact 301 gtccccttct gggctcacta tgctgccgcc cagtgggact ttggaaatac aatgtgtcaa 361 ctcttgacag ggctctattt tataggcttc ttctctggaa tcttcttcat catcctcctg 421 acaatcgata ggtacctggc tgtcgtccat gctgtgtttg ctttaaaagc caggacggtc 481 acctttgggg tggtgacaag tgtgatcact tgggtggtgg ctgtgtttgc gtctctccca 541 ggaatcatct ttaccagatc tcaaaaagaa ggtcttcatt acacctgcag ctctcatttt 601 ccatacagtc agtatcaatt ctggaagaat ttccagacat taaagatagt catcttgggg 661 ctggtcctgc cgctgcttgt catggtcatc tgctactcgg gaatcctaaa aactctgctt 721 cggtgtcgaa atgagaagaa gaggcacagg gctgtgaggc ttatcttcac catcatgatt 781 gtttattttc tcttctgggc tccctacaac attgtccttc tcctgaacac cttccaggaa 841 ttctttggcc tgaataattg cagtagctct aacaggttgg accaagctat gcaggtgaca 901 gagactcttg ggatgacgca ctgctgcatc aaccccatca tctatgcctt tgtcggggag 961 aagttcagaa actacctctt agtcttcttc caaaagcaca ttgccaaacg cttctgcaaa1021 tgctgttcta ttttccagca agaggctccc gagcgagcaa gctcagttta cacccgatcc1081 actggggagc aggaaatatc tgtgggcttg tgacacggac tcaagtgggc tggtgaccca1141 gtcagagttg tgcacatggc ttagttttca tacacagcct gggctggggg tggggtggga1201 gaggtctttt ttaaaaggaa gttactgtta tagagggtct aagattcatc catttatttg1261 gcatctgttt aaagtagatt agatctttta agcccatcaa ttatagaaag ccaaatcaaa1321 atatgttgat gaaaaatagc aaccttttta tctccccttc acatgcatca agttattgac1381 aaactctccc ttcactccga aagttcctta tgtatattta aaagaaagcc tcagagaatt1441 gctgattctt gagtttagtg atctgaacag aaataccaaa attatttcag aaatgtacaa1501 ctttttacct agtacaaggc aacatatagg ttgtaaatgt gtttaaaaca ggtctttgtc1561 ttgctatggg gagaaaagac atgaatatga ttagtaaaga aatgacactt ttcatgtgtg1621 atttcccctc caaggtatgg ttaataagtt tcactgactt agaaccaggc gagagacttg1681 tggcctggga gagctgggga agcttcttaa atgagaagga atttgagttg gatcatctat1741 tgctggcaaa gacagaagcc tcactgcaag cactgcatgg gcaagcttgg ctgtagaagg1801 agacagagct ggttgggaag acatggggag gaaggacaag gctagatcat gaagaacctt1861 gacggcattg ctccgtctaa gtcatgagct gagcagggag atcctggttg gtgttgcaga1921 aggtttactc tgtggccaaa ggagggtcag gaaggatgag catttagggc aaggagacca1981 ccaacagccc tcaggtcagg gtgaggatgg cctctgctaa gctcaaggcg tgaggatggg2041 aaggagggag gtattcgtaa ggatgggaag gagggaggta ttcgtgcagc atatgaggat2101 gcagagtcag cagaactggg gtggatttgg tttggaagtg agggtcagag aggagtcaga2161 gagaatccct agtcttcaag cagattggag aaacccttga aaagacatca agcacagaag2221 gaggaggagg aggtttaggt caagaagaag atggattggt gtaaaaggat gggtctggtt2281 tgcagagctt gaacacagtc tcacccagac tccaggctgt ctttcactga atgcttctga2341 cttcatagat ttccttccca tcccagctga aatactgagg ggtctccagg aggagactag2401 atttatgaat acacgaggta tgaggtctag gaacatactt cagctcacac atgagatcta2461 ggtgaggatt gattacctag tagtcatttc atgggttgtt gggaggattc tatgaggcaa2521 ccacaggcag catttagcac atactacaca ttcaataagc atcaaactct tagttactca2581 ttcagggata gcactgagca aagcattgag caaaggggtc ccatataggt gagggaagcc2641 tgaaaaacta agatgctgcc tgcccagtgc acacaagtgt aggtatcatt ttctgcattt2701 aaccgtcaat aggcaaaggg gggaagggac atattcattt ggaaataagc tgccttgagc2761 27 2761 cttaaaaccc acaaaagtac aatttaccag cctccgtatt tcagactgaa tgggggtggg2821 gggggcgcct taggtactta ttccagatgc cttctccaga caaaccagaa gcaacagaaa2881 aaatcgtctc tccctccctt tgaaatgaat atacccctta gtgtttgggt atattcattt2941 caaagggaga gagagaggtt tttttctgtt ctttctcata tgattgtgca catacttgag3001 actgttttga atttggggga tggctaaaac catcatagta caggtaaggt gagggaatag3061 taagtggtga gaactactca gggaatgaag gtgtcagaat aataagaggt gctactgact3121 ttctcagcct ctgaatatga acggtgagca ttgtggctgt cagcaggaag caacgaaggg3181 aaatgtcttt ccttttgctc ttaagttgtg gagagtgcaa cagtagcata ggaccctacc3241 ctctgggcca agtcaaagac attctgacat cttagtattt gcatattctt atgtatgtga3301 aagttacaaa ttgcttgaaa gaaaatatgc atctaataaa aaacaccttc taaaataaaa3361 aaaaaaaaaa aaaaaaaaaa aaa (2) SEQ ID NO: 2839 of the data: (i) sequence characteristics:

(A) length: 143068 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2839 sequence description: 1 aagcttcagt atgcaaattt tcaatgacat gtgcctgtgg attctgaaaa ttcacagatc 61 tgtctatcct tagctgagac tgaaggcatc tacttcccaa tgaccaaatc ctggtgctgt 121 ggcgacactg agcaggaact ccattagaat atcaatatca ctctgcagac attccatgat 181 721 aggggtagaa gtccattatc cacttggtct ccattgatac ccaaagtggg gagaggctcc 781 181 gtaagctatg ttttctcttg ttgcaattac acttaattta ccaccagctg cttcaatgtc 241 atgggctatc ttgaaaaatg aagctccttt cgtagtcaaa ctggatgcaa gacacagcaa 301 atgagaagtt actaaattgt tggagtcctc atagctactg cctgctttaa tgaacaaacc 361 aattcttgat gcagggcata gttttccaaa ggagaaatca taaaaccatt tggaaatttg 421 atgatctcaa ggtcctgatg atgtggagcc actcctatgg gggtagctgt ggctttaact 481 ttgggggcaa ctttgaggga ataaagtctc aaaaagaggg aataaagtct caagattgtt 541 cgtgacccat agtaacttct ggcttaaagg accattcggc aagtttttaa atgtattttc 601 tataatttcc atgtagttct ttatattttc tatttcttat ttaaaacctc tattttagct 661 cgtttccttt gacactgctc tggcagggaa aggggtggca ctgcctcatt actgccaggt 721 aggggtagaa gtccattatc cacttggtct ccattgatac ccaaagtggg gagaggctcc 781 tgttactgct ggtgagggtg ggagtccccc cactaagttt ctgctaatac tgtcctggtg 841 gcttgctact attcccatga agcctccact gatactacat tacttttggg tggtggcaaa 901 tgtcctgcct ctccactagc cctcctgctc taaaacaacc cgagtaggga gtgggaagga 961 agctttgtta ctggtaggtg ggagctgaag tccagacttg ccacattgtc ccactgatgc1021 tacagggagg aggaagcggg ccacattact gcctgatagg gatgaaagcc ccagctccct1081 acctggcctt cgctgatacc agcctgctac aggagtgaag agagatttga aggcctcaat1141 atagcctgtc gagggtggaa gtcttgctcc caatgggcct ttagcagcat gggtgggtgt1201 ggggccatag ctgtctctgt actgcttggc tagagtggag tatttgaggt ccaaaagttt1261 tctgtctttc tagccctttg gttagaaaga gcagactttt gttggaagta tttttttgtg1321 tttacctgtt gtatttccag gttcctagct tctccagcac agtctgggat gtgtgagaca1381 cagagaaaat ccagtgatgt tactaccgta tggtttcttg ggtcccaacg tctctagcta1441 atctgctcca ccttttggag ttttcttatt tgttttagat cagggattta gtcatattta1501 ataggagaaa tatggaaaaa tacttctact ctatcttcct ggaagttcct gtttattttt1561 tatgtccttt tcctctggct agaccgtaag agacttacga aacaaacact tacacattct1621 actaaactca atgtccaaag tttgtgaact tcttgaatat tgcttgttca tttccacccc1681 cagtcactga ctgaatctcc ctgctgtctg tctacaatgc caatgagctt ctggttaact1741 tcttctcatg catgcttagg caacaacttc ccagttttac tacacttgcc catccctagt1801 tttgttgttg cttaatccct tggcctagtg ccaccatact cctccagcag agcaaccaat1861 tcttacatta taggacagca catatccact aaaaacagtt catgccacac caaccacatt1921 tccctttgtc aacaaaatta cttgatagat aattccagga atgcctgatg aagctgattg1981 acaacaagat atttggcaga ctctctgctg cctatacata ccttagcatg tggaactcaa2041 gtaatgagag gtccatttaa ttggattgaa ttgggctgga taggattgga ttgaatcctg2101 tgggatggct aggctaaatt agaaatgaag actagtttaa cagcagtatc caaggatagt2161 tgactaatga gttaatttta ctctcaaaga cagtctttag tagtaagctg taatgcatta2221 tatcaaacta ttttccagtc aatgatttat aagttacttg aataaggatg ctaaagatgt2281 gccttattga aatggcaatt agcacaaagt tgggaatgaa atctaattag ttaaataaca2341 gaatcacata aaaaaggact tgaataaatg tagcatccta ccatgttcct ggatagaaag2401 actgctatcg taaagatatt cattctcctc aggttaaatt ataaactcaa tgcaattcaa2461 caggatttta aaaaactaga caaagtgatt ccaagtttac gtggaaaata aaatgtgagg2521 gaccaaacaa tatttgaaaa agaaagagaa taaaatctca tccttccaga taccacaatg2581 tattataaag caatagtaat taacatgagg gcagaaatga gcaagcaagt gaacaaaata2641 agacagatag tcacaggaaa ctcatatatt tataggtgct ttgcgtataa tgaagatggt2701 ccttcaaatc agttgggaaa agatgggtta ttcaataaat ggtgttgggt aaaattggtt2761 atacattggt gagaaataaa gtgaaactcc tactttgtat catatgcaaa aaatagattc2821 cagacagatg aaatatttaa atgtaaaaaa taaaattcta aaactactag aaaaaaaaga2881 agaatatttt tattcctttg aaatagaaaa ggtcttacta agcaaaacac agaagtaata2941 aatgaataaa tgaagacaaa tatgataaaa ataagttaaa aatataagca atctttcttt3001 gttttttttt cacctttcct agaaaaaaat atataggcaa cttgttaagc aaggtagatt3061 acaagaaaat atttacaaca tttgacaggc cacagattat tatccagcct catctgataa3121 gaaaacttca acataaagat atctgttttt tttcttataa ggttcctcaa agtgagccaa3181 tcacttctta agctgaacaa aaaacaaaac agaagtgatc ttttccaata atgaaaacaa3241 acattgacag agcagctgtaggatcctttc aggcaaatta tgaaaaggtg ccctttctca3301 gaaaccacag ttaccattca gctttgtgac cagaggtttg actgtaccct agtccctact3361 agcaacccaa ccacataacc aacttcaaag gtcctgaatg actgtgttgt acttaatggc3421 agatgatcta tctcccattt ttgtcctaag gattttccaa gataatatat ttctgcattt3481 gttttgcttt tacttcactc caaattgaaa tctatttgtg ggataagact aaagaaatgc3541 593601 atgacctcag cttttacttt aagaaaatag aaaaagcagg ataagctaaa gccaaagtaa3661 acagaagaaa ggaaattata aagataagag cagaaatcaa tgaatagaaa acaaaagaaa3721 aaaatcaaac caaacagctg attctttaag cagatctata aaattgataa aactctagcc3781 agattgatca agtaaaaaag agagaagaca caaattacca gtattaagaa tgagagaggc3841 aatatcacta cagatcctac agatataaaa agtataaggg catactttga ataattttat3901 gactataaat taggcaactt agataaaaca aatttcttga aagacacaaa caaccaaagc 398661 tcacctaaaa tactcacaaa ttgaatagtc ttatagctat tacaaaattg aggccaggcg4021 cagtggctca agcctttaat cccagcactt tgggagggct aggaaggcgg atcacgaggt caggagtttg agaccagcct gactaacatg gtgaaaccct gtctctacta aaagtacaaa4141 aattagccag gcttggtggt gcgtgcctgt aatcccatct actcaggaga ctgaggcagg4201 agaattgctt gaacctggga ggcaaagttg tggtgagccg agatcgcgcc actgcacttc4261 agcctgggca acagaacaag actccgtctc aaaaaaaaaa aaaaaaaaaa aaattgaaat4321 tatagttaaa agtcttccca caaagcaaac tctagaccca gatggcttca atggtaaatt4381 ctactggaca atcaaacagg aaacagtaat aattctccac aatgtctttc ataaaattga4441 tgcggaggag atactctcca actcattcta tgaaactagc attaccctga taccaaaatc4501 atacagagac agtgtaggaa aacaacagat cagtatcctt catgaacata aatgaagtac 4561 aatgcagtct tatgcataaa tcagagcttc attgttctac agataaggta atgtaggatt4621 gttggttgcc cctccaggtc tgttaaattc acctccttcc ccagagagca tccttcttaa4681 ggacagggag cctcaatatg tcagtcctca cagcacctcc ctcagtcttc agcacttacc4741 agctcatcac cacaaccgat accacattgg ataatttcat gaattacttt agagcaaatg4801 caagagaaaa aatggatttt tatataggag aagaaggagg aaattcttgt ggatttggta4861 cagaataggg ccaagggaaa attacagatg taaaaagaaa agtgtgtgaa atagtatcct4921 tagtgctcac aaatacaatg atttcattgt ttttaaaaat aaaaaatgac aaatgtctaa4981 tgcttggtgg taatgcttta ttgaatgtgt gttatacact ggttcctcat tcctgaagtt5041 agaaataata ccttcctctt ttcatttggttatgtttgct gaaacaaatc aaaggctgag5101 attgaaacac atgctacttc aggtggatga ccttactact aagctcatca caacagcact5161 51 5161 tacagctgaa gaccccagag tcctacctaa cttttgtcac aacccagatt ttggccatgt5221 agttctgggc cttaccatta aagcagacag aagtcagagg aatgactcct ttccacttga5281 829 5281 agtgagctgc aggcttctag gaaaggcaag atgcacattt ccctcctgtg gagcataaag5341 cctttgtaat tcaggactta ggacccatat ggatttgaaa tattatgaca ttggagctgg5401 agtggttggg gacaacacca gtagtgttat aggccatgga atgtcaaaag aacatggaac5461 cctgttaaaa tcattaaaca tcaaaactct cccctcctct ggtgatatgg tttggctgtg5521 tccccatcca aatctcatct tgaactccca tgtgttgtgg gaggcaccca gtgggaggta5581 attgaatcat gggggcaggt ctttcccatg ctgttttcac gatactgaat aagtctcaca5641 agatctgatg gttttataaa ggggagcttc cctgcacaag ctctcttctc ttgtctgcca5701 ccatgtgaga catgcctttc accttccgcc atgattgtga ggcctcccca accatgtgga5761 acttttaagt tcattaaacc tcttcctttt gtaaattgct cagtctcaaa tatgtcttta5821 tcagcaacgt gaaaacagac tatctgattt tctgtgggat gtggattatg accatggaca5881 gagcataact gggacagagc tggaaaaaat attaattagg tgcttaaaaa tatttgttag5941 aactatcttc atgaatgaga atcaatcctg tttccatggt gattcaccag gcatcaattc6001 caagcatcca tgaatcagaa aagtcctatc ttctcttagt tatcatccag gactccaagg6061 aaccataatt agccaacctg ttcacatttc cttttcattc actagcctcg aagtttccag6121 gggacaggga ctctgtccta ttcatttctg taaccttacc acctgaccca gaatagctgt6181 5731 6241 caggtactga tcacgttatt ccaattatca atttagtatc tttcttcacc attaaactgt6301 gaaattcttg agggaagaac ctatgactga tttatctctg taaactcatg ccaccagtat6361 tcaaaatcac acctagcaca tagtaaacac tcaatgtttg ttgaatgact gaaggaatgg6421 atgaaaatga acctccttgc ttctgaccag tggatgagtt gcttggccgt gttcctacag cctagagctc atcccctaaa gcatctgaag ttacccatta gtgcaatggt tcttgaacgc6541 666601 66 tttgtatttt taccaaggag gtgtgatgga gtcagatgca agaaggctag ttgaagaaac6661 826721 atcatcttgc tcaagtcatg ccagtctcag gacctcattc agtctcttca gctgtaatat6781 gggtgggttg caccacataa ccagaaagat cccttccagc tctacccact tacaacatgg6841 tcaaatttgg tctgattttt taaatcgtag tacaatatat atgacataaa attcaccatt6901 ttagccactt taaatgtaca attctgtagc attaactaca ttcacattgt tgtgcaacca6961 tcactaccgtctacttccag aactcttcat cttgcaaaac tgaacctctg ttgtcattag7021 tcactaacta ttcctctccc cccctccttc taggccctgg caatcaccat tctactttct7081 gtcgctatga atttgactac tctaggtaac ttatataagt ggaatcacag catttgccct7141 attatgactg gtttagttga cttagcacaa cctcctaagg ctcaaccaca ttttagcatg7201 tgtcagaatt ttctttgttt ttaaggctga ataatattct gttgtatctg taaataacat7261 ctttattcat ttgtccatca acagactgtt gagttcctcc catcttttga ctattgtgaa7321 aaatgctgct atgaacctga gtgtacagac atctggttga gtactgcttt caattcattg7381 tttatatgga tcatatggta attttatgtt taattttttt ggaactgcta cattgttttc7441 cacagtgtac atcattttac atttccatca gcaatgcaca aaggttccaa tttctccaca7501 ttcttaccaa cattttttat tttctgtttc ttatttattt gtttatttat tctgagacag7561 agtctcactc tgtcacctag gctggagtgc agcagggtga tctcagctca ctgcaacctc7621 tgcctcccat gttcaagtga ttctcctccc tcagcctccc aagtaaatgg aattacaggt7681 gcccaccacc acgcccaggt aatttttgca ttttttttag tagtgatgag gtttcaccat7741 gttggtcagg ctggtcttga actcctgacc tcaagtgatc cacccgcctc agcctcccaa7801 agtgctggga ttacaggtat gaaccactgc acccaggcca ttttttgctt tttagataat7861 agtcatccta gtgggtatga agtggtattt cattgtggtt ttgatttata tttccctaat7921 gatcagtgat attgagcatc tttcaagtgc ttattggcca ttttcttctt tggagaaatg7981 tctatgcaag tcctttgctc attttttaat ccagttgctt tttgttattc tttttgattt8041 gaaagtgttc tttatacctc ttgtatacta atcccttatc agatatgatt tataaatatt8101 ttcttctttt ccatggattg ccctttttac tctgttgata gtgttctttg atacaaaata 8461 8253 8221 tggtgtccta tccaagaaac tgttgccaaa tccaatgtca taaagctttt tcccatgctt8281 ccttctaaga gttttgtagt tacagctctt gtatttaggt atttgactat tttgagttaa8341 tttttgtaca tcgtataaaa taagaatcca atttttattt tattttactt tttgtatgtg 8458 gatatccaat ttccccacca ccattcattg aaaagactgt ccttttccta tcgaatggtc ttggcaccct tgtaaaacat aatttgacca tatatgtgag ggtttatttc tgggctctct8521 attctattct attctattct attctattct attctattct attctattct attctattct8581 6381 attggtccct atgtctttct ttattctagt accaccattt tgctcatcat aactttgtag8641 taagttttga agtcaggaat cgtaagacct ccagctttgt tcattttcaa ggttgttttg8701 attattcaag gtcccttgat agtccatatg aatttcagga tggatttttc tatttctgca8761 aaaaaaaaaa aaaaaaaaaa aaaaatcatt gaaattttta aacagattgc attaaatctg8821 tagattgttt tgggtagtat tgacatttaa caacattaaa tcttccaatc aatgaactag8881 gctattttta tttatttttt ctgtttcttt gagctacttt tgtagttttc agtgtataag8941 tttttgctac ctggttaggt atacttctaa gtattttcta ctttttgatg ctattgcaca9001 ttgaatcgtt ttcttaattt ggtggtagcg gggattgtgc attgttagta cataaaaatg9061 caactcattt tttgtgtgtt gattttgtat cctgcagctt taacaaattc atgttagttc9121 taacagactt attctatgaa tcattagggt tttctacata aaagatcatg tcacctacaa9181 acagagataa ttttactcca ccccttcccg ttgcaatgcc ttttatgtct ttttcttgcc9241 taattgttct ggctaagact tccactacca tgttgaatag aagtggtgaa agtagacatc9301 cttgtcttgt tccaatctta gagccaaagc tttcagtctt tcacggcctg aaagactttg9361 taatatgttc tcaaggttaa agaacttcag aagttttcta agcaagagac cattttatta 9421 acttagttgg cagcaattct gagagattag aatgaaaaga tagaggataa gaagtatctg 9481 gcaggtataa tatattgagt gtgctgaata tacttttagt tttgtatagg tgttaaaaaa 9541 tggcaaagga ggccgggcgt ggtggctcac gcctgtaatc ccagcacttt gggaggccga 9601 ggcgggcaga tcatgaggtc aggagatcga gaccatcctg gctaaaacag tgaaacccta 9661 tctctactaa aaatacaaaa aactcgctgg gcatggtggt ggacacctgt agtcccagct 9721 actcgggagg ctgaggcagg agaatggtgt gaacctggaa ggtggagctt gcagtgagcc 9781 gagatcacgc cactgcactc cagcctgggc gacagagaga gactccgtct caaaagaaaa 9841 aaaaaatggc aaaggaaaga atgaaaaata aagcaaggtc ccagaagagg ccaaaaatct 9901 taatcaaaat tgactgaaca ttacggaatg aaatggtttt tcctttactc caattaacga 9961 cttcacaaga agattccatc ctcgtttata agattaaccc aaaaccagca cttaaaacca10021 gaagccttga aaggatggag tttggggacc cttctcatgt ctattcccag aagggggtct10081 tcttctgggg tcctgtcccc taaagagcta ggcaaaaagt atgcttgcca catctgttga10141 aagatagaaa gttggtctaa aaatacatga gagggaactg aaacatttca gagaaggcaa10201 gactcagaag taagaaacca aaagaggaag gtaaaattct agttacaaag aaaagaggaa10261 102 10261 tggaaattaa attgtcttac agagaaaatc cagaactgcc ccctcttccc ttactactcc10321 atcaaaaaag gggaaaaata gtcaatggga aagttttgag aaaaatagat ctctgcattc10381 ttctggttga gaattcagac aacttgaact agagagctgg gtaatttctt gactaaaggt10441 gtgttagatc tgaaagggtt tttcttaaaa ttgtctgtgt tcatccctcc catcttagag10501 aggaacacag gataagagac ctctggagct cccccagggt caccgagcta ataggatcag10561 agacaaagct acaaagtcat tttctgacat ctctccaggg ctcttttttt ctggaccccc10621 catatcaaca tgatgtattt attacattgg attagcaact ctccttgagc tttcctcagt10681 accaggttta catctcagtc tgtgggtctc agagaaagta cccaatcagc agcaacatta10741 cctggaaact catcagaagt gcccctcctc agccccaccc cagatctatg caatcagaaa10801 108 10801 ctctggaaat gcaggccagt cctaacaagc ccaccaggga attctggtgc actaaggttt10861 10834 10861 gagatccact gatcaaagaa ataatattcc ttttcttcat tataatagca tgaataataa10921 ctaacatgta tttcacaatt tacaaaagag ctttatgctc ttgttaaatt tgagggtagt10981 cttctcaaaa tctctgtgag gctagaaagt cagatattga aacacctgtt ttatgggttc11041 aaagataggt tcaaaagaga gtaaatgatt gttggggtgg caggtccaga gagggcagga11101 tcaaaactgc aattgagtct tctgccttat aaaccagcat agcttcccca aggcacgtca11161 111 11161 cttctcgata aaatggtgac aactagagtg tcctttcaga tcattcttag aagcatggag11221 tgctaggtca attgtgtaat tgatgaggaa ataataatac taagaactcc catcttctac11281 gtccttatat acaatcctgt caggtagaag ctgagtctca gagagaacaa gttgccctcc11341 caggaccacc aggtaagctc ggcatagctg tgcttagaat gtaggctgtc tggcttctgg11401 gcttgcctgc ccagggaggc tttgtgggtt ctacttggtc atccagatca cagaggggca11461 gcactgactc ctacccagtg ctcttgactg tacatctaat actttctact aagaaaaccc11521 cttctcttta gaccaatggt tttcaaatct tggtgtgcat tggaatcacc tggaaagctt11581 gttaaaacac agattgtccc accccaagag tttctgattc tgtaggctgg ggtggggacc11641 catgaaagtg catttctaat aaggtcccaa gtgatgctga tgccaccagt gtgtggacaa11701 ccctttgagt ggtgaagctc tggacaccct aatttgcaag gctaatcagg catatgtggc11761 aaatgaatac gaactgaaat tctgactcca atatcttcac tgatattcct aatccatagc11821 atacacacag tcccattcgt ttccctttta gcttttaatc tacatttatc ctttcttcct11881 ctgccactgc cttctctcca gttagctcaa accaggtaac acataaccgc ctcctaactc11941 atccgcccag ttggtttctt tggctttaat ctagacttct tatctccacc agatttgcct12001 taccaaagca ccaatttctt aaggcagggt tagaattaaa aatcttctgt tcctcctcat12061 tgcctaaaac tcctaaactt atgattcaag gtcttccatg accttcatgg accagtctaa12121 cgttttagcc tgtcctaagt gacatgcctc caccacatac ttcatgcttt ccactttctt12181 12224 12241 ctctgtagat ttaaaaatcc tacagggctc atctcaaatg ccctttcctt catgaagcct12301 12342 123 gcgtttgtgg ctattatctt acgttgtttt gtattaaaat ttctccagct ttacacattt12421 gtcatcctct taaggacaaa catcttatta tggtcaatgt gaagctatag aggataattt12481 aatgaaatat tccaagggct agtcattaca catgactgat ttatctctgt aaactcatcc12541 acactcatcc acctgatttt gattggccaa gttaatgaat cagagaggaa aagatggtaa 1268401 12661 aggccctgag ataatacttt atgaacaata aaactccggg ttctattgac agtgaagcaa12721 gacctgagag agaaggctaa attcccttgt gtctagctgc cacaatcttc tgagaataat12781 ggcctttctt cccgtctgcc ttctgaatca taggcaaatt tttctctttg gtgatcccta12841 atacagaaag gggaagtcaa ataaaatata tacaaggaga aggattctgg gagacagagt12901 ttcttgattc ccttctgcat gctcctcctc aaaagccttt atgagcttac cttacattta12961 aattctttta aacaaggcat tatgtggtct ggtcttttcc agctccacac accttcacac13021 tacattcccc ccagctaatt ctgctctggg aacactgacc ttcttttagt tctttgaaca13081 cattgatttc tggtcaagat gactcagtaa cttcaacctt tgttgtgccc ttggtgctgt13141 gaagatatag atatatatta accactgcac accagaaatc agaaatagca caacagagaa13201 taaagtcatt gagccatctt ctgagctcca aaagacaaat tttctccaaa aagacaaatt13261 13348 57321 agggctaaac cacatgcctg ttgagcccag gtttggaaga agacaatggc aggtaggaat13381 gtggtttctg atgggtaata ggtactgttt tcatttactt tctgttgctt ataacagaat13441 atctgaaact gggtgcttta taaagaaaag gaatttatgt cttgcagtta gggaaactga13501 gaagtcaaaa gttgagggct gcaattgaca agtgccttct tgctggtggg gatactctga13561 agagtcttga ggtggtatcg ggcataccac tctcagtgag gggactgagc atactaggtc13621 aggtctttct tcctcctttt ataaagctat cagtcccact cttatgataa cccattaatc13681 cattaactga ttagccaatt aatccatgaa tggattaatt cattcatgag ggcagagcct13741 tcctgaccca aacacctctt aaagactcca cctctcaata ctgccacatg ggggattaaa13801 tttcagcatg agtttttgat gagacaaata ttccaatgat agcagttatt aaaagtacat13861 gcttgagaga aggggattgg agtcagcctc agtgcttaaa ctcaaaagct aggatgaggc13921 tctaacactc ctgaaagaag gagttgctgc tggctcctta ccagggctat atcttttaca 8681 gagcaggaga cctaaagagg caggaggacc cggacatcgt ttggaaacca agcactaaaa14041 caggccatct gttatacccc caatatcctc tcaggacaag tgttttgaac cactcacaca 14158 14161 aaagaccaaa aatactattt tattcaaaat gaaaatacaa tccaaaattc catgattcat14221 gaagaaatca aatggtatgt gttaggtggt tcttgcattg ctatagagaa atacctgaga14281 ttgggtaatt tataaagaaa agaagtttaa ttggctcata attctgcagg cttcacagga14341 agcatggtgc tggcatctgc tcagcttctg gagaggcccc aagaagattt gctcaaggca14401 gaaggttaag ggagagctgg cacatcacat ggtgagaaag gaagctagag agagagtgca14461 gggtgaggtg ccacaagtta ccacagccag atctcttgag aactcactta ctttcatgag14521 gacagcacca agccataagg tgtagggagc caaagtccca tgggacatga ccaactcagc14581 attccactgg aggctatatg atcaaacagc aaactgttta tcacgaatgc aggatgtgag14641 caaactcaca actggtcctg ccaacagaag gtttgttgga ggcaatcact ccctggtgcc14701 14748 14761 agctggcacc ttattccatc ccccttctca ctatcttttt ttgcctaata aatacagagg14821 gctgtgtaaa gctcagggcc cttgtccact agaggcaagt tgccccctga ccccttcttc14881 caaatatact cttttgtctc ttgtctttta ttctcacatt tgcccccttt gttcagttcc14941 actaggtccg tgcgggttat atactggtgc cctgagcagc aacagaatca ggctctcaac15001 aagtgtcatc cgaacatggg actttgagga catgaacgaa gaaggtctgc tggagcagag150 gaacagaaat tgacaaggtg aacagggacc ctgggacgag tctgccagca gcggatataa15121 ggtcagttac ctaaagaggt actgatcagt gccctaaaga gatactggga gcagtgcttt15181 1522 15241 attaaagaaa aacattatgt gcagttgctt aaagttgtat tggaacagtc tggagcttag15301 gttaatttgc agacactaac tatcacatgc gtccgtgtga agagagtcca ccaacaggct15361 ttgtgtgggc aataaagctt tttaatcacc ttggtgcagg tgggctgagt ccaaaaaagg 8621 agtcagcaaa gggagataga ggtggggcag ttttatagga tttgggtagg tagtggaaag15481 15541 15558 ggaaatcatg agactctttt tctgggacag gagtgtcaca aggtcaattg atcagttggg gtggggcagg aacaaatcgc aatggtggaa tgtcatcact taaggcagga actgactatt15661 tcacttcttt tgtggttctt cagttgtttc gggccatctg gatgtatagt gcagctcaca15721 ggggatatga tggcttaggt tgggctcaga gacctgacat tcctatcttt ttatattaat15781 15827 15841 atgtagagat aaggggcaat gtttctcagg gctgcttcaa gcacgatcac ggtggtgtgg15901 gaatctagag tgggagagat taagctgaag aaaaattttg gggaaagggg tgatattctg15961 gggttgttag aaggagcatt tgtcatatag aatgatgatg gcctggatgt ggttttgtat16021 gaattgagaa actaaacgga agacacaagg tccaaataag agaaggagaa aaacaggcat16081 taaaggatta agaattggga ggacacagga catccaatta gagagtgccc aagggggtcc16141 agtgtaatta tttgcctgga caatgagttt tggggctcta ttaggttgtc atataccagg16201 ccagattgat ttaggtaaaa acaacactct tcatttaaaa tatacagagt cctccttttt16261 tagcagtgag taagttgaga cctattcctg tcttcttata ttaataagta aaataaagca16321 aaatagaggt gaagtgttgg tgtcatgagg ggaacaggaa gcagttcggt cctatttgca 1635981 16441 acacatgtag atggaggagc cacagaggaa gaagagaact ttgtaaggca aaactggaaa16501 tgtaaaggga aaagatgaga gggagcacca aaagaggtgt cttgcaccca gactcaggga16561 tctagtgaga gcagcagctg ttagaggttg taatggggat taatggggct actgggtaga16621 gggggaggtt caacttttat ggtgtatgag aaagcgcata gtgtctacaa gcaacctttc16681 16741 aagaacaagg ggaaggtagc caaggatgga gtgaaatgta gggcaaatgt cttaaaggaa16801 atgagaggtt ctaagaggag ggctagtggc ttgtaaccca catggaagag gttacgaaag 8661 gatgatagaa tggaatgagc ctgtgaggct ggaaggagga attttccttg gtccaagaac 16975 catttgcctt gtgtgggaag agtttgatag gtggaagttt cagtgggagg gtaggcggga16981 3617041 cctttagcta ccttatcagc ataagctttg ccctgagtga tgggatctga tgccttttga17101 tggcgcttgc agtgaatgac cctagcttcc ttggaagtag agcagcttta agaagagttt17161 ttatgaagaa ggcattaata atggaggacc ctcgtatagt gaggaaacct ctttcaggcc17221 atataacaga atggaggtgg agaatatgga aggcatattt agagtcagta taaatactga17281 cacacaatcc ttttgcaaga gtgagggctc gagttaaggc aatgagttcg gcttgctgag17341 agggagtgga gtggggcaga gtggtagcct caatgataga tgtgaaagat actatagcgt17401 agcctgcctt tgctggtgag tggtgattag gcctagtgga actgccatca ataaaccaag17461 tgtgatcaga gtgaggaaca ggaaagaagg aaatatggga aaatggagtg aatgctaggt17521 ggatcagaga gatacagtca tggggatcag gtgtggtatc aggaataatg tgggaggcca17581 gattgaagtc caggccagga acaatggtaa ttgtgggaga ctcaacaaag agtgagttca17641 actgaaggag ccgggggagg gggagagcgg cagaaagtat atgcatcagg tgtgaggaag17701 aaaatacatt ttgaaagtta tgagaactgt agagagtgag ttgatcatag tttgtgattt17761 tgagggcctt taaaagtatt aaagcagtgg cagctgccac acacagacat gagagccagc17821 ctaaaacagt aaggtcaatc tgtttagaca gaaaggctgc agggcactgt ccaagctctt17881 gtgtaaggat tctgaccgca cagccttgta ctttggctgt gtgtaatgaa aagggttggg17941 atgagttagg gagagctagt gtgggagtag cttctagggc tgtttttaag gaacataaag18001 aggagtgggg aaaggattta ggatctatgg ggtcagctag gtttcctttt gtgagtttat18061 gtaatggttt agtcaggatg gcaaaaccag gtatccaaag gtgaaagtac ccaaccatgt18121 ctaggaagga aaggatttgt tgctttgtag aagggattgg ggtttgggag attagccgga18181 cacagatcag gagggagagc acttgtattt ttatgaagaa ttatgccgat aggtaacgga18241 tgaggaagaa atttgggctt tggaggggga tacacgatat tcccttgaga atagatgttg18301 gaggagcagg agggtgtcct gttgggaaga ttcataggag gggctataaa gtagaaggcc 18421 18458 18481 ctgagactga tgggtgtcag ggtcagtcca agtgtaagtg aagagaggct ggggtgaaga18541 gtgcaaagga atagtaaaga aagcatcttc aagatccaga acagaataat gggttgtgga18601 gggaggtatt gaggatagga gagtatatgg gtttggcacc acagagtgga taggcaagac18661 aatttggttg ataagctgaa gatcctggac aggctttagt cccttcaaag cctgttgtgg18721 gatgggatac tggcattgag caggataagg gtaattaggt tttaatggga tggtagggtt18781 gcgtgatcgg tcaccaagga gggagtagag gtatcccata cttgtgggtt aagataggga18841 gtcaggaggg gaggttgtga aggaggcttt gaactgggga aaagggtggc aatgaggtgt18901 ggctgtagcc caggaatagt cagggaagca gataatttag ttaaaatgtc tcaatttaat18961 aagggagctg ggcaggtggg aataactaaa aaggagtgca taaaagaatg ttgtccaagt19021 tggcaccaga gttggggagt tttaagaggt ttagcagcct gaccatcaat aaccacaaca19081 gttatggagg caagggaaac aggcccttga aaggaaagta atatggagtg ggtagcctcc19141 atattgatta agaaagggac agacttaccc tccactgtaa gagttaccca aagtgtctgt19201 gatgatccag gaggcttctg aggtgatcag gcagtgtcag tcttcagctg ctaagctgag19261 aagatctggg aaggagtcag tcagagagcc ctgggccaga gttccagggg ctctgggagt19321 ggctgacggg caagttggac agtccgattt ccaatgcggt cccacacaga tgggatacag19381 19337 19381 tttaggagga atcctgggct gtaggcattc cttggcccag tggccagatt tctagcactt19441 gaagcaagat cctggaggaa tgcctgacca cagtggttta ggtgttttga agttcttgtg19501 tgctggagat gtggctgagg tttttctcac agcagaggca agtaattgca actcagaaat19561 acattgccac ttggctgtct cttctctatt attgtacacc ttgaaggtga ggttaattaa19621 gtcctgttgt ggggtttgag ggccataatc taatttttga agctttttta atgttgggag19681 196 19681 tggattgggt aataaaatgc atattgagag taagacagcc ttctggcccc tctgaaccta19741 gggcagtaaa atgtctaaga gttgttgcca aagggaccat ggactgggct gcgttttcat19801 atttgatgaa aaaaaaagag cctaaatgct aactaatttg ggagaggtca gataaagtaa19861 198 19861 aaggaacatt aatcttgact atgccttcag ctcttgccac ctctctaaga ggaaattgtt19921 gggcaagtgg aggagtgcta gtcgtggaat gaaaccataa gctggactgg gtgtgaggag19981 gggaggtgat agaaggatta cagcgtaggg gagtagaggc tgaggaagaa ttgggacctg20041 gctcagcctg gtgaggagtg gcctggtgag gagcagcctg gggaggagga gagaggttag20101 atgggttcgt agaaaagaag gattcaaagg actcggagct tggtgaggag actgaaggaa20161 cagacaggag agaaagaaga aagatttggg acaagtcgca ttgggagcag agactaggaa20221 gggagtgatg tgtaaagaat gcctggacat caggcacctc agaccatttg cccattttat gacaaaaatt atctaagtct tgtagggtgg agaaatcaaa agtgccattt tctggccatt20341 tggaacaatt atcgagtttg tattggggcc aaatggtgtt gcagaagaaa ataagatgct20401 taggttttag gtcaggtgag agttgaagag gttttaggtt ttttagaaca caggctaagg20461 cagaagaagg aggaatggag ggtggaaggc tgcccataat aaaaaggtaa gtttagagaa20521 aagagaggat agagacacag agagaggggg tggtggtact catcagccag gggaggtggt20581 acttgccacc aaggtgatgg atcaaggcag tcatccccac ggtgatcaga cacctctgaa20641 atgtgggtga ataatcaggc aggtgtccct gcagtgatta gacaccaagg ggagactgtc20701 ttcccgagtc cgtgaccggt gctggagttt tgagttcaca gataaaacac atctcctctg20761 tctctaccag aaagggaaag gaactgaaat taaggaaggg agagattgaa gggtggagag20821 atagcaagag agttggaaaa gagaataaaa agaggccact tactcaattt aaaattggtg20881 agatgttcct tgggctgatc tgaggaccca aggttgtagg tggatctcct cacggaatga20941 gggtgaggac aggggactgg tctccagaag gagttcccga gtcctggatc ttcagcacca21001 aatgtcatgt gcatccatgt gaagagagtc caccaacagg ctttgtgtta tcaataaagc21061 tttttaatca ccttggtgca ggtgggctga gtctgaaaaa ggagtcagca aagagagata21121 ggggtgggtc agttttataa gatttgggta ggtagtggaa agttacagtt agaggtggtt 8681 atctcttgag ggcagaggtg ggggtcacaa ggtgctgggt ggggaaatcc tgagacttat21241 catccaggga aggagtgtca caaggtcgat tgatcagttg gggtggggca ggaacaaatc 21358 tcagtttctt caggccatct ggatgtacac gtgaaggtta cggggatata tgatggctta21421 gcttgggctc agaggcctga cactaacctc ctgcagaagc cacaaaaggt tattacacat21481 aaaccatggt ttccacaggc aggcactctt gatgtggaaa attgggatag agcaggatta21541 aaacaagctc atcaaaaagg tcttaaagtt gattcttcag ttttctccac ttggagttta21601 gttcatactg tacttctgcc attatctcct tattattctg cggaacagca ggctgaatct21661 aaaaattgga aagaatttgt tgtcctactc acagctccaa ttgaatataa aaaacaggag21721 agggaggata aaaattggcc tataccgcct cctccagatg cagaaacatc tgtaccatct21781 ccttcagtgg cagaaataga gatcccagta caaagaattt tatgctctgc tgtcatagct21841 ggagagccct taggaccttg tgcttttcct atttctgtaa ggcctgatcc aaataatcca21901 cagcagttta ttcatgaaca ctctccacta gaatttaagt tgttgaagga attaaaaact21961 agtgtggtca ataatggagt acaaagccaa tggttcctgg aggaaggaat gctagacata22021 gaactttggg agcaagtggg gagaaatctt aaacaacacc aggcacaaag gcatcaggtc22081 ccagtaaaat cttttatgtt aggggctttg agtagagcag ccctggttgt tacacacaaa22141 agagcctaaa aagggaaagg aggaggaaat gtcacctgcc ttatcacctc cccttccctc222 agtgccaata tcactgggcc aaaataacaa agaggaaatg gaggtcttac ctaagcttcc22261 tcctccaata gataggaaga aggacagagg atacgctaca gctatcagtc cctgtcttaa22321 gcaggcagca ttagaaggag agctcttagc cgggtgcagt ggctcatgcc tataatccca223 gcactttggg aggccgaggc aggcagatca tgaggtcagg agatccagac catcctagct22441 aacatggtga aaccccgtct ccactaaaaa tacaaaaaat tagccaggca tgttggtggg22501 cacctgtagc cccagctact tgggaggctg aggcaggaga atggcatgaa cccaggaggt22561 ggagcttgga gctttcagtg acctgagatt gcaccactgc actacagcct gggcaacaga22621 gcaagactcc atctaaaaaa agaagaagaa ggagagctct taacctgctc agtaatgcaa22681 22 aatcggcaag gcaatcaggt gtatgtttat aaaaagataa gaaaaaggca ttagaagcca22 aaaccacgtg gccaagcagg cagtgggcag gagaaaatgc tcagaggcag aaaagctcac22801 agcgacaaag ccaacaaggt ctgcccagga cggcagcatc cctctggcaa aggagcaagg22861 gagcagcaca gacacaggca aagcctaaac aagtacaatg tggccacctc ccaggacctg22921 caccactgcc ctctggctct gtgggcagcc cattgcaaaa tttcatgtgt tacatctcag22981 gctatgattc tctgctaaga tgtaagtaaa atgtaagaat ttgaaaagca tcttttctaa23041 taatggccac tattgtcatc tctctcctat ccctgatgta gctttccaaa ttcaatttaa23101 gtaaaacagt aacctttgaa gggaaagaga ttacagaggg cccatgaatt agttgaagag23161 taattaaaag ctaggcatgt aaaaccacac attacgcttt aaagaagaaa tttaaaccta23221 attaaatgat atttgttaaa ttagaaggta aaaatgttgt gccctgttgg gaacaggccc23281 ccaaatctgg ccataaactg gccccaaaac aggccataaa caaaatctct gcagcaccat23341 gacatgtttg tgatggccat gatgcccacc ttgaaggttg ttggtttact ggaatgaggg23401 caaggaacac ctggcccacc cagggcagaa aattccttaa aggcattccc aaaccactaa23461 tgatagcatg agcaatctgt gccttaagga catgttcctg ctgcagacag ctagccagag23521 cccatccctt tgttttggcc catccctttg tttcccataa ggaatgcttt cagttaatct235 atgatctata gaaacgatgc ttatcactgg cttgctgtca ataaatatgg gagtaaaact23641 ctgttcaggg ctttcagctc agaaagccat aagccccctg atttcccact tcccaccctt23 tatttctgtg tgtgtgtctt gaattcctct agcgcctctg ggttatggtc tccacaacca23761 cgctggtctt ggcagtgccc ttctcagaaa gtgaaaaaga gttgtatgta agtgtagtga23821 aaacataagc atgaatcact gtcttaaccc actgattaga tagtctttga tttgtacttg23881 ctaaaagagt cctaaattga gttcctcagc tagtgagtca ctgttttcaa gactgtttgc23941 cagattgaag tccataaact tggtcagccc gaaaactcaa ttacaagatc taagctattc240 tgcctgtggc tttaagcaca tggttaaagt atattattta agtctctcct tctagatatg24061 24121 24181 attcaaagcg gtattgcact cccccatacc taatgcttta acactgttta ctgatgggtc24241 tggtaaacat ggaaaagctg cagtctagta gagaccacat aattcaatca ctcgatctga24301 gttcactagc actcagagag ctaaggttac tctgtttatt tattaaagaa tttttacaac24361 cttaagctca ctctggactt tccagcctta tgtggcaaat gtagccatca atttatgggg24421 tcaagactta cttacagcat gggatatgag gcttacaaat gagactttga taacccagga24481 ttttaaatgt tgaagaacac gggatatcag agtgaaaaag gtttagggaa aattctgaca 2456322456 agggaaaatt ctaacctgat atcaataact ggaaagacag gttaaaccct gcaaggggat24601 acattgacat tttttcttcc tcacttgctc ttttctgctg tctgaatatg ggcatgaggg24661 caagagtcat tttagaccac caagtgacct tgaggataga agccttatac tagaggtggt24721 gggaaagaaa aaacagaagg actcataaag aaaaaaataa taaacctcag tattaagatg24781 gaaaaattcc cccaattggt ctataggttg aacttcatct ctattaaatt tcagctatgt24841 ttttgcagaa tttgatatgc tgatcataaa atttatatga aaatgcaaga gacacagaat24901 5824961 tacaaagcta taataatcaa gacaatgtgt tactgacata atgatagaca tattgatcaa25021 tatagacaat ggatgaatgg agtagaattg acagtctaga aataaaacct tatatatatg25081 gtcaatttat ttctttatgt attctgtcat ccagaataca taaagaacac cttcaactca25141 ataacaacaa taccaacaag ggtgccaaga ccaatcaatg gaggaaataa tagtcttttc25201 aagaaatttt gctgagacaa ctaagtattt atatgcaaaa taatgagttt gaatggctac25261 catatacaaa aattaactca aatggactat attaggtcag tgcaacagta attgcagttt25321 accaccatta cttgtttttt ttttttggtt tttttttttg agacagagtc ttgctctgtc 381 acccagacca gagtgcagtg gcatgatctc agctcactgc aagctccact tcctgagttc25441 acgccattct ccttcctcag cctcctgagt agctgggact acaggcatct gggtaatttt25501 tttgtatttt tagtggagat ggagtttcac catgttagcc aggatggtct caatctcttg25561 acctcgtgat ctgcccacct cagcctccca aagtgctggg attacaggca tgagccacca25621 cgcctggcct accattactt ttaatggcaa aaatgcagtt acttttgcac caccctaata25681 gaactaaatg taagagctaa aactacaaaa ctgttagaag aaagcatagg agcaaatctt25741 aatgacatga gagttggcaa ttgtttttta gatatgacac caaaagcatc aaggacaaaa25801 gaaaaaaatg gataaattgg acttcctcca aattaagaga acttttgtcc tgcaagcaat25861 actattaaga aagtgaaaag acaagtcaca aaatgggaga acatttttgc acataatata25921 tttaataata ggctgacatc cagaatacat aaatacctac aactcaatac caaaaagaca25981 gcccaattta aaaatgggcc aaggatatga ataaacattt ctctaaagaa gatacaaaaa26041 tggtcaatat gcacatgaaa agatgctcaa tatcaatatc tattaggaaa atacaaatta26101 aaacacaaaa tataaaacac aagatatcaa tttacactca ccaggatggc tgttatcaaa26161 aagacagata acaagtattg gcaaggattt ggggaaattg taaccttcat acattgctgg26221 taggaatata aaatttgcag caggtttgga aaacagttta gcagtttctc aaaaagcctg26281 ggcatggtgg ctcatgccta caatcccagt gctttaggga gctgaggtga gaggattgct26341 tgagcccagg agttggagac cagcctgagt aacacagtga gacctctttt ctaccaaaaa26401 gaagagagtt aaacataggg taccatataa gccagcaatc catctcctag atatgtaccc26461 aagaaagttg aaaacatata ctgacacaaa aacttacata tgaatcttca tattagcctt26521 ataataatag ccaaaaagta gaaacaaccc aaatacccat caactaatta aaatatggtg26581 581 26581 tatctataca tattatttgg ccataaaagg aagtactgat acatgtcata acacaaatga26641 26 26641 accttggaag cactatgatc tctgtattag tcagctcttg tattgctata aagaactacc26701 tgagactggg taacttataa agaaaaaggc ttaattgagt cacagttcca caggctgcac26761 829 26761 agggatcatg gcccaggaga cctcaggaaa cacagttatg atggaaggaa gagagtgaag26821 gaggaggtgc tacatacttt taaaccacca gatcttgtga gaagtcactc actatcatga26881 gaacagcaag ggagaagtcc acccccatga tccagtcagc cccagccagg ccccaactcc26941 aatattgggg attacaattc cacatgagat ttgggtgggg acactaatcc aaacaatatc27001 attctgcccc agcccctccc aaatcctgtg tccttctcac attggaagat acaatcatcc27061 cttctcaaca gtttcatttc agtattaact caaaaatcca aagtctcatc tgagacaaga27121 caagtccctt ccacctatga gcctataaga tcaaaaagaa gttagttact tccaagatac27181 aatggaggta caggcattgg gcaaatatat ccattccaaa agggaaaaat tagccaaaac27241 aaaggggcca caggccccac gcaagtccaa aatcaagcag ggaaatcatt aaatcttaaa27301 gcttcaaaat gatatccttt gactccatgt ctcacatcca ggccacacca atgcaaggag27361 tgtgctccca aggccttggg cagctctacc ctgttgctct acagggtata gcccccatgg27421 ctgctttcac aggctggcat tgagtgcctc cagcttttcc aggtacacag tgcaagctgt27481 tagtggatct accattctag ggtctggaag attgtggccc tcttctcata gctccagtag27 acagtgcccc agtggggaat ctgtatgggg gctgcaaccc cacatttctc ctctgcactg27601 cccaatagag gttctccatg agggctccat tcctgtagca tacttctacc tggacatcca27661 ggtgttttca tacatcctct aaaatctagg taggggctcc caagccttaa ctcttgccct27 ctgcacatcc gcaggcttaa taccacatgg aaaccaccaa tgcttatggc ttgcacccta27781 tgaagcagta gtctgagaca tatctgggcc cttttggcca tggctgggat gcagggaaca27841 gtgtcctgaa gtggcacagg gcagcggggc catgggcctg gcccatgaaa ccttctttcc27901 tcctaggcct ccagacctgt gatgggaggg tctgcctcga cggtctctag aatgtgtttg27961 aggcatattc ctcattgtct tggctattaa tatttggctc ctctttactt atgcaaattt28021 ctacagcctg attaattcct ttccaaaaaa atggggtttt cttttctact acatggtcag28081 gtcacaaatt ttccaaactt ttacgcttcc ctttgaaatg taagttccag ttgcaggtca28141 tttctttgat cacaaatata agcatatatt tgtagaatca gccaggccac atcttgaatg28201 ttttgctgct tagaaactgc ttccaccaga taccctaaat cattgctatc aggttcaaaa28261 ttctacatat ctctagggca agggcacaat gcctccaaga cctttgctaa tgcataagaa28321 aattgacctt tgctccagtt cccaataagt tccccatctt catctgaggt ctccttagcc28381 tggacttcat tgtccatatc agtatcagca ttttcatcac aataatttaa ctagtctcta28441 agaagttcca aactttccct tatcttccta tcttcttctg agccctccaa actgctccaa 28561 28 cctctgccca ttacccgggt tccaaagctg cttccacatt ttcggtatct ttatagcaat 28621 cctgagactg ggtaatttat aaagaaaaga ggtttaattg actcacagtt ccacaagctg28681 tataggaagc atggttcaga aggccacagg aaacttacaa tcatggagga aggcgaagag28741 aaagaaggca cgtcttacgt ggctggagta ggaggaagag agtgaagggg gaggtgttac28801 acacttttaa acaaccagat cttgtgagaa ctcactcact atcatgagaa cagcaaggga28861 gaggtctgcc tccatgatcc aatcacctcc taccaggctc ctcctccaac attggggatt28921 atgatttgac atgagatttg ggtagggaca caactccaaa ccatatcaat cccatttata28981 tgaaatgtcc acaatagata aatctataga gacataaaat agattggtgc ttgcctagtg29041 ctggacgtga caggagggtg tgagtaaaag aggcaatgga gtgataggta cagggtttct29101 ttttggggtg atgaaaatat tataaaatta gattgtggtt atagttgtat aactcttgaa 3961 tatcctaaaa atatattgaa ttttccattt ccattttaaa tgggtgaatc ttatggtatg29221 tgaattatat ctcaataaaa ctgcaaaaaa tgcacaattt gcaattgcaa aaatatggaa29281 ccagtccaaa tgcccatcaa tgagtggata aaggaactgt ggtatatata tatatatata29341 tatatatata tatatatata tatatatata tatatataca cacacacaca caccatggaa29401 tactactcag ccataaaagg gaataaaaca atggcattct cagcaacctg gatggaattg29461 gagaccatta ttctaagtga aataactcag taatggaaaa ccgaatatca tacattctca29521 ctcataagtg ggagctaagc tatgaggatg caaaggcata agaatgatat aatggacttt29581 gggaactcag ggaaagggtg agagaggggt gaggaataaa aggctaccca ttgggtacag29641 tgtacactgt tcaagtgatg gctgcaccaa aatctcagaa atcaccacta aagaacttat29 ttacataacc aaataccacc tgtttctcaa aaacctattg aaattaatta atttttaaaa29761 actgctgaaa tcaatagtga aaggatggac tattcaataa tgacacagtt aattgaatat29821 catattttaa aaattagatc cttacctcac actataacat aacaataaat tccaggtgaa 29941 aagttagaaa atgattttta aaaacaggat gcaaaaacac taatcataaa gagatatttt300 aggccaagca tggtggctca cacctgtaat cctagtactt tgggaagctg aggcaggtgg30061 atcacttgag gtcaggagtt caagacaagc ctggccaata gggtgaaaca tgtctctact30121 aaaaatacaa aaattagctg gaaatcgctc gaacccagga ggcagaggtt gcagtgagct30181 gagattgtgc cactgcactc cagcctgggt gacagagaga gactccacct caaaaaaata30241 aataaataaa aataaagaga gattttaata aggtgcatta aaataaaaaa ctatccatca30301 aagacaccat gaataaagtt aaaataggcc acaatgagaa tatatttgcc atgaattttt30361 tctttttttt tgagatggag tcttgctctg tcacccaggc tggagtgcag tggtgcaatc30421 tcggcttact gcaaacttca cctcccaggt tcaagcaatt ctcctgcctc agcctcctga30481 gtagctggga ttacaggtgt gtgccaccat gcctggctaa tttttgtatt ttttgtagac30541 acggggtttc accatgttgg tcaggctgag ctcaaacccc tgacctcgtg atccaccttc30601 ctcagcctcc caaagtgctg ggattacagg catgagccac cgtgcctggc ctaccatgaa30661 tattttttta aaggtagcat ccagaattaa taatcttctc caacaaattt cattagtagt30721 cagggaactg caaattaaaa tcaaagtaaa atactacttt ccactcatta gactaaaatc30781 cattcaagtc tgataatacc tagtactgag ttggagtaat agaaactgct aatgggacag30841 ttagttggtc atcactttgg agagaaatta gtcagtatct agtaaaagtt agtgatacac30901 cttccatttt catctgttct gtgctgctac caaagaatac ctgagactag gtaatttata30961 aataatagaa atgtatttct aatggttcta gaggctgaga agtccaagat tgaagggcca31021 gcctctgcag agagccttct tgctgtgtca tgccatggca gaagggcaaa gagagggcaa gagagagcaa aagcaaattc acagcatcaa tcccttttat aatcagcatt actctattaa31141 31201 caatggtaat taagtttcta atacatactt tttgggagac attttcaaac tatagcacct31261 accctatagc ccaacatttc tactcctagg agtatgccct agagaaattc tgcataaata31321 tctaaagaga ggccattgtt gcattgttag gtactggaaa attggaatca attactatgt31381 31441 cataaagtat gctccatctc accagatgaa aacatttttc actaggacta tttcaaaagt 3172 ctgggcttct ctattatgca taaaaatttt aagtgaacat gttctttgac31561 ctagtactcc tacttttagg aatttgccca aaagggacaa ttatactact gggataaatc31621 tttgaatcat aaagtaagtt gtaaatggta caagcagtat gtcttatttt tatttaaagc31681 acattaacaa tattacacat atagtaaaaa ataaataaat aaaacatgtg aataataaac31741 acccaattta gaacaagtgt tgacagtgga gagggaaaga gagagaaaga aggagaaatg31801 gggagtggga gcgggtacac aaggaaattt tagttgcagc tccaaatttt tactttttac31861 acaatgaagc gaatatggca aaataagatt tgttaaagtt gggcagcagg tacacagata31921 ttctatcatt atcctttgaa tatttctgta gatttaagtt gtccattaaa aaaataaaat31981 acacacataa tttttaagat tagttttttc tatttcctgg ccttcgcatg cactgttaac32041 tttacctgga attctttatg cagtaattaa gagcaaaggt gtagagcaag actgcttgag32101 cttggatccc agcactgagt tgatttaggg agaataactt aatctcttaa tcccaagaga32161 aaatatgata taatagtttt gagctcataa agttttcata agcattaaat gtgacctata32221 tatgtaaagc aatctaacag tgcctatagt atttataagt gtctgcatta ccaaattcat32281 cattatcatg gcatgtcatg tcaccatcca ctacattacc atcactgtca ccatcatcat32341 catcaccacc accatcatca ttaactccct ttgtctagtc aattcatatt tgttcttcgt32401 attttagata cctgttaaaa tattttttca aagatgtcta ctctgattct tcagtacaaa32461 tttgatttaa taagatccta tcattttgtc caaatactta taaaaatttg tagttctata32521 tttaatgtgt tttgtttgtt taacatctct ctcctacatt gtgttaagtt ttttaaagag32581 aaggtaaggg ttaaagagag acatagagag agaaagagag acagagagag agagagagcg32641 gttctacagc aatacaggta tattagaaaa acctgcaaag gtggggacca gcttaatgcc32701 agagcccccc actgcttata ggctggggta cttataggtc tgggggtact tataggcctg32761 ggtgggtggg gtctgagcag tatggcttgc tgcccaagaa gatgttgata agacgttccc32821 atgatgaggc agtttggtcc ttgcttccat agagtgtgat gcttcttgca ctttttccca32881 gcagaatgtg gtagggatgt tccttcaggt gggcctttgc ctggcagggt atgataagga32941 tgttcctgtg ccttggaatc aggtagttag acaggatgtt tctcacagcc tgaaccccca33001 tggaatgttt cactttgacc agggtctgcg aaatagcagg gggcttacaa aatggtgtag33061 tttggactaa caccttggaa cacaaaagtt tcttggggcc aaggctggcg tattagtctg33121 ttttcatgct gctagtaaag acatacctga gactgggtaa tttataaaga gaaaagaggt33181 ttaatggact cacaattcca catggctgga ggcctcacaa tcatgaggga ggcaaaggag33241 gagcaaaggc acgtcttaca tggtggtagg caagagaacg tgtgcagggg aactgccctt33301 tataaaacca tcagatcttg tgatacttat tcactatcaa aagaacagca cgggaaaaat33361 ctgcctccat gattcaatta cctcccacca gattcctccc atgacatgtg gtaattatgg33421 gaactacaat tcaagatgaa atttgggtgg ggacacagtc aaaccatatc agctgggtat33481 gttttattca cctttttata cccattgtca tgtcttctgg acaaacaatg gatgtaaaat33541 ggtatagact cctgagtact catttgttga atgacaaatc tatgaaccat ttgaccagta33601 tgcagcagcc attaaaatta tgtttatgaa taatttacag catggaaaaa tttggggttg33661 ctagtagaaa aacaaaaagg tacaaaagga tatatataat aagcctacaa tgccatataa33 acaatactaa cagcaaaaac aaacctataa attgggggaa gatggggcag atagaagtaa 78133 cctaaaatac taacatgttg ttttggggtc atgaaattat aaatgattat gcacccctta33841 atttttactt tctatgtttg atttttctat ggtaaatgca tttttattga ggtggaattc33901 acataacatg aaatgaaaaa tttagtggca tttattatat tcacaatatt gtacaaccac33961 tagctctact tccaaaacat tttcatcact ccaaaataaa accttgtacc cattaagcag34021 34081 gggatttatt tattctggat attccataaa aatggaggca caatatgtac cttttatgtc34141 tggcttcttt caccaagcat gtttttgagg ctaatccaca ttgcagcatg tatcagtact34201 tcatttcttt ttatgaataa ctgtatacag accacaattt gttatccatt ttttggttta34261 tggacatttg ggttgtttcc atctctcaac tattgtgaat agtgctgcta tgtatatttg34321 tgtacaagaa tttggttacc tattttcaat tcttttatgt atatatctaa gatgaaattg34381 cagggttata tgctaatcct atgtttagca ttttttttta ggaaccatta aactgttttc34441 caaatctgat gccccatttt atattcctac tagcaatgta agcaagttcc aatttctcca34501 tatcctcaac aacacttgtt attttctatt tttgttatag ccattctaat gagtgtaaag34561 tgatatatca ttgtggtttt ctttgcattt tccttatgaa cattgatgtt gagtaccttt34621 tcatgtactt tttggtcatt tatatatcat ctttggagaa atgcctcttc gtgtatgttt34681 tgcccatttt aaaactagat tgtctttgtt gttgacatgc atgcattctt taaatattct34741 gcatactagg cccttatcag atatatgatt tgcaaatgtt ttttctcatt ttactggctg34801 tcttttcact ttattgataa tgtcctttga tgcccaaaag ttgtttattt tgatgaagca34861 tatttatcaa tttatttctt ttattgctca tgcttttgat gtcacctcta agaatttata34921 accaaatcag aggtaatgaa ggtttacccc tctattttct tctaagagtt ttatagtttt34981 gactcattta cttaggtcgc tgattcattt ttagttaatt tttgcatatg atgtgaggaa35041 gaggtccaac tttactcatt tgcatgtgga tattcagctg tgccagcacc atttgtgaag35101 agtctatcat ctcctcattt aataatagta ttgacacctt tgttgaaagt caattgataa35 taaatgtatg agtttatttc tggaatctaa attctattcc attgatctac atgtctatcc 59221 ttgtatcagt atcacactat cttgattact gtagatttgt agtaagtttt gaaactagaa35281 agtgtgagta ctgcaatatt cttctttttc ttttttaaag attgtcaggg cctcttgcaa35341 tttaataggg atatgaggat tgacttttct attctacaaa attaaaattt tgttagagat35401 tgcattgaca ctgtaggtag ctttcagtaa cattgccatc tcaacaattt taagtattct35461 aatacatgaa tatgagcttt ctttctcttt atttaggtct tctttaattt ctttcagcag35521 tgttttgtag ttttggggta caagtctttc acctttaaat tttggtgaaa tttattccta35 ggtattgcat ttttttatgc tattgtaaat aaaattattt tctcaatttc ctgttggatg35641 ttcattgcag gtgtatagaa actcaactga ttctttgtgt tgatcttatg ctgagaccag35701 357617 35761 tatagaggtg taaagtggga aatcaggcgt ctcacagcct tcagagctga gagcttcaaa35821 cagagattta cccacatatt tattaacagc aagccagtca ttagcattgt ttctatagat35881 attagattaa ctaaaagtat cccttatggg aaacgaaggg aagggctgaa ataaagggat35941 gggttgggct agttatctgc agcaggagca tgtccttaagtcatagatca ctcatgctat36001 tgtttgtggt ttaagaatgc ctttaagcgg ttttctgccc tgtgtgggac aggtgttcct36061 tgccctcatt ccggtaagcc cacaaccttc cagcgtgggc attatggcca tcatgaacat36121 gtcacggtgc tgcagcggtt tttatggcca gttttggggc cagtttatgg ccagattttg36181 gggggcctgt tcccaacaat cttatacctt gcaattttgc tgaatttgct tgttaacttt36241 gatagttttt ttgaggatta tttgggattt tctacatatc atgtcatctg tgaataaaga36301 tagttttgct tctttctttc tcatttggat gccttttatt tccttttctt gcctaatttc36361 cctggctaga acttccagta tgatgttgaa taaccatggt gaaatgggca ttcttgtctt36421 tttcctgatg ttagagagaa atttttcagt ctttaaccat tgagtataat gttagctgtg36481 ggttttttac aaatatcttt tatcatgttg aggaagttcc ttcctactcc tacttcttgg36541 agtgtttttg atataaaggg tatttaattt gtcaaatgct ttttctgtgt cagttgagat36601 tatcatgtga gatttttttt ccttcattct attagtgttg atgttacatt ggttgatttt36661 ttatgttgta ctacatttgc attctttata taaatttcac ttggtcatgg tgtataaccc36721 ttttaatatg ccattggatt tagtttgcta gtattttgtt tagagttttt gcatctatat36781 tcataagcaa tatcagtcca caggtttttt gtggtttatt tgtctggctt tgctataatg36841 gtaatgctgt cttcttagaa tgaatgaggg agtgttttct cctctttcat tttttaaacg36901 tttgagaagg agtgatatta atttttcttt aaatgtttgg tagaacttac cagtgaagcc36961 gtctggttct taacattttt ctgtgttggg aggtttctga ttaccaattt gatctcttta37021 atttttacag atcttttcag attttctatt tcttcttgag taacttttta gcaatttatg37081 tattttagaa atttgttcat ttaatctagg ttatttaatt tattggtgtg cattttttca37141 tagtattatc ttataatctt ttaatttttg taaagttgat aatgtcccca ccttacctga37201 tcttagttat ttgtgtcttc tctgtattct ttttgtcttc ttcttctgtc ttagcatagc37261 taaaggtttg tcaactttgt tgatctttta aagagtcaac ttttgctttc agcatgcatt37321 actttttaaa tagaaatata tacacctaag ttgcattaca aaggagttgt cctccacaca37381 cttattcttt cccaccatca gaggtttatg gtccccgcaa aagtcaccat cagttgggct37441 caactccaat cagtcatggt aggtcagggt ccatctcatt gtctccatca ctcatgccca37501 cccagggtaa gtctaatcat gttcaccaat cagaacctct gccacatcag ctctgtgggt37561 ttcctctcat gccatctgta ccaacaatga gcacagtctg ggtttcctga tgttttctat37621 agcatggtgc ccctccctgg gacacctcag aagccacaat gatattcatt aaacttcttc37681 ctgcaagtac tccctctatt gctccttctactcaccaagc ttagtgtcag ggaatatgct37741 ggtggggagt atgaatctta gcttctcact cccagactcg gctcccaacc tgctgttgcc37801 aagtcttggg gacatctata aatgccttct aaatacctgt cttggcctat ccccagccac37861 agattcctcc ctagagcagg ctacctctga ggcatctata ctgagatctt aatcacagag37921 acatttaaaa catctaggct acaaaagaat tcctactata gggttcaaat gaatttcttt37981 ccgtcacttg agacagcttt ttagcaagta catgtattaa agattctgat ttcccctttt38041 ttctcctaca gtttgtttgg cctaaaggta tgacatctaa tctgctgcat ttacactcta38101 agtcaaaatt accattttgt tcttttaatt tctatttcta atcatacatt cttgtctact 3863161 38 cctggttcat ctggagacaa agttgaactt agaagatgga ggagaaattc ttatctgccc38221 tctgctagtt gacacttcct ttccaagaat catttgcagt tgctgggctt tcttgctgtg38281 actctatgcc ctgttgtgtt actttttcat ttgtgacaaa aacagtggta atagtttgct38341 tcatttttat tatgaagact tgaccaggat aggtaggaac ataattactg ctttttctgt38401 gggcatcata ttggtccaga tcatgtttaa ccagaattga agatgtaaaa tcctagaact38461 cactaatcta ttttagtagg tcacaggaag catgcaaacc ataaaaaccg caatgaacca38521 aaagcatctg tgttgacaag aggcaagaat ttctctattt tctaaaggca ctaactgaac38581 aaatctattg cccattactt aggaaattgc taagggcatc gttaaagtac ttcaggctgt38641 38758 acatgttctt gccatccatg gagtggcaga gaggttctga gtacaactct aactttcagt38761 ttcaatggcc taatccccaa ctcaactgct gaccttgagt gtaaaaataa acaagatctt38821 aaacatctta gggccagcat tctgggtctt cttttgttat ttggggagca taaactattc38881 tcatatcatt ggcttgcaga aaaattgagc ttctcctctt ccttgcccca tgtcaccttg38941 aggtgaccac agccctgcct tctatgtaat cctgcttggt cagcaggcac atcagagctc39001 agtggcttgt gacatacttt ccttcaagcc tgctcgaagg gccatactca tcattgagac39061 tgggaacctt agaaaccatg aacccagtgc caatgggtag atacagaatt ctcaaactca39121 tgaaaaaaca tcctttttaa ctctctccgt gtgcataaag aattctaaga tgtactgatc39181 aagattccca attttctaac tatctattaa tatatggacg aggtaagaag aaagttgcaa39241 gaaaaaaatt tgtttgactt gacggttgtg tggttatttg ccacactccc ccagatccac39301 tctgagtccc aggatgctga ttttaggggc tacattgcct agactgtcca ttattccctc39361 ttcccatctg gttcagtcac tgggaagcac tggtaggagg tcagagtggg agaaggaggt39421 taggatactt tctgcccctg ctgtcctact gctttgctga acttctagca gtggctgagc39481 catcaacctg cagctctcaa ttccagctgt ctgtagcact caagtggtat tgtttattct39541 tttgatcctt ctagctgtta aggaagaaaa aaataatttt ttcctcaatg ctcataagtt39601 cttggaatgg acccctgtaa caaaagacag attaacacga gaaaagttta ttaacgtaca39661 tattttatac gtacatagga gctatccagg gaatgaataa ttcttaaaaa ggtgactttg 3968621 3939393939393975 caaagaaaat gaactttgag cctctaggga cagtgacttg taggaaggca aaaggaataa39841 39901 ggtccacaag gatttaaatt tgtcttcagt ggtgaacctt tgttcaccct ggcagaaggt39961 40021 aaagggaggg aaaagagctt tccttcatct gcttcttaat tgccttcagc tcaacaatcc ttatgcaaaa gaggtacatt ttagggtgtc aaattctggt ctcccacaaa gcatagggat40141 gacagaccac ctcaccatcc ctgttgcttc ttttaagcct gctcacccct ccaaaaatat40201 tttcattcta tactgtctct tcaaaatctc agcggagggt gccctctgtt atcctgccct40261 ctgtgtcagt ataagccaaa ggtttgaatc ctggctctgc aactatctac ctctgtgcct40321 ctccttgttt atgaaattac agggctggag acaaagatca caatgtgaag acaaaattgg40381 agagcggtcc taatcagcca gagcaaaatt tctggctctt gctcttcccc atcctgggtt40441 gaatcatagg aacaggtggc aagatgccag ggtcaggaga ttccagaagt ggcagcaagc40501 tcagtgttac caggtcaggg atgacctgtc ttattattga aatctcagag atatgctcca40561 attccggccc agagacacat tgagagacaa ctggggaact tgctatgttc ctgaacaggc40621 aatgagctgt cttccaagaa aaaacctgag acccttcaag tctcaggtct tacttagcac40681 atataccagg tcttacacag gacacatggt tacaactgac tgaaatctgg gctgggtgta40741 ggagctcaca cctgtaatcc cagcccttca ggaggctgag gcaggcagat tgcctgagcc40801 caggagttcg agaccagccc gggcaacatg acaaaacccc atctctacaa aaaatagtca40861 ggcatggtgg catgcacctg tagtctcagc tacttgggag gctgagatga gaggattgct40921 tgaggttgag actgcagtga agcatgatca tgccaccgca ctccagccta ggcaacagag 5981 caagatcttg tcgcaaaaga aagcaaaaac acaacataac acaacaacaa caacaacaac41041 aacaacagca aaaaagccaa cttcttgaaa tctggaaagg acacctggac tgccctgagc41101 atttgattgt tgttggctct agcagtggat gcatccttca acctctggca ctctgcaggg411 ctcagactgt tctgttctgt ttgttacctg tggagtgcct gccagaccct gctctagctg41221 ctttaggtcc atttaccctc atagaccccc agtcttgtta ttcatatttc atatttggga41281 aatggaaact tagaaacttg ccaagtccac agcatgagat cctgcctccg gtgtctgctg41341 gattccagaa agtgccaggg gccaacttag atgacaccatgttctctgca caatcttagg41401 aatgctccta gtctgatgtc cccattgcaa aatttacatt atcttttaac aaaacgtctt41461 41521 gagataattt agcatttcct tttcattaaa aagtttgaaa tcctgtaatt tgtgataatg41 tggatgaacc tagaggatgt taagtgaaat aagccacaca cagatagaca aataccacgt41641 gatctcactc ttatgtggaa ttttttttta aataagttgc ttagccgggc atgatggcac41701 acacctgtaa tcctagctac tcaggaggct gaggtgggag gatggcttga actcagaagg41761 tggaggtagc agtgagctga gactgtgcca gtgcactccg gtctgggtga cagaatgaaa41821 cccaatttaa aaaaaaaaaa aaagttgcta tcttagaaaa agacagtaga gcagtggtta41881 ccagagactg gggaggaaag agaggaggtg agaatgggca gcagttgatc aacgggtaca41941 aagttaccat gagataggag aaacaagtgc tggtgctctg ctccaagtag ggtgacggta42001 gttaataatg aattctgtat atataaatag ctagaagaga gggttttcaa tatcattatt42061 atttcaaaag aaatgataaa tgtttcagag gatggatatg taattaccct gatttgatca42121 ttgcacaatg tatacatgta gcaaaacatc acattgtgtc ccataaatat atacaattat42181 tatgtgaatt aaataaaaaa aaattttaaa gtcttatcta aatgaaattt ctaaccagat42241 tctgaatcca tgataccact gaaaccagca cacatgatcg cagtaaaacc tcattatact42301 tcctccacta tcaccaatac cctttattct ctggaacatg aaacattctg ttgtgctcat42361 atcatgcaaa ttatcactag taggagagca gagagtggaa atgttccagg tataaagacc42 cacaagataa agaagctcag agtcgttaga aacaggagca gatgtacagg gtttgcctga42481 ctcacactca aggttgcata agcaagattt caaaattaat cctattctgg agacctcaac42541 ccaatgtaca atgttcctga ctggaaaaga agaactatat ttttctgatt ttttttttca42601 aatctttacc attagttgcc ctgtatctcc gccttcactt tctgcaggaa actttatttc42 ctacttctgc atgccaagtt tctacctcta gatctgtttg gttcagttgc tgagaagcct42721 gacataccag gactgcctga gacaagccac aagctggtga gttgtaggca ttttttccat42781 tactttctga ttcataggct caacgcacct caaagctgga aatgccgggt ctgggtacac42841 cctggggaac tgcaaagcct gcacacttgg gggaaatgat caagatgaga ggcaggggtg42901 42961 gtgatggggg agagtgggca gcaagcgagg ccaggacagc cactctgctc agtcaccagt43021 ccacacaccc aggggctcac tctgcccctc tgagcaccca aggacgttaa agagctggaa43081 4304681 43081 ctgttagtct aaatatagga ccatccaagc tctgaaccaa aatgtgtccc ttgcctcaac43141 43 43141 tcaggagatc cacagaggca gaagtaagga atttattttc tgaaagatag atttctatca43201 gttctgggtg acatgttctg acacttgaaa tgacacctag gacagcacat ttcaggcatc43261 ttgctcattg ttcactgtag tagaagctac atgctagcca gttgtaaaaa tgaaattaag43321 taatgtgtgc acagcattta acatagcatc tgagcttcag gagcactcaa ttaatgacca43381 cagttgtgat tctttaggca gatgcatttt tttccaactt tgatcagagg tcttatttag43441 cttctccaga tttcaagaat ctggctcagt gatatgaaat acaagacttg tgaaaagtgt43501 caattgcaag agaaatggaa ggataaagta tacaggtggg tggaaaagaa attcacagtc43561 actgccagaa aaaaaattct tgagaatcaa gtcctgatga tgttagggct tatagttctt43621 attataaaga gttttatgta ctcattcagt gaacatttat tggtgcctcc tttagccagg43681 tactatcata agagctgaaa ataaaagcat aatccagtcc ttgatcttga ggaacatgct43741 gtgtgtagca gataacataa taagtgctta tctagatgca tgcagtgtta tgtgataaga43801 43 43801 gtaatatgac agaggataca gattaggctt cacagagaag ggggatttga gcaggaggta43861 ttgaagggtg aatagaagct caccaatcat tttgggcaga ggggcaagga cctgcaaaac43921 cactgaagca tgaaggaaat ggtgagttta gggaaaatga agagaagatg gctgtgactg43981 aagcacagga tttgggattg gagaagggac tggaggtgag gctgagaaga ggcaaactca44041 gaaaagatgt tgtgctgggc agtctggaca ttatctttga agcccaccac atataagtca44101 tagggctact ggaggtttta agctaaaagt gactattcaa tttcaactta agagaagata44161 ggttgagagg gaacatggct tgagatgagc catgagcaaa ggaaagacta caacaaagcc44221 4444221 44221 aggagtgagg agtgtgtgaa gcaagaaagt gacagttgaa agcagtgcag aggggatgaa44281 tctgagaggc atctatgagg tggaactcaa atgacatgat aataatacag ggcatttctc44341 tgtgtcagat gctgtcctaa gtccttactc cattgatctt cacagcaact cagcatagtt44401 44 44401 aatattttat gcataaagaa atcggcactt gaaggagtaa ttggccccag attacactgc44461 ctataaggat tcaaatccag gtttgtttgg ctccaaaaac tggctcctaa ttttcagaag44521 gagaagcgac ccagggcaat gcccaatttt gcttcttagg caatggagga atccacaatc44581 ggaaggagtt ttcagcagtg ccccatttgg ggtgggttga atttgaggtc cctgcatgat44641 acccactttg ctcacttcag tgcctaaaac tgagtatggt tcatagtagg tgttcaataa44701 gtgttgatgc agtgaataca tgcatgggga gatatgcatc aggcaatggg aaattcaact44761 ctaaggctta ggggaaagct ggagcttgaa gacagagctt tagaaaacag tagcatagaa44821 gggagtagga accatgagtt tagacaatac aattcaggaa gaactttgta gcaaggataa44881 agaggcaaaa aattaaagag gtgagagcta agtgtggtgc ctggggaatc ttaaggtgtg 4644941 ggcacgggga ggagatgcca gcaaagaaca tgaataaaaa gcggtagcac agcccctccc45001 atctggaagc caaaaagaat tgtaaatgga ggaagttagc agaaggatca aatacttgaa45061 gagggtggaa ttggaataaa accagggcat ttgaaaaatt gggttgtcac tgcaatctta45121 acaagagaag ttttggcagg atgatggagg cagaaagctg agagaatcat cagttagaac45 gtttttgact tcagagaaca gaaaatgcag ttcataatgg ctttaaaaca ggggcttgtt45241 tttctcccag caatttgaga ggccaaggcg ggtgcatcag gaggtcaaga gaccgagacc45301 atcctggcca acatggtgaa tccccatctc tactaaaaat acaaaaatta gcggggcatg45361 gtggtgcacg cctatagtcc catctactca ggaggctgag gcaggagaat cacttgaacc45421 caggaggtgg aggttgcagt gagctgagat catggccact gcactatagc ctggagacac45481 agcgagactc cgtctccaaa aaaaaaaaaa aagaaggcag aaggtgaata gttcaagggt45541 gggtttagga ctcagtgata ataggattct gcctggcttc tcatggttct ctaggtcttc45601 cattcatggc accatgccct cactaggcat gctgccagag caggaggggc aggtggaggg45661 ttctcttgtg tctgtcttat cagggaagaa gagctttctc agaagccccc agcagactcc45721 cttttcatat tatggtccag caatgagtca cagacctatg caccacctgc aaaggagcca45781 781 gagaaaacaa acgcccagcg cttttagcct gaaaatgaga atctggtttg ctggggaaga45841 3645958 45901 ggcaaatcag gaactggcac acatgctttc agggagatgg ctgcaaggga gagggcaaag45961 actgggaagt tgcttatgtg gtgccagact atttggaaga tcatggattg cggtgtttgt46021 gttgtgtggt catcattttg ttctttgttt acagaacaga gaaagtggat tgaacaagga 46021 46023 46081 cgcatttccc cagtacatcc acaacatgct gtccacatct cgttctcggt ttatcagaaa46141 taccaacgag agcggtgaag aagtcaccac cttttttgat tatgattacg gtgctccctg46201 tcataaattt gacgtgaagc aaattggggc ccaactcctg cctccgctct actcgctggt46261 gttcatcttt ggttttgtgg gcaacatgct ggtcgtcctc atcttaataa actgcaaaaa46321 gctgaagtgc ttgactgaca tttacctgct caacctggcc atctctgatc tgctttttct46381 tattactctc ccattgtggg ctcactctgc tgcaaatgag tgggtctttg ggaatgcaat46441 gtgcaaatta ttcacagggc tgtatcacat cggttatttt ggcggaatct tcttcatcat46501 cctcctgaca atcgatagat acctggctat tgtccatgct gtgtttgctt taaaagccag46561 46621 tgtcccagga atcatcttta ctaaatgcca gaaagaagat tctgtttatg tctgtggccc46681 ttattttcca cgaggatgga ataatttcca cacaataatg aggaacattt tggggctggt46741 57341 46801 tcgaaacgag aagaagaggc atagggcagt gagagtcatc ttcaccatca tgattgttta46861 ctttctcttc tggactccct ataacattgt cattctcctg aacaccttcc aggaattctt46921 cggcctgagt aactgtgaaa gcaccagtca actggaccaa gccacgcagg tgacagagac46981 tcttgggatg actcactgct gcatcaatcc catcatctat gccttcgttg gggagaagtt47041 cagaaggtat ctctcggtgt tcttccgaaa gcacatcacc aagcgcttct gcaaacaatg47101 tccagttttc tacagggaga cagtggatgg agtgacttca acaaacacgc cttccactgg47161 47 ggagataaca atctgtatat aacaacaaac ttcaagggtt tgttgaacaa tagaaacctg47281 taaagcaggt gcccaggaac ctcagggctg tgtgtactaa tacagactat gtcacccaat47341 gcatatccaa catgtgctca gggaataatc cagaaaaact gtgggtagag actttgactc47401 tccagaaagc tcatctcagc tcctgaaaaa tgcctcatta ccttgtgcta atcctctttt47461 tctagtcttc ataatttctt cactcaatct ctgattctgt caatgtcttg aaatcaaggg47521 ccagctggag gtgaagaaga gaatgtgaca ggcacagatg aatgggagtg agggatagtg47581 gggtcagggc tgagaggaga aggagggaga catgagcatg gctgagcctg gacaaagaca47641 aaggtgagca aagggctcac gcattcagcc aggagatgat actggtcctt agccccatct47701 gccacgtgta tttaaccttg aagggttcac caggtcaggg agagtttggg aactgcaata47761 acctgggagt tttggtggag tccgatgatt ctcttttgca taagtgcatg acatattttt47821 gctttattac agtttatcta tggcacccat gcaccttaca tttgaaatct atgaaatatc47881 atgctccatt gttcagatgc ttcttaggcc acatccccct gtctaaaaat tcagaaaatt47941 tttgtttata aaagatgcat tatctatgat atgctaatat atgtatatgc aatatatata48001 ggctcttgct tgatctctcc aggaggtagt gattatgaga agggggtgga gaatgatgag48061 ttccttcacc aggagcaaag gacggggatc gtgtggaacc actgcagaac tatttccgga48121 atcaactaag tggagagagc caggaaggct gcatcagaac ccagtaaagc ttcttgtctg48181 gatctgagct ggtttgtttt gtgcttgctt ttccctgcct tgccactccc ctcactcttc48241 48 48241 tcttttcccc acagcctttt tcacatagct cttggctgta ggattgcccc actccaaaaa48301 48383 48301 ccagtgtgtg gaggtccagg agtgagacca ggaaagaatg tgaaagtgac tacacaagga48361 ctcctcgatg gtcgtggaaa aggaaagtca attggcagag cccctgaagc cagtcttcag48421 gacaaagaag gagcctagag acagaaatga cagatctctg ctttggaaat cacacgtctg48481 gcttcacaga tgtgtgattc acagtgtgaa tcttggtgtc tacgttacca ggcaggaagg48541 ctgagaggagagagactcca gctgggttgg aaaacagtat tttccaaact accttccagt48601 tcctcatttt tgaatacagg catagagttc agactttttt taaatagtaa aaataaaatt48661 aaagctgaaa actgcaactt gtaaatgtgg taaagagtta gtttgagtta ctatcatgtc48721 aaacgtgaaa atgctgtatt agtcacagag ataattctag ctttgagctt aagaattttg48781 agcaggtggt atgtttggga gactgctgag tcaacccaat agttgttgat tggcaggagt48841 tggaagtgtg tgatctgtgg gcacattagc ctatgtgcat gcagcatcta agtaatgatg48901 tcgtttgaat cacagtatac gctccatcgc tgtcatctca gctggatctc cattctctca48961 ggcttgctgc caaaagcctt ttgtgttttg ttttgtatca ttatgaagtc atgcgtttaa49021 tcacattcga gtgtttcagt gcttcgcaga tgtccttgat gctcatattg ttccctattt49081 tgccagtggg aactcctaaa tcaaattggc ttctaatcaa agcttttaaa ccctattggt49141 aaagaatgga aggtggagaa gctccctgaa gtaagcaaag actttcctct tagtcgagcc49201 aagttaagaa tgttcttatg ttgcccagtg tgtttctgat ctgatgcaag caagaaacac49261 tgggcttcta gaaccaggca acttgggaac tagactccca agctggacta tggctctact49321 ttcaggccac atggctaaag aaggtttcag aaagaagtgg ggacagagca gaactttcac49381 cttcatatat ttgtatgatc ctaatgaatg cataaaatgt taagttgatg gtgatgaaat49441 gtaaatactg tttttaacaa ctatgatttg gaaaataaat caatgctata actatgttga49501 taaaagattt aaaaacaact ggctgttttt ttacactgtg gtgtggaaga ttgtgttgtg49561 ttcacaactt ttcacttctt cccctgtgtg attacacaca cctgcccttg tggtgtgact49621 tgcagtgcgc cctacaggcc acacaacccc atgccctcca ccactggctc tgctgctgga49681 atgtgagcag aagtgacatc tgcctcatcc aagcagagcc tcttgctcag ccacaggaag49741 gcccattcca gatcacaccc gtcagcccgt gcgccctggt gaatgagaag acacagggag49801 ctgcagccac atataacatg agcaagaagt ctgtgtttgc tgtgataagc cactgagttt49861 taggggttgt ttgttaagaa gcacaaaaac cgattaagac atgtggtata tagtgacttc49921 atatatagaa tctggaaaac tatccattta ttttcaatca tggaattcaa tatgacaagc49981 atcccggagg gtctacctat gccagactgg gttggaaaca gaaagacaga tgttaatgcc50041 agtgtccttt acacctccaa gtccagggcc agctgtggag tgggaggggt agagaaggtc50101 ctgtgcacag tcacagtgcg ctgtgcagag caggaacaga ggcatctgtg aaaagtgctg50161 agagcctgga ggacagagtg actaatgcaa tgacagtctt gcatcatagg aataacagcc50221 acagcaggat tttattgctg ccaaagaaac tgccatttaa aaattgccag ccatccggga502 ggctgaggca ggagaatggc atgaatccag gaggcggagc ttgcagtgag ccgagatcgg50341 gccactgcac tccagcctgg gcaacagagc cagactccat ctcaaaaaaa aaaaaaaatg50401 ccagccatct ctctttctaa agtggaatcc tcaagtctcg tttattctgg ggacatttga50461 gtaggctgtt cgagttaagc aggtggaagt tgatgatccc tcatcatcat tctgagggat50521 gagtgtctga agactttttg gtaaggaagg gtcttggcat agcccacccc atgccacctc50581 ccttgatctg tgatatcccc agcagctggg gaggttggagcattttgcaa agaggccccg50641 aagcctccag aaagtaaacc ttcaagagcc catccttcct tcctcttttg tttttgctca50701 ttatgaaaac ttccctgaca aattgaaaag gcttcaggtg agattagccc acaggaaaaa50761 ccaccaaggg ccacccagag gggccacact gtgacagaag gagtatgggc tggtgagctg50821 acctctggaa gacagtgcat gaattgagga gaagagattg gttccaggca tgggaggaat50881 gaggctggaa atttcttcag acattgccac ttcggcactc tgtgtgtgtg tgtgtgtgtg50941 tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtaaacaga gtcctgtaat gcaaggtccg51001 gccttggcag ccccagcctg gagccacagt gagatgtgag ctgagggtta tgctgggaaa51061 aacctctccc tcccagcacc tgaaaggctc tgcaggccca gcagctcagc aagcaagggt51121 aagggcatgg actaacatct tatttcatac tatcccttat aacacatcct aatgtaatca51181 gctcacaata tgaaattatt tcatttctct ccagtcattg tttcaatggg gccttagggt51241 tgactggatt ctggaggtcc ctgcctagag gagggggtgc attctgtccc tatgtcccct51301 cctgctccat cctccacagc acgtgcctag tggtctacct tgtggggaat tcttgtacct51361 ccctcttcta ggcatggact agcattgaga agtgggagag gagtgttagg aaaaagggca51421 aatatagaca taccttgtct tattgtgctt tacagatatt gtttttgttg ttgttgttgt51481 tgtttacaaa ttgaaggttt gtggcaaccc tgcctcgagc aagtctattg gtgctgtttt51541 51 51541 tccaacagca tgtgcttgtt ttacatctct gtgtcacatt ttggtaattc tcccaatatt51601 tcaaactttg tcattatttc tatatctgtt atggtaatct gtgatcagtg atctttgatg51661 516351 51661 tcactattgt agttgttttg gggcaccatg aagtgcaccc atgtaagatg gcaaacaatc51721 51 51721 aataaatgtt gtgtgtgttc tgactgctcc atggactgcc tgttcctgag acacaataat51781 gtatatataa caattatata tatatatatt tataacaatt atatatatat atattttttt51841 tttttttttg aggcagagtc gcactctgat tgcccaggct ggagtgcaat gatgtgattt51901 cagctcactg caacctctgc ctccccaggc tcaggtgatt ctcccacttc agcctcccaa51961 gctgggacta caggtgtgca ccatcacacccggctaattt tttttttgta tttttaggag52021 agacagggtt ttgccatgtt gcccaggctg gccttaaact cctagactca aacaatccac52081 ctgcctcagc ttcccaaagg gctgggatta caggcatgag ccactgtgcc cagcccaaga52141 cacaataata ttgaaattaa gccaattaat aaccctacaa tggcctctaa gtgttcaagt52201 gaagggaaaa gtcccacgtc tctcacttta aatcaaaatc tagaaatgat taagcttagt52261 aaggaggaca tattgaaagt caaggccaaa agctcacctc tgcaccagtt agccaaattg52321 cgacttcaca ggaaaagttc ttgaaggata tttaagctct actccaggga acatgcaaat52381 gaagagaaaa caaagcagcc atattgctaa tatggagaaa gtttgagtgg tctggagaaa52441 agatccaacc agccacaaca tttccttaag tcaaagccta atccagagca agactctaac52501 tctcttcaat gctatgaagg cggagagagg tgaggaagct gcagaagaaa agtttgaagc52561 tagcggaggt tggtttgtga ggtttaatga aagacaacat ctccataaca taaaaatgca52621 agatgaagca gcaagtgcaa agggagaagc tgtggcaagt tatccagaaa atctagataa52681 gataattgat gaaagtgtct acacgaaaca acagattttc agtgtagaca aaacagtctt52741 atgttggaag aagatgccat ccaggacttt cacagctaga gaggagatgt caaggcaagc52801 tgcaaagctc cacaggacag gctgactctc tttttagagg tgaatgcagc tgatgacttt52861 aagttgaagt aaatgttcat ttactatttt gtaaatcctg gtgtcattaa gaattatgcg52921 aaatctactc tatctgtgct ccataaatgg aacaataaag cctggatgac aacacatctg52981 tttacagcat ggtttactga atatttcaag cccactattg agaactattg ctcagaaaaa53041 aagattcctt tcaaaatatt actgctctgc accatgtcga tcaagagctg tgttggagat53101 gtacgagaat attcatgttg ttttcatccc tgctaacaca aacatccatt ctgcagtcca53161 tggaccaaga ctttcaagtc ttattaagaa atatatttca taaggctatt aagaaatagc53221 tatatatata tatatatata gccttatata gtttatatag ctaccattga tagtgattcc53281 attgatggat ctgagcaaag caaattgaaa agcttctgga aagtagtcat tattctagat53341 gccattagga acatttgtaa ttcatgggag gaggtcaaaa taccaacatt aacaggagtg53401 tgaaagacat tgattccaac ccccatagat gactttcagg ggttcacgtc ttcagtggag53461 gaagttgctg tagatgtggt ggaaacagca agagaactag aactagaagt ggagcctgaa53521 gttgtgactg aattgccgca ctctcatgat caaacttgaa cagatgaaga gttgcttctt53581 acatatgagc agtgaaagtg gtctcttgag atggaatctc ctcctggtga agatgctgtg53641 53 53641 aacacggtta aaatgacaac aatcgattta gaatattaca taaatttagt taataaagca53701 gtggcagggt ttgagaggat tgactccaat tttgaaagaa gtgggtaaaa tgctatcaaa53761 tagcatcaca tggtatggag aaatcttttg tgaagggaag agtcgaccaa ggtggcaaat53821 tgcattgtca tcttatttta agaaattgcc acagccaccc ccagctttag caaccaccac53881 cctgatcagt aagcagccat caacatcaaa acaagaccgc catcctcttc agcaaaaaca53941 ctatgacttg ctgaaggctc agatgatggt tagcattttt agcaatacaa tatttttaat54001 taaggtatgc acattggttt ttctgacata atactattgc atacttaata gactacagta54061 taggataaac acaactttta tatgcactgg gaaaccaaaa aggttatttt tgagatattt54121 gctttactgt ggtggtctga agctgaactc acaatctcac caaggtgtgc ctgaacctct54181 ttagctaact ggccactgcc acagtccact ctgtgttggt caagatgccc cagagtggca54241 ggcacactgt gtggtcacat ccaagggcct agatatggtg ggggctccaa atggatctag54301 atatgtgaga tctctctttg atttgacttc ttccaaccca ccattttctg ggtgctgggc54361 tcatctcacc cagaaagtag gacccaatgt gacagttcct gcccagttcc ctcctgtggt54421 agccacttga cccaggggca ctcttgatcc ttgcagcctc acttacacac cctatctcta54481 cccctattaa ctctctccaa tccccactcc ccctgctcag cttgtctgct gcccagtggg54541 ggccccaccc atgctggcct ctccttttgc aagtccccat tcctcatatg gtttcttcag54601 54 54601 agcccctttc tttggctttg aggagagatg ccctcactcg cttccccacc aatcctgccc54661 acttctacaa tccattcatt atcctaattg cctccgtata cagactggag tgagaggagt54721 tgatgtgatg ggtgtggata cagggctggt gctgtcatct tctagtaagc cctgggagag54781 gtgtctgagc ccaggtgtca gtggttttct ttggaactgt gagtgcataa cacttctttg54841 ccttcagcct taggccatag ttgctagttc tgggacaacc agaaaagccc tacataatct54901 cgtgttatgt gcagagctga gtatagagct ccaggtatga tctgactcac ttaagatcac54961 agtgagtcta ttgtattgtt gaactgttag cttagacatc tgttactgta cctacatggc55021 actagcctca cgcctagaca ccgatctgaa agaaatcccc taaatgcata gagaagactt55081 ctcagctgag ctaaggggct cccaccaggt ttgagcctat ctaatgaatc catgaggtag55141 acagcctgca catgtccact tggtttgatg aattgcacaa atccctatgg gggatgtggt55201 tcatgggctg ggaagtgggt taccctggga aaggtctaca ggacagaggc agggatggag55261 acaacagcat ggtgagttcc caacccaccc acgatgatag gtgtctgagg cagaaggtaa55321 agaggctgtc acctggtggg tgtcataaga ctcaagtgtc attgttgagg cacatgggta55381 acaaagcgtg gcactggatg ggggtagatt cttcctattt ctgtgaggat cagggggact55441 ccctggctct cctgctaaag gtggctctag ggacaggaag agtgtacttc ttgacaggga55501 tgtcagagca ctgatggtga caatcagtgt gacactgctc acatgactga acaaccgaga55561 agagcccgac tgtctactga acaacgggaa gagcccgact gtcaatgacg gagctctgtt55621 aaatatagtt aaggctattt tgttgaatga atgaagccag acaggaaaga ggacagtatc55681 tttaatccat ttatagaagt taaagacagg cttatttaat ctctatgaag acagagtggc55741 ccttacctct gggtggagca aaaggcacct tctgaagtga tagggatgtt ccttatcatc55801 ttgatccgga gtggtagtta catgcatgta tgcatatcaa aactcaccaa gctgtaccac55861 taagtgtgtt cttcctcaat aaaaataata aagaactaca cttataaaga attttttaat55921 aatataggaa aatgtctaca ctataatctt tagctaaaaa aaaaaaaaaa gaagccgcct55981 acagaatggt atatgcatga gaacaattaa tcgaaaagtg catgggaaaa gtcaggattg560 aaacatcatg ttttaaaaga cattgttttg atactgtgag aatgtaccta agtttttcct56101 tttttctgtt tttcccaatt ttatacaatg agcatgtgtt ggttttataa ttagacattt56161 tgtttgtttg gtttggtttt gagacacagc ttgctgtcac ccaggttgga gtgcaatggc56221 ccaatcttgg ttcactgcaa cctccatctc ctgggttcaa gagattctcc cacttcagcc56281 tcctgagtag ctgggactat aggggcgcac caccacatcc agctaatttt gtgtattttt 565656563284 56401 tccactcgcc ttggcttccc aaagtgctgg gattataggc atgagccacc gcacttggcc56461 tagacatttg tttttaaaaa taaaagattc atttgctctt tttacagccc gtctcactgt56521 tgactgatat tgaccaggag tcaactcagg ccccagggat tttcacaaca gctgctgtat56581 ggcagggttt ctgctcactg tgctcatgta gttggccctt gcacccaaag tgaataatta56641 acattctccc catcctgttg acgatgctct gaaaatatgg tccagaaatg gtgtgagcaa56701 ggagacagca aagcaatgct tggaacatag gtgcagtgac tagacatggg gcagctgttt56761 aaagacaaaa aggccccaaa aaggagggat ggcacgaaac accctccaat atgggcatgg56821 agtctagagt gacaaagtga tcaaaagttc atttcctatg gggtgtccga atgtacttaa56881 59881 taataaaaag agaacaagag ccatgcaaac tgagagggac aaagtagaaa gagtagcaga56941 caccaagcaa ctaagtcaca gcatgataag ctgctagctt gttgtcatta ttgtatccag57001 aacaacattt catttaaatg ctgaagaatt tcccatgggt ccccactttc ttgtgaatcc57061 ttgggctgaa cccccctgtc ctgagtggtt actagaacac acctctggac cagaaacaca57121 aaagtggagt aacacacact gcaaagctgt gcttccttgt ttcagcctgt gaatcctcac57181 cttgtttccc atctagccta tatttttcaa actaacttgg ccatagaatc atgtagtatt57241 tagggtggaa gctgccccag gtctagcacg tcatttaaca gatgaggaaa tggaagcttg57301 8661 cgagcctgct ccgctagccc acattgccct ctgggggtga gtatgtcttc acatcctcca57421 ataccctaat gacagacaaa cagaacatgg caaagcctca gctctgcatg gtgaaagtaa57481 gaaccagcaa ttgccacaaa cagaaataca gtgttggtcc ggcagcctcc gggggttctg57541 cacaagtgga ttaccagtga atacaaggct atctatcttt cgaaaaacca acgttgtatt57601 tatgctattt tctataaaat tttatattaa tttatttgtt acctattttt gaactctttc57661 aaaagcacac tttatatttc cctgcttaaa cagtcccccg agggtgggtg cccaaaaggc57721 tctacacttg ttatcattcc ctctccacca caggcatatt gagtaagttt gtatttgggt57781 ttttttaaaa cctccactct acagttaaga aaactaaggc acagagcttc aataatttgg57841 tcagagccaa gtagcagtaa tgaagctgga ggttaaaccc agcagcatga ctgcagttct57901 taatcaatgc cttttgaatt gcacatatgg gatgaactag aacattttct cgatgattcg57961 ctgtccttgt tatgattatg ttactgagct ctgttgtagc acagacatat gtccctatat58021 ggggcggggt tgggggtgtc ttgatcgctg ggctatttct atactgttct ggcttttccc58081 aagcagtcat ttctttctat tctccaagca ccagcaatta gctttacctt ttcagcttct58141 agtttgctga aactaatctg ctatagacag agactccggt gaaccaattt tattaggatt58201 tgatcaaata aactctctct gacaaaggac tgctgaaaga gtaactaaga gtttgatgtt58261 tactgagtgc atagtatgtg ctagatgctg gccgtggatg cctcatagaa tcctcccaac58321 aactcatgaa atgactactg tcattcagcc caatacccag acgagaaagc tgagggtaag58381 381 58381 acaggtttca agcttggcag tctgactaca gaggccactg gcttagcccc tgggttagtc58441 tgcctctgta ggattggggg cacgtaattt tgctgtttgg ggtctcattt gccttcttag58501 agatcacaag ccaaagcttt ttattctaga gccaaggtca cggaagccca gagggcatct58561 tgtggctcgg gagtagctct ctgctgtctt ctcagctctg ctgacaatac ttgagatttt58621 cagatgtcac caaccaccaa gagagcttga tatgactgta tatagtatag tcataaagaa58681 5868126 58681 cctgaacttg accatatact tatgtcatgt ggaaaatttc tcatagcttc agatagatta58741 tatctggagt gaagaatcct gccacctatg tatctggcat agtgtgagtc ctcataaatg58801 cttactggtt tgaagggcaa caaaatagtg aacagagtga aaatccccac taagatcctg58861 ggtccagaaa aagatgggaa acctgtttag ctcacccgtg agcccatagt taaaactctt58921 tagacaacag gttttttccg tttacagaga acaataatat tgggtggtga gcatctgtgt58981 gggggttggg gtgggatagg ggatacgggg agagtggaga aaaagggggc acagggttaa59041 tgtgaagtcc aggatccccc tctacattta aagttggttt aagttggctt taattaatag59101 caactcttaa gataatcaga attttcttaa ccttttagcc ttactgttga aaagccctgt59161 gatcttgtac aaatcatttg cttcttggat agtaatttct tttactaaaa tgtgggcttt59221 tgactagatg aatgtaaatg ttcttctagc tctgatatcc tttattcttt atattttcta59281 3959341 ccgtaaataa actttcagac cagagatcta ttctctagct tattttaagc tcaacttaaa59401 aggaagaact gttctctgat tcttttcgcc ttcaatacac ttaatgattt aactccaccc59461 tccttcaaaa gaaacagcat ttcctacttt tatactgtct atatgattga tttgcacagc59521 tcatctggcc agaagagctg agacatccgt tcccctacaa gaaactctcc ccggtaagta59581 acctctcagc tgcttggcct gttagttagc ttctgagatg agtaaaagac tttacaggaa59641 acccatagaa gacatttggc aaacaccaag tgctcataca attatcttaa aatataatct59701 ttaagataag gaaagggtca cagtttggaa tgagtttcag acggttataa catcaaagat59761 acaaaacatg attgtgagtg aaagacttta aagggagcaa tagtatttta ataactaaca59821 atccttacct ctcaaaagaa agatttgcag agagatgagt cttagctgaa atcttgaaat59881 cttatcttct gctaaggaga actaaaccct ctccagtgag atgccttctg aatatgtgcc 59941695 2 60001 gcctaaaaat ggtcaaaatt aatattaaat tacaaacgcc aaataaaatt ttcctctaat60061 atatcagttt catggcacag ttagtatata attctttatg gttcaaaatt aaaaatgagc60121 60127 60181 gtttaataag agaaaattct cagctagagc agctgaactt aaatagacta ggcaagacag602 ctggttataa gactaaacta cccagaatgc atgacattca tctgtggtgg cagacgaaac60301 attttttatt atattatttc ttgggtatgt atgacaactc ttaattgtgg caactcaaac60 tacaaacaca aacttcacag aaaatgtgag gattttacaa ttggctgttg tcatctatga60421 ccttccctgg gacttgggca cccggccatt tcactctgac tacatcatgt caccaaacat60481 ctgatggtct tgccttttaa ttctcttttt gaggactgag agggagggta gcatggtagt60541 taagagtgca ggcttcccgc attcaaaatc ggttgcttac tagctgtgtg gctttgagca60601 agttactcac cctctctgtg cttcaaggtc cttgtctgca aaatgtgaaa aatatttcct60661 gcctcataag gttgccctaa ggattaaatg aatgaatggg tatgatgctt agaacagtga60721 ttggcatcca gtatgtgccc tcgaggcctc ttaattatta ctggcttgct catagtgcat60781 gttctttgtg ggctaactct agcgtcaata aaaatgttaa gactgagttg cagctgggca60841 tggtggctca tgcctgtaat cccagcattc taggaggctg aggcaggagg atcgcttgag60901 cccaggagtt cgagaccagc ctgggcaaca tagtgtgatc ttgtatctat aaaaataaac60961 aaaattagct tggtgtggtg gcgcctgtag tccccagcca cttggagggg tgaggtgaga 4621 ggattgcttg agcccgggat gatccaggct gcagtgagcc atgatcgtgc cactgcactc61081 cagcctgggc gacagagtga gaccctgtct cacaacaaca acagcaacaa aaaggctgag61141 ctgcaccatg cttgacccag tttcttaaaa ttgttgtcaa agcttcattc actccatggt61201 gctatagagc acaagatttt atttggtgag atggtgcttt catgaattcc cccaacagag61261 ccaagctctc catctagtgg acagggaagc tagcagcaaa ccttcccttc actacaaaac61321 ttcattgctt ggccaaaaag agagttaatt caatgtagac atctatgtag gcaattaaaa61381 acctattgat gtataaaaca gtttgcattc atggagggca actaaataca ttctaggact61441 61 ttataaaaga tcacttttta tttatgcaca gggtggaaca agatggatta tcaagtgtca61 agtccaatct atgacatcaa ttattataca tcggagccct gccaaaaaat caatgtgaag61561 caaatcgcag cccgcctcct gcctccgctc tactcactgg tgttcatctt tggttttgtg61621 ggcaacatgc tggtcatcct catcctgata aactgcaaaa ggctgaagag catgactgac61681 atctacctgc tcaacctggc catctctgac ctgtttttcc ttcttactgt ccccttctgg61741 gctcactatg ctgccgccca gtgggacttt ggaaatacaa tgtgtcaact cttgacaggg61801 61861 tacctggctg tcgtccatgc tgtgtttgct ttaaaagcca ggacggtcac ctttggggtg61921 gtgacaagtg tgatcacttg ggtggtggct gtgtttgcgt ctctcccagg aatcatcttt61981 accagatctc aaaaagaagg tcttcattac acctgcagct ctcattttcc atacagtcag62041 tatcaattct ggaagaattt ccagacatta aagatagtca tcttggggct ggtcctgccg62101 ctgcttgtca tggtcatctg ctactcggga atcctaaaaa ctctgcttcg gtgtcgaaat62161 gagaagaaga ggcacagggc tgtgaggctt atcttcacca tcatgattgt ttattttctc62221 ttctgggctc cctacaacat tgtccttctc ctgaacacct tccaggaatt ctttggcctg62281 aataattgca gtagctctaa caggttggac caagctatgc aggtgacaga gactcttggg62341 atgacgcact gctgcatcaa ccccatcatc tatgcctttg tcggggagaa gttcagaaac 46401 6248 ttccagcaag aggctcccga gcgagcaagc tcagtttaca cccgatccac tggggagcag62521 gaaatatctg tgggcttgtg acacggactc aagtgggctg gtgacccagt cagagttgtg 58581 cacatggctt agttttcata cacagcctgg gctgggggtg gggtgggaga ggtctttttt62641 aaaaggaagt tactgttata gagggtctaa gattcatcca tttatttggc atctgtttaa62701 agtagattag atcttttaag cccatcaatt atagaaagcc aaatcaaaat atgttgatga62761 aaaatagcaa cctttttatc tccccttcac atgcatcaag ttattgacaa actctccctt62821 cactccgaaa gttccttatg tatatttaaa agaaagcctc agagaattgc tgattcttga62881 695 2 62941 8263001 gaaaagacat gaatatgatt agtaaagaaa tgacactttt catgtgtgat ttcccctcca63061 aggtatggtt aataagtttc actgacttag aaccaggcga gagacttgtg gcctgggaga63121 gctgggaag cttcttaaat gagaaggaat ttgagttgga tcatctattg ctggcaaaga63181 cagaagcctc actgcaagca ctgcatgggc aagcttggct gtagaaggag acagagctgg63241 ttgggaagac atggggagga aggacaaggc tagatcatga agaaccttga cggcattgct63301 ccgtctaagt catgagctga gcagggagat cctggttggt gttgcagaag gtttactctg63361 tggccaaagg agggtcagga aggatgagca tttagggcaa ggagaccacc aacagccctc63421 aggtcagggt gaggatggcc tctgctaagc tcaaggcgtg aggatgggaa ggagggaggt63481 attcgtaagg atgggaagga gggaggtatt cgtgcagcat atgaggatgc agagtcagca63541 gaactggggt ggatttggtt tggaagtgag ggtcagagag gagtcagaga gaatccctag63601 tcttcaagca gattggagaa acccttgaaa agacatcaag cacagaagga ggaggaggag63661 gtttaggtca agaagaagat ggattggtgt aaaaggatgg gtctggtttg cagagcttga63721 acacagtctc acccagactc caggctgtct ttcactgaat gcttctgact tcatagattt 4681 ccttcccatc ccagctgaaa tactgagggg tctccaggag gagactagat ttatgaatac63841 acgaggtatg aggtctagga acatacttca gctcacacat gagatctagg tgaggattga63901 ttacctagta gtcatttcat gggttgttgg gaggattcta tgaggcaacc acaggcagca63961 tttagcacat actacacatt caataagcat caaactctta gttactcatt cagggatagc64021 actgagcaaa gcattgagca aaggggtccc atagaggtga gggaagcctg aaaaactaag64081 atgctgcctg cccagtgcac acaagtgtag gtatcatttt ctgcatttaa ccgtcaatag64141 gcaaaggggg gaagggacat attcatttgg aaataagctg ccttgagcct taaaacccac64201 aaaagtacaa tttaccagcc tccgtatttc agactgaatg ggggtggggg gggcgcctta64261 ggtacttatt ccagatgcct tctccagaca aaccagaagc aacagaaaaa atcgtctctc64321 cctccctttg aaatgaatat accccttagt gtttgggtat attcatttca aagggagaga64381 gagaggtttt tttctgttct ttctcatatg attgtgcaca tacttgagac tgttttgaat64441 ttgggggatg gctaaaacca tcatagtaca ggtaaggtga gggaatagta agtggtgaga64501 actactcagg gaatgaaggt gtcagaataa taagaggtgctactgacttt ctcagcctct64561 gaatatgaac ggtgagcatt gtggctgtca gcaggaagca acgaagggaa atgtctttcc64621 ttttgctctt aagttgtgga gagtgcaaca gtagcatagg accctaccct ctgggccaag64681 tcaaagacat tctgacatct tagtatttgc atattcttat gtatgtgaaa gttacaaatt64741 gcttgaaaga aaatatgcat ctaataaaaa acaccttcta aaataattca ttatattctt64801 gctctttcag tcaagtgtac atttagagaa tagcacataa aactgccaga gcattttata64861 agcagctgtt ttcttcctta gtgtgtgtgc atgtgtgtgt gatgtataca aagagagaga64921 taattgtatt tttgtatttt cttttaaata atttttaaaa ttgacccttt tcctgagaca64981 aattgccaga atagtttgta tttagagatg gtacctctaa gagtaaggtt gctggttgct65041 gagcaattga cttgaaaact tttaaaattc aaattttaat tccactactc aaaagaattg65101 ccatgtttta aaaaagagaa ttggtgccat aagttagttg tctatgtttg aaaatgaaga65161 65 65161 agatatgcaa cgtcatggcc tggtcactta cccgcagccc tgagttgtag gcacatcata65221 tgtgagaatg aggatgcttt tctttcattt aaaatccctc cccaaaactt ggctctaatt65281 gcagtcatga caatcatgta catttggatt tatgtgcacg agtctcttac cctgagagag65341 gacaggtgct acaggtggag gggacccgtc tgggtcacgt tcacattttg aacatgctgg65401 ttttcagtca ctgcacactc atctcccagc gcaggtcatg ggcagcagat gcaaaagctg65461 cccgtggtcc tatttggagg tgcatgaaat gagcagaaga cagaatagct tgatctgact65521 agaagggcag cttgtcccta ccaagacttg aaggattgcc tttcatctgt tagggtaaaa65581 ggtagaatga accaaggaag ggcaggaggg ggctggggtt agggtagaag gaaggggcca65641 tggagaaggg agatccatcc cataggagga aggcagtgcg gcagggaggt ttgaaggtat65701 cagcttttgt ggctgacata catgcagtca tgtcaattgc tcgtttttcc ttttccatct65761 tattaaatgt cttccaatgt tagcacgaag aaaagctatt tgcagtgttg ccagcctttc65821 cagagcccgt ccccattacc tccccaggcc catgccttta ctccttggag tttcaactca65881 387 65881 cgaccttcag gatctgactt tattcaccaa ctctggggtg aacgtacctt ctgtctccac65941 ccagaggtct ctatcaaaga ggagattgca tgccatggat aaagtcaaag tagaggtgac66001 tgtccttagg aagagtaatg tgaaaattca taaactggga ttctgtttac attttgtact66061 ccaggggttc ttagtttaaa tcgctctgaa taaattaaga tgcaatggca tttcaactgt66121 tatgattaaa tttacaaatc atttattttc tatcacgggg agagatagag ctccaaatgc66181 aaacataact gctcaagtgt taacacttat aatgaaaaca taagaattac caccaactac66241 cctgggggct agaagcagaa atgtgaacca gaaaacaaat catgaacttt cctttttttt66301 tttgagatgg agtctcgctc tgttgcccag gctggagtgc aatggtgcga tctcggctca66361 ctgcaaccac tgcctcccgg gttcaagcaa ttctcctgcc tcagcctcct gagtagctgg66421 gactacaggc atgcaccacc acgcctgggt aattttttgt atttttagta gagacagggt66481 ttcaccgtat tagccaggat gctctcgatc tcctgacctc gtgatctgcc cgcctcggcc66541 tcccaccgaa gtgctgggat tacaggcatg agccactgtg cccggccaac aaatcatgaa66601 ctttctaact gcagttcctt gtagcttgtt aacacatcca cttacttatt gtcagagtac66661 gtggagattt tccacaaccc tcggggataa ggctgaacag aagaggcaaa aacgtgaaaa66721 catttcgata gctcctatac tttgaaataa aattcactgt aaaagttgct tgtatttttc66781 caaaacagag tcaaccctta atatttaaga ttctgtatac aaatacatat ttttatataa66841 ttaatatata ttgtcatatg acatatatct ttatattaat atgcatgcat ataatatata66901 tttccttcct aattttctat aagcaatttt acaagactga cttctatttg cctccttatt66961 gttactacgt ggtttgataa tccgttttgt gtcattgtga ttctgtcatg ttttggggac67021 ttatttttgt ttctctgggt ggtcactagt ttttttaaag cattcatgga agagtgtgaa67081 tcttttacaa gctaggaagc catggcaagc cttgggtcat actgcccccg cgaggccaca67141 ttggcaaacc agcaagggtg ttcaacttcc agacttggcc atggagaaga catacgagga67201 ggcttttcac attcagctct ttaatgtttg tctctgccgg caccatccca gttgtgaata67261 agaggtattt ccacagcggc tcagggtagg tagtgcacag ctcacattca tcatttctga67321 aaaccgagag gagtctccat tcggggtaca ggttgatgcc tgtcgtggaa tgaaggttcc67381 aacacccaga ccaatctctg cagtgtgctg ctctcatgag cttgcaacaa gatcagaaaa67441 tgttttgtga ctaagcattt ttcatattgc ataaaatgct tcaagctcct cccttgtttc67501 tctctataat cctgtatatc tgatgattgt gggtaccaag tgtttgaaat aatcaaatgt67561 gatttgatgt tggtaaattt cttttttttt ttttttttac ttctattttt tttattatac67621 tttaagtttt agggtacatg tgcacattgt gcaggttagt tacatatgta tacatgtgcc67681 atgctggtgc actgcaccca ctaactcgtc atctagcatt aggtatatct cccaatgcta67741 tccctccccc ctccccccac cccaccacag tccccaaagt gtgatattcc ccttcctatg67801 tccatgtgat ctcattgttc aattcccacc tatgagtgag aatatgcggt gtttggtttt67861 ttgttcttgc gatagtttac tgagaatgat ggtttccaat ttcatccatg tccctacaaa67921 ggacatgaac atagcaaaga cttggaacca acccaaatgt ccaacaatga tagactggat67981 taagaaaatg tggcacatat acaccatggt aaatttcttt atcattcgca ctctcctttc68041 tctattattg ttattgtaac tgaaccgcag attagtcact cattgcttgc agaatccaat68101 taacaagagc gaggtcagat ataaagaaaa tgatttattc caaacctcct tcagggaaga68161 ggtgcagcct cctgcctcta aatgcactgc ttcgccaggc gtggtggctc acacctgtaa 6848 tcccagcact ttgggagacc gaggagggca gatcacttaa ggtcaggagt tcaagaccgg68281 cctggccaat atagtgaaac ccctgcctct actaaaaata caaaaaatta gccagacgtg68341 gtggcgggtg cttgtaatcc cagctactcg ggaggctgag gcaggagaat cgcttgaacc68401 tgggaggtgg aagttgcagt gagctgacat ctagccactg cactccagcc tgggtgacag68461 5961 agtgagactc tgtctcaaaa taaataaata aataaataaa taaataaata gtaaatgcac68521 tgctttgctt ttggagcaga aagcaggcac tttgaaaagg caggggagga agtgagcaag ggcagggggt ctgcacactg gcatggtgcc tgatctatcc aggcagttga attggcactt68641 tcataggcag aaataagttg aaaaagtggc ctaaaactct ctaggtggga gtggatagtg68 ggcatgcctt caacctgcct ttctggaggg tgagttccat ggcaaccccc tgaagggtga68761 gagttccatg gagatcatgc tttggtctgt aaatcagctg ttaactctct agaaagttct68821 68827 68881 aaaaggtgag atttgcattt ctaaagggct aagtagaacg tggggtacaa gaggaaagga68941 gaaaagagaa aataatttaa aaaataattg taacttattc ccttttactt agaaaaaagg69001 gaatactcag ttacattatc acctcgttta catcaaaccc tcttatggaa tcctatggtt69061 tgaaaacaaa aaggttgttg aggaccagtg agcccaaccc ctttgcttta taaatgaaga69121 gcattgcctg ccctaagccc cagagactct gatgtcgtgg gtctggagtg ggctccaaca 6916 69181 gcggcatgtt ttgatggtgc ttcccagtgg cacgccagcg atgagccttt gagtagggaa69241 agtaggagca ctcgtgactc ccttcacgat cagcacctgt gtgctaataa attcacaaaa69301 gccaacatat tggagtcact cagggagttt tacaaatagt gaggttaaat ccaacctcaa69361 atagttctga ttcgatctgc ctgcattgct gccctgtggt tccccactgt agaagctccc69421 caggtgattc taagtgtagc caagtctgag aaatactgcc taaagcctgt tggactgaca69481 gcaagggctg ttgtctgagc aagactttgc ctggcctggg gtggcatgtg caccaggaag69541 agtctcaact ttcataacag aacattcccc aagctggttt ttttaaagca tgtgaatcta69601 gacttcattg gcaataccaa agatctgtat ttgaggctcc aagtatttca ctttcatttt69661 tggttttggg ttatgttttc acccttcctt tccaagtgaa aagtaaacag aagtgggatg69721 tctggcgccc atgctgagct tggcaacttc aaattcaata gagaagaagt ctcttgtata69781 gaaaagggcc tgtctgagat gtttctcaaa taaatataga ttttgcttat gtggctaaag69841 gattcttctc cccccatttc cttatccctg cagtgagcca tccttcttaa ctctttccat69901 gaaagcatta ttcctgaaga actgggaact catgccagcc ctgatcaggc aatgataatt69961 ctgcagagaa ttagaattta gatttaaatt gtcaactctt atacatcctg gcatatggtt70021 68681 aacttaatct ttttggtttt gagtcaagac aattcctcct tttgaaactg cataccgctg70141 7056 70201 tctctgttca ctttaaaatt cctctactta ggtttactgc cattaccaaa gactattcaa70261 aaatcctttt taggagaatc ctaatggttt cctgacatat aatcaaataa ggactctgtt70321 gattggctaa ctcaatcttc ctgtgccaaa aagcagagcc cagcagagaa gagggcaggg70381 acttgaaagt cagactgact cgagttccag ccttggggct gtgggagctt gggcaagtga70441 cttaacgtct ctggctctca ggatctaaaa ggatttccag tagtaatttg gggtgttact70501 gatacaggag ctaaaaagaa attatttagg tggttagtga gggtcagaga gtcctcggta70561 agatttgcct tttaacaaaa agcagcccca aaatcatttg tttgctaaca aagagaagcc70621 tgtaaaattg agctgcagac atagataagc aagctggaag cttgcacggg tgaatgccgg70681 cagctgtgcc aataggaaaa ggctatctgg gggccaggca tgttcaacat ggattctcca70741 tcttcccttt tctttgtcaa ccaagtgtac agtaaaggaa caggcaacat ggcacgggcc70801 aggtagagaa cccttctgca taataaaaga ttagggtgag atggccagct tcttcccgtg70861 ctatgtaaat ggcatacctg gtccaaccag tcttttgggc cctgtgtaaa tcagacaccg70921 cctcctcaag ttagtctata aaaccccatg cattttaccg tgaaactggg agatccactc70981 ggaaccccct cctgcacgag agaccttttc tcttttgcct attacacttc cgctcttaaa71041 ctcactgctc atgtgttagc atccttgatt tccttggcat gaggcaatga accttgtgta71101 ttaccccata caaatgatgc tgcttcatta ctaatagcaa cctgacaggg ttgtgttggg71161 gtataaatta tctagaccag ggagatccaa tataattttt ttgtaatgac gggaatgctt71221 tgtatctgca tcatccaaaa tggtagccac caggccaggg tgaaatgtgg ccagtgtgac71281 tgaggaactg aatgttttcc atgatttaat ttaaatgtgg ccaatggcta ctgtaggaga71341 cagtgtgagt ctggcatatt ataaataata aatattaata taatttgaac tttggcatca71401 gtgtttccta gatttgaatt actatgcaag ttgcttactg tttccaagcc tcagctttct71461 aatctgtaat tggggctaat aatagtatct gccttacagg tttgttcaga ggataaatga71521 gaaattgcat gttgagggct taacacagtg cctggcacat aaaagctctg gtaacagtta71581 gccactttaa taatttgcta ataatggcta tttcttcttc agattaggat gtgctccccc71641 aaacagtgca cttagacata gcgggcaatc cagctcactc tctgcagtga gagagaagca71 ctggccgacc agagtcagcc aggggctcat gggtatgaaa tcaacagcat gattttgtaa71761 gtaatggatg gaaagggcct cacaacttta tggcactgtg ttcaatttgc ttggtcttct71821 gtagctcctt ttgaaagcct tttagggtgg attaacctgc taccaataat tctggtcaga71881 tgtagactcc atagctcaaa gcaaactgag agagtgaggg cagcaggcca attccccacc71941 ccttccttct ggactctgac agaagcttac actcaaggaa gagcaagtag gaattaacgt72001 gttaagagct aggtaagcaa aacccaatga gaagttctgg caaagcccca tgggcagggg72061 tggcttaggc acaggaaaca agtaggattt cataccacgc gcctcagtct acttccgggg72121 ccctcatcct cagctgtgcc tatgcaaagg agagcaacca ataaacccca ccgccactct72 cctactgtgg aggccaggga tggccagggg taagagaggg atgggaagtg tttcctccag72241 ccgtcctctg agaaggagag gaaactgggc agagcttctg tcctccttca agcagaaaca72301 gaaacaaaag aaacccctaa gggggttctt acttcccctc tagttcagtt gtgcactaac72361 catctgcagc tcaacattca gcattcattc attgattcag caaacattga aggagggcca72421 gctatgtgcc agatgccaac tcatgccatg aaagagagtc cctgtcctta tgaaattcac72481 tatttagaga gaaaagcaag caaaaaggca aagtttgaaa agtactgttg aagtggcatc72541 attgtctggg gtgaatacct gaggtttgtg gtctcacgcc aagggaatca aggactcagg72601 cacacaagaa gtgagtttaa gagcagaggt ttaataggca aaagaaagag aaaaaagaat72661 agctctcttg cctgcacaga gagaggggca cctgagtgga tcttcctgtt ttgtggtgaa72721 atgcaaggca ttttatagac gagcttgagg aagtggtgtc tgatttactt aggacccgag72781 agattggtca gaccaggtgt gatgtttaca tagcatacaa agaagctggc catcccatcc72841 taatctttta ttacgcagac ggggtctata cctggctggt gccatgttgt ctgttcctta72901 ctgtacacgt ggttgacaaa gaaaagggaa gatgaagaat ccatgttgaa catgcctggc72961 ccccagatag tcttttccta ttggcacagc tgccggcatt cactcttgca agcttccaga73021 ttgcttatct atgtctgcag cccaatttta caggttgctc tttgctagaa aagaaatgat73081 ttgggggctg cttttcatta aaaggaaaac cttaccaagg ttaaaaagaa aaaaatttct73141 ttttaatgcc tatgttactg tgaacagtgt cgggataagg ctctgagagc cagatgagga73201 tgagttatcc aatccaagga tgggggtctg gaggaaaaaa tcctagagag cattgctgca73261 gttgaataag gattagttag aagctactga gtggagcata ggagtaggaa ctcttatgca 3673321 ttgagataga tgatagatag gtagatagat ggatagggta catagatgat agatagatag73 atagatagat agatagatag atagatagat agacagacag acagacactg gtgtgagtgt73501 gggtgtgtgt gtctggctgc gtgcatgcat tcctcctgca ggagatcagg agcagtgggc73561 agtatggagt gacaagaaga ttgggaggta ctccttctag ccctcccctc tgctctgccc73621 tccactggag cagaagcaaa gcatatggtg aaggggaaca aggagtctcc ccagcacagt73681 acccgagtgc attagctatt tatcactcca cagtccccat tcacgtgtta attcagcatt73741 tattgaatgc ttactgtttg caatgtctat gtcaagctgt caagtgtagt ttttattcta73801 caggccacag gcacccccta actgtgttaa acaagatggt agtattgaga caggaataat73861 aagggtggtc acaggagaat ggaagattcc aggcagcagt ttgactagta aaaaaggaaa 921 ctgttgaaat agctgcataa tccaggggtc aataagaacc tgagaaccag ggtgtgagcc73981 aaggctggtt aaaagcaact ggatccaata tggtgctgag tttctcctag gttttgcctg74041 gaacctcatt atatgctcaa taacatacca aatcacacac ccaccagggc cattccattt74101 cctggaacac tcatgtttgg tgtaaaaatg ggtggcacca cagctctgag aaatctttac74161 ctttttcagg aaacttcatg aatattccat cctttggtta aagaaaccca taatgtagaa74221 gccccaaacc ctactgggcg caactctctc tctcttgagt atgcctgcac ttccctttat74281 tatttattta tttatttatt atttatttat ttatttttta gatggagtct ggctctgtca74341 cccaggctgg agtgcagtgg cgcagtctca gctcactgca agctctgcct ccagggttca74401 ggccattctc ctgcctcagc ctcctgagca gcagggacta caggcgccca ccacaacgcc74461 tagctaattt tttgtatttt cagtagagat ggggtttcac catattttat tttatttttg74521 agacagggtc tcactttgtt ggctcgctgc aacctctgcc tcccaggctc aagcaatcct 7486581 74641 74761 ttttgtattt ttttttgtag agacagggtc ttgccatgtt ccccaggctg gtcttgaact74701 74761761761 ccaccccacc cgaccacact cccatttctt gagtgtgtgc attttgctct gcaataaatc74821 tctctacttt cacttttctc tgactcgtcc ttgaattcct tcttgtgaca gcgtcaacag74881 cctggacacc aggtgcagtc aacgtctcac cagtgtttag ggacctcccc taatccactg74941 gtatcagcat gatcagactt gctttttcag aaaaagcctt ctgtccatag accaaaggga75001 agtgactcag agaaggggca ggaggaatca caagctccct gcctgaccag gcctggacta75061 tggcagagac agtgagatgg tgagaaagca agggtagaca gccagccaaa tccagaatat75121 agaaagttct acaggaaaag gtggggccaa ggtgggacag ggggaaagga attgttgcac75181 attaacagtg caatgcagag cactggtctt gtttatgtcc aggttagaac aaaccaatga75241 gaaagcacat ctttgagaca actggagaaa tttgaacact gactagatat aatattatgt75301 7533575301 75301 taattatgct ttaatttggg gtacaataat gcttttgtag ctatttctaa agagtcctta75361 tctcttaagg atacactcta aaatactagt ggattaagtt atatgatgtt tagactcttt75421 ttaaaataat ccagtggggt gagaggcaga gggaagggag aggagcatag aggaaacagt75481 gttggccata tgtttgtaat tgttaaaact gagtgatggg aatatggaga tttaacatat75541 taatactatt ttctgcccat gtaatatttg aatattttca taataaaatt gagagagaga75601 taaagaaaga aaagagaaaa gaagagaaga gagaagagat aagggaagtg gaggaaaaag75661 agctttcttc aaggaccatt gtggtggaca caaatgaaag ataccccctt cctactatga75721 7563 75721 attctaggtg tgtactaccc aagatgagtc aatcggatcc tagcttccag aaatcgtgag75781 catgatgcag ccctacagac gcagtgccct ggaaaggaga cccatgacca tccaaggaag75841 atgtcccatc acagaactgc cctgggtcat gtgttttcca agtccacatg tccggtagtt75901 ccttctttcc tatgaccaat gccaccagtc ttccagcact gtcctttatt gctaggcaaa75961 cctgagccat cctcttcttc ttgcaacttg tgcctgaagt aacatggaca caaagtcccc76021 acttttccca cattctcaga atgaagtagt tctccctcca cactttaggt gctagaggca76081 agtggattgc ttgagctcaa gagttcaaga ccagcctgag caacatggca aaaccccgtc76141 tctacaaaaa atacaaaaat taactggggg tggtggtgtg cacctgcagt cccagctact76201 caggaggcag agaaggagga tttcttgagc cctgaaggtg gttgtgttac gtgcattcat76261 76321 76261 gttaagagac caccaaacag gctttgtgtg agcaattaag ctttttaatc atgtgggtgc76321 aggcagactg agtctgaaaa aagagtcagc aaagggagat agggatgggg cggttttata76381 ggatttgtgt aggtagtgga aaattacagt taaagggggt tgtcctcttg cgggtacagg76441 cgggggtcac aaggtgctca gtggggagct cctgagattt attgtccagg agaaggaatg76501 tcacaaggtc aactgatcag ttagggtggg gcaggaacaa attacaatgg tggaatgtca76561 tcagttaagg caggaactgg gtattttcac ttctttgtgg ttcttcagtt gcttcaggcc76621 atctggatgt ataagcgcag gtcacagggg atatgatggc ttagctcggg ctcagaggcc76681 tgacattcct gtcttcttat attaataaga aaaacaaaac aaaatagtga tgaaatgttg76741 gggcagcgaa aatttttggg ggtggtatgg agagataatg ggtgatgttt ctcagggctg76801 cttcaagcag gattaggggt gacacaggaa cctagagagt gagagagatt aaactgaaga 7686148 76921 atgattggta atggcctgga tgcagttttg tatgaattga gaaactaaac ggaagacaca76981 aggtctgaat aagagaagga gaaaaacagg cattaaagga ctaagaactg ggaggaccca77041 ggacatccaa ttagagagtg cccaaggggg ttcagcataa ttatttgctt ggttggtgag77101 tttttggtct ccatccttga gtttttttta tgttgtcata tgccaggcca gattgattta77161 ggtaaaaaca acactcttca tttaaaaata tacagagttc tcctttctca gcagtgagta77221 agtcaaggcc tcagcagttt tggaggaaag agaaatgcaa aggaagcaat tgtttgttaa77281 gaaggattag aaatggctag gagagagtga gtgagattga tagtgtggtg gagatagctg77341 aggagaggta gagggtggca taagaatggg aacgagaata agagtgagta taaaagtaaa77401 gaatagaact tcatcagggt gaaagtattg gagggtgccc tgtcagcaaa gatcatctgt77461 ccactccaag agggagtcaa gagtggcgga ttggggatag taccaggaga tatccactat77521 gatggtttgg aggaaaagtg taaactggca gtgtaaacag gggcagggca tttatgagtc77581 8641 77641 gggcacagtc caaatagtgg gggtgactgc gtagagctct gttgcaaaaa gtagggtaag77 gataaataga cttaatagaa tgaagagatg tattaggctc ataagggtta ttattgttct77761 tcagaaatgc gagtgagttt aagggaagta ggggtgagta cttgcgactt ccagaaggaa77821 gaggagagat caggctggct gtctgatggg cacagcttta ttctggaaca gtgaatccaa77881 tggggagggt cgtgcagacg gatggcagtt ggggtgctat aaatgaccag gtagggtcca77941 gtccatcaaa gctgtagagt gtgaggggtc agacttgaca aggactgatt gcccagctaa78001 ggtatcttca catggctggg agtttggagg aggcaagaga agattagcag cctggcgaat78061 ttcctgtcta gcctgctgga ggactggaag ataaaggcaa caggtcgtgg gcctggatcc78121 tgtgtgagga ctctagcagc acagccttgt atttcagctg tgtgtaagga aaaaggatgg78181 gacgagtcgg ggagtgctag tgtgggagct gtctccaggt cctttttgag agagtgaaag78241 gaagaatggg gaaaagactt atggtctatg ggattagtta aattaccctt tgtgagctag78301 taaagtggtt tgattaggat agcaaagccc ggtatccaaa gttggaaata tccaacaatg78361 cctaagaagg aagggagttg ttgtttggtg gtgggggttg gggtctggga gattaactga78421 acagagtctg caggaagggt atgtgtatgt tgatggagca ttataccaag ataggtaatg78481 ctaggggaag aaatttgtgc ctcagagggc aatactttgt acccctttga gtaaagatgt78 tgaagaagca ggctagtgtc ctgctgggaa gattggtaag aggggctgca aagaagaaga78601 tcatcaacat attgaataag gtgggaggta gatgggtgaa aagaaagcag atcatgagaa78661 agggcctggc caaagtaatg tgggctgtcc ctgaagcctt ggggtagaaa aatccaggtg78 agttgttggg actggtgggt gtcagagtca gtccaagtaa ggcaaaaaga ggctgggagg78781 agggatgcaa ggggatagta aagaaggcat ctttgaggtc gataacagaa tagagttgtg78841 gaagggtgta ttgaagatag gagggtgtac gggtttggca ctataggatg gatgggaagg78901 acgatttgat caacaagacg aagatcctga acaaacctgt aagacttgtc cggtttctgg78961 acgggtagga taggggagtt gtaaggagaa tttgtaggct ttaagaggcc atgttgaaac79021 081 tgagcggggt aagggtgatt acattttaat gggatgataa ggggtgcatg atcggttgcc79141 aaggtaggag tagaggtttc ttatacttgt ggattaaggt ggggagatac aaggggagga79201 tgtgaaacag gtcttgagtt gggtaaaagt gcagcaaaga gatgtggctg cagcccagga79261 atactcaggg aagcagataa tttggttaaa atgtctcagc ctattaagga agctggacag79321 gtggggataa ctaaaaaagt gcataaaaga atgttgtcca agttggcacc agagtggggg79381 agttttaagc ggtttagaag cctcgccgac aatacccaca acagttatgg aggcaaggga79441 aacaggccct tgaaaagaaa gtaatgtgga gtgggtagcc tccgtattga ttaagaaggg79501 gacagactta ccctccactg taagagttac ccaaagcatc tgtgatggtc caggaggctt79561 ctgaggtgat caggcagtgt cagtcttcag ctgctaagct gagaagatct gggaaggagt79621 cagtcagaga gccttgggcc agagttccag gggctctggg agtggttgcc aggcaagttg79681 aacagtctga tttccagtgg ggtctcgcac agatgggaca ttccttggcc cagtggccag79741 atttccggca cttgaaggaa gatcctgggg gaggaggtcc tggagaaatg cctggcccct79801 gcagtttagg tgttttgaag ttcttgtgtg ctggagatgt ggctggggtt tctcttacag79861 58921 tgtacacctt aaggcgaggg taattaaatc ctgttgtggg gtttgagggc tggaatctaa79981 tttttggagc tttttctaat gtcaggagca gattgggtaa taaaatgcat attgagaata80041 agacggcctt ctggcacctc tgggtctaga gaggtaaagt gtctaagggt tgttgccaaa801 caggccatgg actcagctgg gttttcatat ttgatgaaaa agagcctaaa cgctaactga80161 tttgggagag gtcagctaaa gaaaaaggag cattaacctt gactatgcct ttagctctag80 ccacctctct aagaggaaat tgttgggccg gtgggggagg gctagttgtg gaacgaaact80281 gtaagccaga ccaggtgtga ggagagaagg tgaccaaagg tttatagggt aggggagcag80341 aggctgggga agaattggga cctggctagg cctagcgagg aacagcctgg ggaggagggg80401 agaaatcaga tgggtccgta gaaaaggagg attcaaagga ctcagagctt ggggtggaga80461 ctgaaggaac agacaggaga gaaagaggaa agatttggga tgagtcacat tgggagcaga 80874521 7 80581 ccattttacg acaaaaatta tctagatctt gtaggatgga taaatcgaaa gtgtcattct80641 ctggccactt ggaactattg tcaagtttgt attggggcca agcagtatta cagaagaaaa80701 taagatgttt aggtttttaa aagagtgcat aaaagaatgt tgtccaagtc catgcccttc80761 ttaatcaata tgggagctac ccactccaca ttaccttctt ttcaagggcc tgtttccctt80821 gcctccataa ctgttgtggg tattgatggc caggcttata agccccttaa aattacccca80881 ctctggtgcc aacttggaga ggtcaggtgt tagtcaaagg tgttttaagt tttaagaaca80941 caggctaagg gagaagaagg gggaatgaag cgtggaaggt tgcccatagt gaaagaggta81001 agtttaaaga gaaaggtaga gacatggaga aggggggagg tgagcagccc tgggctgtca81061 tgtgggttag cagccaaagc tggtgtccca gcaattgact taccaccaag ggaatgtggg81121 tgaatgacca aggcaggcat ccccccggtg atcagacacc aaatggaatg tgggtgaaag81181 atcaaggtag gtgtccccat gatgatcaga caccaaagga aggctgtctt cccaaatcca81241 tgatccatgt tggagttttt gagttcatgg ataaaatgtg tctcctttgt ctctactaga81301 gaggaaaaag aactggaatt tgaaggacag ggagattgaa gggtagggag agaggctgaa81361 gaagagagtg aggagaccgc ttacccggtt tgaaattggt gagatgttcc ttgggctggt81421 ctgaggacct gaggtcgtag gtggatcttc tcatggagtg agggtgagga gaggggacca81481 atctcccgaa ggagtcaccc tgtccggggt cttcggcacc aaatgttatg cgcatccata81541 tgaagagacc accaaacagg ctttgtgtga gcaataaagc tttttaatca tgtgggtgca81601 ggcagactga gtctgaaaaa ggagtcagca atgggagtta gggttggggt ggttctatag81661 gatttgggta ggtaatggaa aattacagtt aaagggggtt gtcctcttgc aggcaagggc81721 aggggtcaca aggtgctcgg tggggagttc ctgagactca ctgtccagaa ggaatgtcac81781 aaggtcaatt gatcagttgg ggtggggcag gaacaaatta caatggtgga atgtcatcag81841 ttaaggcagg agcggcctat tttcacttct tttgtggttc ttcagttgct tcaggcaatc81901 tggatgtata tgtgcaggtc acagaggata tgatggctta gcttggactc agaggcctga caggttgctg cagtgagcca agatcacact actgcactcc tgcctgggca acagagccac82021 aaaaaaaaaa aaaaagaaaa gaaaagaaaa aaaaagaaga agaaaaaaaa attttttttc82081 caccaagaat ttagtaaaaa attataggga aaagtgtcac taattcaagg gaattgcact82141 gaaaattatt cattcattca acagatattt attgagaagc aagtatgctg gtgctagggt82201 82 82201 tacaacagcg cacaaattct tgtattcaag gaatgaggta agagtatgca gataggagcc82261 agagaggtca agaggcaatt gcaacataga gtgacacgtg ctccagaaca cataggaggg82321 cttccaggcc ccatgctggg ctatcagagc tggcttcctg caggtggtgt ggctcagcta82381 aaacctgaga accaagaatg agccttctga tatctcaggg ttaaatcggc acaaatgaaa82441 ccattttata accaaacaac attttccctc ctgaactgca ctttttctag aacccattta82501 atccttccta acatgttcaa tccagccccg tgatttttca gtcaaatgca agatgcgtag82561 gattcctttt ctgttcagtg ctccccagcc aatctttttc ccttctccca ccccacagtt82621 actaattcca gcgtttcagt tctcagcaga ggatgacagt tccaccagga gacatcagtg82681 ttatctggag acattttagt tgtcccagct gagggcacag tgctgctggc atctagtggg82741 tgaaggtcag gaatgcacct caacatcctg gaacactcag gacaatcccc agcaacaaaa82801 acctacccat ccagaacatc aacagggctg tggctgagga gccctgctct agtgcttcct82861 ccttactgta tcctcatcaa ggagggctct ggggcatgtc aggggctgct acaggctcct82921 ggcagatttc ggcgacttac tccagacttg tggaacattc aggattctta gcatggccac82981 aggagagtca ggctgtccac aagcactctc tctttcttca cccactcatt cctgtcactc83041 taccatttcc actgccttcc caaatgccca tcgtgagtcc caccaggggc cagaacacca83101 ctctctcaag cctccccagt ggcgcgtgca cacctggaga acatgtctca catcccccag83161 83 83161 ccagcgagac gtcctgagat tccagcactt ctcagtgtct ttcccagctt gtttgtatct83221 838294 83221 ggaatggggt ggggtctctc acacaggaga aattacaagg aaaagtgtac gtgacaggaa83281 tggaggaatt tctgtggaaa cggtgtgtga gaaaatgtag gaagaaagaa acttcaggaa83341 atggtaagtg gcatcttgag agcagaaagt gagaagggag cagaaagaaa tggggctgga83401 acctgggaag gagaggacag gtggggatgg ccttgcacac cgtgggcact gaggagtgtg83461 ggcccatggc atgggtggag aggagtttca agatagggag tagattccta ttttgaactt83521 cggattgccc ctggcgatgt ggagactgta ttggaagaag gcaagaatgg aggagagccc83581 ctaggtggag gtttggcaat gctctctcca gaatatagca gaggcctctt ccaaggtagg83641 aaagccctga ctggagagaa gttaatggct ctgagggctc aagggaggac ttggattatc83701 aggactttta gggaggcata tgatcaaggc ttgggtcttg gcccattgaa atggggagca83761 ctggttttag gatgtgggtc aattagtttg gttttcagga caggctgagt tggatatcct83821 gggggacctc caggtggcag tgtcagggga agctggatgt gctgacactg aactcagcag83881 agtgactgag tagagatcga catctggggt cacaggcagt ggatgccgta ggggtggact83941 caatagctca agcagaaccc ggaggaatgc aggcagcaaa gggagcccta aagaacagtg84001 aggagatgtg ccaagaaaga gccaaatccg ggggattggc tgtgggagag agggctgtgg84061 gagtaagagg aagtgtcagc aacgtcaaat gttgcagaga catagagtaa ggtaagagtg84121 gaaaaaacat ccatggaacc ctgtgatgca atcggaatgc agaaagactt tgtaactcct84181 gcctggtctc ctcctctgcc cactcatggc aaaggaatac aaagtaatgt tccctccttc84241 cgcctagaaa agcacaactt ctgcccccaa gccctgggct ctcctgagag gacaggacca84301 gcctctgaag ttgaaggtcc tggttctgcc cccaagccct gggctctcct gagaggacag84361 gaccagcctc tgaagttgaa ggtcctggtt taccagatag ggaaggggcc ctttccaaga84421 ccctttccag aaggtgtggc tgagatggga accgtggact ctgtgcagat gtaggagctg84481 gctccagtca agtgctagga ggttgtgggt cctgggaagg aagaggctct ggagcctctg84541 tggagactct gggactgtcc ttgggggaga cgtgagcagg aagaagcagg gccttcacag84601 828456 84661 agttacaatg tgtcatttaa ttttactaaa gggaatattt tttaaatgag gatgctactt84721 tgtgtattaa tttttacctc tattcataaa agaaacgttt cttatctatt taagatgatt84781 catatcagac cagtgtctgc ccaactcgac tgaccctgtg aaaactgggc acttcacact84841 ccaatgatga tggatgagtc cccagcagca tagtttaagg gagtgagtgg gcagtgtggc84901 ctcctgtgca cgtgacttcc tccttcagtg tgcccacatg tgggttccac ggtcttgtga84961 cattgtggct ttagaaattt ctgtttccat tttctatcat tcagagtaaa tgaaatttgc85021 aggaaattca gaaccttcca cctgtacagt ggatactgtg agactctgcc cagatgccct85081 cttcaagcca atgcatctct ccatgctccc actcccatag atgggaacag aggtgctgga85141 actcagatct actccccttt ctgggaactg gagctgcctg cccaggcaat gcccccttcc85201 cagggatggc tgagccaatg actggctaat gttggattgc agaggcctag cgccctcccc85261 tcaattccta attccttgta ggaataactg aggcctcctc tgtgaccacg tgggcagctt85321 ctccctctgc ctggtcctgt cttgttctct cctttccaat tgtgtctcct ggaagccctc85381 cccacaagtc tgctgcatac aactctcctt ctcagagagc ctgagccctg gattcccagg85441 aatccagcct aaaatagtct ggcatttggt ttcaattttc tctttcacta agactcagtc85501 acaggtgcta ataaataata aaatgtcacc accttgaatt ctatcactct ctcttttctt85561 gccccatctc tgacaagtag gtggtccctc aagaacctga aaagcagaca ttaggaggaa85621 aggaggagtg ggggcaagag gcccacacct cacctggccg gctcccatcc atgcgccctt85681 gactgaggta acacctaccc tgggaatcct tcccctgcct ctcgtgagcc aggccgggtg85741 ctcttgggac agctcccact gctcctgtgt gctcccccag cttggcacat gactccctga85801 attatagtca gttccgtacc tgaatctccc tctagaatgc cagtgccacg aggacagagg85861 acggttccac tttgttcact attttctccc cagggtctgg caaagttcct gggacttggg85921 85 agaggtgtcc ttcaggagct tggcagaagc caaacggcac acttaagtag ggcaactgag85981 gtgagtttaa tgaaggattc tatacaaaaa tttggacaag gtatagggag gccacaatac86041 acagtgcagt gcctggtgcc agtgagagca gggcactatt cccactgcaa ggccagacag86101 ggcaagggga gggagctgcc tgacaagagc tgcccttacg tcaagggaca catcagccca86161 ctagacccca tcaggaggga gccagggcct gactcccctg accttgctct ccaatcttct86221 86281 taataaggtg agcttccccc agaataaagc tgggtagaga gtggagaatg gatatggaag86341 ggcaaaagga agatttataa gacagtgggc actaaatatc tatgagatga ataaaggaac86401 cacattttac aacaaacggt cattgaaacg ctactcaatg gaaagagatc atttcggtca86461 ctgtctggtg cagacaaatc aaagcccaca tgcatcaaaa aggccatgtc cgtgtaactc86521 cgacacgggg cagacagcaa ggctgaagcc tatggggtat gtggagccgg aactgagaga86581 tcctgatgta aatctagcac ttgggaaaag ggggactaga agaaattcac ccacaggcag86641 aggaaaacac aaacacttat ctatttttgc ctaggcttta agtggtatgg gaaaaatctc86701 tgagactaca aatcctgtgc ttcatgcaca ggtttataat accctcaaaa tggaagaccc86761 caaaaccagg cgcggaaaat tcatatcagg ccattgatgc cctcaatgtt cccggctgaa86821 acaaactcaa aactcctctg gaaaggagtg ctcccacttc aagccatgaa aagctactgc86881 agagaaaata atccccagtc aagacacact cacattgaaa ctgcaaggca cacaaggaaa86941 tggatcacct tgagtgatag ctggcagagc taataaacct ctgtatacct ctaagaagct87001 ccacgcacta gtataaccct taaagatttg atgaaatcat tactttatta aaattgtttt87061 tataaaaaat caaaatccaa aaaaagcaac aaattttata ccagagccaa ttcggtatat87121 acaagggtgt cttactcttt tggaatttgt cttattgtcc taactcagca cattgtcctg87181 gtctatgaaa agtcctagaa acccttctac cctctgtaat gtaggagctt taactcaata87241 gggtttttta aattcttttt tcttgtcttt ttttcttttt taattttttc cattttttca87301 agtcaaactg aagaaatatt tttcttttct ttctaggaat gcatattcac cccccaaggc87361 cacttgtctc ctgattggag agtattagac aattctcagg atttctttat tttccttctt87421 tattccataggattgggaaa cccagtagga ttgggtttag gcatatctct aaagcaccat87481 8287541 ttatagtttt aaaactagtt tttggtcatt gagatattag aggagggaag agtctgctat87601 cctgctttac tcatcttcat ctacactaca ctgtcatctt cactgcaaag tcctgtatta87661 atgtttttag attctataac attttaacag gtgtcaaaaa atcttaagca ccacttcagc87721 87 ttgggaatct ctaaatgtaa tggtgtttgt gggctggact gatgtctgcg tcttgttgtt 877817 87781 gttattgtct gtagtaatgg agagccggga gatcctggac acttcctgtt catgggcact87841 tgatgcatta gctgccccag cagctgatta catttaaaca aggatgtgtg ggtgaaccca87901 gggagaccaa tctcagtgga atggtggggg cagaagccag gctgcagggt gtagagtagg87961 gaatgagcag tgatgaagta gaaacagagt ttggacaact agtgaaactg cctggaagag88021 ggggagaaga gacagtaaat ggtctgacca atgtttgagg tcaaagtggg tttgtaatct88081 ttatttaagg gacagatctg agcatttaaa aattctgaat aatctaatag agaggaaaaa88141 gttgggactc aaagaaaatg tgggaaaaaa tgatgaaggt taaacggaat gagatccaga88201 gtgcaggggg agagattagc ctttggtgtt agaggagcaa ctctgtccat ggagagagga88261 aaaatgtaga cataccacag ttgcatttga agttggggcc tgaggagttg aggagttctg88321 agaaaagcag aagatgagat catttcctga gagtaaatgg gagtcattag aacgggggtg88381 8848 88 atttgtcaca ctcagaacag ctatcaggga atctagaaga atctctggaa gctagttgaa88501 5858561 8824 88621 cagctcaatg caatctctgc ctcccgggct caagcaatcc tcccacccca gcctcccggg88681 cctgggacta cagacacaca ccaccactcc cagctatatt ttgtacattt gtagagacag88741 ggtctcgcca tgttgcccaa gctggtcttg aactcctggg ctcaagtaat ctgcccacct88801 cggcctccca aagtgctggg attacaagct tgagcccggc tgctaagtgg ttttaaacag88861 ctgttctcgg aaacacacac tcaaagaaaa aatgtagagg ataatttatc taaggctggg88921 gcttcaagag aggtcagggt gttgacaaga gaatgactaa gtggcagact actggatctc88981 agctagataa agagggatgt gatcgtggga ggggctgata gtcagaggct ggaaggcttg89041 atgaacaaca catattacac aaagaataaa tggagtgaga gaaaccaaag gagtaaaagt89101 tgtcatcaga aaagtgagaa attttattgt gagaattcag tggtaaatca atgttaacaa89 acctcagctg ggcactagtg gagtgaaacc gaaggccagg gagttgagtt aatgagctga89221 gacttgggca ccagatgggg gtccacatgg acaactaagc caccaggatg atgtgggaaa89281 ctggggtgaa tagaagcccc ttatccatgt gcacaagtct tgaataaaat aggggcaacc89341 aggcagtcag tggatgatag cagtgaggtg gagcagagag caatgtagtt ggagaagtgg89401 agcccacagc agtctccttt atatctagaa gggaattaat agccaaaaaa tggcaccgag 896389461 gccaaggatg tcaccttctg actcccaaat ctgagacaga tgtgagaggg aaggagtatc89521 ctcaagggac aggagatggt gcgaatgttt ttggcataaa tcaaagatgt cagggaaatt89581 581 ctcaagggac aggagatggt gcgaatgttt ttggcataaa tcaaagatgt cagggaaatt89581 gtcagaattc aggttccaga gacacagagg aaaagcgtgg gagaaagtgg aatattggga89641 ggtgagatta gggcagagga agcacaaatc aaagaacgag gaatagaaaa agtcatatga89701 gctgaggagt tggccaaaca tgacagaatg ggaatatgat ggaattaagt ggctttatgt89761 gttccaaaag gattggtcca cgcaggccac aggaaaatgg gaggtaagaa gaaagggatc89821 gaaatgctgc aaagtgtatt acttcatggt aagcaaagga ctcaagactc tagaaaatga89881 tgcccttcct tccaagacta tgttagtcca aatctttcaa gatacagaac ccaaggtggg89941 gtctggcata caagaagtat aatagaggaa atgtctgtga catttgcagg actgcaaagg90001 gagccaggag aagctgggaa agccatgaga tcacaagcag gtctgactcc aagtgaagga90061 gatggggaat gacgcaaggt ttggctgaag catgtgccaa aggcacccat cagaggagtc90121 cctctccaag ggatgggcct atcatagtgt ccctaatagt gtcatggagt gggagcagcc90181 cacggagggc acagccttgg catgaacgca gacatgggtc tcagagtgca gcagctgggc90241 ccctcagtca attaggctcc ctcagagctg gggcaggagg tgcactagac cacacagtaa90301 tatttattta ttattaattt aattaataat attaatttat taatttaatt aataatatat90 ttatttattt attattacta gaccacacag tagtatttgt atgtctaagg aagcatttct90421 cagaatatac tcactgaact tttagcctat aagtacctgt atgaaaattt taaaaggggt90481 ttcatgatca aaacattttg ggaaacactc catacccttt cttcctcatg aaggatcata 541 90 atgcctatta gtatatgaag ggctctgaga agtcctgtag taaagaaact tgctttagtt90601 ttttagtcca gcaatttttc aaacttaaat gagcaatagc ctcccatcct tttttttaca90661 ctttttagca tactgcggaa taaactcaac atgcattgag aaagactgct ttagggaata90721 gtcaacacta tttcactccc agtaagtaca tataaaatct gtatttccag ggtggattat 7819090781 909 caacacagct gtattttaga aatattatct gccctcccag gtatcacagc tactaattat90841 tgggtactga ggtggaattt tagggatcag ccaattatgg gaaagaaaat ctgggggcag90901 gataagatgg tctccgaagc cttaaaatta tatgccatta tttacctctt tgatctacta90961 ctcaatatca aacaactaat tcagaagaaa attgattgtt ttctaaaagt agtttttcta91021 catttcccat taagaagcag tggtatttaa aacttataat ggctattatg tgagattatc91081 actatcatag tttttctcta tacaaatttt ctgtaacatt ttatttgcta ataaaaatta91141 gatagatgga ttgactaatt gataatctaa gaaagattat atttgaagaa gccatagtaa91201 gggacagatt aaattatcat cagtctaaac attctaatac ctatttctct ttttttgaaa91261 ttttccaaat ttgttattat gcatttaaac aataattttt tgaactttta ttttaggttc91321 tggggtacat gtgaaagctt gttacatagg taaccttttg tcatgagggt ttgttgtaca91381 381 aattatttca tcactcagct atcaagccca gtactcaata ggtatctttt ctgctcctct91441 ccctcctccc accctccagt ctcaagtaga cctcggtgtc tgttgttccc ttctttgagt91501 tcatgtgttc tcatcattta gctcccactt ataagtgaga atacaaggta tttggttttc 561 91561 tgttcctgtg ttagtttgct aagggtaata gcctccagct ccattcgtgt ttccacaaaa91621 aaacatgatc tcgttctttt catggctgca tagtattcca tggtgtatat gtaccacact91681 681 ttctttatct aatctgtcat tgatgggcat ttaggtttat tccatgtctt tgctactgtg91 aatagtgctg caatgaacat tcacatgcgt gtgtcttcat ggtagaatga tttatattcc91 tctgggtgta tacccagtaa tgggatttct gtttttagct ctttgatcta atacctattt91861 8291921 tgaactaaat ttaatgttgt gtgtatcaat cagcatacag tcaagacaga aaccacacat91981 91927 04192 ggagaatgct gaagaatgca ggaatggcag atgtagagag cagccataac ctctaagcta92 aggcacagca gccaaggaag gggcgaactc aaaaaatgcc ctccctcccc agctgatcca92161 cccttgttgg agggggtgtg gctgcaaccc aatggatgcc caagaagttt gcagagttgt92221 ggcaggttgg ggctgctgag caggaaactg cccgaagggg taccagtgag attcccaaga92281 atgtgggcat gcctctggcg aggaagacgc tcttggagtg ccagcaaaat ttactaggaa 92281 gctacccagt agggtgccag caaaagtcag caggaagcca ctgtcgtggt gtcggcaaaa92401 ttcactgagg agtgggcact gcagggtctc cacccagcac tggcaaatca gccaaaagaa92461 caaaaacaaa ataaaaacaa atcccagaac cagaaagaaa aaactctgcc tcttactgcg92521 84 9231 92581 gactcacaaa gcagaacaca gaagagtgaa tgaagagctg aaaggcgata aatcagtaac92641 tggagcctca catcctttgc cttttttatt gagggtcaat atattaagaa gaatatgtct92701 gcgtcttcgg taaaattatt gctaaggtta tcacccagtg tgtgttttca acctccctga92761 tataagaact tagtgacaag aaagaatgag acaatgatca tgaactattg gacccaacca92821 tttgtggctt tagtgcccat cttctcagca aggctttctc tctctctctc tctctctctc92881 58881 92941 ggccggagtg cagtggcaca atcttggctc acggcaacct ccacctcctg ggttcgagtg93 attctcctgc ttcagcctcc cgagtagctg ggattacggg cacccatcgc cacccctcct93061 ggctaatttt tgtattttta gtagagatga agttttgcca tgtcggccag gctgttctca93 aactcctgac ctcaagtgat ccacccacct cagcctccca aagtgctggg attacaggca93181 tgagccacca cagccagctc tcagcaaggc tttttctgac tacactattt aaaatgtgat93 ccctgagcca ccttggcctc tcttgctgtc cttccctgct tcgccttctc catagcactt93301 8293361 93361 gtccattggt gcatccccag cacctggaac agagctaggc acaggctagg cactctagaa93421 atacttgctg aataattgaa ttaagtaaat gagtgatcta cacgtagtgg ggaatgagag93481 tatacagtga tagttccttc gactaaaact ggggtcaaat tatagtgata aagaggaact93541 93 cagaccttca gaggtaagct ttgtggacca cttgccaagg ctgcagaatg tgatgtcgtt93 tcacaaacaa ggaggcccta ttatggcttc agatatgaga ataataaaga gaactttcct93 ttcgcctcaa ctgcagcctt ctaaactctt ccttccttcc tatgtagaag tttcaaggac93721 ctcatggcct gagtgtggat aggcagaatg ctgggaatca ggcaaaaata aaataatact93781 gaaagtgaag gtcatgctaa tattagtaag ccagggtgat cctgaattta caaaacattt93841 ttctttggga aatttcacac ctcacatgat tctgtgtttt tacttgggaa atttcacatc93901 tcacatgact ctgtgacatg cggtacatga ggtgcctgac tgctgttttt gtcctctact93961 aatgaggaag agtgtgcgta ctcccagcgt tttgcaagtt tcaaagtctg acttgacttt94021 ccttcctttt cctggaactg atccatgagt atcgagagta aagctgcccg cacctactca94081 ttcaagatcc tgagtgtcct gcccagctgc aggaggtgga gagacccagg aggaggggcc94141 actgctgatc ccaggctgta gggggtggga agagtgtccc agggcaccat gacccccact94201 cactcactca caggagaccc acacaagaga ggagagggca cttacagctt aggttcccac94261 cagcaccaac tcctctgcca tcaaacatca ttgtgtttct ctttctgcct tgtctgtcgg94321 cacacgtgga gttaaattta atgctcaatc acatatttgt ctgggctctt tctgtgttta94381 tttttctctt aatagttctc tctcctccct tcctctcccc gcccctcctc ctccttcttc94441 tttttttttt ccagagacag tgtctcgctc tgccacccag gccagagtgc agagtggcat94501 gatcatggct caccgcagcc tccaactcct gggctcacgt gaacatccca ccttggcctc94561 tggaatgtct gggattacag gcacttgcca ctgcatctgg ctaattttta tattgtttat94621 agatccggga tctcactatg ttgcccaggc tggcctcaaa ctcctgggct caagcgaccc94681 tcccacctca tacttctgag tagctggggc tgtaggaatg cgcctcagtg ccaggctagt94741 ttcttaattt tctatttcta ttttgacagg tacaaatttt gtattcaatc ctacctcaga94801 cacatctttg gtgggaaaag gatgtcattt aatcaatata taaattctaa gcaaataggt94861 ctgatcccca aattaggtta gtcacagctg ctgagtcgtt gacccaagag aagctcatct94921 agattttttc attattttca agttcctctt ctcggttcgt ccttcttccagaccatgccc94981 tccccgtccc actctcttcc cacagcctcc cctccccaca gcctcctccc accattccaa95041 63041 95041 atctgggctg ttctctcaat ttccttctct ctggactcaa acctacccta gcccccagcc95101 tcagtttggg gttaaacttg 949516392 tcctcctcac attctctccc acccaacttg atgtcgcctc95161 tgtgtcatca ccacgggatt ttcctcctct gggttctcct tttccgagtg gggtcagctc95221 ccccatgagt cacagcacca atcacttctg gctgcttgca aacccctttg ctttcctcag95281 tgttgacacc cagggcagcc ctatgctcac tgccgctgag accccacctc tgcccctggc95341 cttttcccag ctgacatcac cctgtggctt ccattttcct aaaattctct tttgaggcct95401 cagtcttaac caaagcacac agtgcccctc aaaaatgaca ataaaaaccc aaacacaccg95461 tgactgtcat ggcaggttcc tggtccccgt attgaatcag cgggtgggtt tctgcgaaca95521 ctggtgagag gccgcattag agggtcagga ccctcaggtc tggactcgtg gtcaccacat95581 accttcctcc ctgctgacag tagctggtac ctgttaccta ctcagagtgt cacatgccac95641 aagccagagc gtcttggcag ttctcagcac cttgacatca cttccttgct accactcaga95701 gcggcagtga cacagttccc ttatctcaga aggccagaag acggctgtca aaggtcacag95761 ggaaatcaaa ggcggggtac agggccagag ggaggaggaa acaacttccc ggttgctttc95821 agacgcttca gagatcctct ggaggcctgg gggagctttt gagtacttta tttcagttgg95881 tccctgagct cggtgagtgg ggcgggtaga gccaccaggg gaatcaacag tggtttctcg95941 tgcccctcag ggtcaggagc agtctgatca aaaggagggc atccactgtc cggggccatt96001 cccacagctc ccggatgctg ggtctggagg ctgcgccctt cccctgcagg agctcagccc96061 agtggtaagt catctgtgtg tcatctatgt atttaacccc ttatggccat gttgatgctg96121 agcatggttt cacttttgca aacatttatt tatacccttc gagagaaaaa cgtctcagct96181 gtcacaggaa gctgcttcgg ggggtgagca aactttttaa aatgcagaaa ttatgatcta96241 cacccgtttc ttaaaagtaa gccatcgtac ttggttctct ttaattatat attttcttac96301 atattgtgtt catgtaggca agtcctgttt ctgctaaaag aaggtaagtt ctaccaaggc96361 ggtgtcatgc cagctttatt tcccgtggca cctggcacac tgctaagcac ttacatgctt96 aacaactaga ttgggaatgg tgctgctctg gggaagtggg cacacgttaa agaaatgttt96481 atttcagtct tctgaaatag ggaattactc tggctaaaat gtagctccag aaagggaaag 96572 tggggctgta tgaatccagg tccagtttgt tgtttcctcc aggataaggc agctgtcgga96601 ggggaaaatc atctcccatt tctccacagg gcagtctgaa gatggccaat tacacgctgg96661 caccagagga tgaatatgat gtcctcatag aaggtgaact ggagagcgat gaggcagagc96721 aatgtgacaa gtatgacgcc caggcactct cagcccagct ggtgccatca ctctgctctg96781 ctgtgtttgt gatcggtgtc ctggacaatc tcctggttgt gcttatcctg gtaaaatata96841 aaggactcaa acgcgtggaa aatatctatc ttctaaactt ggcagtttct aacttgtgtt96901 tcttgcttac cctgcccttc tgggctcatg ctgggggcga tcccatgtgt aaaattctca96961 ttggactgta cttcgtgggc ctgtacagtg agacattttt caattgcctt ctgactgtgc97021 aaaggtacct agtgtttttg cacaagggca actttttctc agccaggagg agggtgccct97081 gtggcatcat tacaagtgtc ctggcatggg taacagccat tctggccact ttgcctgaat97141 acgtggttta taaacctcag atggaagacc agaaatacaa gtgtgcattt agcagaactc97201 ccttcctgcc agctgatgag acattctgga agcattttct gactttaaaa atgaacattt 97224 97321 taaggttcag ggagcagagg tatagccttt tcaagcttgt ttttgccata atggtagtct97381 tccttctgat gtgggcgccc tacaatattg catttttcct gtccactttc aaagaacact97441 tctccctgag tgactgcaag agcagctaca atctggacaa aagtgttcac atcactaaac97501 97561 ttagcaaata cctctgccgc tgtttccatc tgcgtagtaa caccccactt caacccaggg97621 8297681 681 gcatccacca aatgcaagaa gaataaacat ggattttcat ctttctgcat tatttcatgt97741 aaattttcta cacatttgta tacaaaatcg gatacaggaa gaaaagggag aggtgagcta97801 acatttgcta agcactgaat ttgtctcagg caccgtgcaa ggctctttac aaacgtgagc97861 tccttcgcct cctaccactt gtccatagtg tggataggac tagtctcatt tctctgagaa97921 gaaaactaag gcgcggaaat ttgtctaaga tcacataact aggaagtggc agaactgatt97981 ctccagccct ggtagcattt gctcagagcc tacgcttggt ccagaacatc aaactccaaa98041 ccctggggac aaacgacatg aaataaatgt attttaaaac atctatttaa tgtattttaa98101 aataatttgt aagttgattt taaaaccaat ttaactacat tccaaattat agacagccca98161 tttatatggg agtaactttt caggctcatt gcctcgccgg tgatgagaag aactagctag98221 ctggaagctg tgggaaaaag aggtaaggta acttgttctg tcgaagttct ctaaattctc98281 ttgcttactt gccacacccc taggccccca gcttccccta acccaaggtt tctggtattt98341 tctcgtactt tatcaagact atggaatctt aggagactta acaaaagcaa atgagaaatt98401 atgtttagaa atgtctaaca aaatgaattc tttgtccttt taagtataac acatacctca98461 ggcctcacca gcacataact acaaaaggtt gtcccacttc ctttctgtgg ctgagttagt98521 agaacacagg ctcccacctg ccacatcagc agaaggtcac ctcaacatgt gagctacctc98581 581 cccggagacc ccccagatcc gtaaggatga tgcatccttg atcctaaaaa cattttcctg98641 ttcctggtgt tcagaattgg actccacact cactggtctc tttataatct tgcttctggc98701 cctttgaggc ctcaaagcta ccagggcctt gctgccaggg gacaatcacc gctcccggct98761 gagtcctgca gacatagggc ctgggctggc tgcctcctcc tgctggccca gcatcttgct98821 tgcactaaag agagctggag gcttggcact gatgcttgct aaaaacctac ccaggccgcc98881 cactgctgcc gcactgcagg gcaccagccc acactcctcc cctcctggca tcaggcacac98941 gttcacggca ctaaacctta caggaaagca gtggaaccct gtctttcctt cacaggaggc99001 actttccttc ctaggcaaaa acgatgatac ccatgggcac agcatctcac atagggacac99061 atagagatgt ctgactcatt aaaacccaag tctctggcca attaaaaggg gtccttaatg99121 tcctactcaa cagtggtgga aggaaatttg ctctatattg atgaaatgag gtggagaaaa99181 tctgattttc caaacatgag aattctccat atgccacccc ataaccaaag accccttatt99241 tgtgttagat gaaacattca aagagcctat taggatagcg gatgagaccc ccaagggaca99 tgcttataca acaataactg gctccaaacc acactccatg gcagtggctc tcaaatgcca99361 gctcacatca caagccctgt gctaaaacac agagttctgg gccccatccc ggagtttgtg99421 gttcaggagg tctggagtgt gacctcagaa tatgcatttc taacaaattc cccaggggat99481 gcagatactg ctgacccaag gccctccttc tgagaaccac tgttccaggg agaagaaact99541 99532 99541 cagctaagta agggtttggc tttgtgctga agacaatgtg gaatttagag ttggggtgaa99601 ttattcagga aagtagagag gtttggagat gtgagggtgg gaagcgcagt ggagggaggc99661 agagaggaaa tatgaagcag cgtcagttgg agagaaatta ggaagaggaa taaaatgata99721 tatgccaggg atttcagttt tgctgagccc atgatgacag actcttctct ggcaccttat99781 gccactcatt gagggcttgt agctggctct gctctttcag agtcataata gggctatggg99841 9999841 99841 tctgacctca aggtgagctg gaatgggcac aagtaataga taaaactgca agaagtcact 99901 caagggtcct tcctagaaca aaggatccct acattccaaa ggcgaatgcc ggtcactatc 99961 ataaaagaaa agaaagaaag aaactgatgg tgacatttta aatggcaatt tttctagctt100021 ctaaaaggtt gtggagcaac tggaactttc ataccctgct ggtgggaatg taaaatggta100081 taatcacttt ggaaaaattg gcagtgtcac caaaagcaaa gcctatacct actatccatt100141 tcactcctca gtatttaccc aagagaaatg agcatgtatg tccatacaaa gatttggacc100201 caaatgttca tgacagcctt atttatatag cctcaaacta gaaaaagtct gtctatcaac100261 aggtgaatgg ataaacaaat actggcctgt gtatctaatg gaatactgct catccacaaa100321 aagaaacgag ctattgatac acacaggagc atgcacgaaa tctcaaaatg ctgaatgaag100381 gaggccagat tttaatttta tttttaatta tttatttatt tatttatttt tgagacagag100441 tctcgctctg tcacccagcc tggaatgcaa tggtgtgatc ttggctgact gcaacctctg100501 cctcctgagt tcaagcaatt ctcatgcctc agcctcccaa gtagctgtga ctacagtcat100561 gcacaagagc aactgactaa tttttgtaat tttagtagag acggggtttt gccatgttgg100621 ccagctgctc tcacactcct gacctcaggt gatccacctg cctcggcctc ctaaagtgct100681 gggattacag gcatgagtca ccgtgcccag ccggaagcca gatatttttt aaaagtactt100741 100 100741 attttgtgat tctatttata taaaattcta gaaaatgcaa acaaatccat agcgacagca100801 aatcagtggt tgctggagat gttggagggg agaggagagg aatagattgc aaaggggaac100861 aaggaaattc ggggggacag tggatatgtc tgctattttg actgtggtga tggtttcatt100921 ggtatataca tatgtcaaaa acgtaacaag ttgtatacgt gatttattat gtgttgacta100981 tacctcaaaa aggctatttt ttaaaatccc cctcaggctc caggcactcc attacgttgg101041 tgtgacttgt cttggaaata tactttgagc atttgccgga ggagatccag tgcctgggcc101101 tctgtttctt ctcccaagta gaattggcag ctaaaacggg atgcccatgg gcacaacttg101161 tcacccccat caccgaacag ggagcagaag gaggctgctg ggggtgcccc cacagggagc101221 acagtctcat cgggaatgac ctgccatggc aaataaaatc accagggcaa gtcaagggag101281 agaccaggga agagagtgat ccagtctata ttaaaaaagg atgagaaagg ttgaagaaaa101341 agagaagaag ggacagaaat tctcttcaca catttgcaga agtaggtccg gactctccat101401 ccacttctcc tcctccgata ggtaggacag gaatctcaga ggaaatggca tcatcttccc101461 atgtttacag acacagcaat gaactcaaag aacaatctta tcaggatttt ccaaatgaaa101521 acatggagca tatagagaat aaagatccat aaactcgtat ggtggctgag actgaaatgg101581 101 101581 ttaatgaaaa gcaaaagtgt gtgctgaatg acaccagcca caatggcctg aacacttaag101641 101 101641 tagtgtaata tacttggaac attgacagct aacaaggtct tcctcccatg tcagaccaag101701 101 101701 aacacagttt cctaaagata aaaatagcac atgcttttcc acttttccat aagtgactgc101761 attagaaaac taacaaacca tgaaaagcaa aatatggcta gtctcttcaa gaaaaactgg101821 tgtttctatt ttgtctgtaa attactttct aatacaaaaa acaattcctg ttacattgag101881 gtaattctaa ctagggacat atgagagaga gattgaaatc tcatgagctg tctccttttc101941 829 101941 atctcaattc tgtgtactcg tgggtacaaa tggaactagt ttttgtttgt ttgtttgttt102001 tttgagatgg agtcttgcgc tgttgcccag gctggagtgc aaaggtgtga tctcggctca102061 ctgcaacctc tgcctcctgg gttcaagcaa ttctcctgcc tcagcctcct gaatagctga102121 gattacaggc gcctgccacc atgcctgact aatttttttt ttgtttgtat tttttagtag102181 102 102181 agacagggtt tcaccatgtt ggtcaggctg gtctcaaact cctgacctca ggtgatccac102241 102 102241 ccacctcggc ctcccaaagt gctgggatta caggcgtgag ccactgcacc tggcccggaa102301 ctagttttaa aacaggaaac agttgatata ctgaatggaa aaacaataca atttgaagtt102361 gaaaaaacaa aataagatgc ccagttaaat ttaaatttca gttaagcagc taatagttat102421 ttagtataag tacaacccat atacgacaat tgcagtattt gttatttatc tgaaattcag102481 acttacctgg gcatcctagt atcctgtttt ttgttttgtt ttgtttttcc ctttgttttc102541 ttttttttcc ccgaaatctg accaccttaa ctttaaggta tttattcatt tttaaaaact102601 aaatattttt cggcagtcag aactagagca aagataaatg atcccaggac tctgtttagc102661 aggcagtcag gaagtgtgac agtgtggtgg gtggcagccc cggccaggcc tttcctcttc102721 cctaaactgc cacagcagga ctgccacact tgggaatccc agtttccatc tgagcagccc102781 ctccagagtt tggaaggagt cagtgcttta gcctgaggag ccgtggatgg ctctaacact102841 ttgcttgtcg gttgaataaa aatcaaccca aaggtggcct acactcattg aagtaggaat102901 gccagaactt cagtggtgtc acatagaaga aaatatctaa gtgcttaggg agatggcagt102961 58103021 10324 103081 ttatttgttt tattatactt taagttttag ggtacacgtg cacaaagtgc aggtttgtta103141 catatgtata catgtgccat gttggtgtgc tgcacccatt aactcgtcat ttaacattag103 gtatatctcc taatgctatc cctccccccg cccccggtgt gtgatgtccc ccttcctgtg103261 1039 686321 103381 381 ttaaaaaaaa aaaaaaatct ctaagtggtg gctcttctct gtagatcagg agctgtagtg103441 agcaatgcta caaaactgga gtttctaaat acagggggga tggtgggatt ctgaggaagg1035 acaggccacg tggtaacact tacaaaagac caagtgggtg tggttgccac tgtggacggt1035 103561 ggagccaaag cagtcctcag aatagtctga cccccagagg tctttggcat tggctggttg 10367 103681 ataagcagaa gagttctatc tctagtgaac agaagtctaa ctttagtcac cagaactgag103 agtcaattca atcaattccc agatttgaca 741 tagtttatag acctagaacc ccttgaatga103801 aaggtaagct ggctcccctt gaggaaggac cctgttacat ttccggcatt ttattctgat103861 aatctttttt cccagccttc cccaaagcaa cttagggcca tttaccaggg aaagccatgg103921 aggaaaagga aataattagg ctatttggag attccaggac actggctcta cgctgacacc103981 agttctaaga gacccaaaat atctttgtgg tctaccagcc aaagtagggc ttcatagagg104041 tcaggggtca ctagagtttg agctcaggtc tgtttcactg tgagtctaga gggtccctga104101 acttatccta tagttattcc cccagttcca gaatgcagaa ttgagctgag agcagtggct104 catgcttgta gtcccaacac tctgggaggc gaaggtgaga ggatcacttg agccaagcgg104221 tttgagacca gcctgggaaa tatagtgaga ccccatcttt taaaaagaca aagaaaaata104281 aagaaaattg acatggaaaa ataatataaa atgtgaataa tctcacatct actaaagaaa104 ttcaatctgt aattagaact cctcccacag agaactataa gcccagtgcc cccatcaact104401 58104461 59521 ctttggaact ccctctacct gccaagatac taaacaaaac aacactgcac gtctggagga104581 59581 attgtagcaa gaacttgaaa gatgaaggat gatgatgtcc acctctctcc attcagctca104 cctatctggt ttgtgcagaa gacaaatagg tgttggaaaa tgacagtgga ccagtgtaaa104701 104761 686 695 2 104821 gttagtaaag actatcagaa gctgtttatt ttcagttggc aaggtcagca atacactcca104881 agggaagagc agtctgtctc agatcttacc gatgcctggg gatagggagg gagtggcccc104941 ctcaccgtct ccaaggccta gtcctctgct cctgctactg gcagcaaatc cacgcaggtc 105105061 gaaggagaga ctgaggcaag ttttagcaca ggagtaaaag tttatttaaa agctttagaa 10558 105181 agtgcgtggt ttgacctttt gacttggggt tttatacgtc agcatgcttt cggggtcttg105241 cgttatttct cccctggttc ttcccttggg gtgggctgtc ccatgtgcct gcctgagccc105301 actggctcaa ctcctgagat cttataggga aactactgct caccagtttc gagtgttttc105361 tatctattag gagccggctt ttccctgttg ccgggtgtga ccaattatta ctttagaaag105421 acagtcaaca accgccagac catcacctga tggtcacctg acactcctgg tgtgtggggt105481 atggggagcc ctctcctgcc ctgctctttc tgactagcta cccactataa cactcccaga105541 gggacctgca cattttgtgc tctttgcaag acagtgcctg cccagcacct gtaggcctgc105601 tcaccccttc agggtcatga tttttgcttt ttaccgcagg tacccataag caaaacatgg105661 cattgttcac catgctttta cattattcac ataattttaa gttatttaca caacaatgta105721 aaaccatggt gaaccatgcc acatgttgct tatgggtacc tgtggtaaaa atcctgctac105781 tagctcattt tgcagtgtct ataatgacag gtaatgctcc attcactcct ttatgacact105841 tgcaaaaact gagaacataa cgcctcccag ttaagcaggc atctgggcaa tgtgaggaga105901 acagaaatag accacgctgc atttatctct cttgatgaca ggcattgaga tttccacttt105961 ttctggtttc ttattatgtc tctactgggc attcttacat acatcttgca cgccatggaa106021 agtttctcta gggcagtggt tcacaaactt tttggataca gaatactttt atgtgcttga106081 aaactgagga ccccatacag ctttagttta tgtgggtgta aggttctagc ccaaactgaa106141 686201 1061062 106261 ggtaattata ccttttacag acaatagagg ctctgaagca atcacgagct cacgtgagtg106321 gtcacctaat gcacctcaag tggcatggtt cataatgtgc ggagtcgtgt gcctacgctc106381 caaacccact gagtcatggt gcaccaaaaa gtggcctcag cctgctcctg actaaagcgc106441 106561 ccgtagggtg gagccctgaa tccataatcc acagcaacaa tacggagagc aacagctcat106 gactaggatt ccagctatgc tacttatgac tatcagggcc cagcgtaggc cagagcccag106621 ggatgtctac catctctgca gggggtcatc agtaaggctc ttgactacct taatctcctg106681 tgagacccct tgcagggctg ctgttatgtt ctgccaattg tcagggataa aggtacaaca106741 ttgtgttcct aaaagggcac aggtgcctcc ttaggcagca gttactatgt ctaagaccat106801 tcggtttcgc aacaccacct ttctgatctg atcaacctca tccattaatg ggaagagggc106861 cactcaggtg taattcagag cctgagcagc atgctctgca agagcagtaa cttggcttct106921 84 106981 cattacactt gcaaaaaccg agagtgtagc acctcccagt tatgcaggca tctgggcaat107041 gtgagaacag tggcaggtac atgaggccac cctcaggtat aatgtccagt ccagtttgct107101 tataggtaag gccaccctgt gtccccacag acccataaac tcccaggggg cacacagtcc107161 atcgaggccc cttggtgggg ccgcgtcttc caccatacct ttggtgtggt gacatgtatt107221 atgcttacac acactgtgac gggtacccat cccacagtgc tattacccca gtgttgctat107281 atgcaccaca gtgcctgggc caggggtact gcacgttacc tcactagcca gccccaccca107 tcataaatgc tatgggccag ccagggaatg gctgtgctgt gggtcttgtg gcatcctttg 59401 tccaaaactt gccacgttgc gttccaggca tcagccatgg gaccccaagt ctccagccat107461 gtctggttct ctgcagatgc tgaatgtatg tgctaaggca agccatctgc agctgctaga107521 agggcggtgc agatccaaca gttggaaaca ttggtcactt cagtgtaggt gtgggcccag107 tccacaatgc agttggagca tgttaaccta cagttggaat gacagagtag gcataggtac107641 taacagagga aaatcacatc cctcaggtaa aatacaggct aacctttcat ccctggataa107701 caatgcagcc cccaaggggt tctgccctgg gcaatagtac cacacctttt cagctcccca107761 tggttccttt gggtcctgta ttcatgcgaa agtcacaggg gagcttgtag taggccacac107821 agacagtaca tttgaaccct ggaggaaagt ttcttccctg gccgttttcc tacaaacagt107881 ctccccacag ggagctacga tggacaacca ccagcagccg ggggcttgga ggggctatgg108 ccacagccag gttttctgtt cccctgcctt cagggacgtt ggggcaggca acaacaggtt108061 actgttcatc cccatacctg gtcagaggcg gttacccttg gtgtgtatct gcaactgaat108121 108 108121 aggggtggtg gcccatgtaa caaagcctcc acctgggctg ggctgctttt ccatggccat108181 10835181 108 108181 tcattcaagg tttggagcat caggtccagc ctggaacttc agccctgcaa agacaggagt108241 gtgacatgca agtaaaaccc attcttcaag agctcgctat atcactcaat catacccaca108301 108 108301 gcttgcaagt tgtgcggtac atggaatccc tactttatgt ccattgttgt gcctgttgtc108361 cagtaaaatg tgtcccccat cactctcaat gaccaaaggg caaccatata gagcacataa108421 gtgttgcagg gtctggatgg tgtgctgttg gttggccacc ctgcaaggat aggcaaacaa108481 caggcctgtg gctgtgtcca cagctgttag cgcatgagta tacccttgtg acttcggcag108541 cagcccaatg tagtctactt gccacctggt caagggcact tgccctgttg tcacttgtgt108601 agcactggac agctgcctcc atttagggta tgcctgagca catgccgggc atttctgaca108661 agcctcccaa atgtcttgca tgggcagaga cagaccccaa catttattga cttgttgcat108721 10863 108721 cagtttaccc cctgcatgtc ccagtttccg gtgtagctac aaggccacat ctcatgtaga108781 tgccaactct aaccatcgga ccttggccaa ggcttctgcc tcgtcattgc tgggggtggc108841 108 108841 cagaggcata tggcctgaca aatgataaat agttacatct ttgcaatgac ccatttccca108901 gaggtcttgc tacatgggtt ggtggcccca aatgggttgg tggccaacta gccaattctg108961 tattttccaa gtagttaaac acaaagttag gcctccatag actgcccagc tatcggtacg109021 gattaccata ggtgtctccg ccttgttgat caccatccat actgctttaa attcagccca109081 ttgactactt tgtccacatc tggtttcaaa ccatatggtt ttggtactaa gttggactgc109141 aacactggtc caagcaggag tagcacctcg actagaccca tctgtgtgcc atgccccatc109201 aggaatagag ggatgccctt ccttaaatgg cagtggctca gggtcaaggg gtgcctcagg109261 ccccatggcc ttctcttgca ttaggactgc aggtcccaag acctcttgca actctgctgc109321 109 109321 taatgggctt gtgctcagcg tactctgttg ctccaagtaa gtgcctcact ttgccaaagt109381 ggatgtctgc accatcccag tctggggggt cattacacat gaatgcaccc atcccgctgt109441 caggtaagtc atccacactg tgactgtagc ccatcctatc acttctcaca agcctgaagg109501 gcagcatata cagctgctag ctatttctct atcaaggaat accagagctc agctcctttc109561 catagttggg accaaaagcc tcctggcatt ctcaggcact ctgtgtgctg ccacaggccc109621 aaactaaaac catctgtggt cacatgcata tccagttcaa atgggcaccc cttgtcaaat109681 acccacaggg ctcgtgcctg ctgaatagcc cacttggctg ccaggaagcc agtctcagcc109741 acatcagccc aatcccagat tgctcccttc tttgttaact gatacaatgg ttttatcatt109801 tgagctaaat gaggcaggaa tgtccaccaa tatcccagga ggctcacaaa agtttgcagc109861 tgcctcaccg tggtgggcca gggatatgcc taaattttgt caatgatagc ctcttgtatg109921 gccttcatct tacccgacca gataactccc aagaatttag caggtaatcc aggccctcgg109981 accttggatt tgttgatggc ccaactgcat gctgccaaat gttgccacaa gaggggtgcc110041 actgcttcta aatctgcaag agaatcagag gttaacataa tatcatcaac gtaatggaac110101 aagtggactc cctttggaca ttttcaggct gttaaatcca tggcaacaag accatgacat110 atggtggagc tatgcacata gccctgcagc aacactgtga aagtccattg tcatcaaggc110221 aaactgttcc tggctctcta gagcaaggtc aactgagaag aatgcattgg ccaagtccac110281 cacatagtgg tactgtccta attccattgt cgagtggttc atcaaatcca tgatagatgg110341 cacagcttcc aagccatgta aaatatccac ctccagaatg tattcaggta tgggagagac110401 atacacagtg tataagcaag gagccaagtg gccaatgcca aggtacagag atacaggttt110 cactttcact gactggcctc cgtaaccttt aatatatgca gatttgccca aaaacttaac110521 tgggttccca taaacaaggc tacaatctat gccagtatct accagcacca gcacccactg110581 tacattggtg ggggaccagt ggattgccaa ttccacatgt ggcctctggt catctggtgt110641 ccccccaagc cagacacctt tggccagttc cctagttgaa cagaaaaggc tctacatttc110 cacctggctg cagcaagtag tctctgagct gggtaggacc aggtcacaca gcaatgcctt110761 tctccccttt gggcattttc cggaattgct gccctgcata caactgtctc cgcaaagtta110821 ggagtatttc attgggctgc ttatcaattt tctctcagtc aaccccagcc aaaatcaaat110881 ctatccacat ctgtgagcgt gtcactcgtt ggggccccct ttttttatgg gggagccccc110941 tgtgggtggg gtaacttccc cttctttatg gtgtggaccc tccaatcccc ctgaaggcct111001 111061 ggggtgagga cagcagctag ggagccaaag gggctcagga gcatcaaacc caacatgaga111121 tccctcatgt gggaggtgaa acatttatca tctggccctc aggtattcag gacaaacata111181 gcctgccgca tacccatctc ccgaatgact tacaccaaat tggcatatga ctgccattta111241 ctcacagttt tgggcatttc accagcatta ttccacacag ttcatatggc tgcctgtagc 11146301 cactcagtca gggtgtggtc tccttgcgct gccactaacc acctgctcac ttgcagccgc111361 tgacagagagagagagagag aggggtgagt catggtggag gccagcttgt ccatctcaga ggtggaatgg111421 gagataccat ctgctccctt gttccacaga cgaagcatcc aggcaggcag gggttcccct111481 ggacactggc aacactgctt gcctaattcc tgcaactcag ttggggtaca ggcaatatac111541 gaaatgtgtt gcattatggt ggggagtccc tgagtccacc cttggagccc cagtggctgt111601 tcatgatcta ccttctgtca gaccaccggg tgagcccgca acaggggttc ttcctccttg111661 gtatgaaact gagtggggat ctccagacaa gatgatggac ccaggcctgc attcatggta111721 gcctctaatt ccttttccaa gctctgaagc cacacctcca ggcatcctgc ctgcacctgg 111781695 695 2 111841 ctgcatccct cagggactgg gtgtgtactt ttcttagcac agttaaaaat gcccatccaa111901 ctctgccagc aaaggctctc tccttcttgg tgctctgcac ttccagctgc ttcagcgcct111961 tctccatgct catgggggac ccatctactg ccacccaggt ttccactcaa gcccaccctc112021 acagcacggc taccaccggg taccacaacc catgttgtgg tcacatggcc aacctggaat112081 cagcagggac cgaaggctca cttaccttag gatcctgttc gtgatgccaa ttgtcaggtt112 ctagcccaaa ctaaagtcca aggggagttg gtgggtgggt ggcaggtaac tggaaaaaca 112112 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg 112321 112 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg 11236112 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg112 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg 112112 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg catctccctt agagtgggct aaatctactg ctatttatac tattagaaat 11258 112501 tttaacacag aagttttaaa tatttacatt gttaattgat tttgaaataa taagcccatt112561 acaggttaac ataattaaca tacttttatt aaaaatatct gtatttttta aaagaaaaaa112621 aattagcaac aacagtgatc cttggaatcg tcccacctca gcctcccaag tagctgagac112681 cacaggcgca catcaccatg cgagctaatt tctatatttt ttggtagaga tgggatcttg112741 ccatgctggc cagggtggtc tcgagctcct aagctcaagt gatcctcctg cctcggtctc112801 112 ccaaagtgct gagattacag gtgtgagcca ccacttctgg ccagaagctg gattctctgt112861 cttgttctcc atccaatctg ttagactgtc aaatgccaaa taacctttgg aaaattctac112921 tcgtaaaata aggagagaga taaataactt ctgagtatca tcattaaaat agtttgacct112981 catggaccca ctgggtccca tgtggagaat agctctaagc taaagagtag aatggctggg113041 aggggacata aacattcagc ccatagctgc tgaccacaat aacacatttt aagtctcttc113101 ctctcctgct ccttgtgatt gcagacagac tcaatctgta ggagagctgt agagagaaca113 agctcaagcc cctgattttg cctacaaaga aagctgagcc cagcaaagtt aagggactta113221 cccaaggtca cacagccaca cagcagagct ggggctgagc tccaggtgtc ctgctacaga113281 ggccacttct ttctcccact agggactggc ctgtgattac ttcagaaaac aatggtcagc113 taactgattc tgaacgccct ttgctggtaa aagctaatct cctgaggaaa aatgtatgca113401 ttggctgggc gcagtggctc aagcctataa ttccagcatt ttgggaggtg gagacaggtg113461 gatcacttga ggtcaggagt ttaagaccag cctggcagtc atggtgaaac cccgtctcta113521 ctaaaactac aaatattaag ctcggcatgg tggcaggcac ctgtaatccc agctactgga113581 gagactgagg caggagaatc gcttgaaccc aggaggcgga ggttgcagtg agccgaggtc113641 113 gcaccactgc attccatcct gggcaacaga gtgagattct gtctcaaaaa ataataatag113701 taaaataaaa ataaataaac aaataagtat gcatcacctc aggtggtcag tcagctttcc113761 113821 caaagtccat gacttttccc tcagaagtga atgcatggct aattattttg tattttttgt113881 agacatggag ttttgccatg ttgcccacgc tgctctcaaa ttcctggact caagtaatcc113941 acccacctca gcttcccaag gtgctgggat tacaggcatg agacaccgca tggcctgcac114 ctatagtccc agctatcagg aggctgaggt gggaggatca cctgaaccgg ggaagttgaa114061 cctgcagtga actgtgatcg ctccggtgca ctccatcctg ggcaacagag tgagatcctg114121 cctcaaaaaa aaaaaaaaag tgaacacaca tgctggggaa gaggcctgca ggcacccctg114181 114 ccagttctgc accagagcac actgtagcag ccctgctgtg atgcaggaag cagctccagg114241 tcctgcagtc tgaagcatgg agcctgaagc ctggagcccc ccatccaatg ctgcgccatg114301 114361 ctcaccagta tcccccagca tcagcaccga ggcaccagct gcagataaat ttctcaccta114 aaatgttgag agatgttgct aaactgtcct tctaagggta tgtataataa tacggtcctg114421 ccgatactga ataagactat ctgtttcatt acatcctcac aatactgaat atcattagca114481 acttgaattt taaattgtgc taatcaatga aaatgattgc ctaattacta gtgagttgag114541 gttatttaac attaatactc cttctgatga aatattttgc atttatcaca ttttacataa114601 11424 114661 ttggaaacac attaagaatg agggagagaa tggatgggga ctcacctagg gatgcatgga 1145924 114 gctggtcggc agccactctg aggccctctt aacacttccc caccacacac ttaatttccc114781 ctggtttgtc catagataca tccaacaatt tttatgtaaa taagaaagac tcagctttca 11463841 atggaaaatg gtaggttgga ttttatgact gaagtggcaa aaagaaataa gggattttat114901 114 tatgggggag gtccaaaccc tggtgaaaaa cgaaattcat tgaaattgtt tgaaaattca114961 aggattaaat cagattattt tggattcagt aggaattaga ttactttaaa gccccaggat115021 actttattct gtagaatgca tggaaagtat agaaaagaga aacaaagagg gaaagtcatg115081 gctaataacc tggaaggggt aaatagggag ccaaaggcct gtgggacgta accaactcag115141 cattccactg gaggctttat gatcaaatag caagctattt atcatgaatg caggatgtgg115201 gcaaactcac gactgctccc actgccagaa ggtttgctga gggcaatcac ttcctggcac115261 cgagctcctt gaggttatct actgggacat ctggagaatg cagtcttgca agcctactct115321 ggacccagca gctgacccct tcttccatgc ccctcttcct gctatctctt ttgcctaata115381 aatatggagg gctgtgtaaa gctcagggcc cttgtccact agaggcaaac tgcccgctga115441 ccccttcttc caaatatgct cttttgtctc atgtctttta ttcccgcttt caccccactt115501 tgttcagtcc ccctagggcc gtgtgggtta catagtggcg ccctgaacag cgacagaatc115561 aggtgctcta caagtggcgt ccgaacacag ggactatgag gatgtgaatg aagaagatct115621 gctggagcag aggaattgaa attgacaagg tgaatgggga tcccgggaca agtctgccgg115681 cagcagatat aaggtcagtg ccctaaagag gtactgggag cagtgcctta aagtagtact115741 gggaatggga agttttctga atcagggtaa catggggcag aattggtctg ttgaagaaaa 46801 acattatgtg cagttgctta aagttttgtt gaaacaaact ggtgctcagg ttagttctca115861 cattaactac gatgctacag gaagtcatta tgcataaccc atggtttcca caggcaggga115921 ctcttgatgt agaaaattgg gatagagcag aaggattaaa acaggctcat caaaaaggtt115981 ttcaagttga ttcttcagtt ttctccactt ggagtttagt tcgtactgta cttctgccat116041 tatctccttg ttattctgcg ggacagcagg ctgaatgtaa aaatctgaaa gaatctgttg116 tcccacccac agctccagtt gaaaataagt aataggagag ggaggataaa aattggccta 11659161 116 taccgccccc tccagttgca gaaacatctg taccgcctcc ttcggtggca gaaacagaga116 ccccaataca aagaatttta cgctctgccg ccacggctgg agagccctta ggaccttgca116281 cttttcctat ttccgtaagt cctgatccaa ataatccaca gcagcttaat catgaacaca116 ttccactaga gtttaagttg ttaaaggaat taaaagtgag tgtggtaaat aatggcatac116401 agagcccatt cactttagga ttgctagaat ctatgtttgg tgctatgtgt cttttaccct116461 ttgatgtgaa acacttggca tgaacttgcttgtctgctag cgcatatctg acatggaatt116 taaactggca agaacagggt gcagaccagg ctagacagaa ccatgctgct ggaaatggag116581 acattacaga ggataggcta ttgggtaatg gcccttattc tgacctggta catcaactag116641 701 116 ttcctgaaga gggagtccca gtactatcat ttttacatat catgcaaggg tcacaggaac116761 cctacgcaca atttcttgca agattacaag aggcagtgag gcatcagatt cctcatacct116821 tggctgcaga aatgctaacc tttactctag cttttgagaa tgcaaatgca gattgtaaat116 gtgcactggc accggttagg tgtacaaaaa cttgggaaat tttctcagag cttgttaaga116941 tgtagcaact gagctttatc gatctgcaat gttagctgaa gcaatggcta atttagctgt117 tgacaaatct aaaaagagcc aagggtcaaa ccctaaaatg ggaaaatgtt ataattgtgg117061 aaaaactgga cattttaaaa aggaacgcca ccagatctca ggacagaaag gatcttacaa117121 11742 117181 42 ggaaataact cggctaatca gtgctgctca aaatttcatc agaatggcac ccccctgttg117241 ggaaatgaga tgggggcctg tacccgggcc tcacaaacaa tgagggcatt cccaattcag117301 acctcaaccc tgtttcaggc atgggttccc agaggcatat tgagtccctc acccgaggaa117361 ctccaggaag tgcaggatta gatctcccag ccagagaaag ggttacataa ggtggggaag117 acaaacccac caagattctc actggcattt ggggaccttt accagcagga tatatgggac117481 taattttagg caaaagccac cttaacttgc aaaggcatta ctgtagtccc agaagttgtt117 gactctgatt atgaaggaga aattcaagta gttttattgt cacgagatct tcgggttttt117601 gaaccgagag aatacataat gcaattatta cttattccct gcaaattaca cccttctcca117661 tgaaaggaga aacaaggaaa taaagggttt gggagcacag ctacacggga aatctatcta117 tcccgaccca tagcctctaa tagacccacc tgtgtagtac aaattaaagg aaagaaattt117781 tatgggttta tggataccgg agctgatgtg tcagtgttac cagcaggtct ttgttcttag117841 82117901 117 tccaaggaat ggatccttgg gccatgcagt gagtgtcata gctctattag aagctcttcc117961 aaaagtcgtg ctgctatcta tggactaaaa catactcaaa caataatgac ctctggcgtt118021 taggctcaat gctcagagct aattgcagtc attcaggttt tacagctcac agcttcagat118 cctgtcaaca ttgtctgtgt tcagtttatg tcgtaaatgt agccggtcac atagaaactg118141 ctacaattaa aagtacgcta aacccagaac tgctaattta tttttaagac ttcaacaagt118201 tatttgttct agtgcagctc cttttcatat ttctcatatt ccttctcaca cacaacttcc118261 tgggccgcta tctctaagta atgagaaaac agacaaactg attgcctctg tgtttcagca118321 agctcaacca tctcatgtgc ttctgcacca aaatacttcc gcccttactc acatgttcct118381 acaggtttgt attatattat gcagtatatc cctcgagcca cacctataga aggatgtaat118441 ccacgaggtt tggctccaaa tgaaatctgg caaatggatg ttacacacac agcaaccttt118501 gataagctga gctatgttca tgtgactata gacacttatt ctcatatgct gcctgctaca118561 tgccaaacag gtgagacagc tggtcatgta cagcgacact gtctgtcatc atttgctcat118621 atggggatat ctaaacaatt aaaaactgac aatggacccg cttatactag tcatgctttt118681 aaaaatttct tgcagctttg ggctataacc cataaaacag gaattcctta taatcctaga118741 ggacaaggca ttatagagca ggcacatcaa acattacaat gcatgttgaa aagacaaaaa118801 gcgggtatag gaggccaact accacctcaa taaaaactac atttagcctt atttacttta118861 aattttttga ctcctggtat ggatggtaag actccagcag aaagacattg gcaagtgtta118921 gaagaaaaga ggaaaattta tccaaaagtg ttatggaaat ccctggaaga aggaaaatgg118981 aaaggtctgg tggatttact gacgtgggga agagagtatg cttgtgtttt tacaggagat119041 ggacaagccg tgtgggtgcc ctcaaggtgt gtgcaaccat ggaacgggag actagaggaa119101 cccagggtgg ccaaccatgg acagggtccc cccggtacga gccatgagccagctgagcct119161 119 taaagaatat cactactcaa cttacagttt gtgtttatag atatagatat agatatagat119281 atagatatgg atatagatat agatatagtt atagatatag atagatatac actttaagtt119 ctagggtaca tgtgcacaac ttgcaggttt gttacatagg tatacatgtg ccatgttggt119401 ttgctgcacc catcaactca tcatttacat taggtatttc tcctaatgct ctccctcccc119461 86521 119 tcattgttca atttccacct atgaatgaga acatgcagtg ttttattttc tgttcctgta119 ttagtttgct gagaatgatg gtttccagct tcatccatgt ccctgcaaag gacatgaact119 catccttttt tatggctgca tagtattcca tggtgtatcc ttatgtcttt ttgacagcta119701 agaaggacca gctccaggta aacaataccc aattgacctg taaatcttac caattatatc119761 actgcattaa tcatagcaca ttgcaaacac ataatatctc tactttgatg attttaggcc119821 acatccctgg gctatgtatt cctgttaatc tgtccgaggc ttgggctgcc acacctgctt119881 tgcattttgt gaaacttctt ctaactgagc ttactcatca tgtctgtaga gccttagaca119941 taataatttt agctattgtt tccttggtcg cactaataac ttctgttgtg atgtcctctg120001 tagctttgca taattctatt caaacagctc agtacatgga gaactggaca cacacagccg120061 accaagcatg gctacttcag aataaaatta acactgagtt acaaactgaa gtggtgttat120121 gggaagtcag ggaccccaaa gagagggacc agctggagcc acagcagagg aacgtaaatt120181 gtgaagattt catcttaata cggatattta tcagttctca aataatactt ttacaatttc120241 ttatgcctgt ctttaatctc ttaatcctgt taccttcgta agctgaggat gtgcatcacc120301 tcaggaccac tgttataatt gtgttaactg tacaaattga ttgtaaaacg tgtgtttgaa120 caatatgaaa tcagtgcacc ttgaaaaaga acagaataac ggtgattttt atggaacaag120421 ggaagacaac cataaggtct gactgcctgc agggtcgggc aaaaagagcc atatttttct120481 ttttgcagag agcctataaa tgaatgtgca agtaggaaac atatcgctaa attcttttcc120541 tagcaaggaa tattaatatt aataccctcg gaaaagaatg cattcctgag gggaggtcta120601 taaatggccg ctctgggaat gtctgtcttg tgcagttgag ataaggactg agatacgccc120661 tggtctcctg cagaaccctc aggcttacta gagtggggaa aaactctgct gtagtaaatt120721 tttggtcaga ccagttttct gctctcaaac cctgttttct gttaagatgt ttatcaagac120781 aatacgtgca ccactgaaca tagaccctta tcaggagttt atgatttttc tcctgtcctg120841 tttcctcagg agcatgtgat ctttgttctc ctttttgccc tttgaagcat gtgatctttg 901 120 tgacctactc cctgttctta caccccctcc ccttttgaaa tccttaataa aaacctgctg120961 121021 cagctgtaaa attcttctct ttgtactctt tctctttatt tctcagccag ccgacactta121081 tggaaaatag aacgaaccta cgtgaaatat tgggggtggg ttcccccgat atgtgatgtc121141 acccctggtg gcccagctgt aaaattcctc tctttgtact gtctctcttt atttctcagc121201 tggccaacac ttatggaaaa tagaaggaac ctatgttgaa atactgaggg tgggttctcc121261 caataaagtg gtaatgttga aatccacagt tctatggtta ggggaaaagc acaaagcttg121321 caattgcagc agcaattgca ttgtcatttt aatcacactc atatttgtgt aaccaactta121381 gaatataacc aaagtgagta tctgtgggac gttgtgaaag cccatttgca gggagctttc121441 acatctaaca tcacctttga tattggtgaa ttacaaaaca aaattcttga tttacatagg121501 caaattcaag agtttctgcc ttctttagaa gactggacca aattccagca aggcctggag121561 agcctcaatc cttggactta tctaaggcac tacattaaca tcttacatgt agttcttgga121621 ataatattgt tttgtctctg tcttctgttc atagcctgta aaattggatg gaccaccaat121681 cggaaaatga gagctgccca ccctggcctt acattctttc aattaattca taaacagaaa121741 gggggatatt tagggagcct aaggctcgtg ggactgacca actcatcatt ccactggagg121801 ctatatgata aaacagcaaa ctgtttatca tgaatgcagg atgtgggcaa actcacgact121861 gctcccactg ccagaaggtt tgctgagggc aatcacttcc tggcaccagg ctccttgagg121921 ttatctactg ggacatctgg agaatgcagt cttgcaagcc tactgtggac tgagcagctg121981 atcccttctt ccacgccccc cttctcacta tctcttttgt ctaatcacta cggagggttg122041 tgtaaagctc agggcccttg tccactagag gcaaagtgcc ccctgaccgc ttcttccaaa122101 tatactcttt tgtctcttgt cttttattcc cacgtttgcc ccctttgttc agtttcccta122161 ggtccatgtg ggttacatag tggcaacctg aacaatgaca gaatcaggtg ctctacagaa122221 ataacttttt aaggaaagat ttgggactta gagaccccag gagacataca caaaaatgat122281 aagaggatgt gcccaaacca gtcttaaagt tgtggcacag ggtgaggaag atgaagctgt122341 tactgaacct cagagagtga ctggtgttac agcaaaagtt agcaatggcc tgaagggagg122401 gtttctgaaa tcaaatatga atgattcccc ctcagggaac ccaaccttgg gaactactgc122461 atggttctct gtatgggaaa atatcattaa tgcaggataa attgtgaaat atcacaggaa122 gcatcctgca tctagtcaat cttctgtttc tggggtggcc tgtgcagctg tgcaggcaga122581 ggcccaacca tcctggtgag tggcacacag ggactgagat ccagccacac ctaccaggcc122641 atgctctggg aagggggtgg gacctgggca aaggacacct ctctaggact gcacagaagc122701 ctttgtgggt gggtgggaca ttcctgtgat ggccttctgg ctgggcacta tgaaatgctc122761 tgaagatttt tccttgcact gttgcactaa ccccagtcct ctatcactgc cccttcctcc122821 tgggcgactt cactgatgtt gtggccatgt gaattctctg gccaatgaaa tgataaagat122881 gatatggcct ctgccaagca gacactgtaa gtattattgt atgatgcttt tgtctctttt122941 941 122941 tttaaagtta aagcagttta ttaagaaaat aaaggaataa aagaatagca ctccataggc123001 agagcagctg cctctgtctc ttatattttc ccctctgcct caagcccaac atgcccaaaa123061 ttggggctgc tggttcagcc tgggtctcag aataaagaca tgagccacag atccattgct123121 gacccatgat ggagatggac acaagagaga aacacatttt tgtcatgtta gccactaaga123181 ttttgatttg gaggccattt gctacagcaa tataacctag cgtgaacaga gagacacagc123241 gatgttccat ttcttttcaa cctggaacag gagaatttca taggtgggcc tcaatttcac123301 123 123301 tttagtatct tatttagaca agaaagttca tactgttcaa atgtcatgtt taagagtgct123361 ggcattatca ctgctgtggc taccccatca gatgttgctc actgactaat cttctcatgt123421 tagtgaggat ggacaacata tcaggccata attcaaagta gcaaatagga aaagagcttc123481 atcctagcat tatgggacct taattaatgt cctttcctga caggtttcag aggcttttgc123541 aggcagcagc agagctattc atctcactga cagtggggaa catggccaaa tggttgcccc123601 123 123601 cacaatggag gcagagtttc aggacacttgtctgatctct gcccttgaag gaacagtctc123661 accctgattg acacttttgc ctgttatgtc caaagaacca atggaaaagc aggaaaatta123721 ttccttcttc atttctctct tcattattta aaattattct gtcttcactt ctctctcctt123781 ttctctgctt cctacttagc tctttagaaa tgcaattata atcttttatc tccccttcac123841 cagacactcc caacagggca agttcatcta actatgtgct cttagttaga cgctacagag123901 123 123901 cagaactctc tcccaccaag agactacctt gagacataac agtcaattca caagccaaaa123961 tatgcccgct atgaaactct cccatctgga aattttttgg ctgcttttac aacctagttt124021 tgcccacaaa ggcaccagca gtaaccaact caactgcctg gtagacaagg caccaaagcc124081 agtacccaga ccctctacct gctcacttcc tgccttgcat gccacgcccc ccatttaaaa124141 agtacccaga ccctctacct gctcacttcc tgccttgcat gccacgcccc ccatttaaaa124 gcctctgctt tctgctccaa aggtgaagca gttaccctta aggaaagaag cctgtacttc124201 ttcccctaag gtagctttgg aataaaagtc actttatacc aaacctagct cttgttaatt124261 agactctgca agtgatgagc aactgaacct acatttcagt tataattcct atgcttgttc124321 ttcctgccct gccttgggga cacgcacaca ctcccaggca catacatgca cgtgcactga124381 gacagctatg tgaataacca acaagatccc cttaggaaaa ccggtgcttg gcctggcctt124441 aaattccaga cccttgggca tcatacccaa gactgcaaga aagaggaggg gctggacctg124501 aaaaacttgg aagggaaggt ccaactgtac aggtattttg tcaggcatgt gatttcagta124561 124621 ttttacttct tgctaagacg acagcaggga attgtaagca gatggatggg caatccccac124681 cttcagcagg ggaggccaag gccccaacac acctggggag aagagctggg ggcagtgaat124 ggctgaggct ttcttgggga gctgggccat cttcttcggt tttacttcct gaggaattca124801 caggcttcca ggagggctgt gggacacaac agagcaagag attcagaaac tgatttcttc124861 cattaaacca gttatttaat ccaataaatc aaagagaata ctaagagttt tctctgccct124921 tctcccatca ctgagtcagt gcttgccaca ctcatattcc cactccccta ctcctagcga124981 ctacggtgtt caagggagcc agagtctagc cctcaccagc cagggtgttt ccctgctctg125041 gcctgagaga cacaaccacc ctgcacttgt ctctgattga atcgactgtc acattctcaa125 gttcacaaga cattggtggt cctctagctt ctcccggaat gtgaacctgt ttgcaatcat125 gttcacctgc agattcactc attcattcac agatccttac tgagcacctg ctttgtgtga 1256959 125 gttgctgtgc taagtgctgg ggacacagca tggatagact ggcctgccct caagaagcat125281 gtggtctatg cagtcctgag ctggctgctc acaagaagag ccctgtagcc atatttctca125 gagggtggtc ctgacctgca tcacagtgac ctgagttgtt tgtcaataca gaaaagggtt125 tctcaacctt ggcactattg acatttgggg cctgataata accctttatt gcagggggct125461 ggctgtgctt tgtttagtag catccctggc ctctacctat ttgttaccag cagcaccctc125521 tatgttgtaa gaatcaaaaa aatgcttctc acattgtcaa atatcccctc aggggaaaaa125581 ttgtctctca ttgaaaacta ccgataaaga catttctggc cctgccccca tccttggacc125641 aacagcatcc ctaatgcccc caactctggg tgagggacca ggaataggaa tctgaatgat125701 tgcagtgcac agggagctgt gcacactgaa atcccacagt tatcaccggg agccttacaa125761 tactctgtga tgtcttctaa atatttttaa gggattaaat taatatcaac atatttccct125821 ggttaagatg tgttttccta cacttgaatt tttttgagat tttgttttct ctatagttgg125881 catctatggt aactgtctag aatcagattt tttttttttt ttttttgagg aagggtcttt125941 cggtgtcacc taggctgtag tgcagtggta caatcatagc tcactgcagc ttcaaccttc126001 tgggatcaag caatcctcct atttcagcct ctcaagtagc tgggactaga ggtgcttgac126061 accacaccag gctaattttt aaaattattt ttgtagaaca aggtctctct gtgttggcca126121 cattggtctc aaactcccgg gctcaagcca tcctcccacc tctgcttccc aaggtggtgg126181 gatgacaggt gtgagccatc acacctggct ggttttgtca tttctcaatg catatgtata126241 tatgcacctt tcattttact gaataaaatg gattatcagt ttccaaagat ttcatgacag126301 tgccgtcact atccgtacta taaaatttat aaaaatttat tacatactgc tctattttat126361 tctctaatta ttttatcaat gagattataa tttcctgaac tgtaaagaga tattatcttt126421 ccttaacatt tttacacctg tgttcgttcc tagaatgctg tttggccctc aaaccttgac126481 cttcacccat ggtggtttct cggggatgct agctagggtc tacttacggg aggttgagca126541 126 126541 ctttttcaga ttagtaatgc ctgcgacata ctgtggtccc aaatattttt catatgttgt126601 tttgccatgg agtctggcca gacactcagt gttgtcattg aacagaaggt ttttggtttc126661 agactggaat aagcaaaact tgtccgggca gtcagatcca tttctcccaa atttagcctg126721 126 126721 cgacaaaagg gcagacagtg agtagctaag gaaaagagga atttgtgggt taaaggaggc126781 aaaggggtat ttcttccacc caagaacagc cctgagaaaa ccatggggca gaaggagctg126841 12663 126841 agttctggag tcattccacc tccttagtgg agtcccccac cccacactcc tggtggcagg126901 cccgccttgg gcagcatcca ggcctcacac cacttctggt cctacctcct accatctgcc126961 atctttcctt ccttcttaac ctgtgacctt ttcccataca acttcttatgggtgacaagg127021 caacaatgga ggggttttga gatctgccct cacaagtcaa ttgctcagga cattctaata127081 tgcagctctt ctagagaggc aggctgctag gaaaacccag gctcagccac taaccagctc127141 agtgtgcagg tcggtcaccc tgcctccctc acacagttcc tgctctgtcc caggctccca127201 tgtggggaga ctgagaccca aacccctcag tcacggcagc tctctcacca gcaccactgt127261 gtgtgcacat taagagctcc ataaaggcca gttatggtgg ccagtcttgt tattcctgag127321 ttgttttctt caaaagcaca cagagacatg atgttatatg ataaaaatag aagttctaat127381 aaaatcccag attttaagaa aattttggga tttcgttcaa atcacattta gagagcccta127441 127 127441 aatctatagg gcaccttctg agtttgctgt tttagaggcc tggtctagag cactgttcac127501 tcggcccagg ttcaggaaat gtcacctgag taaaaagcac tatactaatg catgtgggag127561 gaaggctcag tggcttcctc atttgccaga agaacagcag gagggaaaaa gacagcctct127621 gagccaggca gtgatggcaa caaggccagg gcacagagtc tcagcagaaa tggagtgagt127681 cccagaaagc ccagagtcaa aagcctctgt tgttcttgtt gacactctgg gcaacgccac127741 127 127741 agcatgaagc caatactctc accatgagct tcaagtagag gactagagag gatcgagtgg127801 9634 127 127801 gctggtgcac ctagctctgt gatctcctca cctaacatga gcccacacag ctaagaaagc127861 actagaagcc ctgtggtcca tacctgttgg tggagcaaca cctgtttcag gcgttccacc127921 ttatccatcc gagacaccac ggcatgattc ggggccatgg caagatggca gcttctagcc127981 tcagtcacag gcttccgttt gccatcgagg cacagcagcg caaagtctgc cagcttcaaa128041 tccttagccc atgcgtcatt gttatttcct ggggagaaaa agaaggtggc atcatccacg128101 cctcccctgc ttagccaaga agtctcttct gggtgggtgt ggccattcca ctgacctccc128161 aaatgcacac actggggttg tggtgatgtg aggaacagag aaggagcttc atcctacaca128221 agctgtacaa acttcaaata taccaaatat tagtgctgtg tccatgcaat ggaatgttat128281 tcagcaataa aagggagtga agttctggta catcctgcaa tatgcatgaa cctcgaaaac128341 128 128341 gatgctaagt 1281281286392 gaaagaagcc agtcacaaaa gaccacacaa taggctgggc acggtggctc128401 atgcctgtaa tcccagccct ttggaggcca aggtgggaga atcacttgaa gctaggagtt128461 catgaccagc ttgggcaaca tagcaagacc tcatctcaaa aaaaaaaacc caccacatat128521 tatatgactc catttatatg aaatgtccag aataggccag cctatggaga cagaaagtgg128581 attgatggtt gccaatgctg aagaaggata gggcaatgac tgataatagg tgcaagggtt128641 tctttatggg aggatacaag cgttctagag ttggattgtg ttgatggctg cacaactctg128701 tgaatgtgct ggagatcact gaattgtaca ctttgcatgg gtggattttt tagtatatga128761 attctacctc aataaagctg tttagagttc ttattttttt aaagaagaaa accctccacc128821 tatgccatat ttttcagtga gttccagaaa aagaatagat ggtttacatt caaggagaaa128881 ttggtttctc ctccctttca tattcaaatg ctattagtgt aaccagagaa aggaaaggaa128941 cttttatagg tttatcaaat atatacagcc aattctaaca aaatacagtt gtaaagtacc129001 ggagaaagtt aaaattaaat ttgacatcaa tctgatccct ggagattact tcagttaatg129061 58121 gttccggctc ccgtttgtct ctctgctctc tccctttaag aaagcacttt attcattctc 1295924 129 ttggattcct ctatttgata ttgaaataat ttcaaattta catgtcttgt tttaatctct129 gtcccaagag acactagaag gagcagaagc agaagggaga agtggctgag actgcagtga129301 ttactgaagg agggaggccg aaagtggaga cagttctttc tcaggaaaca gaatagcaag129361 tcacctgctg agacttgggg gttggaatgc tgaagtgggg ctaaggagac agatgcagat129421 82129481 agattatctt ccatcatctg caaccacctg taattttgtt cccactaact cccaaggagt129541 ctccagacca aggctcacat ggggatgaat gaaggcctct acttcctttt tcataaaggg129601 aggcttcatt tgcatatgtt cacccagttt gtagcatcat ccacagtttc caataggcat129 gcatgatctc atgtgggcag acagtgtgtt tctgtggttg actagaggaa gccagggaga 12912912912912912912912958 gtgagagaaa gagagagagt 781 4651 attctacctc aataaagctg tttagagttc ttattttttt aaagaagaaa accctccacc 12827 12927 gtgtgtgtat gaatttcgtt tcaaaatcca tatgacacct129841 acagatgtta tcatgttgtc tattgagata aagaattttg gagttctttt aatcacaaat129901 atggaaaatg ttataaaacc ttcccaaagg caaatctgaa cactaagatg tgttgtgatg129961 ccaaagactc tgctttgaag gagaaaagga aacaccttca cctaccatca gtgttctgca130021 agacagtgac atctttcaca aatgcaacgt ctccagcatt ctcagccagg cacctaaaat130081 gttccagaaa atatacacat aattacagaa gagaaactag tggggctttc ataaatattt130141 gtaatatgca ttccaaaaac tgaaatatgg aagtaaacat ctaaaagaca actatttcta130201 ggaatttact gtttacagcg gcagattgaa cacaggtgta cctgccctcc ttttaaaacc 46261 ctatataaaa gacattacaa aaccaagaaa tctaaagata tgcgacccag gaaacaggca130321 atctaacatg aagtaagaca aaggaaagca ccaaaataat ggtcaacagg acccccagga130381 ccacagatgt gcaggcggcc tacacagcaa ccagtccaaa ctgcagcagg aagatggatg130441 ccttctggag cagcacttcc aagtaaatga tgaaactgtg atagcaccca gagagagaga130501 130561 gtgtgtgtgt atgcatgttg ttaggagatt tacattactg gcagacagtt tggggatgag130621 atagtgatgt gtttttttaa gtgcagaaaa ttaagcaaat aagaaaagac atttatgaac130681 tccagagtaa acaaaaagtt tgtacaataa gggaaatata atatgagaat aacgcttaca130741 cagtcataag tactgaatat gacattagcg tgttgggtgc tgaagagagt tgaagtctgt 130695801 130861 cagagtcagc agaaagttaa aaattaagaa ccagcattat aaggatgata gaaataaagg130921 ggtatgacac tggtttcagc ttttaatgat tttgctataa atttccccaa tctagattct130981 04113128 131 acatgcttct ttcgggctct tatgagacat gtgttcagca tttctgagta gaatcacatt 131131161 13158 131221 ttgttttggg tcttttttta tgagccactt atatagcaaa agctactttt ctgtcattcc131281 attactggaa caaggctgtt gaatttatat taaaaagttc agacaccctc agacacatga131 cgccatctgg tcgtgaaatg tactcttggc aaatggagga aaaggaacag gggaagatcc131401 tctctgcacc cttcacactg gtaaatagtg cccctgagaa gcaacacccg gatgaatggt131461 gctgtaaaac gtggggtgtg gttacaagtc actaagtggt tataacttat gaattctgaa131521 84 131581 tctctttgcc atttctaagg ccaaagtcag agaaaaaggg aaacctaagc catagtcatg131641 acctaggtga gaagaaaagg ggcggcgatg ggaaagagaa ttcttcccca taaatggaat131701 tgtaggaagc acttaggata ccacactcta cccatttgat tttcaggacg aggctattga131761 ggcctactgc tgttgatctt ggctcaaagc cacagggaga agcactgcgg agctgaggtc131821 agacagccct ggtgccagcc tccactctct ggggcggtgg gtgtggtggg gacagccctc131881 actggggcca cccatgagct gacccacagg atgaccccca ctctgctgtg acaggtcaca131941 tctggctcct tagaactgca atgctgacat gctgagggat gaggtaagtc cccatcctga132001 tggagctcag tcacagactc accggaaagc cccagtgtag ccgtagtatc tctcgttgct132061 gttgggcacg cacttattct caccctgctc gtcgccaata cacagagcac agagattaga132121 tctcgggtca gacccagggg cacagctttg actgaaatat tcatctggag agaaggaaca132181 cggggagtca gctcttcaaa cctgagtcca cacaagcaac ctttacctaa cagccgatgc132241 agggtggttt cagttcatta gacttcccag gacagcaatc tagatagaac acactcacca132301 82132 tcacaaagca acatgttgtc accaacatag gacccaccag aaaagcttca ttcagactgt aggcacagat ggacacccaa ctaaggctgg ggatgagagc tgtggctgcc tggagggtcc132421 cgtcatcaca gccttgagct ggggactcag ctcatgaccg tgatggctgtgtgcagcaga132481 86481 gcctgtgagt tgcctagtcc aggatctgat tttgttttta tcagtaatgg aaaccctgct132541 ttgtatctgg gtgcttggcc ctttggtata aagactagac ttatcagact ccctggggct132 catatggcca tatgggtagc tataggccag tgaaatatca gcaggagtgt tgggcgccag132661 cttctcagaa acatccttga aagacaattg gtacatgcct tttgcccttt cttctccttc132721 tctttcttca tcctgcacat agaatgcaga agcagggact ggacttagag atgcaatgtg132781 ggccatgagg tgaccttgag catgaaagcc acacaaatgg cagagtagcc aaatgattaa132841 agcccaggtt ccagacccca tattgtcttc ataccagccc taggcaaacc acctctggac132901 tacatgacac agaaattaac ttctgtcttg tttaagcctc tactatttca ggagttttct132961 13384 133021 taaacaaagg tgacaagaaa gctctgcccc actgagcaaa cgtcacccat tatcagactc133081 ccactgctgc tggaagagcc acactatgtg tcaacctcag gaaaagctgg gagttcccat133141 tccatcctgg cagtttccct acagctcaga ggctgccatg gagctggtga ggagcagagc133201 cacgtgaaag ctgcctgccc cggccaggat caaaaaccca tgcagtggag cccctgccct133261 aggagacgcc catacaagaa gggagtcaca ttgaggatgt gctacacacc atgccacggg133321 gcccacagca ggcagggtgt ggctgatgct gactaggatg agtgtggggt gtggtgggga133381 gagaaaactg cagaagcagg tggagccagg ctcttgaggt cttattcagg ctccgttgca133441 gtgtagagta agcgtcagtt ttgcttagta acaggagtca cctttcatga ggcaggcaga133501 catctttccc caagctggga agccagagtt taagaggaat ttaggtctgg agctccaaga133561 ggtaaaaagc atttgcacat cttggaactt gcatttattc ttagggtgca gcgaaatagg133621 686681 695 2 133741 ggaagaggcc tgcaggccac tatcagcctg caaatcccct cccctccctt ccctaaggtt133801 ccacagcaca atatgcctac cctccagggt ggcccaccca ccgcaccttt ggaactcctt133861 86921 agtcctgtcc acggcggtgt ggcaggactt cttgcctttc acagagttcc aggtaaggct 133987 agtgtctgat ctcctaacca ccgccacagc aagatatcct ggcataacag atgacagaaa134041 aacaagtctt aacctccagg aggcctggca catggattcc agtggagctg tctacagccc134101 aggccaaaac aggccaagaa gcaacaccag gcaatgattc cctcaaagaa ctggcctttt134161 taggtagacc gagaaagcat aagctgctgc cttatgttaa ggtgagattg atgaaataaa134221 acagtaagaa aagctgatta ttttagtgat tacaggggac tgtcttcaac cagccacaca134281 atgtccctga gttacaaacc agcaatgcat ctctcagtgt aagcttctac agcaacaaac134341 actataaaca acaagagaga ccccaacagt gcataaatcaccaaccacag tgtgcatcag134401 gcaagagcac caacatccag ccagctaacg gctgtgtggg tacaggggca catgtcccca134461 gggactgccc tgagctgagt ctgaacccac cctgcactgg ttgaactcaa catggttgcc134521 gttgtcctcc tgagagaatg catctgacag acacccacca agggcaagtc ttttctgaaa134581 ctgagcaagc accagctctg gtgggcagga ggagtggtgc acagagcact gggacacgag134641 tcccaggtca cgaggacccg gggtcaagac caggatctac cacagtatta cctatggctg134701 tgagtgagat cctgggcact tggggactct cggtgccact gtttcctcat ccccatgagg134761 tggggaagta gcacccccca ttccatgacc atgacaaaat gagggactat atggatgttc134821 tttgccaagt gtgaaggtca atataaacat taattagaac tattcctctg tgaattattt134881 gcacccttaa aattattgct cctagaagcc ctatagcttc tagggctgca attctttctg134941 ttttttttac agttcctgcc acttcctctt ccagcaacaa gaacttatcc ttgaccctga135001 aagtggctaa tgccaactca ccttccacag gtctatccac acagttagga tcagggtcac135061 tgctttgttg ggattctgaa agaataaaga caagccagac atcattatcc attcagatgt135121 agtgagaagc cacaaactct taaatctcaa tgatgcagaa tcaaatccaa agagaccgtc135181 ccagcagttc catgcaggag aaatgcgtct atatgttcaa caaaagacat ggcacagaga135241 ttcacagctg cattattcac cacagccacc aactggaaac tactcaaatg cccatccaca135301 ctcaaatgat gaataatcac agtagactca cacagcgacg agactgaaca gtctacaact135361 135 135361 acacacttag gtggatgaaa agcataacga tgagcaagag aaaccagaca taaaaaaaca135421 catgctgtgt aattccttta acatgaagtt taaaacatag gcaaacttag atctgcgacc135481 ttagaagcca ggagagaggc ttcccttgca ggagtaaggg ggcgggggac aggaggacat135541 aaggggcttc tgaaacttgc agtgtttgtt ctgggcccga gagcatggac tgtacagtgt135601 gtgaagtgcc atgagttgta catttatgtg cacttttctg tttgtatgtt ataattcact135661 gagatcttct ggaaaattaa gaagataaaa ccaacctgtc ccttgttaat tctcaacaca135721 135 135721 ataggctttg tgggtaacac ggcccctttc atttcttctt tccctgattc tcccttttga135781 atgtatctgt tcatcataat gtttcacctg cattcaccga atgggattac tcatagcccc1 135961 atggcatcag cttctccttt ctgcaaagac agagcagatc tccagcacca cagtgaggct136021 1135 135841 actcccatga cccagaggga atataccaga ggatgctaac tccacttact gtagttctct135901 gccaggacag gcaccaaacc acatttgcct gcagtgtaca catatcctcc atccaaactc135961 atggcatcag cttctccttt ctgcaaagac agagcagatc tccagcacca cagtgaggct136021 gcatcccgtc ctgcctgtct atatagctct ctgagagaat ggttttctgt caggtgacca136081 gtgaaacagc agaaagagat ggactattca aactgagcag ccagaggaaa caccgtgtgc136141 accactaatt ctctcccagc cctgcctact ttctgggctg tcaattcaac tggaaagacc136201 aggcacaggt tgcactaatc ctctgtcctc tgagcaaaac cttttctgtg tccctggcac136261 136 136261 tttggggaca ccttcctgga gcagtctcac tgactgagga cacagatggg aacagctggc136321 ctcatctaat ctgaactcat tagcactcca ctccaagcgc tacacagaag ttgtccaaca136381 136 136381 cataagctga agtcgtcata ttggcccacc accagaatga acaagtccag gctacaacac136441 aggatcatgg actcatcagt agtatgaaac ttcctctttg acccagtaat atttttacaa136501 ctatattaaa aatagagaag tggacaaaga tttctactca agaatgctca ccacagggtt136561 attgataata gcaaagtaag ggacaaagag gaatgggggc atgactaaac tgagccatat136621 tcacataaaa gatatcctgg aagcatgttt aaaaaatgtt ttcgtccgag tgctgtggct136681 cacacccgta atcccagcac tttgggaggc cgaagcagga agattgcttg agcccaggag136741 1365392 136741 ttcgagacga gcctgggcaa caaagcgaga ccctgtcgct acaataataa taataataat136801 136 136801 tatgcaggtg tggtggcgta tgcctgtagc cccagctact tgggaagctg agatgggagg136861 atcacttgag cccaagagtt ccaggctgca gtgagatgtg gtcgcaccac tgcactccag136921 cctgggtgac agatcaagaa tctgtctctt aaaaaaaaaa aaattaatgc tttccaagag136981 taaatattca tgtggaagaa tgcccattat acgctgttta gtgaaaaggg cttaaaaacg137041 acatactgca acacttcatt attgttgcat gcatatctgc agatgtgcag agaaatactg137101 gaatggagaa ttagccagac tttaaccatg tctgtccctc tgtgtgagat cacaggtggt137161 ttggggggtt tgttgttgtt ttgttttaac ataatacctt tccatatttt ccaaattcct137221 tataataatc ctgagttgtt cttataacca gaggagtggg aaacccacag taaactgctt137281 tttgaaacta aaatgctttc tggccctgag cacacctctc caggcatccc tgcctcaccc137341 aggcccccgt ggcctctttg actgttgact tcactttaag cagatgccca ggccctaggt137401 cttccaccgg gcccaccgcc cgcccctgtg atggagctcc ctaccagcac cagggcgatg137461 cagtcctctg tggtggaggc cgaggagcag gtcacgctgc cttcgctcaa gccactccac137521 tggttacact tgcgcagctc ctgctcgccc accgcacacc acacgacccg cgcacgccgg137581 581 gcagccactt cctcctcacc tgccagaggg aagaccgcag gtggctgggc aacctgagct137641 ttgccaggtt gtccaacctc cccagagcca gggtcctgcc cagactctcc ctggaacagg137701 58137761 caagcccctt cttcaggtcc acagagctcc ctgtgtttcc cacttctgtt cctttggaga137821 agttccctgg cttctaatct atccattaat ctttagagtc aggaggcgcc tattgtctct137881 gtctctgagg ataaacgctc catgacccag agaccagtga cagtcccaag agatggccta137941 ggggaccttg agcccaaccc tgacttcccc taacgcctgc aatcaccacc aataactacg138001 gtgcagcctc tgggttcccc cagactccca cccccagccc cccagtagag aaggagccat138061 agctgagttc ccccaccatg gtgtccccaa ctaagttcaa ggtctgggcc tgggaagtgt138121 gggtaaatcc aggcccccgg attcatccag gaggggtcct ggctatcttt gttcatgttc138181 atgtttctca cttaatagga ggcaaactga tttttctgcc aggcctgggg agcctgacgt138241 gcactgatca ggtggccaga ctattctttt agagacacct gacctaatcc acagaagaca138 ctcacacctg catcaaacct ccacgatgac cccacagtgt ctgggaaaag gagtgaccgc138361 cacaaagtag ggccacctgc tgggaagtag aagaccacac caggcggacc tcaggaccct138421 cctgggctca ctcacttttc ctcaagttct ggatggcagt gaagtagccg gagccaaggt138481 acagcccaga atctatcctc gggggcaccc tcgaaaaccc aatggcagag tccttgaaca138541 gcagatcttt ctgcccacta ggggagccaa agagctggaa tttcggtgac ttgtcctttc138601 caaacttttc ctaattaaga aaaaatagaa ttatggtgtc aatggtaaat agggaggaaa138661 caaaaaaatg atgttaaaaa agagtatctg gagctttggg atcattctaa ctgagagcag138721 138 gagcctcggt tgagaccctc ctgcagaggg acttgtgcca tctcggagac ccaagctcag138781 ctatggctca ttctttgaag agttgctgag gtccaagcac cttagggccc tgagaagatt138841 gcatcgacca ccccctgctt ctgctcccat cataagacgc tgtcagcccg tgtgacagaa138901 gagtttcatt gcttctgctg tccacagtac agcctgggca agcagcccaa tgcattagtg138961 tgctatcctg cagcaaagct acaggacttc tggagtggca gaagtcaggg aagtaagaaa139021 ccttgctccc tgccccccat atccaagcaa gtggggagga ccgtgggtga agatacctgt139081 gcctggcgga gaagattcca gatggcatcc tccttgccat tcacacttcg tgccacaacg139141 gcatgagaag ggacccgggc cagatggcag tctttgaact tgtccactgg cttccgagtg139201 ttgtctgggc agagtaactc atactcgtcc ctttcagcct cgtctgacag gtcctctgca139261 gggaaggtga ggtgggaggg agtctagata agccgactcc agcagtaacc tcgagctata139321 gttccccttc tccctataga attttgagct tggggagata gctgacaaaa ctgagggtca139381 139441 agggggcagc cgaggtgtga tcctcatcct aaatcactta ggccaccctg gggttcccgt139501 gcagctgctg cctggcaggc cagagaggcc aaaccagacc cgtctgtttc tgcggcatct139561 ctgcctggaa aagtcacttt gcagagacaa gctcaggggg ccaccaaggg ttgctccctt139621 actcacatct ctgggaagaa taaaaatgac aaaaatgtta acaaggcagg gaataaggca 681 139 ggaaggtgag acactttcca acactgagta tatcaaaaga aggggaagaa tggttttatg139 aatgagttca ggcaaatgtg gaatatcata tataagttgc ttcagaatgt gtaaagtgaa139801 aaaaatcttg cccgagtcat tttatgagat tagtacaacc ttgatgtcaa aatcagaaaa139861 agtataggag ggaagaatta aaagtttatt ttacttacga acataaatgc aaaatttgta139921 aataacgtac taactaactc aatctcacag agtatttaaa aagctaatag attggaatga139981 aggtttacca gtgtattcca ttaacaaaag aatggctgaa catcaaaaaa actaaagtaa140041 tctgcattta atggcagaaa accatgagat cgtcttcatc ttaatagatg cagaacgatt140101 gtttatgtgt tcaacatcta tttgtgtgtg gttttttttt cagcctcaga aaaatagtaa140161 tagatagaat cggtaaagtt tttttgtttg ttttgagacg gagtctcact ctgttgccca140221 gcctggaatg cagtggtgcg atctcagctc actgcatcct ccatctcctg gagtcaagag140281 attctcttgc ctcagcctcc caagtagctg ggaccacaag cgcacgccac caggcccagc140341 taatttttgt atttttaata gagatggggt ttcaccatgt tggccaggct ggtctcgaac140401 tcctgacctc atgtgatcca cccgcctcag tctcccaaag tgctgggatt acaggggtga140461 140 140461 gacaccacgc ctggccataa gttattggct tgataaatgc cattaatcta cagcaaaaac140521 1406384 140521 cttactaaaa gaagaaaatg tagacattca ccgcaaaatc aggaacaagg caaggatgcc140581 cactgttaca atgccagcac aattctagat atccagatca cacaatttac aaaagaaatg140641 tgagatataa acactggaag gaaaaagaca cactcttatt taaaaagatg atatcgtcat140701 ctacaaaaaa ccaatgaaac caacagaaac taataaaact actcagagga gtaacaagtt140761 ataagagcaa cctacaaaaa tcagatgtta tcctcattaa caataaccaa atagaaacca140821 atatggacta taagatgtta caatagcaac taaaaccatt aagtagctaa taattagcct140881 39140 140881 cccacaaaga cacatcagac ccacaaagga aaaattttag ttctatcaaa gaaactaaaa140941 agaggtgtga tcaaatgggg gagatttagc atcaccatgg actggacaac ttaatgttat141001 aaatatgctg atttttcatg gaacaattta aattcagtac aattcgaatc aaaattaaag141061 tatgattttt tccagaaatt caacaaaata attctgaagt tttagctgag tatatttgaa141121 aaggaataat aaagtgagag gggagaggga gctctctctc attctctctc tcttcctctc141181 141 141181 actggctctc tctctttctc tccaccagat agtaagaccc attggtaagc cacagtaaca141241 14163241 141241 aaagcagaaa aaatgcaaat acaccaatga aataaaatag ctcagaaact ggtccacttg141301 141 141301 gatatataca aacttggtgt agaattggct tcacatatgg cagaaaaaat atactttttt141361 51 1416351 141361 361 51 141361 51 tatgattttt tccagaaatt caacaaaata attctgaagt tttagctgag tatatttgaa 14151 14121 tattgtaagg taaattgcct cactgtaaag gggataaaat gctaaagcca aatctatatc141421 tgactttcta ggtagagcac atataaatag atgaggaagg ggatcttcaa atcttatttt141481 aggaaataat tatgatttgg gtgtgaagaa gggcatcttt gaaatatctc aaaactacaa141541 accaacaagg tgaggcttgt ggatttgacc ttatcaatat caaggatttt tgatcaacag141601 agactaccgt tgtcagattt ttgactgaga agaggtttta ctaaagttta aaatcagcaa141661 tagtttgata cctagataga aggaacttct gtccttgaat caaaatcatg cagaaacaag141721 14163 141721 gtgtgaaact caatttaaaa agtagtcaaa tgtcacaaaa taagaaaggg aagcccaaac141781 ggctagcaaa tatgttgaaa tgatcaaact caccagctgt cagagaaatg aaaattaaaa141841 ataaaacgaa ctatctattg cattacaacc atcattcgga caaaaagtat gaaagtcaaa141901 aatacttcta actgaagttg tggggaaatt agaacacttg cagagtgtca ttccagacag141961 cagcttggtg atcctgggtg catgtggggt ctgtctctgg tggccctggg tgcatgtgga142021 ggtctgtttc tggtggcctc tgatgaatgc ggggtctgtc tctgatggtc ctaggtgaat142081 gtgggtgttg tctctttctc tggtggtcct gggtggatgt ggggtgtgtc tctgatggtc142141 ctgagtgaat gtgggtgtct gtcactttct ctagtggccc tgggtggaat atagtagccc142201 tgtctctatt ggtcttgcat gaaatgtagt gagcttatgt ccactagtcc tgggtgcagt142261 1428525 142261 gtgtttagcc tctacatact catcaactgc tttattataa gtccaggagg gacgctgtcc142321 agcaggtaag taaggaacac aggtgaaggt atcagtcgtg tggctgcatg tggtagagga142381 aaagagagca caacctctgt ccatcactat ggtgacagag aagtaaaagg tggatgtatt142441 ccacggaaca ctcctcaact gttaggaccc ctgagctaga catgtataca acaataccga142501 taaacctcta aaacaaaatg ctgagcagaa aacccaagta gcaggatttc taatgctcac142561 3939561 142561 taaaacctct atgaacccag aaaccggaaa cacaaaccag cacaatctgt tctgcatgag142621 142 142621 cacatgtgtc ttggaggact ggaggacgca ttgccaagca cctaggcatg ggtgtctatg142681aggggaagag aaaggcagta ggcacaggag gtttgaagaa aactgatcat ttaaaatatg142741 aaagatcata aaatcagagc tgtgccctgt aggaatcttg aaaatggtct gccatgaact142801 801 taggaatcta attagctcaa aggtcagagt catgatcaag taagataaaa ggggtcagta142861 cccacggctc attaccctgc tcttaccaaa cactgtgctc tctctgataa aagccacgtc142921 tccagccccg tctctcagac acctgtgaaa agagaaacca tcaggggtaa gcacaggcag142981 1421 142981 ccctccccag cccctccctg tggaacagta gccctggcac tcagcatcta tgggtttcta143041 ctccctgcag ggcagggctc tgaagctt (2) SEQ ID NO: 2840 data: (i) sequence characteristics:

(A) Length: 149272 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2840 sequence description: 1 tctagagcca aggtcacgga agcccagagg gcatcttgtg gctcgggagt agctctctgc61 tgtcttctca gctctgctga caatacttga gattttcaga tgtcaccaac caccaagaga 121 gcttgatatg actgtatata gtatagtcat aaagaacctg aacttgacca tatacttatg 181 721 tctagctctg atatccttta ttctttatat tttctaacag attctgtgta gtgggatgag 781 181 tcatgtggaa aatttctcat agcttcagat agattatatc tggagtgaag aatcctgcca 241 cctatgtatc tggcatagtg tgagtcctca taaatgctta ctggtttgaa gggcaacaaa 301 atagtgaaca gagtgaaaat ccccactaag atcctgggtc cagaaaaaga tgggaaacct 361 gtttagctca cccgtgagcc catagttaaa actctttaga caacaggttt tttccgttta 421 cagagaacaa taatattggg tggtgagcat ctgtgtgggg gttggggtgg gataggggat 481 acggggagag tggagaaaaa gggggcacag ggttaatgtg aagtccagga tccccctcta 541 catttaaagt tggtttaagt tggctttaat taatagcaac tcttaagata atcagaattt 601 tcttaacctt ttagccttac tgttgaaaag ccctgtgatc ttgtacaaat catttgcttc 661 ttggatagta atttctttta ctaaaatgtg ggcttttgac tagatgaatg taaatgttct 721 tctagctctg atatccttta ttctttatat tttctaacag attctgtgta gtgggatgag 781 cagagaacaa aaacaaaata atccagtgag aaaagcccgt aaataaactt tcagaccaga 841 gatctattct ctagcttatt ttaagctcaa cttaaaagga agaactgttc tctgattctt 901 ttcgccttca atacacttaa tgatttaact ccaccctcct tcaaaagaaa cagcatttcc 961 tacttttata ctgtctatat gattgatttg cacagctcat ctggccagaa gagctgagac1021 atccgttccc ctacaagaaa ctctccccgg taagtaacct ctcagctgct tggcctgtta1081 gttagcttct gagatgagta aaagacttta caggaaaccc atagaagaca tttggcaaac1141 accaagtgct catacaatta tcttaaaata taatctttaa gataaggaaa gggtcacagt1201 ttggaatgag tttcagacgg ttataacatc aaagatacaa aacatgattg tgagtgaaag1261 actttaaagg gagcaatagt attttaataa ctaacaatcc ttacctctca aaagaaagat1321 ttgcagagag atgagtctta gctgaaatct tgaaatctta tcttctgcta aggagaacta1381 aaccctctcc agtgagatgc cttctgaata tgtgcccaca agaagttgtg tctaagtctg1441 gttctctttt ttctttttcc tccagacaag agggaagcct aaaaatggtc aaaattaata1501 ttaaattaca aacgccaaat aaaattttcc tctaatatat cagtttcatg gcacagttag1561 tatataattc tttatggttc aaaattaaaa atgagctttt ctaggggctt ctctcagctg1621 cctagtctaa ggtgcaggga gtttgagact cacagggttt aataagagaa aattctcagc1681 tagagcagct gaacttaaat agactaggca agacagctgg ttataagact aaactaccca1741 gaatgcatga cattcatctg tggtggcaga cgaaacattt tttattatat tatttcttgg1801 gtatgtatga caactcttaa ttgtggcaac tcaaactaca aacacaaact tcacagaaaa1861 tgtgaggatt ttacaattgg ctgttgtcat ctatgacctt ccctgggact tgggcacccg1921 gccatttcac tctgactaca tcatgtcacc aaacatctga tggtcttgcc ttttaattct1981 ctttttgagg actgagaggg agggtagcat ggtagttaag agtgcaggct tcccgcattc2041 aaaatcggtt gcttactagc tgtgtggctt tgagcaagtt actcaccctc tctgtgcttc2101 aaggtccttg tctgcaaaat gtgaaaaata tttcctgcct cataaggttg ccctaaggat2161 taaatgaatg aatgggtatg atgcttagaa cagtgattgg catccagtat gtgccctcga2221 ggcctcttaa ttattactgg cttgctcata gtgcatgttc tttgtgggct aactctagcg2281 tcaataaaaa tgttaagact gagttgcagc tgggcatggt ggctcatgcc tgtaatccca2341 gcattctagg aggctgaggc aggaggatcg cttgagccca ggagttcgag accagcctgg2401 gcaacatagt gtgatcttgt atctataaaa ataaacaaaa ttagcttggt gtggtggcgc2461 ctgtagtccc cagccacttg gaggggtgag gtgagaggat tgcttgagcc cgggatgatc2521 caggctgcag tgagccatga tcgtgccact gcactccagc ctgggcgaca gagtgagacc2581 ctgtctcaca acaacaacag caacaaaaag gctgagctgc accatgcttg acccagtttc2641 ttaaaattgt tgtcaaagct tcattcactc catggtgcta tagagcacaa gattttattt2701 ggtgagatgg tgctttcatg aattccccca acagagccaa gctctccatc tagtggacag2761 ggaagctagc agcaaacctt cccttcacta caaaacttca ttgcttggcc aaaaagagag2821 ttaattcaat gtagacatct atgtaggcaa ttaaaaacct attgatgtat aaaacagttt2881 gcattcatgg agggcaacta aatacattct aggactttat aaaagatcac tttttattta2941 tgcacagggt ggaacaagat g1 agaagagctg agacatccgt tcccctacaa gaaactctcc ccgggtggaa caagatggat 61 tatcaagtgt caagtccaat ctatgacatc aattattata catcggagcc ctgccaaaaa 121 atcaatgtga agcaaatcgc agcccgcctc ctgcctccgc tctactcact ggtgttcatc 181 tttggttttg tgggcaacat gctggtcatc ctcatcctga taaactgcaa aaggctgaag 241 agcatgactg acatctacct gctcaacctg gccatctctg acctgttttt ccttcttact 301 gtccccttct gggctcacta tgctgccgcc cagtgggact ttggaaatac aatgtgtcaa 361 ctcttgacag ggctctattt tataggcttc ttctctggaa tcttcttcat catcctcctg 421 acaatcgata ggtacctggc tgtcgtccat gctgtgtttg ctttaaaagc caggacggtc 481 acctttgggg tggtgacaag tgtgatcact tgggtggtgg ctgtgtttgc gtctctccca 541ggaatcatct ttaccagatc tcaaaaagaa ggtcttcatt acacctgcag ctctcatttt 601 ccatacagtc agtatcaatt ctggaagaat ttccagacat taaagatagt catcttgggg 661 ctggtcctgc cgctgcttgt catggtcatc tgctactcgg gaatcctaaa aactctgctt 721 cggtgtcgaa atgagaagaa gaggcacagg gctgtgaggc ttatcttcac catcatgatt 781 gtttattttc tcttctgggc tccctacaac attgtccttc tcctgaacac cttccaggaa 841 ttctttggcc tgaataattg cagtagctct aacaggttgg accaagctat gcaggtgaca 901 gagactcttg ggatgacgca ctgctgcatc aaccccatca tctatgcctt tgtcggggag 961 1021 961 aagttcagaa actacctctt agtcttcttc caaaagcaca ttgccaaacg cttctgcaaa1021 tgctgttcta ttttccagca agaggctccc gagcgagcaa gctcagttta cacccgatcc1081 actggggagc aggaaatatc tgtgggcttg tgacacggac tcaagtgggc tggtgaccca1141 gtcagagttg tgcacatggc ttagttttca tacacagcct gggctggggg tggggtggga gaggtctttt ttaaaaggaa gttactgtta tagagggtct aagattcatc catttatttg1261 1321 atatgttgat gaaaaatagc aaccttttta tctccccttc acatgcatca agttattgac1381 aaactctccc ttcactccga aagttcctta tgtatattta aaagaaagcc tcagagaatt1441 gctgattctt gagtttagtg atctgaacag aaataccaaa attatttcag aaatgtacaa1501 ctttttacct agtacaaggc aacatatagg ttgtaaatgt gtttaaaaca ggtctttgtc 461 ttgctatggg gagaaaagac atgaatatga ttagtaaaga aatgacactt ttcatgtgtg1621 atttcccctc caaggtatgg ttaataagtt tcactgactt agaaccaggc gagagacttg1681 tggcctggga gagctgggga agcttcttaa atgagaagga atttgagttg gatcatctat1741 tgctggcaaa gacagaagcc tcactgcaag cactgcatgg gcaagcttgg ctgtagaagg1801 agacagagct ggttgggaag acatggggag gaaggacaag gctagatcat gaagaacctt1861 gacggcattg ctccgtctaa gtcatgagct gagcagggag atcctggttg gtgttgcaga192 aggtttactc tgtggccaaa ggagggtcag gaaggatgag catttagggc aaggagacca1981 ccaacagccc tcaggtcagg gtgaggatgg cctctgctaa gctcaaggcg tgaggatggg2101 tgggatggct aggctaaatt agaaatgaag actagtttaa cagcagtatc caaggatagt2161 tgactaatga gttaatttta ctctcaaaga cagtctttag tagtaagctg taatgcatta2221 tatcaaacta ttttccagtc aatgatttat aagttacttg aataaggatg ctaaagatgt22 gccttattga aatggcaatt agcacaaagt tgggaatgaa atctaattag ttaaataaca2341 gaatcacata aaaaaggact tgaataaatg tagcatccta ccatgttcct ggatagaaag240 actgctatcg taaagatatt cattctcctc aggttaaatt ataaactcaa tgcaattcaa 2487461 caggatttta aaaaactaga caaagtgatt ccaagtttac gtggaaaata aaatgtgagg2521 gaccaaacaa tatttgaaaa agaaagagaa taaaatctca tccttccaga taccacaatg2581 tattataaag caatagtaat taacatgagg gcagaaatga gcaagcaagt gaacaaaata2641 agacagatag tcacaggaaa ctcatatatt tataggtgct ttgcgtataa tgaagatggt2701 ccttcaaatc agttgggaaa agatgggtta ttcaataaat ggtgttgggt aaaattggtt2761 atacattggt gagaaataaa gtgaaactcc tactttgtat catatgcaaa aaatagattc2821 cagacagatg aaatatttaa atgtaaaaaa taaaattcta aaactactag aaaaaaaaga2881 agaatatttt tattcctttg aaatagaaaa ggtcttacta agcaaaacac agaagtaata2941 aatgaataaa tgaagacaaa tatgataaaa ataagttaaa aatataagca atctttcttt3001 gttttttttt cacctttcct agaaaaaaat atataggcaa cttgttaagc aaggtagatt3061 acaagaaaat atttacaaca tttgacaggc cacagattat tatccagcct catctgataa3121 gaaaacttca acataaagat atctgttttt tttcttataa ggttcctcaa agtgagccaa3181 tcacttctta agctgaacaa aaaacaaaac agaagtgatc ttttccaata atgaaaacaa3241 acattgacag agcagctgta ggatcctttc aggcaaatta tgaaaaggtg ccctttctca3301 gaaaccacag ttaccattca gctttgtgac cagaggtttg actgtaccct agtccctact3361 agcaacccaa ccacataacc aacttcaaag gtcctgaatg actgtgttgt acttaatggc3421 agatgatcta tctcccattt ttgtcctaag gattttccaa gataatatat ttctgcattt3481 gttttgcttt tacttcactc caaattgaaa tctatttgtg ggataagact aaagaaatgc3541 ttataggaaa attgatagca ccaaattcct atcttaaaaa atgaaaaagg tttcaaatca3601 atgacctcag cttttacttt aagaaaatag aaaaagcagg ataagctaaa gccaaagtaa3661 acagaagaaa ggaaattata aagataagag cagaaatcaa tgaatagaaa acaaaagaaa3721 aaaatcaaac caaacagctg attctttaag cagatctata aaattgataa aactctagcc3781 agattgatca agtaaaaaag agagaagaca caaattacca gtattaagaa tgagagaggc3841 aatatcacta cagatcctac agatataaaa agtataaggg catactttga ataattttat3901 gactataaat taggcaactt agataaaaca aatttcttga aagacacaaa caaccaaagc3961 tcacctaaaa tactcacaaa ttgaatagtc ttatagctat tacaaaattg aggccaggcg4021 cagtggctca agcctttaat cccagcactt tgggagggct aggaaggcgg atcacgaggt4081 caggagtttg agaccagcct gactaacatg gtgaaaccct gtctctacta aaagtacaaa4141 aattagccag gcttggtggt gcgtgcctgt aatcccatct actcaggaga ctgaggcagg4201 agaattgctt gaacctggga ggcaaagttg tggtgagccg agatcgcgcc actgcacttc4261 agcctgggca acagaacaag actccgtctc aaaaaaaaaa aaaaaaaaaa aaattgaaat4321 tatagttaaa agtcttccca caaagcaaac tctagaccca gatggcttca atggtaaatt4381 ctactggaca atcaaacagg aaacagtaat aattctccac aatgtctttc ataaaattga4441 tgcggaggag atactctcca actcattcta tgaaactagc attaccctga taccaaaatc4501 atacagagac agtgtaggaa aacaacagat cagtatcctt catgaacata aatgaagtac4561 aatgcagtct tatgcataaa tcagagcttc attgttctac agataaggta atgtaggatt4621 gttggttgcc cctccaggtc tgttaaattc acctccttcc ccagagagca tccttcttaa4681 ggacagggag cctcaatatg tcagtcctca cagcacctcc ctcagtcttc agcacttacc4741 agctcatcac cacaaccgat accacattgg ataatttcat gaattacttt agagcaaatg4801 caagagaaaa aatggatttt tatataggag aagaaggagg aaattcttgt ggatttggta4861 cagaataggg ccaagggaaa attacagatg taaaaagaaa agtgtgtgaa atagtatcct4921 tagtgctcac aaatacaatg atttcattgt ttttaaaaat aaaaaatgac aaatgtctaa4981 tgcttggtgg taatgcttta ttgaatgtgt gttatacact ggttcctcat tcctgaagtt5041 agaaataata ccttcctctt ttcatttggt tatgtttgct gaaacaaatc aaaggctgag5101 attgaaacac atgctacttc aggtggatga ccttactact aagctcatca caacagcact5161 tacagctgaa gaccccagag tcctacctaa cttttgtcac aacccagatt ttggccatgt5221 agttctgggc cttaccatta aagcagacag aagtcagagg aatgactcct ttccacttga5281 agtgagctgc aggcttctag gaaaggcaag atgcacattt ccctcctgtg gagcataaag5341 365401 agtggttggg gacaacacca gtagtgttat aggccatgga atgtcaaaag aacatggaac5461 cctgttaaaa tcattaaaca tcaaaactct cccctcctct ggtgatatgg tttggctgtg5521 tccccatcca aatctcatct tgaactccca tgtgttgtgg gaggcaccca gtgggaggta2041 aaggagggag gtattcgtaa ggatgggaag gagggaggta ttcgtgcagc atatgaggat2101 gcagagtcag cagaactggg gtggatttgg tttggaagtg agggtcagag aggagtcaga2161 gagaatccct agtcttcaag cagattggag aaacccttga aaagacatca agcacagaag2221 gaggaggagg aggtttaggt caagaagaag atggattggt gtaaaaggat gggtctggtt2281 tgcagagctt gaacacagtc tcacccagac tccaggctgt ctttcactga atgcttctga2341 4624O 1 atttatgaat acacgaggta tgaggtctag gaacatactt cagctcacac atgagatcta2461 ggtgaggatt gattacctag tagtcatttc atgggttgtt gggaggattc tatgaggcaa2521 582581 2624 2641 tgaaaaacta agatgctgcc tgcccagtgc acacaagtgt aggtatcatt ttctgcattt2701 aaccgtcaat aggcaaaggg gggaagggac atattcattt ggaaataagc tgccttgagc27 cttaaaaccc acaaaagtac aatttaccag cctccgtatt tcagactgaa tgggggtggg2821 gggggcgcct taggtactta ttccagatgc cttctccaga caaaccagaa gcaacagaaa2881 aaatcgtctc tccctccctt tgaaatgaat atacccctta gtgtttgggt atattcattt2941 caaagggaga gagagaggtt tttttctgtt ctttctcata tgattgtgca catacttgag3001 actgttttga atttggggga tggctaaaac catcatagta caggtaaggt gagggaatag3061 taagtggtga gaactactca gggaatgaag gtgtcagaat aataagaggt gctactgact3121 ttctcagcct ctgaatatga acggtgagca ttgtggctgt cagcaggaag caacgaaggg3181 323307 ctctgggcca agtcaaagac attctgacat cttagtattt gcatattctt atgtatgtga3301 aagttacaaa ttgcttgaaa gaaaatatgc atctaataaa aaacaccttc taaaataaaa3361 3561 3361 aaaaaaaaaa aaaaaaaaaa aaa1 aagcttcagt atgcaaattt tcaatgacat gtgcctgtgg attctgaaaa ttcacagatc 61 tgtctatcct tagctgagac tgaaggcatc tacttcccaa tgaccaaatc ctggtgctgt 121 ggcgacactg agcaggaact ccattagaat atcaatatca ctctgcagac attccatgat 181 gtaagctatg ttttctcttg ttgcaattac acttaattta ccaccagctg cttcaatgtc 241 atgggctatc ttgaaaaatg aagctccttt cgtagtcaaa ctggatgcaa gacacagcaa 301 atgagaagtt actaaattgt tggagtcctc atagctactg cctgctttaa tgaacaaacc 361 aattcttgat gcagggcata gttttccaaa ggagaaatca taaaaccatt tggaaatttg 421 atgatctcaa ggtcctgatg atgtggagcc actcctatgg gggtagctgt ggctttaact 481 ttgggggcaa ctttgaggga ataaagtctc aaaaagaggg aataaagtct caagattgtt 541 cgtgacccat agtaacttct ggcttaaagg accattcggc aagtttttaa atgtattttc 601 tataatttcc atgtagttct ttatattttc tatttcttat ttaaaacctc tattttagct 661 cgtttccttt gacactgctc tggcagggaa aggggtggca ctgcctcatt actgccaggt 721 aggggtagaa gtccattatc cacttggtct ccattgatac ccaaagtggg gagaggctcc 781 tgttactgct ggtgagggtg ggagtccccc cactaagttt ctgctaatac tgtcctggtg 841 gcttgctact attcccatga agcctccact gatactacat tacttttggg tggtggcaaa 901 tgtcctgcct ctccactagc cctcctgctc taaaacaacc cgagtaggga gtgggaagga 961 agctttgtta ctggtaggtg ggagctgaag tccagacttg ccacattgtc ccactgatgc1021 tacagggagg aggaagcggg ccacattact gcctgatagg gatgaaagcc ccagctccct1081 acctggcctt cgctgatacc agcctgctac aggagtgaag agagatttga aggcctcaat1141 atagcctgtc gagggtggaa gtcttgctcc caatgggcct ttagcagcat gggtgggtgt1201 ggggccatag ctgtctctgt actgcttggc tagagtggag tatttgaggt ccaaaagttt1261 tctgtctttc tagccctttg gttagaaaga gcagactttt gttggaagta tttttttgtg1321 tttacctgtt gtatttccag gttcctagct tctccagcac agtctgggat gtgtgagaca1381 cagagaaaat ccagtgatgt tactaccgta tggtttcttg ggtcccaacg tctctagcta1441 atctgctcca ccttttggag ttttcttatt tgttttagat cagggattta gtcatattta1501 ataggagaaa tatggaaaaa tacttctact ctatcttcct ggaagttcct gtttattttt1561 tatgtccttt tcctctggct agaccgtaag agacttacga aacaaacact tacacattct1621 actaaactca atgtccaaag tttgtgaact tcttgaatat tgcttgttca tttccacccc1681 cagtcactga ctgaatctcc ctgctgtctg tctacaatgc caatgagctt ctggttaact1741 tcttctcatg catgcttagg caacaacttc ccagttttac tacacttgcc catccctagt1801 tttgttgttg cttaatccct tggcctagtg ccaccatact cctccagcag agcaaccaat1861 tcttacatta taggacagca catatccact aaaaacagtt catgccacac caaccacatt1921 tccctttgtc aacaaaatta cttgatagat aattccagga atgcctgatg aagctgattg1981 acaacaagat atttggcaga ctctctgctg cctatacata ccttagcatg tggaactcaa2041 gtaatgagag gtccatttaa ttggattgaa ttgggctgga taggattgga ttgaatcctg5581 attgaatcat gggggcaggt ctttcccatg ctgttttcac gatactgaat aagtctcaca5641 agatctgatg gttttataaa ggggagcttc cctgcacaag ctctcttctc ttgtctgcca5701 ccatgtgaga catgcctttc accttccgcc atgattgtga ggcctcccca accatgtgga5761 acttttaagt tcattaaacc tcttcctttt gtaaattgct cagtctcaaa tatgtcttta5821 58 5821 tcagcaacgt gaaaacagac tatctgattt tctgtgggat gtggattatg accatggaca5881 gagcataact gggacagagc tggaaaaaat attaattagg tgcttaaaaa tatttgttag5941 aactatcttc atgaatgaga atcaatcctg tttccatggt gattcaccag gcatcaattc6001 caagcatcca tgaatcagaa aagtcctatc ttctcttagt tatcatccag gactccaagg6061 60 6061 aaccataatt agccaacctg ttcacatttc cttttcattc actagcctcg aagtttccag6121 gggacaggga ctctgtccta ttcatttctg taaccttacc acctgaccca gaatagctgt6181 tccctgaaga tttggtggat tataaatgtg gatgtcttat ttctttgaaa gtgtgagctt6241 caggtactga tcacgttatt ccaattatca atttagtatc tttcttcacc attaaactgt6301 gaaattcttg agggaagaac ctatgactga tttatctctg taaactcatg ccaccagtat6361 tcaaaatcac acctagcaca tagtaaacac tcaatgtttg ttgaatgact gaaggaatgg6421 atgaaaatga acctccttgc ttctgaccag tggatgagtt gcttggccgt gttcctacag6481 cctagagctc atcccctaaa gcatctgaag ttacccatta gtgcaatggt tcttgaacgc6541 tggtgttgat cagaatcatc tggatgccca ggttctctga aataagatag ggtctaggca6601 tttgtatttt taccaaggag gtgtgatgga gtcagatgca agaaggctag ttgaagaaac6661 6748 6721 atcatcttgc tcaagtcatg ccagtctcag gacctcattc agtctcttca gctgtaatat6781 gggtgggttg caccacataa ccagaaagat cccttccagc tctacccact tacaacatgg6841 tcaaatttgg tctgattttt taaatcgtag tacaatatat atgacataaa attcaccatt6901 ttagccactt taaatgtaca attctgtagc attaactaca ttcacattgt tgtgcaacca 69661 tcactaccgt ctacttccag aactcttcat cttgcaaaac tgaacctctg ttgtcattag7021 tcactaacta ttcctctccc cccctccttc taggccctgg caatcaccat tctactttct7081 gtcgctatga atttgactac tctaggtaac ttatataagt ggaatcacag catttgccct7141 attatgactg gtttagttga cttagcacaa cctcctaagg ctcaaccaca ttttagcatg7201 tgtcagaatt ttctttgttt ttaaggctga ataatattct gttgtatctg taaataacat ctttattcat ttgtccatca acagactgtt gagttcctcc catcttttga ctattgtgaa7321 aaatgctgct atgaacctga gtgtacagac atctggttga gtactgcttt caattcattg7381 tttatatgga tcatatggta attttatgtt taattttttt ggaactgcta cattgttttc7441 cacagtgtac atcattttac atttccatca gcaatgcaca aaggttccaa tttctccaca7501 ttcttaccaa cattttttat tttctgtttc ttatttattt gtttatttat tctgagacag7561 agtctcactc tgtcacctag gctggagtgc agcagggtga tctcagctca ctgcaacctc7621 tgcctcccat gttcaagtga ttctcctccc tcagcctccc aagtaaatgg aattacaggt7681 gcccaccacc acgcccaggt aatttttgca ttttttttag tagtgatgag gtttcaccat7741 gttggtcagg ctggtcttga actcctgacc tcaagtgatc cacccgcctc agcctcccaa7801 agtgctggga ttacaggtat gaaccactgc acccaggcca ttttttgctt tttagataat7861 agtcatccta gtgggtatga agtggtattt cattgtggtt ttgatttata tttccctaat7921 gatcagtgat attgagcatc tttcaagtgc ttattggcca ttttcttctt tggagaaatg7981 tctatgcaag tcctttgctc attttttaat ccagttgctt tttgttattc tttttgattt8041 gaaagtgttc tttatacctc ttgtatacta atcccttatc agatatgatt tataaatatt8101 ttcttctttt ccatggattg ccctttttac tctgttgata gtgttctttg atacaaaata8161 atttttaatt tgaatgaagc ccaattaatc tatttttgtt tcttttgttg cctgtgcttt8221 tggtgtccta tccaagaaac tgttgccaaa tccaatgtca taaagctttt tcccatgctt8281 ccttctaaga gttttgtagt tacagctctt gtatttaggt atttgactat tttgagttaa8341 tttttgtaca tcgtataaaa taagaatcca atttttattt tattttactt tttgtatgtg8401 gatatccaat ttccccacca ccattcattg aaaagactgt ccttttccta tcgaatggtc8461 ttggcaccct tgtaaaacat aatttgacca tatatgtgag ggtttatttc tgggctctct8521 attctattct attctattct attctattct attctattct attctattct attctattct8581 85 8581 attggtccct atgtctttct ttattctagt accaccattt tgctcatcat aactttgtag8641 taagttttga agtcaggaat cgtaagacct ccagctttgt tcattttcaa ggttgttttg8701 attattcaag gtcccttgat agtccatatg aatttcagga tggatttttc tatttctgca8761 aaaaaaaaaa aaaaaaaaaa aaaaatcatt gaaattttta aacagattgc attaaatctg8821 tagattgttt tgggtagtat tgacatttaa caacattaaa tcttccaatc aatgaactag8881 gctattttta tttatttttt ctgtttcttt gagctacttt tgtagttttc agtgtataag8941 tttttgctac ctggttaggt atacttctaa gtattttcta ctttttgatg ctattgcaca9001 ttgaatcgtt ttcttaattt ggtggtagcg gggattgtgc attgttagta cataaaaatg 9061 caactcattt tttgtgtgtt gattttgtat cctgcagctt taacaaattc atgttagttc 9121 taacagactt attctatgaa tcattagggt tttctacata aaagatcatg tcacctacaa 9181 acagagataa ttttactcca ccccttcccg ttgcaatgcc ttttatgtct ttttcttgcc 9241 taattgttct ggctaagact tccactacca tgttgaatag aagtggtgaa agtagacatc 9301 cttgtcttgt tccaatctta gagccaaagc tttcagtctt tcacggcctg aaagactttg 9361 taatatgttc tcaaggttaa agaacttcag aagttttcta agcaagagac cattttatta 9421 acttagttgg cagcaattct gagagattag aatgaaaaga tagaggataa gaagtatctg 9481 gcaggtataa tatattgagt gtgctgaata tacttttagt tttgtatagg tgttaaaaaa 9541 tggcaaagga ggccgggcgt ggtggctcac gcctgtaatc ccagcacttt gggaggccga 9601 ggcgggcaga tcatgaggtc aggagatcga gaccatcctg gctaaaacag tgaaacccta 9661 tctctactaa aaatacaaaa aactcgctgg gcatggtggt ggacacctgt agtcccagct 9721 actcgggagg ctgaggcagg agaatggtgt gaacctggaa ggtggagctt gcagtgagcc 9781 gagatcacgc cactgcactc cagcctgggc gacagagaga gactccgtct caaaagaaaa 9841 aaaaaatggc aaaggaaaga atgaaaaata aagcaaggtc ccagaagagg ccaaaaatct 9901 taatcaaaat tgactgaaca ttacggaatg aaatggtttt tcctttactc caattaacga 9961 9942 9961 cttcacaaga agattccatc ctcgtttata agattaaccc aaaaccagca cttaaaacca10021 gaagccttga aaggatggag tttggggacc cttctcatgt ctattcccag aagggggtct10081 tcttctgggg tcctgtcccc taaagagcta ggcaaaaagt atgcttgcca catctgttga10141 aagatagaaa gttggtctaa aaatacatga gagggaactg aaacatttca gagaaggcaa10201 gactcagaag taagaaacca aaagaggaag gtaaaattct agttacaaag aaaagaggaa10261 102 10261 tggaaattaa attgtcttac agagaaaatc cagaactgcc ccctcttccc ttactactcc10321 atcaaaaaag gggaaaaata gtcaatggga aagttttgag aaaaatagat ctctgcattc10381 ttctggttga gaattcagac aacttgaact agagagctgg gtaatttctt gactaaaggt gtgttagatc tgaaagggtt tttcttaaaa ttgtctgtgt tcatccctcc catcttagag10501 aggaacacag gataagagac ctctggagct cccccagggt caccgagcta ataggatcag10561 agacaaagct acaaagtcat tttctgacat ctctccaggg ctcttttttt ctggaccccc10621 catatcaaca tgatgtattt attacattgg attagcaact ctccttgagc tttcctcagt10681 accaggttta catctcagtc tgtgggtctc agagaaagta cccaatcagc agcaacatta10741 cctggaaact catcagaagt gcccctcctc agccccaccc cagatctatg caatcagaaa10801 ctctggaaat gcaggccagt cctaacaagc ccaccaggga attctggtgc actaaggttt10861 gagatccact gatcaaagaa ataatattcc ttttcttcat tataatagca tgaataataa10921 ctaacatgta tttcacaatt tacaaaagag ctttatgctc ttgttaaatt tgagggtagt10981 cttctcaaaa tctctgtgag gctagaaagt cagatattga aacacctgtt ttatgggttc11041 aaagataggt tcaaaagaga gtaaatgatt gttggggtgg caggtccaga gagggcagga111 tcaaaactgc aattgagtct tctgccttat aaaccagcat agcttcccca aggcacgtca 1116361 111 cttctcgata aaatggtgac aactagagtg tcctttcaga tcattcttag aagcatggag11221 tgctaggtca attgtgtaat tgatgaggaa ataataatac taagaactcc catcttctac11281 11341 8211453 11401 gcttgcctgc ccagggaggc tttgtgggtt ctacttggtc atccagatca cagaggggca11461 gcactgactc ctacccagtg ctcttgactg tacatctaat actttctact aagaaaaccc 8621 cttctcttta gaccaatggt tttcaaatct tggtgtgcat tggaatcacc tggaaagctt11581 gttaaaacac agattgtccc accccaagag tttctgattc tgtaggctgg ggtggggacc 11611758 3611701 ccctttgagt ggtgaagctc tggacaccct aatttgcaag gctaatcagg catatgtggc11761 aaatgaatac gaactgaaat tctgactcca atatcttcac tgatattcct aatccatagc11821 atacacacag tcccattcgt ttccctttta gcttttaatc tacatttatc ctttcttcct11881 ctgccactgc cttctctcca gttagctcaa accaggtaac acataaccgc ctcctaactc11941 atccgcccag ttggtttctt tggctttaat ctagacttct tatctccacc agatttgcct12001 taccaaagca ccaatttctt aaggcagggt tagaattaaa aatcttctgt tcctcctcat12061 tgcctaaaac tcctaaactt atgattcaag gtcttccatg accttcatgg accagtctaa12121 cgttttagcc tgtcctaagt gacatgcctc caccacatac ttcatgcttt ccactttctt12181 tctccatgtc tttgttcatg catttccatt tcttctacct gcgatgtcct ccttcgccat12241 ctctgtagat ttaaaaatcc tacagggctc atctcaaatg ccctttcctt catgaagcct12301 ttcatgaaat ccccatcgag aggttttccc tcctctcagc tctccaaagc acagatgtct12361 gcgtttgtgg ctattatctt acgttgtttt gtattaaaat ttctccagct ttacacattt12421 gtcatcctct taaggacaaa catcttatta tggtcaatgt gaagctatag aggataattt2481 12541 acactcatcc acctgatttt gattggccaa gttaatgaat cagagaggaa aagatggtaa12601 aaatataata aaaatctcct aggtagtctc acatcccaca gagccccagg taatgaaatg12661 aggccctgag ataatacttt atgaacaata aaactccggg ttctattgac agtgaagcaa12721 1272 12781 8212841 atacagaaag gggaagtcaa ataaaatata tacaaggaga aggattctgg gagacagagt12901 ttcttgattc ccttctgcat gctcctcctc aaaagccttt atgagcttac cttacattta 8661 aattctttta aacaaggcat tatgtggtct ggtcttttcc agctccacac accttcacac13021 tacattcccc ccagctaatt ctgctctggg aacactgacc ttcttttagt tctttgaaca13081 13158 13141 gaagatatag atatatatta accactgcac accagaaatc agaaatagca caacagagaa13201 taaagtcatt gagccatctt ctgagctcca aaagacaaat tttctccaaa aagacaaatt13261 caggctctaa aacaatacct taaggaacca gaagtggaat agaaaattaa ggtggtaagc13321 agggctaaac cacatgcctg ttgagcccag gtttggaaga agacaatggc aggtaggaat13381 gtggtttctg atgggtaata ggtactgttt tcatttactt tctgttgctt ataacagaat13441 atctgaaact gggtgcttta taaagaaaag gaatttatgt cttgcagtta gggaaactga13501 gaagtcaaaa gttgagggct gcaattgaca agtgccttct tgctggtggg gatactctga13561 agagtcttga ggtggtatcg ggcataccac tctcagtgag gggactgagc atactaggtc13621 1 aggtctttct tcctcctttt ataaagctat cagtcccact cttatgataa cccattaatc13681 cattaactga ttagccaatt aatccatgaa tggattaatt cattcatgag ggcagagcct13741 tcctgaccca aacacctctt aaagactcca cctctcaata ctgccacatg ggggattaaa13801 tttcagcatg agtttttgat gagacaaata ttccaatgat agcagttatt aaaagtacat13861 4613921 tctaacactc ctgaaagaag gagttgctgc tggctcctta ccagggctat atcttttaca13981 gagcaggaga cctaaagagg caggaggacc cggacatcgt ttggaaacca agcactaaaa14041 5814123 aggactagtc tgggcaagtg ggctagatga agaaaccaca aaatagctaa gtggggagag14161 aaagaccaaa aatactattt tattcaaaat gaaaatacaa tccaaaattc catgattcat14221 gaagaaatca aatggtatgt gttaggtggt tcttgcattg ctatagagaa atacctgaga142 ttgggtaatt tataaagaaa agaagtttaa ttggctcata attctgcagg cttcacagga14341 agcatggtgc tggcatctgc tcagcttctg gagaggcccc aagaagattt gctcaaggca14401 gaaggttaag ggagagctgg cacatcacat ggtgagaaag gaagctagag agagagtgca14461 8214521 gacagcacca agccataagg tgtagggagc caaagtccca tgggacatga ccaactcagc14581 attccactgg aggctatatg atcaaacagc aaactgttta tcacgaatgc aggatgtgag14641 caaactcaca actggtcctg ccaacagaag gtttgttgga ggcaatcact ccctggtgcc14701 tgaggtaatc tactgcaaca tctagagaat gcagtcttgc aagcctactc tggacagggc14761 agctggcacc ttattccatc ccccttctca ctatcttttt ttgcctaata aatacagagg14821 gctgtgtaaa gctcagggcc cttgtccact agaggcaagt tgccccctga ccccttcttc14881 caaatatact cttttgtctc ttgtctttta ttctcacatt tgcccccttt gttcagttcc14941 actaggtccg tgcgggttat atactggtgc cctgagcagc aacagaatca ggctctcaac15001 aagtgtcatc cgaacatggg actttgagga catgaacgaa gaaggtctgc tggagcagag15061 gaacagaaat tgacaaggtg aacagggacc ctgggacgag tctgccagca gcggatataa15121 ggtcagttac ctaaagaggt actgatcagt gccctaaaga gatactggga gcagtgcttt15181 15241 attaaagaaa aacattatgt gcagttgctt aaagttgtat tggaacagtc tggagcttag15301 gttaatttgc agacactaac tatcacatgc gtccgtgtga agagagtcca ccaacaggct15361 ttgtgtgggc aataaagctt tttaatcacc ttggtgcagg tgggctgagt ccaaaaaagg15421 agtcagcaaa gggagataga ggtggggcag ttttatagga tttgggtagg tagtggaaag15481 15542 ggaaatcatg agactctttt tctgggacag gagtgtcaca aggtcaattgatcagttggg15601 gtggggcagg aacaaatcgc aatggtggaa tgtcatcact taaggcagga actgactatt 15669561 1572 15721 8215781 15841 atgtagagat aaggggcaat gtttctcagg gctgcttcaa gcacgatcac ggtggtgtgg 15928 15961 16021 16058 taaaggatta agaattggga ggacacagga catccaatta gagagtgccc aagggggtcc16141 agtgtaatta tttgcctgga caatgagttt tggggctcta ttaggttgtc atataccagg16201 ccagattgat ttaggtaaaa acaacactct tcatttaaaa tatacagagt cctccttttt16261 tagcagtgag taagttgaga cctattcctg tcttcttata ttaataagta aaataaagca16321 16329 16381 aattgatttt gggggggtaa agaaaactag tgtacctttg cctgtccaat taataagtag16441 acacatgtag atggaggagc cacagaggaa gaagagaact ttgtaaggca aaactggaaa16501 tgtaaaggga aaagatgaga gggagcacca aaagaggtgt cttgcaccca gactcaggga16561 4621 16648 16681 attgctattc ataggattgg gtataagtaa acaagaaggg ggggctagga ggagagtctg16741 aagaacaagg ggaaggtagc caaggatgga gtgaaatgta gggcaaatgt cttaaaggaa16801 atgagaggtt ctaagaggag ggctagtggc ttgtaaccca catggaagag gttacgaaag16861 169921 catttgcctt gtgtgggaag agtttgatag gtggaagttt cagtgggagg gtaggcggga16981 gtgactgatg agaaggagaa aaactggcca taagggacag aagttggaat gctagctgct17041 cctttagcta ccttatcagc ataagctttg ccctgagtga tgggatctga tgccttttga17101 tggcgcttgc agtgaatgac cctagcttcc ttggaagtag agcagcttta agaagagttt17161 ttatgaagaa ggcattaata atggaggacc ctcgtatagt gaggaaacct ctttcaggcc17221 atataacaga atggaggtgg agaatatgga aggcatattt agagtcagta taaatactga17281 cacacaatcc ttttgcaaga gtgagggctc gagttaaggc aatgagttcg gcttgctgag17341 agggagtgga gtggggcaga gtggtagcct caatgataga tgtgaaagat actatagcgt17401 17461 3617521 ggatcagaga gatacagtca tggggatcag gtgtggtatc aggaataatg tgggaggcca175 gattgaagtc caggccagga acaatggtaa ttgtgggaga ctcaacaaag agtgagttca17641 3541 actgaaggag ccgggggagg gggagagcgg cagaaagtat atgcatcagg tgtgaggaag17701 aaaatacatt ttgaaagtta tgagaactgt agagagtgag ttgatcatag tttgtgattt17761 tgagggcctt taaaagtatt aaagcagtgg cagctgccac acacagacat gagagccagc17821 ctaaaacagt aaggtcaatc tgtttagaca gaaaggctgc agggcactgt ccaagctctt17881 gtgtaaggat tctgaccgca cagccttgta ctttggctgt gtgtaatgaa aagggttggg17941 atgagttagg gagagctagt gtgggagtag cttctagggc tgtttttaag gaacataaag 4601 aggagtgggg aaaggattta ggatctatgg ggtcagctag gtttcctttt gtgagtttat18061 gtaatggttt agtcaggatg gcaaaaccag gtatccaaag gtgaaagtac ccaaccatgt18121 ctaggaagga aaggatttgt tgctttgtag aagggattgg ggtttgggag attagccgga18181 cacagatcag gagggagagc acttgtattt ttatgaagaa ttatgccgat aggtaacgga18241 tgaggaagaa atttgggctt tggaggggga tacacgatat tcccttgaga atagatgttg18301 gaggagcagg agggtgtcct gttgggaaga ttcataggag gggctataaa gtagaaggcc18361 atcaaaatat tgaataaggt gacaagcaga tggacagaaa agtaaattat gagaaagggc18421 ttgactgaag taatggaggc tgtccctgaa gccttgtggc agtacagccc aggtaagttg18481 68641 18541 gtgcaaagga atagtaaaga aagcatcttc aagatccaga acagaataat gggttgtgga18601 gggaggtatt gaggatagga gagtatatgg gtttggcacc acagagtgga taggcaagac18661 aatttggttg ataagctgaa gatcctggac aggctttagt cccttcaaag cctgttgtgg18721 gatgggatac tggcattgag caggataagg gtaattaggt tttaatggga tggtagggtt18781 18841 gtcaggaggg gaggttgtga aggaggcttt gaactgggga aaagggtggc aatgaggtgt18901 ggctgtagcc caggaatagt cagggaagca gataatttag ttaaaatgtc tcaatttaat18961 aagggagctg ggcaggtggg aataactaaa aaggagtgca taaaagaatg ttgtccaagt19021 tggcaccaga gttggggagt tttaagaggt ttagcagcct gaccatcaat aaccacaaca19081 gttatggagg caagggaaac aggcccttga aaggaaagta atatggagtg ggtagcctcc19141 atattgatta agaaagggac agacttaccc tccactgtaa gagttaccca aagtgtctgt19201 gatgatccag gaggcttctg aggtgatcag gcagtgtcag tcttcagctg ctaagctgag19261 aagatctggg aaggagtcag tcagagagcc ctgggccaga gttccagggg ctctgggagt19321 ggctgacggg caagttggac agtccgattt ccaatgcggt cccacacaga tgggatacag19381 tttaggagga atcctgggct gtaggcattc cttggcccag tggccagatt tctagcactt19441 gaagcaagat cctggaggaa tgcctgacca cagtggttta ggtgttttga agttcttgtg19501 tgctggagat gtggctgagg tttttctcac agcagaggca agtaattgca actcagaaat19561 acattgccac ttggctgtct cttctctatt attgtacacc ttgaaggtga ggttaattaa19621 gtcctgttgt ggggtttgag ggccataatc taatttttga agctttttta atgttgggag19681 196 19681 tggattgggt aataaaatgc atattgagag taagacagcc ttctggcccc tctgaaccta19741 gggcagtaaa atgtctaaga gttgttgcca aagggaccat ggactgggct gcgttttcat19801 atttgatgaa aaaaaaagag cctaaatgct aactaatttg ggagaggtca gataaagtaa19861 aaggaacatt aatcttgact atgccttcag ctcttgccac ctctctaaga ggaaattgtt19921 gggcaagtgg aggagtgcta gtcgtggaat gaaaccataa gctggactgg gtgtgaggag19981 199 19981 gggaggtgat agaaggatta cagcgtaggg gagtagaggc tgaggaagaa ttgggacctg20041 gctcagcctg gtgaggagtg gcctggtgag gagcagcctg gggaggagga gagaggttag20101 atgggttcgt agaaaagaag gattcaaagg actcggagct tggtgaggag actgaaggaa20161 cagacaggag agaaagaaga aagatttggg acaagtcgca ttgggagcag agactaggaa20221 gggagtgatg tgtaaagaat gcctggacat caggcacctc agaccatttg cccattttat20281 gacaaaaatt atctaagtct tgtagggtgg agaaatcaaa agtgccattt tctggccatt20341 203 20341 tggaacaatt atcgagtttg tattggggcc aaatggtgtt gcagaagaaa ataagatgct20401 taggttttag gtcaggtgag agttgaagag gttttaggtt ttttagaaca caggctaagg20461 cagaagaagg aggaatggag ggtggaaggc tgcccataat aaaaaggtaa gtttagagaa 2056 3521 20542 20581 acttgccacc aaggtgatgg atcaaggcag tcatccccac ggtgatcaga cacctctgaa20641 atgtgggtga ataatcaggc aggtgtccct gcagtgatta gacaccaagg ggagactgtc20701 20784 20761 tctctaccag aaagggaaag gaactgaaat taaggaaggg agagattgaa gggtggagag20821 atagcaagag agttggaaaa gagaataaaa agaggccact tactcaattt aaaattggtg20881 agatgttcct tgggctgatc tgaggaccca aggttgtagg tggatctcct cacggaatga20941 gggtgaggac aggggactgg tctccagaag gagttcccga gtcctggatc ttcagcacca21001 aatgtcatgt gcatccatgt gaagagagtc caccaacagg ctttgtgtta tcaataaagc21061 tttttaatca ccttggtgca ggtgggctga gtctgaaaaa ggagtcagca aagagagata21121 ggggtgggtc agttttataa gatttgggta ggtagtggaa agttacagtt agaggtggtt21181 atctcttgag ggcagaggtg ggggtcacaa ggtgctgggt ggggaaatcc tgagacttat21241 catccaggga aggagtgtca caaggtcgat tgatcagttg gggtggggca ggaacaaatc21301 gcatggtgga atgtcatcag ttaaggcagg aactcactat ttcacttctt ttgtggttct 21328 21361 tcagtttctt caggccatct ggatgtacac gtgaaggtta cggggatata tgatggctta21421 gcttgggctc agaggcctga cactaacctc ctgcagaagc cacaaaaggt tattacacat21481 aaaccatggt ttccacaggc aggcactctt gatgtggaaa attgggatag agcaggatta21541 aaacaagctc atcaaaaagg tcttaaagtt gattcttcag ttttctccac ttggagttta21601 gttcatactg tacttctgcc attatctcct tattattctg cggaacagca ggctgaatct21661 aaaaattgga aagaatttgt tgtcctactc acagctccaa ttgaatataa aaaacaggag21721 agggaggata aaaattggcc tataccgcct cctccagatg cagaaacatc tgtaccatct21781 ccttcagtgg cagaaataga gatcccagta caaagaattt tatgctctgc tgtcatagct21841 ggagagccct taggaccttg tgcttttcct atttctgtaa ggcctgatcc aaataatcca21901 cagcagttta ttcatgaaca ctctccacta gaatttaagt tgttgaagga attaaaaact21961 agtgtggtca ataatggagt acaaagccaa tggttcctgg aggaaggaat gctagacata22021 gaactttggg agcaagtggg gagaaatctt aaacaacacc aggcacaaag gcatcaggtc22081 ccagtaaaat cttttatgtt aggggctttg agtagagcag ccctggttgt tacacacaaa22141 agagcctaaa aagggaaagg aggaggaaat gtcacctgcc ttatcacctc cccttccctc22201 agtgccaata tcactgggcc aaaataacaa agaggaaatg gaggtcttac ctaagcttcc22261 tcctccaata gataggaaga aggacagagg atacgctaca gctatcagtc cctgtcttaa22321 gcaggcagca ttagaaggag agctcttagc cgggtgcagt ggctcatgcc tataatccca22381 gcactttggg aggccgaggc aggcagatca tgaggtcagg agatccagac catcctagct22441 aacatggtga aaccccgtct ccactaaaaa tacaaaaaat tagccaggca tgttggtggg22501 cacctgtagc cccagctact tgggaggctg aggcaggaga atggcatgaa cccaggaggt22561 ggagcttgga gctttcagtg acctgagatt gcaccactgc actacagcct gggcaacaga22621 22624 22681 aatcggcaag gcaatcaggt gtatgtttat aaaaagataa gaaaaaggca ttagaagcca22741 aaaccacgtg gccaagcagg cagtgggcag gagaaaatgc tcagaggcag aaaagctcac22801 22 agcgacaaag ccaacaaggt ctgcccagga cggcagcatc cctctggcaa aggagcaagg22861 gagcagcaca gacacaggca aagcctaaac aagtacaatg tggccacctc ccaggacctg22921 caccactgcc ctctggctct gtgggcagcc cattgcaaaa tttcatgtgt tacatctcag22981 gctatgattc tctgctaaga tgtaagtaaa atgtaagaat ttgaaaagca tcttttctaa23041 taatggccac tattgtcatc tctctcctat ccctgatgta gctttccaaa ttcaatttaa23101 gtaaaacagt aacctttgaa gggaaagaga ttacagaggg cccatgaatt agttgaagag231 taattaaaag ctaggcatgt aaaaccacac attacgcttt aaagaagaaa tttaaaccta23221 attaaatgat atttgttaaa ttagaaggta aaaatgttgt gccctgttgg gaacaggccc ccaaatctgg ccataaactg gccccaaaac aggccataaa caaaatctct gcagcaccat23341 gacatgtttg tgatggccat gatgcccacc ttgaaggttg ttggtttact ggaatgaggg23401 caaggaacac ctggcccacc cagggcagaa aattccttaa aggcattccc aaaccactaa23461 tgatagcatg agcaatctgt gccttaagga catgttcctg ctgcagacag ctagccagag23521 cccatccctt tgttttggcc catccctttg tttcccataa ggaatgcttt cagttaatct23581 2384 23641 ctgttcaggg ctttcagctc agaaagccat aagccccctg atttcccact tcccaccctt23701 tatttctgtg tgtgtgtctt gaattcctct agcgcctctg ggttatggtc tccacaacca23761 cgctggtctt ggcagtgccc ttctcagaaa gtgaaaaaga gttgtatgta agtgtagtga23821 aaacataagc atgaatcact gtcttaaccc actgattaga tagtctttga tttgtacttg23881 ctaaaagagt cctaaattga gttcctcagc tagtgagtca ctgttttcaa gactgtttgc23941 cagattgaag tccataaact tggtcagccc gaaaactcaa ttacaagatc taagctattc24001 tgcctgtggc tttaagcaca tggttaaagt atattattta agtctctcct tctagatatg24061 ctttcagatt ttctttttaa acttcttgtt acttatttca gctttccata ttgataatta24121 atgcagtcaa ttgctcagtt atgactgtga tatcatcagg attcctttaa gtaaaaggca24181 attcaaagcg gtattgcact cccccatacc taatgcttta acactgttta ctgatgggtc24241 tggtaaacat ggaaaagctg cagtctagta gagaccacat aattcaatca ctcgatctga24301 gttcactagc actcagagag ctaaggttac tctgtttatt tattaaagaa tttttacaac24361 2456 24421 tcaagactta cttacagcat gggatatgag gcttacaaat gagactttga taacccagga24481 ttttaaatgt tgaagaacac gggatatcag agtgaaaaag gtttagggaa aattctgaca 245632 agggaaaatt ctaacctgat atcaataact ggaaagacag gttaaaccct gcaaggggat24601 acattgacat tttttcttcc tcacttgctc ttttctgctg tctgaatatg ggcatgaggg24661 24 caagagtcat tttagaccac caagtgacct tgaggataga agccttatac tagaggtggt24721 gggaaagaaa aaacagaagg actcataaag aaaaaaataa taaacctcag tattaagatg24781 gaaaaattcc cccaattggt ctataggttg aacttcatct ctattaaatt tcagctatgt24841 ttttgcagaa tttgatatgc tgatcataaa atttatatga aaatgcaaga gacacagaat24901 agtcaaaact ttgaaaagaa gaaagttgga ggacttacac ttgttgattt taaggctttt24961 tacaaagcta taataatcaa gacaatgtgt tactgacata atgatagaca tattgatcaa25021 tatagacaat ggatgaatgg agtagaattg acagtctaga aataaaacct tatatatatg gtcaatttat ttctttatgt attctgtcat ccagaataca taaagaacac cttcaactca25141 ataacaacaa taccaacaag ggtgccaaga ccaatcaatg gaggaaataa tagtcttttc25201 4661 25261 2548 25321 accaccatta cttgtttttt ttttttggtt tttttttttg agacagagtc ttgctctgtc25381 acccagacca gagtgcagtg gcatgatctc agctcactgc aagctccact tcctgagttc25441 2558501 2524 25561 2542 25621 cgcctggcct accattactt ttaatggcaa aaatgcagtt acttttgcac caccctaata25681 gaactaaatg taagagctaa aactacaaaa ctgttagaag aaagcatagg agcaaatctt25741 aatgacatga gagttggcaa ttgtttttta gatatgacac caaaagcatc aaggacaaaa25801 gaaaaaaatg gataaattgg acttcctcca aattaagaga acttttgtcc tgcaagcaat25861 actattaaga aagtgaaaag acaagtcaca aaatgggaga acatttttgc acataatata25921 tttaataata ggctgacatc cagaatacat aaatacctac aactcaatac caaaaagaca25981 26041 2617 26158 261 aagacagata acaagtattg gcaaggattt ggggaaattg taaccttcat acattgctgg26221 taggaatata aaatttgcag caggtttgga aaacagttta gcagtttctc aaaaagcctg26281 ggcatggtgg ctcatgccta caatcccagt gctttaggga gctgaggtga gaggattgct26341 tgagcccagg agttggagac cagcctgagt aacacagtga gacctctttt ctaccaaaaa26401 gaagagagtt aaacataggg taccatataa gccagcaatc catctcctag atatgtaccc26461 aagaaagttg aaaacatata ctgacacaaa aacttacata tgaatcttca tattagcctt26521 ataataatag ccaaaaagta gaaacaaccc aaatacccat caactaatta aaatatggtg26581 581 26581 tatctataca tattatttgg ccataaaagg aagtactgat acatgtcata acacaaatga26641 26 26641 accttggaag cactatgatc tctgtattag tcagctcttg tattgctata aagaactacc26701 tgagactggg taacttataa agaaaaaggc ttaattgagt cacagttcca caggctgcac26761 agggatcatg gcccaggaga cctcaggaaa cacagttatg atggaaggaa gagagtgaag26821 gaggaggtgc tacatacttt taaaccacca gatcttgtga gaagtcactc actatcatga26881 gaacagcaag ggagaagtcc acccccatga tccagtcagc cccagccagg ccccaactcc26941 aatattgggg attacaattc cacatgagat ttgggtgggg acactaatcc aaacaatatc27001 attctgcccc agcccctccc aaatcctgtg tccttctcac attggaagat acaatcatcc27061 cttctcaaca gtttcatttc agtattaact caaaaatcca aagtctcatc tgagacaaga27121 caagtccctt ccacctatga gcctataaga tcaaaaagaa gttagttact tccaagatac27181 aatggaggta caggcattgg gcaaatatat ccattccaaa agggaaaaat tagccaaaac27241 aaaggggcca caggccccac gcaagtccaa aatcaagcag ggaaatcatt aaatcttaaa27301 2763301 27301 gcttcaaaat gatatcctttgactccatgt ctcacatcca ggccacacca atgcaaggag27361 tgtgctccca aggccttggg cagctctacc ctgttgctct acagggtata gcccccatgg27421 ctgctttcac aggctggcat tgagtgcctc cagcttttcc aggtacacag tgcaagctgt27481 tagtggatct accattctag ggtctggaag attgtggccc tcttctcata gctccagtag27541 acagtgcccc agtggggaat ctgtatgggg gctgcaaccc cacatttctc ctctgcactg27601 27 27601 cccaatagag gttctccatg agggctccat tcctgtagca tacttctacc tggacatcca27661 ggtgttttca tacatcctct aaaatctagg taggggctcc caagccttaa ctcttgccct27721 ctgcacatcc gcaggcttaa taccacatgg aaaccaccaa tgcttatggc ttgcacccta27781 tgaagcagta gtctgagaca tatctgggcc cttttggcca tggctgggat gcagggaaca27841 gtgtcctgaa gtggcacagg gcagcggggc catgggcctg gcccatgaaa ccttctttcc27901 tcctaggcct ccagacctgt gatgggaggg tctgcctcga cggtctctag aatgtgtttg27961 aggcatattc ctcattgtct tggctattaa tatttggctc ctctttactt atgcaaattt28021 ctacagcctg attaattcct ttccaaaaaa atggggtttt cttttctact acatggtcag28081 gtcacaaatt ttccaaactt ttacgcttcc ctttgaaatg taagttccag ttgcaggtca28141 tttctttgat cacaaatata agcatatatt tgtagaatca gccaggccac atcttgaatg28201 ttttgctgct tagaaactgc ttccaccaga taccctaaat cattgctatc aggttcaaaa28261 ttctacatat ctctagggca agggcacaat gcctccaaga cctttgctaa tgcataagaa28321 aattgacctt tgctccagtt cccaataagt tccccatctt catctgaggt ctccttagcc28381 tggacttcat tgtccatatc agtatcagca ttttcatcac aataatttaa ctagtctcta28441 agaagttcca aactttccct tatcttccta tcttcttctg agccctccaa actgctccaa28501 cctctgccca ttacccgggt tccaaagctg cttccacatt ttcggtatct ttatagcaat28561 gctccattcc tgataccaat tttctgtatt agtctcttct cgcactcctg taaagaacta28621 cctgagactg ggtaatttat aaagaaaaga ggtttaattg actcacagtt ccacaagctg28681 tataggaagc atggttcaga aggccacagg aaacttacaa tcatggagga aggcgaagag28741 aaagaaggca cgtcttacgt ggctggagta ggaggaagag agtgaagggg gaggtgttac28801 acacttttaa acaaccagat cttgtgagaa ctcactcact atcatgagaa cagcaaggga28861 gaggtctgcc tccatgatcc aatcacctcc taccaggctc ctcctccaac attggggatt28921 atgatttgac atgagatttg ggtagggaca caactccaaa ccatatcaat cccatttata28981 tgaaatgtcc acaatagata aatctataga gacataaaat agattggtgc ttgcctagtg29041 ctggacgtga caggagggtg tgagtaaaag aggcaatgga gtgataggta cagggtttct29101 ttttggggtg atgaaaatat tataaaatta gattgtggtt atagttgtat aactcttgaa29161 tatcctaaaa atatattgaa ttttccattt ccattttaaa tgggtgaatc ttatggtatg29221 tgaattatat ctcaataaaa ctgcaaaaaa tgcacaattt gcaattgcaa aaatatggaa29281 ccagtccaaa tgcccatcaa tgagtggata aaggaactgt ggtatatata tatatatata29341 2984 29401 tactactcag ccataaaagg gaataaaaca atggcattct cagcaacctg gatggaattg29461 gagaccatta ttctaagtga aataactcag taatggaaaa ccgaatatca tacattctca29521 ctcataagtg ggagctaagc tatgaggatg caaaggcata agaatgatat aatggacttt29581 gggaactcag ggaaagggtg agagaggggt gaggaataaa aggctaccca ttgggtacag29641 641 tgtacactgt tcaagtgatg gctgcaccaa aatctcagaa atcaccacta aagaacttat29701 ttacataacc aaataccacc tgtttctcaa aaacctattg aaattaatta atttttaaaa29761 actgctgaaa tcaatagtga aaggatggac tattcaataa tgacacagtt aattgaatat29821 catattttaa aaattagatc cttacctcac actataacat aacaataaat tccaggtgaa29881 ttatagacca aatatgaaaa gcaaaatttt aatattttag aagacaattt ttatgacctt29941 aagttagaaa atgattttta aaaacaggat gcaaaaacac taatcataaa gagatatttt30001 aggccaagca tggtggctca cacctgtaat cctagtactt tgggaagctg aggcaggtgg30061 atcacttgag gtcaggagtt caagacaagc ctggccaata gggtgaaaca tgtctctact30121 aaaaatacaa aaattagctg gaaatcgctc gaacccagga ggcagaggtt gcagtgagct30181 gagattgtgc cactgcactc cagcctgggt gacagagaga gactccacct caaaaaaata30241 aataaataaa aataaagaga gattttaata aggtgcatta aaataaaaaa ctatccatca30301 8661 30361 tctttttttt tgagatggag tcttgctctg tcacccaggc tggagtgcag tggtgcaatc30421 tcggcttact gcaaacttca cctcccaggt tcaagcaatt ctcctgcctc agcctcctga30481 gtagctggga ttacaggtgt gtgccaccat gcctggctaa tttttgtatt ttttgtagac30541 acggggtttc accatgttgg tcaggctgag ctcaaacccc tgacctcgtg atccaccttc30601 ctcagcctcc caaagtgctg ggattacagg catgagccac cgtgcctggc ctaccatgaa30661 tattttttta aaggtagcat ccagaattaa taatcttctc caacaaattt cattagtagt30721 cagggaactg caaattaaaa tcaaagtaaa atactacttt ccactcatta gactaaaatc30781 cattcaagtc tgataatacc tagtactgag ttggagtaat agaaactgct aatgggacag30841 ttagttggtc atcactttgg agagaaatta gtcagtatct agtaaaagtt agtgatacac30901 cttccatttt catctgttct gtgctgctac caaagaatac ctgagactag gtaatttata30961 aataatagaa atgtatttct aatggttcta gaggctgaga agtccaagat tgaagggcca31021 gcctctgcag agagccttct tgctgtgtca tgccatggca gaagggcaaa gagagggcaa31081 gagagagcaa aagcaaattc acagcatcaa tcccttttat aatcagcatt actctattaa31141 tgagggcaag accctcatgg cctaatcacc tctaaaaggt cacacctctt aatactattg31201 caatggtaat taagtttcta atacatactt tttgggagac attttcaaac tatagcacct31261 accctatagc ccaacatttc tactcctagg agtatgccct agagaaattc tgcataaata31321 tctaaagaga ggccattgtt gcattgttag gtactggaaa attggaatca attactatgt31381 ctaccagcag cagaagatgg ctttttaaaa gttttggttt attcatgaaa tggaatattg31441 cataaagtat gctccatctc accagatgaa aacatttttc actaggacta tttcaaaagt31501 agtcttatca ctgggcttct ctattatgca taaaaatttt aagtgaacat gttctttgac31561 ctagtactcc tacttttagg aatttgccca aaagggacaa ttatactact gggataaatc31621 tttgaatcat aaagtaagtt gtaaatggta caagcagtat gtcttatttt tatttaaagc31681 acattaacaa tattacacat atagtaaaaa ataaataaat aaaacatgtg aataataaac31741 acccaattta gaacaagtgt tgacagtgga gagggaaaga gagagaaaga aggagaaatg31801 gggagtggga gcgggtacac aaggaaattt tagttgcagc tccaaatttt tactttttac31861 31921 31861 acaatgaagc gaatatggca aaataagatt tgttaaagtt gggcagcagg tacacagata31921 ttctatcatt atcctttgaa tatttctgta gatttaagtt gtccattaaa aaaataaaat31981 acacacataa tttttaagat tagttttttc tatttcctgg ccttcgcatg cactgttaac32041 tttacctgga attctttatg cagtaattaa gagcaaaggt gtagagcaag actgcttgag32101 cttggatccc agcactgagt tgatttaggg agaataactt aatctcttaa tcccaagaga32161 aaatatgata taatagtttt gagctcataa agttttcata agcattaaat gtgacctata32221 tatgtaaagc aatctaacag tgcctatagt atttataagt gtctgcatta ccaaattcat32281 3284 32341 catcaccacc accatcatca ttaactccct ttgtctagtc aattcatatt tgttcttcgt32401 attttagata cctgttaaaa tattttttca aagatgtcta ctctgattct tcagtacaaa32461 tttgatttaa taagatccta tcattttgtc caaatactta taaaaatttg tagttctata32521 tttaatgtgt tttgtttgtt taacatctct ctcctacatt gtgttaagtt ttttaaagag32581 aaggtaaggg ttaaagagag acatagagag agaaagagag acagagagag agagagagcg32641 gttctacagc aatacaggta tattagaaaa acctgcaaag gtggggacca gcttaatgcc32701 agagcccccc actgcttata ggctggggta cttataggtc tgggggtact tataggcctg32761 ggtgggtggg gtctgagcag tatggcttgc tgcccaagaa gatgttgata agacgttccc32821 atgatgaggc agtttggtcc ttgcttccat agagtgtgat gcttcttgca ctttttccca32881 gcagaatgtg gtagggatgt tccttcaggt gggcctttgc ctggcagggt atgataagga32941 tgttcctgtg ccttggaatc aggtagttag acaggatgtt tctcacagcc tgaaccccca33001 tggaatgttt cactttgacc agggtctgcg aaatagcagg gggcttacaa aatggtgtag33061 tttggactaa caccttggaa cacaaaagtt tcttggggcc aaggctggcg tattagtctg33121 ttttcatgct gctagtaaag acatacctga gactgggtaa tttataaaga gaaaagaggt33181 ttaatggact cacaattcca catggctgga ggcctcacaa tcatgaggga ggcaaaggag33241 gagcaaaggc acgtcttaca tggtggtagg caagagaacg tgtgcagggg aactgccctt 33241 33 tataaaacca tcagatcttg tgatacttat tcactatcaa aagaacagca cgggaaaaat33361 36421 gaactacaat tcaagatgaa atttgggtgg ggacacagtc aaaccatatc agctgggtat33481 gttttattca cctttttata cccattgtca tgtcttctgg acaaacaatg gatgtaaaat33541 ggtatagact cctgagtact catttgttga atgacaaatc tatgaaccat ttgaccagta33601 tgcagcagcc attaaaatta tgtttatgaa taatttacag catggaaaaa tttggggttg33661 ctagtagaaa aacaaaaagg tacaaaagga tatatataat aagcctacaa tgccatataa33721 acaatactaa cagcaaaaac aaacctataa attgggggaa gatggggcag atagaagtaa33781 cctaaaatac taacatgttg ttttggggtc atgaaattat aaatgattat gcacccctta33841 atttttactt tctatgtttg atttttctat ggtaaatgca tttttattga ggtggaattc33901 acataacatg aaatgaaaaa tttagtggca tttattatat tcacaatatt gtacaaccac33961 tagctctact tccaaaacat tttcatcact ccaaaataaa accttgtacc cattaagcag34021 ttactcccca ttatttcctc tcttagctcc tagcaaccac caacctgctt tctgtctcta34081 gggatttatt tattctggat attccataaa aatggaggca caatatgtac cttttatgtc34141 tggcttcttt caccaagcat gtttttgagg ctaatccaca ttgcagcatg tatcagtact34201 tcatttcttt ttatgaataa ctgtatacag accacaattt gttatccatt ttttggttta34261 tggacatttg ggttgtttcc atctctcaac tattgtgaat agtgctgcta tgtatatttg34321 tgtacaagaa tttggttacc tattttcaat tcttttatgt atatatctaa gatgaaattg34381 cagggttata tgctaatcct atgtttagca ttttttttta ggaaccatta aactgttttc34441 34501 tatcctcaac aacacttgtt attttctatt tttgttatag ccattctaat gagtgtaaag34561 tgatatatca ttgtggtttt ctttgcattt tccttatgaa cattgatgtt gagtaccttt34621 tcatgtactt tttggtcatt tatatatcat ctttggagaa atgcctcttc gtgtatgttt34681 tgcccatttt aaaactagat tgtctttgtt gttgacatgc atgcattctt taaatattct34 gcatactagg cccttatcag atatatgatt tgcaaatgtt ttttctcatt ttactggctg34801 tcttttcact ttattgataa tgtcctttga tgcccaaaag ttgtttattt tgatgaagca34861 tatttatcaa tttatttctt ttattgctca tgcttttgat gtcacctcta agaatttata34921 accaaatcag aggtaatgaa ggtttacccc tctattttct tctaagagtt ttatagtttt34981 gactcattta cttaggtcgc tgattcattt ttagttaatt tttgcatatg atgtgaggaa35041 gaggtccaac tttactcatt tgcatgtgga tattcagctg tgccagcacc atttgtgaag35101 agtctatcat ctcctcattt aataatagta ttgacacctt tgttgaaagt caattgataa35161 3584 35221 ttgtatcagt atcacactat cttgattact gtagatttgt agtaagtttt gaaactagaa35281 agtgtgagta ctgcaatatt cttctttttc ttttttaaag attgtcaggg cctcttgcaa35341 tttaataggg atatgaggat tgacttttct attctacaaa attaaaattt tgttagagat35401 tgcattgaca ctgtaggtag ctttcagtaa cattgccatc tcaacaattt taagtattct35461 aatacatgaa tatgagcttt ctttctcttt atttaggtct tctttaattt ctttcagcag35521 tgttttgtag ttttggggta caagtctttc acctttaaat tttggtgaaa tttattccta35581 ggtattgcat ttttttatgc tattgtaaat aaaattattt tctcaatttc ctgttggatg35 ttcattgcag gtgtatagaa actcaactga ttctttgtgt tgatcttatg ctgagaccag35701 ctcagttggg gagaccctaa cctagaagca ctagaggaat taaagacaca aacacagaaa35761 tatagaggtg taaagtggga aatcaggcgt ctcacagcct tcagagctga gagcttcaaa35821 cagagattta cccacatatt tattaacagc aagccagtca ttagcattgt ttctatagat35881 attagattaa ctaaaagtat cccttatggg aaacgaaggg aagggctgaa ataaagggat35941 gggttgggct agttatctgc agcaggagca tgtccttaag tcatagatca ctcatgctat36001 tgtttgtggt ttaagaatgc ctttaagcgg ttttctgccc tgtgtgggac aggtgttcct 36053 36061 tgccctcatt ccggtaagcc cacaaccttc cagcgtgggc attatggcca tcatgaacat36121 gtcacggtgc tgcagcggtt tttatggcca gttttggggc cagtttatgg ccagattttg36 gggggcctgt tcccaacaat cttatacctt gcaattttgc tgaatttgct tgttaacttt36241 gatagttttt ttgaggatta tttgggattt tctacatatc atgtcatctg tgaataaaga tagttttgct tctttctttc tcatttggat gccttttatt tccttttctt gcctaatttc36361 cctggctaga acttccagta tgatgttgaa taaccatggt gaaatgggca ttcttgtctt36421 tttcctgatg ttagagagaa atttttcagt ctttaaccat tgagtataat gttagctgtg36481 ggttttttac aaatatcttt tatcatgttg aggaagttcc ttcctactcc tacttcttgg36541 36601 tatcatgtga gatttttttt ccttcattct attagtgttg atgttacatt ggttgatttt36661 ttatgttgta ctacatttgc attctttata taaatttcac ttggtcatgg tgtataaccc36721 ttttaatatg ccattggatt tagtttgcta gtattttgtt tagagttttt gcatctatat36781 tcataagcaa tatcagtcca caggtttttt gtggtttatt tgtctggctt tgctataatg36841 gtaatgctgt cttcttagaa tgaatgaggg agtgttttct cctctttcat tttttaaacg36901 tttgagaagg agtgatatta atttttcttt aaatgtttgg tagaacttac cagtgaagcc 3695 36961 gtctggttct taacattttt ctgtgttggg aggtttctga ttaccaattt gatctcttta37021 atttttacag atcttttcag attttctatt tcttcttgag taacttttta gcaatttatg37081 tattttagaa atttgttcat ttaatctagg ttatttaatt tattggtgtg cattttttca37141 tagtattatc ttataatctt ttaatttttg taaagttgat aatgtcccca ccttacctga37201 tcttagttat ttgtgtcttc tctgtattct ttttgtcttc ttcttctgtc ttagcatagc37261 taaaggtttg tcaactttgt tgatctttta aagagtcaac ttttgctttc agcatgcatt37321 actttttaaa tagaaatata tacacctaag ttgcattaca aaggagttgt cctccacaca37381 cttattcttt cccaccatca gaggtttatg gtccccgcaa aagtcaccat cagttgggct37441 caactccaat cagtcatggt aggtcagggt ccatctcatt gtctccatca ctcatgccca37501 cccagggtaa gtctaatcat gttcaccaat cagaacctct gccacatcag ctctgtgggt37561 ttcctctcat gccatctgta ccaacaatga gcacagtctg ggtttcctga tgttttctat37621 37 agcatggtgc ccctccctgg gacacctcag aagccacaat gatattcatt aaacttcttc37681 ctgcaagtac tccctctatt gctccttcta ctcaccaagc ttagtgtcag ggaatatgct 3736741 gcttctcact cccagactcg gctcccaacc tgctgttgcc37801 aagtcttggg gacatctata aatgccttct aaatacctgt cttggcctat ccccagccac37861 agattcctcc ctagagcagg ctacctctga ggcatctata ctgagatctt aatcacagag37921 acatttaaaa catctaggct acaaaagaat tcctactata gggttcaaat gaatttcttt37981 ccgtcacttg agacagcttt ttagcaagta catgtattaa agattctgat ttcccctttt38041 ttctcctaca gtttgtttgg cctaaaggta tgacatctaa tctgctgcat ttacactcta38101 agtcaaaatt accattttgt tcttttaatt tctatttcta atcatacatt cttgtctact38161 38 38161 cctggttcat ctggagacaa agttgaactt agaagatgga ggagaaattc ttatctgccc38221 tctgctagtt gacacttcct ttccaagaat catttgcagt tgctgggctt tcttgctgtg38281 actctatgcc ctgttgtgtt actttttcat ttgtgacaaa aacagtggta atagtttgct38341 38 38341 tcatttttat tatgaagact tgaccaggat aggtaggaac ataattactg ctttttctgt38401 386384 38401 gggcatcata ttggtccaga tcatgtttaa ccagaattga agatgtaaaa tcctagaact38461 38 38461 cactaatcta ttttagtagg tcacaggaag catgcaaacc ataaaaaccg caatgaacca38521 aaagcatctg tgttgacaag aggcaagaat ttctctattt tctaaaggca ctaactgaac38581 aaatctattg cccattactt aggaaattgc taagggcatc gttaaagtac ttcaggctgt38641 tgaaaaacct tttctgtctt cttgccccac caccaattct ctctagctat gctttctctc38701 acatgttctt gccatccatg gagtggcaga gaggttctga gtacaactct aactttcagt38761 ttcaatggcc taatccccaa ctcaactgct gaccttgagt gtaaaaataa acaagatctt38821 aaacatctta gggccagcat tctgggtctt cttttgttat ttggggagca taaactattc38881 tcatatcatt ggcttgcaga aaaattgagc ttctcctctt ccttgcccca tgtcaccttg38941 aggtgaccac agccctgcct tctatgtaat cctgcttggt cagcaggcac atcagagctc39001 390 39001 agtggcttgt gacatacttt ccttcaagcc tgctcgaagg gccatactca tcattgagac39061 390 39061 tgggaacctt agaaaccatg aacccagtgc caatgggtag atacagaatt ctcaaactca39121 39 39121 tgaaaaaaca tcctttttaactctctccgt gtgcataaag aattctaaga tgtactgatc39181 aagattccca attttctaac tatctattaa tatatggacg aggtaagaag aaagttgcaa39241 gaaaaaaatt tgtttgactt gacggttgtg tggttatttg ccacactccc ccagatccac39301 tctgagtccc aggatgctga ttttaggggc tacattgcct agactgtcca ttattccctc39361 ttcccatctg gttcagtcac tgggaagcac tggtaggagg tcagagtggg agaaggaggt39421 taggatactt tctgcccctg ctgtcctact gctttgctga acttctagca gtggctgagc39481 catcaacctg cagctctcaa ttccagctgt ctgtagcact caagtggtat tgtttattct39541 39601 cttggaatgg acccctgtaa caaaagacag attaacacga gaaaagttta ttaacgtaca39661 tattttatac gtacatagga gctatccagg gaatgaataa ttcttaaaaa ggtgactttg 39393939393939393939393939393939393939393939393939393939393939393939393939 caaagaaaatgaactttgag cctctaggga cagtgacttg taggaaggca aaaggaataa39841 58901 39961 5921 aaagggaggg aaaagagctt tccttcatct gcttcttaat tgccttcagc tcaacaatcc40081 ttatgcaaaa gaggtacatt ttagggtgtc aaattctggt ctcccacaaa gcatagggat40141 gacagaccac ctcaccatcc ctgttgcttc ttttaagcct gctcacccct ccaaaaatat40201 tttcattcta tactgtctct tcaaaatctc agcggagggt gccctctgtt atcctgccct402 ctgtgtcagt ataagccaaa ggtttgaatc ctggctctgc aactatctac ctctgtgcct40321 ctccttgttt atgaaattac agggctggag acaaagatca caatgtgaag acaaaattgg40381 agagcggtcc taatcagcca gagcaaaatt tctggctctt gctcttcccc atcctgggtt40441 40 gaatcatagg aacaggtggc aagatgccag ggtcaggaga ttccagaagt ggcagcaagc40501 tcagtgttac caggtcaggg atgacctgtc ttattattga aatctcagag atatgctcca40561 attccggccc agagacacat tgagagacaa ctggggaact tgctatgttc ctgaacaggc40621 aatgagctgt cttccaagaa aaaacctgag acccttcaag tctcaggtct tacttagcac40681 atataccagg tcttacacag gacacatggt tacaactgac tgaaatctgg gctgggtgta40741 ggagctcaca cctgtaatcc cagcccttca ggaggctgag gcaggcagat tgcctgagcc40801 caggagttcg agaccagccc gggcaacatg acaaaacccc atctctacaa aaaatagtca40861 ggcatggtgg catgcacctg tagtctcagc tacttgggag gctgagatga gaggattgct40921 tgaggttgag actgcagtga agcatgatca tgccaccgca ctccagccta ggcaacagag40981 caagatcttg tcgcaaaaga aagcaaaaac acaacataac acaacaacaa caacaacaac41041 aacaacagca aaaaagccaa cttcttgaaa tctggaaagg acacctggac tgccctgagc41101 atttgattgt tgttggctct agcagtggat gcatccttca acctctggca ctctgcaggg41161 ctcagactgt tctgttctgt ttgttacctg tggagtgcct gccagaccct gctctagctg41221 ctttaggtcc atttaccctc atagaccccc agtcttgtta ttcatatttc atatttggga41281 aatggaaact tagaaacttg ccaagtccac agcatgagat cctgcctccg gtgtctgctg41 gattccagaa agtgccaggg gccaacttag atgacaccat gttctctgca caatcttagg41401 aatgctccta gtctgatgtc cccattgcaa aatttacatt atcttttaac aaaacgtctt41461 tccaaggagg ggcatttaaa ataactgagg ttcttcttgc taaggacgtt cctgacacaa41521 gagataattt agcatttcct tttcattaaa aagtttgaaa tcctgtaatt tgtgataatg41581 tggatgaacc tagaggatgt taagtgaaat aagccacaca cagatagaca aataccacgt41641 gatctcactc ttatgtggaa ttttttttta aataagttgc ttagccgggc atgatggcac41 acacctgtaa tcctagctac tcaggaggct gaggtgggag gatggcttga actcagaagg41761 tggaggtagc agtgagctga gactgtgcca gtgcactccg gtctgggtga cagaatgaaa41821 cccaatttaa aaaaaaaaaa aaagttgcta tcttagaaaa agacagtaga gcagtggtta41881 ccagagactg gggaggaaag agaggaggtg agaatgggca gcagttgatc aacgggtaca41941 aagttaccat gagataggag aaacaagtgc tggtgctctg ctccaagtag ggtgacggta42001 gttaataatg aattctgtat atataaatag ctagaagaga gggttttcaa tatcattatt42061 atttcaaaag aaatgataaa tgtttcagag gatggatatg taattaccct gatttgatca42121 ttgcacaatg tatacatgta gcaaaacatc acattgtgtc ccataaatat atacaattat42181 tatgtgaatt aaataaaaaa aaattttaaa gtcttatcta aatgaaattt ctaaccagat42241 tctgaatcca tgataccact gaaaccagca cacatgatcg cagtaaaacc tcattatact42301 tcctccacta tcaccaatac cctttattct ctggaacatg aaacattctg ttgtgctcat42361 atcatgcaaa ttatcactag taggagagca gagagtggaa atgttccagg tataaagacc42421 cacaagataa agaagctcag agtcgttaga aacaggagca gatgtacagg gtttgcctga42481 ctcacactca aggttgcata agcaagattt caaaattaat cctattctgg agacctcaac42541 ccaatgtaca atgttcctga ctggaaaaga agaactatat ttttctgatt ttttttttca42601 aatctttacc attagttgcc ctgtatctcc gccttcactt tctgcaggaa actttatttc42661 ctacttctgc atgccaagtt tctacctcta gatctgtttg gttcagttgc tgagaagcct42721 425656 42721 gacataccag gactgcctga gacaagccac aagctggtga gttgtaggca ttttttccat42781 tactttctga ttcataggct caacgcacct caaagctgga aatgccgggt ctgggtacac42841 cctggggaac tgcaaagcct gcacacttgg gggaaatgat caagatgaga ggcaggggtg42901 gggatggcat gtgcaccagg agatgttaga gaaaccctga ggaagagcag cgtgcagcag42961 gtgatggggg agagtgggca gcaagcgagg ccaggacagc cactctgctc agtcaccagt43021 ccacacaccc aggggctcac tctgcccctc tgagcaccca aggacgttaa agagctggaa43081 430 43081 ctgttagtct aaatatagga ccatccaagc tctgaaccaa aatgtgtccc ttgcctcaac43141 43 43141 tcaggagatc cacagaggca gaagtaagga atttattttc tgaaagatag atttctatca43201 gttctgggtg acatgttctg acacttgaaa tgacacctag gacagcacat ttcaggcatc43261 ttgctcattg ttcactgtag tagaagctac atgctagcca gttgtaaaaa tgaaattaag43321 43 43321 taatgtgtgc acagcattta acatagcatc tgagcttcag gagcactcaa ttaatgacca43381 cagttgtgat tctttaggca gatgcatttt tttccaactt tgatcagagg tcttatttag43441 cttctccaga tttcaagaat ctggctcagt gatatgaaat acaagacttg tgaaaagtgt43501 caattgcaag agaaatggaa ggataaagta tacaggtggg tggaaaagaa attcacagtc43561 actgccagaa aaaaaattct tgagaatcaa gtcctgatga tgttagggct tatagttctt43621 attataaaga gttttatgta ctcattcagt gaacatttat tggtgcctcc tttagccagg43681 tactatcata agagctgaaa ataaaagcat aatccagtcc ttgatcttga ggaacatgct43741 gtgtgtagca gataacataa taagtgctta tctagatgca tgcagtgtta tgtgataaga43801 gtaatatgac agaggataca gattaggctt cacagagaag ggggatttga gcaggaggta43861 ttgaagggtg aatagaagct caccaatcat tttgggcaga ggggcaagga cctgcaaaac43921 cactgaagca tgaaggaaat ggtgagttta gggaaaatga agagaagatg gctgtgactg43981 aagcacagga tttgggattg gagaagggac tggaggtgag gctgagaaga ggcaaactca44041 gaaaagatgt tgtgctgggc agtctggaca ttatctttga agcccaccac atataagtca44101 tagggctact ggaggtttta agctaaaagt gactattcaa tttcaactta agagaagata44161 ggttgagagg gaacatggct tgagatgagc catgagcaaa ggaaagacta caacaaagcc44221 aggagtgagg agtgtgtgaa gcaagaaagt gacagttgaa agcagtgcag aggggatgaa44281 tctgagaggc atctatgagg tggaactcaa atgacatgat aataatacag ggcatttctc44341 tgtgtcagat gctgtcctaa gtccttactc cattgatctt cacagcaact cagcatagtt44401 aatattttat gcataaagaa atcggcactt gaaggagtaa ttggccccag attacactgc44461 ctataaggat tcaaatccag gtttgtttgg ctccaaaaac tggctcctaa ttttcagaag44521 gagaagcgac ccagggcaat gcccaatttt gcttcttagg caatggagga atccacaatc44 ggaaggagtt ttcagcagtg ccccatttgg ggtgggttga atttgaggtc cctgcatgat44641 641 acccactttg ctcacttcag tgcctaaaac tgagtatggt tcatagtagg tgttcaataa44701 gtgttgatgc agtgaataca tgcatgggga gatatgcatc aggcaatggg aaattcaact44761 ctaaggctta ggggaaagct ggagcttgaa gacagagctt tagaaaacag tagcatagaa44821 gggagtagga accatgagtt tagacaatac aattcaggaa gaactttgta gcaaggataa44881 agaggcaaaa aattaaagag gtgagagcta agtgtggtgc ctggggaatc ttaaggtgtg44941 3645072 45001 atctggaagc caaaaagaat tgtaaatgga ggaagttagc agaaggatca aatacttgaa45061 45086561 45061 gagggtggaa ttggaataaa accagggcat ttgaaaaatt gggttgtcac tgcaatctta45121 acaagagaag ttttggcagg atgatggagg cagaaagctg agagaatcat cagttagaac45181 gtttttgact tcagagaaca gaaaatgcag ttcataatgg ctttaaaaca ggggcttgtt45241 tttctcccag caatttgaga ggccaaggcg ggtgcatcag gaggtcaaga gaccgagacc45301 45 45301 atcctggcca acatggtgaa tccccatctc tactaaaaat acaaaaatta gcggggcatg45361 gtggtgcacg cctatagtcc catctactca ggaggctgag gcaggagaat cacttgaacc45421 caggaggtgg aggttgcagt gagctgagat catggccact gcactatagc ctggagacac45481 agcgagactc cgtctccaaa aaaaaaaaaa aagaaggcag aaggtgaata gttcaagggt45541 gggtttagga ctcagtgata ataggattct gcctggcttc tcatggttct ctaggtcttc45601 cattcatggc accatgccct cactaggcat gctgccagag caggaggggc aggtggaggg45661 ttctcttgtg tctgtcttat cagggaagaa gagctttctc agaagccccc agcagactcc45721 4563 45721 cttttcatat tatggtccag caatgagtca cagacctatg caccacctgc aaaggagcca45781 456384 45781 gagaaaacaa acgcccagcg cttttagcct gaaaatgaga atctggtttg ctggggaaga45841 taaagggtgt cggaaaatgg ctgttgggta aatcattgat gtctgccact aggaatgaaa45901 ggcaaatcag gaactggcac acatgctttc agggagatgg ctgcaaggga gagggcaaag45961 actgggaagt tgcttatgtg gtgccagact atttggaaga tcatggattg cggtgtttgt46021 gttgtgtggt catcattttg ttctttgttt acagaacaga gaaagtggat tgaacaagga46081 cgcatttccc cagtacatcc acaacatgct gtccacatct cgttctcggt ttatcagaaa46141 taccaacgag agcggtgaag aagtcaccac cttttttgat tatgattacg gtgctccctg46201 tcataaattt gacgtgaagc aaattggggc ccaactcctg cctccgctct actcgctggt46261 gttcatcttt ggttttgtgg gcaacatgct ggtcgtcctc atcttaataa actgcaaaaa46321 gctgaagtgc ttgactgaca tttacctgct caacctggcc atctctgatc tgctttttct46381 tattactctc ccattgtggg ctcactctgc tgcaaatgag tgggtctttg ggaatgcaat46441 gtgcaaatta ttcacagggc tgtatcacat cggttatttt ggcggaatct tcttcatcat46501 cctcctgaca atcgatagat acctggctat tgtccatgct gtgtttgctt taaaagccag46561 gacggtcacc tttggggtgg tgacaagtgt gatcacctgg ttggtggctg tgtttgcttc46621 tgtcccagga atcatcttta ctaaatgcca gaaagaagat tctgtttatg tctgtggccc46681 ttattttcca cgaggatgga ataatttcca cacaataatg aggaacattt tggggctggt46741 cctgccgctg ctcatcatgg tcatctgcta ctcgggaatc ctgaaaaccc tgcttcggtg46801 tcgaaacgag aagaagaggc atagggcagt gagagtcatc ttcaccatca tgattgttta46861 ctttctcttc tggactccct ataacattgt cattctcctg aacaccttcc aggaattctt46921 cggcctgagt aactgtgaaa gcaccagtca actggaccaa gccacgcagg tgacagagac46981 tcttgggatg actcactgct gcatcaatcc catcatctat gccttcgttg gggagaagtt47041 cagaaggtat ctctcggtgt tcttccgaaa gcacatcacc aagcgcttct gcaaacaatg47101 tccagttttc tacagggaga cagtggatgg agtgacttca acaaacacgc cttccactgg47161 ggagcaggaa gtctcggctg gtttataaaa cgaggagcag tttgattgtt gtttataaag47221 ggagataaca atctgtatat aacaacaaac ttcaagggtt tgttgaacaa tagaaacctg47281 taaagcaggt gcccaggaac ctcagggctg tgtgtactaa tacagactat gtcacccaat47341 gcatatccaa catgtgctca gggaataatc cagaaaaact gtgggtagag actttgactc47401 47 tccagaaagc tcatctcagc tcctgaaaaa tgcctcatta ccttgtgcta atcctctttt47461 tctagtcttc ataatttctt cactcaatct ctgattctgt caatgtcttg aaatcaaggg47521 ccagctggag gtgaagaaga gaatgtgaca ggcacagatg aatgggagtg agggatagtg47581 gggtcagggc tgagaggaga aggagggaga catgagcatg gctgagcctg gacaaagaca 4786641 47 aaggtgagca aagggctcac gcattcagcc aggagatgat actggtcctt agccccatct47701 47761 47821 gctttattac agtttatcta tggcacccat gcaccttaca tttgaaatct atgaaatatc47881 atgctccatt gttcagatgc ttcttaggcc acatccccct gtctaaaaat tcagaaaatt47941 tttgtttata aaagatgcat tatctatgat atgctaatat atgtatatgc aatatatata48001 ggctcttgct tgatctctcc aggaggtagt gattatgaga agggggtgga gaatgatgag48061 ttccttcacc aggagcaaag gacggggatc gtgtggaacc actgcagaac tatttccgga48121 atcaactaag tggagagagc caggaaggct gcatcagaac ccagtaaagc ttcttgtctg48181 gatctgagct ggtttgtttt gtgcttgctt ttccctgcct tgccactccc ctcactcttc48241 tcttttcccc acagcctttt tcacatagct cttggctgta ggattgcccc actccaaaaa48301 ccagtgtgtg gaggtccagg agtgagacca ggaaagaatg tgaaagtgac tacacaagga48361 ctcctcgatg gtcgtggaaa aggaaagtca attggcagag cccctgaagc cagtcttcag48421 gacaaagaag gagcctagag acagaaatga cagatctctg ctttggaaat cacacgtctg48481 gcttcacaga tgtgtgattc acagtgtgaa tcttggtgtc tacgttacca ggcaggaagg48541 ctgagaggag agagactcca gctgggttgg aaaacagtat tttccaaact accttccagt48601 tcctcatttt tgaatacagg catagagttc agactttttt taaatagtaa aaataaaatt48661 aaagctgaaa actgcaactt gtaaatgtggtaaagagtta gtttgagtta ctatcatgtc48721 aaacgtgaaa atgctgtatt agtcacagag ataattctag ctttgagctt aagaattttg48781 6381 agcaggtggt atgtttggga gactgctgag tcaacccaat agttgttgat tggcaggagt48841 tggaagtgtg tgatctgtgg gcacattagc ctatgtgcat gcagcatcta agtaatgatg48901 tcgtttgaat cacagtatac gctccatcgc tgtcatctca gctggatctc cattctctca48961 ggcttgctgc caaaagcctt ttgtgttttg ttttgtatca ttatgaagtc atgcgtttaa49021 tcacattcga gtgtttcagt gcttcgcaga tgtccttgat gctcatattg ttccctattt49081 tgccagtggg aactcctaaa tcaaattggc ttctaatcaa agcttttaaa ccctattggt49141 49201 aagttaagaa tgttcttatg ttgcccagtg tgtttctgat ctgatgcaag caagaaacac49261 tgggcttcta gaaccaggca acttgggaac tagactccca agctggacta tggctctact49321 ttcaggccac atggctaaag aaggtttcag aaagaagtgg ggacagagca gaactttcac49381 cttcatatat ttgtatgatc ctaatgaatg cataaaatgt taagttgatg gtgatgaaat49441 gtaaatactg tttttaacaa ctatgatttg gaaaataaat caatgctata actatgttga49501 taaaagattt aaaaacaact ggctgttttt ttacactgtg gtgtggaaga ttgtgttgtg49561 ttcacaactt ttcacttctt cccctgtgtg attacacaca cctgcccttg tggtgtgact49621 tgcagtgcgc cctacaggcc acacaacccc atgccctcca ccactggctc tgctgctgga49681 atgtgagcag aagtgacatc tgcctcatcc aagcagagcc tcttgctcag ccacaggaag49741 gcccattcca gatcacaccc gtcagcccgt gcgccctggt gaatgagaag acacagggag49801 ctgcagccac atataacatg agcaagaagt ctgtgtttgc tgtgataagc cactgagttt49861 taggggttgt ttgttaagaa gcacaaaaac cgattaagac atgtggtata tagtgacttc49921 atatatagaa tctggaaaac tatccattta ttttcaatca tggaattcaa tatgacaagc49981 atcccggagg gtctacctat gccagactgg gttggaaaca gaaagacaga tgttaatgcc50041 50101 ctgtgcacag tcacagtgcg ctgtgcagag caggaacaga ggcatctgtg aaaagtgctg50161 agagcctgga ggacagagtg actaatgcaa tgacagtctt gcatcatagg aataacagcc50221 acagcaggat tttattgctg ccaaagaaac tgccatttaa aaattgccag ccatccggga50281 ggctgaggca ggagaatggc atgaatccag gaggcggagc ttgcagtgag ccgagatcgg50341 gccactgcac tccagcctgg gcaacagagc cagactccat ctcaaaaaaa aaaaaaaatg50401 50461 gtaggctgtt cgagttaagc aggtggaagt tgatgatccc tcatcatcat tctgagggat50521 gagtgtctga agactttttg gtaaggaagg gtcttggcat agcccacccc atgccacctc50581 ccttgatctg tgatatcccc agcagctggg gaggttggag cattttgcaa agaggccccg50641 50 aagcctccag aaagtaaacc ttcaagagcc catccttcct tcctcttttg tttttgctca50701 ttatgaaaac ttccctgaca aattgaaaag gcttcaggtg agattagccc acaggaaaaa50761 ccaccaaggg ccacccagag gggccacact gtgacagaag gagtatgggc tggtgagctg50821 acctctggaa gacagtgcat gaattgagga gaagagattg gttccaggca tgggaggaat50881 gaggctggaa atttcttcag acattgccac ttcggcactc tgtgtgtgtg tgtgtgtgtg50941 tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtaaacaga gtcctgtaat gcaaggtccg51001 gccttggcag ccccagcctg gagccacagt gagatgtgag ctgagggtta tgctgggaaa51061 aacctctccc tcccagcacc tgaaaggctc tgcaggccca gcagctcagc aagcaagggt51121 aagggcatgg actaacatct tatttcatac tatcccttat aacacatcct aatgtaatca51181 51 51181 gctcacaata tgaaattatt tcatttctct ccagtcattg tttcaatggg gccttagggt51241 tgactggatt ctggaggtcc ctgcctagag gagggggtgc attctgtccc tatgtcccct51301 5163 51301 cctgctccat cctccacagc acgtgcctag tggtctacct tgtggggaat tcttgtacct51361 ccctcttcta ggcatggact agcattgaga agtgggagag gagtgttagg aaaaagggca51421 56 51421 aatatagaca taccttgtct tattgtgctt tacagatatt gtttttgttg ttgttgttgt51481 tgtttacaaa ttgaaggttt gtggcaaccc tgcctcgagc aagtctattg gtgctgtttt51541 tccaacagca tgtgcttgtt ttacatctct gtgtcacatt ttggtaattc tcccaatatt51601 tcaaactttg tcattatttc tatatctgtt atggtaatct gtgatcagtg atctttgatg51661 tcactattgt agttgttttg gggcaccatg aagtgcaccc atgtaagatg gcaaacaatc51721 51 51721 aataaatgtt gtgtgtgttc tgactgctcc atggactgcc tgttcctgag acacaataat51781 gtatatataa caattatata tatatatatt tataacaatt atatatatat atattttttt51841 51 51841 tttttttttg aggcagagtc gcactctgat tgcccaggct ggagtgcaat gatgtgattt51901 cagctcactg caacctctgc ctccccaggc tcaggtgatt ctcccacttc agcctcccaa51961 gctgggacta caggtgtgca ccatcacacc cggctaattt tttttttgta tttttaggag52021 agacagggtt ttgccatgtt gcccaggctg gccttaaact cctagactca aacaatccac52081 ctgcctcagc ttcccaaagg gctgggatta caggcatgag ccactgtgcc cagcccaaga52141 cacaataata ttgaaattaa gccaattaat aaccctacaa tggcctctaa gtgttcaagt52201 52 52201 gaagggaaaa gtcccacgtc tctcacttta aatcaaaatc tagaaatgat taagcttagt52261aaggaggaca tattgaaagt caaggccaaa agctcacctc tgcaccagtt agccaaattg52321 cgacttcaca ggaaaagttc ttgaaggata tttaagctct actccaggga acatgcaaat52381 gaagagaaaa caaagcagcc atattgctaa tatggagaaa gtttgagtgg tctggagaaa52441 agatccaacc agccacaaca tttccttaag tcaaagccta atccagagca agactctaac52501 tctcttcaat gctatgaagg cggagagagg tgaggaagct gcagaagaaa agtttgaagc52561 tagcggaggt tggtttgtga ggtttaatga aagacaacat ctccataaca taaaaatgca52621 agatgaagca gcaagtgcaa agggagaagc tgtggcaagt tatccagaaa atctagataa52681 gataattgat gaaagtgtct acacgaaaca acagattttc agtgtagaca aaacagtctt52741 atgttggaag aagatgccat ccaggacttt cacagctaga gaggagatgt caaggcaagc52801 tgcaaagctc cacaggacag gctgactctc tttttagagg tgaatgcagc tgatgacttt52861 aagttgaagt aaatgttcat ttactatttt gtaaatcctg gtgtcattaa gaattatgcg52921 58981 tttacagcat ggtttactga atatttcaag cccactattg agaactattg ctcagaaaaa53041 aagattcctt tcaaaatatt actgctctgc accatgtcga tcaagagctg tgttggagat53101 gtacgagaat attcatgttg ttttcatccc tgctaacaca aacatccatt ctgcagtcca53161 tggaccaaga ctttcaagtc ttattaagaa atatatttca taaggctatt aagaaatagc53221 tatatatata tatatatata gccttatata gtttatatag ctaccattga tagtgattcc53281 attgatggat ctgagcaaag caaattgaaa agcttctgga aagtagtcat tattctagat53341 gccattagga acatttgtaa ttcatgggag gaggtcaaaa taccaacatt aacaggagtg53401 tgaaagacat tgattccaac ccccatagat gactttcagg ggttcacgtc ttcagtggag53461 gaagttgctg tagatgtggt ggaaacagca agagaactag aactagaagt ggagcctgaa53 gttgtgactg aattgccgca ctctcatgat caaacttgaa cagatgaaga gttgcttctt53 acatatgagc agtgaaagtg gtctcttgag atggaatctc ctcctggtga agatgctgtg53641 aacacggtta aaatgacaac aatcgattta gaatattaca taaatttagt taataaagca53701 gtggcagggt ttgagaggat tgactccaat tttgaaagaa gtgggtaaaa tgctatcaaa53761 tagcatcaca tggtatggag aaatcttttg tgaagggaag agtcgaccaa ggtggcaaat53821 tgcattgtca tcttatttta agaaattgcc acagccaccc ccagctttag caaccaccac53881 cctgatcagt aagcagccat caacatcaaa acaagaccgc catcctcttc agcaaaaaca53941 ctatgacttg ctgaaggctc agatgatggt tagcattttt agcaatacaa tatttttaat54001 taaggtatgc acattggttt ttctgacata atactattgc atacttaata gactacagta54061 taggataaac acaactttta tatgcactgg gaaaccaaaa aggttatttt tgagatattt54121 gctttactgt ggtggtctga agctgaactc acaatctcac caaggtgtgc ctgaacctct54181 ttagctaact ggccactgcc acagtccact ctgtgttggt caagatgccc cagagtggca54241 ggcacactgt gtggtcacat ccaagggcct agatatggtg ggggctccaa atggatctag54301 54361 tcatctcacc cagaaagtag gacccaatgt gacagttcct gcccagttcc ctcctgtggt54421 agccacttga cccaggggca ctcttgatcc ttgcagcctc acttacacac cctatctcta54481 cccctattaa ctctctccaa tccccactcc ccctgctcag cttgtctgct gcccagtggg54541 ggccccaccc atgctggcct ctccttttgc aagtccccat tcctcatatg gtttcttcag54601 agcccctttc tttggctttg aggagagatg ccctcactcg cttccccacc aatcctgccc54661 acttctacaa tccattcatt atcctaattg cctccgtata cagactggag tgagaggagt54721 tgatgtgatg ggtgtggata cagggctggt gctgtcatct tctagtaagc cctgggagag54781 gtgtctgagc ccaggtgtca gtggttttct ttggaactgt gagtgcataa cacttctttg54841 ccttcagcct taggccatag ttgctagttc tgggacaacc agaaaagccc tacataatct54901 cgtgttatgt gcagagctga gtatagagct ccaggtatga tctgactcac ttaagatcac5496 agtgagtcta ttgtattgtt gaactgttag cttagacatc tgttactgta cctacatggc55021 3655081 ctcagctgag ctaaggggct cccaccaggt ttgagcctat ctaatgaatc catgaggtag55141 acagcctgca catgtccact tggtttgatg aattgcacaa atccctatgg gggatgtggt55201 tcatgggctg ggaagtgggt taccctggga aaggtctaca ggacagaggc agggatggag55261 acaacagcat ggtgagttcc caacccaccc acgatgatag gtgtctgagg cagaaggtaa55321 agaggctgtc acctggtggg tgtcataaga ctcaagtgtc attgttgagg cacatgggta55381 acaaagcgtg gcactggatg ggggtagatt cttcctattt ctgtgaggat cagggggact55441 ccctggctct cctgctaaag gtggctctag ggacaggaag agtgtacttc ttgacaggga55501 tgtcagagca ctgatggtga caatcagtgt gacactgctc acatgactga acaaccgaga55561 agagcccgac tgtctactga acaacgggaa gagcccgact gtcaatgacg gagctctgtt55621 aaatatagtt aaggctattt tgttgaatga atgaagccag acaggaaaga ggacagtatc55681 tttaatccat ttatagaagt taaagacagg cttatttaat ctctatgaag acagagtggc55741 ccttacctct gggtggagca aaaggcacct tctgaagtga tagggatgtt ccttatcatc55801 ttgatccgga gtggtagtta catgcatgta tgcatatcaa aactcaccaa gctgtaccac55861 taagtgtgtt cttcctcaat aaaaataata aagaactaca cttataaaga attttttaat55921 aatataggaa aatgtctaca ctataatctt tagctaaaaa aaaaaaaaaa gaagccgcct55981 acagaatggt atatgcatga gaacaattaa tcgaaaagtg catgggaaaa gtcaggattg56041 aaacatcatg ttttaaaaga cattgttttg atactgtgag aatgtaccta agtttttcct56101 tttttctgtt tttcccaatt ttatacaatg agcatgtgtt ggttttataa ttagacattt56161 tgtttgtttg gtttggtttt gagacacagc ttgctgtcac ccaggttgga gtgcaatggc56221 ccaatcttgg ttcactgcaa cctccatctc ctgggttcaa gagattctcc cacttcagcc56281 tcctgagtag ctgggactat aggggcgcac caccacatcc agctaatttt gtgtattttt 565632 agtagagatg gggtttcacc atgctggcca ggttggtctc aaactcctga cctcaagtta56401 tccactcgcc ttggcttccc aaagtgctgg gattataggc atgagccacc gcacttggcc56461 tagacatttg tttttaaaaa taaaagattc atttgctctt tttacagccc gtctcactgt56521 tgactgatat tgaccaggag tcaactcagg ccccagggat tttcacaaca gctgctgtat56581 ggcagggttt ctgctcactg tgctcatgta gttggccctt gcacccaaag tgaataatta56641 acattctccc catcctgttg acgatgctct gaaaatatgg tccagaaatg gtgtgagcaa56701 ggagacagca aagcaatgct tggaacatag gtgcagtgac tagacatggg gcagctgttt56761 aaagacaaaa aggccccaaa aaggagggat ggcacgaaac accctccaat atgggcatgg56821 agtctagagt gacaaagtga tcaaaagttc atttcctatg gggtgtccga atgtacttaa56881 taataaaaag agaacaagag ccatgcaaac tgagagggac aaagtagaaa gagtagcaga56941 caccaagcaa ctaagtcaca gcatgataag ctgctagctt gttgtcatta ttgtatccag57001 aacaacattt catttaaatg ctgaagaatt tcccatgggt ccccactttc ttgtgaatcc57061 ttgggctgaa cccccctgtc ctgagtggtt actagaacac acctctggac cagaaacaca57121 aaagtggagt aacacacact gcaaagctgt gcttccttgt ttcagcctgt gaatcctcac57181 5784 57181 cttgtttccc atctagccta tatttttcaa actaacttgg ccatagaatc atgtagtatt57241 tagggtggaa gctgccccag gtctagcacg tcatttaaca gatgaggaaa tggaagcttg57301 ggcagtggaa gtatcttgcc gaggtcacac agcaagtcag cagcacagcg tgtgtgactc57361 cgagcctgct ccgctagccc acattgccct ctgggggtga gtatgtcttc acatcctcca57421 ataccctaat gacagacaaa cagaacatgg caaagcctca gctctgcatg gtgaaagtaa57481 gaaccagcaa ttgccacaaa cagaaataca gtgttggtcc ggcagcctcc gggggttctg57541 cacaagtgga ttaccagtga atacaaggct atctatcttt cgaaaaacca acgttgtatt57601 57 57601 tatgctattt tctataaaat tttatattaa tttatttgtt acctattttt gaactctttc57661 aaaagcacac tttatatttc cctgcttaaa cagtcccccg agggtgggtg cccaaaaggc57721 tctacacttg ttatcattcc ctctccacca caggcatatt gagtaagttt gtatttgggt57781 ttttttaaaa cctccactct acagttaaga aaactaaggc acagagcttc aataatttgg57841 57 57841 tcagagccaa gtagcagtaa tgaagctgga ggttaaaccc agcagcatga ctgcagttct57901 5763901 57 57901 taatcaatgc cttttgaatt gcacatatgg gatgaactag aacattttct cgatgattcg57961 ctgtccttgt tatgattatg ttactgagct ctgttgtagc acagacatat gtccctatat58021 ggggcggggt tgggggtgtc ttgatcgctg ggctatttct atactgttct ggcttttccc58081 aagcagtcat ttctttctat tctccaagca ccagcaatta gctttacctt ttcagcttct58141 agtttgctga aactaatctg ctatagacag agactccggt gaaccaattt tattaggatt58201 tgatcaaata aactctctct gacaaaggac tgctgaaaga gtaactaaga gtttgatgtt58261 tactgagtgc atagtatgtg ctagatgctg gccgtggatg cctcatagaa tcctcccaac58321 aactcatgaa atgactactg tcattcagcc caatacccag acgagaaagc tgagggtaag58381 acaggtttca agcttggcag tctgactaca gaggccactg gcttagcccc tgggttagtc58441 tgcctctgta ggattggggg cacgtaattt tgctgtttgg ggtctcattt gccttcttag58501 agatcacaag ccaaagcttt ttattctaga gccaaggtca cggaagccca gagggcatct58561 tgtggctcgg gagtagctct ctgctgtctt ctcagctctg ctgacaatac ttgagatttt58621 cagatgtcac caaccaccaa gagagcttga tatgactgta tatagtatag tcataaagaa58681 cctgaacttg accatatact tatgtcatgt ggaaaatttc tcatagcttc agatagatta58741 tatctggagt gaagaatcct gccacctatg tatctggcat agtgtgagtc ctcataaatg58801 cttactggtt tgaagggcaa caaaatagtg aacagagtga aaatccccac taagatcctg58861 ggtccagaaa aagatgggaa acctgtttag ctcacccgtg agcccatagt taaaactctt58921 tagacaacag gttttttccg tttacagaga acaataatat tgggtggtga gcatctgtgt58981 gggggttggg gtgggatagg ggatacgggg agagtggaga aaaagggggc acagggttaa59041 tgtgaagtcc aggatccccc tctacattta aagttggttt aagttggctt taattaatag59101 caactcttaa gataatcaga attttcttaa ccttttagcc ttactgttga aaagccctgt59161 591 gatcttgtac aaatcatttg cttcttggat agtaatttct tttactaaaa tgtgggcttt59 tgactagatg aatgtaaatg ttcttctagc tctgatatcc tttattcttt atattttcta59281 acagattctg tgtagtggga tgagcagaga acaaaaacaa aataatccag tgagaaaagc59341 ccgtaaataa actttcagac cagagatcta ttctctagct tattttaagc tcaacttaaa59401 aggaagaact gttctctgat tcttttcgcc ttcaatacac ttaatgattt aactccaccc59461 tccttcaaaa gaaacagcat ttcctacttt tatactgtct atatgattga tttgcacagc59521 tcatctggcc agaagagctg agacatccgt tcccctacaa gaaactctcc ccggtaagta59581 acctctcagc tgcttggcct gttagttagc ttctgagatg agtaaaagac tttacaggaa59641 acccatagaa gacatttggc aaacaccaag tgctcataca attatcttaa aatataatct59701 ttaagataag gaaagggtca cagtttggaa tgagtttcag acggttataa catcaaagat59761 acaaaacatg attgtgagtg aaagacttta aagggagcaa tagtatttta ataactaaca59821 atccttacct ctcaaaagaa agatttgcag agagatgagt cttagctgaa atcttgaaat59881 cttatcttct gctaaggaga actaaaccct ctccagtgag atgccttctg aatatgtgcc59941 cacaagaagt tgtgtctaag tctggttctc ttttttcttt ttcctccaga caagagggaa60001 gcctaaaaat ggtcaaaatt aatattaaat tacaaacgcc aaataaaatt ttcctctaat60061 atatcagttt catggcacag ttagtatata attctttatg gttcaaaatt aaaaatgagc60121 ttttctaggg gcttctctca gctgcctagt ctaaggtgca gggagtttga gactcacagg60181 gtttaataag agaaaattct cagctagagc agctgaactt aaatagacta ggcaagacag60241 ctggttataa gactaaacta cccagaatgc atgacattca tctgtggtgg cagacgaaac60301 attttttatt atattatttc ttgggtatgt atgacaactc ttaattgtgg caactcaaac60361 tacaaacaca aacttcacag aaaatgtgag gattttacaa ttggctgttg tcatctatga60421 ccttccctgg gacttgggca cccggccatt tcactctgac tacatcatgt caccaaacat60481 ctgatggtct tgccttttaa ttctcttttt gaggactgag agggagggta gcatggtagt60541 60 60541 taagagtgca ggcttcccgc attcaaaatc ggttgcttac tagctgtgtg gctttgagca60601 agttactcac cctctctgtg cttcaaggtc cttgtctgca aaatgtgaaa aatatttcct60661 gcctcataag gttgccctaa ggattaaatg aatgaatggg tatgatgctt agaacagtga60721 60781 60721 ttggcatcca gtatgtgccc tcgaggcctc ttaattatta ctggcttgct catagtgcat60781 gttctttgtg ggctaactct agcgtcaata aaaatgttaa gactgagttg cagctgggca60841 tggtggctca tgcctgtaat cccagcattc taggaggctg aggcaggagg atcgcttgag60901 cccaggagtt cgagaccagc ctgggcaaca tagtgtgatc ttgtatctat aaaaataaac60961 aaaattagct tggtgtggtg gcgcctgtag tccccagcca cttggagggg tgaggtgaga61021 ggattgcttg agcccgggat gatccaggct gcagtgagcc atgatcgtgc cactgcactc61081 61141 ctgcaccatg cttgacccag tttcttaaaa ttgttgtcaa agcttcattc actccatggt61201 gctatagagc acaagatttt atttggtgag atggtgcttt catgaattcc cccaacagag61261 ccaagctctc catctagtgg acagggaagc tagcagcaaa ccttcccttc actacaaaac61321 ttcattgctt ggccaaaaag agagttaatt caatgtagac atctatgtag gcaattaaaa61381 acctattgat gtataaaaca gtttgcattc atggagggca actaaataca ttctaggact61441 ttataaaaga tcacttttta tttatgcaca gggtggaaca agatggatta tcaagtgtca61501 agtccaatct atgacatcaa ttattataca tcggagccct gccaaaaaat caatgtgaag61561 caaatcgcag cccgcctcct gcctccgctc tactcactgg tgttcatctt tggttttgtg61621 ggcaacatgc tggtcatcct catcctgata aactgcaaaa ggctgaagag catgactgac61681 atctacctgc tcaacctggc catctctgac ctgtttttcc ttcttactgt ccccttctgg61741 gctcactatg ctgccgccca gtgggacttt ggaaatacaa tgtgtcaact cttgacaggg61801 ctctatttta taggcttctt ctctggaatc ttcttcatca tcctcctgac aatcgatagg61861 tacctggctg tcgtccatgc tgtgtttgct ttaaaagcca ggacggtcac ctttggggtg61921 gtgacaagtg tgatcacttg ggtggtggct gtgtttgcgt ctctcccagg aatcatcttt61981 accagatctc aaaaagaagg tcttcattac acctgcagct ctcattttcc atacagtcag 6208641 tatcaattct ggaagaattt ccagacatta aagatagtca tcttggggct ggtcctgccg62101 ctgcttgtca tggtcatctg ctactcggga atcctaaaaa ctctgcttcg gtgtcgaaat62 gagaagaaga ggcacagggc tgtgaggctt atcttcacca tcatgattgt ttattttctc62 ttctgggctc cctacaacat tgtccttctc ctgaacacct tccaggaatt ctttggcctg62281 aataattgca gtagctctaa caggttggac caagctatgc aggtgacaga gactcttggg62341 atgacgcact gctgcatcaa ccccatcatc tatgcctttg tcggggagaa gttcagaaac62401 tacctcttag tcttcttcca aaagcacatt gccaaacgct tctgcaaatg ctgttctatt62461 ttccagcaag aggctcccga gcgagcaagc tcagtttaca cccgatccac tggggagcag62521 gaaatatctg tgggcttgtg acacggactc aagtgggctg gtgacccagt cagagttgtg62581 cacatggctt agttttcata cacagcctgg gctgggggtg gggtgggaga ggtctttttt62641 aaaaggaagt tactgttata gagggtctaa gattcatcca tttatttggc atctgtttaa62701 agtagattag atcttttaag cccatcaatt atagaaagcc aaatcaaaat atgttgatga62761 aaaatagcaa cctttttatc tccccttcac atgcatcaag ttattgacaa actctccctt62821 cactccgaaa gttccttatg tatatttaaa agaaagcctc agagaattgc tgattcttga62881 gtttagtgat ctgaacagaa ataccaaaat tatttcagaa atgtacaact ttttacctag62941 tacaaggcaa catataggtt gtaaatgtgt ttaaaacagg tctttgtctt gctatgggga63001 gaaaagacat gaatatgatt agtaaagaaa tgacactttt catgtgtgat ttcccctcca63061 aggtatggtt aataagtttc actgacttag aaccaggcga gagacttgtg gcctgggaga63121 gctggggaag cttcttaaat gagaaggaat ttgagttgga tcatctattg ctggcaaaga63181 cagaagcctc actgcaagca ctgcatgggc aagcttggct gtagaaggag acagagctgg63241 ttgggaagac atggggagga aggacaaggc tagatcatga agaaccttga cggcattgct 6363301 63 ccgtctaagt catgagctga gcagggagat cctggttggt gttgcagaag gtttactctg 636363421 aggtcagggt gaggatggcc tctgctaagc tcaaggcgtg aggatgggaa ggagggaggt63 attcgtaagg atgggaagga gggaggtatt cgtgcagcat atgaggatgc agagtcagca63541 gaactggggt ggatttggtt tggaagtgag ggtcagagag gagtcagaga gaatccctag 6363 tcttcaagca gattggagaa acccttgaaa agacatcaag cacagaagga ggaggaggag63661 gtttaggtca agaagaagat ggattggtgt aaaaggatgg gtctggtttg cagagcttga63721 acacagtctc acccagactc caggctgtct ttcactgaat gcttctgact tcatagattt63781 639 63541 6351 638453 63721 acacagtctc acccagactc caggctgtct ttcactgaat gcttctgact tcatagattt ccttcccatc ccagctgaaa tactgagggg tctccaggag gagactagat ttatgaatac63841 acgaggtatg aggtctagga acatacttca gctcacacat gagatctagg tgaggattga63901 ttacctagta gtcatttcat gggttgttgg gaggattcta tgaggcaacc acaggcagca63961 tttagcacat actacacatt caataagcat caaactctta gttactcatt cagggatagc64021 actgagcaaa gcattgagca aaggggtccc atagaggtga gggaagcctg aaaaactaag64081 atgctgcctg cccagtgcac acaagtgtag gtatcatttt ctgcatttaa ccgtcaatag64141 gcaaaggggg gaagggacat attcatttgg aaataagctg ccttgagcct taaaacccac64201 aaaagtacaa tttaccagcc tccgtatttc agactgaatg ggggtggggg gggcgcctta64261 ggtacttatt ccagatgcct tctccagaca aaccagaagc aacagaaaaa atcgtctctc64321 cctccctttg aaatgaatat accccttagt gtttgggtat attcatttca aagggagaga64381 381 gagaggtttt tttctgttct ttctcatatg attgtgcaca tacttgagac tgttttgaat64441 ttgggggatg gctaaaacca tcatagtaca ggtaaggtga gggaatagta agtggtgaga64501 actactcagg gaatgaaggt gtcagaataa taagaggtgc tactgacttt ctcagcctct64561 gaatatgaac ggtgagcatt gtggctgtca gcaggaagca acgaagggaa atgtctttcc64621 ttttgctctt aagttgtgga gagtgcaaca gtagcatagg accctaccct ctgggccaag64681 tcaaagacat tctgacatct tagtatttgc atattcttat gtatgtgaaa gttacaaatt64741 64801 gctctttcag tcaagtgtac atttagagaa tagcacataa aactgccaga gcattttata64861 agcagctgtt ttcttcctta gtgtgtgtgc atgtgtgtgt gatgtataca aagagagaga64921 taattgtatt tttgtatttt cttttaaata atttttaaaa ttgacccttt tcctgagaca64981 8665 gagcaattga cttgaaaact tttaaaattc aaattttaat tccactactc aaaagaattg65101 ccatgtttta aaaaagagaa ttggtgccat aagttagttg tctatgtttg aaaatgaaga65161 agatatgcaa cgtcatggcc tggtcactta cccgcagccc tgagttgtag gcacatcata65221 tgtgagaatg aggatgcttt tctttcattt aaaatccctc cccaaaactt ggctctaatt65281 gcagtcatga caatcatgta catttggatt tatgtgcacg agtctcttac cctgagagag65341 gacaggtgct acaggtggag gggacccgtc tgggtcacgt tcacattttg aacatgctgg65401 ttttcagtca ctgcacactc atctcccagc gcaggtcatg ggcagcagat gcaaaagctg65461 cccgtggtcc tatttggagg tgcatgaaat gagcagaaga cagaatagct tgatctgact65521 84 65581 ggtagaatga accaaggaag ggcaggaggg ggctggggtt agggtagaag gaaggggcca65641 tggagaaggg agatccatcc cataggagga aggcagtgcg gcagggaggt ttgaaggtat65701 cagcttttgt ggctgacata catgcagtca tgtcaattgc tcgtttttcc ttttccatct65761 tattaaatgt cttccaatgt tagcacgaag aaaagctatt tgcagtgttg ccagcctttc65821 cagagcccgt ccccattacc tccccaggcc catgccttta ctccttggag tttcaactca65881 cgaccttcag gatctgactt tattcaccaa ctctggggtg aacgtacctt ctgtctccac65941 ccagaggtct ctatcaaaga ggagattgca tgccatggat aaagtcaaag tagaggtgac66001 tgtccttagg aagagtaatg tgaaaattca taaactggga ttctgtttac attttgtact66061 ccaggggttc ttagtttaaa tcgctctgaa taaattaaga tgcaatggca tttcaactgt66121 66 tatgattaaa tttacaaatc atttattttc tatcacgggg agagatagag ctccaaatgc66181 66 aaacataact gctcaagtgt taacacttat aatgaaaaca taagaattac caccaactac66241 cctgggggct agaagcagaa atgtgaacca gaaaacaaat catgaacttt cctttttttt66301 tttgagatgg agtctcgctc tgttgcccag gctggagtgc aatggtgcga tctcggctca66361 ctgcaaccac tgcctcccgg gttcaagcaa ttctcctgcc tcagcctcct gagtagctgg66421 gactacaggc atgcaccacc acgcctgggt aattttttgt atttttagta gagacagggt66481 ttcaccgtat tagccaggat gctctcgatc tcctgacctc gtgatctgcc cgcctcggcc66541 66 tcccaccgaa gtgctgggat tacaggcatg agccactgtg cccggccaac aaatcatgaa66601 ctttctaact gcagttcctt gtagcttgtt aacacatcca cttacttatt gtcagagtac66661 gtggagattt tccacaaccc tcggggataa ggctgaacag aagaggcaaa aacgtgaaaa66721 catttcgata gctcctatac tttgaaataa aattcactgt aaaagttgct tgtatttttc66781 caaaacagag tcaaccctta atatttaaga ttctgtatac aaatacatat ttttatataa66841 ttaatatata ttgtcatatg acatatatct ttatattaat atgcatgcat ataatatata66901 tttccttcct aattttctat aagcaatttt acaagactga cttctatttg cctccttatt66961 gttactacgt ggtttgataa tccgttttgt gtcattgtga ttctgtcatg ttttggggac67021 ttatttttgt ttctctgggt ggtcactagt ttttttaaag cattcatgga agagtgtgaa67081 tcttttacaa gctaggaagc catggcaagc cttgggtcat actgcccccg cgaggccaca67141 ttggcaaacc agcaagggtg ttcaacttcc agacttggcc atggagaaga catacgagga67201 ggcttttcac attcagctct ttaatgtttg tctctgccgg caccatccca gttgtgaata 6748 67261 agaggtattt ccacagcggc tcagggtagg tagtgcacag ctcacattca tcatttctga67321 aaaccgagag gagtctccat tcggggtaca ggttgatgcc tgtcgtggaa tgaaggttcc67381 aacacccaga ccaatctctg cagtgtgctg ctctcatgag cttgcaacaa gatcagaaaa67441 tgttttgtga ctaagcattt ttcatattgc ataaaatgct tcaagctcct cccttgtttc 6759501 tctctataat cctgtatatc tgatgattgt gggtaccaag tgtttgaaat aatcaaatgt67561 gatttgatgt tggtaaattt cttttttttt ttttttttac ttctattttt tttattatac67621 tttaagtttt agggtacatg tgcacattgt gcaggttagt tacatatgta tacatgtgcc67681 atgctggtgc actgcaccca ctaactcgtc atctagcatt aggtatatct cccaatgcta67741 8267801 tccatgtgat ctcattgttc aattcccacc tatgagtgag aatatgcggt gtttggtttt67861 ttgttcttgc gatagtttac tgagaatgat ggtttccaat ttcatccatg tccctacaaa67921 ggacatgaac atagcaaaga cttggaacca acccaaatgt ccaacaatga tagactggat67981 taagaaaatg tggcacatat acaccatggt aaatttcttt atcattcgca ctctcctttc68041 tctattattg ttattgtaac tgaaccgcag attagtcact cattgcttgc agaatccaat taacaagagc gaggtcagat ataaagaaaa tgatttattc caaacctcct tcagggaaga68161 ggtgcagcct cctgcctctaaatgcactgc ttcgccaggc gtggtggctc acacctgtaa68221 tcccagcact ttgggagacc gaggagggca gatcacttaa ggtcaggagt tcaagaccga68281 cctggccaat atagtgaaac ccctgcctct actaaaaata caaaaaatta gccagacgtg68341 gtggcgggtg cttgtaatcc cagctactcg ggaggctgag gcaggagaat cgcttgaacc68401 68484 68461 agtgagactc tgtctcaaaa taaataaata aataaataaa taaataaata gtaaatgcac68521 tgctttgctt ttggagcaga aagcaggcac tttgaaaagg caggggagga agtgagcaag68581 ggcagggggt ctgcacactg gcatggtgcc tgatctatcc aggcagttga attggcactt68641 tcataggcag aaataagttg aaaaagtggc ctaaaactct ctaggtggga gtggatagtg68701 ggcatgcctt caacctgcct ttctggaggg tgagttccat ggcaaccccc tgaagggtga68761 761 gagttccatg gagatcatgc tttggtctgt aaatcagctg ttaactctct agaaagttct68821 gtcttggagc atatagttag atgaacttgc cctgtaaaga atgtctggtg aaggggaagt68881 aaaaggtgag atttgcattt ctaaagggct aagtagaacg tggggtacaa gaggaaagga68941 gaaaagagaa aataatttaa aaaataattg taacttattc ccttttactt agaaaaaagg69001 gaatactcag ttacattatc acctcgttta catcaaaccc tcttatggaa tcctatggtt69061 tgaaaacaaa aaggttgttg aggaccagtg agcccaaccc ctttgcttta taaatgaaga6912 69181 8269241 69241 agtaggagca ctcgtgactc ccttcacgat cagcacctgt gtgctaataa attcacaaaa69301 gccaacatat tggagtcact cagggagttt tacaaatagt gaggttaaat ccaacctcaa69361 atagttctga ttcgatctgc ctgcattgct gccctgtggt tccccactgt agaagctccc 6947 69481 3669541 agtctcaact ttcataacag aacattcccc aagctggttt ttttaaagca tgtgaatcta69601 gacttcattg gcaataccaa agatctgtat ttgaggctcc aagtatttca ctttcatttt69661 tggttttggg ttatgttttc acccttcctt tccaagtgaa aagtaaacag aagtgggatg69721 tctggcgccc atgctgagct tggcaacttc aaattcaata gagaagaagt ctcttgtata69781 gaaaagggcc tgtctgagat gtttctcaaa taaatataga ttttgcttat gtggctaaag69841 gattcttctc cccccatttc cttatccctg cagtgagcca tccttcttaa ctctttccat69901 3969961 ctgcagagaa ttagaattta gatttaaatt gtcaactctt atacatcctg gcatatggtt 4621 taaacacatg tacacacaca caaacacctc ctactattta ctgaagagca gatatctgat70081 aacttaatct ttttggtttt gagtcaagac aattcctcct tttgaaactg cataccgctg70141 aatataataa aatgtaatta agattaaaaa taagaaacta atgggagaat ttcaatattg70201 tctctgttca ctttaaaatt cctctactta ggtttactgc cattaccaaa gactattcaa70261 aaatcctttt taggagaatc ctaatggttt cctgacatat aatcaaataa ggactctgtt70321 gattggctaa ctcaatcttc ctgtgccaaa aagcagagcc cagcagagaa gagggcaggg70381 acttgaaagt cagactgact cgagttccag ccttggggct gtgggagctt gggcaagtga70441 cttaacgtct ctggctctca ggatctaaaa ggatttccag tagtaatttg gggtgttact70501 gatacaggag ctaaaaagaa attatttagg tggttagtga gggtcagaga gtcctcggta70561 agatttgcct tttaacaaaa agcagcccca aaatcatttg tttgctaaca aagagaagcc70621 tgtaaaattg agctgcagac atagataagc aagctggaag cttgcacggg tgaatgccgg 681 cagctgtgcc aataggaaaa ggctatctgg gggccaggca tgttcaacat ggattctcca70741 tcttcccttt tctttgtcaa ccaagtgtac agtaaaggaa caggcaacat ggcacgggcc70801 aggtagagaa cccttctgca taataaaaga ttagggtgag atggccagct tcttcccgtg 70921 861 ctatgtaaat ggcatacctg gtccaaccag tcttttgggc cctgtgtaaa tcagacaccg70921 cctcctcaag ttagtctata aaaccccatg cattttaccg tgaaactggg agatccactc 709872 tcttttgcct attacacttc cgctcttaaa71041 ctcactgctc atgtgttagc atccttgatt tccttggcat gaggcaatga accttgtgta71101 ttaccccata caaatgatgc tgcttcatta ctaatagcaa cctgacaggg ttgtgttggg71161 gtataaatta tctagaccag ggagatccaa tataattttt ttgtaatgac gggaatgctt71221 tgtatctgca tcatccaaaa tggtagccac caggccaggg tgaaatgtgg ccagtgtgac71281 tgaggaactg aatgttttcc atgatttaat ttaaatgtgg ccaatggcta ctgtaggaga71341 cagtgtgagt ctggcatatt ataaataata aatattaata taatttgaac tttggcatca71401 gtgtttccta gatttgaatt actatgcaag ttgcttactg tttccaagcc tcagctttct71461 aatctgtaat tggggctaat aatagtatct gccttacagg tttgttcaga ggataaatga71521 gaaattgcat gttgagggct taacacagtg cctggcacat aaaagctctg gtaacagtta71581 gccactttaa taatttgcta ataatggcta tttcttcttc agattaggat gtgctccccc71641 aaacagtgca cttagacata gcgggcaatc cagctcactc tctgcagtga gagagaagca71701 ctggccgacc agagtcagcc aggggctcat gggtatgaaa tcaacagcat gattttgtaa71761 gtaatggatg gaaagggcct cacaacttta tggcactgtg ttcaatttgc ttggtcttct71821 gtagctcctt ttgaaagcct tttagggtgg attaacctgc taccaataat tctggtcaga71881 tgtagactcc atagctcaaa gcaaactgag agagtgaggg cagcaggcca attccccacc71941 ccttccttct ggactctgac agaagcttac actcaaggaa gagcaagtag gaattaacgt72001 gttaagagct aggtaagcaa aacccaatga gaagttctgg caaagcccca tgggcagggg72061 tggcttaggc acaggaaaca agtaggattt cataccacgc gcctcagtct acttccgggg72121 ccctcatcct cagctgtgcc tatgcaaagg agagcaacca ataaacccca ccgccactct72181 cctactgtgg aggccaggga tggccagggg taagagaggg atgggaagtg tttcctccag72241 ccgtcctctg agaaggagag gaaactgggc agagcttctg tcctccttca agcagaaaca72 gaaacaaaag aaacccctaa gggggttctt acttcccctc tagttcagtt gtgcactaac72361 catctgcagc tcaacattca gcattcattc attgattcag caaacattga aggagggcca72 gctatgtgcc agatgccaac tcatgccatg aaagagagtc cctgtcctta tgaaattcac72481 tatttagaga gaaaagcaag caaaaaggca aagtttgaaa agtactgttg aagtggcatc72541 72481 72 72541 attgtctggg gtgaatacct gaggtttgtg gtctcacgcc aagggaatca aggactcagg72601 cacacaagaa gtgagtttaa gagcagaggt ttaataggca aaagaaagag aaaaaagaat72661 agctctcttg cctgcacaga gagaggggca cctgagtgga tcttcctgtt ttgtggtgaa72721 atgcaaggca ttttatagac gagcttgagg aagtggtgtc tgatttactt aggacccgag72781 agattggtca gaccaggtgt gatgtttaca tagcatacaa agaagctggc catcccatcc72841 taatctttta ttacgcagac ggggtctata cctggctggt gccatgttgt ctgttcctta72901 ctgtacacgt ggttgacaaa gaaaagggaa gatgaagaat ccatgttgaa catgcctggc72961 ccccagatag tcttttccta ttggcacagc tgccggcatt cactcttgca agcttccaga73021 ttgcttatct atgtctgcag cccaatttta caggttgctc tttgctagaa aagaaatgat73081 ttgggggctg cttttcatta aaaggaaaac cttaccaagg ttaaaaagaa aaaaatttct73141 ttttaatgcc tatgttactg tgaacagtgt cgggataagg ctctgagagc cagatgagga73201 tgagttatcc aatccaagga tgggggtctg gaggaaaaaa tcctagagag cattgctgca73261 gttgaataag gattagttag aagctactga gtggagcata ggagtaggaa ctcttatgca73321 aatgtgcaga ggtgaaataa agcaaggtat agtccaggtg cctaaagtag cacagctgac73381 73 73381 ttgagataga tgatagatag gtagatagat ggatagggta catagatgat agatagatag73441 atagatagat agatagatag atagatagat agacagacag acagacactg gtgtgagtgt73501 gggtgtgtgt gtctggctgc gtgcatgcat tcctcctgca ggagatcagg agcagtgggc73561 agtatggagt gacaagaaga ttgggaggta ctccttctag ccctcccctc tgctctgccc73621 tccactggag cagaagcaaa gcatatggtg aaggggaaca aggagtctcc ccagcacagt73681 acccgagtgc attagctatt tatcactcca cagtccccat tcacgtgtta attcagcatt73741 tattgaatgc ttactgtttg caatgtctat gtcaagctgt caagtgtagt ttttattcta73801 73 73801 caggccacag gcacccccta actgtgttaa acaagatggt agtattgaga caggaataat73861 aagggtggtc acaggagaat ggaagattcc aggcagcagt ttgactagta aaaaaggaaa73921 ctgttgaaat agctgcataa tccaggggtc aataagaacc tgagaaccag ggtgtgagcc73981 aaggctggtt aaaagcaact ggatccaata tggtgctgag tttctcctag gttttgcctg74041 gaacctcatt atatgctcaa taacatacca aatcacacac ccaccagggc cattccattt74101 cctggaacac tcatgtttgg tgtaaaaatg ggtggcacca cagctctgag aaatctttac74161 ctttttcagg aaacttcatg aatattccat cctttggtta aagaaaccca taatgtagaa74221 gccccaaacc ctactgggcg caactctctc tctcttgagt atgcctgcac ttccctttat74281 tatttattta tttatttatt atttatttat ttatttttta gatggagtct ggctctgtca74341 cccaggctgg agtgcagtgg cgcagtctca gctcactgca agctctgcct ccagggttca74401 ggccattctc ctgcctcagc ctcctgagca gcagggacta caggcgccca ccacaacgcc74461 tagctaattt tttgtatttt cagtagagat ggggtttcac catattttat tttatttttg74521 agacagggtc tcactttgtt ggctcgctgc aacctctgcc tcccaggctc aagcaatcct74581 ccaacctcag ccccccaagt agctgggagg acagacgtgc accaccacac ctggctaata74641 ttttgtattt ttttttgtag agacagggtc ttgccatgtt ccccaggctg gtcttgaact74701 cctggactca ggtgatcagc ctgcctccac cttccaaagt gctaggatta caggaatgag74761 ccaccccacc cgaccacact cccatttctt gagtgtgtgc attttgctct gcaataaatc74821 tctctacttt cacttttctc tgactcgtcc ttgaattcct tcttgtgaca gcgtcaacag74881 cctggacacc aggtgcagtc aacgtctcac cagtgtttag ggacctcccc taatccactg74941 gtatcagcat gatcagactt gctttttcag aaaaagcctt ctgtccatag accaaaggga75001 agtgactcag agaaggggca ggaggaatca caagctccct gcctgaccag gcctggacta75061 tggcagagac agtgagatgg tgagaaagca agggtagaca gccagccaaa tccagaatat75121 agaaagttct acaggaaaag gtggggccaa ggtgggacag ggggaaagga attgttgcac75181 attaacagtg caatgcagag cactggtctt gtttatgtcc aggttagaac aaaccaatga75241 75 75241 gaaagcacat ctttgagaca actggagaaa tttgaacact gactagatat aatattatgt75301 7536375301 75301 taattatgct ttaatttggg gtacaataat gcttttgtag 753 ccaccccacc cgaccacact cccatttctt gagtgtgtgc attttgctct gcaataaatc ctatttctaa agagtcctta75361 tctcttaagg atacactcta aaatactagt ggattaagtt atatgatgtt tagactcttt75421 ttaaaataat ccagtggggt gagaggcaga gggaagggag aggagcatag aggaaacagt75481 gttggccata tgtttgtaat tgttaaaact gagtgatggg aatatggaga tttaacatat76541 taatactatt ttctgcccat gtaatatttg aatattttca taataaaatt gagagagaga75601 taaagaaaga aaagagaaaa gaagagaaga gagaagagat aagggaagtg gaggaaaaag75661 agctttcttc aaggaccatt gtggtggaca caaatgaaag ataccccctt cctactatga75721 75 75721 attctaggtg tgtactaccc aagatgagtc aatcggatcc tagcttccag aaatcgtgag75781 catgatgcag ccctacagac gcagtgccct ggaaaggaga cccatgacca tccaaggaag75841 atgtcccatc acagaactgc cctgggtcat gtgttttcca agtccacatg tccggtagtt75901 ccttctttcc tatgaccaat gccaccagtc ttccagcact gtcctttatt gctaggcaaa75961 cctgagccat cctcttcttc ttgcaacttg tgcctgaagt aacatggaca caaagtcccc76021 acttttccca cattctcaga atgaagtagt tctccctcca cactttaggt gctagaggca76081 agtggattgc ttgagctcaa gagttcaaga ccagcctgag caacatggca aaaccccgtc76141 tctacaaaaa atacaaaaat taactggggg tggtggtgtg cacctgcagt cccagctact76201 caggaggcag agaaggagga tttcttgagc cctgaaggtg gttgtgttac gtgcattcat76261 gttaagagac caccaaacag gctttgtgtg agcaattaag ctttttaatc atgtgggtgc76321 aggcagactg agtctgaaaa aagagtcagc aaagggagat agggatgggg cggttttata76381 ggatttgtgt aggtagtgga aaattacagt taaagggggt tgtcctcttg cgggtacagg76441 cgggggtcac aaggtgctca gtggggagct cctgagattt attgtccagg agaaggaatg76501 tcacaaggtc aactgatcag ttagggtggg gcaggaacaa attacaatgg tggaatgtca76561 tcagttaagg caggaactgg gtattttcac ttctttgtgg ttcttcagtt gcttcaggcc76621 atctggatgt ataagcgcag gtcacagggg atatgatggc ttagctcggg ctcagaggcc76681 tgacattcct gtcttcttat attaataaga aaaacaaaac aaaatagtga tgaaatgttg76741 gggcagcgaa aatttttggg ggtggtatgg agagataatg ggtgatgttt ctcagggctg76801 cttcaagcag gattaggggt gacacaggaa cctagagagt gagagagatt aaactgaaga76861 aagattttgt ggtaaggggt gatattgtgg ggttgttaga aagagcaatt ctcatataga76921 atgattggta atggcctgga tgcagttttg tatgaattga gaaactaaac ggaagacaca76981 aggtctgaat aagagaagga gaaaaacagg cattaaagga ctaagaactg ggaggaccca77041 ggacatccaa ttagagagtg cccaaggggg ttcagcataa ttatttgctt ggttggtgag77101 tttttggtct ccatccttga gtttttttta tgttgtcata tgccaggcca gattgattta77161 77135 77161 ggtaaaaaca acactcttca tttaaaaata tacagagttc tcctttctca gcagtgagta77221 agtcaaggcc tcagcagttt tggaggaaag agaaatgcaa aggaagcaat tgtttgttaa77281 gaaggattag aaatggctag gagagagtga gtgagattga tagtgtggtg gagatagctg77341 aggagaggta gagggtggca taagaatggg aacgagaata agagtgagta taaaagtaaa77401 774 77401 gaatagaact tcatcagggt gaaagtattg gagggtgccc tgtcagcaaa gatcatctgt77461 ccactccaag agggagtcaa gagtggcgga ttggggatag taccaggaga tatccactat77521 gatggtttgg aggaaaagtg taaactggca gtgtaaacag gggcagggca tttatgagtc77581 6381 77581 attgagaatg gtgaatagga gtatgactag acagaagata gtggagatga caaattttgg77641 gggcacagtc caaatagtgg gggtgactgc gtagagctct gttgcaaaaa gtagggtaag77701 77 77701 gataaataga cttaatagaa tgaagagatg tattaggctc ataagggtta ttattgttct77761 tcagaaatgc gagtgagttt aagggaagta ggggtgagta cttgcgactt ccagaaggaa77821 gaggagagat caggctggct gtctgatggg cacagcttta ttctggaaca gtgaatccaa77881 tggggagggt cgtgcagacg gatggcagtt ggggtgctat aaatgaccag gtagggtcca77941 gtccatcaaa gctgtagagt gtgaggggtc agacttgaca aggactgatt gcccagctaa78001 ggtatcttca catggctggg agtttggagg aggcaagaga agattagcag cctggcgaat78061 ttcctgtcta gcctgctgga ggactggaag ataaaggcaa caggtcgtgg gcctggatcc78121 tgtgtgagga ctctagcagc acagccttgt atttcagctg tgtgtaagga aaaaggatgg78181 781 78181 gacgagtcgg ggagtgctag tgtgggagct gtctccaggt cctttttgag agagtgaaag78241 gaagaatggg gaaaagactt atggtctatg ggattagtta aattaccctt tgtgagctag78301 78 taaagtggtt tgattaggat agcaaagccc ggtatccaaa gttggaaata tccaacaatg78361 cctaagaagg aagggagttg ttgtttggtg gtgggggttg gggtctggga gattaactga78421 acagagtctg caggaagggt atgtgtatgt tgatggagca ttataccaag ataggtaatg78481 ctaggggaag aaatttgtgc ctcagagggc aatactttgt acccctttga gtaaagatgt78541 tgaagaagca ggctagtgtc ctgctgggaa gattggtaag aggggctgca aagaagaaga78601 tcatcaacat attgaataag gtgggaggta gatgggtgaa aagaaagcag atcatgagaa78661 agggcctggc caaagtaatg tgggctgtcc ctgaagcctt ggggtagaaa aatccaggtg78721 agttgttggg actggtgggt gtcagagtca gtccaagtaa ggcaaaaaga ggctgggagg78781 agggatgcaa ggggatagta aagaaggcat ctttgaggtc gataacagaa tagagttgtg78841 gaagggtgta ttgaagatag gagggtgtac gggtttggca ctataggatg gatgggaagg78901 acgatttgat caacaagacg aagatcctga acaaacctgt aagacttgtc cggtttctgg78961 acgggtagga taggggagtt gtaaggagaa tttgtaggct ttaagaggcc atgttgaaac79021 aggcaggtga taacaggctt taaccctttt aaagcctgct gtgggatggg atattggcat79081 tgagcggggt aagggtgatt acattttaat gggatgataa ggggtgcatg atcggttgcc79141 aaggtaggag tagaggtttc ttatacttgt ggattaaggt ggggagatac aaggggagga79201 tgtgaaacag gtcttgagtt gggtaaaagt gcagcaaaga gatgtggctg cagcccagga79261 atactcaggg aagcagataa tttggttaaa atgtctcagc ctattaagga agctggacag79321 gtggggataa ctaaaaaagt gcataaaaga atgttgtcca agttggcacc agagtggggg79381 agttttaagc ggtttagaag cctcgccgac aatacccaca acagttatgg aggcaaggga79441 aacaggccct tgaaaagaaa gtaatgtgga gtgggtagcc tccgtattga ttaagaaggg 79561 ctgaggtgat caggcagtgt cagtcttcag ctgctaagct gagaagatct gggaaggagt79621 79 cagtcagaga gccttgggcc agagttccag gggctctggg agtggttgcc aggcaagttg79681 681 aacagtctga tttccagtgg ggtctcgcac agatgggaca ttccttggcc cagtggccag79741 atttccggca cttgaaggaa gatcctgggg gaggaggtcc tggagaaatg cctggcccct79801 gcagtttagg tgttttgaag ttcttgtgtg ctggagatgt ggctggggtt tctcttacag79861 cggaggcaag taattgcaac tcagaaatat gttgtcactt ggctgcctct tttctattat79921 tgtacacctt aaggcgaggg taattaaatc ctgttgtggg gtttgagggc tggaatctaa79981 tttttggagc tttttctaat gtcaggagca gattgggtaa taaaatgcat attgagaata80041 agacggcctt ctggcacctc tgggtctaga gaggtaaagt gtctaagggt tgttgccaaa80101 caggccatgg actcagctgg gttttcatat ttgatgaaaa agagcctaaa cgctaactga80161 tttgggagag gtcagctaaa gaaaaaggag cattaacctt gactatgcct ttagctctag80221 ccacctctct aagaggaaat tgttgggccg gtgggggagg gctagttgtg gaacgaaact80281 gtaagccaga ccaggtgtga ggagagaagg tgaccaaagg tttatagggt aggggagcag80341 aggctgggga agaattggga cctggctagg cctagcgagg aacagcctgg ggaggagggg80401 agaaatcaga tgggtccgta gaaaaggagg attcaaagga ctcagagctt ggggtggaga80461 ctgaaggaac agacaggaga gaaagaggaa agatttggga tgagtcacat tgggagcaga80521 gactagagag ggactgatgt gtaaagaatg cctggacgtc aggcacctca gaccatttgc80581 ccattttacg acaaaaatta tctagatctt gtaggatgga taaatcgaaa gtgtcattct80641 ctggccactt ggaactattg tcaagtttgt attggggcca agcagtatta cagaagaaaa80701 taagatgttt aggtttttaa aagagtgcat aaaagaatgt tgtccaagtc catgcccttc80761 ttaatcaata tgggagctac ccactccaca ttaccttctt ttcaagggcc tgtttccctt80821 gcctccataa ctgttgtggg tattgatggc caggcttata agccccttaa aattacccca80881 ctctggtgcc aacttggaga ggtcaggtgt tagtcaaagg tgttttaagt tttaagaaca80941 caggctaagg gagaagaagg gggaatgaag cgtggaaggt tgcccatagt gaaagaggta81001 agtttaaaga gaaaggtaga gacatggaga aggggggagg tgagcagccc tgggctgtca81061 tgtgggttag cagccaaagc tggtgtccca gcaattgact taccaccaag ggaatgtggg81121 tgaatgacca aggcaggcat ccccccggtg atcagacacc aaatggaatg tgggtgaaag81181 atcaaggtag gtgtccccat gatgatcaga caccaaagga aggctgtctt cccaaatcca81241 tgatccatgt tggagttttt gagttcatgg ataaaatgtg tctcctttgt ctctactaga81301 gaggaaaaag aactggaatt tgaaggacag ggagattgaa gggtagggag agaggctgaa81361 gaagagagtg aggagaccgc ttacccggtt tgaaattggt gagatgttcc ttgggctggt81421 ctgaggacct gaggtcgtag gtggatcttc tcatggagtg agggtgagga gaggggacca81481 atctcccgaa ggagtcaccc tgtccggggt cttcggcacc aaatgttatg cgcatccata81541 tgaagagacc accaaacagg ctttgtgtga gcaataaagc tttttaatca tgtgggtgca81601 ggcagactga gtctgaaaaa ggagtcagca atgggagtta gggttggggt ggttctatag81661 gatttgggta ggtaatggaa aattacagtt aaagggggtt gtcctcttgc aggcaagggc81721 aggggtcaca aggtgctcgg tggggagttc ctgagactca ctgtccagaa ggaatgtcac81781 aaggtcaatt gatcagttgg ggtggggcag gaacaaatta caatggtgga atgtcatcag81841 ttaaggcagg agcggcctat tttcacttct tttgtggttc ttcagttgct tcaggcaatc81901 tggatgtata tgtgcaggtc acagaggata tgatggctta gcttggactc agaggcctga81961 caggttgctg cagtgagcca agatcacact actgcactcc tgcctgggca acagagccac82021 aaaaaaaaaa aaaaagaaaa gaaaagaaaa aaaaagaaga agaaaaaaaa attttttttc82081 caccaagaat ttagtaaaaa attataggga aaagtgtcac taattcaagg gaattgcact82141 gaaaattatt cattcattca acagatattt attgagaagc aagtatgctg gtgctagggt82201 tacaacagcg cacaaattct tgtattcaag gaatgaggta agagtatgca gataggagcc82261 agagaggtca agaggcaatt gcaacataga gtgacacgtg ctccagaaca cataggaggg82321 cttccaggcc ccatgctggg ctatcagagc tggcttcctg caggtggtgt ggctcagcta82381 aaacctgaga accaagaatg agccttctga tatctcaggg ttaaatcggc acaaatgaaa82 ccattttata accaaacaac attttccctc ctgaactgca ctttttctag aacccattta82 atccttccta acatgttcaa tccagccccg tgatttttca gtcaaatgca agatgcgtag82561 gattcctttt ctgttcagtg ctccccagcc aatctttttc ccttctccca ccccacagtt82621 actaattcca gcgtttcagt tctcagcaga ggatgacagt tccaccagga gacatcagtg82681 ttatctggag acattttagt tgtcccagct gagggcacag tgctgctggc atctagtggg82741 tgaaggtcag gaatgcacct caacatcctg gaacactcag gacaatcccc agcaacaaaa82801 acctacccat ccagaacatc aacagggctg tggctgagga gccctgctct agtgcttcct82861 ccttactgta tcctcatcaa ggagggctct ggggcatgtc aggggctgct acaggctcct82921 ggcagatttc ggcgacttac tccagacttg tggaacattc aggattctta gcatggccac82981 aggagagtca ggctgtccac aagcactctc tctttcttca cccactcatt cctgtcactc83041 taccatttcc actgccttcc caaatgccca tcgtgagtcc caccaggggc cagaacacca83101 ctctctcaag cctccccagt ggcgcgtgca cacctggaga acatgtctca catcccccag83161 ccagcgagac gtcctgagat tccagcactt ctcagtgtct ttcccagctt gtttgtatct83221 ggaatggggt ggggtctctc acacaggaga aattacaagg aaaagtgtac gtgacaggaa83281 tggaggaatt tctgtggaaa cggtgtgtga gaaaatgtag gaagaaagaa acttcaggaa 835924 83401 atggtaagtg gcatcttgag agcagaaagt gagaagggag cagaaagaaa tggggctgga83401 acctgggaag gagaggacag gtggggatgg ccttgcacac cgtgggcact gaggagtgtg83461 ggcccatggc atgggtggag aggagtttca agatagggag tagattccta ttttgaactt83521 cggattgccc ctggcgatgt ggagactgta ttggaagaag gcaagaatgg aggagagccc83 ctaggtggag gtttggcaat gctctctcca gaatatagca gaggcctctt ccaaggtagg83641 aaagccctga ctggagagaa gttaatggct ctgagggctc aagggaggac ttggattatc83701 aggactttta gggaggcata tgatcaaggc ttgggtcttg gcccattgaa atggggagca83761 ctggttttag gatgtgggtc aattagtttg gttttcagga caggctgagt tggatatcct83821 gggggacctc caggtggcag tgtcagggga agctggatgt gctgacactg aactcagcag83881 agtgactgag tagagatcga catctggggt cacaggcagt ggatgccgta ggggtggact caatagctca agcagaaccc ggaggaatgc aggcagcaaa gggagcccta aagaacagtg84001 aggagatgtg ccaagaaaga gccaaatccg ggggattggc tgtgggagag agggctgtgg84061 gagtaagagg aagtgtcagc aacgtcaaat gttgcagaga catagagtaa ggtaagagtg84121 gaaaaaacat ccatggaacc ctgtgatgca atcggaatgc agaaagactt tgtaactcct84181 gcctggtctc ctcctctgcc cactcatggc aaaggaatac aaagtaatgt tccctccttc84241 cgcctagaaa agcacaactt ctgcccccaa gccctgggct ctcctgagag gacaggacca84301 gcctctgaag ttgaaggtcc tggttctgcc cccaagccct gggctctcct gagaggacag84361 gaccagcctc tgaagttgaa ggtcctggtt taccagatag ggaaggggcc ctttccaaga84421 ccctttccag aaggtgtggc tgagatggga accgtggact ctgtgcagat gtaggagctg84481 gctccagtca agtgctagga ggttgtgggt cctgggaagg aagaggctct ggagcctctg84541 tggagactct gggactgtcc ttgggggaga cgtgagcagg aagaagcagg gccttcacag84601 tccccagctt aggggcctca ccacccagac tgaagaccag gaccaaaccc tttcctgcac84661 agttacaatg tgtcatttaa ttttactaaa gggaatattt tttaaatgag gatgctactt84721 tgtgtattaa tttttacctc tattcataaa agaaacgttt cttatctatt taagatgatt84781 catatcagac cagtgtctgc ccaactcgac tgaccctgtg aaaactgggc acttcacact84841 ccaatgatga tggatgagtc cccagcagca tagtttaagg gagtgagtgg gcagtgtggc84901 ctcctgtgca cgtgacttcc tccttcagtg tgcccacatg tgggttccac ggtcttgtga84961 cattgtggct ttagaaattt ctgtttccat tttctatcat tcagagtaaa tgaaatttgc85021 aggaaattca gaaccttcca cctgtacagt ggatactgtg agactctgcc cagatgccct85081 cttcaagcca atgcatctct ccatgctccc actcccatag atgggaacag aggtgctgga85141 actcagatct actccccttt ctgggaactg gagctgcctg cccaggcaat gcccccttcc85201 cagggatggc tgagccaatg actggctaat gttggattgc agaggcctag cgccctcccc85261 85321 ctccctctgc ctggtcctgt cttgttctct cctttccaat tgtgtctcct ggaagccctc85381 cccacaagtc tgctgcatac aactctcctt ctcagagagc ctgagccctg gattcccagg85441 aatccagcct aaaatagtct ggcatttggt ttcaattttc tctttcacta agactcagtc85501 acaggtgcta ataaataata aaatgtcacc accttgaatt ctatcactct ctcttttctt85561 gccccatctc tgacaagtag gtggtccctc aagaacctga aaagcagaca ttaggaggaa85621 aggaggagtg ggggcaagag gcccacacct cacctggccg gctcccatcc atgcgccctt85681 gactgaggta acacctaccc tgggaatcct tcccctgcct ctcgtgagcc aggccgggtg85741 85801 attatagtca gttccgtacc tgaatctccc tctagaatgc cagtgccacg aggacagagg85861 acggttccac tttgttcact attttctccc cagggtctgg caaagttcct gggacttggg85921 agaggtgtcc ttcaggagct tggcagaagc caaacggcac acttaagtag ggcaactgag85981 gtgagtttaa tgaaggattc tatacaaaaa tttggacaag gtatagggag gccacaatac86041 acagtgcagt gcctggtgcc agtgagagca gggcactatt cccactgcaa ggccagacag86101 ggcaagggga gggagctgcc tgacaagagc tgcccttacg tcaagggaca catcagccca86161 ctagacccca tcaggaggga gccagggcct gactcccctg accttgctct ccaatcttct86221 gcctaaaatt ccccatcagc caaacacaac tgaaaactga aagacagggg agcctgctgt86281 taataaggtg agcttccccc agaataaagc tgggtagaga gtggagaatg gatatggaag86341 ggcaaaagga agatttataa gacagtgggc actaaatatc tatgagatga ataaaggaac86401 cacattttac aacaaacggt cattgaaacg ctactcaatg gaaagagatc atttcggtca86461 ctgtctggtg cagacaaatc aaagcccaca tgcatcaaaa aggccatgtc cgtgtaactc86521 8286581 tcctgatgta aatctagcac ttgggaaaag ggggactaga agaaattcac ccacaggcag86641 aggaaaacac aaacacttat ctatttttgc ctaggcttta agtggtatgg gaaaaatctc86701 86761 caaaaccagg cgcggaaaat tcatatcagg ccattgatgc cctcaatgtt cccggctgaa86821 3686881 agagaaaata atccccagtc aagacacact cacattgaaa ctgcaaggca cacaaggaaa86941 tggatcacct tgagtgatag ctggcagagc taataaacct ctgtatacct ctaagaagct87001 ccacgcacta gtataaccct taaagatttg atgaaatcat tactttatta aaattgtttt87061 tataaaaaat caaaatccaa aaaaagcaac aaattttata ccagagccaa ttcggtatat87121 acaagggtgt cttactcttt tggaatttgt cttattgtcc taactcagca cattgtcctg87181 gtctatgaaa agtcctagaa acccttctac cctctgtaat gtaggagctt taactcaata87241 gggtttttta aattcttttt tcttgtcttt ttttcttttt taattttttc cattttttca87301 agtcaaactg aagaaatatt tttcttttct ttctaggaat gcatattcac cccccaaggc87361 cacttgtctc ctgattggag agtattagac aattctcagg atttctttat tttccttctt87421 tattccatag gattgggaaa cccagtagga ttgggtttag gcatatctct aaagcaccat87481 gtttcaacgt tttgatgtaa gattgtgccc tatttcttgt tcagttgctg ccagcagatg87541 ttatagtttt aaaactagtt tttggtcatt gagatattag aggagggaag agtctgctat87601 cctgctttac tcatcttcat ctacactaca ctgtcatctt cactgcaaag tcctgtatta87661 atgtttttag attctataac attttaacag gtgtcaaaaa atcttaagca ccacttcagc87721 6387721 ttgggaatct ctaaatgtaa tggtgtttgt gggctggact gatgtctgcg tcttgttgtt87781 gttattgtct gtagtaatgg agagccggga gatcctggac acttcctgtt catgggcact87841 tgatgcatta gctgccccag cagctgatta catttaaaca aggatgtgtg ggtgaaccca87901 gggagaccaa tctcagtgga atggtggggg cagaagccag gctgcagggt gtagagtagg87961 gaatgagcag tgatgaagta gaaacagagt ttggacaact agtgaaactg cctggaagag88021 ggggagaaga gacagtaaat ggtctgacca atgtttgagg tcaaagtggg tttgtaatct88081 ttatttaagg gacagatctg agcatttaaa aattctgaat aatctaatag agaggaaaaa88141 gttgggactc aaagaaaatg tgggaaaaaa tgatgaaggt taaacggaat gagatccaga88201 gtgcaggggg agagattagc ctttggtgtt agaggagcaa ctctgtccat ggagagagga88261 aaaatgtaga cataccacag ttgcatttga agttggggcc tgaggagttg aggagttctg88321 agaaaagcag aagatgagat catttcctga gagtaaatgg gagtcattag aacgggggtg88381 aagagactgg aagctttagg tagcttgaaa tagttgatgg aaaaattgga taaagtgaca88441 atttgtcaca ctcagaacag ctatcaggga atctagaaga atctctggaa gctagttgaa88501 gatcttaaat taccaatgta tcttgtccac atagctaagc ggttttactt atttttattt88561 ttttgaaaca gggtctcact ctgtcacaca ggctggagtg tagtagtagt agcacaatca88621 88 cagctcaatg caatctctgc ctcccgggct caagcaatcc tcccacccca gcctcccggg88681 cctgggacta cagacacaca ccaccactcc cagctatatt ttgtacattt gtagagacag88741 ggtctcgcca tgttgcccaa gctggtcttg aactcctggg ctcaagtaat ctgcccacct88801 cggcctccca aagtgctggg attacaagct tgagcccggc tgctaagtgg ttttaaacag88861 ctgttctcgg aaacacacac tcaaagaaaa aatgtagagg ataatttatc taaggctggg88921 gcttcaagag aggtcagggt gttgacaaga gaatgactaa gtggcagact actggatctc88981 agctagataa agagggatgt gatcgtggga ggggctgata gtcagaggct ggaaggcttg89041 atgaacaaca catattacac aaagaataaa tggagtgaga gaaaccaaag gagtaaaagt89101 tgtcatcaga aaagtgagaa attttattgt gagaattcag tggtaaatca atgttaacaa89161 acctcagctg ggcactagtg gagtgaaacc gaaggccagg gagttgagtt aatgagctga89221 gacttgggca ccagatgggg gtccacatgg acaactaagc caccaggatg atgtgggaaa89281 ctggggtgaa tagaagcccc ttatccatgt gcacaagtct tgaataaaat aggggcaacc89 aggcagtcag tggatgatag cagtgaggtg gagcagagag caatgtagtt ggagaagtgg89401 agcccacagc agtctccttt atatctagaa gggaattaat agccaaaaaatggcaccgag89461 gccaaggatg tcaccttctg actcccaaat ctgagacaga tgtgagaggg aaggagtatc 8986521 ctcaagggac aggagatggt gcgaatgttt ttggcataaa tcaaagatgt cagggaaatt89 gtcagaattc aggttccaga gacacagagg aaaagcgtgg gagaaagtgg aatattggga89641 89 ggtgagatta gggcagagga agcacaaatc aaagaacgag gaatagaaaa agtcatatga89 gctgaggagt tggccaaaca tgacagaatg ggaatatgat ggaattaagt ggctttatgt89761 gttccaaaag gattggtcca cgcaggccac aggaaaatgg gaggtaagaa gaaagggatc89821 gaaatgctgc aaagtgtatt acttcatggt aagcaaagga ctcaagactc tagaaaatga89881 tgcccttcct tccaagacta tgttagtcca aatctttcaa gatacagaac ccaaggtggg89941 gtctggcata caagaagtat aatagaggaa atgtctgtga catttgcagg actgcaaagg90001 gagccaggag aagctgggaa agccatgaga tcacaagcag gtctgactcc aagtgaagga90061 gatggggaat gacgcaaggt ttggctgaag catgtgccaa aggcacccat cagaggagtc90121 cctctccaag ggatgggcct atcatagtgt ccctaatagt gtcatggagt gggagcagcc90181 90 90181 cacggagggc acagccttgg catgaacgca gacatgggtc tcagagtgca gcagctgggc90241 ccctcagtca attaggctcc ctcagagctg gggcaggagg tgcactagac cacacagtaa90301 tatttattta ttattaattt aattaataat attaatttat taatttaatt aataatatat90361 ttatttattt attattacta gaccacacag tagtatttgt atgtctaagg aagcatttct90421 cagaatatac tcactgaact tttagcctat aagtacctgt atgaaaattt taaaaggggt90481 9035 90481 ttcatgatca aaacattttg ggaaacactc catacccttt cttcctcatg aaggatcata90541 90 90541 atgcctatta gtatatgaag ggctctgaga agtcctgtag taaagaaact tgctttagtt90601 ttttagtcca gcaatttttc aaacttaaat gagcaatagc ctcccatcct tttttttaca90661 ctttttagca tactgcggaa taaactcaac atgcattgag aaagactgct ttagggaata90721 90 90721 gtcaacacta tttcactccc agtaagtaca tataaaatct gtatttccag ggtggattat90781 caacacagct gtattttaga aatattatct gccctcccag gtatcacagc tactaattat90841 90 90841 tgggtactga ggtggaattt tagggatcag ccaattatgg gaaagaaaat ctgggggcag90901 908294 90 90901 gataagatgg tctccgaagc cttaaaatta tatgccatta tttacctctt tgatctacta90961 ctcaatatca aacaactaat tcagaagaaa attgattgtt ttctaaaagt agtttttcta91021 catttcccat taagaagcag tggtatttaa aacttataat ggctattatg tgagattatc91081 9158 91081 actatcatag tttttctcta tacaaatttt ctgtaacatt ttatttgcta ataaaaatta91141 9163141 91141 gatagatgga ttgactaatt gataatctaa gaaagattat atttgaagaa gccatagtaa91201 gggacagatt aaattatcat cagtctaaac attctaatac ctatttctct ttttttgaaa91261 ttttccaaat ttgttattat gcatttaaac aataattttt tgaactttta ttttaggttc91321 tggggtacat gtgaaagctt gttacatagg taaccttttg tcatgagggt ttgttgtaca91381 aattatttca tcactcagct atcaagccca gtactcaata ggtatctttt ctgctcctct91441 ccctcctccc accctccagt ctcaagtaga cctcggtgtc tgttgttccc ttctttgagt91501 tcatgtgttc tcatcattta gctcccactt ataagtgaga atacaaggta tttggttttc91561 tgttcctgtg ttagtttgct aagggtaata gcctccagct ccattcgtgt ttccacaaaa91621 aaacatgatc tcgttctttt catggctgca tagtattcca tggtgtatat gtaccacact91681 ttctttatct aatctgtcat tgatgggcat ttaggtttat tccatgtctt tgctactgtg91741 9148 91801 tctgggtgta tacccagtaa tgggatttct gtttttagct ctttgatcta atacctattt91861 ctcaagatca agttagatct ctaaaaaagg catcatccta gcatttcccc atcccttccc91921 tgaactaaat ttaatgttgt gtgtatcaat cagcatacag tcaagacaga aaccacacat91981 gaacattaaa tataatgagt tattaactta taaaagggta tgaactacta aagggggtaa92041 ggagaatgct gaagaatgca ggaatggcag atgtagagag cagccataac ctctaagcta92101 aggcacagca gccaaggaag gggcgaactc aaaaaatgcc ctccctcccc agctgatcca92 cccttgttgg agggggtgtg gctgcaaccc aatggatgcc caagaagttt gcagagttgt92 ggcaggttgg ggctgctgag caggaaactg cccgaagggg taccagtgag attcccaaga92281 atgtgggcat gcctctggcg aggaagacgc tcttggagtg ccagcaaaat ttactaggaa92341 gctacccagt agggtgccag caaaagtcag caggaagcca ctgtcgtggt gtcggcaaaa92401 ttcactgagg agtgggcact gcagggtctc cacccagcac tggcaaatca gccaaaagaa92461 867 92 accctcttat gccttctaca gcaactggca aaggagaaat gtttatgggg tccagctcta 581 gactcacaaa gcagaacaca gaagagtgaa tgaagagctg aaaggcgata aatcagtaac92641 tggagcctca catcctttgc cttttttatt gagggtcaat atattaagaa gaatatgtct92701 gcgtcttcgg taaaattatt gctaaggtta tcacccagtg tgtgttttca acctccctga92761 tataagaact tagtgacaag aaagaatgag acaatgatca tgaactattg gacccaacca92821 tttgtggctt tagtgcccat cttctcagca aggctttctc tctctctctc tctctctctc92881 36881 tctctctctc tttttttttt tttttttttt ttttaagatg gagtctcact ctgtcaccca92941 ggccggagtg cagtggcaca atcttggctc acggcaacct ccacctcctg ggttcgagtg93001 attctcctgc ttcagcctcc cgagtagctg ggattacggg cacccatcgc cacccctcct93061 ggctaatttt tgtattttta gtagagatga agttttgcca tgtcggccag gctgttctca93 aactcctgac ctcaagtgat ccacccacct cagcctccca aagtgctggg attacaggca tgagccacca cagccagctc tcagcaaggc tttttctgac tacactattt aaaatgtgat93241 ccctgagcca ccttggcctc tcttgctgtc cttccctgct tcgccttctc catagcactt93301 933 ctctcctact aatctacaat ttacttgagc tctgtgaagg tcaggatttt tgcctatttt93361 gtccattggt gcatccccag cacctggaac agagctaggc acaggctagg cactctagaa93421 atacttgctg aataattgaa ttaagtaaat gagtgatcta cacgtagtgg ggaatgagag93481 tatacagtga tagttccttc gactaaaact ggggtcaaat tatagtgata aagaggaact93541 cagaccttca gaggtaagct ttgtggacca cttgccaagg ctgcagaatg tgatgtcgtt93601 686601 tcacaaacaa ggaggcccta ttatggcttc agatatgaga ataataaaga gaactttcct93 ttcgcctcaa ctgcagcctt ctaaactctt ccttccttcc tatgtagaag tttcaaggac93721 721 ctcatggcct gagtgtggat aggcagaatg ctgggaatca ggcaaaaata aaataatact93781 gaaagtgaag gtcatgctaa tattagtaag ccagggtgat cctgaattta caaaacattt93841 ttctttggga aatttcacac ctcacatgat tctgtgtttt tacttgggaa atttcacatc93901 tcacatgact ctgtgacatg cggtacatga ggtgcctgac tgctgttttt gtcctctact93961 aatgaggaag agtgtgcgta ctcccagcgt tttgcaagtt tcaaagtctg acttgacttt94021 ccttcctttt cctggaactg atccatgagt atcgagagta aagctgcccg cacctactca94081 ttcaagatcc tgagtgtcct gcccagctgc aggaggtgga gagacccagg aggaggggcc94141 actgctgatc ccaggctgta gggggtggga agagtgtccc agggcaccat gacccccact94201 cactcactca caggagaccc acacaagaga ggagagggca cttacagctt aggttcccac cagcaccaac tcctctgcca tcaaacatca ttgtgtttct ctttctgcct tgtctgtcgg94321 cacacgtgga gttaaattta atgctcaatc acatatttgt ctgggctctt tctgtgttta94381 tttttctctt aatagttctc tctcctccct tcctctcccc gcccctcctc ctccttcttc94441 tttttttttt ccagagacag tgtctcgctc tgccacccag gccagagtgc agagtggcat94501 gatcatggct caccgcagcc tccaactcct gggctcacgt gaacatccca ccttggcctc94561 tggaatgtct gggattacag gcacttgcca ctgcatctgg ctaattttta tattgtttat94621 agatccggga tctcactatg ttgcccaggc tggcctcaaa ctcctgggct caagcgaccc94681 tcccacctca tacttctgag tagctggggc tgtaggaatg cgcctcagtg ccaggctagt94741 ttcttaattt tctatttcta ttttgacagg tacaaatttt gtattcaatc ctacctcaga94801 cacatctttg gtgggaaaag gatgtcattt aatcaatata taaattctaa gcaaataggt94861 ctgatcccca aattaggtta gtcacagctg ctgagtcgtt gacccaagag aagctcatct94921 agattttttc attattttca agttcctctt ctcggttcgt ccttcttcca gaccatgccc94981 tccccgtccc actctcttcc cacagcctcc cctccccaca gcctcctccc accattccaa95041 atctgggctg ttctctcaat ttccttctct ctggactcaa acctacccta gcccccagcc95101 tcagtttggg gttaaacttg tcctcctcac attctctccc acccaacttg atgtcgcctc 8261 tgtgtcatca ccacgggatt ttcctcctct gggttctcct tttccgagtg gggtcagctc95221 ccccatgagt cacagcacca atcacttctg gctgcttgca aacccctttg ctttcctcag95281 tgttgacacc cagggcagcc ctatgctcac tgccgctgag accccacctc tgcccctggc95341 cttttcccag ctgacatcac cctgtggctt ccattttcct aaaattctct tttgaggcct95401 cagtcttaac caaagcacac agtgcccctc aaaaatgaca ataaaaaccc aaacacaccg95461 ctggtgagag gccgcattag agggtcagga ccctcaggtc tggactcgtg 95521 ctggtgagag gccgcattag agggtcagga ccctcaggtc tggactcgtg gtcaccacat95581 accttcctcc ctgctgacag tagctggtac ctgttaccta ctcagagtgt cacatgccac95641 aagccagagc gtcttggcag ttctcagcac cttgacatca cttccttgct accactcaga95701 gcggcagtga cacagttccc ttatctcaga aggccagaag acggctgtca aaggtcacag95761 ggaaatcaaa ggcggggtac agggccagag ggaggaggaa acaacttccc ggttgctttc95821 agacgcttca gagatcctct ggaggcctgg gggagctttt gagtacttta tttcagttgg95881 tccctgagct cggtgagtgg ggcgggtaga gccaccaggg gaatcaacag tggtttctcg95941 tgcccctcag ggtcaggagc agtctgatca aaaggagggc atccactgtc cggggccatt96001 cccacagctc ccggatgctg ggtctggagg ctgcgccctt cccctgcagg agctcagccc96061 agtggtaagt catctgtgtg tcatctatgt atttaacccc ttatggccat gttgatgctg96121 agcatggttt cacttttgca aacatttatt tatacccttc gagagaaaaa cgtctcagct96181 gtcacaggaa gctgcttcgg ggggtgagca aactttttaa aatgcagaaa ttatgatcta96241 9624 96301 atattgtgtt catgtaggca agtcctgttt ctgctaaaag aaggtaagtt ctaccaaggc96361 ggtgtcatgc cagctttatt tcccgtggca cctggcacac tgctaagcac ttacatgctt96421 aacaactaga ttgggaatgg tgctgctctg gggaagtggg cacacgttaa agaaatgttt96481 atttcagtct tctgaaatag ggaattactc tggctaaaat gtagctccag aaagggaaag tggggctgta tgaatccagg tccagtttgt tgtttcctcc aggataaggc agctgtcgga96601 ggggaaaatc atctcccatt tctccacagg gcagtctgaa gatggccaat tacacgctgg96661 caccagagga tgaatatgat gtcctcatag aaggtgaact ggagagcgat gaggcagagc96721 aatgtgacaa gtatgacgcc caggcactct cagcccagct ggtgccatca ctctgctctg96781 ctgtgtttgt gatcggtgtc ctggacaatc tcctggttgt gcttatcctg gtaaaatata96 aaggactcaa acgcgtggaa aatatctatc ttctaaactt ggcagtttct aacttgtgtt96901 tcttgcttac cctgcccttc tgggctcatg ctgggggcga tcccatgtgt aaaattctca 961 ttggactgta cttcgtgggc ctgtacagtg agacattttt caattgcctt ctgactgtgc97021 021 aaaggtacct agtgtttttg cacaagggca actttttctc agccaggagg agggtgccct97081 gtggcatcat tacaagtgtc ctggcatggg taacagccat tctggccact ttgcctgaat97141 acgtggttta taaacctcag atggaagacc agaaatacaa gtgtgcattt agcagaactc97201 ccttcctgcc agctgatgag acattctgga agcattttct gactttaaaa atgaacattt97261 cggttcttgt cctcccccta tttattttta catttctcta tgtgcaaatg agaaaaacac97321 taaggttcag ggagcagagg tatagccttt tcaagcttgt ttttgccata atggtagtct97381 tccttctgat gtgggcgccc tacaatattg catttttcct gtccactttc aaagaacact97441 tctccctgag tgactgcaag agcagctaca atctggacaa aagtgttcac atcactaaac97501 tcatcgccac cacccactgc tgcatcaacc ctctcctgta tgcgtttctt gatgggacat97561 ttagcaaata cctctgccgc tgtttccatc tgcgtagtaa caccccactt caacccaggg97621 ggcagtctgc acaaggcaca tcgagggaag aacctgacca ttccaccgaa gtgtaaacta97681 gcatccacca aatgcaagaa gaataaacat ggattttcat ctttctgcat tatttcatgt97 aaattttcta cacatttgta tacaaaatcg gatacaggaa gaaaagggag aggtgagcta97801 acatttgcta agcactgaat ttgtctcagg caccgtgcaa ggctctttac aaacgtgagc97861 tccttcgcct cctaccactt gtccatagtg tggataggac tagtctcatt tctctgagaa97921 gaaaactaag gcgcggaaat ttgtctaaga tcacataact aggaagtggc agaactgatt97981 ctccagccct ggtagcattt gctcagagcc tacgcttggt ccagaacatc aaactccaaa98041 ccctggggac aaacgacatg aaataaatgt attttaaaac atctatttaa tgtattttaa98101 aataatttgt aagttgattt taaaaccaat ttaactacat tccaaattat agacagccca98161 tttatatggg agtaactttt caggctcatt gcctcgccggtgatgagaag aactagctag 989 98221 ctggaagctg tgggaaaaag aggtaaggta acttgttctg tcgaagttct ctaaattctc98281 ttgcttactt gccacacccc taggccccca gcttccccta acccaaggtt tctggtattt98 tctcgtactt tatcaagact atggaatctt aggagactta acaaaagcaa atgagaaatt98401 atgtttagaa atgtctaaca aaatgaattc tttgtccttt taagtataac acatacctca98461 ggcctcacca gcacataact acaaaaggtt gtcccacttc ctttctgtgg ctgagttagt98521 agaacacagg ctcccacctg ccacatcagc agaaggtcac ctcaacatgt gagctacctc98581 cccggagacc ccccagatcc gtaaggatga tgcatccttg atcctaaaaa cattttcctg98641 ttcctggtgt tcagaattgg actccacact cactggtctc tttataatct tgcttctggc98701 cctttgaggc ctcaaagcta ccagggcctt gctgccaggg gacaatcacc gctcccggct98761 gagtcctgca gacatagggc ctgggctggc tgcctcctcc tgctggccca gcatcttgct98821 tgcactaaag agagctggag gcttggcact gatgcttgct aaaaacctac ccaggccgcc98881 cactgctgcc gcactgcagg gcaccagccc acactcctcc cctcctggca tcaggcacac98941 gttcacggca ctaaacctta caggaaagca gtggaaccct gtctttcctt cacaggaggc99001 actttccttc ctaggcaaaa acgatgatac ccatgggcac agcatctcac atagggacac99061 atagagatgt ctgactcatt aaaacccaag tctctggcca attaaaaggg gtccttaatg99121 tcctactcaa cagtggtgga aggaaatttg ctctatattg atgaaatgag gtggagaaaa99181 tctgattttc caaacatgag aattctccat atgccacccc ataaccaaag accccttatt99241 tgtgttagat gaaacattca aagagcctat taggatagcg gatgagaccc ccaagggaca99301 tgcttataca acaataactg gctccaaacc acactccatg gcagtggctc tcaaatgcca99361 gctcacatca caagccctgt gctaaaacac agagttctgg gccccatccc ggagtttgtg99421 gttcaggagg tctggagtgt gacctcagaa tatgcatttc taacaaattc cccaggggat99481 gcagatactg ctgacccaag gccctccttc tgagaaccac tgttccaggg agaagaaact 99541 cagctaagta agggtttggc tttgtgctga agacaatgtg gaatttagag ttggggtgaa 99601 ttattcagga aagtagagag gtttggagat gtgagggtgg gaagcgcagt ggagggaggc 99661 agagaggaaa tatgaagcag cgtcagttgg agagaaatta ggaagaggaa taaaatgata 99721 tatgccaggg atttcagttt tgctgagccc atgatgacag actcttctct ggcaccttat 99781 gccactcatt gagggcttgt agctggctct gctctttcag agtcataata gggctatggg 99841 tctgacctca aggtgagctg gaatgggcac aagtaataga taaaactgca agaagtcact 99901 caagggtcct tcctagaaca aaggatccct acattccaaa ggcgaatgcc ggtcactatc 99961 ataaaagaaa agaaagaaag aaactgatgg tgacatttta aatggcaatt tttctagctt100021 ctaaaaggtt gtggagcaac tggaactttc ataccctgct ggtgggaatg taaaatggta100081 taatcacttt ggaaaaattg gcagtgtcac caaaagcaaa gcctatacct actatccatt100141 tcactcctca gtatttaccc aagagaaatg agcatgtatg tccatacaaa gatttggacc100201 caaatgttca tgacagcctt atttatatag cctcaaacta gaaaaagtct gtctatcaac100261 aggtgaatgg ataaacaaat actggcctgt gtatctaatg gaatactgct catccacaaa100321 aagaaacgag ctattgatac acacaggagc atgcacgaaa tctcaaaatg ctgaatgaag100381 gaggccagat tttaatttta tttttaatta tttatttatt tatttatttt tgagacagag100441 tctcgctctg tcacccagcc tggaatgcaa tggtgtgatc ttggctgact gcaacctctg100501 cctcctgagt tcaagcaatt ctcatgcctc agcctcccaa gtagctgtga ctacagtcat100561 gcacaagagc aactgactaa tttttgtaat tttagtagag acggggtttt gccatgttgg100621 ccagctgctc tcacactcct gacctcaggt gatccacctg cctcggcctc ctaaagtgct100681 gggattacag gcatgagtca ccgtgcccag ccggaagcca gatatttttt aaaagtactt100741 attttgtgat tctatttata taaaattcta gaaaatgcaa acaaatccat agcgacagca100801 aatcagtggt tgctggagat gttggagggg agaggagagg aatagattgc aaaggggaac100861 aaggaaattc ggggggacag tggatatgtc tgctattttg actgtggtga tggtttcatt100921 ggtatataca tatgtcaaaa acgtaacaag ttgtatacgt gatttattat gtgttgacta100981 tacctcaaaa aggctatttt ttaaaatccc cctcaggctc caggcactcc attacgttgg101041 tgtgacttgt cttggaaata tactttgagc atttgccgga ggagatccag tgcctgggcc101101 tctgtttctt ctcccaagta gaattggcag ctaaaacggg atgcccatgg gcacaacttg101161 tcacccccat caccgaacag ggagcagaag gaggctgctg ggggtgcccc cacagggagc101221 acagtctcat cgggaatgac ctgccatggc aaataaaatc accagggcaa gtcaagggag101281 agaccaggga agagagtgat ccagtctata ttaaaaaagg atgagaaagg ttgaagaaaa101341 agagaagaag ggacagaaat tctcttcaca catttgcaga agtaggtccg gactctccat101401 ccacttctcc tcctccgata ggtaggacag gaatctcaga ggaaatggca tcatcttccc101461 atgtttacag acacagcaat gaactcaaag aacaatctta tcaggatttt ccaaatgaaa101521 acatggagca tatagagaat aaagatccat aaactcgtat ggtggctgag actgaaatgg101581 ttaatgaaaa gcaaaagtgt gtgctgaatg acaccagcca caatggcctg aacacttaag101641 tagtgtaata tacttggaac attgacagct aacaaggtct tcctcccatg tcagaccaag101701 aacacagttt cctaaagata aaaatagcac atgcttttcc acttttccat aagtgactgc101761 attagaaaac taacaaacca tgaaaagcaa aatatggcta gtctcttcaa gaaaaactgg101821 tgtttctatt ttgtctgtaa attactttct aatacaaaaa acaattcctg ttacattgag101881 gtaattctaa ctagggacat atgagagaga gattgaaatc tcatgagctg tctccttttc101941 atctcaattc tgtgtactcg tgggtacaaa tggaactagt ttttgtttgt ttgtttgttt102001 tttgagatgg agtcttgcgc tgttgcccag gctggagtgc aaaggtgtga tctcggctca102061 ctgcaacctc tgcctcctgg gttcaagcaa ttctcctgcc tcagcctcct gaatagctga102 gattacaggc gcctgccacc atgcctgact aatttttttt ttgtttgtat tttttagtag102 agacagggtt tcaccatgtt ggtcaggctg gtctcaaact cctgacctca ggtgatccac102 ccacctcggc ctcccaaagt gctgggatta caggcgtgag ccactgcacc tggcccggaa102301 82102361 gaaaaaacaa aataagatgc ccagttaaat ttaaatttca gttaagcagc taatagttat102421 ttagtataag tacaacccat atacgacaat tgcagtattt gttatttatc tgaaattcag102481 acttacctgg gcatcctagt atcctgtttt ttgttttgtt ttgtttttcc ctttgttttc102 ttttttttcc ccgaaatctg accaccttaa ctttaaggta tttattcatt tttaaaaact102601 aaatattttt cggcagtcag aactagagca aagataaatg atcccaggac tctgtttagc102661 102721 721 cctaaactgc cacagcagga ctgccacact tgggaatccc agtttccatc tgagcagccc102781 ctccagagtt tggaaggagt cagtgcttta gcctgaggag ccgtggatgg ctctaacact 1026323 ttgcttgtcg gttgaataaa aatcaaccca aaggtggcct acactcattg aagtaggaat102901 gccagaactt cagtggtgtc acatagaaga aaatatctaa gtgcttaggg agatggcagt102961 gctagtggat ctactggatc attaagactc actcacccac ccagcgcagg tctagaggac103021 acacccttgc cacactggga agtgtaaatg agctccagca tctttatttt tttttatttt103081 ttatttgttt tattatactt taagttttag ggtacacgtg cacaaagtgc aggtttgtta103141 catatgtata catgtgccat gttggtgtgc tgcacccatt aactcgtcat ttaacattag103201 gtatatctcc taatgctatc cctccccccg cccccggtgt gtgatgtccc ccttcctgtg103261 tccatgtgtt cttattgttc aattcccacc tatgagtgag aacatggggt gtttggtttt103321 ttgtccttgt gatagtttgc tgagaatgat ggtttccagc ttcatccatg tcccgcatct103381 ttaaaaaaaa aaaaaaatct ctaagtggtg gctcttctct gtagatcagg agctgtagtg103441 agcaatgcta caaaactgga gtttctaaat acagggggga tggtgggatt ctgaggaagg103501 10355 103561 ggagccaaag cagtcctcag aatagtctga cccccagagg tctttggcat tggctggttg103621 atcatggtgt ccctggaatt gaaatagaag gacggtctac taaattttta cctgatctgt103681 103 ataagcagaa gagttctatc tctagtgaac agaagtctaa ctttagtcac cagaactgag 1036342 103 aaggtaagct ggctcccctt gaggaaggac cctgttacat ttccggcatt ttattctgat103861 aatctttttt cccagccttc cccaaagcaa cttagggcca tttaccaggg aaagccatgg103921 aggaaaagga aataattagg ctatttggag attccaggac actggctcta cgctgacacc103981 82104041 tcaggggtca ctagagtttg agctcaggtc tgtttcactg tgagtctaga gggtccctga 10486101 104161 catgcttgta gtcccaacac tctgggaggc gaaggtgaga ggatcacttg agccaagcgg104221 tttgagacca gcctgggaaa tatagtgaga ccccatcttt taaaaagaca aagaaaaata104281 aagaaaattg acatggaaaa ataatataaa atgtgaataa tctcacatct actaaagaaa104341 ttcaatctgt aattagaact cctcccacag agaactataa gcccagtgcc cccatcaact104401 ggagaaacag aaagaaacaa tcttcttaac agaaagcata attggaatag agatactctg104461 catcggggaa gaatccccat attgattctc tgatccatag agtgaaggcc aagtggaagc104521 ctttggaact ccctctacct gccaagatac taaacaaaac aacactgcac gtctggagga104581 581 104581 attgtagcaa gaacttgaaa gatgaaggat gatgatgtcc acctctctcc attcagctca104641 cctatctggt ttgtgcagaa gacaaatagg tgttggaaaa tgacagtgga ccagtgtaaa104701 cttaatcagg cgggggctcc agctgcagct gcaggatcag gtgttgtttc atttctgcag104761 ctaatcaacc cttctcctgg cacctggtgt gcagatggca atttttcttt tctattatct104821 gttagtaaag actatcagaa gctgtttatt ttcagttggc aaggtcagca atacactcca104881 agggaagagc agtctgtctc agatcttacc gatgcctggg gatagggagg gagtggcccc104941 ctcaccgtct ccaaggccta gtcctctgct cctgctactg gcagcaaatc cacgcaggtc105001 105 105001 tgcaacaacc tcaattcctg cctcctcaga agaaagaatt caattgaggg acgtaagaca105061 gaaggagaga ctgaggcaag ttttagcaca ggagtaaaag tttatttaaa agctttagaa105121 taggaacaaa aggaaggaaa gtacacttgg aagagggcca agtggacgac ttaaaaagca105181 105 105181 agtgcgtggt ttgacctttt gacttggggt tttatacgtc agcatgcttt cggggtcttg105241 10539241 105241 cgttatttct cccctggttc ttcccttggg gtgggctgtc ccatgtgcct gcctgagccc105301 1056326 105 105301actggctcaa ctcctgagat cttataggga aactactgct caccagtttc gagtgttttc105361 105 105361 tatctattag gagccggctt ttccctgttg ccgggtgtga ccaattatta ctttagaaag105421 acagtcaaca accgccagac catcacctga tggtcacctg acactcctgg tgtgtggggt105481 atggggagcc ctctcctgcc ctgctctttc tgactagcta cccactataa cactcccaga105541 105 105541 gggacctgca cattttgtgc tctttgcaag acagtgcctg cccagcacct gtaggcctgc105601 tcaccccttc 1056392 agggtcatga tttttgcttt ttaccgcagg tacccataag caaaacatgg105661 cattgttcac catgctttta cattattcac ataattttaa gttatttaca caacaatgta105721 aaaccatggt gaaccatgcc acatgttgct tatgggtacc tgtggtaaaa atcctgctac105781 tagctcattt tgcagtgtct ataatgacag gtaatgctcc attcactcct ttatgacact105841 tgcaaaaact gagaacataa cgcctcccag ttaagcaggc atctgggcaa tgtgaggaga105901 acagaaatag accacgctgc atttatctct cttgatgaca ggcattgaga tttccacttt105961 ttctggtttc ttattatgtc tctactgggc attcttacat acatcttgca cgccatggaa106021 agtttctcta gggcagtggt tcacaaactt tttggataca gaatactttt atgtgcttga106081 aaactgagga ccccatacag ctttagttta tgtgggtgta aggttctagc ccaaactgaa106141 gtccgaaggg agttggtggg tgggtgaggg gtagctgaaa aaacacccga ggaatcatag106201 gcagtttgaa catggcctta tcctctctct gggcacgagc catatgtcca gtgtcagcag106261 ggtaattata ccttttacag acaatagagg ctctgaagca atcacgagct cacgtgagtg106 gtcacctaat gcacctcaag tggcatggtt cataatgtgc ggagtcgtgt gcctacgctc 10658381 caaacccact gagtcatggt gcaccaaaaa gtggcctcag cctgctcctg actaaagcgc106 agccatcttc cttacactcc acccctaggc caggggcatc ctccaggtag ggacatgtgc106501 ccgtagggtg gagccctgaa tccataatcc acagcaacaa tacggagagc aacagctcat106561 gactaggatt ccagctatgc tacttatgac tatcagggcc cagcgtaggc cagagcccag106621 ggatgtctac catctctgca gggggtcatc agtaaggctc ttgactacct taatctcctg106681 tgagacccct tgcagggctg ctgttatgtt ctgccaattg tcagggataa aggtacaaca106741 ttgtgttcct aaaagggcac aggtgcctcc ttaggcagca gttactatgt ctaagaccat106 tcggtttcgc aacaccacct ttctgatctg atcaacctca tccattaatg ggaagagggc106861 cactcaggtg taattcagag cctgagcagc atgctctgca agagcagtaa cttggcttct106921 acagttgtga cacacactcc agggctagtg cctgtcaagg ggtaaaacca ccagggtgct106981 cattacactt gcaaaaaccg agagtgtagc acctcccagt tatgcaggca tctgggcaat107041 gtgagaacag tggcaggtac atgaggccac cctcaggtat aatgtccagt ccagtttgct107101 tataggtaag gccaccctgt gtccccacag acccataaac tcccaggggg cacacagtcc107161 atcgaggccc cttggtgggg ccgcgtcttc caccatacct ttggtgtggt gacatgtatt107221 atgcttacac acactgtgac gggtacccat cccacagtgc tattacccca gtgttgctat107281 atgcaccaca gtgcctgggc caggggtact gcacgttacc tcactagcca gccccaccca107341 107 107341 tcataaatgc tatgggccag ccagggaatg gctgtgctgt gggtcttgtg gcatcctttg107401 tccaaaactt gccacgttgc gttccaggca tcagccatgg gaccccaagt ctccagccat107461 gtctggttct ctgcagatgc tgaatgtatg tgctaaggca agccatctgc agctgctaga107521 agggcggtgc agatccaaca gttggaaaca ttggtcactt cagtgtaggt gtgggcccag107581 tccacaatgc agttggagca tgttaaccta cagttggaat gacagagtag gcataggtac107641 107 107641 taacagagga aaatcacatc cctcaggtaa aatacaggct aacctttcat ccctggataa107701 caatgcagcc cccaaggggt tctgccctgg gcaatagtac cacacctttt cagctcccca107761 tggttccttt gggtcctgta ttcatgcgaa agtcacaggg gagcttgtag taggccacac107821 agacagtaca tttgaaccct ggaggaaagt ttcttccctg gccgttttcc tacaaacagt107881 taacttcggg gaccattcat tgaacaccca aagagtgaca tacaagtcat actgtaggcc107941 ctccccacag ggagctacga tggacaacca ccagcagccg ggggcttgga ggggctatgg108001 ccacagccag gttttctgtt cccctgcctt cagggacgtt ggggcaggca acaacaggtt108061 actgttcatc cccatacctg gtcagaggcg gttacccttg gtgtgtatct gcaactgaat108121 108 108121 aggggtggtg gcccatgtaa caaagcctcc acctgggctg ggctgctttt ccatggccat108181 tcattcaagg tttggagcat caggtccagc ctggaacttc agccctgcaa agacaggagt108241 58241 108241 gtgacatgca agtaaaaccc attcttcaag agctcgctat atcactcaat catacccaca108301 108 108301 gcttgcaagt tgtgcggtac atggaatccc tactttatgt ccattgttgt gcctgttgtc108361 cagtaaaatg tgtcccccat cactctcaat gaccaaaggg caaccatata gagcacataa108421 gtgttgcagg gtctggatgg tgtgctgttg gttggccacc ctgcaaggat aggcaaacaa108481 caggcctgtg gctgtgtcca cagctgttag cgcatgagta tacccttgtg acttcggcag108541 541 108541 cagcccaatg tagtctactt gccacctggt caagggcact tgccctgttg tcacttgtgt108601 agcactggac agctgcctcc atttagggta tgcctgagcacatgccgggc atttctgaca108661 agcctcccaa atgtcttgca tgggcagaga cagaccccaa catttattga cttgttgcat108721 108 108721 cagtttaccc cctgcatgtc ccagtttccg gtgtagctac aaggccacat ctcatgtaga108781 tgccaactct aaccatcgga ccttggccaa ggcttctgcc tcgtcattgc tgggggtggc108841 108 108841 cagaggcata tggcctgaca aatgataaat agttacatct ttgcaatgac ccatttccca108901 gaggtcttgc tacatgggtt ggtggcccca aatgggttgg tggccaacta gccaattctg108961 tattttccaa gtagttaaac acaaagttag gcctccatag actgcccagc tatcggtacg109021 gattaccata ggtgtctccg ccttgttgat caccatccat actgctttaa attcagccca109081 ttgactactt tgtccacatc tggtttcaaa ccatatggtt ttggtactaa gttggactgc109141 aacactggtc caagcaggag tagcacctcg actagaccca tctgtgtgcc atgccccatc109201 aggaatagag ggatgccctt ccttaaatgg cagtggctca gggtcaaggg gtgcctcagg109261 ccccatggcc ttctcttgca ttaggactgc aggtcccaag acctcttgca actctgctgc109321 taatgggctt gtgctcagcg tactctgttg ctccaagtaa gtgcctcact ttgccaaagt109381 ggatgtctgc accatcccag tctggggggt cattacacat gaatgcaccc atcccgctgt109441 caggtaagtc atccacactg tgactgtagc ccatcctatc acttctcaca agcctgaagg109501 gcagcatata cagctgctag ctatttctct atcaaggaat accagagctc agctcctttc109561 catagttggg accaaaagcc tcctggcatt ctcaggcact ctgtgtgctg ccacaggccc109621 aaactaaaac catctgtggt cacatgcata tccagttcaa atgggcaccc cttgtcaaat109681 acccacaggg ctcgtgcctg ctgaatagcc cacttggctg ccaggaagcc agtctcagcc109741 acatcagccc aatcccagat tgctcccttc tttgttaact gatacaatgg ttttatcatt109801 tgagctaaat gaggcaggaa tgtccaccaa tatcccagga ggctcacaaa agtttgcagc109861 tgcctcaccg tggtgggcca gggatatgcc taaattttgt caatgatagc ctcttgtatg109921 gccttcatct tacccgacca gataactccc aagaatttag caggtaatcc aggccctcgg109981 accttggatt tgttgatggc ccaactgcat gctgccaaat gttgccacaa gaggggtgcc110041 actgcttcta aatctgcaag agaatcagag gttaacataa tatcatcaac gtaatggaac110101 aagtggactc cctttggaca ttttcaggct gttaaatcca tggcaacaag accatgacat110161 atggtggagc tatgcacata gccctgcagc aacactgtga aagtccattg tcatcaaggc110221 aaactgttcc tggctctcta gagcaaggtc aactgagaag aatgcattgg ccaagtccac110281 cacatagtgg tactgtccta attccattgt cgagtggttc atcaaatccatgatagatgg110341 cacagcttcc aagccatgta aaatatccac ctccagaatg tattcaggta tgggagagac110401 atacacagtg tataagcaag gagccaagtg gccaatgcca aggtacagag atacaggttt110461 cactttcact gactggcctc cgtaaccttt aatatatgca gatttgccca aaaacttaac110521 tgggttccca taaacaaggc tacaatctat gccagtatct accagcacca gcacccactg110581 tacattggtg ggggaccagt ggattgccaa ttccacatgt ggcctctggt catctggtgt110641 ccccccaagc cagacacctt tggccagttc cctagttgaa cagaaaaggc tctacatttc110701 cacctggctg cagcaagtag tctctgagct gggtaggacc aggtcacaca gcaatgcctt110761 tctccccttt gggcattttc cggaattgct gccctgcata caactgtctc cgcaaagtta110821 ggagtatttc attgggctgc ttatcaattt tctctcagtc aaccccagcc aaaatcaaat110881 ctatccacat ctgtgagcgt gtcactcgtt ggggccccct ttttttatgg gggagccccc110941 tgtgggtggg gtaacttccc cttctttatg gtgtggaccc tccaatcccc ctgaaggcct111001 tctgcttccc tgagagccgc catggcagtg gttacttcat gtatgcggtg ccctacgtat111061 ggggtgagga cagcagctag ggagccaaag gggctcagga gcatcaaacc caacatgaga111121 tccctcatgt gggaggtgaa acatttatca tctggccctc aggtattcag gacaaacata111181 111 111181 gcctgccgca tacccatctc ccgaatgact tacaccaaat tggcatatga ctgccattta111241 ctcacagttt tgggcatttc accagcatta ttccacacag ttcatatggc tgcctgtagc111301 111 111301 cactcagtca gggtgtggtc tccttgcgct gccactaacc acctgctcac ttgcagccgc111361 111 111361 tgacagagag aggggtgagt catggtggag gccagcttgt ccatctcaga ggtggaatgg111421 gagataccat ctgctccctt gttccacaga cgaagcatcc aggcaggcag gggttcccct111481 ggacactggc aacactgctt gcctaattcc tgcaactcag ttggggtaca ggcaatatac111541 gaaatgtgtt gcattatggt ggggagtccc tgagtccacc cttggagccc cagtggctgt111601 tcatgatcta ccttctgtca gaccaccggg tgagcccgca acaggggttc ttcctccttg111661 gtatgaaact gagtggggat ctccagacaa gatgatggac ccaggcctgc attcatggta111721 gcctctaatt ccttttccaa gctctgaagc cacacctcca ggcatcctgc ctgcacctgg111781 aggtccccat tcatggcagc ctctaattat tttccagatc ggtgtagcca gacctccagt111 ctgcatccct cagggactgg gtgtgtactt ttcttagcac agttaaaaat gcccatccaa111901 ctctgccagc aaaggctctc tccttcttgg tgctctgcac ttccagctgc ttcagcgcct111961 tctccatgct catgggggac ccatctactg ccacccaggt ttccactcaa gcccaccctc112021 acagcacggc taccaccggg taccacaacc catgttgtgg tcacatggcc aacctggaat112081 cagcagggac cgaaggctca cttaccttag gatcctgttc gtgatgccaa ttgtcaggtt112 ctagcccaaa ctaaagtcca aggggagttg gtgggtgggt ggcaggtaac tggaaaaaca 59201 ctcgagtagg cggtttcgac atggctttat tctctctctg ggtgcaagcc atatgtagtg112 tcagcagggt aattttacct tttacagaca atagtggctt tgagccaagc acgtgctcat112321 atgagtggtc acctaatgca cctcacatgg catggttaca taatgtgtgg agttgtgtgc112381 ctgcctccaa acccactgag tcatgctgca ccagaaggct gcctcggcct actcctgact 82441 112501 tttaacacag aagttttaaa tatttacatt gttaattgat tttgaaataa taagcccatt112561 acaggttaac ataattaaca tacttttatt aaaaatatct gtatttttta aaagaaaaaa112621 aattagcaac aacagtgatc cttggaatcg tcccacctca gcctcccaag tagctgagac112681 cacaggcgca catcaccatg cgagctaatt tctatatttt ttggtagaga tgggatcttg112 ccatgctggc cagggtggtc tcgagctcct aagctcaagt gatcctcctg cctcggtctc ccaaagtgct gagattacag gtgtgagcca ccacttctgg ccagaagctg gattctctgt112861 cttgttctcc atccaatctg ttagactgtc aaatgccaaa taacctttgg aaaattctac112921 tcgtaaaata aggagagaga taaataactt ctgagtatca tcattaaaat agtttgacct112981 catggaccca ctgggtccca tgtggagaat agctctaagc taaagagtag aatggctggg113041 aggggacata aacattcagc ccatagctgc tgaccacaat aacacatttt aagtctcttc113101 ctctcctgct ccttgtgatt gcagacagac tcaatctgta ggagagctgt agagagaaca113161 agctcaagcc cctgattttg cctacaaaga aagctgagcc cagcaaagtt aagggactta113221 cccaaggtca cacagccaca cagcagagct ggggctgagc tccaggtgtc ctgctacaga113281 ggccacttct ttctcccact agggactggc ctgtgattac ttcagaaaac aatggtcagc113341 taactgattc tgaacgccct ttgctggtaa aagctaatct cctgaggaaa aatgtatgca113401 ttggctgggc gcagtggctc aagcctataa ttccagcatt ttgggaggtg gagacaggtg113461 gatcacttga ggtcaggagt ttaagaccag cctggcagtc atggtgaaac cccgtctcta113521 11324 113 gagactgagg caggagaatc gcttgaaccc aggaggcgga ggttgcagtg agccgaggtc113 gcaccactgc attccatcct gggcaacaga gtgagattct gtctcaaaaa ataataatag113701 63701 taaaataaaa ataaataaac aaataagtat gcatcacctc aggtggtcag tcagctttcc113761 caagacccca aagcacacaa tgttctttct ggtatgagtg acatggggtt cacagcacca113821 caaagtccatgacttttccc tcagaagtga atgcatggct aattattttg tattttttgt113881 agacatggag ttttgccatg ttgcccacgc tgctctcaaa ttcctggact caagtaatcc113941 acccacctca gcttcccaag gtgctgggat tacaggcatg agacaccgca tggcctgcac114001 ctatagtccc agctatcagg aggctgaggt gggaggatca cctgaaccgg ggaagttgaa114061 cctgcagtga actgtgatcg ctccggtgca ctccatcctg ggcaacagag tgagatcctg114 cctcaaaaaa aaaaaaaaag tgaacacaca tgctggggaa gaggcctgca ggcacccctg114181 ccagttctgc accagagcac actgtagcag ccctgctgtg atgcaggaag cagctccagg 241 tcctgcagtc tgaagcatgg agcctgaagc ctggagcccc ccatccaatg ctgcgccatg114301 ctcaccagta tcccccagca tcagcaccga ggcaccagct gcagataaat ttctcaccta114361 aaatgttgag agatgttgct aaactgtcct tctaagggta tgtataataa tacggtcctg114421 ccgatactga ataagactat ctgtttcatt acatcctcac aatactgaat atcattagca114481 acttgaattt taaattgtgc taatcaatga aaatgattgc ctaattacta gtgagttgag114541 gttatttaac attaatactc cttctgatga aatattttgc atttatcaca ttttacataa114601 attctctcta tataattagc actagaatgt ccgacttggt tttcattgtt cctcacctgt114661 ttggaaacac attaagaatg agggagagaa tggatgggga ctcacctagg gatgcatgga114721 gctggtcggc agccactctg aggccctctt aacacttccc caccacacac ttaatttccc114781 ctggtttgtc catagataca tccaacaatt tttatgtaaa taagaaagac tcagctttca114841 atggaaaatg gtaggttgga ttttatgact gaagtggcaa aaagaaataa gggattttat114901 58 tatgggggag gtccaaaccc tggtgaaaaa cgaaattcat tgaaattgtt tgaaaattca114961 aggattaaat cagattattt tggattcagt aggaattaga ttactttaaa gccccaggat115021 actttattct gtagaatgca tggaaagtat agaaaagaga aacaaagagg gaaagtcatg115081 gctaataacc tggaaggggt aaatagggag ccaaaggcct gtgggacgta accaactcag 11563141 cattccactg gaggctttat gatcaaatag caagctattt atcatgaatg caggatgtgg115201 gcaaactcac gactgctccc actgccagaa ggtttgctga gggcaatcac ttcctggcac115261 cgagctcctt gaggttatct actgggacat ctggagaatg cagtcttgca agcctactct115321 ggacccagca gctgacccct tcttccatgc ccctcttcct gctatctctt ttgcctaata115381 aatatggagg gctgtgtaaa gctcagggcc cttgtccact agaggcaaac tgcccgctga115 ccccttcttc caaatatgct cttttgtctc atgtctttta ttcccgcttt caccccactt115501 tgttcagtcc ccctagggcc gtgtgggtta catagtggcg ccctgaacag cgacagaatc115561 aggtgctcta caagtggcgt ccgaacacag ggactatgag gatgtgaatg aagaagatct115621 gctggagcag aggaattgaa attgacaagg tgaatgggga tcccgggaca agtctgccgg115681 cagcagatat aaggtcagtg ccctaaagag gtactgggag cagtgcctta aagtagtact115741 gggaatggga agttttctga atcagggtaa catggggcag aattggtctg ttgaagaaaa115801 acattatgtg cagttgctta aagttttgtt gaaacaaact ggtgctcagg ttagttctca115861 cattaactac gatgctacag gaagtcatta tgcataaccc atggtttcca caggcaggga115921 ctcttgatgt agaaaattgg gatagagcag aaggattaaa acaggctcat caaaaaggtt115981 ttcaagttga ttcttcagtt ttctccactt ggagtttagt tcgtactgta cttctgccat116041 tatctccttg ttattctgcg ggacagcagg ctgaatgtaa aaatctgaaa gaatctgttg116101 tcccacccac agctccagtt gaaaataagt aataggagag ggaggataaa aattggccta116161 taccgccccc tccagttgca gaaacatctg taccgcctcc ttcggtggca gaaacagaga116221 ccccaataca aagaatttta cgctctgccg ccacggctgg agagccctta ggaccttgca116281 cttttcctat ttccgtaagt cctgatccaa ataatccaca gcagcttaat catgaacaca116341 ttccactaga gtttaagttg ttaaaggaat taaaagtgag tgtggtaaat aatggcatac116401 11624 116461 ttgatgtgaa acacttggca tgaacttgct tgtctgctag cgcatatctg acatggaatt116521 taaactggca agaacagggt gcagaccagg ctagacagaa ccatgctgct ggaaatggag116581 acattacaga ggataggcta ttgggtaatg gcccttattc tgacctggta catcaactag116641 cactcacaaa tgctgcttat cagcagtgca cacaggctgc taaatgtgcc tgggccataa ttcctgaaga gggagtccca gtactatcat ttttacatat catgcaaggg tcacaggaac116761 cctacgcaca atttcttgca agattacaag aggcagtgag gcatcagatt cctcatacct116821 tggctgcaga aatgctaacc tttactctag cttttgagaa tgcaaatgca gattgtaaat116881 gtgcactggc accggttagg tgtacaaaaa cttgggaaat tttctcagag cttgttaaga116941 tgtagcaact gagctttatc gatctgcaat gttagctgaa gcaatggcta atttagctgt117001 tgacaaatct aaaaagagcc aagggtcaaa ccctaaaatg ggaaaatgtt ataattgtgg 061117 aaaaactgga cattttaaaa aggaacgcca ccagatctca ggacagaaag gatcttacaa117121 tgcttttccc cccggccccc agcggaaaga acacctggac tttgtcctcg ctatgacaaa117181 ggaaataact cggctaatca gtgctgctca aaatttcatc agaatggcac ccccctgttg117 ggaaatgaga tgggggcctg tacccgggcc tcacaaacaa tgagggcatt cccaattcag117301acctcaaccc tgtttcaggc atgggttccc agaggcatat tgagtccctc acccgaggaa117361 ctccaggaag tgcaggatta gatctcccag ccagagaaag ggttacataa ggtggggaag117421 acaaacccac caagattctc actggcattt ggggaccttt accagcagga tatatgggac117481 taattttagg caaaagccac cttaacttgc aaaggcatta ctgtagtccc agaagttgtt117541 gactctgatt atgaaggaga aattcaagta gttttattgt cacgagatct tcgggttttt117601 gaaccgagag aatacataat gcaattatta cttattccct gcaaattaca cccttctcca117661 tgaaaggaga aacaaggaaa taaagggttt gggagcacag ctacacggga aatctatcta117721 721 tcccgaccca tagcctctaa tagacccacc tgtgtagtac aaattaaagg aaagaaattt117781 tatgggttta tggataccgg agctgatgtg tcagtgttac cagcaggtct ttgttcttag117841 agctcccaag atggcggcaa gccttttgtt ctctgacctg gagttcttgg cctcacagat117901 tccaaggaat ggatccttgg gccatgcagt gagtgtcata gctctattag aagctcttcc117961 aaaagtcgtg ctgctatcta tggactaaaa catactcaaa caataatgac ctctggcgtt118021 taggctcaat gctcagagct aattgcagtc attcaggttt tacagctcac agcttcagat118081 cctgtcaaca ttgtctgtgt tcagtttatg tcgtaaatgt agccggtcac atagaaactg118141 ctacaattaa aagtacgcta aacccagaac tgctaattta tttttaagac ttcaacaagt118201 tatttgttct agtgcagctc cttttcatat ttctcatatt ccttctcaca cacaacttcc118261 tgggccgcta tctctaagta atgagaaaac agacaaactg attgcctctg tgtttcagca118321 agctcaacca tctcatgtgc ttctgcacca aaatacttcc gcccttactc acatgttcct 381 118 acaggtttgt attatattat gcagtatatc cctcgagcca cacctataga aggatgtaat118 ccacgaggtt tggctccaaa tgaaatctgg caaatggatg ttacacacac agcaaccttt118 gataagctga gctatgttca tgtgactata gacacttatt ctcatatgct gcctgctaca 11836561 tgccaaacag gtgagacagc tggtcatgta cagcgacact gtctgtcatc atttgctcat118621 atggggatat ctaaacaatt aaaaactgac aatggacccg cttatactag tcatgctttt118681 aaaaatttct tgcagctttg ggctataacc cataaaacag gaattcctta taatcctaga118741 ggacaaggca ttatagagca ggcacatcaa acattacaat gcatgttgaa aagacaaaaa118801 gcgggtatag gaggccaact accacctcaa taaaaactac atttagcctt atttacttta118861 aattttttga ctcctggtat ggatggtaag actccagcag aaagacattg gcaagtgtta118921 gaagaaaaga ggaaaattta tccaaaagtg ttatggaaat ccctggaaga aggaaaatgg118981 aaaggtctgg tggatttact gacgtgggga agagagtatg cttgtgtttt tacaggagat119041 ggacaagccg tgtgggtgcc ctcaaggtgt gtgcaaccat ggaacgggag actagaggaa119101 cccagggtgg ccaaccatgg acagggtccc cccggtacga gccatgagcc agctgagcct119161 gagtgcaaag acggagagaa ggccaactgg agtcacaaca cagttctaat gttatatttg119221 taaagaatat cactactcaa cttacagttt gtgtttatag atatagatat agatatagat119281 atagatatgg atatagatat agatatagtt atagatatag atagatatac actttaagtt119 ctagggtaca tgtgcacaac ttgcaggttt gttacatagg tatacatgtg ccatgttggt119401 ttgctgcacc catcaactca tcatttacat taggtatttc tcctaatgct ctccctcccc119461 cagcaccgcc tcccaacagg ccctggtatg tgatgttccc tgccctgtgt ccaagtgttc119521 tcattgttca atttccacct atgaatgaga acatgcagtg ttttattttc tgttcctgta119 ttagtttgct gagaatgatg gtttccagct tcatccatgt ccctgcaaag gacatgaact119641 catccttttt tatggctgca tagtattcca tggtgtatcc ttatgtcttt ttgacagcta119701 agaaggacca gctccaggta aacaataccc aattgacctg taaatcttac caattatatc119761 actgcattaa tcatagcaca ttgcaaacac ataatatctc tactttgatg attttaggcc119821 acatccctgg gctatgtatt cctgttaatc tgtccgaggc ttgggctgcc acacctgctt119881 tgcattttgt gaaacttctt ctaactgagc ttactcatca tgtctgtaga gccttagaca119 taataatttt agctattgtt tccttggtcg cactaataac ttctgttgtg atgtcctctg120001 3606172 941 accaagcatg gctacttcag aataaaatta acactgagtt acaaactgaa gtggtgttat120121 gggaagtcag ggaccccaaa gagagggacc agctggagcc acagcagagg aacgtaaatt120181 12039181 120181 gtgaagattt catcttaata cggatattta tcagttctca aataatactt ttacaatttc120241 120 120241 ttatgcctgt ctttaatctc ttaatcctgt taccttcgta agctgaggat gtgcatcacc120301 tcaggaccac tgttataatt gtgttaactg tacaaattga ttgtaaaacg tgtgtttgaa120361 120 120361 caatatgaaa tcagtgcacc ttgaaaaaga acagaataac ggtgattttt atggaacaag120421 ggaagacaac cataaggtct gactgcctgc agggtcgggc aaaaagagcc atatttttct120481 ttttgcagag agcctataaa tgaatgtgca agtaggaaac atatcgctaa attcttttcc120541 tagcaaggaa tattaatatt aataccctcg gaaaagaatg cattcctgag gggaggtcta120601 taaatggccg ctctgggaat gtctgtcttg tgcagttgag ataaggactg agatacgccc120661 tggtctcctg cagaaccctc aggcttacta gagtggggaa aaactctgct gtagtaaatt120721 120 120721 tttggtcaga ccagttttct gctctcaaac cctgttttct gttaagatgt ttatcaagac120781 aatacgtgca ccactgaaca tagaccctta tcaggagttt atgatttttc tcctgtcctg120841 120 120841 tttcctcagg agcatgtgat ctttgttctc ctttttgccc tttgaagcat gtgatctttg120901 tgacctactc cctgttctta caccccctcc ccttttgaaa tccttaataa aaacctgctg120961 961 120961 gttttgcggc tcaggtgggc atcacggtcc taccaatatg tgatgtcacc cctggaggcc121021 cagctgtaaa attcttctct ttgtactctt tctctttatt tctcagccag ccgacactta121081 tggaaaatag aacgaaccta cgtgaaatat tgggggtggg ttcccccgat atgtgatgtc121141 121 121141 acccctggtg gcccagctgt aaaattcctc tctttgtact gtctctcttt atttctcagc121201 tggccaacac ttatggaaaa tagaaggaac ctatgttgaa atactgaggg tgggttctcc121261 caataaagtg gtaatgttga aatccacagt tctatggtta ggggaaaagc acaaagcttg121321 121 121321 caattgcagc agcaattgca ttgtcatttt aatcacactc atatttgtgt aaccaactta121381 gaatataacc aaagtgagta tctgtgggac gttgtgaaag cccatttgca gggagctttc121441 121 121441 acatctaaca tcacctttga tattggtgaa ttacaaaaca aaattcttga tttacatagg121501 caaattcaag agtttctgcc ttctttagaa gactggacca aattccagca aggcctggag121561 agcctcaatc cttggactta tctaaggcac tacattaaca tcttacatgt agttcttgga121621 ataatattgt tttgtctctg tcttctgttc atagcctgta aaattggatg gaccaccaat121681 cggaaaatga gagctgccca ccctggcctt acattctttc aattaattca taaacagaaa121741 gggggatatt tagggagcct aaggctcgtg ggactgacca actcatcatt ccactggagg121801 ctatatgata aaacagcaaa ctgtttatca tgaatgcagg atgtgggcaa actcacgact121861 gctcccactg ccagaaggtt tgctgagggc aatcacttcc tggcaccagg ctccttgagg121921 ttatctactg ggacatctgg agaatgcagt cttgcaagcc tactgtggac tgagcagctg121981 atcccttctt ccacgccccc cttctcacta tctcttttgt ctaatcacta cggagggttg122041 tgtaaagctc agggcccttg tccactagag gcaaagtgcc ccctgaccgc ttcttccaaa122101 tatactcttt tgtctcttgt cttttattcc cacgtttgcc ccctttgttc agtttcccta122161 ggtccatgtg ggttacatag tggcaacctg aacaatgaca gaatcaggtg ctctacagaa122221 ataacttttt aaggaaagat ttgggactta gagaccccag gagacataca caaaaatgat122281 aagaggatgt gcccaaacca gtcttaaagt tgtggcacag ggtgaggaag atgaagctgt122341 tactgaacct cagagagtga ctggtgttac agcaaaagtt agcaatggcc tgaagggagg122401 gtttctgaaa tcaaatatga atgattcccc ctcagggaac ccaaccttgg gaactactgc122461 695 521 gcatcctgca tctagtcaat cttctgtttc tggggtggcc tgtgcagctg tgcaggcaga 12282581 ggcccaacca tcctggtgag tggcacacag ggactgagat ccagccacac ctaccaggcc122 atgctctggg aagggggtgg gacctgggca aaggacacct ctctaggact gcacagaagc122 ctttgtgggt gggtgggaca ttcctgtgat ggccttctgg ctgggcacta tgaaatgctc122761 tgaagatttt tccttgcact gttgcactaa ccccagtcct ctatcactgc cccttcctcc122821 tgggcgactt cactgatgtt gtggccatgt gaattctctg gccaatgaaa tgataaagat122881 gatatggcct ctgccaagca gacactgtaa gtattattgt atgatgcttt tgtctctttt122941 tttaaagtta aagcagttta ttaagaaaat aaaggaataa aagaatagca ctccataggc123001 agagcagctg cctctgtctc ttatattttc ccctctgcct caagcccaac atgcccaaaa123061 ttggggctgc tggttcagcc tgggtctcag aataaagaca tgggccacag atccattgct123121 gacccatgat ggagatggac acaagagaga aacacatttt tgtcatgtta gccactaaga123181 ttttgatttg gaggccattt gctacagcaa tataacctag cgtgaacaga gagacacagc123241 gatgttccat ttcttttcaa cctggaacag gagaatttca taggtgggcc tcaatttcac123301 tttagtatct tatttagaca agaaagttca tactgttcaa atgtcatgtt taagagtgct123361 ggcattatca ctgctgtggc taccccatca gatgttgctc actgactaat cttctcatgt123421 tagtgaggat ggacaacata tcaggccata attcaaagta gcaaatagga aaagagcttc123481 atcctagcat tatgggacct taattaatgt cctttcctga caggtttcag aggcttttgc123541 aggcagcagc agagctattc atctcactga cagtggggaa catggccaaa tggttgcccc123601 cacaatggag gcagagtttc aggacacttg tctgatctct gcccttgaag gaacagtctc123661 accctgattg acacttttgc ctgttatgtc caaagaacca atggaaaagc aggaaaatta123721 ttccttcttc atttctctct tcattattta aaattattct gtcttcactt ctctctcctt123781 ttctctgctt cctacttagc tctttagaaa tgcaattata atcttttatc tccccttcac123841 cagacactcc caacagggca agttcatcta actatgtgct cttagttaga cgctacagag123901 cagaactctc tcccaccaag agactacctt gagacataac agtcaattca caagccaaaa123961 tatgcccgct atgaaactct cccatctgga aattttttgg ctgcttttac aacctagttt124021 tgcccacaaa ggcaccagca gtaaccaact caactgcctg gtagacaagg caccaaagcc 081 agtacccaga ccctctacct gctcacttcc tgccttgcat gccacgcccc ccatttaaaa124141 gcctctgctt tctgctccaa aggtgaagca gttaccctta aggaaagaag cctgtacttc124201 124261 agactctgca agtgatgagc aactgaacct acatttcagt tataattcct atgcttgttc124321 ttcctgccct gccttgggga cacgcacaca ctcccaggca catacatgca cgtgcactga 381 gacagctatg tgaataacca acaagatccc cttaggaaaa ccggtgcttg gcctggcctt124441 aaattccaga cccttgggca tcatacccaa gactgcaaga aagaggaggg gctggacctg124501 aaaaacttgg aagggaaggt ccaactgtac aggtattttg tcaggcatgt gatttcagta124561 taaaattcta gaaaagatga gtgacacttt ataaggagag aatatcaaca aaatttctca124621 ttttacttct tgctaagacg acagcaggga attgtaagca gatggatggg caatccccac124681 cttcagcagg ggaggccaag gccccaacac acctggggag aagagctggg ggcagtgaat124741 ggctgaggct ttcttgggga gctgggccat cttcttcggt tttacttcct gaggaattca124801 caggcttcca ggagggctgt gggacacaac agagcaagag attcagaaac tgatttcttc124861 cattaaacca gttatttaat ccaataaatc aaagagaata ctaagagttt tctctgccct124921 tctcccatca ctgagtcagt gcttgccaca ctcatattcc cactccccta ctcctagcga124981 ctacggtgtt caagggagcc agagtctagc cctcaccagc cagggtgttt ccctgctctg125041 gcctgagaga cacaaccacc ctgcacttgt ctctgattga atcgactgtc acattctcaa125 gttcacaaga cattggtggt cctctagctt ctcccggaat gtgaacctgt ttgcaatcat125 gttcacctgc agattcactc attcattcac agatccttac tgagcacctg ctttgtgtga125 gttgctgtgc taagtgctgg ggacacagca tggatagact ggcctgccct caagaagcat125281 gtggtctatg cagtcctgag ctggctgctc acaagaagag ccctgtagcc atatttctca125341 gagggtggtc ctgacctgca tcacagtgac ctgagttgtt tgtcaataca gaaaagggtt125401 tctcaacctt ggcactattg acatttgggg cctgataata accctttatt gcagggggct125461 ggctgtgctt tgtttagtag catccctggc ctctacctat ttgttaccag cagcaccctc125521 tatgttgtaa gaatcaaaaa aatgcttctc acattgtcaa atatcccctc aggggaaaaa 12586581 125641 aacagcatcc ctaatgcccc caactctggg tgagggacca ggaataggaa tctgaatgat 125125 tgcagtgcac agggagctgt gcacactgaa atcccacagt tatcaccggg agccttacaa125761 tactctgtga tgtcttctaa atatttttaa gggattaaat taatatcaac atatttccct125821 ggttaagatg tgttttccta cacttgaatt tttttgagat tttgttttct ctatagttgg125881 catctatggt aactgtctag aatcagattt tttttttttt ttttttgagg aagggtcttt125941 cggtgtcacc taggctgtag tgcagtggta caatcatagc tcactgcagc ttcaaccttc126001 tgggatcaag caatcctcct atttcagcct ctcaagtagc tgggactaga ggtgcttgac126061 accacaccag gctaattttt aaaattattt ttgtagaaca aggtctctct gtgttggcca126121 12684 126 gatgacaggt gtgagccatc acacctggct ggttttgtca tttctcaatg catatgtata126241 tatgcacctt tcattttact gaataaaatg gattatcagt ttccaaagat ttcatgacag126301 126361 tctctaatta ttttatcaat gagattataa tttcctgaac tgtaaagaga tattatcttt126421 ccttaacatt tttacacctg tgttcgttcc tagaatgctg tttggccctc aaaccttgac126481 cttcacccat ggtggtttct cggggatgct agctagggtc tacttacggg aggttgagca126541 ctttttcaga ttagtaatgc ctgcgacata ctgtggtccc aaatattttt catatgttgt126601 tttgccatgg agtctggcca gacactcagt gttgtcattg aacagaaggt ttttggtttc126661 agactggaat aagcaaaact tgtccgggca gtcagatcca tttctcccaa atttagcctg126721 cgacaaaagg gcagacagtg agtagctaag gaaaagagga atttgtgggt taaaggaggc126781 aaaggggtat ttcttccacc caagaacagc cctgagaaaa ccatggggca gaaggagctg126 agttctggag tcattccacc tccttagtgg agtcccccac cccacactcc tggtggcagg126901 cccgccttgg gcagcatcca ggcctcacac cacttctggt cctacctcct accatctgcc126961 atctttcctt ccttcttaac ctgtgacctt ttcccataca acttcttatg ggtgacaagg127021 caacaatgga ggggttttga gatctgccct cacaagtcaa ttgctcagga cattctaata127081 tgcagctctt ctagagaggc aggctgctag gaaaacccag gctcagccac taaccagctc127141 127201 127261 tgtggggaga ctgagaccca aacccctcag tcacggcagc tctctcacca gcaccactgt127261 gtgtgcacat taagagctcc ataaaggcca gttatggtgg ccagtcttgt tattcctgag127321 ttgttttctt caaaagcaca cagagacatg atgttatatg ataaaaatag aagttctaat127381 aaaatcccag attttaagaa aattttggga tttcgttcaa atcacattta gagagcccta127441 aatctatagg gcaccttctg agtttgctgt tttagaggcc tggtctagag cactgttcac127501 tcggcccagg ttcaggaaat gtcacctgag taaaaagcac tatactaatg catgtgggag127561 gaaggctcag tggcttcctc atttgccaga agaacagcag gagggaaaaa gacagcctct127621 gagccaggca gtgatggcaa caaggccagg gcacagagtc tcagcagaaa tggagtgagt127681 cccagaaagc ccagagtcaa aagcctctgt tgttcttgtt gacactctgg gcaacgccac127 agcatgaagc caatactctc accatgagct tcaagtagag gactagagag gatcgagtgg127801 12748 127861 actagaagcc ctgtggtcca tacctgttgg tggagcaaca cctgtttcag gcgttccacc127921 ttatccatcc gagacaccac ggcatgattc ggggccatgg caagatggca gcttctagcc127981 tcagtcacag gcttccgttt gccatcgagg cacagcagcg caaagtctgc cagcttcaaa128041 tccttagccc atgcgtcatt gttatttcct ggggagaaaa agaaggtggc atcatccacg 12859101 cctcccctgc ttagccaaga agtctcttct gggtgggtgt ggccattcca ctgacctccc128 aaatgcacac actggggttg tggtgatgtg aggaacagag aaggagcttc atcctacaca128221 agctgtacaa acttcaaata taccaaatat tagtgctgtg tccatgcaat ggaatgttat128281 tcagcaataa aagggagtga agttctggta catcctgcaa tatgcatgaa cctcgaaaac128341 gatgctaagt gaaagaagcc agtcacaaaa gaccacacaa taggctgggc acggtggctc128401 atgcctgtaa tcccagccct ttggaggcca aggtgggaga atcacttgaa gctaggagtt128461 catgaccagc ttgggcaaca tagcaagacc tcatctcaaa aaaaaaaacc caccacatat128521 tatatgactc catttatatg aaatgtccag aataggccag cctatggaga cagaaagtgg128 attgatggtt gccaatgctg aagaaggata gggcaatgac tgataatagg tgcaagggtt128641 tctttatggg aggatacaag cgttctagag ttggattgtg ttgatggctg cacaactctg128 tgagtgtgct ggagatcact gaattgtaca ctttgcatgg gtggattttt tagtatatga128761 attctacctc aataaagctg tttagagttc ttattttttt aaagaagaaa accctccacc128821 tatgccatat ttttcagtga gttccagaaa aagaatagat ggtttacatt caaggagaaa128881 ttggtttctc ctccctttca tattcaaatg ctattagtgt aaccagagaa aggaaaggaa128941 cttttatagg tttatcaaat atatacagcc aattctaaca aaatacagtt gtaaagtacc129001 ggagaaagtt aaaattaaat ttgacatcaa tctgatccct ggagattact tcagttaatg129061 gcttgtaaat tctaaatgta attgtatgca tgtctatgtt tgtgcagatg ccggctcatt129 gttccggctc ccgtttgtct ctctgctctc tccctttaag aaagcacttt attcattctc 12946181 12945 129241 gtcccaagag acactagaag gagcagaagc agaagggaga agtggctgag actgcagtga129301 ttactgaagg agggaggccg aaagtggaga cagttctttc tcaggaaaca gaatagcaag129361 tcacctgctg agacttgggg gttggaatgc tgaagtgggg ctaaggagac agatgcagat129 tggaaggtag caaatggctg aggaccagga gagagagtga ttgttcaaac attggctgga129481 agattatctt ccatcatctg caaccacctg taattttgtt cccactaact cccaaggagt129541 ctccagacca aggctcacat ggggatgaat gaaggcctct acttcctttt tcataaaggg129 aggcttcatt tgcatatgtt cacccagttt gtagcatcat ccacagtttc caataggcat129661 gcatgatctc atgtgggcag acagtgtgtt tctgtggttg actagaggaa gccagggaga129 catttgctac tgagcatggc tagtatctgt gtgtgtgaga gtgagtgtgt gtgtgtgtgt129 gtgagagaaa gagagagagt gtgtgtgtat gaatttcgtt tcaaaatcca tatgacacct129841 acagatgtta tcatgttgtc tattgagata aagaattttg gagttctttt aatcacaaat129901 atggaaaatg ttataaaacc ttcccaaagg caaatctgaa cactaagatg tgttgtgatg 1299628 130021 agacagtgac atctttcaca aatgcaacgt ctccagcatt ctcagccagg cacctaaaat130081 gttccagaaa atatacacat aattacagaa gagaaactag tggggctttc ataaatattt130141 gtaatatgca ttccaaaaac tgaaatatgg aagtaaacat ctaaaagaca actatttcta130201 ggaatttact gtttacagcg gcagattgaa cacaggtgta cctgccctcc ttttaaaacc130261 ctatataaaa gacattacaa aaccaagaaa tctaaagata tgcgacccag gaaacaggca130321 atctaacatg aagtaagaca aaggaaagca ccaaaataat ggtcaacagg acccccagga130381 ccacagatgt gcaggcggcc tacacagcaa ccagtccaaa ctgcagcagg aagatggatg130441 ccttctggag cagcacttcc aagtaaatga tgaaactgtg atagcaccca gagagagaga130501 gagagagaga gagagagaga gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt130561 gtgtgtgtgt atgcatgttg ttaggagatt tacattactg gcagacagtt tggggatgag130621 atagtgatgt gtttttttaa gtgcagaaaa ttaagcaaat aagaaaagac atttatgaac130681 tccagagtaa acaaaaagtt tgtacaataa gggaaatata atatgagaat aacgcttaca130741 cagtcataag tactgaatat gacattagcg tgttgggtgc tgaagagagt tgaagtctgt130801 ggttgtgtgg tggaaaaggt gctgggggca gtgtgagagg ctagatcttc ttctatacta130861 cagagtcagc agaaagttaa aaattaagaa ccagcattat aaggatgata gaaataaagg130921 ggtatgacac tggtttcagc ttttaatgat tttgctataa atttccccaa tctagattct130981 agatataatt taaacaaaag acaagggatt ttcttccagt ataattagga atattaaaat131041 gtgggtgttt ccagtgaact aataccttgc tgcaggtctg aaaaaaaaaa aaagaggagc131101 acatgcttct ttcgggctct tatgagacat gtgttcagca tttctgagta gaatcacatt131 tccatttgca aatccttagt cccttaaaga tatttttata cattcacaaa acattttttt131221 ttgttttggg tcttttttta tgagccactt atatagcaaa agctactttt ctgtcattcc131281 attactggaa caaggctgtt gaatttatat taaaaagttc agacaccctc agacacatga131341 cgccatctgg tcgtgaaatg tactcttggc aaatggagga aaaggaacag gggaagatcc131401 tctctgcacc cttcacactg gtaaatagtg cccctgagaa gcaacacccg gatgaatggt131461 gctgtaaaac gtggggtgtg gttacaagtc actaagtggt tataacttat gaattctgaa131 aacttgtttt ttggcttatt tttcacttcg ttactggaga ataacactgc aattctgcca131581 tctctttgcc atttctaagg ccaaagtcag agaaaaaggg aaacctaagc catagtcatg131641 acctaggtga gaagaaaagg ggcggcgatg ggaaagagaa ttcttcccca taaatggaat131701 tgtaggaagc acttaggata ccacactcta cccatttgat tttcaggacg aggctattga131761 ggcctactgc tgttgatctt ggctcaaagc cacagggaga agcactgcgg agctgaggtc131821 agacagccct ggtgccagcc tccactctct ggggcggtgg gtgtggtggg gacagccctc131881 actggggcca cccatgagct gacccacagg atgaccccca ctctgctgtg acaggtcaca131941 tctggctcct tagaactgca atgctgacat gctgagggat gaggtaagtc cccatcctga132001 tggagctcag tcacagactc accggaaagc cccagtgtag ccgtagtatc tctcgttgct132061 gttgggcacg cacttattct caccctgctc gtcgccaata cacagagcac agagattaga132121 tctcgggtca gacccagggg cacagctttg actgaaatat tcatctggag agaaggaaca132181 cggggagtca gctcttcaaa cctgagtcca cacaagcaac ctttacctaa cagccgatgc132241 agggtggttt cagttcatta gacttcccag gacagcaatc tagatagaac acactcacca132301 132 tcacaaagca acatgttgtc accaacatag gacccaccag aaaagcttca ttcagactgt132361 aggcacagat ggacacccaa ctaaggctgg ggatgagagc tgtggctgcc tggagggtcc132421 cgtcatcaca gccttgagct ggggactcag ctcatgaccg tgatggctgt gtgcagcaga132481 gcctgtgagt tgcctagtcc aggatctgat tttgttttta tcagtaatgg aaaccctgct132541 ttgtatctgg gtgcttggcc ctttggtata aagactagac ttatcagact ccctggggct132601 catatggcca tatgggtagc tataggccag tgaaatatca gcaggagtgt tgggcgccag132661 cttctcagaa acatccttga aagacaattg gtacatgcct tttgcccttt cttctccttc132721 tctttcttca tcctgcacat agaatgcaga agcagggact ggacttagag atgcaatgtg132781 ggccatgagg tgaccttgag catgaaagcc acacaaatgg cagagtagcc aaatgattaa 132132901 tacatgacac agaaattaac ttctgtcttg tttaagcctc tactatttca ggagttttct132961 gttccttgca gctgaacctg atctgaattc gttcattgtg tgatttaacc caagaaagaa133021 taaacaaagg tgacaagaaa gctctgcccc actgagcaaa cgtcacccat tatcagactc133081 ccactgctgc tggaagagcc acactatgtg tcaacctcag gaaaagctgg gagttcccat133141 tccatcctgg cagtttccct acagctcaga ggctgccatg gagctggtga ggagcagagc133201 cacgtgaaag ctgcctgccc cggccaggat caaaaaccca tgcagtggag cccctgccct133261 aggagacgcc catacaagaa gggagtcaca ttgaggatgt gctacacacc atgccacggg133321 gcccacagca ggcagggtgt ggctgatgct gactaggatg agtgtggggt gtggtgggga133381 gagaaaactg cagaagcagg tggagccagg ctcttgaggt cttattcagg ctccgttgca133441 gtgtagagta agcgtcagtt ttgcttagta acaggagtca cctttcatga ggcaggcaga133501 catctttccc caagctggga agccagagtt taagaggaat ttaggtctgg agctccaaga133561 ggtaaaaagc atttgcacat cttggaactt gcatttattc ttagggtgca gcgaaatagg133621 cagatattcc aatctttaat cttggggtgg ggtgaatggg gcatgggaag tgctgtgcag133681 ggaaaccccc agtgcaccca cgcctccagg gggcagccac agggagaatt tccttatgct133741 ggaagaggcc tgcaggccac tatcagcctg caaatcccct cccctccctt ccctaaggtt133801 ccacagcaca atatgcctac cctccagggt ggcccaccca ccgcaccttt ggaactcctt133861 accaaatttg caggagcccg tctggttgaa gagcaggccc atggggatat tccagcctgc133921 agtcctgtcc acggcggtgt ggcaggactt cttgcctttc acagagttcc aggtaaggct133981 agtgtctgat ctcctaacca ccgccacagc aagatatcct ggcataacag atgacagaaa 134041695 2 134101 aggccaaaac aggccaagaa gcaacaccag gcaatgattc cctcaaagaa ctggcctttt134161 taggtagacc gagaaagcat aagctgctgc cttatgttaa ggtgagattg atgaaataaa134221 acagtaagaa aagctgatta ttttagtgat tacaggggac tgtcttcaac cagccacaca134281 atgtccctga gttacaaacc agcaatgcat ctctcagtgt aagcttctac agcaacaaac 134401 gcaagagcac caacatccag ccagctaacg gctgtgtggg tacaggggca catgtcccca134461 gggactgccc tgagctgagt ctgaacccac cctgcactgg ttgaactcaa catggttgcc134521 gttgtcctcc tgagagaatg catctgacag acacccacca agggcaagtc ttttctgaaa 134521 ctgagcaagc accagctctg gtgggcagga ggagtggtgc acagagcact gggacacgag134641 tcccaggtca cgaggacccg gggtcaagac caggatctac cacagtatta cctatggctg134701 tgagtgagat cctgggcact tggggactct cggtgccact gtttcctcat ccccatgagg134761 tggggaagta gcacccccca ttccatgacc atgacaaaat gagggactat atggatgttc134821 tttgccaagt gtgaaggtca atataaacat taattagaac tattcctctg tgaattattt134881 gcacccttaa aattattgct cctagaagcc ctatagcttc tagggctgca attctttctg134941 ttttttttac agttcctgcc acttcctctt ccagcaacaa gaacttatcc ttgaccctga135001 13548 135061 tgctttgttg ggattctgaa agaataaaga caagccagac atcattatcc attcagatgt 1355 agtgagaagc cacaaactct taaatctcaa tgatgcagaa tcaaatccaa agagaccgtc135181 ccagcagttc catgcaggag aaatgcgtct atatgttcaa caaaagacat ggcacagaga135241 ttcacagctg cattattcac cacagccacc aactggaaac tactcaaatg cccatccaca135301 ctcaaatgat gaataatcac agtagactca cacagcgacg agactgaaca gtctacaact135361 acacacttag gtggatgaaa agcataacga tgagcaagag aaaccagaca taaaaaaaca135421 catgctgtgt aattccttta acatgaagtt taaaacatag gcaaacttag atctgcgacc135 ttagaagcca ggagagaggc ttcccttgca ggagtaaggg ggcgggggac aggaggacat135541 aaggggcttc tgaaacttgc agtgtttgtt ctgggcccga gagcatggac tgtacagtgt135601 gtgaagtgcc atgagttgta catttatgtg cacttttctg tttgtatgtt ataattcact135661 gagatcttct ggaaaattaa gaagataaaa ccaacctgtc ccttgttaat tctcaacaca135721 ataggctttg tgggtaacac ggcccctttc atttcttctt tccctgattc tcccttttga135781 781 atgtatctgt tcatcataat gtttcacctg cattcaccga atgggattac tcatagcccc135841 actcccatga cccagaggga atataccaga ggatgctaac tccacttact gtagttctct135901 gccaggacag gcaccaaacc acatttgcct gcagtgtaca catatcctcc atccaaactc135961 atggcatcag cttctccttt ctgcaaagac agagcagatc tccagcacca cagtgaggct136021 gcatcccgtc ctgcctgtct atatagctct ctgagagaat ggttttctgt caggtgacca136081 gtgaaacagc agaaagagat ggactattca aactgagcag ccagaggaaa caccgtgtgc136141 136 accactaatt ctctcccagc cctgcctact ttctgggctg tcaattcaac tggaaagacc136201 aggcacaggt tgcactaatc ctctgtcctc tgagcaaaac cttttctgtg tccctggcac136261 tttggggaca ccttcctgga gcagtctcac tgactgagga cacagatggg aacagctggc136321 ctcatctaat ctgaactcat tagcactcca ctccaagcgc tacacagaag ttgtccaaca136381 cataagctga agtcgtcata ttggcccacc accagaatga acaagtccag gctacaacac136441 aggatcatgg actcatcagt agtatgaaac ttcctctttg acccagtaat atttttacaa136501 ctatattaaa aatagagaag tggacaaaga tttctactca agaatgctca ccacagggtt136561 attgataata gcaaagtaag ggacaaagag gaatgggggc atgactaaac tgagccatat136621 tcacataaaa gatatcctgg aagcatgttt aaaaaatgtt ttcgtccgag tgctgtggct136681 cacacccgta atcccagcac tttgggaggc cgaagcagga agattgcttg agcccaggag136741 ttcgagacga gcctgggcaa caaagcgaga ccctgtcgct acaataataa taataataat136801 tatgcaggtg tggtggcgta tgcctgtagc cccagctact tgggaagctg agatgggagg136861 atcacttgag cccaagagtt ccaggctgca gtgagatgtg gtcgcaccac tgcactccag136921 136982 taaatattca tgtggaagaa tgcccattat acgctgttta gtgaaaaggg cttaaaaacg137041 acatactgca acacttcatt attgttgcat gcatatctgc agatgtgcag agaaatactg137101 gaatggagaa ttagccagac tttaaccatg tctgtccctc tgtgtgagat cacaggtggt137161 ttggggggtt tgttgttgtt ttgttttaac ataatacctt tccatatttt ccaaattcct137 tataataatc ctgagttgtt cttataacca gaggagtggg aaacccacag taaactgctt137281 tttgaaacta aaatgctttc tggccctgag cacacctctc caggcatccc tgcctcaccc137 aggcccccgt ggcctctttg actgttgact tcactttaag cagatgccca ggccctaggt137401 cttccaccgg gcccaccgcc cgcccctgtg atggagctcc ctaccagcac cagggcgatg137461 cagtcctctg tggtggaggc cgaggagcag gtcacgctgc cttcgctcaa gccactccac137521 tggttacact tgcgcagctc ctgctcgccc accgcacacc acacgacccg cgcacgccgg137581 gcagccactt cctcctcacc tgccagaggg aagaccgcag gtggctgggc aacctgagct137641 ttgccaggtt gtccaacctc cccagagcca gggtcctgcc cagactctcc ctggaacagg137701 agctacagta catgtgtgga catgtggacc cataccctct cctcctccac ttctcagctc137761 caagcccctt cttcaggtcc acagagctcc ctgtgtttcc cacttctgtt cctttggaga137821 agttccctgg cttctaatct atccattaat ctttagagtc aggaggcgcc tattgtctct137881 gtctctgagg ataaacgctc catgacccag agaccagtga cagtcccaag agatggccta 941 ggggaccttg agcccaaccc tgacttcccc taacgcctgc aatcaccacc aataactacg138001 gtgcagcctc tgggttcccc cagactccca cccccagccc cccagtagag aaggagccat138061 agctgagttc ccccaccatg gtgtccccaa ctaagttcaa ggtctgggcc tgggaagtgt138121 gggtaaatcc aggcccccgg attcatccag gaggggtcct ggctatcttt gttcatgttc138181 atgtttctca cttaatagga ggcaaactga tttttctgcc aggcctgggg agcctgacgt138241 gcactgatca ggtggccaga ctattctttt agagacacct gacctaatcc acagaagaca 13858301 138 ctcacacctg catcaaacct ccacgatgac cccacagtgt ctgggaaaag gagtgaccgc138361 138 cacaaagtag ggccacctgc tgggaagtag aagaccacac caggcggacc tcaggaccct138 cctgggctca ctcacttttc ctcaagttct ggatggcagt gaagtagccg gagccaaggt138481 acagcccaga atctatcctc gggggcaccc tcgaaaaccc aatggcagag tccttgaaca138541 gcagatcttt ctgcccacta ggggagccaa agagctggaa tttcggtgac ttgtcctttc138601 caaacttttc ctaattaaga aaaaatagaa ttatggtgtc aatggtaaat agggaggaaa 13882661 13853 138781 ctatggctca ttctttgaag agttgctgag gtccaagcac cttagggccc tgagaagatt138841 gcatcgacca ccccctgctt ctgctcccat cataagacgc tgtcagcccg tgtgacagaa138901 gagtttcatt gcttctgctg tccacagtac agcctgggca agcagcccaa tgcattagtg138961 tgctatcctg cagcaaagct acaggacttc tggagtggca gaagtcaggg aagtaagaaa139021 ccttgctccc tgccccccat atccaagcaa gtggggagga ccgtgggtga agatacctgt139081 gcctggcgga gaagattcca gatggcatcc tccttgccat tcacacttcg tgccacaacg139141 gcatgagaag ggacccgggc cagatggcag tctttgaact tgtccactgg cttccgagtg139201 391 ttgtctgggc agagtaactc atactcgtcc ctttcagcct cgtctgacag gtcctctgca139261 gggaaggtga ggtgggaggg agtctagata agccgactcc agcagtaacc tcgagctata139321 gttccccttc tccctataga attttgagct tggggagata gctgacaaaa ctgagggtca139381 gaaaggcagg ggtttgctcc agaacactca gaaaggtaaa ggtagtgccc caaaagcctc139441 agggggcagc cgaggtgtga tcctcatcct aaatcactta ggccaccctg gggttcccgt139501 58139561 139561 58139621 68124 13968159681 ggaaggtgag acactttcca acactgagta tatcaaaaga aggggaagaa tggttttatg139741 aatgagttca ggcaaatgtg gaatatcata tataagttgc ttcagaatgt gtaaagtgaa139801 139861 agtataggag ggaagaatta aaagtttatt ttacttacga acataaatgc aaaatttgta139921 821399856 981 aggtttacca gtgtattcca ttaacaaaag aatggctgaa catcaaaaaa actaaagtaa140041 tctgcattta atggcagaaa accatgagat cgtcttcatc ttaatagatg cagaacgatt 140140161 140 tagatagaat cggtaaagtt tttttgtttg ttttgagacg gagtctcact ctgttgccca 140140140 tagatagaat cggtaaagtt tttttgtttg ttttgagacg gagtctcact ctgttgccca gcctggaatg cagtggtgcg atctcagctc actgcatcct ccatctcctg gagtcaagag140281 attctcttgc ctcagcctcc caagtagctg ggaccacaag cgcacgccac caggcccagc140341 taatttttgt atttttaata gagatggggt ttcaccatgt tggccaggct ggtctcgaac140401 tcctgacctc atgtgatcca cccgcctcag tctcccaaag tgctgggatt acaggggtga140461 gacaccacgc ctggccataa gttattggct tgataaatgc cattaatcta cagcaaaaac140521 cttactaaaa gaagaaaatg tagacattca ccgcaaaatc aggaacaagg caaggatgcc140581 581 84 140641 641 tgagatataa acactggaag gaaaaagaca cactcttatt taaaaagatg atatcgtcat 42 701 ctacaaaaaa ccaatgaaac caacagaaac taataaaact actcagagga gtaacaagtt140761 ataagagcaa cctacaaaaa tcagatgtta tcctcattaa caataaccaa atagaaacca140821 atatggacta taagatgtta caatagcaac taaaaccatt aagtagctaa taattagcct140881 573 5 140941 agaggtgtga tcaaatgggg gagatttagc atcaccatgg actggacaac ttaatgttat141001 aaatatgctg atttttcatg gaacaattta aattcagtac aattcgaatc aaaattaaag141061 tatgattttt tccagaaatt caacaaaata attctgaagt tttagctgag tatatttgaa 14159121 aaggaataat aaagtgagag gggagaggga gctctctctc attctctctc tcttcctctc141181 actggctctc tctctttctc tccaccagat agtaagaccc attggtaagc cacagtaaca 14163241 aaagcagaaa aaatgcaaat acaccaatga aataaaatag ctcagaaact ggtccacttg141 gatatataca aacttggtgt agaattggct tcacatatgg cagaaaaaat atactttttt141361 14156 141140140 tgactttcta ggtagagcac atataaatag atgaggaagg ggatcttcaa atcttatttt141481 aggaaataat tatgatttgg gtgtgaagaa gggcatcttt gaaatatctc aaaactacaa141541 accaacaagg tgaggcttgt ggatttgacc ttatcaatat caaggatttt tgatcaacag141601 agactaccgt tgtcagattt ttgactgaga agaggtttta ctaaagttta aaatcagcaa141661 tagtttgata cctagataga aggaacttct gtccttgaat caaaatcatg cagaaacaag141721 gtgtgaaact caatttaaaa agtagtcaaa tgtcacaaaa taagaaaggg aagcccaaac141781 ggctagcaaa tatgttgaaa tgatcaaact caccagctgt cagagaaatg aaaattaaaa141 ataaaacgaa ctatctattg cattacaacc atcattcgga caaaaagtat gaaagtcaaa141901 aatacttcta actgaagttg tggggaaatt agaacacttg cagagtgtca ttccagacag141961 cagcttggtg atcctgggtg catgtggggt ctgtctctgg tggccctggg tgcatgtgga142021 ggtctgtttc tggtggcctc tgatgaatgc ggggtctgtc tctgatggtc ctaggtgaat142081 gtgggtgttg tctctttctc tggtggtcct gggtggatgt ggggtgtgtc tctgatggtc142141 ctgagtgaat gtgggtgtct gtcactttct ctagtggccc tgggtggaat atagtagccc142201 tgtctctatt ggtcttgcat gaaatgtagt gagcttatgt ccactagtcc tgggtgcagt142261 gtgtttagcc tctacatact catcaactgc tttattataa gtccaggagg gacgctgtcc142321 agcaggtaag taaggaacac aggtgaaggt atcagtcgtg tggctgcatg tggtagagga142381 aaagagagca caacctctgt ccatcactat ggtgacagag aagtaaaagg tggatgtatt142441 ccacggaaca ctcctcaact gttaggaccc ctgagctaga catgtataca acaataccga 1425924 561 taaacctcta aaacaaaatg ctgagcagaa aacccaagta gcaggatttc taatgctcac 561 59561 taaaacctct atgaacccag aaaccggaaa cacaaaccag cacaatctgt tctgcatgag142621 cacatgtgtc ttggaggact ggaggacgca ttgccaagca cctaggcatg ggtgtctatg142681 686 aggggaagag aaaggcagta ggcacaggag gtttgaagaa aactgatcat ttaaaatatg142 aaagatcata aaatcagagc tgtgccctgt aggaatcttg aaaatggtct gccatgaact142801 taggaatcta attagctcaa aggtcagagt catgatcaag taagataaaa ggggtcagta142861 cccacggctc attaccctgc tcttaccaaa cactgtgctc tctctgataa aagccacgtc 142945 921 tccagccccg tctctcagac acctgtgaaa agagaaacca tcaggggtaa gcacaggcag 1429828 143874 ctccctgcag ggcagggctc tgaagctt145 aatgagttca ggcaaatgtg gaatatcata tataagttgc ttcagaatgt gtaaagtgaa 1463672 005 aaaaatcttg cccgagtcat tttatgagat tagtacaacc ttgatgtcaa aatcagaaaa146065 agtataggag ggaagaatta aaagtttatt ttacttacga acataaatgc aaaatttgta146125 aataacgtac taactaactc aatctcacag agtatttaaa aagctaatag attggaatga146185 aggtttacca gtgtattcca ttaacaaaag aatggctgaa catcaaaaaa actaaagtaa146245 tctgcattta atggcagaaa accatgagat cgtcttcatc ttaatagatg cagaacgatt146305 gtttatgtgt tcaacatcta tttgtgtgtg gttttttttt cagcctcaga aaaatagtaa146365 tagatagaat cggtaaagtt tttttgtttg ttttgagacg gagtctcact ctgttgccca146425 gcctggaatg cagtggtgcg atctcagctc actgcatcct ccatctcctg gagtcaagag146485 attctcttgc ctcagcctcc caagtagctg ggaccacaag cgcacgccac caggcccagc146545 1 taatttttgt atttttaata gagatggggt ttcaccatgt tggccaggct ggtctcgaac146605 tcctgacctc atgtgatcca cccgcctcag tctcccaaag tgctgggatt acaggggtga146665 gacaccacgc ctggccataa gttattggct tgataaatgc cattaatcta cagcaaaaac146725 cttactaaaa gaagaaaatg tagacattca ccgcaaaatc aggaacaagg caaggatgcc146785 146 cactgttaca atgccagcac aattctagat atccagatca cacaatttac aaaagaaatg146845 tgagatataa acactggaag gaaaaagaca cactcttatt taaaaagatg atatcgtcat 1466328 146965 ctacaaaaaa ccaatgaaac caacagaaac taataaaact actcagagga gtaacaagtt146965 ataagagcaa cctacaaaaa tcagatgtta tcctcattaa caataaccaa atagaaacca147025 atatggacta taagatgtta caatagcaac taaaaccatt aagtagctaa taattagcct147085 cccacaaaga cacatcagac ccacaaagga aaaattttag ttctatcaaa gaaactaaaa147145 agaggtgtga tcaaatgggg gagatttagc atcaccatgg actggacaac ttaatgttat147205 aaatatgctg atttttcatg gaacaattta aattcagtac aattcgaatc aaaattaaag147265 tatgattttt tccagaaatt caacaaaata attctgaagt tttagctgag tatatttgaa147 aaggaataat aaagtgagag gggagaggga gctctctctc attctctctc tcttcctctc 14787458 147445 aaagcagaaa aaatgcaaat acaccaatga aataaaatag ctcagaaact ggtccacttg147505 gatatataca aacttggtgt agaattggct tcacatatgg cagaaaaaat atactttttt147565 tattgtaagg taaattgcct cactgtaaag gggataaaat gctaaagcca aatctatatc 14727 147685 aggaaataat tatgatttgg gtgtgaagaa gggcatcttt gaaatatctc aaaactacaa147745 accaacaagg tgaggcttgt ggatttgacc ttatcaatat caaggatttt tgatcaacag147805 agactaccgt tgtcagattt ttgactgaga agaggtttta ctaaagttta aaatcagcaa147865 tagtttgata cctagataga aggaacttct gtccttgaat caaaatcatg cagaaacaag147925 46925 147985 ggctagcaaa tatgttgaaa tgatcaaact caccagctgt cagagaaatg aaaattaaaa148045 ataaaacgaa ctatctattg cattacaacc atcattcgga caaaaagtat gaaagtcaaa148105 aatacttcta actgaagttg tggggaaatt agaacacttg cagagtgtca ttccagacag148165 cagcttggtg atcctgggtg catgtggggt ctgtctctgg tggccctggg tgcatgtgga148225 ggtctgtttc tggtggcctc tgatgaatgc ggggtctgtc tctgatggtc ctaggtgaat 59285 gtgggtgttg tctctttctc tggtggtcct gggtggatgt ggggtgtgtc tctgatggtc148345 148 ctgagtgaat gtgggtgtct gtcactttct ctagtggccc tgggtggaat atagtagccc148405 1489 148 gtgtttagcc tctacatact catcaactgc tttattataa gtccaggagg gacgctgtcc148525 82148585 84148585 148585 14853 148645 ccacggaaca ctcctcaact gttaggaccc ctgagctaga catgtataca acaataccga148705 14828 765 taaaacctct atgaacccag aaaccggaaa cacaaaccag cacaatctgt tctgcatgag148825 cacatgtgtc ttggaggact ggaggacgca ttgccaagca cctaggcatg ggtgtctatg148885 148945 945 aaagatcata aaatcagagc tgtgccctgt aggaatcttg aaaatggtct gccatgaact149005 taggaatcta attagctcaa aggtcagagt catgatcaag taagataaaa ggggtcagta149065 cccacggctc attaccctgc tcttaccaaa cactgtgctc tctctgataa aagccacgtc149125 tccagccccg tctctcagac acctgtgaaa agagaaacca tcaggggtaa gcacaggcag149185 ccctccccag cccctccctg tggaacagta gccctggcac tcagcatcta tgggtttcta149245 ctccctgcag ggcagggctc tgaagcttSEQ ID NO: 2841 data: (i) sequence characteristics:

(A) Length: 5133 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2841 sequence description: 1 cctctttcac cctgtctagg ttgccagcaa atcccacggg cctcctgacg ctgcccctgg 61 ggccacaggt ccctcgagtg ctggaaggat gaaggattcc tgcatcactg tgatggccat 121 ggcgctgctg tctgggttct ttttcttcgc gccggcctcg agctacaacc tggacgtgcg 181 721 tgttaaatgg aaggaccctg atgctctgct gaagcatgta aagcacatgt tgctgttgac 781 181 gggcgcgcgg agcttctccc caccgcgcgc cgggaggcac tttggatacc gcgtcctgca 241 ggtcggaaac ggggtcatcg tgggagctcc aggggagggg aacagcacag gaagcctcta 301 tcagtgccag tcgggcacag gacactgcct gccagtcacc ctgagaggtt ccaactatac 361 ctccaagtac ttgggaatga ccttggcaac agaccccaca gatggaagca ttttggcctg 421 tgaccctggg ctgtctcgaa cgtgtgacca gaacacctat ctgagtggcc tgtgttacct 481 cttccgccag aatctgcagg gtcccatgct gcaggggcgc cctggttttc aggaatgtat 541 caagggcaac gtagacctgg tatttctgtt tgatggttcg atgagcttgc agccagatga 601 atttcagaaa attctggact tcatgaagga tgtgatgaag aaactcagca acacttcgta 661 ccagtttgct gctgttcagt tttccacaag ctacaaaaca gaatttgatt tctcagatta 721 tgttaaatgg aaggaccctg atgctctgct gaagcatgta aagcacatgt tgctgttgac 781 caataccttt ggtgccatca attatgtcgc gacagaggtg ttccgggagg agctgggggc 841 ccggccagat gccaccaaag tgcttatcat catcacggat ggggaggcca ctgacagtgg 901 caacatcgat gcggccaaag acatcatccg ctacatcatc gggattggaa agcattttca 961 gaccaaggag agtcaggaga ccctccacaa atttgcatca aaacccgcga gcgagtttgt1021 gaaaattctg gacacatttg agaagctgaa agatctattc actgagctgc agaagaagat1081 ctatgtcatt gagggcacaa gcaaacagga cctgacttcc ttcaacatgg agctgtcctc1141 cagcggcatc agtgctgacc tcagcagggg ccatgcagtc gtgggggcagtaggagccaa1201 ggactgggct gggggctttc ttgacctgaa ggcagacctg caggatgaca catttattgg1261 gaatgaacca ttgacaccag aagtgagagc aggctatttg ggttacaccg tgacctggct1321 gccctcccgg caaaagactt cgttgctggc ctcgggagcc cctcgatacc agcacatggg1381 ccgagtgctg ctgttccaag agccacaggg cggaggacac tggagccagg tccagacaat1441 ccatgggacc cagattggct cttatttcgg tggggagctg tgtggcgtcg acgtggacca1501 agatggggag acagagctgc tgctgattgg tgccccactg ttctatgggg agcagagagg1561 aggccgggtg tttatctacc agagaagaca gttggggttt gaagaagtct cagagctgca1621 gggggacccc ggctacccac tcgggcggtt tggagaagcc atcactgctc tgacagacat1681 caacggcgat gggctggtag acgtggctgt gggggcccct ctggaggagc agggggctgt1741 gtacatcttc aatgggaggc acggggggct tagtccccag ccaagtcagc ggatagaagg1801 gacccaagtg ctctcaggaa ttcagtggtt tggacgctcc atccatgggg tgaaggacct1861 tgaaggggat ggcttggcag atgtggctgt gggggctgag agccagatga tcgtgctgag1921 ctcccggccc gtggtggata tggtcaccct gatgtccttc tctccagctg agatcccagt1981 gcatgaagtg gagtgctcct attcaaccag taacaagatg aaagaaggag ttaatatcac2041 aatctgtttc cagatcaagt ctctctaccc ccagttccaa ggccgcctgg ttgccaatct2101 cacttacact ctgcagctgg atggccaccg gaccagaaga cgggggttgt tcccaggagg2161 gagacatgaa ctcagaagga atatagctgt caccaccagc atgtcatgca ctgacttctc2221 atttcatttc ccggtatgtg ttcaagacct catctccccc atcaatgttt ccctgaattt2281 ctctctttgg gaggaggaag ggacaccgag ggaccaaagg gcgcagggca aggacatacc2341 gcccatcctg agaccctccc tgcactcgga aacctgggag atcccttttg agaagaactg2401 tggggaggac aagaagtgtg aggcaaactt gagagtgtcc ttctctcctg caagatccag2461 agccctgcgt ctaactgctt ttgccagcct ctctgtggag ctgagcctga gtaacttgga2521 agaagatgct tactgggtcc agctggacct gcacttcccc ccgggactct ccttccgcaa2581 ggtggagatg ctgaagcccc atagccagat acctgtgagc tgcgaggagc ttcctgaaga2641 gtccaggctt ctgtccaggg cattatcttg caatgtgagc tctcccatct tcaaagcagg2701 ccactcggtt gctctgcaga tgatgtttaa tacactggta aacagctcct ggggggactc2761 ggttgaattg cacgccaatg tgacctgtaa caatgaggac tcagacctcc tggaggacaa2821 ctcagccact accatcatcc ccatcctgta ccccatcaac atcctcatcc aggaccaaga2881 agactccaca ctctatgtca gtttcacccc caaaggcccc aagatccacc aagtcaagca2941 catgtaccag gtgaggatcc agccttccat ccacgaccac aacataccca ccctggaggc3001 tgtggttggg gtgccacagc ctcccagcga ggggcccatc acacaccagt ggagcgtgca3061 gatggagcct cccgtgccct gccactatga ggatctggag aggctcccgg atgcagctga3121 gccttgtctc cccggagccc tgttccgctg ccctgttgtc ttcaggcagg agatcctcgt3181 ccaagtgatc gggactctgg agctggtggg agagatcgag gcctcttcca tgttcagcct3241 ctgcagctcc ctctccatct ccttcaacag cagcaagcat ttccacctct atggcagcaa3301 cgcctccctg gcccaggttg tcatgaaggt tgacgtggtg tatgagaagc agatgctcta3361 cctctacgtg ctgagcggca tcggggggct gctgctgctg ctgctcattt tcatagtgct3421 gtacaaggtt ggtttcttca aacggaacct gaaggagaag atggaggctg gcagaggtgt3481 cccgaatgga atccctgcag aagactctga gcagctggca tctgggcaag aggctgggga3541 593601 agtccaggcc tgtgaggtgc agagtgccca gaactggact caggatgccc agggccactc3661 tgcctctgcc tgcattctgc cgtgtgccct cgggcgagtc actgcctctc cctggccctc3721 agtttcccta tctcgaacat ggaactcatt cctgaatgtc tcctttgcag gctcataggg3781 aagacctgct gagggaccag ccaagagggc tgcaaaagtg agggcttgtc attaccagac3841 ggttcaccag cctctcttgg ttccttcctt ggaagagaat gtctgatcta aatgtggaga3901 aactgtagtc tcaggaccta gggatgttct ggccctcacc cctgccctgg gatgtccaca 398661 gatgcctcca ccccccagaa cctgtccttg cacactcccc tgcactggag tccagtctct4021 tctgctggca gaaagcaaat gtgacctgtg tcactacgtg actgtggcac acgccttgtt cttggccaaa gaccaaattc cttggcatgc cttccagcac cctgcaaaat gagaccctcg4141 tggccttccc cagcctcttc tagagccgtg atgcctccct gttgaagctc tggtgacacc4201 agcctttctc ccaggccagg ctccttcctg tcttcctgca ttcacccaga cagctccctc4261 tgcctgaacc ttccatctcg cccacccctc cttccttgac cagcagatcc cagctcacgt4321 cacacacttg gttgggtcct cacatctttc acacttccac caccctgcac tactccctca4381 aagcacacgt catgtttctt catccggcag cctggatgtt ttttccctgt ttaatgattg4441 acgtacttag cagctatctc tcagtgaact gtgagggtaa aggctatact tgtcttgttc4501 accttgggat gacgccgcat gatatgtcag ggcgtgggac atctagtagg tgcttgacat4561 aatttcactg aattaatgac agagccagtg ggaagataca gaaaaagagg gccggggctg4621 ggcgcggtgg ttcacgcctg taatcccagc actttgggag gccaaggagg gtggatcacc4681 tgaggtcagg agttagaggc cagcctggcg aaaccccatc tctactaaaa atacaaaatc4741 caggcgtggt ggcacacacc tgtagtccca gctactcagg aggttgaggt aggagaattg4801 cttgaacctg ggaggtggag gttgcagtga gccaagattg cgccattgca ctccagcctg4861 ggcaacacag cgagactccg tctcaaggaa aaaataaaaa taaaaagcgg gcacgggccc4921 ggacatcccc acccttggag gctgtcttct caggctctgc cctgccctag ctccacaccc4981 tctcccagga cccatcacgc ctgtgcagtg gcccccacag aaagactgag ctcaaggtgg5041 gaaccacgtc tgctaacttg gagccccagt gccaagcaca gtgcctgcat gtatttatcc5101 aataaatgtg aaattctgtc caaaaaaaaa aaa (2) SEQ ID NO: 2842 data: (i) sequence characteristics:

(A) length: 1388 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2842 sequence description: 1 ggatccagaa gggtcattca atcagttctc agtcttatca ggtctaagtt cctttcttat 61 caggtcctaa aggcctaatc ttatcattgt gacaaagata actgtagagt ctgttaaact 121 ttttttttaa taacatgaag attatgattt atagctgaat ttctcccttt tattccaatt 181 721 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc 781 181 caacaatttt catggctttt tgtgtttgtt ttgttctgga catatttaca gaaaattacc 241 tgaagagttc caacctgagg cctcctcatg gatgggtcaa acgtgacatc atttgttgtt 301 gaggaaccca cgaacatctc aactggcagg aacgcctcag tcgggaatgc acatcggcaa 361 atccccatcg tgcactgggt cattatgagc atctccccag tggggtttgt tgagaatggg 421 attctcctct ggttcctgtg cttccggatg agaagaaatc ccttcactgt ctacatcacc 481 cacctgtcta tcgcagacat ctcactgctc ttctgtattt tcatcttgtc tatcgactat 541 gctttagatt atgagctttc ttctggccat tactacacaa ttgtcacatt atcagtgact 601 tttctgtttg gctacaacac gggcctctat ctgctgacgg ccattagtgt ggagaggtgc 661 ctgtcagtcc tttaccccat ctggtaccga tgccatcgcc ccaagtacca gtcggcattg 721 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc 781 atcgacagag aagaagagag tcactctcgg aatgactgcc gagcagtcat catctttata 841 gccatcctga gcttcctggt cttcacgccc ctcatgctgg tgtccagcac catcttggtc 901 gtgaagatcc ggaagaacac gtgggcttcc cattcctcca agctttacat agtcatcatg 961 gtcaccatca ttatattcct catcttcgct atgcccatga gactccttta cctgctgtac1021 tatgagtatt ggtcgacctt tgggaaccta caccacattt ccctgctctt ctccacaatc1081 aacagtagcg ccaacccttt catttacttc tttgtgggaa gcagtaagaa gaagagattc1141 aaggagtcct taaaagttgt tctgaccagg gctttcaaag atgaaatgca acctcggcgc1201 cagaaagaca attgtaatac ggtcacagtt gagactgtcg tctaagaact gtgagggaag1261 ttgtggataa aaatggtgga acacaggtca tttttagttt gtgcttggaa tatgacttaa1321 gtatctccta aatgtgatac agaagaacat ctcatcccat atgcatgaga tactaattaa1381 tgatgaaa (2) SEQ ID NO: 2843 data: (i) sequence characteristics:

(A) length: 393 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2843 sequence description: 1 gagcagtgcc cagcttgtcg cagatattga agccgtgtaa aataaatgcc tttgattgtt 61 cacactttaa gcaatattgg tacaatatta aacccattgt cccaggcact ccctctcctt121 actgcttatg gcacttcatg tattaaaaaa tgacagtggc agcattgccc agacatgcgt181 tttgtcatca agtcttaatg cagtccacct ggtccctcag gcaaatgaat ggaggcacag241 aagatgaaat gattttcaaa atgccattag gaaagctcag gccagaactg gaaatgggtc301 ccgcacaggg cactcggcca ctcttgcctg gccatctcct ttttggcact aagcacacaa361 tgatatagaa tgaatggtta tcactgggga tcc (2) SEQ ID NO: 2844 data: (i) sequence characteristics:

(A) length: 1388 base pairs (B) type: nucleic acid (c) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2844 sequence description: 1 ggatccagaa gggtcattca atcagttctc agtcttatca ggtctaagtt cctttcttat 61 caggtcctaa aggcctaatc ttatcattgt gacaaagata actgtagagt ctgttaaact 121 ttttttttaa taacatgaag attatgattt atagctgaat ttctcccttt tattccaatt 181 721 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc 781 181 caacaatttt catggctttt tgtgtttgtt ttgttctgga catatttaca gaaaattacc 241 tgaagagttc caacctgagg cctcctcatg gatgggtcaa acgtgacatc atttgttgtt 301 gaggaaccca cgaacatctc aactggcagg aacgcctcag tcgggaatgc acatcggcaa 361 atccccatcg tgcactgggt cattatgagcatctccccag tggggtttgt tgagaatggg 421 attctcctct ggttcctgtg cttccggatg agaagaaatc ccttcactgt ctacatcacc 481 cacctgtcta tcgcagacat ctcactgctc ttctgtattt tcatcttgtc tatcgactat 541 gctttagatt atgagctttc ttctggccat tactacacaa ttgtcacatt atcagtgact 601 tttctgtttg gctacaacac gggcctctat ctgctgacgg ccattagtgt ggagaggtgc 661 ctgtcagtcc tttaccccat ctggtaccga tgccatcgcc ccaagtacca gtcggcattg 721 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc 781 atcgacagag aagaagagag tcactctcgg aatgactgcc gagcagtcat catctttata 841 gccatcctga gcttcctggt cttcacgccc ctcatgctgg tgtccagcac catcttggtc 901 gtgaagatcc ggaagaacac gtgggcttcc cattcctcca agctttacat agtcatcatg 961 gtcaccatca ttatattcct catcttcgct atgcccatga gactccttta cctgctgtac1021 tatgagtatt ggtcgacctt tgggaaccta caccacattt ccctgctctt ctccacaatc1081 aacagtagcg ccaacccttt catttacttc tttgtgggaa gcagtaagaa gaagagattc1141 aaggagtcct taaaagttgt tctgaccagg gctttcaaag atgaaatgca acctcggcgc1201 cagaaagaca attgtaatac ggtcacagtt gagactgtcg tctaagaact gtgagggaag1261 ttgtggataa aaatggtgga acacaggtca tttttagttt gtgcttggaa tatgacttaa1321 gtatctccta aatgtgatac agaagaacat ctcatcccat atgcatgaga tactaattaa1381 tgatgaaa (2) SEQ ID NO: 2845, data: (i) sequence characteristics:

(A) length: 3169 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2845 sequence description: 1 ggatccagaa gggtcattca atcagttctc agtcttatca ggtctaagtt cctttcttat 61 caggtcctaa aggcctaatc ttatcattgt gacaaagata actgtagagt ctgttaaact 121 ttttttttaa taacatgaag attatgattt atagctgaat ttctcccttt tattccaatt 181 721 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc 781 181 caacaatttt catggctttt tgtgtttgtt ttgttctgga catatttaca gaaaattacc 241 tgaagagttc caacctgagg cctcctcatg gatgggtcaa acgtgacatc atttgttgtt 301 gaggaaccca cgaacatctc aactggcagg aacgcctcag tcgggaatgc acatcggcaa 361 atccccatcg tgcactgggt cattatgagc atctccccag tggggtttgt tgagaatggg 421 attctcctct ggttcctgtg cttccggatg agaagaaatc ccttcactgt ctacatcacc 481 cacctgtcta tcgcagacat ctcactgctc ttctgtattt tcatcttgtc tatcgactat 541 gctttagatt atgagctttc ttctggccat tactacacaa ttgtcacatt atcagtgact 601 tttctgtttg gctacaacac gggcctctat ctgctgacgg ccattagtgt ggagaggtgc 661 ctgtcagtcc tttaccccat ctggtaccga tgccatcgcc ccaagtacca gtcggcattg 721 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc 781 atcgacagag aagaagagag tcactctcgg aatgactgcc gagcagtcat catctttata 841 gccatcctga gcttcctggt cttcacgccc ctcatgctgg tgtccagcac catcttggtc 901 gtgaagatcc ggaagaacac gtgggcttcc cattcctcca agctttacat agtcatcatg 961 gtcaccatca ttatattcct catcttcgct atgcccatga gactccttta cctgctgtac1021 tatgagtatt ggtcgacctt tgggaaccta caccacattt ccctgctctt ctccacaatc1081 aacagtagcg ccaacccttt catttacttc tttgtgggaa gcagtaagaa gaagagattc1141 aaggagtcct taaaagttgt tctgaccagg gctttcaaag atgaaatgca acctcggcgc1201 cagaaagaca attgtaatac ggtcacagtt gagactgtcg tctaagaact gtgagggaag1261 ttgtggataa aaatggtgga acacaggtca tttttagttt gtgcttggaa tatgacttaa1321 gtatctccta aatgtgatac agaagaacat ctcatcccat atgcatgaga tactaattaa1381 tgatgaaa1389 gagcagtgcc cagcttgtcg cagatattga agccgtgtaa aataaatgcc tttgattgtt1449 cacactttaa gcaatattgg tacaatatta aacccattgt cccaggcact ccctctcctt1509 actgcttatg gcacttcatg tattaaaaaa tgacagtggc agcattgccc agacatgcgt1569 tttgtcatca agtcttaatg cagtccacct ggtccctcag gcaaatgaat ggaggcacag1629 aagatgaaat gattttcaaa atgccattag gaaagctcag gccagaactg gaaatgggtc1689 ccgcacaggg cactcggcca ctcttgcctg gccatctcct ttttggcact aagcacacaa1749 tgatatagaa tgaatggtta tcactgggga tcc1782 ggatccagaa gggtcattca atcagttctc agtcttatca ggtctaagtt cctttcttat1842 5732 1902 ttttttttaa taacatgaag attatgattt atagctgaat ttctcccttt tattccaatt1962 caacaatttt catggctttt tgtgtttgtt ttgttctgga catatttaca gaaaattacc2022 tgaagagttc caacctgagg cctcctcatg gatgggtcaa acgtgacatc atttgttgtt2082 gaggaaccca cgaacatctc aactggcagg aacgcctcag tcgggaatgc acatcggcaa2142 atccccatcg tgcactgggt cattatgagc atctccccag tggggtttgt tgagaatggg2202 attctcctct ggttcctgtg cttccggatg agaagaaatc ccttcactgt ctacatcacc2262 cacctgtcta tcgcagacat ctcactgctc ttctgtattt tcatcttgtc tatcgactat2322 gctttagatt atgagctttc ttctggccat tactacacaa ttgtcacatt atcagtgact2382 tttctgtttg gctacaacac gggcctctat ctgctgacgg ccattagtgt ggagaggtgc2442 ctgtcagtcc tttaccccat ctggtaccga tgccatcgcc ccaagtacca gtcggcattg2502 gtctgtgccc ttctgtgggc tctttcttgc ttggtgacca ccatggagta tgtcatgtgc2562 atcgacagag aagaagagag tcactctcgg aatgactgcc gagcagtcat catctttata gccatcctga gcttcctggt cttcacgccc ctcatgctgg tgtccagcac catcttggtc2682 gtgaagatcc ggaagaacac gtgggcttcc cattcctcca agctttacat agtcatcatg2742 gtcaccatca ttatattcct catcttcgct atgcccatga gactccttta cctgctgtac2802 tatgagtatt ggtcgacctt tgggaaccta caccacattt ccctgctctt ctccacaatc2862 aacagtagcg ccaacccttt catttacttc tttgtgggaa gcagtaagaa gaagagattc2922 aaggagtcct taaaagttgt tctgaccagg gctttcaaag atgaaatgca acctcggcgc2982 cagaaagaca attgtaatac ggtcacagtt gagactgtcg tctaagaact gtgagggaag3042 ttgtggataa aaatggtgga acacaggtca tttttagttt gtgcttggaa tatgacttaa3102 2 3102 gtatctccta aatgtgatac agaagaacat ctcatcccat atgcatgaga tactaattaa3162 tgatgaaa (2) SEQ ID NO: 2846 data: (i) sequence characteristics:

(A) length: 3585 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2846 sequence description: 1 gggcccagag aaagagctgt ccccggggcc ttggggacag ggtgacagcc acccagagat 61 catggagaag gggacgtaag gaagacctca cagaggagtc atcctgcgac tgtgttggtt121 gggtccttca ggaagcagag tcccaggagt tggaagcata agaggaatac tgcgggcaat181 gcctgagaaa gataacaggg accgggagca ggagtgagtt gggcagggga aggatcaggc241 ccacaatgcc aggctcacac ctgcagagga gggaagaaga agaagggcct cacatcagcc301 cagcggggga tgttacgccc acagacgccc cggggctcag ttactgtcta agtgttagaa361 ataaattttc ggtgccacaa aagaaatagc actcagatta aatgttccca gcaaggcaat421 tttacttcta tagaagggtg catctcacag atggagcaat ggcaagagca cacctgaaca481 agggaaggga aggggttttt atccctaagg caggtagccc ctacagctgt gttgttcccc541 tattggctag ggttggacca caccgtctga gctaattgtt actggctatt ttaaagagag601 caggggtaag agccggattg gcagggtaag tagtttggca ggaaggacgg tcacagaaca661 ggtgactcag gatgactcag gtcagagcag gtgaccagtg gtgactcagt tcggagcagg721 tgatagaagc taggaggggg ttgtttactg aaactagggg caaggagacg aagagaacat781 gaaagttaaa ctttaagatg aagaacaaag ctgaacatac tgatgcattg gatctttgga841 gaggatctca gaactcattg tacttaattt acaggctaaa accttagaag aggaatttat901 tatatcctac acaagactcc agggaagcac atggccttgg actgaaggct ggcatctgga961 agctgtcagc caccagcacc ttctgcagca ggtacctgct ctctaagagg gaggcctggg1021 tggtgcacct ccagagctgc ccaggctggg cctcaaggaa gaaaaagatt ttcatttgtc1081 agaggcggaa gggagaggtg gagggaacag cacagcagcg gcccaggggc agggaagcac1141 aggaccatta gggagacacg agaaagccca tttgtctaga acagaggatt caagcagtgc1201 accaaggaaa atgagggcca ggccaatgtg ctggagtggc tttgttcttg gctgagggtt1261 ttgggtagtg ccaaagcgta aggtaagccc tgctttccag aagaatctag cagagtgtgg1321 agcccagatg ggactggaag gcctgggagg ggtcaggtgg ccacagggac gggccacagc1381 cagtggtgca ggcaagaaga caatggccat ccatggtggc tcacacctgg aatcccagcc1441 cattgggagg tcgaggcagg tggatcacct gaggtcagga gttcgagacc agcctggtca1501 acatggtgaa accctgtctc taataaaatt ataaaaatta gccgggcgtg gtggtgggta1561 cctgtaatct cagctactca ggaggctggg tcaggagaat cgcttgaacc caggaggcgg1621 aggttacagt gagctgagat agcaccattg cattccagcc tggacaacaa aagcgagact1681 ctgtctcaaa aaaaaaaaaa aattagccag gcgtggtggt gggtgcctgt cgtcctcggg1741 aggctgaggc atgagaatca ctccgggagg cagaggttgc aatgaaccaa gatcacacca1801 ctgcactcca gcctgggtga cagagcaaga ctctgtctaa aaaaaaaaaa aagacagaag1861 gatgtcagca tctgatgctg cctgtcacct tgaccctgag gatgccagtc acagctccat1921 taactgggac ctaggaaaat gagtcatcct tggtcatgca catttcaaat ggtggcttaa1981 tatggaagcc acacttggga tctgttgtct cctccagcat ggtagaagat gcctgaaaag2041 taggggctgg atcccatccc ctgcctcact gggaaggcga ggtggtgggg tggggtgggg2101 cctcaggctt ggggtcatgg gacaaagccc aggctgaatg ccgcccttcc atctccctcc2161 tcctgagaca ggggcagcag ggcacactagtgtccaggag cagcttatga ggccccttca2221 ccctccgatc ctccaaaact ggcagacccc accttcttcg gtgtgacccc agagctctga gcacagcccg ttccttccgc ctgccggccc cccacccagg cccaccccaa ccttatcctc2341 cactgctttt cagaggagtc tggccaacac aaatcctctt gtttgtttgt ctgtctgtct2401 gctgctccta gtctctgcct ctcccagtct ctcagcttcc gtttctttct taaactttct2461 ctcagtctct gaggtctcga aatcacgagg cttcgacccc tgtggaccag atgcccagct2521 agtggccttt ctccagcccc tcagatggca cagaactaca aaccccagca tgcactctgg2581 cctgaagtgc ctggagagtg ctggtgtacc ccacctgcat tctgggaact gtagtttccc2641 tagtccccca tgctcccacc agggcatcaa gctcttccct ggccggctga ccctgcctca2701 gccctagtct ctctgctgac ctgcggcccc gggaagcgtg cgtcactgaa tgacagggtg27 ggggtggagg cactggaagg cagcttcctg ctcttttgtg tcccccactt gagtcatggg2821 ggtgtggggg ttccaggaaa ttggggctgg gaggggaagg gataccctaa tgtcagactc2881 aaggacaaaa agtcactaca tccttgctgg gcctctatcc ccaagaaccc aaaaggactc2941 aagggtgggg atccaggagt tcttgtatgt atggggggag gtgaaggaga gaacctgcat3001 gaccctagag gtccctgtgg tcactgagag tgtgggctgc catcccctgc tacagaaacg3061 gtgctcacct tctgcccaac cctccaggga aaggcacaca ggggtgaggc cgaaccttcc3121 gtctggtgcc acatcacaga aggaccttta tgaccccctg gtggctctac cctgccactc2181 cccaatgccc cagcccccat gctgcagccc cagggctctg ctggacacct gggctcccac2241 ttatcagcct cagtcctcac agcggaaccc aggcgtccgg ccccccaccc ttcaggccag3301 cgggcgtgga gctgaggctt tagagcctcc cagccgggct tgttcctgtc ccattgtgta2361 tgggataggg gcggggcgag ggccagcact ggagagcccc ctcccactgc cccctcctct2421 cggtcccctc cctcttccta aggaaaaggc cagggctctg ctggagcagg cagcagagtg2481 gacgcacagt aacatgggca acttgaagag cgtggcccag gagcctgggc caccctgcgg3541 cctggggctg gggctgggcc ttgggctgtg cggcaagcag ggccc (2) SEQ ID NO: 2847 materials: (i) sequence characteristics:

(A) length: 23142 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID N0: 2847 sequence description: 1 ggatcccatg ccctgcctca ctgggaaggc gaggtggtgg ggtggggtgg ggcctcaggc 61 ttggggtcat gggacaaagc ccaggctgaa tgccgccctt ccatctccct cctcctgaga121 caggggcagc agggcacact agtgtgcagg agcagcttat gaggcccctt caccctccat181 721 actggaaggc agcttcctgc tcttttgtgt cccccacttg agtcatgggg gtgtgggggt 781 181 cctccaaaac tggcagaccc caccttcttg gtgtgacccc agagctctga gcacagcccg241 ttccttccgc ctgccggccc cccacccagg cccaccccaa ccttatcctc cactgctttt301 cagaggagtc tggccaacac aaatcctctt gtttgtttgt ctgtctgtct gctgctccta361 gtctctgcct ctcccagtct ctgagcttcc gtttctttct taaactttct ctcagtctct 421 gaggtctcga aatcacgagg cttcgacccc tgtggaccag atgcccagct agtggccttt 481 ctccagcccc tcagatgaca cagaactaca aaccccagca tgcactctgg cctgaagtgc 541 ctggagagtg ctggtgtacc ccacctgcat tctgggaact gtagtttccc tagtccccca 601 tgctcccacc agggcatcaa gctcttccct ggctggctga ccctgcctca gccctagtct 661 ctctgctgac tgcggccccg ggaagcgtgc gtcactgaat gacagggtgg gggtggaggc 721 actggaaggc agcttcctgc tcttttgtgt cccccacttg agtcatgggg gtgtgggggt 781 tccaggaaat tggggctggg aggggaaggg ataccctaat gtcagactca aggacaaaaa 841 gtcactacat ccttgctggg cctctatccc caagaaccca aaaggactca agggtgggga 901 tccaggagtt cttgtatgta tggggggagg tgaaggagag aacctgcatg accctagagg 961 tccctgtggt cactgagagt gtgggctgcc atcccctgct acagaaacgg tgctcacctt1021 ctgcccaacc ctccagggaa aggcacacag gggtgagccg aaggcccttc cgtctggtgc1081 cacatcacag aaggaccttt atgaccccct ggtggctcta ccctgccact ccccaatgcc1141 ccagccccca tgctgcagcc ccagggctct gctggacacc tgggctccca cttatcagcc1201 tcagtcctca cagcggaacc caggcgtccg gccccccacc cttcaggcca gcgggcgtgg1261 agctgaggct ttagagcctc ccagccgggc ttgttcctgt cccattgtgt atgggatagg1321 ggcggggcga gggccagcac tggagagccc cctcccactg ccccctcctc tcggtcccct1381 ccctcttcct aaggaaaagg ccagggctct gctggagcag gcagcagagt ggacgcacag1441 taacatgggc aacttgaaga gcgtggccca ggagcctggg ccaccctgcg gcctggggct1501 ggggctgggc cttgggctgt gcggcaagca gggcccagcc accccggccc ctgagcccag1561 ccgggcccca gcatccctac tcccaccagc gccagaacac aggtaagggc caggcagcta1621 ggagcaggtg ggcaacaagg gtggtgtcaa ggcctgaagc ctggggctgg gaaggtctgg1681 aacttgtagc tgagtcggga gggccaggtc acaaatgcaa aagggctatt aatgtgcata1741 gaacaggaca gtctgggagg ctcagaaagg agaccaggat cagagtcggc aggtgaagct1801 gggagtaagg gtgccagcta tagaatctgg ccagggtttg aatgctgctc tgccgccagg1861 agctgtttga ctttgagcaa gttacttaat ctctctgaac ctccatttat ataaaacgag1921 atatggcaat acttactcca tggggaagta agtttctagc tcacagcaag ccttcaacag1981 cagcgatgat tatttagctg gagaagaaag gagctgacag cagtggttac aggagtgaga2041 aagtggggtc tcccagaaga gggagagagt tgggcaggaa actcgggccc ttggggtaag2101 caggctgaga agacagagcc accaggcttt tttcccctgc tccagccccc tctcctcgtg2161 gctgtcaccc gaaaactgga ccatgcagtt cccacaagag tcctcccggg ggtagaggtc2221 ccaggaggga ggaaagaccc ggaggcctgg tggggtgcca ggccgggggc aggctggggc2281 tgcaggcagc tatgcaggga aggctgaggg ccggggccct gctgctcagg cgcacccttg2341 gcctgagtcc ctcccttcct ccctgccgct ggtggctctg ggaggaagtg ataaggcctg2401 cgaggcttcc cttcacacat ggggctgctg tcaggagggg ttgtgagtgc ggagggaaat2461 cagagctgag gaatccctgc agggcttccc tccactcaag caccaggctc tgtccccctc2521 agggtagggc ttatagcagc tttgcggggg gtggacaccc catctccaga agaggtgagg2581 tgggcgctgc aggtgggatg cgaacttagc ctcgggtcag gggctcagga gctcagcacc2641 agcagcccct gcagcccagg accctggtct ataaacggag gcacagctcg cctctagctc2701 ctaaggcatg gggaacgcca gaaggcatgc ggcaggtggg ctgtgagatc gccagtgctg2761 taacaggggc ctccgggtga catctgggaa ggctgaaagg aaacaaaccc ttcctgatga2821 ccctatccct ggctcccaac agccccccga gctccccgct aacccagccc ccagaggggc2881 ccaagttccc tcgtgtgaag aactgggagg tggggagcat cacctatgac accctcagcg2941 cccaggcgca gcaggtaagg ccggcatgcc ctgtccccat cgtctccagg gaaagggtgg3001 gtaaggcctg gcctcagatg gggccggaga gggaagctca acccttcttt gaattggtcc3061 cttgtttcca aaaagaggag aggactggga agaaccagag gagttgaggg acatgcacgg3121 gacttgggtg accctcagcc tccagcctta cccccaaccc tggctcaaac ttttccccca3181 tcccacccct gcaccccttt tccccctccc acccctgcac ccttcctccc tctcccccac3241 cccacccctg ccccccctcc catcccagct ctaaacccct cctccctctc ccccgtccca3301 cccctaaacc ccacctccct gtccccctct aaacccctcc tccctgtccc cctctaaacc3361 ccacctccct ctccccatcc cacccctgca cccttcctcc ctctgccccc gtcccacgcc3421 tgtactcctc ctccctctcc cccgtcacac ccctgcaccc ctcctccctc tccccatccc3481 atccctgcac ccctcctccc tctgcccccg tcccacccct aaacccctcc tccctctgcc3541 373601 ctctccccat ctcacccctg cacccctctt ccctctccca cccctgcacc cctcctccct ctccccgtcc caccctgcac tcccgccctc tccagcgtcc cacccctaca cccctcctcc3721 ctctgcccca ttccacccct gcaccccctc ctccctctgc cccgacccac ccctgcaccc3781 37 3781 ctcctccctc tcccccgtcc cacccctgca tccctcctcc ctctgccccg tcccacccct3841 acacccctcc tccctctccc ccatcccacc cctaaacccc tcctccctct cccctgtccc3901 atccctgcac ccttcctccc tctccccgtc ccatccctgc acccttcctc cctctccccg3961 tcccatccct gcacccctcc tccctctgct cccatcccac ccctgcaccc ctcctccctc4021 tgcccctacc ccacctctgc acccctcctc cttctcccca tcccacccct gcacccctcc4081 tccctctgcc cctaccccac ccctgcaccc ctcctccttc tccccatccc acctctgcac4141 ccctcctccc tctcccctct cccacccctg tacccttcct ccttctcccc gtcccacccc4201 tgcacttctc ctccctctaa cccatcccac ccctgcaccc ttcttccctc tcccccatcc4261 caccactgca cccctcctcc ctctccccct gttccacccc tgcacccctc ctccctgccc4321 ccaactccca tcccacccct gcaccctggc ctgtcctgac ctttgcactc cctcgaccca4381 ggatgggccc tgcaccccaa gacgctgcct gggctccctg gtatttccac ggaaactaca4441 gggccggccc tcccccggcc ccccggcccc tgagcagctg ctgagtcagg cccgggactt4501 catcaaccag tactacagct ccattaagag gtgacagctt cccggacgcc acagcctccc4561 ttgtcccact gaggccccag aaaccccgtg acgaccttcc catgaccccc tcccttccca4621 gatcctaaca ccacgtgggc ccctcccgcc ctcccccagc acttgcacaa agcctggagg4681 agggcctccc tgtcccacac aacttcctgc ttgtcccctt cccacccctc tcctccccag4741 gagcggctcc caggcccacg aacagcggct tcaagaggtg gaagccgagg tggcagccac4801 aggcacctac cagcttaggg agagcgagct ggtgttcggg gctaagcagg cctggcgcaa4861 cgctccccgc tgcgtgggcc ggatccagtg ggggaagctg caggtgcggc tggccagcga4921 ctgagagacc cgggcgctac caaaagggga gcggggtggc ggggcagttc ctaaggcttc4981 ccgggggctg ggaggtccca aactgtgggg gagatccttg ccttttccct tagagactgg5041 aaaggtaggg ggactgcccc accctcagca cccaggggaa cctcagccca gtagtgaaga5101 cctggttatc aggccctatg gtagtgcctt ggctggagga ggggaaagaa gtctagacct5161 gctgcagggg tgaggaagtc tagacctgct gcaggggtga ggaagtctag acctgctgca5221 ggggtgagga agtctagacc tgctgcgggg gtgaggaagt ctagacctgc tgcgggggtg5281 aggacagctg agcggagttc cctgggcggt gctgtcagta gcaggagcag cctcctggaa5341 aagccctggc tgctgcttct cccccaagag agaaggcttc tcccgccagg ccagtccagt5401 gcagcccctc acccacaccc actgctaccc cagttcccct gcttcggccc gcaccctccc5461 tcacacccca gcccacagac tcggggctgg ccttagttac tggaacgcct gtgaccacag5521 cactaagaga agcaagctgc cccatggggg acttggtccc catggccttg gcctccttca5581 ccatcactgg ccgccaaaga gtttgaaata aagccacgtg cccagtgaat cccaaaggaa5641 cctcaactaa aataaaaaca atcctatctg acacttgcct gaccctctaa gtcattcaaa5701 gctttagctc aacttcgatc catctgagct gccatagtgg accccactca gagctgcgtc5761 cctcccttga ccccaggttg gtccctgcca ctcccctgcc cctgtcactg acacatgttt5821 cctcctccct caggcaggag tgggacctcc cagcctcctc ctggggcctc cactcagaat5881 gtcaggatga gcagggtcct aggaggcctc tggtgcagcc ttcccttccc accatccatg5941 tgctcaaaga gaatcacccg tcctttcttg aatgccatgg atcatggggg atttgctgcc6001 cacactccta ggcggcctct tagacatccg ttggtgccta acccaagcat cagtttggca6061 gaggccgagt ccctcctctg tactggatac caagtcagct tccataggga tggggagaca6121 cctggcccag ggaggagatg agaagcagcc cggatggtgc tacatatgtc agagagcagg6181 gcaggaaggg atcagtgtgg ctgccaatgg tcaggagggc gccatggagt gaaccatggc6241 ccctgcctcc tcaaccaaga agtcctctgg agctgatact caagaccccc cgtctctctc6301 ctcaccctcc tctcccgctg cctcggctgg ctcaggtgtt cgatgcccgg gactgcaggt6361 ctgcacagga aatgttcacc tacatctgca accacatcaa gtatgccacc aaccggggca6421 accttcggtg agtgcccccc accatgccag gccccagcct tcttccccaa ggcagggaag6481 gcggggctct gaccagctct ttccccatgc gtgccagctc ggccatcaca gtgttcccgc6541 agcgctgccc tggccgagga gacttccgaa tctggaacag ccagctggtg cgctacgcgg6601 gctaccggca gcaggacggc tctgtgcggg gggacccagc caacgtggag atcaccgagg6661 tgggcaccga gggccaccca tgagggtgtc cccaaggtgg agaatgagga aaccagtggg6721 agaaggctcg ggggatccag gcaggaagag gggagcctcg gtgagataaa ggatgaaaaa6781 caccaaagga ggggtgcctg ggtggtcacg gagacccagc caatgaggga ccctggagat6841 gaaggcagga gacagtggat ggaggggtcc ctgaggaggg catgaggctc agccccagaa6901 ccccctctgg cccactcccc acagctctgc attcagcacg gctggacccc aggaaacggt6961 6963 6961 cgcttcgacg tgctgcccct gctgctgcag gccccagatg agcccccaga actcttcctt7021 ctgccccccg agctggtcct tgaggtgccc ctggagcacc ccacgtgagc accaaaggga7081 ttgactgggt gggatggagg gggccatccc tgagcctctc aagaagggcc tgcaaggggg7141 tgctgatccc acaccccaac acccccaggc tggagtggtt tgcagccctg ggcctgcgct7201 ggtacgccct cccggcagtg tccaacatgc tgctggaaat tgggggcctg gagttccccg7261 cagccccctt cagtggctgg tacatgagca ctgagatcgg cacgaggaac ctgtgtgacc7321 ctcaccgcta caacatcctg gaggtgaggt gcgggatggg gctcgggcac cgaatgcacc7381 tgtccaaggc aggagtctgg ctctcactcc atccccaaaa tgccagccac ggggacaatc7441 agagcaggtc cagggttgcc tcctaaatgg gaactgagga caagctctag aaccactgaa7501 gcaaaggggt agggggtggc aggggtgtgt gtgggggtgt gagtgggtga gtgtgagagt7561 gtgggtttct ggggtgtgca gtgggtgaga gtgtgggctt gtggggtgtg tagtgggtgt7621 gagactgtgg gtttgtaggg gtgggtgagt gtgggtgtgt gggggtaggt gggtgtgggt7681 ttgtgggtgt gtataggcag tgactgtgag actgtgggtt tgtgggggta ggtgactgtg7741 ggtttgtggg gtgtgtaggg gtgagtgtgt gtgggtttgt aggggtaggc gagtgtgggt7801 ttgtggggtg tgtaggggtg agtgtgtgtg agtttgtagg ggtaggcgag tgtgggtttg 7861 tggggtgtgt aggggtgagt gtgtgtgagt ttgtaggggt aggtgagtgt gggtttgtgg 7921 ggtgtgtagg gggtgtgtgt gggcttgtag gggtaggcga gtgtgggttt gtggggtgtg 7981 taggggcgag tgtgagagtg taggtatgtg ggtgtgagtg tggatgtgtg taggcggtga 8041 gtgtgaaatt gtgggtttgt gggggtgggt gggtgtgagt gtgtgggttt gtgggtgggt 8101 gtgggtgtga gtgggtgggt gaggggggca tggggatggg tgtgaacatg tagttgttct 8161 ttcaggcata ggacccatag ctctagagct ttcatcagat tctcaaaggg gaccttgact 8221 cggaaaaggt taagacccat tttagagatg agaaattaaa gcctggagct gaggagcgac 8281 tggcccaaag tccctctctg ctctgaggtg cttcgcaggc aaaaacctga accagccccc 8341 taggcagcca ggcctcccaa tggacaccac tcacctcact ccttccagcc atgtacggga 8401 aacagagata gtctccccac cccacccccg tgatcacctc tgtccctacc gatgccacac 8461 acccttctgc cccaggatgt ggctgtctgc atggacctgg atacccggac cacctcgtcc 8521 ctgtggaaag acaaggcagc agtggaaatc aacgtggccg tgctgcacag ttaccaggtg 8581 cagaggccca gactggccag gaaggcaaag ggtttgcata cgggggcagc aggggcgggg 8641 gatggaggag aggcagccat ttagaaactagggcaggatt tggacaggca gaagaagttc 8701 cgtagtccca gtgccatggc gcacactggc tgcggttcgg ggacagggca ggtactattc 8761 caggcgctgt catctggtgg cttactgtgt gccagggacc ttgctgttta ctgcatgccc 8821 agtcatgctg attctcaggg catattgggt attgcagttt gtgggacccg ctggatcctg 8881 gaaacaaata ccaggatcaa gggcacacca ggagtcgtag tttgaggaag ccggggcctg 8941 ctgagaattt ctgtgggcta tttggtttgg ggaccaggca tgcagatgct ggagattaga 9001 gctgcttgtt gcatgttgaa cctgcagcat gaccatgcat gatgtggttt ggggtgaggg 9061 tgacattgtg gtttgagggg acacagggtg tgttagatat ggggtaatcg agggcacatg 9121 tggtttgggg tgaccggagt ggtggaggaa gaatgggcga ggtctgtggg tctggtttga 9181 gcctctcccc ctctctctcc cttccagcta gccaaagtca ccatcgtgga ccaccacgcc 9241 gccacggcct ctttcatgaa gcacctggag aatgagcaga aggccagggg gggctgccct 9301 gcagactggg cctggatcgt gccccccatc tcgggcagcc tcactcctgt tttccatcag 9361 gagatggtca actatttcct gtccccggcc ttccgctacc aggtgcccac cctaatggct 9421 ctgccagcct gggcccagct ctaattctaa gcagcccctg gggacctcta acctttcctt 9481 ttctttacct cccctcccaa ccccatcatc tctctgcagc cagacccctg gaaggggagt 9541 gccgccaagg gcaccggcat caccaggaag aagaccttta aagaagtggc caagtgggtc 9601 ccctgggagc cccgctctcc cacacacacc ctgggggccc cactctcccc cacacaccct 9661 gggggaccct gccccagcag tgttctggac ctaccactca gtatcccaaa accctgttgt 9721 gagggggttg gacccttgcc tggggaggcc ctgcctctgt gcacccggga caccctcaca 9781 ccttcctctc ccgcagcgcc gtgaagatct ccgcctcgct catgggcacg gtgatggcga 9841 agcgagtgaa ggcgacaatc ctgtatggct ccgagaccgg ccgggcccag agctacgcac 9901 agcagctggg gagactcttc cggaaggctt ttgatccccg ggtagggctg agcccagggg 9961 agcagggagc tagaaagagg gggctctatc agcatcttca ggggtgccct ggaggacagg10021 aagtgttaca agtcaggact catgaggaac ccggaaccac aggtgttcag agatcaagtt10081 ggggcctgaa tcttgcactg ccagggaggc cagagtgagg agggcagggc ctccgggggc10141 cacagcaccc aggacatctg tcttcccacc cacaggtcct gtgtatggat gagtatgacg10201 tggtgtccct cgaacacgag acgctggtgc tggtggtaac cagcacattt gggaatgggg10261 atcccccgga gaatggagag gtgagaactt ccaggaaagg ggctgctggg aatgaggaga10321 gactcagaat tggagtgact gggcaggaac ctctgcccaa cacacacaca cacacacaca10381 cacacacaca cacacacacacacacacaca cacacacaca cacacacaca cgccaggatg10441 gaaagggaga tgctaagaga cccctggagc ctgaaacccc acacaacgta cgctcccagc10501 ccacccatgt ggctgcctcc ctgcaagcac atttgcttaa ctgcgcgtcc ccaagtcatt10561 3561 10561 tccattatca gtgcaagttt ttaatacaag gaaggcacat cctggctgac caagaggtta10621 gactgtgctc gggcactgac aagaaaaaca gggatacgtc actgagggcg gcttctagga10681 tgcgggtaat gtttcttaat gggatactgg ttacacaggt gtgttcagtt tgtaaaaatc10741 cacagagctg tacatttaca acatgtacaa cactattcca gcattttatt ttatttgttt10801 tatttatttt gataacctat ttacgttgcc caggctggcc ttgaactcct agcctcaaga10861 gatcctcctg ccgcaggctc ctttttcaaa agaagaaatt gagcgctgtt tagatgccaa10921 catagattaa ataacttcac tttttaaaaa gaaacacaaa gctagagtac catcattgaa10981 ttccttctct tgcaagctta ggtatctctg aggtgcccca ggctaggctc atttctgagt11041 cttacctgct ccagcttcta ggtgttaaag gccttattag cactaagtac ttcctcagta11101 ctcttttttc ttttttcctt tgagacaggg tctcactttg tggcccaggc tggagtgcag11161 tagtacaatc acggctcact gcagcctcaa cctcctagac tcaagcaatc ctcccacttc11221 aacctcccaa gtagttggga ctacaggcgc atgccatgat gcctagctaa tttttgtatt11281 ttttatagag atggggtttc gccatgttgc ccaggctggt ctctaactcc tgggttcaag11341 caatccacct gcctcggcct cccaaagtgc tgcgattata gacgtgagcc actgcacctg11401 gcccgcagta tcttaagcaa gttggaatct cgtgaaaccc tttttgctgc cttagtgtcc11461 gtttcagccc tcattcttac ctaccttttc aagaaaaata gcaccagcaa ttgacttttt11521 tttagcataa aggtgtatag aacccatata acctacagcc ttcacaaggc atagcacatt11581 ttcaccaccc tggaaagttc cctcatcagt tcctcacgtg aatcccttcc cagtctgtct11641 ccctgccaga agtgtctgtc accacagaat agtttcgcct gctctagaac ggcacctaga11701 tggaagcacg cagtgttgcg gcgtctcctg ctgaggctgt ttttgaggcg cactcgtgtt11761 gctgcgtgac tcagtatttc actcattctg ctgctgagtg ccgttcattg tgtgaatatc11821 cccagtttgt ttacccattc tcttgttggt gacacttggg ctgtttccag gtcggggcta11881 ttatgaataa acctgttatg aacattctgt acccggcttt tgtgggctta tgtttttatt11941 tctcttgggt aaaacctagg agtagaattg gtaggtcata gggtagatgc atgtttaatc12001 tttcactttt ttaaaaaata aaactgccag gccaggcgcg gctgctcacg cctgtgatcc12061 cagcactttg ggaggcccag gtgggtggat cacttgaggt cagaagctca agaccagcct12121ggccaacatg gcaaaaccct gtctctacta aaaatacaaa aattagctgg gcatggtggc12181 gcacgcctat agtcctagct actcaggagg ctaggcggga gaattgcttg aacctgggag12241 gtggaggttg cagtgagccg agatcacgcc actgcactcc agcctgggtg acagagcaag12301 aattctactt aaaataaaat acaaataaat aaaataaaac tgtcaaacag caaagcaaat12361 taaactgccc tttaacatct gtgcagttca atgtatgtta attttatccc aaatttttaa12421 caaatctagg aatacagctc acagaaaatg gggtatattc actaaaaata aggaatattt12481 atagcaaatt tgtttgtaat accccacact ggaaacaatt caaatgacca tcgacaaata12541 ctgataaatt gtggtatatt caagtgccat atcgcactaa gtgtgaacga aacacaacca12601 cacacaacag tgcaggtgaa tctgaaaaaa tgtgaagaga agaaaaagcc agaccaaaga12661 atacatactg tactacaggg ttcactttat ataaagttca gaaacaggca gaactaatcc12721 acggagttag aaattaggag aggagttagt cactgggatg ggggtggcag tgacaggaag12781 aaggcacgaa gttggcttct aggatgcggg taatgtttgt ttgtttgttt gtttgtttgt12841 ttttgttttt gagctggagt ctcactctgt tgcccaggct ggagtgcaat ggcgtgatct12901 cggctcactg caacctccgc ctccccggtt caagcgattc tcctgcctca gcctcccgag12961 tagctgggat tacaggtgcc cgccaccatg gccagctaat ttttgtgttt ttagtagaga13021 cgcgtttcac catgttggcc aggctggtct tgaatccctg acctcagcct cccaaagtgc13081 tgggattaca ggcgtgagcc accacgccca gccacgggta atgtttctcg atgggatgct13141 ggttgcacag gtgtgttcag tttgtgaaaa cttacagagt tgtacattta caacatgtgt13201 gcacctctgg acttgtgttg cacgttgaca aaacattcaa aaatgaaatt caaatcgttc13261 ttgctaactc tggcgcactt gggaaccagc acccagaggc atctgcagtt gagcaccaga13321 tgcagttcct tccagcttcc ttccccctgg gaggtccgct tgatgccact tcttcatggc13381 agcacaaaca aggccatggt cttctgagga gggcaacctg cacaatgtct gctagtgacc13441 aggacactgc tgaaggaact gagagtttgt ccacccatga aatccactaa aacaggaaag13501 attttgctct agccgttgtt agccaggagt gaggaaagag ctgtgccctc ccctgcagct13561 gcgaggacga tctgcctgcc ccaacaagtg gggattcagc aactccactt ctaaggatta13621 cccagctgaa gcatttaaaa gtgggagcaa ggcacacgta caagggcgtt tgagagagca13681 cctgttccca gaccaccgag ctgcccttca gtctcagtga agtacaatgt agccactaaa13741 aagactgagg tcatgttttg gaaagtccag gccggaggat cgcttgagcc caggagttca13801 aggccagact gaacaacaca gcgagactcc atctcttcag aaaatttaaa aattaaccaa13861 gagtggtggc acgcacctat agatctagct actaggaagg cagaaaaatc ccttaagccc13921 aggagtttga ggttacagtg aatgatgatg gagccactgc accccaacct gggcgacaga13981 gcaagaccca tatctaaaaa caatactact acttacgtca atattgttgt attgacctgg14041 agggatgtct gcaataaatt attgattaaa accaaggaag tacagtatgg taccactttt14101 14124 141 gttaacacct gtgaatggcg catatgcccg gaggaagatg gggtggtctt tgtcttatca14221 ctttacacat ttctgtaatg tcatttttca aaaacatcag atcgcttttg aaattttcaa14281 aacaaataaa aattaagtga caaatcaata ataatgagga tcagctggta cagttttaaa14341 cttctatgta gtttgaaatg aaacaaaact aaccctgatg caaacactcc cctcgccaga14401 gctttgcagc tgccctgatg gagatgtccg gcccctacaa cagctcccct cggccggaac14461 8214521 caaacagaaa gggggtctga aaagctctcc ctctgtgcct caagtcgttt tcccaccaaa14581 agccagggct ccaggatgcc ctccattcca ggctgcaatg gcagtccaga cctgcctgct146 tctgagagcc gggacagtcc tgaggtcttc agagatgggg gtgtggtgtg tcagggcccc14701 aggctcggaa ccccagggat gctggccctc agcccctccc aagggcaggg cctttcctgt ccagaggcag agaccctgaa gccgtccctg gggctgggtc tgggcctagc ctgtatcccc14821 agggccctgt gacaaccttg tctttgtcct ctcttgccag gagttataag atccgcttca14881 acagcatctc ctgctcagac ccactggtgt cctcttggcg gcggaagagg aaggagtcca14941 gtaacacaga cagtgcaggg gccctgggca ccctcaggtc agggcctcac caagaggggt15001 gcaacgggtg ggcaagctgc ctgggcaaac gtggcctgca aagggagctc cactgacgac15061 ccctgcaccc caggttctgt gtgttcgggc tcggctcccg ggcatacccc cacttctgcg15121 cctttgctcg tgcggtggac acacggctgg aggaactggg cggggagcgg ctgctgcagc15181 tgggccaggg cgacgagctg tgcggccagg aggaggcctt ccgaggctgg gcccaggctg19321 tagttagggt taagaccacc ctttggcctt ggtgtcacca aggactcaaa gaaggtgaag19381 1935 19 19501 cgtgaacctg ggaggtggag cttgcagtga gccaagattg tcccactgca ctccagcctg19561 1 19381 gttttggttt ttttttcccc cagagatgga gtcttgctct gtcgcccagg ctggagtgca19441 gtggtacgat ctcggcttac tgcaacctcc gcctcccggg ttcaagagat tctcctatgg19501 cgtgaacctg ggaggtggag cttgcagtga gccaagattg tcccactgca ctccagcctg195 19561 ggcgacagag ccagactctg tctcaaaaaa aaaaaaaaaa tattctcctg tctcagcctc19621 ctgagtagct gggattacag gcacccacca ccacgcccag ctaatttttg tatttttagt19681 agagacggtgtttcactatg ttggccaggc tggtctcgag ctcctgacct cacaatcctc19741 ccacctccgc ctcccaaagt cttgggatta caggtgtgag ccaccgcgcc cggaccgagg19801 gtgaaggatt ttaagagacc cttccttcat gctgtgtcca gaagtcttgc ccgctctcgc19861 agccaggaac caaaagtcct ggtaggactg agaacagttc ctaggctgcc atcagctggg19921 19921 19921 cctggtgatt caaatccacc caggtggcta aactacaaat aaaccgtacc catctactga19981 acataaacta aataccacta ttaaggatac ttaaaataaa cacacttagt gaacccatta20041 tgaactgaaa gtgtctttca cccttcccac gttttctaaa tcccctgagt catctaagta20101 ttcttcaatc caaaatgaac tatatttcct ttggtgcaat ctccagaaac cacagatcca20161 aggagtttca gcaagtagag ttgttttttg ttttttgttt tttttttaat ttttttttga20221 gatgggaaga acttgggtcc tccttgctcc acccaccctg catggtgaga atggtggagc20281 202 20281 aggaaaggca aaggggacct gatggagtgt ctctcctgcc agggctccct ccttccggct20341 gccacccgat cccagcttgc cctgcatcct ggtgggtcca ggcactggca ttgccccctt20401 ccggggattc tggcaggagc ggctgcatga cattgagagc aaaggtgagg ctggtgacta20461 aaggactgcc tgaagggagt cacacaatct agggacagag gggtggggct ggaaggcagg20521 aaataggaaa gagagggcag gaaacaaagt ccacaaagct gaaaagacgc tcatgagacc20581 20629 20641 tggtacatag taggtgttga ctggattgag gacaaaggaa aatagaattt tcaaagggat20701 tagggctaag actcaaagaa gaactgccca aggtggattc ttgactgtgc cagagctgac20761 cgaggtctgt ccaagaccta aggatgctac aaggtgttca tattgagcat ggggtgccca20821 gggtggtctg tcaatcaaaa gaagagggct gtgactggga ggagagttat aagtatggga20881 gaatatgaag tgggagcggg gaaggggact gcgatgtcac acaatgcaaa gggcatggaa20941 ttctgagtcc gaagccgcgc attctagcgc actccaccag gggccaccac ctcacccgcg21001 cttcccttcc ctctgtaaat cagggctgtg cagggtctct gtgaaagcat tctacactct21061 cttagagatg aaacagccaa agtaatggtg gtttcagccc aaaacgctgg gctgccaggc21121 tgggcgacgg tggcctgtgg ggaggcccca ctagcactgt gccccggaga agagccttcc21181 caagcgcggg gttgcttgca gggctgcagc ccactcccat gactttggtg ttcggctgcc212 gatgctccca acttgaccat ctctaccgcg acgaggtgca gaacgcccag cagcgcgggg21301 tgtttggccg agtcctcacc gccttctccc gggaacctga caaccccaag gtgtgagacc21361 ctgagggcgc aatggtaacc tgaagatagg gagagagggg aggactcgcg ctctccagcg21421 gggcacacca accacggccc tcccgtggcc tcccacgacc actcagccac ccctgcacac tctggcccac ccttgtgccc cggcccctct aggccccgcc tcctcccgcc cctgccccgc21541 ccctttggct ctgccctgtt gacaacgccc cagggcacgc aggccccacc aggcccgctc 21628 21661 87421 gagctggctg cggaggtgca ccgcgtgctg tgcctcgagc ggggccacat gtttgtctgc21781 ggcgatgtta ccatggcaac caacgtcctg cagaccgtgc agcgcatcct ggcgacggag21841 ggcgacatgg agctggacga ggccggcgac gtcatcggcg tgctgcgggt gcggaggggc21901 gggccgggcc tgagcgtgcg gggttcctgc taaggtctcc gagtcgggtt ctgatccact21961 gtgctctttt ccgacaggat cagcaacgct accacgaaga cattttcggg ctcacgctgc22021 gcacccagga ggtgacaagc cgcatacgca cccagagctt ttccttgcag gagcgtcagt22081 tgcggggcgc agtgccctgg gcgttcgacc ctcccggctc agacaccaac agcccctgag22141 agccgcctgg ctttcccttc cagttccggg agagcggctg cccgactcag gtccgcccga222 ccaggatcag ccccgctcct cccctcttga ggtggtgcct tctcacatct gtccagaggc22261 22321 22327 cagggcctac tgccacccgc ttcctgtttc ttagtcgaat gttagattcc tcttgcctct22441 ctcaggagta tcttacctgt aaagtctaat ctctaaatca agtatttatt attgaagatt22501 taccataagg gactgtgcca gatgttagga gaactactaa agtgcctacc ccagctcatg22561 tggattacag tttttttttt ttgttttttt ttttttgaaa cggagtctcc ctctgccgcc22621 cgggctggag tgcagtggcg tgatctcagc tcactgcaac ctccacccca caagttcaag 2264681 2248 22741 gctaggtttt gtatttttag taaagacggg gtttcaccat cttggccagg ctggtcttga22801 5822861 gctactgcac ccggcgtgga ttacaattat aaaatgacaa gatttctgtt ttaacctgtg22921 cagttgtggg tatgtggtgg ggaaaggggt cattctttta acagagtcct acacgccact22981 tgaccctgca ctctgaaaac atggtttcca gccagtctgg gctgctcccc cgtgcagttc 6866323041 23128 23101 (2) SEQ ID NO: 2848 for data: (i) sequence characteristics:

(A) length: 3690 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2848 sequence description: 1 cagagtggac gcacagtaac atgggcaact tgaagagcgt ggcccaggag cctgggccac 61 cctgcggcct ggggctgggg ctgggccttg ggctgtgcgg caagcagggc ccagccaccc 121 cggcccctga gcccagccgg gccccagcat ccctactccc accagcgcca gaacacagcc 181 721 gctgccctgg ccgaggagac ttccgaatct ggaacagcca gctggtgcgc tacgcgggct 781 181 ccccgagctc cccgctaacc cagcccccag aggggcccaa gttccctcgt gtgaagaact 241 gggaggtggg gagcatcacc tatgacaccc tcagcgccca ggcgcagcag gatgggccct 301 gcaccccaag acgctgcctg ggctccctgg tatttccacg gaaactacag ggccggccct 361 cccccggccc cccggcccct gagcagctgc tgagtcaggc ccgggacttc atcaaccagt 421 actacagctc cattaagagg agcggctccc aggcccacga acagcggctt caagaggtgg 481 aagccgaggt ggcagccaca ggcacctacc agcttaggga gagcgagctg gtgttcgggg 541 ctaagcaggc ctggcgcaac gctccccgct gcgtgggccg gatccagtgg gggaagctgc 601 aggtgttcga tgcccgggac tgcaggtctg cacaggaaat gttcacctac atctgcaacc 661 acatcaagta tgccaccaac cggggcaacc ttcgctcggc catcacagtg ttcccgcagc 721 gctgccctgg ccgaggagac ttccgaatct ggaacagcca gctggtgcgc tacgcgggct 781 accggcagca ggacggctct gtgcgggggg acccagccaa cgtggagatc accgagctct 841 gcattcagca cggctggacc ccaggaaacg gtcgcttcga cgtgctgccc ctgctgctgc 901 aggccccaga tgagccccca gaactcttcc ttctgccccc cgagctggtc cttgaggtgc 961 ccctggagca ccccacgctg gagtggtttg cagccctggg cctgcgctgg tacgccctcc1021 cggcagtgtc caacatgctg ctggaaattg ggggcctgga gttccccgca gcccccttca1081 gtggctggta catgagcact gagatcggca cgaggaacct gtgtgaccct caccgctaca1141 acatcctgga ggatgtggct gtctgcatgg acctggatac ccggaccacc tcgtccctgt1201 ggaaagacaa ggcagcagtg gaaatcaacg tggccgtgct gcacagttac cagctagcca1261 aagtcaccat cgtggaccac cacgccgcca cggcctcttt catgaagcac ctggagaatg1321 agcagaaggc cagggggggc tgccctgcag actgggcctg gatcgtgccc cccatctcgg1381 gcagcctcac tcctgttttc catcaggaga tggtcaacta tttcctgtcc ccggccttcc1441 gctaccagcc agacccctgg aaggggagtg ccgccaaggg caccggcatc accaggaaga1501 agacctttaa agaagtggcc aacgccgtga agatctccgc ctcgctcatg ggcacggtga1561 tggcgaagcg agtgaaggcg acaatcctgt atggctccga gaccggccgg gcccagagct1621 acgcacagca gctggggaga ctcttccgga aggcttttga tccccgggtc ctgtgtatgg1681 atgagtatga cgtggtgtcc ctcgaacacg agacgctggt gctggtggta accagcacat1741 ttgggaatgg ggatcccccg gagaatggag agagctttgc agctgccctg atggagatgt1801 ccggccccta caacagctcc cctcggccgg aacagcacaa gagttataag atccgcttca1861 acagcatctc ctgctcagac ccactggtgt cctcttggcg gcggaagagg aaggagtcca1921 gtaacacaga cagtgcaggg gccctgggca ccctcaggtt ctgtgtgttc gggctcggct1981 cccgggcata cccccacttc tgcgcctttg ctcgtgccgt ggacacacgg ctggaggaac2041 tgggcgggga gcggctgctg cagctgggcc agggcgacga gctgtgcggc caggaggagg2101 ccttccgagg ctgggcccag gctgccttcc aggccgcctg tgagaccttc tgtgtgggag2161 aggatgccaa ggccgccgcc cgagacatct tcagccccaa acggagctgg aagcgccaga2221 ggtaccggct gagcgcccag gccgagggcc tgcagttgct gccaggtctg atccacgtgc2281 acaggcggaa gatgttccag gctacaatcc gctcagtgga aaacctgcaa agcagcaagt2341 ccacgagggc caccatcctg gtgcgcctgg acaccggagg ccaggagggg ctgcagtacc2401 agccggggga ccacataggt gtctgcccgc ccaaccggcc cggccttgtg gaggcgctgc2461 tgagccgcgt ggaggacccg ccggcgccca ctgagcccgt ggcagtagag cagctggaga2521 agggcagccc tggtggccct ccccccggct gggtgcggga cccccggctg cccccgtgca2581 cgctgcgcca ggctctcacc ttcttcctgg acatcacctc cccacccagc cctcagctct2641 tgcggctgct cagcaccttg gcagaagagc ccagggaaca gcaggagctg gaggccctca2701 gccaggatcc ccgacgctac gaggagtgga agtggttccg ctgccccacg ctgctggagg2761 tgctggagca gttcccgtcg gtggcgctgc ctgccccact gctcctcacc cagctgcctc2821 tgctccagcc ccggtactac tcagtcagct cggcacccag cacccaccca ggagagatcc2881 acctcactgt agctgtgctg gcatacagga ctcaggatgg gctgggcccc ctgcactatg2941 gagtctgctc cacgtggcta agccagctca agcccggaga ccctgtgccc tgcttcatcc3001 ggggggctcc ctccttccgg ctgccacccg atcccagctt gccctgcatt ctggtgggtc3061 caggcactgg cattgccccc ttccggggat tctggcagga gcggctgcat gacattgaga3121 gcaaagggct gcagcccact cccatgactt tggtgttcgg ctgccgatgc tcccaacttg3181 accatctcta ccgcgacgag gtgcagaacg cccagcagcg cggggtgttt ggccgagtcc3241 tcaccgcctt ctcccgggaa cctgacaacc ccaagaccta cgtgcaggac atcctgagga3301 cggagctggc tgcggaggtg caccgcgtgc tgtgcctcga gcggggccac atgtttgtct3361 gcggcgatgt taccatggca accaacgtcc tgcagaccgt gcagcgcatc ctggcgacgg3421 agggcgacat ggagctggac gaggccggcg acgtcatcgg cgtgctgcgg gatcagcaac3481 gctaccacga agacattttc gggctcacgc tgcgcaccca ggaggtgaca agccgcatac3541 gcacccagag cttttccttg caggagcgtc agttgcgggg cgcagtgccc tgggcgttcg3601 accctcccgg ctcagacacc aacagcccct gagagccgcc tggctttccc ttccagttcc3661 gggagagcgg ctgcccgact caggtccgcc (2) SEQ ID NO: 2849 data: (i) sequence characteristics:

(A) length: 30417 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2849 sequence description: 1 gggcccagag aaagagctgt ccccggggcc ttggggacag ggtgacagcc acccagagat 61 catggagaag gggacgtaag gaagacctca cagaggagtc atcctgcgac tgtgttggtt121 gggtccttca ggaagcagag tcccaggagt tggaagcata agaggaatac tgcgggcaat181 gcctgagaaa gataacaggg accgggagca ggagtgagtt gggcagggga aggatcaggc241 ccacaatgcc aggctcacac ctgcagagga gggaagaaga agaagggcct cacatcagcc301 cagcggggga tgttacgccc acagacgccc cggggctcag ttactgtcta agtgttagaa361 ataaattttc ggtgccacaa aagaaatagc actcagatta aatgttccca gcaaggcaat421 tttacttcta tagaagggtg catctcacag atggagcaat ggcaagagca cacctgaaca481 agggaaggga aggggttttt atccctaagg caggtagccc ctacagctgt gttgttcccc541 tattggctag ggttggacca caccgtctga gctaattgtt actggctatt ttaaagagag601 caggggtaag agccggattg gcagggtaag tagtttggca ggaaggacgg tcacagaaca661 ggtgactcag gatgactcag gtcagagcag gtgaccagtg gtgactcagt tcggagcagg721 tgatagaagc taggaggggg ttgtttactg aaactagggg caaggagacg aagagaacat781 gaaagttaaa ctttaagatg aagaacaaag ctgaacatac tgatgcattg gatctttgga841 gaggatctca gaactcattg tacttaattt acaggctaaa accttagaag aggaatttat901 tatatcctac acaagactcc agggaagcac atggccttgg actgaaggct ggcatctgga961 agctgtcagc caccagcacc ttctgcagca ggtacctgct ctctaagagg gaggcctggg1021 tggtgcacct ccagagctgc ccaggctggg cctcaaggaa gaaaaagatt ttcatttgtc1081 agaggcggaa gggagaggtg gagggaacag cacagcagcg gcccaggggc agggaagcac1141 aggaccatta gggagacacg agaaagccca tttgtctaga acagaggatt caagcagtgc1201 accaaggaaa atgagggcca ggccaatgtg ctggagtggc tttgttcttg gctgagggtt1261 ttgggtagtg ccaaagcgta aggtaagccc tgctttccag aagaatctag cagagtgtgg1321 agcccagatg ggactggaag gcctgggagg ggtcaggtgg ccacagggac gggccacagc1381 cagtggtgca ggcaagaaga caatggccat ccatggtggc tcacacctgg aatcccagcc1441 cattgggagg tcgaggcagg tggatcacct gaggtcagga gttcgagacc agcctggtca1501 acatggtgaa accctgtctc taataaaatt ataaaaatta gccgggcgtg gtggtgggta1561 cctgtaatct cagctactca ggaggctggg tcaggagaat cgcttgaacc caggaggcgg1621 aggttacagt gagctgagat agcaccattg cattccagcc tggacaacaa aagcgagact1681 ctgtctcaaa aaaaaaaaaa aattagccag gcgtggtggt gggtgcctgt cgtcctcggg1741 aggctgaggc atgagaatca ctccgggagg cagaggttgc aatgaaccaa gatcacacca1801 ctgcactcca gcctgggtga cagagcaaga ctctgtctaa aaaaaaaaaa aagacagaag1861 gatgtcagca tctgatgctg cctgtcacct tgaccctgag gatgccagtc acagctccat1921 taactgggac ctaggaaaat gagtcatcct tggtcatgca catttcaaat ggtggcttaa1981 tatggaagcc acacttggga tctgttgtct cctccagcat ggtagaagat gcctgaaaag2041 taggggctgg atcccatccc ctgcctcact gggaaggcga ggtggtgggg tggggtgggg2101 cctcaggctt ggggtcatgg gacaaagccc aggctgaatg ccgcccttcc atctccctcc2161 tcctgagaca ggggcagcag ggcacactag tgtccaggag cagcttatga ggccccttca2221 ccctccgatc ctccaaaact ggcagacccc accttcttcg gtgtgacccc agagctctga gcacagcccg ttccttccgc ctgccggccc cccacccagg cccaccccaa ccttatcctc2341 cactgctttt cagaggagtc tggccaacac aaatcctctt gtttgtttgt ctgtctgtct2401 gctgctccta gtctctgcct ctcccagtct ctcagcttcc gtttctttct taaactttct2461 ctcagtctct gaggtctcga aatcacgagg cttcgacccc tgtggaccag atgcccagct2521 agtggccttt ctccagcccc tcagatggca cagaactaca aaccccagca tgcactctgg2581 cctgaagtgc ctggagagtg ctggtgtacc ccacctgcat tctgggaact gtagtttccc2641 tagtccccca tgctcccacc agggcatcaa gctcttccct ggccggctga ccctgcctca2701 gccctagtct ctctgctgac ctgcggcccc gggaagcgtg cgtcactgaa tgacagggtg27 ggggtggagg cactggaagg cagcttcctg ctcttttgtg tcccccactt gagtcatggg2821 ggtgtggggg ttccaggaaa ttggggctgg gaggggaagg gataccctaa tgtcagactc2881 aaggacaaaa agtcactaca tccttgctgg gcctctatcc ccaagaaccc aaaaggactc2941 aagggtgggg atccaggagt tcttgtatgt atggggggag gtgaaggaga gaacctgcat3001 gaccctagag gtccctgtgg tcactgagag tgtgggctgc catcccctgc tacagaaacg3061 gtgctcacct tctgcccaac cctccaggga aaggcacaca ggggtgaggc cgaaccttcc3121 gtctggtgcc acatcacaga aggaccttta tgaccccctg gtggctctac cctgccactc3181 cccaatgccc cagcccccat gctgcagccc cagggctctg ctggacacct gggctcccac3241 ttatcagcct cagtcctcac agcggaaccc aggcgtccgg ccccccaccc ttcaggccag3301 cgggcgtgga gctgaggctt tagagcctcc cagccgggct tgttcctgtc ccattgtgta3361 tgggataggg gcggggcgag ggccagcact ggagagcccc ctcccactgc cccctcctct3421 cggtcccctc cctcttccta aggaaaaggc cagggctctg ctggagcagg cagcagagtg3481 gacgcacagt aacatgggca acttgaagag cgtggcccag gagcctgggc caccctgcgg3541 cctggggctg gggctgggcc ttgggctgtg cggcaagcag ggccc3586 ggatcccatg ccctgcctca ctgggaaggc gaggtggtgg ggtggggtgg ggcctcaggc3646 ttggggtcat gggacaaagc ccaggctgaa tgccgccctt ccatctccct cctcctgaga3706 caggggcagc agggcacact agtgtgcagg agcagcttat gaggcccctt caccctccat3766 cctccaaaac tggcagaccc caccttcttg gtgtgacccc agagctctga gcacagcccg3826 ttccttccgc ctgccggccc cccacccagg cccaccccaa ccttatcctc cactgctttt301 cagaggagtc tggccaacac aaatcctctt gtttgtttgt ctgtctgtct gctgctccta361 gtctctgcct ctcccagtct ctgagcttcc gtttctttct taaactttct ctcagtctct 421 gaggtctcga aatcacgagg cttcgacccc tgtggaccag atgcccagct agtggccttt 481 ctccagcccc tcagatgaca cagaactaca aaccccagca tgcactctgg cctgaagtgc 541 ctggagagtg ctggtgtacc ccacctgcat tctgggaact gtagtttccc tagtccccca 601 tgctcccacc agggcatcaa gctcttccct ggctggctga ccctgcctca gccctagtct 661 ctctgctgac tgcggccccg ggaagcgtgc gtcactgaat gacagggtgg gggtggaggc 721 actggaaggc agcttcctgc tcttttgtgt cccccacttg agtcatgggg gtgtgggggt 781 tccaggaaat tggggctggg aggggaaggg ataccctaat gtcagactca aggacaaaaa 841 gtcactacat ccttgctggg cctctatccc caagaaccca aaaggactca agggtgggga 901 tccaggagtt cttgtatgta tggggggagg tgaaggagag aacctgcatg accctagagg 951 tccctgtggt cactgagagt gtgggctgcc atcccctgct acagaaacgg tgctcacctt1021 ctgcccaacc ctccagggaa aggcacacag gggtgagccg aaggcccttc cgtctggtgc1081 cacatcacag aaggaccttt atgaccccct ggtggctcta ccctgccact ccccaatgcc1141 ccagccccca tgctgcagcc ccagggctct gctggacacc tgggctccca cttatcagcc1201 tcagtcctca cagcggaacc caggcgtccg gccccccacc cttcaggcca gcgggcgtgg1261 agctgaggct ttagagcctc ccagccgggc ttgttcctgt cccattgtgt atgggatagg1321 ggcggggcga gggccagcac tggagagccc cctcccactg ccccctcctc tcggtcccct1381 ccctcttcct aaggaaaagg ccagggctct gctggagcag gcagcagagt ggacgcacag1441 taacatgggc aacttgaaga gcgtggccca ggagcctggg ccaccctgcg gcctggggct1501 ggggctgggc cttgggctgt gcggcaagca gggcccagcc accccggccc ctgagcccag1561 ccgggcccca gcatccctac tcccaccagc gccagaacac aggtaagggc caggcagcta1621 ggagcaggtg ggcaacaagg gtggtgtcaa ggcctgaagc ctggggctgg gaaggtctgg1681 aacttgtagc tgagtcggga gggccaggtc acaaatgcaa aagggctatt aatgtgcata1741 gaacaggaca gtctgggagg ctcagaaagg agaccaggat cagagtcggc aggtgaagct1801 gggagtaagg gtgccagcta tagaatctgg ccagggtttg aatgctgctc tgccgccagg1861 agctgtttga ctttgagcaa gttacttaat ctctctgaac ctccatttat ataaaacgag1921 192 1921 atatggcaat acttactcca tggggaagta agtttctagc tcacagcaag ccttcaacag1981 cagcgatgat tatttagctg gagaagaaag gagctgacag cagtggttac aggagtgaga2041 204 2041 aagtggggtc tcccagaaga gggagagagt tgggcaggaa actcgggccc ttggggtaag2101 caggctgaga agacagagcc accaggcttt tttcccctgc tccagccccc tctcctcgtg2161 gctgtcaccc gaaaactgga ccatgcagtt cccacaagag tcctcccggg ggtagaggtc2221 ccaggaggga ggaaagaccc ggaggcctgg tggggtgcca ggccgggggc aggctggggc2281 tgcaggcagc tatgcaggga aggctgaggg ccggggccct gctgctcagg cgcacccttg2341 gcctgagtcc ctcccttcct ccctgccgct ggtggctctg ggaggaagtg ataaggcctg2401 cgaggcttcc cttcacacat ggggctgctg tcaggagggg ttgtgagtgc ggagggaaat2461 cagagctgag gaatccctgc agggcttccc tccactcaag caccaggctc tgtccccctc2521 2581 tgggcgctgc aggtgggatg cgaacttagc ctcgggtcag gggctcagga gctcagcacc2641 agcagcccct gcagcccagg accctggtct ataaacggag gcacagctcg cctctagctc2701 ctaaggcatg gggaacgcca gaaggcatgc ggcaggtggg ctgtgagatc gccagtgctg2761 taacaggggc ctccgggtga catctgggaa ggctgaaagg aaacaaaccc ttcctgatga2821 ccctatccct ggctcccaac agccccccga gctccccgct aacccagccc ccagaggggc2881 ccaagttccc tcgtgtgaagaactgggagg tggggagcat cacctatgac accctcagcg2941 cccaggcgca gcaggtaagg ccggcatgcc ctgtccccat cgtctccagg gaaagggtgg3001 gtaaggcctg gcctcagatg gggccggaga gggaagctca acccttcttt gaattggtcc 3063061 cttgtttcca aaaagaggag aggactggga agaaccagag gagttgaggg acatgcacgg3121 8281 3253 cccacccctg ccccccctcc catcccagct ctaaacccct cctccctctc ccccgtccca 861 cccctaaacc ccacctccct gtccccctct aaacccctcc tccctgtccc cctctaaacc3361 ccacctccct ctccccatcc cacccctgca cccttcctcc ctctgccccc gtcccacgcc3421 363481 atccctgcac ccctcctccc tctgcccccg tcccacccct aaacccctcc tccctctgcc3541 ccaccccacc cttgcacccc tcctccctct tcccccgtcc cctgcctgca ttcctcctcc3601 ctctccccat ctcacccctg cacccctctt ccctctccca cccctgcacc cctcctccct3661 ctccccgtcc caccctgcac tcccgccctc tccagcgtcc cacccctaca cccctcctcc3721 ctctgcccca ttccacccct gcaccccctc ctccctctgc cccgacccac ccctgcaccc3781 ctcctccctc tcccccgtcc cacccctgca tccctcctcc ctctgccccg tcccacccct3841 acacccctcc tccctctccc ccatcccacc cctaaacccc tcctccctct cccctgtccc3901 atccctgcac ccttcctccc tctccccgtc ccatccctgc acccttcctc cctctccccg3961 tcccatccct gcacccctcc tccctctgct cccatcccac ccctgcaccc ctcctccctc 461 4048 57381 tccctctgcc cctaccccac ccctgcaccc ctcctccttc tccccatccc acctctgcac4141 ccctcctccc tctcccctct cccacccctg tacccttcct ccttctcccc gtcccacccc4201 tgcacttctc ctccctctaa cccatcccac ccctgcaccc ttcttccctc tcccccatcc4261 caccactgca cccctcctcc ctctccccct gttccacccc tgcacccctc ctccctgccc4321 ccaactccca tcccacccct gcaccctggc ctgtcctgac ctttgcactc cctcgaccca4381 ggatgggccc tgcaccccaa gacgctgcct gggctccctg gtatttccac ggaaactaca4441 gggccggccc tcccccggcc ccccggcccc tgagcagctg ctgagtcagg cccgggactt 4506951 4561 824621 gatcctaaca ccacgtgggc ccctcccgcc ctcccccagc acttgcacaa agcctggagg4681 agggcctccc tgtcccacac aacttcctgc ttgtcccctt cccacccctc tcctccccag4741 gagcggctcc caggcccacg aacagcggct tcaagaggtg gaagccgagg tggcagccac4801 aggcacctac cagcttaggg agagcgagct ggtgttcggg gctaagcagg cctggcgcaa4861 cgctccccgc tgcgtgggcc ggatccagtg ggggaagctg caggtgcggc tggccagcga4921 ctgagagacc cgggcgctac caaaagggga gcggggtggc ggggcagttc ctaaggcttc4981 ccgggggctg ggaggtccca aactgtgggg gagatccttg ccttttccct tagagactgg5041 aaaggtaggg ggactgcccc accctcagca cccaggggaa cctcagccca gtagtgaaga5101 cctggttatc aggccctatg gtagtgcctt ggctggagga ggggaaagaa gtctagacct5161 gctgcagggg tgaggaagtc tagacctgct gcaggggtga ggaagtctag acctgctgca5221 ggggtgagga agtctagacc tgctgcgggg gtgaggaagt ctagacctgc tgcgggggtg5281 aggacagctg agcggagttc cctgggcggt gctgtcagta gcaggagcag cctcctggaa5341 aagccctggc tgctgcttct cccccaagag agaaggcttc tcccgccagg ccagtccagt5401 gcagcccctc acccacaccc actgctaccc cagttcccct gcttcggccc gcaccctccc5461 tcacacccca gcccacagac tcggggctgg ccttagttac tggaacgcct gtgaccacag5521 cactaagaga agcaagctgc cccatggggg acttggtccc catggccttg gcctccttca5581 ccatcactgg ccgccaaaga gtttgaaata aagccacgtg cccagtgaat cccaaaggaa5641 cctcaactaa aataaaaaca atcctatctg acacttgcct gaccctctaa gtcattcaaa5701 gctttagctc aacttcgatc catctgagct gccatagtgg accccactca gagctgcgtc5761 cctcccttga ccccaggttg gtccctgcca ctcccctgcc cctgtcactg acacatgttt5821 cctcctccct caggcaggag tgggacctcc cagcctcctc ctggggcctc cactcagaat5881 gtcaggatga gcagggtcct aggaggcctc tggtgcagcc ttcccttccc accatccatg5941 tgctcaaaga gaatcacccg tcctttcttg aatgccatgg atcatggggg atttgctgcc6001 cacactccta ggcggcctct tagacatccg ttggtgccta acccaagcat cagtttggca6061 gaggccgagt ccctcctctg tactggatac caagtcagct tccataggga tggggagaca6121 cctggcccag ggaggagatg agaagcagcc cggatggtgc tacatatgtc agagagcagg 618651 gcaggaaggg atcagtgtgg ctgccaatgg tcaggagggc gccatggagt gaaccatggc6241 ccctgcctcc tcaaccaaga agtcctctgg agctgatact caagaccccc cgtctctctc6301 366361 ctgcacagga aatgttcacc tacatctgca accacatcaa gtatgccacc aaccggggca6421 accttcggtg agtgcccccc accatgccag gccccagcct tcttccccaa ggcagggaag6481 gcggggctct gaccagctct ttccccatgc gtgccagctc ggccatcaca gtgttcccgc6541 agcgctgccc tggccgagga gacttccgaa tctggaacag ccagctggtg cgctacgcgg6601 gctaccggca gcaggacggc tctgtgcggg gggacccagc caacgtggag atcaccgagg6661 tgggcaccga gggccaccca tgagggtgtc cccaaggtgg agaatgagga aaccagtggg6721 agaaggctcg ggggatccag gcaggaagag gggagcctcg gtgagataaa ggatgaaaaa6781caccaaagga ggggtgcctg ggtggtcacg gagacccagc caatgaggga ccctggagat6841 gaaggcagga gacagtggat ggaggggtcc ctgaggaggg catgaggctc agccccagaa6901 ccccctctgg cccactcccc acagctctgc attcagcacg gctggacccc aggaaacggt696 cgcttcgacg tgctgcccct gctgctgcag gccccagatg agcccccaga actcttcctt7021 ctgccccccg agctggtcct tgaggtgccc ctggagcacc ccacgtgagc accaaaggga7081 ttgactgggt gggatggagg gggccatccc tgagcctctc aagaagggcc tgcaaggggg7141 tgctgatccc acaccccaac acccccaggc tggagtggtt tgcagccctg ggcctgcgct7201 ggtacgccct cccggcagtg tccaacatgc tgctggaaat tgggggcctg gagttccccg7261 cagccccctt cagtggctgg tacatgagca ctgagatcgg cacgaggaac ctgtgtgacc7321 ctcaccgcta caacatcctg gaggtgaggt gcgggatggg gctcgggcac cgaatgcacc7381 tgtccaaggc aggagtctgg ctctcactcc atccccaaaa tgccagccac ggggacaatc7441 agagcaggtc cagggttgcc tcctaaatgg gaactgagga caagctctag aaccactgaa7501 gcaaaggggt agggggtggc aggggtgtgt gtgggggtgt gagtgggtga gtgtgagagt7561 gtgggtttct ggggtgtgca gtgggtgaga gtgtgggctt gtggggtgtg tagtgggtgt 8621 gagactgtgg gtttgtaggg gtgggtgagt gtgggtgtgt gggggtaggt gggtgtgggt7681 7747 7741 ggtttgtggg gtgtgtaggg gtgagtgtgt gtgggtttgt aggggtaggc gagtgtgggt7801 ttgtggggtg tgtaggggtg agtgtgtgtg agtttgtagg ggtaggcgag tgtgggtttg 7861 tggggtgtgt aggggtgagt gtgtgtgagt ttgtaggggt aggtgagtgt gggtttgtgg 7921 ggtgtgtagg gggtgtgtgt gggcttgtag gggtaggcga gtgtgggttt gtggggtgtg 7981 taggggcgag tgtgagagtg taggtatgtg ggtgtgagtg tggatgtgtg taggcggtga 8041 gtgtgaaatt gtgggtttgt gggggtgggt gggtgtgagt gtgtgggttt gtgggtgggt 8101 gtgggtgtga gtgggtgggt gaggggggca tggggatggg tgtgaacatg tagttgttct 8161 8561 8161 ttcaggcata ggacccatag ctctagagct ttcatcagat tctcaaaggg gaccttgact 8221 cggaaaaggt taagacccat tttagagatg agaaattaaa gcctggagct gaggagcgac 8281 tggcccaaag tccctctctg ctctgaggtg cttcgcaggc aaaaacctga accagccccc 8341 taggcagcca ggcctcccaa tggacaccac tcacctcact ccttccagcc atgtacggga 8401 aacagagata gtctccccac cccacccccg tgatcacctc tgtccctacc gatgccacac 8461 acccttctgc cccaggatgt ggctgtctgc atggacctgg atacccggac cacctcgtcc 8521 ctgtggaaag acaaggcagc agtggaaatc aacgtggccg tgctgcacag ttaccaggtg 8581 cagaggccca gactggccag gaaggcaaag ggtttgcata cgggggcagc aggggcgggg 8641 gatggaggag aggcagccat ttagaaacta gggcaggatt tggacaggca gaagaagttc 8701 cgtagtccca gtgccatggc gcacactggc tgcggttcgg ggacagggca ggtactattc 8761 caggcgctgt catctggtgg cttactgtgt gccagggacc ttgctgttta ctgcatgccc 8821 agtcatgctg attctcaggg catattgggt attgcagttt gtgggacccg ctggatcctg 8881 gaaacaaata ccaggatcaa gggcacacca ggagtcgtag tttgaggaag ccggggcctg 8941 ctgagaattt ctgtgggcta tttggtttgg ggaccaggca tgcagatgct ggagattaga 9001 gctgcttgtt gcatgttgaa cctgcagcat gaccatgcat gatgtggttt ggggtgaggg 9061 tgacattgtg gtttgagggg acacagggtg tgttagatat ggggtaatcg agggcacatg 9121 tggtttgggg tgaccggagt ggtggaggaa gaatgggcga ggtctgtggg tctggtttga 9181 gcctctcccc ctctctctcc cttccagcta gccaaagtca ccatcgtgga ccaccacgcc 9241 gccacggcct ctttcatgaa gcacctggag aatgagcaga aggccagggg gggctgccct 9301 gcagactggg cctggatcgt gccccccatc tcgggcagcc tcactcctgt tttccatcag 9361 gagatggtca actatttcct gtccccggcc ttccgctacc aggtgcccac cctaatggct 9421 ctgccagcct gggcccagct ctaattctaa gcagcccctg gggacctcta acctttcctt 9481 ttctttacct cccctcccaa ccccatcatc tctctgcagc cagacccctg gaaggggagt 9541 gccgccaagg gcaccggcat caccaggaag aagaccttta aagaagtggc caagtgggtc 9601 ccctgggagc cccgctctcc cacacacacc ctgggggccc cactctcccc cacacaccct 9661 gggggaccct gccccagcag tgttctggac ctaccactca gtatcccaaa accctgttgt 9721 gagggggttg gacccttgcc tggggaggcc ctgcctctgt gcacccggga caccctcaca 9781 ccttcctctc ccgcagcgcc gtgaagatct ccgcctcgct catgggcacg gtgatggcga 9841 agcgagtgaa ggcgacaatc ctgtatggct ccgagaccgg ccgggcccag agctacgcac 9901 agcagctggg gagactcttc cggaaggctt ttgatccccg ggtagggctg agcccagggg 9961 agcagggagc tagaaagagg gggctctatc agcatcttca ggggtgccct ggaggacagg10021 aagtgttaca agtcaggact catgaggaac ccggaaccac aggtgttcag agatcaagtt10081 ggggcctgaa tcttgcactg ccagggaggc cagagtgagg agggcagggc ctccgggggc10141 cacagcaccc aggacatctg tcttcccacc cacaggtcct gtgtatggat gagtatgacg10201 tggtgtccct cgaacacgag acgctggtgc tggtggtaac cagcacattt gggaatgggg10261 atcccccgga gaatggagag gtgagaactt ccaggaaagg ggctgctggg aatgaggaga10321 gactcagaat tggagtgact gggcaggaac ctctgcccaa cacacacaca cacacacaca10381 cacacacaca cacacacaca cacacacaca cacacacaca cacacacaca cgccaggatg10441 gaaagggaga tgctaagaga cccctggagc ctgaaacccc acacaacgta cgctcccagc10501 ccacccatgt ggctgcctcc ctgcaagcac atttgcttaa ctgcgcgtcc ccaagtcatt10561 tccattatca gtgcaagttt ttaatacaag gaaggcacat cctggctgac caagaggtta10621 gactgtgctc gggcactgac aagaaaaaca gggatacgtc actgagggcg gcttctagga10681 tgcgggtaat gtttcttaat gggatactgg ttacacaggt gtgttcagtt tgtaaaaatc10741 cacagagctg tacatttaca acatgtacaa cactattcca gcattttatt ttatttgttt10801 tatttatttt gataacctat ttacgttgcc caggctggcc ttgaactcct agcctcaaga10861 gatcctcctg ccgcaggctc ctttttcaaa agaagaaatt gagcgctgtt tagatgccaa10921 catagattaa ataacttcac tttttaaaaa gaaacacaaa gctagagtac catcattgaa10981 ttccttctct tgcaagctta ggtatctctg aggtgcccca ggctaggctc atttctgagt11041 cttacctgct ccagcttcta ggtgttaaag gccttattag cactaagtac ttcctcagta11101 ctcttttttc ttttttcctt tgagacaggg tctcactttg tggcccaggc tggagtgcag 1115961 tagtacaatc acggctcact gcagcctcaa cctcctagac tcaagcaatc ctcccacttc11221 aacctcccaa gtagttggga ctacaggcgc atgccatgat gcctagctaa tttttgtatt112 ttttatagag atggggtttc gccatgttgc ccaggctggt ctctaactcc tgggttcaag11341 caatccacct gcctcggcct cccaaagtgc tgcgattata gacgtgagcc actgcacctg11401 gcccgcagta tcttaagcaa gttggaatct cgtgaaaccc tttttgctgc cttagtgtcc gtttcagccc tcattcttac ctaccttttc aagaaaaata gcaccagcaa ttgacttttt11521 tttagcataa aggtgtatag aacccatata acctacagcc ttcacaaggc atagcacatt 8681 ttcaccaccc tggaaagttc cctcatcagt tcctcacgtg aatcccttcc cagtctgtct11641 ccctgccaga agtgtctgtc accacagaat agtttcgcct gctctagaac ggcacctaga11701 3611758 gctgcgtgac tcagtatttc actcattctg ctgctgagtg 11772 ccgttcattg tgtgaatatc11821 cccagtttgt ttacccattc tcttgttggt gacacttggg ctgtttccag gtcggggcta11881 ttatgaataa acctgttatg aacattctgt acccggcttt tgtgggctta tgtttttatt11941 tctcttgggt aaaacctagg agtagaattg gtaggtcata gggtagatgc atgtttaatc12001 tttcactttt ttaaaaaata aaactgccag gccaggcgcg gctgctcacg cctgtgatcc12061 cagcactttg ggaggcccag gtgggtggat cacttgaggt cagaagctca agaccagcct12121 ggccaacatg gcaaaaccct gtctctacta aaaatacaaa aattagctgg gcatggtggc12181 gcacgcctat agtcctagct actcaggagg ctaggcggga gaattgcttg aacctgggag12241 gtggaggttg cagtgagccg agatcacgcc actgcactcc agcctgggtg acagagcaag12301 aattctactt aaaataaaat acaaataaat aaaataaaac tgtcaaacag caaagcaaat12361 57361 12421 caaatctagg aatacagctc acagaaaatg gggtatattc actaaaaata aggaatattt12481 atagcaaatt tgtttgtaat accccacact ggaaacaatt caaatgacca tcgacaaata12541 ctgataaatt gtggtatatt caagtgccat atcgcactaa gtgtgaacga aacacaacca12601 cacacaacag tgcaggtgaa tctgaaaaaa tgtgaagaga agaaaaagcc agaccaaaga12661 atacatactg tactacaggg ttcactttat ataaagttca gaaacaggca gaactaatcc12721 acggagttag aaattaggag aggagttagt cactgggatg ggggtggcag tgacaggaag12781 aaggcacgaa gttggcttct aggatgcggg taatgtttgt ttgtttgttt gtttgtttgt12841 ttttgttttt gagctggagt ctcactctgt tgcccaggct ggagtgcaat ggcgtgatct12901 cggctcactg caacctccgc ctccccggtt caagcgattc tcctgcctca gcctcccgag12961 tagctgggat tacaggtgcc cgccaccatg gccagctaat ttttgtgttt ttagtagaga 8621 cgcgtttcac catgttggcc aggctggtct tgaatccctg acctcagcct cccaaagtgc13081 tgggattaca ggcgtgagcc accacgccca gccacgggta atgtttctcg atgggatgct13141 13258 13201 gcacctctgg acttgtgttg cacgttgaca aaacattcaa aaatgaaatt caaatcgttc13261 ttgctaactc tggcgcactt gggaaccagc acccagaggc atctgcagtt gagcaccaga13321 tgcagttcct tccagcttcc ttccccctgg gaggtccgct tgatgccact tcttcatggc13381 agcacaaaca aggccatggt cttctgagga gggcaacctg cacaatgtct gctagtgacc13441 aggacactgc tgaaggaact gagagtttgt ccacccatga aatccactaa aacaggaaag13501 attttgctct agccgttgtt agccaggagt gaggaaagag ctgtgccctc ccctgcagct13561 gcgaggacga tctgcctgcc ccaacaagtg gggattcagc aactccactt ctaaggatta13621 cccagctgaa gcatttaaaa gtgggagcaa ggcacacgta caagggcgtt tgagagagca13681 4641 13748 13801 aggccagact gaacaacaca gcgagactcc atctcttcag aaaatttaaa aattaaccaa13861 5813921 aggagtttga ggttacagtg aatgatgatg gagccactgc accccaacct gggcgacaga13981 gcaagaccca tatctaaaaa caatactact acttacgtca atattgttgt attgacctgg14041 agggatgtct gcaataaatt attgattaaa accaaggaag tacagtatgg taccactttt14101 acttaaaaaa aaactataaa tatgcacgtg cacgtaagtt caaggaaaaa gggctggaag14161 gttaacacct gtgaatggcg catatgcccg gaggaagatg gggtggtctt tgtcttatca14221 ctttacacat ttctgtaatg tcatttttca aaaacatcag atcgcttttg aaattttcaa14281 8214341 cttctatgta gtttgaaatg aaacaaaact aaccctgatg caaacactcc cctcgccaga14401 gctttgcagc tgccctgatg gagatgtccg gcccctacaa cagctcccct cggccggaac 8661 agcacaagtg agttgggtga gagtttgggg gagctggggg agctgatgca tttggagaca14521 caaacagaaa gggggtctga aaagctctcc ctctgtgcct caagtcgttt tcccaccaaa14581 14641 tctgagagcc gggacagtcc tgaggtcttc agagatgggg gtgtggtgtg tcagggcccc14701 aggctcggaa ccccagggat gctggccctc agcccctccc aagggcaggg cctttcctgt14761 ccagaggcag agaccctgaa gccgtccctg gggctgggtc tgggcctagc ctgtatcccc14821 agggccctgt gacaaccttg tctttgtcct ctcttgccag gagttataag atccgcttca14881 acagcatctc ctgctcagac ccactggtgt cctcttggcg gcggaagagg aaggagtcca14941 gtaacacaga cagtgcaggg gccctgggca ccctcaggtc agggcctcac caagaggggt15001 gcaacgggtg ggcaagctgc ctgggcaaac gtggcctgca aagggagctc cactgacgac15061 ccctgcaccc caggttctgt gtgttcgggc tcggctcccg ggcatacccc cacttctgcg15121 cctttgctcg tgcggtggac acacggctgg aggaactggg cggggagcgg ctgctgcagc15181 15241 ccttccaggt gagcccagcc cagcccctgc tctgactcct gccccctggg atgcctcctc15301 ctgcctcact ctgccctgat tctgtttggt tctttggtcc cttcctgttc cttccaaaat15361 ccaccctcat ctctccatgg catagccagc tcttctgggt caggggcaga ggatgacatg15421 gccctgccga ccacaggggt gcctagccca ggcagaagtg cagccgaaag agagcaggca15481 155 gggccctggc aggagggagc ttcagccagg cacaggctgg gcctcacaag tgggcgcaca aagggagggg gtgcagggca gggcagggga ccccacccag gatgggcagg atggagggag15601 aaggaaggga cagagagaag gtcagacaga ggcaagggct gaagctgagg ccagcacaga 15669561 1572 15721 8215781 15841 tctccccagt gccacactgt tcagggcagt gctgctgtcc cggggcccag gctggagctc 15927 agcagatttg ccttgattgg aggaggaggg catcctagga ggagagggag tgggggctac15961 87421 3616058 3616181 16141 accagaagca ggaaggctga gctaagcaga gcagcagcag tggagatagg aaggaaggga16201 gggaggggcc gaggaaggaa ggaagagata taagacttca cacgcaccac aaaagaaaga16261 6361 ttaacgggac ttggtgatat gaggctcagc caatcacggg tgagccctgc atttcaagcc16321 tgggactggc ccagcagttt tccagctgtg tgcctgacca ggagtagacg ggatccacac1638 73781 6 16441 ggagcactta ctatctgcac gcactttgtg gaaagctaag ggctttacat aaagtatctc16501 atttaatctt caccagaaca caatgaggtg taaagatggg gaaactgagg catgtcactg16561 taagtacggg attcggaatt tgaatgcagg tctgaacaca cagacgcctt cacagagcta16621 16684 16681 16741 ccatgaaatg ggctggcgga aaaggtgctg tccttggcgc cggcctcagc cactggggct16801 gccaaccccc caggagcaag acgcagtgaa gccgcccagg cgcctcacta gggcgacccc 1684661 16961 16981 5817041 17124 171 tctggggcca ggccctgctc cctagctcag gctgcctcat ttgcccctcc ccgcccccag17161 gtctgatcca cgtgcacagg cggaagatgt tccaggctac aatccgctca gtggaaaacc17221 tgcaaagcag caagtccacg tgaggacgac ggctttaccg ccccccaacc cctgtcctga17281 acaccctgac cctggaccct cctcctccca cattctcccg cccccacccc tctctgactc17341 cccataagtg cccctctccc cacccccagg agggccacca tcctggtgcg cctggacacc17401 ggaggccagg aggggctgca gtaccagccg ggggaccaca taggtgtctg cccgcccaac17461 cggcccggcc ttgtggaggc gctgctgagc cgcgtggagg acccgccggc gcccactgag17521 8617581 cagggcacac cagccccatg cccagcccca cccccggccc caggcctcca ggagctcagg17641 acccgaccca gggggtggcc acctcctcca cagctcagca ggcaggctca gagctggctg17701 tgctgcccac tgccgggctg gccttgttgc tggaccatcc ccacaccctc aaatgcaccc17761 ccaccaaaag gctgtcccct ccctctgggc tcctctccaa ggctccccta gcaatctagc17821 ttgctctgga gctggcactg gggctatttg ctgccacatc aatgcctggg ctttatttaa17881 aataaggggg tggagtcaga ggcagaggag cccagaccaa cccagtccgg ccaggggccc17941 ccgaacaata cactgaggct acctagacag gccgaccccg ctgctcaagg gcaggctctc18001 taacagtcac caaaacacaa acatcagccc aggtactgca gtcctgctgg gccctgtcct18061 cagagctccc tgtgcactat ccccaggtgg ccctcccccc ggctgggtgc gggacccccg18121 gctgcccccg tgcacgctgc gccaggctct caccttcttc ctggacatca cctccccacc18181 cagccctcag ctcttgcggc tgctcagcac cttggcagaa gagcccaggg aacagcagga18241 gctggaggcc ctcagccagg ttgggggcca ccccaatgag gcacaggggc tagagagacg18301 ggatgagctg gggggacccc agtggcagga aacccccatg caaagtcccc cctggacttt18361 cttctcctgg ctgacatgca ctggtgcttt aagacccagc tcctcaggga ggaattcatg18421 gctggattct ccaggtctta gagaaaactc tattggcctg aactgagcag ggagaaaccc18481 taaagaggct cagtggggga ggggtcaaga agggaggtta ctaggaaggg ctatggggcc18541 tccaacccac tgcatcctgc cccgccagga tccccgacgc tacgaggagt ggaagtggtt18601 ccgctgcccc acgctgctgg aggtgctgga gcagttcccg tcggtggcgc tgcctgcccc 8261 18721 cagcacccac ccaggagaga tccacctcac tgtagctgtg ctggcataca ggactcaggg18781 tgaggcaaca agcaggagca ggcctggcca cagcagggtt gggaccggcc cctctctggc18841 188 ccctcaccgg cctctccttc ccacccccag atgggctggg ccccctgcac tatggagtct189 gctccacgtg gctaagccag ctcaagcccg gagaccctgt gccctgcttc atccgggggt18961 aagtgagatg gaggacttgg tggggagctg cccagggtca gggtggcagc tttggtgagg19021 agtgtcactg gtgaggggtg tcactggaaa caggaaggag ctctgtaaca tgtcaagggt19081 gtggtgtcat taggtcactt cagaactctg gctaagcttt ggctctctca ttcatttaga19141 ctcagagttc tgccctgaaa ctatagctcc cagagccaga gctggtatca aaccggctgg19201 ccctgtggct ttctgaaagc ttctgtgttc ctctctatgt ccctgggctg tctgatgttg19261 ggcagcatgg cacctgggaa ctacagtcac taaatcctca ctcaatccag ggagaactac19321 tagttagggt taagaccacc ctttggcctt ggtgtcacca aggactcaaa gaaggtgaag19381 gttttggttt ttttttcccc cagagatgga gtcttgctct gtcgcccagg ctggagtgca19441 gtggtacgat ctcggcttac tgcaacctcc gcctcccggg ttcaagagat tctcctatgg19501 cgtgaacctg ggaggtggag cttgcagtga gccaagattg tcccactgca ctccagcctg19561 ggcgacagag ccagactctg tctcaaaaaa aaaaaaaaaa tattctcctg tctcagcctc19621 ctgagtagct gggattacag gcacccacca ccacgcccag ctaatttttg tatttttagt19681 agagacggtg tttcactatg ttggccaggc tggtctcgag ctcctgacct cacaatcctc19741 ccacctccgc ctcccaaagt cttgggatta caggtgtgag ccaccgcgcc cggaccgagg19801 gtgaaggatt ttaagagacc cttccttcat gctgtgtcca gaagtcttgc ccgctctcgc19861 agccaggaac caaaagtcct ggtaggactg agaacagttc ctaggctgcc atcagctggg19921 cctggtgatt caaatccacc caggtggcta aactacaaat aaaccgtacc catctactga19981 acataaacta aataccacta ttaaggatac ttaaaataaa cacacttagt gaacccatta20041 tgaactgaaa gtgtctttca cccttcccac gttttctaaa tcccctgagt catctaagta20101 ttcttcaatc caaaatgaac tatatttcct ttggtgcaat ctccagaaac cacagatcca20161 aggagtttca gcaagtagag ttgttttttg ttttttgttt tttttttaat ttttttttga20221 gatgggaaga acttgggtcc tccttgctcc acccaccctg catggtgaga atggtggagc20281 aggaaaggca aaggggacct gatggagtgt ctctcctgcc agggctccct ccttccggct20341 gccacccgat cccagcttgc cctgcatcct ggtgggtcca ggcactggca ttgccccctt20401 ccggggattc tggcaggagc ggctgcatga cattgagagc aaaggtgagg ctggtgacta aaggactgcc tgaagggagt cacacaatct agggacagag gggtggggct ggaaggcagg20521 aaataggaaa gagagggcag gaaacaaagt ccacaaagct gaaaagacgc tcatgagacc 2056 20581 aaggggaggg caggtaccaa aggcaagggc tgggccctga gcttctggct tcctggtgcc20641 tggtacatag taggtgttga ctggattgag gacaaaggaa aatagaattt tcaaagggat20701 tagggctaag actcaaagaa gaactgccca aggtggattc ttgactgtgc cagagctgac20761 20884 20821 gggtggtctg tcaatcaaaa gaagagggct gtgactggga ggagagttat aagtatggga20881 gaatatgaag tgggagcggg gaaggggact gcgatgtcac acaatgcaaa gggcatggaa20941 ttctgagtcc gaagccgcgc attctagcgc actccaccag gggccaccac ctcacccgcg21001 cttcccttcc ctctgtaaat cagggctgtg cagggtctct gtgaaagcat tctacactct21061 57361 cttagagatg aaacagccaa agtaatggtg gtttcagccc aaaacgctgg gctgccaggc21121 tgggcgacgg tggcctgtgg ggaggcccca ctagcactgt gccccggaga agagccttcc21181 caagcgcggg gttgcttgca gggctgcagc ccactcccat gactttggtg ttcggctgcc 21224 gatgctccca acttgaccat ctctaccgcg acgaggtgca gaacgcccag cagcgcgggg21301 tgtttggccg agtcctcacc gccttctccc gggaacctga caaccccaag gtgtgagacc21361 ctgagggcgc aatggtaacc tgaagatagg gagagagggg aggactcgcg ctctccagcg21421 gggcacacca accacggccc tcccgtggcc tcccacgacc actcagccac ccctgcacac21481 2152 21541 2168401 21653 21661 accagggccc gccctaaccc cgccgccccg cagacctacg tgcaggacat cctgaggacg 8621 21781 ggcgatgtta ccatggcaac caacgtcctg cagaccgtgc agcgcatcct ggcgacggag21841 21901 gggccgggcc tgagcgtgcg gggttcctgc taaggtctcc gagtcgggtt ctgatccact21961 gtgctctttt ccgacaggat cagcaacgct accacgaaga cattttcggg ctcacgctgc22021 gcacccagga ggtgacaagc cgcatacgca cccagagctt ttccttgcag gagcgtcagt22081 tgcggggcgc agtgccctgg gcgttcgacc ctcccggctc agacaccaac agcccctgag22141 agccgcctgg ctttcccttc cagttccggg agagcggctg cccgactcag gtccgcccga22201 ccaggatcag ccccgctcct cccctcttga ggtggtgcct tctcacatct gtccagaggc22261 tgcaaggatt cagcattatt cctccaggaa ggagcaaaac gcctcttttc cctctctagg22321 cctgttgcct cgggcctggg tccgccttaa tctggaaggc ccctcccagc agcggtaccc22381 cagggcctac tgccacccgc ttcctgtttc ttagtcgaat gttagattcc tcttgcctct22441 2258 taccataagg gactgtgcca gatgttagga gaactactaa agtgcctacc ccagctcatg22561 tggattacag tttttttttt ttgttttttt ttttttgaaa cggagtctcc ctctgccgcc22621 cgggctggag tgcagtggcg tgatctcagc tcactgcaac ctccacccca caagttcaag22681 tgattctcct gcctcagcct cccaagtagt tgggattaca ggtgcctgcc accgcgcccg22741 gctaggtttt gtatttttag taaagacggg gtttcaccat cttggccagg ctggtcttga22801 actcctgacc tcgtgatcca accgcctcag cctcccaaag tgctgggatt acaggtgtga22861 gctactgcac ccggcgtgga ttacaattat aaaatgacaa gatttctgtt ttaacctgtg22 cagttgtggg tatgtggtgg ggaaaggggt cattctttta acagagtcct acacgccact22981 3923041 tcaggctcgt aatcgagaag gcaggtgcag cactcagctg ccaggagtgg ggcctgccag23101 aaacaagagt cacagagatg tgcaacagcc atgagcaagc tt

1 cagagtggac gcacagtaac atgggcaact tgaagagcgt ggcccaggag cctgggccac 61 cctgcggcct ggggctgggg ctgggccttg ggctgtgcgg caagcagggc ccagccaccc 121 cggcccctga gcccagccgg gccccagcat ccctactccc accagcgcca gaacacagcc 181 721 gctgccctgg ccgaggagac ttccgaatct ggaacagcca gctggtgcgc tacgcgggct 781 181 ccccgagctc cccgctaacc cagcccccag aggggcccaa gttccctcgt gtgaagaact 241 gggaggtggg gagcatcacc tatgacaccc tcagcgccca ggcgcagcag gatgggccct 301 gcaccccaag acgctgcctg ggctccctgg tatttccacg gaaactacag ggccggccct 361 cccccggccc cccggcccct gagcagctgc tgagtcaggc ccgggacttc atcaaccagt 421 actacagctc cattaagagg agcggctccc aggcccacga acagcggctt caagaggtgg 481 aagccgaggt ggcagccaca ggcacctacc agcttaggga gagcgagctg gtgttcgggg 541 ctaagcaggc ctggcgcaac gctccccgct gcgtgggccg gatccagtgg gggaagctgc 601 aggtgttcga tgcccgggac tgcaggtctg cacaggaaat gttcacctac atctgcaacc 661 acatcaagta tgccaccaac cggggcaacc ttcgctcggc catcacagtg ttcccgcagc 721 gctgccctgg ccgaggagac ttccgaatct ggaacagcca gctggtgcgc tacgcgggct 781 accggcagca ggacggctct gtgcgggggg acccagccaa cgtggagatc accgagctct841 gcattcagca cggctggacc ccaggaaacg gtcgcttcga cgtgctgccc ctgctgctgc 901 aggccccaga tgagccccca gaactcttcc ttctgccccc cgagctggtc cttgaggtgc 961 ccctggagca ccccacgctg gagtggtttg cagccctggg cctgcgctgg tacgccctcc1021 cggcagtgtc caacatgctg ctggaaattg ggggcctgga gttccccgca gcccccttca1081 gtggctggta catgagcact gagatcggca cgaggaacct gtgtgaccct caccgctaca1141 acatcctgga ggatgtggct gtctgcatgg acctggatac ccggaccacc tcgtccctgt1201 ggaaagacaa ggcagcagtg gaaatcaacg tggccgtgct gcacagttac cagctagcca1261 aagtcaccat cgtggaccac cacgccgcca cggcctcttt catgaagcac ctggagaatg1321 agcagaaggc cagggggggc tgccctgcag actgggcctg gatcgtgccc cccatctcgg1381 gcagcctcac tcctgttttc catcaggaga tggtcaacta tttcctgtcc ccggccttcc1441 gctaccagcc agacccctgg aaggggagtg ccgccaaggg caccggcatc accaggaaga1501 agacctttaa agaagtggcc aacgccgtga agatctccgc ctcgctcatg ggcacggtga1561 tggcgaagcg agtgaaggcg acaatcctgt atggctccga gaccggccgg gcccagagct28348 acgcacagca gctggggaga ctcttccgga aggcttttga tccccgggtc ctgtgtatgg28408 atgagtatga cgtggtgtcc ctcgaacacg agacgctggt gctggtggta accagcacat28468 ttgggaatgg ggatcccccg gagaatggag agagctttgc agctgccctg atggagatgt28528 ccggccccta caacagctcc cctcggccgg aacagcacaa gagttataag atccgcttca28588 acagcatctc ctgctcagac ccactggtgt cctcttggcg gcggaagagg aaggagtcca28648 gtaacacaga cagtgcaggg gccctgggca ccctcaggtt ctgtgtgttc gggctcggct28708 cccgggcata cccccacttc tgcgcctttg ctcgtgccgt ggacacacgg ctggaggaac28768 tgggcgggga gcggctgctg cagctgggcc agggcgacga gctgtgcggc caggaggagg28828 ccttccgagg ctgggcccag gctgccttcc aggccgcctg tgagaccttc tgtgtgggag28888 aggatgccaa ggccgccgcc cgagacatct tcagccccaa acggagctgg aagcgccaga28948 ggtaccggct gagcgcccag gccgagggcc tgcagttgct gccaggtctg atccacgtgc29008 acaggcggaa gatgttccag gctacaatcc gctcagtgga aaacctgcaa agcagcaagt29068 ccacgagggc caccatcctg gtgcgcctgg acaccggagg ccaggagggg ctgcagtacc29128 agccggggga ccacataggt gtctgcccgc ccaaccggcc cggccttgtg gaggcgctgc29188 tgagccgcgt ggaggacccg ccggcgccca ctgagcccgt ggcagtagag cagctggaga29248 agggcagccc tggtggccct ccccccggct gggtgcggga cccccggctg cccccgtgca29308 cgctgcgcca ggctctcacc ttcttcctgg acatcacctc cccacccagc cctcagctct29368 tgcggctgct cagcaccttg gcagaagagc ccagggaaca gcaggagctg gaggccctca29428 gccaggatcc ccgacgctac gaggagtgga agtggttccg ctgccccacg ctgctggagg29488 tgctggagca gttcccgtcg gtggcgctgc ctgccccact gctcctcacc cagctgcctc29548 tgctccagcc ccggtactac tcagtcagct cggcacccag cacccaccca ggagagatcc29608 acctcactgt agctgtgctg gcatacagga ctcaggatgg gctgggcccc ctgcactatg29668 gagtctgctc cacgtggcta agccagctca agcccggaga ccctgtgccc tgcttcatcc29728 ggggggctcc ctccttccgg ctgccacccg atcccagctt gccctgcatt ctggtgggtc29788 caggcactgg cattgccccc ttccggggat tctggcagga gcggctgcat gacattgaga29848 gcaaagggct gcagcccact cccatgactt tggtgttcgg ctgccgatgc tcccaacttg29908 accatctcta ccgcgacgag gtgcagaacg cccagcagcg cggggtgttt ggccgagtcc29968 tcaccgcctt ctcccgggaa cctgacaacc ccaagaccta cgtgcaggac atcctgagga30028 cggagctggc tgcggaggtg caccgcgtgc tgtgcctcga gcggggccac atgtttgtct30088 gcggcgatgt taccatggca accaacgtcc tgcagaccgt gcagcgcatc ctggcgacgg30148 agggcgacat ggagctggac gaggccggcg acgtcatcgg cgtgctgcgg gatcagcaac30208 gctaccacga agacattttc gggctcacgc tgcgcaccca ggaggtgaca agccgcatac30268 302 30268 gcacccagag cttttccttg caggagcgtc agttgcgggg cgcagtgccc tgggcgttcg30328 accctcccgg ctcagacacc aacagcccct gagagccgcc tggctttccc ttccagttcc30388 gggagagcgg ctgcccgact caggtccgcc (2) SEQ ID N0: 2850 of the data: (i) sequence characteristics:

(A) length: 1872 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2850 sequence description: 1 aggagtttcg acccgcgctg gcgagtcatg agcgccaagt ttcccactgg cgcgcaaact 61 tgagttactt ttgagcgtgg atactggcga agaggctgcg ggcggtatta gcgtttgcag 121 cgacttggct cgggcagctg acccaagtgt cctgtcttcc ttcctctgct tgtctctagg 181 721 cagaggactg gccatttgga gctgagatgt gtaagctggt gcctttcata cagaaagcct 781 181 ctctgaaact gcggagcggc caccggacgc cttctggagc aggtagcagc atgcagccgc 241 ctccaagtct gtgcggaccg gccctggttg cgctggttct tgcctgcggc ctgtcgcgga 301 tctggggaga ggagagaggc ttcccgcctg acagggccac tccgcttttg caaaccgcag 361 agataatgac gccacccact aagaccttat ggcccaaggg ttccaacgcc agtctggcgc 421 ggtcgttggc acctgcggag gtgcctaaag gagacaggac ggcaggatct ccgccacgca 481 ccatctcccc tcccccgtgc caaggaccca tcgagatcaa ggagactttc aaatacatca 541 acacggttgt gtcctgcctt gtgttcgtgc tggggatcat cgggaactcc acacttctga 601 gaattatcta caagaacaag tgcatgcgaa acggtcccaa tatcttgatc gccagcttgg 661 ctctgggaga cctgctgcac atcgtcattg acatccctat caatgtctac aagctgctgg 721 cagaggactg gccatttgga gctgagatgt gtaagctggt gcctttcata cagaaagcct 781 ccgtgggaat cactgtgctg agtctatgtg ctctgagtat tgacagatat cgagctgttg 841 cttcttggag tagaattaaa ggaattgggg ttccaaaatg gacagcagta gaaattgttt 901 tgatttgggt ggtctctgtg gttctggctg tccctgaagc cataggtttt gatataatta 961 cgatggacta caaaggaagt tatctgcgaa tctgcttgct tcatcccgtt cagaagacag1021 ctttcatgca gttttacaag acagcaaaag attggtggct attcagtttc tatttctgct1081 tgccattggc catcactgca tttttttata cactaatgac ctgtgaaatg ttgagaaaga1141 aaagtggcat gcagattgct ttaaatgatc acctaaagca gagacgggaa gtggccaaaa1201 ccgtcttttg cctggtcctt gtctttgccc tctgctggct tccccttcac ctcagcagga1261 ttctgaagct cactctttat aatcagaatg atcccaatag atgtgaactt ttgagctttc1321 tgttggtatt ggactatatt ggtatcaaca tggcttcact gaattcctgc attaacccaa1381 ttgctctgta tttggtgagc aaaagattca aaaactgctt taagtcatgc ttatgctgct1441 ggtgccagtc atttgaagaa aaacagtcct tggaggaaaa gcagtcgtgc ttaaagttca1501 aagctaatga tcacggatat gacaacttcc gttccagtaa taaatacagc tcatcttgaa1561 agaagaacta ttcactgtat ttcattttct ttatattgga ccgaagtcat taaaacaaaa1621 tgaaacattt gccaaaacaa aacaaaaaac tatgtatttg cacagcacac tattaaaata1681 ttaagtgtaa ttattttaac actcacagct acatatgaca ttttatgagc tgtttacggc1741 atggaaagaa aatcagtggg aattaagaaa gcctcgtcgt gaaagcactt aattttttac1801 agttagcact tcaacatagc tcttaacaac ttccaggata ttcacacaac acttaggctt1861 aaaaatgagc tc (2) SEQ ID NO: 2851 data: (i) sequence characteristics:

(A) length: 4286 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2851 sequence description: 1 gagacattcc ggtgggggac tctggccagc ccgagcaacg tggatcctga gagcactccc 61 aggtaggcat ttgccccggt gggacgcctt gccagagcag tgtgtggcag gcccccgtgg 121 aggatcaaca cagtggctga acactgggaa ggaactggta cttggagtct ggacatctga 181 721 ctgctggcag aggactggcc atttggagct gagatgtgta agctggtgcc tttcatacag 781 181 aacttggctc tgaaactgcg cagcggccac cggacgcctt ctggagcagg tagcagcatg 241 cagccgcctc caagtctgtg cggacgcgcc ctggttgcgc tggttcttgc ctgcggcctg 301 tcgcggatct ggggagagga gagaggcttc ccgcctgaca gggccactcc gcttttgcaa 361 accgcagaga taatgacgcc acccactaag accttatggc ccaagggttc caacgccagt 421 ctggcgcggt cgttggcacc tgcggaggtg cctaaaggag acaggacggc aggatctccg 481 ccacgcacca tctcccctcc cccgtgccaa ggacccatcg agatcaagga gactttcaaa 541 tacatcaaca cggttgtgtc ctgccttgtg ttcgtgctgg ggatcatcgg gaactccaca 601 cttctgagaa ttatctacaa gaacaagtgc atgcgaaacg gtcccaatat cttgatcgcc 661 agcttggctc tgggagacct gctgcacatc gtcattgaca tccctatcaa tgtctacaag 721 ctgctggcag aggactggcc atttggagct gagatgtgta agctggtgcc tttcatacag 781 aaagcctccg tgggaatcac tgtgctgagt ctatgtgctc tgagtattga cagatatcga 841 gctgttgctt cttggagtag aattaaagga attggggttc caaaatggac agcagtagaa 901 attgttttga tttgggtggt ctctgtggtt ctggctgtcc ctgaagccat aggttttgat 961 ataattacga tggactacaa aggaagttat ctgcgaatct gcttgcttca tcccgttcag1021 aagacagctt tcatgcagtt ttacaagaca gcaaaagatt ggtggctgtt cagtttctat1081 ttctgcttgc cattggccat cactgcattt ttttatacac taatgacctg tgaaatgttg1141 agaaagaaaa gtggcatgca gattgcttta aatgatcacc taaagcagag acgggaagtg1201 gccaaaaccg tcttttgcct ggtccttgtc tttgccctct gctggcttcc ccttcacctc1261 agcaggattc tgaagctcac tctttataat cagaatgatc ccaatagatg tgaacttttg1321 agctttctgt tggtattgga ctatattggt atcaacatgg cttcactgaa ttcctgcatt1381 aacccaattg ctctgtattt ggtgagcaaa agattcaaaa actgctttaa gtcatgctta1441 tgctgctggt gccagtcatt tgaagaaaaa cagtccttgg aggaaaagca gtcgtgctta1501 aagttcaaag ctaatgatca cggatatgac aacttccgtt ccagtaataa atacagctca1561 tcttgaaaga agaactattc actgtatttc attttcttta tattggaccg aagtcattaa1621 aacaaaatga aacatttgcc aaaacaaaac aaaaaactat gtatttgcac agcacactat1681 taaaatatta agtgtaatta ttttaacact cacagctaca tatgacattt tatgagctgt1741 ttacggcatg gaaagaaaat cagtgggaat taagaaagcc tcgtcgtgaa agcacttaat1801 tttttacagt tagcacttca acatagctct taacaacttc caggatattc acacaacact1861 taggcttaaa aatgagctca ctcagaattt ctattctttc taaaaagaga tttattttta1921 aatcaatggg actctgatat aaaggaagaa taagtcactg taaaacagaa cttttaaatg1981 aagcttaaat tactcaattt aaaattttaa aatcctttaa aacaactttt caattaatat2041 tatcacacta ttatcagatt gtaattagat gcaaatgaga gagcagttta gttgttgcat2101 ttttcggaca ctggaaacat ttaaatgatc aggagggagt aacagaaaga gcaaggctgt2161 ttttgaaaat cattacactt tcactagaag cccaaacctc agcattctgc aatatgtaac2221 caacatgtca caaacaagca gcatgtaaca gactggcaca tgtgccagct gaatttaaaa2281 tataatactt ttaaaaagaa aattattaca tcctttacat tcagttaaga tcaaacctca2341 caaagagaaa tagaatgttt gaaaggctat cccaaaagac ttttttgaat ctgtcattca2401 cataccctgt gaagacaata ctatctacaa ttttttcagg attattaaaa tcttcttttt2461 tcactatcgt agcttaaact ctgtttggtt ttgtcatctg taaatactta cctacataca2521 ctgcatgtag atgattaaat gagggcaggc cctgtgctca tagctttacg atggagagat2581 gccagtgacc tcataataaa gactgtgaac tgcctggtgc agtgtccaca tgacaaaggg2641 gcaggtagca ccctctctca cccatgctgt ggttaaaatg gtttctagca tatgtataat2701 gctatagtta aaatactatt tttcaaaatc atacagatta gtacatttaa cagctacctg2761 taaagcttat tactaatttt tgtattattt ttgtaaatag ccaatagaaa agtttgcttg2821 acatggtgct tttctttcat ctagaggcaa aactgctttt tgagaccgta agaacctctt2881 agctttgtgc gttcctgcct aatttttata tcttctaagc aaagtgcctt aggatagctt2941 gggatgagat gtgtgtgaaa gtatgtacaa gagaaaacgg aagagagagg aaatgaggtg3001 gggttggagg aaacccatgg ggacagattc ccattcttag cctaacgttc gtcattgcct3061 cgtcacatca atgcaaaagg tcctgatttt gttccagcaa aacacagtgc aatgttctca3121 gagtgacttt cgaaataaat tgggcccaag agctttaact cggtcttaaa atatgcccaa3181 atttttactt tgtttttctt ttaataggct gggccacatg ttggaaataa gctagtaatg3241 ttgttttctg tcaatattga atgtgatggt acagtaaacc aaaacccaac aatgtggcca3301 gaaagaaaga gcaataataa ttaattcaca caccatatgg attctattta taaatcaccc3361 acaaacttgt tctttaattt catcccaatc actttttcag aggcctgtta tcatagaagt3421 cattttagac tctcaatttt aaattaattt tgaatcacta atattttcac agtttattaa3481 tatatttaat ttctatttaa attttagatt atttttatta ccatgtactg aatttttaca3541 593601 tgaaactaca cacaaaaagc atacttgcat tatttataat aaaattgcat tcagtggctt3661 tttaaaaaaa atgtttgatt caaaacttta acatactgat aagtaagaaa caattataat3721 ttctttacat actcaaaacc aagatagaaa aaggtgctat cgttcaactt caaaacatgt3781 ttcctagtat taaggacttt aatatagcaa cagacaaaat tattgttaac atggatgtta3841 cagctcaaaa gatttataaa agattttaac ctattttctc ccttattatc cactgctaat3901 gtggatgtat gttcaaacac cttttagtat tgatagctta catatggcca aaggaataca 398661 gtttatagca aaacatgggt atgctgtagc taactttata aaagtgtaat ataacaatgt4021 aaaaaattat atatctggga ggattttttg gttgcctaaa gtggctatag ttactgattt tttattatgt aagcaaaacc aataaaaatt taagtttttt taacaactac cttatttttc4141 actgtacaga cactaattca ttaaatacta attgattgtt taaaagaaat ataaatgtga4201 caagtggaca ttatttatgt taaatataca attatcaagc aagtatgaag ttattcaatt4261 aaaatgccac atttctggtc tctggg (2) SEQ ID NO: 2852 materials: (i) sequence characteristics:

(A) length: 1719 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2852 sequence description: 1 gggctgcagg tttcgacccg cgctggcgag tcatgagcgc caagtttccc actggcgcgc 61 aaacttgagt tacttttgag cgtggatact ggcgaagagg ctgcgggcgg tattagcgtt121 tgcagcgact tggctcgggc agctgacccc aaagtgtctg tcttccttcc tctgcttgtc 181 721 tggcagagga ctggccattt ggagctgaga tgtgtaagct ggtgcctttc atacagaaag 781 181 tctaggctct gaaactgcgg cggccaccgg acgcttctgg agcaggtagc agcatgcagc 241 cgcctccaag tctgtgcgga cgcgccctgg ttgcgctggt tcttgcctgc ggcctgtcgc 301 ggatctgggg agaggagaga ggcttcccgc ccgacagggc cactccgctt ttgcaaaccg 361 cagagataat gacgccaccc actaagacct tatggcccaa gggttccaac gccagtctgg 421 cgcggtcgtt ggcacctgcg gaggtgccta aaggagacag gacggcagga tctccgccac 481 gcaccatctc ccctcccccg tgccaaggac ccatcgagat caaggagact ttcaaataca 541 tcaacacggt tgtgtcctgc cttgtgttcg tgctggggat catcgggaac tccacacttc 601 tgagaattat ctacaagaac aagtgcatgc gaaacggtcc caatatcttg atcgccagct 661 tggctctggg agacctgctg cacatcgtca ttgacatccc tatcaatgtc tacaagctgc 721 tggcagagga ctggccattt ggagctgaga tgtgtaagct ggtgcctttc atacagaaag 781 cctccgtggg aatcactgtg ctgagtctat gtgctctgag tattgacaga tatcgagctg 841 ttgcttcttg gagtagaatt aaaggaattg gggttccaaa atggacagca gtagaaattg 901 ttttgatttg ggtggtctct gtggttctgg ctgtccctga agccataggt tttgatataa 961 ttacgatgga ctacaaagga agttatctgc gaatctgctt gcttcatccc gttcagaaga1021 cagctttcat gcagttttac aagacagcaa aagattggtg gctgttcagt ttctatttct1081 gcttgccatt ggccatcact gcattttttt atacactaat gacctgtgaa atgttgagaa1141 agaaaagtgg catgcagatt gctttaaatg atcacctaaa gcagagacgg gaagtggcca1201 aaaccgtctt ttgcctggtc cttgtctttg ccctctgctg gcttcccctt cacctcagca1261 ggattctgaa gctcactctt tataatcaga atgatcccaa tagatgtgaa cttttgagct1321 ttctgttggt attggactat attggtatca acatggcttc actgaattcc tgcattaacc1381 caattgctct gtatttggtg agcaaaagat tcaaaaactg ctttaagtca tgcttatgct1441 gctggtgcca gtcatttgaa gaaaaacagt ccttggagga aaagcagtcg tgcttaaagt1501 tcaaagctaa tgatcacgga tatgacaact tccgttccag taataaatac agctcatctt1561 gaaagaagaa ctattcactg tatttcattt tctttatatt ggaccgaagt cattaaaaca1621 aaatgaaaca tttgccaaaa caaaacaaaa aactatgtat ttgcacagca cactattaaa1681 atattaagtg taattatttt aaaaaaaaaa aaaaaaaaa (2) SEQ ID NO: 2853 for data: (i) sequence characteristics:

(A) length: 4156 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2853 sequence description: 1 cccactatgt tggccaggat ggtcttgatt tcttgacctc gtgttctgcc cgcctctacc 61tcccaaagtg ccgggattac aggcgtgact gctgtgcccg gccccagcat cacttttata 121 gctttctgtg cctcttcctc tgggccttgg tgtatgaagc cacttgcctt tctctgttgg 181 gaagcgagca gaatcagatt gctactcatg atgcagtccg ggcagggcat actgtcacct 241 ttggctgtgg acacagttgt caggataggg gagaagccct ttaggtccgt cttcttgaca 301 cagccctcct acctggttac gctggtgctt tcgcttggtt tagacaacca agacacttga 361 gaattatgct gtcctcagaa tgtctgatga aaagaacaga ttcacttttt ggacacaatg 421 cccattagcc atctttggca gtgtttctga tcaaaggttc cccatgcctg ctctaggaaa 481 gtaaactttt ttcagaataa atcctcaaat ggattactga gtagtctttg caccattccc 541 atcagcctaa tcagactgaa tggtcacgct cagtgcaaaa agctgttttg ctgttaggat 601 gtttcagtgt ttcttgtctt tcctggaaca gttcagttgt ttaaatttag taattcaatc 661 ctgaccagtg taaacccact taattattgc agcctaaaga attcagctac ttctactctt 721 cataaatgtg cccaagtaaa tatgtgtttt taatattcaa ccctggaaaa ttagtaattc 781 agatgataaa agctcatgtt ttggtgtctt tgtactcaga ttgtgaacag gcatatttca 841 ctgatttaga cttagtatac ttgatgagaa tgctcaggtt gaagagatag ttctgtcagc 901 aatccaacat ctatagcaat gtggaaaaag taatcaactc atatttcacg aatttgatgt 961 atgttgtgat ttagagggca tgagataaag tttatatttg aactgtgtgg ggtaggggga1021 agaagaggtt gcttaagcaa atgggggggt gattgaggaa caagatgtct ctaagatgag1081 aagttatttt cttgcatcat agaagcactc tythyacccg ngagtgattg tgttaactat1141 aaatcattta tatctgtaca ttaaagcaga ttccctcaat taggcaaatt tggttagcca1201 agcccaagtt attgtttgta cttgaaagta ataaagctgc atttccttaa aaatatattc1261 tgtagttaag actttgtctt gctttccgga attcctgttt ttcttttcct ctagagacct1321 cggcttgcaa ctggatcaaa cgctgtcgaa aggatgtaaa taggcagagc aactgttacc1381 aagaaggcca ccacccccac ccaaaggcag tgaggagtgt ggggcttcgt ctgggctccc1441 ccgagtctca acagtaatca acagtcaggt gttgattgca acttttcaag gtcagccacc1501 gggagtagcc tattccctct aggaaccttg gagggcatac cttgctggga ctcaacttgg1561 ctgagaaatg cacaagatgc caaaggagga aggattatag ggggcgtgtg tgtgaccccc1621 aagaccgatc ttccgctatc accctaatct ccggttcccc gctacccggg cgggggtgag1681 tatgtgacat gtgcctaact ctcagcagca acttcggcag caggtgtcga tcctaactaa1741 gcaggagctg cggctgccgg gtgtgccctc accaagccat gcgagccccg ggcgcgcttc1801 tcgcccgcat gtcgcggcta ctgcttctgc tactgctcaa ggtgtctgcc tcttctgccc1861 tcggggtcgc ccctgcgtcc agaaacgaaa cttgtctggg ggagagctgt gcacctacag1921 tgatccagcg ccgcggcagg gacgcctggg gaccgggaaa ttctgcaaga gacgttctgc1981 gagcccgagc acccagggag gagcaggggg cagcgtttct tgcgggaccc tcctgggacc2041 tgccggcggc cccggaccgt gacccggctg caggcagagg ggcggaggcg tcgacagccg2101 gacccccggg acctccaacc aggccacctg tcccctggag gtggaaaggt gctcggggtc2161 aggagccttc tgaaactttg gggagaggga accccacggc cctccagctc ttccttcaga2221 tctcagagga ggaagagaag ggtcccagag gcgctgtcat ttccgggcgt agccaggagc2281 agagtgtgaa gacagtcccc ggagccagcg atctttttta ctgtccaagg agagccggga2341 aactccaggg ttcccaccac aagcccctgt ccaagacggc caatggactg gcggggcacg2401 aagggtggac aattgcactc ccgggccggg cgctggccca gaatggatcc ttgggtgaag2461 gaatccatga tcctgggggt ccccgccggg gaaacagcac gaaccggcgt gtgagactga2521 agaacccctt ctacccgctg acccaggagt cctatggagc ctacgcggtc atgtgtctgt2581 ccgtggtgat cttcgggacc ggcatcattg gcaacctggc ggtgatgtgc atcgtgtgcc2641 acaactacta catgcggagc atctccaact ccctcttggc caacctggtc ttctgggact2701 ttctcatcat cttcttctgc cttccgctgg tcatcttcca cgagctgacc aagaagtggc2761 tggtggagga cttctcctgc aagatcgtgc cctatataga ggtcgcttct ctgggagtca2821 ccactttcac cttatgtgct ctgtgcatag accgcttccg tgctgccacc aacgtacaga2881 tgtactacga aatgatcgaa aactgttcct caacaactgc caaacttgct gttatatggg2941 tgggagctct attgttagca cttccagaag ttgttctccg ccagctgagc aaggaggatt3001 tggggtttag tggccgagct ccggcagaaa ggtgcattat taagatctct cctgatttac3061 cagacaccat ctatgttcta gccctcacct acgacagtgc gagactgtgg tggtattttg3121 gctgttactt ttgtttgccc acgcttttca ccatcacctg ctctctagtg actgcgagga3181 aaatccgcaa agcagagaaa gcctgtaccc gagggaataa acggcagatt caactagaga3241 gtcagatgaa ctgtacagta gtggcactga ccattttata tggattgggc attattcctg3301 aaaatatctg caacattgtt actgcctaca tggctacagg ggtttcacag cagacaatgg3361 acctccttaa tatcatcagc cagttccttt tgttctttaa gtcctgtgtc accccagtcc3421 tccttttctg tctctgcaaa cccttcagtc gggccttcat ggagtgctgc tgctgttgct3481 gtgaggaatg cattcagaag tcttcaacgg tgaccagtga tgacaatgac aacgagtaca3541 593601 ctgtcggaac tcattgctga aggacagtac ttggttgggt cagatttatt tgtttgattt3661 tcatatcccg tgaaagtttt taattcatat ttttccttat agggaaaaat gcaaaaaaga3721 aacaataaag aaagaaatat taactactgt agaactgatt ttacaaatta atatttgtgc3781 tttgaaaaaa agtttctatt tagttattta agaagaatga gaaggccaat agttttagat3841 tattttatct ggtatggtgc taatatttta tttgaaaaaa gttactgcaa cttaacttaa3901 aattgctaac gttttttctt cttttaaaaa tacaattatt gtatattaat tatagcaatg 398661 tgattttgta ggttatttta tatttgagtt gtgattgaaa gtatgttgta tatggtattg4021 tgagatgatt tgtacttgga agcattcaca aagtagcacc aaataaatta cactttattc tttaatgtca ttgtcaatct acttttaacc aatattcaat aaatcttcta attgccttaa4141 aaaaaaaaaa aaaaaa (2) SEQ ID NO: 2854 data: (i) sequence characteristics:

(A) length: 1578 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2854 sequence description: 1 gggctgcagg tttcgacccg cgctggcgag tcatgagcgc caagtttccc actggcgcgc 61 aaacttgagt tacttttgag cgtggatact ggcgaagagg ctgcgggcgg tattagcgtt121 tgcagcgact tggctcgggc agctgacccc aaagtgtctg tcttccttcc tctgcttgtc 181 721 tggcagagga ctggccattt ggagctgaga tgtgtaagct ggtgcctttc atacagaaag 781 181 tctaggctct gaaactgcgg cggccaccgg acgcttctgg agcaggtagc agcatgcagc 241 cgcctccaag tctgtgcgga cgcgccctgg ttgcgctggt tcttgcctgc ggcctgtcgc 301 ggatctgggg agaggagaga ggcttcccgc ccgacagggc cactccgctt ttgcaaaccg 361 cagagataat gacgccaccc actaagacct tatggcccaa gggttccaac gccagtctgg 421 cgcggtcgtt ggcacctgcg gaggtgccta aaggagacag gacggcagga tctccgccac 481 gcaccatctc ccctcccccg tgccaaggac ccatcgagat caaggagact ttcaaataca 541 tcaacacggt tgtgtcctgc cttgtgttcg tgctggggat catcgggaac tccacacttc 601 tgagaattat ctacaagaac aagtgcatgc gaaacggtcc caatatcttg atcgccagct 661 tggctctggg agacctgctg cacatcgtca ttgacatccc tatcaatgtc tacaagctgc 721 tggcagagga ctggccattt ggagctgaga tgtgtaagct ggtgcctttc atacagaaag 781 cctccgtggg aatcactgtg ctgagtctat gtgctctgag tattgacaga tatcgagctg 841 ttgcttcttg gagtagaatt aaaggaattg gggttccaaa atggacagca gtagaaattg 901 ttttgatttg ggtggtctct gtggttctgg ctgtccctga agccataggt tttgatataa 961 ttacgatgga ctacaaagga agttatctgc gaatctgctt gcttcatccc gttcagaaga1021 cagctttcat gcagttttac aagacagcaa aagattggtg gctgttcagt ttctatttct1081 gcttgccatt ggccatcact gcattttttt atacactaat gacctgtgaa atgttgagaa1141 agaaaagtgg catgcagatt gctttaaatg atcacctaaa gcagagacgg gaagtggcca1201 aaaccgtctt ttgcctggtc cttgtctttg ccctctgctg gcttcccctt cacctcagca1261 ggattctgaa gctcactctt tataatcaga atgatcccaa tagatgtgaa cttttgagct1321 ttctgttggt attggactat attggtatca acatggcttc actgaattcc tgcattaacc1381 caattgctct gtatttggtg agcaaaagat tcaaaaactg ctttaaggct gggccacatg1441 ttggaaataa gctagtaatg ttgttttctg tcaatattga atgtgatggt acagtaaacc1501 aaaacccaac aatgtggcca gaaagaaaga gcaataataa ttaattcaca caccatatgg1561 attctattta taaatcac (2) SEQ ID NO: 2855, data: (i) sequence characteristics:

(A) length: 13611 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2855 sequence description: 1 aggagtttcg acccgcgctg gcgagtcatg agcgccaagt ttcccactgg cgcgcaaact 61 tgagttactt ttgagcgtgg atactggcga agaggctgcg ggcggtatta gcgtttgcag 121 cgacttggct cgggcagctg acccaagtgt cctgtcttcc ttcctctgct tgtctctagg 181 721 cagaggactg gccatttgga gctgagatgt gtaagctggt gcctttcata cagaaagcct 781 181 ctctgaaact gcggagcggc caccggacgc cttctggagc aggtagcagc atgcagccgc 241 ctccaagtct gtgcggaccg gccctggttg cgctggttct tgcctgcggc ctgtcgcgga 301 tctggggaga ggagagaggc ttcccgcctg acagggccac tccgcttttg caaaccgcag 361 agataatgac gccacccact aagaccttat ggcccaaggg ttccaacgcc agtctggcgc 421 ggtcgttggc acctgcggag gtgcctaaag gagacaggac ggcaggatct ccgccacgca 481 ccatctcccc tcccccgtgc caaggaccca tcgagatcaa ggagactttc aaatacatca 541 acacggttgtgtcctgcctt gtgttcgtgc tggggatcat cgggaactcc acacttctga 601 gaattatcta caagaacaag tgcatgcgaa acggtcccaa tatcttgatc gccagcttgg 661 ctctgggaga cctgctgcac atcgtcattg acatccctat caatgtctac aagctgctgg 721 cagaggactg gccatttgga gctgagatgt gtaagctggt gcctttcata cagaaagcct 781 ccgtgggaat cactgtgctg agtctatgtg ctctgagtat tgacagatat cgagctgttg 841 cttcttggag tagaattaaa ggaattgggg ttccaaaatg gacagcagta gaaattgttt 901 tgatttgggt ggtctctgtg gttctggctg tccctgaagc cataggtttt gatataatta 961 cgatggacta caaaggaagt tatctgcgaa tctgcttgct tcatcccgtt cagaagacag1021 ctttcatgca gttttacaag acagcaaaag attggtggct attcagtttc tatttctgct1081 tgccattggc catcactgca tttttttata cactaatgac ctgtgaaatg ttgagaaaga1141 aaagtggcat gcagattgct ttaaatgatc acctaaagca gagacgggaa gtggccaaaa1201 ccgtcttttg cctggtcctt gtctttgccc tctgctggct tccccttcac ctcagcagga1261 ttctgaagct cactctttat aatcagaatg atcccaatag atgtgaactt ttgagctttc1321 tgttggtatt ggactatatt ggtatcaaca tggcttcact gaattcctgc attaacccaa1381 ttgctctgta tttggtgagc aaaagattca aaaactgctt taagtcatgc ttatgctgct1441 ggtgccagtc atttgaagaa aaacagtcct tggaggaaaa gcagtcgtgc ttaaagttca1501 aagctaatga tcacggatat gacaacttcc gttccagtaa taaatacagc tcatcttgaa1561 agaagaacta ttcactgtat ttcattttct ttatattgga ccgaagtcat taaaacaaaa1621 tgaaacattt gccaaaacaa aacaaaaaac tatgtatttg cacagcacac tattaaaata1681 ttaagtgtaa ttattttaac actcacagct acatatgaca ttttatgagc tgtttacggc1741 atggaaagaa aatcagtggg aattaagaaa gcctcgtcgt gaaagcactt aattttttac1801 agttagcact tcaacatagc tcttaacaac ttccaggata ttcacacaac acttaggctt1861 aaaaatgagc tc1 gagacattcc ggtgggggac tctggccagc ccgagcaacg tggatcctga gagcactccc 61 aggtaggcat ttgccccggt gggacgcctt gccagagcag tgtgtggcag gcccccgtgg 121 aggatcaaca cagtggctga acactgggaa ggaactggta cttggagtct ggacatctga 181 aacttggctc tgaaactgcg cagcggccac cggacgcctt ctggagcagg tagcagcatg 241 cagccgcctc caagtctgtg cggacgcgcc ctggttgcgc tggttcttgc ctgcggcctg 301 tcgcggatct ggggagagga gagaggcttc ccgcctgaca gggccactcc gcttttgcaa 361 accgcagaga taatgacgcc acccactaag accttatggc ccaagggttc caacgccagt 421 ctggcgcggt cgttggcacc tgcggaggtg cctaaaggag acaggacggc aggatctccg 481 ccacgcacca tctcccctcc cccgtgccaa ggacccatcg agatcaagga gactttcaaa 541 tacatcaaca cggttgtgtc ctgccttgtg ttcgtgctgg ggatcatcgg gaactccaca 601 cttctgagaa ttatctacaa gaacaagtgc atgcgaaacg gtcccaatat cttgatcgcc 661 agcttggctc tgggagacct gctgcacatc gtcattgaca tccctatcaa tgtctacaag 721 ctgctggcag aggactggcc atttggagct gagatgtgta agctggtgcc tttcatacag 781 aaagcctccg tgggaatcac tgtgctgagt ctatgtgctc tgagtattga cagatatcga 841 gctgttgctt cttggagtag aattaaagga attggggttc caaaatggac agcagtagaa 901 attgttttga tttgggtggt ctctgtggtt ctggctgtcc ctgaagccat aggttttgat 961 ataattacga tggactacaa aggaagttat ctgcgaatct gcttgcttca tcccgttcag1021 aagacagctt tcatgcagtt ttacaagaca gcaaaagatt ggtggctgtt cagtttctat1081 ttctgcttgc cattggccat cactgcattt ttttatacac taatgacctg tgaaatgttg1141 agaaagaaaa gtggcatgca gattgcttta aatgatcacc taaagcagag acgggaagtg1201 gccaaaaccg tcttttgcct ggtccttgtc tttgccctct gctggcttcc ccttcacctc1261 agcaggattc tgaagctcac tctttataat cagaatgatc ccaatagatg tgaacttttg1321 agctttctgt tggtattgga ctatattggt atcaacatgg cttcactgaa ttcctgcatt1381 aacccaattg ctctgtattt ggtgagcaaa agattcaaaa actgctttaa gtcatgctta1441 tgctgctggt gccagtcatt tgaagaaaaa cagtccttgg aggaaaagca gtcgtgctta1501 aagttcaaag ctaatgatca cggatatgac aacttccgtt ccagtaataa atacagctca1561 tcttgaaaga agaactattc actgtatttc attttcttta tattggaccg aagtcattaa1621 aacaaaatga aacatttgcc aaaacaaaac aaaaaactat gtatttgcac agcacactat1681 taaaatatta agtgtaatta ttttaacact cacagctaca tatgacattt tatgagctgt1741 ttacggcatg gaaagaaaat cagtgggaat taagaaagcc tcgtcgtgaa agcacttaat1801 4931 1801 tttttacagt tagcacttca acatagctct taacaacttc caggatattc acacaacact1861 taggcttaaa aatgagctca ctcagaattt ctattctttc taaaaagaga tttattttta1921 aatcaatggg actctgatat aaaggaagaa taagtcactg taaaacagaa cttttaaatg1981 aagcttaaat tactcaattt aaaattttaa aatcctttaa aacaactttt caattaatat2041 tatcacacta ttatcagatt gtaattagat gcaaatgaga gagcagttta gttgttgcat2101 ttttcggaca ctggaaacat ttaaatgatc aggagggagt aacagaaaga gcaaggctgt2161 ttttgaaaat cattacactttcactagaag cccaaacctc agcattctgc aatatgtaac2221 caacatgtca caaacaagca gcatgtaaca gactggcaca tgtgccagct gaatttaaaa2281 tataatactt ttaaaaagaa aattattaca tcctttacat tcagttaaga tcaaacctca2341 caaagagaaa tagaatgttt gaaaggctat cccaaaagac ttttttgaat ctgtcattca2401 cataccctgt gaagacaata ctatctacaa ttttttcagg attattaaaa tcttcttttt2461 392521 ctgcatgtag atgattaaat gagggcaggc cctgtgctca tagctttacg atggagagat 462581 gccagtgacc tcataataaa gactgtgaac tgcctggtgc agtgtccaca tgacaaaggg2641 gcaggtagca ccctctctca cccatgctgt ggttaaaatg gtttctagca tatgtataat2701 gctatagtta aaatactatt tttcaaaatc atacagatta gtacatttaa cagctacctg2761 taaagcttat tactaatttt tgtattattt ttgtaaatag ccaatagaaa agtttgcttg2821 acatggtgct tttctttcat ctagaggcaa aactgctttt tgagaccgta agaacctctt2881 agctttgtgc gttcctgcct aatttttata tcttctaagc aaagtgcctt aggatagctt2941 gggatgagat gtgtgtgaaa gtatgtacaa gagaaaacgg aagagagagg aaatgaggtg3001 gggttggagg aaacccatgg ggacagattc ccattcttag cctaacgttc gtcattgcct3061 cgtcacatca atgcaaaagg tcctgatttt gttccagcaa aacacagtgc aatgttctca3121 3181 atttttactt tgtttttctt ttaataggct gggccacatg ttggaaataa gctagtaatg3241 ttgttttctg tcaatattga atgtgatggt acagtaaacc aaaacccaac aatgtggcca3301 gaaagaaaga gcaataataa ttaattcaca caccatatgg attctattta taaatcaccc33 acaaacttgt tctttaattt catcccaatc actttttcag aggcctgtta tcatagaagt3421 cattttagac tctcaatttt aaattaattt tgaatcacta atattttcac agtttattaa tatatttaat ttctatttaa attttagatt atttttatta ccatgtactg aatttttaca 3572 ccatgtcagt atcatgttct ctaattatct tgccaaattt3601 tgaaactaca cacaaaaagc atacttgcat tatttataat aaaattgcat tcagtggctt3661 3961 3661 tttaaaaaaa atgtttgatt caaaacttta acatactgat aagtaagaaa caattataat3721 ttctttacat actcaaaacc aagatagaaa aaggtgctat cgttcaactt caaaacatgt3781 ttcctagtat taaggacttt aatatagcaa cagacaaaat tattgttaac atggatgtta3841 cagctcaaaa gatttataaa agattttaac ctattttctc ccttattatc cactgctaat3901 gtggatgtat gttcaaacac cttttagtat tgatagctta catatggcca aaggaataca3961 gtttatagca aaacatgggt atgctgtagc taactttata aaagtgtaat ataacaatgt4021 3891 4021 aaaaaattat atatctggga ggattttttggttgcctaaa gtggctatag ttactgattt4081 tttattatgt aagcaaaacc aataaaaatt taagtttttt taacaactac cttatttttc4141 actgtacaga cactaattca ttaaatacta attgattgtt taaaagaaat ataaatgtga4201 caagtggaca ttatttatgt taaatataca attatcaagc aagtatgaag ttattcaatt4261 aaaatgccac atttctggtc tctggg 1 gggctgcagg tttcgacccg cgctggcgag tcatgagcgc caagtttccc actggcgcgc 61 aaacttgagt tacttttgag cgtggatact ggcgaagagg ctgcgggcgg tattagcgtt121 tgcagcgact tggctcgggc agctgacccc aaagtgtctg tcttccttcc tctgcttgtc 181 tctaggctct gaaactgcgg cggccaccgg acgcttctgg agcaggtagc agcatgcagc 241 cgcctccaag tctgtgcgga cgcgccctgg ttgcgctggt tcttgcctgc ggcctgtcgc 301 ggatctgggg agaggagaga ggcttcccgc ccgacagggc cactccgctt ttgcaaaccg 361 cagagataat gacgccaccc actaagacct tatggcccaa gggttccaac gccagtctgg 421 cgcggtcgtt ggcacctgcg gaggtgccta aaggagacag gacggcagga tctccgccac 481 gcaccatctc ccctcccccg tgccaaggac ccatcgagat caaggagact ttcaaataca 541 tcaacacggt tgtgtcctgc cttgtgttcg tgctggggat catcgggaac tccacacttc 601 tgagaattat ctacaagaac aagtgcatgc gaaacggtcc caatatcttg atcgccagct 661 tggctctggg agacctgctg cacatcgtca ttgacatccc tatcaatgtc tacaagctgc 721 tggcagagga ctggccattt ggagctgaga tgtgtaagct ggtgcctttc atacagaaag 781 cctccgtggg aatcactgtg ctgagtctat gtgctctgag tattgacaga tatcgagctg 841 ttgcttcttg gagtagaatt aaaggaattg gggttccaaa atggacagca gtagaaattg 901 ttttgatttg ggtggtctct gtggttctgg ctgtccctga agccataggt tttgatataa 961 ttacgatgga ctacaaagga agttatctgc gaatctgctt gcttcatccc gttcagaaga1021 cagctttcat gcagttttac aagacagcaa aagattggtg gctgttcagt ttctatttct1081 gcttgccatt ggccatcact gcattttttt atacactaat gacctgtgaa atgttgagaa1141 agaaaagtgg catgcagatt gctttaaatg atcacctaaa gcagagacgg gaagtggcca1201 aaaccgtctt ttgcctggtc cttgtctttg ccctctgctg gcttcccctt cacctcagca1261 ggattctgaa gctcactctt tataatcaga atgatcccaa tagatgtgaa cttttgagct1321 ttctgttggt attggactat attggtatca acatggcttc actgaattcc tgcattaacc1381 caattgctct gtatttggtg agcaaaagat tcaaaaactg ctttaagtca tgcttatgct1441 gctggtgcca gtcatttgaa gaaaaacagt ccttggagga aaagcagtcg tgcttaaagt1501 tcaaagctaa tgatcacggatatgacaact tccgttccag taataaatac agctcatctt1561 gaaagaagaa ctattcactg tatttcattt tctttatatt ggaccgaagt cattaaaaca1621 aaatgaaaca tttgccaaaa caaaacaaaa aactatgtat ttgcacagca cactattaaa1681 atattaagtg taattatttt aaaaaaaaaa aaaaaaaaa 1 cccactatgt tggccaggat ggtcttgatt tcttgacctc gtgttctgcc cgcctctacc 61 tcccaaagtg ccgggattac aggcgtgact gctgtgcccg gccccagcat cacttttata 121 gctttctgtg cctcttcctc tgggccttgg tgtatgaagc cacttgcctt tctctgttgg 181 gaagcgagca gaatcagatt gctactcatg atgcagtccg ggcagggcat actgtcacct 241 ttggctgtgg acacagttgt caggataggg gagaagccct ttaggtccgt cttcttgaca 301 cagccctcct acctggttac gctggtgctt tcgcttggtt tagacaacca agacacttga 361 gaattatgct gtcctcagaa tgtctgatga aaagaacaga ttcacttttt ggacacaatg 421 cccattagcc atctttggca gtgtttctga tcaaaggttc cccatgcctg ctctaggaaa 481 gtaaactttt ttcagaataa atcctcaaat ggattactga gtagtctttg caccattccc 541 atcagcctaa tcagactgaa tggtcacgct cagtgcaaaa agctgttttg ctgttaggat 601 gtttcagtgt ttcttgtctt tcctggaaca gttcagttgt ttaaatttag taattcaatc 661 ctgaccagtg taaacccact taattattgc agcctaaaga attcagctac ttctactctt 721 cataaatgtg cccaagtaaa tatgtgtttt taatattcaa ccctggaaaa ttagtaattc 781 agatgataaa agctcatgtt ttggtgtctt tgtactcaga ttgtgaacag gcatatttca 841 ctgatttaga cttagtatac ttgatgagaa tgctcaggtt gaagagatag ttctgtcagc 901 aatccaacat ctatagcaat gtggaaaaag taatcaactc atatttcacg aatttgatgt 961 atgttgtgat ttagagggca tgagataaag tttatatttg aactgtgtgg ggtaggggga1021 agaagaggtt gcttaagcaa atgggggggt gattgaggaa caagatgtct ctaagatgag1081 aagttatttt cttgcatcat agaagcactc tythyaccg ngagtgattg tgttaactat1141 aaatcattta tatctgtaca ttaaagcaga ttccctcaat taggcaaatt tggttagcca1201 agcccaagtt attgtttgta cttgaaagta ataaagctgc atttccttaa aaatatattc1261 tgtagttaag actttgtctt gctttccgga attcctgttt ttcttttcct ctagagacct1321 cggcttgcaa ctggatcaaa cgctgtcgaa aggatgtaaa taggcagagc aactgttacc1381 aagaaggcca ccacccccac ccaaaggcag tgaggagtgt ggggcttcgt ctgggctccc1441 ccgagtctca acagtaatca acagtcaggt gttgattgca acttttcaag gtcagccacc1501 gggagtagcc tattccctct aggaaccttg gagggcatac cttgctggga ctcaacttgg631 ctgagaaatg cacaagatgc caaaggagga aggattatag ggggcgtgtg tgtgaccccc1621 aagaccgatc ttccgctatc accctaatct ccggttcccc gctacccggg cgggggtgag1681 tatgtgacat gtgcctaact ctcagcagca acttcggcag caggtgtcga tcctaactaa1741 gcaggagctg cggctgccgg gtgtgccctc accaagccat gcgagccccg ggcgcgcttc1801 tcgcccgcat gtcgcggcta ctgcttctgc tactgctcaa ggtgtctgcc tcttctgccc1861 tcggggtcgc ccctgcgtcc agaaacgaaa cttgtctggg ggagagctgt gcacctacag1921 tgatccagcg ccgcggcagg gacgcctggg gaccgggaaa ttctgcaaga gacgttctgc1981 gagcccgagc acccagggag gagcaggggg cagcgtttct tgcgggaccc tcctgggacc2041 tgccggcggc cccggaccgt gacccggctg caggcagagg ggcggaggcg tcgacagccg 9978 gacccccggg acctccaacc aggccacctg tcccctggag gtggaaaggt gctcggggtc10038 aggagccttc tgaaactttg gggagaggga accccacggc cctccagctc ttccttcaga10098 tctcagagga ggaagagaag ggtcccagag gcgctgtcat ttccgggcgt agccaggagc10158 agagtgtgaa gacagtcccc ggagccagcg atctttttta ctgtccaagg agagccggga10218 aactccaggg ttcccaccac aagcccctgt ccaagacggc caatggactg gcggggcacg10278 aagggtggac aattgcactc ccgggccggg cgctggccca gaatggatcc ttgggtgaag 1035938 103 gaatccatga tcctgggggt ccccgccggg gaaacagcac gaaccggcgt gtgagactga10398 agaacccctt ctacccgctg acccaggagt cctatggagc ctacgcggtc atgtgtctgt104 ccgtggtgat cttcgggacc ggcatcattg gcaacctggc ggtgatgtgc atcgtgtgcc10518 acaactacta catgcggagc atctccaact ccctcttggc caacctggtc ttctgggact10578 ttctcatcat cttcttctgc cttccgctgg tcatcttcca cgagctgacc aagaagtggc10638 8210698 ccactttcac cttatgtgct ctgtgcatag accgcttccg tgctgccacc aacgtacaga107 tgtactacga aatgatcgaa aactgttcct caacaactgc caaacttgct gttatatggg10818 tgggagctct attgttagca cttccagaag ttgttctccg ccagctgagc aaggaggatt10878 tggggtttag tggccgagct ccggcagaaa ggtgcattat taagatctct cctgatttac10938 cagacaccat ctatgttcta gccctcacct acgacagtgc gagactgtgg tggtattttg10998 11029 11058 aaatccgcaa agcagagaaa gcctgtaccc gagggaataa acggcagatt caactagaga11118 gtcagatgaa ctgtacagta gtggcactga ccattttata tggattgggc attattcctg11178 aaaatatctg caacattgtt actgcctaca tggctacagg ggtttcacag cagacaatgg11238 acctccttaa tatcatcagc cagttccttt tgttctttaa gtcctgtgtc accccagtcc11298 tccttttctg tctctgcaaa cccttcagtc gggccttcat ggagtgctgc tgctgttgct11358 gtgaggaatg cattcagaag tcttcaacgg tgaccagtga tgacaatgac aacgagtaca11418 ccacggaact cgaactctcg cctttcagtg ccatacgccg tgaaatgtcc acttttgctt11478 ctgtcggaac tcattgctga aggacagtac ttggttgggt cagatttatt tgtttgattt11538 tcatatcccg tgaaagtttt taattcatat ttttccttat agggaaaaat gcaaaaaaga 5998 aacaataaag aaagaaatat taactactgt agaactgatt ttacaaatta atatttgtgc11658 tttgaaaaaa agtttctatt tagttattta agaagaatga gaaggccaat agttttagat11718 tattttatct ggtatggtgc taatatttta tttgaaaaaa gttactgcaa cttaacttaa11778 aattgctaac gttttttctt cttttaaaaa tacaattatt gtatattaat tatagcaatg11838 8298 11953 11958 tttaatgtca ttgtcaatct acttttaacc aatattcaat aaatcttcta attgccttaa12018 aaaaaaaaaa aaaaaa12034 gggctgcagg tttcgacccg cgctggcgag tcatgagcgc caagtttccc actggcgcgc aaacttgagt tacttttgag cgtggatact ggcgaagagg ctgcgggcgg tattagcgtt12154 tgcagcgact tggctcgggc agctgacccc aaagtgtctg tcttccttcc tctgcttgtc12214 tctaggctct gaaactgcgg cggccaccgg acgcttctgg agcaggtagc agcatgcagc12274 cgcctccaag tctgtgcgga cgcgccctgg ttgcgctggt tcttgcctgc ggcctgtcgc12334 ggatctgggg agaggagaga ggcttcccgc ccgacagggc cactccgctt ttgcaaaccg12394 12429 12454 cgcggtcgtt ggcacctgcg gaggtgccta aaggagacag gacggcagga tctccgccac12514 12542 12574 tcaacacggt tgtgtcctgc cttgtgttcg tgctggggat catcgggaac tccacacttc12634 tgagaattat ctacaagaac aagtgcatgc gaaacggtcc caatatcttg atcgccagct12694 12748 12754 tggcagagga ctggccattt ggagctgaga tgtgtaagct ggtgcctttc atacagaaag12814 12823 12874 ttgcttcttg gagtagaatt aaaggaattg gggttccaaa atggacagca gtagaaattg12934 ttttgatttg ggtggtctct gtggttctgg ctgtccctga agccataggt tttgatataa12994 ttacgatgga ctacaaagga agttatctgc gaatctgctt gcttcatccc gttcagaaga130 cagctttcat gcagttttac aagacagcaa aagattggtg gctgttcagt ttctatttct13114 gcttgccatt ggccatcact gcattttttt atacactaat gacctgtgaa atgttgagaa131 agaaaagtgg catgcagatt gctttaaatg atcacctaaa gcagagacgg gaagtggcca13234 8213294 ggattctgaa gctcactctt tataatcaga atgatcccaa tagatgtgaa cttttgagct13354 ttctgttggt attggactat attggtatca acatggcttc actgaattcc tgcattaacc13414 caattgctct gtatttggtg agcaaaagat tcaaaaactg ctttaaggct gggccacatg13474 ttggaaataa gctagtaatg ttgttttctg tcaatattga atgtgatggt acagtaaacc13534 aaaacccaac aatgtggcca gaaagaaaga gcaataataa ttaattcaca caccatatgg13594 attctattta taaatcac (2) SEQ ID NO : 2856 materials: (i) sequence characteristics:

(A) length: 12461 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2856 sequence description: 1 gatatcctat taatacagag atacagaaag aaatacataa aaaatagttt tatcaaatac 61 tttccagcat tcaagtgtag cctcaaaagc aagaataggc caggagtggt ggctcacgct 121 gtaatccaca gcactgtggg aggccaaggt aagaggattg cttgaggcca ggatttcaag 181 721 ttcttgggaa aatgtcttgc tgggaggctg cctggcgagt gccctagctg ccttctgtgg 781 181 accagcctag gcaacatagt gagatcccta tctctacgaa aaaattttaa aacttagctg 241 ggcatggtgc ttgagcctgt tgtcccagct actcaggagg tgaagtagga gtgtcacttg 301 agcccaggag gttgaggctg cagtgagcta taactgcacc actgcactcc agccttggag 361 acagagtgag accctgtccc caaaaaaatt aaaattgaga aaaaaaaaaa ggcaagaaca 421 gccacagcaa actttctatt ggggaaaaaa aaaaatcctc ctctttacat ctctcccttc 481 cttcccttcc ctttctgaga gtgactgtgg ccaaaaggag cattttcccc ctgcagtcct 541 ctgaggggtg gggtggggct atgaagctat ccttcatatt cactcctttg tccagctctt 601 ttcacctcta gttcttctcc ccgcatctct gtctagcagt gccttaagtg gaggaggggt 661 gggggcatca agcttgtaaa actggtttgt tggggttctc cttctcccct catttcttga 721 ttcttgggaa aatgtcttgc tgggaggctg cctggcgagt gccctagctg ccttctgtgg 781 gcttgaatgg ggcttccctc tgcccctaca ggaggaaaag ggagctgctg ccagagggag 841 aaatggagag atggacagag aaggcaggtg ccacccctcg cccctgacac acaaagaaaa 901 agacacggaa attctctctc tctcttctct tctcctatct ctctctctct ccctctctct 961 ctctctctct ctctctctca cacacacaca cacacacaca cacacacaca caggcgcgcg1021 ccgcgcgcgc aggcacacgt cttgcaaatt caggattcaa agagacaggg gcaccattat1081 atttggcacg gtggggcctt ccaggtctga aatcctgcat tcttccttac tatttacttt1141 ccccgagctc gagaagggcc aggtgtgggc ggatggctgg ccacgttttg tgtttccaat1201 tcatattcac gggatgacac agacggggcg tggtgagtgc tgttggaggc gcttgggcag1261 tttcattttg ccccacttct ccacctgaag gctgggcgtt gctggaacct gcaggggcag1321 cctcagcaag gtggggtggc gtggagtggg gtgggagaag ggactccagc tgaagtagaa1381 cccaggctgg acctgagaat attggggagg gcatgggcgg tggtttccgg gtaggggcct1441 tgaggacatg ttggtcctga ctgttgtcag tgtttggtca aagttgccaa aaggttaaaa1501 aaaaaaaagt agggggagtc cctgccaaga catatttccc aggccacctt tcttccgcgg1561 gagtgttggg ggggaggcgc tgcttggaac ctgtgaatgt gacatcagct ctcctctcct1621 ctcccaaggt cggctttgga gagggaggtc agggcaccct tgcctggcac aggcacgctg1681 gcttccggct cagtgccgcc tgctctccgg gagctgtgcg ctccctgggc cccggggcta1741 ggctgaggta agcgcacagc ggaggccagg cgcgccggca gaggcctggg ggatagggtg1801 gaggcatctc tgggtgtggg tgtgggtgtg ggtgtgggag ggagagttct tgcctctctc1861 tctcccatct ccaactcttg cttcagtggc tcttttagag gatgcatgtc attatggacc1921 tgtcgctgcc actgtccctg ttcccccagc tgtgacttcg agggaggtct ggggatctga1981 gtctgtccaa acccacggct ttgctgttgg gataaaaact gtccttttga ttttagaagg2041 aggagggaaa aaaggtttcc cagcatgtgt gttgtgccag tcttggaaat tcatccgtgc2101 ttgaattcca ccctccatcc ccagaaaaac tggagtaaaa caaaaagagg agatggacaa2161 agtgtgtatt tgatggcatc ccctgggaag agactctaaa tttatcccat aggtcttact2221 gggccactgt gagcgctttg gtggagaaca aacaaaaatt ctgggtgctc agttgtctaa2281 cctgaaaaat gggactagcg gaaaaagcca atgtgttcca tgcacctttt gctttcttta2341 ttaaggcatg atgtcacctg tacagtaact gccctgtgtg tacttcaggg ggggatttca2401 aggttagata gacaggaaat tgttttgaaa atgtaaacac attattaaat gtgaagtatt2461 atctgattcc ttgttcgaat ggcatttcct tctcagcacc accttccttg catattcact2521 taaccttgta caagaacacc tttttgccct aaatgaagac acccccccaa aaaaaagagt2581 cccagaaaat atgtccctgc ttgtgcggga ataaatagaa tattctgagg tgcattcctc2641 cttcctatgt taggcaacat tccttgaccc tcctcggccc ccaagccagg ttgcgttttt2701 ttctgccatt tagaagggtt ttcctttttg tcctagtaaa acatcagccc ctgtagctct2761 tcatctcccc ctggtgttct tctcccgcca tgtcttaaga ttggtggcac cgaccaatct2821 taagatttaa gttctgtgtg aaaaacacct ttgcttttca atcagtttat cagcctcctc2881 cgcaggggaa tgtggacaca caaaagaact tatcggggct tctcatcagt gatagggaaa2941 agactggcat gtgcctaaac gagctctgat gttattttta agctcccttt cttgccaatc3001 cctcacggat ctttctccga tagatgcaaa gaacttcagc aaaaaagacc cgcaggaagg3061 ggcttgaaga gaaaagtacg ttgatctgcc aaaatagtct gacccccagt agtgggcagt3121 gacgagggag agcattccct tgtttgactg agactagaat cggagagaca taaaaggaaa3181 atgaagcgag caacaattaa aaaaaattcc ccgcacgcga caatacaatc tatttaaact3241 gtggctcata cttttcatac caatggtatg actttttttc tggagtcccc tcttctgatt3301 cttgaactcc ggggctggca gcttgcaaag gggaagcgga ctccagcact gcacgggcag3361 gtttagcaaa ggtctctaat gggtattttc tttttcttag ccctgccccc gaattgtcag3421 acggcgggcg tctgcttctg aagttagcag tgatttcctt tcgggcctgg cttatctccg3481 gctgcacgtt gcctgttggt gactaataac acaataacat tgtctggggc tggaataaag3541 593601 ccaagtcaga cgcgcctctg catctgcgcc aggcgaacgg gtcctgcgcc tcctgcagtc3661 ccagctctcc accgccgcgt gcgcctgcag acgctccgct cgctgccttc tctcctggca3721 ggcgctgcct tttctccccg ttaaagggca cttgggctga aggatcgctt tgagatctga3781 ggaacccgca gcgctttgag ggacctgaag ctgtttttct tcgttttcct ttgggttcag3841 tttgaacggg aggtttttga tccctttttt tcagaatgga ttatttgctc atgattttct3901 ctctgctgtt tgtggcttgc caaggagctc cagaaacagg taggcacgct cgttgacttg 398661 taagtctcgg aattacaagt tagtgtgttc ttatccacct tcatgctttt cttgcttcta4021 tttttccccg ttctttttat gactgcagct tagagagcaa gtgtctgaga attattgctg aaacgtactt taagtcttct agtgtaaaat gtaaaattcc tctactgaat acaattaggt4141 gcaattgact ataacatgac attaaaataa cttatcgttt tattattatt attccattat4201 gtgtttcctt ggcttttaaa aaatgagaag agtatggaca tatacaattt agtcaaatgt4261 atgtttgtaa tatatgtgtt tatacaggta cacaggccat ataggaactt aaatcttatt4321 taaacactat tttaatagtg tgttaacgtg taaaatattt aagcattcca gcttgaagcc4381 aaggaattgt atccagtcgt tcaagcaatg tatgttcagt aaaatcacct gcagagcaaa4441 agtctgttga ctaactaccg cctcccccgc ccccccacca ccccccgcag gcggtttctg4501 ggtgaagcag atgttttctt taaaatttgt catcattgac tttaggtttc ttttggcagg4561 tttttggcac ccaaaacagt gtgagctctc ttttcagctt tattcacctgtgctgggagg4621 ggagctagga taattcttgg ctgccgaagg atttaggcag tgcgtgtgca tctgcccggg4681 tcccccccgt ttttagggtc agtgcacttt ttttgtcttt tcgtgaccct gactaaagag4741 aaaggatgtc aagggaatga aaatcctgga atgtgtctga tcatttgaaa tgtacaaaat4801 tgggcagata agctgcatgg ctaaattgtt aggaggaaga ggcaaggcag tagtggagaa4861 gggggaggca gtggatccca cacaagcctg atgcccaggg attcggaatt caaaatcccc4921 ccagcctacc ttcagtcccc tgacctgctt ctcagcccca ccttaggtca ctggtttcta4981 tggagttacc ctactgaatt gaatattgaa tagttaattt ctctctccaa tcattttccc5041 cacctaattt tgaaagatat acatcatctg gggtaccctg tgccctacac agcatgtgaa5101 gtggatgggt accccctaaa gagagggtca tcctgaatgg ggaagtggcc ccaaagctag5161 51 5161 gaataactgt gatttcttgt ctttagtcat gtgccaatgt taagtaagct tcagtggata5221 gtgctgtcct accaagttcc ttgtagaagc cagccggatt ttcaacaggc agcattccac5281 829 5281 agcatttccc tgagcctgct tcaagagggg tgggggaagt cccttttcag gtgtttatct5341 cctctgcatt tgtgtaatct ccctgaaggt ggataagcca agggcatgag ggggaggcaa5401 aaggtgaact catgttaagg agggaaaaaa ataaagagcc cttttttctg tgtttcttgc5461 tgatggcagg ctgtgtgctt catctgcttt tatctgctct gctagctctg actctactgt5521 gatccagcat gtctctcggc gtttgaggag acatccccca ctgacctgct ctttctctcc5581 ccagcagtct taggcgctga gctcagcgcg gtgggtgaga acggcgggga gaaacccact5641 cccagtccac cctggcggct ccgccggtcc aagcgctgct cctgctcgtc cctgatggat5701 aaagagtgtg tctacttctg ccacctggac atcatttggg tcaacactcc cgagtaagtc5761 tctagagggc attgtaaccc tattcattca ttagcgctgg ctccactgga gcccagtttt5821 agagtttctt ttctagggac tctgaaggta gtccttctaa caccatccaa gtgcctcagt5881 ggggacagtt tccctctatt cctgaaaata acgacagctt cgttcttagc aaccaagggg5941 agggtcttct gaggccccgt agctcaggct actcatgatg ggacaagcag gaggccactg6001 cacgtttcaa atgaggaact ttcagtgaga gggcctcagg gggacactct cacagtggca6061 tctgatgggg tttcgggaat aattgccgag gtcagatgtg ggttagtgca acctgtgctt6121 ctcatgggag ggtggagact gagaggcaga agtgatgata tagagggtta gaatcactta6181 5731 6241 tgtagcagag ctagaactgg agcccggatt tcctttgctg ctatattttc cctttagaaa6301 tgcccatttc agaactgaaa tagaaatact gtccataggc ttctctttca cctacagaga6361 agaaaagcag atttcctcct tctgccctgg acactagttc atcatctgtc ggaagcagtc6421 ataaacaagc acacatttac tatgcataca atgtaccgtt atgacaaagg aggaccaaaa tccaaacaat atcaaaccac accaaaaacc acaaggagcc taataattac taaggtgata6541 666601 66 tggagagccc tctggctatg agtccttcca caaccatatg gtaccaccga ctggcaggag6661 826721 cttttagcag tatcctccgt ggtttgagtt gaaaataagt tttaaaaatc ctgtgagtca6781 tggttttgca ttgaaacctc ttcccactgt gtacccacaa atagttaact aaatagacca6841 ttagaaaagg aagaaaatat aaagcagatg ccaagcagag atgtcctaat ttttgacaaa6901 aaagcaatgt tgcttgtgtc aagaagaaac tgaactttgt gaagagttga aatggaattc6961 cactgaatta gaaaaacttg ttttctcctg cctggataca tacagtcagg gccattgatg7021 cacaggtgtt cctggctgtt gttacacttt accctctgaa atgatgctcc caagtgctat7081 gtgatgagct ccttgtgtgc ccagtggaat aggtgtgtcc atgtgtcatt ttaaagacta7141 ttaattacac taatatagtt tctttctctc tttggataat aggcacgttg ttccgtatgg7201 acttggaagc cctaggtcca agagagcctt ggagaattta cttcccacaa aggcaacaga7261 ccgtgagaat agatgccaat gtgctagcca aaaagacaag aagtgctgga atttttgcca7321 agcaggaaaa gaactcaggt gagcagaaac acctttgctt ttcaatcagt ttaacagcct7381 cctgaactcc ttcctatcat ggtactgcct tcctgtttta gagagactaa cagagacatt7441 gaaagtcagg gtaaagctga atataacatt gctgaaatgt ttttccttgt gtattttaac7501 agggctgaag acattatgga gaaagactgg aataatcata agaaaggaaa agactgttcc7561 aagcttggga aaaagtgtat ttatcagcag ttagtgagag gaagaaaaat cagaagaagt7621 tcagaggaac acctaagaca aaccaggtaa gagggaagga agaaaaatta ggtaagaggt7681 tcacaagaac aactagcccc agtcagtgat gccagcagcc tgttcctcca gcccttctta7741 cccgggcagg tgaaagactt agaaaacagt agcagaggag atctatgcat cctatagatt7801 aaaaggagca aaagaatccc tcttaaatat ttccatgaag ctctggaatg caaaccgatg7861 tcctctgtac ctttagcaca taccatttca tctacaggta gatttcccaa ccaaaatata7921 tccagagatg cctttgtcat tgggttatat acagcctttg cctctctgag tcaatgtatt7981 taccactttc cctgagaaat cgaaaatcat tttggggagc ggacatttag aaaaagaatc8041 aaagtgtcat ggataatcaa attcttcaat aagttgcagt tattcagatg gccaaaggaa8101 aaataaagtc attagatagg gttggtagaa tttagaacat gctgtttttc aggtttatgg 8461 8253 8221 tcattccaaa aagctctctc ttttcctggt cagtcatgtg ctgggacaga gaagggatct8281 ggattaggca acatcataga gttgctctga gctgctcttt ggtgataacc cttccaaatc8341 ctaaactttt tggaattcac aagctcaaag gaggaaacct actctctgat ctaccacatg 8458 ttctgcattt ttctatcatg gtctatggaa acttctctta gaaatccagt ggcaagaagt tctatgatta aagtgttctg agctcaggcc aggcagtcat gaactacttc tgagttgttt8521 actactgatt tgtggggcag cctcagctat cggtttcttc acacctgctt atgagagtat8581 ccatatttat ggtcgcaggc agtaatgctc cccacgagat cagtttctga actaacctgg8641 aattttttat gggtttttat tatgccaact attaaatcaa cattacagtt cttccctctg8701 tatttctcct gtaaaacatt aggcctgcaa aaaaaaaaaa tctttttaaa aataattgcc8761 ataaagtatt tgctctgggc ctactgtatg cttcttttyt ttttctctct tttcaactaa8821 gtcaccgtca atttattaag atggccataa ctattcaaaa cctatgctga gttcctcaag8881 gcagggtcgc atagtgatga aggttgggat ggggctacgg aagaaaccag aacaactcta8941 gtttatttaa aacctgtatt tactgcccac ttccccttag acttgaccat atgacccctt9001 gctccccatt ctaagcatag gggcaggctt tatttttaca atggtaatag atgatatcac9061 ttgaggtttt atcaaagagt tgcggcgggt ggtgaaagtt cacaaccaga ttcaggtttt9121 gtttgtgcca gattctaatt ttacatgttt cttttgccaa agggtgattt ttttaaaata 9181 acatttgttt tctcttatct tgctttatta ggtcggagac catgagaaac agcgtcaaat 9241 catcttttca tgatcccaag ctgaaaggca agccctccag agagcgttat gtgacccaca 9301 accgagcaca ttggtgacag accttcgggg cctgtctgaa gccatagcct ccacggagag 9361 ccctgtggcc gactctgcac tctccaccct ggctgggatc agagcaggag catcctctgc 9421 tggttcctga ctggcaaagg accagcgtcc tcgttcaaaa cattccaaga aaggttaagg 9481 agttccccca accatcttca ctggcttcca tcagtggtaa ctgctttggt ctcttctttc 9541 atctggggat gacaatggac ctctcagcag aaacacacag tcacattcga attcgggtgg 9601 catcctccgg agagagagag aggaaggaga ttccacacag gggtggagtt tctgacgaag 9661 gtcctaaggg agtgtttgtg tctgactcag gcgcctggca catttcaggg agaaactcca 9721 aagtccacac aaagattttc taaggaatgc acaaattgaa aacacactca aaagacaaac 9781 atgcaagtaa agaaaaaaaa aagaaagact tttgtttaaa tttgtaaaat gcaaaactga 9841 atgaaactgt tactaccata aatcaggata tgtttcatga atatgagtct acctcaccta 9901 tattgcactc tggcagaagt atttcccaca tttaattatt gcctccccaa actcttccca 9961 cccctgctgc cccttcctcc atcccccata ctaaatccta gcctcgtaga agtctggtct10021 aatgtgtcag cagtagatat aatattttca tggtaatcta ctagctctga tccataagaa10081 101 aaaaaagatc attaaatcag gagattccct gtccttgatt tttggagaca caatggtata10141 gggttgttta tgaaatatat tgaaaagtaa gtgtttgtta cgctttaaag cagtaaaatt10201 attttccttt atataaccgg ctaatgaaag aggttggatt gaattttgat gtacttattt10261 ttttatagat atttatattc aaacaattta ttccttatat ttaccatgtt aaatatctgt10321 ttgggcaggc catattggtc tatgtatttt taaaatatgt atttctaaat gaaattgaga10381 acatgctttg ttttgcctgt caaggtaatg actttagaaa ataaatattt ttttccttac10441 tgtactgatt tggaatcatt actgaaattt gtaaggagtg ggccaacgtg attaagtacc10501 ataaaggcaa ataaatggtt aaagacggtt tcatagaaaa gtgacaatta gaaggatatt10561 acggtctaag ctaattatat aaagaatttt atctgtatct taaatgttga ttttatactg10621 cattgaggta aaaacacaaa acaaaaaagc agctttaaca cctctgtctt ctcttgggta10681 gcagcctcct gcttctcctt cacctgaaaa attctccagg gacttcatcc attaacttgg10741 ctcaggctat tggcaggatt cacagtttaa gctgatggtg tggtgagaga tgctttatcc10801 1082 10861 aaagttatat accaaagttg cttttagaaa atggcctgct cagagcaagt agaggtttcc10921 aatggctttt tattttctca cattaaggat gttgtttctt aaggaacatt gagtaccatt10981 gcttcttcgt gatagcctag gactgccgtg tgcccatgga ggtagagaca ccaggtactg11041 attctaggtc ctctgccaca aagcaccact tcctctccac tttgccttgg ctggccttgt11101 cagctcactg gagagcacag tattgcaatt gcagtattgc aaatggtcac tactaactga111 attctctaag agcttgatta gccctcgaga atcttccttg cccttctcta atagtgtctg11221 aaggaattcc tggcatttaa caaatattag catgtagtga tcactgtcgt cctaacagtg112 acacatcaga aggatttcaa ataacagtct tcaggcatgc gtaatcaatg tcctgtgcag11341 agtctccgtc ctcattgatc ctcatttttc tctttaaggc acagtccaat gtctttgggg11401 aattgtttat aaagcttact ttatccataa actgtttctc agtgcgtgac tctgaagaaa11461 attttgaagt tttgcccatg ttgacaaggt gcttggtctg aacttggcca gtatttaatc11521 ttgagcaaac gattcaattt ccttctatcg tgagttttct catctatgaa acaagggagt11581 tgaggggagt ttctttcata cctctgagaa agagtttgag attacataaa gaagttgaag11641 tggcatgaaa aaaaataaag atctgagctt agaagacatg gatctaatac atttaagagg11701 aagtcagaat cagagaagcc actgaacaaa acagtccaaa cggagcatag taagtcagat11761 tgatgagttt tggttgggtt tttcatcagt caaacccttg agcccccctt tcccatgctt11821 cctgcttcag tatccagtag gaaaaatgaa agggatgatg tagacactct agggcatgag11881 gatttgcagt aaataagttg ggagactcac agaaaattaa tatttttcaa acatgaagac 68641 gaaacattca attatattac agtccacatc agcttgaagg gtaaactgat gggatgatct12001 gtcacatttc ttgctctgtt tccagtaaaa gcatggtttc tggaaaccca cttaggacag12061 ctttctctct ttacactgat agcccaggca agctttgatc tcagaactcc agaaaccaga12121 gaactctagg tggaatgtgg taacttttgc cagggcagag ggaacaccta ctaataggta 1213681 cttcatttgc accaccagag attggcatct tttttgatgg atccactggc tttgatactg12241 cctgtactcc cccaaaacac agcttgggta ttggactaat ctagagctcc ctcaggagaa12301 3912361 aaagggagtg actcacctaa gatcacagaa ggagctgtag catctctgga gcctgaacac12421 ttaagttaag cacgactatt tcacgcagag ggcatgaatt c (2) SEQ ID NO: 2857 data: (i) sequence characteristics: length (A): 1251 base pairs (B) type: nucleic acid (C) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2857 sequence description: 1 ggagctgttt acccccactc taataggggt tcaatataaa aagccggcag agagctgtcc 61 aagtcagacg cgcctctgca tctgcgccag gcgaacgggt cctgcgcctc ctgcagtccc 121 agctctccac caccgccgcg tgcgcctgca gacgctccgc tcgctgcctt ctctcctggc 181 aggcgctgcc ttttctcccc gttaaagggc acttgggctg aaggatcgct ttgagatctg 241 aggaacccgc agcgctttga gggacctgaa gctgtttttc ttcgttttcc tttgggttca 301 gtttgaacgg gaggtttttg atcccttttt ttcagaatgg attatttgct catgattttc 361 tctctgctgt ttgtggcttg ccaaggagct ccagaaacag cagtcttagg cgctgagctc 421 agcgcggtgg gtgagaacgg cggggagaaa cccactccca gtccaccctg gcggctccgc 481 cggtccaagc gctgctcctg ctcgtccctg atggataaag agtgtgtcta cttctgccac 541 ctggacatca tttgggtcaa cactcccgag cacgttgttc cgtatggact tggaagccct 601 aggtccaaga gagccttgga gaatttactt cccacaaagg caacagaccg tgagaataga 661 tgccaatgtg ctagccaaaa agacaagaag tgctggaatt tttgccaagc aggaaaagaa 721 ctcagggctg aagacattat ggagaaagac tggaataatc ataagaaagg aaaagactgt 781 tccaagcttg ggaaaaagtg tatttatcag cagttagtga gaggaagaaa aatcagaaga 841 agttcagagg aacacctaag acaaaccagg tcggagacca tgagaaacag cgtcaaatca 901 tcttttcatg atcccaagct gaaaggcaag ccctccagag agcgttatgt gacccacaac 961 cgagcacatt ggtgacagac ttcggggcct gtctgaagcc atagcctcca cggagagccc1021 tgtggccgac tctgcactct ccaccctggc tgggatcaga gcaggagcat cctctgctgg1081 ttcctgactg gcaaaggacc agcgtcctcg ttcaaaacat tccaagaaag gttaaggagt1141 tcccccaacc atcttcactg gcttccatca gtggtaactg ctttggtctc ttctttcatc1201 tggggatgac aatggacctc tcagcagaaa cacacagtca cattcgaatt c (2) SEQ ID NO: 2858, data: (i) sequence characteristics:

(A) length: 1166 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2858 sequence description: 1 ctgcgccagg cgaacgggtc ctgcgcctcc tgcagtccca gctctccacc gccgcgtgcg 61 cctgcagacg ctccgctcgc tgccttctct cctggcaggc gctgcctttt ctccccgtta 121 aagggcactt gggctgaagg atcgctttga gatctgagga acccgcagcg ctttgaggga 181 cctgaagctg tttttcttcg ttttcctttg ggttcagttt gaacgggagg tttttgatcc 241 ctttttttca gaatggatta tttgctcatg attttctctc tgctgtttgt ggcttgccaa 301 ggagctccag aaacagcagt cttaggcgct gagctcagcg cggtgggtga gaacggcggg 361 gagaaaccca ctcccagtcc accctggcgg ctccgccggt ccaagcgctg ctcctgctcg 421 tccctgatgg ataaagagtg tgtctacttc tgccacctgg acatcatttg ggtcaacact 481 cccgagcacg ttgttccgta tggacttgga agccctaggt ccaagagagc cttggagaat 541 ttacttccca caaaggcaac agaccgtgag aatagatgcc aatgtgctag ccaaaaagac 601 aagaagtgct ggaatttttg ccaagcagga aaagaactca gggctgaaga cattatggag 661 aaagactgga ataatcataa gaaaggaaaa gactgttcca agcttgggaa aaagtgtatt 721 tatcagcagt tagtgagagg aagaaaaatc agaagaagtt cagaggaaca cctaagacaa 781 accaggtcgg agaccatgag aaacagcgtc aaatcatctt ttcatgatcc caagctgaaa 841 ggcaagccct ccagagagcg ttatgtgacc cacaaccgag cacattggtg acagacttcg 901 gggcctgtct gaagccatag cctccacgga gagccctgtg gccgactctg cactctccac 961 cctggctggg atcagagcag gagcatcctc tgctggttcc tgactggcaa aggaccagcg1021 tcctcgttca aaacattcca agaaaggtta aggagttccc ccaaccatct tcactggctt1081 ccatcagtgg taactgcttt ggtctcttct ttcatctggg gatgacaatg gacctctcag1141 cagaaacaca cagtcacatt cgaattc (2) SEQ ID NO: 2859 materials: (i) sequence characteristics:

(A) length: 14879 base pair (B) type: nucleic acid (C) strand type: single chain (D) topology: linear (xi) SEQ ID NO: 2859 sequence description: 1 gatatcctat taatacagag atacagaaag aaatacataa aaaatagttt tatcaaatac 61 tttccagcat tcaagtgtag cctcaaaagc aagaataggc caggagtggt ggctcacgct 121 gtaatccaca gcactgtggg aggccaaggt aagaggattg cttgaggcca ggatttcaag 181 721 ttcttgggaa aatgtcttgc tgggaggctg cctggcgagt gccctagctg ccttctgtgg 781 181 accagcctag gcaacatagt gagatcccta tctctacgaa aaaattttaa aacttagctg 241 ggcatggtgc ttgagcctgt tgtcccagct actcaggagg tgaagtagga gtgtcacttg 301 agcccaggag gttgaggctg cagtgagcta taactgcacc actgcactcc agccttggag 361 acagagtgag accctgtccc caaaaaaatt aaaattgaga aaaaaaaaaa ggcaagaaca 421 gccacagcaa actttctatt ggggaaaaaa aaaaatcctc ctctttacat ctctcccttc 481 cttcccttcc ctttctgaga gtgactgtgg ccaaaaggag cattttcccc ctgcagtcct 541 ctgaggggtg gggtggggct atgaagctat ccttcatatt cactcctttg tccagctctt 601 ttcacctcta gttcttctcc ccgcatctct gtctagcagt gccttaagtg gaggaggggt 661 gggggcatca agcttgtaaa actggtttgt tggggttctc cttctcccct catttcttga 721 ttcttgggaa aatgtcttgc tgggaggctg cctggcgagt gccctagctg ccttctgtgg 781 gcttgaatgg ggcttccctc tgcccctaca ggaggaaaag ggagctgctg ccagagggag 841 aaatggagag atggacagag aaggcaggtg ccacccctcg cccctgacac acaaagaaaa 901 agacacggaa attctctctc tctcttctct tctcctatct ctctctctct ccctctctct 961 ctctctctct ctctctctca cacacacaca cacacacaca cacacacaca caggcgcgcg1021 ccgcgcgcgc aggcacacgt cttgcaaatt caggattcaa agagacaggg gcaccattat1081 atttggcacg gtggggcctt ccaggtctga aatcctgcat tcttccttac tatttacttt1141 ccccgagctc gagaagggcc aggtgtgggc ggatggctgg ccacgttttg tgtttccaat1201 tcatattcac gggatgacac agacggggcg tggtgagtgc tgttggaggc gcttgggcag1261 tttcattttg ccccacttct ccacctgaag gctgggcgtt gctggaacct gcaggggcag1321 cctcagcaag gtggggtggc gtggagtggg gtgggagaag ggactccagc tgaagtagaa1381 cccaggctgg acctgagaat attggggagg gcatgggcgg tggtttccgg gtaggggcct1441 tgaggacatg ttggtcctga ctgttgtcag tgtttggtca aagttgccaa aaggttaaaa1501 aaaaaaaagt agggggagtc cctgccaaga catatttccc aggccacctt tcttccgcgg1561 gagtgttggg ggggaggcgc tgcttggaac ctgtgaatgt gacatcagct ctcctctcct1621 ctcccaaggt cggctttgga gagggaggtc agggcaccct tgcctggcac aggcacgctg1681 gcttccggct cagtgccgcc tgctctccgg gagctgtgcg ctccctgggc cccggggcta1741 ggctgaggta agcgcacagc ggaggccagg cgcgccggca gaggcctggg ggatagggtg1801 gaggcatctc tgggtgtggg tgtgggtgtg ggtgtgggag ggagagttct tgcctctctc1861 tctcccatct ccaactcttg cttcagtggc tcttttagag gatgcatgtc attatggacc1921 tgtcgctgcc actgtccctg ttcccccagc tgtgacttcg agggaggtct ggggatctga1981 gtctgtccaa acccacggct ttgctgttgg gataaaaact gtccttttga ttttagaagg2041 aggagggaaa aaaggtttcc cagcatgtgt gttgtgccag tcttggaaat tcatccgtgc2101 ttgaattcca ccctccatcc ccagaaaaac tggagtaaaa caaaaagagg agatggacaa2161 agtgtgtatt tgatggcatc ccctgggaag agactctaaa tttatcccat aggtcttact2221 gggccactgt gagcgctttg gtggagaaca aacaaaaatt ctgggtgctc agttgtctaa2281 cctgaaaaat gggactagcg gaaaaagcca atgtgttcca tgcacctttt gctttcttta2341 ttaaggcatg atgtcacctg tacagtaact gccctgtgtg tacttcaggg ggggatttca2401 aggttagata gacaggaaat tgttttgaaa atgtaaacac attattaaat gtgaagtatt2461 atctgattcc ttgttcgaat ggcatttcct tctcagcacc accttccttg catattcact2521 taaccttgta caagaacacc tttttgccct aaatgaagac acccccccaa aaaaaagagt2581 cccagaaaat atgtccctgc ttgtgcggga ataaatagaa tattctgagg tgcattcctc2641 cttcctatgt taggcaacat tccttgaccc tcctcggccc ccaagccagg ttgcgttttt2701 ttctgccatt tagaagggtt ttcctttttg tcctagtaaa acatcagccc ctgtagctct2761 tcatctcccc ctggtgttct tctcccgcca tgtcttaaga ttggtggcac cgaccaatct2821 taagatttaa gttctgtgtg aaaaacacct ttgcttttca atcagtttat cagcctcctc2881 cgcaggggaa tgtggacaca caaaagaact tatcggggct tctcatcagt gatagggaaa2941 agactggcat gtgcctaaac gagctctgat gttattttta agctcccttt cttgccaatc3001 cctcacggat ctttctccga tagatgcaaa gaacttcagc aaaaaagacc cgcaggaagg3061 ggcttgaaga gaaaagtacg ttgatctgcc aaaatagtct gacccccagt agtgggcagt3121 gacgagggag agcattccct tgtttgactg agactagaat cggagagaca taaaaggaaa3181 atgaagcgag caacaattaa aaaaaattcc ccgcacacaa caatacaatc tatttaaact3241 gtggctcata cttttcatac caatggtatg actttttttc tggagtcccc tcttctgatt3301 cttgaactcc ggggctggca gcttgcaaag gggaagcgga ctccagcact gcacgggcag3361 gtttagcaaa ggtctctaat gggtattttc tttttcttag ccctgccccc gaattgtcag3421 acggcgggcg tctgcttctg aagttagcag tgatttcctt tcgggcctgg cttatctccg3481 gctgcacgtt gcctgttggt gactaataac acaataacat tgtctggggc tggaataaag3541 593601 ccaagtcaga cgcgcctctg catctgcgcc aggcgaacgg gtcctgcgcc tcctgcagtc3661 ccagctctcc accgccgcgt gcgcctgcag acgctccgct cgctgccttc tctcctggca3721 ggcgctgcct tttctccccg ttaaagggca cttgggctga aggatcgctt tgagatctga3781 ggaacccgca gcgctttgag ggacctgaag ctgtttttct tcgttttcct ttgggttcag3841 tttgaacggg aggtttttga tccctttttt tcagaatgga ttatttgctc atgattttct3901 ctctgctgtt tgtggcttgc caaggagctc cagaaacagg taggcacgct cgttgacttg 398661 taagtctcgg aattacaagt tagtgtgttc ttatccacct tcatgctttt cttgcttcta4021 tttttccccg ttctttttat gactgcagct tagagagcaa gtgtctgaga attattgctg aaacgtactt taagtcttct agtgtaaaat gtaaaattcc tctactgaat acaattaggt4141 gcaattgact ataacatgac attaaaataa cttatcgttt tattattatt attccattat4201 gtgtttcctt ggcttttaaa aaatgagaag agtatggaca tatacaattt agtcaaatgt4261 atgtttgtaa tatatgtgtt tatacaggta cacaggccat ataggaactt aaatcttatt4321 taaacactat tttaatagtg tgttaacgtg taaaatattt aagcattcca gcttgaagcc4381 aaggaattgt atccagtcgt tcaagcaatg tatgttcagt aaaatcacct gcagagcaaa4441 agtctgttga ctaactaccg cctcccccgc ccccccacca ccccccgcag gcggtttctg4501 ggtgaagcag atgttttctt taaaatttgt catcattgac tttaggtttc ttttggcagg4561 tttttggcac ccaaaacagt gtgagctctc ttttcagctt tattcacctg tgctgggagg4621 ggagctagga taattcttgg ctgccgaagg atttaggcag tgcgtgtgca tctgcccggg4681 tcccccccgt ttttagggtc agtgcacttt ttttgtcttt tcgtgaccct gactaaagag4741 aaaggatgtc aagggaatga aaatcctgga atgtgtctga tcatttgaaa tgtacaaaat4801 tgggcagata agctgcatgg ctaaattgtt aggaggaaga ggcaaggcag tagtggagaa4861 gggggaggca gtggatccca cacaagcctg atgcccaggg attcggaatt caaaatcccc4921 ccagcctacc ttcagtcccc tgacctgctt ctcagcccca ccttaggtca ctggtttcta4981 tggagttacc ctactgaatt gaatattgaa tagttaattt ctctctccaa tcattttccc5041 cacctaattt tgaaagatat acatcatctg gggtaccctg tgccctacac agcatgtgaa5101 gtggatgggt accccctaaa gagagggtca tcctgaatgg ggaagtggcc ccaaagctag5161 51 5161 gaataactgt gatttcttgt ctttagtcat gtgccaatgt taagtaagct tcagtggata5221 gtgctgtcct accaagttcc ttgtagaagc cagccggatt ttcaacaggc agcattccac5281 829 5281 agcatttccc tgagcctgct tcaagagggg tgggggaagt cccttttcag gtgtttatct5341 cctctgcatt tgtgtaatct ccctgaaggt ggataagcca agggcatgag ggggaggcaa5401 aaggtgaact catgttaagg agggaaaaaa ataaagagcc cttttttctg tgtttcttgc5461 tgatggcagg ctgtgtgctt catctgcttt tatctgctct gctagctctg actctactgt5521 gatccagcat gtctctcggc gtttgaggag acatccccca ctgacctgct ctttctctcc5581 ccagcagtct taggcgctga gctcagcgcg gtgggtgaga acggcgggga gaaacccact5641 cccagtccac cctggcggct ccgccggtcc aagcgctgct cctgctcgtc cctgatggat5701 aaagagtgtg tctacttctg ccacctggac atcatttggg tcaacactcc cgagtaagtc5761 tctagagggc attgtaaccc tattcattca ttagcgctgg ctccactgga gcccagtttt5821 agagtttctt ttctagggac tctgaaggta gtccttctaa caccatccaa gtgcctcagt5881 ggggacagtt tccctctatt cctgaaaata acgacagctt cgttcttagc aaccaagggg5941 agggtcttct gaggccccgt agctcaggct actcatgatg ggacaagcag gaggccactg6001 cacgtttcaa atgaggaact ttcagtgaga gggcctcagg gggacactct cacagtggca6061 tctgatgggg tttcgggaat aattgccgag gtcagatgtg ggttagtgca acctgtgctt6121 ctcatgggag ggtggagact gagaggcaga agtgatgata tagagggtta gaatcactta6181 attttagtta cagaaaaacc taggctcaaa gtgttgaagc catttgtgca ggagtgagtt6241 tgtagcagag ctagaactgg agcccggatt tcctttgctg ctatattttc cctttagaaa6301 tgcccatttc agaactgaaa tagaaatact gtccataggc ttctctttca cctacagaga6361 agaaaagcag atttcctcct tctgccctgg acactagttc atcatctgtc ggaagcagtc6421 ataaacaagc acacatttac tatgcataca atgtaccgtt atgacaaagg aggaccaaaa tccaaacaat atcaaaccac accaaaaacc acaaggagcc taataattac taaggtgata6541 cttccaaagg gaggacttta tttcttagat gagaatgaaa atggacacat tggaaattat6601 tggagagccc tctggctatg agtccttcca caaccatatg gtaccaccga ctggcaggag6661 aaatgtgtga acatgtgcct cctctcccca accactgggg ccggtggggt gacggtggca6721 6866789 6951 tggttttgcattgaaacctc ttcccactgt gtacccacaa atagttaact aaatagacca6841 826901 aaagcaatgt tgcttgtgtc aagaagaaac tgaactttgt gaagagttga aatggaattc696 cactgaatta gaaaaacttg ttttctcctg cctggataca tacagtcagg gccattgatg7021 cacaggtgtt cctggctgtt gttacacttt accctctgaa atgatgctcc caagtgctat7081 gtgatgagct ccttgtgtgc ccagtggaat aggtgtgtcc atgtgtcatt ttaaagacta7141 ttaattacac taatatagtt tctttctctc tttggataat aggcacgttg ttccgtatgg7201 acttggaagc cctaggtcca agagagcctt ggagaattta cttcccacaa aggcaacaga7261 ccgtgagaat agatgccaat gtgctagcca aaaagacaag aagtgctgga atttttgcca7321 agcaggaaaa gaactcaggt gagcagaaac acctttgctt ttcaatcagt ttaacagcct7381 cctgaactcc ttcctatcat ggtactgcct tcctgtttta gagagactaa cagagacatt7441 gaaagtcagg gtaaagctga atataacatt gctgaaatgt ttttccttgt gtattttaac7501 agggctgaag acattatgga gaaagactgg aataatcata agaaaggaaa agactgttcc7561 aagcttggga aaaagtgtat ttatcagcag ttagtgagag gaagaaaaat cagaagaagt7621 tcagaggaac acctaagaca aaccaggtaa gagggaagga agaaaaatta ggtaagaggt7681 76 7681 tcacaagaac aactagcccc agtcagtgat gccagcagcc tgttcctcca gcccttctta7741 cccgggcagg tgaaagactt agaaaacagt agcagaggag atctatgcat cctatagatt7801 aaaaggagca aaagaatccc tcttaaatat ttccatgaag ctctggaatg caaaccgatg7861 tcctctgtac ctttagcaca taccatttca tctacaggta gatttcccaa ccaaaatata7921 tccagagatg cctttgtcat tgggttatat acagcctttg cctctctgag tcaatgtatt7981 taccactttc cctgagaaat cgaaaatcat tttggggagc ggacatttag aaaaagaatc8041 aaagtgtcat ggataatcaa attcttcaat aagttgcagt tattcagatg gccaaaggaa8101 aaataaagtc attagatagg gttggtagaa tttagaacat gctgtttttc aggtttatgg8161 tctttttttt tttttttttt tttttttaaa tagggaaatg tgtttggtgc agagccaatg8221 tcattccaaa aagctctctc ttttcctggt cagtcatgtg ctgggacaga gaagggatct8281 ggattaggca acatcataga gttgctctga gctgctcttt ggtgataacc cttccaaatc8341 ctaaactttt tggaattcac aagctcaaag gaggaaacct actctctgat ctaccacatg8401 ttctgcattt ttctatcatg gtctatggaa acttctctta gaaatccagt ggcaagaagt8461 tctatgatta aagtgttctg agctcaggcc aggcagtcat gaactacttc tgagttgttt8521 actactgatt tgtggggcag cctcagctat cggtttcttc acacctgctt atgagagtat8581 ccatatttat ggtcgcaggc agtaatgctc cccacgagat cagtttctga actaacctgg8641 aattttttat gggtttttat tatgccaact attaaatcaa cattacagtt cttccctctg8701 tatttctcct gtaaaacatt aggcctgcaa aaaaaaaaaa tctttttaaa aataattgcc8761 ataaagtatt tgctctgggc ctactgtatg cttcttttyt ttttctctct tttcaactaa8821 gtcaccgtca atttattaag atggccataa ctattcaaaa cctatgctga gttcctcaag8881 gcagggtcgc atagtgatga aggttgggat ggggctacgg aagaaaccag aacaactcta8941 gtttatttaa aacctgtatt tactgcccac ttccccttag acttgaccat atgacccctt9001 gctccccatt ctaagcatag gggcaggctt tatttttaca atggtaatag atgatatcac9061 ttgaggtttt atcaaagagt tgcggcgggt ggtgaaagtt cacaaccaga ttcaggtttt9121 gtttgtgcca gattctaatt ttacatgttt cttttgccaa agggtgattt ttttaaaata 9181 acatttgttt tctcttatct tgctttatta ggtcggagac catgagaaac agcgtcaaat 9241 catcttttca tgatcccaag ctgaaaggca agccctccag agagcgttat gtgacccaca 9301 accgagcaca ttggtgacag accttcgggg cctgtctgaa gccatagcct ccacggagag 9361 ccctgtggcc gactctgcac tctccaccct ggctgggatc agagcaggag catcctctgc 9421 tggttcctga ctggcaaagg accagcgtcc tcgttcaaaa cattccaaga aaggttaagg 9481 agttccccca accatcttca ctggcttcca tcagtggtaa ctgctttggt ctcttctttc 9541 atctggggat gacaatggac ctctcagcag aaacacacag tcacattcga attcgggtgg 9601 catcctccgg agagagagag aggaaggaga ttccacacag gggtggagtt tctgacgaag 9661 gtcctaaggg agtgtttgtg tctgactcag gcgcctggca catttcaggg agaaactcca 9721 aagtccacac aaagattttc taaggaatgc acaaattgaa aacacactca aaagacaaac 9781 atgcaagtaa agaaaaaaaa aagaaagact tttgtttaaa tttgtaaaat gcaaaactga 9841 atgaaactgt tactaccata aatcaggata tgtttcatga atatgagtct acctcaccta 9901 tattgcactc tggcagaagt atttcccaca tttaattatt gcctccccaa actcttccca 9961 cccctgctgc cccttcctcc atcccccata ctaaatccta gcctcgtaga agtctggtct10021 aatgtgtcag cagtagatat aatattttca tggtaatcta ctagctctga tccataagaa10081 aaaaaagatc attaaatcag gagattccct gtccttgatt tttggagaca caatggtata10141 gggttgttta tgaaatatat tgaaaagtaa gtgtttgtta cgctttaaag cagtaaaatt10201 attttccttt atataaccgg ctaatgaaag aggttggatt gaattttgat gtacttattt10261 ttttatagat atttatattc aaacaattta ttccttatat ttaccatgtt aaatatctgt10321 ttgggcaggc catattggtc tatgtatttt taaaatatgt atttctaaat gaaattgaga10381 acatgctttg ttttgcctgt caaggtaatg actttagaaa ataaatattt ttttccttac10441 tgtactgatt tggaatcatt actgaaattt gtaaggagtg ggccaacgtg attaagtacc10501 ataaaggcaa ataaatggtt aaagacggtt tcatagaaaa gtgacaatta gaaggatatt10561 acggtctaag ctaattatat aaagaatttt atctgtatct taaatgttga ttttatactg10621 cattgaggta aaaacacaaa acaaaaaagc agctttaaca cctctgtctt ctcttgggta10681 gcagcctcct gcttctcctt cacctgaaaa attctccagg gacttcatcc attaacttgg10741 ctcaggctat tggcaggatt cacagtttaa gctgatggtg tggtgagaga tgctttatcc10801 atattaatgg actgaaggaa gtaatggcaa gacaaccccc caaaacatac ctaattatac10861 aaagttatat accaaagttg cttttagaaa atggcctgct cagagcaagt agaggtttcc10921 aatggctttt tattttctca cattaaggat gttgtttctt aaggaacatt gagtaccatt10981 gcttcttcgt gatagcctag gactgccgtg tgcccatgga ggtagagaca ccaggtactg11041 attctaggtc ctctgccaca aagcaccact tcctctccac tttgccttgg ctggccttgt11101 cagctcactg gagagcacag tattgcaatt gcagtattgc aaatggtcac tactaactga11161 attctctaag agcttgatta gccctcgaga atcttccttg cccttctcta atagtgtctg11221 aaggaattcc tggcatttaa caaatattag catgtagtga tcactgtcgt cctaacagtg 1124681 acacatcaga aggatttcaa ataacagtct tcaggcatgc gtaatcaatg tcctgtgcag11341 11448 01 aattgtttat aaagcttact ttatccataa actgtttctc agtgcgtgac tctgaagaaa11461 attttgaagt tttgcccatg ttgacaaggt gcttggtctg aacttggcca gtatttaatc11521 ttgagcaaac gattcaattt ccttctatcg tgagttttct catctatgaa acaagggagt11581 tgaggggagt ttctttcata cctctgagaa agagtttgag attacataaa gaagttgaag11641 tggcatgaaa aaaaataaag atctgagctt agaagacatg gatctaatac atttaagagg11701 aagtcagaat cagagaagcc actgaacaaa acagtccaaa cggagcatag taagtcagat11761 tgatgagttt tggttgggtt tttcatcagt caaacccttg agcccccctt tcccatgctt11821 1182 11881 8211941 gaaacattca attatattac agtccacatc agcttgaagg gtaaactgat gggatgatct12001 gtcacatttc ttgctctgtt tccagtaaaa gcatggtttc tggaaaccca cttaggacag12061 ctttctctct ttacactgat agcccaggca agctttgatc tcagaactcc agaaaccaga12121 gaactctagg tggaatgtgg taacttttgc cagggcagag ggaacaccta ctaataggta12181 3612241 cctgtactcc cccaaaacac agcttgggta ttggactaat ctagagctcc ctcaggagaa12301 ctcttgctga cattaagaaa gagcaacatt ttgtctttcc aggtgaaaat ccaaggccaa12361 aaagggagtg actcacctaa gatcacagaa ggagctgtag catctctgga gcctgaacac12421 ttaagttaag cacgactatt tcacgcagag ggcatgaatt c

1 ggagctgttt acccccactc taataggggt tcaatataaa aagccggcag agagctgtcc 61 aagtcagacg cgcctctgca tctgcgccag gcgaacgggt cctgcgcctc ctgcagtccc 121 agctctccac caccgccgcg tgcgcctgca gacgctccgc tcgctgcctt ctctcctggc 181 721 ctcagggctg aagacattat ggagaaagac tggaataatc ataagaaagg aaaagactgt 781 181 aggcgctgcc ttttctcccc gttaaagggc acttgggctg aaggatcgct ttgagatctg 241 aggaacccgc agcgctttga gggacctgaa gctgtttttc ttcgttttcc tttgggttca 301 gtttgaacgg gaggtttttg atcccttttt ttcagaatgg attatttgct catgattttc 361 tctctgctgt ttgtggcttg ccaaggagct ccagaaacag cagtcttagg cgctgagctc 421 agcgcggtgg gtgagaacgg cggggagaaa cccactccca gtccaccctg gcggctccgc 481 cggtccaagc gctgctcctg ctcgtccctg atggataaag agtgtgtcta cttctgccac 541 ctggacatca tttgggtcaa cactcccgag cacgttgttc cgtatggact tggaagccct 601 aggtccaaga gagccttgga gaatttactt cccacaaagg caacagaccg tgagaataga 661 tgccaatgtg ctagccaaaa agacaagaag tgctggaatt tttgccaagc aggaaaagaa 721 ctcagggctg aagacattat ggagaaagac tggaataatc ataagaaagg aaaagactgt 781 tccaagcttg ggaaaaagtg tatttatcag cagttagtga gaggaagaaa aatcagaaga 841 agttcagagg aacacctaag acaaaccagg tcggagacca tgagaaacag cgtcaaatca 901 tcttttcatg atcccaagct gaaaggcaag ccctccagag agcgttatgt gacccacaac 961 cgagcacatt ggtgacagac ttcggggcct gtctgaagcc atagcctcca cggagagccc1021 tgtggccgac tctgcactct ccaccctggc tgggatcaga gcaggagcat cctctgctgg1081 ttcctgactg gcaaaggacc agcgtcctcg ttcaaaacat tccaagaaag gttaaggagt1141 tcccccaacc atcttcactg gcttccatca gtggtaactg ctttggtctc ttctttcatc1201 tggggatgac aatggacctc tcagcagaaa cacacagtca cattcgaatt c13713 ctgcgccagg cgaacgggtc ctgcgcctcc tgcagtccca gctctccacc gccgcgtgcg13773 cctgcagacg ctccgctcgc tgccttctct cctggcaggc gctgcctttt ctccccgtta13833 aagggcactt gggctgaagg atcgctttga gatctgagga acccgcagcg ctttgaggga13893 138 13893 cctgaagctg tttttcttcg ttttcctttg ggttcagttt gaacgggagg tttttgatcc13953 ctttttttca gaatggatta tttgctcatg attttctctc tgctgtttgt ggcttgccaa14013 ggagctccag aaacagcagt cttaggcgct gagctcagcg cggtgggtga gaacggcggg14073 gagaaaccca ctcccagtcc accctggcgg ctccgccggt ccaagcgctg ctcctgctcg14133 tccctgatgg ataaagagtg tgtctacttc tgccacctgg acatcatttg ggtcaacact14193 cccgagcacg ttgttccgta tggacttgga agccctaggt ccaagagagc cttggagaat14253 ttacttccca caaaggcaac agaccgtgag aatagatgcc aatgtgctag ccaaaaagac14313 aagaagtgct ggaatttttg ccaagcagga aaagaactca gggctgaaga cattatggag14373 aaagactgga ataatcataa gaaaggaaaa gactgttcca agcttgggaa aaagtgtatt14433 tatcagcagt tagtgagagg aagaaaaatc agaagaagtt cagaggaaca cctaagacaa14493 accaggtcgg agaccatgag aaacagcgtc aaatcatctt ttcatgatcc caagctgaaa14553 ggcaagccct ccagagagcg ttatgtgacc cacaaccgag cacattggtg acagacttcg14613 gggcctgtct gaagccatag cctccacgga gagccctgtg gccgactctg cactctccac14673 cctggctggg atcagagcag gagcatcctc tgctggttcc tgactggcaa aggaccagcg14733 tcctcgttca aaacattcca agaaaggtta aggagttccc ccaaccatct tcactggctt14793 ccatcagtgg taactgcttt ggtctcttct ttcatctggg gatgacaatg gacctctcag14853 cagaaacaca cagtcacatt cgaattc (2) SEQ ID NO: 2860 of the data: (i) sequence characteristics:

(A) length: 718 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2860 sequence description: 1 aggggcagct ggatcagttc tcacaggagc cacagctcag agactgggaa acatggttcc 61 aaaactgttc acttcccaaa tttgtctgct tcttctgttg gggcttatgg gtgtggaggg121 ctcactccat gccagacccc cacagtttac gagggctcag tggtttgcca tccagcacat181 cagtctgaac ccccctcgat gcaccattgc aatgcgggca attaacaatt atcgatggcg241 ttgcaaaaac caaaatactt ttcttcgtac aacttttgct aatgtagtta atgtttgtgg301 taaccaaagt atacgctgcc ctcataacag aactctcaac aattgtcatc ggagtagatt361 ccgggtgcct ttactccact gtgacctcat aaatccaggt gcacagaata tttcaaactg421 caggtatgca gacagaccag gaaggaggttctatgtagtt gcatgtgaca acagagatcc481 acgggattct ccacggtatc ctgtggttcc agttcacctg gataccacca tctaagctcc541 tgtatcagca gtcctcatca tcactcatct gccaagctcc tcaatcatag ccaagatccc601 atccctccat gtactctggg tatcagcaac tgtcctcatc agtctccata ccccttcagc661 tttcctgagc tgaagtccct tgtgaaccct gcaataaact gctttgcaaa ttcaaaaa (2) SEQ ID NO: 2861 for data: (i) sequence characteristics:

(A) length: 715 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2861 sequence description: 1 gaacaaccag ctggatcagt tctcacagga gccacagctc agagactggg aaacatggtt 61 ccaaaactgt tcacttccca aatttgtctg cttcttctgt tggggcttat gggtgtggag121 ggctcactcc atgccagacc cccacagttt acgagggctc agtggtttgc catccagcac181 atcagtctga acccccctcg atgcaccatt gcaatgcggg caattaacaa ttatcgatgg241 cgttgcaaaa accaaaatac ttttcttcgt acaacttttg ctaatgtagt taatgtttgt301 ggtaaccaaa gtatacgctg ccctcataac agaactctca acaattgtca tcggagtaga361 ttccgggtgc ctttactcca ctgtgacctc ataaatccag gtgcacagaa tatttcaaac421 tgcaggtatg cagacagacc aggaaggagg ttctatgtag ttgcatgtga caacagagat481 ccacgggatt ctccacggta tcctgtggtt ccagttcacc tggataccac catctaagct541 cctgtatcag cagtcctcat catcactcat ctgccaagct cctcaatcat agccaagatc601 ccatccctcc atgtactctg ggtatcagca actgtcctca tcagtctcca taccccttca661 gctttcctga gctgaagtcc cttgtgaacc ctgcaataaa ctgctttgca aattc (2) SEQ ID NO: 2862 for data: (i) sequence characteristics:

(A) length: 1452 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2862 sequence description: 1 ctgccagcag cgtatagttt tcacccagag tccagatccc accggcaaaa ctctgtctaa 61 cacaggatga cttggaatta gagtccgtat agcagaaaga gcagcagggc tgtccttggg 121 tatccgttgc tcagccaagt catcaaataa aaaggatgat tgcacaagtg gaccatgtgt 181 721 gcaattaaca attatcgatg gcgttgcaaa aaccaaaata cttttcttcg tacaactttt 781 181 caatctgtgg gtttctgcat ggccagaccc accaagggaa gctttattta aacagttcca 241 agtaggggag accagctgcc cctgaacccc agaacaacca gctggatcag ttctcacagg 301 agccacagct cagagactgg gtaagtcaac aatccccaga gctgggacag gaggggcagc 361 gacagggcag cacctgaggg agaggtgagc tgaagttagt gcttaggaga tgtggcacac 421 tttggggaca ggaagaaaag gaaatgcgac cccagagtgg cagcagaggg gcctgtgggt 481 tgagacacta tagagtgtgt cataaccgag accggatagg ggagtagtta cttctcttct 541 tttcttacag gaaacatggt tccaaaactg ttcacttccc aaatttgtct gcttcttctg 601 ttggggctta tgggtgtgga gggctcactc catgccagac ccccacagtt tacgagggct 661 cagtggtttg ccatccagca catcagtctg aacccccctc gatgcaccat tgcaatgcgg 721 gcaattaaca attatcgatg gcgttgcaaa aaccaaaata cttttcttcg tacaactttt 781 gctaatgtag ttaatgtttg tggtaaccaa agtatacgct gccctcataa cagaactctc 841 aacaattgtc atcggagtag attccgggtg cctttactcc actgtgacct cataaatcca 901 ggtgcacaga atatttcaaa ctgcaggtat gcagacagac caggaaggag gttctatgta 961 gttgcatgtg acaacagaga tccacgggat tctccacggt atcctgtggt tccagttcac1021 ctggatacca ccatctaagc tcctgtatca gcagtcctca tcatcactca tctgccaagc1081 tcctcaatca tagccaagat cccatccctc catgtactct gggtatcagc aactgtcctc1141 atcagtctcc ataccccttc agctttcctg agctgaagtc ccttgtgaac cctgcaataa1201 actgctttgc aaattcatct ggaagtgtct gtgtgtcttc ctcggccgct ctgctgtcat1261 ttagtgacaa tctgctctag agatttgggt ttatcatgaa tctctccccc tcaatatctg1321 accaaattcc ttgattcccc catcatcctt catgtgatac ctgattccag gcctgcctta1381 aaaaaaaatc caattgagtc aacttagcat tggtctccct agccttaata tctcctctaa1441 gcaattttcc at (2) SEQ ID NO: 2863, data: (i) sequence characteristics:

(A) length: 2885 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2863 sequence description: 1 aggggcagct ggatcagttc tcacaggagc cacagctcag agactgggaa acatggttcc 61 aaaactgttc acttcccaaa tttgtctgct tcttctgttg gggcttatgg gtgtggaggg121 ctcactccat gccagacccc cacagtttac gagggctcag tggtttgcca tccagcacat181 719 gaacaaccag ctggatcagt tctcacagga gccacagctc agagactggg aaacatggtt779 181 cagtctgaac ccccctcgat gcaccattgc aatgcgggca attaacaatt atcgatggcg241 ttgcaaaaac caaaatactt ttcttcgtac aacttttgct aatgtagtta atgtttgtgg301 taaccaaagt atacgctgcc ctcataacag aactctcaac aattgtcatc ggagtagatt361 ccgggtgcct ttactccact gtgacctcat aaatccaggt gcacagaata tttcaaactg421 caggtatgca gacagaccag gaaggaggtt ctatgtagtt gcatgtgaca acagagatcc481 acgggattct ccacggtatc ctgtggttcc agttcacctg gataccacca tctaagctcc541 tgtatcagca gtcctcatca tcactcatct gccaagctcc tcaatcatag ccaagatccc601 atccctccat gtactctggg tatcagcaac tgtcctcatc agtctccata ccccttcagc661 tttcctgagc tgaagtccct tgtgaaccct gcaataaact gctttgcaaa ttcaaaaa719 gaacaaccag ctggatcagt tctcacagga gccacagctc agagactggg aaacatggtt779 ccaaaactgt tcacttccca aatttgtctg cttcttctgt tggggcttat gggtgtggag 839 ggctcactcc atgccagacc cccacagttt acgagggctc agtggtttgc catccagcac 899 atcagtctga acccccctcg atgcaccatt gcaatgcggg caattaacaa ttatcgatgg 959 cgttgcaaaa accaaaatac ttttcttcgt acaacttttg ctaatgtagt taatgtttgt1019 ggtaaccaaa gtatacgctg ccctcataac agaactctca acaattgtca tcggagtaga1079 ttccgggtgc ctttactcca ctgtgacctc ataaatccag gtgcacagaa tatttcaaac1139 tgcaggtatg cagacagacc aggaaggagg ttctatgtag ttgcatgtga caacagagat1199 ccacgggatt ctccacggta tcctgtggtt ccagttcacc tggataccac catctaagct1259 cctgtatcag cagtcctcat catcactcat ctgccaagct cctcaatcat agccaagatc1319 ccatccctcc atgtactctg ggtatcagca actgtcctca tcagtctcca taccccttca1379 gctttcctga gctgaagtcc cttgtgaacc ctgcaataaa ctgctttgca aattc1434 ctgccagcag cgtatagttt tcacccagag tccagatccc accggcaaaa ctctgtctaa1494 cacaggatga cttggaatta gagtccgtat agcagaaaga gcagcagggc tgtccttggg1554 tatccgttgc tcagccaagt catcaaataa aaaggatgat tgcacaagtg gaccatgtgt1614 caatctgtgg gtttctgcat ggccagaccc accaagggaa gctttattta aacagttcca1674 agtaggggag accagctgcc cctgaacccc agaacaacca gctggatcag ttctcacagg1734 agccacagct cagagactgg gtaagtcaac aatccccaga gctgggacag gaggggcagc1794 gacagggcag cacctgaggg agaggtgagc tgaagttagt gcttaggaga tgtggcacac1854 tttggggaca ggaagaaaag gaaatgcgac cccagagtgg cagcagaggg gcctgtgggt 19148 1974 tttcttacag gaaacatggt tccaaaactg ttcacttccc aaatttgtct gcttcttctg2034 ttggggctta tgggtgtgga gggctcactc catgccagac ccccacagtt tacgagggct2094 cagtggtttg ccatccagca catcagtctg aacccccctc gatgcaccat tgcaatgcgg2154 gcaattaaca attatcgatg gcgttgcaaa aaccaaaata cttttcttcg tacaactttt2214 gctaatgtag ttaatgtttg tggtaaccaa agtatacgct gccctcataa cagaactctc2274 aacaattgtc atcggagtag attccgggtg cctttactcc actgtgacct cataaatcca2334 ggtgcacaga atatttcaaa ctgcaggtat gcagacagac caggaaggag gttctatgta2394 gttgcatgtg acaacagaga tccacgggat tctccacggt atcctgtggt tccagttcac2454 822514 tcctcaatca tagccaagat cccatccctc catgtactct gggtatcagc aactgtcctc2574 atcagtctcc ataccccttc agctttcctg agctgaagtc ccttgtgaac cctgcaataa2634 actgctttgc aaattcatct ggaagtgtct gtgtgtcttc ctcggccgct ctgctgtcat2694 ttagtgacaa tctgctctag agatttgggt ttatcatgaa tctctccccc tcaatatctg 2728158 362814 aaaaaaaatc caattgagtc aacttagcat tggtctccct agccttaata tctcctctaa2874 gcaattttcc at (2) SEQ ID NO: 2864 of the data: (i) sequence characteristics:

(A) length: 694 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2864 sequence description: 1 cacaggagct acagcgcgga gactggaaac atggttccaa aactgttcac ttcccaaatt 61 tgtctgcttc ttctgttggg gcttctggct gtggagggct cactccatgt caaacctcca121 cagtttacct gggctcaatg gtttgaaacc cagcacatca atatgacctc ccagcaatgc181 accaatgcaa tgcaggtcat taacaattat caacggcgat gcaaaaacca aaatactttc241 cttcttacaa cttttgctaa cgtagttaat gtttgtggta acccaaatat gacctgtcct301 agtaacaaaa ctcgcaaaaa ttgtcaccac agtggaagcc aggtgccttt aatccactgt361 aacctcacaa ctccaagtcc acagaatatt tcaaactgca ggtatgcgca gacaccagca421 aacatgttct atatagttgc atgtgacaac agagatcaac gacgagaccc tccacagtat481 ccggtggttc cagttcacct ggatagaatc atctaagctc ctgtatcagc actcctcatc541 atcactcatc tgccaagctc ctcaatcata gccaagatcc catctctcca tatactttgg601 gtatcagcat ctgtcctcat cagtctccat accccttcag ctttcctgag ctgaagtgcc661 ttgtgaaccc tgcaataaac tgctttgcaa attc (2) SEQ ID NO: 2865 data: (i) sequence characteristics:

(A) length: 1489 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2865 sequence description: 1 ctgcaggcag catatagttt tcatccagag tttggatcta accagcaaaa ctctgtctta 61 cacaggatga cttggaatta gagtccttat agcagaaaga gcagcagggc tgtccttggg 121 tatccgttgc tcagccaagt catcaaataa aaaggatgat tgcacaagtg gactatgtac 181 721 tatgacctcc cagcaatgca ccaatgcaat gcaggtcatt aacaattatc aacggcgatg 781 181 caatctgtgg gtttctgcat ggccaagagc cagaccctcc ctctgggctc tgctggccca 241 acccaccaag ggatgcttta tttaaacagt tccaagtagg ggagaccagc tgcccctgaa 301 ccccagaaca accagctgga tcagttctca caggagctac agcgcggaga ctgggtaagt 361 caacgatccc cagagctggg acagaagggg cagcaatggg gcagcaactg agggagaaga 421 gagctgacgt tagtgcttag gagacgttgc acactttgca gacaggaagt aaaggaaatg 481 ggaccccaga gtggccgcag aggggcctgt ggggtaagac actacagtgt gtgtcataac 541 caagacccga tcagggagta gttacttctc ttcttttctt acaggaaaca tggttccaaa 601 actgttcact tcccaaattt gtctgcttct tctgttgggg cttctggctg tggagggctc 661 actccatgtc aaacctccac agtttacctg ggctcaatgg tttgaaaccc agcacatcaa 721 tatgacctcc cagcaatgca ccaatgcaat gcaggtcatt aacaattatc aacggcgatg 781 caaaaaccaa aatactttcc ttcttacaac ttttgctaac gtagttaatg tttgtggtaa 841 cccaaatatg acctgtccta gtaacaaaac tcgcaaaaat tgtcaccaca gtggaagcca 901 ggtgccttta atccactgta acctcacaac tccaagtcca cagaatattt caaactgcag 961 gtatgcgcag acaccagcaa acatgttcta tatagttgca tgtgacaaca gagatcaacg1021 acgagaccct ccacagtatc cggtggttcc agttcacctg gatagaatca tctaagctcc1081 tgtatcagca ctcctcatca tcactcatct gccaagctcc tcaatcatag ccaagatccc1141 atctctccat atactttggg tatcagcatc tgtcctcatc agtctccata ccccttcagc1201 tttcctgagc tgaagtgcct tgtgaaccct gcaataaact gctttgcaaa ttcatctgaa1261 agtgtctgtg tgtcttcatt agccgctctg ctgtcattta gtgacaatct actctagaga1321 tttttcttcc tctaacctga gacttccggg aaacagagag atttgaagat aagagacgct1381 ttctgtcatg aaacagcaca gtcttatccc tctccctgct ttaggctgag aagctgaggt1441 ctcaaccgat atctagcaac tgtcgaagac tcttgctttg atcaagctt (2) SEQ ID NO: 2866 materials: (i) sequence characteristics:

(A) length: 735 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2866 sequence description: 1 gctgcccctg aaccccagaa caaccagctg gatcagttct cacaggagct acaggccgga 61 gactgggaaa catggttcca aaactgttca cttcccaaat ttgtctgctt cttctgttgg121 ggcttctggc tgtggagggc tcactccatg tcaaacctcc acagtttacc tgggctcaat181 ggtttgaaac ccagcacatc aatatgacct cccagcaatg caccaatgca atgcaggtca241 ttaacaatta tcaacggcga tgcaaaaacc aaaatacttt ccttcttaca acttttgcta301 acgtagttaa tgtttgtggt aacccaaata tgacctgtcc tagtaacaaa actcgcaaaa361 attgtcacca cagtggaagc caggtgcctt taatccactg taacctcaca actccaagtc421 cacagaatat ttcaaactgc aggtatgcgc agacaccagc aaacatgttc tatatagttg481 catgtgacaa cagagatcaa cgacgagacc ctccacagta tccggtggtt ccagttcacc541 tggatagaat catctaagct cctgtatcag cactcctcat catcactcat ctgccaagct601 cctcaatcat agccaagatc ccatctctcc atatactttg ggtatcagca tctgtcctca661 tcagtctcca taccccttca gctttcctga gctgaagtgc cttgtgaacc ctgcaataaa721 39 721 ctgctttgca aattc (2) SEQ ID NO: 2867 data: (i) sequence characteristics:

(A) length: 2918 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2867 sequence description: 1 cacaggagct acagcgcgga gactggaaac atggttccaa aactgttcac ttcccaaatt 61 tgtctgcttc ttctgttggg gcttctggct gtggagggct cactccatgt caaacctcca121 cagtttacct gggctcaatg gtttgaaacc cagcacatca atatgacctc ccagcaatgc181 accaatgcaa tgcaggtcat taacaattat caacggcgat gcaaaaacca aaatactttc241 cttcttacaa cttttgctaa cgtagttaat gtttgtggta acccaaatat gacctgtcct301 agtaacaaaa ctcgcaaaaa ttgtcaccac agtggaagcc aggtgccttt aatccactgt361 aacctcacaa ctccaagtcc acagaatatt tcaaactgca ggtatgcgca gacaccagca421 aacatgttct atatagttgc atgtgacaac agagatcaac gacgagaccc tccacagtat481 ccggtggttc cagttcacct ggatagaatc atctaagctc ctgtatcagc actcctcatc541 atcactcatc tgccaagctc ctcaatcata gccaagatcc catctctcca tatactttgg601 gtatcagcat ctgtcctcat cagtctccat accccttcag ctttcctgag ctgaagtgcc661 ttgtgaaccc tgcaataaac tgctttgcaa attc 695 ctgcaggcag catatagttt tcatccagag tttggatcta accagcaaaa ctctgtctta 755 cacaggatga cttggaatta gagtccttat agcagaaaga gcagcagggc tgtccttggg 815 tatccgttgc tcagccaagt catcaaataa aaaggatgat tgcacaagtg gactatgtac 875 caatctgtgg gtttctgcat ggccaagagc cagaccctcc ctctgggctc tgctggccca 935 acccaccaag ggatgcttta tttaaacagt tccaagtagg ggagaccagc tgcccctgaa 995 ccccagaaca accagctgga tcagttctca caggagctac agcgcggaga ctgggtaagt1055 caacgatccc cagagctggg acagaagggg cagcaatggg gcagcaactg agggagaaga1115 gagctgacgt tagtgcttag gagacgttgc acactttgca gacaggaagt aaaggaaatg1175 ggaccccaga gtggccgcag aggggcctgt ggggtaagac actacagtgt gtgtcataac1235 caagacccga tcagggagta gttacttctc ttcttttctt acaggaaaca tggttccaaa1295 actgttcact tcccaaattt gtctgcttct tctgttgggg cttctggctg tggagggctc1355 actccatgtc aaacctccac agtttacctg ggctcaatgg tttgaaaccc agcacatcaa1415 tatgacctcc cagcaatgca ccaatgcaat gcaggtcatt aacaattatc aacggcgatg1475 caaaaaccaa aatactttcc ttcttacaac ttttgctaac gtagttaatg tttgtggtaa1535 cccaaatatg acctgtccta gtaacaaaac tcgcaaaaat tgtcaccaca gtggaagcca1595 ggtgccttta atccactgta acctcacaac tccaagtcca cagaatattt caaactgcag1655 gtatgcgcag acaccagcaa acatgttcta tatagttgca tgtgacaaca gagatcaacg1715 acgagaccct ccacagtatc cggtggttcc agttcacctg gatagaatca tctaagctcc1775 tgtatcagca ctcctcatca tcactcatct gccaagctcc tcaatcatag ccaagatccc1835 atctctccat atactttggg tatcagcatc tgtcctcatc agtctccata ccccttcagc1895 tttcctgagc tgaagtgcct tgtgaaccct gcaataaact gctttgcaaa ttcatctgaa1955 agtgtctgtg tgtcttcatt agccgctctg ctgtcattta gtgacaatct actctagaga2015 tttttcttcc tctaacctga gacttccggg aaacagagag atttgaagat aagagacgct2075 ttctgtcatg aaacagcaca gtcttatccc tctccctgct ttaggctgag aagctgaggt2135 ctcaaccgat atctagcaac tgtcgaagac tcttgctttg atcaagctt2184 gctgcccctg aaccccagaa caaccagctg gatcagttct cacaggagct acaggccgga2244 2302 2304 ggcttctggc tgtggagggc tcactccatg tcaaacctcc acagtttacc tgggctcaat2364 ggtttgaaac ccagcacatc aatatgacct cccagcaatg caccaatgca atgcaggtca 4 ttaacaatta tcaacggcga tgcaaaaacc aaaatacttt ccttcttaca acttttgcta2484 2422422544 2604 2664 catgtgacaa cagagatcaa cgacgagacc ctccacagta tccggtggtt ccagttcacc2724 tggatagaat catctaagct cctgtatcag cactcctcat catcactcat ctgccaagct2784 cctcaatcat agccaagatc ccatctctcc atatactttg ggtatcagca tctgtcctca2844 tcagtctcca taccccttca gctttcctga gctgaagtgc cttgtgaacc ctgcaataaa2904 ctgctttgca aattc (2) SEQ ID NO: 2868 data: (i) sequence characteristics:

(A) Length: 391 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2868 sequence description: 1 ccatggagga aggtcaatat tcaggtagga ggactctctg gttctaacgt tggcagaagc 61 aatgaccctt agctactcct ttcacccaga agagaagcgg ggcttcccag tccctctctg121 ggaaagaggg tgaatttcta agaaagggac tggtgtgagt aaggaggtga ggccgcactg181 actttcctgg cacagagcca ggaaggagtg gaaaattgag ggcccctcct ttttctgatt241 caacaccctc ctgacaaaaa aagaaaaaga aaaaaaaaaa cggcttcagc tagggagcgg301 ggacgcaata gagtcagagg ccaaatagaa caggaacttg gaacaagcag aatttagcat361 aatgaatcct ccaagccagg gtgagtgcag a (2) SEQ ID NO: 2869 data: (i) sequence characteristics:

(A) length: 3108 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2869 sequence description: 1 aagcttggga ataagtccag ctgggccatg ttgtgaggac atggggatga agtcttagtt 61 ccaggatggg gctgggatgg agtttggtgt ttcttttctg tttttctttc ttttttcttt 121 tctttttttt ttttgtgaga cagagtttag cttttgttgc ccaggctgga atgcaatggc 181 721 ctgaatatta tctcacgtat ctttctttcc ccccgcttcc ctccttccct cctactcctc 781 181 ggatctcggc tcaccgcaac ctctgcctcc cggattcaag cgattctcct gcctcagcct 241 cccgagtagc taggattaca ggtgcccacc accatgccca gctaattttt tttttttttt 301 tttttttttg tattttcagt agatacaggg tttcaccatg ttggccttga actcctgacc 361 tcagatgatc cacctgcctc ggcctcccaa agtgctggga ttacaggcgc tgacgatgtg 421 cccggtctct ctctctctct ttctctctct ctttctttca tctcactgtg ttgccccagg 481 ctgatcttga actcctgggc tcaagtgatc cactcacctc tgcctcccca gtagctggga 541 tcacaggcat gcaccaccat gccctgctag tttttatagt ttttgtagag acaacggctt 601 gctatgttgt ccaggctggt cttgaactcc caggcttaag tgatcctccc acctcagcct 661 cccaaagtgc tgggattaca ggcgtgaacg tccgtgccag ccaaactgtc catatttgac 721 ctgaatatta tctcacgtat ctttctttcc ccccgcttcc ctccttccct cctactcctc 781 cttctccctc tccttccttc tgtctttttt ttccccttcc tctgcctctc tctcctcttc 841 ccttttttct tgctgggact caaacctggg acatttgacc tgggagccta tttgctcaat 901 catcaagaga cataatctca tggtggggtg tctgctggta agtgccgggt ggcaggatcc 961 caactccagg ccgtccttct aacccaagag gccctgcctc tgcctagagc cttccgtggc1021 tccccagggc cctctgtgat cggccatagt ggtatgattc agtgtgcagt aacagtggtt1081 cacatcttga cgctaccact cacctccttc agccctgtgg gaacttgctg cttaacatct1141 ctagttctca cccaattctc ttacctgaga aatggagata ataataacac ggacttcacc1201 cgggtgtggg gagcaccagg agaggccatg cgtgtaatgt tatccgggtg gcaagcccat1261 atttaggtct atgaaaatag aagctgtcag tggctctact ttcagaagaa agtgtctctc1321 ttcctgctta aacctctgtc tctgacggtc cctgccaatc gctctggtcg accccaacac1381 actaggagga cagacacagg ctccaaactc cactaagtga gtacgtatct ggtgtgttgg1441 gggttggccc atgggcagtg gagatcaaag cgcccttgga agaaacgacc ttgggctgag1501 cctcaaggga tgaccagcaggaggtcacaa ccagagaagg gaggtggtgg gtggtgaggg1561 ggcgggggtg ggggccgcag tgtggacaga atctcgaggc attcgagtcc ctgatttggg1621 gaagtgaaag caggccatct ggtctgagat gagcttggtg agtgcgctgg gccgatcata1681 gagggccctg gggagccatg gaagactcta ggcagaggca ggacctcttg ggttagaagg1741 acggcctgga gttgggatcc tgccacccag cacttaccag tagacacccc accatgagat1801 tatgtctcca gatgattgag caaatgggct cccagctcaa gggtcccggg tttgagtcca1861 gtcccaccac tgcgtgatgg ggacaaatga cttaccctct tggaacctca gttccactga1921 gagaggcccc acagaatgag gacagtcccc cagcatcctg ccagtaggtt tactgagcac1981 ctactgtgtg ctggtgcttt gaatactccc aatttacaga tgagcaaact gagctgctca2041 tccagggaga agccaggact cggactcagg tctgtccagc tgcctccctg gacagttcca2101 gtcccaggat ggtctctggg ttcctctcac aatgtcaaaa gggccagctt gagctgccgc2161 taatcagagc ctggccgcgc cacaccccac ctccctgagg ctccgagaga agggacttac2221 ctatagtcaa gcagcgaaag aaggtagccc gtgacctcca ggcctgaagg accccaagtc2281 ccatgctcct cagcacatag tagatgcttt aaagtcagag gacttggtcg ggcgcaggca2341 cgcctgtaat cctagcactt tgggaggctg aggagggcag atcacctgtg gtcaggagtt2401 cgagaccagc ctgatcaata tggtgaaacc ctgtctctac taaaatacaa aaattagcca2461 ggtgtggtgg tgggtgcctg tagtcccagc tacttgggag gctaagacag gagaatcgct2521 tgaacccggg aggtggaggt tgcagtgagc caagatggtg ccattgcact ctagcctggg2581 tgacagagcg agactccatc tcaaaaaata aaaaaatagg ccatgcacag gctcacgcct2641 gtaatcccag cactttggga ggccgaggcg ggcggatcat gaggtcagga gtttgagact2701 agcctggcca acatagtgaa aacccgtctc tactaaaaat acaaaaatta tctggtcatg2761 27 2761 gtggcacgtg actatagtcc cagctactcg ggaggctgag gcgggagaat cgcttgaacc2821 caggaggtgg aggtggcagt gagccgagat cgtgcccctg cactccagcc tgggcaacag2881 agcgagactc catttcaata aataaataaa taaataaagt cagagcactt tacagatgcc2941 ctggggacat tggcagagga gaaggctgag gcctgggtta tgggctctta gcatttctca3001 gtgggacgtg gcacagagta gatgtttcat aaatgtttag aatctgaaga cccactgtgc3061 gcagcccggc accaaaaacc tcaggtatgc tgtgatctca ttggatcc (2) SEQ ID NO: 2870 data: (i) sequence characteristics:

(A) length: 1503 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2870 sequence description: 1 ctcctgctta aacctctgtc tctgacggtc cctgccaatc gctctggtcg accccaacac 61 actaggagga cagacacagg ctccaaactc cactaagtga ccagagctgt gattgtgccc 121 gctgagtgga ctgcgttgtc agggagtgag tgctccatca tcgggagaat ccaagcagga 181 721 agggcaccaa gcagtgggtc cacgcccggt atgcctgtga cgacatggaa gggcagctgg 781 181 ccgccatgga ggaaggtcaa tattcagaga tcgaggagct tcccaggagg cggtgttgca 241 ggcgtgggac tcagatcgtg ctgctggggc tggtgaccgc cgctctgtgg gctgggctgc 301 tgactctgct tctcctgtgg cactgggaca ccacacagag tctaaaacag ctggaagaga 361 gggctgcccg gaacgtctct caagtttcca agaacttgga aagccaccac ggtgaccaga 421 tggcgcagaa atcccagtcc acgcagattt cacaggaact ggaggaactt cgagctgaac 481 agcagagatt gaaatctcag gacttggagc tgtcctggaa cctgaacggg cttcaagcag 541 atctgagcag cttcaagtcc caggaattga acgagaggaa cgaagcttca gatttgctgg 601 aaagactccg ggaggaggtg acaaagctaa ggatggagtt gcaggtgtcc agcggctttg 661 tgtgcaacac gtgccctgaa aagtggatca atttccaacg gaagtgctac tacttcggca 721 agggcaccaa gcagtgggtc cacgcccggt atgcctgtga cgacatggaa gggcagctgg 781 tcagcatcca cagcccggag gagcaggact tcctgaccaa gcatgccagc cacaccggct 841 cctggattgg ccttcggaac ttggacctga agggagagtt tatctgggtg gatgggagcc 901 atgtggacta cagcaactgg gctccagggg agcccaccag ccggagccag ggcgaggact 961 gcgtgatgat gcggggctcc ggtcgctgga acgacgcctt ctgcgaccgt aagctgggcg1021 cctgggtgtg cgaccggctg gccacatgca cgccgccagc cagcgaaggt tccgcggagt1081 ccatgggacc tgattcaaga ccagaccctg acggccgcct gcccaccccc tctgcccctc1141 tccactcttg agcatggata cagccaggcc cagagcaaga ccctgaagac ccccaaccac1201 ggcctaaaag cctctttgtg gctgaaaggt ccctgtgaca ttttctgcca cccaaacgga1261 ggcagctgac acatctcccg ctcctctatg gcccctgcct tcccaggagt acaccccaac1321 agcaccctct ccagatggga gtgcccccaa cagcaccctc tccagatgag agtacacccc1381 aacagcaccc tctccagatg cagccccatc tcctcagcac cccaggacct gagtatcccc1441 agctcaggtg gtgagtcctc ctgtccagcc tgcatcaata aaatggggca gtgatggcct1501 ccc (2) SEQ ID NO: 2871 data: (i) sequence characteristics:

(A) length: 1530 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2871 sequence description: 1 agtggctcta ctttcagaag aaagtgtctc tcttcctgct taaacctctg tctctgacgg 61 tccctgccaa tcgctctggt cgaccccaac acactaggag gacagacaca ggctccaaac121 tccactaacc agagctgtga ttgtgcccgc tgagtggact gcgttgtcag ggagtgagtg181 721 ttccaacgga agtgctacta cttcggcaag ggcaccaagc agtgggtcca cgcccggtat 781 181 ctccatcatc gggagaatcc aagcaggacc gccatggagg aaggtcaata ttcagagatc241 gaggagcttc ccaggaggcg gtgttgcagg cgtgggactc agatcgtgct gctggggctg301 gtgaccgccg ctctgtgggc tgggctgctg actctgcttc tcctgtggca ctgggacacc 361 acacagagtc taaaacagct ggaagagagg gctgcccgga acgtctctca agtttccaag 421 aacttggaaa gccaccacgg tgaccagatg gcgcagaaat cccagtccac gcagatttca 481 caggaactgg aggaacttcg agctgaacag cagagattga aatctcagga cttggagctg 541 tcctggaacc tgaacgggct tcaagcagat ctgagcagct tcaagtccca ggaattgaac 601 gagaggaacg aagcttcaga tttgctggaa agactccggg aggaggtgac aaagctaagg 661 atggagttgc aggtgtccag cggctttgtg tgcaacacgt gccctgaaaa gtggatcaat 721 ttccaacgga agtgctacta cttcggcaag ggcaccaagc agtgggtcca cgcccggtat 781 gcctgtgacg acatggaagg gcagctggtc agcatccaca gcccggagga gcaggacttc 841 ctgaccaagc atgccagcca caccggctcc tggattggcc ttcggaactt ggacctgaag 901 ggagagttta tctgggtgga tgggagccat gtggactaca gcaactgggc tccaggggag 961 cccaccagcc ggagccaggg cgaggactgc gtgatgatgc ggggctccgg tcgctggaac1021 gacgccttct gcgaccgtaa gctgggcgcc tgggtgtgcg accggctggc cacatgcacg1081 ccgccagcca gcgaaggttc cgcggagtcc atgggacctg attcaagacc agaccctgac1141 ggccgcctgc ccaccccctc tgcccctctc cactcttgag catggataca gccaggccca1201 gagcaagacc ctgaagaccc ccaaccacgg cctaaaagcc tctttgtggc tgaaaggtcc1261 ctgtgacatt ttctgccacc caaacggagg cagctgacac atctcccgct cctctatggc1321 ccctgccttc ccaggagtac accccaacag caccctctcc agatgggagt gcccccaaca1381 gcaccctctc cagatgagag tacaccccaacagcaccctc tccagatgca gccccatctc1441 ctcagcaccc caggacctga gtatccccag ctcaggtggt gagtcctcct gtccagcctg1501 catcaataaa atggggcagt gatggcctcc (2) SEQ ID NO: 2872 data: (i) sequence characteristics:

(A) length: 6532 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2872 description of the sequence: 1 ccatggagga aggtcaatat tcaggtagga ggactctctg gttctaacgt tggcagaagc 61 aatgaccctt agctactcct ttcacccaga agagaagcgg ggcttcccag tccctctctg121 ggaaagaggg tgaatttcta agaaagggac tggtgtgagt aaggaggtga ggccgcactg181 actttcctgg cacagagcca ggaaggagtg gaaaattgag ggcccctcct ttttctgatt241 caacaccctc ctgacaaaaa aagaaaaaga aaaaaaaaaa cggcttcagc tagggagcgg301 ggacgcaata gagtcagagg ccaaatagaa caggaacttg gaacaagcag aatttagcat361 aatgaatcct ccaagccagg gtgagtgcag a392 aagcttggga ataagtccag ctgggccatg ttgtgaggac atggggatga agtcttagtt 452 ccaggatggg gctgggatgg agtttggtgt ttcttttctg tttttctttc ttttttcttt 512 tctttttttt ttttgtgaga cagagtttag cttttgttgc ccaggctgga atgcaatggc 572 ggatctcggc tcaccgcaac ctctgcctcc cggattcaag cgattctcct gcctcagcct 632 cccgagtagc taggattaca ggtgcccacc accatgccca gctaattttt tttttttttt 301 tttttttttg tattttcagt agatacaggg tttcaccatg ttggccttga actcctgacc 361 tcagatgatc cacctgcctc ggcctcccaa agtgctggga ttacaggcgc tgacgatgtg 421 cccggtctct ctctctctct ttctctctct ctttctttca tctcactgtg ttgccccagg 481 ctgatcttga actcctgggc tcaagtgatc cactcacctc tgcctcccca gtagctggga 541 tcacaggcat gcaccaccat gccctgctag tttttatagt ttttgtagag acaacggctt 601 gctatgttgt ccaggctggt cttgaactcc caggcttaag tgatcctccc acctcagcct 661 cccaaagtgc tgggattaca ggcgtgaacg tccgtgccag ccaaactgtc catatttgac 721 8284 721 ctgaatatta tctcacgtat ctttctttcc ccccgcttcc ctccttccct cctactcctc 781 cttctccctc tccttccttc tgtctttttt ttccccttcc tctgcctctc tctcctcttc 841 ccttttttct tgctgggact caaacctggg acatttgacc tgggagccta tttgctcaat 901 catcaagaga cataatctca tggtggggtg tctgctggta agtgccgggt ggcaggatcc 961 caactccagg ccgtccttct aacccaagag gccctgcctc tgcctagagc cttccgtggc1021 tccccagggc cctctgtgat cggccatagt ggtatgattc agtgtgcagt aacagtggtt1081 cacatcttga cgctaccact cacctccttc agccctgtgg gaacttgctg cttaacatct1141 ctagttctca cccaattctc ttacctgaga aatggagata ataataacac ggacttcacc1201 cgggtgtggg gagcaccagg agaggccatg cgtgtaatgt tatccgggtg gcaagcccat1261 atttaggtct atgaaaatag aagctgtcag tggctctact ttcagaagaa agtgtctctc1321 ttcctgctta aacctctgtc tctgacggtc cctgccaatc gctctggtcg accccaacac1381 actaggagga cagacacagg ctccaaactc cactaagtga gtacgtatct ggtgtgttgg1441 gggttggccc atgggcagtg gagatcaaag cgcccttgga agaaacgacc ttgggctgag1501 cctcaaggga tgaccagcag gaggtcacaa ccagagaagg gaggtggtgg gtggtgaggg1561 ggcgggggtg ggggccgcag tgtggacaga atctcgaggc attcgagtcc ctgatttggg1621 gaagtgaaag caggccatct ggtctgagat gagcttggtg agtgcgctgg gccgatcata1681 gagggccctg gggagccatg gaagactcta ggcagaggca ggacctcttg ggttagaagg1741 acggcctgga gttgggatcc tgccacccag cacttaccag tagacacccc accatgagat1801 tatgtctcca gatgattgag caaatgggct cccagctcaa gggtcccggg tttgagtcca1861 gtcccaccac tgcgtgatgg ggacaaatga cttaccctct tggaacctca gttccactga1921 192 1921 gagaggcccc acagaatgag gacagtcccc cagcatcctg ccagtaggtt tactgagcac1981 ctactgtgtg ctggtgcttt gaatactccc aatttacaga tgagcaaact gagctgctca2041 tccagggaga agccaggact cggactcagg tctgtccagc tgcctccctg gacagttcca2101 gtcccaggat ggtctctggg ttcctctcac aatgtcaaaa gggccagctt gagctgccgc2161 taatcagagc ctggccgcgc cacaccccac ctccctgagg ctccgagaga agggacttac2221 ctatagtcaa gcagcgaaag aaggtagccc gtgacctcca ggcctgaagg accccaagtc2281 22 2281 ccatgctcct cagcacatag tagatgcttt aaagtcagag gacttggtcg ggcgcaggca2341 cgcctgtaat cctagcactt tgggaggctg aggagggcag atcacctgtg gtcaggagtt2401 cgagaccagc ctgatcaata tggtgaaacc ctgtctctac taaaatacaa aaattagcca2461 ggtgtggtgg tgggtgcctg tagtcccagc tacttgggag gctaagacag gagaatcgct2521 tgaacccggg aggtggaggt tgcagtgagc caagatggtg ccattgcact ctagcctggg2581 tgacagagcg agactccatc tcaaaaaata aaaaaatagg ccatgcacag gctcacgcct2641 gtaatcccag cactttggga ggccgaggcg ggcggatcat gaggtcagga gtttgagact2701 agcctggcca acatagtgaa aacccgtctc tactaaaaat acaaaaatta tctggtcatg2761 gtggcacgtg actatagtcc cagctactcg ggaggctgag gcgggagaat cgcttgaacc2821 caggaggtgg aggtggcagt gagccgagat cgtgcccctg cactccagcc tgggcaacag2881 agcgagactc catttcaata aataaataaa taaataaagt cagagcactt tacagatgcc2941 29 2941 ctggggacat tggcagagga gaaggctgag gcctgggtta tgggctctta gcatttctca3001 gtgggacgtg gcacagagta gatgtttcat aaatgtttag aatctgaaga cccactgtgc3061 gcagcccggc accaaaaacc tcaggtatgc tgtgatctca ttggatcc 1 ctcctgctta aacctctgtc tctgacggtc cctgccaatc gctctggtcg accccaacac 61 actaggagga cagacacagg ctccaaactc cactaagtga ccagagctgt gattgtgccc 121 gctgagtgga ctgcgttgtc agggagtgag tgctccatca tcgggagaat ccaagcagga 181 ccgccatgga ggaaggtcaa tattcagaga tcgaggagct tcccaggagg cggtgttgca 241 ggcgtgggac tcagatcgtg ctgctggggc tggtgaccgc cgctctgtgg gctgggctgc 301 tgactctgct tctcctgtgg cactgggaca ccacacagag tctaaaacag ctggaagaga 361 gggctgcccg gaacgtctct caagtttcca agaacttgga aagccaccac ggtgaccaga 421 tggcgcagaa atcccagtcc acgcagattt cacaggaact ggaggaactt cgagctgaac 481 agcagagatt gaaatctcag gacttggagc tgtcctggaa cctgaacggg cttcaagcag 541 atctgagcag cttcaagtcc caggaattga acgagaggaa cgaagcttca gatttgctgg 601 aaagactccg ggaggaggtg acaaagctaa ggatggagtt gcaggtgtcc agcggctttg 661 tgtgcaacac gtgccctgaa aagtggatca atttccaacg gaagtgctac tacttcggca 721 agggcaccaa gcagtgggtc cacgcccggt atgcctgtga cgacatggaa gggcagctgg 781 tcagcatcca cagcccggag gagcaggact tcctgaccaa gcatgccagc cacaccggct 841 cctggattgg ccttcggaac ttggacctga agggagagtt tatctgggtg gatgggagcc 901 atgtggacta cagcaactgg gctccagggg agcccaccag ccggagccag ggcgaggact 961 gcgtgatgat gcggggctcc ggtcgctgga acgacgcctt ctgcgaccgt aagctgggcg1021 cctgggtgtg cgaccggctg gccacatgca cgccgccagc cagcgaaggt tccgcggagt1081 ccatgggacc tgattcaaga ccagaccctg acggccgcct gcccaccccc tctgcccctc1141 tccactcttg agcatggata cagccaggcc cagagcaaga ccctgaagac ccccaaccac1201 ggcctaaaag cctctttgtg gctgaaaggt ccctgtgaca ttttctgcca cccaaacgga1261 ggcagctgac acatctcccg ctcctctatg gcccctgcct tcccaggagt acaccccaac1321 agcaccctct ccagatggga gtgcccccaa cagcaccctc tccagatgag agtacacccc1381 aacagcaccc tctccagatg cagccccatc tcctcagcac cccaggacct gagtatcccc1441 agctcaggtg gtgagtcctc ctgtccagcc tgcatcaata aaatggggca gtgatggcct1501 ccc1 agtggctcta ctttcagaag aaagtgtctc tcttcctgct taaacctctg tctctgacgg 61 tccctgccaa tcgctctggt cgaccccaac acactaggag gacagacaca ggctccaaac5123 51 5123 tccactaacc agagctgtga ttgtgcccgc tgagtggact gcgttgtcag ggagtgagtg5183 ctccatcatc gggagaatcc aagcaggacc gccatggagg aaggtcaata ttcagagatc5243 gaggagcttc ccaggaggcg gtgttgcagg cgtgggactc agatcgtgct gctggggctg5303 gtgaccgccg ctctgtgggc tgggctgctg actctgcttc tcctgtggca ctgggacacc5363 acacagagtc taaaacagct ggaagagagg gctgcccgga acgtctctca agtttccaag5423 aacttggaaa gccaccacgg tgaccagatg gcgcagaaat cccagtccac gcagatttca5483 caggaactgg aggaacttcg agctgaacag cagagattga aatctcagga cttggagctg5543 tcctggaacc tgaacgggct tcaagcagat ctgagcagct tcaagtccca ggaattgaac5603 gagaggaacg aagcttcaga tttgctggaa agactccggg aggaggtgac aaagctaagg5663 atggagttgc aggtgtccag cggctttgtg tgcaacacgt gccctgaaaa gtggatcaat5723 ttccaacgga agtgctacta cttcggcaag ggcaccaagc agtgggtcca cgcccggtat5783 gcctgtgacg acatggaagg gcagctggtc agcatccaca gcccggagga gcaggacttc5843 ctgaccaagc atgccagcca caccggctcc tggattggcc ttcggaactt ggacctgaag5903 ggagagttta tctgggtgga tgggagccat gtggactaca gcaactgggc tccaggggag5963 cccaccagcc ggagccaggg cgaggactgc gtgatgatgc ggggctccgg tcgctggaac6023 gacgccttct gcgaccgtaa gctgggcgcc tgggtgtgcg accggctggc cacatgcacg6083 ccgccagcca gcgaaggttc cgcggagtcc atgggacctg attcaagacc agaccctgac6143 ggccgcctgc ccaccccctc tgcccctctc cactcttgag catggataca gccaggccca6203 gagcaagacc ctgaagaccc ccaaccacgg cctaaaagcc tctttgtggc tgaaaggtcc6263 ctgtgacatt ttctgccacc caaacggagg cagctgacac atctcccgct cctctatggc6323 ccctgccttc ccaggagtac accccaacag caccctctcc agatgggagt gcccccaaca ggccgcctgc ccaccccctc tgcccctctc cactcttgag catggataca gccaggccca gcaccctctc cagatgagag tacaccccaa cagcaccctc tccagatgca gccccatctc6443 ctcagcaccc caggacctgagtatccccag ctcaggtggt gagtcctcct gtccagcctg6503 catcaataaa atggggcagt gatggcctcc (2) SEQ ID NO: 2873 materials: (i) sequence characteristics:

(A) length: 825 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2873 sequence description: 1 gtaagtatct tccctctgtg gctaggaaga caaggaatac atttttaaat gtctcctaaa 61 gcaaggacct gaaaccagct ctatgggatt attcttgttc ctctttggtc aatgcagaga121 catgggaaga accaccaaag gtcatgaggg tctcttccag ggatccctgg acattgcctt181 tcccagtggt gtgacaagag ttagaggtgg cctaccttgc ctcctgtcct aggaggcgac241 agtaggagag ccttcggttt tctcatcctc ttacttgtat gttgaacttt acttaatgca301 ggctatatcc aaaatacagt gtgaattagg ctagaataga aatgctttct attctacctt361 cagaaaagga aaagggtagg gtaggggaaa tcatgggaga gattaaaggc agagaggaaa421 cccagatggg actgtttaat ccccaagcaa gaaaccacta ggaaagagag ataccttccc481 tctaactttt gtattcggtg cactgacatt gctctctgtg ctggtgggaa attgatttct541 gtgccaggat gttctaggct gaggccaaga gggtgctggc cctttaccca gtggaagaaa601 aaggcaaggg tgaggctttg tagactttcc cattcggagg taatgatgcc tccttcagcc661 ccacttcttc aaactgactc cacctgctcc catctccaca cccctccgtt tctcatttag721 ccaaagcaca tcatccttgc agcccaccac tcagcttggc caggtgcgag acatctttcc781 ccacttcata cctcccctcc ggccaggtga tgtttgcctc ctcag (2) SEQ ID NO: 2874 data: (i) sequence characteristics:

(A) length: 32351 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2874 sequence description: 1 gatcacctga agtcaggagt tcgagaccag cctgaccaacatggagaaac cccgtctcta 61 ctaaaaatac aaaattagtt gggcatggtc gtgcatgcct gtaatcccag ctactcagga121 ggctgaggca ggagtatcac ttgaacccag gagacggagg ttgcggtgag ccaagaacat181 4201 attttattct ctacctccat gagatcaaat tttttacctc ccatatcgtt gtcaatatta4261 181 gccattgcac tccagccttg gcaacaagag caaaactccg tctcaaagaa aaaaaaaatt241 tttttttgtc aacccatgtg ggtatgaaat tgtttctcat tatttgcatt tcactaatta3781 agctgtgatc gcatcactat acttcagcct ggttgacgag tgagaccctg tctcaacaaa3841 taaaaataaa aataaaaata aaaatgccta acttggtgct tggcactttc taaaattgac3901 acataatatt tgtacctgtt tatggagtat atgtgatatt ttgatacatg catacaatgt3961 gtgtaatgat caaatcagga tatttaagat atccatcatc tcaaacattt ttctttgtgt4021 tcagaacatt ccaaatctag ctattttgaa atatacaata aattattaac tatagtcatc4081 ctaatgtgct attgaatatt attgaattcc atctaattat atgtttgtac caattaacca4141 atctctactt attcctcacc cccagctccc accaaccctt tccagtctct ggtaactatc4201 attttattct ctacctccat gagatcaaat tttttacctc ccatatcgtt gtcaatatta4261 ttatttttcc caccctggct cctaatgaag gatttattga caatatcact ggaatctaaa4321 tcctctaggc cattttttca ccaatgccct tattttctta gggctttttt ttttcttaaa4381 tcaacagttt taatgagata taattcccat tctataaaat ttcctcgttt gaagtgtaca4441 gtttaatagc ttttagtata tccacagaag tgtgcaacca tcaccataat aaattttaaa4501 acattttcag cagggcgcag tggctcacgc ctgtaatccc agctactcag gaggctgagg4561 caggagaatt gcttgaaccc aggaggcaga ggtttcagtg agccgagatt gcaccactgc4621 aatccagcct gggccacaga gtgagactcc atctcaaaac aaaacaaaac aaagcaaaat4681 aaaacaaagc aaaataaaac aaaaccaaaa cccaacaatt ttgaacattt tcatcttacc4741 accctgccaaaaatccctgt tctccttagc catcaatctt cagctcccta cccacttcta4801 accatgaatc tattttgtag atttgtctat tctcgatatt tcatatgaat gaaataatat4861 aatatatggt tccttgtgac tagtttcttt cacttagtat gtttccaagt tcatccatgt4921 tttggtatgt atcagtactt cattcctttt tatcatggaa taatattctg ttgtattgat 496 4981 atactacgtt tcattcattc atctgaacat ttggattatt tccatttttg tctattataa5041 taattctgct atgaacaccc atgtatacgt ttttgtgtgg acatgatttc attttccttg5101 gatatacacc tagcagtaga attgttgagt cataaagaac tctaggttta gctttctggg5161 gagcttccag attattttcc aaaatggctg tgccatttta cattcccacc agtaaagtat5221 gagggttcta atttttccct gtcttcacca atacttgttg ttatctatct tttttattat5281 agtcatcata gtctgtatga agtgatttct cactgtagtt ttttcagtag taattaaaaa5341 atttcctacc tattttagcc taaaattact ttcctgactc tcttcaagga gcctgccaga5401 gaattctctc tctcgtgctg tctcccttat gcctgggcat aagctctgat aatgccctgt5461 ctgggaaaac tcttttggcc ttctcaattt ctattacatt gagagcccaa gaacccatgg5521 tcagtaacag gccaatgaga agcctcctgc attagtctag gtgaaggata atggtggctt5581 ggaccggaat agggtggtag tcatggaaat ggggagaatt tgacagacta gatttatttt5641 ggaaatagaa ctgaatctga acagattgaa ttgggcaggg agcagggaaa gtgaagggga5701 aggaagacac caggtttatg ccttcagcat ttgggtggat gaatggatgg atgaaaggat5761 agatggatgc atggatggtg gttggatgga tgagtggttg gatgaatgga cggtcaaggg5821 gtgaatagat gggtggatgg aaaatggaga gatgatgaac tgagatgggg aagactagaa5881 gtggggcata tttttgggga aagacagttt tgcaatacgt taagtttgag gtgcctcaga5941 gtcataagag aggatttgtc agaaaggcag ttggatataa gattttgaag ctcaaaagac6001 agggagggcc tgatggtatg tttaaaccta tacggatatc acataggtaa catttcaagc6061 ctaagaaatg ggccgggcgc agtggctcac acctgtaatc ccagcacttt ggaaggctga 618621 ggcgggtgga tcacttgagg tcaggagttc gagacaaacc cagccaacat ggtgaaaccc6181 catctctgct aaaaacacaa aaattagtgg ggcatggtgg cacatacctg taggcccagc tactcaggag gttgaggtgg gagaattgct tgaacccggg aggcagaggt tgcagtgagc6301 caagattgcg ccactgcact ccagcctggg cgacagagca agactccgtc taaacaaaac6361 aaaacaaaaa aagccttaga aatgggcaat gccaccaaag cagaaagatg aaaggagggc6421 aatgccctga ggtgtgccag cattggagga aacaaacagc cagagatgta ggaggaaagc6481 ccagagaaac tgtgagctgc aaggatgaag tagtaacaaa taaaatgcca ccaagagaac6541 cagaaggacg actggaaaca aataaacaag aaagactatt gcatttagca acgtgaaaac6601 gttggattac tttttactca gaaatcaaac cccaaggata gtgtttcccc tccctacggg6661 gtttctgcag gtccctttac acgccccctt ctacttcttt aagtgctaaa agtgattaat6721 ttggggtgat gttttaattt ctattctttt tggcttataa ctgtgttttt tcattctttg6781 caacaacaga tagtatgttg taatagaaaa atccattgtg gtcaatgata acttctgcct6841 gttcctgggc acagggggca tcactattag tgcctgttcc tccctcccta ctgctgataa6901 ggaaacaggg gcaggaataa tactaataat ttgtgctact ttttctgcat acccttggcc6961 69661 6961 ttattctggt ctactgagct gggagcttgt ctgaggctgg agctctattg tctgaatcca7021 ggggcagaaa gaactgaggg ctcttttacg gcatccacct ggaggctgcc tgcaggcttg7081 ggttgctaag tgcactgctt aatttagaag cgccttttat cctggctctc ttgaccagtc7141 aaagttgtgg tcgctgtttt ctacaaggac tggggaaaga aagggtggaa ttaattaaac7201 ctggaggaag ggactttgaa gggcggagct aaggtcaaag aaagaaccct ttaaataaag 301 ctagtgaggt caaacatttt ttccctcatt tcttatccat taaagtttat tctgtgaatt 361 gccagttcat ggccattttg ggggtgtagt ttttcttact gatttattga agtttaatgt 421 ttttctggaa actaatattt tgctagttgt gtgaattgta aatatcttct cccactgtat 481 ttttttaaaa actttttatt gtctgaatta gcacatattt agtgaatgcc tctatgtgca 541 attctttttt tttttttttt tttttttttg agatggagtt tcgctcttgt ttcccagact 601 ggagtgcagt ggcatgatct aagctcactg caaccttcac ctcccgggtt caagtgattc 661 tcctgcctca ggcctcctga gtagctggga ttacaggtgc ccgctaccat gaccagctaa 721 ttttttgtat ttttagtaga gacggggttt catcatgttg gccaggttgg tctcgaactc 781 ctgacctcag gtgatccacc cgcctcggcc ttccaaagtg tagggattac aggcatgagc 841 cagtgagctc agcctctatg tgcaattctt aatgtcaagc tgagggagaa gtctaagaag 901 ttttatataa gtctgacacc cagggtgcct gtaattaaag gtggaatgaa attttaattt 961 gcgagttgat ccttctgttt tttagttcag tacttcctcc tttttagaat gtatgctttc1021 cagataatta gtgagataaa gatttgattt tcacttttag catttctaaa agctgtaata1081 tgctacctaa cttgttttta attcttgctc taacttctga tattttatag ttgtgtattt1141 tgaattatat tttaaaggat taagtggatt attgcacatg atatttagta aagtgtttgg gagcatttag cacagcctcc aaaaattaga attccactag ccccctgatc ctacatatct1261 ggcatcttaa gagtcaataa tagcaaagtt gagagaggca gcttggtgtg gtggaaagaa1321 catgggtatt ggatccgata gccttaggtt caaatcctgg cttcttcagt aattatcttc1381 tgtaatttta gccaagtgtt taatttcctt gagactcagt ttctcgaaga tgaagtagaa1441 aatggctttc accaggttgt tgtaaagact gaatcaaata gtgtgcatga aaattgcaag1501 gcatagtgct caggacatag ttaacattct taaatatatg ttgaggaatg gtgtgcacct1561 gaaaattcct ataaaagctg caaatataca tgccttttga tccagctgtt ccacttcagg1621 atatccttac tcatgtgtgc aaagcaattt tttgtagaaa tgtttgtaat agcaaaagac1681 tggaaacaac tgaaatgtac actgctaggg aactgattac tctctggtat gtccacgcaa1741 6951 1802 180 attgtactgt acttatccct tttgtgttta acaaaagaaa gaaaaggaga aaaattagaa1861 tatagtatat atttgccttt atgtgcaaaa aaaggaaatc actttttgtt ttttttgaga1921 cagggtctca ttctgtcacc caggctgggg tgcagtggcg ctatcacggc tcactgcaac1981 ctcaacctcc caggctcaag cgatcctccc gccacagcct cccaagtagc tgggactaca2041 ggcacacgcg ccatgcccag ctaatttatt tatttatttt tggtagagat ggggtttcgc2101 gatgttaccc aggctggtct caaactcctg agttcaggtg atccacctgt cttggcctcc2161 caaagtgctc tgggattaca ggcatgagcc actgtgcctg acctcttttc ttcttgatgt2221 gaaattcttc atagattaga caaatttgcc cattgtgcaa atatgttgca aatatatttt2281 ctcagtttgt catttatctt gatttttctt atggttttaa aaaaatgtga ttggatttat2341 ggtttctggc attgaaccat agttataaat gtattcttta ctctgaggtt gtccagggaa2401 2429 2461 gatatacaaa aatagcatat atttactact atttgatgag tttggacatg tgtacacacc2521 catgaagcca tcagttaacc tgatggtggt gatggtttcc tgtaatttta tgcttccatt2581 tttcacattt agatctgact tttctggaat ttatctaagt gcacgatgtg aaagatagat2641 acagcttatt tttctttcca gatggctata ccttgttcta ggacaattta ttaaatagtc2701 catctttttc tttctgatct gagatgctat ctttattata tgctaaattt ctgtacatgt2761 ttaaatttat ttgctccttt tgtttgtctc tttgtacacc agtatctacc tcattgttct2821 aattattcga gcttcaggat acattttaat acttctgggt aggaacagaa ccttctcgtt2881 actcttacaa aattttcttc tttattctgg tttatttttc ctaagaactt taaaagttgg2941 cactgaattc caaaatagaa cacccaaaaa cctgttgatt tttccactgg gattatgtta3001 aattttcggg ttaacttagg ggaaaaccat tatttcatga tgttaaatct tactccatga gagagcatgg tacgtctttt catctgtaca ggtctttttt tatattgttc agtagcaatt3121 3181 agttgaaaac tataaaaagg aaccaaataa aaattctttt tttgccccca taaggcagaa3241 gaaatacaaa ttctacaact gaaaaaatat aatatctgat attaagaaat caataaatgg3301 tttattatat tagctacatt tgaagagaca actaaaaaag aaaaatattt tcaaaccaac3361 tcagaaacaa gaagatggaa aataaagaat acaatgctat ttatatttat atataatagt3421 atatataata cacaagttta acataggact gcatttgcag aatagaagag agataatggg3481 3541 3558 3601 catttgagcc caggagttca agaccaactt gggtaacatg gcgaaacccc atctctacag3661 aaaaactcca agaaataaaa aacaataatc atctgagtgt ggtagcacat gcctgcgtcc3721 ttgctactca ggaggtgggg gtggcagaat taccagggcc tggaagtcaa ggctgcaatg 7261 ggcccacact ggctgccagg gagtgcgcag gactggcaag agggaagccg ggctgctcca 7321 cgcctttcac gccttccacc tcctgcgtgt ccatctgtga gaaggagcca gagcccaagg 7381 gagatgatgg agcctgagga gtacagagag agaggtgagc aacgggcatc cctggccctc 7441 ttccctgctg ctactcctgc aggaacggct gctggtgggt ggcccttaga ttgtggggtg 7501 acatttgatg ggagcattag aattgccttc tgagagttgg caccagcaac attttttttt 7561 ctgcgaaagg aatgtgggat cagagtgtaa aacttttctc aaccactctt tcattctccc 7621 tctcatatac ccactctcac atatgtccac actaccgtgc cttgcttttc ctccccactt 7681 tcccacaaaa ttgaggattt ggatccctga gccactagat gggaaaaggg gattgttcat 7741 attctgaaat agaaaaaaat tttctcaata ttctgtaatc actgcaaatc ctttctttct 7801 taacattcat tccttcatgt gtgaatctat cagcagtgtt ctttcattta gtcattcatt 7861 tcataaatat ttagtaggtg cctactctgt atcaggcaaa accaagtggt tatccagttc 7921 tcaggcatgg atctccctta gcaggaaagt aggtagttgc ttaaaaaaga atcttgaatg 7981 tctatttcta taatgtttta tatcctccta ctcactaatt agtgtgcgtt agcttattcc 8041 attgctttcc taaggcactg tcagctgaga gcaagttcct gtggatattt atcttctgag 8101 tggaacacaa atacatttag cactgttcct ggatcagtgg agggttaggt ctagagctct 8161 cagatctctg gtggggccct gctggagaag aaccaggatg tgagagggtt gaaggggagc 8221 agaaggaaga tagaatggtg tggaaatcta cctttgtctc ataagttttg tctggggttg 8281 gttctgttct taagaacttt gcataagctg atgcagaggg gagaaactga gtcccctctc 8341 ctaggtaaaa gcagcccagg gagtactaag gaatggatgt tgagacagac aaagagatat 8401 gtacacacac acacatgcac acacagcaac agaggcactg aagactgcaa tctgaaagaa 8461 taaataattt gcaatagttt cagagtgttc aacttgactt ttttttcctt ccttactcat 8521 atgttcattc acttgataca ttttttttta gcatctaaaa aatatcctaa gcactgaggt 8581 gttgatggag gcagcaggag ggagagaaag tcattaagat ttggtgccac atttcccagg 8641 ccagggcagg gggcttggtc tggatccatg gttgtgcttt agggattctg tgagcctcag 8701 aaattataca caaagttctg tgtatatgta agcctacagt tttaatcaga ttcttgaatt 8761 aagtcctcat atgagtccaa aaaagatgaa taataactga ttcaatgggg atggtgaaaa 8821 aatagatttt tttgtccttt atcggaactg ggcatggaat ctttctatct gtgctaacag 8881 atataactgg tgggtgtgtg tgtaacaatt tttggataca aagagctata gagtttctat 8941 tgaacctata aaatagttaa tagatgttct gtttctgaga aggaaagaaa ggtaggagag 9001 acaatcaaaa ttgaagtgga taaaggaagg ggaaagaaaa tgaaacgttt cactttggcg 9061 ctagagtttt gtgctttgga gattttcctt tttgttcatt tgctcactta gaaactccct 9121 ccatcattca ttcactccct cactcttttt ttaaattctg aagataaggt cgtgcagggg 9181 atcagatcct accctcggcc catgaatctg tctctctctt ttttttgagt ccaggctgga 9241 gtgcagtggc acgatctcgg ctcactgcaa cctccgtctc ccaggttcaa gcgattctcc 9301 tgcctcagcc tcccaagtag ctgggattac atgcgcctgc caccacgccc ggctaatttt 9361 ttgtattttt agtagagagg ggtttgacca tgttagtcag gatggtcttg atctcctgac 9421 ctcgtgatcc gcctgcctca gcctcccaaa gtgctgggat tacaggcatg agccactgtg 9481 cccggccaaa tccatctcct tctttaccaa gtctcttggc ccggacctga gagggatggg 9541 cacaaatcgg tcaggcccag tcaggggatt tcagcctgat ttctctatgt cacttctagg 9601 gagagagatg gtggattaca tctgccagta cctgagcact gtgcgggaga gacgtgtgac 9661 gccagacgtg cagcctggct acctgcgagc ccagctgcct gagagtgctc ctgaggaccc 9721 cgacagctgg gacagcatct ttggggacat tgaacgaatc atcatgcctg gggtgagaca 9781 cagtgaccac aagggcagtt ctggatttca gggcacagaa gggtgggtgg tggcctggag 9841 aaagacctgc tttgggtcag cttgggatga gaatgcatcc ttcagccact tggccaccaa 9901 caccccagcc catctgctag gcatgtggag ggcaggactt tgactggtat taggtttctt 9961 tttctttttt tttgcccagt tgtgccatgg catgaggttt ctgatgccag ggcagggctg10021 gccagaacac ctgcattcca gagcacagcc tggcagaagt gtggaagtct aatgggatgg10081 gtggagaagt gaacattttg tctgagggga aaggacactg tgtatagtaa gacaggggag10141 aggaagctgg tggtagtgcc tggccctgac gacggagcca gagactcttc tgtacagtgt10201 ctgagaccac accaaagaga aggaaggaag tggggaacac atcctggcaa ggacacgctg10261 gtgaccaggt tgcgttggcc caggaaactg agtgggccct ggcaacccct cctgtcccct10321 ctgaggtctg gtgattgagc tgcttttcaa gagcaagaag ggactttccc tgaatcattg10381 103 10381 atactttcca tgatggaggg tgcagcctgg gatagtgctg gtggggccag gaagctgatg10441 gaagctggct gatgcatggg cttgagctgg agcctgcctt gatgggtggt ggacacccct10501 gaccactggc ggtgaggagc tctgccatgg tgctcatgct aaagtggcat cgactccctt10561 cctgtggcgg ggctccctgc catgtgccag ctctgtgctg gccacatgac atgctatcta10621 atttaatctt cccagtggcc ctgttttaca gatgaggaaa ctgctgatgc tcagagaagt10681 taactgtctt gcccaaagtc acagaattag tacctggtag atccaggatt ttaccctaga10741 ccagtcttac ttcacaggct gtgccgtttc tcctaccccc tgtcacctct actggtgggt10801 gcctgaatgt gcctggctaa gcctgggccc ctagcattgc ctgtctggct ccacaccccc10861 acacaagctg tgtcttccct ctccctgctt ggggcatttg tgttctgaac cacacatgtt10921 tagaggctct tcctgaggcc agcttgaggt ttgccttcat cattcccaaa gaacttttga10981 cttcaatgtg acaaaaaggc caggcgcggg ggctcacacc tgtaatccca gcactttggg11041 aggccaaggc aggtggatca cctgaggtcg ggagttcaag accagcctga ccaacatgga11101 gaaaccccgt ctctactaaa aatacaaaat tagctgggca tggtggcaca tgcctgtaat11161 cccagctact tgggaggctg aggtaggaga atcgcttgaa cccgggaggc ggaggttgcg11221 11284 11281 aaaaaaaaaa aaagtgacaa aaatatgcct agaggcaggg gtgggaaaat attcaaactc11341 agaaagtgat ggcaattttg actttttttt tttttttttt ttgaagcaat agagacaagg11401 tcttgctatg ttgcccaagc tggtctccaa ctcctgggct caagtgatcc tcctgcctcg11461 gccttccaaa gtgttgggat gagaggccta agccactacg cctggccatg agggcaattt11521 catacaaagc cactcatctc tttgaccatt cagcctattt cacaagcatt ttttgaaaat11581 gtcaatatca gtaaggcttt acggaggcta gatcctgata agattatctc ctggatttta11641 ttctgtaaaa tgtaatctgc tgaggggcta actgtaatct gggagtgaga ctgaaagcaa11701 ctgtcagaag aggtggaaat gagctgattc atttgatcaa gaggaattcc agcagttgct11761 gtgggtatgg tcggtgaggc tcatttctgg aaagaggtct gtttgttttt gataagggct11821 cttctggcta ttttatctta tttatcttac aagaacagac tattgtctct tgatagagct11881 11941 atggtcaaat ctctcaactc atctctcagg ccacaccagc ctctgagagc tggcctgaaa12001 gcagttggcc ctttgcttac tcattttgct cagtgcctca ttgaaaactg aattagtttt tctcttcctg ccaccaccta gaaaataaga gaagaagaaa aactctcttt cccctttaat12121 tccaaccctg gttagacaat cctcatttac ttttcatgag agagagagag catccccacg12181 ggaaaagtca ggacaccacc ctgctcgggt gtctgggctt ctgcctcatt gcggtcacct12241 gtccctatgg ggtatgtgtg accacaggga tgtggcctct ctctgtcagc cccagttctc 12358 123 agagaaggct tggagagcag gagatgtggt tattaccgat catgactctt acatggtgaa12421 aattggagga agaggtttga ttctctgagt caagtcagga tatgtgatgt gtctgtcacc12481 cacatgatta gtttaccgtt aatgttagag cttaacattt cacacatttc ttgcccacgc12541 ctccacccac acaacaaccc taggagacag gatttatttt acgatgagaa actgaggttg12601agggaggtgc aggagaggct cctggtctta tggggtctgt actgtaaaca ctttttgaga12661 cctccttttg aaaaacaaaa aagaaggagg ccggacacag tggtgcacgc ctgtaatccc12721 agcactttgg gaggctgagg cgggtggatc atgaggtcag gagttcgaga ctagcctggc12781 caacatagtg aaacactttc tctattaaaa atacaaaaaa ttagccaggc atggtggtgg12841 gcacctgtaa tcccagctac ttgggaggct gaggcaggag aatctcttga acctgggagc12901 caggggttgc actgagccaa gatggcgctg ctgcactcca gccctggtga cagtgcgaga12961 atctgtctca aaaaaaaaaa aaaaagaatg aatctcaaaa gagacccaca caaatggtat13021 gttggagctt aagttcatta gcttcatggt aaatctacac ggtcacacag ctggttaggg13081 actgaggtgg gatgggaact tgtgtccttg gacttaattc ttaggctcct tatactatac13141 acactgtcca ggacaaggtc cttgctcttg aaggactcta agtatgtgtg gacagtaaag13201 aacaggatga tgccctaaga tgttatcaaa tgagtcctca gtagagtgaa acatctagaa13261 13235 13261 ttctagagtt ctatcgctca gggaagggat cgaagggagc tgtgggagct gggggagagt13321 tcgaggagga aatgaatatt tagtagcttt ctaagaactg gcaggttttg gaaggtcatg13381 tctttataga gagtgccttt ctatcagggg acacagcatt gctcaaagac ataaatgcag13441 aaaggaacag ggcatgcttc agagcagtga gatgaggaga gatgagataa tccatgaggc13501 cgatgaacca ccagggctgc ttctgagttc tgatgggggg cccttcctgc ccactcagct13561 cctccttaca tccggttttg attgtgggct cagggcttag cctggaggtc ggcctcccat13621 acgcttggtc tgggctctcc tctctaccgt ctcctttcct cactacattc ccaatgtgat13681 gcttaaggac agctttgaac ccattcaccc agaccctctg agttgcatgc tcagggagct13741 cagtgctcca taaaacaaaa acaaaaggtg ccttttgcaa gaaactggat gaaacaagta13801 gtctgctttt ctggagctca cagtctgccc ttcctttttt ttttttgaga cggagtcttg13861 ctctgtcgcc caggctggag tgcagtggag cgatcttggc tcactgcaag ctcagcctcc13921 cgggttcaca tcattctcct gcctcagcct cctgagtagc tgggactaca ggcttctgcc13981 accccgcctg gctaattttt ttggtatttt tagtagagat ggggtttcac catgttagcc14041 aggatggtct caatctcttg atctcgtgat ccacctgcct cggcctccca aagtgctggg14101 attataggca tgagccaccg cacccggcct gcccttcctt ttattgctgg gcaggggcgg14161 catgaggggt aagtactggg gactaatgtg aataccaccc agaatcccac aactgggtta14221 ctgtagtgat tttccttttg catatttcct tctggacttt gcatatatga aaaggctcca14281 ctgatgatct agcataggac atgggccaca ttagtgacaa gaacaccagt gaacaagtct14341 gattttcatg gagttatgtc acttatttct gcttaaaagt gtcagcccat ctctagagtg14401 acacttcacc ttgccagaga tggtctctgg agaaagaaag cctgctggaa atgcctcctg14461 gtgccaactc tgtgcatgct ctgcctccag gtggtacatt ggcagagccc ccatatgcac14521 gcctactacc cagccctcac ctcttggccc tccctgctag gagacatgct ggctgatgcc 4681 atcaactgct tgggattcac ctgggtgagt agcaacggct gtaactactc gcaatgggga14641 acgtagcagg gagtggtatc ctagggcaga catattttgt cttggtttct gaatatggct14701 ccacaataaa tattaatgag ggctatattc tttaagctta cgctttattt taattttctc atcacatcct ttaaccctat ggaatcacga gtattgatcc cattttgtag gtgaagaaat14821 cgaggcttaa gcaacttatc tcccccagat cacacagctc atagagacac agataagact14881 tggatacaga tctggttatt gccacagttt gtgaccttac ctaagcaatt tgatgcctat14941 tgagtcacca cttcctctgt gctcttgtat ttgagtagct ggagatatgt cctaagactt15001 cccttaataa ccccttaagc accactcagc tttaaatggt gccaaaagcc ttccagaaca150 tctttttatt ttaagcctga actcctatgg gtgtgtgggt gggtgggcgg gggtattcat15121 atcttttcta ggaaaacatc cccctgggca tttgaggact tctcagctat gtattttagc15181 gacttggaga accaaatcca agccaaccat ttctagggct gtttctccat agagccttgg15241 agaattcgcc tcattgaggg cagcatgaat ccaaaacccc acattatttt ctcttttggt 8601 tgacagagag tggaccagga gagaggcacg tggcctaaca tgaccccttc tccagaaatg15361 ttcccattga caccatcagg ggcagacatg tttctggagc tcgtgggggc acctcagtgc15421 cctggggctg tgcagtttga agttcctttt cctttctcag gcatccagcc ctgcgtgtac 15527 15541 cttgcaccac caccccagca gccagggcgg aggcgtcctg caggtacctc ccttggcaaa15601 gcttcaccta gcttgggggc taagtagcga aagacaagcc aaaccctaac ctggcaattc15661 tcccgttctc catggagttt cccccacatt acccacaccg tcatcaccaa cagcaccatc15721 atcacagctt cacctctact cccacctcag cttctgcttc attcacatgt actgctactt15781 15841 tttcttagtc tataatctga caattccttt ttggtgtccc attttgtatc tcacggtaaa15901 aggggaaagg agaaggcaag gagaggactt ctctttctct ccctgctagg ttcaggagat15961 ccccttgcag tgagagcaat taacagcata aactgattaa cggtatcctc tgaccctatc16021 ttctggatac ttgtcaaatt atggttcttc aaatatttct ttttttcaag agtagtgcca16081 tggagtggag ctttctgggt gcctcccatg gaccacacac attgttaggt gcttttgcat16141 ctataaatcc ttgacgttca tgagggcttg gttctaagac ctttgagatt cctcagattc 1626301 28 16261 gcacattgag aggctgagac agatggatca cttagcccag gagttcaaac cagcctgggc16321 1632 16381 8216441 gctgcagtgg gctatgattg tgccactgcc ctccagcctg ggcgacagtg taagaccttg tctcaaaaaa taaaaaaatt gccatgttgc tctgagatga gaaccaggaa gttcactagg165 tcctcttgct agctaagtga ctccctctct cactgcagcc ttgcagcaag attaaaatct16621 gaacctcgga agaaagacaa attgcagcat gttgtggaca ttttggattg tcagcaaata 16658 16741 gcttttcatc tgattatctc aggaaccctg caggtgaata gtaccattcc ccaatgtttt16801 gagataagag cactgaagtt cagagagatt aaataatttg ccctagctta cacagctgat16861 aagcagaaga acgaggattc aaactgatgc ctgtctaaat ccaaaccatg ctttctcctg 1691921 27 16981 tcttagtgtg acaagaatca taattatctc aaagaggtgt tgtgaggagc aagtagaatg17041 ccagaaagtg ttttgtaaac tatgaattgc aatacagatg gaaggtgttg ttaccattat17101 tattattttt aaaaacaggg cctggttctg tctcccaggc tggagtgcag tggagccatc17161 atggctcact gcagcctcca tctcctgggc ccaagcaatc ctccaacctc agcctcccac17221 gtagctggga ctacaggtgt gcaccactac acctggcttt ttgttttttg ttttttttgt17281 agagacaggg tctcactatg ttgtccaggc tggtctcaaa ctcctggact caagggatcc17341 tcccaaagtg ctgggattac aggtgcgagc cactgcaccc agctgattat tattattatt17401 atgctacata cttctttaca taaatagctt tctttttatg gagtaactcc caggcactta17461 17521 175 aggattctat cagctgtagg tcacttgaag atttcaagaa gcaaagacat caaagactgg17581 gtgaatgaat gataaggaac cataaagact cctgtgaagt tcctgaggtg gccccgaaga17641 tttccacaat catggccaga gcaaaatcct acccaaccct tgtttggata atctatactc17701 ccatcctggg aagcagttaa agggatgctc tccatttcat agacagaaaa gagtcttctg17761 gaggggaaat gttagcccaa ggtcacaaga gctattgaca actaaatggg cccaagtcac17821 cagcctctca cacaggccag gatcctctct tcctggggac tcaaactcca tatccatttg17881 tgtaataagc tgagagttct tcttttaaat atgttttaca tggggagcaa acacatccag17941 gagggacaga acattctctt tttggtttct gtggcctctg taatagagag gctggtatta ggtgcaaact tattttagaa ggcagaatag gaatgaaagt tggggaggga catgggcacc18061 18121 18181 gaaagcctgg ggaaatttgg caagagaata cagaaaggct gccatgataa tccttttccc18241 ctgcagagca cggtcagtga atccactttg attgccctgc tggcagcaag gaagaacaaa18301 atcctggaaa tgaaaacgtc tgagcccgat gctgatgagt cctgcctaaa tgcccgactc gtggcctatg cctctgacca ggtgagttgc ccgacgcagg acagcccttc gggttggtgc18421 ttggcttctg gaatcttggt ccttgagcaa tttttttcta gacgtgagta cgctggggtt18481 ctgagcagct cagacatggg agcttgtctc cagcaactgt agggaagaca agcttccaat18541 gatcatattt ggttcccgag tcttaggctt cagcagtttc tggggggtga tcattccagg18601 atgactcttt gctgacaggt ttctgtggcc cttctaggct cactcctctg tggaaaaggc18661 tggtttgatt tcccttgtga agatgaaatt tctgcctgtg gatgacaact tctcactccg18721 aggggaagct cttcagaagg ccatcgagga agacaagcag cggggcttgg tgcccgtctt18781 tgtaagtcag gatatatgcc taagcttaga atgatagaac ttggatgtga ggaaggaatt18841 ttggcagaat tcaggtaagt aacatgctgc acacaaaagc agaaaggtcc tcccatacag18901 tattttacac atcatgaggt gctatccata ggtgtgttat ggaataaatt ttgtgggtca18961 taaccagcat taaaaagaaa tatagtataa aatattagag tgcacacata tagccagagt19021 atgtattgtt ttatgaaact tttttttcaa atacacacgt atacatgtac tagattgtta19081 tataaaatgt gtttcttacg agccatggta aaacacagtc tgaaatatac actgttctgg19141 19219201 acgagcccac cctcctgtgt taacttgcct taattttccc ctaggtctgt gcaacactag19261 ggaccactgg ggtctgtgca tttgactgcc tgtcagagct gggccccatc tgtaagtatc19321 ttccctctgt ggctaggaag acaaggaata catttttaaa tgtctcctaa agcaaggacc193 tgaaaccagc tctatgggat tattcttgtt cctctttggt caatgcagag acatgggaag19441 aaccaccaaa ggtcatgagg gtctcttcca gggatccctg gacattgcct ttcccagtgg195 tgtgacaaga gttagaggtg gcctaccttg cctcctgtcc taggaggcga cagtaggaga195 gccttcggtt ttctcatcct cttacttgta tgttgaactt tacttaatgc aggctatatc19621 caaaatacag tgtgaattag gctagaatag aaatgctttc tattctacct tcagaaaagg19681 aaaagggtag ggtaggggaa atcatgggag agattaaagg cagagaggaa acccagatgg19741 gactgtttaa tccccaagca agaaaccact aggaaagaga gataccttcc ctctaacttt19801 tgtattcggt gcactgacat tgctctctgt gctggtggga aattgatttc tgtgccagga19861 tgttctaggc tgaggccaag agggtgctgg ccctttaccc agtggaagaa aaaggcaagg19921 gtgaggcttt gtagactttc ccattcggag gtaatgatgc ctccttcagc cccacttctt19981 caaactgact ccacctgctc ccatctccac acccctccgt ttctcattta gccaaagcac20041 atcatccttg cagcccacca ctcagcttgg ccaggtgcga gacatctttc cccacttcat20101 acctcccctc cggccaggtgatgtttgcct cctcaggtgc ccgtgagggg ctgtggctcc20161 acatcgatgc tgcttatgca ggcactgcct tcctgtgccc cgagttccgg gggtttctga20221 aggggattga gtatgccgac tccttcacct ttaatccttc caagtggatg atggtgcatt20281 ttgactgtac tgggttctgg tgagtgtagc agcccagctc cgagcacgca ggaacgcctt20341 gcctcctctg gagagacctc agccactaat gcccatttgg aaacccacag ggtcaaggac20401 aagtacaagc tgcagcagac cttcagtgtg aatcccatct acctcaggca tgccaactca20461 ggcgtggcca ccgacttcat ggtgagtggc cagggacggg cagcctggtg ggctcgggtg20521 gccagtggga actgtaggcg tctgaccccc caaaatctgt acggtggctc ccttcagaag20581 gcagcacact atgagctcat ctcataatac tgccaatgca taccttggtt tctaattgtg20641 2072 20701 tttgaggcag tgtgcacatt tcctgaatat ttgtggcatt ttttaattcc cagaaatgct20761 cttcctacca caggtggacc agttccttct gcctccatct cgggtcatct tttttgtttc20821 ttacccagca gcagggcagg gtggagaatt tccctggtgg ggaaagagct ttcttgctga 8681 aatcgctttt gtttttttgt ccctgacaga ggcgctgtgg ggcagctctg tggtagtgat20941 gggctgcagg acttgtgtga ggttctggaa gcctccaagc attcctgact ttcccaactg21001 3621061 tctttctttt tttttttctg agacagagtc tcgctctgtc aaccaggctg gagagcagtg21121 gcgcatcttg gctcactgca acctccgcct tccaggttca agcgattctc ctgcctcagc21181 tttccaagta tctgggacta caggcgtgag ccaccgcgcc cagcaaacct caactctctt gattccacat cctcagccag tattttgcct gagggaaacg agttcttaac aaattgactc21301 cgcagtttga ggatgagccc ttcctttact tgtaggggag acagggatgt aaacgaatgt21361 attacacata acctggccaa cggaggcagc agagcagagt gggggcaagc ttggtttgga21421 attccattcc agcagtggcc ctttgggaaa ctaactggac ctctctgagc cttgctttcc21481 ttatctgtaa aatgagaata gtggcattga ttcatagggt attgtgaagc ttaaatggga21541 acacgtgtgg atcacctagc aaaatagccg tgtggcaagt gctcaatata tggtaggcat21601 agtatttctg aaagctcttc tttgaagctg cagagatttg ttaggacagt ggttaggcat21661 gtaggtgcta aagccagatg gcatgtgttg gagtcctggc tttctgttta ctaacttgtg21721 tgacctcggg caagtgactt aaactctgtg tccagatttc ctcttgtgtc aaatgaggct21781 gatgaccaca gttctggctt cttaggcttg ctgtgaggat tatacaaatt aatacactga21841 agtgctgaga gcagtgtctg acccctgtaa gcatccttcc ttgtgaagag atggttttat21901 cttatcttct tggacaactg aagtgtcttg cccttttagt cttaaaataa tagcttcgtc21961 atcacttgat tatactggct attctccctt ggaccagtcc acaccctctt tagatatttg22021 aagcttttgg attagaattg cagcggtaag cctcacggct tactggtggt gacagaagac22081 2212 22141 taggttttca gagattttta atgaaaaatt aaaaaaattc cagaacagcc caagggtcag 2228401 22253 tgagtgtatt tgggtcatca taactgagga gcattatatt cacccttgcc cttttgaatt22321 tcatgttacc gtttaaattc atttaccaca gtgcctcagg atcttcccgg ggttcattcc22381 22441 22558 22501 gcactgcctt acacttaccc ttcccccacc tttaatccta tggatttgat tttcaagtcc22561 atgaagaaac tcctagaaaa gtgaagttgc tatctttttc atgatcctga gggtcctcag 22661 atgaagaaac tcctagaaaa gtgaagttgc tatctttttc atgatcctga gggtcctcag22621 agctactctc acctgggccc aatgtctttc ccacccaggt ggctgcagct ttgaacagaa22681 2227 741 gtgcttaacc cctggggtcc tggaatcacc taaaatcagg gctagattct ctgacagcgg22801 agaagctccc tgttttctgc ctctcactgg acagagagca ccagtggagg gagcgttacc22861 ttagccttgg caagggagcc ctgcaaggac cttacaagga cacagaggag gctggagatg22921 cctcaaggta aagaagagcc ctgtcaggct ttatacgtcc agattttttg atccaacaga22981 aaatgttggc tagaaccact ctgctgagtc agcatggatc agttttggaa tagtgacaag23041 aaaaggagca actgggaata aggaagattg tgaagaaatc aaaataaaat cacctctgcc23101 tatcctggtt tatttgctgg taaaataaag tagctctctc tatatatgaa ataaattggc23161 tataactatc tggaaaccag aaccttttga cagatgatcc ctatcatccg ttcattattc23221 tcttggagtg tccattggac aagaggtgga gttgacactt tccttgttac agcaattttg23281 23341 acaacagagt tttgcttgga aatcaaaggc ttagtagttt tctgctgggg aaacattgtc234 catcaacaaa ggggtaacat cccaactgtg cctggctcag gaaactgggg tgaagggtga23461 aggtgaggac atttgtgagg atttgataat cttgtgtatg ggcagataaa tacgcagtgg23521 gacaaacatt tatttttagt caacagaaat tgtggtagaa actttctgac gtttgaggga23581 23 gatgtcatta ggaaaccacg tgactcatta gaataactgt aaatgttttc caaatcctct 641 gctctatttt cagatctgag aaatcagtct gaaattgatt tggaaatttt cagatgtatg23 gtgactgcaa ccttgaactt taagctctgt tgaatttggc caccaggagc aaagagtcaa23761 ttttcatcta acagcggcag aaatttgggt gctcatttga aatctgacag ctggagtgat23821 ggctctcaga tcacaggaat ctcacaggaa aatgaacaag gcagtgtaag gttaaatagg23881 ggtcatcttg gctctagaca gaaatgctac tgtgatttgt agctcacatt ttaaaataat23 ctaaatagcc aacacctact gacaacttct tctgaggctc ttggcgttct ttgtcctcac24001 accacttgcc cgggaggtgc aattggttct ttatgtcccg gactgatgag ccagtgaggt24061 ggcactaccc aaggtcacac agctagtaag tggcacagct ggaggcgaaa cctaggtctg24121 cagggctcta gtgtctgtgc tctaactacc atactttaca ttttgggagg aataaaaata24181 gaactttatt ttctgctatt caaggaatat agattcattt agagtaaaaa tgtatttccc24241 ttatgttgag tttctgggcc gggatgaaat gtttaaagca gcacttgaaa gcaaagtgcc24301 24 cttctcattg gttcagggta atggacttga cttccacttg tctggctctc agacaagtga24361 ctattggcca ccttcatcag tgatttggtc acacgatggg gcaacccttg gggagcttgg24421 cttactcctt agcaacagct cccagagtca tggtgacatc gtccatccct ggagggctgg24481 gcaggcaaca gataatgccc agaaatgccc gagggagtgg ggcacccttg tctctaacct 245638 tgggcactgt gttcctttgt ttctagcact ggcagatccc cctgagccga cggtttcgct24601 2423 24661 24721 24 gaggaaggct ggtttctact ttgcagatct gcctaggaga cttgcggtgt gtggttcagg 781 24 tgtctgggcc tgttcctcag ctcctgggac ttgattctct ttgttaacca gaggagcgct24841 gagcacaaca tgccctgagg gctgcctgat gcctgtcctc tgctgagtgt ctcaccgttc24901 cccttgctgt cactgagcac tggggagggt tggccccaga gtctggtttg caggaaagag24961 aaagagaaag taaatcaagg ggaagtgtgt gtggccaggg taggatccta tctgctttgg25021 8281 ataaagctcc cctggccttg gacaggtaga cctaccaagt ctggaacaaa cctccctgca25141 tcaacaggca tttattgaag gcctattttg cttaatttat ttctattcaa ttcaacaatt25201 acaaggtatt gtgctaagaa agggacacag aggtaaatga gacaggtgca gcctctctcc25261 catgttcttc atggaagaag cgggacttaa ctaagaactc tggccactgg cattgttctc25321 ccacttctac aagagtccac atgcaagaca aagccattga taaaagtagt gggggaagct25381 gaagacactg tcctttctgc ctatgtgtgt ctttgtcctt ccacctttcc tctagggaat25441 tccttcttgg ttaaacaaac acaaaccaaa atgaagtggt ggaagcggta actatgattt25501 tttttaacat ttaaaaaaaa taattattat gcttacataa taattacgta tatatttatg25561 gggtatgtgt gaggttttga tacaggcata caatgtgcaa tgatcaaatt agggtaactg25621 ggtatccacc actcaaccat ttatcatttc tttgtgttag aaacattcta gttccattct25681 ttaagttagt ttgaaatgta cagcaaatta tagttaacta tagttgcctt attgtgccgc25741 ctaacattag atctatttaa ttgtattttt gcgcccgtta actatcacct ctttatcccc25801 cattccctgc tacccttccc agcctctgcc aaccatcatt ctactgtgcg tctccacgag25861 ctcagtttgc ttacttttta actcccacgt ttgagtgaga acatgtgaaa tttgtccttc25921 tgtgcctggc ttattttgct taacataatg ttctccagtt tcctatgact ggttttaatg25981 ttggtaattt tacctttgta atcaccactg gttgtttacc aatgagcagc tgccaccaac26041 aatattgagg aactttaggc actttgtgct gtttctagaa atgcagactc aagactggag26101 ggttgtgggc ggggaatggt tggtggaggt tacaagtaat taggaacatt tttttgctta26161 cagtttggga ctggatattc aatgtgcaga tcctgactaa cctcccttag cacttctgtt26221 tgcaaatcaa acccctgaat tcctcctatt agcaacccca ttgcctacca tatgaggccc26281 acactcctgg gcctggcttt caaggacttg acgattagct cctaccttag cttgggcatt26341 tcatcgaccc atccagacct catgctcagt ccatctctgc accttcaccc gtgtccttca26401 cctgaactac cctctcctct ccaaatgttg tgaatggatt aaattctgct tccactagaa26461 gcttttctgc ctattccatc tgttctggtt tctgcttcat tagcattcct gtgatcacct26521 actcaaacac ctttacaaaa ctgtgctcaa agttcttcca atgtcccaca atagaagaaa26581 tggaattaaa ataaagttgt ttgatatgat ttgattttat ctcttcaact tgacggtgat26641 26 gataattatt gacacttgcg taatgccttc aatacaaaaa taaattctag ttcttcatta26701 26761 761 tgccctgctt gagggaagaa ggcccgggac tttccctgaa gcctcccaat tccaaatcct26821 ttcttcatag ttctgggctg ctttctacta cactgagctc ttggaaagtt atataaaatt26881 aaatttcata tttctgtgtt acagagaagt gctttaaaga atggattttt agttctaccc26941 tttacctgtt tgatgacctt agacaaatta cttaaccttt ctatatttgt ctgccttatt27001 tatttattgt tatttatttt tgagatgcag gtctctgctt gctcaggctg aagtgcggta27061 gtgccatcag agctcactgc agccttgacc tccccaggct caggtgatcc tcccacctca27121 gcctcctgag tagctgggac tacaggcgca taccatcatg cctggctact ttttgtattt27181 tttgtagaga tggggttttg tcatgttgcc caggttgttc tcacgctcct gggctcaagc27241 aatctgccta ccttggcctc ccaaagtgcg aggattacag gcatgagcca ccacccctgg27301 27361 ataatatata tgcagccctt agcacagggt ctacctacta ctcagttaag tactcaatga27421 gtacctcttc ctcttctctt cttccccttc ttcatcatct ccttcttcat ctaattataa27481 taaattgtca tcatcatcac catcatcatc atcatcatcc tcatctccta tcacctacaa27541 tagggattgg taaacatttc ctgtaaaaag ccagatacta aatacttttg gctttgtggg27601 ccatactcta ttgtaattac ctctgtacta caagagctac cgtagacaat atgtaaacaa27661 atgggaatgc tgtgttccaa aaaactttac aaacacaggt gggggctata tttggccatg27 gctgcactgt gcctgccctt gacctagagc ggtgcagggc actggcagca gctctgcttt27781 catgacctgt aaagtggggc tttggaggtg gcagtgctgc ctgtgctctg tattctcctc27 tcccctgacc tctgcttctg ttattgcaaa cagcatgtgt tgtaggaggg ataaaagcac27901 agtgggagga gatctaccta ctgtcacttg taccttggga aagtcacttt cccttggttc27961 cttctaaaaa atggaaagat tgagctgggc acaggggcac gtgtctgtag tcccagctac28021 ttgggaggct gaggtgggaa gctcaattgc tcccaccata gcccaggtgg gagttctggg28081 ctatggtgtg ctatgccaat tgagtgtccg cactaagttc ggcatcaata tggtgacctc28141 ccaggagcaa gggatcacca ggttgcctaa ggaggggtga aggggcccag gttagaaatg28201 28261 agaaagattt ggagaaactc atttcattat ggtcaaaaga caggctcagg gccagacatg28321 gtggctcatg ccagtaatcc cagtactttg ggaggcctag gaaggaggat cgcttaagcc28381 caggagtttg ataccagggt gaacaaccta gtgagaccac tgtctttaca aaaaaattaa28441 aaaatgtagc tgggcatggt ggtgcatgtc tgtagtccta gctactcagg aggtgaaggt28501 28561 ctctgtactc tagcctgtgt gacaaagcaa gaccctatct ctcaaaaaaa aaaaaaaaaa28621 aaaaaaaaag aggttcagct aactcccttg ccctctcttg aaatagagca gtaagtatga28681 gaactaactg atagaattac ttagcaaata tttttattga gatcttctgg atgcttggag28741 aaatttttaa aaagaaaaga gaaggcaagt cctgtccttg tttagttagt aatcctgggt28801 taaaaacaaa aagcaaaaaa ccccaggaca tttaaaaaga tggtatgaac ttcagtggaa28861 gattaatata atacaaagcc tttaacattt taaaatgtaa caaaatattc ataccataga28921 atgtaccatt ttactcattt ttaagtgtac aattcagtgg cattaagaat actcacaatg28981 tggtgtgacc atcaccatta tttccagaat tttttcatca tcccgagcag aaactctgta29041 tccattaacc aggtccaaaa cctttccatg atgggtggag acaagatgtg aaaatatgtt29101 ctctatggaa tgtcagaaac aggggatgaa aagggcattt ggggtacagg gtgagaagag29161 291 gtttgagagg caagtgaagc atgtaggctt aggatggggc agggccgcca ctagcccata29221 tggcaacttg atgtgcacta caaacaggca tctcttcctt taggcacacg cagctcgcat29281 gaggcacctg gctgggaacg cagagcatgg actgggtttt ggccctcact tgcccacttg29341 gccagtcaag gagctgtgaa atcaggagtt gaggccgggt tgcctggact gcaaagcaca29401 tgccttctgg gttctggggc tgagttgaaa gagggccctg agatgagttc tcgaggtgga29461 tcccatgtga caggaaacag ggcgccattg gaaattttcc agcttggaat atgagcaaaa29521 tcaaatggag atgacaatga ggcagaagcc gcttacaacg gctgtgacgg gaagatggcc29 ctggtttaaa accatttagc agtctgaaag tttatgcata gtctcttgtc tgatgattaa29641 2936701 ctggtcagaa acgacccttc ctttgaaatt cctgccaaga ggcaccttgg cctggtggtt29761 tttcgtctaa aggtaatacc atcttccaag cccctctgtg aatgatgtct tgtggtgctc29821 cagagcctct cggaaacaca aactgggctc tggggatgct gacagggggt gcgatggaga29881 cttcacttcc tttatttttc aaacagggtc ctaattgtct cacagaaaat gtgttaaagg29941 aaatagctaa agctggccgt ctcttcctca tcccggccac tatccaggac aagttaatca30001 tccgtttcac tgtgacatcc cagtttacca ctagggatga catcctgaga gactggaatc30061 tcattcgaga tgctgccact ctcatcctga gtcagcactg tacttcccaa cccagccctc30121 gggttgggaa cctcatctcc caaatcaggg gtgccagagc ctgggcctgt ggaacgtccc30181 ttcagtctgt cagtggggca ggagatgatc cagtccaggc caggaagatc atcaagcagc30241 ctcagcgtgt gggagccggt cccatgaaaa gggaaaatgg cctccatctt gaaaccctgc30301 tggacccagt tgatgactgc ttttcagaag aggccccaga tgccaccaag cacaagctgt30361 30423 30421 gttgcaacag tgtgccagtg agtgctcaga agccactgcc cacagaggcc tctgtgaaga30481 atgggggctc ctccagggtc agaatctttt ccaggtttcc agaagacatg atgatgctga30541 agaaaagtgc cttcaaaaaa ctcatcaaat tctacagcgt ccccagcttt cctgaatgca30601 3066330628 68661 30 gccaactttg tgtgcttatg tgtacatgca tttttcttgg ggcgagttca taattttaat30781 caaattctca taggggcttc atgacccaca ataggataca aacgaagagt ttaagccagc30841 atgatccaga tgggttcagc agtctggtca gtgagaaagg gccgagggta gacaggcagc 3086901 30961 aacaaaacat accctgtgtc acttaattgg ctgctgaaac attgattaac cagtctggga31021 31081 ttcataaatg aggaaaccaa cgtttaggtc acacagcttt aaataggcaa acccaggtct31141 cctgcttcca gtgaagccca ggctgtttcc accatgcagt actgctcaag gttggacctg31201 aacaggagct cacagcccag caggctgctg gtcctccagt acatttaaat gtttcctttc31261 taggtttgga acttgtgcat tttcccctta ttttcctgga cccggtagtc aaataaaagc31321 tatgctcaca agtggcttgc ccataattag ttcagaggcc aaacacataa ttttatttcc31381 atttcagatg gtactttgat aggttgtgac tctgaaatgg gttatgtaaa gagtattaaa31441 gacaaacaaa gctgggcatt agttagaact ttaaggatag atgttaaaca gtaatatact31501 atcacaatag ggaaaagggt cccatgtgaa ctgaactcaa cttggatttg tgcaaaggtg31561 actaggcatt tcacagcgtg aatgggagaa tagggagaag gccagcctag acttagaaga31621 gtcaggaatg tgaaaaatta caaaaagcgg aaagtggttg atgtgaaacc cctctgggtt31681 tgctaactgg tgctttttga agtaagactc ttaccctccc acagagactg ggagtcaggg31741 ccctgtgttc aggggttcgc tggaacaaac agttaattct ttcggcagct ttgagttttc31801 ttaagcaggc actttaaggt gagctaggat caacttaggg atgtggcctt gagctgtgag31861 aaactgtgtt agtgtttgtt caagtcttta taggcaaagg ttgaggccta gttgagaagg31921 gggctcggag gagcttagct agagtttggt cgagaaaaga atctttgtta agagtttaaa31981 gctttttttt tttttttttt tttttttttt ttgagactag tgctttctct ctttcccagg32041 ctggagtgca gaggcacaat catgtcttac tgcagcctca acttcctggg cttgagcaat32101 cctcctgctt cagcctccca agtagctatt tatttttgag atggggtctc attctgtgag32161 tgcagtggtt ggaacacagt tcactgcagc ctcagcctct gaggctcaag ctgtctttcc32221 acctcagtcc cacgagtagc tgggactatg agtgcacacc actatgcctg gctaattttt32281 ataacttttt acagagacag ggtctccctg tgttgcccag gctggtctgg aactcctggg32341 ctcaggtgat c (2) SEQ ID NO: 2875 data: (i) sequence characteristics:

(A) length: 2371 a base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2875 sequence description: 1 cgactaagaa gccctgttga cagctgcctt ccagcctcct ctgtctgtct gccaggagga 61 gcaatccaag ggagatgatg gagccctgtg aataccgtga ataccgtgaa tactaccgag 121 ctagagggaa agagatggtg gattacatct cccagtacct gagcactgtg cgggagaggc 181 721 gatttctacc tgtggacgac aacttctcac tccgaggaga agctctccag aaagctattg 781 181 aggtgactcc aaatgtgcag cctggatacc tgcgagccca gctacctgcg agtgctcccg 241 aggaacccga cagctgggac agcatctttg gggacattga acgagtcatc atgcctgggg 301 tggttcactg gcagagcccc cacatgcacg cctactatcc tgctcttacc tcatggccat 361 ccctgctagg agacatgctg gccgatgcca ttaactgctt aggattcacg tgggcatcta 421 gcccagcttg cacagagctg gagatgaaca tcatggactg gctggcgaag atgctggggc 481 tcccggagta cttcctgcac caccatccca gcagccgagg gggaggtgtc ttacagagca 541 ctgtcagcga atccacttta attgccctgc tggcagcaag aaagaacaaa atcctagcaa 601 tgacagcgtg cgagcccgat gctaacgagt cctccctgaa cgctcgtctc gttgcctaca 661 cctctgatca ggctcactct tcagtggaga aggctggctt gatttccctt gtgaagatca 721 gatttctacc tgtggacgac aacttctcac tccgaggaga agctctccag aaagctattg 781 aggaagacaa gcaacagggc ttggtgcctg tgtttgtctg tgcaacgtta gggactactg 841 gagtctgtgc atttgacagg ctgtcagaac tggggcccat ctgtgccagt gagggactgt 901 ggctccacgt cgatgctgct tatgcaggca cggcctttct gtgccctgag ctccgagggt 961 tcctggaggg catcgagtac gccgactcct tcacctttaa cccttccaag tggatgatgg1021 tacactttga ctgtactgga ttctgggtca aggacaagta caagctgcag cagaccttta1081 gtgtgaaccc catctacctc cgacatgcca actctggtgc agccacggac ttcatgcatt1141 ggcagatccc cttgagccgg cgctttcgct ccattaagct gtggtttgtg attcggtcct1201 tcggggtgaa gaatcttcaa gcacatgtca gacacggcac agaaatggct aaatactttg1261 aatctctggt cagaagcgac ccttccttcg aaattcctgc taagaggcac cttggtttgg1321 tggttttccg tctgaagggt cctaattgtc tcacagaaag tgtgttaaag gaaatagcca1381 aagctggcca gctctttctc atcccggcta ctatccaaga caagctgatc atccgtttca1441 ctgtgacgtc ccagtttacc accaaggagg acatcctgag agattggcac ctcatccaag1501 aggctgctaa ccttgtcctg agccagcact gcacttccca gccgagccct cgggccaaga1561 acgtcatccc gccaccgcca gggaccagag ggctatccct ggagtcagtc agcgagggag1621 gagatgaccc agcacaggcc cggaagatca tcaagcagcc aggagccagt ctggcgagaa1681 gggaaggcgg ctctgatctg gaaacgatgc cggatccctt tgatgattgc ttctctgaag1741 aggcccccaa caccaccaag cacaagctgt catcctttct gttcagttac ttgtcggtcc1801 agaacaggag gaagacaacg cggtccctca gctgcaacag tgtgcctatg agtgcccaga1861 agtcactccc cgcagacgct tcactgaaga atgggggctc cttccgggcc agaatctttt1921 ccgggttccc agaacaaatg atgatgatga agaaaggtgc cttcaaaaag ctgatcaagt1981 tctacagcgt ccccagcttt cctgaatgca gttctcagtg tgctcgccag ctaccgtgct2041 gccccctgga ggccatggtg tagagtcctc aatcagaatg caagggtgcc tgtgcttcag2101 ggagttgggg aaccctcgaa attgcctgca gtttgtgtgc ttattatgtg tgtgtgcatc2161 ttgagggaag caagcccatt attttgatca taacctcaca gggtcttcgt gatccacaac2221 agattgtaac tgggaagttt aagcgggcat gctccagagg ttgcaggcgc ttgtgtgata2281 gaaggggctg agacggtggc atgctgttaagcttgtaatg tgaaaaacaa cttagaaata2341 aattgtgctt atatctaaaa aaaaaaaaaa a (2) SEQ ID NO: 2876 data: (i) sequence characteristics:

(A) length: 2355 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2876 sequence description: 1 cttccacctc ctgcgtgtcc atctgtgaga aggagccaga gcccaaggga gatgatggag 61 cctgaggagt acagagagag agggagagag atggtggatt acatctgcca gtacctgagc 121 actgtgcggg agagacgtgt gacgccagac gtgcagcctg gctacctgcg agcccagctg 181 721 cttcagaagg ccatcgagga agacaagcag cggggcttgg tgcccgtctt tgtctgtgca 781 181 cctgagagtg ctcctgagga ccccgacagc tgggacagca tctttgggga cattgaacga 241 atcatcatgc ctggggtggt acattggcag agcccccata tgcacgccta ctacccagcc 301 ctcacctctt ggccctccct gctaggagac atgctggctg atgccatcaa ctgcttggga 361 ttcacctggg catccagccc tgcgtgtaca gagctggaga tgaacgtcat ggactggttg 421 gcaaaaatgc tgggacttcc agagcacttc ttgcaccacc accccagcag ccagggcgga 481 ggcgtcctgc agagcacggt cagtgaatcc actttgattg ccctgctggc agcaaggaag 541 aacaaaatcc tggaaatgaa aacgtctgag cccgatgctg atgagtcctg cctaaatgcc 601 cgactcgtgg cctatgcctc tgaccaggct cactcctctg tggaaaaggc tggtttgatt 661 tcccttgtga agatgaaatt tctgcctgtg gatgacaact tctcactccg aggggaagct 721 cttcagaagg ccatcgagga agacaagcag cggggcttgg tgcccgtctt tgtctgtgca 781 acactaggga ccactggggt ctgtgcattt gactgcctgt cagagctggg ccccatctgt 841 gcccgtgagg ggctgtggct ccacatcgat gctgcttatg caggcactgc cttcctgtgc 901 cccgagttcc gggggtttct gaaggggatt gagtatgccg actccttcac ctttaatcct 961 tccaagtgga tgatggtgca ttttgactgt actgggttct gggtcaagga caagtacaag1021 ctgcagcaga ccttcagtgt gaatcccatc tacctcaggc atgccaactc aggcgtggcc1081 accgacttca tgcactggca gatccccctg agccgacggt ttcgctctgt taaactctgg1141 ttcgtgattc ggtccttcgg ggtgaagaat cttcaagcac atgtcagaca tggtactgaa1201 atggctaaat attttgaatc tctggtcaga aacgaccctt cctttgaaat tcctgccaag1261 aggcaccttg gcctggtggt ttttcgtcta aagggtccta attgtctcac agaaaatgtg1321 ttaaaggaaa tagctaaagc tggccgtctc ttcctcatcc cggccactat ccaggacaag1381 ttaatcatcc gtttcactgt gacatcccag tttaccacta gggatgacat cctgagagac1441 tggaatctca ttcgagatgc tgccactctc atcctgagtc agcactgtac ttcccaaccc1501 agccctcggg ttgggaacct catctcccaa atcaggggtg ccagagcctg ggcctgtgga1561 acgtcccttc agtctgtcag tggggcagga gatgatccag tccaggccag gaagatcatc1621 aagcagcctc agcgtgtggg agccggtccc atgaaaaggg aaaatggcct ccatcttgaa1681 accctgctgg acccagttga tgactgcttt tcagaagagg ccccagatgc caccaagcac1741 aagctgtcct ccttcctgtt cagttacttg tctgtgcaga ctaagaagaa gacggtgcgc1801 tccctcagtt gcaacagtgt gccagtgagt gctcagaagc cactgcccac agaggcctct1861 gtgaagaatg ggggctcctc cagggtcaga atcttttcca ggtttccaga agacatgatg1921 atgctgaaga aaagtgcctt caaaaaactc atcaaattct acagcgtccc cagctttcct1981 gaatgcagct ctcaatgtgg actccagctg ccctgttgcc ctctgcaggc catggtttag2041 acacagggcc ttcagccaga gtctgaggat atacttcagg gactctgtga acccctcaca2101 attgtatgcc aactttgtgt gcttatgtgt acatgcattt ttcttggggc gagttcataa2161 ttttaatcaa attctcatag gggttcatga cccacaatag gatacaaacg aagagtttaa2221 gccagcatga tccagatggg ttcagcagtc tggtcagtga gaaagggccg agggtagaca2281 ggcagcttct gtggttcagc ttgtgacatg atatataaca cagaaataaa ttatgcttgt2341 ccctgaaaca aaaaa (2) SEQ ID NO: 2877 data: (i) sequence characteristics:

(A) length: 2396 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2877 sequence description: 1 agtgcgcagg actggcaaga gggaagccgg gctgctccac gcctttcacg ccttccacct 61 cctgcgtgtc catctgtgag aaggagccag agcccaaggg agatgatgga gcctgaggag 121 tacagagaga gagggagaga gatggtggat tacatctgcc agtacctgag cactgtgcgg 181 721 aagatgaaat ttctgcctgt ggatgacaac ttctcactcc gaggggaagc tcttcagaag 781 181 gagagacgtg tgacgccaga cgtgcagcct ggctacctgc gagcccagct gcctgagagt 241 gctcctgagg accccgacag ctgggacagc atctttgggg acattgaacg aatcatcatg 301 cctggggtgg tacattggca gagcccccat atgcacgcct actacccagc cctcacctct 361 tggccctccc tgctaggaga catgctggct gatgccatca actgcttggg attcacctgg 421 gcatccagcc ctgcgtgtac agagctggag atgaacgtca tggactggtt ggcaaaaatg 481 ctgggacttc cagagcactt cttgcaccac caccccagca gccagggcgg aggcgtcctg 541 cagcagacgg tcagtgaatc cactttgatt gccctgctgg cagcaaggaa gaacaaaatc 601 ctggaaatga aaacgtctga gcccgatgct gatgagtcct gcctaaatgc ccgactcgtg 661 gcctatgcct ctgaccaggc tcactcctct gtggaaaagg ctggtttgat ttcccttgtg 721 aagatgaaat ttctgcctgt ggatgacaac ttctcactcc gaggggaagc tcttcagaag 781 gccatcgagg aagacaagca gcggggcttg gtgcccgtct ttgtctgtgc aacactaggg 841 accactgggg tctgtgcatt tgactgcctg tcagagctgg gccccatctg tgcccgtgag 901 gggctgtggc tccacatcga tgctgcttat gcaggcactg ccttcctgtg ccccgagttc 961 cgggggtttc tgaaggggat tgagtatgcc gactccttca cctttaatcc ttccaagtgg1021 atgatggtgc attttgactg tactgggttc tgggtcaagg acaagtacaa gctgcagcag1081 accttcagtg tgaatcccat ctacctcagg catgccaact caggcgtggc caccgacttc1141 atgcactggc agatccccct gagccgacgg tttcgctctg ttaaactctg gttcgtgatt1201 cggtccttcg gggtgaagaa tcttcaagca catgtcagac atggtactga aatggctaaa1261 tattttgaat ctctggtcag aaacgaccct tcctttgaaa ttcctgccaa gaggcacctt1321 ggcctggtgg tttttcgtct aaagggtcct aattgtctca cagaaaatgt gttaaaggaa1381 atagctaaag ctggccgtct cttcctcatc ccggccacta tccaggacaa gttaatcatc1441 cgtttcactg tgacatccca gtttaccact agggatgaca tcctgagaga ctggaatctc1501 attcgagatg ctgccactct catcctgagt cagcactgta cttcccaacc cagccctcgg1561 gttgggaacc tcatctccca aatcaggggt gccagagcct gggcctgtgg aacgtccctt1621 cagtctgtca gtggggcagg agatgatcca gtccaggcca ggaagatcat caagcagcct1681 cagcgtgtgg gagccggtcc catgaaaagg gaaaatggcc tccatcttga aaccctgctg1741 gacccagttg atgactgctt ttcagaagag gccccagatg ccaccaagca caagctgtcc1801 tccttcctgt tcagttactt gtctgtgcag actaagaaga agacggtgcg ctccctcagt1861 tgcaacagtg tgccagtgag tgctcagaag ccactgccca cagaggcctc tgtgaagaat1921 gggggctcct ccagggtcag aatcttttcc aggtttccag aagacatgat gatgctgaag1981 aaaagtgcct tcaaaaaact catcaaattc tacagcgtcc ccagctttcc tgaatgcagc2041 tctcaatgtg gactccagct gccctgttgc cctctgcagg ccatggttta gacacagggc2101 cttcagcaga gtctgaggat atacttcagg gactctgtga acccctcaca attgtatgcc2161 aactttgtgt gcttatgtgt acatgcattt ttcttggggc gagttcataa ttttaatcaa2221 attctcatag gggctcatga cccacaatag gatacaaacg aagagtttaa gccagcatga2281 tccagatggg ttcatcagtc tggtcagtga gaaagggccg agggtagaca ggcagcttct2341 gtggttcagc ttgtgacatg atatataaca cagaaataaa ttatgcttgt ccctga (2) SEQ ID NO: 2878 data: (i) sequence characteristics:

(A) length: 40298 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2878 sequence description: 1 gtaagtatct tccctctgtg gctaggaaga caaggaatac atttttaaat gtctcctaaa 61 gcaaggacct gaaaccagct ctatgggatt attcttgttc ctctttggtc aatgcagaga121 catgggaaga accaccaaag gtcatgaggg tctcttccag ggatccctgg acattgcctt181 721 ccaaagcaca tcatccttgc agcccaccac tcagcttggc caggtgcgag acatctttcc781 181 tcccagtggt gtgacaagag ttagaggtgg cctaccttgc ctcctgtcct aggaggcgac241 agtaggagag ccttcggttt tctcatcctc ttacttgtat gttgaacttt acttaatgca301 ggctatatcc aaaatacagt gtgaattagg ctagaataga aatgctttct attctacctt361 cagaaaagga aaagggtagg gtaggggaaa tcatgggaga gattaaaggc agagaggaaa421 cccagatggg actgtttaat ccccaagcaa gaaaccacta ggaaagagag ataccttccc481 tctaactttt gtattcggtg cactgacatt gctctctgtg ctggtgggaa attgatttct541 gtgccaggat gttctaggct gaggccaaga gggtgctggc cctttaccca gtggaagaaa601 aaggcaaggg tgaggctttg tagactttcc cattcggagg taatgatgcc tccttcagcc661 ccacttcttc aaactgactc cacctgctcc catctccaca cccctccgtt tctcatttag721 ccaaagcaca tcatccttgc agcccaccac tcagcttggc caggtgcgag acatctttcc781 ccacttcata cctcccctcc ggccaggtga tgtttgcctc ctcag1 gatcacctga agtcaggagt tcgagaccag cctgaccaac atggagaaac cccgtctcta 61 ctaaaaatac aaaattagtt gggcatggtc gtgcatgcct gtaatcccag ctactcagga121 ggctgaggca ggagtatcac ttgaacccag gagacggagg ttgcggtgag ccaagaacat181 gccattgcac tccagccttg gcaacaagag caaaactccg tctcaaagaa aaaaaaaatt241 tttttttgtc aacccatgtg ggtatgaaat tgtttctcat tatttgcatt tcactaatta 301 ctagtgaggt caaacatttt ttccctcatt tcttatccat taaagtttat tctgtgaatt 361 gccagttcat ggccattttg ggggtgtagt ttttcttact gatttattga agtttaatgt 421 ttttctggaa actaatattt tgctagttgt gtgaattgta aatatcttct cccactgtat 481 ttttttaaaa actttttatt gtctgaatta gcacatattt agtgaatgcc tctatgtgca 541 attctttttt tttttttttt tttttttttg agatggagtt tcgctcttgt ttcccagact 601 ggagtgcagt ggcatgatct aagctcactg caaccttcac ctcccgggtt caagtgattc 661 638 661 tcctgcctca ggcctcctga gtagctggga ttacaggtgc ccgctaccat gaccagctaa ttttttgtat ttttagtaga gacggggttt catcatgttg gccaggttgg tctcgaactc 781 ctgacctcag gtgatccacc cgcctcggcc ttccaaagtg tagggattac aggcatgagc 841 cagtgagctc agcctctatg tgcaattctt aatgtcaagc tgagggagaa gtctaagaag 901 ttttatataa gtctgacacc cagggtgcct gtaattaaag gtggaatgaa attttaattt 961 391021 cagataatta gtgagataaa gatttgattt tcacttttag catttctaaa agctgtaata1081 tgctacctaa cttgttttta attcttgctc taacttctga tattttatag ttgtgtattt1141 tgaattatat tttaaaggat taagtggatt attgcacatg atatttagta aagtgtttgg1201 gagcatttag cacagcctcc aaaaattaga attccactag ccccctgatc ctacatatct1261 ggcatcttaa gagtcaataa tagcaaagtt gagagaggca gcttggtgtg gtggaaagaa1321 catgggtatt ggatccgata gccttaggtt caaatcctgg cttcttcagt aattatcttc1381 tgtaatttta gccaagtgtt taatttcctt gagactcagt ttctcgaaga tgaagtagaa1441 aatggctttc accaggttgt tgtaaagact gaatcaaata gtgtgcatga aaattgcaag1501 gcatagtgct caggacatag ttaacattct taaatatatg ttgaggaatg gtgtgcacct1561 1621 6951 168 tggaaacaac tgaaatgtac actgctaggg aactgattac tctctggtat gtccacgcaa1741 tgcagctcta tgaaaaaaag gagtacgtgt caagatatat taacaaataa agtacagaat1801 attgtactgt acttatccct tttgtgttta acaaaagaaa gaaaaggaga aaaattagaa1861 tatagtatat atttgccttt atgtgcaaaa aaaggaaatc actttttgtt ttttttgaga1921 cagggtctca ttctgtcacc caggctgggg tgcagtggcgctatcacggc tcactgcaac1981 ctcaacctcc caggctcaag cgatcctccc gccacagcct cccaagtagc tgggactaca2041 ggcacacgcg ccatgcccag ctaatttatt tatttatttt tggtagagat ggggtttcgc2101 21684 2161 caaagtgctc tgggattaca ggcatgagcc actgtgcctg acctcttttc ttcttgatgt2221 gaaattcttc atagattaga caaatttgcc cattgtgcaa atatgttgca aatatatttt 4681 ctcagtttgt catttatctt gatttttctt atggttttaa aaaaatgtga ttggatttat2341 ggtttctggc attgaaccat agttataaat gtattcttta ctctgaggtt gtccagggaa2401 tcttctaatt ttcttaattt aattttcatc ttttaaaaac agctctattg atgcataatt2461 gatatacaaa aatagcatat atttactact atttgatgag tttggacatg tgtacacacc2521 2581 2641 acagcttatt tttctttcca gatggctata ccttgttcta ggacaattta ttaaatagtc2701 catctttttc tttctgatct gagatgctat ctttattata tgctaaattt ctgtacatgt2761 ttaaatttat ttgctccttt tgtttgtctc tttgtacacc agtatctacc tcattgttct2821 aattattcga gcttcaggat acattttaat acttctgggt aggaacagaa ccttctcgtt2881 actcttacaa aattttcttc tttattctgg tttatttttc ctaagaactt taaaagttgg cactgaattc caaaatagaa cacccaaaaa cctgttgatt tttccactgg gattatgtta3001 8630627 861 gagagcatgg tacgtctttt catctgtaca ggtctttttt tatattgttc agtagcaatt3121 taaaaaaatc atccactatg ttcaatgaaa taaaaggcca gatttaaaaa tttggcaagg3181 agttgaaaac tataaaaagg aaccaaataa aaattctttt tttgccccca taaggcagaa3241 gaaatacaaa ttctacaact gaaaaaatat aatatctgat attaagaaat caataaatgg3301 tttattatat tagctacatt tgaagagaca actaaaaaag aaaaatattt tcaaaccaac3361 tcagaaacaa gaagatggaa aataaagaat acaatgctat ttatatttat atataatagt3421 atatataata cacaagttta acataggact gcatttgcag aatagaagag agataatggg3481 gagatagcaa cacttggaga aaaaataacg aacacttttt tatttaaagt gcctaacttg3541 gctgggtgtg gtggctgaca cctgtaatcc caacactttg ggaggctgag atgggtggat3601 catttgagcc caggagttca agaccaactt gggtaacatg gcgaaacccc atctctacag3661 aaaaactcca agaaataaaa aacaataatc atctgagtgt ggtagcacat gcctgcgtcc3721 ttgctactca ggaggtgggg gtggcagaat taccagggcc tggaagtcaa ggctgcaatg3781 agctgtgatc gcatcactat acttcagcct ggttgacgag tgagaccctg tctcaacaaa3841 taaaaataaa aataaaaata aaaatgccta acttggtgct tggcactttc taaaattgac3901 acataatatt tgtacctgtt tatggagtatatgtgatatt ttgatacatg catacaatgt3961 gtgtaatgat caaatcagga tatttaagat atccatcatc tcaaacattt ttctttgtgt4021 tcagaacatt ccaaatctag ctattttgaa atatacaata aattattaac tatagtcatc4081 ctaatgtgct attgaatatt attgaattcc atctaattat atgtttgtac caattaacca4141 atctctactt attcctcacc cccagctccc accaaccctt tccagtctct ggtaactatc4201 420 4201 attttattct ctacctccat gagatcaaat tttttacctc ccatatcgtt gtcaatatta4261 ttatttttcc caccctggct cctaatgaag gatttattga caatatcact ggaatctaaa4321 tcctctaggc cattttttca ccaatgccct tattttctta gggctttttt ttttcttaaa4381 tcaacagttt taatgagata taattcccat tctataaaat ttcctcgttt gaagtgtaca4441 gtttaatagc ttttagtata tccacagaag tgtgcaacca tcaccataat aaattttaaa4501 acattttcag cagggcgcag tggctcacgc ctgtaatccc agctactcag gaggctgagg4561 45 4561 caggagaatt gcttgaaccc aggaggcaga ggtttcagtg agccgagatt gcaccactgc4621 aatccagcct gggccacaga gtgagactcc atctcaaaac aaaacaaaac aaagcaaaat4681 aaaacaaagc aaaataaaac aaaaccaaaa cccaacaatt ttgaacattt tcatcttacc4741 accctgccaa aaatccctgt tctccttagc catcaatctt cagctcccta cccacttcta4801 accatgaatc tattttgtag atttgtctat tctcgatatt tcatatgaat gaaataatat4861 aatatatggt tccttgtgac tagtttcttt cacttagtat gtttccaagt tcatccatgt4921 tttggtatgt atcagtactt cattcctttt tatcatggaa taatattctg ttgtattgat4981 atactacgtt tcattcattc atctgaacat ttggattatt tccatttttg tctattataa5041 taattctgct atgaacaccc atgtatacgt ttttgtgtgg acatgatttc attttccttg5101 gatatacacc tagcagtaga attgttgagt cataaagaac tctaggttta gctttctggg5161 gagcttccag attattttcc aaaatggctg tgccatttta cattcccacc agtaaagtat5221 gagggttcta atttttccct gtcttcacca atacttgttg ttatctatct tttttattat5281 agtcatcata gtctgtatga agtgatttct cactgtagtt ttttcagtag taattaaaaa5341 56 5341 atttcctacc tattttagcc taaaattact ttcctgactc tcttcaagga gcctgccaga5401 gaattctctc tctcgtgctg tctcccttat gcctgggcat aagctctgat aatgccctgt5461 ctgggaaaac tcttttggcc ttctcaattt ctattacatt gagagcccaa gaacccatgg5521 tcagtaacag gccaatgaga agcctcctgc attagtctag gtgaaggata atggtggctt5581 ggaccggaat agggtggtag tcatggaaat ggggagaatt tgacagacta gatttatttt5641 ggaaatagaa ctgaatctga acagattgaa ttgggcaggg agcagggaaa gtgaagggga5701 aggaagacac caggtttatg ccttcagcat ttgggtggat gaatggatgg atgaaaggat5761 agatggatgc atggatggtg gttggatgga tgagtggttg gatgaatgga cggtcaaggg5821 gtgaatagat gggtggatgg aaaatggaga gatgatgaac tgagatgggg aagactagaa5881 gtggggcata tttttgggga aagacagttt tgcaatacgt taagtttgag gtgcctcaga5941 gtcataagag aggatttgtc agaaaggcag ttggatataa gattttgaag ctcaaaagac6001 600 6001 agggagggcc tgatggtatg tttaaaccta tacggatatc acataggtaa catttcaagc6061 60 6061 ctaagaaatg ggccgggcgc agtggctcac acctgtaatc ccagcacttt ggaaggctga6121 ggcgggtgga tcacttgagg tcaggagttc gagacaaacc cagccaacat ggtgaaaccc6181 catctctgct aaaaacacaa aaattagtgg ggcatggtgg cacatacctg taggcccagc6241 tactcaggag gttgaggtgg gagaattgct tgaacccggg aggcagaggt tgcagtgagc6301 caagattgcg ccactgcact ccagcctggg cgacagagca agactccgtc taaacaaaac6361 aaaacaaaaa aagccttaga aatgggcaat gccaccaaag cagaaagatg aaaggagggc6421 aatgccctga ggtgtgccag cattggagga aacaaacagc cagagatgta ggaggaaagc6481 ccagagaaac tgtgagctgc aaggatgaag tagtaacaaa taaaatgcca ccaagagaac6541 cagaaggacg actggaaaca aataaacaag aaagactatt gcatttagca acgtgaaaac6601 gttggattac tttttactca gaaatcaaac cccaaggata gtgtttcccc tccctacggg6661 gtttctgcag gtccctttac acgccccctt ctacttcttt aagtgctaaa agtgattaat6721 ttggggtgat gttttaattt ctattctttt tggcttataa ctgtgttttt tcattctttg6781 caacaacaga tagtatgttg taatagaaaa atccattgtg gtcaatgata acttctgcct6841 gttcctgggc acagggggca tcactattag tgcctgttcc tccctcccta ctgctgataa6901 ggaaacaggg gcaggaataa tactaataat ttgtgctact ttttctgcat acccttggcc6961 696 6961 ttattctggt ctactgagct gggagcttgt ctgaggctgg agctctattg tctgaatcca7021 ggggcagaaa gaactgaggg ctcttttacg gcatccacct ggaggctgcc tgcaggcttg7081 ggttgctaag tgcactgctt aatttagaag cgccttttat cctggctctc ttgaccagtc7141 aaagttgtgg tcgctgtttt ctacaaggac tggggaaaga aagggtggaa ttaattaaac7201 ctggaggaag ggactttgaa gggcggagct aaggtcaaag aaagaaccct ttaaataaag 7261 ggcccacact ggctgccagg gagtgcgcag gactggcaag agggaagccg ggctgctcca 7321 cgcctttcac gccttccacc tcctgcgtgt ccatctgtga gaaggagcca gagcccaagg 7381 gagatgatgg agcctgagga gtacagagag agaggtgagc aacgggcatc cctggccctc 7441 ttccctgctg ctactcctgc aggaacggct gctggtgggt ggcccttaga ttgtggggtg 7501 acatttgatg ggagcattag aattgccttc tgagagttgg caccagcaac attttttttt 7561 ctgcgaaagg aatgtgggat cagagtgtaa aacttttctc aaccactctt tcattctccc 7621 tctcatatac ccactctcac atatgtccac actaccgtgc cttgcttttc ctccccactt 7681 tcccacaaaa ttgaggattt ggatccctga gccactagat gggaaaaggg gattgttcat 7741 attctgaaat agaaaaaaat tttctcaata ttctgtaatc actgcaaatc ctttctttct 7801 taacattcat tccttcatgt gtgaatctat cagcagtgtt ctttcattta gtcattcatt 7861 tcataaatat ttagtaggtg cctactctgt atcaggcaaa accaagtggt tatccagttc 7921 tcaggcatgg atctccctta gcaggaaagt aggtagttgc ttaaaaaaga atcttgaatg 7981 tctatttcta taatgtttta tatcctccta ctcactaatt agtgtgcgtt agcttattcc 8041 attgctttcc taaggcactg tcagctgaga gcaagttcct gtggatattt atcttctgag 8101 tggaacacaa atacatttag cactgttcct ggatcagtgg agggttaggt ctagagctct 8161 cagatctctg gtggggccct gctggagaag aaccaggatg tgagagggtt gaaggggagc 8221 agaaggaaga tagaatggtg tggaaatcta cctttgtctc ataagttttg tctggggttg 8281 gttctgttct taagaacttt gcataagctg atgcagaggg gagaaactga gtcccctctc 8341 ctaggtaaaa gcagcccagg gagtactaag gaatggatgt tgagacagac aaagagatat 8401 gtacacacac acacatgcac acacagcaac agaggcactg aagactgcaa tctgaaagaa 8461 taaataattt gcaatagttt cagagtgttc aacttgactt ttttttcctt ccttactcat 8521 atgttcattc acttgataca ttttttttta gcatctaaaa aatatcctaa gcactgaggt 8581 gttgatggag gcagcaggag ggagagaaag tcattaagat ttggtgccac atttcccagg 8641 ccagggcagg gggcttggtc tggatccatg gttgtgcttt agggattctg tgagcctcag 8701 aaattataca caaagttctg tgtatatgta agcctacagt tttaatcaga ttcttgaatt 8761 aagtcctcat atgagtccaa aaaagatgaa taataactga ttcaatgggg atggtgaaaa 8821 aatagatttt tttgtccttt atcggaactg ggcatggaat ctttctatct gtgctaacag 8881 atataactgg tgggtgtgtg tgtaacaatt tttggataca aagagctata gagtttctat 8941 tgaacctata aaatagttaa tagatgttct gtttctgaga aggaaagaaa ggtaggagag 9001 acaatcaaaa ttgaagtgga taaaggaagg ggaaagaaaa tgaaacgttt cactttggcg 9061 ctagagtttt gtgctttgga gattttcctt tttgttcatt tgctcactta gaaactccct 9121 ccatcattca ttcactccct cactcttttt ttaaattctg aagataaggt cgtgcagggg 9181 atcagatcct accctcggcc catgaatctg tctctctctt ttttttgagt ccaggctgga 9241 gtgcagtggc acgatctcgg ctcactgcaa cctccgtctc ccaggttcaa gcgattctcc 9301 tgcctcagcc tcccaagtag ctgggattac atgcgcctgc caccacgccc ggctaatttt 9361 ttgtattttt agtagagagg ggtttgacca tgttagtcag gatggtcttg atctcctgac 9421 ctcgtgatcc gcctgcctca gcctcccaaa gtgctgggat tacaggcatg agccactgtg 9481 cccggccaaa tccatctcct tctttaccaa gtctcttggc ccggacctga gagggatggg 9541 cacaaatcgg tcaggcccag tcaggggatt tcagcctgat ttctctatgt cacttctagg 9601 gagagagatg gtggattaca tctgccagta cctgagcact gtgcgggaga gacgtgtgac 9661 gccagacgtg cagcctggct acctgcgagc ccagctgcct gagagtgctc ctgaggaccc 9721 cgacagctgg gacagcatct ttggggacat tgaacgaatc atcatgcctg gggtgagaca 9781 cagtgaccac aagggcagtt ctggatttca gggcacagaa gggtgggtgg tggcctggag 9841 aaagacctgc tttgggtcag cttgggatga gaatgcatcc ttcagccact tggccaccaa 9901 caccccagcc catctgctag gcatgtggag ggcaggactt tgactggtat taggtttctt 9961 tttctttttt tttgcccagt tgtgccatgg catgaggttt ctgatgccag ggcagggctg10021 gccagaacac ctgcattcca gagcacagcc tggcagaagt gtggaagtct aatgggatgg10081 gtggagaagt gaacattttg tctgagggga aaggacactg tgtatagtaa gacaggggag10141 aggaagctgg tggtagtgcc tggccctgac gacggagcca gagactcttc tgtacagtgt10201 ctgagaccac accaaagaga aggaaggaag tggggaacac atcctggcaa ggacacgctg10261 gtgaccaggt tgcgttggcc caggaaactg agtgggccct ggcaacccct cctgtcccct10321 ctgaggtctg gtgattgagc tgcttttcaa gagcaagaag ggactttccc tgaatcattg10381 atactttcca tgatggaggg tgcagcctgg gatagtgctg gtggggccag gaagctgatg10441 gaagctggct gatgcatggg cttgagctgg agcctgcctt gatgggtggt ggacacccct10501 gaccactggc ggtgaggagc tctgccatgg tgctcatgct aaagtggcat cgactccctt10561 cctgtggcgg ggctccctgc catgtgccag ctctgtgctg gccacatgac atgctatcta10621 atttaatctt cccagtggcc ctgttttaca gatgaggaaa ctgctgatgc tcagagaagt10681 10668 10681 taactgtctt gcccaaagtc acagaattag tacctggtag atccaggatt ttaccctaga10741 ccagtcttac ttcacaggct gtgccgtttc tcctaccccc tgtcacctct actggtgggt10801 10826 10801 gcctgaatgt gcctggctaa gcctgggccc ctagcattgc ctgtctggct ccacaccccc10861 10828 10861 acacaagctg tgtcttccct ctccctgctt ggggcatttg tgttctgaac cacacatgtt10921 tagaggctct tcctgaggcc agcttgaggt ttgccttcat cattcccaaa gaacttttga10981 109 10981 cttcaatgtg acaaaaaggc caggcgcggg ggctcacacc tgtaatccca gcactttggg11041 aggccaaggc aggtggatca cctgaggtcg ggagttcaag accagcctga ccaacatgga11101 gaaaccccgt ctctactaaa aatacaaaat tagctgggca tggtggcaca tgcctgtaat11161 cccagctact tgggaggctg aggtaggaga atcgcttgaa cccgggaggc ggaggttgcg11221 gtgagctgag atagcgccgt tgcactccag cctgggcaac aagagcgaaa ctccatctca11281 112 11281 aaaaaaaaaa aaagtgacaa aaatatgcct agaggcaggg gtgggaaaat attcaaactc11341 agaaagtgat ggcaattttg actttttttt tttttttttt ttgaagcaat agagacaagg11401 tcttgctatg ttgcccaagc tggtctccaa ctcctgggct caagtgatcc tcctgcctcg11461 gccttccaaa gtgttgggat gagaggccta agccactacg cctggccatg agggcaattt catacaaagc cactcatctc tttgaccatt cagcctattt cacaagcatt ttttgaaaat11581 gtcaatatca gtaaggcttt acggaggcta gatcctgata agattatctc ctggatttta11641 ttctgtaaaa tgtaatctgc tgaggggcta actgtaatct gggagtgaga ctgaaagcaa11701 ctgtcagaag aggtggaaat gagctgattc atttgatcaa gaggaattcc agcagttgct11761 gtgggtatgg tcggtgaggc tcatttctgg aaagaggtct gtttgttttt gataagggct11821 cttctggcta ttttatctta tttatcttac aagaacagac tattgtctct tgatagagct11881 aggaggtaga agcccttctc tggggtttcc aaaatactgt cactaaggac agtgataatg11941 atggtcaaat ctctcaactc atctctcagg ccacaccagc ctctgagagc tggcctgaaa12001 gcagttggcc ctttgcttac tcattttgct cagtgcctca ttgaaaactg aattagtttt12061 tctcttcctg ccaccaccta gaaaataaga gaagaagaaa aactctcttt cccctttaat12121 tccaaccctg gttagacaat cctcatttac ttttcatgag agagagagag catccccacg 1215981 12242 12241 gtccctatgg ggtatgtgtg accacaggga tgtggcctct ctctgtcagc cccagttctc12301 gcctgcaaaa cagagataat gtgtaggtcc taccccatag ggtcctgtga gaagtaagta123 agagaaggct tggagagcag gagatgtggt tattaccgat catgactctt acatggtgaa12421 aattggagga agaggtttga ttctctgagt caagtcagga tatgtgatgt gtctgtcacc12481 cacatgatta gtttaccgtt aatgttagag cttaacattt cacacatttc ttgcccacgc12541 ctccacccac acaacaaccc taggagacag gatttatttt acgatgagaa actgaggttg12601 agggaggtgc aggagaggct cctggtctta tggggtctgt actgtaaaca ctttttgaga12661 12721 agcactttgg gaggctgagg cgggtggatc atgaggtcag gagttcgaga ctagcctggc12781 caacatagtg aaacactttc tctattaaaa atacaaaaaa ttagccaggc atggtggtgg12841 gcacctgtaa tcccagctac ttgggaggct gaggcaggag aatctcttga acctgggagc12901 caggggttgc actgagccaa gatggcgctg ctgcactcca gccctggtga cagtgcgaga12961 atctgtctca aaaaaaaaaa aaaaagaatg aatctcaaaa gagacccaca caaatggtat13021 gttggagctt aagttcatta gcttcatggt aaatctacac ggtcacacag ctggttaggg13081 actgaggtgg gatgggaact tgtgtccttg gacttaattc ttaggctcct tatactatac13141 acactgtcca ggacaaggtc cttgctcttg aaggactcta agtatgtgtg gacagtaaag13201 aacaggatga tgccctaaga tgttatcaaa tgagtcctca gtagagtgaa acatctagaa13261 ttctagagtt ctatcgctca gggaagggat cgaagggagc tgtgggagct gggggagagt13321 13348 13381 tctttataga gagtgccttt ctatcagggg acacagcatt gctcaaagac ataaatgcag13441 aaaggaacag ggcatgcttc agagcagtga gatgaggaga gatgagataa tccatgaggc13501 cgatgaacca ccagggctgc ttctgagttc tgatgggggg cccttcctgc ccactcagct13561 cctccttaca tccggttttg attgtgggct cagggcttag cctggaggtc ggcctcccat13621 acgcttggtc tgggctctcc tctctaccgt ctcctttcct cactacattc ccaatgtgat 1366381 gcttaaggac agctttgaac ccattcaccc agaccctctg agttgcatgc tcagggagct13741 cagtgctcca taaaacaaaa acaaaaggtg ccttttgcaa gaaactggat gaaacaagta13801 gtctgctttt ctggagctca cagtctgccc ttcctttttt ttttttgaga cggagtcttg13861 13921 8421 cgggttcaca tcattctcct gcctcagcct cctgagtagc tgggactaca ggcttctgcc13981 accccgcctg gctaattttt ttggtatttt tagtagagat ggggtttcac catgttagcc 8641 aggatggtct caatctcttg atctcgtgat ccacctgcct cggcctccca aagtgctggg14101 1417 14161 catgaggggt aagtactggg gactaatgtg aataccaccc agaatcccac aactgggtta14221 ctgtagtgat tttccttttg catatttcct tctggacttt gcatatatga aaaggctcca14281 ctgatgatct agcataggac atgggccaca ttagtgacaa gaacaccagt gaacaagtct14341 gattttcatg gagttatgtc acttatttct gcttaaaagt gtcagcccat ctctagagtg14401 acacttcacc ttgccagaga tggtctctgg agaaagaaag cctgctggaa atgcctcctg14461 gtgccaactc tgtgcatgct ctgcctccag gtggtacatt ggcagagccc ccatatgcac14521 gcctactacc cagccctcac ctcttggccc tccctgctag gagacatgct ggctgatgcc14581 atcaactgct tgggattcac ctgggtgagt agcaacggct gtaactactc gcaatgggga14641 acgtagcagg gagtggtatc ctagggcaga catattttgt cttggtttct gaatatggct14701 ccacaataaa tattaatgag ggctatattc tttaagctta cgctttattt taattttctc14761 atcacatcct ttaaccctat ggaatcacga gtattgatcc cattttgtag gtgaagaaat14821 cgaggcttaa gcaacttatc tcccccagat cacacagctc atagagacac agataagact14881 5814941 tgagtcacca cttcctctgt gctcttgtat ttgagtagct ggagatatgt cctaagactt150 cccttaataa ccccttaagc accactcagc tttaaatggt gccaaaagcc ttccagaaca15061 tctttttatt ttaagcctga actcctatgg gtgtgtgggt gggtgggcgg gggtattcat15121 atcttttcta ggaaaacatc cccctgggca tttgaggact tctcagctat gtattttagc15181 gacttggaga accaaatcca agccaaccat ttctagggct gtttctccat agagccttgg15241 agaattcgcc tcattgaggg cagcatgaat ccaaaacccc acattatttt ctcttttggt15301 tgacagagag tggaccagga gagaggcacg tggcctaaca tgaccccttc tccagaaatg 8461 ttcccattga caccatcagg ggcagacatg tttctggagc tcgtgggggc acctcagtgc15421 cctggggctg tgcagtttga agttcctttt cctttctcag gcatccagcc ctgcgtgtac 8681 agagctggag atgaacgtca tggactggtt ggcaaaaatg ctgggacttc cagagcactt15541 cttgcaccac caccccagca gccagggcgg aggcgtcctg caggtacctc ccttggcaaa15601 gcttcaccta gcttgggggc taagtagcga aagacaagcc aaaccctaac ctggcaattc tcccgttctc catggagttt cccccacatt acccacaccg tcatcaccaa cagcaccatc15721 atcacagctt cacctctact cccacctcag cttctgcttc attcacatgt actgctactt15781 cctttgaaag aaattaaaga gccaacacat gatcacattt ccagtatgac ttgattcagg15841 tttcttagtc tataatctga caattccttt ttggtgtccc attttgtatc tcacggtaaa15901 aggggaaagg agaaggcaag gagaggactt ctctttctct ccctgctagg ttcaggagat15961 ccccttgcag tgagagcaat taacagcata aactgattaa cggtatcctc tgaccctatc16021 ttctggatac ttgtcaaatt atggttcttc aaatatttct ttttttcaag agtagtgcca16081 tggagtggag ctttctgggt gcctcccatg gaccacacac attgttaggt gcttttgcat16141 ctataaatcc ttgacgttca tgagggcttg gttctaagac ctttgagatt cctcagattc16201 ttgaattctt tttttaaata aaaatcgtgg ctggacatgg tgactcaccc tgtaatctca16261 gcacattgag aggctgagac agatggatca cttagcccag gagttcaaac cagcctgggc16321 aacatggtga aactgatctc tccaaacaaa caaaattagc tgggtgtggt ggcatgtgcc16381 tgtagaccca gctacttggg atgctgaggt aggaggattg cttgagccca gaagattgag16441 gctgcagtgg gctatgattg tgccactgcc ctccagcctg ggcgacagtg taagaccttg16501 tctcaaaaaa taaaaaaatt gccatgttgc tctgagatga gaaccaggaa gttcactagg16561 tcctcttgct agctaagtga ctccctctct cactgcagcc ttgcagcaag attaaaatct16621 gaacctcgga agaaagacaa attgcagcat gttgtggaca ttttggattg tcagcaaata16681 gttacaactt cagatatcat atttgggaga acatgctaaa tgtctgcggt acatgatctt16741 gcttttcatc tgattatctc aggaaccctg caggtgaata gtaccattcc ccaatgtttt168 gagataagag cactgaagtt cagagagatt aaataatttg ccctagctta cacagctgat16861 aagcagaaga acgaggattc aaactgatgc ctgtctaaat ccaaaccatg ctttctcctg 169921 tatcgtcagc catgtgaact tgagttagtc ccatcacctc tctgagcatc actctcctca16981 17041 ccagaaagtg ttttgtaaac tatgaattgc aatacagatg gaaggtgttg ttaccattat17101 tattattttt aaaaacaggg cctggttctg tctcccaggc tggagtgcag tggagccatc17161 atggctcact gcagcctcca tctcctgggc ccaagcaatc ctccaacctc agcctcccac17221 gtagctggga ctacaggtgt gcaccactac acctggcttt ttgttttttg ttttttttgt17281 agagacaggg tctcactatg ttgtccaggc tggtctcaaa ctcctggact caagggatcc17341 tcccaaagtg ctgggattac aggtgcgagc cactgcaccc agctgattat tattattatt17401 atgctacata cttctttaca taaatagctt tctttttatg gagtaactcc caggcactta17461 atatctgtgg gatctggtcc acaccactct ccatgacagt gtctgccagg catttttagc17521 aggattctat cagctgtagg tcacttgaag atttcaagaa gcaaagacat caaagactgg17581 gtgaatgaat gataaggaac cataaagact cctgtgaagt tcctgaggtg gccccgaaga17641 tttccacaat catggccaga gcaaaatcct acccaaccct tgtttggata atctatactc17701 ccatcctggg aagcagttaa agggatgctc tccatttcat agacagaaaa gagtcttctg17761 gaggggaaat gttagcccaa ggtcacaaga gctattgaca actaaatggg cccaagtcac17821 cagcctctca cacaggccag gatcctctct tcctggggac tcaaactcca tatccatttg17881 tgtaataagc tgagagttct tcttttaaat atgttttaca tggggagcaa acacatccag17941 gagggacaga acattctctt tttggtttct gtggcctctg taatagagag gctggtatta18001 ggtgcaaact tattttagaa ggcagaatag gaatgaaagt tggggaggga catgggcacc18061 ctgggcagga ggagctgtgt atttccttct gtgaatagct atgacacaca catacacaaa18121 cacatacaca cacagagaga gagagagaga gagagagaga gagagagaga gaaaaaacta18181 gaaagcctgg ggaaatttgg caagagaata cagaaaggct gccatgataa tccttttccc18241 ctgcagagca cggtcagtga atccactttg attgccctgc tggcagcaag gaagaacaaa183 atcctggaaa tgaaaacgtc tgagcccgat gctgatgagt cctgcctaaa tgcccgactc18361 gtggcctatg cctctgacca ggtgagttgc ccgacgcagg acagcccttc gggttggtgc18421 18481 ctgagcagct cagacatggg agcttgtctc cagcaactgt agggaagaca agcttccaat18541 18672 18601 atgactcttt gctgacaggt ttctgtggcc cttctaggct cactcctctg tggaaaaggc18661 tggtttgatt tcccttgtga agatgaaatt tctgcctgtg gatgacaact tctcactccg18721 18792 18781 tgtaagtcag gatatatgcc taagcttaga atgatagaac ttggatgtga ggaaggaatt18841 ttggcagaat tcaggtaagt aacatgctgc acacaaaagc agaaaggtcc tcccatacag18901 tattttacac atcatgaggt gctatccata ggtgtgttat ggaataaatt ttgtgggtca18961 taaccagcat taaaaagaaa tatagtataa aatattagag tgcacacata tagccagagt19021 atgtattgtt ttatgaaact tttttttcaa atacacacgt atacatgtac tagattgtta19081 tataaaatgt gtttcttacg agccatggta aaacacagtc tgaaatatac actgttctgg19141 tgggatggat gggagtagat cacgtctgtg gtgaaatctt tctcaggcca aatgtgtcac19201 acgagcccac cctcctgtgt taacttgcct taattttccc ctaggtctgt gcaacactag19261 ggaccactgg ggtctgtgca tttgactgcc tgtcagagct gggccccatc tgtaagtatc19321 ttccctctgt ggctaggaag acaaggaata catttttaaa tgtctcctaa agcaaggacc19381 tgaaaccagc tctatgggat tattcttgtt cctctttggt caatgcagag acatgggaag19441 aaccaccaaa ggtcatgagg gtctcttcca gggatccctg gacattgcct ttcccagtgg19501 tgtgacaaga gttagaggtg gcctaccttg cctcctgtcc taggaggcga cagtaggaga19561 195 gccttcggtt ttctcatcct cttacttgta tgttgaactt tacttaatgc aggctatatc 1965921 1966381 19741 gactgtttaa tccccaagca agaaaccact aggaaagaga gataccttcc ctctaacttt198 tgtattcggt gcactgacat tgctctctgt gctggtggga aattgatttc tgtgccagga198 tgttctaggc tgaggccaag agggtgctgg ccctttaccc agtggaagaa aaaggcaagg19921 gtgaggcttt gtagactttc ccattcggag gtaatgatgc ctccttcagc cccacttctt19981 20041 caaactgact ccacctgctc ccatctccac acccctccgt ttctcattta gccaaagcac20041 atcatccttg cagcccacca ctcagcttgg ccaggtgcga gacatctttc cccacttcat20101 acctcccctc cggccaggtg atgtttgcct cctcaggtgc ccgtgagggg ctgtggctcc20161 acatcgatgc tgcttatgca ggcactgcct tcctgtgccc cgagttccgg gggtttctga aggggattga gtatgccgac tccttcacct ttaatccttc caagtggatg atggtgcatt 20227 20229 20341 gcctcctctg gagagacctc agccactaat gcccatttgg aaacccacag ggtcaaggac20401 aagtacaagc tgcagcagac cttcagtgtg aatcccatct acctcaggca tgccaactca20461 ggcgtggcca ccgacttcat ggtgagtggc cagggacggg cagcctggtg ggctcgggtg20521 gccagtggga actgtaggcg tctgaccccc caaaatctgt acggtggctc ccttcagaag20581 gcagcacact atgagctcat ctcataatac tgccaatgca taccttggtt tctaattgtg20641 cctaagtata tagaatgaaa cccagaaaat ggttaaaaac cctagaaaat gagaccagcc20701 tttgaggcag tgtgcacatt tcctgaatat ttgtggcatt ttttaattcc cagaaatgct20761 cttcctacca caggtggacc agttccttct gcctccatct cgggtcatct tttttgtttc20821 ttacccagca gcagggcagg gtggagaatt tccctggtgg ggaaagagct ttcttgctga20881 aatcgctttt gtttttttgt ccctgacaga ggcgctgtgg ggcagctctg tggtagtgat20941 gggctgcagg acttgtgtga ggttctggaa gcctccaagc attcctgact ttcccaactg21001 actgcgcctc aactctctaa ctcactctct ctctcttttc ttttgttttc tttctttctt21061 21121 gcgcatcttg gctcactgca acctccgcct tccaggttca agcgattctc ctgcctcagc21181 21253 21241 gattccacat cctcagccag tattttgcct gagggaaacg agttcttaac aaattgactc213 cgcagtttga ggatgagccc ttcctttact tgtaggggag acagggatgt aaacgaatgt21361 attacacata acctggccaa cggaggcagc agagcagagt gggggcaagc ttggtttgga 21481 ttatctgtaa aatgagaata gtggcattga ttcatagggt attgtgaagc ttaaatggga21541 acacgtgtgg atcacctagc aaaatagccg tgtggcaagt gctcaatata tggtaggcat21601 3561 gtaggtgcta aagccagatg gcatgtgttg gagtcctggc tttctgttta ctaacttgtg21721 tgacctcggg caagtgactt aaactctgtg tccagatttc ctcttgtgtc aaatgaggct21781 gatgaccaca gttctggctt cttaggcttg ctgtgaggat tatacaaatt aatacactga21841 agtgctgaga gcagtgtctg acccctgtaa gcatccttcc ttgtgaagag atggttttat21901 cttatcttct tggacaactg aagtgtcttg cccttttagt cttaaaataa tagcttcgtc21961 atcacttgat tatactggct attctccctt ggaccagtcc acaccctctt tagatatttg22021 aagcttttgg attagaattg cagcggtaag cctcacggct tactggtggt gacagaagac 22048 22081 cctctagagg taaagaaaga aagaaaaata atggttcttt atctccactg ctctttctgg22141 22223 22201 22224 22261 tgagtgtatt tgggtcatca taactgagga gcattatatt cacccttgcc cttttgaatt22321 tcatgttacc gtttaaattc atttaccaca gtgcctcagg atcttcccgg ggttcattcc22381 taggagtttg gagattttac agtgctctct gtcttccaga taactcataa aaatgttaga22441 gtaaactctt cccagccctg ctctggggaa ccttattatt tttacctctc cacccagaag22501 gcactgcctt acacttaccc ttcccccacc tttaatccta tggatttgat tttcaagtcc22561 atgaagaaac tcctagaaaa gtgaagttgc tatctttttc atgatcctga gggtcctcag22621 agctactctc acctgggccc aatgtctttc ccacccaggt ggctgcagct ttgaacagaa22681 gctcagtcct gctctgagat gagccagaaa cagggcagca tcccaggaga gaagacttag 8622741 gtgcttaacc cctggggtcc tggaatcacc taaaatcagg gctagattct ctgacagcgg22801 22 agaagctccc tgttttctgc ctctcactgg acagagagca ccagtggagg gagcgttacc22861 ttagccttgg caagggagcc ctgcaaggac cttacaagga cacagaggag gctggagatg22921 cctcaaggta aagaagagcc ctgtcaggct ttatacgtcc agattttttg atccaacaga22981 aaatgttggc tagaaccact ctgctgagtc agcatggatc agttttggaa tagtgacaag23041 aaaaggagca actgggaata aggaagattg tgaagaaatc aaaataaaat cacctctgcc23101 tatcctggtt tatttgctgg taaaataaag tagctctctc tatatatgaa ataaattggc23161 tataactatc tggaaaccag aaccttttga cagatgatcc ctatcatccg ttcattattc23221 23284 23281 ttccattttc aggttttgat gccttctgct ggcacaaaag cccccaagct gctccccagc23341 acaacagagt tttgcttgga aatcaaaggc ttagtagttt tctgctgggg aaacattgtc23401 catcaacaaa ggggtaacat cccaactgtg cctggctcag gaaactgggg tgaagggtga23461 23548 57321 23581 gatgtcatta ggaaaccacg tgactcatta gaataactgt aaatgttttc caaatcctct23641 gctctatttt cagatctgag aaatcagtct gaaattgatt tggaaatttt cagatgtatg23701 gtgactgcaa ccttgaactt taagctctgt tgaatttggc caccaggagc aaagagtcaa23761 ttttcatcta acagcggcag aaatttgggt gctcatttga aatctgacag ctggagtgat23821 ggctctcaga tcacaggaat ctcacaggaa aatgaacaag gcagtgtaag gttaaatagg23881 ggtcatcttg gctctagaca gaaatgctac tgtgatttgt agctcacatt ttaaaataat23941 ctaaatagcc aacacctact gacaacttct tctgaggctc ttggcgttct ttgtcctcac24001 accacttgcc cgggaggtgc aattggttct ttatgtcccg gactgatgag ccagtgaggt24061 ggcactaccc aaggtcacac agctagtaag tggcacagct ggaggcgaaa cctaggtctg24121 cagggctcta gtgtctgtgc tctaactacc atactttaca ttttgggagg aataaaaata24181 242 ttatgttgag tttctgggcc gggatgaaat gtttaaagca gcacttgaaa gcaaagtgcc 24361 72 tgatttggtc acacgatggg gcaacccttg gggagcttgg24421 cttactcctt agcaacagct cccagagtca tggtgacatc gtccatccct ggagggctgg24481 gcaggcaaca gataatgccc agaaatgccc gagggagtgg ggcacccttg tctctaacct 2456 tgggcactgt gttcctttgt ttctagcact ggcagatccc cctgagccga cggtttcgct24601 ctgttaaact ctggttcgtg attcggtcct tcggggtgaa gaatcttcaa gcacatgtca24661 84 24721 gaggaaggct ggtttctact ttgcagatct gcctaggaga cttgcggtgt gtggttcagg24781 tgtctgggcc tgttcctcag ctcctgggac ttgattctct ttgttaacca gaggagcgct24841 gagcacaaca tgccctgagg gctgcctgat gcctgtcctc tgctgagtgt ctcaccgttc24901 cccttgctgt cactgagcac tggggagggt tggccccaga gtctggtttg caggaaagag24961 aaagagaaag taaatcaagg ggaagtgtgt gtggccaggg taggatccta tctgctttgg25021 aattacctca atggtcacag ctggctgaat acttttagca ctattatgat tatgcctgaa25081 ataaagctcc cctggccttg gacaggtaga cctaccaagt ctggaacaaa cctccctgca25141 tcaacaggca tttattgaag gcctattttg cttaatttat ttctattcaa ttcaacaatt25201 acaaggtatt gtgctaagaa agggacacag aggtaaatga gacaggtgca gcctctctcc25261 catgttcttc atggaagaag cgggacttaa ctaagaactc tggccactgg cattgttctc25321 ccacttctac aagagtccac atgcaagaca aagccattga taaaagtagt gggggaagct25381 gaagacactg tcctttctgc ctatgtgtgt ctttgtcctt ccacctttcc tctagggaat25441 tccttcttgg ttaaacaaac acaaaccaaa atgaagtggt ggaagcggta actatgattt25501 tttttaacat ttaaaaaaaa taattattat gcttacataa taattacgta tatatttatg25561 gggtatgtgt gaggttttga tacaggcata caatgtgcaa tgatcaaatt agggtaactg25621 ggtatccacc actcaaccat ttatcatttc tttgtgttag aaacattcta gttccattct25681 ttaagttagt ttgaaatgta cagcaaatta tagttaacta tagttgcctt attgtgccgc25741 36801 cattccctgc tacccttccc agcctctgcc aaccatcatt ctactgtgcg tctccacgag25861 ctcagtttgc ttacttttta actcccacgt ttgagtgaga acatgtgaaa tttgtccttc25921 tgtgcctggc ttattttgct taacataatg ttctccagtt tcctatgact ggttttaatg25981 ttggtaattt tacctttgta atcaccactg gttgtttacc aatgagcagc tgccaccaac26041 aatattgagg aactttaggc actttgtgct gtttctagaa atgcagactc aagactggag26101 ggttgtgggc ggggaatggt tggtggaggt tacaagtaat taggaacatt tttttgctta26161 cagtttggga ctggatattc aatgtgcaga tcctgactaa cctcccttag cacttctgtt26221 tgcaaatcaa acccctgaat tcctcctatt agcaacccca ttgcctacca tatgaggccc26281 acactcctgg gcctggcttt caaggacttg acgattagct cctaccttag cttgggcatt26341 tcatcgaccc atccagacct catgctcagt ccatctctgc accttcaccc gtgtccttca26401 cctgaactac cctctcctct ccaaatgttg tgaatggatt aaattctgct tccactagaa26461 gcttttctgc ctattccatc tgttctggtt tctgcttcat tagcattcct gtgatcacct26521 actcaaacac ctttacaaaa ctgtgctcaa agttcttcca atgtcccaca atagaagaaa26 tggaattaaa ataaagttgt ttgatatgat ttgattttat ctcttcaact tgacggtgat26 gataattatt gacacttgcg taatgccttc aatacaaaaa taaattctag ttcttcatta26701 gatccttagc acagtgcctg gggtggtcac tctaacctgg caaggctcag agggagtaat26761 686 tgccctgctt gagggaagaa ggcccgggac tttccctgaa gcctcccaat tccaaatcct26821 ttcttcatag ttctgggctg ctttctacta cactgagctc ttggaaagtt atataaaatt26881 aaatttcata tttctgtgtt acagagaagt gctttaaaga atggattttt agttctaccc26941 tttacctgtt tgatgacctt agacaaatta cttaaccttt ctatatttgt ctgccttatt27001 tatttattgt tatttatttt tgagatgcag gtctctgctt gctcaggctg aagtgcggta27061 gtgccatcag agctcactgc agccttgacc tccccaggct caggtgatcc tcccacctca27121 271 gcctcctgag tagctgggac tacaggcgca taccatcatg cctggctact ttttgtattt27181 tttgtagaga tggggttttg tcatgttgcc caggttgttc tcacgctcct gggctcaagc27241 aatctgccta ccttggcctc ccaaagtgcg aggattacag gcatgagcca ccacccctgg27301 ccatgccttc ctaatttata aaaatgagaa aaggatacta cctctctcaa attaaatgag27361 ataatatata tgcagccctt agcacagggt ctacctacta ctcagttaag tactcaatga27421 gtacctcttc ctcttctctt cttccccttc ttcatcatct ccttcttcat ctaattataa27481 taaattgtca tcatcatcac catcatcatc atcatcatcc tcatctccta tcacctacaa27541 tagggattgg taaacatttc ctgtaaaaag ccagatacta aatacttttg gctttgtggg27601 ccatactcta ttgtaattac ctctgtacta caagagctac cgtagacaat atgtaaacaa27661 atgggaatgc tgtgttccaa aaaactttac aaacacaggt gggggctata tttggccatg27721 gctgcactgt gcctgccctt gacctagagc ggtgcagggc actggcagcagctctgcttt27781 catgacctgt aaagtggggc tttggaggtg gcagtgctgcctgtgctctg tattctcctc27841 tcccctgacc tctgcttctg ttattgcaaa cagcatgtgt tgtaggaggg ataaaagcac27901 agtgggagga gatctaccta ctgtcacttg taccttggga aagtcacttt cccttggttc27961 cttctaaaaa atggaaagat tgagctgggc acaggggcac gtgtctgtag tcccagctac28021 ttgggaggct gaggtgggaa gctcaattgc tcccaccata gcccaggtgg gagttctggg28081 ctatggtgtg ctatgccaat tgagtgtccg cactaagttc ggcatcaata tggtgacctc28141 28126 28141 ccaggagcaa gggatcacca ggttgcctaa ggaggggtga aggggcccag gttagaaatg28201 gagcaggtca aaactcctgt gctgtttgaa actgaccacg caggggagaa aggggctctg28261 agaaagattt ggagaaactc atttcattat ggtcaaaaga caggctcagg gccagacatg28321 gtggctcatg ccagtaatcc cagtactttg ggaggcctag gaaggaggat cgcttaagcc28381 caggagtttg ataccagggt gaacaaccta gtgagaccac tgtctttaca aaaaaattaa28441 aaaatgtagc tgggcatggt ggtgcatgtc tgtagtccta gctactcagg aggtgaaggt28501 gggaggatta cttgagctca ggagttcaag gctgcagtga gctttgattg tgcaacatgc28561 ctctgtactc tagcctgtgt gacaaagcaa gaccctatct ctcaaaaaaa aaaaaaaaaa28621 aaaaaaaaag aggttcagct aactcccttg ccctctcttg aaatagagca gtaagtatga28681 gaactaactg atagaattac ttagcaaata tttttattga gatcttctgg atgcttggag28741 aaatttttaa aaagaaaaga gaaggcaagt cctgtccttg tttagttagt aatcctgggt28801 taaaaacaaa aagcaaaaaa ccccaggaca tttaaaaaga tggtatgaac ttcagtggaa28861 gattaatata atacaaagcc tttaacattt taaaatgtaa caaaatattc ataccataga28921 atgtaccatt ttactcattt ttaagtgtac aattcagtgg cattaagaat actcacaatg28981 tggtgtgacc atcaccatta tttccagaat tttttcatca tcccgagcag aaactctgta29041 tccattaacc aggtccaaaa cctttccatg atgggtggag acaagatgtg aaaatatgtt29101 ctctatggaa tgtcagaaac aggggatgaa aagggcattt ggggtacagg gtgagaagag 4661 gtttgagagg caagtgaagc atgtaggctt aggatggggc agggccgcca ctagcccata29221 tggcaacttg atgtgcacta caaacaggca tctcttcctt taggcacacg cagctcgcat29281 gaggcacctg gctgggaacg cagagcatgg actgggtttt ggccctcact tgcccacttg29341 gccagtcaag gagctgtgaa atcaggagtt gaggccgggt tgcctggact gcaaagcaca 2924 29461 tcccatgtga caggaaacag ggcgccattg gaaattttcc agcttggaat atgagcaaaa29521 tcaaatggag atgacaatga ggcagaagcc gcttacaacg gctgtgacgg gaagatggcc29581 ctggtttaaa accatttagc agtctgaaag tttatgcata gtctcttgtc tgatgattaa29641 tctcagttct ctttatactt gcaattccag ggtactgaaa tggctaaata ttttgaatct29701 695 2 29761 tttcgtctaa aggtaatacc atcttccaag cccctctgtg aatgatgtct tgtggtgctc29821 cagagcctct cggaaacaca aactgggctc tggggatgct gacagggggt gcgatggaga29881 cttcacttcc tttatttttc aaacagggtc ctaattgtct cacagaaaat gtgttaaagg29941 aaatagctaa agctggccgt ctcttcctca tcccggccac tatccaggac aagttaatca30001 300 tccgtttcac tgtgacatcc cagtttacca ctagggatga catcctgaga gactggaatc tcattcgaga tgctgccact ctcatcctga gtcagcactg tacttcccaa cccagccctc30121 gggttgggaa cctcatctcc caaatcaggg gtgccagagc ctgggcctgt ggaacgtccc30181 ttcagtctgt cagtggggca ggagatgatc cagtccaggc caggaagatc atcaagcagc30241 ctcagcgtgt gggagccggt cccatgaaaa gggaaaatgg cctccatctt gaaaccctgc30301 tggacccagt tgatgactgc ttttcagaag aggccccaga tgccaccaag cacaagctgt30361 cctccttcct gttcagttac ttgtctgtgc agactaagaa gaagacggtg cgctccctca30421 gttgcaacag tgtgccagtg agtgctcaga agccactgcc cacagaggcc tctgtgaaga30481 atgggggctc ctccagggtc agaatctttt ccaggtttcc agaagacatg atgatgctga30541 agaaaagtgc cttcaaaaaa ctcatcaaat tctacagcgt ccccagcttt cctgaatgca30601 gctctcaatg tggactccag ctgccctgtt gccctctgca ggccatggtt tagacacagg30661 gccttcagcc agagtctgag gatatacttc agggactctg tgaacccctc acaattgtat30721 gccaactttg tgtgcttatg tgtacatgca tttttcttgg ggcgagttca taattttaat30781 caaattctca taggggcttc atgacccaca ataggataca aacgaagagt ttaagccagc30841 atgatccaga tgggttcagc agtctggtca gtgagaaagg gccgagggta gacaggcagc30901 ttctgtggtt cagcttgtga catgatatat aacacagaaa taaattatgc ttgtccctga30961 aacaaaacat accctgtgtc acttaattgg ctgctgaaac attgattaac cagtctggga31021 gcttaaacat atgtactttt tttgaagcat caattatgag tcaggcactg tggctcatgg31081 ttcataaatg aggaaaccaa cgtttaggtc acacagcttt aaataggcaa acccaggtct31141 3122 31201 aacaggagct cacagcccag caggctgctg gtcctccagt acatttaaat gtttcctttc31261 taggtttgga acttgtgcat tttcccctta ttttcctgga cccggtagtc aaataaaagc31321 tatgctcaca agtggcttgc ccataattag ttcagaggcc aaacacataa ttttatttcc31381 86441 31 gacaaacaaa gctgggcatt agttagaact ttaaggatag atgttaaaca gtaatatact31 atcacaatag ggaaaagggt cccatgtgaa ctgaactcaa cttggatttg tgcaaaggtg31 actaggcatt tcacagcgtg aatgggagaa tagggagaag gccagcctag acttagaaga31621 gtcaggaatg tgaaaaatta caaaaagcgg aaagtggttg atgtgaaacc cctctgggtt31681 tgctaactgg tgctttttga agtaagactc ttaccctccc acagagactg ggagtcaggg31741 ccctgtgttc aggggttcgc tggaacaaac agttaattct ttcggcagct ttgagttttc31801 ttaagcaggc actttaaggt gagctaggat caacttaggg atgtggcctt gagctgtgag31861 aaactgtgtt agtgtttgtt caagtcttta taggcaaagg ttgaggccta gttgagaagg31921 gggctcggag gagcttagct agagtttggt cgagaaaaga atctttgtta agagtttaaa31981 gctttttttt tttttttttt tttttttttt ttgagactag tgctttctct ctttcccagg32041 ctggagtgca gaggcacaat catgtcttac tgcagcctca acttcctggg cttgagcaat32101 cctcctgctt cagcctccca agtagctatt tatttttgag atggggtctc attctgtgag32161 tgcagtggtt ggaacacagt tcactgcagc ctcagcctct gaggctcaag ctgtctttcc32221 acctcagtcc cacgagtagc tgggactatg agtgcacacc actatgcctg gctaattttt32281 ataacttttt acagagacag ggtctccctg tgttgcccag gctggtctgg aactcctggg32341 ctcaggtgat c

1 cgactaagaa gccctgttga cagctgcctt ccagcctcct ctgtctgtct gccaggagga 61 gcaatccaag ggagatgatg gagccctgtg aataccgtga ataccgtgaa tactaccgag 121 ctagagggaa agagatggtg gattacatct cccagtacct gagcactgtg cgggagaggc 181 aggtgactcc aaatgtgcag cctggatacc tgcgagccca gctacctgcg agtgctcccg 241 aggaacccga cagctgggac agcatctttg gggacattga acgagtcatc atgcctgggg 301 tggttcactg gcagagcccc cacatgcacg cctactatcc tgctcttacc tcatggccat 361 ccctgctagg agacatgctg gccgatgcca ttaactgctt aggattcacg tgggcatcta 421 gcccagcttg cacagagctg gagatgaaca tcatggactg gctggcgaag atgctggggc 481 tcccggagta cttcctgcac caccatccca gcagccgagg gggaggtgtc ttacagagca 541 ctgtcagcga atccacttta attgccctgc tggcagcaag aaagaacaaa atcctagcaa 601 tgacagcgtg cgagcccgat gctaacgagt cctccctgaa cgctcgtctc gttgcctaca 661 cctctgatca ggctcactct tcagtggaga aggctggctt gatttccctt gtgaagatca 721 gatttctacc tgtggacgac aacttctcac tccgaggaga agctctccag aaagctattg 781 aggaagacaa gcaacagggc ttggtgcctg tgtttgtctg tgcaacgtta gggactactg 841 gagtctgtgc atttgacagg ctgtcagaac tggggcccat ctgtgccagt gagggactgt 901 ggctccacgt cgatgctgct tatgcaggca cggcctttct gtgccctgag ctccgagggt 961 tcctggaggg catcgagtac gccgactcct tcacctttaa cccttccaag tggatgatgg 1021 tacactttga ctgtactgga ttctgggtca aggacaagta caagctgcag cagaccttta 1081 gtgtgaaccc catctacctc cgacatgcca actctggtgc agccacggac ttcatgcatt 1141 ggcagatccc cttgagccgg cgctttcgct ccattaagct gtggtttgtg attcggtcct 1201 tcggggtgaa gaatcttcaa gcacatgtca gacacggcac agaaatggct aaatactttg 1261 aatctctggt cagaagcgac ccttccttcg aaattcctgc taagaggcac cttggtttgg 1321 tggttttccg tctgaagggt cctaattgtc tcacagaaag tgtgttaaag gaaatagcca 1381 aagctggcca gctctttctc atcccggcta ctatccaaga caagctgatc atccgtttca 1441 ctgtgacgtc ccagtttacc accaaggagg acatcctgag agattggcac ctcatccaag 1501 aggctgctaa ccttgtcctg agccagcact gcacttccca gccgagccct cgggccaaga 1561 acgtcatccc gccaccgcca gggaccagag ggctatccct ggagtcagtc agcgagggag 1621 gagatgaccc agcacaggcc cggaagatca tcaagcagcc aggagccagt ctggcgagaa 1681 gggaaggcgg ctctgatctg gaaacgatgc cggatccctt tgatgattgc ttctctgaag 1741 aggcccccaa caccaccaag cacaagctgt catcctttct gttcagttac ttgtcggtcc 1801 agaacaggag gaagacaacg cggtccctca gctgcaacag tgtgcctatg agtgcccaga 1861 agtcactccc cgcagacgct tcactgaaga atgggggctc cttccgggcc agaatctttt 1921 ccgggttccc agaacaaatg atgatgatga agaaaggtgc cttcaaaaag ctgatcaagt 1981 tctacagcgt ccccagcttt cctgaatgca gttctcagtg tgctcgccag ctaccgtgct 2041 gccccctgga ggccatggtg tagagtcctc aatcagaatg caagggtgcc tgtgcttcag

2101 ggagttgggg aaccctcgaa attgcctgca gtttgtgtgc ttattatgtg tgtgtgcatc

2161 ttgagggaag caagcccatt attttgatca taacctcaca gggtcttcgt gatccacaac

2221 agattgtaac tgggaagttt aagcgggcat gctccagagg ttgcaggcgc ttgtgtgata

2281 gaaggggctg agacggtggc atgctgttaa gcttgtaatg tgaaaaacaa cttagaaata

2341 aattgtgctt atatctaaaa aaaaaaaaaa a1 cttccacctc ctgcgtgtcc atctgtgaga aggagccaga gcccaaggga gatgatggag

61 cctgaggagt acagagagag agggagagag atggtggatt acatctgcca gtacctgagc

121 actgtgcggg agagacgtgt gacgccagac gtgcagcctg gctacctgcg agcccagctg

181 cctgagagtg ctcctgagga ccccgacagc tgggacagca tctttgggga cattgaacga

241 atcatcatgc ctggggtggt acattggcag agcccccata tgcacgccta ctacccagcc

301 ctcacctctt ggccctccct gctaggagac atgctggctg atgccatcaa ctgcttggga

361 ttcacctggg catccagccc tgcgtgtaca gagctggaga tgaacgtcat ggactggttg

421 gcaaaaatgc tgggacttcc agagcacttc ttgcaccacc accccagcag ccagggcgga

481 ggcgtcctgc agagcacggt cagtgaatcc actttgattg ccctgctggc agcaaggaag

541 aacaaaatcc tggaaatgaa aacgtctgag cccgatgctg atgagtcctg cctaaatgcc

601 cgactcgtgg cctatgcctc tgaccaggct cactcctctg tggaaaaggc tggtttgatt

661 tcccttgtga agatgaaatt tctgcctgtg gatgacaact tctcactccg aggggaagct

721 cttcagaagg ccatcgagga agacaagcag cggggcttgg tgcccgtctt tgtctgtgca

781 acactaggga ccactggggt ctgtgcattt gactgcctgt cagagctggg ccccatctgt

841 gcccgtgagg ggctgtggct ccacatcgat gctgcttatg caggcactgc cttcctgtgc

901 cccgagttcc gggggtttct gaaggggatt gagtatgccg actccttcac ctttaatcct

961 tccaagtgga tgatggtgca ttttgactgt actgggttct gggtcaagga caagtacaag

1021 ctgcagcaga ccttcagtgt gaatcccatc tacctcaggc atgccaactc aggcgtggcc

1081 accgacttca tgcactggca gatccccctg agccgacggt ttcgctctgt taaactctgg

1141 ttcgtgattc ggtccttcgg ggtgaagaat cttcaagcac atgtcagaca tggtactgaa

1201 atggctaaat attttgaatc tctggtcaga aacgaccctt cctttgaaat tcctgccaag

1261 aggcaccttg gcctggtggt ttttcgtcta aagggtccta attgtctcac agaaaatgtg

36868 ttaaaggaaa tagctaaagc tggccgtctc ttcctcatcc cggccactat ccaggacaag

36928 ttaatcatcc gtttcactgt gacatcccag tttaccacta gggatgacat cctgagagac

36988 tggaatctca ttcgagatgc tgccactctc atcctgagtc agcactgtac ttcccaaccc

37048 agccctcggg ttgggaacct catctcccaa atcaggggtg ccagagcctg ggcctgtgga

37108 acgtcccttc agtctgtcag tggggcagga gatgatccag tccaggccag gaagatcatc

37168 aagcagcctc agcgtgtggg agccggtccc atgaaaaggg aaaatggcct ccatcttgaa

37228 accctgctgg acccagttga tgactgcttt tcagaagagg ccccagatgc caccaagcac

37288 aagctgtcct ccttcctgtt cagttacttg tctgtgcaga ctaagaagaa gacggtgcgc

37348 tccctcagtt gcaacagtgt gccagtgagt gctcagaagc cactgcccac agaggcctct

37408 gtgaagaatg ggggctcctc cagggtcaga atcttttcca ggtttccaga agacatgatg

37468 atgctgaaga aaagtgcctt caaaaaactc atcaaattct acagcgtccc cagctttcct

37528 gaatgcagct ctcaatgtgg actccagctg ccctgttgcc ctctgcaggc catggtttag

37588 acacagggcc ttcagccaga gtctgaggat atacttcagg gactctgtga acccctcaca

37648 attgtatgcc aactttgtgt gcttatgtgt acatgcattt ttcttggggc gagttcataa

37708 ttttaatcaa attctcatag gggttcatga cccacaatag gatacaaacg aagagtttaa

37768 gccagcatga tccagatggg ttcagcagtc tggtcagtga gaaagggccg agggtagaca

37828 ggcagcttct gtggttcagc ttgtgacatg atatataaca cagaaataaa ttatgcttgt

37888 ccctgaaaca aaaaa

37903 agtgcgcagg actggcaaga gggaagccgg gctgctccac gcctttcacg ccttccacct

37963 cctgcgtgtc catctgtgag aaggagccag agcccaaggg agatgatgga gcctgaggag

38023 tacagagaga gagggagaga gatggtggat tacatctgcc agtacctgag cactgtgcgg

38083 gagagacgtg tgacgccaga cgtgcagcct ggctacctgc gagcccagct gcctgagagt

38143 gctcctgagg accccgacag ctgggacagc atctttgggg acattgaacg aatcatcatg

38203 cctggggtgg tacattggca gagcccccat atgcacgcct actacccagc cctcacctct

38263 tggccctccc tgctaggaga catgctggct gatgccatca actgcttggg attcacctgg

38323 gcatccagcc ctgcgtgtac agagctggag atgaacgtca tggactggtt ggcaaaaatg

38383 ctgggacttc cagagcactt cttgcaccac caccccagca gccagggcgg aggcgtcctg

38443 cagcagacgg tcagtgaatc cactttgatt gccctgctgg cagcaaggaa gaacaaaatc

38503 ctggaaatga aaacgtctga gcccgatgct gatgagtcct gcctaaatgc ccgactcgtg

38563 gcctatgcct ctgaccaggc tcactcctct gtggaaaagg ctggtttgat ttcccttgtg

38623 aagatgaaat ttctgcctgt ggatgacaac ttctcactcc gaggggaagc tcttcagaag38683 gccatcgagg aagacaagca gcggggcttg gtgcccgtct ttgtctgtgc aacactaggg38743 accactgggg tctgtgcatt tgactgcctg tcagagctgg gccccatctg tgcccgtgag38803 gggctgtggc tccacatcga tgctgcttat gcaggcactg ccttcctgtg ccccgagttc38863 cgggggtttc tgaaggggat tgagtatgcc gactccttca cctttaatcc ttccaagtgg38923 atgatggtgc attttgactg tactgggttc tgggtcaagg acaagtacaa gctgcagcag38983 accttcagtg tgaatcccat ctacctcagg catgccaact caggcgtggc caccgacttc39043 atgcactggc agatccccct gagccgacgg tttcgctctg ttaaactctg gttcgtgatt39103 cggtccttcg gggtgaagaa tcttcaagca catgtcagac atggtactga aatggctaaa39163 tattttgaat ctctggtcag aaacgaccct tcctttgaaa ttcctgccaa gaggcacctt39223 ggcctggtgg tttttcgtct aaagggtcct aattgtctca cagaaaatgt gttaaaggaa39283 atagctaaag ctggccgtct cttcctcatc ccggccacta tccaggacaa gttaatcatc39343 cgtttcactg tgacatccca gtttaccact agggatgaca tcctgagaga ctggaatctc39403 attcgagatg ctgccactct catcctgagt cagcactgta cttcccaacc cagccctcgg39463 gttgggaacc tcatctccca aatcaggggt gccagagcct gggcctgtgg aacgtccctt39523 cagtctgtca gtggggcagg agatgatcca gtccaggcca ggaagatcat caagcagcct39583 cagcgtgtgg gagccggtcc catgaaaagg gaaaatggcc tccatcttga aaccctgctg39 gacccagttg atgactgctt ttcagaagag gccccagatg ccaccaagca caagctgtcc 3939393939393939393939393939 tgcaacagtg tgccagtgag tgctcagaag ccactgccca cagaggcctc tgtgaagaat39823 gggggctcct ccagggtcag aatcttttcc aggtttccag aagacatgat gatgctgaag39883 39943 tctcaatgtg gactccagct gccctgttgc cctctgcagg ccatggttta gacacagggc40003 cttcagcaga gtctgaggat atacttcagg gactctgtga acccctcaca attgtatgcc40063 aactttgtgt gcttatgtgt acatgcattt ttcttggggc gagttcataa ttttaatcaa40123 attctcatag gggctcatga cccacaatag gatacaaacg aagagtttaa gccagcatga40183 tccagatggg ttcatcagtc tggtcagtga gaaagggccg agggtagaca ggcagcttct40243 gtggttcagc ttgtgacatg atatataaca cagaaataaa ttatgcttgt ccctga (2) SEQ ID NO: 2879 data: (i) sequence characteristics:

(A) length: 1327 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2879 sequence description: 1 gatccccaga gactttccag atatctgaag aagtcctgat gtcactgccc cggtccttcc 61 ccaggtagag caacactcct cgtcgcaacc caactggctc cccttacctt ctacacacac121 acacacacac acacacacac acacacacac acacacaaat ccaagacaac actactaagg181 721 ctgcttggga actttgagga tatttagccc accccctcat ttttacttgg ggaaactaag 781 181 cttctttggg agggggaagt agggataggt aagaggaaag taagggacct cctatccagc241 ctccatggaa tcctgacttc ttttccttgt tatttcaact tcttccaccc catcttttaa301 actttagact ccagccacag aagcttacaa ctaaaagaaa ctctaaggcc aatttaatcc361 aaggtttcat tctatgtgct ggagatggtg tacagtaggg tgaggaaacc aaattctcag421 ttggcactgg tgtacccttg tacaggtgat gtaacatctc tgtgcctcag tttgctcact481 ataaaataga gacggtaggg gtcatggtga gcactacctg actagcatat aagaagcttt541 cagcaagtgc agactactct tacccacttc ccccaagcac agttggggtg ggggacagct 601 gaagaggtgg aaacatgtgc ctgagaatcc taatgaaatc ggggtaaagg agcctggaac 661 acatcctgtg accccgcctg tcctgtagga agccagtctc tggaaagtaa aatggaaggg 721 ctgcttggga actttgagga tatttagccc accccctcat ttttacttgg ggaaactaag 781 gcccagagac ctaaggtgac tgcctaagtt agcaaggaga agtcttgggt attcatccca 841 ggttgggggg acccaattat ttctcaatcc cattgtattc tggaatgggc aatttgtcca 901 cgtcactgtg acctaggaac acgcgaatga gaacccacag ctgagggcct ctgcgcacag 961 aacagctgtt ctccccagga aatcaacttt ttttaattga gaagctaaaa aattattcta1021 agagaggtag cccatcctaa aaatagctgt aatgcagaag ttcatgttca accaatcatt1081 tttgcttacg atgcaaaaat tgaaaactaa gtttattaga gaggttagag aaggaggagc1141 tctaagcaga aaaaatcctg tgccgggaaa ccttgattgt ggctttttaa tgaatgaaga1201 ggcctccctg agcttacaat ataaaagggg gacagagagg tgaaggtcta cacatcaggg1261 gcttgctctt gcaaaaccaa accacaagac agacttgcaa aagaaggcat gcacagctca1321 gcactgc (2) SEQ ID NO: 2880 data: (i) sequence characteristics:

(A) length: 1601 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2880 sequence description: 1 aaaccacaag acagacttgc aaaagaaggc atgcacagct cagcactgct ctgttgcctg 61 gtcctcctga ctggggtgag ggccagccca ggccagggca cccagtctga gaacagctgc 121 acccacttcc caggcaacct gcctaacatg cttcgagatc tccgagatgc cttcagcaga 181 721 tttctattta tttactgagc ttctctgtga acgatttaga aagaagccca atattataat 781 181 gtgaagactt tctttcaaat gaaggatcag ctggacaact tgttgttaaa ggagtccttg 241 ctggaggact ttaagggtta cctgggttgc caagccttgt ctgagatgat ccagttttac 301 ctggaggagg tgatgcccca agctgagaac caagacccag acatcaaggc gcatgtgaac 361 tccctggggg agaacctgaa gaccctcagg ctgaggctac ggcgctgtca tcgatttctt 421 ccctgtgaaa acaagagcaa ggccgtggag caggtgaaga atgcctttaa taagctccaa 481 gagaaaggca tctacaaagc catgagtgag tttgacatct tcatcaacta catagaagcc 541 tacatgacaa tgaagatacg aaactgagac atcagggtgg cgactctata gactctagga 601 cataaattag aggtctccaa aatcggatct ggggctctgg gatagctgac ccagcccctt 661 gagaaacctt attgtacctc tcttatagaa tatttattac ctctgatacc tcaaccccca 721 tttctattta tttactgagc ttctctgtga acgatttaga aagaagccca atattataat 781 ttttttcaat atttattatt ttcacctgtt tttaagctgt ttccataggg tgacacacta 841 tggtatttga gtgttttaag ataaattata agttacataa gggaggaaaa aaaatgttct 901 ttggggagcc aacagaagct tccattccaa gcctgaccac gctttctagc tgttgagctg 961 ttttccctga cctccctcta atttatcttg tctctgggct tggggcttcc taactgctac1021 aaatactctt aggaagagaa accagggagc ccctttgatg attaattcac cttccagtgt1081 ctcggaggga ttcccctaac ctcattcccc aaccacttca ttcttgaaag ctgtggccag1141 cttgttattt ataacaacct aaatttggtt ctaggccggg cgcggtggct cacgcctgta1201 atcccagcac tttgggaggc tgaggcgggt ggatcacttg aggtcaggag ttcctaacca1261 gcctggtcaa catggtgaaa ccccgtctct actaaaaata caaaaattag ccgggcatgg1321 tggcgcgcac ctgtaatccc agctacttgg gaggctgagg caagagaatt gcttgaaccc1381 aggagatgga agttgcagtg agctgatatc atgcccctgt actccagcct gggtgacaga1441 gcaagactct gtctcaaaaa aataaaaata aaaataaatt tggttctaat agaactcagt1501 tttaactaga atttattcaa ttcctctggg aatgttacat tgtttgtctg tcttcatagc1561 agattttaat tttgaataaa taaatgtatc ttattcacat c (2) SEQ ID NO: 2881 materials: (i) sequence characteristics:

(A) length: 4181 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2881 sequence description: 1 agatcttgta aactgtagaa tgcaccctcc aaaatctatt tgcataagca cacacacaca 61 cacacacaca cacaccccag cagttcttgc ctgcccagat tcctctgcag ctaaagtgat121 gaaacttact gggcggagct tcctaaaaag attattaggg tctcctgggt tggtgtgcct181 ttaaaccttt ggactttacc acctcctatc tctcctatct ccttgcaaca aaggttagga241 gaacaagaat gcagaaaaaa cgggtcctgg atgacatctg agtgcctgct ttgggcttct301 tgatgagtga gacagaaaat aaaatacaac cccctctttt aaaagccatg cttactcagg361 ttttccttca tttgcagcta aatacagaaa tgagagaata ttttggagca gggatggaag421 aagagaggta ttccccttcc cacaaccttc tgatttccca gtacatcccc cactggaaaa481 attcatttaa aatcagtata ataagcattg attagatgcc tactatgcat ctgggcttga541 gggcaaactg gactcaggcc ttttggcctc aagaagctca cagtgtgaga gtggcatttg601 tgtcctcttg aaattcacag gactaaattg tgcccaggct gacattctat ccatccatag661 gtgcctgcct tctcacttcc ctctcttcat gggctcttgc cttgtaccaa aatccaaacc721 caaatctcct cacatgtgag tgttggcatt catgtctcag acatgaccta tgggcttggg781 acttttcccc gtggacccca gtgacttttc agatgaacag gtatcttcaa aaacttgaga841 aataggagtc ctgtttgttg ttcttgttgc tttgtcaata taaggcacag ggtctttatt 901 caaatgttca tactatctct tgacagaaat actatgagac atattgatgg agaagccgtt 961 atctccatat gctaaatgag gacttgcacc agggaacttg cccatggttc tctccaacca1021 cttaaattct gaaattttga atgagagtgg acagtaattt caaatcaatg gggaaagaat1081 caaatcttca gcaaatggct tgagataatt agctacacat ttcagaacaa ataaagaagt1141 cagatccggg ccgggcacag tggctcatgc ctgtaatctc agcactctgg gaggccaagg1201 cgggcggatc ataaggtcag gagatcgaga ccatcctggt taacacagtg aacccctctc1261 taataaaaat acaaaaaaaa ataaaaaaac ttagccgggc gtggtgccag gcgcctgtag1321 tcccagctac tcgggacgct gaggcaggag aatggcttga actcgggagg cagagcttgc1381 aggtgagctg agatcatgcc actgcactcc agcctgggca acagagcgag actctgtctc1441 aaaaaaaaaa aagaagtcag atcctaacct caaccctatt taacagatta tagatgaaag1501 aaaggtacaa atggctttta catacctccc ttctccctga cattttgtat gtgtgtgtgt1561 gtgtatttac acacacatct catataagga aattgaaggg aggctgcctg catccctgag1621 tcactctccc tctccttctg aatgcttacc tgtgcccaga ccacctcctt agcctcgcac1681 cctccaggct tacagggcac tcttctatgc ccatcccaag tatagctgaa ccttccaagg1741 gccagacttg gtgctaagta ccaagtacgc aaagattaat aaaacaatgt cctgtttcag1801 ggagctcaaa gctgattcgg cagggcatgg tgtgtacatg aatgataacc acgtagggtt1861 gcaggtttcc tagtgaggta agcacaaggc aagatgggaa acaaaggaag gaggggttca1921 cagcctcacc cagagtccag aacccctggc ctgcctggtg cccatgctga gtccacttct1981 ggaacaccca gctcagagag ggggttagac ctgcaggcta acacagacac agcccagaaa2041 acccaggagc cgagggggaa ggagaaaggt gcaagaaggg gaaacccagg tcctggtccc2101 cttctctctg cttcctggca gcagaactca gacagaaccc ttaagccagt ctaagtctgg2161 caggaccagt aagttctgag ttagctccat actagtttct agcaggctct ttctcacttc2221 ctgattctta ggtttctaca ttgacactcc ctgaagagtt gggaagagac accacagtcc cctgaccctg atccataggt cacacagcag gcatccacag ggtgggcgtg ggccctctca2341 tccctccctc ccactcactt cacgctggct gggccccaag gtgtttgcac cccttgcagt2401 gagtgacctt ctctagtgca gcaagctcag aacctgctgc cactggagtt gtcccattgc2461 tgatgcagaa aggtgaagaa ctagcagaac actggaaatg ccctccatct gggtccatgg2521 ctacttaatg ctccctggca ggcaggagga caggtgctat tccctgttgg gacagatgaa2581 aaacagacac agggaggatg agtgatttgc cctgactata gagtggcagg gccaaggcag2641 agcccaggcc tcctgcacct aggtcagtgt tcctcccagt tacagtctaa actggaatgc2701 aggcaaagcc cctgtggaag gggaaggtga aggctcaatc aaaggatccc cagagacttt27 ccagatatct gaagaagtcc tgatgtcact gccccggtcc ttccccaggt agagcaacac2821 tcctcgccgc aacccaactg gctcccctta ccttctacac acacacacac acacacacac2881 acacacacac acacacacaa atccaagaca acactactaa ggcttctttg ggaaggggaa2941 gtagggatag gtaagaggaa agtaagggac ctcctatcca gcctccatgg aatcctgact3001 tcttttcctt gttatttcaa cttcttccac cccatctttt aaactttaga ctccagccac3061 agaagcttac aactaaaaga aactctaagg ccaatttaat ccaaggtttc attctatgtg3121 ctggagatgg tgtacagtag ggtgaggaaa ccaaattctc agttggcact ggtgtaccct3181 tgtacaggtg atgtaacatc tctgtgcctc agtttgctca ctataaaata gagacggtag3241 gggtcatggt gagcactacc tgactagcat ataagaagct ttcagcaagt gcagactact3301 cttacccact tcccccaagc acagttgggg tgggggacag ctgaagaggt ggaaacatgt3361 gcctgagaat cctaatgaaa tcggggtaaa ggagcctgga acacatcctg tgaccccgcc3421 tgtcctgtag gaagccagtc tctggaaagt aaaatggaag ggctgcttgg gaactttgag3481 gatatttagc ccaccccctc atttttactt ggggaaacta aggcccagag acctaaggtg3541 actgcctaag ttagcaagga gaagtcttgg gtattcatcc caggttgggg ggacccaatt3601 atttctcaat cccattgtat tctggaatgg gcaatttgtc cacgtcactg tgacctagga3661 acacgcgaat gagaacccac agctgagggc ctctgcgcac agaacagctg ttctccccag3721 gaaatcaact ttttttaatt gagaagctaa aaaattattc taagagaggt agcccatcct3781 3726 3781 aaaaatagct gtaatgcaga agttcatgtt caaccaatca tttttgctta cgatgcaaaa3841 attgaaaact aagtttatta gagaggttag agaaggagga gctctaagga gaaaaaatcc3901 tgtgccggga aaccttgatt gtggcttttt aatgaatgaa gaggcctccc tgagcttaca3961 atataaaagg gggacagaga ggtgaaggtc tacacatcag gggcttgctc ttgcaaaacc4021 aaaccacaag acagacttgc aaaagaaggc atgcacagct cagcactgct ctgttgcctg4081 gtcctcctga ctggggtgag ggccagccca ggccagggca cccagtctga gaacagctgc4141 acccacttcc caggcaacct gcctaacatg cttcgagatc t (2) SEQ ID NO: 2882 materials: (i) sequence characteristics:

(A) length: 1314 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2882 sequence description: 1 gggggggggg atttagagac ttgctcttgc actaccaaag ccacaaagca gccttgcaga 61 aaagagagct ccatcatgcc tggctcagca ctgctatgct gcctgctctt actgactggc 121 atgaggatca gcaggggcca gtacagccgg gaagacaata actgcaccca cttcccagtc 181 721 tttgtacctc tctccgaaat atttattacc tctgatacct cagttcccat tctatttatt 781 181 ggccagagcc acatgctcct agagctgcgg actgccttca gccaggtgaa gactttcttt 241 caaacaaagg accagctgga caacatactg ctaaccgact ccttaatgca ggactttaag 301 ggttacttgg gttgccaagc cttatcggaa atgatccagt tttacctggt agaagtgatg 361 ccccaggcag agaagcatgg cccagaaatc aaggagcatt tgaattccct gggtgagaag 421 ctgaagaccc tcaggatgcg gctgaggcgc tgtcatcgat ttctcccctg tgaaaataag 481 agcaaggcag tggagcaggt gaagagtgat tttaataagc tccaagacca aggtgtctac 541 aaggccatga atgaatttga catcttcatc aactgcatag aagcatacat gatgatcaaa 601 atgaaaagct aaaacacctg cagtgtgtat tgagtctgct ggactccagg acctagacag 661 agctctctaa atctgatcca gggatcttag ctaacggaaa caactccttg gaaaacctcg 721 tttgtacctc tctccgaaat atttattacc tctgatacct cagttcccat tctatttatt 781 cactgagctt ctctgtgaac tatttagaaa gaagcccaat attataattt tacagtattt 841 attattttta acctgtgttt aagctgtttc cattggggac actttatagt atttaaaggg 901 agattatatt atatgatggg aggggttctt ccttgggaag caattgaagc ttctattcta 961 aggctggcca cacttgagag ctgcagggcc ctttgctatg gtgtcctttc aattgctctc1021 atccctgagt tcagagctcc taagagagtt gtgaagaaac tcatgggtct tgggaagaga1081 aaccagggag atcctttgat gatcattcct gcagcagctc agagggttcc cctactgtca1141 tcccccagcc gcttcatccc tgaaaactgt ggccagtttg ttatttataa ccacctaaaa1201 ttagttctaa tagaactcat ttttaactag aagtaatgca attcctctgg gaatggtgta1261 ttgtttgtct gcctttgtag cagcatctaa ttttgaataa atggatctta ttcg (2) SEQ ID NO: 2883 materials: (i) sequence characteristics:

(A) length: 7207 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2883 sequence description: 1 cagtcaggag agagggcagt gagggtccat gctagctggg tcttgagcct cttctggggt 61 tcagtctctg atctacagca gtgtgtccac acctaaaaca tcagctcaga gaggcagttg 121 cttctgctgt tggaaacgga catcccaaaa aaaaacaaaa aacagaaatc aaaagggaag 181 721 ggaaggtcca gacataatca aaggactacc agagatctcc caggtatctg tagaagtact 781 181 gagaaagtga aagggatgga ggcagcttgt ccccttccct gtgcttgctg ctggtagaaa 241 actcagcctg gaactgaccg gagcagcagt tcttgagtca attccattcc aacttctaga 301 agattctttt cccgtcgaag agtgtcagga ggagaggcca gacccccttg atcctgatct 361 gccagccact gcatcagata agacgagata accccgagtt cctgttctac cagccctggt 421 gtggtaaccc tctccaatgg ggcaggcttg gaaccctgtg ccaacgaaga tcctcccccg 481 tactgatgca ggaaggacag cccgggagtg taccctctac atgggtctac ttttatttaa 541 gcaaacattc cctggtcaac aggacgtgta gcattgcccc cccccttggg tcacacagaa 601 aacaggtacc aggaggacaa gtagttgctt gcccagggta cagaatgaaaggcaataggg 661 gactctaggc gaatgttctt cccacccaaa ctgaggtagt aggagaagtc cctactgaag 721 ggaaggtcca gacataatca aaggactacc agagatctcc caggtatctg tagaagtact 781 aacatctcca tccttcaaca gctacaggtt acacgtctcc aaggctggga cattgtaaaa 841 cagggccatg gtaaggtcta cccgacagca cagagcaagc ctcccagaag tctgagttcc 901 ttctcctaac ttctcatgct gggatctgag cttcttcgtg aaacacgggg cagaggaggc 961 accagaactc tcctctgacc aactgcccca cagcacacat atcctcaaag gatagtcttg1021 aatacgtgat ggaagaatta aagagagtga ggtctgaaga aaatcagccc tctcggggtt1081 tcctttgggt aactgagtgc taaggtgact tccgagtcag caagaaatat cggacgttca1141 acccaggttg agtggaggaa acaattattt ctcaatccta atatgttctg gaatagccca1201 tttatccacg tcattatgac ctgggagtgc gtgaatggaa tccacagatg agggcctctg1261 tacatagaac agctgtctgc ctcaggaaat acaactttta gtattgagaa gctaaaaaga1321 aaaaaaaatt aaaagagagg tagcccatac taaaaatagc tgtaatgcag aagttcattc1381 cgaccagttc tttagcgctt acaatgcaaa aaaaagggaa aggaaaaaaa aaaagaaaga1441 aattaaactc aaaaattgca tggtttagaa gagggaggag gagcctgaat aacaaaaacc1501 tttgccagga aggccccact gagccttcag tataaaaggg ggaccaagaa caggaggtct1561 acatttagag acttgctctt gcactaccaa agccacaagg cagccttgca gaaaagagag1621 ctccatcatg cctggctcag cactgctatg ctgcctgctc ttactgactg gcatgaggat1681 cagcaggggc cagtacagcc gggaagacaa taactgcacc cacttcccag tcggccagag1741 ccacatgctc ctagagctgc ggactgcctt cagccaggtg aagactttct ttgtaagtat1801 gagctcgcct agcctttctt cctgccatca cctgaaatat gcattctgat ggaactgcaa1861 aaatagctct ccttctcctc ctccttctcc tccttctctt tctcctcctc tgctttctcc1921 tccttctctt cctcctcctt ctcttcttcc tcctctccct cttcctcctc cagctcttac1981 ctcatgctgc tcctccccta tttccagcac ctattaccct taaacttaaa tctagagagt2041 cctagggaaa gccatgagtt aaactaaacc caggcacatc cgaaaagcta actaggaggt2101 gaatgcattg tctctcccat gctcaagaac tttctgttaa gtttccaata aggctccatg2161 ttttgctggc taggacaaaa gtctgtggtc tctgcgtagt ctctagatct gggggacaga2221 ggtttggggg tttgaagcag caccagcata gagagcttgc attacaaaag tattcccctt2281 tcagagctcc tggaactggt atggaggtcc aaagaaggca gagagctatg caaaacaggc2341 tttctataag ggactccaga aaggaagggt tgacacaggt gctcttgaaa cctgatctga2401 ctcatctgaa agaagaccgg gcctgggtct aacttctccc agtcagttaa attcagtcag2461 aagtttttaa aaacaactgg atcccaagag gaaggacttt gatttaactc cgggctctag2521 cactgtcaaa tcctgttctt aaaactctcc tttccacagt tgccagggca tttgaattga2581 ttacaaattc aaaactctac aaatggaaaa gtattcaaat gacatgcaca ttgggtattt2641 tccccagtcc ttgcattcac gttctttatg ttcttccagc aaacaaagga ccagctggac2701 aacatactgc taaccgactc cttaatgcag gactttaagg taagagtccg gtgggtgctg2761 gggagcgacc aagcgattag ggacgggacg ggaggtgctg cttgtgacag cagagctggg2821 tctgatgcct tgactttcaa aaagagaagt gagaagacct tgactcagca tatcgccagc2881 agtcaagggt tgtgaagagc tcattctgtg gtaaagggag aaaatgtaac tagaaggggc2941 ggggatgggg ggggggtccc taggaacagg acagtccatc aaggttagca gcaacagatc3001 accattccag taagtcacac ccaacctctg atccctgcct ctagggttac ttgggttgcc3061 aagccttatc ggaaatgatc cagttttacc tggtagaagt gatgccccag gcagagaagc3121 atggcccaga aatcaaggag catttgaatt ccctgggtga gaagctgaag accctcagga3181 tgcggctgag gcgctgtgtg agtagcagat gcgttcttcc ccacccccaa tccccttaga3241 gccacccaac aaatactgtc tcctacagcc cagtcaggcc acatgcatcc agagacacac3301 acagactaga caggagacta ggtaaatcta gagagacgcc tgtccggtgt cgggtctctt3361 gctcatctgt ctctgagcga gtgtgggagt gactttgagg cactcacacg tgaagatttg3421 cgcatagcct tcctgttatt tgtgagtcat tgtgggttat tagctactcc cctctctctc3481 catgggaagg ctggggcttc agtcatggct ccctcacctc tgggctgcca gctgaggctc3541 593601 cagagctggg ctgacaggac gctggtgttt cagaagggcc agaagactgc tatccctaag3661 ccagtatcta tgaataatac agtcggggca tctatgtctc tgaagcgatg ccttggctgc3721 tcttgttttt cttacttctc tcactgatac tgggacatca gctggagtct acttgtgcaa3781 cggttctggc ctgacgattt ggccccagta gctgagactt tcgctcctct ctcagacacc3841 tagaaatagt tcatggtggt tgagattgga gatagacaag aagagacact aaaaacagaa3901 caggtgcctt ggagctctga gagacaaaac ccgagacctg agttcacacc cacacttagc 398661 aagccatctt agtgattgca aagacataca ttgcatcttt ctaggctgtc ctctgctgtc4021 cccctcagtc cctaccgaaa tagataagga ccaatcacgg ctcagttctc cctgggagct aagaagtggg cattgaagat gagcaagggt gtctccttcc tcacacaaca agatagtttc4141 ccccaagtac catggatgca gaattcaagc aagaattacc aatgctctct tttttcttct4201 tcagcatcga tttctcccct gtgaaaataa gagcaaggca gtggagcagg tgaagagtga4261 ttttaataag gtaagtggca aagggggcga gtgtaacaag acctctgtct actcaccaaa4321 gcgcagaagg agggcgggag ctattctgca cctggagtgt gggaacccag caaatggtgt4381 gacctcctct gccagttaga aagccaccac ctcagttaca tttgttttct gcaaagcgtc4441 tctggcagtt tctaaatgac tgctccactt ttgcaggctt ttggcttaga ctgaccagac4501 agcctatgag cacagggcac taggtgttga ggagagtgac ataggaaaca gaaagtacag4561 aaagtacctt gttgggaaac aggctgaacc cacaagtaca gaaagcagac atgaattaat4621 ttactcaggt acatcattgg ggctcagcct ggatgcccct cccccaaatc agaacgagca4681 gaaagcagaa ttcttacttg tcccggggca ctttccacct ggcaaacaaa atgaggtttc4741 acacttccaa ctgcctgtga acctattcaa ccctagttcc cagaagccat gtggcctaca4801 tcatcatctt tgtgggctag gcagagacac ctggcagggc tctaacatta gtgggcatga4861 attccatgac agcaggtcag agctgcaggg tgaggactgc ctacacactc aaaacataaa4921 aaaaaaaaaa aaaaaacacc aaccatttcc ctgctatctc tatcactgcc ctgcttacaa4981 actgctccct ctggcatctt tgcataacat tctgcataag cattatatga gcactggcct5041 cttaaaaaaa attagttgaa aaggtgccac cctgaagaca gtgctttggg gactgaatgc5101 ttcccttgct gactcctggc agtgcttaaa gctgggagaa ggttggtccc accacatcct5161 51 5161 gactactaca gtatagttgt ctctcttctt tcatttccct gtccccattt ctttattgta5221 cataaagtaa ctggtgtatg tgcacacaca tagtgctctc tctttctttt ccttttttaa5281 829 5281 actaaatggc cgatgttctg ttctggttgg catcagatgg agatggtctg ggggaaagta5341 ctgggtttgt gaaaataccc ccttctccat tagtggcatg ctctttcagc tcttatcttt5401 atattccagt aagttatttt gctctcattg ttttaacaaa agaacccaac aacaccaaat5461 ctttgcatac cttgttcgat tggagaattt taatgttttt catttatcat tgtaaaaccg5521 aggacaattt tataactttt ttgtacgtgg ctgttacatg tagggcaatc tgtctttaag5581 tagggataaa ttactcttga ataaaatgat cctagatagt tttcccttca agtcaagcgt5641 cttgttgttt aaataaactt cttgtttaaa atgaaaaaaa aaaaaacaaa caaacaaaaa5701 aaagctggga gaaggtatag gagaaacagg ggaaggcacg gccccttccc aaagcagacg5761 gacaaatctt tgggtccttc agctcccaac acaagaaagc agagatcttt ctatgctcag5821 catccttccc agggcaggga gcccctcagc ccaccaatgg gtactaacca gatgcttctc5881 tccccacaca gctccaagac caaggtgtct acaaggccat gaatgaattt gacatcttca5941 tcaactgcat agaagcatac atgatgatca aaatgaaaag ctaaaacacc tgcagtgtgt6001 attgagtctg ctggactcca ggacctagac agagctctct aaatctgatc cagggatctt6061 agctaacgga aacaactcct tggaaaacct cgtttgtacc tctctccgaa atatttatta6121 cctctgatac ctcagttccc attctattta ttcactgagc ttctctgtga actatttaga6181 5731 6241 tccattgggg acactttata gtatttaaag ggagattata ttatatgatg ggaggggttc6301 ttccttggga agcaattgaa gcttctattc taaggctggc cacacttgag agctgcaggg6361 ccctttgcta tggtgtcctt tcaattgctc tcatccctga gttcagagct cctaagagag6421 ttgtgaagaa actcatgggt cttgggaaga gaaaccaggg agatcctttg atgatcattc ctgcagcagc tcagagggtt cccctactgt catcccccag ccgcttcatc cctgaaaact6541 666601 66 agaagtaatg caattcctct gggaatggtg tattgtttgt ctgcctttgt agcagactct6661 826721 tttaaaagaa aaatccctta aaattccaga gggcagaagc agtgaatctt agactccaca6781 aaaagaatgc cagcaacctc tccaggaagg ggttgagctc ggatcagatc agaggaaagt6841 cttgcctggc tttcaaagca tcagcataaa ctactgatat cttcaagctc agtcctttaa6901 aatgtgtcct gaaaccttaa aaggcattct accttccaaa gctagggaag gtgattctaa6961 gtaaccatcg gaaggaagtg ggaagcatca aagctgaaac tctgagacga aatgttgggg7021 ttaaaaatgg aagctagggg caggagggtg gggagatggc tcagcagtta gagtgtgtgc7081 cggcaccagt gagacaggag ttcatatcct tggaatccaa ccaacacaca accaacacta7141 ggcaagagat gcctaatgtg tcagtggttg cttcaagctc cagaggtcct ggggtgaact7201 tagatcc (2) SEQ ID NO: 2884 data: (i) sequence characteristics:

(A) length: 15631 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2884 sequence description: 1 gatccccaga gactttccag atatctgaag aagtcctgat gtcactgccc cggtccttcc 61 ccaggtagag caacactcct cgtcgcaacc caactggctc cccttacctt ctacacacac121 acacacacac acacacacac acacacacac acacacaaat ccaagacaac actactaagg181 cttctttggg agggggaagt agggataggt aagaggaaag taagggacct cctatccagc241 ctccatggaa tcctgacttc ttttccttgt tatttcaact tcttccaccc catcttttaa301 actttagact ccagccacag aagcttacaa ctaaaagaaa ctctaaggcc aatttaatcc361 aaggtttcat tctatgtgct ggagatggtg tacagtaggg tgaggaaacc aaattctcag421 ttggcactgg tgtacccttg tacaggtgat gtaacatctc tgtgcctcag tttgctcact481 ataaaataga gacggtaggg gtcatggtga gcactacctg actagcatat aagaagcttt541 cagcaagtgc agactactct tacccacttc ccccaagcac agttggggtg ggggacagct 601 gaagaggtgg aaacatgtgc ctgagaatcc taatgaaatc ggggtaaagg agcctggaac 661 acatcctgtg accccgcctg tcctgtagga agccagtctc tggaaagtaa aatggaaggg 721 ctgcttggga actttgagga tatttagccc accccctcat ttttacttgg ggaaactaag 781 gcccagagac ctaaggtgac tgcctaagtt agcaaggaga agtcttgggt attcatccca 841 ggttgggggg acccaattat ttctcaatcc cattgtattc tggaatgggc aatttgtcca 901 cgtcactgtg acctaggaac acgcgaatga gaacccacag ctgagggcct ctgcgcacag 961 aacagctgtt ctccccagga aatcaacttt ttttaattga gaagctaaaa aattattcta1021 agagaggtag cccatcctaa aaatagctgt aatgcagaag ttcatgttca accaatcatt1081 tttgcttacg atgcaaaaat tgaaaactaa gtttattaga gaggttagag aaggaggagc1141 tctaagcaga aaaaatcctg tgccgggaaa ccttgattgt ggctttttaa tgaatgaaga1201 ggcctccctg agcttacaat ataaaagggg gacagagagg tgaaggtcta cacatcaggg1261 gcttgctctt gcaaaaccaa accacaagac agacttgcaa aagaaggcat gcacagctca1321 gcactgc 1 aaaccacaag acagacttgc aaaagaaggc atgcacagct cagcactgct ctgttgcctg 61 gtcctcctga ctggggtgag ggccagccca ggccagggca cccagtctga gaacagctgc 121 acccacttcc caggcaacct gcctaacatg cttcgagatc tccgagatgc cttcagcaga 181 gtgaagactt tctttcaaat gaaggatcag ctggacaact tgttgttaaa ggagtccttg 241 ctggaggact ttaagggtta cctgggttgc caagccttgt ctgagatgat ccagttttac 301 ctggaggagg tgatgcccca agctgagaac caagacccag acatcaaggc gcatgtgaac 361 tccctggggg agaacctgaa gaccctcagg ctgaggctac ggcgctgtca tcgatttctt 421 ccctgtgaaa acaagagcaa ggccgtggag caggtgaaga atgcctttaa taagctccaa 481 gagaaaggca tctacaaagc catgagtgag tttgacatct tcatcaacta catagaagcc 541 tacatgacaa tgaagatacg aaactgagac atcagggtgg cgactctata gactctagga 601 cataaattag aggtctccaa aatcggatct ggggctctgg gatagctgac ccagcccctt 661 gagaaacctt attgtacctc tcttatagaa tatttattac ctctgatacc tcaaccccca 721 tttctattta tttactgagc ttctctgtga acgatttaga aagaagccca atattataat 781 ttttttcaat atttattatt ttcacctgtt tttaagctgt ttccataggg tgacacacta 841 tggtatttga gtgttttaag ataaattata agttacataa gggaggaaaa aaaatgttct 901 ttggggagcc aacagaagct tccattccaa gcctgaccac gctttctagc tgttgagctg 961 ttttccctga cctccctcta atttatcttg tctctgggct tggggcttcc taactgctac1021 aaatactctt aggaagagaa accagggagc ccctttgatg attaattcac cttccagtgt1081 ctcggaggga ttcccctaac ctcattcccc aaccacttca ttcttgaaag ctgtggccag1141 cttgttattt ataacaacct aaatttggtt ctaggccggg cgcggtggct cacgcctgta1201 atcccagcac tttgggaggc tgaggcgggt ggatcacttg aggtcaggag ttcctaacca1261 gcctggtcaa catggtgaaa ccccgtctct actaaaaata caaaaattag ccgggcatgg1321 tggcgcgcac ctgtaatccc agctacttgg gaggctgagg caagagaatt gcttgaaccc1381 aggagatgga agttgcagtg agctgatatc atgcccctgt actccagcct gggtgacaga1441 gcaagactct gtctcaaaaa aataaaaata aaaataaatt tggttctaat agaactcagt1501 tttaactaga atttattcaa ttcctctggg aatgttacat tgtttgtctg tcttcatagc1561 agattttaat tttgaataaa taaatgtatc ttattcacat c1 agatcttgta aactgtagaa tgcaccctcc aaaatctatt tgcataagca cacacacaca 61 cacacacaca cacaccccag cagttcttgc ctgcccagat tcctctgcag ctaaagtgat121 gaaacttact gggcggagct tcctaaaaag attattaggg tctcctgggt tggtgtgcct181 ttaaaccttt ggactttacc acctcctatc tctcctatct ccttgcaaca aaggttagga241 gaacaagaat gcagaaaaaa cgggtcctgg atgacatctg agtgcctgct ttgggcttct301 tgatgagtga gacagaaaat aaaatacaac cccctctttt aaaagccatg cttactcagg361 ttttccttca tttgcagcta aatacagaaa tgagagaata ttttggagca gggatggaag421 aagagaggta ttccccttcc cacaaccttc tgatttccca gtacatcccc cactggaaaa481 attcatttaa aatcagtata ataagcattg attagatgcc tactatgcat ctgggcttga541 gggcaaactg gactcaggcc ttttggcctc aagaagctca cagtgtgaga gtggcatttg601 tgtcctcttg aaattcacag gactaaattg tgcccaggct gacattctat ccatccatag661 gtgcctgcct tctcacttcc ctctcttcat gggctcttgc cttgtaccaa aatccaaacc721 caaatctcct cacatgtgag tgttggcatt catgtctcag acatgaccta tgggcttggg781 539 2781 acttttcccc gtggacccca gtgacttttc agatgaacag gtatcttcaa aaacttgaga841 aataggagtc ctgtttgttg ttcttgttgc tttgtcaata taaggcacag ggtctttatt 901 caaatgttca tactatctct tgacagaaat actatgagac atattgatgg agaagccgtt 961 atctccatat gctaaatgag gacttgcacc agggaacttg cccatggttc tctccaacca1021 cttaaattct gaaattttga atgagagtgg acagtaattt caaatcaatg gggaaagaat1081 caaatcttca gcaaatggct tgagataatt agctacacat ttcagaacaa ataaagaagt1141 cagatccggg ccgggcacag tggctcatgc ctgtaatctc agcactctgg gaggccaagg1201 cgggcggatc ataaggtcag gagatcgaga ccatcctggt taacacagtg aacccctctc1261 taataaaaat acaaaaaaaa ataaaaaaac ttagccgggc gtggtgccag gcgcctgtag1321 tcccagctac tcgggacgct gaggcaggag aatggcttga actcgggagg cagagcttgc1381 aggtgagctg agatcatgcc actgcactcc agcctgggca acagagcgag actctgtctc1441 aaaaaaaaaa aagaagtcag atcctaacct caaccctatt taacagatta tagatgaaag1501 aaaggtacaa atggctttta catacctccc ttctccctga cattttgtat gtgtgtgtgt 5731 1625 tcactctccc tctccttctg aatgcttacc tgtgcccaga ccacctcctt agcctcgcac1681 cctccaggct tacagggcac tcttctatgc ccatcccaag tatagctgaa ccttccaagg1741 gccagacttg gtgctaagta ccaagtacgc aaagattaat aaaacaatgt cctgtttcag1801 ggagctcaaa gctgattcgg cagggcatgg tgtgtacatg aatgataacc acgtagggtt1861 gcaggtttcc tagtgaggta agcacaaggc aagatgggaa acaaaggaag gaggggttca1921 cagcctcacc cagagtccag aacccctggc ctgcctggtg cccatgctga gtccacttct1981 ggaacaccca gctcagagag ggggttagac ctgcaggcta acacagacac agcccagaaa2041 acccaggagc cgagggggaa ggagaaaggt gcaagaaggg gaaacccagg tcctggtccc2101 cttctctctg cttcctggca gcagaactca gacagaaccc ttaagccagt ctaagtctgg2161 caggaccagt aagttctgag ttagctccat actagtttct agcaggctct ttctcacttc2221 ctgattctta ggtttctaca ttgacactcc ctgaagagtt gggaagagac accacagtcc22 cctgaccctg atccataggt cacacagcag gcatccacag ggtgggcgtg ggccctctca234 tccctccctc ccactcactt cacgctggct gggccccaag gtgtttgcac cccttgcagt2401 gagtgacctt ctctagtgca gcaagctcag aacctgctgc cactggagtt gtcccattgc2461 tgatgcagaa aggtgaagaa ctagcagaac actggaaatg ccctccatct gggtccatgg2521 ctacttaatg ctccctggca ggcaggagga caggtgctat tccctgttgg gacagatgaa2581 aaacagacac agggaggatg agtgatttgc cctgactata gagtggcagg gccaaggcag2641 agcccaggcc tcctgcacct aggtcagtgt tcctcccagt tacagtctaa actggaatgc2701 aggcaaagcc cctgtggaag gggaaggtga aggctcaatc aaaggatccc cagagacttt2761 ccagatatct gaagaagtcc tgatgtcact gccccggtcc ttccccaggt agagcaacac2821 tcctcgccgc aacccaactg gctcccctta ccttctacac acacacacac acacacacac2881 acacacacac acacacacaa atccaagaca acactactaa ggcttctttg ggaaggggaa2941 gtagggatag gtaagaggaa agtaagggac ctcctatcca gcctccatgg aatcctgact3001 tcttttcctt gttatttcaa cttcttccac cccatctttt aaactttaga ctccagccac3061 agaagcttac aactaaaaga aactctaagg ccaatttaat ccaaggtttc attctatgtg3121 ctggagatgg tgtacagtag ggtgaggaaa ccaaattctc agttggcact ggtgtaccct3181 tgtacaggtg atgtaacatc tctgtgcctc agtttgctca ctataaaata gagacggtag3241 gggtcatggt gagcactacc tgactagcat ataagaagct ttcagcaagt gcagactact3301 cttacccact tcccccaagc acagttgggg tgggggacag ctgaagaggt ggaaacatgt3361 gcctgagaat cctaatgaaa tcggggtaaa ggagcctgga acacatcctg tgaccccgcc3421 tgtcctgtag gaagccagtc tctggaaagt aaaatggaag ggctgcttgg gaactttgag3481 gatatttagc ccaccccctc atttttactt ggggaaacta aggcccagag acctaaggtg3541 actgcctaag ttagcaagga gaagtcttgg gtattcatcc caggttgggg ggacccaatt3601 atttctcaat cccattgtat tctggaatgg gcaatttgtc cacgtcactg tgacctagga3661 acacgcgaat gagaacccac agctgagggc ctctgcgcac agaacagctg ttctccccag3721 gaaatcaact ttttttaatt gagaagctaa aaaattattc taagagaggt agcccatcct aaaaatagct gtaatgcaga agttcatgtt caaccaatca tttttgctta cgatgcaaaa3841 attgaaaact aagtttatta gagaggttag agaaggagga gctctaagga gaaaaaatcc3901 tgtgccggga aaccttgatt gtggcttttt aatgaatgaa gaggcctccc tgagcttaca3961 atataaaagg gggacagaga ggtgaaggtc tacacatcag gggcttgctc ttgcaaaacc4021 aaaccacaag acagacttgc aaaagaaggc atgcacagct cagcactgct ctgttgcctg4081 gtcctcctga ctggggtgag ggccagccca ggccagggca cccagtctga gaacagctgc4141 acccacttcc caggcaacct gcctaacatg cttcgagatc t1 gggggggggg atttagagac ttgctcttgc actaccaaag ccacaaagca gccttgcaga 61 aaagagagct ccatcatgcc tggctcagca ctgctatgct gcctgctctt actgactggc 121 atgaggatca gcaggggcca gtacagccgg gaagacaata actgcaccca cttcccagtc 181 ggccagagcc acatgctcct agagctgcgg actgccttca gccaggtgaa gactttcttt 241 caaacaaagg accagctgga caacatactg ctaaccgactccttaatgca ggactttaag 301 ggttacttgg gttgccaagc cttatcggaa atgatccagt tttacctggt agaagtgatg 361 ccccaggcag agaagcatgg cccagaaatc aaggagcatt tgaattccct gggtgagaag 421 ctgaagaccc tcaggatgcg gctgaggcgc tgtcatcgat ttctcccctg tgaaaataag 481 agcaaggcag tggagcaggt gaagagtgat tttaataagc tccaagacca aggtgtctac 541 aaggccatga atgaatttga catcttcatc aactgcatag aagcatacat gatgatcaaa 601 atgaaaagct aaaacacctg cagtgtgtat tgagtctgct ggactccagg acctagacag 661 agctctctaa atctgatcca gggatcttag ctaacggaaa caactccttg gaaaacctcg 721 tttgtacctc tctccgaaat atttattacc tctgatacct cagttcccat tctatttatt 781 cactgagctt ctctgtgaac tatttagaaa gaagcccaat attataattt tacagtattt 841 781 841 attattttta acctgtgttt aagctgtttc cattggggac actttatagt atttaaaggg 901 agattatatt atatgatggg aggggttctt ccttgggaag caattgaagc ttctattcta 961 aggctggcca cacttgagag ctgcagggcc ctttgctatg gtgtcctttc aattgctctc1021 atccctgagt tcagagctcc taagagagtt gtgaagaaac tcatgggtct tgggaagaga1081 aaccagggag atcctttgat gatcattcct gcagcagctc agagggttcc cctactgtca1141 tcccccagcc gcttcatccc tgaaaactgt ggccagtttg ttatttataa ccacctaaaa1201 ttagttctaa tagaactcat ttttaactag aagtaatgca attcctctgg gaatggtgta1261 ttgtttgtct gcctttgtag cagcatctaa ttttgaataa atggatctta ttcg

1 cagtcaggag agagggcagt gagggtccat gctagctggg tcttgagcct cttctggggt 61 tcagtctctg atctacagca gtgtgtccac acctaaaaca tcagctcaga gaggcagttg 121 cttctgctgt tggaaacgga catcccaaaa aaaaacaaaa aacagaaatc aaaagggaag 181 721 ggaaggtcca gacataatca aaggactacc agagatctcc caggtatctg tagaagtact 781 181 gagaaagtga aagggatgga ggcagcttgt ccccttccct gtgcttgctg ctggtagaaa 241 actcagcctg gaactgaccg gagcagcagt tcttgagtca attccattcc aacttctaga 301 agattctttt cccgtcgaag agtgtcagga ggagaggcca gacccccttg atcctgatct 361 gccagccact gcatcagata agacgagata accccgagtt cctgttctac cagccctggt 421 gtggtaaccc tctccaatgg ggcaggcttg gaaccctgtg ccaacgaaga tcctcccccg 481 tactgatgca ggaaggacag cccgggagtg taccctctac atgggtctac ttttatttaa 541 gcaaacattc cctggtcaac aggacgtgta gcattgcccc cccccttggg tcacacagaa 601 aacaggtacc aggaggacaa gtagttgctt gcccagggta cagaatgaaa ggcaataggg 661 gactctaggc gaatgttctt cccacccaaa ctgaggtagt aggagaagtc cctactgaag 721 ggaaggtcca gacataatca aaggactacc agagatctcc caggtatctg tagaagtact 781 aacatctcca tccttcaaca gctacaggtt acacgtctcc aaggctggga cattgtaaaa 841 cagggccatg gtaaggtcta cccgacagca cagagcaagc ctcccagaag tctgagttcc 901 ttctcctaac ttctcatgct gggatctgag cttcttcgtg aaacacgggg cagaggaggc 961 accagaactc tcctctgacc aactgcccca cagcacacat atcctcaaag gatagtcttg1021 aatacgtgat ggaagaatta aagagagtga ggtctgaaga aaatcagccc tctcggggtt1081 tcctttgggt aactgagtgc taaggtgact tccgagtcag caagaaatat cggacgttca1141 acccaggttg agtggaggaa acaattattt ctcaatccta atatgttctg gaatagccca1201 tttatccacg tcattatgac ctgggagtgc gtgaatggaa tccacagatg agggcctctg1261 tacatagaac agctgtctgc ctcaggaaat acaactttta gtattgagaa gctaaaaaga1321 aaaaaaaatt aaaagagagg tagcccatac taaaaatagc tgtaatgcag aagttcattc1381 cgaccagttc tttagcgctt acaatgcaaa aaaaagggaa aggaaaaaaa aaaagaaaga1441 aattaaactc aaaaattgca tggtttagaa gagggaggag gagcctgaat aacaaaaacc1501 tttgccagga aggccccact gagccttcag tataaaaggg ggaccaagaa caggaggtct1561 acatttagag acttgctctt gcactaccaa agccacaagg cagccttgca gaaaagagag1621 ctccatcatg cctggctcag cactgctatg ctgcctgctc ttactgactg gcatgaggat1681 cagcaggggc cagtacagcc gggaagacaa taactgcacc cacttcccag tcggccagag1741 ccacatgctc ctagagctgc ggactgcctt cagccaggtg aagactttct ttgtaagtat1801 gagctcgcct agcctttctt cctgccatca cctgaaatat gcattctgat ggaactgcaa1861 aaatagctct ccttctcctc ctccttctcc tccttctctt tctcctcctc tgctttctcc1921 tccttctctt cctcctcctt ctcttcttcc tcctctccct cttcctcctc cagctcttac1981 ctcatgctgc tcctccccta tttccagcac ctattaccct taaacttaaa tctagagagt2041 cctagggaaa gccatgagtt aaactaaacc caggcacatc cgaaaagcta actaggaggt2101 gaatgcattg tctctcccat gctcaagaac tttctgttaa gtttccaata aggctccatg2161 ttttgctggc taggacaaaa gtctgtggtc tctgcgtagt ctctagatct gggggacaga2221 ggtttggggg tttgaagcag caccagcata gagagcttgc attacaaaag tattcccctt2281 tcagagctcc tggaactggt atggaggtcc aaagaaggca gagagctatg caaaacaggc2341 tttctataag ggactccaga aaggaagggt tgacacaggt gctcttgaaa cctgatctga2401 ctcatctgaa agaagaccgg gcctgggtct aacttctccc agtcagttaa attcagtcag2461 aagtttttaa aaacaactgg atcccaagag gaaggacttt gatttaactc cgggctctag2521 cactgtcaaa tcctgttctt aaaactctcc tttccacagt tgccagggca tttgaattga2581 ttacaaattc aaaactctac aaatggaaaa gtattcaaat gacatgcaca ttgggtattt2641 tccccagtcc ttgcattcac gttctttatg ttcttccagc aaacaaagga ccagctggac2701 aacatactgc taaccgactc cttaatgcag gactttaagg taagagtccg gtgggtgctg2761 gggagcgacc aagcgattag ggacgggacg ggaggtgctg cttgtgacag cagagctggg2821 tctgatgcct tgactttcaa aaagagaagt gagaagacct tgactcagca tatcgccagc2881 agtcaagggt tgtgaagagc tcattctgtg gtaaagggag aaaatgtaac tagaaggggc2941 ggggatgggg ggggggtccc taggaacagg acagtccatc aaggttagca gcaacagatc3001 accattccag taagtcacac ccaacctctg atccctgcct ctagggttac ttgggttgcc3061 aagccttatc ggaaatgatc cagttttacc tggtagaagt gatgccccag gcagagaagc3121 atggcccaga aatcaaggag catttgaatt ccctgggtga gaagctgaag accctcagga3181 tgcggctgag gcgctgtgtg agtagcagat gcgttcttcc ccacccccaa tccccttaga3241 gccacccaac aaatactgtc tcctacagcc cagtcaggcc acatgcatcc agagacacac3301 acagactaga caggagacta ggtaaatcta gagagacgcc tgtccggtgt cgggtctctt 3661 gctcatctgt ctctgagcga gtgtgggagt gactttgagg cactcacacg tgaagatttg3421 cgcatagcct tcctgttatt tgtgagtcat tgtgggttat tagctactcc cctctctctc3481 3584 393542 3601 cagagctggg ctgacaggac gctggtgttt cagaagggcc agaagactgc tatccctaag3661 ccagtatcta tgaataatac agtcggggca tctatgtctc tgaagcgatg ccttggctgc3721 tcttgttttt cttacttctc tcactgatac tgggacatca gctggagtct acttgtgcaa3781 cggttctggc ctgacgattt ggccccagta gctgagactt tcgctcctct ctcagacacc3841 tagaaatagt tcatggtggt tgagattgga gatagacaag aagagacact aaaaacagaa3901 caggtgcctt ggagctctga gagacaaaac ccgagacctg agttcacacc cacacttagc3961 aagccatctt agtgattgca aagacataca ttgcatcttt ctaggctgtc ctctgctgtc4021 cccctcagtc cctaccgaaa tagataagga ccaatcacgg ctcagttctc cctgggagct4081 aagaagtggg cattgaagat gagcaagggt gtctccttcc tcacacaaca agatagtttc4141 ccccaagtac catggatgca gaattcaagc aagaattacc aatgctctct tttttcttct4201 tcagcatcga tttctcccct gtgaaaataa gagcaaggca gtggagcagg tgaagagtga4261 ttttaataag gtaagtggca aagggggcga gtgtaacaag acctctgtct actcaccaaa4321 gcgcagaagg agggcgggag ctattctgca cctggagtgt gggaacccag caaatggtgt4381 gacctcctct gccagttaga aagccaccac ctcagttaca tttgttttct gcaaagcgtc4441 tctggcagtt tctaaatgac tgctccactt ttgcaggctt ttggcttaga ctgaccagac4501 agcctatgag cacagggcac taggtgttga ggagagtgac ataggaaaca gaaagtacag4561 aaagtacctt gttgggaaac aggctgaacc cacaagtaca gaaagcagac atgaattaat4621 ttactcaggt acatcattgg ggctcagcct ggatgcccct cccccaaatc agaacgagca4681 gaaagcagaa ttcttacttg tcccggggca ctttccacct ggcaaacaaa atgaggtttc4741 acacttccaa ctgcctgtga acctattcaa ccctagttcc cagaagccat gtggcctaca4801 tcatcatctt tgtgggctag gcagagacac ctggcagggc tctaacatta gtgggcatga4861 attccatgac agcaggtcag agctgcaggg tgaggactgc ctacacactc aaaacataaa4921 aaaaaaaaaa aaaaaacacc aaccatttcc ctgctatctc tatcactgcc ctgcttacaa13405 actgctccct ctggcatctt tgcataacat tctgcataag cattatatga gcactggcct13465 cttaaaaaaa attagttgaa aaggtgccac cctgaagaca gtgctttggg gactgaatgc13525 ttcccttgct gactcctggc agtgcttaaa gctgggagaa ggttggtccc accacatcct13585 gactactaca gtatagttgt ctctcttctt tcatttccct gtccccattt ctttattgta13645 cataaagtaa ctggtgtatg tgcacacaca tagtgctctc tctttctttt ccttttttaa13705 actaaatggc cgatgttctg ttctggttgg catcagatgg agatggtctg ggggaaagta13765 ctgggtttgt gaaaataccc ccttctccat tagtggcatg ctctttcagc tcttatcttt13825 atattccagt aagttatttt gctctcattg ttttaacaaa agaacccaac aacaccaaat13885 ctttgcatac cttgttcgat tggagaattt taatgttttt catttatcat tgtaaaaccg13945 aggacaattt tataactttt ttgtacgtgg ctgttacatg tagggcaatc tgtctttaag14005 tagggataaa ttactcttga ataaaatgat cctagatagt tttcccttca agtcaagcgt14065 14124 141 aaagctggga gaaggtatag gagaaacagg ggaaggcacg gccccttccc aaagcagacg 1415985 gacaaatctt tgggtccttc agctcccaac acaagaaagc agagatcttt ctatgctcag14245 catccttccc agggcaggga gcccctcagc ccaccaatgg gtactaacca gatgcttctc14305 tccccacaca gctccaagac caaggtgtct acaaggccat gaatgaattt gacatcttca14365 14425 attgagtctg ctggactcca ggacctagac agagctctct aaatctgatc cagggatctt14485 agctaacgga aacaactcct tggaaaacct cgtttgtacc tctctccgaa atatttatta14545 cctctgatac ctcagttccc attctattta ttcactgagc ttctctgtga actatttaga146 aagaagccca atattataat tttacagtat ttattatttt taacctgtgt ttaagctgtt 14628 tccattgggg acactttata gtatttaaag ggagattata ttatatgatg ggaggggttc14725 3614785 ccctttgcta tggtgtcctt tcaattgctc tcatccctga gttcagagct cctaagagag14845 ttgtgaagaa actcatgggt cttgggaaga gaaaccaggg agatcctttg atgatcattc14905 38705 1495 14965 gtggccagtt tgttatttat aaccacctaa aattagttct aatagaactc atttttaact15025 agaagtaatg caattcctct gggaatggtg tattgtttgt ctgcctttgt agcagactct15085 aattttgaat aaatggatct tattcgaatt acagtgtggt gtctattgag ttctgtctga15145 tttaaaagaa aaatccctta aaattccaga gggcagaagc agtgaatctt agactccaca15205 aaaagaatgc cagcaacctc tccaggaagg ggttgagctc ggatcagatc agaggaaagt15265 cttgcctggc tttcaaagca tcagcataaa ctactgatat cttcaagctc agtcctttaa15325 aatgtgtcct gaaaccttaa aaggcattct accttccaaa gctagggaag gtgattctaa15385 gtaaccatcg gaaggaagtg ggaagcatca aagctgaaac tctgagacga aatgttgggg15445 ttaaaaatgg aagctagggg caggagggtg gggagatggc tcagcagtta gagtgtgtgc15505 cggcaccagt gagacaggag ttcatatcct tggaatccaa ccaacacaca accaacacta15565 ggcaagagat gcctaatgtg tcagtggttg cttcaagctc cagaggtcct ggggtgaact15625 tagatcc (2) SEQ ID NO: 2885 data: (i) sequence characteristics:

(A) length: 3632 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2885 sequence description: 1 aaagagctgg aggcgcgcag gccggctccg ctccggcccc ggacgatgcg gcgcgcccag 61 gatgctgccg tgcctcgtag tgctgctggc ggcgctcctc agcctccgtc ttggctcaga 121 cgctcatggg acagagctgc ccagccctcc gtctgtgtgg tttgaagcag aatttttcca 181 721 agaggagtgc atctccctca ccaggcagta tttcaccgtg accaacgtca tcatcttctt 781 181 ccacatcctc cactggacac ccatcccaaa tcagtctgaa agtacctgct atgaagtggc 241 gctcctgagg tatggaatag agtcctggaa ctccatctcc aactgtagcc agaccctgtc 301 ctatgacctt accgcagtga ccttggacct gtaccacagc aatggctacc gggccagagt 361 gcgggctgtg gacggcagcc ggcactccaa ctggaccgtc accaacaccc gcttctctgt 421 ggatgaagtg actctgacag ttggcagtgt gaacctagag atccacaatg gcttcatcct 481 cgggaagatt cagctaccca ggcccaagat ggcccccgcg aatgacacat atgaaagcat 541 cttcagtcac ttccgagagt atgagattgc cattcgcaag gtgccgggaa acttcacgtt 601 cacacacaag aaagtaaaac atgaaaactt cagcctccta acctctggag aagtgggaga 661 gttctgtgtc caggtgaaac catctgtcgc ttcccgaagt aacaagggga tgtggtctaa 721 agaggagtgc atctccctca ccaggcagta tttcaccgtg accaacgtca tcatcttctt 781 tgcctttgtc ctgctgctct ccggagccct cgcctactgc ctggccctcc agctgtatgt 841 gcggcgccga aagaagctac ccagtgtcct gctcttcaag aagcccagcc ccttcatctt 901 catcagccag cgtccctccc cagagaccca agacaccatc cacccgcttg atgaggaggc 961 ctttttgaag gtgtccccag agctgaagaa cttggacctg cacggcagca cagacagtgg1021 ctttggcagc accaagccat ccctgcagac tgaagagccc cagttcctcc tccctgaccc1081 tcacccccag gctgacagaa cgctgggaaa cggggagccc cctgtgctgg gggacagctg1141 cagtagtggc agcagcaata gcacagacag cgggatctgc ctgcaggagc ccagcctgag1201 ccccagcaca gggcccacct gggagcaaca ggtggggagc aacagcaggg gccaggatga1261 cagtggcatt gacttagttc aaaactctga gggccgggct ggggacacac agggtggctc1321 ggccttgggc caccacagtc ccccggagcc tgaggtgcct ggggaagaag acccagctgc1381 tgtggcattc cagggttacc tgaggcagac cagatgtgct gaagagaagg caaccaagac1441 aggctgcctg gaggaagaat cgcccttgac agatggcctt ggccccaaat tcgggagatg1501 cctggttgat gaggcaggct tgcatccacc agccctggcc aagggctatt tgaaacagga1561 tcctctagaa atgactctgg cttcctcagg ggccccaacg ggacagtgga accagcccac1621 tgaggaatgg tcactcctgg ccttgagcag ctgcagtgac ctgggaatat ctgactggag1681 ctttgcccat gaccttgccc ctctaggctg tgtggcagcc ccaggtggtc tcctgggcag1741 ctttaactca gacctggtca ccctgcccct catctctagc ctgcagtcaa gtgagtgact1801 cgggctgaga ggctgctttt gattttagcc atgcctgctc ctctgcctgg accaggagga1861 gggccctggg gcagaagtta ggcacgaggc agtctgggca cttttctgca agtccactgg1921 ggctggccca gccaggctgc agggctggtc agggtgtctg gggcaggagg aggccaactc1981 actgaactag tgcagggtat gtgggtggca ctgacctgtt ctgttgactg gggccctgca2041 gactctggca gagctgagaa gggcagggac cttctccctc ctaggaactc tttcctgtat2101 cataaaggat tatttgctca ggggaaccat ggggctttct ggagttgtgg tgaggccacc2161 aggctgaagt cagctcagac ccagacctcc ctgcttaggc cactcgagca tcagagcttc2221 cagcaggagg aagggctgta ggaatggaag cttcagggcc ttgctgctgg ggtcattttt2281 aggggaaaaa ggaggatatg atggtcacat ggggaacctc ccctcatcgg gcctctgggg2341 caggaagctt gtcactggaa gatcttaagg tatatatttt ctggacactc aaacacatca2401 taatggattc actgagggga gacaaaggga gccgagaccc tggatggggc ttccagctca2461 gaacccatcc ctctggtggg tacctctggc acccatctgc aaatatctcc ctctctccaa2521 caaatggagt agcatccccc tggggcactt gctgaggcca agccactcac atcctcactt2581 tgctgcccca ccatcttgct gacaacttcc agagaagcca tggttttttg tattggtcat2641 aactcagccc tttgggcggc ctctgggctt gggcaccagc tcatgccagc cccagagggt2701 cagggttgga ggcctgtgct tgtgtttgct gctaatgtcc agctacagac ccagaggata2761 agccactggg cactgggctg gggtccctgc cttgttggtg ttcagctgtg tgattttgga2821 ctagccactt gtcagagggc ctcaatctcc catctgtgaa ataaggactc cacctttagg2881 ggaccctcca tgtttgctgg gtattagcca agctggtcct gggagaatgc agatactgtc2941 cgtggactac caagctggct tgtttcttat gccagaggct aacagatcca atgggagtcc3001 atggtgtcat gccaagacag tatcagacac agccccagaa gggggcatta tgggccctgc3061 ctccccatag gccatttgga ctctgccttc aaacaaaggc agttcagtcc acaggcatgg3121 aagctgtgag gggacaggcc tgtgcgtgcc atccagagtc atctcagccc tgcctttctc3181 tggagcattc tgaaaacaga tattctggcc cagggaatcc agccatgacc cccacccctc3241 tgccaaagta ctcttaggtg ccagtctggt aactgaactc cctctggagg caggcttgag3301 ggaggattcc tcagggttcc cttgaaagct ttatttattt attttgttca tttatttatt3361 ggagaggcag cattgcacag tgaaagaatt ctggatatct caggagcccc gaaattctag3421 ctctgacttt gctgtttcca gtggtatgac cttggagaag tcacttatcc tcttggagcc3481 tcagtttcct catctgcaga ataatgactg acttgtctaa ttcataggga tgtgaggttc3541 tgctgaggaa atgggtatga atgtgccttg aacacaaagc tctgtcaata agtgatacat3601 gttttttatt ccaataaatt gtcaagacca ca (2) SEQ ID NO: 2886 data: (i) sequence characteristics:

(A) length: 1696 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2886 sequence description: 1 gctgtagctg gtgagaggaa gtcctagagg ctatggacac tctgctgctg ggatcaccga 61 gatgagcagc agctgctcag ggctgagcag ggtcctggtg gccgtggcta cagccctggt 121 gtctgcctcc tccccctgcc cccaggcctg gggcccccca ggggtccagt atgggcagcc 181 721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 181 agggaggtcc gtgaagctgt gttgtcctgg agtgactgcc ggggacccag tgtcctggtt 241 tcgggatggg gagccaaagc tgctccaggg acctgactct gggctagggc atgaactggt 301 cctggcccag gcagacagca ctgatgaggg cacctacatc tgccagaccc tggatggtgc 361 acttgggggc acagtgaccc tgcagctggg ctaccctcca gcccgccctg ttgtctcctg 421 ccaagcagcc gactatgaga acttctcttg cacttggagt cccagccaga tcagcggttt 481 acccacccgc tacctcacct cctacaggaa gaagacagtc ctaggagctg atagccagag 541 gaggagtcca tccacagggc cctggccatg cccacaggat cccctagggg ctgcccgctg 601 tgttgtccac ggggctgagt tctggagcca gtaccggatt aatgtgactg aggtgaaccc 661 actgggtgcc agcacacgcc tgctggatgt gagcttgcag agcatcttgc gccctgaccc 721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 gacataccct gcctcctggc cgtgccagcc ccacttcctg ctcaagttcc gtttgcagta 841 ccgtccggcg cagcatccag cctggtccac ggtggagcca gctggactgg aggaggtgat 901 cacagatgct gtggctgggc tgccccatgc tgtacgagtc agtgcccggg actttctaga 961 tgctggcacc tggagcacct ggagcccgga ggcctgggga actccgagca ctgggaccat1021 accaaaggag ataccagcat ggggccagct acacacgcag ccagaggtgg agcctcaggt1081 ggacagccct gctcctccaa ggccctccct ccaaccacac cctcggctac ttgatcacag1141 ggactctgtg gagcaggtag ctgtgctggc gtctttggga atcctttctt tcctgggact1201 ggtggctggg gccctggcac tggggctctg gctgaggctg agacggggtg ggaaggatgg1261 atccccaaag cctgggttct tggcctcagt gattccagtg gacaggcgtc caggagctcc1321 aaacctgtag aggacccagg agggcttcgg cagattccac ctataattct gtcttgctgg1381 tgtggataga aaccaggcag gacagtagat ccctatggtt ggatctcagc tggaagttct1441 gtttggagcc catttctgtg agaccctgta tttcaaattt gcagctgaaa ggtgcttgta1501 cctctgattt caccccagag ttggagttct gctcaaggaa cgtgtgtaat gtgtacatct1561 gtgtccatgt gtgaccatgt gtctgtgaag gccagggaac atgtattcct ctgcatgcat1621 gtatgtaggt gcctgggagt gtgtgtggtc cttgctctgg ccctttccct tgcagggttg1681 tgcaggtgtg aataaa

(2) SEQ ID NO: 2887 materials:

(i) sequence characteristics:

(A) length: 1682 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2887 sequence description: 1 ggaagatgag cagcagctgc tcagggctga gcagggtcct ggtggccgtg gctacagccc 61 tggtgtctgc ctcctccccc tgcccccagg cctggggccc cccaggggtc cagtatgggc 121 agccaggcag gtccgtgaag ctgtgttgtc ctggagtgac tgccggggac ccagtgtcct 181 721 gctggacata ccctgcctcc tggccgtgcc agccccactt cctgctcaag ttccgtttgc 781 181 ggtttcggga tggggagcca aagctgctcc agggacctga ctctgggcta gggcatgaac 241 tggtcctggc ccaggcagac agcactgatg agggcaccta catctgccag accctggatg 301 gtgcacttgg gggcacagtg accctgcagc tgggctaccc tccagcccgc cctgttgtct 361 cctgccaagc agccgactat gagaacttct cttgcacttg gagtcccagc cagatcagcg 421 gtttacccac ccgctacctc acctcctaca ggaagaagac agtcctagga gctgatagcc 481 agaggaggag tccatccaca gggccctggc catgcccaca ggatccccta ggggctgccc 541 gctgtgttgt ccacggggct gagttctgga gccagtaccg gattaatgtg actgaggtga 601 acccactggg tgccagcaca cgcctgctgg atgtgagctt gcagagcatc ttgcgccctg 661 acccacccca gggcctgcgg gtagagtcag taccaggtta cccccgacgc ctgcgagcca 721 gctggacata ccctgcctcc tggccgtgcc agccccactt cctgctcaag ttccgtttgc 781 agtaccgtcc ggcgcagcat ccagcctggt ccacggtgga gccagctgga ctggaggagg 841 tgatcacaga tgctgtggct gggctgcccc atgctgtacg agtcagtgcc cgggactttc 901 tagatgctgg cacctggagc acctggagcc cggaggcctg gggaactccg agcactggga 961 ccataccaaa ggagatacca gcatggggcc agctacacac gcagccagag gtggagcctc1021 aggtggacag ccctgctcct ccaaggccct ccctccaacc acaccctcgg ctacttgatc1081 acagggactc tgtggagcaggtagctgtgc tggcgtcttt gggaatcctt tctttcctgg1141 gactggtggc tggggccctg gcactggggc tctggctgag gctgagacgg ggtgggaagg1201 atggatcccc aaagcctggg ttcttggcct cagtgattcc agtggacagg cgtccaggag1261 ctccaaacct gtagaggacc caggagggct tcggcagatt ccacctataa ttctgtcttg1321 ctggtgtgga tagaaaccag gcaggacagt agatccctat ggttggatct cagctggaag1381 ttctgtttgg agcccatttc tgtgagaccc tgtatttcaa atttgcagct gaaaggtgct1441 tctacctctg atttcacccc agagttggag ttctgctcaa ggaacgtgtg taatgtgtac1501 atctgtgtcc atgtgtgacc atgtgtctgt gaggcaggga acatgtattc tctgcatgca1561 tgtatgtagg tgcctgggga gtgtgtgtgg gtccttggct cttggccttt ccttgcaggg1621 gttgtgcagg tgtgaataaa gagaataagg aagttcttgg agattatact cagaaaaaaa1681 aa (2) SEQ ID NO: 2888 data: (i) sequence characteristics:

(A) length: 413 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2888 sequence description: 1 tctgtggagc aggtagctgt gctggcgtct ttgggaatcc tttctttcct gggactggtg61 gctggggccc tggcactggg gctctggtaa gtgactgcca ttggtccctc agcctctgat121 cctcacacat gctctgatgc ccatagacca cattcatctc cacccttcat gactgcctgc181 tgaacctgtc tgattctgga actacctccc catacctcca tcccctatgc cccacttgat241 tttaactgat tcctctcctg accctttact aataaaccct ttggcggaga ctgagataac301 ccacattgtt ggagagacag ctgcctttct atgccccagg ctgaggctga gacggggtgg361 gaaggatgga tccccaaagc ctgggttctt ggcctcagtg attccagtgg aca (2) SEQ ID NO: 2889, data: (i) sequence characteristics:

(A) length: 3791 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2889 sequence description: 1 gctgtagctg gtgagaggaa gtcctagagg ctatggacac tctgctgctg ggatcaccga 61 gatgagcagc agctgctcag ggctgagcag ggtcctggtg gccgtggcta cagccctggt 121 gtctgcctcc tccccctgcc cccaggcctg gggcccccca ggggtccagt atgggcagcc 181 721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 181 agggaggtcc gtgaagctgt gttgtcctgg agtgactgcc ggggacccag tgtcctggtt 241 tcgggatggg gagccaaagc tgctccaggg acctgactct gggctagggc atgaactggt 301 cctggcccag gcagacagca ctgatgaggg cacctacatc tgccagaccc tggatggtgc 361 acttgggggc acagtgaccc tgcagctggg ctaccctcca gcccgccctg ttgtctcctg 421 ccaagcagcc gactatgaga acttctcttg cacttggagt cccagccaga tcagcggttt 481 acccacccgc tacctcacct cctacaggaa gaagacagtc ctaggagctg atagccagag 541 gaggagtcca tccacagggc cctggccatg cccacaggat cccctagggg ctgcccgctg 601 tgttgtccac ggggctgagt tctggagcca gtaccggatt aatgtgactg aggtgaaccc 661 actgggtgcc agcacacgcc tgctggatgt gagcttgcag agcatcttgc gccctgaccc 721 accccagggc ctgcgggtag agtcagtacc aggttacccc cgacgcctgc gagccagctg 781 gacataccct gcctcctggc cgtgccagcc ccacttcctg ctcaagttcc gtttgcagta 841 ccgtccggcg cagcatccag cctggtccac ggtggagcca gctggactgg aggaggtgat 901 cacagatgct gtggctgggc tgccccatgc tgtacgagtc agtgcccggg actttctaga 961 tgctggcacc tggagcacct ggagcccgga ggcctgggga actccgagca ctgggaccat1021 accaaaggag ataccagcat ggggccagct acacacgcag ccagaggtgg agcctcaggt1081 ggacagccct gctcctccaa ggccctccct ccaaccacac cctcggctac ttgatcacag1141 ggactctgtg gagcaggtag ctgtgctggc gtctttggga atcctttctt tcctgggact1201 ggtggctggg gccctggcac tggggctctg gctgaggctg agacggggtg ggaaggatgg1261 atccccaaag cctgggttct tggcctcagt gattccagtg gacaggcgtc caggagctcc1321 aaacctgtag aggacccagg agggcttcgg cagattccac ctataattct gtcttgctgg1381 tgtggataga aaccaggcag gacagtagat ccctatggtt ggatctcagc tggaagttct1441 gtttggagcc catttctgtg agaccctgta tttcaaattt gcagctgaaa ggtgcttgta1501 cctctgattt caccccagag ttggagttct gctcaaggaa cgtgtgtaat gtgtacatct1561 gtgtccatgt gtgaccatgt gtctgtgaag gccagggaac atgtattcct ctgcatgcat1621 gtatgtaggt gcctgggagt gtgtgtggtc cttgctctgg ccctttccct tgcagggttg1681 tgcaggtgtg aataaa1697 ggaagatgag cagcagctgc tcagggctga gcagggtcct ggtggccgtg gctacagccc1757 tggtgtctgc ctcctccccc tgcccccagg cctggggccc cccaggggtc cagtatgggc1817 agccaggcag gtccgtgaag ctgtgttgtc ctggagtgac tgccggggac ccagtgtcct1877 ggtttcggga tggggagcca aagctgctcc agggacctga ctctgggcta gggcatgaac1937 1997 gtgcacttgg gggcacagtg accctgcagc tgggctaccc tccagcccgc cctgttgtct2057 2117 gtttacccac ccgctacctc acctcctaca ggaagaagac agtcctagga gctgatagcc2177 agaggaggag tccatccaca gggccctggc catgcccaca ggatccccta ggggctgccc2237 gctgtgttgt ccacggggct gagttctgga gccagtaccg gattaatgtg actgaggtga2297 acccactggg tgccagcaca cgcctgctgg atgtgagctt gcagagcatc ttgcgccctg2357 acccacccca gggcctgcgg gtagagtcag taccaggtta cccccgacgc ctgcgagcca2417 gctggacata ccctgcctcc tggccgtgcc agccccactt cctgctcaag ttccgtttgc2477 agtaccgtcc ggcgcagcat ccagcctggt ccacggtgga gccagctgga ctggaggagg25 tgatcacaga tgctgtggct gggctgcccc atgctgtacg agtcagtgcc cgggactttc 2657 ccataccaaa ggagatacca gcatggggcc agctacacac gcagccagag gtggagcctc2717 aggtggacag ccctgctcct ccaaggccct ccctccaacc acaccctcgg ctacttgatc2777 273577 2777 acagggactc tgtggagcag gtagctgtgc tggcgtcttt gggaatcctt tctttcctgg2837 gactggtggc tggggccctg gcactggggc tctggctgag gctgagacgg ggtgggaagg2897 atggatcccc aaagcctggg ttcttggcct cagtgattcc agtggacagg cgtccaggag2957 ctccaaacct gtagaggacc caggagggct tcggcagatt ccacctataa ttctgtcttg3017 ctggtgtgga tagaaaccag gcaggacagt agatccctat ggttggatct cagctggaag3077 ttctgtttgg agcccatttc tgtgagaccc tgtatttcaa atttgcagct gaaaggtgct3137 tctacctctg atttcacccc agagttggag ttctgctcaa ggaacgtgtg taatgtgtac3197 atctgtgtcc atgtgtgacc atgtgtctgt gaggcaggga acatgtattc tctgcatgca3257 tgtatgtagg tgcctgggga gtgtgtgtgg gtccttggct cttggccttt ccttgcaggg3317 gttgtgcagg tgtgaataaa gagaataagg aagttcttgg agattatact cagaaaaaaa3377 aa3379 tctgtggagc aggtagctgt gctggcgtct ttgggaatcc tttctttcct gggactggtg3439 gctggggccc tggcactggg gctctggtaa gtgactgcca ttggtccctc agcctctgat3499 cctcacacat gctctgatgc ccatagacca cattcatctc cacccttcat gactgcctgc3559 tgaacctgtc tgattctgga actacctccc catacctcca tcccctatgc cccacttgat3619 tttaactgat tcctctcctg accctttact aataaaccct ttggcggaga ctgagataac3679 ccacattgtt ggagagacag ctgcctttct atgccccagg ctgaggctga gacggggtgg3739 gaaggatgga tccccaaagc ctgggttctt ggcctcagtg attccagtgg aca (2) SEQ ID NO: 2890 of the data: (i) sequence characteristics:

(A) length: 762 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2890 sequence description: 1 atgtggcccc ctgggtcagc ctcccagcca ccgccctcac ctgccgcggc cacaggtctg 61 catccagcgg ctcgccctgt gtccctgcag tgccggctca gcatgtgtcc agcgcgcagc121 ctcctccttg tggctaccct ggtcctcctg gaccacctca gtttggccag aaacctcccc181 gtggccactc cagacccagg aatgttccca tgccttcacc actcccaaaa cctgctgagg241 gccgtcagca acatgctcca gaaggccaga caaactctag aattttaccc ttgcacttct301 gaagagattg atcatgaaga tatcacaaaa gataaaacca gcacagtgga ggcctgttta361 ccattggaat taaccaagaa tgagagttgc ctaaattcca gagagacctc tttcataact421 aatgggagtt gcctggcctc cagaaagacc tcttttatga tggccctgtg ccttagtagt481 atttatgaag acttgaagat gtaccaggtg gagttcaaga ccatgaatgc aaagcttctg541 atggatccta agaggcagat ctttctagat caaaacatgc tggcagttat tgatgagctg601 atgcaggccc tgaatttcaa cagtgagact gtgccacaaa aatcctccct tgaagaaccg661 gatttttata aaactaaaat caagctctgc atacttcttc atgctttcag aattcgggca721 39 721 gtgactattg atagagtgat gagctatctg aatgcttcct aa (2) SEQ ID NO: 2891 for data: (i) sequence characteristics:

(A) length: 2056 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2891 sequence description: 1 aagcttcttt tgcataactg gcgctggatt tttactgaga ctttacgtta cagttttttt 61 tttttaaatt tcaaggtgct tttacgaaca catgaataaa atatttgtgt cattttgaac121 cttacttgtc ttattttatg catgtattta tttatggggg ggcacaagga ctcatctgtg181 721 atctgcgccc gcctaaaacc cggcctggtc ccagccaccg ccccaggaac ttcccccacc 781 181 gtggtgcagc cactgtaaat aaattagtga aactacttcacgtcaatttc tgttcagtac241 actttagtga tggatcggag gaaattaata catgtttaca aaaagcccct cccccagttg301 ttacatatgc ctcagagata ccagttgtga aaagtgcagg tgcacttaca cacatacgca361 cacacacccc acaaatggta tcatacgaaa aaacatacct gcaatctgat ttgtccactt421 aattgtatat cttggataca gaacttgttt cactggaagg ctaaaaggca aagtctgggg481 aggcctagag gacacagggg atgggaggag gcgctctgag ctggatgtaa ggtctccacc 541 cacggccaga gcacaaggtc ggataaccag tgggcctgcc ggcttggctg cctgggccct 601 cccctgccga gacaaacggc tggagggagg aagtgtgcgg ctgggaagct ccgctgctct 661 ggcccgggtt tcccatttcc cccttcccgc gctgagacgg cgaggaaagt tagcccggaa 721 atctgcgccc gcctaaaacc cggcctggtc ccagccaccg ccccaggaac ttcccccacc 781 gcaggggcgg aggtcgag2g cagggatgga gaagtggacc tgcgcgggtg gactccgggg 841 cgcgggtgga ctccggggcg cggggggact ccgaggagcg ggtggactgt ggggcgcggg 901 taccgtctcg cagcgacctc tgtcggcggc tctggggatg gcccgcatct gtctgcgtgt 961 acctggtata cgtgcaggta catgttcctg ttcacgtgca gactgggcgg gggatggggg1021 ggtccacacc ggtgtacacc tttgcatacc tcttagcaac ttgaaattcc accacgagag1081 atatctttat tccgctattc ctgtgcatct gcacggagcc cctagggcca tagatttgtg1141 tgcaaatgaa atgaggatgt agtctgggtg cccaaggggg ggtgccttga gtgtggttgt1201 ctgtatgcct ccctgagggt atttcacttt ctgctcccat ccgcccctat gagcgagtac1261 ctatgagcac aggatgtgca catatttgag tcttattagt ggtacacgca gttttatcat1321 ctccccaggt ctgtgtctgt atgaaatgtg catgggtgtg tgtgtgcacg cgtgtgttcc1381 cactcgggga atgtggggag aggtgcatgg agccaagatg ggtggtaaat agtatgtttc1441 tgaaattaaa ggactaatgt ggaggaaggc gccccagatg tactaaaccc tttgccttca1501 tctcatcctc tctgacttgg gaagaaccag gattttgttt ttaagccctt gggcatacag1561 ttgttccatc ccgacatgaa ctcagcctcc cgtctgaccg ccccttggcc ttccttcttc1621 ctcgatctgt ggaacccagg gaatctgcct agtgctgtct ccaagcacct tggccatgat1681 gtaaacccag agaaattagc atctccatct ccttccttat tccccaccca aaagtcattt1741 cctcttagtt cattacctgg gattttgatg tctatgttcc ctcctcgtta ttgatacaca1801 cacagagaga gacaaacaaa aaaggaactt cttgaaattc ccccagaagg ttttgagagt1861 tgttttcaat gttgcaacaa gtcagtttct agtttaagtt tccatcagaa aggagtagag1921 tatataagtt ccagtaccag caacagcagc agaagaaaca acatctgttt cagggccatt1981 ggactctccg tcctgcccag agcaaggtaa gcacttccca agcccctacc tccctcccct2041 ccctgtgggc ctgcag (2) SEQ ID NO: 2892 materials: (i) sequence characteristics:

(A) length: 1703 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2892 sequence description: 1 gaattctcag acagcagcat tagaaggggc cttagagatc aaccatttct cttattttac 61 acacacctaa aactccctac agccgtgctt catcagcttc gagcagatga gccacccaga 121 aggcagctcc agttattagg tcctagggcc tgggtgtagt caggcccttt ggaagctcca 181 721 ctgcgcttct gatccctgtt tcccctggct agaccctgcg tgccctcccg ctggaagcgg 781 181 agtcagagat caaacacatc ctccccacta cccacgccta gggtgactaa tgcctgtggg 241 aaaaacaact gaactaaaaa gtcccacagg aacctcaaac ccagcacatc caaaatggaa 301 cttctcacca tctcctccaa actcagtcct cttatacagt aatccctgta aagctagaac 361 aatctccatt ccccattctc agggccttcc tctcccgctc acctgaggag ctaccaagcc 421 ttggcccaca agccctctga gagtccctcc tgcccaccct gtgttctcca tactgaataa 481 ggacttggcc acaccttgtc aactcttccc tctgctctac tcctgacccc tggatccccc 541 catcatgcaa attctgccac atctcccgcc taaaacccag gaagactccc cactactctc 601 agcacagaaa gtacactcct tagtatggca tcccctgccc tcatggcatg gcccatccag 661 ccctccagcc tcacaccctg caaggacacc tagaccccca cctccctcaa cccttcatga 721 ctgcgcttct gatccctgtt tcccctggct agaccctgcg tgccctcccg ctggaagcgg 781 tctaatgcct gcttgttttt aacactcagg ttggggcccc tgcctgctcc cgggagcctt 841 tgctgactcc tggaccccgt tgctccggct gagcgtgggc tctttctcta ggtctttcct 901 cccaggactc tgtgtattca tcctatcgtt aaactggatt ctctacaaga gtaataattg 961 cagagtcagc cagctctcat cccttttcag gtttcagaaa agacctgtga acaaaacgcc1021 ttgagtctga tttagtgtgg caatgcccca agggtcctgt tctccctggg tgtcctgcac1081 ctggtgcaac gtcggcctgg catctagtga gccatctaaa ggaacgatga tgagtgaatg1141 atttgcctac cccttccagt actaggctgg aggtcgtggt tagggcccat ccctacgcag1201 gacatgcaaa gtgggaggca ctcctctctc tacgtcggca gggggcgctg cacagctgcg1261 gggcggggta gcttagacacggggcgtccg gctaaggccg gggacccagg gtggtgggcg1321 gggtgtcccg cccgcctgtg gaccccgcgc agtaactgcg aacatttcgc tttcattttg1381 ggccgagctg gaggcggcgg ggccgtcccg gaacggctgc ggccgggcac cccgggagtt1441 aatccgaaag cgccgcaagc ccccggggcc ggccgcaccg cacgtgtcac cgagaagctg1501 atgtagagag agacacagaa ggagacagaa agcaagagac cagagtcccg ggaaagtcct1561 gccgcgcctc gggacaatta taaaaatgtg gccccctggg tcagcctccc agccaccgcc1621 ctcacctgcc gcggccacag gtctgcatcc agcggctcgc cctgtgtccc tgcagtgccg1681 gctcagcatg tgtccagcgc gca (2) SEQ ID NO: 2893 materials:

(i) sequence characteristics:

(A) length: 4521 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2893 sequence description: 1 atgtggcccc ctgggtcagc ctcccagcca ccgccctcac ctgccgcggc cacaggtctg 61 catccagcgg ctcgccctgt gtccctgcag tgccggctca gcatgtgtcc agcgcgcagc ctcctccttg tggctaccct ggtcctcctg gaccacctca gtttggccag aaacctcccc181 gtggccactc cagacccagg aatgttccca tgccttcacc actcccaaaa cctgctgagg241 gccgtcagca acatgctcca gaaggccaga caaactctag aattttaccc ttgcacttct301 gaagagattg atcatgaaga tatcacaaaa gataaaacca gcacagtgga ggcctgttta361 ccattggaat taaccaagaa tgagagttgc ctaaattcca gagagacctc tttcataact421 aatgggagtt gcctggcctc cagaaagacc tcttttatga tggccctgtg ccttagtagt481 atttatgaag acttgaagat gtaccaggtg gagttcaaga ccatgaatgc aaagcttctg541 atggatccta agaggcagat ctttctagat caaaacatgc tggcagttat tgatgagctg601 atgcaggccc tgaatttcaa cagtgagact gtgccacaaa aatcctccct tgaagaaccg661 gatttttata aaactaaaat caagctctgc atacttcttc atgctttcag aattcgggca gtgactattg atagagtgat gagctatctg aatgcttcct aa 763 aagcttcttt tgcataactg gcgctggatt tttactgaga ctttacgtta cagttttttt 823 tttttaaatt tcaaggtgct tttacgaaca catgaataaa atatttgtgt cattttgaac 883 cttacttgtc ttattttatg catgtattta tttatggggg ggcacaagga ctcatctgtg 943 gtggtgcagc cactgtaaat aaattagtga aactacttca cgtcaatttc tgttcagtac1003 actttagtga tggatcggag gaaattaata catgtttaca aaaagcccct cccccagttg1063 ttacatatgc ctcagagata ccagttgtga aaagtgcagg tgcacttaca cacatacgca1123 cacacacccc acaaatggta tcatacgaaa aaacatacct gcaatctgat ttgtccactt1183 aattgtatat cttggataca gaacttgttt cactggaagg ctaaaaggca aagtctgggg1243 aggcctagag gacacagggg atgggaggag gcgctctgag ctggatgtaa ggtctccacc1303 cacggccaga gcacaaggtc ggataaccag tgggcctgcc ggcttggctg cctgggccct1363 cccctgccga gacaaacggc tggagggagg aagtgtgcgg ctgggaagct ccgctgctct1423 ggcccgggtt tcccatttcc cccttcccgc gctgagacgg cgaggaaagt tagcccggaa1483 atctgcgccc gcctaaaacc cggcctggtc ccagccaccg ccccaggaac ttcccccacc1543 37160384 cgcgggtgga ctccggggcg cggggggact ccgaggagcg ggtggactgt ggggcgcggg1663 taccgtctcg cagcgacctc tgtcggcggc tctggggatg gcccgcatct gtctgcgtgt1723 acctggtata cgtgcaggta catgttcctg ttcacgtgca gactgggcgg gggatggggg1783 ggtccacacc ggtgtacacc tttgcatacc tcttagcaac ttgaaattcc accacgagag1843 atatctttat tccgctattc ctgtgcatct gcacggagcc cctagggcca tagatttgtg1903 tgcaaatgaa atgaggatgt agtctgggtg cccaaggggg ggtgccttga gtgtggttgt1963 ctgtatgcct ccctgagggt atttcacttt ctgctcccat ccgcccctat gagcgagtac2023 ctatgagcac aggatgtgca catatttgag tcttattagt ggtacacgca gttttatcat2083 ctccccaggt ctgtgtctgt atgaaatgtg catgggtgtg tgtgtgcacg cgtgtgttcc2143 cactcgggga atgtggggag aggtgcatgg agccaagatg ggtggtaaat agtatgtttc2203 2263 tctcatcctc tctgacttgg gaagaaccag gattttgttt ttaagccctt gggcatacag2323 ttgttccatc ccgacatgaa ctcagcctcc cgtctgaccg ccccttggcc ttccttcttc2383 ctcgatctgt ggaacccagg gaatctgcct agtgctgtct ccaagcacct tggccatgat2443 gtaaacccag agaaattagc atctccatct ccttccttat tccccaccca aaagtcattt 863 cctcttagtt cattacctgg gattttgatg tctatgttcc ctcctcgtta ttgatacaca2563 cacagagaga gacaaacaaa aaaggaactt cttgaaattc ccccagaagg ttttgagagt tgttttcaat gttgcaacaa gtcagtttct agtttaagtt tccatcagaa aggagtagag2683 tatataagtt ccagtaccag caacagcagc agaagaaaca acatctgttt cagggccatt2743 ggactctccg tcctgcccag agcaaggtaa gcacttccca agcccctacc tccctcccct2803 ccctgtgggc ctgcag2819 gaattctcag acagcagcat tagaaggggc cttagagatc aaccatttct cttattttac2879 acacacctaa aactccctac agccgtgctt catcagcttc gagcagatga gccacccaga2939 aggcagctcc agttattagg tcctagggcc tgggtgtagt caggcccttt ggaagctcca2999 agtcagagat caaacacatc ctccccacta cccacgccta gggtgactaa tgcctgtggg3059 aaaaacaact gaactaaaaa gtcccacagg aacctcaaac ccagcacatc caaaatggaa3119 583179 aatctccatt ccccattctc agggccttcc tctcccgctc acctgaggag ctaccaagcc3239 ttggcccaca agccctctga gagtccctcc tgcccaccct gtgttctcca tactgaataa3299 ggacttggcc acaccttgtc aactcttccc tctgctctac tcctgacccc tggatccccc3359 catcatgcaa attctgccac atctcccgcc taaaacccag gaagactccc cactactctc3419 agcacagaaa gtacactcct tagtatggca tcccctgccc tcatggcatg gcccatccag3479 ccctccagcc tcacaccctg caaggacacc tagaccccca cctccctcaa cccttcatga3539 ctgcgcttct gatccctgtt tcccctggct agaccctgcg tgccctcccg ctggaagcgg3599 tctaatgcct gcttgttttt aacactcagg ttggggcccc tgcctgctcc cgggagcctt3659 tgctgactcc tggaccccgt tgctccggct gagcgtgggc tctttctcta ggtctttcct3719 cccaggactc tgtgtattca tcctatcgtt aaactggatt ctctacaaga gtaataattg3779 cagagtcagc cagctctcat cccttttcag gtttcagaaa agacctgtga acaaaacgcc3839 ttgagtctga tttagtgtgg caatgcccca agggtcctgt tctccctggg tgtcctgcac3899 ctggtgcaac gtcggcctgg catctagtga gccatctaaa ggaacgatga tgagtgaatg 393972 4019 ctggtgcaac gtcggcctgg catctagtga gccatctaaa ggaacgatga tgagtgaatg 4079 4139 ctggtgcaac gtcggcctgg catctagtga gccatctaaa ggaacgatga tgagtgaatg cccgcctgtg gaccccgcgc agtaactgcg aacatttcgc tttcattttg4199 41 4199 ggccgagctg gaggcggcgg ggccgtcccg gaacggctgc ggccgggcac cccgggagtt4259 aatccgaaag cgccgcaagc ccccggggcc ggccgcaccg cacgtgtcac cgagaagctg4319 atgtagagag agacacagaa ggagacagaa agcaagagac cagagtcccg ggaaagtcct4379 gccgcgcctc gggacaatta taaaaatgtg gccccctggg tcagcctccc agccaccgcc4439 ctcacctgcc gcggccacag gtctgcatcc agcggctcgc cctgtgtccc tgcagtgccg4499 gctcagcatg tgtccagcgc gca (2) SEQ ID NO: 2894 data: (i) sequence characteristics:

(A) Length: 1742 base pairs

(B) Type (2): nucleicacids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2894 sequence description: 1 caagcccaga gccctgccat ttctgtgggc tcaggtccct actgctcagc cccttcctcc 61 ctcggcaagg ccacaatgaa ccggggagtc ccttttaggc acttgcttct ggtgctgcaa121 ctggcgctcc tcccagcagc cactcaggga aagaaagtgg tgctgggcaa aaaaggggat181 721 ggggaacagg tggagttctc cttcccactc gcctttacag ttgaaaagct gacgggcagt 781 181 acagtggaac tgacctgtac agcttcccag aagaagagca tacaattcca ctggaaaaac241 tccaaccaga taaagattct gggaaatcag ggctccttct taactaaagg tccatccaag301 ctgaatgatc gcgctgactc aagaagaagc ctttgggacc aaggaaactt ccccctgatc361 atcaagaatc ttaagataga agactcagat acttacatct gtgaagtgga ggaccagaag421 gaggaggtgc aattgctagt gttcggattg actgccaact ctgacaccca cctgcttcag 481 gggcagagcc tgaccctgac cttggagagc ccccctggta gtagcccctc agtgcaatgt 541 aggagtccaa ggggtaaaaa catacagggg gggaagaccc tctccgtgtc tcagctggag 601 ctccaggata gtggcacctg gacatgcact gtcttgcaga accagaagaa ggtggagttc 661 aaaatagaca tcgtggtgct agctttccag aaggcctcca gcatagtcta taagaaagag 721 ggggaacagg tggagttctc cttcccactc gcctttacag ttgaaaagct gacgggcagt 781 ggcgagctgt ggtggcaggc ggagagggct tcctcctcca agtcttggat cacctttgac 841 ctgaagaaca aggaagtgtc tgtaaaacgg gttacccagg accctaagct ccagatgggc 901 aagaagctcc cgctccacct caccctgccc caggccttgc ctcagtatgc tggctctgga 961 aacctcaccc tggcccttga agcgaaaaca ggaaagttgc atcaggaagt gaacctggtg1021 gtgatgagag ccactcagct ccagaaaaat ttgacctgtg aggtgtgggg acccacctcc1081 cctaagctga tgctgagctt gaaactggag aacaaggagg caaaggtctc gaagcgggag1141 aaggcggtgt gggtgctgaa ccctgaggcg gggatgtggc agtgtctgct gagtgactcg1201 ggacaggtcc tgctggaatc caacatcaag gttctgccca catggtccac cccggtgcag1261 ccaatggccc tgattgtgct ggggggcgtc gccggcctcc tgcttttcat tgggctaggc1321 atcttcttct gtgtcaggtg ccggcaccga aggcgccaag cagagcggat gtctcagatc1381 aagagactcc tcagtgagaa gaagacctgc cagtgccctc accggtttca gaagacatgt1441 agccccattt gaggcacgag gccaggcaga tcccacttgc agcctcccca ggtgtctgcc1501 ccgcgtttcc tgcctgcgga ccagatgaat gtagcagatc ccacgctctg gcctcctgtt1561 cgtcctccct acaatttgcc attgtttctc ctgggttagg ccccggcttc actggttgag1621 tgttgctctc tagtttccag aggcttaatc acaccgtcct ccacgccatt tccttttcct1681 tcaagcctag cccttctctc attatttctc tctgaccctc tccccactgc tcatttggat1741 cc (2) SEQ ID NO: 2895 data: (i) sequence characteristics:

(A) length: 237 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2895 sequence description: 1 ctgccaactc tgacacccac ctgcttcagg ggcagagcct gaccctgacc ttggagagcc 61 cccctggtag tagcccctca gtgcaatgta ggagtccaag gggtaaaaac atacaggggg121 ggaagaccct ctccgtgtct cagctggagc tccaggatag tggcacctgg acatgcactg181 ttttgcagaa ccagaagaag gtggagttca aaatagacat cgtggtgcta gctttcc (2) SEQ ID NO: 2896 materials: (i) sequence characteristics:

(A) length: 4040 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2896 description of the sequence: 1 tgcagagaac agagaaagga catctgcgag gaaagttccc tgatggctgt caacaaagtg 61 ccacgtctct atggctgtgt acgctgagca cacgatttta tcgcgcctat catatcttgg 121 tgcataaacg cacctcacct cggtcaaccc ttgctccgtc ttatgagaca ggctttatta 181 721 gtgcaagaga ggcgatgtga ctgtgaagcc ttcccatgta attttacttg gatccactgt 781 181 tccgcatttt atatgagggg aatctgacgg tggagagaga attatcttgc tcaaggcgac 241 acagcagagc ccacaggtgg cagaatccca cccgagcccg cttcgacccg cggggtggaa 301 accacgggcg cccgcccggc tgcgcttcca gagctgaact gagaagcgag tcctctccgc 361 cctgcggcca ccgcccagcc ccgacccccg ccccggcccg atcctcactc gccgccagct 421 ccccgcgccc accccggagt tggtggcgca gaggcgggag gcggaggcgg gagggcgggc 481 gctggcaccg ggaacgcccg agcgccggca gagagcgcgg agagcgcgac acgtgcggcc 541 cagagcaccg gggccacccg gtccccgcag gcccgggacc gcgcccgctg gcaggcgaca 601 cgtggaagaa tacggagttc tataccagag ttgattgttg atggcacata cttttagagg 661 atgctcattg gcatttatgt ttataatcac gtggctgttg attaaagcaa aaatagatgc 721 gtgcaagaga ggcgatgtga ctgtgaagcc ttcccatgta attttacttg gatccactgt 781 caatattaca tgctctttga agcccagaca aggctgcttt cactattcca gacgtaacaa 841 gttaatcctg tacaagtttg acagaagaat caattttcac catggccact ccctcaattc 901 tcaagtcaca ggtcttcccc ttggtacaac cttgtttgtc tgcaaactgg cctgtatcaa 961 tagtgatgaa attcaaatat gtggagcaga gatcttcgtt ggtgttgctc cagaacagcc1021 tcaaaattta tcctgcatac agaagggaga acaggggact gtggcctgca cctgggaaag1081 aggacgagac acccacttat acactgagta tactctacag ctaagtggac caaaaaattt1141 aacctggcag aagcaatgta aagacattta ttgtgactat ttggactttg gaatcaacct1201 cacccctgaa tcacctgaat ccaatttcac agccaaggtt actgctgtca atagtcttgg1261 aagctcctct tcacttccat ccacattcac attcttggac atagtgaggc ctcttcctcc1321 gtgggacatt agaatcaaat ttcaaaaggc ttccgtgagc agatgtaccc tttattggag1381 agatgaggga ctggtactgc ttaatcgact cagatatcgg cccagtaaca gcaggctctg1441 gaatatggtt aatgttacaa aggccaaagg aagacatgat ttgctggatc tgaaaccatt1501 tacagaatat gaatttcaga tttcctctaa gctacatctt tataagggaa gttggagtga1561 ttggagtgaa tcattgagag cacaaacacc agaagaagag cctactggga tgttagatgt1621 ctggtacatg aaacggcaca ttgactacag tagacaacag atttctcttt tctggaagaa1681 tctgagtgtc tcagaggcaa gaggaaaaat tctccactat caggtgacct tgcaggagct1741 gacaggaggg aaagccatga cacagaacat cacaggacac acctcctgga ccacagtcat1801 tcctagaacc ggaaattggg ctgtggctgt gtctgcagca aattcaaaag gcagttctct1861 gcccactcgt attaacataa tgaacctgtg tgaggcaggg ttgctggctc ctcgccaggt1921 ctctgcaaac tcagagggca tggacaacat tctggtgact tggcagcctc ccaggaaaga1981 tccctctgct gttcaggagt acgtggtgga atggagagag ctccatccag ggggtgacac2041 acaggtccct ctaaactggc tacggagtcg accctacaat gtgtctgctc tgatttcaga2101 gaacataaaa tcctacatct gttatgaaat ccgtgtgtat gcactctcag gggatcaagg2161 aggatgcagc tccatcctgg gtaactctaa gcacaaagca ccactgagtg gcccccacat2221 taatgccatc acagaggaaa aggggagcat tttaatttca tggaacagca ttccagtcca2281 ggagcaaatg ggctgcctcc tccattatag gatatactgg aaggaacggg actccaactc2341 ccagcctcagctctgtgaaa ttccctacag agtctcccaa aattcacatc caataaacag2401 cctgcagccc cgagtgacat atgtcctgtg gatgacagct ctgacagctg ctggtgaaag2461 ttcccacgga aatgagaggg aattttgtct gcaaggtaaa gccaattgga tggcgtttgt2521 ggcaccaagc atttgcattg ctatcatcat ggtgggcatt ttctcaacgc attacttcca2581 gcaaaaggtg tttgttctcc tagcagccct cagacctcag tggtgtagca gagaaattcc2641 agatccagca aatagcactt gcgctaagaa atatcccatt gcagaggaga agacacagct2701 gcccttggac aggctcctga tagactggcc cacgcctgaa gatcctgaac cgctggtcat 5861 cagtgaagtc cttcatcaag tgaccccagt tttcagacat cccccctgct ccaactggcc2821 acaaagggaa aaaggaatcc aaggtcatca ggcctctgag aaagacatga tgcacagtgc2881 ctcaagccca ccacctccaa gagctctcca agctgagagc agacaactgg tggatctgta2941 caaggtgctg gagagcaggg gctccgaccc aaagccagaa aacccagcct gtccctggac3001 ggtgctccca gcaggtgacc ttcccaccca tgatggctac ttaccctcca acatagatga3061 cctcccctca catgaggcac ctctcgctga ctctctggaa gaactggagc ctcagcacat3121 ctccctttct gttttcccct caagttctct tcacccactc accttctcct gtggtgataa31 gctgactctg gatcagttaa agatgaggtg tgactccctc atgctctgag tggtgaggct3241 tcaagcctta aagtcagtgt gccctcaacc agcacagcct gccccaattc ccccagcccc3301 tgctccagca gctgtcatct ctgggtgcca ccatcggtct ggctgcagct agaggacagg3361 caagccagct ctgggggagt cttaggaact gggagttggt cttcactcag atgcctcatc3421 393481 tgaattccta gtaactttct tggtatgctg gccagaaagg gaaatgagga ggagagtaga3541 aaccacagct cttagtagta atggcataca gtctagagga ccattcatgc aatgactatt3601 tctaaagcac ctgctacaca gcaggctgta cacagcagat cagtactgtt caacagaact36 tcctgagatg atggaaatgt tctacctctg cactcactgt ccagtacatt agacactagg3721 cacattggct gttaatcact tggaatgtgt ttagcttgac tgaggaatta aattttgatt3781 gtaaatttaa atcgccacac atggctagtg gctactgtat tggagtgcac agctctagat3841 ggctcctaga ttattgagag cctccaaaac aaatcaacct agttctatag atgaagacat3901 aaaagacact ggtaaacacc aatgtaaaag ggcccccaag gtggtcatga ctggtctcat39 ttgcagaagt ctaagaatgt acctttttct ggccgggcgt ggtagctcat gcctgtaatc4021 ccagcacttt gggaggctga (2) SEQ ID NO: 2897 materials: (i) sequence characteristics:

(A) length: 6019 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2897 the sequence description: 1 caagcccaga gccctgccat ttctgtgggc tcaggtccct actgctcagc cccttcctcc 61 ctcggcaagg ccacaatgaa ccggggagtc ccttttaggc acttgcttct ggtgctgcaa121 ctggcgctcc tcccagcagc cactcaggga aagaaagtgg tgctgggcaa aaaaggggat181 acagtggaac tgacctgtac agcttcccag aagaagagca tacaattcca ctggaaaaac241 tccaaccaga taaagattct gggaaatcag ggctccttct taactaaagg tccatccaag301 ctgaatgatc gcgctgactc aagaagaagc ctttgggacc aaggaaactt ccccctgatc361 atcaagaatc ttaagataga agactcagat acttacatct gtgaagtgga ggaccagaag421 gaggaggtgc aattgctagt gttcggattg actgccaact ctgacaccca cctgcttcag

481 gggcagagcc tgaccctgac cttggagagc ccccctggta gtagcccctc agtgcaatgt

541 aggagtccaa ggggtaaaaa catacagggg gggaagaccc tctccgtgtc tcagctggag

601 ctccaggata gtggcacctg gacatgcact gtcttgcaga accagaagaa ggtggagttc

661 aaaatagaca tcgtggtgct agctttccag aaggcctcca gcatagtcta taagaaagag

721 ggggaacagg tggagttctc cttcccactc gcctttacag ttgaaaagct gacgggcagt

781 ggcgagctgt ggtggcaggc ggagagggct tcctcctcca agtcttggat cacctttgac

841 ctgaagaaca aggaagtgtc tgtaaaacgg gttacccagg accctaagct ccagatgggc

901 aagaagctcc cgctccacct caccctgccc caggccttgc ctcagtatgc tggctctgga

961 aacctcaccc tggcccttga agcgaaaaca ggaaagttgc atcaggaagt gaacctggtg

1021 gtgatgagag ccactcagct ccagaaaaat ttgacctgtg aggtgtgggg acccacctcc

1081 cctaagctga tgctgagctt gaaactggag aacaaggagg caaaggtctc gaagcgggag

1141 aaggcggtgt gggtgctgaa ccctgaggcg gggatgtggc agtgtctgct gagtgactcg

1201 ggacaggtcc tgctggaatc caacatcaag gttctgccca catggtccac cccggtgcag

1261 ccaatggccc tgattgtgct ggggggcgtc gccggcctcc tgcttttcat tgggctaggc

1321 atcttcttct gtgtcaggtg ccggcaccga aggcgccaag cagagcggat gtctcagatc

1381 aagagactcc tcagtgagaa gaagacctgc cagtgccctc accggtttca gaagacatgt

1441 agccccattt gaggcacgag gccaggcaga tcccacttgc agcctcccca ggtgtctgcc

1501 ccgcgtttcc tgcctgcgga ccagatgaat gtagcagatc ccacgctctg gcctcctgtt

1561 cgtcctccct acaatttgcc attgtttctc ctgggttagg ccccggcttc actggttgag

1621 tgttgctctc tagtttccag aggcttaatc acaccgtcct ccacgccatt tccttttcct

1681 tcaagcctag cccttctctc attatttctc tctgaccctc tccccactgc tcatttggat

1741 cc1 ctgccaactc tgacacccac ctgcttcagg ggcagagcct gaccctgacc ttggagagcc

61 cccctggtag tagcccctca gtgcaatgta ggagtccaag gggtaaaaac atacaggggg

121 ggaagaccct ctccgtgtct cagctggagc tccaggatag tggcacctgg acatgcactg

181 ttttgcagaa ccagaagaag gtggagttca aaatagacat cgtggtgcta gctttcc1 tgcagagaac agagaaagga catctgcgag gaaagttccc tgatggctgt caacaaagtg

61 ccacgtctctatggctgtgt acgctgagca cacgatttta tcgcgcctat catatcttgg

121 tgcataaacg cacctcacct cggtcaaccc ttgctccgtc ttatgagaca ggctttatta

181 tccgcatttt atatgagggg aatctgacgg tggagagaga attatcttgc tcaaggcgac

241 acagcagagc ccacaggtgg cagaatccca cccgagcccg cttcgacccg cggggtggaa

301 accacgggcg cccgcccggc tgcgcttcca gagctgaact gagaagcgag tcctctccgc

361 cctgcggcca ccgcccagcc ccgacccccg ccccggcccg atcctcactc gccgccagct

421 ccccgcgccc accccggagt tggtggcgca gaggcgggag gcggaggcgg gagggcgggc

481 gctggcaccg ggaacgcccg agcgccggca gagagcgcgg agagcgcgac acgtgcggcc

541 cagagcaccg gggccacccg gtccccgcag gcccgggacc gcgcccgctg gcaggcgaca

601 cgtggaagaa tacggagttc tataccagag ttgattgttg atggcacata cttttagagg

661 atgctcattg gcatttatgt ttataatcac gtggctgttg attaaagcaa aaatagatgc

721 gtgcaagaga ggcgatgtga ctgtgaagcc ttcccatgta attttacttg gatccactgt

781 caatattaca tgctctttga agcccagaca aggctgcttt cactattcca gacgtaacaa

841 gttaatcctg tacaagtttg acagaagaat caattttcac catggccact ccctcaattc

901 tcaagtcaca ggtcttcccc ttggtacaac cttgtttgtc tgcaaactgg cctgtatcaa

961 tagtgatgaa attcaaatat gtggagcaga gatcttcgtt ggtgttgctc cagaacagcc

1021 tcaaaattta tcctgcatac agaagggaga acaggggact gtggcctgca cctgggaaag

1081 aggacgagac acccacttat acactgagta tactctacag ctaagtggac caaaaaattt

1141 aacctggcag aagcaatgta aagacattta ttgtgactat ttggactttg gaatcaacct

1201 cacccctgaa tcacctgaat ccaatttcac agccaaggtt actgctgtca atagtcttgg

1261 aagctcctct tcacttccat ccacattcac attcttggac atagtgaggc ctcttcctcc

1321 gtgggacatt agaatcaaat ttcaaaaggc ttccgtgagc agatgtaccc tttattggag

1381 agatgaggga ctggtactgc ttaatcgact cagatatcgg cccagtaaca gcaggctctg

1441 gaatatggtt aatgttacaa aggccaaagg aagacatgat ttgctggatc tgaaaccatt

1501 tacagaatat gaatttcaga tttcctctaa gctacatctt tataagggaa gttggagtga

1561 ttggagtgaa tcattgagag cacaaacacc agaagaagag cctactggga tgttagatgt

1621 ctggtacatg aaacggcaca ttgactacag tagacaacag atttctcttt tctggaagaa

1681 tctgagtgtc tcagaggcaa gaggaaaaat tctccactat caggtgacct tgcaggagct

1741 gacaggaggg aaagccatga cacagaacat cacaggacac acctcctgga ccacagtcat

1801 tcctagaacc ggaaattggg ctgtggctgt gtctgcagca aattcaaaag gcagttctct

1861 gcccactcgt attaacataa tgaacctgtg tgaggcaggg ttgctggctc ctcgccaggt1921 ctctgcaaac tcagagggca tggacaacat tctggtgact tggcagcctc ccaggaaaga1981 tccctctgct gttcaggagt acgtggtgga atggagagag ctccatccag ggggtgacac2041 acaggtccct ctaaactggc tacggagtcg accctacaat gtgtctgctc tgatttcaga2101 gaacataaaa tcctacatct gttatgaaat ccgtgtgtat gcactctcag gggatcaagg2161 aggatgcagc tccatcctgg gtaactctaa gcacaaagca ccactgagtg gcccccacat2221 taatgccatc acagaggaaa aggggagcat tttaatttca tggaacagca ttccagtcca2281 ggagcaaatg ggctgcctcc tccattatag gatatactgg aaggaacggg actccaactc2341 ccagcctcag ctctgtgaaa ttccctacag agtctcccaa aattcacatc caataaacag2401 cctgcagccc cgagtgacat atgtcctgtg gatgacagct ctgacagctg ctggtgaaag2461 ttcccacgga aatgagaggg aattttgtct gcaaggtaaa gccaattgga tggcgtttgt2521 2581 gcaaaaggtg tttgttctcc tagcagccct cagacctcag tggtgtagca gagaaattcc4620 agatccagca aatagcactt gcgctaagaa atatcccatt gcagaggaga agacacagct4680 gcccttggac aggctcctga tagactggcc cacgcctgaa gatcctgaac cgctggtcat4740 cagtgaagtc cttcatcaag tgaccccagt tttcagacat cccccctgct ccaactggcc4800 acaaagggaa aaaggaatcc aaggtcatca ggcctctgag aaagacatga tgcacagtgc4860 ctcaagccca ccacctccaa gagctctcca agctgagagc agacaactgg tggatctgta49 caaggtgctg gagagcaggg gctccgaccc aaagccagaa aacccagcct gtccctggac4980 ggtgctccca gcaggtgacc ttcccaccca tgatggctac ttaccctcca acatagatga5040 cctcccctca catgaggcac ctctcgctga ctctctggaa gaactggagc ctcagcacat5100 ctccctttct gttttcccct caagttctct tcacccactc accttctcct gtggtgataa5160 gctgactctg gatcagttaa agatgaggtg tgactccctc atgctctgag tggtgaggct5220 tcaagcctta aagtcagtgt gccctcaacc agcacagcct gccccaattc ccccagcccc5280 tgctccagca gctgtcatct ctgggtgcca ccatcggtct ggctgcagct agaggacagg5340 caagccagct ctgggggagt cttaggaact gggagttggt cttcactcag atgcctcatc5400 ttgcctttcc cagggcctta aaattacatc cttcactgtg tggacctaga gactccaact5460 tgaattccta gtaactttct tggtatgctg gccagaaagg gaaatgagga ggagagtaga5520 aaccacagct cttagtagta atggcataca gtctagagga ccattcatgc aatgactatt5580 tctaaagcac ctgctacaca gcaggctgta cacagcagat cagtactgtt caacagaact5640 tcctgagatg atggaaatgt tctacctctg cactcactgt ccagtacatt agacactagg5700 cacattggct gttaatcact tggaatgtgt ttagcttgac tgaggaatta aattttgatt5760 gtaaatttaa atcgccacac atggctagtg gctactgtat tggagtgcac agctctagat5820 ggctcctaga ttattgagag cctccaaaac aaatcaacct agttctatag atgaagacat5880 aaaagacact ggtaaacacc aatgtaaaag ggcccccaag gtggtcatga ctggtctcat5940 ttgcagaagt ctaagaatgt acctttttct ggccgggcgt ggtagctcat gcctgtaatc6000 ccagcacttt gggaggctga (2) SEQ ID NO: 2898 data: (i) sequence characteristics:

(A) length: 5670 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2898 sequence description: 1 ggatccccgc tgacaatcta gaaacaagca acagaccctc tgatgtagcc atctgtgccg 61 cgcctctccg caccgcccgc cacgccttgg tccctggaga ccaccctcca gggcaggggc121 tgccgctcgg ccgggcccgc ggggtccctc ggcctgacat ggccggtgct ggagcggcac181 gtgcgcgcct cggcccctcg gccgctcccg cccctcgccg gtgcgcaccg gcgctcgggg241 agccgctggc ccgggtgtcc agccggccct tgccctgcct ggcgctcgga ccgccacctt301 tgccgccccc tcgccagcct ccgcagcttc cagactggcc ggtctgcgcg cccacccctg361 cctcccggac cggccaccgc cggaggccgc ggaggagggc ccggccgcgc agatcccgct421 tatcgggccc catctcccgt tacataaggc caccccccta tctccgcggg ccatcgccgc481 cgcaaccgcc gcgccagcgc cttctcccac gcgcgggggc gcccctgccc accgctcccg541 gcagggcttt tggtggccat gggggataag gggcgttgac tcacccgggc ggggctccgg601 gagttgcaca gaccaaggta gttccccgct ccttccccca tcacggagac cctgtgggag661 atgccgtggg ccctctacta cagattagga aacaggcccg tagaggggtc gcgcggccaa721 gtagcggcac tccaggcact gggggccctc gagggaaggg gcagacttct gggagtcaga781 gccagcagct gggctgggaa gcttcgagtg tggacagaga gggtgggaat gacgttccct 841 gtgggaagag agggtgggca agcctgggat gcctctgagc gggaatccag catgccttgt 901 gaggagggtc acaagcacac ccttgtgagg aggttgagcc ccatcgagga caggacggag 961 ggagcctgag caggcagaga gggggcctgg ggaggcgctg gttcggggag gaagtgggta1021 ggggagaaat cttgacatca acacccaaca ggcaaatgcc gtggcctctg ctgtgggggt1081 ttctggagga cttctaggaa aacgagggaa gagcaggaaa aggcgacatg gctgtagggc1141 caagcccagg agccgccctc cacagcactc attctgcaga agggaaattt gaggccccca1201 gacggcaggg gttgatcctg cagagactgg tgagcaaagg ggatcacccc aagccccagt1261 ggcactagga acacttacaa tctctgacct ggactaaggc tgccagcctg gcccagttaa1321 gagtttccca gaaggatggc ccatacactt taaattaaag gggccagaca cgtgcacact1381 acttccagcc actctggaag ctgaggtggg gggatcgctt gagtctggga gttggaggcc1441 agcctaggca ggcaacatag tgagacccca tctccaaaaa aacaaaacaa aacaaaacaa1501 aaaaacacca aaaaagctcc cagaaagacc tctgaatctt tctggatctc tcagtggaga1561 cctggaaatc tgaactttga caatccctct cacagtgggg ccaaggagga attaggcaag1621 ccaaaagaag tgaactttac tcttctattg cctgtttgaa ttttgtatcc aagcaagtgt1681 tacttaagta atttaagaga ctggttcatc gaaaaaataa aactccccaa attcccatag1741 ctggtagact gtggtcacag ccacagtgca ctaagactat ctgctcagca cttctggtga1801 cccaaaaggg tctgaggaca ggagctcaga gttgggtcag ctgtccaggt actcagggtt1861 gtcacaggca aaactgctgg aactcagggc agcattgcaa atgccacgcc gctctcaggg1921 ccccttgcct gccgctggaa ttaaacccac ccagatcttg gaaactctgc cctggaccct1981 tctcaataag tccatgagaa atcaaactct ttcctttatg cgacactgga ttttccacaa2041 agtaaaatca agatgagtaa agatgtggtt tctagatagt gcctgaaaaa gcagagacca2101 tggtgtcagg cgtcaccact tgggcctata aaagctgcca caagacgcca aggccacaag2161 ccacccagcc tatgcatccg ctcctcaatc ctctcctgtt ggcactgggc ctcatggcgc2221 ttttgttgac cacggtcatt gctctcactt gccttggcgg ctttgcctcc ccaggccctg tgcctccctc tacagccctc agggagctca ttgaggagct ggtcaacatc acccagaacc2341 agaaggtgag tgtcggctag ccagggtcct agctatgagg gctccagggt gggtgattcc2401 caagatgagg tcatgagcag gctgggcctg gtcctaagat gcctgtaggt caggaaaaat2461 ctccatggac caaggcccgg cccagccatg agggagagag gagctgggct ggggggctca2521 gcactgtgga tggacctatg gaggtgtctg gcagactccc cagggactac ctgctctcct2581 ggcctggcct tgtctgccac tgccagctcc tactcagcca ttcctgaaca gaggacagca2641 gagaagggcc agcaccctcc cagaaccatg tggcatttgc caactggatt ttgaccataa2701 caatgcagcc attctcccca gcaccatcat aggcccgccc ttacaggagg attcgttagt27 agagtccgct ccttgcccca ctagtaacag ctcacatgtc tgagcactgc ttacaccagg2821 cctggtgcac gtgctttatg tgtcatttca tcactgccag ccacctcaag aggcaggtac2881 gatgaaccca ttctgctaag gttcagtgag gttaagtgac agaggctgga ttcaagccag2941 gcctggccaa caccagagtg tccatgctcc taactgcagt gttccctcac catcagaagg3001 cagggcattt aatacaccag atccccaccg cctcccatct gatttgtctt ggtcaacagt3061 ggcccaggcc actcctactt cactcgtccc caccctggcc cttcccgcag gcccctgtcc3121 tcctgccctg actatggcaa gccttgcatg cagcttgtcc cttactagtg gtgtcaattt3181 ttttctctca gctccaagac cctaaacagt gggacctcac ccctatgcct gctgttcaaa3241 gcagaaaacg aagctcagga atgctgaggg gctgccaggc ctgcctctgt gccacaccag3301 ggatgcttgt ggggcctgtg ctggggcaga cctggcctgg gctgccaggg caggcccaca3361 acccctgcca gcactctgct cactgtcact ttgctcccac aggctccgct ctgcaatggc3421 agcatggtat ggagcatcaa cctgacagct ggcatggtaa ggacctttgg gtgcagggag3481 gatggggcag aggctccagg ccttgggctt atcttctctg agcctccctt ccatggctgg3541 ggttccaagc aagcttcaag tgctctcctc cctcccgcca taatctggcc ccttcccgcc3601 caccacccag actcacctgc gccaggcatc tcagccccat cttcctgcag actcacaaaa3661 ggcagctgcc caagcagggc ctgacccctc ggtgtcccct ccccacagta ctgtgcagcc3721 ctggaatccc tgatcaacgt gtcaggctgc agtgccatcg agaagaccca gaggatgctg3781 agcggattct gcccgcacaa ggtctcagct ggggtaaggc atcccccacc ctctcacacc3841 caccctgcac cccctcctgc caaccctggg ctcgctgaag ggaagctggc tgaatatcca3901 tggtgtgtgt ccacccaggg gtggggccat tgtggcagca gggacgtggc cttcgggatt3961 tacaggatct gggctcaagg gctcctaact cctacctggg cctcaatttc cacatctgta4021 cagtagaggt actaacagta cccacctcat ggggacttcc gtgaggactg aatgagacag 408681 4141 tgacctcttt gtcctgcagc agttttccag cttgcatgtc cgagacacca aaatcgaggt 42058 364261 caactgaaac ttcgaaagca tcattatttg cagagacagg acctgactat tgaagttgca4321 gattcatttt tctttctgat gtcaaaaatg tcttgggtag gcgggaagga gggttaggga4381 ggggtaaaat tccttagctt agacctcagc ctgtgctgcc cgtcttcagc ctagccgacc4441 tcagccttcc ccttgcccag ggctcagcct ggtgggcctc ctctgtccag ggccctgagc4501 tcggtggacc cagggatgac atgtccctac acccctcccc tgccctagag cacactgtag45 cattacagtg ggtgcccccc ttgccagaca tgtggtggga cagggaccca cttcacacac4621 aggcaactga ggcagacagc agctcaggca cacttcttct tggtcttatt tattattgtg4681 tgttatttaa atgagtgtgt ttgtcaccgt tggggattgg ggaagactgt ggctgctggc4741 acttggagcc aagggttcag agactcaggg ccccagcact aaagcagtgg accccaggag4801 tccctggtaa taagtactgt gtacagaatt ctgctacctc actggggtcc tggggcctcg4861 gagcctcatc cgaggcaggg tcaggagagg ggcagaacag ccgctcctgt ctgccagcca4921 gcagccagct ctcagccaac gagtaattta ttgtttttcc tcgtatttaa atattaaata4981 tgttagcaaa gagttaatat atagaagggt accttgaaca ctgggggagg ggacattgaa5041 caagttgttt cattgactat caaactgaag ccagaaataa agttggtgac agataggcct5101 gattgtattt gtctttcatt ttggcctttg gggacactgg tctgtggtct gaagactctg5161 aggagctctt cgggaggctg gtgggttgga ggaggggact gggatggatt acagcgaggg5221 tagggtgcag tgacctgggc tgaatgcaag ctagctcccg agggtgggga catggcctga5281 aggaagcccc accttctgtc tgctgcacca gcaaggacgg agaggcttgg gccagactgt5341 cagggttcaa ggagggcatc aggagcagac ggagacccag gaagtctcac aatcacatct5401 cctgaggact ggccagctgt gtctggcacc acccacacat ccatgtctcc ctcacaaccc5461 aggaggccga tgagaactgt gaggctcaga aagcgtgggc ggtttgccta aggtcacgta5521 825556 5581 tgggattggg gtccaaaatt cactttaact ccaaagccca cacacttaac caccctgcct5641 atttctgtcc aaatgtcacc tgtcctgaat (2) SEQ ID NO: 2899 of the data: (i) sequence characteristics:

(A) length: 1282 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2899 description of the sequence: 1 aagccaccca gcctatgcat ccgctcctca atcctctcct gttggcactg ggcctcatgg 61 cgcttttgtt gaccacggtc attgctctca cttgccttgg cggctttgcc tccccaggcc 121 ctgtgcctcc ctctacagcc ctcagggagc tcattgagga gctggtcaac atcacccaga 181 721 ccctcccctg ccctagagca cactgtagca ttacagtggg tgcccccctt gccagacatg 781 181 accagaaggc tccgctctgc aatggcagca tggtatggag catcaacctg acagctggca 241 tgtactgtgc agccctggaa tccctgatca acgtgtcagg ctgcagtgcc atcgagaaga 301 cccagaggat gctgagcgga ttctgcccgc acaaggtctc agctgggcag ttttccagct 361 tgcatgtccg agacaccaaa atcgaggtgg cccagtttgt aaaggacctg ctcttacatt 421 taaagaaact ttttcgcgag ggacggttca actgaaactt cgaaagcatc attatttgca 481 gagacaggac ctgactattg aagttgcaga ttcatttttc tttctgatgt caaaaatgtc 541 ttgggtaggc gggaaggagg gttagggagg ggtaaaattc cttagcttag acctcagcct 601 gtgctgcccg tcttcagcct agccgacctc agccttcccc ttgcccaggg ctcagcctgg 661 tgggcctcct ctgtccaggg ccctgagctc ggtggaccca gggatgacat gtccctacac 721 ccctcccctg ccctagagca cactgtagca ttacagtggg tgcccccctt gccagacatg 781 tggtgggaca gggacccact tcacacacag gcaactgagg cagacagcag ctcaggcaca 841 cttcttcttg gtcttattta ttattgtgtg ttatttaaat gagtgtgttt gtcaccgttg 901 gggattgggg aagactgtgg ctgctggcac ttggagccaa gggttcagag actcagggcc 961 ccagcactaa agcagtggac cccaggagtc cctggtaata agtactgtgt acagaattct1021 gctacctcac tggggtcctg gggcctcgga gcctcatccg aggcagggtc aggagagggg1081 cagaacagcc gctcctgtct gccagccagc agccagctct cagccaacga gtaatttatt1141 gtttttcctc gtatttaaat attaaatatg ttagcaaaga gttaatatat agaagggtac1201 cttgaacact gggggagggg acattgaaca agttgtttca ttgactatca aactgaagcc1261 agaaataaag ttggtgacag at (2) SEQ ID NO: 2900 materials: (i) sequence characteristics:

(A) length: 6952 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2900 sequence description: 1 ggatccccgc tgacaatcta gaaacaagca acagaccctc tgatgtagcc atctgtgccg 61 cgcctctccg caccgcccgc cacgccttgg tccctggaga ccaccctcca gggcaggggc121 tgccgctcgg ccgggcccgc ggggtccctc ggcctgacat ggccggtgct ggagcggcac181 721 gtagcggcac tccaggcact gggggccctc gagggaaggg gcagacttct gggagtcaga781 181 gtgcgcgcct cggcccctcg gccgctcccg cccctcgccg gtgcgcaccg gcgctcgggg241 agccgctggc ccgggtgtcc agccggccct tgccctgcct ggcgctcgga ccgccacctt301 tgccgccccc tcgccagcct ccgcagcttc cagactggcc ggtctgcgcg cccacccctg361 cctcccggac cggccaccgc cggaggccgc ggaggagggc ccggccgcgc agatcccgct421 tatcgggccc catctcccgt tacataaggc caccccccta tctccgcggg ccatcgccgc481 cgcaaccgcc gcgccagcgc cttctcccac gcgcgggggc gcccctgccc accgctcccg541 gcagggcttt tggtggccat gggggataag gggcgttgac tcacccgggc ggggctccgg601 gagttgcaca gaccaaggta gttccccgct ccttccccca tcacggagac cctgtgggag661 atgccgtggg ccctctacta cagattagga aacaggcccg tagaggggtc gcgcggccaa721 gtagcggcac tccaggcact gggggccctc gagggaaggg gcagacttct gggagtcaga781 gccagcagct gggctgggaa gcttcgagtg tggacagaga gggtgggaat gacgttccct 841 gtgggaagag agggtgggca agcctgggat gcctctgagc gggaatccag catgccttgt 901 gaggagggtc acaagcacac ccttgtgagg aggttgagcc ccatcgagga caggacggag 961 ggagcctgag caggcagaga gggggcctgg ggaggcgctg gttcggggag gaagtgggta1021 ggggagaaat cttgacatca acacccaaca ggcaaatgcc gtggcctctg ctgtgggggt1081 ttctggagga cttctaggaa aacgagggaa gagcaggaaa aggcgacatg gctgtagggc1141 caagcccagg agccgccctc cacagcactc attctgcaga agggaaattt gaggccccca1201 gacggcaggg gttgatcctg cagagactgg tgagcaaagg ggatcacccc aagccccagt1261 ggcactagga acacttacaa tctctgacct ggactaaggc tgccagcctg gcccagttaa1321 gagtttccca gaaggatggc ccatacactt taaattaaag gggccagaca cgtgcacact1381 acttccagcc actctggaag ctgaggtggg gggatcgctt gagtctggga gttggaggcc1441 agcctaggca ggcaacatag tgagacccca tctccaaaaa aacaaaacaa aacaaaacaa1501 aaaaacacca aaaaagctcc cagaaagacc tctgaatctt tctggatctc tcagtggaga1561 cctggaaatc tgaactttga caatccctct cacagtgggg ccaaggagga attaggcaag1621 ccaaaagaag tgaactttac tcttctattg cctgtttgaa ttttgtatcc aagcaagtgt1681 tacttaagta atttaagaga ctggttcatc gaaaaaataa aactccccaa attcccatag1741 ctggtagact gtggtcacag ccacagtgca ctaagactat ctgctcagca cttctggtga1801 cccaaaaggg tctgaggaca ggagctcaga gttgggtcag ctgtccaggt actcagggtt1861 gtcacaggca aaactgctgg aactcagggc agcattgcaa atgccacgcc gctctcaggg1921 ccccttgcct gccgctggaa ttaaacccac ccagatcttg gaaactctgc cctggaccct1981 tctcaataag tccatgagaa atcaaactct ttcctttatg cgacactgga ttttccacaa2041 agtaaaatca agatgagtaa agatgtggtt tctagatagt gcctgaaaaa gcagagacca2101 tggtgtcagg cgtcaccact tgggcctata aaagctgcca caagacgcca aggccacaag2161 ccacccagcc tatgcatccg ctcctcaatc ctctcctgtt ggcactgggc ctcatggcgc2221 ttttgttgac cacggtcatt gctctcactt gccttggcgg ctttgcctcc ccaggccctg2281 tgcctccctc tacagccctc agggagctca ttgaggagct ggtcaacatc acccagaacc2341 agaaggtgag tgtcggctag ccagggtcct agctatgagg gctccagggt gggtgattcc2401 caagatgagg tcatgagcag gctgggcctg gtcctaagat gcctgtaggt caggaaaaat2461 ctccatggac caaggcccgg cccagccatg agggagagag gagctgggct ggggggctca2521 gcactgtgga tggacctatg gaggtgtctg gcagactccc cagggactac ctgctctcct2581 ggcctggcct tgtctgccac tgccagctcc tactcagcca ttcctgaaca gaggacagca2641 gagaagggcc agcaccctcc cagaaccatg tggcatttgc caactggatt ttgaccataa2701 caatgcagcc attctcccca gcaccatcat aggcccgccc ttacaggagg attcgttagt2761 agagtccgct ccttgcccca ctagtaacag ctcacatgtc tgagcactgc ttacaccagg2821 cctggtgcac gtgctttatg tgtcatttca tcactgccag ccacctcaag aggcaggtac2881 gatgaaccca ttctgctaag gttcagtgag gttaagtgac agaggctgga ttcaagccag2941 gcctggccaa caccagagtg tccatgctcc taactgcagt gttccctcac catcagaagg3001 cagggcattt aatacaccag atccccaccg cctcccatct gatttgtctt ggtcaacagt3061 ggcccaggcc actcctactt cactcgtccc caccctggcc cttcccgcag gcccctgtcc3121 tcctgccctg actatggcaa gccttgcatg cagcttgtcc cttactagtg gtgtcaattt3181 ttttctctca gctccaagac cctaaacagt gggacctcac ccctatgcct gctgttcaaa3241 gcagaaaacg aagctcagga atgctgaggg gctgccaggc ctgcctctgt gccacaccag3301 ggatgcttgt ggggcctgtg ctggggcaga cctggcctgg gctgccaggg caggcccaca3361 acccctgcca gcactctgct cactgtcact ttgctcccac aggctccgct ctgcaatggc3421 agcatggtat ggagcatcaa cctgacagct ggcatggtaa ggacctttgg gtgcagggag3481 gatggggcag aggctccagg ccttgggctt atcttctctg agcctccctt ccatggctgg3541 593601 caccacccag actcacctgc gccaggcatc tcagccccat cttcctgcag actcacaaaa3661 ggcagctgcc caagcagggc ctgacccctc ggtgtcccct ccccacagta ctgtgcagcc3721 ctggaatccc tgatcaacgt gtcaggctgc agtgccatcg agaagaccca gaggatgctg3781 agcggattct gcccgcacaa ggtctcagct ggggtaaggc atcccccacc ctctcacacc3841 caccctgcac cccctcctgc caaccctggg ctcgctgaag ggaagctggc tgaatatcca3901 tggtgtgtgt ccacccaggg gtggggccat tgtggcagca gggacgtggc cttcgggatt 398661 tacaggatct gggctcaagg gctcctaact cctacctggg cctcaatttc cacatctgta4021 cagtagaggt actaacagta cccacctcat ggggacttcc gtgaggactg aatgagacag tccctggaaa gcccctggtt tgtgcgagtc gtcccggcct ctggcgttct actcacgtgc4141 tgacctcttt gtcctgcagc agttttccag cttgcatgtc cgagacacca aaatcgaggt4201 ggcccagttt gtaaaggacc tgctcttaca tttaaagaaa ctttttcgcg agggacggtt4261 caactgaaac ttcgaaagca tcattatttg cagagacagg acctgactat tgaagttgca4321 gattcatttt tctttctgat gtcaaaaatg tcttgggtag gcgggaagga gggttaggga4381 ggggtaaaat tccttagctt agacctcagc ctgtgctgcc cgtcttcagc ctagccgacc4441 tcagccttcc ccttgcccag ggctcagcct ggtgggcctc ctctgtccag ggccctgagc4501 tcggtggacc cagggatgac atgtccctac acccctcccc tgccctagag cacactgtag4561 cattacagtg ggtgcccccc ttgccagaca tgtggtggga cagggaccca cttcacacac4621 aggcaactga ggcagacagc agctcaggca cacttcttct tggtcttatt tattattgtg4681 tgttatttaa atgagtgtgt ttgtcaccgt tggggattgg ggaagactgt ggctgctggc4741 acttggagcc aagggttcag agactcaggg ccccagcact aaagcagtgg accccaggag4801 tccctggtaa taagtactgt gtacagaatt ctgctacctc actggggtcc tggggcctcg4861 gagcctcatc cgaggcaggg tcaggagagg ggcagaacag ccgctcctgt ctgccagcca4921 gcagccagct ctcagccaac gagtaattta ttgtttttcc tcgtatttaa atattaaata4981 tgttagcaaa gagttaatat atagaagggt accttgaaca ctgggggagg ggacattgaa5041 caagttgttt cattgactat caaactgaag ccagaaataa agttggtgac agataggcct5101 gattgtattt gtctttcatt ttggcctttg gggacactgg tctgtggtct gaagactctg5161 51 5161 aggagctctt cgggaggctg gtgggttgga ggaggggact gggatggatt acagcgaggg5221 tagggtgcag tgacctgggc tgaatgcaag ctagctcccg agggtgggga catggcctga5281 829 5281 aggaagcccc accttctgtc tgctgcacca gcaaggacgg agaggcttgg gccagactgt5341 cagggttcaa ggagggcatc aggagcagac ggagacccag gaagtctcac aatcacatct5401 cctgaggact ggccagctgt gtctggcacc acccacacat ccatgtctcc ctcacaaccc5461 aggaggccga tgagaactgt gaggctcaga aagcgtgggc ggtttgccta aggtcacgta5521 gctacttcct cactggggtc ctggggcctc agagcctcat ctgaggtaaa ggagcaaagt5581 tgggattggg gtccaaaatt cactttaact ccaaagccca cacacttaac caccctgcct5641 atttctgtcc aaatgtcacc tgtcctgaat5671 aagccaccca gcctatgcat ccgctcctca atcctctcct gttggcactg ggcctcatgg5731 cgcttttgtt gaccacggtc attgctctca cttgccttgg cggctttgcc tccccaggcc5791 ctgtgcctcc ctctacagcc ctcagggagc tcattgagga gctggtcaac atcacccaga5851 accagaaggc tccgctctgc aatggcagca tggtatggag catcaacctg acagctggca5911 tgtactgtgc agccctggaa tccctgatca acgtgtcagg ctgcagtgcc atcgagaaga5971 cccagaggat gctgagcgga ttctgcccgc acaaggtctc agctgggcag ttttccagct6031 tgcatgtccg agacaccaaa atcgaggtgg cccagtttgt aaaggacctg ctcttacatt6091 taaagaaact ttttcgcgag ggacggttca actgaaactt cgaaagcatc attatttgca6151 gagacaggac ctgactattg aagttgcaga ttcatttttc tttctgatgt caaaaatgtc6211 ttgggtaggc gggaaggagg gttagggagg ggtaaaattc cttagcttag acctcagcct6271 gtgctgcccg tcttcagcct agccgacctc agccttcccc ttgcccaggg ctcagcctgg6331 tgggcctcct ctgtccaggg ccctgagctc ggtggaccca gggatgacat gtccctacac6391 ccctcccctg ccctagagca cactgtagca ttacagtggg tgcccccctt gccagacatg 6424 6511 cttcttcttg gtcttattta ttattgtgtg ttatttaaat gagtgtgttt gtcaccgttg6571 gggattgggg aagactgtgg ctgctggcac ttggagccaa gggttcagag actcagggcc6631 ccagcactaa agcagtggac cccaggagtc cctggtaata agtactgtgt acagaattct6691 gctacctcac tggggtcctg gggcctcgga gcctcatccg aggcagggtc aggagagggg6751 cagaacagcc gctcctgtct gccagccagc agccagctct cagccaacga gtaatttatt6811 gtttttcctc gtatttaaat attaaatatg ttagcaaaga gttaatatat agaagggtac6871 cttgaacact gggggagggg acattgaaca agttgtttca ttgactatca aactgaagcc6931 agaaataaag ttggtgacag at (2) SEQ ID NO: 2901 materials: (i) sequence characteristics:

(A) length: 1270 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2901 sequence description: 1 ttcggcatcc gctcctcaat cctctcctgt tggcactggg cctcatggcg cttttgttga 61 ccacggtcat tgctctcact tgccttggcg gctttgcctc cccaggccct gtgcctccct 121 ctacagccct cagggagctc attgaggagc tggtcaacat cacccagaac cagaaggctc 181 721 ctagagcaca ctgtagcatt acagtgggtg ccccccttgc cagacatgtg gtgggacagg 781 181 cgctctgcaa tggcagcatg gtatggagca tcaacctgac agctggcatg tactgtgcag 241 ccctggaatc cctgatcaac gtgtcaggct gcagtgccat cgagaagacc cagaggatgc 301 tgagcggatt ctgcccgcac aaggtctcag ctgggcagtt ttccagcttg catgtccgag 361 acaccaaaat cgaggtggcc cagtttgtaa aggacctgct cttacattta aagaaacttt 421 ttcgcgaggg acggttcaac tgaaacttcg aaagcatcat tatttgcaga gacaggacct 481 gactattgaa gttgcagatt catttttctt tctgatgtca aaaatgtctt gggtaggcgg 541 gaaggagggt tagggagggg taaaattcct tagcttagac ctcagcctgt gctgcccgtc 601 ttcagcctag ccgacctcag ccttcccctt gcccagggct cagcctggtg ggcctcctct 661 gtccagggcc ctgagctcgg tggacccagg gatgacatgt ccctacaccc ctcccctgcc 721 ctagagcaca ctgtagcatt acagtgggtg ccccccttgc cagacatgtg gtgggacagg 781 gacccacttc acacacaggc aactgaggca gacagcagct caggcacact tcttcttggt 841 cttatttatt attgtgtgtt atttaaatga gtgtgtttgt caccgttggg gattggggaa 901 gactgtggct gctggcactt ggagccaagg gttcagagac tcagggcccc agcactaaag 961 cagtggaccc caggagtccc tggtaataag tactgtgtac agaattctgc tacctcactg1021 gggtcctggg gcctcggagc ctcatccgag gcagggtcag gagaggggca gaacagccgc1081 tcctgtctgc cagccagcag ccagctctca gccaacgagt aatttattgt ttttcctcgt1141 atttaaatat taaatatgtt agcaaagagt taatatatag aagggtacct tgaacactgg1201 gggaggggac attgaacaag ttgtttcatt gactatcaaa ctgaagccag aaataaagtt1261 ggtgacagat (1 ttcggcatcc gctcctcaat cctctcctgt tggcactggg cctcatggcg cttttgttga ccacggtcat tgctctcact tgccttggcg gctttgcctc cccaggccct gtgcctccct) 2) SEQ ID NO: 2902 materials: (i) sequence characteristics:

(A) length: 3999 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2902 description of the sequence: 1 tcagcccggc cgggctccga ggcgagaggc tgcatggagt ggccggcgcg gctctgcggg 61 ctgtgggcgc tgctgctctg cgccggcggc gggggcgggg gcgggggcgc cgcgcctacg121 gaaactcagc cacctgtgac aaatttgagt gtctctgttg aaaacctctg cacagtaata181 tggacatgga atccacccga gggagccagc tcaaattgta gtctatggta ttttagtcat241 tttggcgaca aacaagataa gaaaatagct ccggaaactc gtcgttcaat agaagtaccc301 ctgaatgaga ggatttgtct gcaagtgggg tcccagtgta gcaccaatga gagtgagaag361 cctagcattt tggttgaaaa atgcatctca cccccagaag gtgatcctga gtctgctgtg421 actgagcttc aatgcatttg gcacaacctg agctacatga agtgttcttg gctccctgga481 aggaatacca gtcccgacac taactatact ctctactatt ggcacagaag cctggaaaaa541 attcatcaat gtgaaaacat ctttagagaa ggccaatact ttggttgttc ctttgatctg601 accaaagtga aggattccag ttttgaacaa cacagtgtcc aaataatggt caaggataat661 gcaggaaaaa ttaaaccatc cttcaatata gtgcctttaa cttcccgtgt gaaacctgat721 cctccacata ttaaaaacct ctccttccac aatgatgacc tatatgtgca atgggagaat781 ccacagaatt ttattagcag atgcctattt tatgaagtag aagtcaataa cagccaaact841 gagacacata atgttttcta cgtccaagag gctaaatgtg agaatccaga atttgagaga901 aatgtggaga atacatcttg tttcatggtc cctggtgttc ttcctgatac tttgaacaca 961 gtcagaataa gagtcaaaac aaataagtta tgctatgagg atgacaaact ctggagtaat1021 tggagccaag aaatgagtat aggtaagaag cgcaattcca cactctacat aaccatgtta1081 ctcattgttc cagtcatcgt cgcaggtgca atcatagtac tcctgcttta cctaaaaagg1141 ctcaagatta ttatattccc tccaattcct gatcctggca agatttttaa agaaatgttt1201 ggagaccaga atgatgatac tctgcactgg aagaagtacg acatctatga gaagcaaacc1261 aaggaggaaa ccgactctgt agtgctgata gaaaacctga agaaagcctc tcagtgatgg1321 agataattta tttttacctt cactgtgacc ttgagaagat tcttcccatt ctccatttgt1381 tatctgggaa cttattaaat ggaaactgaa actactgcac catttaaaaa caggcagctc1441 ataagagcca caggtcttta tgttgagtcg cgcaccgaaa aactaaaaat aatgggcgct1501 ttggagaaga gtgtggagtc attctcattg aattataaaa gccagcaggc ttcaaactag1561 gggacaaagc aaaaagtgat gatagtggtg gagttaatct tatcaagagt tgtgacaact1621 tcctgaggga tctatacttg ctttgtgttc tttgtgtcaa catgaacaaa ttttatttgt1681 aggggaactc atttggggtg caaatgctaa tgtcaaactt gagtcacaaa gaacatgtag1741 aaaacaaaat ggataaaatc tgatatgtat tgtttgggat cctattgaac catgtttgtg1801 gctattaaaa ctcttttaac agtctgggct gggtccggtg gctcacgcct gtaatcccag1861 caatttggga gtccgaggcg ggcggatcac tcgaggtcag gagttccaga ccagcctgac1921 caaaatggtg aaacctcctc tctactaaaa ctacaaaaat taactgggtg tggtggcgcg1981 tgcctgtaat cccagctact cgggaagctg aggcaggtga attgtttgaa cctgggaggt2041 ggaggttgca gtgagcagag atcacaccac tgcactctag cctgggtgac agagcaagac2101 tctgtctaaa aaacaaaaca aaacaaaaca aaacaaaaaa acctcttaat attctggagt2161 catcattccc ttcgacagca ttttcctctg ctttgaaagc cccagaaatc agtgttggcc2221 atgatgacaa ctacagaaaa accagaggca gcttctttgc caagaccttt caaagccatt ttaggctgtt aggggcagtg gaggtagaat gactccttgg gtattagagt ttcaaccatg2341 aagtctctaa caatgtattt tcttcacctc tgctactcaa gtagcattta ctgtgtcttt2401 ggtttgtgct aggcccccgg gtgtgaagca cagacccctt ccaggggttt acagtctatt2461 tgagactcct cagttcttgc cacttttttt tttaatctcc accagtcatt tttcagacct2521 tttaactcct caattccaac actgatttcc ccttttgcat tctccctcct tcccttcctt2581 gtagcctttt gactttcatt ggaaattagg atgtaaatct gctcaggaga cctggaggag2641 cagaggataa ttagcatctc aggttaagtg tgagtaatct gagaaacaat gactaattct2701 tgcatatttt gtaacttcca tgtgagggtt ttcagcattg atatttgtgc attttctaaa27 cagagatgag gtggtatctt cacgtagaac attggtattc gcttgagaaa aaaagaatag2821 ttgaacctat ttctctttct ttacaagatg ggtccaggat tcctcttttc tctgccataa2881 atgattaatt aaatagcttt tgtgtcttac attggtagcc agccagccaa ggctctgttt2941 atgcttttgg ggggcatata ttgggttcca ttctcaccta tccacacaac atatccgtat3001 atatcccctc tactcttact tcccccaaat ttaaagaagt atgggaaatg agaggcattt3061 cccccacccc atttctctcc tcacacacag actcatatta ctggtaggaa cttgagaact3121 ttatttccaa gttgttcaaa catttaccaa tcatattaat acaatgatgc tatttgcaat3181 31 3181 tcctgctcct aggggagggg agataagaaa ccctcactct ctacaggttt gggtacaagt3241 ggcaacctgc ttccatggcc gtgtagaagc atggtgccct ggcttctctg aggaagctgg3301 ggttcatgac aatggcagat gtaaagttat tcttgaagtc agattgaggc tgggagacag3361 ccgtagtaga tgttctactt tgttctgctg ttctctagaa agaatatttg gttttcctgt3421 ataggaatga gattaattcc tttccaggta ttttataatt ctgggaagca aaacccatgc3481 ctccccctag ccatttttac tgttatccta tttagatggc catgaagagg atgctgtgaa3541 attcccaaca aacattgatg ctgacagtca tgcagtctgg gagtggggaa gtgatctttt3601 gttcccatcc tcttctttta gcagtaaaat agctgaggga aaagggaggg aaaaggaagt3661 tatgggaata cctgtggtgg ttgtgatccc taggtcttgg gagctcttgg aggtgtctgt3721 atcagtggat ttcccatccc ctgtgggaaa ttagtaggct catttactgt tttaggtcta3781 gcctatgtgg attttttcct aacataccta agcaaaccca gtgtcaggat ggtaattctt3841 attctttcgt tcagttaagt ttttcccttc atctgggcac tgaagggata tgtgaaacaa3901 tgttaacatt tttggtagtc ttcaaccagg gattgtttct gtttaacttc ttataggaaa3961 gcttgagtaa aataaatatt gtctttttgt atgtcaccc (2) SEQ ID NO: 2903 materials: (i) sequence characteristics:

(A) length: 4039 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2903 description of the sequence: 1 tgccaaggct ccagcccggc cgggctccga ggcgagaggc tgcatggagt ggccggcgcg 61 gctctgcggg ctgtgggcgc tgctgctctg cgccggcggc gggggcgggg gcgggggcgc 121 cgcgcctacg gaaactcagc cacctgtgac aaatttgagt gtctctgttg aaaacctctg 181 721 gaaacctgat cctccacata ttaaaaacct ctccttccac aatgatgacc tatatgtgca 781 181 cacagtaata tggacatgga atccacccga gggagccagc tcaaattgta gtctatggta 241 ttttagtcat tttggcgaca aacaagataa gaaaatagct ccggaaactc gtcgttcaat 301 agaagtaccc ctgaatgaga ggatttgtct gcaagtgggg tcccagtgta gcaccaatga 361 gagtgagaag cctagcattt tggttgaaaa atgcatctca cccccagaag gtgatcctga 421 gtctgctgtg actgagcttc aatgcatttg gcacaacctg agctacatga agtgttcttg 481 gctccctgga aggaatacca gtcccgacac taactatact ctctactatt ggcacagaag 541 cctggaaaaa attcatcaat gtgaaaacat ctttagagaa ggccaatact ttggttgttc 601 ctttgatctg accaaagtga aggattccag ttttgaacaa cacagtgtcc aaataatggt 661 caaggataat gcaggaaaaa ttaaaccatc cttcaatata gtgcctttaa cttcccgtgt 721 gaaacctgat cctccacata ttaaaaacct ctccttccac aatgatgacc tatatgtgca 781 atgggagaat ccacagaatt ttattagcag atgcctattt tatgaagtag aagtcaataa 841 cagccaaact gagacacata atgttttcta cgtccaagag gctaaatgtg agaatccaga 901 atttgagaga aatgtggaga atacatcttg tttcatggtc cctggtgttc ttcctgatac 961 tttgaacaca gtcagaataa gagtcaaaac aaataagtta tgctatgagg atgacaaact1021 ctggagtaat tggagccaag aaatgagtat aggtaagaag cgcaattcca cactctacat1081 aaccatgtta ctcattgttc cagtcatcgt cgcaggtgca atcatagtac tcctgcttta1141 cctaaaaagg ctcaagatta ttatattccc tccaattcct gatcctggca agatttttaa1201 agaaatgttt ggagaccaga atgatgatac tctgcactgg aagaagtacg acatctatga1261 gaagcaaacc aaggaggaaa ccgactctgt agtgctgata gaaaacctga agaaagcctc1321 tcagtgatgg agataattta tttttacctt cactgtgacc ttgagaagat tcttcccatt1381 ctccatttgt tatctgggaa cttattaaat ggaaactgaa actactgcac catttaaaaa1441 caggcagctc ataagagcca caggtcttta tgttgagtcg cgcaccgaaa aactaaaaat1501 aatgggcgct ttggagaaga gtgtggagtc attctcattg aattataaaa gccagcaggc1561 ttcaaactag gggacaaagc aaaaagtgat gatagtggtg gagttaatct tatcaagagt1621 tgtgacaact tcctgaggga tctatacttg ctttgtgttc tttgtgtcaa catgaacaaa1681 ttttatttgt aggggaactc atttggggtg caaatgctaa tgtcaaactt gagtcacaaa1741 gaacatgtag aaaacaaaat ggataaaatc tgatatgtat tgtttgggat cctattgaac1801 catgtttgtg gctattaaaa ctcttttaac agtctgggct gggtccggtg gctcacgcct1861 gtaatcccag caatttggga gtccgaggcg ggcggatcac tcgaggtcag gagttccaga1921 ccagcctgac caaaatggtg aaacctcctc tctactaaaa ctacaaaaat taactgggtg1981 tggtggcgcg tgcctgtaat cccagctact cgggaagctg aggcaggtga attgtttgaa2041 cctgggaggt ggaggttgca gtgagcagag atcacaccac tgcactctagcctgggtgac2101 agagcaagac tctgtctaaa aaacaaaaca aaacaaaaca aaacaaaaaa acctcttaat2161 attctggagt catcattccc ttcgacagca ttttcctctg ctttgaaagc cccagaaatc2221 agtgttggcc atgatgacaa ctacagaaaa accagaggca gcttctttgc caagaccttt2281 caaagccatt ttaggctgtt aggggcagtg gaggtagaat gactccttgg gtattagagt2341 ttcaaccatg aagtctctaa caatgtattt tcttcacctc tgctactcaa gtagcattta2401 ctgtgtcttt ggtttgtgct aggcccccgg gtgtgaagca cagacccctt ccaggggttt2461 acagtctatt tgagactcct cagttcttgc cacttttttt tttaatctcc accagtcatt2521 tttcagacct tttaactcct caattccaac actgatttcc ccttttgcat tctccctcct2581 tcccttcctt gtagcctttt gactttcatt ggaaattagg atgtaaatct gctcaggaga2641 cctggaggag cagaggataa ttagcatctc aggttaagtg tgagtaatct gagaaacaat2701 gactaattct tgcatatttt gtaacttcca tgtgagggtt ttcagcattg atatttgtgc 5861 attttctaaa cagagatgag gtggtatctt cacgtagaac attggtattc gcttgagaaa2821 aaaagaatag ttgaacctat ttctctttct ttacaagatg ggtccaggat tcctcttttc2881 tctgccataa atgattaatt aaatagcttt tgtgtcttac attggtagcc agccagccaa2941 ggctctgttt atgcttttgg ggggcatata ttgggttcca ttctcaccta tccacacaac3001 atatccgtat atatcccctc tactcttact tcccccaaat ttaaagaagt atgggaaatg3061 agaggcattt cccccacccc atttctctcc tcacacacag actcatatta ctggtaggaa3121 cttgagaact ttatttccaa gttgttcaaa catttaccaa tcatattaat acaatgatgc31 tatttgcaat tcctgctcct aggggagggg agataagaaa ccctcactct ctacaggttt3241 gggtacaagt ggcaacctgc ttccatggcc gtgtagaagc atggtgccct ggcttctctg3301 aggaagctgg ggttcatgac aatggcagat gtaaagttat tcttgaagtc agattgaggc3361 tgggagacag ccgtagtaga tgttctactt tgttctgctg ttctctagaa agaatatttg3421 393481 aaacccatgc ctccccctag ccatttttac tgttatccta tttagatggc catgaagagg3541 atgctgtgaa attcccaaca aacattgatg ctgacagtca tgcagtctgg gagtggggaa3601 gtgatctttt gttcccatcc tcttctttta gcagtaaaat agctgaggga aaagggaggg36 aaaaggaagt tatgggaata cctgtggtgg ttgtgatccc taggtcttgg gagctcttgg3721 aggtgtctgt atcagtggat ttcccatccc ctgtgggaaa ttagtaggct catttactgt3781 tttaggtcta gcctatgtgg attttttcct aacataccta agcaaaccca gtgtcaggat3841 ggtaattctt attctttcgt tcagttaagt ttttcccttc atctgggcac tgaagggata3901 tgtgaaacaa tgttaacatt tttggtagtc ttcaaccagg gattgtttct gtttaacttc39 ttataggaaa gcttgagtaa aataaatatt gtctttttgt atgtcaagcg ggccgccacc4021 gcggtggaaa ctccagctt (2) SEQ ID NO: 2904 materials: (i) sequence characteristics:

(A) length: 5670 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2904 description of the sequence: 1 ggatccccgc tgacaatcta gaaacaagca acagaccctc tgatgtagcc atctgtgccg 61 cgcctctccg caccgcccgc cacgccttgg tccctggaga ccaccctcca gggcaggggc121 tgccgctcgg ccgggcccgc ggggtccctc ggcctgacat ggccggtgct ggagcggcac181 721 gtagcggcac tccaggcact gggggccctc gagggaaggg gcagacttct gggagtcaga781 181 gtgcgcgcct cggcccctcg gccgctcccg cccctcgccg gtgcgcaccg gcgctcgggg241 agccgctggc ccgggtgtcc agccggccct tgccctgcct ggcgctcgga ccgccacctt301 tgccgccccc tcgccagcct ccgcagcttc cagactggcc ggtctgcgcg cccacccctg361 cctcccggac cggccaccgc cggaggccgc ggaggagggc ccggccgcgc agatcccgct421 tatcgggccc catctcccgt tacataaggc caccccccta tctccgcggg ccatcgccgc481 cgcaaccgcc gcgccagcgc cttctcccac gcgcgggggc gcccctgccc accgctcccg541 gcagggcttt tggtggccat gggggataag gggcgttgac tcacccgggc ggggctccgg601 gagttgcaca gaccaaggta gttccccgct ccttccccca tcacggagac cctgtgggag661 atgccgtggg ccctctacta cagattagga aacaggcccg tagaggggtc gcgcggccaa721 gtagcggcac tccaggcact gggggccctc gagggaaggg gcagacttct gggagtcaga781 gccagcagct gggctgggaa gcttcgagtg tggacagaga gggtgggaat gacgttccct 841 gtgggaagag agggtgggca agcctgggat gcctctgagc gggaatccag catgccttgt 901 gaggagggtc acaagcacac ccttgtgagg aggttgagcc ccatcgagga caggacggag 961 ggagcctgag caggcagaga gggggcctgg ggaggcgctg gttcggggag gaagtgggta1021 ggggagaaat cttgacatca acacccaaca ggcaaatgcc gtggcctctg ctgtgggggt1081 ttctggagga cttctaggaa aacgagggaa gagcaggaaa aggcgacatg gctgtagggc1141 caagcccagg agccgccctc cacagcactc attctgcaga agggaaattt gaggccccca1201 gacggcaggg gttgatcctg cagagactgg tgagcaaagg ggatcacccc aagccccagt1261 ggcactagga acacttacaa tctctgacct ggactaaggc tgccagcctg gcccagttaa1321 gagtttccca gaaggatggc ccatacactt taaattaaag gggccagaca cgtgcacact1381 acttccagcc actctggaag ctgaggtggg gggatcgctt gagtctggga gttggaggcc1441 agcctaggca ggcaacatag tgagacccca tctccaaaaa aacaaaacaa aacaaaacaa1501 aaaaacacca aaaaagctcc cagaaagacc tctgaatctt tctggatctc tcagtggaga1561 cctggaaatc tgaactttga caatccctct cacagtgggg ccaaggagga attaggcaag1621 ccaaaagaag tgaactttac tcttctattg cctgtttgaa ttttgtatcc aagcaagtgt1681 tacttaagta atttaagaga ctggttcatc gaaaaaataa aactccccaa attcccatag1741 ctggtagact gtggtcacag ccacagtgca ctaagactat ctgctcagca cttctggtga1801 cccaaaaggg tctgaggaca ggagctcaga gttgggtcag ctgtccaggt actcagggtt1861 gtcacaggca aaactgctgg aactcagggc agcattgcaa atgccacgcc gctctcaggg1921 ccccttgcct gccgctggaa ttaaacccac ccagatcttg gaaactctgc cctggaccct1981 tctcaataag tccatgagaa atcaaactct ttcctttatg cgacactgga ttttccacaa2041 agtaaaatca agatgagtaa agatgtggtt tctagatagt gcctgaaaaa gcagagacca2101 tggtgtcagg cgtcaccact tgggcctata aaagctgcca caagacgcca aggccacaag2161 ccacccagcc tatgcatccg ctcctcaatc ctctcctgtt ggcactgggc ctcatggcgc2221 ttttgttgac cacggtcatt gctctcactt gccttggcgg ctttgcctcc ccaggccctg2281 tgcctccctc tacagccctc agggagctca ttgaggagct ggtcaacatc acccagaacc2341 agaaggtgag tgtcggctag ccagggtcct agctatgagg gctccagggt gggtgattcc2401 caagatgagg tcatgagcag gctgggcctg gtcctaagat gcctgtaggt caggaaaaat2461 ctccatggac caaggcccgg cccagccatg agggagagag gagctgggct ggggggctca2521 gcactgtgga tggacctatg gaggtgtctg gcagactccc cagggactac ctgctctcct2581 ggcctggcct tgtctgccac tgccagctcc tactcagcca ttcctgaaca gaggacagca2641 gagaagggcc agcaccctcc cagaaccatg tggcatttgc caactggatt ttgaccataa2701 caatgcagcc attctcccca gcaccatcat aggcccgccc ttacaggagg attcgttagt2761 agagtccgct ccttgcccca ctagtaacag ctcacatgtc tgagcactgc ttacaccagg2821 cctggtgcac gtgctttatg tgtcatttca tcactgccag ccacctcaag aggcaggtac2881 gatgaaccca ttctgctaag gttcagtgag gttaagtgac agaggctgga ttcaagccag2941 gcctggccaa caccagagtg tccatgctcc taactgcagt gttccctcac catcagaagg3001 cagggcattt aatacaccag atccccaccg cctcccatct gatttgtctt ggtcaacagt3061 ggcccaggcc actcctactt cactcgtccc caccctggcc cttcccgcag gcccctgtcc3121 tcctgccctg actatggcaa gccttgcatg cagcttgtcc cttactagtg gtgtcaattt3181 ttttctctca gctccaagac cctaaacagt gggacctcac ccctatgcct gctgttcaaa3241 gcagaaaacg aagctcagga atgctgaggg gctgccaggc ctgcctctgt gccacaccag3301 ggatgcttgt ggggcctgtg ctggggcaga cctggcctgg gctgccaggg caggcccaca3361 acccctgcca gcactctgct cactgtcact ttgctcccac aggctccgct ctgcaatggc3421 agcatggtat ggagcatcaa cctgacagct ggcatggtaa ggacctttgg gtgcagggag3481 gatggggcag aggctccagg ccttgggctt atcttctctg agcctccctt ccatggctgg3541 593601 caccacccag actcacctgc gccaggcatc tcagccccat cttcctgcag actcacaaaa3661 ggcagctgcc caagcagggc ctgacccctc ggtgtcccct ccccacagta ctgtgcagcc3721 ctggaatccc tgatcaacgt gtcaggctgc agtgccatcg agaagaccca gaggatgctg3781 agcggattct gcccgcacaa ggtctcagct ggggtaaggc atcccccacc ctctcacacc3841 caccctgcac cccctcctgc caaccctggg ctcgctgaag ggaagctggc tgaatatcca3901 tggtgtgtgt ccacccaggg gtggggccat tgtggcagca gggacgtggc cttcgggatt 398661 tacaggatct gggctcaagg gctcctaact cctacctggg cctcaatttc cacatctgta4021 cagtagaggt actaacagta cccacctcat ggggacttcc gtgaggactg aatgagacag tccctggaaa gcccctggtt tgtgcgagtc gtcccggcct ctggcgttct actcacgtgc4141 tgacctcttt gtcctgcagc agttttccag cttgcatgtc cgagacacca aaatcgaggt4201 ggcccagttt gtaaaggacc tgctcttaca tttaaagaaa ctttttcgcg agggacggtt4261 caactgaaac ttcgaaagca tcattatttg cagagacagg acctgactat tgaagttgca4321 gattcatttt tctttctgat gtcaaaaatg tcttgggtag gcgggaagga gggttaggga4381 ggggtaaaat tccttagctt agacctcagc ctgtgctgcc cgtcttcagc ctagccgacc4441 tcagccttcc ccttgcccag ggctcagcct ggtgggcctc ctctgtccag ggccctgagc4501 tcggtggacc cagggatgac atgtccctac acccctcccc tgccctagag cacactgtag4561 cattacagtg ggtgcccccc ttgccagaca tgtggtggga cagggaccca cttcacacac4621 aggcaactga ggcagacagc agctcaggca cacttcttct tggtcttatt tattattgtg4681 tgttatttaa atgagtgtgt ttgtcaccgt tggggattgg ggaagactgt ggctgctggc4741 acttggagcc aagggttcag agactcaggg ccccagcact aaagcagtgg accccaggag4801 tccctggtaa taagtactgt gtacagaatt ctgctacctc actggggtcc tggggcctcg4861 gagcctcatc cgaggcaggg tcaggagagg ggcagaacag ccgctcctgt ctgccagcca4921 gcagccagct ctcagccaac gagtaattta ttgtttttcc tcgtatttaa atattaaata4981 tgttagcaaa gagttaatat atagaagggt accttgaaca ctgggggagg ggacattgaa5041 caagttgttt cattgactat caaactgaag ccagaaataa agttggtgac agataggcct5101 gattgtattt gtctttcatt ttggcctttg gggacactgg tctgtggtct gaagactctg5161 51 5161 aggagctctt cgggaggctg gtgggttgga ggaggggact gggatggatt acagcgaggg5221 tagggtgcag tgacctgggc tgaatgcaag ctagctcccg agggtgggga catggcctga5281 829 5281 aggaagcccc accttctgtc tgctgcacca gcaaggacgg agaggcttgg gccagactgt5341 cagggttcaa ggagggcatc aggagcagac ggagacccag gaagtctcac aatcacatct5401 cctgaggact ggccagctgt gtctggcacc acccacacat ccatgtctcc ctcacaaccc5461 aggaggccga tgagaactgt gaggctcaga aagcgtgggc ggtttgccta aggtcacgta5521 gctacttcct cactggggtc ctggggcctc agagcctcat ctgaggtaaa ggagcaaagt5581 tgggattggg gtccaaaatt cactttaact ccaaagccca cacacttaac caccctgcct5641 atttctgtcc aaatgtcacc tgtcctgaat (2) SEQ ID NO: 2905 materials:

(i) sequence characteristics:

(A) length: 14978 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2905 description of the sequence: 1 ttcggcatcc gctcctcaat cctctcctgt tggcactggg cctcatggcg cttttgttga 61 ccacggtcat tgctctcact tgccttggcg gctttgcctc cccaggccct gtgcctccct 121 ctacagccct cagggagctc attgaggagc tggtcaacat cacccagaac cagaaggctc 181 721 ctagagcaca ctgtagcatt acagtgggtg ccccccttgc cagacatgtg gtgggacagg 781 181 cgctctgcaa tggcagcatg gtatggagca tcaacctgac agctggcatg tactgtgcag 241 ccctggaatc cctgatcaac gtgtcaggct gcagtgccat cgagaagacc cagaggatgc 301 tgagcggatt ctgcccgcac aaggtctcag ctgggcagtt ttccagcttg catgtccgag 361 acaccaaaat cgaggtggcc cagtttgtaa aggacctgct cttacattta aagaaacttt 421 ttcgcgaggg acggttcaac tgaaacttcg aaagcatcat tatttgcaga gacaggacct 481 gactattgaa gttgcagatt catttttctt tctgatgtca aaaatgtctt gggtaggcgg 541 gaaggagggt tagggagggg taaaattcct tagcttagac ctcagcctgt gctgcccgtc 601 ttcagcctag ccgacctcag ccttcccctt gcccagggct cagcctggtg ggcctcctct 661 gtccagggcc ctgagctcgg tggacccagg gatgacatgt ccctacaccc ctcccctgcc 721 ctagagcaca ctgtagcatt acagtgggtg ccccccttgc cagacatgtg gtgggacagg 781 gacccacttc acacacaggc aactgaggca gacagcagct caggcacact tcttcttggt 841 cttatttatt attgtgtgtt atttaaatga gtgtgtttgt caccgttggg gattggggaa 901 gactgtggct gctggcactt ggagccaagg gttcagagac tcagggcccc agcactaaag 961 cagtggaccc caggagtccc tggtaataag tactgtgtac agaattctgc tacctcactg1021 gggtcctggg gcctcggagc ctcatccgag gcagggtcag gagaggggca gaacagccgc1081 tcctgtctgc cagccagcag ccagctctca gccaacgagt aatttattgt ttttcctcgt1141 atttaaatat taaatatgtt agcaaagagt taatatatag aagggtacct tgaacactgg1201 gggaggggac attgaacaag ttgtttcatt gactatcaaa ctgaagccag aaataaagtt1261 ggtgacagat1271 tcagcccggc cgggctccga ggcgagaggc tgcatggagt ggccggcgcg gctctgcggg1331 ctgtgggcgc tgctgctctg cgccggcggc gggggcgggg gcgggggcgc cgcgcctacg1391 gaaactcagc cacctgtgac aaatttgagt gtctctgttg aaaacctctg cacagtaata1451 tggacatgga atccacccga gggagccagc tcaaattgta gtctatggta ttttagtcat241 tttggcgaca aacaagataa gaaaatagct ccggaaactc gtcgttcaat agaagtaccc301 ctgaatgaga ggatttgtct gcaagtgggg tcccagtgta gcaccaatga gagtgagaag361 cctagcattt tggttgaaaa atgcatctca cccccagaag gtgatcctga gtctgctgtg421 actgagcttc aatgcatttg gcacaacctg agctacatga agtgttcttg gctccctgga481 aggaatacca gtcccgacac taactatact ctctactatt ggcacagaag cctggaaaaa541 attcatcaat gtgaaaacat ctttagagaa ggccaatact ttggttgttc ctttgatctg601 accaaagtga aggattccag ttttgaacaa cacagtgtcc aaataatggt caaggataat661 gcaggaaaaa ttaaaccatc cttcaatata gtgcctttaa cttcccgtgt gaaacctgat721 cctccacata ttaaaaacct ctccttccac aatgatgacc tatatgtgca atgggagaat781 781 ccacagaatt ttattagcag atgcctattt tatgaagtag aagtcaataa cagccaaact841 gagacacata atgttttcta cgtccaagag gctaaatgtg agaatccaga atttgagaga901 aatgtggaga atacatcttg tttcatggtc cctggtgttc ttcctgatac tttgaacaca 961 gtcagaataa gagtcaaaac aaataagtta tgctatgagg atgacaaact ctggagtaat1021 tggagccaag aaatgagtat aggtaagaag cgcaattcca cactctacat aaccatgtta1081 ctcattgttc cagtcatcgt cgcaggtgca atcatagtac tcctgcttta cctaaaaagg1141 ctcaagatta ttatattccc tccaattcct gatcctggca agatttttaa agaaatgttt1201 ggagaccaga atgatgatac tctgcactgg aagaagtacg acatctatga gaagcaaacc1261 aaggaggaaa ccgactctgt agtgctgata gaaaacctga agaaagcctc tcagtgatgg1321 agataattta tttttacctt cactgtgacc ttgagaagat tcttcccatt ctccatttgt1381 tatctgggaa cttattaaat ggaaactgaa actactgcac catttaaaaa caggcagctc1441 4831 1441 ataagagcca caggtcttta tgttgagtcg cgcaccgaaa aactaaaaat aatgggcgct1501 ttggagaaga gtgtggagtc attctcattg aattataaaa gccagcaggc ttcaaactag1561 gggacaaagc aaaaagtgat gatagtggtg gagttaatct tatcaagagt tgtgacaact1621 tcctgaggga tctatacttg ctttgtgttc tttgtgtcaa catgaacaaa ttttatttgt1681 aggggaactc atttggggtg caaatgctaa tgtcaaactt gagtcacaaa gaacatgtag1741 aaaacaaaat ggataaaatc tgatatgtat tgtttgggat cctattgaac catgtttgtg1801 gctattaaaa ctcttttaac agtctgggct gggtccggtg gctcacgcct gtaatcccag1861 caatttggga gtccgaggcg ggcggatcac tcgaggtcag gagttccaga ccagcctgac1921 caaaatggtg aaacctcctc tctactaaaa ctacaaaaat taactgggtg tggtggcgcg1981 tgcctgtaat cccagctact cgggaagctg aggcaggtga attgtttgaa cctgggaggt2041 ggaggttgca gtgagcagag atcacaccac tgcactctag cctgggtgac agagcaagac2101 tctgtctaaa aaacaaaaca aaacaaaaca aaacaaaaaa acctcttaat attctggagt2161 catcattccc ttcgacagca ttttcctctg ctttgaaagc cccagaaatc agtgttggcc2221 atgatgacaa ctacagaaaa accagaggca gcttctttgc caagaccttt caaagccatt2281 ttaggctgtt aggggcagtg gaggtagaat gactccttgg gtattagagt ttcaaccatg2341 aagtctctaa caatgtattt tcttcacctc tgctactcaa gtagcattta ctgtgtcttt2401 ggtttgtgct aggcccccgg gtgtgaagca cagacccctt ccaggggttt acagtctatt2461 tgagactcct cagttcttgc cacttttttt tttaatctcc accagtcatt tttcagacct2521 tttaactcct caattccaac actgatttcc ccttttgcat tctccctcct tcccttcctt2581 gtagcctttt gactttcattggaaattagg atgtaaatct gctcaggaga cctggaggag2641 cagaggataa ttagcatctc aggttaagtg tgagtaatct gagaaacaat gactaattct2701 tgcatatttt gtaacttcca tgtgagggtt ttcagcattg atatttgtgc attttctaaa2761 cagagatgag gtggtatctt cacgtagaac attggtattc gcttgagaaa aaaagaatag2821 ttgaacctat ttctctttct ttacaagatg ggtccaggat tcctcttttc tctgccataa2881 atgattaatt aaatagcttt tgtgtcttac attggtagcc agccagccaa ggctctgttt2941 atgcttttgg ggggcatata ttgggttcca ttctcaccta tccacacaac atatccgtat3001 atatcccctc tactcttact tcccccaaat ttaaagaagt atgggaaatg agaggcattt3061 cccccacccc atttctctcc tcacacacag actcatatta ctggtaggaa cttgagaact3121 ttatttccaa gttgttcaaa catttaccaa tcatattaat acaatgatgc tatttgcaat3181 tcctgctcct aggggagggg agataagaaa ccctcactct ctacaggttt gggtacaagt3241 ggcaacctgc ttccatggcc gtgtagaagc atggtgccct ggcttctctg aggaagctgg3301 ggttcatgac aatggcagat gtaaagttat tcttgaagtc agattgaggc tgggagacag3361 ccgtagtaga tgttctactt tgttctgctg ttctctagaa agaatatttg gttttcctgt3421 ataggaatga gattaattcc tttccaggta ttttataatt ctgggaagca aaacccatgc3481 3981 393542 3541 4636027 461 3661 tatgggaata cctgtggtgg ttgtgatccc taggtcttgg gagctcttgg aggtgtctgt3721 5 3781 gcctatgtgg attttttcct aacataccta agcaaaccca gtgtcaggat ggtaattctt3841 attctttcgt tcagttaagt ttttcccttc atctgggcac tgaagggata tgtgaaacaa3901 tgttaacatt tttggtagtc ttcaaccagg gattgtttct gtttaacttc ttataggaaa3961 gcttgagtaa aataaatatt gtctttttgt atgtcaccc

1 tgccaaggct ccagcccggc cgggctccga ggcgagaggc tgcatggagt ggccggcgcg

61 gctctgcggg ctgtgggcgc tgctgctctg cgccggcggc gggggcgggg gcgggggcgc 121 cgcgcctacg gaaactcagc cacctgtgac aaatttgagt gtctctgttg aaaacctctg 181 cacagtaata tggacatgga atccacccga gggagccagc tcaaattgta gtctatggta 241 ttttagtcat tttggcgaca aacaagataa gaaaatagct ccggaaactc gtcgttcaat 301 agaagtaccc ctgaatgaga ggatttgtct gcaagtgggg tcccagtgta gcaccaatga 361 gagtgagaag cctagcattt tggttgaaaa atgcatctca cccccagaag gtgatcctga 421 gtctgctgtg actgagcttc aatgcatttg gcacaacctg agctacatga agtgttcttg 481 gctccctgga aggaatacca gtcccgacac taactatact ctctactatt ggcacagaag 541 cctggaaaaa attcatcaat gtgaaaacat ctttagagaa ggccaatact ttggttgttc 601 ctttgatctg accaaagtga aggattccag ttttgaacaa cacagtgtcc aaataatggt 661 caaggataat gcaggaaaaa ttaaaccatc cttcaatata gtgcctttaa cttcccgtgt 721 gaaacctgat cctccacata ttaaaaacct ctccttccac aatgatgacc tatatgtgca 781 atgggagaat ccacagaatt ttattagcag atgcctattt tatgaagtag aagtcaataa 841 cagccaaact gagacacata atgttttcta cgtccaagag gctaaatgtg agaatccaga 901 atttgagaga aatgtggaga atacatcttg tttcatggtc cctggtgttc ttcctgatac 961 tttgaacaca gtcagaataa gagtcaaaac aaataagtta tgctatgagg atgacaaact1021 ctggagtaat tggagccaag aaatgagtat aggtaagaag cgcaattcca cactctacat1081 aaccatgtta ctcattgttc cagtcatcgt cgcaggtgca atcatagtac tcctgcttta1141 cctaaaaagg ctcaagatta ttatattccc tccaattcct gatcctggca agatttttaa1201 agaaatgttt ggagaccaga atgatgatac tctgcactgg aagaagtacg acatctatga1261 gaagcaaacc aaggaggaaa ccgactctgt agtgctgata gaaaacctga agaaagcctc1321 tcagtgatgg agataattta tttttacctt cactgtgacc ttgagaagat tcttcccatt1381 ctccatttgt tatctgggaa cttattaaat ggaaactgaa actactgcac catttaaaaa1441 caggcagctc ataagagcca caggtcttta tgttgagtcg cgcaccgaaa aactaaaaat1501 aatgggcgct ttggagaaga gtgtggagtc attctcattg aattataaaa gccagcaggc1561 ttcaaactag gggacaaagc aaaaagtgat gatagtggtg gagttaatct tatcaagagt1621 tgtgacaact tcctgaggga tctatacttg ctttgtgttc tttgtgtcaa catgaacaaa1681 ttttatttgt aggggaactc atttggggtg caaatgctaa tgtcaaactt gagtcacaaa1741 gaacatgtag aaaacaaaat ggataaaatc tgatatgtat tgtttgggat cctattgaac1801 catgtttgtg gctattaaaa ctcttttaac agtctgggct gggtccggtg gctcacgcct1861 gtaatcccag caatttggga gtccgaggcg ggcggatcac tcgaggtcag gagttccaga1921 ccagcctgac caaaatggtg aaacctcctc tctactaaaa ctacaaaaat taactgggtg1981 tggtggcgcg tgcctgtaat cccagctact cgggaagctg aggcaggtga attgtttgaa2041 cctgggaggt ggaggttgca gtgagcagag atcacaccac tgcactctag cctgggtgac2101 agagcaagac tctgtctaaa aaacaaaaca aaacaaaaca aaacaaaaaa acctcttaat2161 attctggagt catcattccc ttcgacagca ttttcctctg ctttgaaagc cccagaaatc2221 agtgttggcc atgatgacaa ctacagaaaa accagaggca gcttctttgc caagaccttt2281 caaagccatt ttaggctgtt aggggcagtg gaggtagaat gactccttgg gtattagagt2341 ttcaaccatg aagtctctaa caatgtattt tcttcacctc tgctactcaa gtagcattta2401 ctgtgtcttt ggtttgtgct aggcccccgg gtgtgaagca cagacccctt ccaggggttt2461 acagtctatt tgagactcct cagttcttgc cacttttttt tttaatctcc accagtcatt2521 tttcagacct tttaactcct caattccaac actgatttcc ccttttgcat tctccctcct2581 tcccttcctt gtagcctttt gactttcatt ggaaattagg atgtaaatct gctcaggaga2641 cctggaggag cagaggataa ttagcatctc aggttaagtg tgagtaatct gagaaacaat2701 gactaattct tgcatatttt gtaacttcca tgtgagggtt ttcagcattg atatttgtgc2761 273561 2761 attttctaaa cagagatgag gtggtatctt cacgtagaac attggtattc gcttgagaaa2821 aaaagaatag ttgaacctat ttctctttct ttacaagatg ggtccaggat tcctcttttc2881 tctgccataa atgattaatt aaatagcttt tgtgtcttac attggtagcc agccagccaa2941 ggctctgttt atgcttttgg ggggcatata ttgggttcca ttctcaccta tccacacaac3001 atatccgtat atatcccctc tactcttact tcccccaaat ttaaagaagt atgggaaatg3061 agaggcattt cccccacccc atttctctcc tcacacacag actcatatta ctggtaggaa3121 cttgagaact ttatttccaa gttgttcaaa catttaccaa tcatattaat acaatgatgc3181 tatttgcaat tcctgctcct aggggagggg agataagaaa ccctcactct ctacaggttt3241 gggtacaagt ggcaacctgc ttccatggcc gtgtagaagc atggtgccct ggcttctctg3301 aggaagctgg ggttcatgac aatggcagat gtaaagttat tcttgaagtc agattgaggc3361 tgggagacag ccgtagtaga tgttctactt tgttctgctg ttctctagaa agaatatttg3421 gttttcctgt ataggaatga gattaattcc tttccaggta ttttataatt ctgggaagca3481 aaacccatgc ctccccctag ccatttttac tgttatccta tttagatggc catgaagagg3541 atgctgtgaa attcccaaca aacattgatg ctgacagtca tgcagtctgg gagtggggaa3601 gtgatctttt gttcccatcc tcttctttta gcagtaaaat agctgaggga aaagggaggg3661 aaaaggaagt tatgggaata cctgtggtgg ttgtgatccc taggtcttgg gagctcttgg3721 aggtgtctgt atcagtggat ttcccatccc ctgtgggaaa ttagtaggct catttactgt3781 tttaggtcta gcctatgtgg attttttcct aacataccta agcaaaccca gtgtcaggat3841 ggtaattctt attctttcgt tcagttaagt ttttcccttc atctgggcac tgaagggata3901 tgtgaaacaa tgttaacatt tttggtagtc ttcaaccagg gattgtttct gtttaacttc3961 ttataggaaa gcttgagtaa aataaatatt gtctttttgt atgtcaagcg ggccgccacc4021 gcggtggaaa ctccagctt 1 ggatccccgc tgacaatcta gaaacaagca acagaccctc tgatgtagcc atctgtgccg 61 cgcctctccg caccgcccgc cacgccttgg tccctggaga ccaccctcca gggcaggggc121 tgccgctcgg ccgggcccgc ggggtccctc ggcctgacat ggccggtgct ggagcggcac181 gtgcgcgcct cggcccctcg gccgctcccg cccctcgccg gtgcgcaccg gcgctcgggg241 agccgctggc ccgggtgtcc agccggccct tgccctgcct ggcgctcgga ccgccacctt301 tgccgccccc tcgccagcct ccgcagcttc cagactggcc ggtctgcgcg cccacccctg361 cctcccggac cggccaccgc cggaggccgc ggaggagggc ccggccgcgc agatcccgct421 tatcgggccc catctcccgt tacataaggc caccccccta tctccgcggg ccatcgccgc481 cgcaaccgcc gcgccagcgc cttctcccac gcgcgggggc gcccctgccc accgctcccg541 gcagggcttt tggtggccat gggggataag gggcgttgac tcacccgggc ggggctccgg601 gagttgcaca gaccaaggta gttccccgct ccttccccca tcacggagac cctgtgggag661 atgccgtggg ccctctacta cagattagga aacaggcccg tagaggggtc gcgcggccaa721 gtagcggcac tccaggcact gggggccctc gagggaaggg gcagacttct gggagtcaga781 gccagcagct gggctgggaa gcttcgagtg tggacagaga gggtgggaat gacgttccct 841 gtgggaagag agggtgggca agcctgggat gcctctgagc gggaatccag catgccttgt 901 gaggagggtc acaagcacac ccttgtgagg aggttgagcc ccatcgagga caggacggag 961 ggagcctgag caggcagaga gggggcctgg ggaggcgctg gttcggggag gaagtgggta1021 ggggagaaat cttgacatca acacccaaca ggcaaatgcc gtggcctctg ctgtgggggt1081 ttctggagga cttctaggaa aacgagggaa gagcaggaaa aggcgacatg gctgtagggc1141 caagcccagg agccgccctc cacagcactc attctgcaga agggaaattt gaggccccca1201 gacggcaggg gttgatcctg cagagactgg tgagcaaagg ggatcacccc aagccccagt1261 ggcactagga acacttacaa tctctgacct ggactaaggc tgccagcctg gcccagttaa1321 gagtttccca gaaggatggc ccatacactt taaattaaag gggccagaca cgtgcacact1381 acttccagcc actctggaag ctgaggtggg gggatcgctt gagtctggga gttggaggcc1441 agcctaggca ggcaacatag tgagacccca tctccaaaaa aacaaaacaa aacaaaacaa1501 aaaaacacca aaaaagctcc cagaaagacc tctgaatctt tctggatctc tcagtggaga1561 cctggaaatc tgaactttga caatccctct cacagtgggg ccaaggagga attaggcaag1621 ccaaaagaag tgaactttac tcttctattg cctgtttgaattttgtatcc aagcaagtgt1681 tacttaagta atttaagaga ctggttcatc gaaaaaataa aactccccaa attcccatag1741 ctggtagact gtggtcacag ccacagtgca ctaagactat ctgctcagca cttctggtga1801 cccaaaaggg tctgaggaca ggagctcaga gttgggtcag ctgtccaggt actcagggtt1861 gtcacaggca aaactgctgg aactcagggc agcattgcaa atgccacgcc gctctcaggg1921 ccccttgcct gccgctggaa ttaaacccac ccagatcttg gaaactctgc cctggaccct1981 tctcaataag tccatgagaa atcaaactct ttcctttatg cgacactgga ttttccacaa2041 agtaaaatca agatgagtaa agatgtggtt tctagatagt gcctgaaaaa gcagagacca2101 tggtgtcagg cgtcaccact tgggcctata aaagctgcca caagacgcca aggccacaag2161 ccacccagcc tatgcatccg ctcctcaatc ctctcctgtt ggcactgggc ctcatggcgc2221 ttttgttgac cacggtcatt gctctcactt gccttggcgg ctttgcctcc ccaggccctg2281 tgcctccctc tacagccctc agggagctca ttgaggagct ggtcaacatc acccagaacc2341 agaaggtgag tgtcggctag ccagggtcct agctatgagg gctccagggt gggtgattcc2401 4931 2401 caagatgagg tcatgagcag gctgggcctg gtcctaagat gcctgtaggt caggaaaaat2461 ctccatggac caaggcccgg cccagccatg agggagagag gagctgggct ggggggctca2521 gcactgtgga tggacctatg gaggtgtctg gcagactccc cagggactac ctgctctcct2581 ggcctggcct tgtctgccac tgccagctcc tactcagcca ttcctgaaca gaggacagca2641 gagaagggcc agcaccctcc cagaaccatg tggcatttgc caactggatt ttgaccataa2701 caatgcagcc attctcccca gcaccatcat aggcccgccc ttacaggagg attcgttagt2761 27 2761 agagtccgct ccttgcccca ctagtaacag ctcacatgtc tgagcactgc ttacaccagg2821 cctggtgcac gtgctttatg tgtcatttca tcactgccag ccacctcaag aggcaggtac2881 gatgaaccca ttctgctaag gttcagtgag gttaagtgac agaggctgga ttcaagccag2941 gcctggccaa caccagagtg tccatgctcc taactgcagt gttccctcac catcagaagg3001 cagggcattt aatacaccag atccccaccg cctcccatct gatttgtctt ggtcaacagt3061 ggcccaggcc actcctactt cactcgtccc caccctggcc cttcccgcag gcccctgtcc3121 tcctgccctg actatggcaa gccttgcatg cagcttgtcc cttactagtg gtgtcaattt3181 ttttctctca gctccaagac cctaaacagt gggacctcac ccctatgcct gctgttcaaa3241 gcagaaaacg aagctcagga atgctgaggg gctgccaggc ctgcctctgt gccacaccag3301 ggatgcttgt ggggcctgtg ctggggcaga cctggcctgg gctgccaggg caggcccaca3361 33 3361 acccctgcca gcactctgct cactgtcact ttgctcccac aggctccgct ctgcaatggc3421 agcatggtat ggagcatcaa cctgacagct ggcatggtaa ggacctttgg gtgcagggag3481 gatggggcag aggctccagg ccttgggctt atcttctctg agcctccctt ccatggctgg3541 ggttccaagc aagcttcaag tgctctcctc cctcccgcca taatctggcc ccttcccgcc3601 caccacccag actcacctgc gccaggcatc tcagccccat cttcctgcag actcacaaaa3661 ggcagctgcc caagcagggc ctgacccctc ggtgtcccct ccccacagta ctgtgcagcc3721 ctggaatccc tgatcaacgt gtcaggctgc agtgccatcg agaagaccca gaggatgctg3781 agcggattct gcccgcacaa ggtctcagct ggggtaaggc atcccccacc ctctcacacc3841 3826 3841 caccctgcac cccctcctgc caaccctggg ctcgctgaag ggaagctggc tgaatatcca3901 tggtgtgtgt ccacccaggg gtggggccat tgtggcagca gggacgtggc cttcgggatt3961 39 3961 tacaggatct gggctcaagg gctcctaact cctacctggg cctcaatttc cacatctgta4021 cagtagaggt actaacagta cccacctcat ggggacttcc gtgaggactg aatgagacag4081 tccctggaaa gcccctggtt tgtgcgagtc gtcccggcct ctggcgttct actcacgtgc4141 tgacctcttt gtcctgcagc agttttccag cttgcatgtc cgagacacca aaatcgaggt4201 ggcccagttt gtaaaggacc tgctcttaca tttaaagaaa ctttttcgcg agggacggtt4261 42 4261 caactgaaac ttcgaaagca tcattatttg cagagacagg acctgactat tgaagttgca4321 gattcatttt tctttctgat gtcaaaaatg tcttgggtag gcgggaagga gggttaggga4381 ggggtaaaat tccttagctt agacctcagc ctgtgctgcc cgtcttcagc ctagccgacc4441 tcagccttcc ccttgcccag ggctcagcct ggtgggcctc ctctgtccag ggccctgagc4501 tcggtggacc cagggatgac atgtccctac acccctcccc tgccctagag cacactgtag4561 cattacagtg ggtgcccccc ttgccagaca tgtggtggga cagggaccca cttcacacac4621 aggcaactga ggcagacagc agctcaggca cacttcttct tggtcttatt tattattgtg4681 tgttatttaa atgagtgtgt ttgtcaccgt tggggattgg ggaagactgt ggctgctggc4741 acttggagcc aagggttcag agactcaggg ccccagcact aaagcagtgg accccaggag4801 tccctggtaa taagtactgt gtacagaatt ctgctacctc actggggtcc tggggcctcg4861 48361 4861 gagcctcatc cgaggcaggg tcaggagagg ggcagaacag ccgctcctgt ctgccagcca4921 gcagccagct ctcagccaac gagtaattta ttgtttttcc tcgtatttaa atattaaata4981 tgttagcaaa gagttaatat atagaagggt accttgaaca ctgggggagg ggacattgaa5041 caagttgttt cattgactat caaactgaag ccagaaataa agttggtgac agataggcct5101 gattgtattt gtctttcatt ttggcctttg gggacactgg tctgtggtct gaagactctg5161 3561 5161 aggagctctt cgggaggctg gtgggttgga ggaggggact gggatggatt acagcgaggg5221 3521 5221 tagggtgcag tgacctgggc tgaatgcaag ctagctcccg agggtgggga catggcctga5281 aggaagcccc accttctgtc tgctgcacca gcaaggacgg agaggcttgg gccagactgt5341 cagggttcaa ggagggcatc aggagcagac ggagacccag gaagtctcac aatcacatct5401 cctgaggact ggccagctgt gtctggcacc acccacacat ccatgtctcc ctcacaaccc5461 aggaggccga tgagaactgt gaggctcaga aagcgtgggc ggtttgccta aggtcacgta5521 gctacttcct cactggggtc ctggggcctc agagcctcat ctgaggtaaa ggagcaaagt5581 tgggattggg gtccaaaatt cactttaact ccaaagccca cacacttaac caccctgcct14949 atttctgtcc aaatgtcacc tgtcctgaat (2) SEQ ID NO: 2906 materials: (i) sequence characteristics:

(A) length: 1793 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2906 description of the sequence: 1 caacaccttc agaaataatc ctttgggtga tctcttgtca atcatttgtg caggctagag 61 aggcacctgt gaatgataag gctactgaga agcatcattg gcctggtcct ggcactacca 121 aagggcaggg gaagcgatgc ccaaggggct cctgaccagc acatcatccc acgcaaaaac 181 721 tgggctgccg ctcccttccc agcatgaccc aacaccaggc tctctaggcc ctggcggagg 781 181 attctccagg tcccttgttc caggcaggaa atccccagct ctgagcgccc tgccagggct 241 ctgcctaggg acaccttttc caggtctaga gaatcaaagg agcctccaga gcagctagga 301 gggcctgagc tgaccaagca agccctgctc acaagacaaa tgcagtcaag acctgggtgt 361 attacttgtc ttgagctctg aagggcaggg aggggtctga gcctcaaatc agacagagaa 421 atgctcaagt cacttctgcc aactcactgt gatggcagct acagatgaca gcccctctca 481 agactcttca gctcacagac aagccactga cttcatctgt acacaccccc atccccaatg 541 caagcccact gtacacttac aggtataaat gcatttgcaa ggccttgcaa aatgccctat 601 gtacgtaaaa ctgacccaca aaatccaaaa ttgcaagtgc cagatgccag ccaggtcaga 661 acatcctggc ttcagcaatg ggctgctcag catgggagcc ttttatgggc caggcctggc 721 tgggctgccg ctcccttccc agcatgaccc aacaccaggc tctctaggcc ctggcggagg 781tgggctcttg aggcccagtc tggcctgatg cttctgtgct cggtgctcct gggtagcaag 841 gcgcttctgt gaccctgggg gagctgggtg cttgagcccc aggcccctct ggcctcctct 901 cagggccact gtcagtgagg gagccctggc caccagcact caggtcctgt accctcttgt 961 tcaggtcatt gcgctctgtc tgcagtgccc ggcacagctt ctccagccgt tggattttta1021 cctgcaggcc ctccagttct ttatcccgga ctgttttctc ctcagccatc tcaagcaggg1081 ccttgttgct gctctcccac cgggaccggt acatggtggt ttctttctcc agcttcttga1141 tcttcttagt catcttttcc atctcctgct tgaatgtggt gaatacctcg ctgcttttgg1201 aaagtgtgtt ctggaactcc tcaaacttct ctgtgtatag ggcaagctgt tgcttcaggt1261 gggtctcttg ctgcttcatc agctcacaca tcctctggga ctctactgcc tctttcagga1321 gaaaatcctt ctcccgctgg tgccgctctt ctgcctcctt tagcatctcc tgggcctgct1381 ggagcttggc atccaccagc tgctgttgta ggtccttgtg tttgaagact ttgtcgatat1441 gctcctcgcg cagctcatac tgctcaatca gcttcttgag cctctcagcc agctccatgt1501 tctcttggcg cagcttggag ttgcgctcat tgtgctgttc catctgcagc tgaatgtcat1561 tcagtgtcac ctggaagtgc gaggtcacct ccttgcgctt ctcctcctcc tcccgggccc1621 gctgcacacc ttcttccttg agggagcggt tgtgcccgtg cagctcacgg cataggctct1681 caagcttgct gcgggccagg acggcttgct gtgctcaccg cgcaggtggt ccttctcttg1741 caccagctgg ctctgctttt tctgtaggag cttcatctgc ttctgtgaat tcc (2) SEQ ID NO: 2907 materials: (i) sequence characteristics:

(A) length: 1793 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2907 description of the sequence: 1 caacaccttc agaaataatc ctttgggtga tctcttgtca atcatttgtg caggctagag 61 aggcacctgt gaatgataag gctactgaga agcatcattg gcctggtcct ggcactacca 121 aagggcaggg gaagcgatgc ccaaggggct cctgaccagc acatcatccc acgcaaaaac 181 721 tgggctgccg ctcccttccc agcatgaccc aacaccaggc tctctaggcc ctggcggagg 781 181 attctccagg tcccttgttc caggcaggaa atccccagct ctgagcgccc tgccagggct 241 ctgcctaggg acaccttttc caggtctaga gaatcaaagg agcctccaga gcagctagga 301 gggcctgagc tgaccaagca agccctgctc acaagacaaa tgcagtcaag acctgggtgt 361 attacttgtc ttgagctctg aagggcaggg aggggtctga gcctcaaatc agacagagaa 421 atgctcaagt cacttctgcc aactcactgt gatggcagct acagatgaca gcccctctca 481 agactcttca gctcacagac aagccactga cttcatctgt acacaccccc atccccaatg 541 caagcccact gtacacttac aggtataaat gcatttgcaa ggccttgcaa aatgccctat 601 gtacgtaaaa ctgacccaca aaatccaaaa ttgcaagtgc cagatgccag ccaggtcaga 661 acatcctggc ttcagcaatg ggctgctcag catgggagcc ttttatgggc caggcctggc 721 tgggctgccg ctcccttccc agcatgaccc aacaccaggc tctctaggcc ctggcggagg 781 tgggctcttg aggcccagtc tggcctgatg cttctgtgct cggtgctcct gggtagcaag 841 gcgcttctgt gaccctgggg gagctgggtg cttgagcccc aggcccctct ggcctcctct 901 cagggccact gtcagtgagg gagccctggc caccagcact caggtcctgt accctcttgt 961 tcaggtcatt gcgctctgtc tgcagtgccc ggcacagctt ctccagccgt tggattttta1021 cctgcaggcc ctccagttct ttatcccgga ctgttttctc ctcagccatc tcaagcaggg1081 ccttgttgct gctctcccac cgggaccggt acatggtggt ttctttctcc agcttcttga1141 tcttcttagt catcttttcc atctcctgct tgaatgtggt gaatacctcg ctgcttttgg1201 aaagtgtgtt ctggaactcc tcaaacttct ctgtgtatag ggcaagctgt tgcttcaggt1261 gggtctcttg ctgcttcatc agctcacaca tcctctggga ctctactgcc tctttcagga1321 gaaaatcctt ctcccgctgg tgccgctctt ctgcctcctt tagcatctcc tgggcctgct1381 ggagcttggc atccaccagc tgctgttgta ggtccttgtg tttgaagact ttgtcgatat1441 gctcctcgcg cagctcatac tgctcaatca gcttcttgag cctctcagcc agctccatgt1501 tctcttggcg cagcttggag ttgcgctcat tgtgctgttc catctgcagc tgaatgtcat1561 tcagtgtcac ctggaagtgc gaggtcacct ccttgcgctt ctcctcctcc tcccgggccc1621 gctgcacacc ttcttccttg agggagcggt tgtgcccgtg cagctcacgg cataggctct1681 caagcttgct gcgggccagg acggcttgct gtgctcaccg cgcaggtggt ccttctcttg1741 caccagctgg ctctgctttt tctgtaggag cttcatctgc ttctgtgaat tcc (2) SEQ ID NO: 2908 materials: (i) sequence characteristics:

(A) length: 1248 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2908 description of the sequence: 1 aaatcctggc tgtcatgtac ttgctatggg cctagagtag cttacctaaa tgctactaac 61 cttcctccat accattattg taaagattaa aggtgatgca tctgttaagt aactaataga121 gtgcttatta aaaggtaggt gttcaataag tattaattcc ctccctttct ttttcttact181 721 tacaagttat ttcacttgag tccggagatg caagtattca tgatacagta gaaaatctga 781 181 agtgcacttg tgtttttaat ggatcatact ttaccctaga ttgtattgta ggaggcatcg241 tggatggatg gctgctggaa accccttgcc atagccagct cttcttcaat acttaaggat301 ttaccgtggc tttgagtaat gagaatttcg aaaccacatt tgagaagtat ttccatccag 361 tgctacttgt gtttacttct aaacagtcat tttctaactg aagctggcat tcatgtcttc 421 attttgggat gcagctaata tacccagttg gcccaaagca cctaacctat agttatataa 481 tctgactctc agttcagttt tactctacta atgccttcat ggtattggga accatagatt 541 tgtgcagctg tttcagtgca gggcttccta aaacagaagc caactgggtg aatgtaataa 601 gtgatttgaa aaaaattgaa gatcttattc aatctatgca tattgatgct actttatata 661 cggaaagtga tgttcacccc agttgcaaag taacagcaat gaagtgcttt ctcttggagt 721 tacaagttat ttcacttgag tccggagatg caagtattca tgatacagta gaaaatctga 781 tcatcctagc aaacaacagt ttgtcttcta atgggaatgt aacagaatct ggatgcaaag 841 aatgtgagga actggagaaa aaaaatatta aagaattttt gcagagtttt gtacatattg 901 tccaaatgtt catcaacact tcttgattgc aattgattct ttttaaagtg tttctgttat 961 taacaaacat cactctgctg cttagacata acaaaacact cggcatttca aatgtgctgt1021 caaaacaagt ttttctgtca agaagatgat cagaccttgg atcagatgaa ctcttagaaa1081 tgaaggcaga aaaatgtcat tgagtaatat agtgactatg aacttctctc agacttactt1141 tactcatttt tttaatttat tattgaaatt gtacatattt gtggaataat gtaaaatgtt1201 gaataaaaat atgtacaagt gttgtttttt aaaaaaaaaa aaaaaaaa (2) SEQ ID NO: 2909 materials: (i) sequence characteristics:

(A) length: 1202 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2909 description of the sequence: 1 tgtccggcgc cccccgggag ggaactgggt ggccgcaccc tcccggctgc ggtggctgtc 61 gccccccacc ctgcagccag gactcgatgg agaatccatt ccaatatatg gccatgtggc 121 tctttggagc aatgttccat catgttccat gctgctgctg acgtcacatg gagcacagaa 181 721 atgtgaggaa ctggaggaaa aaaatattaa agaatttttg cagagttttg tacatattgt 781 181 atcaatgtta gcagatagcc agcccataca agatcgtatt gtattgtagg aggcatcgtg 241 gatggatggc tgctggaaac cccttgccat agccagctct tcttcaatac ttaaggattt 301 accgtggctt tgagtaatga gaatttcgaa accacatttg agaagtattt ccatccagtg 361 ctacttgtgt ttacttctaa acagtcattt tctaactgaa gctggcattc atgtcttcat 421 tttgggctgt ttcagtgcag ggcttcctaa aacagaagcc aactgggtga atgtaataag 481 tgatttgaaa aaaattgaag atcttattca atctatgcat attgatgcta ctttatatac 541 ggaaagtgat gttcacccca gttgcaaagt aacagcaatg aagtgctttc tcttggagtt 601 acaagttatt tcacttgagt ccggagatgc aagtattcat gatacagtag aaaatctgat 661 catcctagca aacaacagtt tgtcttctaa tgggaatgta acagaatctg gatgcaaaga 721 atgtgaggaa ctggaggaaa aaaatattaa agaatttttg cagagttttg tacatattgt 781 ccaaatgttc atcaacactt cttgattgca attgattctt tttaaagtgt ttctgttatt 841 aacaaacatc actctgctgc ttagacataa caaaacactc ggcatttaaa atgtgctgtc 901 aaaacaagtt tttctgtcaa gaagatgatc agaccttgga tcagatgaac tcttagaaat 961 gaaggcagaa aaatgtcatt gagtaatata gtgactatga acttctctca gacttacttt1021 actcattttt ttaatttatt attgaaattg tacatatttg tggaataatg taaaatgttg1081 aataaaaata tgtacaagtg ttgtttttta agttgcactg atattttacc tcttattgca1141 aaatagcatt tgtttaaggg tgatagtcaa attatgtatt ggtggggctg ggtaccaatg1201 ct (2) SEQ ID NO: 2910 data: (i) sequence characteristics:

(A) length: 14968 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2910 sequence description: 1 ggcattgtaa tcagacagaa ctggcctcaa atcctggctg tcatgtactt gctatgggcc 61 tagagtagct tacctaaatg ctactaacct tcctccatac cattattgta aagattaaag121 gtgatgcatc tgttaagtaa ctaatagagt gcttattaaa aggtaggtgt tcaataagta181 721 gctttctgaa actttaaaag cttcgacaac acaaaagagg caggtgaaag taccaaaact 781 181 ttaattccct ttctttcttt ttcttactag tgcacttgtg tttttaatgg atcatacttt241 accctagatt gtattgtagg aggcatcgtg gatggatggc tgctggaaac cccttgccat301 agccagctct tcttcaatac ttaaggattt accgtggctt tgagtaatga gaatttccgg 361 taagaagaaa aatagatgaa aatatcctat ggaatttccc ttaaaggtcg tctgaatctc 421 agagtctttg caataagtta catggttatt ctccaaagat cttgagatat cacagatgtc 481 tgttcacatt tggattgttc ttattttgaa aataaatagg tttttaaaaa ctctattgac 541 catcttgata ggctcttctt gtcattataa atgtgttatt tcacttatcc cactcttttg 601 tgttctctaa atgtctttgt actcactaaa ttgtgtagtc ttagagggca gggtgtgggt 661 atcattcatc tttttgaaag gaagcatgaa caattagtgg ttaaggtggc agttaacact 721 gctttctgaa actttaaaag cttcgacaac acaaaagagg caggtgaaag taccaaaact 781 ctggtaagtt gtaggataaa tgattttcct aaatcaccaa gaaagattat tagtcactct 841 caagatggaa tacagtatct gtaattggtt ccattttatc caatttttca ccaaataata 901 ttaatataat tcattttcat aatttacatg aagttaatat aactattgca tctctgttag 961 taatgcatgt tattaacctg tgctgtataa aatattttga cctattaaaa aagaaagaag1021 gatgaggagg aggtcaaaga taatataaaa actttaagtg gtgacattgg tatgtatgta1081 aattaacaaa tatgtcaact ttgttaaatt atctttgaca tgcatctgca gaaatatctg1141 ttaaggaact ttgtgcataa gagacagagt tggaggtggg agagaaagtg aaaaaagata1201 aattatagtt ttattatttt tgataagggg cagtaattat gaaattatga caaacttaca1261 tctttagacc tagaaatatg ttgacatgtt attttaaacc tcacttttta actaaaaaat1321 ttaaccattt gtctatgatt atatttttca gaaaccacat ttgagaagta tttccatcca1381 gtgctacttg tgtttacttc taaacagtca ttttctaact gaagctggca ttcatgtctt1441 cattttgggg gtaattttat ctttaggcat aaataacatt atgttcatgg tcatgatgat1501 tgtccttgga tatattttcc attaaattag tttacgttca gtttgcttat atctctaggt1561 actcagtatc tgggggatag aaggcagact acagagattt agagaggttt ggtaaacacc1621 taactgagca tttttctaca ttgtggtaat agtccaaaca agcattatag ccctcaaata1681 aattgggcct tttgatattt aactgaactt ggaagtatac cacttattga tagactacat1741 atttttcatg gcaattaaaa gtagatattt agaatttgct tatgttactt ttttatctgt1801 ccctgacact gactcctcct atcccttgat ctttatccta gttcagttta aaacatttct1861 ttctttattt aagccttttg ttgtttcctt ctaataaaat tcatatgttt ccatgactat1921 taactttttt cttctctctt agatgcagct aatataccca gttggcccaa agcacctaac1981 ctatagttat ataatctgac tctcagttca gttttactct actaatgcct tcatggtatt2041 gggaaccata gatttgtgca ggtaattctt catcataaga cagattagtg ttgactatca2101 tgcttctgtg taagatccat caggaagtga gtgattattt ttcctcaagc tctaagcatc2161 attccaatgt tacttggtca gtataagtgt attttgtctg gatattaaat tttaattttt2221 2281 22 tactgtttat ggagaaagct gctgcaagca tagtaagagt gtgagcaaca tgaaaggggc2341 atgtttaatg tagtgtaaaa aaaatttact atcaaaatca ttacatgaaa atgattatta2401 ctcattttaa gaattttacc tatttattag acttcaaagt ctctgtaaat ctctacttaa2461 aggaaactag taattcattc aaaatcattt attgagcatt gccacacatc tggcactgct2521 tctatttcat tgtgataaat tgagccagtt tatttataaa gtatgcctac agttaggctt2581 2658 gctcaatgtt tatgttcagt tacaaggctg ttgaatgcac agaagcaagg ataacactga2701 2761 atgaataggc tccttcaaaa tgctttgctc tatggttttt ctttcagctg tttcagtgca2821 gggcttccta aaacagaagc caactgggtg aatgtaataa gtgatttgaa aaaaattgaa2881 6381 gatcttattc aagtgagtac tcatttttcc ataaaatgcc tggtataact gctatggagt2941 ttgtctctct ctgtgttttt ctgtctgtct taaggaaacc acacttgaaa caataatatt3001 tttgtagaaa tttatgatct tataaagctc aaaaagaagt cttttcctta ctgttttaga3061 atctaattat ctttaaaacg taatttataa gcggcccaga cggatgagtt ctagtctgca3121 caggtgaggt attctcttcc tctatctgga gaagccagat atcttggtgg cacctgcagg3181 gagaatggct tgacccaggg aacagctgtt gttgcttgtg gactaaaggc cctcttctcc3241 cacctcaaga aaacaggtgg cctgacctaa ggaagtgatt tttgccatag caggtaatac3301 cagcttcagt ggaagtctcg atggcaccaa gcataccaaa atagcaccac aaagttctga 4661 3421 ccaaacaacc tgactgcatg ttaaaataga agatttaaat aggaccagag tgtcctaaca3481 taatagacat gaagccaaga tacaattgga aatcacccat tgtaacaaga aataggaaag3541 ttacaactta aatgagaaaa tatagtcaac agattacaaa attgaagtgg atcagatgtt3601 ggaattctct gacatagatt tgaaagcaga cattataaaa agtgcttgaa aaagcaatta3661 caaatgccct tgaagcaaat gaaaaactaa atgccttaac aaagaaatag aagatatgaa3721 aggaaccata tagaaattat ataactgaaa atataactga aatataaagc aaactgtaaa3781 ggctcattag cagaatgaat gacagaggaa tgatagttaa tttgacaaca gaatactaga3841 gagacagttg acttaagaaa aaaaaagcat cactgatctt gacgacagta acaaaagatt3901 cagcattcct atggttagta tcacaggaga gtatgagaat acaccaagta aaagagagag3961 attggttgaa ttcataacaa aacaccaccc atctatacta tctataagca gttcacttct4021 824056 4081 414141 864201 tagggggggc cctaaatcca atgacaagtg tctttattag aaaaggaaag gacacagagt4261 aactcactgg gaagaaagcc atgtgaagac agaggaagag atcagagtga tgcggctata4321 agccaaggaa ggccagagat tgccaggatc caccagaacc ttggggaagt caagaaagca4381 ttcttctcta gactgataca catgcataca ttaattataa aaagcagaag tggctatatt4441 aacatcaaag ttaatgttat taacataaag tagacttcac agaaaataaa gttgctataa4501 tccagaggga tattacaaaa tgataaaaaa taaatctgtg aggaaaacat aatgttctta4561 aatgtataca catcaaacaa cgaagactca aaatttgtga aacaaaaaat aatagggata4621 aaagagaaat agacaaatcc acaattattc ttgaggactt cactgcctcc tcctcagtaa4681 ctaatggaag tactagacag aaaatcagaa agggcataaa aatacaatat aaccaaccaa4741 caggatctaa tttaatacat agagcactac acccaacaac agcagaatat actttctttt4801 atcaagacta aatatatact gagccataaa agaaacttta aaaatttttt cagaacttaa4861 atcatgcaga atttgttctc aaaccacaat ggaatcaaac cagaaatcaa gaaattaaat4921 acaacgggca aatctccaaa tgcttggaaa ttaaatacta tacctctata taatccatgg4981 gtcaaagagt aaatctcaaa ggatattcat aatacataga atgaaaaaaa atgaaataca5041 gcatatcaag atatatgtga tgtggctaaa gcaatactga caggacattt tttaaaatca5101 aatgaataca ttagaaaaaa aggagaatta tcaaatcaaa aatctaagtt actgcttcaa5161 gaaactagaa gaagtagagc aaaacaaatt caatacaagc agaacaaaga aaatatttaa5221 atataagagc caaaattaat gaagttgaaa tcaagaaaac aatagaaaaa attaatgaaa5281 cataaaactg gttatttgga aaatcaatac aattgatctt taattgacag aaataagaga5341 gaagacacaa atctcaggaa tgaaatttgg ggctgtcact acagaatctg cagtcattag5401 aaggataata agaaaaacta tgaacaattt tatgctcaca aatctgataa cttagaggaa5461 atggaccaat tcttcagaaa ccacaaacta ccaaaacata atgaagatga aatagacaat5521 ccaaacactc atataatcac taaatacatt gaattcatca tacacaagct cccaaaaagg5581 gaccttcaag cctgctggtt acactgaatc attctatcaa atatttacag aagcattaac5641 aacaattgta cagtctcttc tagaaaatag aagaggaagg aacattttcc agttgatttt5701 aggaggccag tattactgtg atgctaaaac caaataaaga tattactaaa aaagacaact5761 acaaaaatatctcccattaa cttagatatt aaaatgctct ataaaatatt aacaaatcga5821 attcagcaat gtataaaaag aattatacac catgaccgag tgagatttat ttcaggtaca5881 caagtcttgc tcaattattt gaaagtcaag caatgtaatc taccctatca acaggctaaa5941 gaagaaaatc atatgtagaa aaggtatctg ataaaatgca acacctctca tggcctgtgt6001 ccctccctat gcctcctgga tttatatgtt gaagtactaa ttgccagtat atcaaaatgt6061 gactgtattt tgagataggg tcagttaaaa tgaggtcatg agggcaggtc ctactgcaat6121 atgactggta tctttagaaa aacagataag ggtatagata cacagagata gaaaaccatg6181 tgaagacact gggagaaaat ggccacctat aagccaagga gggaggactc caaagaaacc6241 aacactgctg gtaccctgat ttcagacctc tagcctcctg aattgtgaga aaataaagtt6301 ctattattta agtcaccaag tctgtggtac tttttatagc agccctagca gactgatata6361 aacacctatt gaagataaaa tttcttagaa agtaggtgtg gagaactgcc tcaacttggt6421 acaaaacatg ttcaaaaagt ctagagctac catacttaat ggtgagtaca agactgaatg6481 tttttctgct aggactggaa actaagcagg gatatcttct ctcaccactt ttactcaaca6541 taattgtctg agttttctgt tgcttataac agagtacttg aaatgcataa tttataaaga6601 aaggaattta tgtcttatgg ttatgagact gaaaagttca aggttgagga gccacatctg6661 6721 tggcgagggg ctgaatgtac tcatgtgcta gctcaggtct ctcttcctct tcttataaaa6781 6 ctaccggttc cctttccgta ataacacatt gatactctaa tccattcatg agggcagagc6841 cattgtgatc caattacctc ttaaagcccc acctctcaat actgccacat tggggattaa6901 gtttcaatct gaattttgga ggggacattc aaaccacagc aataatattg gaagtttagc6961 caaattatga agcaggagag aaaaaatgta tgagaaaaaa ataaataaaa ggcacacaga 7058 atattttgtt tagaaagtaa tgcaaattaa aaccacaatg acatattatt acatgcagct7141 ataagcgtat acagaataaa aaatagtgat gatgctaagt aaatataaat gaacaagggt7201 gataatgctg gcaaggatgt ggagaaactg gatcattcat acattgctgg tgatgatgta7261 aaatgataca ggcactgtat aaaatagttt ggcagcatcc tatgaaacaa aacatgcatt7321 tgccttacaa tccaacaatt gtgctcttag acattcatcc ttgataaatg aaaactacgt7381 gcacacaaaa atatgtacat gaatgttcac agagattttt tcatgactgc caaaaactgg7441 aaacagatgt gcttcagttg gtaaaatctg tgatatatca tgtcagggaa tactacagag7501 caataaaaag gaacaaacta gtgataccca caagttaggt ggatctccag ggtattatga7561 tgagtgaaaa aagccagtct tcataaagaa actgtggtac atttataaaa tagaatatta7621 tccagtgata aaaagaaata agctatcaag ccatgaaaag aaatggagaa accttcaaag7681 tcatattgtt gagtgaaaga tggggacgcc aatctgaaaa ggcttcacac tgtatgatcc7741 caactatgac attttgaaaa aggcaaagct atggagacaa taaaaagatc agtggttgtt7801 aggggtttgg agggaaggag aaatggctag gcagagcaca ggctactttt aaagcagtga7861 aaatattaat atatgatgat gggtggcatt atacatttgt caaaacctgt aaaacataca7921 acacaaataa tgagccctaa tattctgtac acttaagatc ataatagtga ttcaccaact7981 ataacaaaca caccacacta atgcaagata ttaacaatag ggaaactggg gtggagaaca8041 aaggggtgta taagtctctg tactttctgc tagtttttct gtaaacctaa atggctcata8101 468161 tttacataat attcttgaaa tgacaaaatt ataggcatgg agagcagaga agtggttgcc82 agaatttaga gagattgggt gatgatgagg tatgtatggg gagaaaggtg actttggtta8281 tgaaagaata gcagcagaat ccttgtggtg atgaaactat tttgtgtctt aactgtggtg8341 gtggtgatgt gaatctatgc aaatgataaa attgcataaa acttcacacatatgcaagca 8401 cacacactgt ggcacataaa acttgtgaaa tctgaacaag gtgagtgcat tgtattaatg8461 tcaattttct gattgtaata ctgtactgtg gttatggaag acattaccac tgggagaagc8521 ttgttgaagg gtacacagga tctctctgta tttactctta cagtttcata tgaattttaa8581 attatctcaa aataaaaaaa gaattaaaaa caatttaatg ttttcagtag gttgttctca8641 taatatttaa agcagggcat agtttttaat attgtctaat tttgtttcct ttcagtctat8701 gcatattgat gctactttat atacggaaag tgatgttcac gtgagtatac tttttttcaa8761 aattgctatt tgtcttgtta ttaaagtttt taaaagtata tttttgtaac aactaaaata8821 tggtagtttt aaaatctaac ttttggtgtg tttctataat atatggtcca tgagttttat8881 tagtgattat tgagatggga cttggggaca gatagctaca tcaatgctat ttttgtaatg8941 gtgccaaatc aaaatattaa aagagtcttt tccatcaatg tcaaacaaga tacattatac9001 gtttttgtga tgcagttgca tcatggtgca attagatgca aaaatcagat taactgtttc9061 aatttaagag tagccaatat atcagttatt tccaatgctg taatgtatca ccatctgcaa9121 tcatattttc cataaattgc ttaaaatcat tcatgttctg cattttacat gattctctac 9181 atttgtcaga aaaagattct aattattctc tatgtgagaa aggaaacata acccatgaaa 9241 cttattagaa ctgaaaaatg gtcttgaact tgtttcatta ataccctgac atttcctaag 9301 gaatgtagga tttgtcatgt tggtggtggt tcttcccttc agtattgtta ctaaaaccaa 9361 gaaatgaatc cccaacttca cgtcagggaa aacaaactct atgtcctctc tccattattc 9421 ctcaattaga acttctctta catagatgac tttctaagca ttggaaagaa accatagtca 9481 gaaactagaa aaaagagata ttcactaacc aattgggtca tgctgctgca caaagaaatt 9541 gtctccctcc tctggcttca gcatggattc tgtttttctt tgcatttttt gtaaaatgga 9601 aagtagtcaa ttagccacca aattcagcat cctgaaattg cttttttgca agaagataac 9661 tttgcaaccc atgggttaga gaaacaacct tagattttag attttagatt ttagaagttt 9721 agattttaaa actgactcca ccacttttta cttgtgttac cttggagatt gctaaacatt 9781 tctgaagctc atttttatta ttgctgatat ggtgacagta tttgtctttc aatcctaagc 9841 agtgactgtt gggtttaagg aatattacca gtgctgggca catgggtgta ttccttcatt 9901 ttttttatcc attcagtaag catttgtgaa gtgtctgcag gctcccaggt actgtgcaag 9961 gtatcgagga cacaaagtca aataatggtc aaatccctag atattccttg tttcctttct10021 ttaagttatt gttaaagtaa atgttgtgga aaacatattt ttgtggcacc taagagagcc10081 10141 ttcttggaat tacttctctc cctctggaac tttggaactt gaaagaacag tataattagc10201 agctaccact atttaaaatg ttaacaacac aatttgattc taaaaattct tacaaataaa10261 ctgtctatat tgatgttttc agactctaag gccagtatta ttaccctttc cacaggggaa10321 atgtgctcgg tgagaaaaac tggccactat ttctgcattt tctagtttca tgttcttctg10381 tacaatattg ccatccttct tgattgtgtt ttgttggttt gttttggttt ttattttaaa10441 gccaaaagaa aaaaaattaa gctgcctcct atgtaaaatt tcttaaggat attgtgtatc10501 tttataaaat atttggattg actttttgaa aatcaaaatt acatcagtat gaaaattaat10561 aatcagaaaa aagtaattgt tctttataac ttttattttt agcccagttg caaagtaaca10621 10681 107 attcatgata cagtagaaaa tctgatcatc ctagcaaaca acagtttgtc ttctaatggg10741 gtgagttttc caacagttgc ttagagttgc atcttatgtt ttgggcctga tttggagaag10801 1082 10861 ggagtggtgt gcaaaagtgg caccatctcc agcatgcaca caatgctaaa ctgttcaatg 8210921 attgattcag tagacaaaca tttacagaat aatgccaggt agtgtgcttc agtgctagaa10981 ttatagttgc aaaccagaca gacaggtcac tgacctcaag gtgtttattg tcaggtgcag11041 tggatagaca ttaatctaat tacatactca aatgtctaac atcaataata gtaactcaca11101 tttattgagt tattactgta tgccagacac tattctttga gctttaaatt gataattcat11161 ttaatcctca tgataaatct gtgagatagt tatctttatt tctgtttgaa tgttgaagaa11221 attgtagcac tgagagcctg gatcactcgc ttcagttcat acagctagta aaatggggag11281 ccacaactct tacccgagca gtctgtctgc agagtctgtt atctcatgag aagataaatg11341 ctttaaaaag ataacaatga aaatattaat gattcgagta taatctggga catcccaggc11401 aacttgagca gtagagggtt ccaggagagc aaattctagg tactcgtatg ataggctggg11461 gaatcagctg tgcaatggcc ctgaagtgca aagaattagg gctttcatgg caaaacacca11521 gtggccaaag caaggtagag agaaagcagt tttgcaacaa agaggcataa tcaaattagt11581 tcatttcata aatacttttt agccctcagg agacagtatg aaaaaatacc cataatccct11641 gctgttaaag agggaggaaa cagaaataaa ccaagcactc agcaaatgag taataagtta11701 gttatttatg aagtccagtg gtgaaaaagg acacagggta ggggcactgg ggctccagtt11761 agggtaggct gagctaataa gctgccattt gacaaagatg tgagagaatg agccttaagg11821 gtatctaggg acatatgttt aggcagagac aactgaaagt gcaaaggccc taagcttgtg11881 11826 11881 tgggtggaca ccttgacttt tctctaaaaa tacaagactg ctttaggtct ttgcttcagt11941 gtcaccttct cagtgattta cctatttaca gttgcaatcc cttccctatc tgagcactcc12001 ctgtcccctt ctctgcgtgt cccatatctg gaatatgata tattttatgt aatgggtatt12061 61 12061 gtctgttttt ccctactaga atgtcagctt aaaatggaca agtgtttttg ttttttatta12121 gtactatatc caaattccca gaacagtgtc tcatatatat taaatacttt acatatgtat12181 gaaatgaatt tattaaggtt tataatactc ttatgatgtt atctccatct tattggtgga12241 aagagtgagc cacgcaacag gtaactcatg gcaaaataaa tgatgagctc tttaatgtga12301 atgttgatag tcatcctcat catgacagag tgtgacatac gtgctggaat gcgtgggcag12361 123 12361 gactgcacag tcagaagacc tggatgggaa gaatttcagt tgattatgtc agttgagatg12421 agtcaatatc tctgtcttcc tatctgacat gattattttc aggatcaaat aggacagcat12481 tatatgaaat atgacagtgc ttggcataga ggatgtgctt gataaatgtc gctgattctg12541 aattccaaat agttaatgga tataaaatct aatttttatt tttgctggca cagccttcat12601 ggttcagatg atctctaaaa agtttattct taattgctac atttggaaca ttctagttat12661 ccatgagact gtgtttgaag tacaacaatt tgtggtattc acctaaatgg ctcagttcaa12721 ccaatgggtg attacagtgt gtcaggccct gtgctaaatg ctagggaaac aaacatactg12781 gctctgacct tctggcagag agcttagaga atagtattac agtataaaaa gagtaaaact12841 tcataatatg aatagaatac atgacatatt gtgagagagg tctaaataag gggttctgag12901 atgtaaagat gggacattga gtccagccct aggagcccag gggttcagag aagcctccct12961 13048 21 acagagagaa aagcaaaggc agagaggcat ctaatagtat gctgtgcatg gcaaggaaag13081 ccagatgctc actcagtgtt tctagggcat aacattgagg caagggggat atgtgaaata13141 aataggtaag gaacagctca tgaagagcct gtgtgctatg cagggaggca tggtctttat13201 gctagaagca gatgatagga aaccattgaa gggctcaaag caggaactcc gtggtctgat13261 agacacagct tatttttctc aatgtcctta acccattatt ggaaaaataa acatatatca13321 aatctccctg ttctctttcc tcgtagttct tcctaatatg ctatttattt gctaaagctt13381 tcatatctca agacctcacc atatggttca aacgatatga tattcccatt cccatgaatg13441 tatatttaat ttaattataa attgccaatt taatctctct ctatattttg cagaatgtaa13501 cagaatctgg atgcaaagaa tgtgaggaac tggaggaaaa aaatattaaa gaatttttgc13561 agagttttgt acatattgtc caaatgttca tcaacacttc ttgattgcaa ttgattcttt13621 ttaaagtgtt tctgttatta acaaacatca ctctgctgct tagacataac aaaacactcg 8681 gcatttcaaa tgtgctgtca aaacaagttt ttctgtcaag aagatgatca gaccttggat13741 cagatgaact cttagaaatg aaggcagaaa aatgtcattg agtaatatag tgactatgaa13801 cttctctcag acttacttta ctcatttttt taatttatta ttgaaattgt acatatttgt13861 ggaataatgt aaaatgttga ataaaaatat gtacaagtgt tgttttttaa gttgcactga13921 tattttacct cttattgcaa aatagcattt gtttaagggt gatagtcaaa ttatgtattg13981 gtggggctgg gtaccaatgc tgcaggtcaa cagctatgct ggtaggctcc tgccagtgtg14041 gaaccactga ctactggctc tcattgactt ccttactaag catagcaaac agaggaagaa14101 tttgttatca gtaagaaaaa gaagaactat atgtgaatcc tcttctttat actgtaattt14161 agttattgat gtataaagca actgttatga aataaagaaa ttgcaataac tggcatataa14221 tgtccatcag taaatcttgg tggtggtggc aataataaac ttctactgat aggtagaatg14281 gtgtgcaagc ttgtccaatc acggattgca ggccacatgc ggcccaggac aactttgaat14341 gtggcccaac acaaattcat aaactttcat acatctcgtt tttagctcat cagctatcat14401 tagcggtagt gtatttaaag tgtggcccaa gacaattctt cttattccaa tgtggcccag14461 ggaaatcaaa agattggatg cccctggtat agaaaactaa tagtgacagt gttcatattt14521 catgctttcc caaatacagg tattttattt tcacattctt tttgccatgt ttatataata14581 1453581 146 14581 ataaagaaaa accctgttga tttgttggag ccattgttat ctgacagaaa ataattgttt14641 146 14641 atattttttg cactacactg tctaaaatta gcaagctctc ttctaatgga actgtaagaa14701 agatgaaata tttttgtttt attataaatt tatttcacct taattctggt aatactcact14761 gagtgactgt ggggtgggaa atgatctctt aagaatttga tttctttcta ttccatagta14821 caaactcgtt ctctgttgaa acattcttct atcaccccag tgccctatcc atgtacatgt14881 gttcttattg ctctagtcaa acggtgctta taaatatctt tcagaaagct taggagaaat14941 ctgtatccta tttgacttcc aataatca (2) SEQ ID NO: 2911 data: (i) sequence characteristics:

(A) length: 486 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2911 sequence description: 1 cggattggga tcggacctac ttgattcact tctgggaaat caaggatcta cgtaccatgg 61 attttcaggt gcagattttc agcttcctgc taatcagtgc ctcagtcata atgtctagag121 ccaactgggt gaatgtaata agtgatttga aaaaaattga agatcttatt caatctatgc181 atattgatgc tactttatat acggaaagtg atgttcaccc cagttgcaaa gtaacagcaa241 tgaagtgctt tctcttggag ttacaagtta tttcacttga gtccggagat gcaagtattc301 atgatacagt agaaaatctg atcatcctag caaacaacag tttgtcttct aatgggaatg361 taacagaatc tggatgcaaa gaatgtgagg aactggagga aaaaaatatt aaagaatttt421 tgcagagttt tgtacatatt gtccaaatgt tcatcaacac ttcttgattg caattgattc481 ctcgag (2) SEQ ID NO: 2912 data: (i) sequence characteristics:

(A) length: 17904 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2912 sequence description: 1 aaatcctggc tgtcatgtac ttgctatggg cctagagtag cttacctaaa tgctactaac 61 cttcctccat accattattg taaagattaa aggtgatgca tctgttaagt aactaataga121 gtgcttatta aaaggtaggt gttcaataag tattaattcc ctccctttct ttttcttact181 721 tacaagttat ttcacttgag tccggagatg caagtattca tgatacagta gaaaatctga 781 181 agtgcacttg tgtttttaat ggatcatact ttaccctaga ttgtattgta ggaggcatcg241 tggatggatg gctgctggaa accccttgcc atagccagct cttcttcaat acttaaggat301 ttaccgtggc tttgagtaat gagaatttcg aaaccacatt tgagaagtat ttccatccag 361 tgctacttgt gtttacttct aaacagtcat tttctaactg aagctggcat tcatgtcttc 421 attttgggat gcagctaata tacccagttg gcccaaagca cctaacctat agttatataa 481 tctgactctc agttcagttt tactctacta atgccttcat ggtattggga accatagatt 541 tgtgcagctg tttcagtgca gggcttccta aaacagaagc caactgggtg aatgtaataa 601 gtgatttgaa aaaaattgaa gatcttattc aatctatgca tattgatgct actttatata 661 cggaaagtga tgttcacccc agttgcaaag taacagcaat gaagtgcttt ctcttggagt 721 tacaagttat ttcacttgag tccggagatg caagtattca tgatacagta gaaaatctga 781 tcatcctagc aaacaacagt ttgtcttcta atgggaatgt aacagaatct ggatgcaaag 841 aatgtgagga actggagaaa aaaaatatta aagaattttt gcagagtttt gtacatattg 901 tccaaatgtt catcaacact tcttgattgc aattgattct ttttaaagtg tttctgttat 961 taacaaacat cactctgctg cttagacata acaaaacact cggcatttca aatgtgctgt1021 caaaacaagt ttttctgtca agaagatgat cagaccttgg atcagatgaa ctcttagaaa1081 tgaaggcaga aaaatgtcat tgagtaatat agtgactatg aacttctctc agacttactt1141 tactcatttt tttaatttat tattgaaatt gtacatattt gtggaataat gtaaaatgtt1201 gaataaaaat atgtacaagt gttgtttttt aaaaaaaaaa aaaaaaaa1249 tgtccggcgc cccccgggag ggaactgggt ggccgcaccc tcccggctgc ggtggctgtc1309 gccccccacc ctgcagccag gactcgatgg agaatccatt ccaatatatg gccatgtggc1369 tctttggagc aatgttccat catgttccat gctgctgctg acgtcacatg gagcacagaa1429 atcaatgtta gcagatagcc agcccataca agatcgtatt gtattgtagg aggcatcgtg1489 gatggatggc tgctggaaac cccttgccat agccagctct tcttcaatac ttaaggattt1549 accgtggctt tgagtaatga gaatttcgaa accacatttg agaagtattt ccatccagtg1609 ctacttgtgt ttacttctaa acagtcattt tctaactgaa gctggcattc atgtcttcat 421 tttgggctgt ttcagtgcag ggcttcctaa aacagaagcc aactgggtga atgtaataag 481 tgatttgaaa aaaattgaag atcttattca atctatgcat attgatgcta ctttatatac 541 ggaaagtgat gttcacccca gttgcaaagt aacagcaatg aagtgctttc tcttggagtt 601 acaagttatt tcacttgagt ccggagatgc aagtattcat gatacagtag aaaatctgat 661 catcctagca aacaacagtt tgtcttctaa tgggaatgta acagaatctg gatgcaaaga 721 atgtgaggaa ctggaggaaa aaaatattaa agaatttttg cagagttttg tacatattgt 781 ccaaatgttc atcaacactt cttgattgca attgattctt tttaaagtgt ttctgttatt 841 aacaaacatc actctgctgc ttagacataa caaaacactc ggcatttaaa atgtgctgtc 901 aaaacaagtt tttctgtcaa gaagatgatc agaccttgga tcagatgaac tcttagaaat 961 gaaggcagaa aaatgtcatt gagtaatata gtgactatga acttctctca gacttacttt1021 actcattttt ttaatttatt attgaaattg tacatatttg tggaataatg taaaatgttg1081 aataaaaata tgtacaagtg ttgtttttta agttgcactg atattttacc tcttattgca1141 aaatagcatt tgtttaaggg tgatagtcaa attatgtatt ggtggggctg ggtaccaatg1201 ct1 ggcattgtaa tcagacagaa ctggcctcaa atcctggctg tcatgtactt gctatgggcc 61 tagagtagct tacctaaatg ctactaacct tcctccatac cattattgta aagattaaag121 gtgatgcatc tgttaagtaa ctaatagagt gcttattaaa aggtaggtgt tcaataagta181 ttaattccct ttctttcttt ttcttactag tgcacttgtg tttttaatgg atcatacttt241 accctagatt gtattgtagg aggcatcgtg gatggatggc tgctggaaac cccttgccat301 agccagctct tcttcaatac ttaaggattt accgtggctt tgagtaatga gaatttccgg 361 taagaagaaa aatagatgaa aatatcctat ggaatttccc ttaaaggtcg tctgaatctc 421 agagtctttg caataagtta catggttatt ctccaaagat cttgagatat cacagatgtc 481 tgttcacatt tggattgttc ttattttgaa aataaatagg tttttaaaaa ctctattgac 541 catcttgata ggctcttctt gtcattataa atgtgttatt tcacttatcc cactcttttg 601 tgttctctaa atgtctttgt actcactaaa ttgtgtagtc ttagagggca gggtgtgggt 661 atcattcatc tttttgaaag gaagcatgaa caattagtgg ttaaggtggc agttaacact 721 gctttctgaa actttaaaag cttcgacaac acaaaagagg caggtgaaag taccaaaact 781 ctggtaagtt gtaggataaa tgattttcct aaatcaccaa gaaagattat tagtcactct 841 caagatggaa tacagtatct gtaattggtt ccattttatc caatttttca ccaaataata 901 ttaatataat tcattttcat aatttacatg aagttaatat aactattgca tctctgttag 961 taatgcatgt tattaacctg tgctgtataa aatattttga cctattaaaa aagaaagaag1021 gatgaggagg aggtcaaaga taatataaaa actttaagtg gtgacattgg tatgtatgta1081 aattaacaaa tatgtcaact ttgttaaatt atctttgaca tgcatctgca gaaatatctg1141 ttaaggaact ttgtgcataa gagacagagt tggaggtggg agagaaagtg aaaaaagata1201 aattatagtt ttattatttt tgataagggg cagtaattat gaaattatga caaacttaca1261 tctttagacc tagaaatatg ttgacatgtt attttaaacc tcacttttta actaaaaaat1321 ttaaccattt gtctatgatt atatttttca gaaaccacat ttgagaagta tttccatcca1381gtgctacttg tgtttacttc taaacagtca ttttctaact gaagctggca ttcatgtctt1441 cattttgggg gtaattttat ctttaggcat aaataacatt atgttcatgg tcatgatgat1501 tgtccttgga tatattttcc attaaattag tttacgttca gtttgcttat atctctaggt1561 actcagtatc tgggggatag aaggcagact acagagattt agagaggttt ggtaaacacc1621 taactgagca tttttctaca ttgtggtaat agtccaaaca agcattatag ccctcaaata1681 aattgggcct tttgatattt aactgaactt ggaagtatac cacttattga tagactacat1741 atttttcatg gcaattaaaa gtagatattt agaatttgct tatgttactt ttttatctgt1801 ccctgacact gactcctcct atcccttgat ctttatccta gttcagttta aaacatttct1861 ttctttattt aagccttttg ttgtttcctt ctaataaaat tcatatgttt ccatgactat1921 taactttttt cttctctctt agatgcagct aatataccca gttggcccaa agcacctaac1981 ctatagttat ataatctgac tctcagttca gttttactct actaatgcct tcatggtatt2041 gggaaccata gatttgtgca ggtaattctt catcataaga cagattagtg ttgactatca2101 tgcttctgtg taagatccat caggaagtga gtgattattt ttcctcaagc tctaagcatc2161 attccaatgt tacttggtca gtataagtgt attttgtctg gatattaaat tttaattttt2221 atgaaatttg tgaaagtgag taagtatatg atcattcagc ctacactgga atgaagtctg2281 tactgtttat ggagaaagct gctgcaagca tagtaagagt gtgagcaaca tgaaaggggc2341 atgtttaatg tagtgtaaaa aaaatttact atcaaaatca ttacatgaaa atgattatta2401 4931 2401 ctcattttaa gaattttacc tatttattag acttcaaagt ctctgtaaat ctctacttaa2461 aggaaactag taattcattc aaaatcattt attgagcatt gccacacatc tggcactgct2521 tctatttcat tgtgataaat tgagccagtt tatttataaa gtatgcctac agttaggctt2581 ttctctaatc cgggttggtg aagcctcaag ttatcataaa atgccaaaat tgtactatat2641 gctcaatgtt tatgttcagt tacaaggctg ttgaatgcac agaagcaagg ataacactga2701 ttttttcact ggtcagaata aaaattattg attgctcttt tgcttatagt attcatcaag2761 27 2761 atgaataggc tccttcaaaa tgctttgctc tatggttttt ctttcagctg tttcagtgca2821 gggcttccta aaacagaagc caactgggtg aatgtaataa gtgatttgaa aaaaattgaa2881 gatcttattc aagtgagtac tcatttttcc ataaaatgcc tggtataact gctatggagt2941 ttgtctctct ctgtgttttt ctgtctgtct taaggaaacc acacttgaaa caataatatt3001 tttgtagaaa tttatgatct tataaagctc aaaaagaagt cttttcctta ctgttttaga3061 atctaattat ctttaaaacg taatttataa gcggcccaga cggatgagtt ctagtctgca3121caggtgaggt attctcttcc tctatctgga gaagccagat atcttggtgg cacctgcagg3181 gagaatggct tgacccaggg aacagctgtt gttgcttgtg gactaaaggc cctcttctcc3241 cacctcaaga aaacaggtgg cctgacctaa ggaagtgatt tttgccatag caggtaatac3301 cagcttcagt ggaagtctcg atggcaccaa gcataccaaa atagcaccac aaagttctga3361 33 3361 aaactaaatt gtcattggaa tcacagcatt aaaaaatagg ttagaacttg catgctaaat3421 ccaaacaacc tgactgcatg ttaaaataga agatttaaat aggaccagag tgtcctaaca3481 taatagacat gaagccaaga tacaattgga aatcacccat tgtaacaaga aataggaaag3541 ttacaactta aatgagaaaa tatagtcaac agattacaaa attgaagtgg atcagatgtt3601 ggaattctct gacatagatt tgaaagcaga cattataaaa agtgcttgaa aaagcaatta3661 caaatgccct tgaagcaaat gaaaaactaa atgccttaac aaagaaatag aagatatgaa3721 aggaaccata tagaaattat ataactgaaa atataactga aatataaagc aaactgtaaa3781 ggctcattag cagaatgaat gacagaggaa tgatagttaa tttgacaaca gaatactaga3841 3826 3841 gagacagttg acttaagaaa aaaaaagcat cactgatctt gacgacagta acaaaagatt3901 cagcattcct atggttagta tcacaggaga gtatgagaat acaccaagta aaagagagag3961 39 3961 attggttgaa ttcataacaa aacaccaccc atctatacta tctataagca gttcacttct4021 agtacaatga catacatagg ttgaaattta aaaagacaga aaaagatata gcatactata4081 atgggttgaa tagtgtcccc ccaaatttca catcctcttg gaaccttaaa atgtgatctt4141 attttgaaat aatatctttg caaatataat taatgaaatt aagatgagat catactagag4201 tagggggggc cctaaatcca atgacaagtg tctttattag aaaaggaaag gacacagagt4261 42 4261 aactcactgg gaagaaagcc atgtgaagac agaggaagag atcagagtga tgcggctata4321 agccaaggaa ggccagagat tgccaggatc caccagaacc ttggggaagt caagaaagca4381 ttcttctcta gactgataca catgcataca ttaattataa aaagcagaag tggctatatt4441 aacatcaaag ttaatgttat taacataaag tagacttcac agaaaataaa gttgctataa4501 tccagaggga tattacaaaa tgataaaaaa taaatctgtg aggaaaacat aatgttctta4561 aatgtataca catcaaacaa cgaagactca aaatttgtga aacaaaaaat aatagggata4621 aaagagaaat agacaaatcc acaattattc ttgaggactt cactgcctcc tcctcagtaa4681 ctaatggaag tactagacag aaaatcagaa agggcataaa aatacaatat aaccaaccaa4741 caggatctaa tttaatacat agagcactac acccaacaac agcagaatat actttctttt4801 atcaagacta aatatatact gagccataaa agaaacttta aaaatttttt cagaacttaa4861 atcatgcaga atttgttctc aaaccacaat ggaatcaaac cagaaatcaa gaaattaaat4921 acaacgggca aatctccaaa tgcttggaaa ttaaatacta tacctctata taatccatgg4981 gtcaaagagt aaatctcaaa ggatattcat aatacataga atgaaaaaaa atgaaataca5041 gcatatcaag atatatgtga tgtggctaaa gcaatactga caggacattt tttaaaatca5101 aatgaataca ttagaaaaaa aggagaatta tcaaatcaaa aatctaagtt actgcttcaa5161 gaaactagaa gaagtagagc aaaacaaatt caatacaagc agaacaaaga aaatatttaa5221 atataagagc caaaattaat gaagttgaaa tcaagaaaac aatagaaaaa attaatgaaa5281 cataaaactg gttatttgga aaatcaatac aattgatctt taattgacag aaataagaga5341 gaagacacaa atctcaggaa tgaaatttgg ggctgtcact acagaatctg cagtcattag5401 aaggataata agaaaaacta tgaacaattt tatgctcaca aatctgataa cttagaggaa5461 atggaccaat tcttcagaaa ccacaaacta ccaaaacata atgaagatga aatagacaat5521 ccaaacactc atataatcac taaatacatt gaattcatca tacacaagct cccaaaaagg5581 gaccttcaag cctgctggtt acactgaatc attctatcaa atatttacag aagcattaac5641 aacaattgta cagtctcttc tagaaaatag aagaggaagg aacattttcc agttgatttt5701 5758 5761 acaaaaatat ctcccattaa cttagatatt aaaatgctct ataaaatatt aacaaatcga5821 attcagcaat gtataaaaag aattatacac catgaccgag tgagatttat ttcaggtaca5881 caagtcttgc tcaattattt gaaagtcaag caatgtaatc taccctatca acaggctaaa5941 gaagaaaatc atatgtagaa aaggtatctg ataaaatgca acacctctca tggcctgtgt6001 ccctccctat gcctcctgga tttatatgtt gaagtactaa ttgccagtat atcaaaatgt6061 gactgtattt tgagataggg tcagttaaaa tgaggtcatg agggcaggtc ctactgcaat6121 atgactggta tctttagaaa aacagataag ggtatagata cacagagata gaaaaccatg6181 tgaagacact gggagaaaat ggccacctat aagccaagga gggaggactc caaagaaacc6241 aacactgctg gtaccctgat ttcagacctc tagcctcctg aattgtgaga aaataaagtt6301 ctattattta agtcaccaag tctgtggtac tttttatagc agccctagca gactgatata6361 aacacctatt gaagataaaa tttcttagaa agtaggtgtg gagaactgcc tcaacttggt6421 acaaaacatg ttcaaaaagt ctagagctac catacttaat ggtgagtaca agactgaatg6481 tttttctgct aggactggaa actaagcagg gatatcttct ctcaccactt ttactcaaca6541 taattgtctg agttttctgt tgcttataac agagtacttg aaatgcataa tttataaaga6601 aaggaattta tgtcttatgg ttatgagact gaaaagttca aggttgagga gccacatctg6661 gtgagggcct tcctgctggt gggggctctc tggagtccag aggtgacaaa aagcatcaca6721 tggcgagggg ctgaatgtac tcatgtgcta gctcaggtct ctcttcctct tcttataaaa6781 6841 826901 gtttcaatct gaattttgga ggggacattc aaaccacagc aataatattg gaagtttagc696 7027 8621 ttggaaagga aaattataca tcaccccaag ttttttggag agaaagtagt aaaaatgggt7081 7141 ataagcgtat acagaataaa aaatagtgat gatgctaagt aaatataaat gaacaagggt 7272 gataatgctg gcaaggatgt ggagaaactg gatcattcat acattgctgg tgatgatgta7261 aaatgataca ggcactgtat aaaatagttt ggcagcatcc tatgaaacaa aacatgcatt7321 tgccttacaa tccaacaatt gtgctcttag acattcatcc ttgataaatg aaaactacgt7381 gcacacaaaa atatgtacat gaatgttcac agagattttt tcatgactgc caaaaactgg7441 aaacagatgt gcttcagttg gtaaaatctg tgatatatca tgtcagggaa tactacagag7501 caataaaaag gaacaaacta gtgataccca caagttaggt ggatctccag ggtattatga7561 tgagtgaaaa aagccagtct tcataaagaa actgtggtac atttataaaa tagaatatta7621 tccagtgata aaaagaaata agctatcaag ccatgaaaag aaatggagaa accttcaaag7681 tcatattgtt gagtgaaaga tggggacgcc aatctgaaaa ggcttcacac tgtatgatcc7741 7848 7801 aggggtttgg agggaaggag aaatggctag gcagagcaca ggctactttt aaagcagtga7861 aaatattaat atatgatgat gggtggcatt atacatttgt caaaacctgt aaaacataca7921 acacaaataa tgagccctaa tattctgtac acttaagatc ataatagtga ttcaccaact7981 ataacaaaca caccacacta atgcaagata ttaacaatag ggaaactggg gtggagaaca8041 aaggggtgta taagtctctg tactttctgc tagtttttct gtaaacctaa atggctcata8101 aaaatgtcta tcaattcttt taaaagctaa tttcagaagg ttacatatga tatgagtccg8161 tttacataat attcttgaaa tgacaaaatt ataggcatgg agagcagaga agtggttgcc8221 8281 tgaaagaata gcagcagaat ccttgtggtg atgaaactat tttgtgtctt aactgtggtg8341 gtggtgatgt gaatctatgc aaatgataaa attgcataaa acttcacaca tatgcaagca8401 cacacactgt ggcacataaa acttgtgaaa tctgaacaag gtgagtgcat tgtattaatg8461 tcaattttct gattgtaata ctgtactgtg gttatggaag acattaccac tgggagaagc8521 ttgttgaagg gtacacagga tctctctgta tttactctta cagtttcata tgaattttaa85 attatctcaa aataaaaaaa gaattaaaaa caatttaatg ttttcagtag gttgttctca8641 taatatttaa agcagggcat agtttttaat attgtctaat tttgtttcct ttcagtctat8701 gcatattgat gctactttat atacggaaag tgatgttcac gtgagtatac tttttttcaa8761 aattgctatt tgtcttgtta ttaaagtttt taaaagtata tttttgtaac aactaaaata8821 tggtagtttt aaaatctaac ttttggtgtg tttctataat atatggtcca tgagttttat8881 tagtgattat tgagatggga cttggggaca gatagctaca tcaatgctat ttttgtaatg8941 gtgccaaatc aaaatattaa aagagtcttt tccatcaatg tcaaacaaga tacattatac9001 gtttttgtga tgcagttgca tcatggtgca attagatgca aaaatcagat taactgtttc9061 aatttaagag tagccaatat atcagttatt tccaatgctg taatgtatca ccatctgcaa9121 tcatattttc cataaattgc ttaaaatcat tcatgttctg cattttacat gattctctac 9181 atttgtcaga aaaagattct aattattctc tatgtgagaa aggaaacata acccatgaaa 9241 cttattagaa ctgaaaaatg gtcttgaact tgtttcatta ataccctgac atttcctaag 9301 gaatgtagga tttgtcatgt tggtggtggt tcttcccttc agtattgtta ctaaaaccaa 9361 gaaatgaatc cccaacttca cgtcagggaa aacaaactct atgtcctctc tccattattc 9421 ctcaattaga acttctctta catagatgac tttctaagca ttggaaagaa accatagtca 9481 6381 9481 gaaactagaa aaaagagata ttcactaacc aattgggtca tgctgctgca caaagaaatt 9541 gtctccctcc tctggcttca gcatggattc tgtttttctt tgcatttttt gtaaaatgga 9601 aagtagtcaa ttagccacca aattcagcat cctgaaattg cttttttgca agaagataac 9661 tttgcaaccc atgggttaga gaaacaacct tagattttag attttagatt ttagaagttt 9721 agattttaaa actgactcca ccacttttta cttgtgttac cttggagatt gctaaacatt 9781 tctgaagctc atttttatta ttgctgatat ggtgacagta tttgtctttc aatcctaagc 9841 agtgactgtt gggtttaagg aatattacca gtgctgggca catgggtgta ttccttcatt 9901 ttttttatcc attcagtaag catttgtgaa gtgtctgcag gctcccaggt actgtgcaag 9961 gtatcgagga cacaaagtca aataatggtc aaatccctag atattccttg tttcctttct10021 ttaagttatt gttaaagtaa atgttgtgga aaacatattt ttgtggcacc taagagagcc10081 ttttctgatt tgatctgcct gtaagtggac actagtcctg ctttgatttt tctaataaat10141 ttcttggaat tacttctctc cctctggaac tttggaactt gaaagaacag tataattagc10201 agctaccact atttaaaatg ttaacaacac aatttgattc taaaaattct tacaaataaa10261 ctgtctatat tgatgttttc agactctaag gccagtatta ttaccctttc cacaggggaa10321 atgtgctcgg tgagaaaaac tggccactat ttctgcattt tctagtttca tgttcttctg10381 tacaatattg ccatccttct tgattgtgtt ttgttggttt gttttggttt ttattttaaa10441 gccaaaagaa aaaaaattaa gctgcctcct atgtaaaatt tcttaaggat attgtgtatc10501 tttataaaat atttggattg actttttgaa aatcaaaatt acatcagtat gaaaattaat10561 aatcagaaaa aagtaattgt tctttataac ttttattttt agcccagttg caaagtaaca10621 gcaatgaagt gctttctctt ggagttacaa gttatttcac ttgagtccgg agatgcaagt10681 attcatgata cagtagaaaa tctgatcatc ctagcaaaca acagtttgtc ttctaatggg10741 gtgagttttc caacagttgc ttagagttgc atcttatgtt ttgggcctga tttggagaag 1085924 108 tcattcatgg acaagcagat cctcctaagg ggcaatcagg agaaggagtc ctgttccagt10861 ggagtggtgt gcaaaagtgg caccatctcc agcatgcaca caatgctaaa ctgttcaatg10921 attgattcag tagacaaaca tttacagaat aatgccaggt agtgtgcttc agtgctagaa10981 ttatagttgc aaaccagaca gacaggtcac tgacctcaag gtgtttattg tcaggtgcag11041 tggatagaca ttaatctaat tacatactca aatgtctaac atcaataata gtaactcaca11101 tttattgagt tattactgta tgccagacac tattctttga gctttaaatt gataattcat11161 ttaatcctca tgataaatct gtgagatagt tatctttatt tctgtttgaa tgttgaagaa 1128621 11228 ccacaactct tacccgagca gtctgtctgc agagtctgtt atctcatgag aagataaatg11341 11401 aacttgagca gtagagggtt ccaggagagc aaattctagg tactcgtatg ataggctggg11461 gaatcagctg tgcaatggcc ctgaagtgca aagaattagg gctttcatgg caaaacacca11521 gtggccaaag caaggtagag agaaagcagt tttgcaacaa agaggcataa tcaaattagt11581 tcatttcata aatacttttt agccctcagg agacagtatg aaaaaatacc cataatccct11641 gctgttaaag agggaggaaa cagaaataaa ccaagcactc agcaaatgag taataagtta11701 gttatttatg aagtccagtg gtgaaaaagg acacagggta ggggcactgg ggctccagtt11761 agggtaggct gagctaataa gctgccattt gacaaagatg tgagagaatg agccttaagg11821 gtatctaggg acatatgttt aggcagagac aactgaaagt gcaaaggccc taagcttgtg11881 tgggtggaca ccttgacttt tctctaaaaa tacaagactg ctttaggtct ttgcttcagt11941 gtcaccttct cagtgattta cctatttaca gttgcaatcc cttccctatc tgagcactcc12001 ctgtcccctt ctctgcgtgt cccatatctg gaatatgata tattttatgt aatgggtatt12061 gtctgttttt ccctactaga atgtcagctt aaaatggaca agtgtttttg ttttttatta12121 gtactatatc caaattccca gaacagtgtc tcatatatat taaatacttt acatatgtat12181 12241 aagagtgagc cacgcaacag gtaactcatg gcaaaataaa tgatgagctc tttaatgtga12301 atgttgatag tcatcctcat catgacagag tgtgacatac gtgctggaat gcgtgggcag12361 gactgcacag tcagaagacc tggatgggaa gaatttcagt tgattatgtc agttgagatg12421 1242 12481 8212541 aattccaaat agttaatgga tataaaatct aatttttatt tttgctggca cagccttcat12601 ggttcagatg atctctaaaa agtttattct taattgctac atttggaaca ttctagttat 8611 ccatgagact gtgtttgaag tacaacaatt tgtggtattc acctaaatgg ctcagttcaa15171 ccaatgggtg attacagtgt gtcaggccct gtgctaaatg ctagggaaac aaacatactg 15258 15291 tcataatatg aatagaatac atgacatatt gtgagagagg tctaaataag gggttctgag15351 atgtaaagat gggacattga gtccagccct aggagcccag gggttcagag aagcctccct15411 aaaagagtac ctgaataatc ttaagtgcga gtagcagcag ctaaagtagg aatgaatgta 15527 15531 ccagatgctc actcagtgtt tctagggcat aacattgagg caagggggat atgtgaaata15591 aataggtaag gaacagctca tgaagagcct gtgtgctatg cagggaggca tggtctttat15651 gctagaagca gatgatagga aaccattgaa gggctcaaag caggaactcc gtggtctgat15711 agacacagct tatttttctc aatgtcctta acccattatt ggaaaaataa acatatatca15771 15831 tcatatctca agacctcacc atatggttca aacgatatga tattcccatt cccatgaatg15891 tatatttaat ttaattataa attgccaatt taatctctct ctatattttg cagaatgtaa15951 cagaatctgg atgcaaagaa tgtgaggaac tggaggaaaa aaatattaaa gaatttttgc16011 agagttttgt acatattgtc caaatgttca tcaacacttc ttgattgcaa ttgattcttt16071 ttaaagtgtt tctgttatta acaaacatca ctctgctgct tagacataac aaaacactcg16131 gcatttcaaa tgtgctgtca aaacaagttt ttctgtcaag aagatgatca gaccttggat16191 cagatgaact cttagaaatg aaggcagaaa aatgtcattg agtaatatag tgactatgaa16251 cttctctcag acttacttta ctcatttttt taatttatta ttgaaattgt acatatttgt 16369511 16371 tattttacct cttattgcaa aatagcattt gtttaagggt gatagtcaaa ttatgtattg16431 gtggggctgg gtaccaatgc tgcaggtcaa cagctatgct ggtaggctcc tgccagtgtg16491 gaaccactga ctactggctc tcattgactt ccttactaag catagcaaac agaggaagaa16551 tttgttatca gtaagaaaaa gaagaactat atgtgaatcc tcttctttat actgtaattt16611 agttattgat gtataaagca actgttatga aataaagaaa ttgcaataac tggcatataa16671 tgtccatcag taaatcttgg tggtggtggc aataataaac ttctactgat aggtagaatg gtgtgcaagc ttgtccaatc acggattgca ggccacatgc ggcccaggac aactttgaat16791 gtggcccaac acaaattcat aaactttcat acatctcgtt tttagctcat cagctatcat16851 tagcggtagt gtatttaaag tgtggcccaa gacaattctt cttattccaa tgtggcccag16911 1693 16911 ggaaatcaaa agattggatg cccctggtat agaaaactaa tagtgacagt gttcatattt16971 169971 16971 catgctttcc caaatacagg tattttattt tcacattctt tttgccatgt ttatataata17031 ataaagaaaa accctgttga tttgttggag ccattgttat ctgacagaaa ataattgttt17091 atattttttg cactacactg tctaaaatta gcaagctctc ttctaatgga actgtaagaa17151 agatgaaata tttttgtttt attataaatt tatttcacct taattctggt aatactcact17211 gagtgactgt ggggtgggaa atgatctctt aagaatttga tttctttcta ttccatagta17271 caaactcgtt ctctgttgaa acattcttct atcaccccag tgccctatcc atgtacatgt17331 gttcttattg ctctagtcaa acggtgctta taaatatctt tcagaaagct taggagaaat17391 ctgtatccta tttgacttcc aataatca17419 cggattggga tcggacctac ttgattcact tctgggaaat caaggatcta cgtaccatgg17479 attttcaggt gcagattttc agcttcctgc taatcagtgc ctcagtcata atgtctagag17539 ccaactgggt gaatgtaata agtgatttga aaaaaattga agatcttatt caatctatgc17599 atattgatgc tactttatat acggaaagtg atgttcaccc cagttgcaaa gtaacagcaa17659 56 17659 tgaagtgctt tctcttggag ttacaagtta tttcacttga gtccggagat gcaagtattc17719 atgatacagt agaaaatctg atcatcctag caaacaacag tttgtcttct aatgggaatg17779 taacagaatc tggatgcaaa gaatgtgagg aactggagga aaaaaatatt aaagaatttt17839 tgcagagttt tgtacatatt gtccaaatgt tcatcaacac ttcttgattg caattgattc17899 ctcgag (2) SEQ ID NO: 2913 data: (i) sequence characteristics:

(A) length: 1610 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2913 sequence description: 1 cccagagcag cgctcgccac ctccccccgg cctgggcagc gctcgcccgg ggagtccagc61 ggtgtcctgt ggagctgccg ccatggcccc gcggcgggcg cgcggctgcc ggaccctcgg 121 tctcccggcg ctgctactgc tgctgctgct ccggccgccg gcgacgcggg gcatcacgtg 181 ccctcccccc atgtccgtgg aacacgcaga catctgggtc aagagctaca gcttgtactc 241 cagggagcgg tacatttgta actctggttt caagcgtaaa gccggcacgt ccagcctgac 301 ggagtgcgtg ttgaacaagg ccacgaatgt cgcccactgg acaaccccca gtctcaaatg 361 cattagagac cctgccctgg ttcaccaaag gccagcgcca ccctccacag taacgacggc 421 aggggtgacc ccacagccag agagcctctc cccttctgga aaagagcccg cagcttcatc 481 tcccagctca aacaacacag cggccacaac agcagctatt gtcccgggct cccagctgat 541 gccttcaaaa tcaccttcca caggaaccac agagataagc agtcatgagt cctcccacgg 601 caccccctct cagacaacag ccaagaactg ggaactcaca gcatccgcct cccaccagcc 661 gccaggtgtg tatccacagg gccacagcga caccactgtg gctatctcca cgtccactgt 721 cctgctgtgt gggctgagcg ctgtgtctct cctggcatgc tacctcaagt caaggcaaac 781 tcccccgctg gccagcgttg aaatggaagc catggaggct ctgccggtga cttgggggac 841 cagcagcaga gatgaagact tggaaaactg ctctcaccac ctatgaaact cggggaaacc 901 agcccagcta agtccggagt gaaggagcct ctctgcttta gctaaagacg actgagaaga 961 ggtgcaagga agcgggctcc aggagcaagc tcaccaggcc tctcagaagt cccagcagga1021 tctcacggac tgccgggtcg gcgcctcctg cgcgagggag caggttctcc gcattcccat1081 gggcaccacc tgcctgcctg tcgtgccttg gacccagggc ccagcttccc aggagagacc1141 aaaggcttct gagcaggatt tttatttcat tacagtgtga gctgcctgga atacatgtgg1201 taatgaaata aaaaccctgc cccgaatctt ccgtccctca tcctaacttg cagttcacag1261 agaaaagtga catacccaaa gctctctgtc aattacaagg cttctcctgg cgtgggagac1321 gtctacaggg aagacaccag cgtttgggct tctaaccacc ctgtctccag ctgctctgca1381 cacatggaca gggacctggg aaaggtggga gagatgctga gcccagcgaa tcctctccat1441 tgaaggattc aggaagaaga aaactcaact cagtgccatt ttacgaatat atgcgtttat1501 atttatactt ccttgtctat tatatctata cattatatat tatttgtatt ttgacattgt1561 accttgtata aacaaaataa aacatctatt ttcaatattt ttaaaatgca (2) SEQ ID NO: 2914 data: (i) sequence characteristics:

(A) length: 393 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2914 sequence description: 1 atgcctgacc tcaactcctc cactgactct gcagcctcag cctctgcagc cagtgatgtt 61 tctgtagaat ctacagcaga ggccacagtc tgcacggtga cactggagaa gatgtcggca121 gggctgggct tcagcctgga aggagggaag ggctccctac acggagacaa gcccctcacc181 attaacagga ttttcaaagg agcagcctca gaacaaagtg agacagtcca gcctggagat241 gaaatcttgc agctgggtgg cactgccatg cagggcctca cacggtttga agcctggaac301 atcatcaagg cactgcctga tggacctgtc acgattgtca tcaggagaaa aagcctccag361 tccaaggaaa ccacagctgc tggagactcc tag (2) SEQ ID NO: 2915 data: (i) sequence characteristics:

(A) length: 3175 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2915 sequence description: 1 tgcttaaaaa aacacaacag gattttcgaa gaatcctttc ttagaaaaca aacaaaaaaa 61 ccaaacaaaa acgtactttc tccccactag tttacaccac aggaagcgag agagctgctg121 ccactgctgc taccacagga agacacagca gggagaagcc ctagtgcctc tgccggctgc181 ccaggacctg gtatcggccc acagaccaag tcctccacag agggcgagcc agggtggaga241 agagccagcc cagtgaccca aacatccccg ataaaacacc cactgcttaa gaggcaggct301 cggatggact atagctttga taccacagcc gaagaccctt gggttaggat ttctgactgc361 atcaaaaact tatttagccc catcatgagt gagaaccatg gccacatgcc tctacagccc421 aatgccagcc tgaatgaaga agaagggaca cagggccacc cagatgggac cccaccaaag481 ctggacaccg ccaatggcac tcccaaagtt tacaagtcag cagacagcag cactgtgaag541 aaaggtcctc ctgtggctcc caagccagcc tggtttcgcc aaagcttgaa aggtttgagg 601 aatcgtgctt cagagccaag agggctccct gatcctgcct tgtccaccca gccagcacct 661 gcttccaggg agcacctagg atcacacatc cgggcctcct cctcctcctc ctccatcagg 721 cagagaatca gctcctttga aacctttggc tcctctcaac tgcctgacaa aggagcccag 781 agactgagcc tccagccctc ctctggggag gcagcaaaac ctcttgggaa gcatgaggaa 841 ggacggtttt ctggactctt ggggcgaggg gctgcaccca ctcttgtgcc ccagcagcct 901 gagcaagtac tgtcctcggg gtcccctgca gcctccgagg ccagagaccc aggtgtgtct 961 gagtcccctc ccccagggcg gcagcccaat cagaaaactt tcccccctgg cccggacccg1021 ctcctaaggc tgctgtcaac acaggctgag gaatctcaag gcccagtgct caagatgcct1081 agccagcgag cacggagctt ccccctgacc aggtcccagt cctgtgagac gaagctactt1141 gacgaaaaga ccagcaaact ctattctatc agcagccaag tgtcatcggc tgtcatgaaa1201 tccttgctgt gccttccatc ttctatctcc tgtgcccaga ctccctgcat ccccaaggca1261 ggggcatctc caacatcatc atccaacgaa gactcagctg caaatggttc tgctgaaaca1321 tctgccttgg acacggggtt ctcgctcaac ctttcagagc tgagagaata tacagagggt1381 ctcacggaag ccaaggaaga cgatgatggg gaccacagtt cccttcagtc tggtcagtcc1441 gttatctccc tgctgagctc agaagaatta aaaaaactca tcgaggaggt gaaggttctg1501 gatgaagcaa cattaaagca attagacggc atccatgtca ccatcttaca caaggaggaa1561 ggtgctggtc ttgggttcag cttggcagga ggagcagatc tagaaaacaa ggtgattacg1621 gttcacagag tgtttccaaa tgggctggcc tcccaggaag ggactattca gaagggcaat1681 gaggttcttt ccatcaacgg caagtctctc aaggggacca cgcaccatga tgccttggcc1741 atcctccgcc aagctcgaga gcccaggcaa gctgtgattg tcacaaggaa gctgactcca1801 gaggccatgc ccgacctcaa ctcctccact gactctgcag cctcagcctc tgcagccagt1861 gatgtttctg tagaatctac agcagaggcc acagtctgca cggtgacact ggagaagatg1921 tcggcagggc tgggcttcag cctggaagga gggaagggct ccctacacgg agacaagcct1981 ctcaccatta acaggatttt caaaggagca gcctcagaac aaagtgagac agtccagcct2041 ggagatgaaa tcttgcagct gggtggcact gccatgcagg gcctcacacg gtttgaagcc2101 tggaacatca tcaaggcact gcctgatgga cctgtcacga ttgtcatcag gagaaaaagc2161 ctccagtcca aggaaaccac agctgctgga gactcctagg caggacatgc tgaagccaaa2221 gccaataaca cacagctaac acacagctcc cataaccgct gattctcagg gtctctgctg2281 ccgccccacc cagatggggg aaagcacagg tgggcttccc agtggctgct gcccaggccc2341 agaccttcta ggacgccacc cagcaaaagg ttgttcctaa aataagggca gagtcacact2401 ggggcagctg atacaaattg cagactgtgt aaaaagagag cttaatgata atattgtggt24 gccacaaata aaatggattt attagaattc catatgacat tcatgcctgg cttcgcaaaa2521 tgtttcaagt actgtaactg tgtcatgatt cacccccaaa cagtgacatt tatttttctc 8681 atgaatctgc aatgtgggca gagattggaa tgggcagctc atctctgtcc cacttggcat2641 cagctggcgt catgcaaagt catgcaaagg ctgggaccac ctgagatcat tcactcatac 27058 362761 tggcctctcc ttgtggcctg ggctcctcac aacatggtgt ctggattccc aggatgagca2821 tcccaggatc gcaagagcca cgtagaagct gcatcttgtt tatacctttg ccttggaagt2881 tgcatggcat cacctccacc atactccatc agttagagct gacacaaacc tgcctgggtt2941 taaggggaga ggaaatattg ctggggtcat ttatgaaaaa tacagtttgt cacatgaaac3001 atttgcaaaa ttgtttttgg ttggattgga gaagtaatcc tagggaaggg tggtggagcc3061 agtaaataga ggagtacagg tgaagcacca agctcaaagc gtggacaggt gtgccgacag3121 aaggaaccag cgtgtatatg agggtatcaa ataaaattgc tactacttac ctacc (2) SEQ ID NO: 2916 data: (i) sequence characteristics:

(A) length: 3568 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2916 sequence description: 1 atgcctgacc tcaactcctc cactgactct gcagcctcag cctctgcagc cagtgatgtt 61 tctgtagaat ctacagcaga ggccacagtc tgcacggtga cactggagaa gatgtcggca121 gggctgggct tcagcctgga aggagggaag ggctccctac acggagacaa gcccctcacc181 attaacagga ttttcaaagg agcagcctca gaacaaagtg agacagtcca gcctggagat241 gaaatcttgc agctgggtgg cactgccatg cagggcctca cacggtttga agcctggaac301 atcatcaagg cactgcctga tggacctgtc acgattgtca tcaggagaaa aagcctccag361 tccaaggaaa ccacagctgc tggagactcc tag 394 tgcttaaaaa aacacaacag gattttcgaa gaatcctttc ttagaaaaca aacaaaaaaa 454 ccaaacaaaa acgtactttc tccccactag tttacaccac aggaagcgag agagctgctg 514 ccactgctgc taccacagga agacacagca gggagaagcc ctagtgcctc tgccggctgc 574 ccaggacctg gtatcggccc acagaccaag tcctccacag agggcgagcc agggtggaga 634 agagccagcc cagtgaccca aacatccccg ataaaacacc cactgcttaa gaggcaggct 694 cggatggact atagctttga taccacagcc gaagaccctt gggttaggat ttctgactgc 754 atcaaaaact tatttagccc catcatgagt gagaaccatg gccacatgcc tctacagccc 814 aatgccagcc tgaatgaaga agaagggaca cagggccacc cagatgggac cccaccaaag 874 ctggacaccg ccaatggcac tcccaaagtt tacaagtcag cagacagcag cactgtgaag 934 aaaggtcctc ctgtggctcc caagccagcc tggtttcgcc aaagcttgaa aggtttgagg 994 aatcgtgctt cagagccaag agggctccct gatcctgcct tgtccaccca gccagcacct1054 gcttccaggg agcacctagg atcacacatc cgggcctcct cctcctcctc ctccatcagg1114 cagagaatca gctcctttga aacctttggc tcctctcaac tgcctgacaa aggagcccag1174 agactgagcc tccagccctc ctctggggag gcagcaaaac ctcttgggaa gcatgaggaa1234 ggacggtttt ctggactctt ggggcgaggg gctgcaccca ctcttgtgcc ccagcagcct1294gagcaagtac tgtcctcggg gtcccctgca gcctccgagg ccagagaccc aggtgtgtct1354 gagtcccctc ccccagggcg gcagcccaat cagaaaactt tcccccctgg cccggacccg1414 ctcctaaggc tgctgtcaac acaggctgag gaatctcaag gcccagtgct caagatgcct1474 agccagcgag cacggagctt ccccctgacc aggtcccagt cctgtgagac gaagctactt1534 gacgaaaaga ccagcaaact ctattctatc agcagccaag tgtcatcggc tgtcatgaaa1594 tccttgctgt gccttccatc ttctatctcc tgtgcccaga ctccctgcat ccccaaggca1654 ggggcatctc caacatcatc atccaacgaa gactcagctg caaatggttc tgctgaaaca1714 tctgccttgg acacggggtt ctcgctcaac ctttcagagc tgagagaata tacagagggt1774 ctcacggaag ccaaggaaga cgatgatggg gaccacagtt cccttcagtc tggtcagtcc1834 gttatctccc tgctgagctc agaagaatta aaaaaactca tcgaggaggt gaaggttctg1894 gatgaagcaa cattaaagca attagacggc atccatgtca ccatcttaca caaggaggaa1954 ggtgctggtc ttgggttcag cttggcagga ggagcagatc tagaaaacaa ggtgattacg2014 gttcacagag tgtttccaaa tgggctggcc tcccaggaag ggactattca gaagggcaat2074 gaggttcttt ccatcaacgg caagtctctc aaggggacca cgcaccatga tgccttggcc2134 atcctccgcc aagctcgaga gcccaggcaa gctgtgattg tcacaaggaa gctgactcca2194 gaggccatgc ccgacctcaa ctcctccact gactctgcag cctcagcctc tgcagccagt2254 gatgtttctg tagaatctac agcagaggcc acagtctgca cggtgacact ggagaagatg2314 tcggcagggc tgggcttcag cctggaagga gggaagggct ccctacacgg agacaagcct2374 ctcaccatta acaggatttt caaaggagca gcctcagaac aaagtgagac agtccagcct2434 ggagatgaaa tcttgcagct gggtggcact gccatgcagg gcctcacacg gtttgaagcc2494 tggaacatca tcaaggcact gcctgatgga cctgtcacga ttgtcatcag gagaaaaagc2554 ctccagtcca aggaaaccac agctgctgga gactcctagg caggacatgc tgaagccaaa2614 gccaataaca cacagctaac acacagctcc cataaccgct gattctcagg gtctctgctg2674 ccgccccacc cagatggggg aaagcacagg tgggcttccc agtggctgct gcccaggccc2734 agaccttcta ggacgccacc cagcaaaagg ttgttcctaa aataagggca gagtcacact2794 ggggcagctg atacaaattg cagactgtgt aaaaagagag cttaatgata atattgtggt2854 gccacaaata aaatggattt attagaattc catatgacat tcatgcctgg cttcgcaaaa2914 tgtttcaagt actgtaactg tgtcatgatt cacccccaaa cagtgacatt tatttttctc2974 atgaatctgc aatgtgggca gagattggaa tgggcagctc atctctgtcc cacttggcat3034 cagctggcgt catgcaaagt catgcaaagg ctgggaccac ctgagatcat tcactcatac3094 atctggccgt tgatgttggc tgggaactca cctggggctg ctggcctgaa tgcttatagg3154 tggcctctcc ttgtggcctg ggctcctcac aacatggtgt ctggattccc aggatgagca3214 tcccaggatc gcaagagcca cgtagaagct gcatcttgtt tatacctttg ccttggaagt3274 tgcatggcat cacctccacc atactccatc agttagagct gacacaaacc tgcctgggtt3334 taaggggaga ggaaatattg ctggggtcat ttatgaaaaa tacagtttgt cacatgaaac3394 atttgcaaaa ttgtttttgg ttggattgga gaagtaatcc tagggaaggg tggtggagcc3454 agtaaataga ggagtacagg tgaagcacca agctcaaagc gtggacaggt gtgccgacag3514 aaggaaccag cgtgtatatg agggtatcaa ataaaattgc tactacttac ctacc (2) SEQ ID NO: 2917 data: (i) sequence characteristics:

(A) length: 9203 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2917 sequence description: 1 gaattcatgc cacaactgag tgattttttt tttctcaaac ccaattccac aaagtaaaag 61 cctgatgaaa tacagtgaag gctgatgctt attaactgtg tttcccaaat ccagagctct 121 aaaaaggttc tgcatacagt cattcattca atgcttaacg actgagcatt aattccatgc 181 721 aaaccaagaa aagaggaggc ggtgttgcag gaacagtgag cagttgatga tttttatttt 781 181 taagtactga actcagcact aggaataaga aggcgaccta gaggcatatc ctctctctaa 241 agatgcatag agcctcattg gaatgatcag ccgtgtctcc agagagctac aaggcagttt 301 tcaattggta aatgccctga gagtgatggg cttgtggcat gtgtaagggt tagacagacc 361 tgggacctag acatgacacc actcctgacg aattatgtga gtgtgggtgt ttcacaacca 421 caatgagatg caatgcctgc acttgtaaca tggaaatagt gatggcatgc cccgcagatt 481 gctgtgagaa gtcagcggca gagacatgca acattctcag cacagtgctt gccatgtagt 541 aagggcctag tcagtgctag tgattccttt caatattcct aagatgcaga taagggaaca 601 gcccagagga gggggagcac ttccagaggg aggaatgcgg tgagacttcc ttcagcaggg 661 tagcactgga gctgggtgtt aaggagtgag tgagctttgg gcttatggat ttaacagagg 721 aaaccaagaa aagaggaggc ggtgttgcag gaacagtgagcagttgatga tttttatttt 781 gttctctggt ctgcttggga acatttttgt ggcaaagaca gcatgaagga tagcgaagaa 841 ttaatactga agagataggc cagggcaggt tatgaaggat tttgaatacc gggctaagaa 901 atgtgggctt aatttcaaag acattatgga cactcctaaa atgttacgtt gtagataagg 961 gaaaagtatt cttccagaag attaaattgg ggctgggcac ggtggctcac gcctgtgatc1021 ccagcacttt gggaggcgaa gtgggcagat cacctgaggt caggagtttg agatcagcct1081 ggccaacgtg gtgaagcccc atctctactg aaaaaaaaaa ttagccgggc atggtggtgg1141 gtgcctgtaa tctcagctac ttgggaggct gaagcaggag aatcacatga acctgggagg1201 cagaggttgc agtgagccaa gattgcacca ctgcattcca gtgggcgaca gagcaagact1261 cagtcaaaaa aaaaaaaaga ttaaactgga agcaatgggt aagaatggtg gagtggagag1321 acacatttga gtgagggaag ccagctgaaa agctgtacag acgtctagac aaaatgtgac1381 acaagcatgc cttcacctcc ctgcaaagac cacagaccac tgagctccaa agggggtttg1441 gaatccttgt cctgggccgc cattggtaac tcatcagtgc tggcttgaga gataaactct1501 attatccatc cctgaactaa aatcatgaca gaagtggcca gggagctttg ctgctatccc1561 cccaggaaac acgtcctcca ctcaaatgga aagaggaccc tctgacaaca tctgtgggac1621 ccaacagcac tggtcaccac aagccacaaa atgttaacaa agtcagtttt caattgttag1681 ggacggagga ctcagttcat gattcataca aaccaactgt tctctcccag tgttttctgg1741 gtggcacaac ccacaagtca acagtggctt gggaactaga catttgagta gagttgggtt1801 atttgattca tagtggattt tggttttcca cgggacccct gtgcccttgt ctagtagaat1861 ctggtggaaa ttacaaactg cagaaattca actcagtgcc gcaataacag gatgcacctg1921 tagatttcgt agaattagca gcagcattct ttcaatacca gtttgagaga aataaccctg1981 tttgcatagt gccaactggg gcagaatctg aagtgtcttg cctgcctctc ggccatggga2041 ggcaccgatc tcagcaacat ctatccaacc gccatccact taacaagcaa agatggaagg2101 ccctcgtgct ccaggctatc ctgcaatggt tcatttgctt ttgatgggat tatcactttg2161 acagatgtgc ttgcaattaa ctgggggctt tctgcttcca atccaaattc ccacaggtgg2221 atcactggct cttggggagc aaaaaccctt ctttgtttgt ttttgcttct cccagagcct2281 gggcagagct ccccattcct ggatcctacg ttgatatgca ctgaattgaa ttatactaaa2341 gggtgcaccc aagagtgcat gagctaagta aaatgtaatt tgtgggacct catgtggaca2401 tttcaggtcc atgtgtacaa gataaaggag agaaaatcct gggggacacc acaggcctgg2461 gaaaatgacc tcctactaag cctaacaaga acatccagta cataaacagc aggctctctg2521 caaccgcttc ggtccttcca ctgccacgct cccagaaagc aaagggttat ctcctgttcg2581 gattttggct ctgagaccac agctcagcac atcactcctc tagagaaaag aaagtctaag2641 atgagagagt gaggctgctt tcatgtggtg ccagcgtata gtgcagggca ggcctgattg2701 ctgaacggat ccctgcagac gtgagcggtc acttcccctt ttgagggccc atttcttttc2761 ctctttgagg agactgtgag cgtcctcagt gcagggctat gttttagctt cttggctctc2821 ctcacaggtt ctagcataat tctttgatta attgcagtca acgtttattg atggattatg2881 tgacagaggt gaaattcttt gatctgggtt tcagcttttc ctttccccca ctccctcctt2941 tttctttttt tttttttttt tttttagagg cgaggtcttg ctctgtggcc ctggctggag3001 tgcagtggtg caatcatagc tcattgcagc cttgacctcc tggggtcaag cgaacctcaa3061 cgtcttggcc tcctgagtag ctgggactat aggcatgcgc caccacgctc agcttcacct3121 tttcctttcc ttgtgctccc ctggcagata tgctggtaaa caatgaacca gtcaagagga3181 cagcaacagg aggaaaatgg gagaaacccc attattcgtg gactaaacag gcttcccact3241 agtcctggct cacagaggaa gtcatgctcc atgtttcaaa tgtcctcaaa gctcgttcaa3301 ctccaaaatg catgaagaca aaatgggaat tttactcaag atttttgtgg gctgttgggg3361 agaagagtta acattgcaaa gcatattgca aactcttatc ttcaaatgat tttaaaattt3421 tcttccaagc tctttattat ttctccagag ctgccctgct cttcccactc tgggtccttt3481 ctctgccact ctcctcagca tgacttctcc ctaatcggcc agcatttctt ttattctata3541 593601 gcctcagagc accagtgttt taatccctga aaacagtcct tacgggattc agcacagagg3661 tcctcttggc agcctgtagt ctccagagtg acacgtcctc aacagtcaaa gtgagcaagc3721 tatggtgccc atcaccaagt ggggctcacc atttccctct gcgttcactt ctctcctacc3781 ttcttcctta tcccatcctt cctccttcct ttttttttct gcattcaatt attcatggtt3841 attcatttca tacgggcatc tgtgccactt ggttctacag gcattttttt ttttgagaca3901 gacttttgcc cttgtccccc aggctggcgt gcagcggtgt gatcttggct cactgcaatc 398661 tccacctcct aggttcaagc aagtctcctg ccttagcctc ccaagtagct ggaattacag4021 gcatgtgcca ccaagcccgg caaatttttg tatttttagt agagacaggg tttcaccatg ttggccaggc tggtctcaaa ctcctgacct caggtgatct gcctgcctcg gcctcccaaa4141 gtgctgggat aacaggcgtg agccatcgtg ctcggccggt tctatgggca ttgtggaagt4201 gaccgttaac aagccccaag ggtaagtaaa ggaaaatgaa aggtgattga ttcctcacca4261 cctctcccct tttttcctct actctttgcc cctgctcccc aatctagact ctaataaaca4321 gaaatgattt ttgttgcaag ctgaaaactc gttcttgtgg ttggggctag gggggtggca4381 agtcaagctt tagagttgtc tggataataa atgctgtctt caaggactgt ccaacattgt4441 aggaacaaga gaacaaccca agtgaacaac taactcctgt tcacaaatgc tactgcctct4501 ctgccatccc ctaacctcag cctcacacac ttgaatttcg ccaatccatt tgatgagctc4561 aaatcagtga attttctcct cgccaaagct cacaaattct gttccccgct tcttgcccca4621 catccaggca ttaccaactg cattttccct ttgcctgata ttctggcatc aagcctcctt4681 gccattccaa tttatttcac cttcctccag tccttatgat ttccttcctg aagagtattt4741 cagcatctct atgcctcaat cttccctgca caccacacca gctcggcctc atcatcacat4801 tacttggcta tgtcccgcct gggttagaca gcttcagtgg ctgaagtcca tagatcttat4861 tctgtttttc gaggtccacc tgactctgaa tccagctgac atttctgccc ttagcttcta4921 cccctctcta cttctggtta actatggacc acactctgct tcctcaggaa ccacctacca4981 aggccgtatc catccttcaa ggacaatacg tgggcctttc ctgatcacat cagctcaaca5041 acttttccct cctacatttc aattgctctt cttaccataa tcattagtat tcaccccact5101 gtacgtctag aaagaaagtg gtcttaaacc taagggaagg cagtctaggt cagaaatttg5161 51 5161 ttgtccgctg ttctgagcag tttcttctag gaagtaccaa acatttctga taatagaatt5221 gagcaatttc ctgatgaagt gagactcagc ttgcactgtt gaccggctgt cctggatgaa5281 829 5281 cctagttact tttaaccaaa tgttcctttc ttgaacttgt tcctttcttg aacttaatct5341 atcaatgtta tctagataac tttcctcaaa aaaaaaaaaa aaaaaaaaaa ccctctacta5401 ggaaagaaat ctttgaaccg gacttattgg aaattacctc cttgcagcag gtttgaaaca5461 aaactttgaa tttgcctcac aaagaatttg tctgaaactg ctttagtata tgctagttat5521 atttgtatgc acatgtggct tcatacatag tggttggaca cccatatgtg ttatgcactt5581 tgttaggtga cgtaagttca cagataaact ggaacatagg gctatcctct agaggcccac5641 agtttgacac cttaacctga gatccttgga cctttgaagt tcagagtgcc cacaaccgct5701 gggtgtggtg gctcacactt gtaatcccag tactctgcag ggctgaggtg ggaggatcgc5761 ttgagtccag gagtctgaga ccagcctggg caacatgaca aaaccccatc tctacaaaaa5821 ttacaaaaaa aattagccag gcctggtggt gcatgcctgt ggtcccagtt acttgagagg5881 ctgaagtggg aggatcactt gagtcaagga ggtagaggct gcagtgagtt gagatggcaa5941 cactgcactc cagaaacccc atctcaaaca aaacagagca aaacaaaaca aactgcccat6001 aatgctcctg aaacttccta cggatttatc cagagtatgt gctgatgtgc attttttcca6061 aggagggaaa ccaaaggttc tatcaaatta agaaaagagt ttttaccatt gtggaagaca6121 gtatggcgat tcctcaagca tctaaaatca gaaataccat ttgacccagc aatcctatta6181 5731 6241 tttattgcag cactatttac aatagcaaaa tggaaccaac tgaaatgccc atcaatgaga6301 ctagataaag aaaatgtgat acatatacac catggaatac tatgcagcca tgaaaaggaa6361 tgagatcacg tccttggcag ggacatggat gaagctggaa gccattatcc tcagcaaact6421 aacacaggaa cagaaaacca aatgccgcat gttctcactc ataagtggga gttgaacaat gacagcacat agacataggg aggggaacat cacacgccag ggcctgctgc agggtggggg6541 666601 66 cacacttata cctatgtaac caacctgcac gttctacaca tgtatcctgg aacttaaatt6661 826721 atataaacag tgaattgcaa tgcagcacgg caggtgttat gatggagtag aaaggactgg6781 aaaaggcctc ctggaggaag ggacactcaa gtgtctttcc atttcacctg taaactcatt6841 aagggcaaaa gctttgctac agcttcagta tgagatcctg ggcaatccgt gacaaaatgg6901 gtctgctttt gcacccccaa cttcttctca catccctgca tcgtgccatg cagcatcaac6961 tggaaacctc agcgtcagca aacgacgaca gagcgttcat ccgtaaggtg aaccagaaaa7021 gccagttcaa tgacttgttt aaccatggtc catctcagaa ccaagagttg ggcctcttat7081 ttaccagaaa aattgtgggg gctttgtgat atggctttaa aaaaatcttg taattgccag7141 gcgtggtggc tcacacctgt aatcccagca ctttgggagg ccgaggtggg tgaatcgcct7201 aaggtcagga gttcgagacc agcctgacca acatggtgaa actccgtctc tactaaaaat7261 acaaaaacta gctggatgtg gtgacgcgtg cctgtaatcc tagctactca ggaggctgac7321 gcaggagaat cacttgaacc tgggaggcag aggttgcagt gagccaagat tgtgccattg7381 cgctccaaaa aaaaaaaaaa aatacattaa cataaattta aatattttat aatgacaatc7441 cacattaact acttaaagca taagctattt tccaggagag gcagcaagtg cattctactc7501 ccatgcccaa gaagaaagga gcgtgacttt ggtgggagta ctaggagttt ctactggagc7561 acttgcccgc agagtgagaa acgttcctag agaggaagtt atacctgctg tggaatttaa7621 gagaatcttg tcatattttg acaagttttt tgagatggaa gtctcactct gtcgcccagg7681 ctggagtgca gtggcgcaat ctcagctcac tgcagcctgc acctcctcgg ttccagctat7741 tctcttgtct cagcctcctg agtaactggg attacaggcg cccgccacta cgcctggcta7801 atttttgtat ttttagtaga aatggggttt taccatgttg gccagactgg tctcaaactc7861 ccgacctcag gtgatctgcc tgcctcagcc tcccaaagtg ctggaattac aggcgtgtgc7921 cactgcgcct ggctaatttt tttttttttt tttttttagt agagacggtg gtttcaccat7981gtcatccagg ctggtctcaa actcctgacc tcaggtgatc cacccacctt ggtctaccaa8041 agtgctcgga ttacaggcat gagccaccag gcccagtcaa cgtgatgtgt tttggaaccc8101 tgaattcctt ggcttgccgg agggttttct ttttgttaat atctttgctt gctttctagt 8461 8253 8221 agggagcaaa acacactcaa ccaatttcat aataatcaga agagagctct gatcaataaa8281 taagcaagac tgaattttac aaaataatcc aaagtttaaa accaaagccc actttttgca8341 tgatccttta agagaaagaa atctggaagc aaaacacctt ataaaatgac aatgcacttt 8458 caggagccca gggcactgtg gtgaaatgat gatggctagt acaggttata agccttgggg aattatttat gaattctcag gatccttcag ttcgccgcat ccttctccat tatttgaata8521 ttggaggctg cctgaccaga atcttgtcag gactttgctc cttcatccca ggtggtcccg8581 gctgactcct gaggacgtta cagccctgag gggaggactc agcttatgaa gtgctgggtg8641 agaccactgc caagaagtgc ttgctcaccc taccttcaac ggcaggggaa tctccctctc8701 cttttatggg cgtagctgaa gaaaggattc ataaatgaag ttcaatcctt ctcatcaacc8761 ccagcccaca cctccagcaa ttgaacttga aaaaaaaaac ctggtttgaa aaattaccgc8821 aaactatatt gtcatcaaaa aaaaaaaaaa aaaaacactt cctatatttg agatgagaga8881 agagagtgct aggcagtttc ctggctgaac acgccagccc aatacttaaa gagagcaact8941 cctgactccg atagagactg gatggaccca caagggtgac agcccaggcg gaccgatctt9001 cccatcccac atcctccggc gcgatgccaa aaagaggctg acggcaactg ggccttctgc9061 agagaaagac ctccgcttca ctgccccggc tggtcccaag ggtcaggaag atggattcat9121 acctgctgat gtggggactg ctcacgttca tcatggtgcc tggctgccag gcaggtaagg9181 gcctgtgggt gcccccggaa ttc (2) SEQ ID NO: 2918 data: (i) sequence characteristics:

(A) length: 2335 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2918 sequence description: 1 gaattccccc cccccccccc cgagagactg gatggaccca caagggtgac agcccaggcg 61 gaccgatctt cccatcccac atcctccggc gcgatgccaa aaagaggctg acggcaactg121 ggccttctgc agagaaagac ctccgcttca ctgccccggc tggtcccaag ggtcaggaag181 atggattcat acctgctgat gtggggactg ctcacgttca tcatggtgcc tggctgccag241 gcagagctct gtgacgatga cccgccagag atcccacacg ccacattcaa agccatggcc301 tacaaggaag gaaccatgtt gaactgtgaa tgcaagagag gtttccgcag aataaaaagc361 gggtcactct atatgctctg tacaggaaac tctagccact cgtcctggga caaccaatgt421 caatgcacaa gctctgccac tcggaacaca acgaaacaag tgacacctca acctgaagaa 481 cagaaagaaa ggaaaaccac agaaatgcaa agtccaatgc agccagtgga ccaagcgagc 541 cttccaggtc actgcaggga acctccacca tgggaaaatg aagccacaga gagaatttat 601 catttcgtgg tggggcagat ggtttattat cagtgcgtcc agggatacag ggctctacac 661 agaggtcctg ctgagagcgt ctgcaaaatg acccacggga agacaaggtg gacccagccc 721 cagctcatat gcacaggtga aatggagacc agtcagtttc caggtgaaga gaagcctcag 781 gcaagccccg aaggccgtcc tgagagtgag acttcctgcc tcgtcacaac aacagatttt 841 caaatacaga cagaaatggc tgcaaccatg gagacgtcca tatttacaac agagtaccag 901 gtagcagtgg ccggctgtgt tttcctgctg atcagcgtcc tcctcctgag tgggctcacc 961 tggcagcgga gacagaggaa gagtagaaga acaatctaga aaaccaaaag aacaagaatt1021 tcttggtaag aagccgggaa cagacaacag aagtcatgaa gcccaagtga aatcaaaggt1081 gctaaatggt cgcccaggag acatccgttg tgcttgcctg cgttttggaa gctctgaagt1141 cacatcacag gacacggggc agtggcaacc ttgtctctat gccagctcag tcccatcaga1201 gagcgagcgc tacccacttc taaatagcaa tttcgccgtt gaagaggaag ggcaaaacca1261 ctagaactct ccatcttatt ttcatgtata tgtgttcatt aaagcatgaa tggtatggaa1321 ctctctccac cctatatgta gtataaagaa aagtaggttt acattcatct cattccaact1381 tcccagttca ggagtcccaa ggaaagcccc agcactaacg taaatacaca acacacacac1441 tctaccctat acaactggac attgtctgcg tggttccttt ctcagccgct tctgactgct1501 gattctcccg ttcacgttgc ctaataaaca tccttcaaga actctgggct gctacccaga1561 aatcatttta cccttggctc aatcctctaa gctaaccccc ttctactgag ccttcagtct1621 tgaatttcta aaaaacagag gccatggcag aataatcttt gggtaacttc aaaacggggc1681 agccaaaccc atgaggcaat gtcaggaaca gaaggatgaa tgaggtccca ggcagagaat1741 catacttagc aaagttttac ctgtgcgtta ctaattggcc tctttaagag ttagtttctt1801 tgggattgct atgaatgata ccctgaattt ggcctgcact aatttgatgt ttacaggtgg1861 acacacaagg tgcaaatcaa tgcgtacgtt tcctgagaag tgtctaaaaa caccaaaaag1921 ggatccgtac attcaatgtt tatgcaagga aggaaagaaa gaaggaagtg aagagggaga1981 agggatggag gtcacactgg tagaacgtaa ccacggaaaa gagcgcatca ggcctggcac2041 ggtggctcag gcctataacc ccagctccct aggagaccaa ggcgggagca tctcttgagg2101 ccaggagttt gagaccagcc tgggcagcat agcaagacac atccctacaa aaaattagaa2161 attggctgga tgtggtggca tacgcctgta gtcctagcca ctcaggaggc tgaggcagga2221 ggattgcttg agcccaggag ttcgaggctg cagtcagtca tgatggcacc actgcactcc2281 agcctgggca acagagcaag atcctgtctt taaggaaaaa aagacaaggg aattc (2) SEQ ID NO: 2919 data: (i) sequence characteristics:

(A) length: 1092 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2919 sequence description: 1 gaattcatgg aaatgggaag ggcagtgatg gagatgggaa gggcagtggg ggttggaggg 61 gtggggattg ttgttgggta cgaaaacaga attagatcga atgaataaga tctagtattt 121 gatagcataa cagggtgact ttagtcaaca ataatttatt gtacatttaa aaataactaa 181 721 cctgggtgct tgaggagttt caggctttct cataagcctc gtctccccgc ctctccaccc 781 181 aagagtatac ttggatttta acacaaagaa aggataaata cttgaggtga tggatacccc 241 atttaccctg atgtgattat tatacattgt atgcctgtat caaaatagct catgtgcctc 301 atgaatatag acacctacca catgcccaca aaattaaaaa ctaaaaaaaa cagtcatctc 361 tgaatgctaa acggagtaag gggcttcctg gaaggctggg tgaaatggga gtctcggaaa 421 gatggtgtgt tgcaggctgg gaggagggtg agacgctggg gtcacctaga gggacctgct 481 tgtgtgaagc ctacgtatta gtgggtatgt gtgtgaccgg atggaggcgt cagaggtgtt 541 gggtagcctg tgtgagttgg cgtgggggtg atgtaggagg ggagagaggg agggcctgcg 601 ttcccttggc tcctgtgtgc agctaggccc ctatttgaca atgtgtgtct gtgtgtgtgt 661 gtgtgtgtgt gtgtgtgtgt gtgtgccgcc cccagcgtag gaggcagatc tttatctggc 721 cctgggtgct tgaggagttt caggctttct cataagcctc gtctccccgc ctctccaccc 781 caggccttgc ccctctatcc tctgcacagg aagtgggctg gctctgggct tttagtcttt 841 gcggccccag cagccagagc tcagcagggc cctggagaga tggccacggt cccagcaccg 901 gggaggactg gagagcgcgc gctgccaccg ccccatgtct cagccaggtg atgtccccct 961 gcctccctcc cggcccctgt ggaccagcca gagggctggg agtgaaagtc acagagaaga1021 ctttcagctc tgactcagtt cccccagcag tttctgcctg aactcccatc ccccaacttt1081 gtcttagaat tc (2) SEQ ID NO: 2920 data: (i) sequence characteristics:

(A) length: 1451 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2920 description of the sequence: 1 gaagagcaag cgccatgttg aagccatcat taccattcac atccctctta ttcctgcagc 61 tgcccctgct gggagtgggg ctgaacacga caattctgac gcccaatggg aatgaagaca 121 ccacagctga tttcttcctg accactatgc ccactgactc cctcagtgtt tccactctgc 181 721 attggagtga atggagccac ccaatccact gggggagcaa tacttcaaaa gagaatcctt 781 181 ccctcccaga ggttcagtgt tttgtgttca atgtcgagta catgaattgc acttggaaca 241 gcagctctga gccccagcct accaacctca ctctgcatta ttggtacaag aactcggata 301 atgataaagt ccagaagtgc agccactatc tattctctga agaaatcact tctggctgtc 361 agttgcaaaa aaaggagatc cacctctacc aaacatttgt tgttcagctc caggacccac 421 gggaacccag gagacaggcc acacagatgc taaaactgca gaatctggtg atcccctggg 481 ctccagagaa cctaacactt cacaaactga gtgaatccca gctagaactg aactggaaca 541 acagattctt gaaccactgt ttggagcact tggtgcagta ccggactgac tgggaccaca 601 gctggactga acaatcagtg gattatagac ataagttctc cttgcctagt gtggatgggc 661 agaaacgcta cacgtttcgt gttcggagcc gctttaaccc actctgtgga agtgctcagc 721 attggagtga atggagccac ccaatccact gggggagcaa tacttcaaaa gagaatcctt 781 tcctgtttgc attggaagcc gtggttatct ctgttggctc catgggattg attatcagcc 841 ttctctgtgt gtatttctgg ctggaacgga cgatgccccg aattcccacc ctgaagaacc 901 tagaggatct tgttactgaa taccacggga acttttcggc ctggagtggt gtgtctaagg 961 gactggctga gagtctgcag ccagactaca gtgaacgact ctgcctcgtc agtgagattc1021 ccccaaaagg aggggccctt ggggaggggc ctggggcctc cccatgcaac cagcatagcc1081 cctactgggc ccccccatgt tacaccctaa agcctgaaac ctgaacccca atcctctgac1141 agaagaaccc cagggtcctg tagccctaag tggtactaac tttccttcat tcaacccacc1201 tgcgtctcat actcacctca ccccactgtg gctgatttgg aattttgtgc ccccatgtaa1261 gcaccccttc atttggcatt ccccacttga gaattaccct tttgccccga acatgttttt1321 cttctccctc agtctggccc ttccttttcg caggattctt cctccctccc tctttccctc1381 ccttcctctt tccatctacc ctccgattgt tcctgaaccg atgagaaata aagtttctgt1441 tgataatcat c (2) SEQ ID NO: 2921 data: (i) sequence characteristics:

(A) length: 1563 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2921 sequence description: 1 gagagactgg atggacccac aagggtgaca gcccaggcgg accgatcttc ccatcccaca 61 86561 61 tcctccggcg cgatgccaaa aagaggctga cggcaactgg gccttctgca gagaaagacc121 tccgcttcac tgccccggct ggtcccaagg gtcaggaaga tggattcata cctgctgatg181 tggggactgc tcacgttcat catggtgcct ggctgccagg cagagctctg tgacgatgac241 ccgccagaga tcccacacgc cacattcaaa gccatggcct acaaggaagg aaccatgttg301 aactgtgaat gcaagagagg tttccgcaga ataaaaagcg ggtcactcta tatgctctgt361 acaggaaact ctagccactc gtcctgggac aaccaatgtc aatgcacaag ctctgccact421 cggaacacaa cgaaacaagt gacacctcaa cctgaagaac agaaagaaag gaaaaccaca481 gaaatgcaaa gtccaatgca gccagtggac caagcgagcc ttccaggtga agagaagcct541 caggcaagcc ccgaaggccg tcctgagagt gagacttcct gcctcgtcac aacaacagat601 tttcaaatac agacagaaat ggctgcaacc atggagacgt ccatatttac aacagyac 661 caggtagcag tggccggctg tgttttcctg ctgatcagcg tcctcctcct gagtgggctc721 acctggcagc ggagacagag gaagagtaga agaacaatct agaaaaccaa aagaacaaga781 atttcttggt aagaagccgg gaacagacaa cagaagtcat gaagcccaag tgaaatcaaa841 ggtgctaaat ggtcgcccag gagacatccg ttgtgcttgc ctgcgttttg gaagctctga901 agtcacatca caggacacgg ggcagtggca accttgtctc tatgccagct cagtcccatc961 agagagcgag cgctacccac ttctaaatag caatttcgcc gttgaagagg aagggcaaaa1021 ccactagaac tctccatctt attttcatgt atatgtgttc attaaagcat gaatggtatg1081 gaactctctc caccctatat gtagtataaa gaaaagtagg tttacattca tctcattcca1141 acttcccagt tcaggagtcc caaggaaagc cccagcacta acgtaaatac acaacacaca1201 cactctaccc tatacaactg gacattgtct gcgtggttcc tttctcagcc gcttctgact1261 gctgattctc ccgttcacgt tgcctaataa acatccttca agaactctgg gctgctaccc1321 agaaatcatt ttacccttgg ctcaatcctc taagctaacc cccttccact gagccttcag1381 tcttgaattt ctaaaaaaca gaggccatgg cagaataatc tttgggtaac ttcaaaacgg1441 ggcagccaaa cccatgaggc aatgtcagga acagaaggat gaatgaggtc ccaggcagag1501 aatcatactt agcaaagttt tacctgtgcg ttactaattg gcctctttaa gagttagttt1561 ctt (2) SEQ ID NO: 2922 data: (i) sequence characteristics:

(A) length: 733 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2922 sequence description: 1 gaattctcag gatccttcag ttcgccgcat ccttctccat tatttgaata ttggaggctg 61 cctgaccaga atcttgtcag gactttgctc cttcatccca ggtggtcccg gctgactcct121 gaggacgtta cagccctgag gggaggactc agccttatga agtgctgggt gagaccactg181 ccaagaagtg cttgctcacc ctaccttcaa cggcagggga atctccctct ccttttatgg241 gcgtagtgaa gaaaggattc ataaatgaag ttcaatcctt ctcatcaacc ccagcccaca301 cctccagcaa ttgaacttga aaaaaaaaac ctggtttgaa aaattaccgc aaactatatt361 gtcatcaaaa aaaaaaaaaa aaaaacactt cctatatttg agatgagaga agagagtgct421 aggcagtttc ctggctgaac acgccagccc aatacttaaa gagagcaact cctgactccg481 atagagactg gatggaccca caagggtgac agcccaggcg gaccgatctt cccatcccac541 atcctccggc gcgatgccaa aaagaggctg acggcaactg ggccttctgc agagaaagac601 ctccgcttca ctgccccggc tggtcccaag ggtcaggaag atggattcat acctgctgat661 gtggggactg ctcacgttca tcatggtgcc tggctgccag gcaggtaagg gcctgtgggt721 39 721 gcccccggaa ttc (2) SEQ ID NO: 2923 data: (i) sequence characteristics:

(A) length: 756 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2923 sequence description: 1 gagctctgtg acgatgaccc gccagagatc ccacacgcca cattcaaagc catggcctac 61 aaggaaggaa ccatgttgaa ctgtgaatgc aagagaggtt tccgcagaat aaaaagcggg121 tcactctata tgctctgtac aggaaactct agccactcgt cctgggacaa ccaatgtcaa181 tgcacaagct ctgccactcg gaacacaacg aaacaagtga cacctcaacc tgaagaacag241 aaagaaagga aaaccacaga aatgcaaagt ccaatgcagc cagtggacca agcgagcctt301 ccaggtcact gcaaggaacc tccaccatgg gaaaatgaag ccacagagag aatttatcat361 ttcgtggtgg ggcagatggt ttattatcag tgcgtccagg gatacagggc tctacacaga421 ggtcctgctg agagcgtctg caaaatgacc cacgggaaga caaggtggac ccagccccag481 ctcatatgca caggtgaaat ggagaccagt cagtttccag gtgaagagaa gcctcaggca541 agccccgaag gccgtcctga gagtgagact tcctgcctcg tcacaacaac agattttcaa601 atacagacag aaatggctgc aaccatggag acgtccatat ttacaacaga gtaccaggta661 gcagtggccg gctgtgtttt cctgctgatc agcgtcctcc tcctgagtgg gctcacctgg721 39 721 cagcagagac agaggaagag tagaagaaca atctag (2) SEQ ID NO: 2924 data: (i) sequence characteristics:

(A) length: 711 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2924 sequence description: 1 gaattctcag gatccttcag ttcgccgcat ccttctccat tatttgaata ttggaggctg 61 cctgaccaga atcttgtcag gactttgctc cttcatccca ggtggtcccg gctgactcct121 gaggacgtta cagccctgag ggaggactca gcttatgaag tgctgggtga gaccactgcc181 aagaagtgct tgctcaccta ccttcaacgg caggggaatc tccctctcct tttatgggcg241 tagctgaaga aaggattcat aaatgaagtt caatccttct catcacccca gcccaacctc301 cagcaattga acttgaaaaa aaaaacctgg tttgaaaaat taccgcaaac tatattgtca361 tcaaaaaaaa aaaaaaaaaa aaacacttcc tatatttgag atgagagaag agagtgctag421 gcagtttcct ggctgaacac gccagcccaa tacttaaaga gagcaactcc tgactccgat481 agagactgga tggacccaca agggtgacag cccaggcgga ccgatcttcc catcccacat541 cctccggcgc gatgccaaaa agaggctgac ggcaactggg ccttctgcag agaaagacct601 ccgcttcact gccccggctg gtcccaaggg tcaggaagat ggattcatac ctgctgatgt661 ggggactgct cacgttcatc atggtgcctg gctgccaggc aggtaagggc c (2) SEQ ID NO: 2925 data: (i) sequence characteristics:

(A) length: 17944 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2925 sequence description: 1 gaattcatgc cacaactgag tgattttttt tttctcaaac ccaattccac aaagtaaaag 61 cctgatgaaa tacagtgaag gctgatgctt attaactgtg tttcccaaat ccagagctct 121 aaaaaggttc tgcatacagt cattcattca atgcttaacg actgagcatt aattccatgc 181 721 aaaccaagaa aagaggaggc ggtgttgcag gaacagtgag cagttgatga tttttatttt 781 181 taagtactga actcagcact aggaataaga aggcgaccta gaggcatatc ctctctctaa 241 agatgcatag agcctcattg gaatgatcag ccgtgtctcc agagagctac aaggcagttt 301 tcaattggta aatgccctga gagtgatggg cttgtggcat gtgtaagggt tagacagacc 361 tgggacctag acatgacacc actcctgacg aattatgtga gtgtgggtgt ttcacaacca 421 caatgagatg caatgcctgc acttgtaaca tggaaatagt gatggcatgc cccgcagatt 481 gctgtgagaa gtcagcggca gagacatgca acattctcag cacagtgctt gccatgtagt 541 aagggcctag tcagtgctag tgattccttt caatattcct aagatgcaga taagggaaca 601 gcccagagga gggggagcac ttccagaggg aggaatgcgg tgagacttcc ttcagcaggg 661 tagcactgga gctgggtgtt aaggagtgag tgagctttgg gcttatggat ttaacagagg 721 aaaccaagaa aagaggaggc ggtgttgcag gaacagtgag cagttgatga tttttatttt 781 gttctctggt ctgcttggga acatttttgt ggcaaagaca gcatgaagga tagcgaagaa 841 ttaatactga agagataggc cagggcaggt tatgaaggat tttgaatacc gggctaagaa 901 atgtgggctt aatttcaaag acattatgga cactcctaaa atgttacgtt gtagataagg 961 gaaaagtatt cttccagaag attaaattgg ggctgggcac ggtggctcac gcctgtgatc1021 ccagcacttt gggaggcgaa gtgggcagat cacctgaggt caggagtttg agatcagcct1081 ggccaacgtg gtgaagcccc atctctactg aaaaaaaaaa ttagccgggc atggtggtgg1141 gtgcctgtaa tctcagctac ttgggaggct gaagcaggag aatcacatga acctgggagg1201 cagaggttgc agtgagccaa gattgcacca ctgcattcca gtgggcgaca gagcaagact1261 cagtcaaaaa aaaaaaaaga ttaaactgga agcaatgggt aagaatggtg gagtggagag1321 acacatttga gtgagggaag ccagctgaaa agctgtacag acgtctagac aaaatgtgac1381 acaagcatgc cttcacctcc ctgcaaagac cacagaccac tgagctccaa agggggtttg1441 gaatccttgt cctgggccgc cattggtaac tcatcagtgc tggcttgaga gataaactct1501 attatccatc cctgaactaa aatcatgaca gaagtggcca gggagctttg ctgctatccc1561 cccaggaaac acgtcctcca ctcaaatgga aagaggaccc tctgacaaca tctgtgggac1621 ccaacagcac tggtcaccac aagccacaaa atgttaacaa agtcagtttt caattgttag1681 ggacggagga ctcagttcat gattcataca aaccaactgt tctctcccag tgttttctgg1741 gtggcacaac ccacaagtca acagtggctt gggaactaga catttgagta gagttgggtt1801 atttgattca tagtggattt tggttttcca cgggacccct gtgcccttgt ctagtagaat1861 ctggtggaaa ttacaaactg cagaaattca actcagtgcc gcaataacag gatgcacctg1921 tagatttcgt agaattagca gcagcattct ttcaatacca gtttgagaga aataaccctg1981 tttgcatagt gccaactggg gcagaatctg aagtgtcttg cctgcctctc ggccatggga2041 ggcaccgatc tcagcaacat ctatccaacc gccatccact taacaagcaa agatggaagg2101 ccctcgtgct ccaggctatc ctgcaatggt tcatttgctt ttgatgggat tatcactttg2161 acagatgtgc ttgcaattaa ctgggggctt tctgcttcca atccaaattc ccacaggtgg2221 atcactggct cttggggagc aaaaaccctt ctttgtttgt ttttgcttct cccagagcct2281 gggcagagct ccccattcct ggatcctacg ttgatatgca ctgaattgaa ttatactaaa2341 gggtgcaccc aagagtgcat gagctaagta aaatgtaatt tgtgggacct catgtggaca2401 tttcaggtcc atgtgtacaa gataaaggag agaaaatcct gggggacacc acaggcctgg2461 gaaaatgacc tcctactaag cctaacaaga acatccagta cataaacagc aggctctctg2521 caaccgcttc ggtccttcca ctgccacgct cccagaaagc aaagggttat ctcctgttcg2581 gattttggct ctgagaccac agctcagcac atcactcctc tagagaaaag aaagtctaag2641 atgagagagt gaggctgctt tcatgtggtg ccagcgtata gtgcagggca ggcctgattg2701 ctgaacggat ccctgcagac gtgagcggtc acttcccctt ttgagggccc atttcttttc2761 ctctttgagg agactgtgag cgtcctcagt gcagggctat gttttagctt cttggctctc2821 ctcacaggtt ctagcataat tctttgatta attgcagtca acgtttattg atggattatg2881 tgacagaggt gaaattcttt gatctgggtt tcagcttttc ctttccccca ctccctcctt2941 tttctttttt tttttttttt tttttagagg cgaggtcttg ctctgtggcc ctggctggag3001 tgcagtggtg caatcatagc tcattgcagc cttgacctcc tggggtcaag cgaacctcaa3061 cgtcttggcc tcctgagtag ctgggactat aggcatgcgc caccacgctc agcttcacct3121 tttcctttcc ttgtgctccc ctggcagata tgctggtaaa caatgaacca gtcaagagga3181 cagcaacagg aggaaaatgg gagaaacccc attattcgtg gactaaacag gcttcccact3241 agtcctggct cacagaggaa gtcatgctcc atgtttcaaa tgtcctcaaa gctcgttcaa3301 ctccaaaatg catgaagaca aaatgggaat tttactcaag atttttgtgg gctgttgggg3361 agaagagtta acattgcaaa gcatattgca aactcttatc ttcaaatgat tttaaaattt3421 tcttccaagc tctttattat ttctccagag ctgccctgct cttcccactc tgggtccttt3481 ctctgccact ctcctcagca tgacttctcc ctaatcggcc agcatttctt ttattctata3541 593601 gcctcagagc accagtgttt taatccctga aaacagtcct tacgggattc agcacagagg3661 tcctcttggc agcctgtagt ctccagagtg acacgtcctc aacagtcaaa gtgagcaagc3721 tatggtgccc atcaccaagt ggggctcacc atttccctct gcgttcactt ctctcctacc3781 ttcttcctta tcccatcctt cctccttcct ttttttttct gcattcaatt attcatggtt3841 attcatttca tacgggcatc tgtgccactt ggttctacag gcattttttt ttttgagaca3901 gacttttgcc cttgtccccc aggctggcgt gcagcggtgt gatcttggct cactgcaatc 398661 tccacctcct aggttcaagc aagtctcctg ccttagcctc ccaagtagct ggaattacag4021 gcatgtgcca ccaagcccgg caaatttttg tatttttagt agagacaggg tttcaccatg ttggccaggc tggtctcaaa ctcctgacct caggtgatct gcctgcctcg gcctcccaaa4141 gtgctgggat aacaggcgtg agccatcgtg ctcggccggt tctatgggca ttgtggaagt4201 gaccgttaac aagccccaag ggtaagtaaa ggaaaatgaa aggtgattga ttcctcacca4261 cctctcccct tttttcctct actctttgcc cctgctcccc aatctagact ctaataaaca4321 gaaatgattt ttgttgcaag ctgaaaactc gttcttgtgg ttggggctag gggggtggca4381 agtcaagctt tagagttgtc tggataataa atgctgtctt caaggactgt ccaacattgt4441 aggaacaaga gaacaaccca agtgaacaac taactcctgt tcacaaatgc tactgcctct4501 ctgccatccc ctaacctcag cctcacacac ttgaatttcg ccaatccatt tgatgagctc4561 aaatcagtga attttctcct cgccaaagct cacaaattct gttccccgct tcttgcccca4621 catccaggca ttaccaactg cattttccct ttgcctgata ttctggcatc aagcctcctt4681 gccattccaa tttatttcac cttcctccag tccttatgat ttccttcctg aagagtattt4741 cagcatctct atgcctcaat cttccctgca caccacacca gctcggcctc atcatcacat4801 tacttggcta tgtcccgcct gggttagaca gcttcagtgg ctgaagtcca tagatcttat4861 tctgtttttc gaggtccacc tgactctgaa tccagctgac atttctgccc ttagcttcta4921 cccctctcta cttctggtta actatggacc acactctgct tcctcaggaa ccacctacca4981 aggccgtatc catccttcaa ggacaatacg tgggcctttc ctgatcacat cagctcaaca5041 acttttccct cctacatttc aattgctctt cttaccataa tcattagtat tcaccccact5101 gtacgtctag aaagaaagtg gtcttaaacc taagggaagg cagtctaggt cagaaatttg5161 51 5161 ttgtccgctg ttctgagcag tttcttctag gaagtaccaa acatttctga taatagaatt5221 gagcaatttc ctgatgaagt gagactcagc ttgcactgtt gaccggctgt cctggatgaa5281 829 5281 cctagttact tttaaccaaa tgttcctttc ttgaacttgt tcctttcttg aacttaatct5341 atcaatgtta tctagataac tttcctcaaa aaaaaaaaaa aaaaaaaaaa ccctctacta5401 ggaaagaaat ctttgaaccg gacttattgg aaattacctc cttgcagcag gtttgaaaca5461 aaactttgaa tttgcctcac aaagaatttg tctgaaactg ctttagtata tgctagttat5521 atttgtatgc acatgtggct tcatacatag tggttggaca cccatatgtg ttatgcactt5581 tgttaggtga cgtaagttca cagataaact ggaacatagg gctatcctct agaggcccac5641 agtttgacac cttaacctga gatccttgga cctttgaagt tcagagtgcc cacaaccgct5701 gggtgtggtg gctcacactt gtaatcccag tactctgcag ggctgaggtg ggaggatcgc5761 ttgagtccag gagtctgaga ccagcctggg caacatgaca aaaccccatc tctacaaaaa5821 ttacaaaaaa aattagccag gcctggtggt gcatgcctgt ggtcccagtt acttgagagg5881 ctgaagtggg aggatcactt gagtcaagga ggtagaggct gcagtgagtt gagatggcaa5941 cactgcactc cagaaacccc atctcaaaca aaacagagca aaacaaaaca aactgcccat6001 aatgctcctg aaacttccta cggatttatc cagagtatgt gctgatgtgc attttttcca6061 aggagggaaa ccaaaggttc tatcaaatta agaaaagagt ttttaccatt gtggaagaca6121 gtatggcgat tcctcaagca tctaaaatca gaaataccat ttgacccagc aatcctatta6181 5731 6241 tttattgcag cactatttac aatagcaaaa tggaaccaac tgaaatgccc atcaatgaga6301 ctagataaag aaaatgtgat acatatacac catggaatac tatgcagcca tgaaaaggaa6361 tgagatcacg tccttggcag ggacatggat gaagctggaa gccattatcc tcagcaaact6421 aacacaggaa cagaaaacca aatgccgcat gttctcactc ataagtggga gttgaacaat gacagcacat agacataggg aggggaacat cacacgccag ggcctgctgc agggtggggg6541 666601 66 cacacttata cctatgtaac caacctgcac gttctacaca tgtatcctgg aacttaaatt6661 826721 atataaacag tgaattgcaa tgcagcacgg caggtgttat gatggagtag aaaggactgg6781 aaaaggcctc ctggaggaag ggacactcaa gtgtctttcc atttcacctg taaactcatt6841 aagggcaaaa gctttgctac agcttcagta tgagatcctg ggcaatccgt gacaaaatgg6901 gtctgctttt gcacccccaa cttcttctca catccctgca tcgtgccatg cagcatcaac6961 tggaaacctc agcgtcagca aacgacgaca gagcgttcat ccgtaaggtg aaccagaaaa7021 gccagttcaa tgacttgttt aaccatggtc catctcagaa ccaagagttg ggcctcttat7081 ttaccagaaa aattgtgggg gctttgtgat atggctttaa aaaaatcttg taattgccag7141 gcgtggtggc tcacacctgt aatcccagca ctttgggagg ccgaggtggg tgaatcgcct7201 aaggtcagga gttcgagacc agcctgacca acatggtgaa actccgtctc tactaaaaat7261 acaaaaacta gctggatgtg gtgacgcgtg cctgtaatcc tagctactca ggaggctgac7321 gcaggagaat cacttgaacc tgggaggcag aggttgcagt gagccaagat tgtgccattg7381 cgctccaaaa aaaaaaaaaa aatacattaa cataaattta aatattttat aatgacaatc7441 cacattaact acttaaagca taagctattt tccaggagag gcagcaagtg cattctactc7501 ccatgcccaa gaagaaagga gcgtgacttt ggtgggagta ctaggagttt ctactggagc7561 acttgcccgc agagtgagaa acgttcctag agaggaagtt atacctgctg tggaatttaa7621 gagaatcttg tcatattttg acaagttttt tgagatggaa gtctcactct gtcgcccagg7681 ctggagtgca gtggcgcaat ctcagctcac tgcagcctgc acctcctcgg ttccagctat7741 tctcttgtct cagcctcctg agtaactggg attacaggcg cccgccacta cgcctggcta7801 atttttgtat ttttagtaga aatggggttt taccatgttg gccagactgg tctcaaactc7861 ccgacctcag gtgatctgcc tgcctcagcc tcccaaagtg ctggaattac aggcgtgtgc7921 cactgcgcct ggctaatttt tttttttttt tttttttagt agagacggtg gtttcaccat7981 gtcatccagg ctggtctcaa actcctgacc tcaggtgatc cacccacctt ggtctaccaa8041 agtgctcgga ttacaggcat gagccaccag gcccagtcaa cgtgatgtgt tttggaaccc8101 tgaattcctt ggcttgccgg agggttttct ttttgttaat atctttgctt gctttctagt 8461 8253 8221 agggagcaaa acacactcaa ccaatttcat aataatcaga agagagctct gatcaataaa8281 taagcaagac tgaattttac aaaataatcc aaagtttaaa accaaagccc actttttgca8341 tgatccttta agagaaagaa atctggaagc aaaacacctt ataaaatgac aatgcacttt 8458 caggagccca gggcactgtg gtgaaatgat gatggctagt acaggttata agccttgggg aattatttat gaattctcag gatccttcag ttcgccgcat ccttctccat tatttgaata8521 ttggaggctg cctgaccaga atcttgtcag gactttgctc cttcatccca ggtggtcccg8581 6381 gctgactcct gaggacgtta cagccctgag gggaggactc agcttatgaa gtgctgggtg8641 agaccactgc caagaagtgc ttgctcaccc taccttcaac ggcaggggaa tctccctctc8701 cttttatggg cgtagctgaa gaaaggattc ataaatgaag ttcaatcctt ctcatcaacc8761 ccagcccaca cctccagcaa ttgaacttga aaaaaaaaac ctggtttgaa aaattaccgc8821 aaactatatt gtcatcaaaa aaaaaaaaaa aaaaacactt cctatatttg agatgagaga8881 agagagtgct aggcagtttc ctggctgaac acgccagccc aatacttaaa gagagcaact8941 cctgactccg atagagactg gatggaccca caagggtgac agcccaggcg gaccgatctt9001 cccatcccac atcctccggc gcgatgccaa aaagaggctg acggcaactg ggccttctgc9061 agagaaagac ctccgcttca ctgccccggc tggtcccaag ggtcaggaag atggattcat9121 acctgctgat gtggggactg ctcacgttca tcatggtgcc tggctgccag gcaggtaagg9181 gcctgtgggt gcccccggaa ttc1 gaattccccc cccccccccc cgagagactg gatggaccca caagggtgac agcccaggcg gaccgatctt cccatcccac atcctccggc gcgatgccaa aaagaggctg acggcaactg ggccttctgc agagaaagac ctccgcttca ctgccccggc tggtcccaag ggtcaggaag181 atggattcat acctgctgat gtggggactg ctcacgttca tcatggtgcc tggctgccag241 gcagagctct gtgacgatga cccgccagag atcccacacg ccacattcaa agccatggcc301 tacaaggaag gaaccatgtt gaactgtgaa tgcaagagag gtttccgcag aataaaaagc gggtcactct atatgctctg tacaggaaac tctagccact cgtcctggga caaccaatgt caatgcacaa gctctgccac tcggaacaca acgaaacaag tgacacctca acctgaagaa 481 cagaaagaaa ggaaaaccac agaaatgcaa agtccaatgc agccagtgga ccaagcgagc 541 cttccaggtc actgcaggga acctccacca tgggaaaatg aagccacaga gagaatttat 601 catttcgtgg tggggcagat ggtttattat cagtgcgtcc agggatacag ggctctacac 661 agaggtcctg ctgagagcgt ctgcaaaatg acccacggga agacaaggtg gacccagccc 721 cagctcatat gcacaggtga aatggagacc agtcagtttc caggtgaaga gaagcctcag 781 gcaagccccg aaggccgtcc tgagagtgag acttcctgcc tcgtcacaac aacagatttt 841 caaatacaga cagaaatggc tgcaaccatg gagacgtcca tatttacaac agagtaccag 901 gtagcagtgg ccggctgtgt tttcctgctg atcagcgtcc tcctcctgag tgggctcacc 961 tggcagcgga gacagaggaa gagtagaaga acaatctaga aaaccaaaag aacaagaatt1021 tcttggtaag aagccgggaa cagacaacag aagtcatgaa gcccaagtga aatcaaaggt1081 gctaaatggt cgcccaggag acatccgttg tgcttgcctg cgttttggaa gctctgaagt1141 cacatcacag gacacggggc agtggcaacc ttgtctctat gccagctcag tcccatcaga1201 gagcgagcgc tacccacttc taaatagcaa tttcgccgtt gaagaggaag ggcaaaacca1261 ctagaactct ccatcttatt ttcatgtata tgtgttcatt aaagcatgaa tggtatggaa1321 ctctctccac cctatatgta gtataaagaa aagtaggttt acattcatct cattccaact1381 tcccagttca ggagtcccaa ggaaagcccc agcactaacgtaaatacaca acacacacac1441 tctaccctat acaactggac attgtctgcg tggttccttt ctcagccgct tctgactgct1501 gattctcccg ttcacgttgc ctaataaaca tccttcaaga actctgggct gctacccaga1561 aatcatttta cccttggctc aatcctctaa gctaaccccc ttctactgag ccttcagtct1621 tgaatttcta aaaaacagag gccatggcag aataatcttt gggtaacttc aaaacggggc1681 agccaaaccc atgaggcaat gtcaggaaca gaaggatgaa tgaggtccca ggcagagaat1741 539 1741 catacttagc aaagttttac ctgtgcgtta ctaattggcc tctttaagag ttagtttctt1801 tgggattgct atgaatgata ccctgaattt ggcctgcact aatttgatgt ttacaggtgg1861 acacacaagg tgcaaatcaa tgcgtacgtt tcctgagaag tgtctaaaaa caccaaaaag1921 ggatccgtac attcaatgtt tatgcaagga aggaaagaaa gaaggaagtg aagagggaga1981 agggatggag gtcacactgg tagaacgtaa ccacggaaaa gagcgcatca ggcctggcac2041 ggtggctcag gcctataacc ccagctccct aggagaccaa ggcgggagca tctcttgagg2101 ccaggagttt gagaccagcc tgggcagcat agcaagacac atccctacaa aaaattagaa2161 attggctgga tgtggtggca tacgcctgta gtcctagcca ctcaggaggc tgaggcagga2221 ggattgcttg agcccaggag ttcgaggctg cagtcagtca tgatggcacc actgcactcc2281 agcctgggca acagagcaag atcctgtctt taaggaaaaa aagacaaggg aattc 1 gaattcatgg aaatgggaag ggcagtgatg gagatgggaa gggcagtggg ggttggaggg 61 gtggggattg ttgttgggta cgaaaacaga attagatcga atgaataaga tctagtattt 121 gatagcataa cagggtgact ttagtcaaca ataatttatt gtacatttaa aaataactaa 181 aagagtatac ttggatttta acacaaagaa aggataaata cttgaggtga tggatacccc 241 atttaccctg atgtgattat tatacattgt atgcctgtat caaaatagct catgtgcctc 301 atgaatatag acacctacca catgcccaca aaattaaaaa ctaaaaaaaa cagtcatctc 361 tgaatgctaa acggagtaag gggcttcctg gaaggctggg tgaaatggga gtctcggaaa 421 gatggtgtgt tgcaggctgg gaggagggtg agacgctggg gtcacctaga gggacctgct 481 tgtgtgaagc ctacgtatta gtgggtatgt gtgtgaccgg atggaggcgt cagaggtgtt 541 gggtagcctg tgtgagttgg cgtgggggtg atgtaggagg ggagagaggg agggcctgcg 601 ttcccttggc tcctgtgtgc agctaggccc ctatttgaca atgtgtgtct gtgtgtgtgt 661 gtgtgtgtgt gtgtgtgtgt gtgtgccgcc cccagcgtag gaggcagatc tttatctggc 721 cctgggtgct tgaggagttt caggctttct cataagcctc gtctccccgc ctctccaccc 781 caggccttgc ccctctatcc tctgcacagg aagtgggctg gctctgggct tttagtcttt 841 gcggccccag cagccagagc tcagcagggc cctggagaga tggccacggt cccagcaccg 901 gggaggactg gagagcgcgc gctgccaccg ccccatgtct cagccaggtg atgtccccct 961 gcctccctcc cggcccctgt ggaccagcca gagggctggg agtgaaagtc acagagaaga1021 ctttcagctc tgactcagtt cccccagcag tttctgcctg aactcccatc ccccaacttt1081 gtcttagaat tc1 gaagagcaag cgccatgttg aagccatcat taccattcac atccctctta ttcctgcagc 61 tgcccctgct gggagtgggg ctgaacacga caattctgac gcccaatggg aatgaagaca 121 ccacagctga tttcttcctg accactatgc ccactgactc cctcagtgtt tccactctgc 181 ccctcccaga ggttcagtgt tttgtgttca atgtcgagta catgaattgc acttggaaca 241 gcagctctga gccccagcct accaacctca ctctgcatta ttggtacaag aactcggata 301 atgataaagt ccagaagtgc agccactatc tattctctga agaaatcact tctggctgtc 361 agttgcaaaa aaaggagatc cacctctacc aaacatttgt tgttcagctc caggacccac 421 gggaacccag gagacaggcc acacagatgc taaaactgca gaatctggtg atcccctggg 481 ctccagagaa cctaacactt cacaaactga gtgaatccca gctagaactg aactggaaca 541 acagattctt gaaccactgt ttggagcact tggtgcagta ccggactgac tgggaccaca 601 gctggactga acaatcagtg gattatagac ataagttctc cttgcctagt gtggatgggc 661 agaaacgcta cacgtttcgt gttcggagcc gctttaaccc actctgtgga agtgctcagc 721 attggagtga atggagccac ccaatccact gggggagcaa tacttcaaaa gagaatcctt 781 tcctgtttgc attggaagcc gtggttatct ctgttggctc catgggattg attatcagcc 841 ttctctgtgt gtatttctgg ctggaacgga cgatgccccg aattcccacc ctgaagaacc 901 tagaggatct tgttactgaa taccacggga acttttcggc ctggagtggt gtgtctaagg 961 gactggctga gagtctgcag ccagactaca gtgaacgact ctgcctcgtc agtgagattc1021 ccccaaaagg aggggccctt ggggaggggc ctggggcctc cccatgcaac cagcatagcc1081 cctactgggc ccccccatgt tacaccctaa agcctgaaac ctgaacccca atcctctgac1141 agaagaaccc cagggtcctg tagccctaag tggtactaac tttccttcat tcaacccacc1201 tgcgtctcat actcacctca ccccactgtg gctgatttgg aattttgtgc ccccatgtaa1261 gcaccccttc atttggcatt ccccacttga gaattaccct tttgccccga acatgttttt1321 cttctccctc agtctggccc ttccttttcg caggattctt cctccctccc tctttccctc1381 ccttcctctt tccatctacc ctccgattgt tcctgaaccg atgagaaata aagtttctgt1441 tgataatcat c1 gagagactgg atggacccac aagggtgaca gcccaggcgg accgatcttc ccatcccaca 61 tcctccggcg cgatgccaaa aagaggctga cggcaactgg gccttctgca gagaaagacc121 tccgcttcac tgccccggct ggtcccaagg gtcaggaaga tggattcata cctgctgatg181 tggggactgc tcacgttcat catggtgcct ggctgccagg cagagctctg tgacgatgac241 ccgccagaga tcccacacgc cacattcaaa gccatggcct acaaggaagg aaccatgttg301 aactgtgaat gcaagagagg tttccgcaga ataaaaagcg ggtcactcta tatgctctgt361 acaggaaact ctagccactc gtcctgggac aaccaatgtc aatgcacaag ctctgccact421 cggaacacaa cgaaacaagt gacacctcaa cctgaagaac agaaagaaag gaaaaccaca481 gaaatgcaaa gtccaatgca gccagtggac caagcgagcc ttccaggtga agagaagcct541 caggcaagcc ccgaaggccg tcctgagagt gagacttcct gcctcgtcac aacaacagat601 tttcaaatac agacagaaat ggctgcaacc atggagacgt ccatatttac aacagyac 661 caggtagcag tggccggctg tgttttcctg ctgatcagcg tcctcctcct gagtgggctc721 acctggcagc ggagacagag gaagagtaga agaacaatct agaaaaccaa aagaacaaga781 atttcttggt aagaagccgg gaacagacaa cagaagtcat gaagcccaag tgaaatcaaa841 ggtgctaaat ggtcgcccag gagacatccg ttgtgcttgc ctgcgttttg gaagctctga901 agtcacatca caggacacgg ggcagtggca accttgtctc tatgccagct cagtcccatc961 581021 ccactagaac tctccatctt attttcatgt atatgtgttc attaaagcat gaatggtatg1081 gaactctctc caccctatat gtagtataaa gaaaagtagg tttacattca tctcattcca1141 acttcccagt tcaggagtcc caaggaaagc cccagcacta acgtaaatac acaacacaca1201 cactctaccc tatacaactg gacattgtct gcgtggttcc tttctcagcc gcttctgact1261 gctgattctc ccgttcacgt tgcctaataa acatccttca agaactctgg gctgctaccc1321 agaaatcatt ttacccttgg ctcaatcctc taagctaacc cccttccact gagccttcag1381 tcttgaattt ctaaaaaaca gaggccatgg cagaataatc tttgggtaac ttcaaaacgg1441 ggcagccaaa cccatgaggc aatgtcagga acagaaggat gaatgaggtc ccaggcagag1501 aatcatactt agcaaagttt tacctgtgcg ttactaattg gcctctttaa gagttagttt1561 ctt1 gaattctcag gatccttcag ttcgccgcat ccttctccat tatttgaata ttggaggctg cctgaccaga atcttgtcag gactttgctc cttcatccca ggtggtcccg gctgactcct gaggacgtta cagccctgag gggaggactc agccttatga agtgctgggt gagaccactg ccaagaagtg cttgctcacc ctaccttcaa cggcagggga atctccctct ccttttatgg241 gcgtagtgaa gaaaggattc ataaatgaag ttcaatcctt ctcatcaacc ccagcccaca301 cctccagcaa ttgaacttga aaaaaaaaac ctggtttgaa aaattaccgc aaactatatt361 gtcatcaaaa aaaaaaaaaa aaaaacactt cctatatttg agatgagaga agagagtgct421 aggcagtttc ctggctgaac acgccagccc aatacttaaa gagagcaact cctgactccg481 atcctccggc gcgatgccaa aaagaggctg acggcaactg ggccttctgc agagaaagac 541 ctccgcttca ctgccccggc tggtcccaag ggtcaggaag atggattcat acctgctgat16405 gtggggactg ctcacgttca tcatggtgcc tggctgccag gcaggtaagg gcctgtgggt16465 gcccccggaa ttc16478 gagctctgtg acgatgaccc gccagagatc ccacacgcca cattcaaagc catggcctac16538 aaggaaggaa ccatgttgaa ctgtgaatgc aagagaggtt tccgcagaat aaaaagcggg16598 tcactctata tgctctgtac aggaaactct agccactcgt cctgggacaa ccaatgtcaa16658 tgcacaagct ctgccactcg gaacacaacg aaacaagtga cacctcaacc tgaagaacag16718 aaagaaagga aaaccacaga aatgcaaagt ccaatgcagc cagtggacca agcgagcctt16778 ccaggtcact gcaaggaacc tccaccatgg gaaaatgaag ccacagagag aatttatcat16838 ttcgtggtgg ggcagatggt ttattatcag tgcgtccagg gatacagggc tctacacaga16898 ggtcctgctg agagcgtctg caaaatgacc cacgggaaga caaggtggac ccagccccag1695 ctcatatgca caggtgaaat ggagaccagt cagtttccag gtgaagagaa gcctcaggca17018 agccccgaag gccgtcctga gagtgagact tcctgcctcg tcacaacaac agattttcaa17078 atacagacag aaatggctgc aaccatggag acgtccatat ttacaacaga gtaccaggta17138 gcagtggccg gctgtgtttt cctgctgatc agcgtcctcc tcctgagtgg gctcacctgg17198 cagcagagac agaggaagag tagaagaaca atctag17234 gaattctcag gatccttcag ttcgccgcat ccttctccat tatttgaata ttggaggctg17294 cctgaccaga atcttgtcag gactttgctc cttcatccca ggtggtcccg gctgactcct17354 gaggacgtta cagccctgag ggaggactca gcttatgaag tgctgggtga gaccactgcc 1742 17474 tagctgaaga aaggattcat aaatgaagtt caatccttct catcacccca gcccaacctc17534 cagcaattga acttgaaaaa aaaaacctgg tttgaaaaat taccgcaaac tatattgtca17594 tcaaaaaaaa aaaaaaaaaa aaacacttcc tatatttgag atgagagaag agagtgctag 17627 gcagtttcct ggctgaacac gccagcccaa tacttaaaga gagcaactcc tgactccgat17714 agagactgga tggacccaca agggtgacag cccaggcgga ccgatcttcc catcccacat17774 cctccggcgc gatgccaaaa agaggctgac ggcaactggg ccttctgcag agaaagacct17834 ccgcttcact gccccggctg gtcccaaggg tcaggaagat ggattcatac ctgctgatgt17894 ggggactgct cacgttcatc atggtgcctg gctgccaggc aggtaagggc c (2) SEQ ID NO: 2926 data: (i) sequence characteristics:

(A) length: 544 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2926 sequence description: 1 aagcttaata taaacaagtt tcttgtcact gccaccacca cgaccaaaaa aagctaatca61 atcactatat ataatacata tatatactat atataataaa tatatatact atatataata121 catatataca ctatatataa tacatatata ctatatatac actatatact atatatacac181 atatatatta tgaatgtata tatatagtat atatagtata tatactatgt atgtatatat241 agtatatata gtatatatac tatgtatgat atatagtata tatagtatat atactatgta301 tgtgtatata tagtatatat agtatatata gtatatatac tatgtatgta tatatatagt361 atatatagta tatatactgt gtatgtatat atatagtata tatatactat atatgcatac421 atagtatata tgcatatata ctatatatac tatatattta tatatactat atactatata481 tactatatac tgtatatata ctatatatgt atgtatacga tatatatata tactatatat541 gtac (2) SEQ ID NO: 2927 data: (i) sequence characteristics:

(A) length: 2002 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2927 sequence description: 1 cagagaagct ctatctcccc tccaggagcc cagctatgaa ctccttctcc acaagcgcct 61 tcggtccagt tgccttctcc ctggggctgc tcctggtgtt gcctgctgcc ttccctgccc 121 cagtaccccc aggagaagat tccaaagatg tagccgcccc acacagacag ccactcacct 181 721 gtcagaaacc tgtccactgg gcacagaact tatgttgttc tctatggaga actaaaagta 781 181 cttcagaacg aattgacaaa caaattcggt acatcctcga cggcatctca gccctgagaa 241 aggagacatg taacaagagt aacatgtgtg aaagcagcaa agaggcactg gcagaaaaca 301 acctgaacct tccaaagatg gctgaaaaag atggatgctt ccaatctgga ttcaatgagg 361 agacttgcct ggtgaaaatc atcactggtc ttttggagtt tgaggtatac ctagagtacc 421 tccagaacag atttgagagt agtgaggaac aagccagagc tgtgcagatg agtacaaaag 481 tcctgatcca gttcctgcag aaaaaggcaa agaatctaga tgcaataacc acccctgacc 541 caaccacaaa tgccagcctg ctgacgaagc tgcaggcaca gaaccagtgg ctgcaggaca 601 tgacaactca tctcattctg cgcagcttta aggagttcct gcagtccagc ctgagggctc 661 ttcggcaaat gtagcatggg cacctcagat tgttgttgtt aatgggcatt ccttcttctg 721 gtcagaaacc tgtccactgg gcacagaact tatgttgttc tctatggaga actaaaagta 781 tgagcgttag gacactattt taattatttt taatttatta atatttaaat atgtgaagct 841 gagttaattt atgtaagtga tatttatatt ttaagaagta ccacttgaaa cattttatgt 901 attagttttg aaataataat ggaaagtggc tatgcagttt gaatatcctt tgtttcagag 961 ccagatcatt tcttggaaag tgtacgctta cctcaaataa atggctaact tatacatatt1021 tttaaagaaa tatttatatt gtatttatat aatgtataaa atggttttta taccaataaa1081 tggcatttta aaaaattcag ca (2) SEQ ID NO: 2928 data: (i) sequence characteristics:

(A) length: 1113 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2928 sequence description: 1 gaattccggg aacgaaagag aagctctatc tcccctccag gagcccagct atgaactcct 61 tctccacaag cgccttcggt ccagttgcct tctccctggg gctgctcctg gtgttgcctg 121 ctgccttccc tgccccagta cccccaggag aagattccaa agatgtagcc gccccacaca 181 721 gcattccttc ttctggtcag aaacctgtcc actgggcaca gaacttatgt tgttctctat 781 181 gacagccact cacctcttca gaacgaattg acaaacaaat tcggtacatc ctcgacggca 241 tctcagccct gagaaaggag acatgtaaca agagtaacat gtgtgaaagc agcaaagagg 301 cactggcaga aaacaacctg aaccttccaa agatggctga aaaagatgga tgcttccaat 361 ctggattcaa tgaggagact tgcctggtga aaatcatcac tggtcttttg gagtttgagg 421 tatacctaga gtacctccag aacagatttg agagtagtga ggaacaagcc agagctgtgc 481 agatgagtac aaaagtcctg atccagttcc tgcagaaaaa ggcaaagaat ctagatgcaa 541 taaccacccc tgacccaacc acaaatgccagcctgctgac gaagctgcag gcacagaacc 601 agtggctgca ggacatgaca actcatctca ttctgcgcag ctttaaggag ttcctgcagt 661 ccagcctgag ggctcttcgg caaatgtagc atgggcacct cagattgttg ttgttaatgg 721 gcattccttc ttctggtcag aaacctgtcc actgggcaca gaacttatgt tgttctctat 781 ggagaactaa aagtatgagc gttaggacac tattttaatt atttttaatt tattaatatt 841 taaatatgtg aagctgagtt aatttatgta agtcatattt atatttttaa gaagtaccac 901 ttgaaacatt ttatgtatta gttttgaaat aataatggaa agtggctatg cagtttgaat 961 atcctttgtt tcagagccag atcatttctt ggaaagtgta ggcttacctc aaataaatgg1021 ctaacttata catattttta aagaaatatt tatattgtat ttatataatg tataaatggt1081 ttttatacca ataaatggca ttttaaaaaa ttc (2) SEQ ID NO: 2929 data: (i) sequence characteristics:

(A) length: 2759 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2929 description of the sequence: 1 aagcttaata taaacaagtt tcttgtcact gccaccacca cgaccaaaaa aagctaatca61 atcactatat ataatacata tatatactat atataataaa tatatatact atatataata catatataca ctatatataa tacatatata ctatatatac actatatact atatatacac181 atatatatta tgaatctata tatatactat atatactata tatactatgt atctatatat 241 actatatata gtatatatac tatctatcat atatactata tatactatat atactatgta tct6tatata tactatatat actatatata gtatatatac tatctatcta tatatatact 361 tgacaactca tctcattctg cgcagcttta aggagttcct gcagtccagc ctgagggctc1 atagtatata tgcatatata ctatatatac tatatattta tatatactat atactatata481 tactatatac tgtatatata ctatatatgt atgtatacgatatatatata tactatatat gtac 545 cacacaagct ctatctcccc tccaggagcc cagctatgaa ctccttctcc acaagcgcct 605 tcggtccagt tgccttctcc ctggggctgc tcctggtgtt gcctgctgcc ttccctgccc 665 cagtaccccc aggagaagat tccaaagatg tagccgcccc acacagacag ccactcacct 725 cttcagaacg aattgacaaa caaattcggt acatcctcga cggcatctca gccctgagaa 785 aggagacatg taacaagagt aacatgtgtg aaagcagcaa agaggcactg gcagaaaaca 845 acctgaacct tccaaagatg gctgaaaaag atggatgctt ccaatctgga ttcaatgagg 905 agacttgcct ggtgaaaatc atcactggtc ttttggagtt tgaggtatac ctagagtacc 965 tccagaacag atttgagagt agtgaggaac aagccagagc tgtgcagatg agtacaaaag1025 tcctgatcca gttcctgcag aaaaaggcaa agaatctaga tgcaataacc acccctgacc1085 caaccacaaa tgccagcctg ctgacgaagc tgcaggcaca gaaccagtgg ctgcaggaca1145 391205 ttcggcaaat gtagcatggg cacctcagat tgttgttgtt aatgggcatt ccttcttctg 12645 tgtccactgg gcacagaact tatgttgttc tctatggaga actaaaagta1325 tgagcgttag gacactattt taattatttt taatttatta atatttaaat atgtgaagct1385 gagttaattt atgtaagtga tatttatatt ttaagaagta ccacttgaaa cattttatgt1445 attagttttg aaataataat ggaaagtggc tatgcagttt gaatatcctt tgtttcagag1505 ccagatcatt tcttggaaag tgtacgctta cctcaaataa atggctaact tatacatatt1565 tttaaagaaa tatttatatt gtatttatat aatgtataaa atggttttta taccaataaa1625 tggcatttta aaaaattcag ca1647 gaattccggg aacgaaagag aagctctatc tcccctccag gagcccagct atgaactcct1707 tctccacaag cgccttcggt ccagttgcct tctccctggg gctgctcctg gtgttgcctg1767 ctgccttccc tgccccagta cccccaggag aagattccaa agatgtagcc gccccacaca1827 gacagccact cacctcttca gaacgaattg acaaacaaat tcggtacatc ctcgacggca1887 tctcagccct gagaaaggag acatgtaaca agagtaacat gtgtgaaagc agcaaagagg1947 cactggcaga aaacaacctg aaccttccaa agatggctga aaaagatgga tgcttccaat2007 ctggattcaa tgaggagact tgcctggtga aaatcatcac tggtcttttg gagtttgagg2067 597 tatacctaga gtacctccag aacagatttg agagtagtga ggaacaagcc agagctgtgc2127 agatgagtac aaaagtcctg atccagttcc tgcagaaaaa ggcaaagaat ctagatgcaa2187 taaccacccc tgacccaacc acaaatgcca gcctgctgac gaagctgcag gcacagaacc2247 2302 2307 2367 gcattccttc ttctggtcag aaacctgtcc actgggcaca gaacttatgt tgttctctat2427 ggagaactaa aagtatgagc gttaggacac tattttaatt atttttaatt tattaatatt2487 taaatatgtg aagctgagtt aatttatgta agtcatattt atatttttaa gaagtaccac25 ttgaaacatt ttatgtatta gttttgaaat aataatggaa agtggctatg cagtttgaat atcctttgtt tcagagccag atcatttctt ggaaagtgta ggcttacctc aaataaatgg2667 ctaacttata catattttta aagaaatatt tatattgtat ttatataatg tataaatggt2727 ttttatacca ataaatggca ttttaaaaaa ttc (2) SEQ ID NO: 2930 data: (i) sequence characteristics:

(A) length: 1194 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2930 description of the sequence: 1 ggatcctcct gcaagagaca ccatcctgag gggaagaggg cttctgaacc agcttgaccc 61 aataagaaat tcttgggtgc cgacggggac agcagattca gagcctagag ccgtgcctgc121 gtccgtagtt tccttctagc ttctttttga tttcaaatca agacttacag ggagagggag181 cgataaacac aaactctgca agatgccaca aggtcctcct ttgacatccc caacaaagaa 241 ggtgagtagt aatctccccc tttctgccct gaaccaagtg gcttcagtaa gtttcagggc 301 tccaggagac ctgggcatgc aggtgccgat gaaacagtgg tgaagagact cagtggcagt 361 ggcagtgggg agagcactcg cagcacaggc aaacctctgg cacaagagca aagtcctcac 421 tggaggattc ccaagggtca cttgggagag ggcaggcagc agccaacctc ctctaagtgg 481 gctgaagcag gtgaagaaat ggcagaagac gcggtggtgg caaaaaggag tcacacactc 541 cacctggaga cgccttgaag taactgcacg aaatttgagg gtggccaggc agttctacaa 601 cagccgcctc acagggagag ccagaacaca gcaagaactc agatgactgg tagtattacc 661 ttcttcataa tcccaggctt ggggggctgc gatggagtca gaggaaactc agttcagaac 721 atctttggtt tttacaatac aaattaactg gaacgctaaa ttctagcctg ttaatctggt 781 cactgaaaaa aaaaaaattt tttttttttc aaaaaacata gctttagctt attttttttt 841 tctctttgta aaacttcgtg catgacttca gctttactct tgtcaagaca tgccaagtgc 901 tgagtcacta ataaagaaaa aagaagtaaa ggaagagtgg ttctgcttct tagcgctagc 961 ctcaatgacg acctaagctg cacttttccc cctagttgtg tcttgcgatg ctaaaggacg1021 tcattgcaca atcttaataa ggtttccaat cagccccacc cgctctggcc ccaccctcac1081 cctccaacaa agatttatca aatgtgggat tttcccatga gtctcaatat tagagtctca1141 acccccaata aatataggac tggagatgtc tctgaggctc attctgccct cgag (2) SEQ ID NO: 2931 data: (i) sequence characteristics:

(A) length: 3319 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2931 description of the sequence: 1 ggcggtcccc tgttctcccc gctcaggtgc ggcgctgtgg caggaagcca ccccctcggt 61 cggccggtgc gcggggctgt tgcgccatcc gctccggctt tcgtaaccgc accctgggac 121 ggcccagaga cgctccagcg cgagttcctc aaatgttttc ctgcgttgcc aggaccgtcc 181 721 catgctaccg ggccggccgc ccagctggga ctgtgcactt gctggtggat gttccccccg 781 181 gccgctctga gtcatgtgcg agtgggaagt cgcactgaca ctgagccggg ccagagggag 241 aggagccgag cgcggcgcgg ggccgaggga ctcgcagtgt gtgtagagag ccgggctcct 301 gcggatgggg gctgcccccg gggcctgagc ccgcctgccc gcccaccgcc ccgccccgcc 361 cctgccaccc ctgccgcccg gttcccatta gcctgtccgc ctctgcggga ccatggagtg 421 gtagccgagg aggaagcatg ctggccgtcg gctgcgcgct gctggctgcc ctgctggccg 481 cgccgggagc ggcgctggcc ccaaggcgct gccctgcgca ggaggtggca agaggcgtgc 541 tgaccagtct gccaggagac agcgtgactc tgacctgccc gggggtagag ccggaagaca 601 atgccactgt tcactgggtg ctcaggaagc cggctgcagg ctcccacccc agcagatggg 661 ctggcatggg aaggaggctg ctgctgaggt cggtgcagct ccacgactct ggaaactatt 721 catgctaccg ggccggccgc ccagctggga ctgtgcactt gctggtggat gttccccccg 781 aggagcccca gctctcctgc ttccggaaga gccccctcag caatgttgtt tgtgagtggg 841 gtcctcggag caccccatcc ctgacgacaa aggctgtgct cttggtgagg aagtttcaga 901 acagtccggc cgaagacttc caggagccgt gccagtattc ccaggagtcc cagaagttct 961 cctgccagtt agcagtcccg gagggagaca gctctttcta catagtgtcc atgtgcgtcg1021 ccagtagtgt cgggagcaag ttcagcaaaa ctcaaacctt tcagggttgt ggaatcttgc1081 agcctgatcc gcctgccaac atcacagtca ctgccgtggc cagaaacccc cgctggctca1141 gtgtcacctg gcaagacccc cactcctgga actcatcttt ctacagacta cggtttgagc1201 tcagatatcg ggctgaacgg tcaaagacat tcacaacatg gatggtcaag gacctccagc1261 atcactgtgt catccacgac gcctggagcg gcctgaggca cgtggtgcag cttcgtgccc1321 aggaggagtt cgggcaaggc gagtggagcg agtggagccc ggaggccatg ggcacgcctt1381 ggacagaatc caggagtcct ccagctgaga acgaggtgtc cacccccatg caggcactta1441 ctactaataa agacgatgat aatattctct tcagagattc tgcaaatgcg acaagcctcc1501 cagtgcaaga ttcttcttca gtaccactgc ccacattcct ggttgctgga gggagcctgg1561 ccttcggaac gctcctctgc attgccattg ttctgaggtt caagaagacg tggaagctgc1621 gggctctgaa ggaaggcaag acaagcatgc atccgccgta ctctttgggg cagctggtcc1681 cggagaggcc tcgacccacc ccagtgcttg ttcctctcat ctccccaccg gtgtccccca1741 gcagcctggg gtctgacaat acctcgagcc acaaccgacc agatgccagg gacccacgga1801 gcccttatga catcagcaat acagactact tcttccccag atagctggct gggtggcacc1861 agcagcctgg accctgtgga tgacaaaaca caaacgggct cagcaaaaga tgcttctcac1921 tgccatgcca gcttatctca ggggtgtgcg gcctttggct tcacggaaga gccttgcgga1981 aggttctacg ccaggggaaa atcagcctgc tccagctgtt cagctggttg aggtttcaaa2041 cctccctttc caaatgccca gcttaaaggg gttagagtga acttgggcca ctgtgaagag2101 aaccatatca agactctttg gacactcaca cggacactca aaagctgggc aggttggtgg2161 gggcctcggt gtggagaagc ggctggcagc ccacccctca acacctctgc acaagctgca2221 ccctcaggca ggtgggatgg atttccagcc aaagcctcct ccagccgcca tgctcctggc2281 ccactgcatc gtttcatctt ccaactcaaa ctcttaaaac ccaagtgccc ttagcaaatt2341 ctgtttttct aggcctgggg acggctttta cttaaacgcc aaggcctggg ggaagaagct2401 ctctcctccc tttcttccct acagttcaaa aacagctgag ggtgagtggg tgaataatac2461 agtatgtcag ggcctggtcg ttttcaacag aattataatt agttcctcat tagcagtttt2521 gcctaaatgt gaatgatgat cctaggcatt tgctgaatac agaggcaact gcattggctt2581 tgggttgcag gacctcaggt gagaagcaga ggaaggagag gagaggggca cagggtctct2641 accatcccct gtagagtggg agctgagtgg gggatcacag cctctgaaaa ccaatgttct2701 ctcttctcca cctcccacaa aggagagcta gcagcaggga gggcttctgc catttctgag2761 27 2761 atcaaaacgg ttttactgca gctttgtttg ttgtcagctg aacctgggta actagggaag2821 ataatattaa ggaagacaat gtgaaaagaa aaatgagcct ggcaagaatg cgtttaaact2881 tggtttttaa aaaactgctg actgttttct cttgagaggg tggaatatcc aatattcgct2941 gtgtcagcat agaagtaact tacttaggtg tgggggaagc accataactt tgtttagccc3001 aaaaccaagt caagtgaaaa aggaggaaga gaaaaaatat tttcctgcca ggcatggagg3061 cccacgcact tcgggaggtc gaggcaggag gatcacttga gtccagaagt ttgagatcag3121 cctgggcaat gtgataaaac cccatctcta caaaaagcat aaaaattagc caagtgtggt3181 agagtgtgcc tgaagtccca gatacttggg gggctgaggt gggaggatct cttgagcctg3241 ggaggtcaag gctgcagtga gccgagattg caccactgca ctccagcctg gggtgacaga3301 gcaagtgaga ccctgtctc (2) SEQ ID NO: 2932 data: (i) sequence characteristics:

(A) length: 4513 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2932 sequence description: 1 ggatcctcct gcaagagaca ccatcctgag gggaagaggg cttctgaacc agcttgaccc 61 aataagaaat tcttgggtgc cgacggggac agcagattca gagcctagag ccgtgcctgc gtccgtagtt tccttctagc ttctttttga tttcaaatca agacttacag ggagagggag181 cgataaacac aaactctgca agatgccaca aggtcctcct ttgacatccc caacaaagaa 241 ggtgagtagt aatctccccc tttctgccct gaaccaagtg gcttcagtaa gtttcagggc 301 tccaggagac ctgggcatgc aggtgccgat gaaacagtgg tgaagagact cagtggcagt 361 ggcagtgggg agagcactcg cagcacaggc aaacctctgg cacaagagca aagtcctcac 421 tggaggattc ccaagggtca cttgggagag ggcaggcagc agccaacctc ctctaagtgg 481 gctgaagcag gtgaagaaat ggcagaagac gcggtggtgg caaaaaggag tcacacactc 541 cacctggaga cgccttgaag taactgcacg aaatttgagg gtggccaggc agttctacaa 601 cagccgcctc acagggagag ccagaacaca gcaagaactc agatgactgg tagtattacc 661 ttcttcataa tcccaggctt ggggggctgc gatggagtca gaggaaactc agttcagaac atctttggtt tttacaatac aaattaactg gaacgctaaa ttctagcctg ttaatctggt 781 cactgaaaaa aaaaaaattt tttttttttc aaaaaacata gctttagctt attttttttt 841 tctctttgta aaacttcgtg catgacttca gctttactct tgtcaagaca tgccaagtgc 901 tgagtcacta ataaagaaaa aagaagtaaa ggaagagtgg ttctgcttct tagcgctagc 961 ctcaatgacg acctaagctg cacttttccc cctagttgtg tcttgcgatg ctaaaggacg1021 tcattgcaca atcttaataa ggtttccaat cagccccacc cgctctggcc ccaccctcac1081 cctccaacaa agatttatca aatgtgggat tttcccatga gtctcaatat tagagtctca1141 acccccaata aatataggac tggagatgtc tctgaggctc attctgccct cgag1195 ggcggtcccc tgttctcccc gctcaggtgc ggcgctgtgg caggaagcca ccccctcggt1255 cggccggtgc gcggggctgt tgcgccatcc gctccggctt tcgtaaccgc accctgggac1315 ggcccagaga cgctccagcg cgagttcctc aaatgttttc ctgcgttgcc aggaccgtcc1375 gccgctctga gtcatgtgcg agtgggaagt cgcactgaca ctgagccggg ccagagggag1435 aggagccgag cgcggcgcgg ggccgaggga ctcgcagtgt gtgtagagag ccgggctcct1495 gcggatgggg gctgcccccggggcctgagc ccgcctgccc gcccaccgcc ccgccccgcc1555 cctgccaccc ctgccgcccg gttcccatta gcctgtccgc ctctgcggga ccatggagtg1615 gtagccgagg aggaagcatg ctggccgtcg gctgcgcgct gctggctgcc ctgctggccg1675 cgccgggagc ggcgctggcc ccaaggcgct gccctgcgca ggaggtggca agaggcgtgc1735 tgaccagtct gccaggagac agcgtgactc tgacctgccc gggggtagag ccggaagaca1795 atgccactgt tcactgggtg ctcaggaagc cggctgcagg ctcccacccc agcagatggg1855 ctggcatggg aaggaggctg ctgctgaggt cggtgcagct ccacgactct ggaaactatt1915 catgctaccg ggccggccgc ccagctggga ctgtgcactt gctggtggat gttccccccg1975 aggagcccca gctctcctgc ttccggaaga gccccctcag caatgttgtt tgtgagtggg2035 gtcctcggag caccccatcc ctgacgacaa aggctgtgct cttggtgagg aagtttcaga2095 acagtccggc cgaagacttc caggagccgt gccagtattc ccaggagtcc cagaagttct2155 cctgccagtt agcagtcccg gagggagaca gctctttcta catagtgtcc atgtgcgtcg2215 ccagtagtgt cgggagcaag ttcagcaaaa ctcaaacctt tcagggttgt ggaatcttgc2275 agcctgatcc gcctgccaac atcacagtca ctgccgtggc cagaaacccc cgctggctca2335 gtgtcacctg gcaagacccc cactcctgga actcatcttt ctacagacta cggtttgagc2395 tcagatatcg ggctgaacgg tcaaagacat tcacaacatg gatggtcaag gacctccagc2455 atcactgtgt catccacgac gcctggagcg gcctgaggca cgtggtgcag cttcgtgccc2515 aggaggagtt cgggcaaggc gagtggagcg agtggagccc ggaggccatg ggcacgcctt2575 ggacagaatc caggagtcct ccagctgaga acgaggtgtc cacccccatg caggcactta 2658 2695 cagtgcaaga ttcttcttca gtaccactgc ccacattcct ggttgctgga gggagcctgg2755 ccttcggaac gctcctctgc attgccattg ttctgaggtt caagaagacg tggaagctgc2815 gggctctgaa ggaaggcaag acaagcatgc atccgccgta ctctttgggg cagctggtcc2875 cggagaggcc tcgacccacc ccagtgcttg ttcctctcat ctccccaccg gtgtccccca2935 gcagcctggg gtctgacaat acctcgagcc acaaccgacc agatgccagg gacccacgga2995 gcccttatga catcagcaat acagactact tcttccccag atagctggct gggtggcacc3055 agcagcctgg accctgtgga tgacaaaaca caaacgggct cagcaaaaga tgcttctcac3115 tgccatgcca gcttatctca ggggtgtgcg gcctttggct tcacggaaga gccttgcgga3175 aggttctacg ccaggggaaa atcagcctgc tccagctgtt cagctggttg aggtttcaaa3235 cctccctttc caaatgccca gcttaaaggg gttagagtga acttgggcca ctgtgaagag3295 aaccatatca agactctttg gacactcaca cggacactca aaagctgggc aggttggtgg3355 gggcctcggt gtggagaagc ggctggcagc ccacccctca acacctctgc acaagctgca3415 ccctcaggca ggtgggatgg atttccagcc aaagcctcct ccagccgcca tgctcctggc3475 ccactgcatc gtttcatctt ccaactcaaa ctcttaaaac ccaagtgccc ttagcaaatt3535 ctgtttttct aggcctgggg acggctttta cttaaacgcc aaggcctggg ggaagaagct3595 ctctcctccc tttcttccct acagttcaaa aacagctgag ggtgagtggg tgaataatac3655 agtatgtcag ggcctggtcg ttttcaacag aattataatt agttcctcat tagcagtttt3715 gcctaaatgt gaatgatgat cctaggcatt tgctgaatac agaggcaact gcattggctt3775 tgggttgcag gacctcaggt gagaagcaga ggaaggagag gagaggggca cagggtctct3835 accatcccct gtagagtggg agctgagtgg gggatcacag cctctgaaaa ccaatgttct3895 ctcttctcca cctcccacaa aggagagcta gcagcaggga gggcttctgc catttctgag3955 atcaaaacgg ttttactgca gctttgtttg ttgtcagctg aacctgggta actagggaag4015 ataatattaa ggaagacaat gtgaaaagaa aaatgagcct ggcaagaatg cgtttaaact 4058 4135 gtgtcagcat agaagtaact tacttaggtg tgggggaagc accataactt tgtttagccc4195 aaaaccaagt caagtgaaaa aggaggaaga gaaaaaatat tttcctgcca ggcatggagg4255 cccacgcact tcgggaggtc gaggcaggag gatcacttga gtccagaagt ttgagatcag4315 cctgggcaat gtgataaaac cccatctcta caaaaagcat aaaaattagc caagtgtggt4375 agagtgtgcc tgaagtccca gatacttggg gggctgaggt gggaggatct cttgagcctg4435 ggaggtcaag gctgcagtga gccgagattg caccactgca ctccagcctg gggtgacaga4495 gcaagtgaga ccctgtctc (2) SEQ ID NO: 2933 data: (i) sequence characteristics:

(A) length: 1533 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2933 sequence description: 1 atacctaggc actaatttag ttccatatgt actatgtgta cctgaaaagt tgtgtggcaa61 tcaaattttc acaaatagaa tcctgtttta aatacactaa gaaagtacct actttatcct 121 ttaaacaaga ggtcagcaga ctttttctac aaagggtcag atagtaaaga ttttacacct 181 tttgtacaat acaatctcta tctcatctac ttagctctgc cattgttgca taaaagcagc 241 tgtagatgat acacaaatgg gtgaggctgt attccaaatg aaacgttatt tgcaaaaaca301 ggtggtagat taaatttggt cccaaggctt acttgggaaa aaaaaagatc ttttgaaaaa 361 gaaaaaataa atgaataatt tttttaaaaa attgttccct aggtcatagt ttgccagccc 421 ctgccctaaa caaataattc ttgaatgcct actgtggtgt gtaagatatg agtaaatacc 481 agggatacac agagaacaaa agagaaaaac tgctattctt gtgaaacttg gaagttggag 541 gtaagctatt taaaataaac ccacaataaa gtacttcaca tagtgcagac tgtttcttta 601 aatcaaaact cactccaaac aaccaattga ttcactttgt aagtttgaat ttttgtcttc 661 agattctttt aaagtgggcc cttagtcagg agcggtggct catgcctgta gtcctagcac 721 tttgggaggc tgaggcaggc agatcacttg aggtcaggag ttcgagacaa gcctggccaa 781 catggcgaaa ccccgtctcc actgaaaaca caaaaattag gctggcatag tggcatttgc 841 ctgtagtcct agctactcag gaggctgagg caggagaatt gcttgaacct gggaggtgaa 901 aattgcagtg agccgagatc atgctattgt actccagcct gggcaacaaa gcaagactcg 961 tctcaaaaaa ataaaaatta aaaaaataaa gtagcctcta gcctaagata gcttgagcct1021 aggtgtgaat ctactgcctt actctgatgt aagcacagta agtgtggggg ctgcagggaa1081 tatccaggag gaacaataat ttcagaggct ctgtctcttc atgtccttga cctctgctta1141 cagcagcaat acttttactc agacttcctg tttctggaac ttgccttctt ttttgctgtg1201 tttatacttc ccttgtctgt ggttagataa gtataaagcc ctagatctaa gcttctctgt1261 cttcctccct ccctcccttc ctcttactct cattcatttc atacacactg gctcacacat1321 ctactctctc tctctatctc tctcagaatg acaattctag gtacaacttt tggcatggtt1381 ttttctttac ttcaagtcgt ttctggagaa agtggctatg ctcaaaatgg tgagtcattt1441 ctaacttttc ttatggattt tggattatct gtagcatggt ttcaggttat tcagttccct1501 aagagacctg agtcaggcac tgggtttgag tgc (2) SEQ ID NO: 2934 data: (i) sequence characteristics:

(A) length: 1658 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2934 sequence description: 1 ctctctctct atctctctca gaatgacaat tctaggtaca acttttggca tggttttttc 61 tttacttcaa gtcgtttctg gagaaagtgg ctatgctcaa aatggagact tggaagatgc 121 agaactggat gactactcat tctcatgcta tagccagttg gaagtgaatg gatcgcagca 181 721 tagctcaggggagatggatc ctatcttact aaccatcagc attttgagtt ttttctctgt 781 181 ttcactgacc tgtgcttttg aggacccaga tgtcaacacc accaatctgg aatttgaaat 241 atgtggggcc ctcgtggagg taaagtgcct gaatttcagg aaactacaag agatatattt 301 catcgagaca aagaaattct tactgattgg aaagagcaat atatgtgtga aggttggaga 361 aaagagtcta acctgcaaaa aaatagacct aaccactata gttaaacctg aggctccttt 421 tgacctgagt gtcatctatc gggaaggagc caatgacttt gtggtgacat ttaatacatc 481 acacttgcaa aagaagtatg taaaagtttt aatgcatgat gtagcttacc gccaggaaaa 541 ggatgaaaac aaatggacgc atgtgaattt atccagcaca aagctgacac tcctgcagag 601 aaagctccaa ccggcagcaa tgtatgagat taaagttcga tccatccctg atcactattt 661 taaaggcttc tggagtgaat ggagtccaag ttattacttc agaactccag agatcaataa 721 tagctcaggg gagatggatc ctatcttact aaccatcagc attttgagtt ttttctctgt 781 cgctctgttg gtcatcttgg cctgtgtgtt atggaaaaaa aggattaagc ctatcgtatg 841 gcccagtctc cccgatcata agaagactct ggaacatctt tgtaagaaac caagaaaaaa 901 tttaaatgtg agtttcaatc ctgaaagttt cctggactgc cagattcata gggtggatga 961 cattcaagct agagatgaag tggaaggttt tctgcaagat acgtttcctc agcaactaga1021 agaatctgag aagcagaggc ttggagggga tgtgcagagc cccaactgcc catctgagga1081 tgtagtcgtc actccagaaa gctttggaag agattcatcc ctcacatgcc tggctgggaa1141 tgtcagtgca tgtgacgccc ctattctctc ctcttccagg tccctagact gcagggagag1201 tggcaagaat gggcctcatg tgtaccagga cctcctgctt agccttggga ctacaaacag1261 cacgctgccc cctccatttt ctctccaatc tggaatcctg acattgaacc cagttgctca1321 gggtcagccc attcttactt ccctgggatc aaatcaagaa gaagcatatg tcaccatgtc1381 cagcttctac caaaaccagt gaagtgtaag aaacccagac tgaacttacc gtgagcgaca1441 aagatgattt aaaagggaag tctagagttc ctagtctccc tcacagcaca gagaagacaa1501 aattagcaaa accccactac acagtctgca agattctgaa acattgcttt gaccactctt1561 cctgagttca gtggcactca acatgagtca agagcatcct gcttctacca tgtggatttg1621 gtcacaaggt ttaaggtgac ccaatgattc agctattt (2) SEQ ID NO: 2935 data: (i) sequence characteristics:

(A) length: 3191 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2935 sequence description: 1 atacctaggc actaatttag ttccatatgt actatgtgta cctgaaaagt tgtgtggcaa61 tcaaattttc acaaatagaa tcctgtttta aatacactaa gaaagtacct actttatcct 121 ttaaacaaga ggtcagcaga ctttttctac aaagggtcag atagtaaaga ttttacacct 181 721 tttgggaggc tgaggcaggc agatcacttg aggtcaggag ttcgagacaa gcctggccaa 781 181 tttgtacaat acaatctcta tctcatctac ttagctctgc cattgttgca taaaagcagc 241 tgtagatgat acacaaatgg gtgaggctgt attccaaatg aaacgttatt tgcaaaaaca 301 ggtggtagat taaatttggt cccaaggctt acttgggaaa aaaaaagatc ttttgaaaaa 361 gaaaaaataa atgaataatt tttttaaaaa attgttccct aggtcatagt ttgccagccc 421 ctgccctaaa caaataattc ttgaatgcct actgtggtgt gtaagatatg agtaaatacc 481 agggatacac agagaacaaa agagaaaaac tgctattctt gtgaaacttg gaagttggag 541 gtaagctatt taaaataaac ccacaataaa gtacttcaca tagtgcagac tgtttcttta 601 aatcaaaact cactccaaac aaccaattga ttcactttgt aagtttgaat ttttgtcttc 661 agattctttt aaagtgggcc cttagtcagg agcggtggct catgcctgta gtcctagcac 721 tttgggaggc tgaggcaggc agatcacttg aggtcaggag ttcgagacaa gcctggccaa 781 catggcgaaa ccccgtctcc actgaaaaca caaaaattag gctggcatag tggcatttgc 841 ctgtagtcct agctactcag gaggctgagg caggagaatt gcttgaacct gggaggtgaa 901 aattgcagtg agccgagatc atgctattgt actccagcct gggcaacaaa gcaagactcg 961 tctcaaaaaa ataaaaatta aaaaaataaa gtagcctcta gcctaagata gcttgagcct1021 aggtgtgaat ctactgcctt actctgatgt aagcacagta agtgtggggg ctgcagggaa1081 tatccaggag gaacaataat ttcagaggct ctgtctcttc atgtccttga cctctgctta1141 cagcagcaat acttttactc agacttcctg tttctggaac ttgccttctt ttttgctgtg1201 tttatacttc ccttgtctgt ggttagataa gtataaagcc ctagatctaa gcttctctgt1261 cttcctccct ccctcccttc ctcttactct cattcatttc atacacactg gctcacacat1321 ctactctctc tctctatctc tctcagaatg acaattctag gtacaacttt tggcatggtt1381 ttttctttac ttcaagtcgt ttctggagaa agtggctatg ctcaaaatgg tgagtcattt1441 ctaacttttc ttatggattt tggattatct gtagcatggt ttcaggttat tcagttccct1501 aagagacctg agtcaggcac tgggtttgag tgc1534 ctctctctct atctctctca gaatgacaat tctaggtaca acttttggca tggttttttc1594 tttacttcaa gtcgtttctg gagaaagtgg ctatgctcaa aatggagact tggaagatgc1654 agaactggat gactactcat tctcatgcta tagccagttg gaagtgaatg gatcgcagca1714 ttcactgacc tgtgcttttgaggacccaga tgtcaacacc accaatctgg aatttgaaat1774 atgtggggcc ctcgtggagg taaagtgcct gaatttcagg aaactacaag agatatattt1834 catcgagaca aagaaattct tactgattgg aaagagcaat atatgtgtga aggttggaga1894 aaagagtcta acctgcaaaa aaatagacct aaccactata gttaaacctg aggctccttt1954 tgacctgagt gtcatctatc gggaaggagc caatgacttt gtggtgacat ttaatacatc2014 acacttgcaa aagaagtatg taaaagtttt aatgcatgat gtagcttacc gccaggaaaa2074 ggatgaaaac aaatggacgc atgtgaattt atccagcaca aagctgacac tcctgcagag2134 aaagctccaa ccggcagcaa tgtatgagat taaagttcga tccatccctg atcactattt2194 taaaggcttc tggagtgaat ggagtccaag ttattacttc agaactccag agatcaataa2254 tagctcaggg gagatggatc ctatcttact aaccatcagc attttgagtt ttttctctgt2314 cgctctgttg gtcatcttgg cctgtgtgtt atggaaaaaa aggattaagc ctatcgtatg2374 gcccagtctc cccgatcata agaagactct ggaacatctt tgtaagaaac caagaaaaaa2434 tttaaatgtg agtttcaatc ctgaaagttt cctggactgc cagattcata gggtggatga2494 cattcaagct agagatgaag tggaaggttt tctgcaagat acgtttcctc agcaactaga2554 agaatctgag aagcagaggc ttggagggga tgtgcagagc cccaactgcc catctgagga2614 2674 tgtcagtgca tgtgacgccc ctattctctc ctcttccagg tccctagact gcagggagag2734 tggcaagaat gggcctcatg tgtaccagga cctcctgctt agccttggga ctacaaacag2794 cacgctgccc cctccatttt ctctccaatc tggaatcctg acattgaacc cagttgctca2854 gggtcagccc attcttactt ccctgggatc aaatcaagaa gaagcatatg tcaccatgtc2914 cagcttctac caaaaccagt gaagtgtaag aaacccagac tgaacttacc gtgagcgaca2974 aagatgattt aaaagggaag tctagagttc ctagtctccc tcacagcaca gagaagacaa3034 aattagcaaa accccactac acagtctgca agattctgaa acattgcttt gaccactctt3094 cctgagttca gtggcactca acatgagtca agagcatcct gcttctacca tgtggatttg3154 gtcacaaggt ttaaggtgac ccaatgattc agctattt (2) SEQ ID NO: 2936 data: (i) sequence characteristics:

(A) length: 1846 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2936 description of the sequence: 1 ctcagcctcg ctatggctcc cagcagcccc cggcccgcgc tgcccgcact cctggtcctg 61 ctcggggctc tgttcccagg acctggcaat gcccagacat ctgtgtcccc ctcaaaagtc 121 atcctgcccc ggggaggctc cgtgctggtg acatgcagca cctcctgtga ccagcccaag 181 721 tgttccctgg acgggctgtt cccagtctcg gaggcccagg tccacctggc actgggggac 781 181 ttgttgggca tagagacccc gttgcctaaa aaggagttgc tcctgcctgg gaacaaccgg 241 aaggtgtatg aactgagcaa tgtgcaagaa gatagccaac caatgtgcta ttcaaactgc 301 cctgatgggc agtcaacagc taaaaccttc ctcaccgtgt actggactcc agaacgggtg 361 gaactggcac ccctcccctc ttggcagcca gtgggcaaga accttaccct acgctgccag 421 gtggagggtg gggcaccccg ggccaacctc accgtggtgc tgctccgtgg ggagaaggag 481 ctgaaacggg agccagctgt gggggagccc gctgaggtca cgaccacggt gctggtgagg 541 agagatcacc atggagccaa tttctcgtgc cgcactgaac tggacctgcg gccccaaggg 601 ctggagctgt ttgagaacac ctcggccccc taccagctcc agacctttgt cctgccagcg 661 actcccccac aacttgtcag cccccgggtc ctagaggtgg acacgcaggg gaccgtggtc 721 tgttccctgg acgggctgtt cccagtctcg gaggcccagg tccacctggc actgggggac 781 cagaggttga accccacagt cacctatggc aacgactcct tctcggccaa ggcctcagtc 841 agtgtgaccg cagaggacga gggcacccag cggctgacgt gtgcagtaat actggggaac 901 cagagccagg agacactgca gacagtgacc atctacagct ttccggcgcc caacgtgatt 961 ctgacgaagc cagaggtctc agaagggacc gaggtgacag tgaagtgtga ggcccaccct1021 agagccaagg tgacgctgaa tggggttcca gcccagccac tgggcccgag ggcccagctc1081 ctgctgaagg ccaccccaga ggacaacggg cgcagcttct cctgctctgc aaccctggag1141 gtggccggcc agcttataca caagaaccag acccgggagc ttcgtgtcct gtatggcccc1201 cgactggacg agagggattg tccgggaaac tggacgtggc cagaaaattc ccagcagact1261 ccaatgtgcc aggcttgggg gaacccattg cccgagctca agtgtctaaa ggatggcact1321 ttcccactgc ccatcgggga atcagtgact gtcactcgag atcttgaggg cacctacctc1381 tgtcgggcca ggagcactca aggggaggtc acccgcgagg tgaccgtgaa tgtgctctcc1441 ccccggtatg agattgtcat catcactgtg gtagcagccg cagtcataat gggcactgca1501 ggcctcagca cgtacctcta taaccgccag cggaagatca agaaatacag actacaacag1561 gcccaaaaag ggacccccat gaaaccgaac acacaagcca cgcctccctg aacctatccc1621 gggacagggc ctcttcctcg gccttcccat attggtggca gtggtgccac actgaacaga1681 gtggaagaca tatgccatgc agctacacct accggccctg ggacgccgga ggacagggca1741 ttgtcctcag tcagatacaa cagcatttgg ggccatggta cctgcacacc taaaacacta1801 ggccacgcat ctgatctgta gtcacatgac taagccaaga ggaagg (2) SEQ ID NO: 2937 data: (i) sequence characteristics:

(A) length: 1041 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2937 sequence description: 1 ctaaagatct ccctccaggc agcccttggc tggtccctgc gagcccgtgg agactgccag 61 agatgtcctc tttcggttac aggaccctga ctgtggccct cttcaccctg atctgctgtc121 caggatcgga tgagaaggta ttcgaggtac acgtgaggcc aaagaagctg gcggttgagc181 ccaaagggtc cctcgaggtc aactgcagca ccacctgtaa ccagcctgaa gtgggtggtc241 tggagacctc tctaaataag attctgctgg acgaacaggc tcagtggaaa cattacttgg 301 tctcaaacat ctcccatgac acggtcctcc aatgccactt cacctgctcc gggaagcagg 361 agtcaatgaa ttccaacgtc agcgtgtacc agcctccaag gcaggtcatc ctgacactgc 421 aacccacttt ggtggctgtg ggcaagtcct tcaccattga gtgcagggtg cccaccgtgg 481 agcccctgga cagcctcacc ctcttcctgt tccgtggcaa tgagactctg cactatgaga 541 ccttcgggaa ggcagcccct gctccgcagg aggccacagc cacattcaac agcacggctg 601 acagagagga tggccaccgc aacttctcct gcctggctgt gctggacttg atgtctcgcg 661 gtggcaacat ctttcacaaa cactcagccc cgaagatgtt ggagatctat gagcctgtgt 721 cggacagcca gatggtcatc atagtcacgg tggtgtcggt gttgctgtcc ctgttcgtga 781 catctgtcct gctctgcttc atcttcggcc agcacttgcg ccagcagcgg atgggcacct 841 acggggtgcg agcggcttgg aggaggctgc cccaggcctt ccggccatag caaccatgag 901 tggcatggcc accaccacgg tggtcactgg aactcagtgt gactcctcag ggttgaggtc 961 cagccctggc tgaaggactg tgacaggcag cagagacttg ggacattgcc ttttctagcc1021 cgaatacaaa cacctggact t (2) SEQ ID NO: 2938 data: (i) sequence characteristics:

(A) length: 2887 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2938 description of the sequence: 1 ctcagcctcg ctatggctcc cagcagcccc cggcccgcgc tgcccgcact cctggtcctg 61 ctcggggctc tgttcccagg acctggcaat gcccagacat ctgtgtcccc ctcaaaagtc 121 atcctgcccc ggggaggctc cgtgctggtg acatgcagca cctcctgtga ccagcccaag 181 721 tgttccctgg acgggctgtt cccagtctcg gaggcccagg tccacctggc actgggggac 781 181 ttgttgggca tagagacccc gttgcctaaa aaggagttgc tcctgcctgg gaacaaccgg 241 aaggtgtatg aactgagcaa tgtgcaagaa gatagccaac caatgtgcta ttcaaactgc 301 cctgatgggc agtcaacagc taaaaccttc ctcaccgtgt actggactcc agaacgggtg 361 gaactggcac ccctcccctc ttggcagcca gtgggcaaga accttaccct acgctgccag 421 gtggagggtg gggcaccccg ggccaacctc accgtggtgc tgctccgtgg ggagaaggag 481 ctgaaacggg agccagctgt gggggagccc gctgaggtca cgaccacggt gctggtgagg 541 agagatcacc atggagccaa tttctcgtgc cgcactgaac tggacctgcg gccccaaggg 601 ctggagctgt ttgagaacac ctcggccccc taccagctcc agacctttgt cctgccagcg 661 actcccccac aacttgtcag cccccgggtc ctagaggtgg acacgcaggg gaccgtggtc 721 tgttccctgg acgggctgtt cccagtctcg gaggcccagg tccacctggc actgggggac 781 cagaggttga accccacagt cacctatggc aacgactcct tctcggccaa ggcctcagtc 841 agtgtgaccg cagaggacga gggcacccag cggctgacgt gtgcagtaat actggggaac 901 cagagccagg agacactgca gacagtgacc atctacagct ttccggcgcc caacgtgatt 961 ctgacgaagc cagaggtctc agaagggacc gaggtgacag tgaagtgtga ggcccaccct1021 agagccaagg tgacgctgaa tggggttcca gcccagccac tgggcccgag ggcccagctc1081 ctgctgaagg ccaccccaga ggacaacggg cgcagcttct cctgctctgc aaccctggag1141 gtggccggcc agcttataca caagaaccag acccgggagc ttcgtgtcct gtatggcccc1201 cgactggacg agagggattg tccgggaaac tggacgtggc cagaaaattc ccagcagact1261 ccaatgtgcc aggcttgggg gaacccattg cccgagctca agtgtctaaa ggatggcact1321 ttcccactgc ccatcgggga atcagtgact gtcactcgag atcttgaggg cacctacctc1381 tgtcgggcca ggagcactca aggggaggtc acccgcgagg tgaccgtgaa tgtgctctcc1441 ccccggtatg agattgtcat catcactgtg gtagcagccg cagtcataat gggcactgca1501 ggcctcagca cgtacctcta taaccgccag cggaagatca agaaatacag actacaacag1561 gcccaaaaag ggacccccat gaaaccgaac acacaagcca cgcctccctg aacctatccc1621 gggacagggc ctcttcctcg gccttcccat attggtggca gtggtgccac actgaacaga1681 gtggaagaca tatgccatgc agctacacct accggccctg ggacgccgga ggacagggca1741 ttgtcctcag tcagatacaa cagcatttgg ggccatggta cctgcacacc taaaacacta1801 ggccacgcat ctgatctgta gtcacatgac taagccaaga ggaagg1847 ctaaagatct ccctccaggc agcccttggc tggtccctgc gagcccgtgg agactgccag1907 agatgtcctc tttcggttac aggaccctga ctgtggccct cttcaccctg atctgctgtc1967 caggatcgga tgagaaggta ttcgaggtac acgtgaggcc aaagaagctg gcggttgagc2027 ccaaagggtc cctcgaggtc aactgcagca ccacctgtaa ccagcctgaa gtgggtggtc2087 tggagacctc tctaaataag attctgctgg acgaacaggc tcagtggaaa cattacttgg2147 tctcaaacat ctcccatgac acggtcctcc aatgccactt cacctgctcc gggaagcagg2207 2267 aacccacttt ggtggctgtg ggcaagtcct tcaccattga gtgcagggtg cccaccgtgg2327 agcccctgga cagcctcacc ctcttcctgt tccgtggcaa tgagactctg cactatgaga23 ccttcgggaa ggcagcccct gctccgcagg aggccacagc cacattcaac agcacggctg2447 acagagagga tggccaccgc aacttctcct gcctggctgt gctggacttg atgtctcgcg 867 gtggcaacat ctttcacaaa cactcagccc cgaagatgtt ggagatctat gagcctgtgt2567 cggacagcca gatggtcatc atagtcacgg tggtgtcggt gttgctgtcc ctgttcgtga catctgtcct gctctgcttc atcttcggcc agcacttgcg ccagcagcgg atgggcacct2687 acggggtgcg agcggcttgg aggaggctgc cccaggcctt ccggccatag caaccatgag2747 tggcatggcc accaccacgg tggtcactgg aactcagtgt gactcctcag ggttgaggtc2807 cagccctggc tgaaggactg tgacaggcag cagagacttg ggacattgcc ttttctagcc2867 cgaatacaaa cacctggact t (2) SEQ ID NO: 2939 data: (i) sequence characteristics:

(A) length: 1739 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2939 description of the sequence: 1 aatggccacc atggtaccat ccgtgttgtg gcccagggcc tgctggactc tgctggtctg 61 ctgtctgctg accccaggtg tccaggggca ggagttcctt ttgcgggtgg agccccagaa 121 ccctgtgctc tctgctggag ggtccctgtt tgtgaactgc agtactgatt gtcccagctt 181 721 ctgcacccta gacgggcttt ttccagcctc agaggcccag gtctacctgg cgctggggga 781 181 tgagaaaatc gccttggaga cgtccctatc aaaggagctg gtggccagtg gcatgggctg 241 ggcagccttc aatctcagca acgtgactgg caacagtcgg atcctctgct cagtgtactg 301 caatggctcc cagataacag gctcctctaa catcaccgtg tacgggctcc cggagcgtgt 361 ggagctggca cccctgcctc cttggcagcc ggtgggccag aacttcaccc tgcgctgcca 421 agtggagggt gggtcgcccc ggaccagcct cacggtggtg ctgcttcgct gggaggagga 481 gctgagccgg cagcccgcag tggaggagcc agcggaggtc actgccactg tgctggccag 541 cagagacgac cacggagccc ctttctcatg ccgcacagaa ctggacatgc agccccaggg 601 gctgggactg ttcgtgaaca cctcagcccc ccgccagctc cgaacctttg tcctgcccgt 661 gacccccccg cgcctcgtgg ccccccggtt cttggaggtg gaaacgtcgt ggccggtgga 721 ctgcacccta gacgggcttt ttccagcctc agaggcccag gtctacctgg cgctggggga 781 ccagatgctg aatgcgacag tcatgaacca cggggacacg ctaacggcca cagccacagc 841 cacggcgcgc gcggatcagg agggtgcccg ggagatcgtc tgcaacgtga ccctaggggg 901 cgagagacgg gaggcccggg agaacttgac ggtctttagc ttcctaggac ccattgtgaa 961 cctcagcgag cccaccgccc atgaggggtc cacagtgacc gtgagttgca tggctggggc1021 tcgagtccag gtcacgctgg acggagttcc ggccgcggcc ccggggcagc cagctcaact1081 tcagctaaat gctaccgaga gtgacgacgg acgcagcttc ttctgcagtg ccactctcga1141 ggtggacggc gagttcttgc acaggaacag tagcgtccag ctgcgagtcc tgtatggtcc1201 caaaattgac cgagccacat gcccccagca cttgaaatgg aaagataaaa cgagacacgt1261 gctgcagtgc caagccaggg gcaacccgta ccccgagctg cggtgtttga aggaaggctc1321 cagccgggag gtgccggtgg ggatcccgtt cttcgtcaac gtaacacata atggtactta1381 tcagtgccaa gcgtccagct cacgaggcaa atacaccctg gtcgtggtga tggacattga1441 ggctgggagc tcccactttg tccccgtctt cgtggcggtg ttactgaccc tgggcgtggt1501 gactatcgta ctggccttaa tgtacgtctt cagggagcac caacggagcg gcagttacca1561 tgttagggag gagagcacct atctgcccct cacgtctatg cagccgacag aagcaatggg1621 ggaagaaccg tccagagctg agtgacgctg ggatccggga tcaaagttgg cgggggcttg1681 gctgtgccct cagattccgc accaataaag ccttcaaacc ctaaaaaaaa aaaaaaaaa (2) SEQ ID NO: 2940 data: (i) sequence characteristics:

(A) length: 920 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2940 sequence description: 1 gcacggaggg gcagagaccc cggagcccca gccccaccat gaccctcggc cgccgactcg 61 cgtgtctttt cctcgcctgt gtcctgccgg ccttgctgct ggggggcacc gcgctggcct121 cggagattgt ggggggccgg cgagcgcggc cccacgcgtg gcccttcatg gtgtccctgc181 agctgcgcgg aggccacttc tgcggcgcca ccctgattgc gcccaacttc gtcatgtcgg241 ccgcgcactg cgtggcgaat gtaaacgtcc gcgcggtgcg ggtggtcctg ggagcccata301 acctctcgcg gcgggagccc acccggcagg tgttcgccgt gcagcgcatc ttcgaaaacg361 gctacgaccc cgtaaacttg ctcaacgaca tcgtgattct ccagctcaac gggtcggcca421 ccatcaacgc caacgtgcag gtggcccagc tgccggctca gggacgccgc ctgggcaacg481 gggtgcagtg cctggccatg ggctggggcc ttctgggcag gaaccgtggg atcgccagcg541 tcctgcagga gctcaacgtg acggtggtga cgtccctctg ccgtcgcagc aacgtctgca601 ctctcgtgag gggccggcag gccggcgtct gtttcgggga ctccggcagc cccttggtct661 gcaacgggct aatccacgga attgcctcct tcgtccgggg aggctgcgcc tcagggctct721 accccgatgc ctttgccccg gtggcacagt ttgtaaactg gatcgactct atcatccaac781 gctccgagga caacccctgt ccccaccccc gggacccgga cccggccagc aggacccact841 gagaagggct gcccgggtca cctcagctgc ccacacccac actctccagc atctggcaca901 ataaacattc tctgttttgt (2) SEQ ID NO: 2941 data: (i) sequence characteristics:

(A) length: 5292 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2941 sequence description: 1 ttgtcagagc cccagctggt gtccagggac tgaccgtgag cctgggtgaa agtgagttcc 61 ccgttggagg caccagacga ggagaggatg gaaggcctgg cccccaagaa tgagccctga 121 ggttcaggag cggctggagt gagccgcccc cagatctccg tccagctgcg ggtcccagag 181 721 tctctactaa aaatacaaaa aattagccag gcgcagtgct cacgcctgtg atcccagcac 781 181 gcctgggtta cactcggagc tcctggggga ggcccttgac gtgctcagtt cccaaacagg 241 aaccctggga aggaccagag aagtgcctat tgcgcagtga gtgcccgaca cagctgcatg 301 tggccggtat cacagggccc tgggtaaact gaggcaggcg acacagctgc atgtggccgg 361 tatcacaggg ccctgggtaa actgaggcag gcgacacagc tgcatgtggc cggtatcaca 421 gggccctggg taaactgagg caggcgacac agctgcatgt ggccggtatc acagggccct 481 gggtaaactg aggcaggcga cacagctgca tgtggccggt atcacggggc cctggataaa 541 cagaggcagg cgaggccacc cccatcaagt ccctcaggtc taggtttggc caggtttgga 601 aaaacacagc aacgctcggt aaatctgaat ttcgggtaag tatatcctgg gcctcatttg 661 gaagagactt agattaaaaa aaaaacgtcg agaccagccc ggccaacacg tgaaaccccg 721 tctctactaa aaatacaaaa aattagccag gcgcagtgct cacgcctgtg atcccagcac 781 tctgggaggt gaggcaggcg gatcacccga ggtcagctgt tcaagaccag cctggccgag 841 tgggcgaaac actgtctcta ctacaaatac aaaaattagc cgggagtgga ggcaggtgcc 901 tgtaatctca gctattcagg aggctgaggc aggagaatca cttgaacctg ggaggcggag 961 gttgccgtga gccgggatca cgccaccgca ctccagcctg ggcgatagag caagactctg1021 tctccaaaaa aataaattaa aaaacccaca ttgattatct gacatttgaa tgcgattgtg1081 catcctgaat tttgtctgga ggccccaccc gagccaatcc agcgtcttgt cccccttctc1141 ccccttttca tcaacgcctg tgccagggga gaggaagtgg agggcgctgg ccggccgtgg1201 ggcaatgcaa cggcctccca gcacagggct ataagaggag ccgggcgggc acggaggggc1261 agagaccccg gagccccagc cccaccatga ccctcggccg ccgactcgcg tgtcttttcc1321 tcgcctgtgt cctgccggcc ttgctgctgg ggggtgagtt tttgagtcca acctcccgct1381 gctccctctg tcccgggttc tgttcccacc tctccataga gggccccacc agtgtgggtc1441 cctcatcctc acaggggagg tgccagctgg gacaaggaga ccagaagaga ctgaggttct1501 gagcggtgaa gccaccacca ggagcccaga gttggggttt gaaaaccggg gagggggggg1561 gtggcaggtc gccctctggg ttcaagtcca ggtctgtctg tgccttggag gggcaccgtg1621 gggaggtccc tttgcctctc cgtgcctcag tttcctcatc tgaacaacag gggtgcgaac1681 ggccccgatc ccgtgggttc ccggtggggg atccagaggc cccgtggccg ggaggggaca1741 ggctccttgg caggcactca gcacccgcac ccggtgtgtc cccaggcacc gcgctggcct1801 cggagattgt ggggggccgg cgagcgcggc cccacgcgtg gcccttcatg gtgtccctgc1861 agctgcgcgg aggccacttc tgcggcgcca ccctgattgc gcccaacttc gtcatgtcgg1921 ccgcgcactg cgtggcgaat gtgtgagtag ccgggagtgt gcgcgcccgg ctcggacccc1981 gcgtcccggt ctgtgaggtg ggtgggggga ggccggggcc ggggctgctg gcgggggggg2041 gtccgtccag ggcccgcggg gcccctcgag caccttcgcc ctcaggcccg tcgccggatg 2101 gggacgacaa ggcgcggctg agccccgacc cccggggccg cccctgagcc ccgcctctcc 2161 ctcttttggc agaaacgtcc gcgcggtgcg ggtggtcctg ggagcccata acctctcgcg 2221 gcgggagccc acccggcagg tgttcgccgt gcagcgcatc ttcgaaaacg gctacgaccc 2281 cgtaaacttg ctcaacgaca tcgtgattct ccaggtgccg ccgggcgggc gggggcgagg 2341 ggcggaggcc agaggcctgg ggagggtgga ggcctgggga gggtggaggc tgcgacggag 2401 gggcgcgtcg gggccgctcg tggggacctg gggtggcatc gtgggctggg tggtcccctc 2461 tccgcgcctc ggtctgcacc tctgtgaaac gggaaaatac ccgccatggg ccgttgaggg 2521 gttaaatgag atcctgcagg gaggccccga tctgctgtca atcaacaaac ttactgagaa 2581 gggaggcccc gatctgttgt caatcaacaa acttactgag aagggaggcc ccgatctgtt 2641 gtcaatcaac aaacttactg agaagggagg ccccgatctg ctgtcaatca acaaacttac 2701 tgagaaggga ggccccgatg ttgtcaatca acaaacttac tgagaaggga ggccccgatc 2761 tgctgtcaat caaccaaact tactgagaag ggaggccccg atctgctgtc aatcatcaaa 2821 cttactgaga agggaggccc cgatctgctg tcaatcaaca aacttactga gaagggaggc 2881 ccccgatctg ttgtcaatca acaaacttac tgagaaggga ggccccgatc tgctgtcaat 2941 caacaaactt actgagattc tgtgtgtctc tccattcacc agtcctgtgg cccagggcag 3001 gggccgcctc tgtctttggg aaaaggggca aaagtcccca cctttccacc cctgtccgcg 3061 gcttgcagtt ctggttattt cctgggcgcc gggccccgtg gctcaggcct gtcatcccag 3121 cactttggga ggctgaggcg ggtggatcac gaggtcaggt gttcgagacc agcctgagca 3181 acatagtgaa accccgtctc tactaaaata cacaaaaaaa aaattagccg agtgtggttg 3241 tgggtgcctg taatgccaac tactcaggag gctgaggaag gagaatcgct tgaaccccgg 3301 aggcggagat tgcagtgagc tgagatcaca ccactgcact ccagcctggg tctcaaaaaa 3361 aaaaaaaaag attcctccct gggaagggtt agagggagag tttccttgtc actaagtttt 3421 ctcatagctc tcacccagtg cagtggcgcg atcgcagctc actacacctc catctcctgg 3481 3981 393542 3541 4636027 461 3661 aatatttata taattataaa tatcatttat aattataata tttattattt tataaaataa 3721 5 3781 atatatattt tttgagacaa gtctcgctct gtcgcccagg ctggagcgca gtgcacaatc 3841 tcactcactgcacctccgcc tcccaggttc aagcgattct cctgcctcag cctcccaggt 3901 agctgggact acaggcgccc gccaccacgc ctggctaatt tttggtattg ttagtagaga 3961 cggggtttaa ccatgttagc caggatggtc ttgatctcct gaccttttga ttggcccacc 4021 tcagcctccc aaaatgctgg gattataggc gtgagcaccg cacctggcaa ttttttttta 4081 ttatttttgt agacatgggg ctttgccaca ttgcccaggc tggtcttgaa tgcctggcct 4141 ggcctaagtg atcctcctgc ctcgccctcc caaagtgctg ggcttacaag catgagccac 4201 cgcgcccggc tgtagttttt ttgttaactg agcacctact gcttcctgca ctcaagccac 4261 atccagggac aacctccaac gccctgagcc ttggtgacgg ctcccactct acagatgggg 4321 aaaccgaggc ttgccttggg gagcagagtg tggggtgggt atcctgccct gcaggatccc 4381 agaaccacag tggaacctga gatggggaaa ctgaggcccg gagaggggag ggtcatcatc 4441 actgccccgt gtgacgcgct gacgatctgt ccccaccgcc acagctcaac gggtcggcca 4501 ccatcaacgc caacgtgcag gtggcccagc tgccggctca gggacgccgc ctgggcaacg 4561 45 4561 gggtgcagtg cctggccatg ggctggggcc ttctgggcag gaaccgtggg atcgccagcg 4621 tcctgcagga gctcaacgtg acggtggtga cgtccctctg ccgtcgcagc aacgtctgca 4681 ctctcgtgag gggccggcag gccggcgtct gtttcgtacg tgccctgggt gtccctctgc 4741 tccccacccg ctcccagccc ggtactgcag caacaggcac cgtggctaga ccctaggatg 4801 ggacttccca accctgacac gtcggcgggc aggtgggcag ggcctcgcag tccagcttcc 4861 ccaccttgtc tgcctccaca gggggactcc ggcagcccct tggtctgcaa cgggctaatc 4921 49 4921 cacggaattg cctccttcgt ccggggaggc tgcgcctcag ggctctaccc cgatgccttt 4981 gccccggtgg cacagtttgt aaactggatc gactctatca tccaacgctc cgaggacaac 5041 ccctgtcccc acccccggga cccggacccg gccagcagga cccactgaga agggctgccc 5101 gggtcacctc agctgcccac acccacactc tccagcatct ggcacaataa acattctctg 5161 ttttgtagaa tgtgtttgat gctccttggc tgtgtgattg ggtgttgaaa atggtcagta 5221 ggtcgggcgt ggtggctcac acctgtaatc ccagcacttt gggaggttga ggcaggcgga 5281 tcacttgagc tc (2) SEQ ID NO: 2942 data: (i) sequence characteristics:

(A) length: 6212 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2942 description of the sequence: 1 gcacggaggg gcagagaccc cggagcccca gccccaccat gaccctcggc cgccgactcg 61 cgtgtctttt cctcgcctgt gtcctgccgg cctgctgct ggggggcacc gcgctggcct121 cggagattgt ggggggccgg cgagcgcggc cccacgcgtg gcccttcatg gtgtccctgc181 agctgcgcgg aggccacttc tgcggcgcca ccctgattgc gcccaacttc gtcatgtcgg241 ccgcgcactg cgtggcgaat gtaaacgtcc gcgcggtgcg ggtggtcctg ggagcccata301 acctctcgcg gcgggagccc acccggcagg tgttcgccgt gcagcgcatc ttcgaaaacg361 gctacgaccc cgtaaacttg ctcaacgaca tcgtgattct ccagctcaac gggtcggcca421 ccatcaacgc caacgtgcag gtggcccagc tgccggctca gggacgccgc ctgggcaacg481 gggtgcagtg cctggccatg ggctggggcc ttctgggcag gaaccgtggg atcgccagcg541 tcctgcagga gctcaacgtg acggtggtga cgtccctctg ccgtcgcagc aacgtctgca601 ctctcgtgag gggccggcag gccggcgtct gtttcgggga ctccggcagc cccttggtct661 gcaacgggct aatccacgga attgcctcct tcgtccgggg aggctgcgcc tcagggctct721 accccgatgc ctttgccccg gtggcacagt ttgtaaactg gatcgactct atcatccaac781 gctccgagga caacccctgt ccccaccccc gggacccgga cccggccagc aggacccact841 gagaagggct gcccgggtca cctcagctgc ccacacccac actctccagc atctggcaca901 ataaacattc tctgttttgt 921 ttgtcagagc cccagctggt gtccagggac tgaccgtgag cctgggtgaa agtgagttcc 981 ccgttggagg caccagacga ggagaggatg gaaggcctgg cccccaagaa tgagccctga1041 ggttcaggag cggctggagt gagccgcccc cagatctccg tccagctgcg ggtcccagag1101 gcctgggtta cactcggagc tcctggggga ggcccttgac gtgctcagtt cccaaacagg1161 aaccctggga aggaccagag aagtgcctat tgcgcagtga gtgcccgaca cagctgcatg1221 tggccggtat cacagggccc tgggtaaact gaggcaggcg acacagctgc atgtggccgg1281 tatcacaggg ccctgggtaa actgaggcag gcgacacagc tgcatgtggc cggtatcaca1341 gggccctggg taaactgagg caggcgacac agctgcatgt ggccggtatc acagggccct1401 gggtaaactg aggcaggcga cacagctgca tgtggccggt atcacggggc cctggataaa1461 cagaggcagg cgaggccacc cccatcaagt ccctcaggtc taggtttggc caggtttgga1521 aaaacacagc aacgctcggt aaatctgaat ttcgggtaag tatatcctgg gcctcatttg1581 gaagagactt agattaaaaa aaaaacgtcg agaccagccc ggccaacacg tgaaaccccg1641 tctctactaa aaatacaaaa aattagccag gcgcagtgct cacgcctgtg atcccagcac1701 tctgggaggt gaggcaggcg gatcacccga ggtcagctgt tcaagaccag cctggccgag1761 tgggcgaaac actgtctcta ctacaaatac aaaaattagc cgggagtgga ggcaggtgcc1821 tgtaatctca gctattcagg aggctgaggc aggagaatca cttgaacctg ggaggcggag1881 gttgccgtga gccgggatca cgccaccgca ctccagcctg ggcgatagag caagactctg1941 tctccaaaaa aataaattaa aaaacccaca ttgattatct gacatttgaa tgcgattgtg2001 catcctgaat tttgtctgga ggccccaccc gagccaatcc agcgtcttgt cccccttctc2061 ccccttttca tcaacgcctg tgccagggga gaggaagtgg agggcgctgg ccggccgtgg2121 ggcaatgcaa cggcctccca gcacagggct ataagaggag ccgggcgggc acggaggggc2181 agagaccccg gagccccagc cccaccatga ccctcggccg ccgactcgcg tgtcttttcc2241 2242 2301 gctccctctg tcccgggttc tgttcccacc tctccataga gggccccacc agtgtgggtc cctcatcctc acaggggagg tgccagctgg gacaaggaga ccagaagaga ctgaggttct2421 gagcggtgaa gccaccacca ggagcccaga gttggggttt gaaaaccggg gagggggggg2481 8641 25 gggaggtccc tttgcctctc cgtgcctcag tttcctcatc tgaacaacag gggtgcgaac260 ggccccgatc ccgtgggttc ccggtggggg atccagaggc cccgtggccg ggaggggaca2661 ggctccttgg caggcactca gcacccgcac ccggtgtgtc cccaggcacc gcgctggcct2721 cggagattgt ggggggccgg cgagcgcggc cccacgcgtg gcccttcatg gtgtccctgc2781 agctgcgcgg aggccacttc tgcggcgcca ccctgattgc gcccaacttc gtcatgtcgg2841 ccgcgcactg cgtggcgaat gtgtgagtag ccgggagtgt gcgcgcccgg ctcggacccc2901 gcgtcccggt ctgtgaggtg ggtgggggga ggccggggcc ggggctgctg gcgggggggg2961 gtccgtccag ggcccgcggg gcccctcgag caccttcgcc ctcaggcccg tcgccggatg3021 gggacgacaa ggcgcggctg agccccgacc cccggggccg cccctgagcc ccgcctctcc3081 ctcttttggc agaaacgtcc gcgcggtgcg ggtggtcctg ggagcccata acctctcgcg3141 gcgggagccc acccggcagg tgttcgccgt gcagcgcatc ttcgaaaacg gctacgaccc3201 cgtaaacttg ctcaacgaca tcgtgattct ccaggtgccg ccgggcgggc gggggcgagg3261 ggcggaggcc agaggcctgg ggagggtgga ggcctgggga gggtggaggc tgcgacggag3321 gggcgcgtcg gggccgctcg tggggacctg gggtggcatc gtgggctggg tggtcccctc3381 tccgcgcctc ggtctgcacc tctgtgaaac gggaaaatac ccgccatggg ccgttgaggg3441 gttaaatgag atcctgcagg gaggccccga tctgctgtca atcaacaaac ttactgagaa3501 gggaggcccc gatctgttgt caatcaacaa acttactgag aagggaggcc ccgatctgtt 6361 gtcaatcaac aaacttactg agaagggagg ccccgatctg ctgtcaatca acaaacttac3621 tgagaaggga ggccccgatg ttgtcaatca acaaacttac tgagaaggga ggccccgatc3681 tgctgtcaat caaccaaact tactgagaag ggaggccccg atctgctgtc aatcatcaaa3741 cttactgaga agggaggccc cgatctgctg tcaatcaaca aacttactga gaagggaggc3801 ccccgatctg ttgtcaatca acaaacttac tgagaaggga ggccccgatc tgctgtcaat3861 caacaaactt actgagattc tgtgtgtctc tccattcacc agtcctgtgg cccagggcag 398621 gggccgcctc tgtctttggg aaaaggggca aaagtcccca cctttccacc cctgtccgcg3981 40 gcttgcagtt ctggttattt cctgggcgcc gggccccgtg gctcaggcct gtcatcccag4041 41058 acatagtgaa accccgtctc tactaaaata cacaaaaaaa aaattagccg agtgtggttg4161 41 4161 tgggtgcctg taatgccaac tactcaggag gctgaggaag gagaatcgct tgaaccccgg4221 aggcggagat tgcagtgagc tgagatcaca ccactgcact ccagcctggg tctcaaaaaa4281 aaaaaaaaag attcctccct gggaagggtt agagggagag tttccttgtc actaagtttt4341 ctcatagctc tcacccagtg cagtggcgcg atcgcagctc actacacctc catctcctgg4401 gctcaagcca ccctctcagc ttggaatggg gggtagctgg aaccacaggt gccaccacgt4461 ggtccaccac gtctggctaa tatatatata tacacacaca catacatata ttataaataa4521 taaatatata ttttatttaa ataaaatata taatatttat aattatttta taattataat4581 aatatttata taattataaa tatcatttat aattataata tttattattt tataaaataa4641 taaatataaa atatataaaa atatttttat aaataataaa atatatatat acacacatat4701 atatatattt tttgagacaa gtctcgctct gtcgcccagg ctggagcgca gtgcacaatc4761 tcactcactg cacctccgcc tcccaggttc aagcgattct cctgcctcag cctcccaggt4821 agctgggact acaggcgccc gccaccacgc ctggctaatt tttggtattg ttagtagaga4881 cggggtttaa ccatgttagc caggatggtc ttgatctcct gaccttttga ttggcccacc4941 tcagcctccc aaaatgctgg gattataggc gtgagcaccg cacctggcaa ttttttttta5001 ttatttttgt agacatgggg ctttgccaca ttgcccaggc tggtcttgaa tgcctggcct5061 ggcctaagtg atcctcctgc ctcgccctcc caaagtgctg ggcttacaag catgagccac5121 cgcgcccggc tgtagttttt ttgttaactg agcacctact gcttcctgca ctcaagccac5181 atccagggac aacctccaac gccctgagcc ttggtgacgg ctcccactct acagatgggg5241 aaaccgaggc ttgccttggg gagcagagtg tggggtgggt atcctgccct gcaggatccc5301 agaaccacagtggaacctga gatggggaaa ctgaggcccg gagaggggag ggtcatcatc5361 actgccccgt gtgacgcgct gacgatctgt ccccaccgcc acagctcaac gggtcggcca5421 ccatcaacgc caacgtgcag gtggcccagc tgccggctca gggacgccgc ctgggcaacg5481 gggtgcagtg cctggccatg ggctggggcc ttctgggcag gaaccgtggg atcgccagcg5541 tcctgcagga gctcaacgtg acggtggtga cgtccctctg ccgtcgcagc aacgtctgca5601 ctctcgtgag gggccggcag gccggcgtct gtttcgtacg tgccctgggt gtccctctgc5661 tccccacccg ctcccagccc ggtactgcag caacaggcac cgtggctaga ccctaggatg5721 ggacttccca accctgacac gtcggcgggc aggtgggcag ggcctcgcag tccagcttcc5781 ccaccttgtc tgcctccaca gggggactcc ggcagcccct tggtctgcaa cgggctaatc5841 cacggaattg cctccttcgt ccggggaggc tgcgcctcag ggctctaccc cgatgccttt5901 gccccggtgg cacagtttgt aaactggatc gactctatca tccaacgctc cgaggacaac5961 ccctgtcccc acccccggga cccggacccg gccagcagga cccactgaga agggctgccc6021 gggtcacctc agctgcccac acccacactc tccagcatct ggcacaataa acattctctg6081 ttttgtagaa tgtgtttgat gctccttggc tgtgtgattg ggtgttgaaa atggtcagta6141 ggtcgggcgt ggtggctcac acctgtaatc ccagcacttt gggaggttga ggcaggcgga6201 tcacttgagc tc (2) SEQ ID NO: 2943 data: (i) sequence characteristics:

(A) length: 1755 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2943 sequence description: 1 ctattgcagt atctttcagc ttccagtctt atctgaagac cccggcacca aagtgaccag 61 gaggcagaga agaacttcag aggagtctcg tcttgggctg cccgtgggtg agtgggaggg 121 tccgggactg cagaccggtg gcgatggcca ctctcccagc agcagaaacc tggatagacg 181 721 ccagactgtc tgctacagca accaagattg tcattggaag tatttggatt ctagcatttc 781 181 ggggtggagg cgtgggtgca gacgccgtga acctgaccgc ctcgctagct gccggggcgg 241 ccacgggggc agttgagact gggtggctgc aactgctgga ccaagctggc aacctctcct 301 cctccccttc cgcgctggga ctgcctgtgg cttcccccgc gccctcccag ccctgggcca 361 acctcaccaa ccagttcgtg cagccgtcct ggcgcatcgc gctctggtcc ctggcgtatg421 gtgtggtggt ggcagtggca gttttgggaa atctcatcgt catctggatc atcctggccc 481 acaagcgcat gaggactgtc accaactact tccttgtgaa cctggctttc tccgacgcct 541 ccatggccgc cttcaacacg ttggtcaatt tcatctacgc gcttcatagc gagtggtact 601 ttggcgccaa ctactgccgc ttccagaact tctttcctat cacagctgtg ttcgccagca 661 tctactccat gacggccatt gcggtggaca ggtatatggc tattattgat cccttgaaac 721 ccagactgtc tgctacagca accaagattg tcattggaag tatttggatt ctagcatttc 781 tacttgcctt ccctcagtgt ctttattcca aaaccaaagt catgccaggc cgtactctct 841 gctttgtgca atggccagaa ggtcccaaac aacatttcac ttaccatatt atcgtcatta 901 tactggtgta ctgtttccca ttgctcatca tgggtattac atacaccatt gttggaatta 961 ctctctgggg aggagaaatc ccaggagata cctgtgacaa gtatcatgag cagctaaagg1021 ccaaaagaaa ggttgtcaaa atgatgatta ttgttgtcat gacatttgct atctgctggc1081 tgccctatca tatttacttc attctcactg caatctatca acaactaaat agatggaaat1141 acatccagca ggtctacctg gctagctttt ggctggcaat gagctcaacc atgtacaatc1201 ccatcatcta ctgctgtctg aataaaagat ttcgagctgg cttcaagaga gcatttcgct1261 ggtgtccttt catcaaagtt tccagctatg atgagctaga gctcaagacc accaggtttc1321 atccaaaccg gcaaagcagt atgtacaccg tgaccagaat ggagtccatg acagtcgtgt1381 ttgaccccaa cgatgcagac accaccaggt ccagtcggaa gaaaagagca acgccaagag1441 acccaagttt caatggctgc tctcgcagga attccaaatc tgcctccgcc acttcaagtt1501 tcataagctc accctatacc tctgtggatg aatattctta attccatttc ctgaggtaaa1561 agattagtgt gagaccatca tggtgccagt ctaggacccc attctcctat ttatcagtcc1621 tgtcctatat accctctaga aacagaaagc aatttttagg cagctatggt caaattgaga1681 aaggtagtgt ataaatgtga caaagacact aataacatgt tagcctccac ccaaaataaa1741 atgggcttta aattt (2) SEQ ID NO: 2944 data: (i) sequence characteristics:

(A) length: 600 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2944 description of the sequence: 1 ctgcagaccg gtggcgatgg ccatcctccc agcagcagaa acctggatag acgggggtgg 61 aggcgtgggt gcagacgccg tgaacctgac cgcctcgcta gctgccgggg cggccacggg121 ggcagttgag actgggtggc tgcaactgct ggaccaagct ggcaacctct cctcctcccc181 ttccgcgctg ggactgcctg tgcgttcccc cgcgccctcc cagccctggg ccaacctcac241 caaccagttc gtgcagccgt cctggcgtat cgcgctctgg tccctggcgt atggtgtggt301 ggtggcagtg gcagttttgg gaaatctcat cgtcatctgg atcatcctgg cccacaagcg361 catgaggact gtcaccaact acttccttgt gaacctggct ttctccgacg cctccatggc421 cgccttcaac acgttggtca atttcatcta cgcgcttcat agcgagtggt actttggcgc481 caactactgc cgcttccaga acttctttcc tatcacagct gtgttcgcca gcatctactc541 catgacggcc attgcggtgg acaggtgagg agaggacaga cagagaggaa agagggagaa (2) SEQ ID NO: 2945 data: (i) sequence characteristics:

(A) length: 227 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2945 sequence description: 1 ggtatatggc tattattgat cccttgaaac ccagactgtc tgctacagca accaagattg 61 tcattggaag tatttggatt ctagcatttc tacttgcctt ccctcagtgt ctttattcca121 aaaccaaagt catgccaggc cgtactctct gctttgtgca atggccagaa ggtcccaaac181 aacatttcac gtaagttaat tctctattat ggttttcaat tcagttt (2) SEQ ID NO: 2946 data: (i) sequence characteristics:

(A) length: 201 base pairs

(B) Type (2): nucleic acids

(c) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2946 description of the sequence: 1 catgtgtttt tcttattttt catagttacc atattatcgt cattatactg gtgtactgtt 61 tcccattgct catcatgggt attacataca ccattgttgg aattactctc tggggaggag121 aaatcccagg agatacctgt gacaagtatc atgagcagct aaaggccaaa agaaaggtac181 tggtccatgt tgtttaccta g (2) SEQ ID NO: 2947 data: (i) sequence characteristics:

(A) length: 255 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2947 sequence description: 1 caaatgactt tttctttata ggttgtcaaa atgatgatta ttgttgtcat gacatttgct 61 atctgctggc tgccctatca tatttacttc attctcactg caatctatca acaactaaat121 agatggaaat acatccagca ggtctacctg gctagctttt ggctggcaat gagctcaacc181 atgtacaatc ccatcatcta ctgctgtctg aataaaaggt aaaaacaaaa ctacgaaatg241 caagttgctt gtcac (2) SEQ ID NO: 2948 for data: (i) sequence characteristics:

(A) length: 449 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2948 sequence description: 1 aaaataactt ttctttctgt ggcctgcttt tcctcagatt tcgagctggc ttcaagagag 61 catttcgctg gtgtcctttc atcaaagttt ccagctatga tgagctagag ctcaagacca121 ccaggtttca tccaaaccgg caaagcagta tgtacaccgt gaccagaatg gagtccatga181 cagtcgtgtt tgaccccaac gatgcagaca ccaccaggtc cagtcggaag aaaagagcaa241 cgccaagaga cccaagtttc aatggctgct ctcgcaggaa ttccaaatct gcctccgcca301 cttcaagttt cataagctca ccctatacct ctgtggatga atattcttaa ttccatttcc361 tgaggtaaaa gattagtgtg agaccatcat ggtgccagtc taggacccca ttctcctatt421 tatcagtcct gtcctatata ccctctaga (2) SEQ ID NO: 2949 data: (i) sequence characteristics:

(A) length: 3487 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2949 sequence description: 1 ctgcagaccg gtggcgatgg ccatcctccc agcagcagaa acctggatag acgggggtgg 61 aggcgtgggt gcagacgccg tgaacctgac cgcctcgcta gctgccgggg cggccacggg121 ggcagttgag actgggtggc tgcaactgct ggaccaagct ggcaacctct cctcctcccc181 721 tccgggactg cagaccggtg gcgatggcca ctctcccagc agcagaaacc tggatagacg 781 181 ttccgcgctg ggactgcctg tgcgttcccc cgcgccctcc cagccctggg ccaacctcac241 caaccagttc gtgcagccgt cctggcgtat cgcgctctggtccctggcgt atggtgtggt301 ggtggcagtg gcagttttgg gaaatctcat cgtcatctgg atcatcctgg cccacaagcg361 catgaggact gtcaccaact acttccttgt gaacctggct ttctccgacg cctccatggc421 cgccttcaac acgttggtca atttcatcta cgcgcttcat agcgagtggt actttggcgc481 caactactgc cgcttccaga acttctttcc tatcacagct gtgttcgcca gcatctactc541 catgacggcc attgcggtgg acaggtgagg agaggacaga cagagaggaa agagggagaa 601 ctattgcagt atctttcagc ttccagtctt atctgaagac cccggcacca aagtgaccag 661 gaggcagaga agaacttcag aggagtctcg tcttgggctg cccgtgggtg agtgggaggg 721 tccgggactg cagaccggtg gcgatggcca ctctcccagc agcagaaacc tggatagacg 781 ggggtggagg cgtgggtgca gacgccgtga acctgaccgc ctcgctagct gccggggcgg 841 ccacgggggc agttgagact gggtggctgc aactgctgga ccaagctggc aacctctcct 901 cctccccttc cgcgctggga ctgcctgtgg cttcccccgc gccctcccag ccctgggcca 961 acctcaccaa ccagttcgtg cagccgtcct ggcgcatcgc gctctggtcc ctggcgtatg1021 gtgtggtggt ggcagtggca gttttgggaa atctcatcgt catctggatc atcctggccc1081 acaagcgcat gaggactgtc accaactact tccttgtgaa cctggctttc tccgacgcct1141 ccatggccgc cttcaacacg ttggtcaatt tcatctacgc gcttcatagc gagtggtact1201 ttggcgccaa ctactgccgc ttccagaact tctttcctat cacagctgtg ttcgccagca1261 tctactccat gacggccatt gcggtggaca ggtatatggc tattattgat cccttgaaac1321 ccagactgtc tgctacagca accaagattg tcattggaag tatttggatt ctagcatttc1381 tacttgcctt ccctcagtgt ctttattcca aaaccaaagt catgccaggc cgtactctct1441 gctttgtgca atggccagaa ggtcccaaac aacatttcac ttaccatatt atcgtcatta1501 tactggtgta ctgtttccca ttgctcatca tgggtattac atacaccatt gttggaatta1561 ctctctgggg aggagaaatc ccaggagata cctgtgacaa gtatcatgag cagctaaagg1621 ccaaaagaaa ggttgtcaaa atgatgatta ttgttgtcat gacatttgct atctgctggc1681 tgccctatca tatttacttc attctcactg caatctatca acaactaaat agatggaaat1741 acatccagca ggtctacctg gctagctttt ggctggcaat gagctcaacc atgtacaatc1801 ccatcatcta ctgctgtctg aataaaagat ttcgagctgg cttcaagaga gcatttcgct1861 ggtgtccttt catcaaagtt tccagctatg atgagctaga gctcaagacc accaggtttc1921 atccaaaccg gcaaagcagt atgtacaccg tgaccagaat ggagtccatg acagtcgtgt1981 ttgaccccaa cgatgcagac accaccaggt ccagtcggaa gaaaagagca acgccaagag6861 2101 695 2 2161 agattagtgt gagaccatca tggtgccagt ctaggacccc attctcctat ttatcagtcc2221 tgtcctatat accctctaga aacagaaagc aatttttagg cagctatggt caaattgaga2281 aaggtagtgt ataaatgtga caaagacact aataacatgt tagcctccac ccaaaataaa2341 atgggcttta aattt2356 ggtatatggc tattattgat cccttgaaac ccagactgtc tgctacagca accaagattg2416 tcattggaag tatttggatt ctagcatttc tacttgcctt ccctcagtgt ctttattcca2476 362536 aaaccaaagt catgccaggc cgtactctct gctttgtgca atggccagaa ggtcccaaac 2583 2643 362703 aaaccaaagt catgccaggc cgtactctct gctttgtgca atggccagaa ggtcccaaac agaaaggtac2763 tggtccatgt tgtttaccta g2784 caaatgactt tttctttata ggttgtcaaa atgatgatta ttgttgtcat gacatttgct2844 atctgctggc tgccctatca tatttacttc attctcactg caatctatca acaactaaat2904 agatggaaat acatccagca ggtctacctg gctagctttt ggctggcaat gagctcaacc2964 atgtacaatc ccatcatcta ctgctgtctg aataaaaggt aaaaacaaaa ctacgaaatg3024 caagttgctt gtcac3039 aaaataactt ttctttctgt ggcctgcttt tcctcagatt tcgagctggc ttcaagagag3099 catttcgctg gtgtcctttc atcaaagttt ccagctatga tgagctagag ctcaagacca3159 ccaggtttca tccaaaccgg caaagcagta tgtacaccgt gaccagaatg gagtccatga3219 cagtcgtgtt tgaccccaac gatgcagaca ccaccaggtc cagtcggaag aaaagagcaa3279 cgccaagaga cccaagtttc aatggctgct ctcgcaggaa ttccaaatct gcctccgcca3339 cttcaagttt cataagctca ccctatacct ctgtggatga atattcttaa ttccatttcc3399 tgaggtaaaa gattagtgtg agaccatcat ggtgccagtc taggacccca ttctcctatt3459 tatcagtcct gtcctatata ccctctaga (2) SEQ ID NO: 2950 data:

(i) sequence characteristics:

(A) length: 2206 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2950 sequence description: 1 ctagtctttc agccttcagg ctgtttttgg cttgaagctc tcttggcctc ctagtttcta 61 cctaatcatg tccctggtgg aggccatcag cctctggaat gaaggggtgc tggcagcgga121 caagaaggac tggaagggag ccctggatgc cttcagtgcc gtccaggacc cccactcccg181721 ccctctgcaa ccacaggcag ctgagcctcc acccagaccg aaaaccccag agatcttcag 781 181 gatttgcttc aacattggct gcatgtacac tatcctgaag aacatgactg aagcagagaa241 ggcctttacc agaagcatta accgagacaa gcacttggca gtggcttact tccaacgagg301 gatgctctac taccagacag agaaatatga tttggctatc aaagacctta aagaagcctt361 gattcagctt cgagggaacc agctgataga ctataagatc ctggggctcc agttcaagct421 gtttgcctgt gaggtgttat ataacattgc tttcatgtat gccaagaagg aggaatggaa 481 aaaagctgaa gaacagttag cattggccac gagcatgaag tctgagccca gacattccaa 541 aatcgacaag gcgatggagt gtgtctggaa gcagaagcta tatgagccag tggtgatccc 601 tgtgggcaag ctgtttcgac caaatgagag acaagtggct cagctggcca agaaggatta 661 cctaggcaag gcgacggtcg tggcatctgt ggtggatcaa gacagtttct ctgggtttgc 721 ccctctgcaa ccacaggcag ctgagcctcc acccagaccg aaaaccccag agatcttcag 781 ggctctggaa ggggaggctc accgtgtgct atttgggttt gtgcctgaga caaaagaaga 841 gctccaggtc atgccaggga acattgtctt tgtcttgaag aagggcaatg ataactgggc 901 cacggtcatg ttcaacgggc agaaggggct tgttccctgc aactaccttg aaccagttga 961 gttgcggatc caccctcagc agcagcccca ggaggaaagc tctccgcagt ccgacatccc1021 agctcctcct agttccaaag cccctggaaa accccagctg tcaccaggcc agaaacaaaa1081 agaagagcct aaggaagtga agctcagtgt tcccatgccc tacacactca aggtgcacta1141 caagtacacg gtagtcatga agactcagcc cgggctcccc tacagccagg tccgggacat1201 ggtgtctaag aaactggagc tccggctgga acacactaag ctgagctatc ggcctcggga1261 cagcaatgag ctggtgcccc tttcagaaga cagcatgaag gatgcctggg gccaggtgaa1321 aaactactgc ctgactctgt ggtgtgagaa cacagtgggt gaccaaggct ttccagatga1381 acccaaggaa agtgaaaaag ctgatgctaa taaccagaca acagaacctc agcttaagaa1441 aggcagccaa gtggaggcac tcttcagtta tgaggctacc caaccagagg acctggagtt1501 tcaggaaggg gatataatcc tggtgttatc aaaggtgaat gaagaatggc tggaagggga1561 gtgcaaaggg aaggtgggca ttttccccaa agtttttgtt gaagactgcg caactacaga1621 tttggaaagc actcggagag aagtctagga tgtttcacaa actacaaagc tgaagaaaat1681 gaagccctat tacttgtttg taagatttag cacccttctg ctgtatactg tactgagaca1741 ttacagtttg gaagtgttaa ctatttattc cctgttaaaa tttaacctac tagacaatga1801 tgtgagtacc caggatgatt tcctggggca cagtgggtga ggagatgggg acaggtgaat1861 ggaggagtta ggggagagga aaagtggatg gaagtgtctg gaaagggcac gagagagtct1921 tccaggtact gatcctgttt cttgctctga gtgctagcta gccagctgtg ttcacactgt1981 aaacattcat caagctgtac atttggtgca cttttctgtg tcataccaca ataaaaaaaa2041 acctatcatc atcttacaaa aacaagacac ccaagtccag gcccaaggag taagtacaaa2101 tattcctgtt tctgaaccat tactgtaatt ggctcttaag gcttgaagta accttatagg2161 ttactcataa ggcatataca aataaacttg tttgttttct tttttc (2) SEQ ID NO: 2951 data: (i) sequence characteristics:

(A) length: 2206 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2951 sequence description: 1 ctagtctttc agccttcagg ctgtttttgg cttgaagctc tcttggcctc ctagtttcta 61 cctaatcatg tccctggtgg aggccatcag cctctggaat gaaggggtgc tggcagcgga121 caagaaggac tggaagggag ccctggatgc cttcagtgcc gtccaggacc cccactcccg181 gatttgcttc aacattggct gcatgtacac tatcctgaag aacatgactg aagcagagaa241 ggcctttacc agaagcatta accgagacaa gcacttggca gtggcttact tccaacgagg301 gatgctctac taccagacag agaaatatga tttggctatc aaagacctta aagaagcctt361 gattcagctt cgagggaacc agctgataga ctataagatc ctggggctcc agttcaagct421 gtttgcctgt gaggtgttat ataacattgc tttcatgtat gccaagaagg aggaatggaa 481 aaaagctgaa gaacagttag cattggccac gagcatgaag tctgagccca gacattccaa 541 aatcgacaag gcgatggagt gtgtctggaa gcagaagcta tatgagccag tggtgatccc 601 tgtgggcaag ctgtttcgac caaatgagag acaagtggct cagctggcca agaaggatta 661 cctaggcaag gcgacggtcg tggcatctgt ggtggatcaa gacagtttct ctgggtttgc 721 ccctctgcaa ccacaggcag ctgagcctcc acccagaccg aaaaccccag agatcttcag 781 ggctctggaa ggggaggctc accgtgtgct atttgggttt gtgcctgaga caaaagaaga 841 gctccaggtc atgccaggga acattgtctt tgtcttgaag aagggcaatg ataactgggc 901 cacggtcatg ttcaacgggc agaaggggct tgttccctgc aactaccttg aaccagttga 961 gttgcggatc caccctcagc agcagcccca ggaggaaagc tctccgcagt ccgacatccc1021 agctcctcct agttccaaag cccctggaaa accccagctg tcaccaggcc agaaacaaaa1081 agaagagcct aaggaagtga agctcagtgt tcccatgccc tacacactca aggtgcacta1141 caagtacacg gtagtcatga agactcagcc cgggctcccc tacagccagg tccgggacat1201 ggtgtctaag aaactggagc tccggctgga acacactaag ctgagctatc ggcctcggga1281 cagcaatgag ctggtgcccc tttcagaaga cagcatgaag gatgcctggg gccaggtgaa1321 aaactactgc ctgactctgt ggtgtgagaa cacagtgggt gaccaaggct ttccagatga1381 acccaaggaa agtgaaaaag ctgatgctaa taaccagaca acagaacctc agcttaagaa1441 aggcagccaa gtggaggcac tcttcagtta tgaggctacc caaccagagg acctggagtt1501 tcaggaaggg gatataatcc tggtgttatc aaaggtgaat gaagaatggc tggaagggga1561 gtgcaaaggg aaggtgggca ttttccccaa agtttttgtt gaagactgcg caactacaga1621 tttggaaagc actcggagag aagtctagga tgtttcacaa actacaaagc tgaagaaaat1681 gaagccctat tacttgtttg taagatttag cacccttctg ctgtatactg tactgagaca1741 ttacagtttg gaagtgttaa ctatttattc cctgttaaaa tttaacctac tagacaatga1801 tgtgagtacc caggatgatt tcctggggca cagtgggtga ggagatgggg acaggtgaat1861 ggaggagtta ggggagagga aaagtggatg gaagtgtctg gaaagggcac gagagagtct1921 tccaggtact gatcctgttt cttgctctga gtgctagcta gccagctgtg ttcacactgt1981 aaacattcat caagctgtac atttggtgca cttttctgtg tcataccaca ataaaaaaaa2041 acctatcatc atcttacaaa aacaagacac ccaagtccag gcccaaggag taagtacaaa2101 tattcctgtt tctgaaccat tactgtaatt ggctcttaag gcttgaagta accttatagg2161 ttactcataa ggcatataca aataaacttg tttgttttct tttttc (2) SEQ ID NO: 2952 data: (i) sequence characteristics:

(A) length: 273 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2952 sequence description: 1 gcagagctgg gcaccacagg gagctaggct ctgtgagccg tggctcatct cacacctcct 61 cactgccttg catcatggcc atgtctggac ccttctctcc tcaggccttt accagaagca121 ttaaccgaga caagcacttg gcagtggctt acttccaacg agggatgctc tactaccaga181 cagagaagta agtggttcaa tgttgcacca actggaggat ttcagagaga aacccaaggg241 gtctcagtgt tgcgggcttg gtgtttgagc agt (2) SEQ ID NO: 2953 data: (i) sequence characteristics:

(A) length: 420 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2953 sequence description: 1 ggtcagaagg aactgaaagg cttcttgtcc cagtgagata gctggggaag ggagaagcag 61 actcacattt tatgctgcat ttatttctcc atccactaga ctgctgattt tctccctctg121 tcctggagat atgatttggc tatcaaagac cttaaagaag ccttgattca gcttcgaggg181 aaccagctga tagactataa gatcctgggg ctccagttca agctgtttgc ctgtgaggta241 aggagaacag ggcctggctg ggcaggaggg gatcatggct ggatggatgg ctgacagtca301 gatgcacagt gatctgttga cacctccagg agcttggaaa agccatttct cctctgcctt361 gagactcaga ttttccttga agaaaagact gagatggatt atttcaggct catcaaggca (2) SEQ ID NO: 2954 data: (i) sequence characteristics:

(A) length: 780 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2954 description of the sequence: 1 ttccctggca ccttgatttg gagtagtctc aagttttatg tttgcggtct gtacttttct 61 aggtgttata taacattgct ttcatgtatg ccaagaagga ggaatggaaa aaagctgaag121 aacagttagc attggccacg agcatgaagt ctgagcccag acattccaaa atcgacaagg181 cgatggagtg tgtctgggta agcgtattgg tgatgcaggt gttgagagga tgtcactgga241 ttctcatttg tctcagagga catgccattg agaagccata aaagtggtgc ttttactttc301 tgtgagtctg ggtaacactg atcttagggt atagttccac ttaagatctt gaatctgtgc361 tgagaagctg aggcctagag tatgggatgg cagagcctgg catcacacca cccttggagt421 ggggctcctt ggcaatgcag gagaacagga tattggatgc tggagcagtg ctgcacagac481 tctaagcact gagagggcag agtccatgtc tgcttgatca ccactgagtc ctcacagcct541 ggcacagtgc taggccacat aacagctctc agcaaaaatg ttttgttttg ttttgagatg601 gagtctcgct ctgttgccca gcctggagtg cagtggtgtg atctcagctc actgcagcct661 ctgcctcctg ggttcaagca attctgctgc ctcagccgcc caagtagctg ggattacagg721 tgcatgccac catgcctggc taatttttgt atttttaata gagacggggt tttgccatgt2) SEQ ID NO: 2955 data: (i) sequence characteristics:

(A) length: 278 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2955 description of the sequence: 1 gaattcttgc atctattcac tgagggaggc aggacaagca tcgtcacccc cattttcaca 61 taagggaatg ctacgttttc tgtgttacag aagcagaagc tatatgagcc agtggtgatc121 cctgtgggca agctgtttcg accaaatgag agacaagtgg ctcagctggc caagaaggat181 tacctaggca aggcgacggt aggtgggatt gctcagcttc ccctgagtct tcctgtggcc241 cgggcatgtg gagcaaggtg ggagggactc ttgagaag (2) SEQ ID NO: 2956 data: (i) sequence characteristics:

(A) length: 705 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2956 sequence description: 1 gcaggagaat cacttgaacc tggaaggcag aggttgcagt gagctgagtc actccactgc 61 actccagtct gggtaacaga gcgtgctccg tctcaaaaaa aaaaaaaaaa aaaaagataa121 tttgatgtta tacaaattgc acctcaatta aaaacatttc ttttttaaga gagaagaaag181 caagcctgtg ttagcagggg tggggtgaat gctcgtttct tcagttgctg aaatcctaat241 ccagaggctc aggaatctaa tccttagtta ctgtccacgt ctgaaaccag gctcacgtaa301 gaacaggtct agggcatgag caaagaggga gacccagaag aatggaaaca gtgctggcag361 agcctcacac cctcctgtcc ttgattttag gtcgtggcat ctgtggtgga tcaagacagt421 ttctctgggt ttgcccctct gcaaccacag gtaaggcagt cctgaccttc tccatggacc481 taggtctcga gagctttctg tgaagcattc aattcgagag actatgtgtg ctgagttgcc541 tgattgtaag ggctccttca agtggccctc agtgcagctg aggattctgc ctgccctctc601 tcagtcctgg tttccatggc tggtgaggaa ataaggcagt gtcaggcttc accccaagtc661 ctctgaagct aactctcctg cttccccaca aatgccggtc ttcac (2) SEQ ID NO: 2957 data: (i) sequence characteristics:

(A) length: 709 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2957 description of the sequence: 1 actgaattgc tgtgctagtg aaacctgtac ctgggagctg gtgggaggtg ttatttccca 61 gtgtttagtc agggtgactg tgccctcttc ctagacagtg ttctcatcag tcagaaatgc121 gttatttgat tttctggtct ggaagaatgc tcaaattacc attagccgtt tgttgtctct181 cccctgcttt ccctcattgc cttttccgtt ttcacttctc ctgaatgttc aataggcagc241 tgagcctcca cccagaccga aaaccccaga gatcttcagg taagttagat tcaaatccat301 aaatagaata tcaagcgcca agcctgagct gatggcaaga aagggaggga agaagatgaa361 ggtggggtca gggtctaaat cttgttgaat tttctggaat gtcaggcttc ttctagaatg421 tcaggctaga aaggaatgcc tagaagaatg tcttctagaa tgtcaggcta gaaaggaatg481 atatatgggg atgggagtct tgactgtggt ggggctggcc atcagggctt ggctgcagct541 acgtggtcca ttggccctct gtccacgtgc acagccacca catgcagggg ttgtgctgag601 ggcagtgtgt cctgtggaac atagctacct gggaccagat gctgacctca ggttggagat661 cggtttcgca ctggctgcag tcctctgacg gggcaggcca gagctctct (2) SEQ ID NO: 2958 for data: (i) sequence characteristics:

(A) length: 849 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2958 sequence description: 1 tgagcagtgt acaccagttt cttgctgaga cctcttggac ccaggcaggc tcagtgtcat 61 ctcggcagtt gcagttagat gtggagttag agccaggctg agccaagtcc ctggctccaa121 gttcagtgta tttgcgccat ggcatcatgt gaggggatgg gggctggatc ttgtgtctat181 cctctgcagg gctctggaag gggaggctca ccgtgtgcta tttgggtttg tgcctgagac241 aaaagaagag ctccaggtca tgccagggaa cattgtcttt gtcttgaaga agggcaatga301 taactgggcc acggtcatgt tcaacgggca ggtatgcaga ggatcagggg ctggtgcgat361 gggcatggga tcctggcagc aaatgcagtc tctgtggagc agtatctgct gccttctttg421 cagaccagcc aagttctttt gtctgttcgt catcccttcc ccaggactct gggctgttct481 gtggtgtggg tactgatgag cacatcttta ttttttcctt tctgattctg tggtgctgca541 ctgcagaagg ggcttgttcc ctgcaactac cttgaaccag ttgagctgcg gatccaccct601 cagcagcagc cccaggtaat gtgatgccaa ggcctgaccc atttcctctc accctttagg661 atctctccct ggagggagaa aagcagtgta aaagaggtgt tgtcaggacc cctggagaaa721 gattcactag tcttgagccc gccttgagat ggcaccagct acccagagct gaacctggga781 atgaggggaa aaaagcccag atgtgctaag ttggaggcat ctgtaggtcc cattggccca841 cccacctct (2) SEQ ID NO: 2959 data: (i) sequence characteristics:

(A) length: 308 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2959 sequence description: 1 aatgtcacta ccattccaac ttttaggacg ttatctgcat gtggctcctt tacatggggt 61 ctctgtaggg gtgtttcccc acatccaccc ctgcctggga actttgaatg aaggttctga121 ccatcgctcc ctgttgcctt caggaggaaa gctctccgca gtccgacatc ccagctcctc181 ctagttccaa agcccctgga agaccccagc tgtcaccagg tgagtggtcc tggagccaca241 gcctaggttt gggtgcagca gcatgccagg tgttcctgag ttcctctccc tgccttccag301 gaaaattct (2) SEQ ID NO: 2960 data: (i) sequence characteristics:

(A) length: 463 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2960 sequence description: 1 gactgagttt gttcatgtgt tcatgacctt catgcttccc cagggcgaga tttccccaca 61 gtttactaag gttaataatt gccccacaaa ttaaagggta agaggttggg ggccctattt121 gaagaggttt catctgtgtg tggcaggggc tggccaagga tgttcattca ccatcttctt181 ttgttttact ccctactttt tccattcagg ccagaaacaa aaagaagagc ctaaggtaac241 atttttccct catactgttt caagtggtag aagatgggat agcttgggct atcaaccaca301 gacatgtctg tctggattat aggaagagcc caaaggaggg tcgaaccagt tgctacctta361 cagagtccat gagctaggga ccttcttaat agcctcctcc actatcatgc acacacttcc421 tactacccaa gctagtgggc cagatcttac tcagtagfattc (2) SEQ ID NO: 2961 data: (i) sequence characteristics:

(A) length: 784 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2961 sequence description: 1 gaattcctgt ccaagcaagg gttgggctaa aggacctctg aaggcctttt aggctactgt 61 gaaaccagtt acttactggc ctctcccctg ctgtattggg taccccctgt gccaaatcac121 gaaactgcgg tgatccagga tgttgagaga aagcctcaga cactcaggag ttccctttgt181 ttcctcccca ctcaggaagt gaagctcagt gttcccatgc cctacacact caaggtgcac241 tacaagtaca cggtagtcat gaagactcag cccgggctcc cctacagcca ggtccgggac301 atggtgtcta agaaactgga gctccggctg gaacacacta agctgaggtg agctccatgc361 aggcagctgt gaggggtaca gtgggaacct tgtgctggcc tggaggaggg aagaggagga421 tggtttttgt gatgatgttc tttgactgga ttcttactca ttatccccac ccagctatcg481 gcctcgggac agcaatgagc tggtgcccct ttcagaagac agcatgaagg atgcctgggg541 ccaggtgaaa aactactgcc tgactctgtg gtgtgagaac acagtggtga gtgcaatgag601 gggcatctaa agttacattt ccactgagcc acttcctcaa caatttgaaa tttatcaagc661 accttctgtg tactaggcac tatatgtggt gttggggata tggtgtgtaa taagtcacag721 ctctgcctcc cttttacctg catcctcacc ccatttgcag cagggagaga gtttcccaca781 ag (2) SEQ ID NO: 2962 data: (i) sequence characteristics:

(A) length: 450 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2962 description of the sequence: 1 ttcataaaga gcatataagc tctacacaag gcactgatca caaactttat gagtttatat 61 cccaggttct actttgacat ttcgctgttt cctttagtga tgttcagtgt tcacttggca121 ggaaattggg aaaattaaca ggccctttat tatttcaggg tgaccaaggc tttccagatg181 aacccaagga aagtgaaaaa gctgatgcta ataaccagac aacagaacct cagcttaaga241 aaggcagcca agtggaggca ctcttcagtt atgaggctac ccaaccagag gacctggagt301 ttcaggaagg ggatataatc ctggtgttat caaagggtaa gtgctactcc aagactatag361 aaacaaattt acatgttagc agaaacaagg tcaagggcag agagaagaaa tatcaataat421 ctacaaacaa aactttagcc agtgttttca (2) SEQ ID NO: 2963 data: (i)sequence characteristics:

(A) length: 1145 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2963 sequence description: 1 gtcaattctt gaccctcttc tctatctggt aactttttga aaaacataat ttatcctctc61 ttcattttgc tcattatcat gtttaagaca gatcaataag atggttaaac cctgtgttca 121 ctctcaaacc actttgcaat actgtctttt ccctgttgat cacaattagg ggtggggaag 181 ggtgaccgat aacaaattct gtgtggaata gccagacagg gtaatcttcc tacagtggtt 241 ttagaaatcc atgtgtactt ttccttttat cagtgaatga agaatggctg gaaggggagt 301 gcaaagggaa ggtgggcatt ttccccaaag tttttgttga agactgcgca actacagatt 361 tggaaagcac tcggagagaa gtctaggatg tttcacaaac tacaaagctg aagaaaatga 421 agccctatta cttgtttgta agatttagca cccttctgct gtatactgta ctgagacatt 481 acagtttgga agtgttaact atttattccc tgttaaaatt taacctacta gacaatgatg 541 tgagtaccca ggatgatttc ctggggcaca gtgggtgagg agatggggac aggtgaatgg 601 aggagttagg ggagaggaaa agtggatgga agtgtctgga aagggcacga gagagtcttc 661 caggtactga tcctgtttct tgctctgagt gctagctagc cagctgtgtt cacactgtaa 721 acattcatca agctgtacat ttggtgcact tttctgtgtc ataccacaat aaaaaaaaac 781 ctatcatctt acaaaaacaa gacacccaag tccaggccca aggagtaagt acaaatattc 841 ctgtttctga accattactg taattggctc ttaaggcttg aagtaacctt ataggttact 901 cataaggcat atacaaataa acttgtttgt tttctttttt cattatgtct tgttgcttaa 961 acagaaccta gactgagtta ggttctcatg gactacaaca ctcaattcca cagagaatta1021 atagaattac atacctttgt acattctcag agaggaacat gtgttaagaa ctcaatactg1081 aatatatatc aatcgccaac atttaagtga tgaaaagcag cggtgttcat gaagctagtt1141 cgtaa (2) SEQ ID NO: 2964 data: (i) sequence characteristics:

(A) length: 75 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2964 sequence description: 1 gtcacatcgc cctgctgggc tttgagaagc gcttcgtacc cagccagcac tatgtgtaca 61 tgttcctggt gaaat (2) SEQ ID NO: 2965 data: (i) sequence characteristics:

(A) length: 11651 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2965 sequence description: 1 ctagtctttc agccttcagg ctgtttttgg cttgaagctc tcttggcctc ctagtttcta 61 cctaatcatg tccctggtgg aggccatcag cctctggaat gaaggggtgc tggcagcgga121 caagaaggac tggaagggag ccctggatgc cttcagtgcc gtccaggacc cccactcccg181 721 ccctctgcaa ccacaggcag ctgagcctcc acccagaccg aaaaccccag agatcttcag 781 181 gatttgcttc aacattggct gcatgtacac tatcctgaag aacatgactg aagcagagaa241 ggcctttacc agaagcatta accgagacaa gcacttggca gtggcttact tccaacgagg301 gatgctctac taccagacag agaaatatga tttggctatc aaagacctta aagaagcctt361 gattcagctt cgagggaacc agctgataga ctataagatc ctggggctcc agttcaagct421 gtttgcctgt gaggtgttat ataacattgc tttcatgtat gccaagaagg aggaatggaa 481 aaaagctgaa gaacagttag cattggccac gagcatgaag tctgagccca gacattccaa 541 aatcgacaag gcgatggagt gtgtctggaa gcagaagcta tatgagccag tggtgatccc 601 tgtgggcaag ctgtttcgac caaatgagag acaagtggct cagctggcca agaaggatta 661 cctaggcaag gcgacggtcg tggcatctgt ggtggatcaa gacagtttct ctgggtttgc 721 ccctctgcaa ccacaggcag ctgagcctcc acccagaccg aaaaccccag agatcttcag 781 ggctctggaa ggggaggctc accgtgtgct atttgggttt gtgcctgaga caaaagaaga 841 gctccaggtc atgccaggga acattgtctt tgtcttgaag aagggcaatg ataactgggc 901 cacggtcatg ttcaacgggc agaaggggct tgttccctgc aactaccttg aaccagttga 961 gttgcggatc caccctcagc agcagcccca ggaggaaagc tctccgcagt ccgacatccc1021 agctcctcct agttccaaag cccctggaaa accccagctg tcaccaggcc agaaacaaaa1081 agaagagcct aaggaagtga agctcagtgt tcccatgccc tacacactca aggtgcacta1141 caagtacacg gtagtcatga agactcagcc cgggctcccc tacagccagg tccgggacat1201 ggtgtctaag aaactggagc tccggctgga acacactaag ctgagctatc ggcctcggga1261 cagcaatgag ctggtgcccc tttcagaaga cagcatgaag gatgcctggg gccaggtgaa1321 aaactactgc ctgactctgt ggtgtgagaa cacagtgggt gaccaaggct ttccagatga1381 acccaaggaa agtgaaaaag ctgatgctaa taaccagaca acagaacctc agcttaagaa1441 aggcagccaa gtggaggcac tcttcagtta tgaggctacc caaccagagg acctggagtt1501 tcaggaaggg gatataatcc tggtgttatc aaaggtgaat gaagaatggc tggaagggga1561 gtgcaaaggg aaggtgggca ttttccccaa agtttttgtt gaagactgcg caactacaga1621 tttggaaagc actcggagag aagtctagga tgtttcacaa actacaaagc tgaagaaaat1681 gaagccctat tacttgtttg taagatttag cacccttctg ctgtatactg tactgagaca1741 ttacagtttg gaagtgttaa ctatttattc cctgttaaaa tttaacctac tagacaatga1801 180 1801 tgtgagtacc caggatgatt tcctggggca cagtgggtga ggagatgggg acaggtgaat1861 ggaggagtta ggggagagga aaagtggatg gaagtgtctg gaaagggcac gagagagtct1921 tccaggtact gatcctgttt cttgctctga gtgctagcta gccagctgtg ttcacactgt1981 aaacattcat caagctgtac atttggtgca cttttctgtg tcataccaca ataaaaaaaa2041 20484 2041 acctatcatc atcttacaaa aacaagacac ccaagtccag gcccaaggag taagtacaaa2101 tattcctgtt tctgaaccat tactgtaatt ggctcttaag gcttgaagta accttatagg2161 ttactcataa ggcatataca aataaacttg tttgttttct tttttc2207 ctagtctttc agccttcagg ctgtttttgg cttgaagctc tcttggcctc ctagtttcta2267 cctaatcatg tccctggtgg aggccatcag cctctggaat gaaggggtgc tggcagcgga2327 caagaaggac tggaagggag ccctggatgc cttcagtgcc gtccaggacc cccactcccg2387 gatttgcttc aacattggct gcatgtacac tatcctgaag aacatgactg aagcagagaa241 39241 241 ggcctttacc agaagcatta accgagacaa gcacttggca gtggcttact tccaacgagg301 gatgctctac taccagacag agaaatatga tttggctatc aaagacctta aagaagcctt361 gattcagctt cgagggaacc agctgataga ctataagatc ctggggctcc agttcaagct421 gtttgcctgt gaggtgttat ataacattgc tttcatgtat gccaagaagg aggaatggaa 481 aaaagctgaa gaacagttag cattggccac gagcatgaag tctgagccca gacattccaa 541 aatcgacaag gcgatggagt gtgtctggaa gcagaagcta tatgagccag tggtgatccc 601 tgtgggcaag ctgtttcgac caaatgagag acaagtggct cagctggcca agaaggatta 661 638 661 cctaggcaag gcgacggtcg tggcatctgt ggtggatcaa gacagtttct ctgggtttgc ccctctgcaa ccacaggcag ctgagcctcc acccagaccg aaaaccccag agatcttcag 781 ggctctggaa ggggaggctc accgtgtgct atttgggttt gtgcctgaga caaaagaaga 841 gctccaggtc atgccaggga acattgtctt tgtcttgaag aagggcaatg ataactgggc 901 cacggtcatg ttcaacgggc agaaggggct tgttccctgc aactaccttg aaccagttga 961 391021 agctcctcct agttccaaag cccctggaaa accccagctg tcaccaggcc agaaacaaaa1081 agaagagcct aaggaagtga agctcagtgt tcccatgccc tacacactca aggtgcacta1141 caagtacacg gtagtcatga agactcagcc cgggctcccc tacagccagg tccgggacat1201 ggtgtctaag aaactggagc tccggctgga acacactaag ctgagctatc ggcctcggga1261 cagcaatgag ctggtgcccc tttcagaaga cagcatgaag gatgcctggg gccaggtgaa1321 aaactactgc ctgactctgt ggtgtgagaa cacagtgggt gaccaaggct ttccagatga1381 acccaaggaa agtgaaaaag ctgatgctaa taaccagaca acagaacctc agcttaagaa1441 aggcagccaa gtggaggcac tcttcagtta tgaggctacc caaccagagg acctggagtt1501 tcaggaaggg gatataatcc tggtgttatc aaaggtgaat gaagaatggc tggaagggga1561 1621 6951 168 gaagccctat tacttgtttg taagatttag cacccttctg ctgtatactg tactgagaca1741 ttacagtttg gaagtgttaa ctatttattc cctgttaaaa tttaacctac tagacaatga1801 tgtgagtacc caggatgatt tcctggggca cagtgggtga ggagatgggg acaggtgaat1861 ggaggagtta ggggagagga aaagtggatg gaagtgtctg gaaagggcac gagagagtct1921 tccaggtact gatcctgttt cttgctctga gtgctagcta gccagctgtg ttcacactgt1981 aaacattcat caagctgtac atttggtgca cttttctgtg tcataccaca ataaaaaaaa2041 acctatcatc atcttacaaa aacaagacac ccaagtccag gcccaaggag taagtacaaa2101 tattcctgtt tctgaaccat tactgtaatt ggctcttaag gcttgaagta accttatagg2161 ttactcataa ggcatataca aataaacttg tttgttttct tttttc1 gcagagctgg gcaccacagg gagctaggct ctgtgagccg tggctcatct cacacctcct 61 cactgccttg catcatggcc atgtctggac ccttctctcc tcaggccttt accagaagca121 ttaaccgaga caagcacttg gcagtggctt acttccaacg agggatgctc tactaccaga181 cagagaagta agtggttcaa tgttgcacca actggaggat ttcagagaga aacccaaggg241 gtctcagtgt tgcgggcttg gtgtttgagc agt1 ggtcagaagg aactgaaagg cttcttgtcc cagtgagata gctggggaag ggagaagcag 61 actcacattt tatgctgcat ttatttctcc atccactaga ctgctgattt tctccctctg121 tcctggagat atgatttggc tatcaaagac cttaaagaag ccttgattca gcttcgaggg181 aaccagctga tagactataa gatcctgggg ctccagttca agctgtttgc ctgtgaggta241 aggagaacag ggcctggctg ggcaggaggg gatcatggct ggatggatgg ctgacagtca301 gatgcacagt gatctgttga cacctccagg agcttggaaa agccatttct cctctgcctt361 gagactcaga ttttccttga agaaaagact gagatggatt atttcaggct catcaaggca

1 ttccctggca ccttgatttg gagtagtctc aagttttatg tttgcggtct gtacttttct 61 aggtgttata taacattgct ttcatgtatg ccaagaagga ggaatggaaa aaagctgaag 121 aacagttagc attggccacg agcatgaagt ctgagcccag acattccaaa atcgacaagg 181 cgatggagtg tgtctgggta agcgtattgg tgatgcaggt gttgagagga tgtcactgga 241 ttctcatttg tctcagagga catgccattg agaagccata aaagtggtgc ttttactttc 301 tgtgagtctg ggtaacactg atcttagggt atagttccac ttaagatctt gaatctgtgc 361 tgagaagctg aggcctagag tatgggatgg cagagcctgg catcacacca cccttggagt 421 ggggctcctt ggcaatgcag gagaacagga tattggatgc tggagcagtg ctgcacagac 481 tctaagcact gagagggcag agtccatgtc tgcttgatca ccactgagtc ctcacagcct 541 ggcacagtgc taggccacat aacagctctc agcaaaaatg ttttgttttg ttttgagatg 601 gagtctcgct ctgttgccca gcctggagtg cagtggtgtg atctcagctc actgcagcct 661 ctgcctcctg ggttcaagca attctgctgc ctcagccgcc caagtagctg ggattacagg 721 tgcatgccac catgcctggc taatttttgt atttttaata gagacggggt tttgccatgt

1 gaattcttgc atctattcac tgagggaggc aggacaagca tcgtcacccc cattttcaca 61 taagggaatg ctacgttttc tgtgttacag aagcagaagc tatatgagcc agtggtgatc 121 cctgtgggca agctgtttcg accaaatgag agacaagtgg ctcagctggc caagaaggat 181 tacctaggca aggcgacggt aggtgggatt gctcagcttc ccctgagtct tcctgtggcc 241 cgggcatgtg gagcaaggtg ggagggactc ttgagaag

1 gcaggagaat cacttgaacc tggaaggcag aggttgcagt gagctgagtc actccactgc 61 actccagtct gggtaacaga gcgtgctccg tctcaaaaaa aaaaaaaaaa aaaaagataa121 39121 121 tttgatgtta tacaaattgc acctcaatta aaaacatttc ttttttaaga gagaagaaag181 caagcctgtg ttagcagggg tggggtgaat gctcgtttct tcagttgctg aaatcctaat241 ccagaggctc aggaatctaa tccttagtta ctgtccacgt ctgaaaccag gctcacgtaa301 gaacaggtct agggcatgag caaagaggga gacccagaag aatggaaaca gtgctggcag361 agcctcacac cctcctgtcc ttgattttag gtcgtggcat ctgtggtgga tcaagacagt421 ttctctgggt ttgcccctct gcaaccacag gtaaggcagt cctgaccttc tccatggacc481 taggtctcga gagctttctg tgaagcattc aattcgagag actatgtgtg ctgagttgcc541 tgattgtaag ggctccttca agtggccctc agtgcagctg aggattctgc ctgccctctc601 tcagtcctgg tttccatggc tggtgaggaa ataaggcagt gtcaggcttc accccaagtc661 ctctgaagct aactctcctg cttccccaca aatgccggtc ttcac11152 111 11152 acattcatca agctgtacat ttggtgcact tttctgtgtc ataccacaat aaaaaaaaac11212 ctatcatctt acaaaaacaa gacacccaag tccaggccca aggagtaagt acaaatattc11272 112 11272 ctgtttctga accattactg taattggctc ttaaggcttg aagtaacctt ataggttact11332 cataaggcat atacaaataa acttgtttgt tttctttttt cattatgtct tgttgcttaa11392 acagaaccta gactgagtta ggttctcatg gactacaaca ctcaattcca cagagaatta11452 atagaattac atacctttgt acattctcag agaggaacat gtgttaagaa ctcaatactg11512 aatatatatc aatcgccaac atttaagtga tgaaaagcag cggtgttcat gaagctagtt11572 cgtaaa 11577 gtcacatcgc cctgctgggc tttgagaagc gcttcgtacc cagccagcac tatgtgtaca11637 tgttcctggt gaaat (2) SEQ ID NO: 2966 data: (i) sequence characteristics:

(A) length: 1064 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2966 sequence description: 1 ccagctgata ttccagccca cagcaatgga gccacatgac tcctcccaca tggactctga 61 gttccgatac actctcttcc cgattgttta cagcatcatc tttgtgctcg gggtcattgc121 taatggctac gtgctgtggg tctttgcccg cctgtaccct tgcaagaaat tcaatgagat181 aaagatcttc atggtgaacc tcaccatggc ggacatgctc ttcttgatca ccctgccact 241 ttggattgtc tactaccaaa accagggcaa ctggatactc cccaaattcc tgtgcaacgt 301 ggctggctgc cttttcttca tcaacaccta ctgctctgtg gccttcctgg gcgtcatcac 361 ttataaccgc ttccaggcag taactcggcc catcaagact gctcaggcca acacccgcaa 421 gcgtggcatc tctttgtcct tggtcatctg ggtggccatt gtgggagctg catcctactt 481 cctcatcctg gactctacca acacagtgcc cgacagtgct ggctcaggca acgtcactcg 541 ctgctttgag cattacgaga agggcagcgt gccagtcctc atcatccaca tcttcatcgt 601 gttcagcttc ttcctggtct tcctcatcat cctcttctgc aacctggtca tcatccgtac 661 cttgctcatg cagccggtgc agcagcagcg caacgctgaa gtcaagcgcc gggcgctgtg 721 gatggtgtgc acggtcttgg cggtgttcat catctgcttc gtgccccacc acgtggtgca 781 gctgccctgg acccttgctg agctgggctt ccaggacagc aaattccacc aggccattaa 841 tgatgcacat caggtcaccc tctgcctcct tagcaccaac tgtgtcttag accctgttat 901 ctactgtttc ctcaccaaga agttccgcaa gcacctcacc gaaaagttct acagcatgcg 961 cagtagccgg aaatgctccc gggccaccac ggatacggtc actgaagtgg ttgtgccatt1021 caaccagatc cctggcaatt ccctcaaaaa ttagtccttg cttc (2) SEQ ID NO: 2967 data: (i) sequence characteristics:

(A) length: 1780 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2967 sequence description: 1 ttcacgaggg ctggggccag gacccagaca gagacacacg gtcactgcag ctgaagccgc 61 tgcccctgct acaggcacca ccaggaccag ctgatcattc cagcccacag caatggagcc 121 acatgactcc tcccacatgg actctgagtt ccgatacact ctcttcccga ttgtttacag 181 721 cttctgcaac ctggtcatca tccgtacctt gctcatgcag ccggtgcagc agcagcgcaa 781 181 catcatcttt gtgctcgggg tcattgctaa tggctacgtg ctgtgggtct ttgcccgcct 241 gtacccttgc aagaaattca atgagataaa gatcttcatg gtgaacctca ccatggcgga 301 catgctcttc ttgatcaccc tgccactttg gattgtctac taccaaaacc agggcaactg 361 gatactcccc aaattcctgt gcaacgtggc tggctgcctt ttcttcatca acacctactg 421 ctctgtggcc ttcctgggcg tcatcactta taaccgcttc caggcagtaa ctcggcccat 481 caagactgct caggccaaca cccgcaagcg tggcatctct ttgtccttgg tcatctgggt 541 ggccattgtg ggagctgcat cctacttcct catcctggac tccaccaaca cagtgcccga 601 cagtgctggc tcaggcaacg tcactcgctg ctttgagcat tacgagaagg gcagcgtgcc 661 agtcctcatc atccacatct tcatcgtgtt cagcttcttc ctggtcttcc tcatcatcct 721 cttctgcaac ctggtcatca tccgtacctt gctcatgcag ccggtgcagc agcagcgcaa 781 cgctgaagtc aagcgccggg cgctgtggat ggtgtgcacg gtcttggcgg tgttcatcat 841 ctgcttcgtg ccccaccacg tggtgcagct gccctggacc cttgctgagc tgggcttcca 901 ggacagcaaa ttccaccagg ccattaatga tgcacatcaggtcaccctct gcctccttag 961 caccaactgt gtcttagacc ctgttatcta ctgtttcctc accaagaagt tccgcaagca1021 cctcaccgaa aagttctaca gcatgcgcag tagccggaaa tgctcccggg ccaccacgga1081 tacggtcact gaagtggttg tgccattcaa ccagatccct ggcaattccc tcaaaaatta1141 gtccctgctt ccaggcctga agtcttctcc tccatgaaac atcatgactg agctggggga1201 agaagggata tctactgtgg gtctgggcac cacctctgtg gcactggtgg gccattagat1261 ttggaggcta cctcacctgg gcagggatga tgcagagcca ggctgttgga aaatccagaa1321 ctcaaatgag ccccttcatc cgcctgtggg cgcatactac agtaactgtg actgatgact1381 ttatcctgag tcccttaatc ttatggggcc ggaaggaatg tcagggccag gtgcagacct1441 tgggggaaga ctttaaacca cctagttctc ccactggggc atcggtctaa agctttgggg1501 gagtggcccc agtggctcac acctgtaatc ccagcacttt gggaggccga ggtgggcaga1561 tcatgggtca agagatcgag acatcctggc caacattgta aaaccccatc tctactaaaa1621 catacaaaaa ttagccgggc atggtgcaca cgcctgtagt cccagctact caggaggctg1681 aggcaggaga atcgcttgaa cctgggaggc agaggttgca gtgaacctag attgcaccat1741 tgcactctag cctggcaaca gaggcagatt ccctcctgcc (2) SEQ ID NO: 2968 data: (i) sequence characteristics:

(A) length: 1467 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2968 description of the sequence: 1 cgggaggcgg aggttgcggt gagctgagat cacgccactg cactccagcc tgggcagcaa 61 gagtgaaact ccatctgaaa aaaaaaaaaa gattcaacat gaacttctga ggggacatca 121 tcattctaac catggcaagg agtcttggaa ctgatgaaag ggaacagtcc cttcttgtcc 181 ctttattaac cagaattttt gtggtcet ccaggcacca ccaggaccag ctgatcattc 241 cagcccacag caatggagcc acatgactcc tcccacatgg actctgagtt ccgatacact 301 ctcttcccga ttgtttacag catcatcttt gggctcgggg tcattgctaa tggctacgtg 361 ctgtgggtct ttgcccgcct gtacccttgc aagaaattca atgagataaa gatcttcatg 421 gtgaacctca ccatggcgga catgctcttc ttgatcaccc tgccactttg gattgtctac 481 taccaaaacc agggcaactg gatactcccc aaattcctgt gcaacgtggc tggctgcctt 541 ttcttcatca acacctactg ctctgtggcc ttcctgggcgtcatcactta taaccgcttc 601 caggcagtaa ctcggcccat caagactgct caggccaaca cccgcaagcg tggcatctct 661 ttgtccttgg tcatctgggt ggccattgtg ggagctgcat cctacttcct catcctggac 721 56 721 tccaccaaca cagtgcccga cagtgctggc tcaggcaacg tcactcgctg ctttgagcat 781 tacgagaagg gcagcgtgcc agtcctcatc atccacatct tcatcgtgtt cagcttcttc 841 ctggtcttcc tcatcatcct cttctgcaac ctggtcatca tccgtacctt gctcatgcag 901 ccggtgcagc agcagcgcaa cgctgaagtc acaggccggg cgctgtggat ggtgtgcacg 961 gtcttggcgg tgttcatcat ctgcttcgtg ccccaccacg tggtgcagct gccctggacc1021 cttgctgagc tgggcttcca ggacagcaaa ttccaccagg ccattaatga tgcacatcag1081 gtcaccctct gcctccttag caccaactgt gtcttagacc ctgttatcta ctgtttcctc1141 accaagaagt tccgcaagca cctcaccgaa aagttctaca gcatgcgcag tagccggaaa1201 tgctcccggg ccaccacgga tacggtcact gaagtggttg tgccattcaa ccagatccct1261 ggcaattccc tcaaaaatta gtccctgctt ccaggcctga agtcttctcc tccatgaaca1321 tcatggactg agctggggga agaagggata tctactgtgg tctgggcacc acctctgtgg1381 gcactggtgg gccattagat ttggaggcta cctcacctgg gcagggatga tggcagacga1441 ggctgttgga aaatccagaa ctcaaat (2) SEQ ID NO: 2969 data: (i) sequence characteristics:

(A) length: 4311 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2969 description of the sequence: 1 ccagctgata ttccagccca cagcaatgga gccacatgac tcctcccaca tggactctga 61 gttccgatac actctcttcc cgattgttta cagcatcatc tttgtgctcg gggtcattgc121 taatggctac gtgctgtggg tctttgcccg cctgtaccct tgcaagaaat tcaatgagat181 aaagatcttc atggtgaacc tcaccatggc ggacatgctc ttcttgatca ccctgccact 241 ttggattgtc tactaccaaa accagggcaa ctggatactc cccaaattcc tgtgcaacgt 301 ggctggctgc cttttcttca tcaacaccta ctgctctgtg gccttcctgg gcgtcatcac 361 ttataaccgc ttccaggcag taactcggcc catcaagact gctcaggcca acacccgcaa 421 gcgtggcatc tctttgtcct tggtcatctg ggtggccatt gtgggagctg catcctactt 481 cctcatcctg gactctacca acacagtgcc cgacagtgct ggctcaggca acgtcactcg 541 ctgctttgag cattacgaga agggcagcgt gccagtcctc atcatccaca tcttcatcgt 601 gttcagcttc ttcctggtct tcctcatcat cctcttctgc aacctggtca tcatccgtac 661 cttgctcatg cagccggtgc agcagcagcg caacgctgaa gtcaagcgcc gggcgctgtg 721 gatggtgtgc acggtcttgg cggtgttcat catctgcttc gtgccccacc acgtggtgca 781 gctgccctgg acccttgctg agctgggctt ccaggacagc aaattccacc aggccattaa 841 tgatgcacat caggtcaccc tctgcctcct tagcaccaac tgtgtcttag accctgttat 901 ctactgtttc ctcaccaaga agttccgcaa gcacctcacc gaaaagttct acagcatgcg 961 cagtagccgg aaatgctccc gggccaccac ggatacggtc actgaagtgg ttgtgccatt1021 caaccagatc cctggcaatt ccctcaaaaa ttagtccttg cttc1065 ttcacgaggg ctggggccag gacccagaca gagacacacg gtcactgcag ctgaagccgc1125 tgcccctgct acaggcacca ccaggaccag ctgatcattc cagcccacag caatggagcc1185 acatgactcc tcccacatgg actctgagtt ccgatacact ctcttcccga ttgtttacag1245 catcatcttt gtgctcgggg tcattgctaa tggctacgtg ctgtgggtct ttgcccgcct1305 gtacccttgc aagaaattca atgagataaa gatcttcatg gtgaacctca ccatggcgga1365 catgctcttc ttgatcaccc tgccactttg gattgtctac taccaaaacc agggcaactg1425 gatactcccc aaattcctgt gcaacgtggc tggctgcctt ttcttcatca acacctactg1485 ctctgtggcc ttcctgggcg tcatcactta taaccgcttc caggcagtaa ctcggcccat1545 caagactgct caggccaaca cccgcaagcg tggcatctct ttgtccttgg tcatctgggt1605 ggccattgtg ggagctgcat cctacttcct catcctggac tccaccaaca cagtgcccga1665 cagtgctggc tcaggcaacg tcactcgctg ctttgagcat tacgagaagg gcagcgtgcc1725 agtcctcatc atccacatct tcatcgtgtt cagcttcttc ctggtcttcc tcatcatcct1785 cttctgcaac ctggtcatca tccgtacctt gctcatgcag ccggtgcagc agcagcgcaa1845 cgctgaagtc aagcgccggg cgctgtggat ggtgtgcacg gtcttggcgg tgttcatcat1905 ctgcttcgtg ccccaccacg tggtgcagct gccctggacc cttgctgagc tgggcttcca1965 ggacagcaaa ttccaccagg ccattaatga tgcacatcag gtcaccctct gcctccttag2025 caccaactgt gtcttagacc ctgttatcta ctgtttcctc accaagaagt tccgcaagca2085 cctcaccgaa aagttctaca gcatgcgcag tagccggaaa tgctcccggg ccaccacgga2145 tacggtcact gaagtggttg tgccattcaa ccagatccct ggcaattccc tcaaaaatta2205 gtccctgctt ccaggcctga agtcttctcc tccatgaaac atcatgactg agctggggga2265 agaagggata tctactgtgg gtctgggcac cacctctgtg gcactggtgg gccattagat2325 ttggaggcta cctcacctgg gcagggatga tgcagagcca ggctgttgga aaatccagaa2385 23 2385 ctcaaatgag ccccttcatc cgcctgtggg cgcatactac agtaactgtg actgatgact2445 ttatcctgag tcccttaatc ttatggggcc ggaaggaatg tcagggccag gtgcagacct2505 tgggggaaga ctttaaacca cctagttctc ccactggggc atcggtctaa agctttgggg2565 gagtggcccc agtggctcac acctgtaatc ccagcacttt gggaggccga ggtgggcaga2625 tcatgggtca agagatcgag acatcctggc caacattgta aaaccccatc tctactaaaa2685 catacaaaaa ttagccgggc atggtgcaca cgcctgtagt cccagctact caggaggctg2745 aggcaggaga atcgcttgaa cctgggaggc agaggttgca gtgaacctag attgcaccat2805 tgcactctag cctggcaaca gaggcagatt ccctcctgcc2845 cgggaggcgg aggttgcggt gagctgagat cacgccactg cactccagcc tgggcagcaa2905 gagtgaaact ccatctgaaa aaaaaaaaaa gattcaacat gaacttctga ggggacatca2965 tcattctaac catggcaagg agtcttggaa ctgatgaaat ggaacagtcc cttcttgtcc3025 ctttattaac cagaattttt gtgtggtctt ccaggcacca ccaggaccag ctgatcattc3085 cagcccacag caatggagcc acatgactcc tcccacatgg actctgagtt ccgatacact3145 ctcttcccga ttgtttacag catcatcttt gtgctcgggg tcattgctaa tggctacgtg3205 ctgtgggtct ttgcccgcct gtacccttgc aagaaattca atgagataaa gatcttcatg3265 gtgaacctca ccatggcgga catgctcttc ttgatcaccc tgccactttg gattgtctac3325 taccaaaacc agggcaactg gatactcccc aaattcctgt gcaacgtggc tggctgcctt3385 ttcttcatca acacctactg ctctgtggcc ttcctgggcg tcatcactta taaccgcttc3445 caggcagtaa ctcggcccat caagactgct caggccaaca cccgcaagcg tggcatctct3505 ttgtccttgg tcatctgggt ggccattgtg ggagctgcat cctacttcct catcctggac 6365 tccaccaaca cagtgcccga cagtgctggc tcaggcaacg tcactcgctg ctttgagcat3625 tacgagaagg gcagcgtgcc agtcctcatc atccacatct tcatcgtgtt cagcttcttc3685 ctggtcttcc tcatcatcct cttctgcaac ctggtcatca tccgtacctt gctcatgcag3745 ccggtgcagc agcagcgcaa cgctgaagtc acaggccggg cgctgtggat ggtgtgcacg3805 gtcttggcgg tgttcatcat ctgcttcgtg ccccaccacg tggtgcagct gccctggacc3865 cttgctgagc tgggcttcca ggacagcaaa ttccaccagg ccattaatga tgcacatcag3925 gtcaccctct gcctccttag caccaactgt gtcttagacc ctgttatcta ctgtttcctc3985 accaagaagt tccgcaagca cctcaccgaa aagttctaca gcatgcgcagtagccggaaa 4058 4105 ggcaattccc tcaaaaatta gtccctgctt ccaggcctga agtcttctcc tccatgaaca4165 tcatggactg agctggggga agaagggata tctactgtgg tctgggcacc acctctgtgg4225 gcactggtgg gccattagat ttggaggcta cctcacctgg gcagggatga tggcagacga4285 ggctgttgga aaatccagaa ctcaaat (2) SEQ ID NO: 2970 data: (i) sequence characteristics:

(A) length: 827 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2970 description of the sequence: 1 ctcctcctgc acaccttccg cacacctccc tcgctctccc acaccactgg caccaggccc 61 cgcacacctg ctcggctgca ggagaatggc tactcatcac acgctgtgga tgggactggt121 cctgctgggg ctgctgggcg gcctacaggc agcacccgag gcccaggtct ccgtgcagcc181 caacttccag ccggacaagt tcctggggcg ctggttcagc gcgggcctcg cctccaactc241 gagctggctc caggagaaga aggcagcgct gtccatgtgc aagtcggtgg tggcccctgc301 ggcggatggt ggcttcaacc tgacctccac cttcctcagg aaaaaccagt gtgagacccg361 aaccatgctg ctgcagcccg gggactccct cggctcctac agctaccgga gtccccactg421 gggcagcacc tactctgtgt cagtggtgga gactgactac gaccactacg ccctgctgta481 cagccagggc agcaagggcc ccggcgagga cttccgcatg gccaccctct acagccgaac541 ccagaccccc agggctgagt taaaggagaa atttaccgcc ttctgcaagg cccagggctt601 cacagaggat tccattgtct tcctgcccca aaccgataag tgcatgacgg aacaatagga661 ctccccagag ctgaagctgg gaccgcagcc agccaggtga cccctgcgat ctggatgttt721 ccgctctgtt ccttccccga gcccctgccc cggctccccg ccaaagcacc cctgccccct781 cgggcttcct cctggctctg cggaataaac tccggaagca agtctgt (2) SEQ ID NO: 2971 data: (i) sequence characteristics:

(A) length: 2245 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2971 sequence description: 1 ggagcaagag gtggttgggg ggggaccatg gctgacgttt tcccgggcaa cgactccacg 61gcgtctcagg acgtggccaa ccgcttcgcc cgcaaagggg cgctgaggca gaagaacgtg 121 cacgaggtga aggaccacaa attcatcgcg cgcttcttca agcagcccac cttctgcagc 181 721 aaaccttcag acaaagaccg acgactgtct gtagaaatct gggactggga tcgaacaaca 781 181 cactgcaccg acttcatctg ggggtttggg aaacaaggct tccagtgcca agtttgctgt 241 tttgtggtcc acaagaggtg ccatgaattt gttacttttt cttgtccggg tgcggataag 301 ggacccgaca ctgatgaccc caggagcaag cacaagttca aaatccacac ttacggaagc 361 cccaccttct gcgatcactg tgggtcactg ctctatggac ttatccatca agggatgaaa 421 tgtgacacct gcgatatgaa cgttcacaag caatgcgtca tcaatgtccc cagcctctgc 481 ggaatggatc acactgagaa gagggggcgg atttacctaa aggctgaggt tgctgatgaa 541 aagctccatg tcacagtacg agatgcaaaa aatctaatcc ctatggatcc aaacgggctt 601 tcagatcctt atgtgaagct gaaacttatt cctgatccca agaatgaaag caagcaaaaa 661 accaaaacca tccgctccac actaaatccg cagtggaatg agtcctttac attcaaattg 721 aaaccttcag acaaagaccg acgactgtct gtagaaatct gggactggga tcgaacaaca 781 aggaatgact tcatgggatc cctttccttt ggagtttcgg agctgatgaa gatgccggcc 841 agtggatggt acaagttgct taaccaagaa gaaggtgagt actacaacgt acccattccg 901 gaaggggacg aggaaggaaa catggaactc aggcagaaat tcgagaaagc caaacttggc 961 cctgctggca acaaagtcat cagtccctct gaagacagga aacaaccttc caacaacctt1021 gaccgagtga aactcacgga cttcaatttc ctcatggtgt tgggaaaggg gagttttgga1081 aaggtgatgc ttgccgacag gaagggcaca gaagaactgt atgcaatcaa aatcctgaag1141 aaggatgtgg tgattcagga tgatgacgtg gagtgcacca tggtagaaaa gcgagtcttg1201 gccctgcttg acaaaccccc gttcttgacg cagctgcact cctgcttcca gacagtggat1261 cggctgtact tcgtcatgga atatgtcaac ggtggggacc tcatgtacca cattcagcaa1321 gtaggaaaat ttaaggaacc acaagcagta ttctatgcgg cagagatttc catcggattg1381 ttctttcttc ataaaagagg aatcatttat agggatctga agttagataa cgtcatgttg1441 gattcagaag gacatatcaa aattgctgac tttgggatgt gcaaggaaca catgatggat1501 ggagtcacga ccaggacctt ctgtgggact ccagattata tcgccccaga gataatcgct1561 tatcagccgt atggaaaatc tgtggactgg tgggcctatg gcgtcctgtt gtatgaaatg1621 cttgccgggc agcctccatt tgatggtgaa gatgaagacg agctatttca gtctatcatg1681 gagcacaacg tttcctatcc aaaatccttg tccaaggagg ctgtttctat ctgcaaagga1741 ctgatgacca aacacccagc caagcggctg ggctgtgggc ctgaggggga gagggacgtg1801 agagagcatg ccttcttccg gaggatcgac tgggaaaaac tggagaacag ggagatccag1861 ccaccattca agcccaaagt gtgtggcaaa ggagcagaga actttgacaa gttcttcaca1921 cgaggacagc ccgtcttaac accacctgat cagctggtta ttgctaacat agaccagtct1981 gattttgaag ggttctcgta tgtcaacccc cagtttgtgc accccatctt acagagtgca2041 gtatgaaact caccagcgag aacaaacacc tccccagccc ccagccctcc ccgcagtgga2101 agtgaatcct taaccctaaa attttaaggc cacggcttgt gtctgattcc atatggaggc2161 ctgaaaattg tagggttatt agtccaaatg tgatcaactg ttcagggtct ctctcttaca2221 accaagaaca ttatcttagt ggaag (2) SEQ ID NO: 2972 data: (i) sequence characteristics:

(A) length: 636 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2972 description of the sequence: 1 cttatcacag ttcaagtgat ttccagaagt tccagggctt ctgagagacc atcaagggaa 61 ctttaacaac ttgacaaatg tccttgaagt aagatgcctc atctttaggg aaaaatgggg121 tttggatttc tgcttaggca aagtctcctg cagttcatcc ttctctgtcc tcttcttgct181 tcaggcttgg ggaccgtccc tgctgtcccc actgtggtgg caatcaggac ctaaggtgaa241 gcaaacttga agttctatct gacaagttta ggcagtaaga gaaggaggga aatcggagca301 aagctccctc actttattgt tgagaaactg gcatctggaa agaagaagga atttgcccaa361 agtcagtcag ctgggataaa aacctgggtg tcctgtccag aaagtgcagg gtgctttctg421 ctctgtagca aggcagcaga catctctgag ccaggcccac caacaggccc ttatctggtg481 gttggatcat gatcccattt tgcttggaca tgctctcagg aagataaaaa ccatggagaa541 acactaggcc attgacaaat gatctgagac aactttagaa aacaatgtag gatgaatgga601 aagagaaaga aaggaaagaa aaaaaaaaaa aaaagg (2) SEQ ID NO: 2973 for data: (i) sequence characteristics:

(A) length: 2574 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2973 sequence description: 1 cagagccggc gcaggggaag cgcccggggc cccgggtgca gcagcgcccg ccgcctcccg 61 ggcctccccg gcccgcagcc cggggtcccg ggccccgggg ccggcacctc tcgggctccg 121 gctccccgcg cgcaagatgg ctgacccggc tgcggggccg ccgccgagcg agggcgagga 181 721 cgtaaaactg aaactgattc ccgatcccaa aagtgagagc aaacagaaga ccaaaaccat 781 181 gagcaccgtg cgcttcgccc gcaaaggcgc cctccggcag aagaacgtgc atgaggtcaa 241 gaaccacaaa ttcaccgccc gcttcttcaa gcagcccacc ttctgcagcc actgcaccga 301 cttcatctgg ggcttcggga agcagggatt ccagtgccaa gtttgctgct ttgtggtgca 361 caagcggtgc catgaatttg tcacattctc ctgccctggc gctgacaagg gtccagcctc 421 cgatgacccc cgcagcaaac acaagtttaa gatccacacg tactccagcc ccacgttttg 481 tgaccactgt gggtcactgc tgtatggact catccaccag gggatgaaat gtgacacctg 541 catgatgaat gtgcacaagc gctgcgtgat gaatgttccc agcctgtgtg gcacggacca 601 cacggagcgc cgcggccgca tctacatcca ggcccacatc gacagggacg tcctcattgt 661 cctcgtaaga gatgctaaaa accttgtacc tatggacccc aatggcctgt cagatcccta 721 cgtaaaactg aaactgattc ccgatcccaa aagtgagagc aaacagaaga ccaaaaccat 781 caaatgctcc ctcaaccctg agtggaatga gacatttaga tttcagctga aagaatcgga 841 caaagacaga agactgtcag tagagatttg ggattgggat ttgaccagca ggaatgactt 901 catgggatct ttgtcctttg ggatttctga acttcagaag gccagtgttg atggctggtt 961 taagttactg agccaggagg aaggcgagta cttcaatgtg cctgtgccac cagaaggaag1021 tgaggccaat gaagaactgc ggcagaaatt tgagagggcc aagatcagtc agggaaccaa1081 ggtcccggaa gaaaagacga ccaacactgt ctccaaattt gacaacaatg gcaacagaga1141 ccggatgaaa ctgaccgatt ttaacttcct aatggtgctg gggaaaggca gctttggcaa1201 ggtcatgctt tcagaacgaa aaggcacaga tgagctctat gctgtgaaga tcctgaagaa1261 ggacgttgtg atccaagatg atgacgtgga gtgcactatg gtggagaagc gggtgttggc1321 cctgcctggg aagccgccct tcctgaccca gctccactcc tgcttccaga ccatggaccg1381 cctgtacttt gtgatggagt acgtgaatgg gggcgacctc atgtatcaca tccagcaagt1441 cggccggttc aaggagcccc atgctgtatt ttacgctgca gaaattgcca tcggtctgtt1501 cttcttacag agtaagggca tcatttaccg tgacctaaaa cttgacaacg tgatgctcga1561 ttctgaggga cacatcaaga ttgccgattt tggcatgtgt aaggaaaaca tctgggatgg1621 ggtgacaacc aagacattct gtggcactcc agactacatc gcccccgaga taattgctta1681 tcagccctat gggaagtccg tggattggtg ggcatttgga gtcctgctgt atgaaatgtt1741 ggctgggcag gcaccctttg aaggggagga tgaagatgaa ctcttccaat ccatcatgga1801 acacaacgta gcctatccca agtctatgtc caaggaagct gtggccatct gcaaagggct1861 gatgaccaaa cacccaggca aacgtctggg ttgtggacct gaaggcgaac gtgatatcaa1921 agagcatgca tttttccggt atattgattg ggagaaactt gaacgcaaag agatccagcc1981 cccttataag ccaaaagcta gagacaagag agacacctcc aacttcgaca aagagttcac2041 cagacagcct gtggaactga cccccactga taaactcttc atcatgaact tggaccaaaa2101 tgaatttgct ggcttctctt atactaaccc agagtttgtc attaatgtgt aggtgaatgc2161 aaactccatc gttgagcctg gggtgtaaga cttcaagcca agcgtatgta tcaattctag2221 tcttccagga ttcacggtgc acatgctggc attcaacatg tggaaagctt gtcttagagg2281 cctttcttgt atgtgtagct tgctagtttg ttttctacat ttgaaaatgt ttagtttaga2341 ataagcgcat tatccaatta tagaggtaca attttccaaa cttccagaaa ctcatcaaat2401 gaacagacaa tgtcaaaact actgtgtctg ataccaaaat gcttcagtat ttgtaatttt2461 tcaagtcaga agctgatgtt cctggtaaaa gtttttacag ttattctata atatcttctt2521 tgaatgctaa gcatgagcga tatttttaaa aattgtgagt aagcttcgga attc (2) SEQ ID NO: 2974 data: (i) sequence characteristics:

(A) length: 3321 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2974 sequence description: 1 cagagccggc gcaggggaag cgcccggggc cccgggtgca gcagcgcccg ccgcctcccg 61 ggcctccccg gcccgcagcc cggggtcccg ggccccgggg ccggcacctc tcgggctccg 121 gctccccgcg cgcaagatgg ctgacccggc tgcggggccg ccgccgagcg agggcgagga 181 721 cgtaaaactg aaactgattc ccgatcccaa aagtgagagc aaacagaaga ccaaaaccat 781 181 gagcaccgtg cgcttcgccc gcaaaggcgc cctccggcag aagaacgtgc atgaggtcaa 241 gaaccacaaa ttcaccgccc gcttcttcaa gcagcccacc ttctgcagcc actgcaccga 301 cttcatctgg ggcttcggga agcagggatt ccagtgccaa gtttgctgct ttgtggtgca 361 caagcggtgc catgaatttg tcacattctc ctgccctggc gctgacaagg gtccagcctc 421 cgatgacccc cgcagcaaac acaagtttaa gatccacacg tactccagcc ccacgttttg 481 tgaccactgt gggtcactgc tgtatggact catccaccag gggatgaaat gtgacacctg 541 catgatgaat gtgcacaagc gctgcgtgat gaatgttccc agcctgtgtg gcacggacca 601 cacggagcgc cgcggccgca tctacatcca ggcccacatc gacagggacg tcctcattgt 661 cctcgtaaga gatgctaaaa accttgtacc tatggacccc aatggcctgt cagatcccta 721 cgtaaaactg aaactgattc ccgatcccaa aagtgagagc aaacagaaga ccaaaaccat 781 caaatgctcc ctcaaccctg agtggaatga gacatttaga tttcagctga aagaatcgga 841 caaagacaga agactgtcag tagagatttg ggattgggat ttgaccagca ggaatgactt 901 catgggatct ttgtcctttg ggatttctga acttcagaag gccagtgttg atggctggtt 961 taagttactg agccaggagg aaggcgagta cttcaatgtg cctgtgccac cagaaggaag1021 tgaggccaat gaagaactgc ggcagaaatt tgagagggcc aagatcagtc agggaaccaa1081 ggtcccggaa gaaaagacga ccaacactgt ctccaaattt gacaacaatg gcaacagaga1141 ccggatgaaa ctgaccgatt ttaacttcct aatggtgctg gggaaaggca gctttggcaa1201 ggtcatgctt tcagaacgaa aaggcacaga tgagctctat gctgtgaaga tcctgaagaa1261 ggacgttgtg atccaagatg atgacgtgga gtgcactatg gtggagaagc gggtgttggc1321 cctgcctggg aagccgccct tcctgaccca gctccactcc tgcttccaga ccatggaccg1381 cctgtacttt gtgatggagt acgtgaatgg gggcgacctc atgtatcaca tccagcaagt1441 cggccggttc aaggagcccc atgctgtatt ttacgctgca gaaattgcca tcggtctgtt1501 cttcttacag agtaagggca tcatttaccg tgacctaaaa cttgacaacg tgatgctcga1561 ttctgaggga cacatcaaga ttgccgattt tggcatgtgt aaggaaaaca tctgggatgg1621 ggtgacaacc aagacattct gtggcactcc agactacatc gcccccgaga taattgctta1681 tcagccctat gggaagtccg tggattggtg ggcatttgga gtcctgctgt atgaaatgtt1741 ggctgggcag gcaccctttg aaggggagga tgaagatgaa ctcttccaat ccatcatgga1801 acacaacgta gcctatccca agtctatgtc caaggaagct gtggccatct gcaaagggct1861 gatgaccaaa cacccaggca aacgtctggg ttgtggacct gaaggcgaac gtgatatcaa1921 agagcatgca tttttccggt atattgattg ggagaaactt gaacgcaaag agatccagcc1981 cccttataag ccaaaagctt gtgggcgaaa tgctgaaaac ttcgaccgat ttttcacccg2041 ccatccacca gtcctaacac ctcccgacca ggaagtcatc aggaatattg accaatcaga2101 attcgaagga ttttcctttg ttaactctga atttttaaaa cccgaagtca agagctaagt2161 agatgtgtag atctccgtcc ttcatttctg tcattcaagc tcaacggcta ttgtggtgac2221 atttttatgt ttttcattgc caagttgcat ccatgtttga ttttctgatg agactagagt2281 gacagtgttt cagaacccaa atgtcctcag gtagtttgga gcatctctat gagatgggat2341 tatgcagatg gcctatggaa aatgcagctg cataattaac acattatcaa agtcctctta2401 caatttattt tccgcagcat gtcagctaag tagacccaat ggggagagaa aatgcctgct2461 ttctttccct ctttttctgc actgccatat tcacccccaa ccatccaatc tgtggataat2521 tggatgttag cggtactctt ccacttccgg tcctggagct tggcttgtat ccaagtgtat2581 ggttgctttg cctaagagga atccctctat ttcacctgtt ctggaggcac cagaccttga2841 aaagaacatg ctcaaaataa aatgttatct gttatttttg taaactcaaa gttaagatga2701 tcaaagttct aaaattccaa gaatgtgctt ttagacggtc tcaatctaaa agcacttcaa2761 27 2761 ggggtcaaag ggcaaccagc ttggtgctac ctcagtgttg tagtttctga tactttatgt2821 ctttgctcac cctcatcccc aaactacttg aaaagggcat ttggcaccac tctctgaaac2881 aacacagtca ctctagcaag gcccccaaag ggccctggtt ttacattaca tttcaaactt2941 tatttgcttt ggggttttgt ttctgttgtt gttcaaatgc aaaaaaaaga aaaaaaaaag3001 aaaaaaaaag gtgactcaca ttgttacaca tgctttaaaa tatgtgttca aatgttatta3061 accacaatga cgacctgttt tgatttaacc aagaagacgg ctgcggagcc tagcagactc3121 aggcctgtgg gaatgggatt tgttacaaat ctaggtttgt tactggcttc agaaagctaa3181 ttaagtgctc tgaaaaagac accgtttctt gaaacaaaga tggttgtatt cctcactttg3241 atgttgtttt gcaagatgtt tgtggaaatg ttcatttgta tctggatctc tgttatgtgc3301 catttttctt ctagcatcga g (2) SEQ ID NO: 2975 for data: (i) sequence characteristics:

(A) length: 621 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2975 sequence description: 1 gtccttcatt ccttccacaa ctatttatcc agcaccgttt ctgggcacag ggctccagcg 61 atggtcccaa caggtacaat gacctctggg gaccaagttc agttcttggt gagttctcca121 gtgcctctcg atgtaggatg aaccgttggc atgctccact gacgctggct ccttctgttg181 tttctcttgg ctccaggacc cccgcagcaa acacaagttt aagatccaca cgtactccag241 ccccacgttt tgtgaccact gtgggtcact gctgtatgga ctcatccacc aggggatgaa301 atgtgacagt aagtactttc tctctctggg ggcatctgct gatggcagaa gcaatgggaa361 gggctgcttc cacttggttt ggggtccagg tctgccatac attcccccct gtcctcgttg421 gggctggtgt accagttatc tgttgctgca taatgatcct cccaccccaa aacactgtga481 ctgaagacaa taaacatttt tttagctcat gactctgcaa ggcagtcctt tgaatctggg541 ctggcctcag ctgatgtcac gcatgttcat aaagcatgaa ctcatggttc atggtggatt601 agcagatgga ggtgggctgg g (2) SEQ ID NO: 2976 data: (i) sequence characteristics:

(A) length: 1559 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2976 description of the sequence: 1 acatcaagga gacgagtcct ggttggatag taatgtcttt aacacccctc tagcatttat 61 taatttcctc tcttaacaaa taaaagatgc ccttcagtca gatgcttagg acagatgacg121 cacctagaga tattttaata atgtagatac tcttgctgtt caaactcaga ccaaaatgac181 gataggcttt tttggccccc agagggtgca caaatacgac cagaatttgt gaagacgagt241 cagaaatgaa tgaaatttgg aaaaatattg atctactgaa atccttcctc cccacactat301 tagccctatg ttacagttgg ggaaacggag tcgttttgca gaggggatgg acagaaggta361 gggagttctc ttccaaacgt gcaggaggca agcaaagcca agaatcttct ctgtggtgag421 ttagagacat ataaaataaa gatcgctcct cccctacctc tgcagaacgt gtgtgtgtat481 gtgtgtgtaa gtgtgtgcgg ccacaagcct ttccgaatga gtgacagcgg gagcccatcc541 ctccaggaga cgcgtgcaga atgaccaatg ggatggatgg gggtggatgg gtaccagtct601 ccgcagaggc cggggtggga attcgctgcg ccccacccct tccacccgct ccccttcgcc 661 ccgtaggtct ttccactctc gctcctcccc tgggcacatc tcctgaacgc agccccgggg 721 gccgaggacg gggtggggtg gggggcgagg ctcgggtccg acgaccccgg gctgcggtcc 781 cggcgctgca gagctgcggc tgtgcacgct tagccgcgag gcccgcggta gcccgggcgc 841 cgatatgtaa agcagctggc agcgctgggc ggggcctggg cgcgactgca aatgaggagg 901 gcgcgggctg gcccgggggc tccgcctccc tcccccgcag ctggggccag cggctgccaa 961 gcgcactggt cgagcggcag cagctgggcg aggtgacagc cccggctccg cgcgccggcc1O21 gccagagccg gcgcagggga agcgcccgcg gccccgggtg cagcagcggc cgccgcctcc1081 cgcgcctccc cggcccgcag cccgcggtcc cgcgccccgg ggccggcacc tctcgggctc1141 cggctccccg cgcgcaagat ggctgacccg gctgcggggc cgccgccgag cgagggcgag1201 gagagcaccg tgcgcttcgc ccgcaaaggc gccctcaggc agaagaacgt gcatgaggtc1261 aagaaccaca aattcaccgc ccgcttcttc aagcagccca ccttctgcag ccactgcacc1321 gacttcatct ggtgaccccc caggcactcc ggccccaggc cacgccgcgc caggaccccc1381 tctccgcgcc ctctgcgccc tccgcaccct ggaccccgcg tccccggact ccccgctccg1441 gaccctgctg cccgggactc ccggatggac agtcctagcc gttgccctgt ccccaccctg1501 gtcccagacg ggccgccgcg ggcgcctcct gccctctcct gctctcaggc gcctctaga (2) SEQ ID NO: 2977 data: (i) sequence characteristics:

(A) length: 2510 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2977 sequence description: 1 gtcgactgca ggtcaacgga cacatcaagg agagagtcct ggttggatag taatgtcttt 61 aacacccctc tagcatttat taatttcctc tcttaacaaa taaaagatga cttcagttga 121 agatccttag gacagatgac ggcacctgga gatattttaa taatgtagat accctcttgc 181 721 gaacgcagcc ccgggggccg aggacggggt ggggtggggg gcgaggctcg ggtccgacga 781 181 tgttcaaact cagaccaaaa gagatggctt tttttccccc agagggtgca caaatacgac 241 agaatttgtg aagacgagtc agaaatgaat gaaatttgga aaaatattga tctactgaaa 301 tccttcctcc ccacactatt agccctatgt tacagttggg gaaacggagt cgttttgcag 361 aggggatgga cagaaggtag ggagttctct tccaacgtgc aggaggcaag caaagccaag 421 catcttctct gtggtggagt tagagacata taaaataaga tcgctcctcc cctacctctg 481 cagaacgtgt gtgtgtatgt gtgtgtaacg tgtgtgcggc cacaagcctt tccgaatgag 541 tgacagcggg agcccatccc tccaggagac gcgtgcagaa tgaccaatgg gatggatggg 601 ggtggatggg taccgtctcc gcgaggccgg ggtggaattc gctgcgcccc accccttcca 661 cccgctcccc ttcgccccgt aggtctttcc actctcgctc ctcccctggg cacatctcct 721 gaacgcagcc ccgggggccg aggacggggt ggggtggggg gcgaggctcg ggtccgacga 781 ccccgggctg cggtcccggc gctgcagagc tgcggctgtg cacgcttagc cgcgaggccc 841 gcggtagccc gggcgccgat atgtaaagca gctggcagcg ctgggcgggg cctgggcgcg 901 atgcaaatga ggagggcggg gctggcccgg ggctccgcct ccctcccccg cagctggggc 961 cagcggtgcc aagcgcagct ggacgagcgg cagcagctgg gcgagtgaca gccccggctc1021 cgcgcgccgc ggccgccaga gccggcgcag gggaagcgcc cgcggccccg ggtgcagcag1081 cggccgccgc ctcccgcgcc tccccggccc gcagcccgcg gtcccgcggc cccggggccg1141 gcacctctcg ggctccggct ccccgcgcgc aagatggctg acccggctgc ggggccgccg1201 ccgagcgagg gcgaggagag caccgtgcgc ttcgcccgca aaggcgccct caggcagaag1261 aacgtgcatg aggtcaagaa ccacaaattc accgcccgct tcttcaagca gcccaccttc1321 tgcagccact gcaccgactt catctggtgg agcgcgcgcg caaggcacct tcccgggccc1381 ccgaggcagc gccgcgccaa gggaccccct ctccgccctc tgcgccctcc gcaccctgga1441 ccccgcgtcc ccggactccc cgctccggac cctgctgccg ggactcccgg atggacagtc1501 ctgccgttgc cctgtcccca ccctggtccc aggacggggg cgcctcctgc cctctcctgc1561 tctcaggcgc ctctagagcg cccaggggca gcgtcgcggg cgcctttgct ccacctgact1621 aggagcgcgc ggggtctgtg cctgccctgg agggcagcgc ctcgggtgct ctccgacccg1681 gggttcccta tctctccgcc tgcttccggg cgcgaggagc cctcgccccc caccccttgt1741 ttccgggggg ggggggcggc gccctgggtg tccttctcta tctctgcggg catgggacat1801 cctttctcac tcctctgtgc ctcggcagcg ccctgtgtta tctcccattg ccctccccga1861 gggcctggtt cccctttcca ctcctcggtc acatcactgc gggccccttt cttccccagt1921 ccctccagta gtggggcatc ctttcctcct tcccagtccc cctcccagag gacaccaccg1981 ccgcggggtc actctcgccc tccctctgaa tgcgtcttta tctcttctct tttccgaggg2041 tgctcggggc atctatgggt acatctgtcg cctgccttca gcccctaccc cgacggaaac2101 gctccccact atcccgccac ctggtggtcg cagcctcctc tcttctgcag gagtgaaggc2161 agatcggggt tacagccgag ctcccaccta cccccacaaa ggcggaagac tcttgggcac2221 ccgcctgtgg ctgggagttt gcacctgggg tacagaggca gggaggaagg cgggtgactc2281 tgtgggtaac tagctggagg ctgggccccc gggctgcctg acatacacct ccttctgctt2341 ttgcaggggc ttcgggaagc agggattcca gtgccaaggt aggctctggg gctttgggga2401 tgctatttgt gggaagagag ggtgaaaaat actttataga agaagttact gagttaggca2461 gagagtgaaa gaatcacgtt ggtcggagtg acctcccagg ctaggaattc (2) SEQ ID NO: 2978 data: (i) sequence characteristics:

(A) length: 2163 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2978 description of the sequence: 1 aaagcgacca tgtatcctga gtggaagtcg acgttcgatg cccacatcta tgaggggcgc 61 gtcatccaga ttgtgctaat gcgggcagca gaggagccag tgtctgaggt gaccgtgggt 121 gtgtcggtgc tggccgagcg ctgcaagaag aacaatggca aggctgagtt ctggctggac 181 721 gctgaggcct tgaaccaagt cacccagaga gcctcccgga gatcagactc agcctcctca 781 181 ctgcagcctc aggccaaggt gttgatgtct gttcagtatt tcctggagga cgtggattgc 241 aaacagtcta tgcgcagtga ggacgaggcc aagttcccaa cgatgaaccg ccgcggagcc 301 atcaaacagg ccaaaatcca ctacatcaag aaccatgagt ttatcgccac cttctttggg 361 caacccacct tctgttctgt gtgcaaagac tttgtctggg gcctcaacaa gcaaggctac 421 aaatgcaggc aatgtaacgc tgccatccac aagaaatgca tcgacaagat catcggcaga 481 tgcactggca ccgcggccaa cagccgggac actatattcc agaaagaacg cttcaacatc 541 gacatgccgc accgcttcaa ggttcacaac tacatgagcc ccaccttctg tgaccactgc 601 ggcagcctgc tctggggact ggtgaagcag ggattaaagt gtgaagactg cggcatgaat 661 gtgcaccata aatgccggga gaaggtggcc aacctctgcg gcatcaacca gaagcttttg 721 gctgaggcct tgaaccaagt cacccagaga gcctcccgga gatcagactc agcctcctca 781 gagcctgttg ggatatatca gggtttcgag aagaagaccg gagttgctgg ggaggacatg 841 caagacaaca gtgggaccta cggcaagatc tgggagggca gcagcaagtg caacatcaac 901 aacttcatct tccacaaggt cctgggcaaa ggcagcttcg ggaaggtgct gcttggagag 961 ctgaagggca gaggagagta ctttgccatc aaggccctca agaaggatgt ggtcctgatc1021 gacgacgacg tggagtgcac catggttgag aagcgggtgc tgacacttgc cgcagagaat1081 ccctttctca cccacctcat ctgcaccttc cagaccaagg accacctgtt ctttgtgatg1141 gagttcctca acggggggga cctgatgtac cacatccagg acaaaggccg ctttgaactc1201 taccgtgcca cgttttatgc cgctgagata atgtgtggac tgcagtttct acacagcaag1261 ggcatcattt acagggacct caaactggac aatgtgctgt tggaccggga tggccacatc1321 aagattgccg actttgggat gtgcaaagag aacatattcg gggagagccg ggccagcacc1381 ttctgcggca cccctgacta tatcgcccct gagatcctac agggcctgaa gtacacattc1441 tctgtggact ggtggtcttt cggggtcctt ctgtacgaga tgctcattgg ccagtccccc1501 ttccatggtg atgatgagga tgaactcttc gagtccatcc gtgtggacac gccacattat1561 ccccgctgga tcaccaagga gtccaaggac atcctggaga agctctttga aagggaacca1621 accaagaggc tgggagtgac gggaaacatc aaaatccacc ccttcttcaa gaccataaac1681 tggactctgc tggaaaagcg gaggttggag ccacccttca ggcccaaagt gaagtcaccc1741 agagactaca gtaactttga ccaggagttc ctgaacgaga aggcgcgcct ctcctacagc1801 gacaagaacc tcatcgactc catggaccag tctgcattcg ctggcttctc ctttgtgaac1861 cccaaattcg agcacctcct ggaagattga ggttcctgga cagatcaggc tagccctgcc1921 ctccacccac acctgcccgc tccccacgat aagcaccagt gggactgtgg tgacttctgc1981 tgctggcccc gcccctgccc ccagagcgtc cttggctgcc gtctggccgg gctctcatgg2041 tacttcctct gtgaactgtg tgtgaatctg cttttcctct gccttcggag ggaaattgta2101 aatcctgtgt ttcattactt gaatgtagtt atctattgaa aatatacttt agagcacaat2161 21683 2161 gga (2) SEQ ID NO: 2979 data: (i) sequence characteristics:

(A) length: 2104 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2979 sequence description: 1 tgccgccgcg acccttggcg cctgcccctg caacgggagc cccactgcag gccccaccat 61 ggcgccgttc ctgcgcatcg ccttcaactc ctatgagctg ggctccctgc aggccgagga 121 cgaggcgaac cagcccttct gtgccgtgaa gatgaaggag gcgctcagca cagagcgtgg 181 721 gaaagaacgc ttcaacatcg acatgccgca ccgcttcaag gttcacaact acatgagccc 781 181 gaaaacactg gtgcagaaga agccgaccat gtatcctgag tggaagtcga cgttcgatgc 241 ccacatctat gaggggcgcg tcatccagat tgtgctaatg cgggcagcag aggagccagt 301 gtctgaggtg accgtgggtg tgtcggtgct ggccgagcgc tgcaagaaga acaatggcaa 361 ggctgagttc tggctggacc tgcagcctca ggccaaggtg ttgatgtctg ttcagtattt 421 cctggaggac gtggattgca aacaatctat gcgcagtgag gacgaggcca agttcccaac 481 gatgaaccgc cgcggagcca tcaaacaggc caaaatccac tacatcaaga accatgagtt 541 tatcgccacc ttctttgggc aacccacctt ctgttctgtg tgcaaagact ttgtctgggg 601 cctcaacaag caaggctaca aatgcaggca atgtaacgct gccatccaca agaaatgcat 661 cgacaagatc atcggcagat gcactggcac cgcggccaac agccgggaca ctatattcca 721 gaaagaacgc ttcaacatcg acatgccgca ccgcttcaag gttcacaact acatgagccc 781 caccttctgt gaccactgcg gcagcctgct ctggggactg gtgaagcagg gattaaagtg 841 tgaagactgc ggcatgaatg tgcaccataa atgccgggag aaggtggcca acctctgcgg 901 catcaaccag aagcttttgg ctgaggcctt gaaccaagtc acccagagag cctcccggag 961 atcagactca gcctcctcag agcctgttgg gatatatcag ggtttcgaga agaagaccgg1021 agttgctggg gaggacatgc aagacaacag tgggacctac ggcaagatct gggagggcag1081 cagcaagtgc aacatcaaca acttcatctt ccacaaggtc ctgggcaaag gcagcttcgg1141 gaaggtgctg cttggagagc tgaagggcag aggagagtac tctgccatca aggccctcaa1201 gaaggatgtg gtcctgatcg acgacgacgt ggagtgcacc atggttgaga agcgggtgct1261 gacacttgcc gcagagaatc cctttctcac ccacctcatc tgcaccttcc agaccaagga1321 ccacctgttc tttgtgatgg agttcctcaa cgggggggac ctgatgtacc acatccagga1381 caaaggccgc tttgaactct accgtgccac gttttatgcc gctgagataa tgtgtggact1441 gcagtttcta cacagcaagg gcatcattta cagggacctc aaactggaca atgtgctgtt1501 ggaccgggat ggccacatca agattgccga ctttgggatg tgcaaagaga acatattcgg1561 ggagagccgg gccagcacct tctgcggcac ccctgactat atcgcccctg agatcctaca1621 gggcctgaag tacacattct ctgtggactg gtggtctttc ggggtccttc tgtacgagat1681 gctcattggc cagtccccct tccatggtga tgatgaggat gaactcttcg agtccatccg1741 tgtggacacg ccacattatc cccgctggat caccaaggag tccaaggaca tcctggagaa1801 gctctttgaa agggaaccaa ccaagaggct gggaatgacg ggaaacatca aaatccaccc1861 cttcttcaag accataaact ggactctgct ggaaaagcgg aggttggagc cacccttcag1921 gcccaaagtg aagtcaccca gagactacag taactttgac caggagttcc tgaacgagaa1981 ggcgcgcctc tcctacagcg acaagaacct catcgactcc atggaccagt ctgcattcgc2041 tggcttctcc tttgtgaacc ccaaattcga gcacctcctg gaagattgag gttcctggac2101 agat (2) SEQ ID NO: 2980 data: (i) sequence characteristics:

(A) length: 2146 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2980 sequence description: 1 cccaagatgg aagggagcgg cggccgcgtc cgcctcaagg cgcattacgg gggggacatc 61 ttcatcacca gcgtggacgc cgccacgacc ttcgaggagc tctgtgagga agtgagagac121 atgtgtcgtc tgcaccagca gcacccgctc accctcaagt gggtggacag cgaaggtgac181 ccttgcacgg tgtcctccca gatggagctg gaagaggctt tccgcctggc ccgtcagtgc241 agggatgaag gcctcatcat tcatgttttc ccgagcaccc ctgagcagcc tggcctgcca301 tgtccgggag aagacaaatc tatctaccgc cggggagcca gaagatggag gaagctgtac361 cgtgccaacg gccacctctt ccaagccaag cgctttaaca ggagagcgta ctgcggtcag421 tgcagcgaga ggatatgggg cctcgcgagg caaggctaca ggtgcatcaa ctgcaaactg481 ctggtccata agcgctgcca cggcctcgtc ccgctgacct gcaggaagca tatggattct541 gtcatgcctt cccaagagcc tccagtagac gacaagaacg aggacgccga ccttccttcc601 gaggagacag atggaattgc ttacatttcc tcatcccgga agcatgacag cattaaagac661 gactcggagg accttaagcc agttatcgat gggatggatg gaatcaaaat ctctcagggg 721 cttgggctgc aggactttga cctaatcaga gtcatcgggc gcgggagcta cgccaaggtt 781 ctcctggtgc ggttgaagaa gaatgaccaa atttacgcca tgaaagtggt gaagaaagag 841 ctggtgcatg atgacgagga tattgactgg gtacagacag agaagcacgtgtttgagcag 901 gcatccagca accccttcct ggtcggatta cactcctgct tccagacgac aagtcggttg 961 ttcctggtca ttgagtacgt caacggcggg gacctgatgt tccacatgca gaggcagagg1021 aagctccctg aggagcacgc caggttctac gcggccgaga tctgcatcgc cctcaacttc1081 ctgcacgaga gggggatcat ctacagggac ctgaagctgg acaacgtcct cctggatgcg1141 gacgggcaca tcaagctcac agactacggc atgtgcaagg aaggcctggg ccctggtgac1201 acaacgagca ctttctgcgg aaccccgaat tacatcgccc ccgaaatcct gcggggagag1261 gagtacgggt tcagcgtgga ctggtgggcg ctgggagtcc tcatgtttga gatgatggcc1321 gggcgctccc cgttcgacat catcaccgac aacccggaca tgaacacaga ggactacctt1381 ttccaagtga tcctggagaa gcccatccgg atcccccggt tcctgtccgt caaagcctcc1441 catgttttaa aaggattttt aaataaggac cccaaagaga ggctcggctg ccggccacag1501 actggatttt ctgacatcaa gtcccacgcg ttcttccgca gcatagactg ggacttgctg1561 gagaagaagc aggcgctccc tccattccag ccacagatca cagacgacta cggtctggac1621 aactttgaca cacagttcac cagcgagccc gtgcagctga ccccagacga tgaggatgcc1681 ataaagagga tcgaccagtc agagttcgaa ggctttgagt atatcaaccc attattgctg1741 tccaccgagg agtcggtgtg aggccgcgtg cgtctctgtc gtggacacgc gtgattgacc1801 ctttaactgt atccttaacc accgcatatg catgccaggc tgggcacggc tccgagggcg1861 gccagggaca gacgcttgcg ccgagaccgc agagggaagc gtcagcgggc gctgctggga1921 gcagaacagt ccctcacacc tggcccggca ggcagcttcg tgctggagga acttgctgct1981 gtgcctgcgt cgcggcggat ccgcggggac cctgccgagg gggctgtcat gcggtttcca2041 aggtgcacat tttccacgga aacagaactc gatgcactga cctgctccgc caggaaagtg2101 agcgtgtagc gtcctgagga ataaaatgtt ccgatgaaaa aaaaaa (2) SEQ ID NO: 2981 data: (i) sequence characteristics:

(A) length: 1423 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2981 sequence description: 1 gggccggcgg cggcggcgac tctggacgcg agccgggccc ttcccgtgga tcgccccagc 61 tgcggcgggc gtcgcggccg cccccgggtg gcacttccgt gtgccgcggc gccggagccc 121 gaggcggctg tagcccacat ctcccgagcg acccccggcg cccgcccgcc gcgcggaggc 181 721 tgcgcagtga ggacgaggcc aagttcccaa cgatgaaccg ccgcggagcc atcaaacagg 781 181 ccgggccaca cctcactggc cgcttggccc atcccagtca gcgccgcgcc gaaccccgtc 241 cgcgcgcgcc ggggagcggc gcccccgccg ctgccgccgc gacccttggc gcctgcccct 301 gcaacgggag ccccactgca ggccccacca tggcgccgtt cctgcgcatc gccttcaact 361 cctatgagct gggctccctg caggccgagg acgaggcgaa ccagcccttc tgtgccgtga 421 agatgaagga ggcgctcagc acagagcgtg ggaaaacact ggtgcagaag aagccgacca 481 tgtatcctga gtggaagtcg acgttcgatg cccacatcta tgaggggcgc gtcatccaga 541 ttgtgctaat gcgggcagca gaggagccag tgtctgaggt gaccgtgggt gtgtcggtgc 601 tggccgagcg ctgcaagaag aacaatggca aggctgagtt ctggctggac ctgcagcctc 661 aggccaaggt gttgatgtct gttcagtatt tcctggagga cgtggattgc aaacagtcta 721 tgcgcagtga ggacgaggcc aagttcccaa cgatgaaccg ccgcggagcc atcaaacagg 781 ccaaaatcca ctacatcaag aaccatgagt ttatcgccac cttctttggg caacccacct 841 tctgttctgt gtgcaaagac tttgtctggg gcctcaacaa gcaaggctac aaatgcaggc 901 aatgtaacgc tgccatccac aagaaatgca tcgacaagat catcggcaga tgcactggca 961 ccgcggccaa cagccgggac actatattcc agaaagaacg cttcaacatc gacatgccgc1021 accgcttcaa ggttcacaac tacatgagcc ccaccttctg tgaccactgc ggcagcctgc1081 tctggggactggtgaagcag ggattaaagt gtgaagactg cggcatgaat gtgcaccata1141 aatgccggga gaaggtggcc aacctctgcg gcatcaacca gaagcttttg gctgaggcct1201 tgaaccaagt cacccagaga gcctcccgga gatcagactc agcctcctca gagcctgttg1261 ggatatatca gggtttcgag aagaagaccg gagttgctgg ggaggacatg caagacaaca1321 gtgggaccta cggcaagatc tgggagggca gcagcaagtg caacatcaac aacttcatct1381 tccacaaggt cctgggcaaa ggcagcttcg ggaaggtgct gct (2) SEQ ID NO: 2982 data: (i) sequence characteristics:

(A) length: 2244 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2982 description of the sequence: 1 ctccccgccc cgaccatggt agtgttcaat ggccttctta agatcaaaat ctgcgaggcc 61 gtgagcttga agcccacagc ctggtcgctg cgccatgcgg tgggaccccg gccgcagact 121 ttccttctcg acccctacat tgccctcaat gtggacgact cgcgcatcgg ccaaacggcc 181 721 cggttcagcg tcaacatgcc ccacaagttc ggtatccaca actacaaggt ccctaccttc 781 181 accaagcaga agaccaacag cccggcctgg cacgacgagt tcgtcaccga tgtgtgcaac 241 ggacgcaaga tcgagctggc tgtctttcac gatgccccca taggctacga cgacttcgtg 301 gccaactgca ccatccagtt tgaggagctg ctgcagaacg ggagccgcca cttcgaggac 361 tggattgatc tggagccaga aggaagagtg tatgtgatca tcgatctctc agggtcgtcg 421 ggtgaagccc ctaaagacaa tgaagagcgt gtgttcaggg aacgcatgcg gccgaggaag 481 cggcaggggg ccgtcaggcg cagggtccat caggtcaacg gccacaagtt catggccacc 541 tatcttcggc agcccaccta ctgctcccat tgcagagact tcatctgggg tgtcatagga 601 aagcagggat accagtgtca agtctgcacc tgcgtggtcc acaagcggtg ccacgagctc 661 ataatcacaa agtgtgctgg gttaaagaag caggagaccc ccgaccaggt gggctcccag 721 cggttcagcg tcaacatgcc ccacaagttc ggtatccaca actacaaggt ccctaccttc 781 tgcgatcact gtgggtccct gctctgggga ctcttgcggc agggtttgca gtgtaaagtc 841 tgcaaaatga atgttcaccg tcgatgtgag accaacgtgg ctcccaactg tggagtggat 901 gccagaggaa tcgccaaagt actggccgac ctgggcgtta ccccagacaa aatcaccaac 961 agcggccaga gaaggaaaaa gctcattgct ggtgccgagt ccccgcagcc tgcttctgga1021 agctcaccat ctgaggaaga tcgatccaag tcagcaccca cctccccttg tgaccaggaa1081 ataaaagaac ttgagaacaa cattcggaaa gccttgtcat ttgacaaccg aggagaggag1141 caccgggcag catcgtctcc tgatggccag ctgatgagcc ccggtgagaa tggcgaagtc1201 cggcaaggcc aggccaagcg cctgggcctg gatgagttca acttcatcaa ggtgttgggc1261 aaaggcagct ttggcaaggt catgttggca gaactcaagg gcaaagatga agtatatgct1321 gtgaaggtct taaagaagga cgtcatcctt caggatgatg acgtggactg cacaatgaca1381 gagaagagga ttttggctct ggcacggaaa cacccgtacc ttacccaact ctactgctgc1441 ttccagacca aggaccgcct ctttttcgtc atggaatatg taaatggtgg agacctcatg1501 tttcagattc agcgctcccg aaaattcgac gagcctcgtt cacggttcta tgctgcagag1561 gtcacatcgg ccctcatgtt cctccatcag catggagtca tctacaggga tttgaaactg1621 gacaacatcc ttctggatgc agaaggtcac tgcaagctgg ctgacttcgg gatgtgcaag1681 gaagggattc tgaatggtgt gacgaccacc acgttctgtg ggactcctga ctacatagct1741 cctgagatcc tgcaggagtt ggagtatggc ccctccgtgg actggtgggc cctgggggtg1801 ctgatgtacg agatgatggc tggacagcct ccctttgagg ccgacaatga ggacgaccta1861 tttgagtcca tcctccatga cgacgtgctg tacccagtct ggctcagcaa ggaggctgtc1921 agcatcttga aagctttcat gacgaagaat ccccacaagc gcctgggctg tgtggcatcg1981 cagaatggcg aggacgccat caagcagcac ccattcttca aagagattga ctgggtgctc2041 ctggagcaga agaagatcaa gccacccttc aaaccacgca ttaaaaccaa aagagacgtc2101 aataattttg accaagactt tacccgggaa gagccggtac tcacccttgt ggacgaagca2161 attgtaaagc agatcaacca ggaggaattc aaaggtttct cctactttgg tgaagacctg2221 atgccctgag agcccactgc agtt (2) SEQ ID NO: 2983 data: (i) sequence characteristics:

(A) length: 218 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2983 description of the sequence: 1 agccggcttc tggaaactcc ctgtgtgagt gtgagggaat gagtatgaac aaggcacatt 61 atgtcttact tattgtatta gtttcctgtt gctgctgtag caagttacca ccaatttatg121 gcttaaagca attcaaattt tttctcttga attcttaaga tcagaagttc taaatgagtc181 taatggggct aaaatcaagg tgttaggcaa aggcagct (2) SEQ ID NO:2984 data: (i) sequence characteristics:

(A) length: 1830 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2984 description of the sequence: 1 tgcagctgga gatccgggct cccacagcag atgagatcca cgtaactgtt ggcgaggccc 61 gtaacctaat tcctatggac cccaatggtc tctctgatcc ctatgtgaaa ctgaagctca 121 tcccagaccc tcggaacctg acgaaacaga agacccgaac ggtgaaagcc acgctaaacc 181 721 gtgtgctggc gctggggggc cggggtcctg gcggccggcc ccacttcctc acccagctcc 781 181 ctgtgtggaa tgagaccttt gtgttcaacc tgaagccagg ggatgtggag cgccggctca 241 gcgtggaggt gtgggactgg gaccggacct cccgcaacga cttcatgggg gccatgtcct 301 ttggcgtctc ggagctgctc aaggcgcccg tggatggctg gtacaagtta ctgaaccagg 361 aggagggcga gtattacaat gtgccggtgg ccgatgctga caactgcagc ctcctccaga 421 agtttgaggc ttgtaactac cccctggaat tgtatgagcg ggtgcggatg ggcccctctt 481 cctctcccat cccctcccct tcccctagtc ccaccgaccc caagcgctgc ttcttcgggg 541 cgagtccagg acgcctgcac atctccgact tcagcttcct catggttcta ggaaaaggca 601 gttttgggaa ggtgatgctg gccgagcgca ggggctctga tgagctctac gccatcaaga 661 tcttgaaaaa ggacgtgatc gtccaggacg acgatgtgga ctgcacgctg gtggagaaac 721 gtgtgctggc gctggggggc cggggtcctg gcggccggcc ccacttcctc acccagctcc 781 actccacctt ccagaccccg gaccgcctgt atttcgtgat ggagtacgtc accgggggag 841 acttgatgta ccacattcaa cagctgggca agtttaagga gccccatgca gcgttctacg 901 cggcagaaat cgctatcggc ctcttcttcc ttcacaatca gggcatcatc tacagggacc 961 tgaagctgga caatgtgatg ctggatgctg agggacacat caagatcact gactttggca1021 tgtgtaagga gaacgtcttc cccgggacga caacccgcac cttctgcggg accccggact1081 acatagcccc ggagatcatt gcctaccagc cctatgggaa gtctgtcgat tggtggtcct1141 ttggagttct gctgtatgag atgttggcag gacagcctcc cttcgatggg gaggacgagg1201 aggagctgtt tcaggccatc atggaacaaa ctgtcaccta ccccaagtcg ctttcccggg1261 aagccgtggc catctgcaag gggttcctga ccaagcaccc agggaagcgc ctgggctcag1321 ggcctgatgg ggaacctacc atccgtgcac atggcttttt ccgctggatt gactgggagc1381 ggctggaacg attggagatc ccgcctcctt tcagaccccg cccgtgtggc cgcagcggcg1441 agaactttga caagttcttc acgcgggcgg cgccagcgct gacccctcca gaccgcctag1501 tcctggccag catcgaccag gccgatttcc agggcttcac ctacgtgaac cccgacttcg1561 tgcacccgga tgcccgcagc cccaccagcc cagtgcctgt gcccgtcatg taatctcacc1621 cgccgccact aggtgtcccc aacgtcccct ccgccgtgcc ggcggcagcc ccacttcacc1681 cccaacttca ccaccccctg tcccattcta gatcctgcac cccagcattc cagctctgcc1741 cccgcgggtt ctagacgccc ctcccaagcg ttcctggcct tctgaactcc atacagcctc1801 tacagccgtc ccgcgttcaa gacttgagcg (2) SEQ ID NO: 2985 data: (i) sequence characteristics:

(A) length: 2196 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2985 sequence description: 1 cggggtgtct tgggcccggg cggctgtaga ggcggcggcg cctacgggca gtgggaggag 61 ccgcgcggtt ccggctgctc cggcgaggcg acccttgggt cggcgctgcg ggcaggtggc121 aggtaggtgg cggacggccg cggttctccg gcaagcgcag gcggcggagt cccccacggc181 gcccgaagcg cccccccgca cccccggcct ccagcgttga ggcgggggag tgaggagatg241 ccgacccaga gggacagcag caccatgtcc cacacggtcg caggcggcgg cagcggggac301 cattcccacc aggtccgggt gaaagcctac taccgcgggg atatcatgat aacacatttt361 gaaccttcca tctcctttga gggcctttgc aatgaggttc gagacatgtg ttcttttgac421 aacgaacagc tcttcaccat gaaatggata gatgaggaag gagacccgtg tacagtatca481 tctcagttgg agttagaaga agcctttaga ctttatgagc taaacaagga ttctgaactc541 ttgattcatg tgttcccttg tgtaccagaa cgtcctggga tgccttgtcc aggagaagat601 aaatccatct accgtagagg tgcacgccgc tggagaaagc tttattgtgc caatggccac661 actttccaag ccaagcgttt caacaggcgt gctcactgtg ccatctgcac agaccgaata721 tggggacttg gacgccaagg atataagtgc atcaactgca aactcttggt tcataagaag 781 tgccataaac tcgtcacaat tgaatgtggg cggcattctt tgccacagga accagtgatg 841 cccatggatc agtcatccat gcattctgac catgcacaga cagtaattcc atataatcct 901 tcaagtcatg agagtttgga tcaagttggt gaagaaaaag aggcaatgaa caccagggaa 961 agtggcaaag cttcatccag tctaggtctt caggattttg atttgctccg ggtaatagga1021 agaggaagtt atgccaaagt actgttggtt cgattaaaaa aaacagatcg tatttatgca1081 atgaaagttg tgaaaaaaga gcttgttaat gatgatgagg atattgattg ggtacagaca1141 gagaagcatg tgtttgagca ggcatccaat catcctttcc ttgttgggct gcattcttgc1201 tttcagacag aaagcagatt gttctttgtt atagagtatg taaatggagg agacctaatg1261 tttcatatgc agcgacaaag aaaacttcct gaagaacatg ccagatttta ctctgcagaa1321 atcagtctag cattaaatta tcttcatgagcgagggataa tttatagaga tttgaaactg1381 gacaatgtat tactggactc tgaaggccac attaaactca ctgactacgg catgtgtaag1441 gaaggattac ggccaggaga tacaaccagc actttctgtg gtactcctaa ttacattgct1501 cctgaaattt taagaggaga agattatggt ttcagtgttg actggtgggc tcttggagtg1561 ctcatgtttg agatgatggc aggaaggtct ccatttgata ttgttgggag ctccgataac1621 cctgaccaga acacagagga ttatctcttc caagttattt tggaaaaaca aattcgcata1681 ccacgttctc tgtctgtaaa agctgcaagt gttctgaaga gttttcttaa taaggaccct1741 aaggaacgat tgggttgtca tcctcaaaca ggatttgctg atattcaggg acacccgttc1801 ttccgaaatg ttgattggga tatgatggag caaaaacagg tggtacctcc ctttaaacca1861 aatatttctg gggaatttgg tttggacaac tttgattctc agtttactaa tgaacctgtc1921 cagctcactc cagatgacga tgacattgtg aggaagattg atcagtctga atttgaaggt1981 tttgagtata tcaatcctct tttgatgtct gcagaagaat gtgtctgatc ctcatttttc2041 aaccatgtat tctactcatg ttgccattta atgcatggat aaacttgctg caagcctgga2101 tacaattaac cattttatat ttgccaccta caaaaaaaca cccaatatct tctcttgtag2161 actatatgaa tcaattatta catctcgacc cggaat (2) SEQ ID NO: 2986 data: (i) sequence characteristics:

(A) length: 2389 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2986 description of the sequence: 1 gaattcggac ggaggaggca gaatggccag tcgaggggcg cttaggcgtg gcctttcccc 61 agggctgcct cgactcctgc acctgtcccg agggctggcc tgagacggga ctcccggttc 121 tcccgctgcg aagcaggccc cccggggccg gggcagcggc gccggcatgt cgtctggcac 181 721 tcactgcagg gagtttatct ggggagtgtt tgggaaacag ggttatcagt gccaagtgtg 781 181 catgaagttc aatggctatt tgagggtccg catcggtgag gcagtggggc tgcagcccac 241 ccgctggtcc ctgcgccact cgctcttcaa gaagggccac cagctgctgg acccctatct 301 gacggtgagc gtggaccagg tgcgcgtggg ccagaccagc accaagcaga agaccaacaa 361 acccacgtac aacgaggagt tttgcgctaa cgtcaccgac ggcggccacc tcgagttggc 421 cgtcttccac gagacccccc tgggctacga cttcgtggcc aactgcaccc tgcagttcca 481 ggagctcgtc ggcacgaccg gcgcctcgga caccttcgag ggttgggtgg atctcgagcc 541 agaggggaaa gtatttgtgg taataaccct taccgggagt ttcactgaag ctactctcca 601 gagagaccgg atcttcaaac attttaccag gaagcgccaa agggctatgc gaaggcgagt 661 ccaccagatc aatggacaca agttcatggc cacgtatctg aggcagccca cctactgctc 721 tcactgcagg gagtttatct ggggagtgtt tgggaaacag ggttatcagt gccaagtgtg 781 cacctgtgtc gtccataaac gctgccatca tctaattgtt acagcctgta cttgccaaaa 841 caatattaac aaagtggatt caaagattgc agaacagagg ttcgggatca acatcccaca 901 caagttcagc atccacaact acaaagtgcc aacattctgc gatcactgtg gctcactgct 961 ctggggaata atgcgacaag gacttcagtg taaaatatgt aaaatgaatg tgcatattcg1021 atgtcaagcg aacgtggccc ctaactgtgg ggtaaatgcg gtggaacttg ccaagaccct1081 ggcagggatg ggtctccaac ccggaaatat ttctccaacc tcgaaactcg tttccagatc1141 gaccctaaga cgacagggaa aggagagcag caaagaagga aatgggattg gggttaattc1201 ttccaaccga cttggtatcg acaactttga gttcatccga gtgttgggga aggggagttt1261 tgggaaggtg atgcttgcaa gagtaaaaga aacaggagac ctctatgctg tgaaggtgct1321 gaagaaggac gtgattctgc tggatgatga tgtggaatgc accatgaccg agaaaaggat1381 cctgtctctg gcccgcaatc accccttcct cactcagttg ttctgctgct ttcagacccc1441 cgatcgtctg ttttttgtga tggagtttgt gaatgggggt gacttgatgt tccacattca1501 gaagtctcgt cgttttgatg aagcacgagc tcgcttctat gctgcagaaa tcatttcggc1561 tctcatgttc ctccatgata aaggaatcat ctatagagat ctgaaactgg acaatgtcct1621 gttggaccac gagggtcact gtaaactggc agacttcgga atgtgcaagg aggggatttg1681 caatggtgtc accacggcca cattctgtgg cacgccagac tatatcgctc cagagatcct1741 ccaggaaatg ctgtacgggc ctgcagtaga ctggtgggca atgggcgtgt tgctctatga1801 gatgctctgt ggtcacgcgc cttttgaggc agagaatgaa gatgacctct ttgaggccat1861 actgaatgat gaggtggtct accctacctg gctccatgaa gatgccacag ggatcctaaa1921 atctttcatg accaagaacc ccaccatgcg cttgggcagc ctgactcagg gaggcgagca1981 cgccatcttg agacatcctt tttttaagga aatcgactgg gcccagctga accatcgcca2041 aatagaaccg cctttcagac ccagaatcaa atcccgagaa gatgtcagta attttgaccc2101 tgacttcata aaggaagagc cagttttaac tccaattgat gagggacatc ttccaatgat2161 taaccaggat gagtttagaa acttttccta tgtgtctcca gaattgcaac catagcctta2221 tggggagtga gagagagggc acgagaaccc aaaggaatag agattctcca ggaatttcct2281 ctatcggacc ttcccagcat cagccttaga acaagaacct taccttcaag gagcaagtga2341 agaactctgt cgaaggatgg aactttcaga tatcaactat ttagagtcc (2) SEQ ID NO: 2987 for data: (i) sequence characteristics:

(A) length: 3742 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2987 sequence description: 1 gaattccttc tctcctcctc ctcgcccttc tcctcgccct cctcctcctc ctcgccctcc 61 cctcccgatc ctcatcccct tgccctcccc cagcccaggg acttttccgg aaagttttta 121 ttttccgtct gggctctcgg agaaagaagc tcctggctca gcggctgcaa aactttcctg 181 721 ctgtggagaa atgctgtggg ggctggtacg tcaaggtctt aaatgtgaag ggtgtggtct 781 181 ctgccgcgcc gccagccccc gccctccgct gcccggccct gcgccccgcc gagcgatgag 241 cgcccctccg gtcctgcggc cgcccagtcc gctgctgccc gtggcggcgg cagctgccgc 301 agcggccgcc gcactggtcc cagggtccgg gcccgggccc gcgccgttct tggctcctgt 361 cgcggccccg gtcgggggca tctcgttcca tctgcagatc ggcctgagcc gtgagccggt 421 gctgctgctg caggactcgt ccggggacta cagcctggcg cacgtccgcg agatggcttg 481 ctccattgtc gaccagaagt tccctgaatg tggtttctac ggaatgtatg ataagatcct 541 gctttttcgc catgacccta cctctgaaaa catccttcag ctggtgaaag cggccagtga 601 tatccaggaa ggcgatctta ttgaagtggt cttgtcacgt tccgccacct ttgaagactt 661 tcagattcgt ccccacgctc tctttgttca ttcatacaga gctccagctt tctgtgatca 721 ctgtggagaa atgctgtggg ggctggtacg tcaaggtctt aaatgtgaag ggtgtggtct 781 gaattaccat aagagatgtg catttaaaat acccaacaat tgcagcggtg tgaggcggag 841 aaggctctca aacgtttccc tcactggggt cagcaccatc cgcacatcat ctgctgaact 901 ctctacaagt gcccctgatg agccccttct gcaaaaatca ccatcagagt cgtttattgg 961 tcgagagaag aggtcaaatt ctcaatcata cattggacga ccaattcacc ttgacaagat1021 tttgatgtct aaagttaaag tgccgcacac atttgtcatc cactcctaca cccggcccac1081 agtgtgccag tactgcaaga agcttctgaa ggggcttttc aggcagggct tgcagtgcaa1141 agattgcaga ttcaactgcc ataaacgttg tgcaccgaaa gtaccaaaca actgccttgg1201 cgaagtgacc attaatggag atttgcttag ccctggggca gagtctgatg tggtcatgga1261 agaagggagt gatgacaatg atagtgaaag gaacagtggg ctcatggatg atatggaaga1321 agcaatggtc caagatgcag agatggcaat ggcagagtgc cagaacgaca gtggcgagat1381 gcaagatcca gacccagacc acgaggacgc caacagaacc atcagtccat caacaagcaa1441 caatatccca ctcatgaggg tagtgcagtc tgtcaaacac acgaagagga aaagcagcac1501 agtcatgaaa gaaggatgga tggtccacta caccagcaag gacacgctgc ggaaacggca1561 ctattggaga ttggatagca aatgtattac cctctttcag aatgacacag gaagcaggta1621 ctacaaggaa attcctttat ctgaaatttt gtctctggaa ccagtaaaaa cttcagcttt1681 aattcctaat ggggccaatc ctcattgttt cgaaatcact acggcaaatg tagtgtatta1741 tgtgggagaa aatgtggtca atccttccag cccatcacca aataacagtg ttctcaccag1801 tggcgttggt gcagatgtgg ccaggatgtg ggagatagcc atccagcatg cccttatgcc1861 cgtcattccc aagggctcct ccgtgggtac aggaaccaac ttgcacagag atatctctgt1921 gagtatttca gtatcaaatt gccagattca agaaaatgtg gacatcagca cagtatatca1981 gatttttcct gatgaagtac tgggttctgg acagtttgga attgtttatg gaggaaaaca2041 tcgtaaaaca ggaagagatg tagctattaa aatcattgac aaattacgat ttccaacaaa2101 acaagaaagc cagcttcgta atgaggttgc aattctacag aaccttcatc accctggtgt2161 tgtaaatttg gagtgtatgt ttgagacgcc tgaaagagtg tttgttgtta tggaaaaact2221 ccatggagac atgctggaaa tgatcttgtc aagtgaaaag ggcaggttgc cagagcacat2281 aacgaagttt ttaattactc agatactcgt ggctttgcgg caccttcatt ttaaaaatat2341 cgttcactgt gacctcaaac cagaaaatgt gttgctagcc tcagctgatc cttttcctca2401 ggtgaaactt tgtgattttg gttttgcccg gatcattgga gagaagtctt tccggaggtc2461 agtggtgggt acccccgctt acctggctcc tgaggtccta aggaacaagg gctacaatcg2521 ctctctagac atgtggtctg ttggggtcat catctatgta agcctaagcg gcacattccc2581 atttaatgaa gatgaagaca tacacgacca aattcagaat gcagctttca tgtatccacc2641 aaatccctgg aaggaaatat ctcatgaagc cattgatctt atcaacaatt tgctgcaagt2701 aaaaatgaga aagcgctaca gtgtggataa gaccttgagc cacccttggc tacaggacta2761 tcagacctgg ttagatttgc gagagctgga atgcaaaatc ggggagcgct acatcaccca2821 tgaaagtgat gacctgaggt gggagaagta tgcaggcgag cagcggctgc agtaccccac2881 acacctgatc aatccaagtg ctagccacag tgacactcct gagactgaag aaacagaaat2941 gaaagccctc ggtgagcgtg tcagcatcct ctgagttcca tctcctataa tctgtcaaaa3001 cactgtggaa ctaataaata catacggtca ggtttaacat ttgccttgca gaactgccat3061 tattttctgt cagatgagaa caaagctgtt aaactgttag cactgttgat gtatctgagt3121 tgccaagaca aatcaacaga agcatttgta ttttgtgtga ccaactgtgt tgtattaaca3181 aaagttccct gaaacacgaa acttgttatt gtgaatgatt catgttatat ttaatgcatt3241 aaacctgtct ccactgtgcc tttgcaaatc agtgtttttc ttactggagc ttcattttgg3301 taagagacag aatgtatctg tgaagtagtt ctgtttggtg tgtcccattg gtgttgtcat3361 tgtaaacaaa ctcttgaaga gtcgattatt tccagtgttc tatgaacaac tccaaaaccc3421 atgtgggaaa aaaatgaatg aggagggtag ggaataaaat cctaagacac aaatgcatga3481 acaagtttta atgtatagtt ttgaatcctt tgcctgcctg gtgtgcctca gtatatttaa3541 actcaagaca atgcacctag ctgtgcaaga cctagtgctc ttaagcctaa atgccttaga3601 aatgtaaact gccatatata acagatacat ttccctcttt cttataatac tctgttgtac3661 tatggaaaat cagctgctca gcaacctttc acctttgtgt atttttcaat aataaaaaat3721 attcttgtca aaaaaaaaaa aa (2) SEQ ID NO: 2988 data: (i) sequence characteristics:

(A) length: 2705 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2988 sequence description: 1 tgctcgctcc agggcgcaac catgtcgcca tttcttcgga ttggcttgtc caactttgac 61 tgcgggtcct gccagtcttg tcagggcgag gctgttaacc cttactgtgc tgtgctcgtc 121 aaagagtatg tcgaatcaga gaacgggcag atgtatatcc agaaaaagcc taccatgtac 181 721 tttaaagtct acaattacaa gagcccgacc ttctgtgaac actgtgggac cctgctgtgg 781 181 ccaccctggg acagcacttt tgatgcccat atcaacaagg gaagagtcat gcagatcatt 241 gtgaaaggca aaaacgtgga cctcatctct gaaaccaccg tggagctcta ctcgctggct 301 gagaggtgca ggaagaacaa cgggaagaca gaaatatggt tagagctgaa acctcaaggc 361 cgaatgctaa tgaatgcaag atactttctg gaaatgagtg acacaaagga catgaatgaa 421 tttgagacgg aaggcttctt tgctttgcat cagcgccggg gtgccatcaa gcaggcaaag 481 gtccaccacg tcaagtgcca cgagttcact gccaccttct tcccacagcc cacattttgc 541 tctgtctgcc acgagtttgt ctggggcctg aacaaacagg gctaccagtg ccgacaatgc 601 aatgcagcaa ttcacaagaa gtgtattgat aaagttatag caaagtgcac aggatcagct 661 atcaatagcc gagaaaccat gttccacaag gagagattca aaattgacat gccacacaga 721 tttaaagtct acaattacaa gagcccgacc ttctgtgaac actgtgggac cctgctgtgg 781 ggactggcac ggcaaggact caagtgtgat gcatgtggca tgaatgtgca tcatagatgc 841 cagacaaagg tggccaacct ttgtggcata aaccagaagc taatggctga agcgctggcc 901 atgattgaga gcactcaaca ggctcgctgc ttaagagata ctgaacagat cttcagagaa 961 ggtccggttg aaattggtct cccatgctcc atcaaaaatg aagcaaggcc gccatgttta1021 ccgacaccgg gaaaaagaga gcctcagggc atttcctggg agtctccgtt ggatgaggtg1081 gataaaatgt gccatcttcc agaacctgaa ctgaacaaag aaagaccatc tctgcagatt1141 aaactaaaaa ttgaggattt tatcttgcac aaaatgttgg ggaaaggaag ttttggcaag1201 gtcttcctgg cagaattcaa gaaaaccaat caatttttcg caataaaggc cttaaagaaa1261 gatgtggtct tgatggacga tgatgttgag tgcacgatgg tagagaagag agttctttcc1321 ttggcctggg agcatccgtt tctgacgcac atgttttgta cattccagac caaggaaaac1381 ctcttttttg tgatggagta cctcaacgga ggggacttaa tgtaccacat ccaaagctgc1441 cacaagttcg acctttccag agcgacgttt tatgctgctg aaatcattct tggtctgcag1501 ttccttcatt ccaaaggaat agtctacagg gacctgaagc tagataacat cctgttagac1561 aaagatggac atatcaagat cgcggatttt ggaatgtgca aggagaacat gttaggagat1621 gccaagacga ataccttctg tgggacacct gactacatcg ccccagagat cttgctgggt1681 cagaaataca accactctgt ggactggtgg tccttcgggg ttctccttta tgaaatgctg1741 attggtcagt cgcctttcca cgggcaggat gaggaggagc tcttccactc catccgcatg1801 gacaatccct tttacccacg gtggctggag aaggaagcaa aggaccttct ggtgaagctc1861 ttcgtgcgag aacctgagaa gaggctgggc gtgaggggag acatccgcca gcaccctttg1921 tttcgggaga tcaactggga ggaacttgaa cggaaggaga ttgacccacc gttccggccg1981 aaagtgaaat caccatttga ctgcagcaat ttcgacaaag aattcttaaa cgagaagccc2041 cggctgtcat ttgccgacag agcactgatc aacagcatgg accagaatat gttcaggaac2101 ttttccttca tgaaccccgg gatggagcgg ctgatatcct gaatcttgcc cctccagaga2161 caggaaagaa tttgccttct ccctgggaac tggttcaaga gacactgctt gggttccttt2221 ttcaacttgg aaaaagaaag aaacactcaa caataaagac tgagacccgt tcgcccccat2281 gtgactttat ctgtagcaga aaccaagtct acttcactaa tgacgatgcc gtgtgtctcg2341 tctcctgaca tgtctcacag acgctcctga agttaggtca ttactaacca tagttattta2401 cttgaaagat gggtctccgc acttggaaag gtttcaagac ttgatactgc aataaattat2461 ggctcttcac ctgggcgcca actgctgatc aacgaaatgc ttgttgaatc aggggcaaac2521 ggagtacaga cgtctcaaga ctgaaacggc cccattgcct ggtctagtag cggatctcac2581 tcagccgcag acaagtaatc actaacccgt tttattctat cctatctgtg gatgtataaa2641 tgctgggggc cagccctgga taggttttta tgggaattct ttacaataaa catagcttgt2701 acttg (2 ttggcctggg agcatccgtt tctgacgcac atgttttgta cattccagac caaggaaaac1381,352,351,3251,3281,3281, ) SEQ ID N0: 2989, data: (i) sequence characteristics:

(A) length: 1779 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2989 sequence description: 1 atgcccagca ggaccgaccc caagatggaa gggagcggcg gccgcgtccg cctcaaggcg 61 cattacgggg gggacatctt catcaccagc gtggacgccg ccacgacctt cgaggagctc 121 tgtgaggaag tgagagacat gtgtcgtctg caccagcagc acccgctcac cctcaagtgg 181 721 atcaaaatct ctcaggggct tgggctgcag gactttgacc taatcagagt catcgggcgc 781 181 gtggacagcg aaggtgaccc ttgcacggtg tcctcccaga tggagctgga agaggctttc 241 cgcctggccc gtcagtgcag ggatgaaggc ctcatcattc atgttttccc gagcacccct 301 gagcagcctg gcctgccatg tccgggagaa gacaaatcta tctaccgccg gggagccaga 361 agatggagga agctgtaccg tgccaacggc cacctcttcc aagccaagcg ctttaacagg 421 agagcgtact gcggtcagtg cagcgagagg atatggggcc tcgcgaggca aggctacagg 481 tgcatcaact gcaaactgct ggtccataag cgctgccacg gcctcgtccc gctgacctgc 541 aggaagcata tggattctgt catgccttcc caagagcctc cagtagacga caagaacgag 601 gacgccgacc ttccttccga ggagacagat ggaattgctt acatttcctc atcccggaag 661 catgacagca ttaaagacga ctcggaggac cttaagccag ttatcgatgg gatggatgga 721 atcaaaatct ctcaggggct tgggctgcag gactttgacc taatcagagt catcgggcgc 781 gggacgtacg ccaaggttct cctggtgcgg ttgaagaaga atgaccaaat ttacgccatg 841 aaagtggtga agaaagagct ggtgcatgat gacgaggata ttgactgggt acagacagag 901 aagcacgtgt ttgagcaggc atccagcaac cccttcctgg tcggattaca ctcctgcttc 961 cagacgacaa gtcggttgtt cctggtcatt gagtacgtca acggcgggga cctgatgttc1021 cacatgcaga ggcagaggaa gctccctgag gagcacgcca ggttctacgc ggccgagatc1081 tgcatcgccc tcaacttcct gcacgagagg gggatcatct acagggacct gaagctggac1141 aacgtcctcc tggatgcgga cggacacatc aagctcacag actacggcat gtgcaaggaa1201 ggcctgggcc ctggtgacac aacgagcact ttctgcggaa ccccgaatta catcgccccc1261 gaaatcctgc ggggagagga gtacgggttc agcgtggact ggtgggcgct gggagtcctc1321 atgtttgaga tgatggccgg gcgctccccg ttcgacatca tcaccgacaa cccggacatg1381 aacacagagg actacctttt ccaagtgatc ctggagaagc ccatccggat cccccggttc1441 ctgtccgtca aagcctccca tgttttaaaa ggatttttaa ataaggaccc caaagagagg1501 ctcggctgcc ggccacagac tggattttct gacatcaagt cccacgcgtt cttccgcagc1561 atagactggg acttgctgga gaagaagcag gcgctccctc cattccagcc acagatcaca1621 gacgactacg gtctggacaa ctttgacaca cagttcacca gcgagcccgt gcagctgacc1681 ccagacgatg aggatgccat aaagaggatc gaccagtcag agttcgaagg ctttgagtat1741 atcaacccat tattgctgtc caccgaggag tcggtgtga (2) SEQ ID NO: 2990 data: (i) sequence characteristics:

(A) length: 239 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2990 sequence description: 1 tgtcatgcct tcccaagagc ctccaggatg gctgtcctcc gacctcctcc acctccaggc 61 tctagatggc aaagcccact tagcaaaagc cacctgctct gtgatgatgg gactggctcc 121 tgcctgtggg ttcggaaagc ccatcccacc ctctacagcc tcttgctcct ctgcaatgac 181 tgtgccttca cctgggggtt ccccagagac tagtgagagt catcgggcgt ggaagctat (2) SEQ ID NO: 2991 for data: (i) sequence characteristics:

(A) length: 38644 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2991 sequence description: 1 ggagcaagag gtggttgggg ggggaccatg gctgacgttt tcccgggcaa cgactccacg 61 gcgtctcagg acgtggccaa ccgcttcgcc cgcaaagggg cgctgaggca gaagaacgtg 121 cacgaggtga aggaccacaa attcatcgcg cgcttcttca agcagcccac cttctgcagc 181 721 aaaccttcag acaaagaccg acgactgtct gtagaaatct gggactggga tcgaacaaca 781 181 cactgcaccg acttcatctg ggggtttggg aaacaaggct tccagtgcca agtttgctgt 241 tttgtggtcc acaagaggtg ccatgaattt gttacttttt cttgtccggg tgcggataag 301 ggacccgaca ctgatgaccc caggagcaag cacaagttca aaatccacac ttacggaagc 361 cccaccttct gcgatcactg tgggtcactg ctctatggac ttatccatca agggatgaaa 421 tgtgacacct gcgatatgaa cgttcacaag caatgcgtca tcaatgtccc cagcctctgc 481 ggaatggatc acactgagaa gagggggcgg atttacctaa aggctgaggt tgctgatgaa 541 aagctccatg tcacagtacg agatgcaaaa aatctaatcc ctatggatcc aaacgggctt 601 tcagatcctt atgtgaagct gaaacttatt cctgatccca agaatgaaag caagcaaaaa 661 accaaaacca tccgctccac actaaatccg cagtggaatg agtcctttac attcaaattg 721 aaaccttcag acaaagaccg acgactgtct gtagaaatct gggactggga tcgaacaaca 781 aggaatgact tcatgggatc cctttccttt ggagtttcgg agctgatgaa gatgccggcc 841 agtggatggt acaagttgct taaccaagaa gaaggtgagt actacaacgt acccattccg 901 gaaggggacg aggaaggaaa catggaactc aggcagaaat tcgagaaagc caaacttggc 961 cctgctggca acaaagtcat cagtccctct gaagacagga aacaaccttc caacaacctt1021 gaccgagtga aactcacgga cttcaatttc ctcatggtgt tgggaaaggg gagttttgga1081 aaggtgatgc ttgccgacag gaagggcaca gaagaactgt atgcaatcaa aatcctgaag1141 aaggatgtgg tgattcaggatgatgacgtg gagtgcacca tggtagaaaa gcgagtcttg1201 gccctgcttg acaaaccccc gttcttgacg cagctgcact cctgcttcca gacagtggat1261 cggctgtact tcgtcatgga atatgtcaac ggtggggacc tcatgtacca cattcagcaa1321 gtaggaaaat ttaaggaacc acaagcagta ttctatgcgg cagagatttc catcggattg1381 ttctttcttc ataaaagagg aatcatttat agggatctga agttagataa cgtcatgttg1441 gattcagaag gacatatcaa aattgctgac tttgggatgt gcaaggaaca catgatggat1501 ggagtcacga ccaggacctt ctgtgggact ccagattata tcgccccaga gataatcgct1561 tatcagccgt atggaaaatc tgtggactgg tgggcctatg gcgtcctgtt gtatgaaatg1621 cttgccgggc agcctccatt tgatggtgaa gatgaagacg agctatttca gtctatcatg1681 gagcacaacg tttcctatcc aaaatccttg tccaaggagg ctgtttctat ctgcaaagga 461 ctgatgacca aacacccagc caagcggctg ggctgtgggc ctgaggggga gagggacgtg1801 agagagcatg ccttcttccg gaggatcgac tgggaaaaac tggagaacag ggagatccag1861 ccaccattca agcccaaagt gtgtggcaaa ggagcagaga actttgacaa gttcttcaca1921 cgaggacagc ccgtcttaac accacctgat cagctggtta ttgctaacat agaccagtct1981 gattttgaag ggttctcgta tgtcaacccc cagtttgtgc accccatctt acagagtgca2041 gtatgaaact caccagcgag aacaaacacc tccccagccc ccagccctcc ccgcagtgga2101 agtgaatcct taaccctaaa attttaaggc cacggcttgt gtctgattcc atatggaggc2161 ctgaaaattg tagggttatt agtccaaatg tgatcaactg ttcagggtct ctctcttaca2221 accaagaaca ttatcttagt ggaag2246 cttatcacag ttcaagtgat ttccagaagt tccagggctt ctgagagacc atcaagggaa2306 ctttaacaac ttgacaaatg tccttgaagt aagatgcctc atctttaggg aaaaatgggg23 tttggatttc tgcttaggca aagtctcctg cagttcatcc ttctctgtcc tcttcttgct2426 tcaggcttgg ggaccgtccc tgctgtcccc actgtggtgg caatcaggac ctaaggtgaa2486 gcaaacttga agttctatct gacaagttta ggcagtaaga gaaggaggga aatcggagca2546 aagctccctc actttattgt tgagaaactg gcatctggaa agaagaagga atttgcccaa agtcagtcag ctgggataaa aacctgggtg tcctgtccag aaagtgcagg gtgctttctg2666 ctctgtagca aggcagcaga catctctgag ccaggcccac caacaggccc ttatctggtg2726 gttggatcat gatcccattt tgcttggaca tgctctcagg aagataaaaa ccatggagaa2786 acactaggcc attgacaaat gatctgagac aactttagaa aacaatgtag gatgaatgga2846 aagagaaaga aaggaaagaa aaaaaaaaaa aaaagg2882 cagagccggc gcaggggaag cgcccggggc cccgggtgca gcagcgcccg ccgcctcccg2942 ggcctccccg gcccgcagcc cggggtcccg ggccccgggg ccggcacctc tcgggctccg3002 gctccccgcg cgcaagatgg ctgacccggc tgcggggccg ccgccgagcg agggcgagga3062 gagcaccgtg cgcttcgccc gcaaaggcgc cctccggcag aagaacgtgc atgaggtcaa3122 gaaccacaaa ttcaccgccc gcttcttcaa gcagcccacc ttctgcagcc actgcaccga3182 cttcatctgg ggcttcggga agcagggatt ccagtgccaa gtttgctgct ttgtggtgca3242 caagcggtgc catgaatttg tcacattctc ctgccctggc gctgacaagg gtccagcctc3302 cgatgacccc cgcagcaaac acaagtttaa gatccacacg tactccagcc ccacgttttg3362 tgaccactgt gggtcactgc tgtatggact catccaccag gggatgaaat gtgacacctg3422 catgatgaat gtgcacaagc gctgcgtgat gaatgttccc agcctgtgtg gcacggacca3482 cacggagcgc cgcggccgca tctacatcca ggcccacatc gacagggacg tcctcattgt 661 cctcgtaaga gatgctaaaa accttgtacc tatggacccc aatggcctgt cagatcccta 721 cgtaaaactg aaactgattc ccgatcccaa aagtgagagc aaacagaaga ccaaaaccat 781 caaatgctcc ctcaaccctg agtggaatga gacatttaga tttcagctga aagaatcgga 841 82901 catgggatct ttgtcctttg ggatttctga acttcagaag gccagtgttg atggctggtt 961 taagttactg agccaggagg aaggcgagta cttcaatgtg cctgtgccac cagaaggaag1021 tgaggccaat gaagaactgc ggcagaaatt tgagagggcc aagatcagtc agggaaccaa1081 ggtcccggaa gaaaagacga ccaacactgt ctccaaattt gacaacaatg gcaacagaga114 ccggatgaaa ctgaccgatt ttaacttcct aatggtgctg gggaaaggca gctttggcaa1201 ggtcatgctt tcagaacgaa aaggcacaga tgagctctat gctgtgaaga tcctgaagaa1261 ggacgttgtg atccaagatg atgacgtgga gtgcactatg gtggagaagc gggtgttggc1321 cctgcctggg aagccgccct tcctgaccca gctccactcc tgcttccaga ccatggaccg1381 cctgtacttt gtgatggagt acgtgaatgg gggcgacctc atgtatcaca tccagcaagt1441 cggccggttc aaggagcccc atgctgtatt ttacgctgca gaaattgcca tcggtctgtt1501 cttcttacag agtaagggca tcatttaccg tgacctaaaa cttgacaacg tgatgctcga1561 ttctgaggga cacatcaaga ttgccgattt tggcatgtgt aaggaaaaca tctgggatgg1621 ggtgacaacc aagacattct gtggcactcc agactacatc gcccccgaga taattgctta1681 tcagccctat gggaagtccg tggattggtg ggcatttgga gtcctgctgt atgaaatgtt1741 ggctgggcag gcaccctttg aaggggagga tgaagatgaa ctcttccaat ccatcatgga1801 acacaacgta gcctatccca agtctatgtc caaggaagct gtggccatct gcaaagggct1861 gatgaccaaa cacccaggca aacgtctggg ttgtggacct gaaggcgaac gtgatatcaa1921 agagcatgca tttttccggt atattgattg ggagaaactt gaacgcaaag agatccagcc1981 cccttataag ccaaaagcta gagacaagag agacacctcc aacttcgaca aagagttcac2041 cagacagcct gtggaactga cccccactga taaactcttc atcatgaact tggaccaaaa2101 tgaatttgct ggcttctctt atactaaccc agagtttgtc attaatgtgt aggtgaatgc2161 aaactccatc gttgagcctg gggtgtaaga cttcaagcca agcgtatgta tcaattctag2221 tcttccagga ttcacggtgc acatgctggc attcaacatg tggaaagctt gtcttagagg22 cctttcttgt atgtgtagct tgctagtttg ttttctacat ttgaaaatgt ttagtttaga2341 ataagcgcat tatccaatta tagaggtaca attttccaaa cttccagaaa ctcatcaaat2401 gaacagacaa tgtcaaaact actgtgtctg ataccaaaat gcttcagtat ttgtaatttt2461 tcaagtcaga agctgatgtt cctggtaaaa gtttttacag ttattctata atatcttctt2521 tgaatgctaa gcatgagcga tatttttaaa aattgtgagt aagcttcgga attc cagagccggc gcaggggaag cgcccggggc cccgggtgca gcagcgcccg ccgcctcccg 61 ggcctccccg gcccgcagcc cggggtcccg ggccccgggg ccggcacctc tcgggctccg 121 gctccccgcg cgcaagatgg ctgacccggc tgcggggccg ccgccgagcg agggcgagga 181 gagcaccgtg cgcttcgccc gcaaaggcgc cctccggcag aagaacgtgc atgaggtcaa 241 gaaccacaaa ttcaccgccc gcttcttcaa gcagcccacc ttctgcagcc actgcaccga 301 cttcatctgg ggcttcggga agcagggatt ccagtgccaa gtttgctgct ttgtggtgca 361 caagcggtgc catgaatttg tcacattctc ctgccctggc gctgacaagg gtccagcctc 421 cgatgacccc cgcagcaaac acaagtttaa gatccacacg tactccagcc ccacgttttg 481 tgaccactgt gggtcactgc tgtatggact catccaccag gggatgaaat gtgacacctg 541 catgatgaat gtgcacaagc gctgcgtgat gaatgttccc agcctgtgtg gcacggacca 601 cacggagcgc cgcggccgca tctacatcca ggcccacatc gacagggacg tcctcattgt 661 cctcgtaaga gatgctaaaa accttgtacc tatggacccc aatggcctgt cagatcccta 721 cgtaaaactg aaactgattc ccgatcccaa aagtgagagc aaacagaaga ccaaaaccat 781 caaatgctcc ctcaaccctg agtggaatga gacatttaga tttcagctga aagaatcgga 841 caaagacaga agactgtcag tagagatttg ggattgggat ttgaccagca ggaatgactt 901 catgggatct ttgtcctttg ggatttctga acttcagaag gccagtgttg atggctggtt 961 taagttactg agccaggagg aaggcgagta cttcaatgtg cctgtgccac cagaaggaag1021 tgaggccaat gaagaactgc ggcagaaatt tgagagggcc aagatcagtc agggaaccaa1081 ggtcccggaa gaaaagacga ccaacactgt ctccaaattt gacaacaatg gcaacagaga1141 ccggatgaaa ctgaccgatt ttaacttcct aatggtgctg gggaaaggca gctttggcaa1201 ggtcatgctt tcagaacgaa aaggcacaga tgagctctat gctgtgaaga tcctgaagaa1261 ggacgttgtg atccaagatg atgacgtgga gtgcactatg gtggagaagc gggtgttggc1321 cctgcctggg aagccgccct tcctgaccca gctccactcc tgcttccaga ccatggaccg1381 cctgtacttt gtgatggagt acgtgaatgg gggcgacctc atgtatcaca tccagcaagt1441 cggccggttc aaggagcccc atgctgtatt ttacgctgca gaaattgcca tcggtctgtt1501 cttcttacag agtaagggca tcatttaccg tgacctaaaa cttgacaacg tgatgctcga1561 ttctgaggga cacatcaaga ttgccgattt tggcatgtgt aaggaaaaca tctgggatgg1621 ggtgacaacc aagacattct gtggcactcc agactacatc gcccccgaga taattgctta1681 tcagccctat gggaagtccg tggattggtg ggcatttgga gtcctgctgt atgaaatgtt1741 ggctgggcag gcaccctttg aaggggagga tgaagatgaa ctcttccaat ccatcatgga1801 acacaacgta gcctatccca agtctatgtc caaggaagct gtggccatct gcaaagggct1861 gatgaccaaa cacccaggca aacgtctggg ttgtggacct gaaggcgaac gtgatatcaa1921 agagcatgca tttttccggt atattgattg ggagaaactt gaacgcaaag agatccagcc1981 cccttataag ccaaaagctt gtgggcgaaa tgctgaaaac ttcgaccgat ttttcacccg2041 ccatccacca gtcctaacac ctcccgacca ggaagtcatc aggaatattg accaatcaga2101 attcgaagga ttttcctttg ttaactctga atttttaaaa cccgaagtca agagctaagt2161 agatgtgtag atctccgtcc ttcatttctg tcattcaagc tcaacggcta ttgtggtgac2221 atttttatgt ttttcattgc caagttgcat ccatgtttga ttttctgatg agactagagt2281 gacagtgttt cagaacccaa atgtcctcag gtagtttgga gcatctctat gagatgggat2341 tatgcagatg gcctatggaa aatgcagctg cataattaac acattatcaa agtcctctta2401 caatttattt tccgcagcat gtcagctaag tagacccaat ggggagagaa aatgcctgct24 ttctttccct ctttttctgc actgccatat tcacccccaa ccatccaatc tgtggataat2521 tggatgttag cggtactctt ccacttccgg tcctggagct tggcttgtat ccaagtgtat 8681 ggttgctttg cctaagagga atccctctat ttcacctgtt ctggaggcac cagaccttga2641 aaagaacatg ctcaaaataa aatgttatct gttatttttg taaactcaaa gttaagatga 27058 362761 ggggtcaaag ggcaaccagc ttggtgctac ctcagtgttg tagtttctga tactttatgt2821 ctttgctcac cctcatcccc aaactacttg aaaagggcat ttggcaccac tctctgaaac2881 aacacagtca ctctagcaag gcccccaaag ggccctggtt ttacattaca tttcaaactt2941 tatttgcttt ggggttttgt ttctgttgtt gttcaaatgc aaaaaaaaga aaaaaaaaag3001 aaaaaaaaag gtgactcaca ttgttacaca tgctttaaaa tatgtgttca aatgttatta3061 accacaatga cgacctgttt tgatttaacc aagaagacgg ctgcggagcc tagcagactc3121 aggcctgtgg gaatgggatt tgttacaaat ctaggtttgt tactggcttc agaaagctaa3181 ttaagtgctc tgaaaaagac accgtttctt gaaacaaaga tggttgtatt cctcactttg3241 atgttgtttt gcaagatgtt tgtggaaatg ttcatttgta tctggatctc tgttatgtgc3301 catttttctt ctagcatcga g1 gtccttcatt ccttccacaa ctatttatcc agcaccgttt ctgggcacag ggctccagcg 61 atggtcccaa caggtacaat gacctctggg gaccaagttc agttcttggt gagttctcca121 gtgcctctcg atgtaggatg aaccgttggc atgctccact gacgctggct ccttctgttg181 tttctcttgg ctccaggacc cccgcagcaa acacaagttt aagatccaca cgtactccag241 ccccacgttt tgtgaccact gtgggtcact gctgtatgga ctcatccacc aggggatgaa301 atgtgacagt aagtactttc tctctctggg ggcatctgct gatggcagaa gcaatgggaa361 gggctgcttc cacttggttt ggggtccagg tctgccatac attcccccct gtcctcgttg421 gggctggtgt accagttatc tgttgctgca taatgatcct cccaccccaa aacactgtga481 ctgaagacaa taaacatttt tttagctcat gactctgcaa ggcagtcctt tgaatctggg541 ctggcctcag ctgatgtcac gcatgttcat aaagcatgaa ctcatggttc atggtggatt601 agcagatgga ggtgggctgg g1 acatcaagga gacgagtcct ggttggatag taatgtcttt aacacccctc tagcatttat 61 taatttcctc tcttaacaaa taaaagatgc ccttcagtca gatgcttagg acagatgacg121 cacctagaga tattttaata atgtagatac tcttgctgtt caaactcaga ccaaaatgac181 gataggcttt tttggccccc agagggtgca caaatacgac cagaatttgt gaagacgagt241 cagaaatgaa tgaaatttgg aaaaatattg atctactgaa atccttcctc cccacactat301 tagccctatg ttacagttgg ggaaacggag tcgttttgca gaggggatgg acagaaggta361 gggagttctc ttccaaacgt gcaggaggca agcaaagcca agaatcttct ctgtggtgag421 ttagagacat ataaaataaa gatcgctcct cccctacctc tgcagaacgt gtgtgtgtat481 gtgtgtgtaa gtgtgtgcgg ccacaagcct ttccgaatga gtgacagcgg gagcccatcc541 ctccaggaga cgcgtgcaga atgaccaatg ggatggatgg gggtggatgg gtaccagtct601 ccgcagaggc cggggtggga attcgctgcg ccccacccct tccacccgct ccccttcgcc 661 ccgtaggtct ttccactctc gctcctcccc tgggcacatc tcctgaacgc agccccgggg 721 gccgaggacg gggtggggtg gggggcgagg ctcgggtccg acgaccccgg gctgcggtcc 781 cggcgctgca gagctgcggc tgtgcacgct tagccgcgag gcccgcggta gcccgggcgc 841 cgatatgtaa agcagctggc agcgctgggc ggggcctggg cgcgactgca aatgaggagg 901 gcgcgggctg gcccgggggc tccgcctccc tcccccgcag ctggggccag cggctgccaa 961 gcgcactggt cgagcggcag cagctgggcg aggtgacagc cccggctccg cgcgccggcc1021 gccagagccg gcgcagggga agcgcccgcg gccccgggtg cagcagcggc cgccgcctcc1081 cgcgcctccc cggcccgcag cccgcggtcc cgcgccccgg ggccggcacc tctcgggctc1141 cggctccccg cgcgcaagat ggctgacccg gctgcggggc cgccgccgag cgagggcgag1201 gagagcaccg tgcgcttcgc ccgcaaaggc gccctcaggc agaagaacgt gcatgaggtc1261 aagaaccaca aattcaccgc ccgcttcttc aagcagccca ccttctgcag ccactgcacc1321 gacttcatct ggtgaccccc caggcactcc ggccccaggc cacgccgcgc caggaccccc1381 tctccgcgcc ctctgcgccc tccgcaccct ggaccccgcg tccccggact ccccgctccg1441 gaccctgctg cccgggactc ccggatggac agtcctagcc gttgccctgt ccccaccctg1501 gtcccagacg ggccgccgcg ggcgcctcct gccctctcct gctctcaggc gcctctaga 1 gtcgactgca ggtcaacgga cacatcaagg agagagtcct ggttggatag taatgtcttt 61 601 ggtggatggg taccgtctcc gcgaggccgg ggtggaattc gctgcgcccc accccttcca 661 61 aacacccctc tagcatttat taatttcctc tcttaacaaa taaaagatga cttcagttga 121 agatccttag gacagatgac ggcacctgga gatattttaa taatgtagat accctcttgc 181 tgttcaaact cagaccaaaa gagatggctt tttttccccc agagggtgca caaatacgac 241 agaatttgtg aagacgagtc agaaatgaat gaaatttgga aaaatattga tctactgaaa 301 tccttcctcc ccacactatt agccctatgt tacagttggg gaaacggagt cgttttgcag 361 aggggatgga cagaaggtag ggagttctct tccaacgtgc aggaggcaag caaagccaag 421 catcttctct gtggtggagt tagagacata taaaataaga tcgctcctcc cctacctctg 481 cagaacgtgt gtgtgtatgt gtgtgtaacg tgtgtgcggc cacaagcctt tccgaatgag 541 tgacagcggg agcccatccc tccaggagac gcgtgcagaa tgaccaatgg gatggatggg 601 ggtggatggg taccgtctcc gcgaggccgg ggtggaattc gctgcgcccc accccttcca 661 cccgctcccc ttcgccccgt aggtctttcc actctcgctc ctcccctggg cacatctcct 721 gaacgcagcc ccgggggccg aggacggggt ggggtggggg gcgaggctcg ggtccgacga 781 ccccgggctg cggtcccggc gctgcagagc tgcggctgtg cacgcttagc cgcgaggccc 841 gcggtagccc gggcgccgat atgtaaagca gctggcagcg ctgggcgggg cctgggcgcg 901 atgcaaatga ggagggcggg gctggcccgg ggctccgcct ccctcccccg cagctggggc 961 cagcggtgcc aagcgcagct ggacgagcgg cagcagctgg gcgagtgaca gccccggctc1021 cgcgcgccgc ggccgccaga gccggcgcag gggaagcgcc cgcggccccg ggtgcagcag1081 cggccgccgc ctcccgcgcc tccccggccc gcagcccgcg gtcccgcggc cccggggccg1141 gcacctctcg ggctccggct ccccgcgcgc aagatggctg acccggctgc ggggccgccg1201 ccgagcgagg gcgaggagag caccgtgcgc ttcgcccgca aaggcgccct caggcagaag1261 aacgtgcatg aggtcaagaa ccacaaattc accgcccgct tcttcaagca gcccaccttc1321 tgcagccact gcaccgactt catctggtgg agcgcgcgcg caaggcacct tcccgggccc1381 ccgaggcagc gccgcgccaa gggaccccct ctccgccctc tgcgccctcc gcaccctgga1441 ccccgcgtcc ccggactccc cgctccggac cctgctgccg ggactcccgg atggacagtc1501 ctgccgttgc cctgtcccca ccctggtccc aggacggggg cgcctcctgc cctctcctgc1561 tctcaggcgc ctctagagcg cccaggggca gcgtcgcggg cgcctttgct ccacctgact1621 aggagcgcgc ggggtctgtg cctgccctgg agggcagcgc ctcgggtgct ctccgacccg1681 gggttcccta tctctccgcc tgcttccggg cgcgaggagc cctcgccccc caccccttgt1741 ttccgggggg ggggggcggc gccctgggtg tccttctcta tctctgcggg catgggacat1801 cctttctcac tcctctgtgc ctcggcagcg ccctgtgtta tctcccattg ccctccccga1861 gggcctggtt cccctttcca ctcctcggtc acatcactgc gggccccttt cttccccagt1921 ccctccagta gtggggcatc ctttcctcct tcccagtccc cctcccagag gacaccaccg1981 ccgcggggtc actctcgccc tccctctgaa tgcgtcttta tctcttctct tttccgaggg2041 tgctcggggc atctatgggt acatctgtcg cctgccttca gcccctaccc cgacggaaac2101 gctccccact atcccgccac ctggtggtcg cagcctcctc tcttctgcag gagtgaaggc2161 agatcggggt tacagccgag ctcccaccta cccccacaaa ggcggaagac tcttgggcac2221 ccgcctgtgg ctgggagttt gcacctgggg tacagaggca gggaggaagg cgggtgactc tgtgggtaac tagctggagg ctgggccccc gggctgcctg acatacacct ccttctgctt2341 ttgcaggggc ttcgggaagc agggattcca gtgccaaggt aggctctggg gctttgggga2401 tgctatttgt gggaagagag ggtgaaaaat actttataga agaagttact gagttaggca2461 gagagtgaaa gaatcacgtt ggtcggagtg acctcccagg ctaggaattc aaagcgacca tgtatcctga gtggaagtcg acgttcgatg cccacatcta tgaggggcgc gtcatccaga ttgtgctaat gcgggcagca gaggagccag tgtctgaggt gaccgtgggt 121 gtgtcggtgc tggccgagcg ctgcaagaag aacaatggca aggctgagtt ctggctggac 181 ctgcagcctc aggccaaggt gttgatgtct gttcagtatt tcctggagga cgtggattgc 241 aaacagtcta tgcgcagtga ggacgaggcc aagttcccaa cgatgaaccg ccgcggagcc 301 atcaaacagg ccaaaatcca ctacatcaag aaccatgagt ttatcgccac cttctttggg 361 caacccacct tctgttctgt gtgcaaagac tttgtctggg gcctcaacaa gcaaggctac 421 aaatgcaggc aatgtaacgc tgccatccac aagaaatgca tcgacaagat catcggcaga 481 tgcactggca ccgcggccaa cagccgggac actatattcc agaaagaacg cttcaacatc 541 gacatgccgc accgcttcaa ggttcacaac tacatgagcc ccaccttctg tgaccactgc 601 ggcagcctgc tctggggact ggtgaagcag ggattaaagt gtgaagactg cggcatgaat 661 gtgcaccata aatgccggga gaaggtggcc aacctctgcg gcatcaacca gaagcttttg 721 gctgaggcct tgaaccaagt cacccagaga gcctcccgga gatcagactc agcctcctca 781 gagcctgttg ggatatatca gggtttcgag aagaagaccg gagttgctgg ggaggacatg 841 caagacaaca gtgggaccta cggcaagatc tgggagggca gcagcaagtg caacatcaac 901 aacttcatct tccacaaggt cctgggcaaa ggcagcttcg ggaaggtgct gcttggagag 961 ctgaagggca gaggagagta ctttgccatc aaggccctca agaaggatgt ggtcctgatc1021 gacgacgacg tggagtgcac catggttgag aagcgggtgc tgacacttgc cgcagagaat1081 ccctttctca cccacctcat ctgcaccttc cagaccaagg accacctgtt ctttgtgatg1141 gagttcctca acggggggga cctgatgtac cacatccagg acaaaggccg ctttgaactc1201 taccgtgcca cgttttatgc cgctgagata atgtgtggac tgcagtttct acacagcaag1261 ggcatcattt acagggacct caaactggac aatgtgctgt tggaccggga tggccacatc1321 aagattgccg actttgggat gtgcaaagag aacatattcg gggagagccg ggccagcacc1381 ttctgcggca cccctgacta tatcgcccct gagatcctac agggcctgaa gtacacattc1441 tctgtggact ggtggtcttt cggggtcctt ctgtacgaga tgctcattgg ccagtccccc1501 ttccatggtg atgatgagga tgaactcttc gagtccatcc gtgtggacac gccacattat1561 ccccgctgga tcaccaagga gtccaaggac atcctggaga agctctttga aagggaacca1621 accaagaggc tgggagtgac gggaaacatc aaaatccacc ccttcttcaa gaccataaac1681 tggactctgc tggaaaagcg gaggttggag ccacccttca ggcccaaagt gaagtcaccc1741 agagactaca gtaactttga ccaggagttc ctgaacgaga aggcgcgcct ctcctacagc1801 gacaagaacc tcatcgactc catggaccag tctgcattcg ctggcttctc ctttgtgaac1861 cccaaattcg agcacctcct ggaagattga ggttcctgga cagatcaggc tagccctgcc1921 ctccacccac acctgcccgc tccccacgat aagcaccagt gggactgtgg tgacttctgc1981 tgctggcccc gcccctgccc ccagagcgtc cttggctgcc gtctggccgg gctctcatgg2041 tacttcctct gtgaactgtg tgtgaatctg cttttcctct gccttcggag ggaaattgta2101 aatcctgtgt ttcattactt gaatgtagtt atctattgaa aatatacttt agagcacaat2161 gga1 tgccgccgcg acccttggcg cctgcccctg caacgggagc cccactgcag gccccaccat 61 ggcgccgttc ctgcgcatcg ccttcaactc ctatgagctg ggctccctgc aggccgagga 121 cgaggcgaac cagcccttct gtgccgtgaa gatgaaggag gcgctcagca cagagcgtgg 181 gaaaacactg gtgcagaaga agccgaccat gtatcctgag tggaagtcga cgttcgatgc 241 ccacatctat gaggggcgcg tcatccagat tgtgctaatg cgggcagcag aggagccagt 301 gtctgaggtg accgtgggtg tgtcggtgct ggccgagcgc tgcaagaaga acaatggcaa 361 ggctgagttc tggctggacc tgcagcctca ggccaaggtg ttgatgtctg ttcagtattt 421 cctggaggac gtggattgca aacaatctat gcgcagtgag gacgaggcca agttcccaac 481 48335 481 gatgaaccgc cgcggagcca tcaaacaggc caaaatccac tacatcaaga accatgagtt 541 tatcgccacc ttctttgggc aacccacctt ctgttctgtg tgcaaagact ttgtctgggg 601 cctcaacaag caaggctaca aatgcaggca atgtaacgct gccatccaca agaaatgcat 661 cgacaagatc atcggcagat gcactggcac cgcggccaac agccgggaca ctatattcca 721 gaaagaacgc ttcaacatcg acatgccgca ccgcttcaag gttcacaact acatgagccc 781 caccttctgt gaccactgcg gcagcctgct ctggggactg gtgaagcagg gattaaagtg 841 tgaagactgc ggcatgaatg tgcaccataa atgccgggag aaggtggcca acctctgcgg 901 catcaaccag aagcttttgg ctgaggcctt gaaccaagtc acccagagag cctcccggag 961 atcagactca gcctcctcag agcctgttgg gatatatcag ggtttcgaga agaagaccgg1021 agttgctggg gaggacatgc aagacaacag tgggacctac ggcaagatct gggagggcag1081 cagcaagtgc aacatcaaca acttcatctt ccacaaggtc ctgggcaaag gcagcttcgg1141 gaaggtgctg cttggagagc tgaagggcag aggagagtac tctgccatca aggccctcaa1201 gaaggatgtg gtcctgatcg acgacgacgt ggagtgcacc atggttgaga agcgggtgct1261 gacacttgcc gcagagaatc cctttctcac ccacctcatc tgcaccttcc agaccaagga1321 ccacctgttc tttgtgatgg agttcctcaa cgggggggac ctgatgtacc acatccagga1381 caaaggccgc tttgaactct accgtgccac gttttatgcc gctgagataa tgtgtggact1441 gcagtttcta cacagcaagg gcatcattta cagggacctc aaactggaca atgtgctgtt1501 ggaccgggat ggccacatca agattgccga ctttgggatg tgcaaagaga acatattcgg1561 ggagagccgg gccagcacct tctgcggcac ccctgactat atcgcccctg agatcctaca1621 gggcctgaag tacacattct ctgtggactg gtggtctttc ggggtccttc tgtacgagat1681 gctcattggc cagtccccct tccatggtga tgatgaggat gaactcttcg agtccatccg1741 tgtggacacg ccacattatc cccgctggat caccaaggag tccaaggaca tcctggagaa1801 gctctttgaa agggaaccaa ccaagaggct gggaatgacg ggaaacatca aaatccaccc1861 cttcttcaag accataaact ggactctgct ggaaaagcgg aggttggagc cacccttcag1921 gcccaaagtg aagtcaccca gagactacag taactttgac caggagttcc tgaacgagaa1981 ggcgcgcctc tcctacagcg acaagaacct catcgactcc atggaccagt ctgcattcgc2041 tggcttctcc tttgtgaacc ccaaattcga gcacctcctg gaagattgag gttcctggac2101 agat1 cccaagatgg aagggagcgg cggccgcgtc cgcctcaagg cgcattacgg gggggacatc 61 ttcatcacca gcgtggacgc cgccacgacc ttcgaggagc tctgtgagga agtgagagac121 atgtgtcgtc tgcaccagca gcacccgctc accctcaagt gggtggacag cgaaggtgac181 ccttgcacgg tgtcctccca gatggagctg gaagaggctt tccgcctggc ccgtcagtgc241 agggatgaag gcctcatcat tcatgttttc ccgagcaccc ctgagcagcc tggcctgcca301 tgtccgggag aagacaaatc tatctaccgc cggggagcca gaagatggag gaagctgtac361 cgtgccaacg gccacctctt ccaagccaag cgctttaaca ggagagcgta ctgcggtcag421 tgcagcgaga ggatatgggg cctcgcgagg caaggctaca ggtgcatcaa ctgcaaactg481 ctggtccata agcgctgcca cggcctcgtc ccgctgacct gcaggaagca tatggattct541 gtcatgcctt cccaagagcc tccagtagac gacaagaacg aggacgccga ccttccttcc601 gaggagacag atggaattgc ttacatttcc tcatcccgga agcatgacag cattaaagac661 gactcggagg accttaagcc agttatcgat gggatggatg gaatcaaaat ctctcagggg 721 cttgggctgc aggactttga cctaatcaga gtcatcgggc gcgggagcta cgccaaggtt 781 ctcctggtgc ggttgaagaa gaatgaccaa atttacgcca tgaaagtggt gaagaaagag 841 ctggtgcatg atgacgagga tattgactgg gtacagacag agaagcacgt gtttgagcag 901 gcatccagca accccttcct ggtcggatta cactcctgct tccagacgac aagtcggttg 961 ttcctggtca ttgagtacgt caacggcggg gacctgatgt tccacatgca gaggcagagg1021 aagctccctg aggagcacgc caggttctac gcggccgagatctgcatcgc cctcaacttc1081 ctgcacgaga gggggatcat ctacagggac ctgaagctgg acaacgtcct cctggatgcg1141 gacgggcaca tcaagctcac agactacggc atgtgcaagg aaggcctggg ccctggtgac1201 acaacgagca ctttctgcgg aaccccgaat tacatcgccc ccgaaatcct gcggggagag1261 gagtacgggt tcagcgtgga ctggtgggcg ctgggagtcc tcatgtttga gatgatggcc1321 gggcgctccc cgttcgacat catcaccgac aacccggaca tgaacacaga ggactacctt1381 ttccaagtga tcctggagaa gcccatccgg atcccccggt tcctgtccgt caaagcctcc1441 catgttttaa aaggattttt aaataaggac cccaaagaga ggctcggctg ccggccacag1501 actggatttt ctgacatcaa gtcccacgcg ttcttccgca gcatagactg ggacttgctg1561 gagaagaagc aggcgctccc tccattccag ccacagatca cagacgacta cggtctggac1621 aactttgaca cacagttcac cagcgagccc gtgcagctga ccccagacga tgaggatgcc1681 1 1681 ataaagagga tcgaccagtc agagttcgaa ggctttgagt atatcaaccc attattgctg1741 tccaccgagg agtcggtgtg aggccgcgtg cgtctctgtc gtggacacgc gtgattgacc1801 ctttaactgt atccttaacc accgcatatg catgccaggc tgggcacggc tccgagggcg1861 gccagggaca gacgcttgcg ccgagaccgc agagggaagc gtcagcgggc gctgctggga1921 gcagaacagt ccctcacacc tggcccggca ggcagcttcg tgctggagga acttgctgct1981 gtgcctgcgt cgcggcggat ccgcggggac cctgccgagg gggctgtcat gcggtttcca2041 aggtgcacat tttccacgga aacagaactc gatgcactga cctgctccgc caggaaagtg2101 agcgtgtagc gtcctgagga ataaaatgtt ccgatgaaaa aaaaaa 1 gggccggcgg cggcggcgac tctggacgcg agccgggccc ttcccgtgga tcgccccagc 61 tgcggcgggc gtcgcggccg cccccgggtg gcacttccgt gtgccgcggc gccggagccc 121 gaggcggctg tagcccacat ctcccgagcg acccccggcg cccgcccgcc gcgcggaggc 181 ccgggccaca cctcactggc cgcttggccc atcccagtca gcgccgcgcc gaaccccgtc 241 cgcgcgcgcc ggggagcggc gcccccgccg ctgccgccgc gacccttggc gcctgcccct 301 gcaacgggag ccccactgca ggccccacca tggcgccgtt cctgcgcatc gccttcaact 361 cctatgagct gggctccctg caggccgagg acgaggcgaa ccagcccttc tgtgccgtga 421 agatgaagga ggcgctcagc acagagcgtg ggaaaacact ggtgcagaag aagccgacca 481 tgtatcctga gtggaagtcg acgttcgatg cccacatcta tgaggggcgc gtcatccaga 541 ttgtgctaat gcgggcagca gaggagccag tgtctgaggt gaccgtgggt gtgtcggtgc 601 tggccgagcg ctgcaagaag aacaatggca aggctgagtt ctggctggac ctgcagcctc 661 aggccaaggt gttgatgtct gttcagtatt tcctggagga cgtggattgc aaacagtcta 721 tgcgcagtga ggacgaggcc aagttcccaa cgatgaaccg ccgcggagcc atcaaacagg 781 ccaaaatcca ctacatcaag aaccatgagt ttatcgccac cttctttggg caacccacct 841 tctgttctgt gtgcaaagac tttgtctggg gcctcaacaa gcaaggctac aaatgcaggc 901 aatgtaacgc tgccatccac aagaaatgca tcgacaagat catcggcaga tgcactggca 961 ccgcggccaa cagccgggac actatattcc agaaagaacg cttcaacatc gacatgccgc1021 accgcttcaa ggttcacaac tacatgagcc ccaccttctg tgaccactgc ggcagcctgc1081 tctggggact ggtgaagcag ggattaaagt gtgaagactg cggcatgaat gtgcaccata1141 461 1141 aatgccggga gaaggtggcc aacctctgcg gcatcaacca gaagcttttg gctgaggcct1201 tgaaccaagt cacccagaga gcctcccgga gatcagactc agcctcctca gagcctgttg1261 ggatatatca gggtttcgag aagaagaccg gagttgctgg ggaggacatg caagacaaca1321 gtgggaccta cggcaagatc tgggagggca gcagcaagtg caacatcaac aacttcatct1381 tccacaaggt cctgggcaaa ggcagcttcg ggaaggtgct gct1 ctccccgccc cgaccatggt agtgttcaat ggccttctta agatcaaaat ctgcgaggcc 61 gtgagcttga agcccacagc ctggtcgctg cgccatgcgg tgggaccccg gccgcagact 121 ttccttctcg acccctacat tgccctcaat gtggacgact cgcgcatcgg ccaaacggcc 181 accaagcaga agaccaacag cccggcctgg cacgacgagt tcgtcaccga tgtgtgcaac 241 ggacgcaaga tcgagctggc tgtctttcac gatgccccca taggctacga cgacttcgtg 301 gccaactgca ccatccagtt tgaggagctg ctgcagaacg ggagccgcca cttcgaggac 361 tggattgatc tggagccaga aggaagagtg tatgtgatca tcgatctctc agggtcgtcg 421 ggtgaagccc ctaaagacaa tgaagagcgt gtgttcaggg aacgcatgcg gccgaggaag 481 cggcaggggg ccgtcaggcg cagggtccat caggtcaacg gccacaagtt catggccacc 541 tatcttcggc agcccaccta ctgctcccat tgcagagact tcatctgggg tgtcatagga 601 aagcagggat accagtgtca agtctgcacc tgcgtggtcc acaagcggtg ccacgagctc 661 ataatcacaa agtgtgctgg gttaaagaag caggagaccc ccgaccaggt gggctcccag 721 cggttcagcg tcaacatgcc ccacaagttc ggtatccaca actacaaggt ccctaccttc 781 tgcgatcact gtgggtccct gctctgggga ctcttgcggc agggtttgca gtgtaaagtc 841 tgcaaaatga atgttcaccg tcgatgtgag accaacgtgg ctcccaactg tggagtggat 901 gccagaggaa tcgccaaagt actggccgac ctgggcgtta ccccagacaa aatcaccaac 961 agcggccaga gaaggaaaaa gctcattgctggtgccgagt ccccgcagcc tgcttctgga1021 agctcaccat ctgaggaaga tcgatccaag tcagcaccca cctccccttg tgaccaggaa1081 ataaaagaac ttgagaacaa cattcggaaa gccttgtcat ttgacaaccg aggagaggag1141 caccgggcag catcgtctcc tgatggccag ctgatgagcc ccggtgagaa tggcgaagtc1201 cggcaaggcc aggccaagcg cctgggcctg gatgagttca acttcatcaa ggtgttgggc1261 aaaggcagct ttggcaaggt catgttggca gaactcaagg gcaaagatga agtatatgct1321 gtgaaggtct taaagaagga cgtcatcctt caggatgatg acgtggactg cacaatgaca1381 gagaagagga ttttggctct ggcacggaaa cacccgtacc ttacccaact ctactgctgc1441 ttccagacca aggaccgcct ctttttcgtc atggaatatg taaatggtgg agacctcatg1501 tttcagattc agcgctcccg aaaattcgac gagcctcgtt cacggttcta tgctgcagag1561 gtcacatcgg ccctcatgtt cctccatcag catggagtca tctacaggga tttgaaactg1621 gacaacatcc ttctggatgc agaaggtcac tgcaagctgg ctgacttcgg gatgtgcaag1681 gaagggattc tgaatggtgt gacgaccacc acgttctgtg ggactcctga ctacatagct1741 cctgagatcc tgcaggagtt ggagtatggc ccctccgtgg actggtgggc cctgggggtg1801 ctgatgtacg agatgatggc tggacagcct ccctttgagg ccgacaatga ggacgaccta1861 tttgagtcca tcctccatga cgacgtgctg tacccagtct ggctcagcaa ggaggctgtc1921 agcatcttga aagctttcat gacgaagaat ccccacaagc gcctgggctg tgtggcatcg1981 cagaatggcg aggacgccat caagcagcac ccattcttca aagagattga ctgggtgctc2041 ctggagcaga agaagatcaa gccacccttc aaaccacgca ttaaaaccaa aagagacgtc2101 aataattttg accaagactt tacccgggaa gagccggtac tcacccttgt ggacgaagca2161 attgtaaagc agatcaacca ggaggaattc aaaggtttct cctactttgg tgaagacctg2221 atgccctgag agcccactgc agtt1 agccggcttc tggaaactcc ctgtgtgagt gtgagggaat gagtatgaac aaggcacatt 61 atgtcttact tattgtatta gtttcctgtt gctgctgtag caagttacca ccaatttatg121 gcttaaagca attcaaattt tttctcttga attcttaaga tcagaagttc taaatgagtc181 taatggggct aaaatcaagg tgttaggcaa aggcagct 1 tgcagctgga gatccgggct cccacagcag atgagatcca cgtaactgtt ggcgaggccc 61 gtaacctaat tcctatggac cccaatggtc tctctgatcc ctatgtgaaa ctgaagctca 121 tcccagaccc tcggaacctg acgaaacaga agacccgaac ggtgaaagcc acgctaaacc 181 ctgtgtggaa tgagaccttt gtgttcaacc tgaagccagg ggatgtggag cgccggctca 241 gcgtggaggt gtgggactgg gaccggacct cccgcaacga cttcatgggg gccatgtcct 301 ttggcgtctc ggagctgctc aaggcgcccg tggatggctg gtacaagtta ctgaaccagg 361 aggagggcga gtattacaat gtgccggtgg ccgatgctga caactgcagc ctcctccaga 421 agtttgaggc ttgtaactac cccctggaat tgtatgagcg ggtgcggatg ggcccctctt 481 cctctcccat cccctcccct tcccctagtc ccaccgaccc caagcgctgc ttcttcgggg 541 cgagtccagg acgcctgcac atctccgact tcagcttcct catggttcta ggaaaaggca 601 gttttgggaa ggtgatgctg gccgagcgca ggggctctga tgagctctac gccatcaaga 661 tcttgaaaaa ggacgtgatc gtccaggacg acgatgtgga ctgcacgctg gtggagaaac 721 gtgtgctggc gctggggggc cggggtcctg gcggccggcc ccacttcctc acccagctcc 781 actccacctt ccagaccccg gaccgcctgt atttcgtgat ggagtacgtc accgggggag 841 acttgatgta ccacattcaa cagctgggca agtttaagga gccccatgca gcgttctacg 901 cggcagaaat cgctatcggc ctcttcttcc ttcacaatca gggcatcatc tacagggacc 961 tgaagctgga caatgtgatg ctggatgctg agggacacat caagatcact gactttggca1021 tgtgtaagga gaacgtcttc cccgggacga caacccgcac cttctgcggg accccggact1081 acatagcccc ggagatcatt gcctaccagc cctatgggaa gtctgtcgat tggtggtcct1141 ttggagttct gctgtatgag atgttggcag gacagcctcc cttcgatggg gaggacgagg1201 aggagctgtt tcaggccatc atggaacaaa ctgtcaccta ccccaagtcg ctttcccggg1261 aagccgtggc catctgcaag gggttcctga ccaagcaccc agggaagcgc ctgggctcag1321 ggcctgatgg ggaacctacc atccgtgcac atggcttttt ccgctggatt gactgggagc1381 ggctggaacg attggagatc ccgcctcctt tcagaccccg cccgtgtggc cgcagcggcg1441 agaactttga caagttcttc acgcgggcgg cgccagcgct gacccctcca gaccgcctag1501 tcctggccag catcgaccag gccgatttcc agggcttcac ctacgtgaac cccgacttcg1561 tgcacccgga tgcccgcagc cccaccagcc cagtgcctgt gcccgtcatg taatctcacc1621 cgccgccact aggtgtcccc aacgtcccct ccgccgtgcc ggcggcagcc ccacttcacc1681 cccaacttca ccaccccctg tcccattcta gatcctgcac cccagcattc cagctctgcc1741 cccgcgggtt ctagacgccc ctcccaagcg ttcctggcct tctgaactcc atacagcctc1801 tacagccgtc ccgcgttcaa gacttgagcg 1 cggggtgtct tgggcccggg cggctgtaga ggcggcggcg cctacgggca gtgggaggag 61 ccgcgcggtt ccggctgctc cggcgaggcg acccttgggt cggcgctgcg ggcaggtggc121 aggtaggtgg cggacggccg cggttctccg gcaagcgcag gcggcggagt cccccacggc181 gcccgaagcg cccccccgca cccccggcct ccagcgttga ggcgggggag tgaggagatg241 ccgacccaga gggacagcag caccatgtcc cacacggtcg caggcggcgg cagcggggac301 cattcccacc aggtccgggt gaaagcctac taccgcgggg atatcatgat aacacatttt361 gaaccttcca tctcctttga gggcctttgc aatgaggttc gagacatgtg ttcttttgac421 aacgaacagc tcttcaccat gaaatggata gatgaggaag gagacccgtg tacagtatca481 tctcagttgg agttagaaga agcctttaga ctttatgagc taaacaagga ttctgaactc541 ttgattcatg tgttcccttg tgtaccagaa cgtcctggga tgccttgtcc aggagaagat601 aaatccatct accgtagagg tgcacgccgc tggagaaagc tttattgtgc caatggccac661 actttccaag ccaagcgttt caacaggcgt gctcactgtg ccatctgcac agaccgaata721 tggggacttg gacgccaagg atataagtgc atcaactgca aactcttggt tcataagaag 781 tgccataaac tcgtcacaat tgaatgtggg cggcattctt tgccacagga accagtgatg 841 cccatggatc agtcatccat gcattctgac catgcacaga cagtaattcc atataatcct 901 tcaagtcatg agagtttgga tcaagttggt gaagaaaaag aggcaatgaa caccagggaa 961 agtggcaaag cttcatccag tctaggtctt caggattttg atttgctccg ggtaatagga1021 agaggaagtt atgccaaagt actgttggtt cgattaaaaa aaacagatcg tatttatgca1081 atgaaagttg tgaaaaaaga gcttgttaat gatgatgagg atattgattg ggtacagaca1141 gagaagcatg tgtttgagca ggcatccaat catcctttcc ttgttgggct gcattcttgc1201 tttcagacag aaagcagatt gttctttgtt atagagtatg taaatggagg agacctaatg1261 tttcatatgc agcgacaaag aaaacttcct gaagaacatg ccagatttta ctctgcagaa1321 atcagtctag cattaaatta tcttcatgag cgagggataa tttatagaga tttgaaactg1381 gacaatgtat tactggactc tgaaggccac attaaactca ctgactacgg catgtgtaag1441 gaaggattac ggccaggaga tacaaccagc actttctgtg gtactcctaa ttacattgct1501 cctgaaattt taagaggaga agattatggt ttcagtgttg actggtgggc tcttggagtg1561 ctcatgtttg agatgatggc aggaaggtct ccatttgata ttgttgggag ctccgataac1621 cctgaccaga acacagagga ttatctcttc caagttattt tggaaaaaca aattcgcata1681 ccacgttctc tgtctgtaaa agctgcaagt gttctgaaga gttttcttaa taaggaccct1741 aaggaacgat tgggttgtca tcctcaaaca ggatttgctg atattcaggg acacccgttc1801 ttccgaaatg ttgattggga tatgatggag caaaaacagg tggtacctcc ctttaaacca1861 aatatttctg gggaatttgg tttggacaac tttgattctc agtttactaa tgaacctgtc1921 192 1921 cagctcactc cagatgacga tgacattgtg aggaagattg atcagtctga atttgaaggt1981 tttgagtata tcaatcctct tttgatgtct gcagaagaat gtgtctgatc ctcatttttc2041 aaccatgtat tctactcatg ttgccattta atgcatggat aaacttgctg caagcctgga2101 tacaattaac cattttatat ttgccaccta caaaaaaaca cccaatatct tctcttgtag2161 actatatgaa tcaattatta catctcgacc cggaat 1 gaattcggac ggaggaggca gaatggccag tcgaggggcg cttaggcgtg gcctttcccc 61 agggctgcct cgactcctgc acctgtcccg agggctggcc tgagacggga ctcccggttc 121 tcccgctgcg aagcaggccc cccggggccg gggcagcggc gccggcatgt cgtctggcac 181 39181 181 catgaagttc aatggctatt tgagggtccg catcggtgag gcagtggggc tgcagcccac 241 ccgctggtcc ctgcgccact cgctcttcaa gaagggccac cagctgctgg acccctatct 301 gacggtgagc gtggaccagg tgcgcgtggg ccagaccagc accaagcaga agaccaacaa 361 acccacgtac aacgaggagt tttgcgctaa cgtcaccgac ggcggccacc tcgagttggc 421 cgtcttccac gagacccccc tgggctacga cttcgtggcc aactgcaccc tgcagttcca 481 ggagctcgtc ggcacgaccg gcgcctcgga caccttcgag ggttgggtgg atctcgagcc 541 agaggggaaa gtatttgtgg taataaccct taccgggagt ttcactgaag ctactctcca 601 gagagaccgg atcttcaaac attttaccag gaagcgccaa agggctatgc gaaggcgagt 661 ccaccagatc aatggacaca agttcatggc cacgtatctg aggcagccca cctactgctc 721 tcactgcagg gagtttatct ggggagtgtt tgggaaacag ggttatcagt gccaagtgtg 781 cacctgtgtc gtccataaac gctgccatca tctaattgtt acagcctgta cttgccaaaa 841 caatattaac aaagtggatt caaagattgc agaacagagg ttcgggatca acatcccaca 901 caagttcagc atccacaact acaaagtgcc aacattctgc gatcactgtg gctcactgct 961 ctggggaata atgcgacaag gacttcagtg taaaatatgt aaaatgaatg tgcatattcg1021 atgtcaagcg aacgtggccc ctaactgtgg ggtaaatgcg gtggaacttg ccaagaccct1081 ggcagggatg ggtctccaac ccggaaatat ttctccaacc tcgaaactcg tttccagatc1141 gaccctaaga cgacagggaa aggagagcag caaagaagga aatgggattg gggttaattc1201 ttccaaccga cttggtatcg acaactttga gttcatccga gtgttgggga aggggagttt1261 tgggaaggtg atgcttgcaa gagtaaaaga aacaggagac ctctatgctg tgaaggtgct1321 gaagaaggac gtgattctgc tggatgatga tgtggaatgc accatgaccg agaaaaggat1381 cctgtctctg gcccgcaatc accccttcct cactcagttg ttctgctgct ttcagacccc1441 cgatcgtctg ttttttgtga tggagtttgt gaatgggggt gacttgatgt tccacattca1501 gaagtctcgt cgttttgatg aagcacgagc tcgcttctat gctgcagaaa tcatttcggc1561 tctcatgttc ctccatgata aaggaatcat ctatagagat ctgaaactgg acaatgtcct1621 gttggaccac gagggtcact gtaaactggc agacttcgga atgtgcaagg aggggatttg1681 caatggtgtc accacggcca cattctgtgg cacgccagac tatatcgctc cagagatcct1741 ccaggaaatg ctgtacgggc ctgcagtaga ctggtgggca atgggcgtgt tgctctatga1801 gatgctctgt ggtcacgcgc cttttgaggc agagaatgaa gatgacctct ttgaggccat1861 actgaatgat gaggtggtct accctacctg gctccatgaa gatgccacag ggatcctaaa1921 atctttcatg accaagaacc ccaccatgcg cttgggcagc ctgactcagg gaggcgagca1981 cgccatcttg agacatcctt tttttaagga aatcgactgg gcccagctga accatcgcca2041 aatagaaccg cctttcagac ccagaatcaa atcccgagaa gatgtcagta attttgaccc2101 tgacttcata aaggaagagc cagttttaac tccaattgat gagggacatc ttccaatgat2161 taaccaggat gagtttagaa acttttccta tgtgtctcca gaattgcaac catagcctta2221 tggggagtga gagagagggc acgagaaccc aaaggaatag agattctcca ggaatttcct2281 ctatcggacc ttcccagcat cagccttaga acaagaacct taccttcaag gagcaagtga2341 agaactctgt cgaaggatgg aactttcaga tatcaactat ttagagtcc 1 gaattccttc tctcctcctc ctcgcccttc tcctcgccct cctcctcctc ctcgccctcc 61 cctcccgatc ctcatcccct tgccctcccc cagcccaggg acttttccgg aaagttttta 121 ttttccgtct gggctctcgg agaaagaagc tcctggctca gcggctgcaa aactttcctg 181 ctgccgcgcc gccagccccc gccctccgct gcccggccct gcgccccgcc gagcgatgag 241 cgcccctccg gtcctgcggc cgcccagtcc gctgctgccc gtggcggcgg cagctgccgc 301 agcggccgcc gcactggtcc cagggtccgg gcccgggccc gcgccgttct tggctcctgt 361 cgcggccccg gtcgggggca tctcgttcca tctgcagatc ggcctgagcc gtgagccggt 421 gctgctgctg caggactcgt ccggggacta cagcctggcg cacgtccgcg agatggcttg 481 ctccattgtc gaccagaagt tccctgaatg tggtttctac ggaatgtatg ataagatcct 541 gctttttcgc catgacccta cctctgaaaa catccttcag ctggtgaaag cggccagtga 601 tatccaggaa ggcgatctta ttgaagtggt cttgtcacgt tccgccacct ttgaagactt 661 tcagattcgt ccccacgctc tctttgttca ttcatacaga gctccagctt tctgtgatca 721 ctgtggagaa atgctgtggg ggctggtacg tcaaggtctt aaatgtgaag ggtgtggtct 781 gaattaccat aagagatgtg catttaaaat acccaacaat tgcagcggtg tgaggcggag 841 aaggctctca aacgtttccc tcactggggt cagcaccatc cgcacatcat ctgctgaact 901 ctctacaagt gcccctgatg agccccttct gcaaaaatca ccatcagagt cgtttattgg 961 tcgagagaag aggtcaaatt ctcaatcata cattggacga ccaattcacc ttgacaagat1021 tttgatgtct aaagttaaag tgccgcacac atttgtcatc cactcctaca cccggcccac1081 agtgtgccag tactgcaaga agcttctgaa ggggcttttc aggcagggct tgcagtgcaa1141 agattgcaga ttcaactgcc ataaacgttg tgcaccgaaa gtaccaaaca actgccttgg1201 cgaagtgacc attaatggag atttgcttag ccctggggca gagtctgatg tggtcatgga1261 agaagggagt gatgacaatg atagtgaaag gaacagtggg ctcatggatg atatggaaga1321 agcaatggtc caagatgcag agatggcaat ggcagagtgc cagaacgaca gtggcgagat1381 gcaagatcca gacccagacc acgaggacgc caacagaacc atcagtccat caacaagcaa1441 caatatccca ctcatgaggg tagtgcagtc tgtcaaacac acgaagagga aaagcagcac1501 agtcatgaaa gaaggatgga tggtccacta caccagcaag gacacgctgc ggaaacggca1561 ctattggaga ttggatagca aatgtattac cctctttcag aatgacacag gaagcaggta1621 ctacaaggaa attcctttat ctgaaatttt gtctctggaa ccagtaaaaa cttcagcttt1681 aattcctaat ggggccaatc ctcattgttt cgaaatcact acggcaaatg tagtgtatta1741 539 1741 tgtgggagaa aatgtggtca atccttccag cccatcacca aataacagtg ttctcaccag1801 tggcgttggt gcagatgtgg ccaggatgtg ggagatagcc atccagcatg cccttatgcc1861 cgtcattccc aagggctcct ccgtgggtac aggaaccaac ttgcacagag atatctctgt1921 gagtatttca gtatcaaatt gccagattca agaaaatgtg gacatcagca cagtatatca1981 gatttttcct gatgaagtac tgggttctgg acagtttgga attgtttatg gaggaaaaca2041 tcgtaaaaca ggaagagatg tagctattaa aatcattgac aaattacgat ttccaacaaa2101 acaagaaagc cagcttcgta atgaggttgc aattctacag aaccttcatc accctggtgt2161 tgtaaatttg gagtgtatgt ttgagacgcc tgaaagagtg tttgttgtta tggaaaaact2221 ccatggagac atgctggaaa tgatcttgtc aagtgaaaag ggcaggttgc cagagcacat2281 aacgaagttt ttaattactc agatactcgt ggctttgcgg caccttcatt ttaaaaatat2341 cgttcactgt gacctcaaac cagaaaatgt gttgctagcc tcagctgatc cttttcctca2401 ggtgaaactt tgtgattttg gttttgcccg gatcattgga gagaagtctt tccggaggtc2461 2521 362581 atttaatgaa gatgaagaca tacacgacca aattcagaat gcagctttca tgtatccacc2641 aaatccctgg aaggaaatat ctcatgaagc cattgatctt atcaacaatt tgctgcaagt2701 392761 tcagacctgg ttagatttgc gagagctgga atgcaaaatc ggggagcgct acatcaccca2821 tgaaagtgat gacctgaggt gggagaagta tgcaggcgag cagcggctgc agtaccccac2881 acacctgatc aatccaagtg ctagccacag tgacactcct gagactgaag aaacagaaat2941 gaaagccctc ggtgagcgtg tcagcatcct ctgagttcca tctcctataa tctgtcaaaa3001 cactgtggaa ctaataaata catacggtca ggtttaacat ttgccttgca gaactgccat3061 tattttctgt cagatgagaa caaagctgtt aaactgttag cactgttgat gtatctgagt3121 593181 aaagttccct gaaacacgaa acttgttatt gtgaatgatt catgttatat ttaatgcatt32 aaacctgtct ccactgtgcc tttgcaaatc agtgtttttc ttactggagc ttcattttgg3301 taagagacag aatgtatctg tgaagtagtt ctgtttggtg tgtcccattg gtgttgtcat3361 tgtaaacaaa ctcttgaaga gtcgattatt tccagtgttc tatgaacaac tccaaaaccc3421 atgtgggaaa aaaatgaatg aggagggtag ggaataaaat cctaagacac aaatgcatga3481 acaagtttta atgtatagtt ttgaatcctt tgcctgcctg gtgtgcctca gtatatttaa3541 actcaagaca atgcacctag ctgtgcaaga cctagtgctc ttaagcctaa atgccttaga3601 aatgtaaact gccatatata acagatacat ttccctcttt cttataatac tctgttgtac3661 tatggaaaat cagctgctca gcaacctttc acctttgtgt atttttcaat aataaaaaat3721 attcttgtca aaaaaaaaaa aa

1 tgctcgctcc agggcgcaac catgtcgcca tttcttcgga ttggcttgtc caactttgac 61 tgcgggtcct gccagtcttg tcagggcgag gctgttaacc cttactgtgc tgtgctcgtc 121 aaagagtatg tcgaatcaga gaacgggcag atgtatatcc agaaaaagcc taccatgtac 181 721 tttaaagtct acaattacaa gagcccgacc ttctgtgaac actgtgggac cctgctgtgg 781 181 ccaccctggg acagcacttt tgatgcccat atcaacaagg gaagagtcat gcagatcatt 241 gtgaaaggca aaaacgtgga cctcatctct gaaaccaccg tggagctcta ctcgctggct 301 gagaggtgca ggaagaacaa cgggaagaca gaaatatggt tagagctgaa acctcaaggc 361 cgaatgctaa tgaatgcaag atactttctg gaaatgagtg acacaaagga catgaatgaa 421 tttgagacgg aaggcttctt tgctttgcat cagcgccggg gtgccatcaa gcaggcaaag 481 gtccaccacg tcaagtgcca cgagttcact gccaccttct tcccacagcc cacattttgc 541 tctgtctgcc acgagtttgt ctggggcctg aacaaacagg gctaccagtg ccgacaatgc 601 aatgcagcaa ttcacaagaa gtgtattgat aaagttatag caaagtgcac aggatcagct 661 atcaatagcc gagaaaccat gttccacaag gagagattca aaattgacat gccacacaga 721 tttaaagtct acaattacaa gagcccgaccttctgtgaac actgtgggac cctgctgtgg 781 ggactggcac ggcaaggact caagtgtgat gcatgtggca tgaatgtgca tcatagatgc 841 cagacaaagg tggccaacct ttgtggcata aaccagaagc taatggctga agcgctggcc 901 atgattgaga gcactcaaca ggctcgctgc ttaagagata ctgaacagat cttcagagaa 961 ggtccggttg aaattggtct cccatgctcc atcaaaaatg aagcaaggcc gccatgttta 1021 ccgacaccgg gaaaaagaga gcctcagggc atttcctggg agtctccgtt ggatgaggtg 1081 gataaaatgt gccatcttcc agaacctgaa ctgaacaaag aaagaccatc tctgcagatt 1141 aaactaaaaa ttgaggattt tatcttgcac aaaatgttgg ggaaaggaag ttttggcaag 1201 gtcttcctgg cagaattcaa gaaaaccaat caatttttcg caataaaggc cttaaagaaa 1261 gatgtggtct tgatggacga tgatgttgag tgcacgatgg tagagaagag agttctttcc 1321 ttggcctggg agcatccgtt tctgacgcac atgttttgta cattccagac caaggaaaac 1381 ctcttttttg tgatggagta cctcaacgga ggggacttaa tgtaccacat ccaaagctgc 1441 cacaagttcg acctttccag agcgacgttt tatgctgctg aaatcattct tggtctgcag 1501 ttccttcatt ccaaaggaat agtctacagg gacctgaagc tagataacat cctgttagac 1561 aaagatggac atatcaagat cgcggatttt ggaatgtgca aggagaacat gttaggagat 1621 gccaagacga ataccttctg tgggacacct gactacatcg ccccagagat cttgctgggt 1681 cagaaataca accactctgt ggactggtgg tccttcgggg ttctccttta tgaaatgctg 1741 attggtcagt cgcctttcca cgggcaggat gaggaggagc tcttccactc catccgcatg 1801 gacaatccct tttacccacg gtggctggag aaggaagcaa aggaccttct ggtgaagctc35782 ttcgtgcgag aacctgagaa gaggctgggc gtgaggggag acatccgcca gcaccctttg35842 tttcgggaga tcaactggga ggaacttgaa cggaaggaga ttgacccacc gttccggccg35902 aaagtgaaat caccatttga ctgcagcaat ttcgacaaag aattcttaaa cgagaagccc35962 cggctgtcat ttgccgacag agcactgatc aacagcatgg accagaatat gttcaggaac36022 ttttccttca tgaaccccgg gatggagcgg ctgatatcct gaatcttgcc cctccagaga 57382 caggaaagaa tttgccttct ccctgggaac tggttcaaga gacactgctt gggttccttt36142 ttcaacttgg aaaaagaaag aaacactcaa caataaagac tgagacccgt tcgcccccat36202 gtgactttat ctgtagcaga aaccaagtct acttcactaa tgacgatgcc gtgtgtctcg36262 tctcctgaca tgtctcacag acgctcctga agttaggtca ttactaacca tagttattta36322 cttgaaagat gggtctccgc acttggaaag gtttcaagac ttgatactgc aataaattat36382 ggctcttcac ctgggcgcca actgctgatc aacgaaatgc ttgttgaatc aggggcaaac36442 ggagtacaga cgtctcaaga ctgaaacggc cccattgcct ggtctagtag cggatctcac36502 tcagccgcag acaagtaatc actaacccgt tttattctat cctatctgtg gatgtataaa36562 tgctgggggc cagccctgga taggttttta tgggaattct ttacaataaa catagcttgt36622 acttg36627 atgcccagca ggaccgaccc caagatggaa gggagcggcg gccgcgtccg cctcaaggcg36687 cattacgggg gggacatctt catcaccagc gtggacgccg ccacgacctt cgaggagctc36747 tgtgaggaag tgagagacat gtgtcgtctg caccagcagc acccgctcac cctcaagtgg36807 gtggacagcg aaggtgaccc ttgcacggtg tcctcccaga tggagctgga agaggctttc36867 cgcctggccc gtcagtgcag ggatgaaggc ctcatcattc atgttttccc gagcacccct 3636927 gagcagcctg gcctgccatg tccgggagaa gacaaatcta tctaccgccg gggagccaga36987 agatggagga agctgtaccg tgccaacggc cacctcttcc aagccaagcg ctttaacagg37047 agagcgtact gcggtcagtg cagcgagagg atatggggcc tcgcgaggca aggctacagg37 tgcatcaact gcaaactgct ggtccataag cgctgccacg gcctcgtccc gctgacctgc37167 37 aggaagcata tggattctgt catgccttcc caagagcctc cagtagacga caagaacgag37227 gacgccgacc ttccttccga ggagacagat ggaattgctt acatttcctc atcccggaag37287 catgacagca ttaaagacga ctcggaggac cttaagccag ttatcgatgg gatggatgga37347 atcaaaatct ctcaggggct tgggctgcag gactttgacc taatcagagt catcgggcgc37407 3746724 37467 aaagtggtga agaaagagct ggtgcatgat gacgaggata ttgactgggt acagacagag37527 aagcacgtgt ttgagcaggc atccagcaac cccttcctgg tcggattaca ctcctgcttc37587 cagacgacaa gtcggttgtt cctggtcatt gagtacgtca acggcgggga cctgatgttc37647 cacatgcaga ggcagaggaa gctccctgag gagcacgcca ggttctacgc ggccgagatc37707 6957 aacgtcctcc tggatgcgga cggacacatc aagctcacag actacggcat gtgcaaggaa37827 ggcctgggcc ctggtgacac aacgagcact ttctgcggaa ccccgaatta catcgccccc37887 gaaatcctgc ggggagagga gtacgggttc agcgtggact ggtgggcgct gggagtcctc37947 atgtttgaga tgatggccgg gcgctccccg ttcgacatca tcaccgacaa cccggacatg38007 aacacagagg actacctttt ccaagtgatc ctggagaagc ccatccggat cccccggttc38067 ctgtccgtca aagcctccca tgttttaaaa ggatttttaa ataaggaccc caaagagagg38127 38 38127 ctcggctgcc ggccacagac tggattttct gacatcaagt cccacgcgtt cttccgcagc38187 atagactggg acttgctgga gaagaagcag gcgctccctc cattccagcc acagatcaca38247 gacgactacg gtctggacaa ctttgacaca cagttcacca gcgagcccgt gcagctgacc38307 38 38307 ccagacgatg aggatgccat aaagaggatc gaccagtcag agttcgaagg ctttgagtat38367 atcaacccat tattgctgtc caccgaggag tcggtgtga38406 tgtcatgcct tcccaagagc ctccaggatg gctgtcctcc gacctcctcc acctccaggc38466 tctagatggc aaagcccact tagcaaaagc cacctgctct gtgatgatgg gactggctcc38526 tgcctgtggg ttcggaaagc ccatcccacc ctctacagcc tcttgctcct ctgcaatgac38586 tgtgccttca cctgggggtt ccccagagac tagtgagagt catcgggcgt ggaagctat (2) SEQ ID NO: 2992 data: (i) sequence characteristics:

(A) length: 1649 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2992 description of the sequence: 1 gccacttctt ctgggcccac gaggcagctg tcccatgctc tgctgagcac ggtggtgcca 61 tgcctctgca actcctcctg ttgctgatcc tactgggccc tggcaacagc ttgcagctgt 121 gggacacctg ggcagatgaa gccgagaaag ccttgggtcc cctgcttgcc cgggaccgga 181 721 cacagaccac tgcaccagaa gccacggagg cacagaccac tcaacccaca gccacggagg 781 181 gacaggccac cgaatatgag tacctagatt atgatttcct gccagaaacg gagcctccag 241 aaatgctgag gaacagcact gacaccactc ctctgactgg gcctggaacc cctgagtcta 301 ccactgtgga gcctgctgca aggcgttcta ctggcctgga tgcaggaggg gcagtcacag 361 agctgaccac ggagctggcc aacatgggga acctgtccac ggattcagca gctatggaga 421 tacagaccac tcaaccagca gccacggagg cacagaccac tccactggca gccacagagg 481 cacagacaac tcgactgacg gccacggagg cacagaccac tccactggca gccacagagg 541 cacagaccac tccaccagca gccacggaag cacagaccac tcaacccaca ggcctggagg 601 cacagaccac tgcaccagca gccatggagg cacagaccac tgcaccagca gccatggaag 661 cacagaccac tccaccagca gccatggagg cacagaccac tcaaaccaca gccatggagg 721 cacagaccac tgcaccagaa gccacggagg cacagaccac tcaacccaca gccacggagg 781 cacagaccac tccactggca gccatggagg ccctgtccac agaacccagt gccacagagg 841 ccctgtccat ggaacctact accaaaagag gtctgttcat acccttttct gtgtcctctg 901 ttactcacaa gggcattccc atggcagcca gcaatttgtc cgtcaactac ccagtggggg 961 ccccagacca catctctgtg aagcagtgcc tgctggccat cctaatcttg gcgctggtgg1021 ccactatctt cttcgtgtgc actgtggtgc tggcggtccg cctctcccgc aagggccaca1081 tgtaccccgt gcgtaattac tcccccaccg agatggtctg catctcatcc ctgttgcctg1141 atgggggtga ggggccctct gccacagcca atgggggcct gtccaaggcc aagagcccgg1201 gcctgacgcc agagcccagg gaggaccgtg agggggatga cctcaccctg cacagcttcc1261 tcccttagct cactctgcca tctgttttgg caagacccca cctccacggg ctctcctggg1321 ccacccctga gtgcccagac cccaatccac agctctgggc ttcctcggag acccctgggg1381 atggggatct tcagggaagg aactctggcc acccaaacag gacaagagca gcctggggcc1441 aagcagacgg gcaagtggag ccacctcttt cctccctccg cggatgaagc ccagccacat1501 ttcagccgag gtccaaggca ggaggccatt tacttgagac agattctctc ctttttcctg1561 tcccccatct tctctgggtc cctctaacat ctcccatggc tctccccgct tctcctggtc1621 actggagtct cctccccatg tacccaagg (2) SEQ ID NO: 2993 data: (i) sequence characteristics:

(A) length: 703 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2993 description of the sequence: 1 ccaccaatct tgggcaagaa gcgagaccat tctccttttt ctctggtcac tcctgtcctt 61 cagggggctc cctctggccc cgactgtcca ttgctgctga agtaatgctg tggcctttct 121 cagtttgggc cccacccaaa accgaagaac ttctccccag aagcttctac ttggttctca 181 gtgttttcac agttatggga acccaagaac agtgtcagac ctaggaggtg ccccactacc 241 accctgtctt tatcaatgtt gtcaccaaag ctgtcacaaa caatggggtg tgggctgtca 301 catggccctg cctaagtaac cacattctcg cttcctcctt ccacacacag ccattggggg 361 ttgctcggat ccgggactgc cgcagggggt gccacagcag tgcctggcag cgtgggctgg 421 gaccttgtca ctaaagcaga gaagccactt cttctgggcc cacgaggcag ctgtcccatg 481 ctctgctgag cacggtggta agtgctggct tgcaaaacca cagggagtgg ctggaggtcc 541 ccatgggcca agggcctgcc ttatagctgc tggcaggccc gggtaggacc gccaggccct 601 tcttgagctg cagcacctgg ggagggcaaa ctgaggctcc tccgactcaa gactaaagtc 661 ttcctggagt ctgtggcctt attctgtgac tcttctgaat cct (2) SEQ ID NO: 2994 data: (i) sequence characteristics:

(A) length: 3409 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2994 description of the sequence: 1 tagaagaagt taaagggccc tcctggatgg ctttattcat gttgatgagt aataataata 61 actgctactg gctgaggatc ttctccatcc caggcatgtc agggatgcct aagtccccag 121 tccctgctcc agaccagaca tcttccagct gtggcagtag agggtggtgg tctagggtgc 181 721 gaggcacaga ccactccact ggcagccaca gaggcacaga ccactccacc agcagccacg 781 181 ttgctaagcc caagggtgaa actgtcttga catccctccg cccattgtct cctcctaggt 241 gccatgcctc tgcaactcct cctgttgctg atcctactgg gccctggcaa cagcttgcag 301 ctgtgggaca cctgggcaga tgaagccgag aaagccttgg gtcccctgct tgcccgggac 361 cggagacagg ccaccgaata tgagtaccta gattatgatt tcctgccaga aacggagcct 421 ccagaaatgc tgaggaacag cactgacacc actcctctga ctgggcctgg aacccctgag 481 tctaccactg tggagcctgc tgcaaggcgt tctactggcc tggatgcagg aggggcagtc 541 acagagctga ccacggagct ggccaacatg gggaacctgt ccacggattc agcagctatg 601 gagatacaga ccactcaacc agcagccacg gaggcacaga ccactcaacc agtgcccacg 661 gaggcacaga ccactccact ggcagccaca gaggcacaga caactcgact gacggccacg 721 gaggcacaga ccactccact ggcagccaca gaggcacaga ccactccacc agcagccacg 781 gaagcacaga ccactcaacc cacaggcctg gaggcacaga ccactgcacc agcagccatg 841 gaggcacaga ccactgcacc agcagccatg gaagcacaga ccactccacc agcagccatg 901 gaggcacaga ccactcaaac cacagccatg gaggcacaga ccactgcacc agaagccacg 961 gaggcacaga ccactcaacc cacagccacg gaggcacaga ccactccact ggcagccatg1021 gaggccctgt ccacagaacc cagtgccaca gaggccctgt ccatggaacc tactaccaaa1081 agaggtctgt tcataccctt ttctgtgtcc tctgttactc acaagggcat tcccatggca1141 gccagcaatt tgtccgtcaa ctacccagtg ggggccccag accacatctc tgtgaagcag1201 tgcctgctgg ccatcctaat cttggcgctg gtggccacta tcttcttcgt gtgcactgtg1261 gtgctggcgg tccgcctctc ccgcaagggc cacatgtacc ccgtgcgtaa ttactccccc1321 accgagatgg tctgcatctc atccctgttg cctgatgggg gtgaggggcc ctctgccaca1381 gccaatgggg gcctgtccaa ggccaagagc ccgggcctga cgccagagcc cagggaggac1441 cgtgaggggg atgacctcac cctgcacagc ttcctccctt agctcactct gccatctgtt1501 ttggcaagac cccacctcca cgggctctcc tgggccaccc ctgagtgccc agaccccaat1561 ccacagctct gggcttcctc ggagacccct ggggatgggg atcttcaggg aaggaactct1621 ggccacccaa acaggacaag agcagcctgg ggccaagcag acgggcaagt ggagccacct1681 ctttcctccc tccgcggatg aagcccagcc acatttcagc cgaggtccaa ggcaggaggc1741 catttacttg agacagattc tctccttttt cctgtccccc atcttctctg ggtccctcta1801 acatctccca tggctctccc cgcttctcct ggtcactgga gtctcctccc catgtaccca1861 aggaagatgg agctccccca tcccacacgc actgcactgc cattgtcttt tggttgccat1921 ggtcaccaaa caggaagtgg acattctaag ggaggagtac tgaagagtga cggacttctg1981 aggctgtttc ctgctgctcc tctgacttgg ggcagcttgg gtcttcttgg gcacctctct2041 gggaaaaccc agggtgaggt tcagcctgtg agggctggga tgggtttcgt gggcccaaag2101 ggcagacctt tctttgggac tgtgtggacc aaggagcttc catctagtga caagtgaccc2161 ccagctatcg cctcttgcct tcccctgtgg ccactttcca gggtggactc tgtcttgttc2221 actgcagtat cccaactgca ggtccagtgc aggcaataaa tatgtgatgg acaaaacgat2281 agcggaatcc ttcaaggttt caaggctgtc tccttcaggc agccttcccg gaattctcca2341 tccctcagtg caggatgggg gctggtcctc agctgtctgc cctcagcccc tggcccccca2401 ggaagcctct ttcatgggct gttaggttga cttcagtttt gcctcttgga caacaggggg2461 tcttgtacat ccttgggtga ccaggaaaag ttcaggctat ggggggccaa agggagggct2521 gccccttccc caccagtgac cactttattc cacttcctcc attacccagt tttggcccac2581 agagtttggt cccccccaaa cctcggacca atatccctct aaacatcaat ctatcctcct2641 gttaaagaaa aaaaaaaatg ggactgggag cagtggctca tgcctgtaat cccagcactt2701 tgggaggccg aggcaggtac atcacctgag gtcaggagtt caagactagc ctggccaaca2761 27 2761 tagtgaaacc ctgtctctac taaaaataca aagattagtc aggtgtggtg gcacatgcct2821 gtagtcccag ctactgggga ggctgaggca ggagaattgc ttgaacccgg gaagcggagg2881 gaggttgcag tgagctgaga tcacgctact gcactccagc ctgggtgaca gagtaagact2941 ccgtctcaaa aaaaaaaaaa aagattcaat gacccttgtt aaagcatggt aaggaagact3001 ttgttcaagg ggagtgggac tctctcaatc actgcaggga ctgcagctat gggattttgc3061 agtgggggca tttgggctca actatgagta cagcaggggc aagtgggagc tgatagccag3121 ggaacagggt tggatatctg cagctggaaa attaccaaga ggaaacatca ggggaagggg3181 aattctggct aaactgactg ctggggatgg gttctcggtc attttctaca ctgacctaac3241 aggattcata ctggaggcag gccagggtgc tcagacatca ccggggggat ggtggcagat3301 gaggaacgtg atcagatata ggaggtgatc agatatggga ggtgatcaga tatggagtgg3361 tggggggagg gttgttgcta agctgactta gcagagttct tgttagaac (2) SEQ ID NO: 2995 data: (i) sequence features;

(A) length: 3409 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2995 sequence description: 1 tagaagaagt taaagggccc tcctggatgg ctttattcat gttgatgagt aataataata 61 actgctactg gctgaggatc ttctccatcc caggcatgtc agggatgcct aagtccccag 121 tccctgctcc agaccagaca tcttccagct gtggcagtag agggtggtgg tctagggtgc 181 ttgctaagcc caagggtgaa actgtcttga catccctccg cccattgtct cctcctaggt 241 gccatgcctc tgcaactcct cctgttgctg atcctactgg gccctggcaa cagcttgcag 301 ctgtgggaca cctgggcaga tgaagccgag aaagccttgg gtcccctgct tgcccgggac

361 cggagacagg ccaccgaata tgagtaccta gattatgatt tcctgccaga aacggagcct

421 ccagaaatgc tgaggaacag cactgacacc actcctctga ctgggcctgg aacccctgag

481 tctaccactg tggagcctgc tgcaaggcgt tctactggcc tggatgcagg aggggcagtc

541 acagagctga ccacggagct ggccaacatg gggaacctgt ccacggattc agcagctatg

601 gagatacaga ccactcaacc agcagccacg gaggcacaga ccactcaacc agtgcccacg

661 gaggcacaga ccactccact ggcagccaca gaggcacaga caactcgact gacggccacg

721 gaggcacaga ccactccact ggcagccaca gaggcacaga ccactccacc agcagccacg

781 gaagcacaga ccactcaacc cacaggcctg gaggcacaga ccactgcacc agcagccatg

841 gaggcacaga ccactgcacc agcagccatg gaagcacaga ccactccacc agcagccatg

901 gaggcacaga ccactcaaac cacagccatg gaggcacaga ccactgcacc agaagccacg

961 gaggcacaga ccactcaacc cacagccacg gaggcacaga ccactccact ggcagccatg

1021 gaggccctgt ccacagaacc cagtgccaca gaggccctgt ccatggaacc tactaccaaa

1081 agaggtctgt tcataccctt ttctgtgtcc tctgttactc acaagggcat tcccatggca

1141 gccagcaatt tgtccgtcaa ctacccagtg ggggccccag accacatctc tgtgaagcag

1201 tgcctgctgg ccatcctaat cttggcgctg gtggccacta tcttcttcgt gtgcactgtg

1261 gtgctggcgg tccgcctctc ccgcaagggc cacatgtacc ccgtgcgtaa ttactccccc

1321 accgagatgg tctgcatctc atccctgttg cctgatgggg gtgaggggcc ctctgccaca

1381 gccaatgggg gcctgtccaa ggccaagagc ccgggcctga cgccagagcc cagggaggac

1441 cgtgaggggg atgacctcac cctgcacagc ttcctccctt agctcactct gccatctgtt

1501 ttggcaagac cccacctcca cgggctctcc tgggccaccc ctgagtgccc agaccccaat

1561 ccacagctct gggcttcctc ggagacccct ggggatgggg atcttcaggg aaggaactct

1621 ggccacccaa acaggacaag agcagcctgg ggccaagcag acgggcaagt ggagccacct

1681 ctttcctccc tccgcggatg aagcccagcc acatttcagc cgaggtccaa ggcaggaggc

1741 catttacttg agacagattc tctccttttt cctgtccccc atcttctctg ggtccctcta

1801 acatctccca tggctctccc cgcttctcct ggtcactgga gtctcctccc catgtaccca

1861 aggaagatgg agctccccca tcccacacgc actgcactgc cattgtcttt tggttgccat

1921 ggtcaccaaa caggaagtgg acattctaag ggaggagtac tgaagagtga cggacttctg

1981 aggctgtttcctgctgctcc tctgacttgg ggcagcttgg gtcttcttgg gcacctctct

2041 gggaaaaccc agggtgaggt tcagcctgtg agggctggga tgggtttcgt gggcccaaag

2101 ggcagacctt tctttgggac tgtgtggacc aaggagcttc catctagtga caagtgaccc

2161 ccagctatcg cctcttgcct tcccctgtgg ccactttcca gggtggactc tgtcttgttc

2221 actgcagtat cccaactgca ggtccagtgc aggcaataaa tatgtgatgg acaaaacgat

2281 agcggaatcc ttcaaggttt caaggctgtc tccttcaggc agccttcccg gaattctcca

2341 tccctcagtg caggatgggg gctggtcctc agctgtctgc cctcagcccc tggcccccca

2401 ggaagcctct ttcatgggct gttaggttga cttcagtttt gcctcttgga caacaggggg

2461 tcttgtacat ccttgggtga ccaggaaaag ttcaggctat ggggggccaa agggagggct

2521 gccccttccc caccagtgac cactttattc cacttcctcc attacccagt tttggcccac

2581 agagtttggt cccccccaaa cctcggacca atatccctct aaacatcaat ctatcctcct

2641 gttaaagaaa aaaaaaaatg ggactgggag cagtggctca tgcctgtaat cccagcactt

2701 tgggaggccg aggcaggtac atcacctgag gtcaggagtt caagactagc ctggccaaca

2761 tagtgaaacc ctgtctctac taaaaataca aagattagtc aggtgtggtg gcacatgcct

2821 gtagtcccag ctactgggga ggctgaggca ggagaattgc ttgaacccgg gaagcggagg

2881 gaggttgcag tgagctgaga tcacgctact gcactccagc ctgggtgaca gagtaagact

2941 ccgtctcaaa aaaaaaaaaa aagattcaat gacccttgtt aaagcatggt aaggaagact

3001 ttgttcaagg ggagtgggac tctctcaatc actgcaggga ctgcagctat gggattttgc

3061 agtgggggca tttgggctca actatgagta cagcaggggc aagtgggagc tgatagccag

3121 ggaacagggt tggatatctg cagctggaaa attaccaaga ggaaacatca ggggaagggg

3181 aattctggct aaactgactg ctggggatgg gttctcggtc attttctaca ctgacctaac

3241 aggattcata ctggaggcag gccagggtgc tcagacatca ccggggggat ggtggcagat

3301 gaggaacgtg atcagatata ggaggtgatc agatatggga ggtgatcaga tatggagtgg

3361 tggggggagg gttgttgcta agctgactta gcagagttct tgttagaac (2) SEQ ID NO: 2996 data:

(i) sequence characteristics:

(A) length: 9170 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2996 description of the sequence: 1 gccacttctt ctgggcccac gaggcagctg tcccatgctc tgctgagcac ggtggtgcca 61 tgcctctgca actcctcctg ttgctgatcc tactgggccc tggcaacagc ttgcagctgt 121 gggacacctg ggcagatgaa gccgagaaag ccttgggtcc cctgcttgcc cgggaccgga 181 721 cacagaccac tgcaccagaa gccacggagg cacagaccac tcaacccaca gccacggagg 781 181 gacaggccac cgaatatgag tacctagatt atgatttcct gccagaaacg gagcctccag 241 aaatgctgag gaacagcact gacaccactc ctctgactgg gcctggaacc cctgagtcta 301 ccactgtgga gcctgctgca aggcgttcta ctggcctgga tgcaggaggg gcagtcacag 361 agctgaccac ggagctggcc aacatgggga acctgtccac ggattcagca gctatggaga 421 tacagaccac tcaaccagca gccacggagg cacagaccac tccactggca gccacagagg 481 cacagacaac tcgactgacg gccacggagg cacagaccac tccactggca gccacagagg 541 cacagaccac tccaccagca gccacggaag cacagaccac tcaacccaca ggcctggagg 601 cacagaccac tgcaccagca gccatggagg cacagaccac tgcaccagca gccatggaag 661 cacagaccac tccaccagca gccatggagg cacagaccac tcaaaccaca gccatggagg 721 cacagaccac tgcaccagaa gccacggagg cacagaccac tcaacccaca gccacggagg 781 cacagaccac tccactggca gccatggagg ccctgtccac agaacccagtgccacagagg 841 ccctgtccat ggaacctact accaaaagag gtctgttcat acccttttct gtgtcctctg 901 ttactcacaa gggcattccc atggcagcca gcaatttgtc cgtcaactac ccagtggggg 961 ccccagacca catctctgtg aagcagtgcc tgctggccat cctaatcttg gcgctggtgg1021 ccactatctt cttcgtgtgc actgtggtgc tggcggtccg cctctcccgc aagggccaca1081 tgtaccccgt gcgtaattac tcccccaccg agatggtctg catctcatcc ctgttgcctg1141 atgggggtga ggggccctct gccacagcca atgggggcct gtccaaggcc aagagcccgg1201 gcctgacgcc agagcccagg gaggaccgtg agggggatga cctcaccctg cacagcttcc1261 tcccttagct cactctgcca tctgttttgg caagacccca cctccacggg ctctcctggg1321 ccacccctga gtgcccagac cccaatccac agctctgggc ttcctcggag acccctgggg1381 atggggatct tcagggaagg aactctggcc acccaaacag gacaagagca gcctggggcc1441 aagcagacgg gcaagtggag ccacctcttt cctccctccg cggatgaagc ccagccacat1501 ttcagccgag gtccaaggca ggaggccatt tacttgagac agattctctc ctttttcctg1561 tcccccatct tctctgggtc cctctaacat ctcccatggc tctccccgct tctcctggtc1621 actggagtct cctccccatg tacccaagg1650 ccaccaatct tgggcaagaa gcgagaccat tctccttttt ctctggtcac tcctgtcctt1710 cagggggctc cctctggccc cgactgtcca ttgctgctga agtaatgctg tggcctttct1770 cagtttgggc cccacccaaa accgaagaac ttctccccag aagcttctac ttggttctca1830 gtgttttcac agttatggga acccaagaac agtgtcagac ctaggaggtg ccccactacc1890 accctgtctt tatcaatgtt gtcaccaaag ctgtcacaaa caatggggtg tgggctgtca1950 2010 ttgctcggat ccgggactgc cgcagggggt gccacagcag tgcctggcag cgtgggctgg2070 gaccttgtca ctaaagcaga gaagccactt cttctgggcc cacgaggcag ctgtcccatg2130 ctctgctgag cacggtggta agtgctggct tgcaaaacca cagggagtgg ctggaggtcc2190 ccatgggcca agggcctgcc ttatagctgc tggcaggccc gggtaggacc gccaggccct2250 tcttgagctg cagcacctgg ggagggcaaa ctgaggctcc tccgactcaa gactaaagtc2310 ttcctggagt ctgtggcctt attctgtgac tcttctgaat cct2353 tagaagaagt taaagggccc tcctggatgg ctttattcat gttgatgagt aataataata2413 actgctactg gctgaggatc ttctccatcc caggcatgtc agggatgcct aagtccccag2473 tccctgctcc agaccagaca tcttccagct gtggcagtag agggtggtgg tctagggtgc 181 ttgctaagcc caagggtgaa actgtcttga catccctccg cccattgtct cctcctaggt 241 gccatgcctc tgcaactcct cctgttgctg atcctactgg gccctggcaa cagcttgcag 301 ctgtgggaca cctgggcaga tgaagccgag aaagccttgg gtcccctgct tgcccgggac 361 cggagacagg ccaccgaata tgagtaccta gattatgatt tcctgccaga aacggagcct 421 ccagaaatgc tgaggaacag cactgacacc actcctctga ctgggcctgg aacccctgag 481 tctaccactg tggagcctgc tgcaaggcgt tctactggcc tggatgcagg aggggcagtc 541 acagagctga ccacggagct ggccaacatg gggaacctgt ccacggattc agcagctatg 601 gagatacaga ccactcaacc agcagccacg gaggcacaga ccactcaacc agtgcccacg 661 gaggcacaga ccactccact ggcagccaca gaggcacaga caactcgact gacggccacg 721 gaggcacaga ccactccact ggcagccaca gaggcacaga ccactccacc agcagccacg 781 gaagcacaga ccactcaacc cacaggcctg gaggcacaga ccactgcacc agcagccatg 841 gaggcacaga ccactgcacc agcagccatg gaagcacaga ccactccacc agcagccatg 901 gaggcacaga ccactcaaac cacagccatg gaggcacaga ccactgcacc agaagccacg 961 gaggcacaga ccactcaacc cacagccacg gaggcacaga ccactccact ggcagccatg1021 gaggccctgt ccacagaacc cagtgccaca gaggccctgt ccatggaacc tactaccaaa1081 agaggtctgt tcataccctt ttctgtgtcc tctgttactc acaagggcat tcccatggca1141 gccagcaatt tgtccgtcaa ctacccagtg ggggccccag accacatctc tgtgaagcag1201 tgcctgctgg ccatcctaat cttggcgctg gtggccacta tcttcttcgt gtgcactgtg1261 gtgctggcgg tccgcctctc ccgcaagggc cacatgtacc ccgtgcgtaa ttactccccc1321 accgagatgg tctgcatctc atccctgttg cctgatgggg gtgaggggcc ctctgccaca1381 gccaatgggg gcctgtccaa ggccaagagc ccgggcctga cgccagagcc cagggaggac1441 cgtgaggggg atgacctcac cctgcacagc ttcctccctt agctcactct gccatctgtt1501 ttggcaagac cccacctcca cgggctctcc tgggccaccc ctgagtgccc agaccccaat1561 ccacagctct gggcttcctc ggagacccct ggggatgggg atcttcaggg aaggaactct1621 ggccacccaa acaggacaag agcagcctgg ggccaagcag acgggcaagt ggagccacct1681 ctttcctccc tccgcggatg aagcccagcc acatttcagc cgaggtccaa ggcaggaggc1741 catttacttg agacagattc tctccttttt cctgtccccc atcttctctg ggtccctcta1801 acatctccca tggctctccc cgcttctcct ggtcactgga gtctcctccc catgtaccca1861 aggaagatgg agctccccca tcccacacgc actgcactgc cattgtcttt tggttgccat1921 ggtcaccaaa caggaagtgg acattctaag ggaggagtac tgaagagtga cggacttctg1981 aggctgtttc ctgctgctcc tctgacttgg ggcagcttgg gtcttcttgg gcacctctct2041 gggaaaaccc agggtgaggt tcagcctgtg agggctggga tgggtttcgt gggcccaaag2101 ggcagacctt tctttgggac tgtgtggacc aaggagcttc catctagtga caagtgaccc2161 ccagctatcg cctcttgcct tcccctgtgg ccactttcca gggtggactc tgtcttgttc2221 actgcagtat cccaactgca ggtccagtgc aggcaataaa tatgtgatgg acaaaacgat2281 agcggaatcc ttcaaggttt caaggctgtc tccttcaggc agccttcccg gaattctcca2341 tccctcagtg caggatgggg gctggtcctc agctgtctgc cctcagcccc tggcccccca2401 ggaagcctct ttcatgggct gttaggttga cttcagtttt gcctcttgga caacaggggg2461 tcttgtacat ccttgggtga ccaggaaaag ttcaggctat ggggggccaa agggagggct2521 gccccttccc caccagtgac cactttattc cacttcctcc attacccagt tttggcccac2581 agagtttggt cccccccaaa cctcggacca atatccctct aaacatcaat ctatcctcct2641 gttaaagaaa aaaaaaaatg ggactgggag cagtggctca tgcctgtaat cccagcactt2701 tgggaggccg aggcaggtac atcacctgag gtcaggagtt caagactagc ctggccaaca tagtgaaacc ctgtctctac taaaaataca aagattagtc aggtgtggtg gcacatgcct2821 gtagtcccag ctactgggga ggctgaggca ggagaattgc ttgaacccgg gaagcggagg 288681 gaggttgcag tgagctgaga tcacgctact gcactccagc ctgggtgaca gagtaagact2941 ccgtctcaaa aaaaaaaaaa aagattcaat gacccttgtt aaagcatggt aaggaagact 30058 3061 agtgggggca tttgggctca actatgagta cagcaggggc aagtgggagc tgatagccag3121 ggaacagggt tggatatctg cagctggaaa attaccaaga ggaaacatca ggggaagggg3181 aattctggct aaactgactg ctggggatgg gttctcggtc attttctaca ctgacctaac3241 aggattcata ctggaggcag gccagggtgc tcagacatca ccggggggat ggtggcagat3301 gaggaacgtg atcagatata ggaggtgatc agatatggga ggtgatcaga tatggagtgg3361 tggggggagg gttgttgcta agctgactta gcagagttct tgttagaac 1 tagaagaagt taaagggccc tcctggatgg ctttattcat gttgatgagt aataataata 61 actgctactg gctgaggatc ttctccatcc caggcatgtc agggatgcct aagtccccag 121 tccctgctcc agaccagaca tcttccagct gtggcagtag agggtggtgg tctagggtgc 181 ttgctaagcc caagggtgaa actgtcttga catccctccg cccattgtct cctcctaggt 241 gccatgcctc tgcaactcct cctgttgctg atcctactgg gccctggcaa cagcttgcag 301 ctgtgggaca cctgggcaga tgaagccgag aaagccttgg gtcccctgct tgcccgggac 361 cggagacagg ccaccgaata tgagtaccta gattatgatt tcctgccaga aacggagcct 421 ccagaaatgc tgaggaacag cactgacacc actcctctga ctgggcctgg aacccctgag 481 tctaccactg tggagcctgc tgcaaggcgt tctactggcc tggatgcagg aggggcagtc 541 acagagctga ccacggagct ggccaacatg gggaacctgt ccacggattc agcagctatg 601 gagatacaga ccactcaacc agcagccacg gaggcacaga ccactcaacc agtgcccacg 661 gaggcacaga ccactccact ggcagccaca gaggcacaga caactcgact gacggccacg 721 gaggcacaga ccactccact ggcagccaca gaggcacaga ccactccacc agcagccacg 781 gaagcacaga ccactcaacc cacaggcctg gaggcacaga ccactgcacc agcagccatg 841 gaggcacaga ccactgcacc agcagccatg gaagcacaga ccactccacc agcagccatg 901 gaggcacaga ccactcaaac cacagccatg gaggcacaga ccactgcacc agaagccacg 961 gaggcacaga ccactcaacc cacagccacg gaggcacaga ccactccact ggcagccatg1021 gaggccctgt ccacagaacc cagtgccaca gaggccctgt ccatggaacc tactaccaaa1081 agaggtctgt tcataccctt ttctgtgtcc tctgttactc acaagggcat tcccatggca1141 gccagcaatt tgtccgtcaa ctacccagtg ggggccccag accacatctc tgtgaagcag1201 tgcctgctgg ccatcctaat cttggcgctg gtggccacta tcttcttcgt gtgcactgtg7022 gtgctggcgg tccgcctctc ccgcaagggc cacatgtacc ccgtgcgtaa ttactccccc accgagatgg tctgcatctc atccctgttg cctgatgggg gtgaggggcc ctctgccaca7142 gccaatgggg gcctgtccaa ggccaagagc ccgggcctga cgccagagcc cagggaggac7202 cgtgaggggg atgacctcac cctgcacagc ttcctccctt agctcactct gccatctgtt7262 ttggcaagac cccacctcca cgggctctcc tgggccaccc ctgagtgccc agaccccaat7322 ccacagctct gggcttcctc ggagacccct ggggatgggg atcttcaggg aaggaactct7382 ggccacccaa acaggacaag agcagcctgg ggccaagcag acgggcaagt ggagccacct7442 ctttcctccc tccgcggatg aagcccagcc acatttcagc cgaggtccaa ggcaggaggc7502 catttacttg agacagattc tctccttttt cctgtccccc atcttctctg ggtccctcta7562 acatctccca tggctctccc cgcttctcct ggtcactgga gtctcctccc catgtaccca7622 aggaagatgg agctccccca tcccacacgc actgcactgc cattgtcttt tggttgccat7682 7742 aggctgtttc ctgctgctcc tctgacttgg ggcagcttgg gtcttcttgg gcacctctct7802 gggaaaaccc agggtgaggt tcagcctgtg agggctggga tgggtttcgt gggcccaaag7862 ggcagacctt tctttgggac tgtgtggacc aaggagcttc catctagtga caagtgaccc7922 ccagctatcg cctcttgcct tcccctgtgg ccactttcca gggtggactc tgtcttgttc7982 actgcagtat cccaactgca ggtccagtgc aggcaataaa tatgtgatgg acaaaacgat8042 agcggaatcc ttcaaggttt caaggctgtc tccttcaggc agccttcccg gaattctcca8102 ggaagcctct ttcatgggct gttaggttga cttcagtttt gcctcttgga caacaggggg8222 tcttgtacat ccttgggtga ccaggaaaag ttcaggctat ggggggccaa agggagggct8282 gccccttccc caccagtgac cactttattc cacttcctcc attacccagt tttggcccac8342 agagtttggt cccccccaaa cctcggacca atatccctct aaacatcaat ctatcctcct8402 gttaaagaaa aaaaaaaatg ggactgggag cagtggctca tgcctgtaat cccagcactt8462 tgggaggccg aggcaggtac atcacctgag gtcaggagtt caagactagc ctggccaaca8522 tagtgaaacc ctgtctctac taaaaataca aagattagtc aggtgtggtg gcacatgcct8582 gtagtcccag ctactgggga ggctgaggca ggagaattgc ttgaacccgg gaagcggagg8642 gaggttgcag tgagctgaga tcacgctact gcactccagc ctgggtgaca gagtaagact8702 ccgtctcaaa aaaaaaaaaa aagattcaat gacccttgtt aaagcatggt aaggaagact8762 ttgttcaagg ggagtgggac tctctcaatc actgcaggga ctgcagctat gggattttgc8822 agtgggggca tttgggctca actatgagta cagcaggggc aagtgggagc tgatagccag8882 ggaacagggt tggatatctg cagctggaaa attaccaaga ggaaacatca ggggaagggg8942 aattctggct aaactgactg ctggggatgg gttctcggtc attttctaca ctgacctaac9002 aggattcata ctggaggcag gccagggtgc tcagacatca ccggggggat ggtggcagat9062 gaggaacgtg atcagatata ggaggtgatc agatatggga ggtgatcaga tatggagtgg9122 tggggggagg gttgttgcta agctgactta gcagagttct tgttagaac (2) SEQ ID NO: 2997 data: (i) sequence characteristics:

(A) length: 1830 base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2997 sequence description: 1 cctgcctgca cggcacagga gagcaaactt ctacagacag accaaggctt ccatttgctg 61 ctgacacatg gaactgaggt gaaattgtgc tccatgattt tacagatttc ataacgttta121 agagacggga ctcaggtcat caaaatgaaa gccctcatct ttgcagctgc tggcctcctg181 cttctgttgc ccactttttg tcagagtggc atggaaaatg atacaaacaa cttggcaaag241 ccaaccttac ccattaagac ctttcgtgga gctcccccaa attcttttga agagttcccc301 ttttctgcct tggaaggctg gacaggagcc acgattactg taaaaattaa gtgccctgaa361 gaaagtgctt cacatctcca tgtgaaaaat gctaccatgg ggtacctgac cagctcctta421 agtactaaac tgatacctgc catctacctc ctggtgtttg tagttggtgt cccggccaat481 gctgtgaccc tgtggatgct tttcttcagg accagatcca tctgtaccac tgtattctac541 accaacctgg ccattgcaga ttttcttttt tgtgttacat tgccctttaa gatagcttat601 catctcaatg ggaacaactg ggtatttgga gaggtcctgt gccgggccac cacagtcatc 661 ttctatggca acatgtactg ctccattctg ctccttgcct gcatcagcat caaccgctac 721 ctggccatcg tccatccttt cacctaccgg ggcctgccca agcacaccta tgccttggta 781 acatgtggac tggtgtgggc aacagttttc ttatatatgc tgccattttt catactgaag 841 caggaatatt atcttgttca gccagacatc accacctgcc atgatgttca caacacttgc 901 gagtcctcat ctcccttcca actctattac ttcatctcct tggcattctt tggattctta 961 attccatttg tgcttatcat ctactgctat gcagccatca tccggacact taatgcatac1021 gatcatagat ggttgtggta tgttaaggcg agtctcctca tccttgtgat ttttaccatt1081 tgctttgctc caagcaatat tattcttatt attcaccatg ctaactacta ctacaacaac1141 actgatggct tatattttat atatctcata gctttgtgcc tgggtagtct taatagttgc1201 ttagatccat tcctttattt tctcatgtca aaaaccagaa atcactccac tgcttacctt1261 acaaaatagt gaaatgatct tagagaacaa ggacagccat cacagagaac gtctgttttc1321 aagaacaaca taagcatagt gcaaggagct ccatttccga gctcctaaga aatatgcttc1381 aaaggtcaaa cattacaaaa gcattagtag tttgtttgtt tgtttttgag actgagtctc1441 actttatcac ccagactggc gtgcagtggc actatcttgg ctcattgcaa cctctgcctc1501 ccaggtcagc ctcccaagta gctgggatta caccaccatg cccagctact aaaaatactt1561 gtatttttag tagagacggg gtttcaccat gttgaccagg ctggtcttga actcctgacc1621 tcaagtgatc ttccggcctc agcctcccaa agtgctggat tacaggcgtg agccactgag1681 ccagccagca ttagtaattt ttaaaaacac tttatcagta ttttaaaaat gttaatgcag1741 gagaaaagat atcacaactc tatggaaaat gacatttcca tttgccttat tgctacttca1801 agctctttaa atcaccatct tccctatttc (2) SEQ ID NO: 2998 data: (i) sequence characteristics:

(A) length: 1534 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQID NO: 2998 sequence description: 1 tcatgtgggg gcgactgctc ctgtggcccc tggtgctggg gttcagcctg tctggcggca 61 cccagacccc cagcgtctac gacgagagcg ggagcaccgg aggtggtgat gacagcacgc 121 cctcaatcct gcctgccccc cgcggctacc caggccaagt ctgtgccaat gacagtgaca 181 721 actggcaacc ggccttcacc tgcctggcgc tgttgggctg tttcctgccc ctgctggcca 781 181 ccctggagct cccggacagc tcacgggcac tgcttctggg ctgggtgccc accaggctgg 241 tgcccgccct ctatgggctg gtcctggtgg tggggctgcc ggccaatggg ctggcgctgt 301 gggtgctggc cacgcaggca cctcggctgc cctccaccat gctgctgatg aacctcgcga 361 ctgctgacct cctgctggcc ctggcgctgc ccccgcggat cgcctaccac ctgcgtggcc 421 agcgctggcc cttcggggag gccgcctgcc gcctggccac ggccgcactc tatggtcaca 481 tgtatggctc agtgctgctg ctggccgccg tcagcctgga tcgctacctg gccctggtgc 541 acccgctgcg ggcccgcgcc ctgcgtggcc ggcgcctggc ccttggactc tgcatggctg 601 cttggctcat ggcggccgcc ctggcactgc ccctgacact gcagcggcag accttccggc 661 tggcgcgctc cgatcgcgtg ctctgccatg acgcgctgcc cctggacgca caggcctccc 721 actggcaacc ggccttcacc tgcctggcgc tgttgggctg tttcctgccc ctgctggcca 781 tgctgctgtg ctacggggcc accctgcaca cgctggcggc cagcggccgg cgctacggcc 841 acgcgctgag gctgaccgca gtggtgctgg cctccgccgt ggccttcttc gtgcccagca 901 acctgctgct gctgctgcat tactcggacc cgagccccag cgcctggggc aacctctatg 961 gtgcctacgt gcccagcctg gcgctgagca ccctcaacag ctgcgtggat cccttcatct1021 actactacgt gtcggccgag ttcagggaca aggtgcgggc agggctcttc caacggtcgc1081 cgggggacac cgtggcctcc aaggcctctg cggaaggggg cagccggggc atgggcaccc1141 actcctcttt gctccagtga cacaaagtgg ggaaggctgt actgggtcga acagggtccc1201 ttcccccact tcacgtcctt cctgggacct cagaatgtga ccttatttgg aaatagggtt1261 gttacaactg tcactagcag aggtcacttt ggagaagggt gggccttaca tccagtgtgg1321 gtggtgtcct cataagataa ggagaggcca ggcctggtgg ctcacgcctg taatcccagc1381 actttaagag gccaaggcgg atggatcact tgagcccagg agttcaacac cagcctgagc1441 aacatggtaa aaccccatct ctaccaaaaa tacaaaaatt agctgggctt ggtggctggc1501 gcctgtaatc ccagctactc anggaactga ggca (2) SEQ ID NO: 2999 for data: (i) sequence characteristics:

(A) length: 3182 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 2999 description of the sequence: 1 cgcacccggg 11 cccgcaggcc agaatcaaaa gcaacaaatg ccaccttaga tccccggtca tttcttctca 71 ggaaccccaa tgataaatat gaaccatttt gggaggatga ggagaaaaat gaaagtgggt 131 taactgaata cagattagtc tccatcaata aaagcagtcc tcttcaaaaa caacttcctg 191 cattcatctc agaagatgcc tccggatatt tgaccagctc ctggctgaca ctctttgtcc 251 catctgtgta caccggagtg tttgtagtca gcctcccact aaacatcatg gccatcgttg 311 tgttcatcct gaaaatgaag gtcaagaagc cggcggtggt gtacatgctg cacctggcca 371 cggcagatgt gctgtttgtg tctgtgctcc cctttaagat cagctattac ttttccggca 431 gtgattggca gtttgggtct gaattgtgtc gcttcgtcac tgcagcattt tactgtaaca 491 tgtacgcctc tatcttgctc atgacagtca taagcattga ccggtttctg gctgtggtgt 551 atcccatgca gtccctctcc tggcgtactc tgggaagggc ttccttcact tgtctggcca 611 tctgggcttt ggccatcgca ggggtagtgc ctctcgtcct caaggagcaa accatccagg 671 tgcccgggct caacatcact acctgtcatg atgtgctcaa tgaaaccctg ctcgaaggct 731 actatgccta ctacttctca gccttctctg ctgtcttctt ttttgtgccg ctgatcattt 791 ccacggtctg ttatgtgtct atcattcgat gtcttagctc ttccgcagtt gccaaccgca 851 gcaagaagtc ccgggctttg ttcctgtcag ctgctgtttt ctgcatcttc atcatttgct 911 tcggacccac aaacgtcctc ctgattgcgc attactcatt cctttctcac acttccacca 971 cagaggctgc ctactttgcc tacctcctct gtgtctgtgt cagcagcata agctcgtgca1031 tcgaccccct aatttactat tacgcttcct ctgagtgcca gaggtacgtc tacagtatct1091 tatgctgcaa agaaagttcc gatcccagca gttataacag cagtgggcag ttgatggcaa1151 gtaaaatgga tacctgctct agtaacctga ataacagcat atacaaaaag ctgttaactt1211 aggaaaaggg actgctggga ggttaaaaag aaaagtttat aaaagtgaat aacctgagga1271 ttctattagt ccccacccaa actttattga ttcacctcct aaaacaacag atgtacgact1331 tgcatacctg ctttttatgg gagctgtcaa gcatgtattt ttgtcaatta ccagaaagat1391 aacaggacga gatgacggtg ttattccaag ggaatattgc caatgctaca gtaataaatg1451 aatgtcactt ctggatatag ctaggtgaca tatacatact tacatgtgtg tatatgtaga1511 tgtatgcaca cacatatatt atttgcagtg cagtatagaa taggcacttt aaaacactct1571 ttccccgcac cccagcaatt atgaaaataa tctctgattc cctgatttaa tatgcaaagt1631 ctaggttggt agagtttagc cctgaacatt tcatggtgtt catcaacagt gagagactcc1691 atagtttggg cttgtaccac ttttgcaaat aagtgtattt tgaaattgtt tgacggcaag1751 gtttaagtta ttaagaggta agacttagta ctatctgtgc gtagaagttc tagtgttttc1811 aattttaaac atatccaagt ttgaattcct aaaattatgg aaacagatga aaagcctctg1871 ttttgatatg ggtagtattt tttacatttt acacactgta cacataagcc aaaactgagc1931 ataagtcctc tagtgaatgt aggctggctt tcagagtagg ctattcctga gagctgcatg1991 tgtccgcccc cgatggagga ctccaggcag cagacacatg ccagggccat gtcagacaca2051 gattggccag aaaccttcct gctgagcctc acagcagtga gactggggcc actacatttg2111 ctccatcctc ctgggattgg ctgtgaactg atcatgttta tgagaaactg gcaaagcaga2171 atgtgatatc ctaggaggta atgaccatga aagacttctc tacccatctt aaaaacaacg2231 aaagaaggca tggacttctg gatgcccatc cactgggtgt aaacacatct agtagttgtt2291 ctgaaatgtc agttctgata tggaagcacc cattatgcgc tgtggccact ccaataggtg2351 ctgagtgtac agagtggaat aagacagaga cctgccctca agagcaaagt agatcatgca2411 tagagtgtga tgtatgtgta ataaatatgt ttcacacaaa caaggcctgt cagctaaaga2471 agtttgaaca tttgggttac tatttcttgt ggttataact taatgaaaac aatgcagtac2531 aggacatata ttttttaaaa taagtctgat ttaattgggc actatttatt tacaaatgtt2591 ttgctcaata gattgctcaa atcaggtttt cttttaagaa tcaatcatgt cagtctgctt2651 agaaataaca gaagaaaata gaattgacat tgaaatctag gaaaattatt ctataatttc2711 catttactta agacttaatg agactttaaa agcatttttt aacctcctaa gtatcaagta2771 tagaaaatct tcatggaatt cacaaagtaa tttggaaatt aggttgaaac atatctctta2831 tcttacgaaa aaatggtagc attttaaaca aaatagaaag ttgcaaggca aatgtttatt2891 taaaagagca ggccaggcgc ggtggctcac gcctgtaatc ccagcacttt gggaggctga2951 ggcgggtgga tcacgaggtc aggagatcga gaccatcctg gctaacacgg tgaaacccgt3011 ctctactaaa aatgcaaaaa aaattagccg ggcgtggtgg caggcacctg tagtcccagc3071 tactcgggag gctgaggcag gagactggcg tgaacccagg aggcggacct tgtagtgagc3131 cgagatcgcg ccactgtgct ccagcctggg caacagagca agactccatc tc (2) SEQ ID NO: 3000 data: (i) sequence characteristics:

(A) length:6546 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3000 sequence description: 1 cctgcctgca cggcacagga gagcaaactt ctacagacag accaaggctt ccatttgctg 61 ctgacacatg gaactgaggt gaaattgtgc tccatgattt tacagatttc ataacgttta121 agagacggga ctcaggtcat caaaatgaaa gccctcatct ttgcagctgc tggcctcctg181 721 ctggccatcg tccatccttt cacctaccgg ggcctgccca agcacaccta tgccttggta 781 181 cttctgttgc ccactttttg tcagagtggc atggaaaatg atacaaacaa cttggcaaag241 ccaaccttac ccattaagac ctttcgtgga gctcccccaa attcttttga agagttcccc301 ttttctgcct tggaaggctg gacaggagcc acgattactg taaaaattaa gtgccctgaa361 gaaagtgctt cacatctcca tgtgaaaaat gctaccatgg ggtacctgac cagctcctta421 agtactaaac tgatacctgc catctacctc ctggtgtttg tagttggtgt cccggccaat481 gctgtgaccc tgtggatgct tttcttcagg accagatcca tctgtaccac tgtattctac541 accaacctgg ccattgcaga ttttcttttt tgtgttacat tgccctttaa gatagcttat601 catctcaatg ggaacaactg ggtatttgga gaggtcctgt gccgggccac cacagtcatc 661 ttctatggca acatgtactg ctccattctg ctccttgcct gcatcagcat caaccgctac 721 ctggccatcg tccatccttt cacctaccgg ggcctgccca agcacaccta tgccttggta 781 acatgtggac tggtgtgggc aacagttttc ttatatatgc tgccattttt catactgaag 841 caggaatatt atcttgttca gccagacatc accacctgcc atgatgttca caacacttgc 901 gagtcctcat ctcccttcca actctattac ttcatctcct tggcattctt tggattctta 961 attccatttg tgcttatcat ctactgctat gcagccatca tccggacact taatgcatac1021 gatcatagat ggttgtggta tgttaaggcg agtctcctca tccttgtgat ttttaccatt1081 tgctttgctc caagcaatat tattcttatt attcaccatg ctaactacta ctacaacaac1141 actgatggct tatattttat atatctcata gctttgtgcc tgggtagtct taatagttgc1201 ttagatccat tcctttattt tctcatgtca aaaaccagaa atcactccac tgcttacctt1261 acaaaatagt gaaatgatct tagagaacaa ggacagccat cacagagaac gtctgttttc1321 aagaacaaca taagcatagt gcaaggagct ccatttccga gctcctaaga aatatgcttc1381 aaaggtcaaa cattacaaaa gcattagtag tttgtttgtt tgtttttgag actgagtctc1441 actttatcac ccagactggc gtgcagtggc actatcttgg ctcattgcaa cctctgcctc1501 ccaggtcagc ctcccaagta gctgggatta caccaccatg cccagctact aaaaatactt1561 gtatttttag tagagacggg gtttcaccat gttgaccagg ctggtcttga actcctgacc1621 tcaagtgatc ttccggcctc agcctcccaa agtgctggat tacaggcgtg agccactgag1681 ccagccagca ttagtaattt ttaaaaacac tttatcagta ttttaaaaat gttaatgcag1741 gagaaaagat atcacaactc tatggaaaat gacatttcca tttgccttat tgctacttca1801 agctctttaa atcaccatct tccctatttc1831 tcatgtgggg gcgactgctc ctgtggcccc tggtgctggg gttcagcctg tctggcggca1891 cccagacccc cagcgtctac gacgagagcg ggagcaccgg aggtggtgat gacagcacgc1951 cctcaatcct gcctgccccc cgcggctacc caggccaagt ctgtgccaat gacagtgaca2011 ccctggagct cccggacagc tcacgggcac tgcttctggg ctgggtgccc accaggctgg2071 tgcccgccct ctatgggctg gtcctggtgg tggggctgcc ggccaatggg ctggcgctgt2131 gggtgctggc cacgcaggca cctcggctgc cctccaccat gctgctgatg aacctcgcga2191 ctgctgacct cctgctggcc ctggcgctgc ccccgcggat cgcctaccac ctgcgtggcc2251 agcgctggcc cttcggggag gccgcctgcc gcctggccac ggccgcactc tatggtcaca 481 tgtatggctc agtgctgctg ctggccgccg tcagcctgga tcgctacctg gccctggtgc 541 acccgctgcg ggcccgcgcc ctgcgtggcc ggcgcctggc ccttggactc tgcatggctg 601 cttggctcat ggcggccgcc ctggcactgc ccctgacact gcagcggcag accttccggc 661 tggcgcgctc cgatcgcgtg ctctgccatg acgcgctgcc cctggacgca caggcctccc 721 actggcaacc ggccttcacc tgcctggcgc tgttgggctg tttcctgccc ctgctggcca 781 tgctgctgtg ctacggggcc accctgcaca cgctggcggc cagcggccgg cgctacggcc 841 acgcgctgag gctgaccgca gtggtgctgg cctccgccgt ggccttcttc gtgcccagca 901 acctgctgct gctgctgcat tactcggacc cgagccccag cgcctggggc aacctctatg 961 gtgcctacgt gcccagcctg gcgctgagca ccctcaacag ctgcgtggat cccttcatct1021 actactacgt gtcggccgag ttcagggaca aggtgcgggc agggctcttc caacggtcgc1081 cgggggacac cgtggcctcc aaggcctctg cggaaggggg cagccggggc atgggcaccc1141 actcctcttt gctccagtga cacaaagtgg ggaaggctgt actgggtcga acagggtccc1201 ttcccccact tcacgtcctt cctgggacct cagaatgtga ccttatttgg aaatagggtt1261 gttacaactg tcactagcag aggtcacttt ggagaagggt gggccttaca tccagtgtgg1321 gtggtgtcct cataagataa ggagaggcca ggcctggtgg ctcacgcctg taatcccagc1381 actttaagag gccaaggcgg atggatcact tgagcccagg agttcaacac cagcctgagc1441 aacatggtaa aaccccatct ctaccaaaaa tacaaaaatt agctgggctt ggtggctggc1501 gcctgtaatc ccagctactc and gagagagaactga ggcacgcacc cggg 301 cccgcaggcc agaatcaaaa gcaacaaatg ccaccttaga tccccggtca tttcttctca 361 ggaaccccaa tgataaatat gaaccatttt gggaggatga ggagaaaaat gaaagtgggt 421 taactgaata cagattagtc tccatcaata aaagcagtcc tcttcaaaaa caacttcctg 481 cattcatctc agaagatgcc tccggatatt tgaccagctc ctggctgaca ctctttgtcc 541 catctgtgta caccggagtg tttgtagtca gcctcccact aaacatcatg gccatcgttg 601 tgttcatcct gaaaatgaag gtcaagaagc cggcggtggt gtacatgctg cacctggcca 661 cggcagatgt gctgtttgtg tctgtgctcc cctttaagat cagctattac ttttccggca 721 gtgattggca gtttgggtct gaattgtgtc gcttcgtcac tgcagcattt tactgtaaca 781 tgtacgcctc tatcttgctc atgacagtca taagcattga ccggtttctg gctgtggtgt 841 atcccatgca gtccctctcc tggcgtactc tgggaagggc ttccttcact tgtctggcca 901 tctgggcttt ggccatcgca ggggtagtgc ctctcgtcct caaggagcaa accatccagg 961 tgcccgggct caacatcact acctgtcatg atgtgctcaa tgaaaccctg ctcgaaggct1021 actatgccta ctacttctca gccttctctg ctgtcttctt ttttgtgccg ctgatcattt1081 ccacggtctg ttatgtgtct atcattcgat gtcttagctc ttccgcagtt gccaaccgca1141 gcaagaagtc ccgggctttg ttcctgtcag ctgctgtttt ctgcatcttc atcatttgct1201 tcggacccac aaacgtcctc ctgattgcgc attactcatt cctttctcac acttccacca1261 cagaggctgc ctactttgcc tacctcctct gtgtctgtgt cagcagcata agctcgtgca1321 tcgaccccct aatttactat tacgcttcct ctgagtgcca gaggtacgtc tacagtatct1381 tatgctgcaa agaaagttcc gatcccagca gttataacag cagtgggcag ttgatggcaa1441 144 gtaaaatgga tacctgctct agtaacctga ataacagcat atacaaaaag ctgttaactt1501 aggaaaaggg actgctggga ggttaaaaag aaaagtttat aaaagtgaat aacctgagga1561 ttctattagt ccccacccaa actttattga ttcacctcct aaaacaacag atgtacgact1621 tgcatacctg ctttttatgg gagctgtcaa gcatgtattt ttgtcaatta ccagaaagat1681 aacaggacga gatgacggtg ttattccaag ggaatattgc caatgctaca gtaataaatg1741 aatgtcactt ctggatatag ctaggtgaca tatacatact tacatgtgtg tatatgtaga1801 tgtatgcaca cacatatatt atttgcagtg cagtatagaa taggcacttt aaaacactct1861 ttccccgcac cccagcaatt atgaaaataa tctctgattc cctgatttaa tatgcaaagt1921 ctaggttggt agagtttagc cctgaacatt tcatggtgtt catcaacagt gagagactcc1981 20453 2041 gtttaagtta ttaagaggta agacttagta ctatctgtgc gtagaagttc tagtgttttc2101 aattttaaac atatccaagt ttgaattcct aaaattatgg aaacagatga aaagcctctg2161 ttttgatatg ggtagtattt tttacatttt acacactgta cacataagcc aaaactgagc2221 2281 tgtccgcccc cgatggagga ctccaggcag cagacacatg ccagggccat gtcagacaca2341 gattggccag aaaccttcct gctgagcctc acagcagtga gactggggcc actacatttg2401 ctccatcctc ctgggattgg ctgtgaactg atcatgttta tgagaaactg gcaaagcaga2461 atgtgatatc ctaggaggta atgaccatga aagacttctc tacccatctt aaaaacaacg2521 aaagaaggca tggacttctg gatgcccatc cactgggtgt aaacacatct agtagttgtt2581 ctgaaatgtc agttctgata tggaagcacc cattatgcgc tgtggccact ccaataggtg2641 ctgagtgtac agagtggaat aagacagaga cctgccctca agagcaaagt agatcatgca2701 tagagtgtga tgtatgtgta ataaatatgt ttcacacaaa caaggcctgt cagctaaaga2761 agtttgaaca tttgggttac tatttcttgt ggttataact taatgaaaac aatgcagtac2821 aggacatata ttttttaaaa taagtctgat ttaattgggc actatttatt tacaaatgtt2881 ttgctcaata gattgctcaa atcaggtttt cttttaagaa tcaatcatgt cagtctgctt2941 agaaataaca gaagaaaata gaattgacat tgaaatctag gaaaattatt ctataatttc3001 catttactta agacttaatg agactttaaa agcatttttt aacctcctaa gtatcaagta3061 tagaaaatct tcatggaatt cacaaagtaa tttggaaatt aggttgaaac atatctctta3121 tcttacgaaa aaatggtagc attttaaaca aaatagaaag ttgcaaggca aatgtttatt3181 taaaagagca ggccaggcgc ggtggctcac gcctgtaatc ccagcacttt gggaggctga3241 ggcgggtgga tcacgaggtc aggagatcga gaccatcctg gctaacacgg tgaaacccgt3301 ctctactaaa aatgcaaaaa aaattagccg ggcgtggtgg caggcacctg tagtcccagc

3361 tactcgggag gctgaggcag gagactggcg tgaacccagg aggcggacct tgtagtgagc

3421 cgagatcgcg ccactgtgct ccagcctggg caacagagca agactccatc tc (2) SEQ ID NO: 3001 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3001 sequence description:

1 tcgttcctct cg (2) SEQ ID NO: 3002 data:

(i) sequence characteristics:

(A) length: 117608 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3002 sequence description: GGCGGCCCGG AAAGCTGAGA TGGAGGGCGG CATGGCGGGC ACAGGCTGGG C TGCTTTTCT TTTCTGGGCCTCTGTGGTCT GTTTTTTTCT GGCCCTGCTG GGGCGCTCTC CGCCGCCCGC CTGGCTCCCG GBGCCCBTGBTGGGCBTGCC GTGGTTCTTG CCCTCCTTTG GCTGCCGTGC CCGCTCCCCG GCCTCCTGGC GGGTGGCCGTTGGGCCCGTG TTCCCCTGGG GCCTGGGGCT CCCTTCTCTC GCCCTTCTTG CTGGGCCTCT GCTGCTGCTGGTGCTGTGGC CCCCGTACA CCGAGGAGCC CATGATGGGC ATGCCACAGA CGACAGGCGT BCBCCGBGGBGCCCBTGBTG GGCBTGCCBC BGBCGBCBGG C GGC GCC GTG CCG CGT CTT GGT GGC GGC GG GTT CGCGCC CGC GCG GGG CCC CTC CGG TCC GTT CGC GCC CGC GCG GGG CCC CTC CGG TCC CGG GTC GGGGCC CCC CGC GGC C GCC TCG GGG CTG GGG CGC TGGTGG CCG GG CCG CGC CTC CGC CTG CCGCTT CTG GCT GGG CCC CGG GCG CCC CCT CCC CTC TTG CTC GGG TCC CCG TG ACA GCG CGT CCTGTG TCT CCA GCA GCA TGG CCG GGC CAG CTG GGC CCC BCB GCG CGT CCT GTG TCT CCB GCB GCBTGG CCG GGC CBG CTG GGC CCC ACA GAG CAG TGC TGT TGT TGG GCA TCT TGC CTT CCC AGG GBCB GBG CB TGC TGT TGT TGG GCB TCT TGC CTT CCC BGG GCC CTT TTC TGG TGG GGT GGT GCTGTT GTT GGG CTT TCT TCT GTT CCC BCB GBG CBG TGC TGT TGT TGG GCB TCT TGC CTT CCC BGGGCC CTT TTC TGG TGG GGT GGT GCT GTT GTT GGG C TTT CTT CTG TTC CC TTT CCC CTG GGTCTT CC CTC CTG CTC TTT TTT C ATT TGC TCT CCT ATT ACT TTC TGT GTC CAT TTT TTC ATTAAC CGA GCT GT BTT TGC TCT CCT BTT BCT TTC TGT GTC CBT TTT BTT BBC CGB GCT GTGCC TGT GTC TGT CCT CCT GCT TCG TTC CTC TCG TTC CTG CTT GGT GCC CTT GCC G GTC CTGCTC CTC CGG GCT GTG G GTC GTG GCC CTG GCT CCG GCT GGT GGG CTC CCC TGG CCT TCGCTG GCT GGC GGC GTG C GGG TCT TGC TCT GGG CCT GGC TGT GGC CGT GGT TGG GGG TCT TCGCT GCC TCC GTT TGG GTG GC TCT CTG AAT ATT GAC CTT CCT CCA TGG CGG TCC TGC TTG GATTCT CCC GA TCT CTG BBT BTT GBC CTT CCT CCB TGG CGG TCC TGC TTG GBT TCT CCC GB GCCTTT CCT GGT TCT CTT GTT GTT TTT GGG GTT TGG CTT ACA GTA GAG TAG GGG ATT CCA TGGCAG GAG CCA TCT TCT TCA TGG ACT CC TTC AAG GAG ACC TTA GGT TTC TGA GGG ACT GCT AACACG CCA TCT GGA GC BCB GTB GBG TBG GGG BTT CCB TGG CBG GBG CCB TCT TCT TCB TGG BCTCC TTC BBG GBG BCG TTB GGT TTC TGB GGG BCT GCT BBC BCG TCB TCT GGB GC GTT GTTTTT GGG GTT TGG CTT GCC TTT CCT GGT TCT CTT BCB GTB GBG TBG GGG BTT CCB TGG CBGGBG CCB TCT TCT TCB TGG BCT CC TTC BBG GBG BCC TTB GGT TTC TGB GGG BCT GCT BBC BCGCCB TCT GGB GC GCC TGT GTC TGT CCT CCT GCT TCG TTC CTC TCG TTC CTG CTT GGT GCC CTTGCC G GTC CTG CTC CTC CGG GCT GTG G GTC CTC GCC CTG GCT CCG GCT GGT GGG CTC CCC TGGCCT TCG CTG GCT GGC GGC GTG C CCC BGB BCG BCB CCC GGB CCG BCB GGC CGT GGT TGG GGGTCT TC GCT GCC TCC GTT TGG GTG GC GAT CTC TGA ATA TTGA CCT TCC ATG GCG GTC CTG CTTGGA GBT CTC TGB BTB TTGB CCT TCC BTG GCG GTC CTG CTT GGB TCT GGG GTG TCC TGG CCTTCG TGG TTC CTC TTC CTT CGT TTG CCG TCC GCG GGG GCC CCC GGG CCT GGC TGC GCTCCT GCCCCG CCT CTT TCC CGG GCT CTT GCG CTG GGG GGT GCT CC CGT GTG TTT GCG CCC TC CTC CTGGTC GCG CTT GTC GTT TTG GGG CCG GCT TTG CCC GCC TCC CGG CGC CTG GCC CGG CC TTC CTGGGC TGC GTG CGC GTT CTG TTC TTC TTC CTG GCT CTG GGG TGT CCT GGC CTT CGT GGT TCC TCTTCC TTC GTT TGC CGT CCG CGG GGG CCC CCG GGC CT GGC TGC GCT CCT GCC CCG CCT CTT TCCCGG GCT CTT GCG CTG GGG GGT GCT CCC GTG TGT TTG CGC CCT CCT CCT GGT CGC GCT TGT CGTTTT GG GGC CGG CTT TGC CCG CCT CCC GGC GCC TGG CCC GGC CTT CCT GGG CTG CGT GCG CGTTCT GTT CTT CTT CCT GGC GCA GGA GAC AGG GCA GGG CGA TCA GGA GCA GCG TGA GCC AAA GGAGGA CCA TCG GGA ACG CAG CTC CGG AAC GCA GGA CAG AGG TGC C GC BGG BGB CBG GGC BGGGCG BTC BGG BGC BGC GTG BGC CBB BGG BCC BTC GGG BBC GCB GCT CCG GBB CGC BGG BCBGBG GTG CC TCT GCC CTG TCC GCC GGC TCT TCG GTG GCT CGG CCC CGC TCC TTG TCT TGC CGCGGG TTG GTT CCT GGG CCT GGT TCT TGC GGG CGT TTC GGT CTG CTG GCT GGT CTG GGC CCG CGGTGC GGC GGG TGG CTT GCT GTT CTG CCT GGG CTC TCC CCT CTC CTC CTT TTC TCC CTT CCT CTGTCT TGC CTC CTT CCT CTG GGT CCT CTT GGC CTG GGC GCT CTT CCC CTC GGG CGG CTG CGG GCGCTC GTG CTG CCT GGT CCG CTC CCT GGG GGT GCT CCT TCC CTT TCC CCG CTC GTG GGG TTT GCGGGG CTG GGC TGC CCT GGG GGG TCT GGG CCT TTT GGG GTC GGC TGG CTG CTG CTT CGG GCC GCCTGG GCT TCC CTG TGC CCC TTT CCT CTG CTG GGT CCC CCT CCC GTT CCA AGC TGC ACC GCA CAGACC GGC GCT ACA GGA CAG AGC CAG GCA AGC ACC CAT GGG GAT CCA GGC CCA GCT GTT CCB BGCTGC BCC GCB CBG BCC GGC GCT BCB GGB CBG BGC CBG GCB BGC BCC CBT GGG GBT CCB GGC CCBGCT G CTCAGTGGCC CCCAAAAGGA TGAGTAATAC ATGCGCCACG ATGATCATAT CCTTTTTACT ATGAGGCCGTGTCTGTCGTG TCTTTCCTTT GCTCTTGGTG TGTCTTTGCT GTGCCCTGCC TCTCTGCCCG TGTCTGTCGTGTCTTTCCTT TGCTCTTGGT GTGTCTTTGC TGTGCCCTGC CTCTCTGCC CGTGTCTGTC GTGTCTTTCCTTTGCTCTTG GTGTGTCTTT GCTGTGCCCT GCCTCTCTGC GGGGGTGGCT TCCTGCCGCG TCTCTGGGCCGTCCCGTCCC TCGGCCCCGC GCCGCGCTCG GCTCCTCTCC CTCTGGCCCG GCTCGGGGCG GGGCGGGGCGGTGGGCGGGC GGCGCTGCCC TGCGCGCGGC GCTGGCCCCT GCTGGCCGTC GGCTGCGCGC TGCTGGCTGCCCTGCTGGCC GCGCCGGGGC CTGTCCGCCT CTGCGGGCGC TGTCTCCTGG CTTGTCTTCC GGCTCTTCTGCTGGGGTGGG GCTGGGCGGCCGGCCCGGTG CTGGGGCTCC TCGGGGGGGG GGGCTCTTCC GGGCTGTCTCCCTCCGGGGC GGGGGTTTCT GGCCGTGGGG GTCTTGCCTG GCCTCCGGGC TCCTGCTTGT CTTGCCTTCCTTCTCTGGTC GGTTGTGGCT CGGGGCTCCG TGGGTCCCTG GCGCCCGTTT GTGTTTTGTC TTTTCCCCTGGCGTCCCTGT GCCCCTCTCC TCTCCTTCCT CTGCTTCTCG CTCTCCTTTG TGGGGCCCTC CCTGCTGCTCTTGGTTTTGG GCTTTTTTTC TCTTCCTCCT TTTTCGTGCG TGGGCCTCC GCACGCCTCT TGCCACCTCCTGCGCAGGGC AGCGCCTTGG GGCCAGCGCC GCTCCCGGCGCGGCCAGCAG GGCAGCCAGC AGCGCGCAGC CGACGGCCAG CATGCTTCCT CCTCGGCTAC CACTCCATGGTCCCGCAGAG GCGGACAGGC GCBCGCCTC TTGCCBCCTC CTGCGCGCBGGG CBGCCTTG GGGCCBGCCGCTCCCGGGC GCGGCCBGCB GGGCBGCCBG CBGCGCGCBG CCGBCGGCCB GCBTGCTTGCTTCC TCCTCGGCTBCCTBCBCTCCBTG GTCCCGCGCGCGCGCGCGCGGGCGGBCBGG C GCTGCCCGGC GGGGTGTGCG CTTGGCGCTC CCGTGCTCGGTTCTCTGTCT CCCGGTCCCC CTTGCCTGGC GTCTCGGGCC TTCGTCCTCT TCCTCTTCTT CCTTCCGCTCCGTGGGGGCT GCTTGGTGGG GGCCTGTGCCT CGGGGTCCCG GGGCTTCTGG CCCTTGCCGT TCATGGTGGCTAGGTGGGGC GTTCBTGGTG GCTBGGTGGG GC GGG GTG GGT BGG CCG TGT CTG GGGGTT GGC CBT GTTGGT TGC CTCT TGG TGG TGC GCC GGG CGCG TCT TGG CTT TCT TCT CCT TCG GGC CCT CGG GCCGGT GCT TGT GGGCT CCT CCC GGG CGG CCT CCC CGG GCG GGG GCT TCT TGGCG CTG GCG GGG GGGCCT CCTGCT CTG TGG CTG GGC GTT CCT TGG TGT TCT GGG TGGTGG CGG GCG TGG TGG CCT CTGTGGGGG CCC GCG GCT GCB GGG GTTG CCT GTC TGC TTC GTCCTT TGC GCT CCC GGG CCG CCGGGGTG GGT AGG CCG TGT CTG GGGGTT GGC CAT GTT GGT TGC CGGG CCC GCG GCT GCA GGG GACAGGGGCTG TAATCTTCATC TGCAGGTGGC ATGCCAGTGA AATTTAGATC ATCAAAATCC CACATCTGTGGATCTGTAAT ATTTGACATG TCCTCTTCAG TTTCAGCAAT GGTTTGATCT AACTGAAGCA CCGGCCAGGBCBGGGGCTGT BBTCTTCBTC TGCBGGTGGC BTGCCBGTGB BBTTTBGBTC BTCBBBBTCC CBTCTGTGGBTCTGTBBT BTTTGBCBTG TCCTTCBG TTTCBGCBB TGGTTTGBTC TBBCTGBBGCBCGGTGGCTCGGTG CTTCTGCCCC TGTTGTTGCG GCGCTCGGTT GGTGTGGCCC CTGTGGTGCT TCGTTTCCCCCTCTTTCTCT TTGTTCGGGG GTTCTTGTGG CGGGCTGCTT GTCTCGTTCC GCCCTGTCGG GCGGGAAGCCTCTCTCCTCT CCCCAGATC CGCGACAGGC CGCAGGCAAG AACCAGCGCA ACCAGGGCGC GTCCGCACAGACTTGGAGGC GGCTGCATGC TGCTACCTGC TCCAGAAGCG TCCGGTGGCC GCCGCGCC CTGTCGGGCGGGCGGGGCCTCCTCCCTCCCGCCBCGCG BCBGGCCGCB GGCGGGBCCGBCGGBCCGBCCGBCCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGBCCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGBCCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGBTCGBTTGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGBTCGCGCGCGGGBCGGBCCGCGCGCGBTCGCGCGCGBTCGBTCGBTTGCGCGCGCGCGCGCGCGCGCGCGBTTGCGBTCGBTTGCGCGBTCGCGBTTGCGCGBTCGBTTGCGBTCGBTCGBTCGBTCGBTCGBTCGBTCGBTCGBTTGCGBTCGBTCGBTTGCGGGCGBTCGBTCGBTCGBTCGBTCGBTCGBTBT BCBBTGBCCG TGTBGGCBGC TGCCBBBGG BCBBTTTGCCBGGCTGGTTG CBCGBBCTGB TTGGGTTCCG BGGTGTGTTBGT GGBGBTGTTT GGGGBGBGGGBGBGGT CTGBGTCCCGGGGGBGGBCGCG TTBTCCTT CGBBGCTBGGCGGTBBCGGTBCCGGGCGGTBCCGGGGCTCGTCGGGGCTCBTCCGTCGBBCGBBCGBBCGBCCGBCGGGCCGBTCGBTCGCGCGBTCGCGCGCGCGCGCGCGCGBTCGCGCGCGGTCGGTCGGTCGGTCGGTCGCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBCCGBC CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG CCCCTATGTTTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGATCAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTGCCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGAAGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGCCCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGCCCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGAACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G ATGAGTGTCAGAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCA GGTGAGGAAGGGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTG GGGGCACTTGGACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGGCGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGGAGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTGCCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGCTTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTTCCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCAATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGGCGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAACAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAGTTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTCTCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGCCTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTCTTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCCACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGTCTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAGCCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCT TCCGCTCCCACCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCTGCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTCCACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGGGACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGCTTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTGGGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTAAGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTAGGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTGGACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGGGAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGGGAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTGCCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCCCGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACACTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGACTCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAGGCTGCAGCAG GCAGAGGAGG AGTACCCCCCTGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTTCAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAGGACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCTGTGTGGGAGG GCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCCCTGTGTCGGG GGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGACTTGCTTCCA AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACTAATAAAAAAC TGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAGAGACAAAGGA AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTTGTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTGTTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCGGCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTTGGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTTGGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCCTACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGAAGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG ATGTGGCCGTGGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTCATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACCGCTACCTCCG GGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCATAGCCGGCTGC TGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCGGTGGAGCGGG CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCATCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCTCATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGACCCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCCTCAGCTGGCT GCCTTTGCAC ATCCTCAACT GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCATCCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGCATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCATTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG CCCACATCCAGTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT GAGCCTGCCC CAGCTGGGCTGTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGG TCCCTCCACT AGGAGTTAACTACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAGAGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCAGGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGAGGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA GAGGAGAGCATCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT TCTGTAGGAG AGACTGGCCA GACCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CGGCGGGTCTCACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCTGCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAACGTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCCTGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTGCACTGACTTC TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGCCTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGGGGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCTGGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGCTGCTGCCTTG TGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTGGGTGTGTTCT GCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCAGCTTCAGCGC ACTGAGCTGA TGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCACTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT GTCACTCTTTTCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAATTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATCTCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCGGTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGACACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCCCTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTATGATCTATTC AGCTGCTTTT ACTGTGTGGATTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTGTTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTATTATAATGCA AATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATACTTGTTGCCAG GAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTGTAATTCCAGC ACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAATATAGTG GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGGCCCCGCGCGG GCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCGCGCGGGCCAA TGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCCAGCCCCGAGG CTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCACGCGGCTGCCC CTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCTGGAGACACAG GACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTGCTGGTGTGCG CCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGGCTGCGGCCGA CGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCACTGACTTCTAC GGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTTCTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGACCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGTCCTTCGC CTTTGGCATC GGATTGACTC CATTCCTGGGGTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGCTGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGTGTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT GCAGGCAGCTTCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGA TCCATGCAGC CAAGTCACTGGCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTC ACTCTTTTCCAGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTCAGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTGGAGCTACCAC GTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATGATCTATTCAG CTGCTTTTAC TGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTTTTTAAAAGTC TGCCTTGTTT ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATTATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG GAATTCCCAGATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA TTCTCTCTAG TGGGTTATTCTTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCCAGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGTATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCAGAGTGCTGCC TCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACAGTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTGGGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTCTGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATCAACTTGGGAT ACAGGGTGGG GGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGAGGACCCTGAT GAGCCCCAGG CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACCAGAACGCCAT TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATGATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTGGTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGA ACCAAGTGGG TCCCCAAATA ACAATGGCGTGCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCA GCTTCAGGGA GAGGGGGCTG ATTCCCAGACAGTCGCCTGT TCCTGCGGGG ATGGGGCTGA GGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTCTGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAGGTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGA GAAAGAGAGGTGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGCTTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCTCTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGTGCTTCCAGCT CTGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCAATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGTTCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCT GAAGAGGGTT GCTTATCTTGATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTT GAGGACATCT GTTTGGGGAA CTAAGAGCAGCAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAG CATTCTGGAA ACTTGAGGAT GTGCGGTGCATAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCCACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGACGTCTGGCGAG AGCTAGGCCC ACTGGCCCTA CAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTCCCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTAC ATCACCATGGAAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGC GTGGTCAAGC TGAACCCCAGCCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC CTGGCTGACA TTGCTGTTGG GGTGCTGGTCATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCCTACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGTCAAGCTTACC GTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACAAAGCCAGAGC CTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCCCTCAAGCCAC TGTGTGGGTT GGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATAATCCCTTTGG ATGGTGCTGA GAAGCACCTG AACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTCTGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTTCCTGCTGGGA TGGGGCTGAG GCTTGGGGAA TGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACGTTCTTTTCCC TTCTTTCTGT ATGTCTGGTC ATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTGGCCGGCTGCC AGCATAAGTG CCAGTGTGAT TTTGCTAGGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAAGCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTTGACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACTTAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCTCCGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTCGAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTCTGTACTTCCT CTTGGCCCAT CTCACTTCCT GAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTCAAAAAGCCAA AAAGCTGCAG GCAGAGGCGT TGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTTCAGATTCAGT CCATATAGAG CTGTCCTACA GCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGCTGGAAGTGAC CCACCTGTGA TGAGCCCTTT CTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAAGGGTAGGAAT GAGCAAGTTG GGAATTTTAG ACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGAGAGCTAGGCC CACTGGCCCT ACAGACGGAT CTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAAGGCAAGATGC CCAACAACAG CACTGCTCTG CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCAGCACTTTCAG ATTCAGTCCA TATAGAGCTG TCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATAAACGGGCTGG AAGTGACCCA CCTGTGATGA GCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCACCAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGTCTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCCCTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAAATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCCTGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCATGCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTACTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCAAGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCTGGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGAAATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCCTCACCTGGAT TTTCATCCCC CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAACAAACTCAGT CTGAACTTAT CTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCTAAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCATCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACAT GGGCATCCTG CTGTCCCATG CCAACTCCATGATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTC AAGGAAACCT ACCTTTTGAT CCTCAAAGCCTGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCAGAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCCAAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTCCCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGAGGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGTCATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGTGGTGACTCAT TTCCATGCCA TTGTGGAATT GAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTTGGGAACAGAA GAAATAAACT GAGTTTAAGG GGGACTTAAA CTGCTGAATT C CAGATTCACA AACTGCAGGACTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACAGTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATGTCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGGGGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCTGAGGCAGCGT GGTGGTTGGC AGGAGTGGAG GAGGGGTGGG GGGAGGGAGA GGAGTGACTG AGCTTCCCTCCCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGTGCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGGACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTATGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAA TAAGCACATA TTGAGCACTTGCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGGAACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAGCAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGCACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAACAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTGGGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGGAGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCATTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAGTCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACCCCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCAACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTGAAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATATTTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAACCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAGCTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTGGAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGGAATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAGGGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAACCTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGCTAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGCCCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACCCCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA ATGCCGCCCTCCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAACGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTCTCGCTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCACAGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGCCCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACCCCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGTTTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGATCAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTGCCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGAAGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGCCCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGCCCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGAACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G ATGAGTGTCAGAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCA GGTGAGGAAGGGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTG GGGGCACTTGGACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGGCGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGGAGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTGCCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGCTTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTGATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCG CTGGCGGTGGCTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTTCCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCAATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGGCGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAACAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAGTTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTCTCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGCCTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTCTTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCCACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGTCTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAGCCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCT TCCGCTCCCACCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCTGCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTCCACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGGGACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGCTTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTGGGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTAAGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTAGGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTGGACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGGGAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGGGAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTGCCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCCCGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACACTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGACTCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCCTGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTTCAGGGGCTTT GGAAGCTCTG TTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAGGACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCTGTGTGGGAGG GCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCCCTGTGTCGGG GGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGACTTGCTTCCA AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACTAATAAAAAAC TGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAGAGACAAAGGA AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTTGTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTGTTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCGGCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTTGGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTTGGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCCTACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGAAGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG ATGTGGCCGTGGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTCATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACCGCTACCTCCG GGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCATAGCCGGCTGC TGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCGGTGGAGCGGG CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCATCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCTCATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGACCCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCCTCAGCTGGCT GCCTTTGCAC ATCCTCAACT GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCATCCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGCATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCATTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG CCCACATCCAGTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT GAGCCTGCCC CAGCTGGGCTGTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGG TCCCTCCACT AGGAGTTAACTACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAGAGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCAGGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGAGGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA GAGGAGAGCATCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT TCTGTAGGAG AGACTGGCCA GACCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CGGCGGGTCTCACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCTGCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAACGTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCCTGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTGCACTGACTTC TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGCCTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGGGGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCTGGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGCTGCTGCCTTG TGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTGGGTGTGTTCT GCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCAGCTTCAGCGC ACTGAGCTGA TGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCACTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGTGTCACTCTTTTCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAATTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATCTCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCGGTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGACACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCCCTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTATGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTGTTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTATTATAATGCA AATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATACTTGTTGCCAG GAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTGTAATTCCAGC ACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAATATAGTG GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA CGGCGCCTGG ACCGGAGGGGCCCCGCGCGG GCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCGCGCGGGCCAA TGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCCAGCCCCGAGG CTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCACGCGGCTGCCC CTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCTGGAGACACAG GACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTGCTGGTGTGCG CCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGGCTGCGGCCGA CGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCACTGACTTCTAC GGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTTCTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGACCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGGGTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGCTGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGTGTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT GCAGGCAGCTTCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGA TCCATGCAGC CAAGTCACTGGCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTC ACTCTTTTCCAGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTCAGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTGGAGCTACCAC GTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATGATCTATTCAG CTGCTTTTAC TGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTTTTTAAAAGTC TGCCTTGTTT ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATTATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG GAATTCCCAGATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCT CCTGCCTTTA TTCTCTCTAG TGGGTTATTCTTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCCAGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGTATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCAGAGTGCTGCC TCCTAGAAAT TTCTCTTGGT AACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACAGTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTGGGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTCTGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATCAACTTGGGAT ACAGGGTGGG GGTCGGGAGT GGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGAGGACCCTGAT GAGCCCCAGG CAGAGGCGTC TCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACCAGAACCCCAT TGTTGTTACT GCTGAATTTT ATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATGATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTGGTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGA ACCAAGTGGG TCCCCAAATA ACAATGGCGTGCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCA GCTTCAGGGA GAGGGGGCTG ATTCCCAGACAGTCGCCTGT TCCTGCGGGG ATGGGGCTGA GGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTCTGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAGGTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGA TTTTGCTAGG TGTGAGCTGA GAAAGAGAGGTGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGCTTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCGTGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCTCTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGTGCTTCCAGCT CTGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCAATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGTTCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTG AAACACCCCT GAAGAGGGTT GCTTATCTTGATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTT GAGGACATCT GTTTGGGGAA CTAAGAGCAGCAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAG CATTCTGGAA ACTTGAGGAT GTGCGGTGCATAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCCACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGACGTCTGGCGAG AGCTAGGCCC ACTGGCCCTA CAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTCCCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGT CATTGGCCAA TGTTACCTAC ATCACCATGGAAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCT GGTCATCTGC GTGGTCAAGC TGAACCCCAGCCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCC CTGGCTGACA TTGCTGTTGG GGTGCTGGTCATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCCTACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGTCAAGCTTACC GTCAGGTAGC CTGCGGCGTG GGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACAAAGCCAGAGCS CTGCTGAATT TTATTTTGGA CTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCCCTCAAGCCAC TGTGTGGGTT GGGTCCAAGT GTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATAATCCCTTTGG ATGGTGCTGA GAAGCACCTG AACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTCTGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTTCCTGCTGGGA TGGGGCTGAG GCTTGGGGAA TGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACGTTCTTTTCCC TTCTTTCTGT ATGTCTGGTC ATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTGGCCGGCTGCC AGCATAAGTG CCAGTGTGAT TTTGCTAGGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAAGCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTTGACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACTTAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCCCGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCTCCGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTCGAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTCTGTACTTCCT CTTGGCCCAT CTCACTTCCT GAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTCAAAAAGCCAA AAAGCTGCAG GCAGAGGCGT TGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTTCAGATTCAGT CCATATAGAG CTGTCCTACA GCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGCTGGAAGTGAC CCACCTGTGA TGAGCCCTTT CTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAAGGGTAGGAAT GAGCAAGTTG GGAATTTTAG ACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGAGAGCTAGGCC CACTGGCCCT ACAGACGGAT CTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAAGGCAAGATGC CCAACAACAG CACTGCTCTG CGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCAGCACTTTCAG ATTCAGTCCA TATAGAGCTG TCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATAAACGGGCTGG AAGTGACCCA CCTGTGATGA GCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCACCAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGTCTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCCCTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAAATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCCTGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCATGCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTACTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCAAGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCTGGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGAAATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCCTCACCTGGAT TTTCATCCCC CTGGTTGTCA TGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAACAAACTCAGT CTGAACTTAT CTAACTCCAA AGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCTAAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCATCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACAT GGGCATCCTG CTGTCCCATG CCAACTCCATGATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTC AAGGAAACCT ACCTTTTGAT CCTCAAAGCCTGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCAGAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCCAAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTCCCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGAGGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGTCATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGTGGTGACTCAT TTCCATGCCA TTGTGGAATT GAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTTGGGAACAGAA GAAATAAACT GAGTTTAAGG GGGACTTAAA CTGCTGAATT C AAATGATAGA CCGTCAATAATTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACTTTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTCACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAGGCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTCCAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACACATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCTAGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCCTTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATTACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGACCGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTTGCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATACCCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACACCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGATTAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTCTGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAGAGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTGGGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGTCTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCTCCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCTCCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCTAAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACCCCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTCAGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGTCCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCCTCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCCCCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTACTTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGCCATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCTCCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTTTTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGAAGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGGGATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTCATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAAGTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGAAGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTTAAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCCAACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGGACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGCTGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCATCTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGATCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTTATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAGCCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTACCCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGAGCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGAAACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCCATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAAAGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGTCCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGGGGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTCCTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAACCTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCCAGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAATGCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGTCTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCAGGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGACGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGCCAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGTGACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCTTCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACTTTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCGATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGCCCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATGAATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGAGCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAAAATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCCTATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGTTAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCTGGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGGTAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTCCAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACCACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCG GTTGATAAGG AAGGAACGTGAATCCTCCCA TCACGGAAGC TTCAAGGAGGTCAAGGGTCC AACACTTGAG ATTGTTAGTG CTGTTGGTGGATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGGATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTGAGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTTGTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATGTCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGGCTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTTGTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCGCAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCTCTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTCCTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCGTGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGTGTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCCCTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCACCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGACGGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAGATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCGATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGATCGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGGTCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTCACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAAGGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGGAAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATGGCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATTTGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGG AGAGGAGTGACTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCCATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCTAGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGAGACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCACATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATCTCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGATGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAATACTATTGCA CACCACCTGT CCTGCCTC GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTCTGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACCAGGGAGCGAC TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCCGCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGAAGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGATAAAGCACAGA CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAACTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCAACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTAGCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGATTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCTCTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTTTAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGTGTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC TTGACATGGGAGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACAC CCGTACCCAGGAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAA TCCCAGGACTCCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTCAGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATTCACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACGGGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGCAGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGTGCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAGATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACGGTGGGGACAT CAGGCTGCCCCGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAGGGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTCCTTCCGGAGG GAGG CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCTGCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACATCTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCAATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACAGCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGGGGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGATCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTTCTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTCCCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAGAAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAGAAAGAGAAGG AGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACCACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGACCAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACATGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTACATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAAATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGTAGGTGCTCAT TGGCTCCCTT CCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGAGCATTTGGAG AGAAGGCCAT GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGGTCTTGCCCAG AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAGGCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAGGTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGGGCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAACCTGGAGAAC TAGAACCTGG AGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGGGGCTAGAACC TAGAGAAGCT AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTGAAGGGCTAGA ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGAACCTAGAAGG GCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGGGCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAACCTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGCTAGAACCCGG CAGGCTAGAA CCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGGAGAATGAGAA AAATTTACAT GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAAAAGCGTGAAA AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGCCTCAGTAAGT ATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAATGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGCAGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCATGTGGGGATCC ACACCTGGTC TGAGGGGCAA CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAGATGCCCTGAT AAAGAACATC TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTTCACATCCAAA CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTTGCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTTTAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGTCAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCAGGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGGAGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCTCAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTTTCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTGCCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCTGTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACTCAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAATTAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAGATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGCACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCCTGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGACAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCCCCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGGAAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTGGTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTCAAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAACCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGCCTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGGAGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATGTCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATGGGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTAATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTAGTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTCTATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTGAGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAGCACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTGTATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTCACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGGACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTGGGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATGGTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGAATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCTATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAGACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCAGAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGGGAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTGCTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTATAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGCCAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTCTCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGTAGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCTGGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCAAGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGGCCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCGGCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCTCAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAGATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGGATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCCTTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAACATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCCCTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGAGTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCAGGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTTTGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCATTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTCCTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGCCTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAAAATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAACTTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAAAGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCATGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCTGCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACAACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTAGTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAACTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTATAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATCTGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCCAGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAATGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCAACTCCCTTGG GAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGGTCAAGGGTCC AACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGCCTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGAGTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGCTGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAACAGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGACCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCTCTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGCAGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCC TGCGGGCTGCCCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCC GCGTGGTGAATGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTGGCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGATCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGAGGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTCCTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGCTGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGTTGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGCCTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGGCCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTGGGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATGGGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGACAGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGGGCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCGGAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAGCCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTTCCCAGGAGTG GAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCCCTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCACAAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAATAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGATGGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATTGAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGTGGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGATATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTCCTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAA CCCCTGTCTCCTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAGCGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCCCAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCACCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTACCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCCAACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGTACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCATGGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTGAGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTGTCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCTGCCCCTGAGT GTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAGTTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCTGCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCAGGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAACCCACTGGTGT ACGTGATCGT GGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCCAGAAAGGGGG CTGCAGGTCA GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTCCGTGGAACGC CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCTGCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACATCTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GNCCTGCCCAATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACAGCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGGGGCAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGATCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTTCTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTCCCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGGAGGT CTGTGCCAAAGAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATAT GCAGTATTGA GCACTGTAGG CAAGAGGGAAGAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAG ACTCAAGTGG GAACGACTGG CACTGCCACCACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGACCAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTC TTCTGTAACATGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTACATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGATGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT CAAGGACGTTAAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG AACCCAGTAG GACTATCTGGCTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCT GATAGAAGGTACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAAGCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACACGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAATCCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATACTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGGCTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCGGCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTGTGACCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGGGCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACCATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCTTCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGATCCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACGCTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGAGCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAAGCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATGAAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC ATCTGGGAAGTGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT GTCATCACCT TCTGCACGATGCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGA TCCAGACGGA GAGGAGGGCCACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCCTGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACAGATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGCTTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA GAACCCATTCAGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACA AACTGCAGGACTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACAGTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTGTTGATGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGG CTGTGAGGATGGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTT GCTGCCACACCTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACT GAGCTTCCCTCCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGGACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTTATGGCTCCCC TCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTCTGTATATCAG TATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTTGTGAGGACTC CGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCACTCTTAACGGG ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAGCCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGCGTCTTCTGCCTGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGCCTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGCCGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCGACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTACAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAGTACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCACCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC ACCTTCTGCA CGATGCAGATCATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGA CGGAGAGGAG GGCCACGGTGCTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATACGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGCCTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGAAAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC ATTCAGATGGAGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGC AGGACTGGGCAGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGG GACAGTTGCT TATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC ACGGCCTCTTTCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATGCCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTGGCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGATCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCATCTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCCTGCTGCCCCT GAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCAGAAGTTCAAG GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATCATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCTGCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCTCAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTGTGCCAGAAAG GGGGCTGCAG GTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCATCTCCGTGGA ACGCCAGATT CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAGGGCTGCTGTG AATTTGTGTA AGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCCACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTACCAGGGAGCGA CTGAAGTGCC CATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGCCGCCTCACCT CTGCTGGGAG GACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAGAAGTTTCCCT GTGGTCGTGG GGAGTT GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGACTGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTCTGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTGTGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGACACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTCAGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGCCAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCCACCCATAAAC TGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTTGTAGGCTTGT TATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCCTGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCAAAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCTGCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCCGCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGACAGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCCACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAATAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGCTTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGGCCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGAGCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCAGCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTTCCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACATCAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCGGGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGGAGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGGCAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATTTGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGGGAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGTTCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGAGGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTATTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACAACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTC TGTGCCAAAG AAGAATCCAATAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGGAGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGCTGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCAGCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTTGTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCATCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAA ATAGCTCCGTGGAGCAGAAT CAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCATTGGCTCCCTT CCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAGAGAAGGCCAT GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAGAGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAGGGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAG GTGGCCCAGTATGAGCCCTA GAAGAGTGTG AAAAGGAATGGCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCATTCACTTGAT AAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAACTAGAACCTGG AGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACCTAGAGAAGCT AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGAACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGGGCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCTAGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCCAGAACCTGGA GGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGGCAGGCTAGAA CCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAAAAATTTACAT GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAAAAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGTATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAACTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAGCACCAGAGCA CGTGATGGTC TGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCCACACCTGGTC TGAGGGGCAA CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGATAAAGAACATC TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAACGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAAAAAAAAAAA AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGTGCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCGAGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGGCAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTTGCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAAAAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCCCAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGTTCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGGGTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTGTTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCTGGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCTACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACACTTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGTGTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCACCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATGGGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCCCTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAGCCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGTCTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTATGGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGTTCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGCCATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTACCCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGGTCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTCACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCACCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCACAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCTGGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAAACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAATCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCCCACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCCCACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACCCTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAAGCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTGGTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCAGATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGTGCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTAAAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTTCTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGCTGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAATTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCATCCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGTTAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAAATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGGCTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGGGGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATCCACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCCTTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCACACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTTTTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAGAGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCAGTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGTCACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTCCACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCAACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTCCACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTGCACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTGGGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATCCCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCAGTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAATGAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTGCAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAACATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCAAGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGTCTGTGAGTCT TGCCTAAGAATGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGTTGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCGTGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTTACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGCAGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCCAATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAGAAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATTTTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGGGAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCCAACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGAAGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCACTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCTTAACCCCTGT CTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTCCACTTTCTTT CAGCGCCGAC ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCAGAGCAAATGC CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTGTTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGGTGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGCCATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATCTCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGAAAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTGTACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAACGTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCGTGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAACGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTGCTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCCTCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAACAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTACCAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGCGGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAACGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAATGCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATTCCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTCCAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTGGAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGCAAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTGTTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAAGCCCTGAGGG GTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAGGTCTGTGCCA AAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTAGGCAAGAGGG AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACTGGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGCAGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTC CTGCAGAAAACAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAA CCCCTGTCTC CTTCTGGACCAGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATGCTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGTGGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAACATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAACCTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCGACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCATCTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATGCGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCATGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTACCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGTGTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGATCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCCCTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGCATCATCGATG TAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGTACGTGATCGT GGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGGCTGCAGGTCA GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGCCAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATTTGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGACCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GNCCTGCCCA ATTTTGCAGGGAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGTTCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGCAGGGAGAGGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAGAACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTATTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACAACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGGAGGT CTGTGCCAAA GAAGAATCCAATAAGCACAT ATTGAGCACT TGCTGTATAT GCAGTATTGA GCACTGTAGG CAAGAGGGAA GAAAGAGAAGGAGCCATCTC CATCTTGAAG GAACTCAAAG ACTCAAGTGG GAACGACTGG CACTGCCACC ACCAGAAAGCTGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCAGCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTC TTCTGTAACA TGAAGTCGTTGTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCATCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGA TGATCCTATCACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT CAAGGACGTT AAGTAACTTCCCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG AACCCAGTAG GACTATCTGG CTGCAAAGTCCCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCT GATAGAAGGT ACGGAAATACGATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAA GCCAGACTGGAATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACA CGGCTTTGAGAGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAAT CCTCCCATCACGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATA CTGCAGAATATCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGG CTCTGTAAGACCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCG GCTTCTCCTTGCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTG TGACCTGAGGGGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTTAACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCCCCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCACAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGCGGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCGTGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCGCTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGCTTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACAGCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAACATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT GTCATCACCT TCTGCACGAT GCAGATCATGCAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAGTCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCTGCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCCTTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC TTCCGAAAGAAGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA GAACCCATTC AGATGGAGAACTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACA AACTGCAGGA CTGGGCAGGGAGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTCAGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTGTTGA TGTCTCCGGTAAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGG CTGTGAGGAT GGGGTGAACTCACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTT GCTGCCACAC CTGAGCCAGCCTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACT GAGCTTCCCT CCCGTGTGTTCTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGG TGCAATGGCTGAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGG ACAATTTCTTGCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTT ATGGCTCCCCTCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTC TGTATATCAGTATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTT GTGAGGACTCCGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGGACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCCTCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAGCAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTGCCCTTCTGGG CCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGAATGCCATTAT CTCCATGAAC CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCTGGCCCTGGTG AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTGATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATGAGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCTCCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTGCTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGGTTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCGCCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATGGCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA AAGAAGTCTTGGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC ATTCAGATGG AGAACTCCATGGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGC AGGACTGGGC AGGGAGCAGACAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGG GACAGTTGCT T ATGTTCTCTCCCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC ACGGCCTCTT TCAGCGCCGACATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATG CCCCCAAGTGGAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAGAGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGGGAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAACTTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCAGCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCGGATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCACCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCAGCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCTGAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAGGAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGCTGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGAGCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTGGTGTACGTGA TCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAGGGGGCTGCAG GTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGAACGCCAGATT CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTGAATTTGTGTA AGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTCTGGCTTCTGG GCTCCGAGGA GGGGTGGGGA TGGTGGGGAC ATCAGGCTGC CCCGCAGTAC CAGGGAGCGACTGAAGTGCC CATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGC CGCCTCACCTCTGCTGGGAG GACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAG AAGTTTCCCTGTGGTCGTGG GGAGTT GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGAGGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGAC TGAAGTGCCCATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTC TGCTGGGAGGACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTTGAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGA CACACCTTTTCAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTC AGGAAACTCCAGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGC CAGGCCAGGGAGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCC ACCCATAAACTGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTT GTAGGCTTGTTATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCC TGTCTCTTCCCCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCA AAAAAAAATGTTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCT GCAGATAGTTAGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCC GCCATACATCTCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGAC AGCTTCTGCCACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCC ACCTGGCCACCCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAA TAACCACCTCAAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGC TTCCCAGGCCACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGG CCTACGCAAACATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGA GCGAAGGTGGCCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCA GCTGGAGGCGAGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTT CCCGCCGCCACTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACAT CAGGCTGCCCCGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCG GGCAGGGGCTGCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGG AGGGCAGGCAGCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGG GAATTCGGGAAAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTC AAGATGGAAACCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATC CTGAGAGATACAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTTACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGACTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGTGGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA CGCGCTGATAGCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTT AAGCTGCTGGCTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAAGTCCTCGGTG GGGATCACCG TCCTCAACCT CTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCCTGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATC TGGATCCTGTCCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGG GTGAACAGCATAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGA CTGGTGGCTCTTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACT TGTGAGATGTTGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAG AAGTGGCAAAAACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAGAAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACATCGGTATTAA CTTGGCAACC ATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATTTAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCCATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATAAGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAATCACAAGGCAA CTGTGAGTCC GGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGAAGAAATGCTT TCCAAAACCG CAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTTTAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCT GGGGGAGAATGAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTC AAGTACATGGCTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAAC TGGTCACCAT GAAACTTTAG AGATTAACGACAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCT CAAGTCACTTTTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC GCCACCATGG AAACCCTTTG CCTCAGGGCATCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATA ATCCTGAGAG ATACAGCACA AATCTAAGCAATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCT CAGCTTCCTG GTTACCACTC ATCAACCCACTAATTTGGTC CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGC AGACTAAAAT TACTTCAGCTTTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAAT GCAACTCTGCTCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTC TTGCCCTTGGAGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA TTTAAGCTGC TGGCTGGGCG CTGGCCTTTTGATCACAATG ACTTTGGCGT ATTTCTTTGC AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCACCGTCCTCAA CCTCTGCGCT CTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGGAATTGGGATT CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATTCCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACA GCATAAAACC TGTATGCTCAATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG CTCTTCGGGT TCTATTTCTGTATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGA TGTTGAACAG AAGGAATGGCAGCTTGAGAA TTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGC AAAAACAGTT TTCTGCTTGGTTGTAATTTT TGCTCTTTGC TGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTG TGTATAACGAGATGGACAAG AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCAACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAAT TGTTTCCAGTCATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC CCCATGAACG GAACAAGCATCCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGAC CGGAGCAGCC ATAAGGACAG CATGAACTGACCACCCTTAG AAGCACTCCT GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGATATTTCCTCA AATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGGATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACTTTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATGGCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGATATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAATGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTGATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATTTCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCT CTGCGCTCTTAGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTGCCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCATGGTACCCTTT GAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAGTTCTACCAAG ATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGATCTTCTACAC CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGAACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGGTTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAATTACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAA CTTGGCAACC ATGAATTCAT GTATAAACCCCATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTACCAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAAACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGGTACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCC GGGAATCTCT TCTCTGATCCTTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGA CTGGTTTATCCACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGCACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTTTGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAACTGGTCACCAT GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTCAGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTCAACAAGAAAA GCGTTGGTAG CTCTGGTGAA TCCCAAAAGA ATGTGGCAGT TGCTAGCCAT GCTCCTGAATATGTATAAAC AGTACATCAT ATGACTAAGA GTTTGACTTA GGGGTTAGAT TTTATGTGTT TGAACCCCAAATTAGTTATT TAATAGTTGG CACCCCAAAA CAAGTTACTT AACCTCACTA AGGTTCAGTT TTCCTGTTTATAAAATGTAG ATAGTGATAG TATGTACTTT ATAGGATTAT TGTGAAAAAT AAATGAAATA TCAGATTTATTTAGGATAAC ACCTGGCATA TGTTTGGTAT TCAGAATTAG TTGCTGCTGT TTTATTCTGC TCTCCCTTGCATCCCACTTT TCTAAGTTGT AAACTAAATA GTTGTACACA GATTGACAGA TTAAGAAAGG CTTGTGATTGTGCTAGACCT ATGCCTATGC CTCTGTCTCA CCAGATTCCA GGTGTATATG TGGAGGTGGG ATAGGGAGTGGAGTAAGTGG GTAAATATTA AATTGCCCAG TTGGGCACCA TCCTGAATAT TATCTCTAAA GAAAGAAGCAAAACCAGGCA CAGCTGATGG GTTAACCAGA TATGATACAG AAAACATTTC CTTCTGCTTT TTGGTTTTAAGCCTATATTT GAAGCCTTAG ATCTCTCCAG CACAGTAAGC ACCAGGAGTC CATGAAGAAG ATG GATCTTCATGTGGAATGACT GGTTTCATTC AATAGACTTA ATTCAGCAGT CTGTGGGGAA GAGCAAGGTA TGATAGAATGGTTCCTCAAG TGCTTCAGAT GTGAAGTGGG TTTAAATATA CTGTCCCTGT CTTCTTCAGA GTTTTGGTAAAGATAAAATA GGACACTCAT TTAAAAGCAA TCTTTGCAAA TGACAAGCCA CTATAGACAT TAATAGAGTTTTCATTTCCA GTATTATCAT TAATATCAGA TCCTGGAAGA AGGTTGAGCC TTGACCTAGA GCAAAAAAACAGAAGAATTA GTAAAGGAAT CCTGGAGAAA GCCCCTGCTG TGTATTTAAA GGAGAAAGGG AGATCATGTTGGGAAATTAT AATATTAAAA GTAAACAAAA GCTAGGAAGT AAAATAAAAT AAATTATATG GCCTAGATCCCCATAAGTAA TGGTTTAACT TCTGCCTTCC TGTGTTCTGA GCCAGATTAG GGCACAGTAG AGAAAGAGGAGTCTCTGAAA ATGTTTCCAA TTTCGCTGGT CAGACAGCGG ATCATCAGTG AATCAGATGA AAATTTGTGGATTTATGCAC TAACTGATCA GCAGGAAATT AAACAAGAAA AGCGTTGGTA GCTCTGGTGA ATCCCAAAAGAATTTGGCAG TTGCTAGCCA TGCTCCTGAA TATGTATAAA CAGTACATCA TATGACTAAG AGTTTGACTTAGGGGTTAGA TTTTATGTGT TTGAACCCCA AATTAGTTAT TTAATAGTTG GCACCCCAAA ACAAGTTACTTAACCTCACT AAGATTCAGT TTTCCTGTTT ATAAAATGTA GATAGTGATA GTATGTACTT TATAGGATTATTGTGAAAAA TAAATGAAAT ATCAGATTTA TTTAGGATAA CACCTGGCAT ATGTTTGGTA TTCAGTAATTAGTTGCTGCT GTTTTATTCT GCTCTCCCTT GCATCCCACT TTTCTAAGTT GTAAACTAAA TAGTTGTACACAGATTGACA GATTAAGAAA GGCTTGTGAT TGTGCTAGAC CTATGCCTCT CTCTCACCAG ATTCCAGGTGTATATGTGGA GGTGGGATAG GGAGTGGAGT AAGTGGGTAA ATATTAAATT GCCCAGTTGG GCACCATCCTGAATATTATC TCTAAAGAAA GAAGCAAAAC CAGGCACAGC TGATGGGTTA ACCAGATATG ATACAGAAAACATTTCCTTC TGCTTTTTGG TTTTAAGCCT ATATTTGAAG CCTTAGATCT CTCCAGCACA GTAAGCACCAGGAGTCCATG AAGAAGATGG CTCCTGCCAT GGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTCGGTAAGTAGA GATTCAATTA CCCCTCCCAG GGAGGCCCAA ATGAATTTGG GGAGCAGCTG GGGTAGGAACCTTTACTGTG GGTGGTGACT TTTTCTAGGA CATGTGCAAA CTATTGGGCA TTTCCCAGGG ACTCTGTAGTGGAGCCAAGC TAGAAAGCAG AGGCAAGTGG GCTGAGCAAC ACCTAAGGAG GAAGCCAGAC TGAAAGCTTGGTTCCTTGCA TTTGCTCTGG CATCTTCCAG AGTGCAAATT TCCTACCAAG GTAATGAGGG TAGAGGAGAGAAAGAAGCTC TTTCTTCCCC TGATTCTCAT TCCTGAAAAG ACGGTTGGTC CTTAAAATTC CATGGATGTAGATCTTATCC CCACACCCAG ATTCTAGTCC TCTGGAGATA AAGAAGACTG CTGGACACTA ATGTATCCTCTCTGGACTTT TGCAGCTCCA GATGGCGTGT TAGCAGGTGA GTCCTCTGTT CTTGTTCCCT TGGTGTATCAACATGTCTGG GCATTGCTTT CCTCTCACTA TTTTCTTCGT CCCATCACTT CTGCTTTCTA ATGAGCATGAATCTGTTCCT TGGCCAGACT ACTTTCCCTC TCCACCTTGC CTTGTCTTTC TTTTTTTCCC TGATTCATTGCATTCTCTCA AGTCATTCTC TCCTCTGTTT TAGTCAATAA CCATGTCTGT TGCACATATA CATGTCTCATTCTCTCTCCT AGACACTTTG GCATGATCTC GCTCAATAAT TACATTATTA TTATTATTGC CATTTTATAATTGAGGATGC TGAAACTCAG TGATTTTCTG GTGGTTACAT GGCTAAGGAA CTGGATTTCA ACGTAAGTTCCTTGGATCTA AGTCCAGTTC TCTTCTGACT ATATCACCCT TTTGTTATCA CCATGTATCT ACTTCTTTGGTCTCTGTTCA AATTTGCACT ACATCCCCTT GTTCCAGGAA GCCATTCAAG ACTGACTTTC TTAGTGCCTCTCACTACTTT CTGGAACTGA CATATGTTTT TCACTCTGTA TATACTTACA ATTAAATAGT CATAAATATTCAGAGCTTGG AGAAACCTTA TATTTCATCC AGTCCAGTAA ATTTATCCAT CCATAATTCA CTCATTCATTCACATAATAA ATATTTAATG TAACAATGGT TGAACATGGC AGACAGTGTT TCTACCTCAA AAGAGATTGCAGTCCTCATT TACAGATACT GAATTGAAAT TAACAGAAGT AGAGTGAGTC AGCTCAAATC ACATAGTGAATTGGTTTCTT TGTTTTTAAA TCTCCTGCAT ATGTGTCCTG TCTTTCTCCC TGTGTTGGGC GTTCCCTGGGGCACCAATAC TAATTTCTCC TTCCCCTAGA AATCAAAACA GGGTCTTATC ACCAACAGAA TAAGGACAGGTTGACCACTG ATTGTCAGAA TATTGCTTCG TTTGTACTTT TAAGCCTAGA CAGTTTTCAA TGACTTTTTTTCTCTCTACA TGTCTTTTCA TATTTTTATC TTCTTGAAGT CCCTCAGAAA CCTAAGGTCT CCTTGAACCCTCCATGGAAT AGAATATTTA AAGGAGAGAA TGTGACTCTT ACATGTAATG GGAACAATTT CTTTGAAGTCAGTTCCACCA AATGGTTCCA CAATGGCAGC CTTTCAGAAG AGACAAATTC AAGTTTGAAT ATTGTGAATGCCAAATTTGA AGACAGTGGA GAATACAAAT GTCAGGACCA AGAAGTTAAT GAGAGTGAAC CTGTGTACCTGGAAGTCTTC AGTGGTAAGT TCCAGGGATA TGGAAATACA GATCTCTCAT GTGAGGGATG GCTCATCTGAAGATGGGAAA AAACAGGTTA TTCCAAGGGT TAGGACACCA GAGTGGGATT CAAGGCCTCT CATTTTTAAGACCCCTGCAT TGGCTGGGCA CAGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCTG AGGCAGGTGGATCACGAGGT CAGGAGATCG AGACCATCCG GCTAACATGG TGAAACCCCA TCTCTGCTAA AAAATATATATATATAAAAT TAGCCGGGCG TAGTGGTGGG CACCTGTAGT CCCAGGTACT CGGGAGGCTG AGGCAGGAGAATGGTGTGAA CCCAGGAGGT GGAGGTTGCA GTGAGCTGAG ATCACGCCAC TGCCCTCCAG CCTGGGCTACAGAGCAAGAC TCCGTCTCAA AAAATAAATA AATAAATAAA AAAGACCCCT GCATCTCTTT TCTTCTACCCCCTTCCCTTT TGATTACTTG TATGCCTTCT TTCAATATTC TAGTCATCTC TCAATATTAT TCCTCCACCCTATTTTCCTC TATCTTTTCT GCCTAGATTC AGGTATATAT TATGTGGTCA AACAGCATGA CATATATGTGAACATTTCAA AGAGCTGTGT ATCTGGAATA GGATCAAAAG GTTTGACTTA AAGTTTTGCT CTGCATAATCCATATGGCAG GACCTGAATA TTAGGTTGTA CTCTTCGTTA TGAAACATAT CTGGGTACAT TTCCTTATGTCCTCTGTTGT TACTTAAGAA CACATATTTC ATGCTTGTTT CATTTTTATC ACTCCTACTG CCAACAAATAGCATAGCATG CTTAGGCACA TGTGGCTTAA TTAGCAAATG TTGAATAAAC AAATTAATGA TTTTGAATAGTGACCAATAG GTCTCTTTTA TACTCTATAT TTTTCTCTTG AGTGAAAAAA AATGTTTCAA CCTCCATATGTAAATTCCAA ACACAAACTA AAGCAATGTA GAATAGCTTC TTTATTCCCT GGAGTAGGTT CTAGAGAAGTCCTAAAGGAT TGGTCCTAAA TTAATTATGC TTATTATGCT AGCGATATTT CCTTTCAAAA TTCTCCTTTAATGAATGCTT TTTAATTTTT ACAAAAGCAT TAACCATAGA ATGTGATTCT TGTCTTTCAC TGACTCATTAGTGACAAATA TTTGTTGAGT ACCTACCAAC TCCTAAGTAT TGCTACCAAC TCCTAAATAC TGTGTTGGGCATTCAGAATA GAATGTAGAA CTAGACAGGG TCCCTGACTT CTTGGAGCAC AGAGCAGTAT GGGAAGAGGACATTAAATAA AGAATTACAT AAGTAATTAA TTTAAATTAT ACATGTTTTG AAGAAGTTTT TTTTTGACAACTATAATTAA CACTAGAACT GGGAAGTTTC TATAAGGTAA GAGAGGACAA AATAGACACT CTCCTAAGCTAAAATTCCCA AGAAAGACTG TTTATTTTCC CCTAACTAAC TAGAACTAGC AACAGAAGAT CTGAAAGGAATTCTGGCTTT CAAGTGTTCC ATGTATGGAC TCATCAGGGA GGTCCGAGAG GCTTTGTGGC CCCAGACTGACTTTTCAGGA GGGGAAAGGA TTTATCAATA CACAAGACAG GCTCTAAGCA TTATTTTGTG CCCTTTAAAAATCCACTTTA TGAGCCAAAA AGTGAGTTAA TGATAATTCA TAGTTTCTGA CACATGCTCT ATGCGTGGCTCTCTTTTCTC TATTCATTCT CTCTCTCTTCATTTATTGTT AAATAAATAA TGTAATGAAT GTTCTTCAGACTGGCTGCTC CTTCAGGCCT CTGCTGAGGT GGTGATGGAG GGCCAGCCCC TCTTCCTCAG GTGCCATGGTTGGAGGAACT GGGATGTGTA CAAGGTGATC TATTATAAGG ATGGTGAAGC TCTCAAGTAC TGGTATGAGAACCACAACAT CTCCATTACA AATGCCACAG TTGAAGACAG TGGAACCTAC TACTGTACGG GCAAAGTGTGGCAGCTGGAC TATGAGTCTG AGCCCCTCAA CATTACTGTA ATAAAAGGTG AGTTGGTAAA GGAAAGGAAAAGCATCCATA GCAGGGGAAG GAAGAGAGAA CTTCTGAGCC TGAGCAGTTG CAGCTTGTAG AAGGGGGGCACCTGTGATAC ACTGGAAAGC CTACCAGACT TGCAATGAGG AGACCTGGGT GATAGTATAT ATCTCAATCTCTGTTTCAAA GCCTTGACTT GTTAAATGGT GATAGTAATA CCTGCTTGCA CTATGAAATT TTTATGAAGATTAATGTGGT AATATTTGTG AAATGACTTT GTAAACTGTT AAGCACTACC CAAGCATAAC AGATTGTGATTACTATTTTG ATCTCAAAGT CATCTGTTGC TCCTGGGGGA ACACTTATAT TTATCAAATT GAAAAAAAGTTTCAAAGTTG AATGAAGAAA GGATATAAAG AGCTTGAGGA GCCCATTCCA GCTTAGGAGG GCTGGGAAAGGAAACCAGCA AGTCAGTAAG CTGTGTGCCT GTGTATTGAG GGAGGAGGGA ATGGACTTGA TATGGAGAGGGTAGGGAGGT GGACTGCCTC TATGGCCTGT AAGAAAAACT GCTCTCTCCA AACTCTTTAT AAGAGAGGGAGCCTGTGAAG TATTCACTTT TGAAGGAGAA AGTTAGACTT TTCCTTCACA CACTTTGTAC ATAATAATGTTTAAAAAAGC ATGAGGTCAA AATACATAAT TAAGTCCTAG CAGTTCTCTG TTAACTAATT TGAGACTGAAGTGCTATGTA CTTGTCTCTA GGCTTCCAGT ATCTTCATCT GTAAAACAGA ATATTTGGTC TAGATTCCATTAGAATCATT TGATAACTTA AAAAATATAT TGATGCTCAT GTCTCATTTC TTGAGATTCT GATTTAATTGGTTTGGGGTG CAGCCTGGGT ATACGTATTT TTCATAGGTC TTTCACATAA TGGTAATGGG TAGCCAATATTGAGAATCAC TTGTCTAGGT GATCTTTAAA TGATTTCTGG ATGTAATATT CTGAGGCTCT ATAATTTGAGACTAATCACA AAAATCGGTA CAGTTTATAA ACAGACTAAC AGAACCACAA AATAATAGAA TTGGAAGGCAATTTAACTAG TGCAATTTCT TCATTTTGCC TAACAGGCAT GTAAGAAATG ATGATTGATT GAGTAATAGGCATTGATGAC CCCTGTCCTC ACTTTGTCCC CTTTCCACCC CTTAATTATA TGTGAATTCT GGTCTTGTCATTTCGAATAA GGGGTTTATC TTTCCTATTG TCTTCCCCTC TGGGCACGGC ACACTGGCTA CTGGAGTTAAGAGGAAATGC TTAGGACTCC CTGTGGCTCC AGGGAGCACC AACAGAGCAA CTCAACCTAG TGTTAATCTGAGTGTTTTCT CTGTGCTTCT GGATGCCACA TCACGCTAAA AATGAAGGAC AAAGCTTGGT CTTTCTCTTAGGGAGGATGA AACTCTGAAC CTCATTTTTC AGTTCCCAAG ATGAATTATG TTTCTCATTG CATCTGTGTTCCACTACAGC TCCGCGTGAG AAGTACTGGC TACAATTTTT TATCCCATTG TTGGTGGTGA TTCTGTTTGCTGTGGACACA GGATTATTTA TCTCAACTCA GCAGCAGGTC ACATTTCTCT TGAAGATTAA GAGAACCAGGAAAGGCTTCA GACTTCTGAA CCCACATCCT AAGCCAAACC CCAAAAACAA CTGATATAAT TACTCAAGAAATATTTGCAA CATTAGTTTT TTTCCAGCAT CAGCAATTGC TACTCAATTG TCAAACACAG CTTGCAATATACATAGAAAC GTCTGTGCTC AAGGATTTAT AGAAATGCTT CATTAAACTG AGTGAAACTG GTTAAGTGGCATGTAATAGT AAGTGCTCAA TTAACATTGG TTGAATAAAT GAGAGAATGA ATAGATTCAT TTATTAGCATTTGTAAAAGA GATGTTCAAT TTCAATAAAA TAAATATAAA ACCATGTAAC AGAATGCTTC TGAGTATTCAAGGCTTGCTA GTTTGTTTGT TTGTTTTCTA CTAAAGGCAA GGACCATGAA GTTCTAGATT GGAAATGTCCTCTCTTGACT ATTGCAAGTG CGATCTAGGA ATGAAAAGAC ATAGGAGGAT GCCAGTGAGG TGGATCATTTTTATGCTTCT TCTTCAGCTT ACTAAATATG AACTTTCAGT TCTTGGCAGA ATCAGGGACA GTCTCAAGACATAGGACTCT CAGGATGAAG TAGAGTCCAG GATTCCTCTG TGATTGTTTT GCCCCTCCCA AATTTATATCTTGAACTTAT GTCTTGTATC TTTATACAGC ACCTGAACCA AGCATTTTGG AGAAATTCCA GCTAATAATAATAACCAAAA CCTTCGGCTC TGAAAACAGT CCAGGACTGA ATAAGATCTT GGGCAAAAGA ACTAGACAGTTTTGGTTTAT TTTCCCTTTC ATTTTATGTC TTCATCATAG TCATTGGAGG CTCATTCTTC TTGTCATGGAGTAAATGGGA TTAAAGTTC TACTAAGAGT CTCCAGCATC CTCCACCTGT CTACCACCGA GCATGGGCCTATATTTGAAG CCTTAGATCT CTCCAGCACA GTAAGCACCA GGAGTCCATG AAGAAGATGG CTCCTGCCATGGAATCCCCT ACTCTACTGT GTGTAGCCTT ACTGTTCTTC GCTCCAGATG GCGTGTTAGC AGTCCCTCAGAAACCTAAGG TCTCCTTGAA CCCTCCATGG AATAGAATAT TTAAAGGAGA GAATGTGACT CTTACATGTAATGGGAACAA TTTCTTTGAA GTCAGTTCCA CCAAATGGTT CCACAATGGC AGCCTTTCAG AAGAGACAAATTCAAGTTTG AATATTGTGA ATGCCAAATT TGAAGACAGT GGAGAATACA AATGTCAGCA CCAACAAGTTAATGAGAGTG AACCTGTGTA CCTGGAAGTC TTCAGTGACT GGCTGCTCCT TCAGGCCTCT GCTGAGGTGGTGATGGAGGG CCAGCCCCTC TTCCTCAGGT GCCATGGTTG GAGGAACTGG GATGTGTACA AGGTGATCTATTATAAGGAT GGTGAAGCTC TCAAGTACTG GTATGAGAAC CACAACATCT CCATTACAAA TGCCACAGTTGAAGACAGTG GAACCTACTA CTGTACGGGC AAAGTGTGGC AGCTGGACTA TGAGTCTGAG CCCCTCAACATTACTGTAAT AAAAGCTCCG CGTGAGAAGT ACTGGCTACA ATTTTTTATC CCATTGTTGG TGGTGATTCTGTTTGCTGTG GACACAGGAT TATTTATCTC AACTCAGCAG CAGGTCACAT TTCTCTTGAA GATTAAGAGAACCAGGAAAG GCTTCAGACT TCTGAACCCA CATCCTAAGC CAAACCCCAA AAACAACTGA TATAATTACTCAAGAAATAT TTGCAACATT AGTTTTTTTC CAGCATCAGC AATTGCTACT CAATTGTCAA ACACAGCTTGCAATATACAT AGAAACGTCT GTGCTCAAGG ATTTATAGAA ATGCTTCATT AAACTGAGTG AAACTGGTTAAGTGGCATGT AATAGTAAGT GCTCAATTAA CATTGGTTGA ATAAATGAGA GAATGAATAG ATTCATTTATTAGCATTTGT AAAAGAGATG TTCAATTTCA ATAAAATAAA TATAAAACCA TGTAACAGAA TGCTTCTGAGTAAAAAAAAA AAAAAAAAAA AAAAAAAA TCTCAATATA ATAATATTCT TTATTCCTGG ACAGCTCGGTTAATGAAAAA ATGGACACAG AAAGTAATAG GAGAGCAAAT CTTGCTCTCC CACAGGAGCC TTCCAGTGTGCCTGCATTTG AAGTCTTGGA AATATCTCCC CAGGAAGTAT CTTCAGGCAG ACTATTGAAG TCGGCCTCATCCCCACCACT GCATACATGG CTGACAGTTT TGAAAAAAGA GCAGGAGTTC CTGGGGGTAA CACAAATTCTGACTGCTATG ATATGCCTTT GTTTTGGAAC AGTTGTCTGC TCTGTACTTG ATATTTCACA CATTGAGGGAGACATTTTTT CATCATTTAA AGCAGGTTAT CCATTCTGGG GAGCCATATT TTTTTCTATT TCTGGAATGTTGTCAATTAT ATCTGAAAGG AGAAATGCAA CATATCTGGT GAGAGGAAGC CTGGGAGCAA ACACTGCCAGCAGCATAGCT GGGGGAACGG GAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGC CTATATCCACATCCACAGTT GCCAGAAATT TTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGAA ATTGTAGTGATGATGCTGTT TCTCACCATT CTGGGACTTG GTAGTGCTGT GTCACTCACA ATCTGTGGAG CTGGGGAAGAACTCAAAGGA AACAAGGTTC CAGAGGATCG TGTTTATGAA GAATTAAACA TATATTCAGC TACTTACAGTGAGTTGGAAG ACCCAGGGGA AATGTCTCCT CCCATTGATT TATAAGAATC ACGTGTCCAG AACACTCTGATTCACAGCCA AGGATCCAGA AGGCCAAGGT CTTGTTAAGG GGCTACTGGA AAAATTTCTA TTCTCTCCACAGCCTGCTGG TTTT AAGCTTTTCA AAGGTGCAAT TGGATAACTT CTGCCATGAG AAATGGCTGA ATTGGGACACAAGTGGGGAC AATTCCAGAA GAAGGGCACA TCTCTTTCTT TTCTGCAGTT CTTTCTCACC TTCTCAACTCCTACTAAAAT GTCTCATTTT CAGGTTCTGT AAATCCTGCT AGTCTCAGGC AAAATTATGC TCCAGGAGTCTCAAATTTTC TTATTTCATA TTAGTCTTTA TTTAGTAGAC TTCTCAATTT TTCTATTCAT CACAAGTAAAAGCCTGTTGA TCTTAATCAG CCAAGAAACT TATCTGTCTG GCAAATGACT TATGTATAAA GAGAATCATCAATGTCATGA GGTAACCCAT TTCAACTGCC TATTCAGAGC ATGCAGTAAG AGGAAATCCA CCAAGTCTCAATATAATAAT ATTCTTTATT CCTGGACAGC TCGGTTAATG AAAAAATGGA CACAGAAAGT AATAGGAGAGCAAATCTTGC TCTCCCACAG GAGCCTTCCA GGTAGGTACA AGGTATTATT TTTTTCTACC CTCAGTCACTTGTGGCAGGG GAAGTCATAG TCACGGTGCT TAGGAGATGA AACTTTATTG ATTTAGGCAT GGATCCATCTAGTTTAATTA ATATATTGGG TATGAGGAAG CTACTTGCTG TACTTTCCAT GTGGTTCTCT CTCCCTGGAGAGGAACATTT TTACTCAGCT TGCAAACTGG AAATAGATTT TCTCACATTA GAAGCTCATT TTCTGGGTATGAGACAGGAG AGTTCATACT GTGTATGTAG ATCTCTGGCT TCTGGGTCTG ACATGTGCTG AGGGACACATATCCTTCACA CATGCTTTTA TAAATACTTG ATAAAGTAAC CTGCTTCTTG ATTGGTCTTT ATAATCCATAAGCTGTGGGA TGCTTCTCTG AAGATGAAAA TAGTAATAGA GTCCCATCTA GCTATTCAAA GCCATTCCTTCATTGTATTC TGTGCACATG AAGTTGGGGT TTGTTACTGA CAAAATATAT TCAGATACAT TTCTATGTTAAAAGGATTGT GAGATGCATA GGTAAATGTG TTTATTTTCA GTTTTACTTG TCAACATAGA TGAATGAGAAAGAACTTGAA AGTAACACTG GATTAAGAAT AGGAAAATAA GGCATGGATT TTGCTCCATT TTGTCCCATCTAATCACTTG GATAGTGTTC AGGTGTTCTT GGTCAGTTAC TTGGATGCTC TGAGCTTTAG TTTCTTGGTGATTACAATGA AGATTTGAAT TACAGGATGG CTTTGAAAAA ATAAACAAAA CTCCCCTTTC TGTCTGTCGAGAATGTTGCA CAGGGAGTTA CAGAATGTTC TCATGACTGA ATTGCTTTTA AATTTCACAG TGTGCCTGCATTTGAAGTCT TGGAAATATC TCCCCAGGAA GTATCTTCAG GCAGACTATT GAAGTCGGCC TCATCCCCACCACTGCATAC ATGGCTGACA GTTTTGAAAA AAGAGCAGGA GTTCCTGGGG GTGAGTGAGC CTCCTCCAACTTTGACTAGA GTAAGGGTTG GGTCTAGAAA AGAATATTGA GTTGCATCAA CTGTTTTCCC ACTTGGATTCATGAGAGGTG TTAGGTCCTT TAAAAAACAT GGTAGATAAA GAGTTGACAC TAACTGGGTC CTTTTGGGAAGAGCCAGAAG CATTTCCTCA TAAAGACTTT AAATTGCTAG GACGAGAATG GCCAACAGGA GTGAAGGATTCATAACTTTA TCTTTACTTA GATGTAAAGA ACAATTACTG ATGTTCAACA TGACTACATA CATAAAGGCGCATGGAGAAA AGTATTGGCC TTCCATGCAT TAGGTAGTGC TTGTATCAAT TCTTATAGTG GCTAGGGTATCCTGGAAAAT CTTACGTGTG GATCATTTCT CAGGACAGTC TAGGACACTA ACGCAGTTTC TCATGTTTGGCTTCTATTAT TAAAAAATGA TACAATCTCG GGAAAATTTT TTTGATTTTC ATGAAATTCA TGTGTTTTTCTATAGGTAAC ACAAATTCTG ACTGCTATGA TATGCCTTTG TTTTGGAACA GTTGTCTGCT CTGTACTTGATATTTCACAC ATTGAGGGAG ACATTTTTTC ATCATTTAAA GCAGGTTATC CATTCTGGGG AGCCATATTTGTGAGTATAT ATCTATAATT GTTTCTGAAA TAACACTGAA CATAGGTTTT TCTCTTTCTC AGATCTAACCAGTTGTTTAT TCCCAGTATT AAGATGATAT TTATAATTCT TAATTATAAA TATATGTGAG CATATATAACATAGATATGC TCATTAACAA CAACAAAAGA TTCTTTTTAC AATTAACGGT GGGTTAAACA TTTAGCCCACAGTTTTATCC CATGAGAAAC CTGAATCTAA TACAAGTTAA ATGACTTGCC TAAGGGCCAC TTGACTAATAGTAATTGAAC CTAAACTTTC AGAATCCAAC TCCAGGAACA TACTTCTAGC ACTATTCATC AATAAAGTTATATGATAAAT ACATACAACT TTATCTGTCA ACTAAAAATA ACAACAGAGG CTGGGCATGG TGGCTCACACCCGTAATCCC AGCACTTTGG GAGGCTGAGG CAGGTGGATC ACCTGAGGTC AGGAGTTTGA GACCAGCCTGACCAACATGG TGAAACCTCA TCTCTACTAA ATATAAAAAA TTAGCTGAGT GTGATAGTGC ATACCTGTAATCCAGCTACT TAAGAGGCTG AGGCAGGAGG CTTGTTTGAA CCTGGAAGGC AGAGGTTGCA GTGAGCTGAGATTGTGCCAT TGCACTCCAG CCTGGGCAAT AAGTGCGAAC TCTGTCTCAA AATAATAATA ATAATAATAGAAAATAAAGT TGTCTTCATG AAAAATGAGG AAAGAGATTG CTGGGGTGAG AAACATTAAG ATCAATGGGCATATGGTGAC CTTCTATGCC CTAGAAACTC TTTTANGGTA TTTTCTCCTG GTATCTCTTT TACNCATCGTTCTATCTGGA AAAATAGGTG GATGAGTGAG ATAATAACGG TATATACTTT TTAAAGGTCT AATTGACATATATAAATTGC AAGTATTTCA GATGTCAATT TGCTAACCTT GACACACATA GACACACATG AAAACATCACCACATTAATA CAATGTATGT ATCCATCATT CCAAAAGCTT CCCTGTGTAT CTTTGTAACT CTTTCTTCCTCCCTCCACTC CTTGTCCTCT CGTTCCCAAG AAAACATTGA TCTGCTTCCT GTGAATATAA ATTAACTTACATTTTTTAGA GCTTTATATA AGTATGTTCT CTTTACTGTT TGTCTTCCTT CGCTGCACAG TTATTTTGAGATTCTTCAAG TTTTTTCTTT ATATCGATAC TTCATTCACA AGAATATATT TTAATTCTAG ACTATGTCACATTGACTTTG TCGTCTGCTA AATCCTTAGT CCTCAGATGA CTTGTTCAGG ACTCTCCTTG AACCTGTACCTCTGTTANAT TGAAACTTGT CTCTACTGTC TTTTTATTTC AAACACAGCT TATTAGGTGT CTCTCAACCCATCAAACNCA CAATCTGAGT CTTTAGGAGA TTGCTTTGAA TTTGTGCTAT TGACTTATAT NTATATNAAATNTGTAAATG TTTGGTAAAA ATATCATCAT GTACNTTTTC ATAATTACGC TATNTNCACA TGATATATGTCAGACTCTGG AAATATGCAT GCCACAGACA CGTGTTTCTT GCCTAAAGGG GCTGATGGAA GACNCACATACNAATAGACG ATTGCAGTAG AATGAGAGTG GTGGTCTAAN CAGTACATGT CCTGATGTTG CTCGGACAGTTACTACNCCA AGAGTACCCC CTGCATTGTC AGGGTTAGCA TCTCCTGGAA GCCTCATGTA AATGAAGAATTTCATGCTCC ATCCAGGACC TAATGAATAA GAATCTGCAT TTTAGCAAGA CCCTCATATG ATTCATATACACTTTTTTTT TTTTTTTTTA GATGGAGTCT CACTCTTGTC GCCCAGGCTG GAGTGCAATG GCATGATCTTGGCTCACTGC AACCTCTGCC TCCCGGGTTC AAGTGATTCT CCTGTCTCAG CCTCCCTAGT AGCTGGGACTACAGGTGCAT GCCACAGTGG CTGGCTAATT TTTGTATTTT TAGTAGAGAC AGGGTTTCAC CATTTTGGTCAGGCTGGTCT TGAACTCATG ACCTCCGGTG ATTCCCCCGC CTCGGCTTCC CAAAGTGCTG GGATTACAGACATGAGCCAC CACACCCGCC TTATTCGTAT ACNCATTTAA TTCTGAGAAG CACTCTATAG AAAATAAGAATAAGAAAATA TTGGGCTCAC AGGTGACATT AATAAGTAAC TTTATCGAGT ACCCCAAATT TTACCTATGTTTGGAAGATG GGGTTAAAAG GACACATTGA AAACAAGAAC TCATTGTGGC TTTTTTTTCC TCCTTTTTGAACAGTTTTCT ATTTCTGGAA TGTTGTCAAT TATATCTGAA AGGAGAAATG CAACATATCT GGTGAGTTGCCCGTTTCTGTCTTTGTCCAT CCTTGAAAAG ATAAGAAGAA CAGAGTTTTA AGAGTCTTAA GGGAAACACATCTTTGTCTC CTATATTACT TGTGAATGTG GATATATGAT TTTGTTTCAA TCTATTTTGT GTCCTAAGGCTTTTTGCAAC AGAAGTTGGA TATATCATTA GAAACATAAA TTGTACCATT TAACATACAT GAAGTTTATGTTTACCTTGA CGTTCTTCTA AAAAGTGTCC TACACCGGCA TTGTCCTTGT AGGCATATTC ACATGATCAAATAAAATAAT TAGTTTTCAA TTAAGGAGAA TATTTGAGGA AAGACCGTAC GTGTTCATGT GGTTCCTGAAGGCAGTCCAG TGAGAAAGTA ATATATGCTT CATTAAACAA TGCGGACATT TTCAGGGTTT CCCTTTTTAACCAAAATTTG GAAGCAATGT GGAATTTACT GGATGCATCC AGCCCTGAAA TGAAGATAGG TTTATTGAATGTGCCAGCAA GTGCAGGCCC AGGTCTGAGT GTTCTTCATT ATTATCAGGT GAGAGGAAGC CTGGGAGCAAACACTGCCAG CAGCATAGCT GGGGGAACGG GAATTACCAT CCTGATCATC AACCTGAAGA AGAGCTTGGCCTATATCCAC ATCCACAGTT GCCAGAAATT TTTTGAGACC AAGTGCTTTA TGGCTTCCTT TTCCACTGTATGTATTTTTT TTTGTGTGGG AAGACTAAGA TTCTGGGTCC TAATGTAAGT AAGAAGCCCT CTTCTCCTGTTCCATGAACA CCATCCTTTT CTGTAACTTC TATTACACAG TATAGTGGTT CTGTAAGTTC ACACAGCCCAGGGAGATGCT GGCTGCCCAC TCCCCTCAAC CCAGGCAAAT TCCTCGGGGT TAAAGTTATC TACTGCAAGTGACGATCTCT GGGTTTTTCT GTGCCTGTGT TTGTGTGTGT GTGTGTGTGT GTGTGTGTGT GTATGTGTCACTTTAAAAGG ACTGGTCAGA TGGTAGGGAG ATGAAAACAG GAGATGCTAT AAGAAAATAA ACTTTTGGGGCGAATACCAA TGTGACTCTT TTTGTTTGTC ATTTGTTGCT GTTCAATAGG AAATTGTAGT GATGATGCTGTTTCTCACCA TTCTGGGACT TGGTAGTGCT GTGTCACTCA CAATCTGTGG AGCTGGGGAA GAACTCAAAGGAAACAAGGT AGATAGAAGC CCGATATAAA ATCTTGAATG ACAGGTTAAC GAATTGGAGC TTTATTCCTTAAAATATGGC CTGGGTTTTC TGAAACATTT CTTCCAGAAA ATAGTTTCTC CAAGTTTTAT TACTTTGGTTTACAAATCTC ACATTTAAAT CACATTTTAT ACCATAAGTA GCACACATTT CATAATATTC CTCTGAATGAGGGTTGGGAT AATAGGACTG ATATGTTAGA AATGCCTTAA AGTGTGTGGA GCATGAGAGA TGGATGTACAGAAGGCTTGT GAGGAAACCA CCCAGGTATC TGGCCTTGTT TTCTGCCCCA GAACTAGCCG CCTATTCCTGTTTCTGTTTT ATTCCTTTGT TTCTTGACTT TTCCTTTCCA ACTTGCTCTA AAACCTCAGT TTTCTTTCCTTTCTGATTCA TGACTACCAA ATGTTTTCAC TTGCCTCACC CGTCCATTAC ACCTTTGATA AGAACCACCAGACCTTGTGC TCATGTACTT GCCCATGTCT GATGGAAGAA ACATACTCTC TCCATCTGTC CACTTTCCTGAGGCATTCAA GTCTAGCCAC CTTTTAAAAT CACTCTCCTC CAGGCTGGGC ACGGTGTCAC GCCTGTAATCTCAGCACTTT GTGAGGCTGA GGAGGGCGGA TCACTTGAAG TCAGGAGTTC AAAACCAGCC TGGCCAAATGGCAAAACCAA ATCTTCTTCA ATTATAACCA AATCTTAAAC CAAATCTCTA CTAAAAAATA CAACAAAACAAAACAACAAC AACAAAAACA GAAAAGGAAA CATTAGCCCA GCGTGGTGGC AGGTACCTGA GGTTCCAGATACTTGGGAGG CTGAAGCAGG AGAATCGCTT GAGCCCAAGA GATGGAGGTT GCAGTGAGCC GAGATCATGCCACTGCACCA CAGCCAGGGT GACAGAGCCA TACTTCCCAG CACATTGGGA GGCCAAAGCT GAAGAATAATTTGAGGTGAG GATTTGGAGA CCAGCCTGGC CAACATGGTG AAACTCCGTC TGTACTAAAA ATATAAAACTTAGTGGGGCA TGGGGGCACA CACCTGTAAT TTCAGCTACT TAGGAGGCTG AGGCAGGAGA ATTGCTTGAACCCGGGAGGC GGAAGTTGCA GTGAGCCAAG ATCGTGGCCA CTGCACTCCA GCCTGGGTGA CATAGTGAGATTCTGTCTCA AAAAAAATAA AAGAAATTTA AAAAATCACT CTCTTCCAAA GATAGATAAA TAAGACAGCAGATATACTAA GGAATAACCT CACCAACTTG TCATTGACTG ACATGATTTC TTTTGGCCCA CTTGGCCAGCTAGTCTGGTT TGGTTTTCTG GAAATGAAAG AAATAATCAG AGTTTAATGA CAGAGAGCGT GAGACCCAGAAAGACAAAAG TAGATGAGGT AAGTCTCTTG AGCGAGACTT CTAGGGATGG GAAATTTGTG GTGATTGATATGAAATGATT TTTCCCTTAT CAGGTTCCAG AGGATCGTGT TTATGAAGAA TTAAACATAT ATTCAGCTACTTACAGTGAG TTGGAAGACC CAGGGGAAAT GTCTCCTCCC ATTGATTTAT AAGAATCACG TGTCCAGAACACTCTGATTC ACAGCCAAGG ATCCAGAAGG CCAAGGTTTT GTTAAGGGGC TACTGGAAAA ATTTCTATTCTCTCCACAGC CTGCTGGTTT TACATTAGAT TTATTCGCCT GATAAGAATA TTTTGTTTCT GCTGCTTCTGTCCACCTTAA TATGCTCCTT CTATTTGTAG ATATGATAGA CTCCTATTTT TCTTGTTTTA TATTATGACCACACACATCT CTGCTGGAAA GTCAACATGT AGTAAGCAAG ATTTAACTGT TTGATTATAA CTGTGCAAATACAGAAAAAA AGAAGGCTGG CTGAAAGTTG AGTTAAACTT TGACAGTTTG ATAATATTTG GTTCTTAGGGTTTTTTTTTT TTTTAGCATT CTTAATAGTT ACAGTTGGGC ATGATTTGTA CCATCCACCC ATACCCACACAGTCACAGTC ACACACACAT ATGTATTACT TACACTATAT ATAACTTCCT ATGCAAATAT TTTACCACCAGTCAATAATA CATTTTTGCC AAGACATGAA GTTTTATAAA GATCTGTATA ATTGCCTGAA TCACCAGCACATTCACTGAC ATGATATTAT TTGCAGATTG ACAAGTAGGA AGTGGGGAAC TTTTATTAAG TTACTCGTTGTCTGGGGAGG TAAATAGGTT AAAAACAGGG AAATTATAAG TGCAGAGATT AACATTTCAC AAATGTTTAGTGAAACATTT GTGAAAAAAG AAGACTAAAT TAAGACCTGA GCTGAAATAA AGTGACGTGG AAATGGAAATAATGGTTATA TCTAAAACAT GTAGAAAAAG AGTAACTGGT AGATTTTGTT AACAAATTAA AGAATAAAGTTAGACAAGCA ACTGGTTGAC TAATACATTA AGCGTTTGAG TCTAAGATGA AAGGAGAACA CTGGTTATGTTGATAGAATG ATAAAAAGGG TCGGGCGCGG AGGCTCACGC CTGTAATCCC AGCCCTTTGG GAGGCCGAGGTGGGCAGATC ACGAAGTCAG TAGTTTGAGA CCAGCCTGGC CAACATAGTG AAACCCCGTC TCTACTAAAAATACAAAAAA AAAATTAGCT GGGTGTGGTG GCAGTCACCT GTAGTCCCAG CTACTTGGGA GGATGAGGCAGGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGC ACCAGTGCAC TCCAGCCTTGGTGACAATGG GAGACTCCAT CTCAAAAAAA AAAAAAAAAA AAAAAAGATA AAAAGTCAGA AATCTGAAAAGTGGAGGAAG AGTACAAATA GACCTAAATT AAGTCTCATT TTTTGGCTTT GATTTTGGGG AGACAAAGGGAAATGCAGCC ATAGAGGGCC TGATGACATC CAATACATGA GTTCTGGTAA AGATAAAATT TGATACACGGTTTGGTGTCA TTATAAGAGA AATCATTATT AAATGAAGCA AGTTAACACT CTAAGAGAAT TATTTTGAGATAGAAGTGAA GCTAAGCTAA ACTTCACATG CCTATAATTG GAGGGAAAAA CTAAGGATAA AATCTAGCCTAGAAGATACA ATAATTAGTC ATAAACATGC ATTGTGAAAC TGTAGAGAGC AGGTAGCCCA AAATAGAGAAAGATTAGATA AAGAGAAAAT AAGTATCCAT CAGAGACAGT ATCTCTAGGC TTGGGCAAGA GAAAAGTCCACAGTGATAAG CAACTCCACC TAAGGCATGA ATATGCGGCA GAGAAAACAG CAATAGTGAA TGAATGCAAAAGGTGCTGAG CAAATTCCAC ACATGAGTAT TGTGCATGAG TAAATGAATA AAACATTTGC AAAGACCTTTAGAGAAAGAG AATGGGAGCA TATGTGCGAA ATAAGATAGT TGATTATGAA TAGAAGGTAG TGAAGAAAAGCAAGCTAAGA AAAAATTCTG TTTATAAAAG AAGGAAAAGA TAGTTTATGT TTTTAGCCTA AGTATAAGAGTCCTACAGAT GGACTGAAAA AAATCAGTCT GAGAGTATTA GTCACAATTA ATGAAATAAT TACATTTTATGTATTGAGGA TGCCAAGATT AAAAGGTGAC AGGTAGATGT TAATTTCCCT AGATTGTGAA AGTGATCACGACAATCACAC AACAAATAAT TAAGTGACTT GGTATGCTTT ATTTAATTGT AGGGCCTGAG GTTTTCCATTCTCATTTTTC TAAAATACAA TTTTGTTTCT CCAAATTTGA CAGCAGAATA AAAACCCTAC CCTTTCACTGTGTATCATGC TAAGCTGCAT CTCTACTCTT GATCATCTGT AGGTATTAAT CACATCACTT CCATGGCATGGATGTTCACA TACAGACTCT TAACCCTGGT TTACCAGGAC CTCTAGGAGT GGATCCAATC TATATCTTTACAGTTGTATA GTATATGATA TCTCTTTTAT TTCACTCAAT TTATATTTTC ATCATTGACT ACATATTTCTTATACACAAC ACACAATTTA TGAATTTTTT CTCAAGATCA TTCTGAGAGT TGCCCCACCC TACCTGCCTTTTATAGTACG CCCACCTCAG GCAGACACAG AGCACAATGC TGGGGTTCTC TTCACACTAT CACTGCCCCAAATTGTCTTT CTAAATTTCA ACTTCAATGT CATCTTCTCC ATGAAGACCA CTGAATGAAC ACCTTTTCATCCAGCCTTAA TTTCTTGCTC CATAACTACT CTATCCCACG ATGCAGTATT GTATCATTAA TTATTAGTGTGCTTGTGACC TCCTTATGTA TTCTCAATTA CCTGTATTTG TGCAATAAAT TGGAATAATG TAACTTGATTTCTTATCTGT GTTTGTGTTG GCATGCAAGA TTTAGGTACT TATCAAGATA ATGGGGAATT AAGGCATCAATAAAATGATG CCAAAGACCA AGAGCAGTTT CTGAAGTCCT CCTTTTCATC AGCTCTTTAT CAAACAGAACACTCTATAAA CAACCCATAG CCAGAAAACA GGATGTAGGA ACAATCACCA GCACACTCTA TAAACAACCCATAGCCAGAA AACAGAATGT AAGGACAATC ACCAGCCATC TTTTGTCAAT AATTGATGGA ATAGAGTTGAAAGGAACTGG AGCATGAGTC ATATTTGACC AGTCAGTCCT CACTCTTATT TACTTGCTAT GTAAACTTGAGAAAGCTTTT TTCTCTTTGT GAACCTCAGG TTTTACATCT GAAAATGAGA AATTTGGAAC AAAAGATTCCTAACTGGTCT TTCTGTTCCC ATATTCTGTG ATTTTTCAAT ATTTAGGATT TTTGGTAATC ACAATTACTTAGTTTGTGGT TGAGATAGCA ACACGAATCA GAACTATTTG GTGGACATAT TTTCAAAGGA GTAGCTCTCCACTTTGGGTA AAGAAGTGAT GCNGGTCGTG GTGGCTCACG CCTGTAATCC CAGCACTTTA GGGAGGCCAAGGCGGGTGGA TCACGAGGTC AGGAGATCGA GACCATCCTG GCTAACACGG TGAAACCCCG TCTCTACTAAAAAATACAAA AAATTAGCCA GGCGTGGTGG CGGGCGCCTG TAGTCCCACG TACTCGGGAG GCTGAGGCAGGAGAATGGCA TGAACCAGGG AGGCGGAGCT TGCCGTGAGC CGAGATAGCG CCACTGCAGT CCCTCCTGGGCAAAAGAGCA AGACTGCGTC TCAAAAAAAA AAAAAAAAAA AAAAAAAGAA GTGTGTGGAG TAGCAGGACACCTGCAACAA TAATATTTTT CTAAATCCCT CTGAAAAATG CTAATCAAAG GGTTTTTTTC CTAAAAATTGTCTTAGAAAT AAAATTTCCC CTTTGGGAGA CCGAGGCTGG CAGATCACGA GGTCAGGAGA TAGAGACCACGGTGAAACCC CGTCTCTACT AAAAATACTA AAAATTAGCC GGGGNGTGGT GGTGGGTACA CCTGTAGTCCCAGCTACTTG GAGGCTGAGG CTGGAGAATC ACGTGAAC GCCACGTGCT GCTGGGTCTC AGTCCTCCACTTCCCGTGTC CTCTGGAAGT TGTCAGGAGC AATGTTGCGC TTGTACGTGT TGGTAATGGG AGTTTCTGCCTTCACCCTTC AGCCTGCGGC ACACACAGGG GCTGCCAGAA GCTGCCGGTT TCGTGGGAGG CATTACAAGCGGGAGTTCAG GCTGGAAGGG GAGCCTGTAG CCCTGAGGTG CCCCCAGGTG CCCTACTGGT TGTGGGCCTCTGTCAGCCCC CGCATCAACC TGACATGGCA TAAAAATGAC TCTGCTAGGA CGGTCCCAGG AGAAGAAGAGACACGGATGT GGGCCCAGGA CGGTGCTCTG TGGCTTCTGC CAGCCTTGCA GGAGGACTCT GGCACCTACGTCTGCACTAC TAGAAATGCT TCTTACTGTG ACAAAATGTC CATTGAGCTC AGAGTTTTTG AGAATACAGATGCTTTCCTG CCGTTCATCT CATACCCGCA AATTTTAACC TTGTCAACCT CTGGGGTATT AGTATGCCCTGACCTGAGTG AATTCACCCG TGACAAAACT GACGTGAAGA TTCAATGGTA CAAGGATTCT CTTCTTTTGGATAAAGACAA TGAGAAATTT CTAAGTGTGA GGGGGACCAC TCACTTACTC GTACACGATG TGGCCCTGGAAGATGCTGGC TATTACCGCT GTGTCCTGAC ATTTGCCCAT GAAGGCCAGC AATACAACAT CACTAGGAGTATTGAGCTAC GCATCAAGAA AAAAAAAGAA GAGACCATTC CTGTGATCAT TTCCCCCCTC AAGACCATATCAGCTTCTCT GGGGTCAAGA CTGACAATCC CGTGTAAGGT GTTTCTGGGA ACCGGCACAC CCTTAACCACCATGCTGTGG TGGACGGCCA ATGACACCCA CATAGAGAGC GCCTACCCGG GAGGCCGCGT GACCGAGGGGCCACGCCAGG AATATTCAGA AAATAATGAG AACTACATTG AAGTGCCATT GATTTTTGAT CCTGTCACAAGAGAGGATTT GCACATGGAT TTTAAATGTG TTGTCCATAA TACCCTGAGT TTTCAGACAC TACGCACCACAGTCAAGGAA GCCTCCTCCA CGTTCTCCTG GGGCATTGTG CTGGCCCCAC TTTCACTGGC CTTCTTGGTTTTGGGGGGAA TATGGATGCA CAGACGGTGC AAACACAGAA CTGGAAAAGC AGATGGTCTG ACTGTGCTATGGCCTCATCA TCAAGACTTT CAATCCTATC CCAAGTGAAA TAAATGGAAT GAAATAATTC AAACACAAAAAAAAAAAAAA AAAAAAAA GCCGGAGCCG ACTCGGAGCG CGCGGCGCGG CCGGGAGGAG CCGAGCGCGCCGGGCGCGGC GTGGGGGCGC CGGCTGCCCC GCGCGCCCAG GGAGCGGCAG GAATGTGACA ATCGCGCGCCCGCACCGTAG CACTCCTCGC TCGGCTCCTA GGGCTCTCGC CCTCTGAGCT GAGCCGGGTT CCGCCCGGGCTGGGATCCCA TCACCCTCCA CGGCCGTCCG TCCAGGTAGA CGCACCCTCT GAAGATGGTG ACTCCCTCCTGAGAAGCTGG ACCCCTTGGT AAAAGACAAG GCCTTCTCCA AGAAGAATAT GAAAGTGTTA CTCAGACTTATTTGTTTCAT AGCTCTACTG ATTTCTTCTC TGGAGGCTGA TAAATGCAAG GAACGTGAAG AAAAAATAATTTTAGTGTCA TCTGCAAATG AAATTGATGT TCGTCCCTGT CCTCTTAACC CAAATGAACA CAAAGGCACTATAACTTGGT ATAAAGATGA CAGCAAGACA CCTGTATCTA CAGAACAAGC CTCCAGGATT CATCAACACAAAGAGAAACT TTGGTTTGTT CCTGCTAAGG TGGAGGATTC AGGACATTAC TATTGCGTGG TAAGAAATTCATCTTACTGC CTCAGAATTA AAATAAGTGC AAAATTTGTG GAGAATGAGC CTAACTTATG TTATAATGCACAAGCCATAT TTAAGCAGAA ACTACCCGTT GCAGGAGACG GAGGACTTGT GTGCCCTTAT ATGGAGTTTTTTAAAAATGA AAATAATGAG TTACCTAAAT TACAGTGGTA TAAGGATTGC AAACCTCTAC TTCTTGACAATATACACTTT AGTGGAGTCA AAGATAGGCT CATCGTGATG AATGTGGCTG AAAAGCATAG AGGGAACTATACTTGTCATG CATCCTACAC ATACTTGGGC AAGCAATATC CTATTACCCG GGTAATAGAA TTTATTACTCTAGAGGAAAA CAAACCCACA AGGCCTGTGA TTGTGAGCCC AGCTAATGAG ACAATGGAAG TAGACTTGGGATCCCAGATA CAATTGATCT GTAATGTCAC CGGCCAGTTG AGTGACATTG CTTACTGGAA GTGGAATGGGTCAGTAATTG ATGAAGATGA CCCAGTGCTA GGGGAAGACT ATTACAGTGT GGAAAATCCT GCAAACAAAAGAAGGAGTAC CCTCATCACA GTGCTTAATA TATCGGAAAT TGAAAGTAGA TTTTATAAAC ATCCATTTACCTGTTTTGCC AAGAATACAC ATGGTATAGA TGCAGCATAT ATCCAGTTAA TATATCCAGT CACTAATTTCCAGAAGCACA TGATTGGTAT ATGTGTCACG TTGACAGTCA TAATTGTGTG TTCTGTTTTC ATCTATAAAATCTTCAAGAT TGACATTGTG CTTTGGTACA GGGATTCCTG CTATGATTTT CTCCCAATAA AAGCTTCAGATGGAAAGACC TATGACGCAT ATATACTGTA TCCAAAGACT GTTGGGGAAG GGTCTACCTC TGACTGTGATATTTTTGTGT TTAAAGTCTT GCCTGAGGTC TTGGAAAAAC AGTGTGGATA TAAGCTGTTC ATTTATGGAAGGGATGACTA CGTTGGGGAA GACATTGTTG AGGTCATTAA TGAAAACGTA AAGAAAAGCA GAAGACTGATTATCATTTTA GTCAGAGAAA CATCAGGCTT CAGCTGGCTG GGTGGTTCAT CTGAAGAGCA AATAGCCATGTATAATGCTC TTGTTCAGGA TGGAATTAAA GTTGTCCTGC TTGAGCTGGA GAAAATCCAA GACTATGAGAAAATGCCAGA ATCGATTAAA TTCATTAAGC AGAAACATGG GGCTATCCGC TGGTCAGGGG ACTTTACACAGGGACCACAG TCTGCAAAGA CAAGGTTCTG GAAGAATGTC AGGTACCACA TGCCAGTCCA GCGACGGTCACCTTCATCTA AACACCAGTT ACTGTCACCA GCCACTAAGG AGAAACTGCA AAGAGAGGCT CACGTGCCTCTCGGGTAGCA TGGAGAAGTT GCCAAGAGTT CTTTAGGTGC CTCCTGTCTT ATGGCGTTGC AGGCCAGGTTATGCCTCATG CTGACTTGCA GAGTTCATGG AATGTAACTA TATCATCCTT TATCCCTGAG GTCACCAGGA ATCAGG (2) SEQ ID NO: 3003 data:

(i) Sequence characteristics:

(A) length: 35459 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3003 sequence description: CTT GCT CCT GGG GGC CTC CTG GTC CCT CTG GCT G TT CCC GGC CCT GGB CTG GGG CBG GGGCCG CGT BGG CGC GGC TCG CCB GGB CGG GCB GCG CCB GCB GCB GCB GGC TCB GCB TCC TGG CCBCGG BBT TCC GGT GTG CGG GGC CTG GTG CC CCT GGG CCT CGG GTG CTG CCT GT GCG CTG CCTTCT TCT CCT GG GTC CTC GCC GGG GCC CTT GCT GCC CTG GCT GT GCC CTG GGG GTC TGG GTTCGG CTG T CCC CBG GBC CBG CBG TCC CBT CCB CGT GTG BTG BGT BGC CBT TCT CCT GCBGC GGG GBG GGG CGC GGG CGB GCB TCG C TTT GGG CTT TTC TCC TTT GGT T TGB GCG CCB GGBCG CGC BCB GCB GCB GGG CGC GGG CGB GCB TCG CGGCGG GCB GGG GCTCGCTCGCCGGCCGGCCGGCCGGCCGGCCGGCCGGCCGCGCGCGCGBGGGGCCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGGCCGCGCGCGCGCGCGGGCGCGCGCGCGGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCG TGGCGCCGCB GBBGTGTGGCCT CCGCBGCT GCBGGGGGBCBCBCBCBCBCBCBCTGBCGGGCCBGGGCCBGGCGBCGGCGGGCGBCGGCGGGCGBCGGCGCGCGGGCGGCCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGCCGGGCGGCCGGGCGGCCGGGCGGCCGGCCGGGCGGCCGGGCGGCCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGG CGC CCC TCT GG GCC GGC GCGGGC GTC GG CCG CTC GCG CCT GGG GTT CCC TCT CCT CCC CCT GTG C GCC TGC CTC TTG CTCTTCTGC GTC CGC TGC CTT CTC CC CTC TCC TCG GCC GTT GCC TGT GC TGT CCG TCC TGT CGCCCT TCC GTG GTG C TGT TGT CTC TTC TGC CCT C GGT GTG CTG GTG CTG GTG GTG GTG CCT CTGCCC GTG CTC GCCCTG CCT GGG CTG GCC TCT TCG GGT GTG GCT TTG GGG CTC TCT TGG TTG CCCTTT CTT CTC GTG GTG CCT CTC CTC CCT GGC TTG GTC GT TGT CTG GGG TGG TGC TCC TCT CCCTTT CCC TGC TGG CCG TTT GT CCT GTT TTC TGT CTT CCT CT TTC CTC CTG TTT CTC CGT TTGGCT TGC TGC TTG CGG GGC TGT CTC C CTT GCC CCT GTG GGC TTT CCC TGG TCC GGT CTT CTCCTT GGG GGT C GCC CTT CTT GGT GGG CTGGCT CGT CTG TCT TTT TCC TTC C TGG GGG TGG CCGTTG TGG GCG GTG TGG TCC GCC T TGC CTC TGC TGG TCT TTC CTCGGTBGBC GCGCTCGBGBBCTCGGGTGGGC CGGTGGTGBG CGGCGGCGBCB CGCGCGGBBGCGCCTGGCGCGCC GBGBGBTCBCCTG CBGGGBBGGBBGTBGGCTTGCB GCBGGBGBGCGBGCGGCGCTGBCTCGCGGGGGBGGGTGBCBGBGBGCGGCCB GTBGCGCGCGCGCGCGCGCGCGCGGGCGCGCGCGGGCGCGGGCGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCG CCCTCTCCTG TCTCCTGTCC CTGTGTTCCG CCCGTCTTCCCTCTCCTGAC CTCCTTTTCC TCCGCTGGGT GGGGCCCTGC CTGTTCTCTG CTCCCTGGCT TGGGGTTTCTTCTGTGTGTC TTCTTCCTCT GTTGGCTGGC TTTCTCCTTC TTTTGTCTTC CTGGGTGCCC CTTCTTCCTTTCTTGGGTCC TTGGTGCTTG GGCTGGG GCGTCTTGGG GTGCBGGGCC CBTCCTGCTG CGCCTGGGCGCTGCTGTGCG TCCGTCTGCT GGGGGGCCGG GGTGGCTGGG CCCTGCTTGC CGCACGACCC CGGGCCGACCCGAGGCTCGG GGGGCTGTGT TCTGGCGCTG GTGGGCTTGG GCCCCTCTGG GGGCTGGGTT TCCTGCTGCGCCTGGGCGCT GGCGTCTTGG GGTGCGGGGC CGGGGGGCCG GGGGGCCGCT GTTCGTGGGC CTGGGGGTGCCTGTGGCTGC CGGTTGCCCC GGTTGGTGGC GCCGTCCTGC TGCCGGTCGT TGGCTGGGTC CCCCCGCCCGTTTCCTGGGG TCCGCGTGGG GTGCTCCGGT TCCTCGTGCC GCTGCTGCCT TGTCTTTCCG GCCGTGGCGGCGTGGTGGTC CGCCCCCCCT GGCCTTCTGC TCGGGGTCTG GCTGGTTGCC GGTGCCCTTG GCGGCGGTCTTCTTCCTGGT GGCTCTGGGC CCGGCCGGTC TCGGGCGTCT CGTGTTCGCT CTTGTGCTGT TCCGGCCGCTCCTTCCTCTT CCGCCGCCGC CGCTCCCCGC CCGCTCGTCG CCCTGGCCCG GCCTCCTCCT GGCCGCTGTCTCGGGCGGCG GCCTTGGCGC TCCGTTTGGG GCTGCCTCTG GCGCTTCCGG CCCTCGGCCT GGGCGCTCTCTTCCGCCTGT GCTGGTGGCC CTCGTGGGCC CCTCCTGGCC TCCGGTGTCC TGTGGTCCCC CGGCTGGTGGCCGGGCCGGT TGGGCGGGCG TGGGCGCCGG CGGGTCCTCC GGGCTGCCCT TCTCCGCCGG GGGTCCCGCGCTCCTGCTGT TCCCTGGGCT CTTCTGCCTC TCTCCTGGGT GGGTGCTGGG TGCCGGGGTC TCCGGGCTTGCCCCGCGCTG CTGGGCGTTC TGCGGTCTTG GGGTTGTCTG TGGCCCCGCT CGTGTCGCCC TCCGTCGCCCGTCGCCGGCC TCGTCCCCTC CTGGGTGCGC GGCGGGCTGG TCCTGGCGTT TTGCTCCTTC CTGGGCGTCTTGGGGTGCBG GGCCCTCCTCT GCTGCGCCTG GGCGCTGCTG TGCGTCCGTC TGCTGGGGGG CCGGGGTGGCTGGGCCCTGC TTGCCGCACG ACCCCGGGCC GACCCGAGGC TCGGGGGGCT GTGTTCTGGC GCTGGTGGGCTTGGGCCCCT CTGGGGGCTG GGTTTCCTGC TGCGCCTGGG CGCTGGCGTC TTGGGGTGCG GGGCCGGGGGGCCGGGGGGC CGCTGTTCGT GGGCCTGGGG GTGCCTGTGG CTGCCGGTTG CCCCGGTTGG TGGCGCCGTCCTGCTGCCGG TCGTTGGCTG GGTCCCCCCG CCCGTTTCCT GGGGTCCGCG TGGGGTGCTC CGGTTCCTCGTGCCGCTGCT GCCTTGTCTT TCCGGCCGTG GCGGCGTGGT GGTCCGCCCC CCCTGGCCTT CTGCTCGGGGTCTGGCTGGT TGCCGGTGCC CTTGGCGGCG GTCTTCTTCC TGGTGGCTCT GGGCCCGGCC GGTCTCGGGCGTCTCGTGTT CGCTCTTGTG CTGTTCCGGC CGCTCCTTCC TCTTCCGCCG CCGCCGCTCC CCGCCCGCTCGTCGCCCTGG CCCGGCCTCC TCCTGGCCGC TGTCTCGGGC GGCGGCCTTG GCGCTCCGTT TGGGGCTGCCTCTGGCGCTT CCGGCCCTCG GCCTGGGCGC TCTCTTCCGC CTGTGCTGGT GGCCCTCGTG GGCCCCTCCTGGCCTCCGGT GTCCTGTGGT CCCCCGGCTG GTGGCCGGGC CGGTTGGGCG GGCGTGGGCG CCGGCGGGTCCTCCGGGCTG CCCTTCTCCG CCGGGGGTCC CGCGCTCCTG CTGTTCCCTG GGCTCTTCTG CCTCTCTCCTGGGTGGGTGC TGGGTGCCGG GGTCTCCGGG CTTGCCCCGC GCTGCTGGGC GTTCTGCGGT CTTGGGGTTGTCTGTGGCCC CGCTCGTGTC GCCCTCCGTC GCCCGTCGCC GGCCTCGTCC CCTCCTGGGT GCGCGGCGGGCTGGTCCTGG CGTTTTGCTC CTTCCTGG CTGCCCCGTT TTTTTTGBTCCT CBCBTGCCGT GGGGBGGBCBBTGGCTGCCT CCCCGGGGTT TCTGCTGCTT GCTGCTTCTT TCCCGTCTCC CTTCTTTCCC GTCTCCTTTTTGCCTCTTTG GGTTCCTGTT GTTTCTGGCC TGCTTGGTGG CGGCTTGTGC GTTTCCTCTC TCTTCTCTTGGGTCTCCGCT TCTCGTCCTG CCTTTTCCTG TCTCTGTCGC GCCGTTCCTC CTCCGGCGTC CTCCTGCCCTGTGCTGTTTG CCTCGGGTGG TGCGGGTCCC GGTGCTCCCC CGGCGGGCCG GCTGGTTGCC TGGGCCTGTCTGGTGGGGTG TGGGGCCGCT GGGTTGGGGG TGTGGTGGGC TCTTCTGTGG CCTGTGGGGC TGTTGGTGTCTCTGTGGGCG TGTGCTGGGT CTTGGGGCTT CCTCCCTTGT GCTGGGTGCG GCCTCCCCGC CCCCCTTCTGGGCCGGTGGC CTGGCTCCTT GTGGGCGCTT CTGGCTCTTG CCCTGTCCTT CTTCGCCTCG TGGCTGCTGG GCTGCGCCGCCGCCG CCAAGATGGC GGACCTGGAG GCGGTGCTGG CCGACGTGAG CTACCTGATG GCCATGGAGAAGAGCAAGGC CACGCCGGCC GCGCGCGCCA GCAAGAAGAT ACTGCTGCCC GAGCCCAGCA TCCGCAGTGTCATGCAGAAG TACCTGGAGG ACCGGGGCGA GGTGACCTTT GAGAAGATCT TTTCCCAGAA GCTGGGGTACCTGCTCTTCC GAGACTTCTG CCTGAACCAC CTGGAGGAGG CCAGGCCCTT GGTGGAATTC TATGAGGAGATCAAGAAGTA CGAGAAGCTG GAGACGGAGG AGGAGCGTGT GGCCCGCAGC CGGGAGATCT TCGACTCATACATCATGAAG GAGCTGCTGG CCTGCTCGCA TCCCTTCTCG AAGAGTGCCA CTGAGCATGT CCAAGGCCACCTGGGGAAGA AGCAGGTGCC TCCGGATCTC TTCCAGCCAT ACATCGAAGA GATTTGTCAA AACCTCCGAGGGGACGTGTT CCAGAAATTC ATTGAGAGCG ATAAGTTCAC ACGGTTTTGC CAGTGGAAGA ATGTGGAGCTCAACATCCAC CTGACCATGA ATGACTTCAG CGTGCATCGC ATCATTGGGC GCGGGGGCTT TGGCGAGGTCTATGGGTGCC GGAAGGCTGA CACAGGCAAG ATGTACGCCA TGAAGTGCCT GGACAAAAAG CGCATCAAGATGAAGCAGGG GGAGACCCTG GCCCTGAACG AGCGCATCAT GCTCTCGCTC GTCAGCACTG GGGACTGCCCATTCATTGTC TGCATGTCAT ACGCGTTCCA CACGCCAGAC AAGCTCAGCT TCATCCTGGA CCTCATGAACGGTGGGGACC TGCACTACCA CCTCTCCCAG CACGGGGTCT TCTCAGAGGC TGACATGCGC TTCTATGCGGCCGAGATCAT CCTGGGCCTG GAGCACATGC ACAACCGCTT CGTGGTCTAC CGGGACCTGA AGCCAGCCAACATCCTTCTG GACGAGCATG GCCACGTGCG GATCTCGGAC CTGGGCCTGG CCTGTGACTT CTCCAAGAAGAAGCCCCATG CCAGCGTGGG CACCCACGGG TACATGGCTC CGGAGGTCCT GCAGAAGGGC GTGGCCTACGACAGCAGTGC CGACTGGTTC TCTCTGGGGT GCATGCTCTT CAAGTTGCTG CGGGGGCACA GCCCCTTCCGGCAGCACAAG ACCAAAGACA AGCATGAGAT CGACCGCATG ACGCTGACGA TGGCCGTGGA GCTGCCCGACTCCTTCTCCC CTGAACTACG CTCCCTGCTG GAGGGGTTGC TGCAGAGGGA TGTCAACCGG AGATTGGGCTGCCTGGGCCG AGGGGCTCAG GAGGTGAAAG AGAGCCCCTT TTTCCGCTCC CTGGACTGGC AGATGGTCTTCTTGCAGAAG TACCCTCCCC CGCTGATCCC CCCACGAGGG GAGGTGAACG CGGCCGACGC CTTCGACATTGGCTCCTTCG ATGAGGAGGA CACAAAAGGA ATCAAGTTAC TGGACAGTGA TCAGGAGCTC TACCGCAACTTCCCCCTCAC CATCTCGGAG CGGTGGCAGC AGGAGGTGGC AGAGACTGTC TTCGACACCA TCAACGCTGAGACAGACCGG CTGGAGGCTC GCAAGAAAGC CAAGAACAAG CAGCTGGGCC ATGAGGAAGA CTACGCCCTGGGCAAGGACT GCATCATGCA TGGCTACATG TCCAAGATGG GCAACCCCTT CCTGACCCAG TGGCAGCGGCGGTACTTCTA CCTGTTCCCC AACCGCCTCG AGTGGCGGGG CGAGGGCGAG GCCCCGCAGA GCCTGCTGACCATGGAGGAG ATCCAGTCGG TGGAGGAGAC GCAGATCAAG GAGCGCAAGT GCCTGCTCCT CAAGATCCGCGGTGGGAAAC AGTTCATTTT GCAGTGCGAT AGCGACCCTG AGCTGGTGCA GTGGAAGAAG GAGCTGCGCGACGCCTACCG CGAGGCCCAG CAGCTGGTGC AGCGGGTGCC CAAGATGAAG AACAAGCCGC GCTCGCCCGTGGTGGAGCTG AGCAAGGTGC CGCTGGTCCA GCGCGGCAGT GCCAACGGCC TCTGACCCGC CCACCCGCCTCCAGGAAGCT ACCTGGAGGA GGTGAGTCTT AGCGGATGAG TAGGAGTTGT CCACGGAGGA AGGTACACAGAAGGGCTTCC AGGCCCAGGA AACAGCAGAG GCACAGAAGT GAGAATGGGT GGGTGAGTTG GTGGGGAAACTCCAGGTGCA GAGGATGGTA GCGAAACAAA CTGGAGCATT AAGGTCCAAG TCCTCCAAGA TCTTGACTTGCAGATTAAGG AGTTTGTTCA CCTAATCTGC TTTGGGCAGA GTGTGGTGAG TCCTAGAGAC CCCTCTAGGTCTCTCCTCTC AGTAGCCCCA GAAGGCCTGG AGAGCTGCTT CTGGGTGCCA AGCAGGCAGT GACTCCATCAGATCTAGATT TGGGAAAAGC ATCCCTGGTC AGGGCCTGCA TCAGGGCAGT GGCTGGCCAT GAGGACCCTGAGAAGTAGAC AGATTCACGG AGATTCTCAG GAGGCCAGAC AGGAGACTAT GGTGACAAAT TAGATTAGAGAAGGGGAGAG AATGAAGGAG CAGTTGGGGT AAAAGAAAAC TGAGGCTGAC ATGGGTATAT GGGTGGCGAGTGACTCACCA CCCACTGAGA GGAGAACCTC ACAAGCTCTG ACATGCTCTG GTTCCAGGTT CTGTTGGGGCTGATCCAAGA TGGTAGCCTA GAGGTGCACA GAGATGGGGG CCTTGCTTTG CAAAAGGATG CTGGCTGCTGGCCCACAGCA TGGTAATGAG ATTTGAGCTT TATGTGCCCA GGGCTGGGAG GAGGGTCCTG TCACTTTGAAAGCAAAGAGA GGCTCTAGAG AGGGGCATGT TGAGATAGGA ATGCTGCCTT GAGACACCTG GCTTTCCCCACTCTGGGTGG CTCTCAGCAG GGTGGGTTTC CCCTGCCAGG CAGCACTGAA CCTCTGTGCG CTTCCGGCTGGGAGAGTTTT TACCGTAACT ACATGTGGAA CCATCCTGAA GGAACATCTG GATGGGATGG GGTACAGGGAAGGGAGCTGC CAAGAGTGCT GGCCAGGGAC CTGGGTCTAT GAGCTGGTTG GGGGGTGGGG TTGGGTGCAGGGTACTTGAT CCTGAGTGGG CCTTCTGCGG CCAGGATTGG TTCTAGAGTA GGAGGGGTGG GATCGGGGATGGGGGAAGCC TGTAACTGCG CTGCAGTTGT CAGGTCCCAG GTTCTGGGTG ACCTACTAAG GATTCTGGGTCCAGTGTGGG TCCCAGGTTA GACGTCCTAG TCCTGAGTCC GTGTCCACAG TTCTGGGTGT TGAGTCTAGGACAGTGATCT GGAGTTGACA GTCCAATCTA GGTCTGAGTC CTGACCCCAA GTCTAGAGTT CAGGGTCATGGTAGTAGCCT AGGGTCAGAA TCAAGGTTGG GGTCAGTAAC CAGGATGGGA TCGAGGTCAT GGTCCAAAATCTGGATCTGG GGACCTGTTG GGGGTCTGAG GTGAGTGTCG CAGTCTGGGT ATGGCGTTGG AGACCCAGGGCTGTGATCTG AGGTCATGGT TAGAGTCTCA GGTGGTGGGC CAAGGTTTGA GTCTGGGGTC CTGTTTGGAGTCTGGTGTCA GGTCGTGGAC TGCGTCCAAG GTCAGGGAGT CCGGGGTTAT AGCCAGGGTC TGAGATGAAAGTCCCAGATG GTGTTCAGAG GTCTGAATCT GTGTCTTGGT GAGCGTCCAG GTTCCCTGTG ATCACGTTTGGTGTCAGGGC TGCGGCCCGA CTGGGGAGCC TGGGATCCAG AGATGTGACC CGAGGTTGTG GTCAGAGAATGGGTCTCGGG TCGTCTTCGT GCCGGGTCCC TGTCGTGTTC CAGGCCCGGG TCTCCGTCCA GCATCGAGGGCCGAGGTCAC GGCCAGGGTC TGAGCCCGCG GTCGCAGGTC TGGTTCGGGG TCAGATTCCG CGCGGCCTCCAGGGGGCGCC GTCGCCGCCC GGCTCGGCCC CTCGCGGGCT CGCTGGCGTT GTGCGCGGCA GGCGGGGCCGGAGGCGGCGG CGGCTCCGGG GGCGCGGGCC GGGCGGCGGC GGCGGCGGCG CCCCGACTGC AGTCCCGGCGGGAGCGGAGC GCGAAGCGCG GGGCCGGGCC CGGAGCCGGC GCCATGGGGC GGCGCCGCCT GTGAGCGGCGGCGAGCGGAG CCGCGGGCGC CGAGCAGGGC CAGGCGGGAG CGTCGGCGCC CGAGGCCGAG CGAGCCGCGGCCGGGCCGGG CCGAGCGCCG AGCGAGCAGG AGCGGCGGCG GCGGCGGCGG CGGCGGGAGG AGGCAGCGCCGCCGCCAAGA TGGCGGACCT GGAGGCGGTG CTGGCCGACG TGAGCTACCT GATGGCCATG GAGAAGAGCAAGGCCACGCC GGCCGCGCGC GCCAGCAAGA AGATACTGCT GCCCGAGCCC AGGTGAGGAG AAGCT TCCCAGTTAATACATAATCA ATATGCAATT TATTAATACA TCTCTCCATG TCCACTCCCC CTGTATCTTG CCATTCTTGACCTGCATTTC CATCCTCCTT ACCTTCCCTA GAGGCCAACT CATTTTCTTT GAAAAACCTG GCATTTCCCAGAAAAAAAAG TGAAGGGCTG GGAGCTGTCC GTTGTCCTGA TTTGCTCCCT CTGCCCTTGC TTCCAAATGTGGTTGGAAAG AAGCACTATT GAAAAATCCC TAAACGCACC CCTGCAGGGT TGGCTCTACC CTGTAGCCATGGACACATGC TGTTGATACC ACCTGCCTCA TGAGTCTCAC ATAATTTGCC CTTTCACACT ATCTACCCCATCAGCCTTAC CAAAACCATA CCTGCATCCT GGGCAGCATC TGCCCTTCAA GAGACTAAGG AATCTCCTTGCAACCAAGAA TGACTAGACC AATGAGACAC CCTTTAAGGC CCCAGCACAA TATAGAAATC CCACAATATGGTAATCCCAG TAAGGAGCTA TCAAGCCATT GCAGGACCAT CTAGAATACA ACTAGAGTAT AGTTCCTTTCAATCCAGGAA CTATACTCTA ACAGCTTGGC TCACAGGAAC CAGAAGTGAA GATGATGAGG ATCAGGGCTGAGCCTGTGAG CACCAGCTCC ACCACTGACA CCAACCACAG ATTAAACAAG CATCTTGTGG ACCCCTGGGATGGAAAGAAT AGTTGTTGCC TTATCAACCT CCCCCACAGC CCACACAGAA AAGATAAAAT CATCATGGCTACAGTGTTAC AGAAGATGAT GACCCAAGGA GTAGGCCTGC CTGAGTGAAT GCTGAGAGTG ATAATGGGAGCAGTAGCATC TCAGAGACTA CAGCAGAAAC CATCCACATA AAGAGCTTTG CCCAAACTTA TGATAAAGGGCACCCTCAGA GACTCTCCCT ACTTTAATAT TAGCCCATTG CAGAAATGGT GAGTGGAAAG AGAAATCTTAGGAAGAACCC CTTAAAAAAG CAAAATGCTT TTTAGGTTTG TGCTGAAGAG CCTGGAAAAG AAATAAGGACACACACGCTG AGAAATCTTC CTCCTGCCCC AACACTGGGA TAATCTCCAA GGATCTCTCC ATATCTCATTCTCCTGGATA CACTGTCCAC TCAGAAATAT TGTGCAGAGT GCAGTAATTC AAAAGTGAGC TATTGTGTTAGGAGTGAAGG CAAGAGTATC GTAAAATAAA TCAAATTTGA AATGAATTCT CTTAAATTGC TTTATAGATGTTTAATGTAA GCCAGCAGCT ATTAAACGAT AAACCTTAAA TTCGAGAAAA ACTTGGTCAT TCAGAAACTATAGAAACAGG CAGGACTTAT TGCGAGGGCA AACACAGAGT GAGCTCCAGC CTGCTTCAGG AAAATCTGCCAGTGCCATGA AGGATGTACT CTGTCTGCTC CACTGCACTA CTGCTCAGTA TGAGCCCATG CCATCAGCTGTCCCTGACCC ACAGGAGTTC TTTAGAAGAG ACTGGTCAAC AAAAGTTTCT AGGGTGTTTT ATACCTGCCAACTCGAGGGT TAAAACAAGT TGCATAGAAA TGCTCAATCA AGAAAGACAC AGTCATTACT CAGAGAATAATAAACAGCCT GGCAGCACAT GAATGAATAG AAAAAAGATG TTACATGCAA AGCATGAAAT AACCAAATTCCATAACAGAT GTTAATCTGT AATGTGTTTA GGAGAATTTA GAGGAAGTAT AAGATTTATT CTTTCATCAAAAAAATTATA GCCAATGAGG ATATATCTAT CAATTATCCA TCAAGTGGTG ATATGGCAGCACAAGGTAAAACACAAAGGA ATAAAACCAA CGTTTATTAA GAACCAATCA TGTGGCATTT CACATTGAGC ATCATATTTAATTCTGAAAA AAATCCTTGT ACTGTATCAT TCTTCATATT TTATGGATGC AGTAACTAAG GCTGAGAACTTTAAAATTTT TCCTAAGTTC AGACACATAG CTAAGTGGCA GAACCAAGAT TCAAACTCAC CCCATCTAACTGCAGAGCAA ACTGCATGCC TTAAATGTCA AAGTGAATAC TAGCACAGTT AATACAATGT TTGGAAACTCAGAGAAGGAA TGATCCCTCT GCATTATAGT TACTAAGGAA TCATTGCCAT TATTTAAATG CCAGTGCTTCTACATCAGGC CCAAATTTTC TGTCCTACTA ACTGTGAATC AAGACTTGAT TCAACCTCTA CTTGAGTATCTGCCGCAATG AGAAATCACT TACCTCCACT AACCACACAT TTATTTTATA ACAACAGATT GTTAGTAAGTCCTTTCTTAT ACATACTCAA CAGCTGCTTC CCAAGATGCT GTAGGATTAT GTCTAGAGTC AAACTAGCCAGAAGCAATGT CCAAAATACA CCATAACACT GTGCAGCAAA GGTCCTACTA CCACTTGTTT GGCCCAAACATTCTAGGCAG CACTGGATAT CTGAATCATC AATTATTTCC ACAAACACTG ACCCCTCTAC CAGTCACCCTCACTAGAAGA ATTAATTCCA CATGATAATA GCTCCCTCAT GTTACTCCCT TCTAAGTCAA ATTGTACACCCCTTTATCTG ATTAACAGAG TCTAAGTCAC ATGACCTAAA TGCAAGAGAA CTGGGAATGG ACGTTTGTGGATTCTACCTT AGTAAGGCAA AGTTATCATT GGGAATTCCT CTAATACAGG AAGGGTGTTC CAGAGACATTAAGGAGCCAT ATAAATGGAA AATGTCCACT ACAATCCATC ACTTGGTTGC CCCACATCAA CATTCATTCTTTTGCCACAC TTAAAGTTTC CAAGAACAAA AATTATCCCA CTGAACATAA TCTTTACTAI CTTTTATATAAAGGAAAATT AGACTTGACT CAGCAGAACT GAAATAACCC AGCTCTAACA GTTACTGCTT TTAACTTCAAGTACTGTGTC TCTAGGTGAT ACCTGCTCCA ACAATAGTTT GGTCACATTT TCAATTTGAT ATTCTCTAGTCTCCCAACTT GATAACTGTA CCCTAAACCA TAAAGTTCAC TACCAACATG CTATATATAA AATAACCAAAGGGGGAAGAA GAAAGAGAAA AAGGAAATCT CTTAAAATAC ACAGGTATAC ATATGACAAA GCAAAGAAGGAAATGTGAGC AGATAGTGCA GTCCTCGTTT CTGAAATTGG TCCCCTGACT GGGGCTATAC CTATTCCATTTCCTCACCCT CAGCCAGGCA GGTGGAGCAA AAACTTAAGT CTTGGTGGAT CTGAATCTTG ATGCTGTGGAGCTGTCTTAC TAGCCCCAGA CTACCTGCCT CTCAATTTCT AATTATATCA GTGAAAGCAA ACAGCTTTGATTTGTTTAAG CCTCTGATTT TTTGGTCTAA CTGATGTAAG ACCACAAGGA CAAGAGTTCT CCAGCTCCGGATTCTCTTCT GTTCTGTTAA TGGTGAAATG CCCGAGAGAA GAGTTGCCAA CTTTGGCAAA TAAAAAATACAGGATTCCAG TTAAATTCAA ATTTAGATAA ACAACAATTT TTTAGTATTA GTGTGTCCCA TTCAATATTTGGACATACTT AACTAAAAAA TGATTTGTTG TTCATCTGAA ATACAAATTT AACTGGGCAT TCTGAATATTCTCTGGCAAC CCCCGAGAGA GTGAAGAAAG TGGTACAAGG ACACTTAAGA AGACCAGATT TGAAAAGACATTACGGATGT GTTTAAATGT CTTATTCTAG AGAGAGTTAG AGCTGTAGGT AGAACTTGGG AAATTAAGTTAAAAGCAGAC ACAGAGACCT GGCCAATATA TACTAAGGAG TGGATCACTC TGGTCACAAG CCCAACCTGAGACCAAGGGC ATAGTGAGAT GATTTGGGAA AGGCACTTAT ACACTACTCA TCCCCGTCTT TGAACTAAATGCCTTATAAA TCTCCAAGAG AAATGACAGT CCACCATGTG GACTGCTTTC TGTAAGTCCA GGGAAAATAAAAGCTATGTG CTTGAAACCC ACTTCTGATA TTATAAGGTG TGTGATCTTT GTCATGTTAA TGGGTCTGAGTATCAATTCT ACAATTGTAA AGTGACAGTA ATGGTGTGTC CCCAGGTTGT TGTGGAAAGC TTGATTCTTAATGCAACAGT AGGAAACCCC AGCCTCTCTG GAGCAAACAC CCTTCTACAT CTTTACTTCC CCTGCACATTGGCAGGACTC TATTCCTCTA TTTCTCTCTA GTGCTAGAGC AGAAAGGGAC CTTGATTTGA TATCAGGAAAATCTATTTCT GAACCATAAG CTATGATAGC TGATTTAAAA AATTGACTAT CATGACATGA TAATGATCATAATGGTAATA CATATTGATA GGGTTGCCGT GAAAGTAATA ATATATCTAA GAGTTGTGAC AATATATGATACGCCTAGAC TCTCAGAAAA TGCTAATTCC AATCCCAATT GCTCTTTGCA TAAAGTTCTG TCCTAGGGTCTGTTCTTTTC CCACATCTAC CCTCCTTGGA TCTCTCTTCT GTCTTTTTCA TGTGGTTCAG AGGAGGAGAGAGATCCAGGT CAATGTTTTT CAAATTACAA GGAATTATCA TTTAAATGGG GAAGAAGCTC AAGTTTTGACGTGTAGTGGA ATTGGAGTGG AGTGGAGTGG AATGGAAACT AACAGGAAGA CACTGCACAT GGTTAAGATAAAGATTGTTT CCTGAAACCT TTAATTTGTG CTTACATACT CACACATACA TATGTGCATG CACTGGGACTCTGCAATATG CATTTCTGAC TATGGAACAT AGCCATAAAA GTCTTTGCAC TGAACGTTCA GTGGGCCTTTCACAAGCTGC CCTAATTGGG AAAGAAAAAC ATGGTCCCTC CATTTCCTGC CCCCAACTCC AGAAAAGTCACCATAGTTGA GGGTACATCT GAGAAGCCAG CACTTGGGAG TTCAGGGCTC AAGTTCCTTT CTAGAAAAACACTGGGTGAT TCTAGGGGAA CTTCCGATCA GAAACAGCCA ATTCAGAGTG AGAGAAGAAA ACGTGACCATGCAGTTCCTG TGGTTACCAG CCTTGCCCCT CTCTTGCCTT CTGGGAGTTA TAAAACCCAA GACTGGAAAGGAAAACCAGC ATTTGCTCAG GCAGCCTCTC TGGGAAGATG CTGCTTCTTC CTCTCCCCCT GCTGCTCTTTCTCTTGTGCT CCAGAGCTGA AGCTGGTGAG TATCAGGGTT CTTCCCTCTG AAATCTGCAG TATCAGCTCCTGAAACAAAG ATGTTTAGTC TGAAATAGCT GACTCCTAAA CAGGGTTCCA AGATCTCTCT TCAAGAGTCCCACAGAGGAA ATTTCCACTT GGGATGTGTG CCACCCCACC CCCACCCCCA CCCACTGCCA TTCTCTACAGCCTAGGACAC CCCCAGGAAC AAGGAATTTC ACCTCAATTG TAGAAAAGCC CAGAGCAAGT GGAAGGAAAAGGGGTATCCC CAGGAAAACA GACATGTCCT CTTAATCTTC TGAGCATCAG GGCTACCCAT TACTTTGTGACTTTCTCACT CTGTGACCAT GCTCAAGAGC TATGGAGAAA TCTAAAACAG GAACCTGGAC AGTGGGTCCTACACAGAGAC AGAGGAGAGT GGGCCAGGGC AAGGTGGGAG TGGGAGAAGT CTGAGATGAA AACATCAGAATGGAGCAGAG GCAAGAATGA GATTTCACCT GGGAGGTTAT GGGTGGGGAA AGATACGAAA TACAGGAGACAGGAGAGGGA AGATGGGCGG AACACAGGGT GAGAATGAGA TTCCAGGGAA GCCTAGCTCA GCTTTAACCCAATTTGTCCA TTCATTGGAG AGAGTATCTA TGGCCGTGTT CAAACCCTGG GGTGCTCTGT TCCAGGGGAGATCATCGGGG GCACAGAATG CAAGCCACAT TCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCAACGGTCCCTC AAAATTTTGT GGTGGTTTCC TTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGCAGGAAGGTGA GACAACAGGG TCTATTTATC TCCAAATGGG AGATGAACAA CCAGAGTAGC ATCCAGGAATACACCTGCAC TGGGGACTGA AGAGGGGGTC CTGGGTCTTG TCAACTTTCA GGAGAGGGAA GACTTTGGGCTGAAAGACTT TAGTCTGTGT TTGAATAGTT CCTTGAGCCT CAGTCACTGA GCTAAGCTCC CTTCGGAGGAAAAGGAGGTC CTGTCCGAAG GTCCCTCTTG TTGCAGTAGC ACCCCTCACC CCTACCCAAC TCAAGACACACGGCTCACTT TTCAGGGCCC CACCCAGTCT CAGGGCCACT TCCTCTATGG CCTTTTCAAG AACACTGGCTCTAGTTCTCA GGGTCCTGAA CCCATCATTT TATGGGAGCA GAGAACAGGT CTACATAAGA CCCCCACTTTCCCGTTTTAA CTGATATCTC CTGCTTCAGG GGCTGGCCCT CATGCAGGGT TCCCTGAATT AGGAAGTGTGAACCCTGTCC CCTGAGTCCT CCCTGGCCTG TTCAGTCCCC AGCAATTCCA GGGGTCGTAG AAATTGTGTCTGTTTCCTGA GAAAGCTCTT TCATGAGTTA AGCCTGAGCC CTCAAATGCC ACAAGTGGCC CATGAAAAGGGAGATGGGTA GAGTCCGGCN ACCCAGTGAC AGAGTTTAGT CCTCTTTTCT CAGAATGAGC TCACCTCAGAAGAAACCCCA AGCCATCACT GTCGCCTCCT TTTCCTTCCT TCTTCCTCAC AGCAGGTCTA TAACAGTCACCCTTGGAGCC CATAACATAA CAGAGGAAGA AGACACATGG CAGAAGCTTG AGGTTATAAA GCAATTCCGTCATCCAAAAT ATAACACTTC TACTCTTCAC CACGATATCA TGTTACTAAA GGTGACAACA CCTCTCTTCTCCCTTTCCAC TTCCCATTCT CCTAAGCTTC TCCTTCAGGT CCTCATTGCC CTGAATTTTT CTTAGGACTTGGCTATAACA TGAAGCTACT CACCCTGTCC CTCCCTGATC ACCTCCAACT GTCCAGAGCC CATTTCGAGGACTGACAGTC CTTCATTCCC TTCACAGTTG AAGGAGAAAG CCAGCCTGAC CCTGGCTGTG GGGACACTCCCCTTCCCATC ACAATTCAAC TTTGTCCCAC CTGGGAGAAT GTGCCGGGTG GCTGGCTGGG GAAGAACAGGTGTGTTGAAG CCGGGCTCAG ACACTCTGCA AGAGGTGAAG CTGAGACTCA TGGATCCCCA GGCCTGCAGCCACTTCAGAG ACTTTGACCA CAATCTTCAG CTGTGTGTGG GCAATCCCAG GAAGACAAAA TCTGCATTTAAGGTGATCCT CCAACTAGGT TTCCTCTCCA AAACTCACTG TTCAGGGACC TGAATGCTCT TAGAAGGAGATGGGGTCAGC AGGTTGTCAG TCAGGTGACA GGGTGAGCAT CACAGGAATT GCTGTCCTCC CGTGGTCCAAGACAGCCTCT GACCATCCAT TCCAGTCTAC TGCACTGGGG GCATGGGGTG ACTGTGGAGA ATGTGGATGACGGTCCCAAG AAAGGAAGAA GGGGCATCAG AACTAGATGT ATAAGTGAGG AGCTCCACCT CCTGGGTCTGACTTTAGGTC TCACTGTGAG TCCAAGCTGG CTGGCAGACA GGAGTGGAGG ACTTCCCGGG CTGACCTTCTTCTCTCTCTC CTCCCCCTAC AGGGAGACTC TGGGGGCCCT CTTCTGTGTG CTGGGGTGGC CCAGGGCATCGTATCCTATG GACGGTCGGA TGCAAAGCCC CCTGCTGTCT TCACCCGAAT CTCCCATTAC CGGCCCTGGATCAACCAGAT CCTGCAGGCA AATTAATCCT GGATCCTGAG CCAGCCTGAA GGGAAGCTGG AACTGGACCTTAGCAGCAAA GTGTGTGCAA CTCATTCTGG TTCTACCCTT GGTTCCCTCA GCCACAACCC TAAGCCTCCAAGAGGTCTCC TACAGGTAAC AGAACTTTCA ATAAACTTCA GTGAAGACAC AGCTTCTAGT CGTGAGTGTGTGTCCCTCTC TGCTGCTCTC TTCTCCTGCA CATGTGACCT GATTCCCAGC CCAAGCACCA AGGA CACCGCTCCTGTCAGCCAAC AAATATCCAT TGAGCGACAC CTGTGTCCCA GGTGCTGCTC TGGGCCCTGG GAGAAGTGCATCAGTGGGCT TGGTAGTAGA GGGTAGGGAT GGAGTGAAGG GTAGGCAGGA AGAATGTCCC CAGGCTGGTAGGAGGTGGGG TGGGGGGTTT CAGTCTCAAA ACTCCCATGA AAACCAGAGA GAAGTTTCAG AACTCCACCCAAGAGGCTGG GTTTCTAGGG CCCAGAGCTG CCCTCCCCCA CCCTAGAATG GGCTATAAAA GTCCCTTCCCAGCTACGTCC AGAGAAGAGC TGGAGGAAGT GAGAGGTCGG CTGGGGGTCC TCAAAGTGAG AGGGGAGCAGAGGATCCTCC CGTGCAGGCT GTGGATGTCA CTCACTTCCC AGCTGGTGAA GCCTCGCTGC AGAGATGCATCTGCTCCCAG CCCTGGCAGG GGTCCTGGCC ACACTCGTCC TCGCCCAGCC CTGTGAGGGC ACTGACCCAGGTAATAGTCC CCTAGACAGG CAAGGAGGAG GGAGGGGAAA TGGAAGGGGA AGCACTTGGG TCTTGGAGGGGGTCTTGTGG CTTGCTGAAC CCTGAGTCCC CATCTCTTTG AACAGCCTCC CCTGGGGCAG TGGAGACCTCGGTCCTGCGA GACTGCATAG CAGAGGCCAA GTTGCTGGTG GATGCTGCCT ACAATTGGAC CCAGAAGAGGTGGACTTGGG TCTGGGGGCT GCATGGGCCT GGGAGGATCA GT TAATACCTTG TGGGGTCAGG GAGCCCATGTCCCGTGCTGA TGTTATTTCC CCACCAGGTC CGGGCTGTCT CCAACCAGAT TGTGCGCTTC CCCAATGAGAGACTGACCTC CGACCGTGGC CGAGCCCTCA TGTTCATGCA GTGGGGCCAG TTCATTGACC ATGACCTGGACTTCTCCCCG GAGTCCCCGG CCAGAGTGGC CTTCACTGCA GGCGTTGACT GTGAGAGGAC CTGCGCCCAGCTGCCCCCCT GCTTTCCCAT CAAGGTACCT ACCCTCAGCC AATCTCCCAT GCCCTTGTGT GGCCTCCCCCAAAGGCAAGG TGCTGGGGGT GGGGATCTGG AAGACTGGAG CACCATCCTT AAGGAGCTGC CTGTGGAGCTAGGGTATGAG ACAGAGACAC AAG CACTGTCTCC TCTTCCATCT CAGATCCCAC CCAATGACCC CCGCATCAAGAACCAGCGTG ACTGCATCCC TTTCTTCCGC TCGGCACCCT CATGCCCCCA AAACAAGAAC AGAGTCCGCAACCAGATCAA CGCGCTCACC TCCTTTGTGG ACGCCAGCAT GGTGTATGGC AGTGAGGTCT CCCTCTCGCTGCGGCTCCGC AACCGGACCA ACTAGCTGGG GCTGCTGGCC ATCAACCAGC GCTTTCAAGA CAACGGCCGGGCCCTGCTGC CCTTCGACAA CCTGCACGAT GACCCCTGTC TCCTCACCAA CCGCTCGGCG CGCATCCCCTGCTTCCTGGC AGGTCAGACA GGGAGGAAGG TGGTGTCTTC CCAGGAAACA GCCATCCCTG GGGTCCCAACTGGGAAGCAA TGGTGGGATG TGGTGAAGGT ACATGGTTTG GGACCTCAGT ATTAGGCACA CCATAAGCATGGATCTGTGC AC TGAAGAGATG GAGGTCCAGT GAGGGCCAGG AGTTTGGCCC ACCCCGTCTC TCCCATCCCCAGCCCTGGGT CTACCCTGGT AGAAAGACAT TTCTCTGGGA AAGGCTGCAG TAAATCTGAG CTTGGGGTTTTCAAGGTGAC ACCCGATCAA CGGAAACCCC CAAACTGGCA GCCATGCACA CCCTCTTTAT GCGAGAGCACAACCGGCTGG CCACGGAGCT GAGACGCCTG AATCCCCGGT GGAATGGAGA CAAACTGTAC AATGAGGCTCGGAAGATCAT GGGGGCCATG GTCCAGGTAA GGAGCTCTGC ATCCCAGCAT CCCCC CTTTGTATCT CCACCCACCAATAGTAAATT AATGTTGTCA CATTTGACGT GATGACAATA AAGAATATGT CTGAGCCACC CTTTGAAAAGGCAAGGGTAT GGGTGAGTAG CCTCTGGGGA ATGTTCCTCC TGTCTTCCCT TCCAGATCAT CACCTACCGAGACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGG GGGTACTGCTCCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCCCTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCCTTCTTTGCCA GCTGGCGGAT CGTGTATGAA GGTGACCAGG TTTTCCAGGG GGCAAATGGG GGTGAGGGTGGGGAGCATGC CCTCCCCTAG GTGG TCCAGCTGCT TCATGTCTCT CCAGAACTCT GTTTCCTGAC AAACGTTACTAACATACCCG ACTGGCTTGT CCAGCTCTGG GCTAGCTTGG CATCATGTGA TAACCCAAGT AGCTTCCCAGAGGCTGGTCC AATCTGTGCT GCTCACATTC CCTGCCACCA GGGGGCATCG ACCCCATCCT CCGGGGCCTCATGGCCACCC CTGCCAAGCT GAACCGTCAG GATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTCGGCAAGTGAG GAGGATTGGG CTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCCAGGTGAGGGG GCTGTCCACC TCTTCTCCCA GCTTTGCTCG GGCCAGGCTG CTCAAGGGGT TCTGGGAAGACCCTGGTACC CGACTGCCTG GTAGGTTCTG GTGGCAGAAA CGAGGTGTTT TCACCAAAAG ACAGCGCAAGGCCCTGAGCA GAATTTCCTT GTCTCGAATT ATATGTGACA ATACCGGTAT CACCACGGTT TCAAGGGACATCTTCAGAGC CAACATCTAC CCTCGGGGCT TTGTGAACTG CAGCCGTATC CCCAGGTTGA ACCTATCAGCCTGGCGAGGG ACATGAGGCT TCTGCAGGTA AGGGGAGGCC ACCTCCAGCA CCCTGGGCTG GTTAAGCCTCACATCCTTCC CTGGATGGAT GGCTGAGTCC TCTTAGGTCT CTAAGCAGAG AAAACAGAAC TTGTCACTAGGTACTCTTTC CAAGTGGCTT CCCAATGTGC TAGTTTCTGG GCTGACAGTC AATTCCAGGC CCTAGGACTTTGGGGGGAAA TTAGGAGCAT CCAACTA GAATTCCGTG GCCAGGACCC CTGCCAGGGC ACTGACCCAGCCTCCCCTGG GGCAGTGGAG ACCTCGGTCC TGCGAGACTG CATAGCAGAG GCCAAGTTGC TGGTGGATGCTGCCTACAAT TGGACCCAGA AGAGCATCAA GCAGCGGCTT CGCAGCGGTT CAGCCAGCCC CATGGACCTCCTGTCCTACT TCAAACAACC GGTAGCAGCC ACCAGGACAG TTGTTCGGGC CGCAGATTAT ATGCATGTGGCTTTGGGGCT GCTTGAAGAG AAGTTACAAC CCCAGCGGTC CGGACCCTTC ATTGTCACTG ATGTGCTAACAGAACCACAG CTGCGGCTGC TGTCCCAGGC CAGTGGCTGT GCTCTCCGGG ACCAGGCCGA GCGCTGCAGCGACAAGTACC GCACCATCAC TGGACGGTGC AACAACAAGA GGAGACCCTT GCTAGGGGCC TCCAACCAGGCTCTGGCTCG CTGGCTGCCC GCCGAGTATG AGGATGGGCT GTCGCTCCCC TTCGGCTGGA CCCCCAGCAGGAGGCGCAAT GGCTTCCTTC TCCCTCTTGT CCGGGCTGTC TCCAACCAGA TTGTGCGCTT CCCCAATGAGAGACTGACCT CCGACCGTGG CCGAGCCCTC ATGTTCATGC AGTGGGGCCA GTTCATTGAC CATGACCTGGACTTCTCCCC GGAGTCCCCG GCCAGAGTGG CCTTCACTGC AGGCGTTGAC TGTGAGAGGA CCTGCGCCCAGCTGCCCCCC TGCTTTCCCA TCAAGATCCC ACCCAATGAC CCCCGCATCA AGAACCAGCG TGACTGCATCCCTTTCTTCC GCTCGGCACC CTCATGCCCC CAAAACAAGA ACAGAGTCCG CAACCAGATC AACGCGCTCACCTCCTTTGT GGACGCCAGC ATGGTGTATG GCAGTGAGGT CTCCCTCTCG CTGCGGCTCC GCAACCGGACCAACTACCTG GGGCTGCTGG CCATCAACCA GCGCTTTCAA GACAACGGCC GGGCCCTGCT GCCCTTCGACAACCTGCACG ATGACCCCTG TCTCCTCACC AACCGCTCGG CGCGCATCCC CTGCTTCCTG GCAGGTGACACCCGATCAAC GGAAACCCCC AAACTGGCAG CCATGCACAC CCTCTTTATG CGAGAGCACA ACCGGCTGGCCACCGAGCTG AGACGCCTGA ATCCCCGGTG GAATGGAGAC AAACTGTACA ATGAGGCTCG GAAGATCATGGGGGCCATGG TCCAGATCAT CACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGAGAACCCTGGG GCACTACAGG GGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGCCTTCCGCTTT GGCCACACAA TGCTCCAGCC CTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCACCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAA GGGGGCATCGACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAG GATGCCATGT TAGTGGATGAGCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGG CTGGACCTGG CAGCTCTCAA CATGCAACGAAGCCGGGACC ACGGCCTTCC AGGGTACAAT GCTTGGAGGC GCTTCTGTGG GCTCTCCCAG CCCCGGAATTTGGCACAGCT TAGCCGGGTG CTGAAAAACC AGGACTTGGC AAGGAAGTTC CTGAATTTGT ATGGAACACCTGACAACATT GACATCTGGA TTGGGGCCAT CGCTGAGCCT CTTTTGCCGG GGGCTCGAGT GGGGCCTCTTCTGGCTTGTC TGTTCGAGAA CCAGTTCAGA AGAGCCGAGA CGGAGACAGG TTCTGGTGGC AGAACGAGGTGTTTTCACCA AAGACAGCGC AAGGCCCTGA GCAGAATTTC CTTGTCTCGA ATTATATGTG ACAATACCGGTATCACCACG GTTTCAAGGG ACATCTTCAG AGCCAACATC TACCCTCGGG GCTTTGTGAA CTGCAGCCGTATCCCCAGGT TGAACCTATC AGCCTGGCGA GGGACATGAG GCTTCTGCAG GAGTCTATCC CAAGTCTCCAACTTTTGGAG ACAAGGGGAA GGGGAGGACC ATGAGGCTGC CTTGTCTCCC TGGAGCAAGT GCAGGCTCGTGACGCTTCTG CTGGCTACAG CTCAGAGCTG GGTTCCCCAG CCAGGAGTGA AGGCTGGGGG CTCCTATCAGCAATGGACCT TCCGCCTTGG GAGCCTCTTA GGTATTAGGC TATGAATCAG CGCCACGTGC AAAGGCTTGGGAGCCAAGCC ATGTGGTCTT GCACCCCAGG CAAGAAAAGT CAGCTGGAGG GTTTACAGCA CTTTCTACTGTTTCCCAGCC CTCCCTCCCC TCCCTCACCA TGACTAAGAG ACCACTCGGT CCTAGCCTCC AGACACCCCACAATACTCCT CTGAGCCTGA GGCCAGGCAG CATGCTCTGC TTCTACCAAT AAAGCACTGC CGGAATTCCATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAACCCTTGTAATC CTAGCACTTT GAGAGGCTGA AGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCATGGACAACAT GGTGAAACCC AGTCTCTACC AAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCCTGTAGTCCCA GCTACTCAGG AGGCTGAGGT GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGAGCAGAGATCG TGCCACTCCG CTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAAATAAATAAAA TAAATGAAAT GAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCATTATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGG ATGAGGTGTTAGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCT TTCCCTTCCA AAAACCTCAAGTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATC TAATATCACT GGCCTTCTGG AACCTGGGCATTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTGAGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGGCCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAACTGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT GATGTAACAGCAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTA ACTGTACACA AGCTGGGGACACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGA CCTTTATGCA AAAACAACTC TCTGGATGGCATGGGGTGAG TATAAATACT TCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGCTCCGGCCGCA GAGAACTCAG CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGGCAGTTCTAGA CAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGAGGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C CATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAATGAAATTATA GGCCGGGCAT TGTGGCTAAC CCTTGTAATC CTAGCACTTT GAGAGGCTGA AGTGGGCAGATCACTTGAGC TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCC AGTCTCTACC AAAAACACAAAAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGG AGGCTGAGGT GGGAGGATCGCTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCG CTCCAGTCTT GGTGACAGAATGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA TAAATGAAAT GAAATTATAA GAAATTACCACTTTTTCATG TAAGAAGTGA TCATTTCCAT TATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAAAGCTTACCTA GTGCTAAAGG ATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGCCTTCCTTCCT TTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATCTAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTTCCTGGACTCC TGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAGGAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCCTCTGTCTTAG CAGCCACCCT GCTGATGAAC TGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGTGAAGAGGCAC CACACAGAGT GATGTAACAG CAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCATAAATTAGCTA ACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGACCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACT TCTTGGCTGC CAGTGTGTTCATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCA GAGAACTCAG CCTCATTCCT GCTTTAAAATCTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGA CAGTCCCGAA GTTCTCAAGG CACAGGTCTCTTCCTGGTTT GACTGTCCTT ACCCCGGGGA GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C CTGCTTTAAAATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTA GACAGTCCCG AAGTTCTCAA GGCACAGGTCTCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGC AGCCAGCTGC AAGCCCCACA GTGAAGAACATCTGAGCTCA AATCCAGATA AGTGACATAA GTGACCTGCT TTGTAAAGCC ATAGAGATGG CCTGTCCTTGGAAATTTCTG TTCAAGACCA AATTCCACCA GTATGCAATG AATGGGGAAA AAGACATCAA CAACAATGTGGAGAAAGCCC CCTGTGCCAC CTCCAGTCCA GTGACACAGG ATGACCTTCA GTATCACAAC CTCAGCAAGCAGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAA GAAGTCTCCA GAATCTCTGG TCAAGCTGGATGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAA AACTGGGGCA GCGGGATGAC TTTCCAAGACACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGT CCAAATCTTG CCTGGGGTCC ATTATGACTCCCAAAAGTTT GACCAGAGGA CCCAGGGACA AGCCTACCCC TCCAGATGAG CTTCTACCTC AAGCTATCGAATTTGTCAAC CAATATTACG GCTCCTTCAA AGAGGCAAAA ATAGAGGAAC ATCTGGCCAG GGTGGAAGCGGTAACAAAGG AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTC GCCACCAAGCAGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCA GTGGTCCAAC CTGCAGGTCT TCGATGCCCGCAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGC AGACACGTGC GTTACTCCAC CAACAATGGCAACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTG ATGGCAAGCA CGACTTCCGG GTGTGGAATGCTCAGCTCAT CCGCTATGCT GGCTACCAGA TGCCAGATGG CAGCATCAGA GGGGACCCTG CCAACGTGGAATTCACTCAG CTGTGCATCG ACCTGGGCTG GAAGCCCAAG TACGGCCGCT TCGATGTGGT CCCCCTGGTCCTGCAGGCCA ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCT TGTGCTTGAG GTGGCCATGGAACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCC CTGCCTGCAG TGGCCAACATGCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCT GGTACATGGG CACAGAGATCGGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC TGGAGGAAGT GGGCAGGAGA ATGGGCCTGGAAACGCACAA GCTGGCCTCG CTCTGGAAAG ACCAGGCTGT CGTTGAGATC AACATTGCTG TGATCCATAGTTTTCAGAAG CAGAATGTGA CCATCATGGA CCACCACTCG GCTGCAGAAT CCTTCATGAA GTACATGCAGAATGAATACC GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGT CCCTCCCATG TCTGGGAGCATCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATC AGGTAGAGGCCTGGAAAACC CATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG AGATTCCATT GAAAGTCTTGGTCAAAGCTG TGCTCTTTGC CTGTATGCTG ATGCGCAAGA CAATGGCGTC CCGAGTCAGA GTCACCATCCTCTTTGCGAC AGAGACAGGA AAATCAGAGG CGCTGGCCTG GGACCTGGGG GCCTTATTCA GCTGTGCCTTCAACCCCAAG GTTGTCTGCA TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCT GCTGTTGGTGGTGACCAGTA CGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCG CTCTTCATGCTGAAAGAGCT CAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACC CTCGGTTCTGCGCCTTTGCT CATGACATTG ATCAGAAGCT GTCCCACCTG GGGGCCTCTC AGCTCACCCC GATGGGAGAAGGGGATGAGC TCAGTGGGCA GGAGGACGCC TTCCGCAGCT GGGCCGTGCA AACCTTCAAG GCAGCCTGTGAGACGTTTGA TGTCCGAGGC AAACAGCACA TTCAGATCCC CAAGCTCTAC ACCTCCAATG TGACCTGGGACCCGCACCAC TACAGGCTCG TGCAGGACTC ACAGCCTTTG GACCTCAGCA AAGCCCTCAG CAGCATGCATGCCAAGAACG TGTTCACCAT GAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCC AGCCGTGCCACCATCCTGGT GGAACTCTCC TGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGC ACCTTGGGGTTTGCCCAGGC AACCAGCCGG CCCTGGTCCA AGGCATCCTG GAGCGAGTGG TGGATGGCCC CACACCCCACCAGACAGTGC GCCTGGAGGA CCTGGATGAG AGTGGCAGCT ACTGGGTCAG TGACAAGAGG CTGCCCCCCTGCTCACTCAG CCAGGCCCTC ACCTACTCCC CGGACATCAC CACACCCCCA ACCCAGCTGC TGCTCCAAAAGCTGGCCCAG GTGGCCACAG AAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCC CTCAGAGTACAGCAAGTGGA AGTTCACCAA CAGCCCCACA TTCCTGGAGG TGCTAGAGGA GTTCCCGTCC CTGCGGGTGTCTGCTGGCTT CCTGCTTTCC CAGCTCCCCA TTCTGAAGCC CAGGTTCTAC TCCATCAGCT CCTCCCGGGATCACACGCCC ACGGAGATCC ACCTGACTGT GGCCGTGGTC ACCTACCACA CCGGAGATGG CCAGGGTCCCCTGCACCACG GTGTCTGCAG CACATGGCTC AACAGCCTGA AGCCCCAAGA CCCAGTGCCC TGCTTTGTGCGGAATGCCAG CGCCTTCCAC CTCCCCGAGG ATCCCTCCCA TCCTTGCATC CTCATCGGGC CTGGCACAGGCATCGTGCCC TTCCGCAGTT TCTGGCAGCA ACGGCTCCAT GACTCCCAGC ACAAGGGAGT GCGGGGAGGCCGCATGACCT TGGTGTTTGG GTGCCGCCGC CCAGATGAGG ACCACATCTA CCAGGAGGAG ATGCTGGAGATGGCCCAGAA GGGGGTGCTG CATGCGGTGC ACACAGCCTA TTCCCGCCTG CCTGGCAAGC CCAAGGTCTATGTTCAGGAC ATCCTGCGGC AGCAGCTGGC CAGCGAGGTG CTCCGTGTGC TCCACAAGGA GCCAGGCCACCTCTATGTTT GCGGGGATGT GCGCATGGCC CGGGACGTGG CCCACACCCT GAAGCAGCTG GTGGCTGCCAAGCTGAAATT GAATGAGGAG CAGGTCGAGG ACTATTTCTT TCAGCTCAAG AGCCAGAAGC GCTATCACGAAGATATCTTC GGTGCTGTAT TTCCTTACGA GGCGAAGAAG GACAGGGTGG CGGTGCAGCC CAGCAGCCTGGAGATGTCAG CGCTCTGAGG GCCTACAGGA GGGGTTAAAG CTGCCGGCAC AGAACTTAAG GATGGAGCCAGCTCTGCATT ATCTGAGGTC ACAGGGCCTG GGGAGATGGA GGAAAGTGAT ATCCCCCAGC CTCAAGTCTTATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGAC CTCCTAACAA GTAGCACCCT GGATTGATCGGAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGG AGACAAAATC TTAAATGCCA GGCCTGGCGAGTGGGTGAAA GATGGAACTT GCTGCTGAGT GCACCACTTC AAGTGACCAC CAGGAGGTGC TATCGCACCACTGTGTATTT AACTGCCTTG TGTACAGTTA TTTATGCCTC TGTATTTAAA AAACTAACAC CCAGTCTGTTCCCCATGGCC ACTTGGGTCT TCCCTGTATG ATTCCTTGAT GGAGATATTT ACATGAATTG CATTTTACTTTAATCGAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGG GCAACTTGAA GAGCGTGGCCCAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCT GTGCGGCAAG CAGGGCCCAGCCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT ACTCCCACCA GCGCCAGAAC ACAGCCCCCCGAGCTCCCCG CTAACCCAGC CCCCAGAGGG GCCCAAGTTC CCTCGTGTGA AGAACTGGGA GGTGGGGAGCATCACCTATG ACACCCTCAG CGCCCAGGCG CAGCAGGATG GGCCCTGCAC CCCAAGACGC TGCCTGGGCTCCCTGGTATT TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCG GCCCCTGAGC AGCTGCTGAGTCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCG GCTCCCAGGC CCACGAACAGCGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCT TAGGGAGAGC GAGCTGGTGTTCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT GGGCCGGATC CAGTGGGGGA AGCTGCAGGTGTTCGATGCC CGGGACTGCA GGTCTGCACA GGAAATGTTC ACCTACATCT GCAACCACAT CAAGTATGCCACCAACCGGG GCAACCTTCG CTCGGCCATC ACAGTGTTCC CGCAGCGCTG CCCTGGCCGA GGAGACTTCCGAATCTGGAA CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGAC GGCTCTGTGC GGGGGGACCCAGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAG GAAACGGTCG CTTCGACGTGCTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCT GCCCCCCGAG CTGGTCCTTGAGGTGCCCCT GGAGCACCCC ACGCTGGAGT GGTTTGCAGC CCTGGGCCTG CGCTGGTACG CCCTCCCGGCAGTGTCCAAC ATGCTGCTGG AAATTGGGGG CCTGGAGTTC CCCGCAGCCC CCTTCAGTGG CTGGTACATGAGCACTGAGA TCGGCACGAG GAACCTGTGT GACCCTCACC GCTACAACAT CCTGGAGGAT GTGGCTGTCTGCATGGACCT GGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCA GCAGTGGAAA TCAACGTGGCCGTGCTGCAC AGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACG CCGCCACGGC CTCTTTCATGAAGCACCTGG AGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTG GGCCTGGATC GTGCCCCCCATCTCGGGCAG CCTCACTCCT GTTTTCCATC AGGAGATGGT CAACTATTTC CTGTCCCCGG CCTTCCGCTACCAGCCAGAC CCCTGGAAGG GGAGTGCCGC CAAGGGCACC GGCATCACCA GGAAGAAGAC CTTTAAAGAAGTGGCCAACG CCGTGAAGAT CTCCGCCTCG CTCATGGGCA CGGTGATGGC GAAGCGAGTG AAGGCGACAATCCTGTATGG CTCCGAGACC GGCCGGGCCC AGAGCTACGC ACAGCAGCTG GGGAGACTCT TCCGGAAGGCTTTTGATCCC CGGGTCCTGT GTATGGATGA GTATGACGTG GTGTCCCTCG AACACGAGAC GCTGGTGCTGGTGGTAACCA GCACATTTGG GAATGGGGAT CCCCCGGAGA ATGGAGAGAG CTTTGCAGCT GCCCTGATGGAGATGTCCGG CCCCTACAAC AGCTCCCCTC GGCCGGAACA GCACAAGAGT TATAAGATCCGCTTCAACAGCATCTCCTGC TCAGACCCAC TGGTGTCCTC TTGGCGGCGG AAGAGGAAGG AGTCCAGTAA CACAGACAGTGCAGGGGCCC TGGGCACCCT CAGGTTCTGT GTGTTCGGGC TCGGCTCCCG GGCATACCCC CACTTCTGCGCCTTTGCTCG TGCCGTGGAC ACACGGCTGG AGGAACTGGG CGGGGAGCGG CTGCTGCAGC TGGGCCAGGGCGACGAGCTG TGCGGCCAGG AGGAGGCCTT CCGAGGCTGG GCCCAGGCTG CCTTCCAGGC CGCCTGTGAGACCTTCTGTG TGGGAGAGGA TGCCAAGGCC GCCGCCCGAG ACATCTTCAG CCCCAAACGG AGCTGGAAGCGCCAGAGGTA CCGGCTGAGC GCCCAGGCCG AGGGCCTGCA GTTGCTGCCA GGTCTGATCC ACGTGCACAGGCGGAAGATG TTCCAGGCTA CAATCCGCTC AGTGGAAAAC CTGCAAAGCA GCAAGTCCAC GAGGGCCACCATCCTGGTGC GCCTGGACAC CGGAGGCCAG GAGGGGCTGC AGTACCAGCC GGGGGACCAC ATAGGTGTCTGCCCGCCCAA CCGGCCCGGC CTTGTGGAGG CGCTGCTGAG CCGCGTGGAG GACCCGCCGG CGCCCACTGAGCCCGTGGCA GTAGAGCAGC TGGAGAAGGG CAGCCCTGGT GGCCCTCCCC CCGGCTGGGT GCGGGACCCCCGGCTGCCCC CGTGCACGCT GCGCCAGGCT CTCACCTTCT TCCTGGACAT CACCTCCCCA CCCAGCCCTCAGCTCTTGCG GCTGCTCAGC ACCTTGGCAG AAGAGCCCAG GGAACAGCAG GAGCTGGAGG CCCTCAGCCAGGATCCCCGA CGCTACGAGG AGTGGAAGTG GTTCCGCTGC CCCACGCTGC TGGAGGTGCT GGAGCAGTTCCCGTCGGTGG CGCTGCCTGC CCCACTGCTC CTCACCCAGC TGCCTCTGCT CCAGCCCCGG TACTACTCAGTCAGCTCGGC ACCCAGCACC CACCCAGGAG AGATCCACCT CACTGTAGCT GTGCTGGCAT ACAGGACTCAGGATGGGCTG GGCCCCCTGC ACTATGGAGT CTGCTCCACG TGGCTAAGCC AGCTCAAGCC CGGAGACCCTGTGCCCTGCT TCATCCGGGG GGCTCCCTCC TTCCGGCTGC CACCCGATCC CAGCTTGCCC TGCATCCTGGTGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTG GCAGGAGCGG CTGCATGACA TTGAGAGCAAAGGGCTGCAG CCCACTCCCA TGACTTTGGT GTTCGGCTGC CGATGCTCCC AACTTGACCA TCTCTACCGCGACGAGGTGC AGAACGCCCA GCAGCGCGGG GTGTTTGGCC GAGTCCTCAC CGCCTTCTCC CGGGAACCTGACAACCCCAA GACCTACGTG CAGGACATCC TGAGGACGGA GCTGGCTGCG GAGGTGCACC GCGTGCTGTGCCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACC ATGGCAACCA ACGTCCTGCA GACCGTGCAGCGCATCCTGG CGACGGAGGG CGACATGGAG CTGGACGAGG CCGGCGACGT CATCGGCGTG CTGCGGGATCAGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCG CACCCAGGAG GTGACAAGCC GCATACGCACCCAGAGCTTT TCCTTGCAGG AGCGTCAGTT GCGGGGCGCA GTGCCCTGGG CGTTCGACCC TCCCGGCTCAGACACCAACA GCCCCTGAGA GCCGCCTGGC TTTCCCTTCC AGTTCCGGGA GAGCGGCTGC CCGACTCAGGTCCGCCCGAC CAGGATCAGC CCCGCTCCTC CCCTCTTGAG GTGGTGCCTT CTCACATCTG TCCAGAGGCTGCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCC CTCTCTAGGC CTGTTGCCTCGGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCC AGGGCCTACT GCCACCCGCTTCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT CTCAGGAGTA TCTTACCTGT AAAGTCTAATCTCTAAATCA AGTATTTATT ATTGAAGATT TACCATAAGG GACTGTGCCA GATGTTAGGA GAACTACTAAAGTGCCTACC CCAGCTC (2) SEQ ID NO: 3004 data:

(i) sequence characteristics:

(A) length: 209279 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3004 sequence description: CCT CCT TCC TGG TCT GTC TGC CBG BCB BBT TTG GGB BGT GBB CBG TTT TGG BBC CBT GTTTCC CBG TCT CTG BGC TGT GGC GCC CTG CTG CTC TTT CTG CT TCC CTT GGT GGG TTG GGC CGCT GGT TGT TCT GGG GTT C TTG CTG CCC CTT CTG TCC C TGT TTG CTG GTG TCT GCG C CCCCCCCBB CBG BBG BBG CBG BCB BBT TTG GGB BGT GBB CBG TTT TGG BBC CBT GTT TCC TGT GCGCTC GGC CTG GTC CCG G GGG TCT CCT CTT GTT GTT GC TTG CGC CTC CTG CTG GGG GT CC CTCTGT TCT TGT TTT GGG GGC GGG CCC GGC CGT TGT CTT G GTT TGG GGG TTT CCG TTG GGG TTCTCC TGG CCC GGG CCT TGC CC GGC CGT GGT CCC GGC TTC GTTCCT GTC TCC GTC TCG GCT CTTCTG GGG CCT TGC GCT GTC TTT GGT G GCB CCG TCC BGT GBT GGT GCG GTB CTT GTC GCT GCBGCG CTC GGC CTG GTC CCG GBG BGC GCG CGG GCC GGG GGC TGC TGG G GGT TGG CCC GGG GTGCCC C GCC GCT GGG TGC CCT CGT CCT CTG CGG TC GTG TCT CCT GGC TCT GGT TCC CC GCT GCGCCC GTT GTC CTC TGG GGT GGC CTT C GCT CCC GGG TCT GGT TCT TGT GT TGG GGG TCC CTTTTT GGG CCT GTT GT GGC GTG GCT TGT GTG TTC GGT TTC TGC CCT GTC CTC CGG CGT CCC CGGBGC CTC CCC GGG GCB GGB TGB CTT TTG BGG GGG BCB CBG BTG TCT GGG CBT TGC CBG GTC CTGGGB BCB GBG CCC CGB GCB GGB CCB GGB GTG CGG GCB GCG CGG GCC GGG GGC TGC TGG GBG CCBTBG CGB GGC TGB G CCT CTT TTC TGT TTT TCC C CTC TGC CTT TGT TTG GGT TCG CTT CCTTTC TGC TTC TTC C CTG TGT CTC CTG TCT CCG CTT TTT TCT TC GTC TTT GTT GTT TTC TCTTCC TTG CTG BGC BBG BTB TCT BGB TTC TGG GGT GGT CTC GBT TTT BBBB GCT TGB GBB GCTGCB BBC BTT BTC CBB BGT BTB TTT GBG GCT CCB BGG BCG BCC BTC TTC CCB GGC BTT TTBBGT TGC TGT CGT BBG GBG CTG BGB GBB BCT GTG BBB TCB TGB CBB GBG TTCTTT TCB CCC GTT CTT GGC TTC TTC TGT C CGT TGG CTT CTC GTT GTC CC TGT GGG CTT CTCGTT GTC CC CCC TTC GGG GGC TGG TGG GGC CGT CCT TGC CTG CTG G GTT CTT GGC TTC TTCTGT CCG T TGG CTT CTC GTT GTC CC TGT GGG CTT CTC GTT GTC CC CCC TTC GGG GGC TGGTGG GGC CGT CCT TGC CTG CTG G TTT TCT CTT TCG CTT TCT TTT CGT CTC CTG TTC CTC CTTTT TTG CTG TTT TTT CTC CTT CTT CTC TCC TTT CTT TTC TTT TCT CTT TCG CTT TCT TTT CGTCTC CTG TTC CTC CTT TT TTG CTG TTT TTT CTC CTTCTT CTC TCC TTT CTT TTC CTC TGT CTTGTT CTG GTC CTT CGT GGG GCT CTG TGT CGC GTG G GTG CGG CCG TGG CC GGC GGB CCB GGBGTT GGB GCB GGB GCB GGB CGG GCB GGC GGC TCB TGT TTG GBT CGG CBG GBG GCB CTC CTCTGG TTG GCT TCC TTC GCC GGC BCB TGC TBG CBG GBB CBG BGG GGG BBG CBG TTG GGBGGT GBG BCG CBG GBG BCG CBT TBG GTG TCG B TCCCTGTTTC CCCCCTTTCG TTCTGCGTTT GCCTTTGGCGTTTTTTGTTT GTTTTCTCTC TCCGTCTTTC TTCTCCCCT GTGGGBBTTT CTGTGGGGBT GGCBTBBCBCBCBCG GTG TCG B TCCCTGTTTC CCCCCTTTCG TTCTGCGTTT GCCTTTGGCGTTTTTTGTTT GTTTTCTCTC TCCGTCTTTC TTCTCCCCT GTGGGBT CTBG CTB CBG CBGBB TGB BGCB TCCTCBTGGC TCTGBBBCGGGGGATTTCTGTGGGGBTG GCATACACGT AGGCAGCTCC AAGAGCTAGC AAACTCAAAT GCAGAAGCATC CTCATGGCTCTGAAACG GGGGGTGGCT TCCTGCCGCG TCTCTGGGCC GTCCCGTCCC TCGGCCCCGC GCCGCGCTCGGCTCCTCTCC CTCTGGCCCG GCTCGGGGCG GGGCGGGGCG GTGGGCGGGC GGCGCTGCCC TGCGCGCGGCGCTGGCCCCT GCTGGCCGTC GGCTGCGCGC TGCTGGCTGC CCTGCTGGCC GCGCCGGGGC CTGTCCGCCTCTGCGGGCGC TGTCTCCTGG CTTGTCTTCC GGCTCTTCTG CTGGGGTGGG GCTGGGCGGC CGGCCCGGTGCTGGGGCTCC TCGGGGGGGG GGGCTCTTCC GGGCTGTCTC CCTCCGGGGC GGGGGTTTCT GGCCGTGGGGGTCTTGCCTG GCCTCCGGGC TCCTGCTTGT CTTGCCTTCC TTCTCTGGTC GGTTGTGGCT CGGGGCTCCGTGGGTCCCTG GCGCCCGTTT GTGTTTTGTC TTTTCCCCTG GCGTCCCTGT GCCCCTCTCC TCTCCTTCCTCTGCTTCTCG CTCTCCTTTG TGGGGCCCTC CCTGCTGCTC TTGGTTTTGG GCTTTTTTTC TCTTCCTCCTTTTTCGTGCG TGGGCCTCC GCACGCCTCT TGCCACCTCC TGCGCAGGGC AGCGCCTTGG GGCCAGCGCCGCTCCCGGCG CGGCCAGCAG GGCAGCCAGC AGCGCGCAGC CGACGGCCAG CATGCTTCCT CCTCGGCTACCACTCCATGG TCCCGCAGAG GCGGACAGGC GCBCGCCTCTCTCTTTGCCBCCTC CTGCGCBGGGCBGCCTTGGGGCCBGCGC CGCTCCGGC GCGGCCGGGCBGCCCGGGGCBGCCCGBG CBGCGCBG CCGBCGGCCB GCBTCGCGGCGGGCTTCCTCCCGCGGGCTB CCBCGCTGCGTG GTCCCGGCBGCGGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGCTCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGGGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCG GCCGGGGCBGCB GTTGGGCCCBCBCBCGGGGCCGGGGCTGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGGCCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCG CCTTTCCGCCCTGGGGCCCC CCTGTCTTCT TGGGGCCTCT TCCCTCTGGG GGCCGTCTC TCTCCCTCTC TTGCGTCTCTCTCTTTCTCT CTCTCTCTTC CCCTTTCCCG CTCTTTCTGT CTCGGTGTCT GGTTTTCTCT CTCCGCTGGCTGCCTGTCTG GCCTGCGCTC TTGGCCTGTG CTGTTCCTCC TCCGGTTCCT GTCCTCTCTG TCTGTCGCCCCCTCTGGGGT CTCCCTCTGG CGTGGTGGTC TTGTTGCTTG GGCTGGGCTC CGTGTCTCCB GTGCTCBTGGTGTCCGCTGB GGGBGCGTCT GCTGGC CTGCTGBGGC TTGGGTCTCC GGGCGBTTCT CTGCBGBBGBTGCTCBGGGCTCCGGCBG TTCCTCCTTG BTGGTCGCT GTCGTBCCCGBCG CGGBCCGBCCBGT TTTTCBTCBTTTGGCT CCTTCTGCGCGCBBBCBG CTGBGCGBGTGGBG BCBBGBGBBBBBBBBBBBBBBCBBBCBBGGCCGBGGGTTTTCBTGT GBCGCBGT CCCGCGGGGT GCTGAGTTTC TCTGGTTCCT CCGBGCBCGTGGTCGC CGCGTTTCTC TGGTTCCTCC GGTCCCGCGG GGTGCTGTCT GGTCGCTGTC GTGGCTTGGGTCTCCGGGCG GTTTCCTTCC TTTTCCGC CGGCCCTTCT CACTGGAGGC ACCGGGCAGT CCTCCATGGGAGGGTTGGGC TTGGCCGGGG CTGCCCGGTG CCTCCTCTTG GCTGGTCCCT CGTTGTCCTT GGGCCCCGCTCCCGCTGCT CGGCCTCCGT GTTCTTTGGC CTCTTGCTCC GCCTGCTGTC TTGTCCCGTC CCCTCCTCGCTTGCGTTTCC CTCTTCCTTG TCTTCCAGGC CTTCCTCCGC TTCCGCTGCT GGGGCCCGCG CCGGGGGGGCGCTCGGCTCC GCGGCTTCCT CCCCGGCTGG GGGGTCCTGG TCTCCGGGGC CTGCGGCTCG CGGGCTCGGGGCTGCGTGCG CCGCGCGCGG CGTCCGCGGT GGGTGGCGCT GTCCCGCCGT GGTGTGTCTC CGTTCTCGTCCTGCGCCGTC CTGGTCTGCC CGTGGGGTCC TGGGCGTGGT GGGGGGCGTC TGGTGCCTCG TCTGCCCCGTGGGGCTTCGG GCTCGGGGCT GTTCGTCCCC CCTGCCGCTC TGTGGCCTCC GGGGCTCCTC GTTTTCGCTGCTTCGGGTGT CCTTCTCGGC GTGTGGCCCC GGGTCCCGGC CCTGCTGGGC TGGGCGGGGT CGCTGCCCTGGGCTTCTGGC CCGTCTGGTT GTCTGTCGGT GCTTGTCTCG GGTTTCTGGC CTCTGTGCTG GGCGCTTCTCTGCCTCCTGC TCCGCCCTCC TGGTGGCTCG GCTGGGGGTG CCCGTGCGGG GGTGGGTGTG GGGTGTTTTCGGGGTCCTCC CCTTCCC GTT TCA TCT TGG CTT TAT CCTCT CCC CTT GTT CCT CCC CTCT CCT GCTCTG GRG TCT CCT C TTC CCT CCC TCC CCT GCC GTG TTG TCT GTG GGT GTC GTT TCG CTC TTGTTG CCC TGG GCC CTT CCC TGC TGG GGG GGA GTT TCA TCT TGG GTT TCB TCT TGG CTT TBTCCTCT CCC CTT GTT CCT CCC CTCT CCT GCT CTG GRG TCT CCT C TTC CCT CCC TCC CCT GCCGTG TTG TCT GTG GGT GTC GTT TCG CTC TTG TTG CCC TGG GCC CTT CCC TGC TGG GGG GGBGTT TCB TCT TGG GGG GGB GTT TCB TCT TGG CTT T CCGTGTTGTC BGTGGTGCTG CCCGTTGBGGTBTGGCT CCBCCBBTTC CCTTTTCTCC TTGTTTTCCG TTTCTCTTGC CGTCTGTGGT T GCTCAGCCTCCAAAGGAGCC AGCCTCTCCC CAGTTCCTGA AATCCTGAGT GTTGCCTGCC AGTCGCCATG AGAACTTCCTACCTTCTGCT GTTTACTCTC TGCTTACTTT TGTCTGAGAT GGCCTCAGGT GGTAACTTTC TCACAGGCCTTGGCCACAGA TCTGATCATT ACAATTGCGT CAGCAGTGGA GGGCAATGTC TCTATTCTGC CTGCCCGATCTTTACCAAAA TTCAAGGCAC CTGTTACAGA GGGAAGGCCA AGTGCTGCAA GTGAGCTGGG AGTGACCAGAAGAAATGACG CAGAAGTGAA ATGAACTTTT TATAAGCATT CTTTTAATAA AGGAAAATTG CTTTTGAAGT ATATCCTTTAAG TCAATGGACT TTGCATCAGT CACACCATCT TTTGTTACTT TGGACTTCCC CAGCTATGTTCAATAATTAC TGTTCTTCCC TTGGGCCCCA TTGTAATGGC TACAGCCTCG ACAAAAAGTC TACACTTTGAAGCATTAAGG CTCGGACATC AGCACCAAAT TTTACATCTT TACCATCACT TCAAGTGAGG TGAGGAGCCAGTAGCCTGGA CACTGGTCTC ATCTGGTGAA AGACTGTGGG TAATGGAAGC ATTTCTGTGG GGTGCTGGCAGGACATGTGC ATGGCGAGGC AGGTCATCAG CAGCAAGTGA GAGCTGCCTC TTACTTTCTA AAGGTGACATAGCAAATATA CAAAAAAAAA TAAATAAATT ATTAATTTAG GTAGAGCACA TAAAGGCTTT ATTTCATATTCCATTTCTCT GTATGCTTTC TTCACCAGGA AGAAATAGTT TTAGTGTCAG GAATGAATGA GTCTGCCCCTCAATTCCAGC CTGCTCAACA CACAAGGAAA CAAAGCCCTG ACAATCAGAG TGACTCCCTG GTGACTAAGCTCCCAGTCCT GGATGCATAT TTGTTTAGCA GTTCTGACAG CATTTGACCC AGCCCTCTCT CTGCATATCCCATCAGAACC TTCTTTTTTT TTTTTTTCTT TGAGACTGAG TCTTGCTCTG TCGGAAGCGA CTCCTGTGCCTCAGCCTCCC AAATACCTGG AATTATAGGC GTAAGCCATC ATGCCTGGCT AATTTTTGTA TTTTTCATGGAGATGGGGTT TTGCCATGTT GGTCAAATTG GTCTCACACT CCTGACCTCA TGTGATCCAC CTGCCTCAGCCTCCCAAACT GCTGGGATGA CAGGTGTAAG CCACCATGCT AGGCTCAGAA ATTTCCTTTT ATAAAAATGTCATTAAGGAT CTTGGCTGCA CAATATCGTT ACCAGCTTCC TTTAAATCCA CTTCTGGCCT GCCAGGAATCAGGTTCTTCA GAACCTGACA TTTTAAATGA AGAGGTCAGG CAGTTCATGA GGAAAGCCTC ATTGTCCCCATGTCTCTGTC ACTGCTGCAC CCCTGAGACA TCACAGACAT GGACACTGGG GCCTGCTTGT TTCTCAAACTGCCCTTAGAT CGAAAGAGGG AGGAACCAGG ATGAATGCCA CTCATTTTCC CAAGAAAGGC CCTCTCCTGAGTGCCCGGGA TGGGGCTCTG TCCATTGCCT GGGGCCGCCA ATTGCTACTC TGGGTTACGG AGGAAGGACAGGGTCCTGAG AGACACCAGA GACCTCACAC AGCCCTGAAA ACATGGGGCT CCTTCATAAG TGTTTCCCATCACCAACAGG GAGACCACGT GGAGGCCTTG CAGCCCCACT CGGTGCTTCT CCACCAAATC CCAAGGGCAGTGACGCTGAC GTCTGTGGAA AGCAGAGAAA GCCCTGGCTC CCAAAGCCCT GAAGTCCCTG TGGAGCTGACATTCCCTGAG TGACGGTGTG AATGGAAGGA ACTCAAGTGC GGGTGGTAGG CCACCTCCTG GCCCAGGCCTGGGTGAACTC TGAGGGGACA CATGTAGTCA CAATCCCATC CTCCCATTCT CCTTCTCAGA GGAAGGAAGTGGGCATCCAT CTGCCTCATC TCTCTCCCGT GGGGAAGATG GGGAGTTTCA GGGGAACTTT CACATAAATTTCACCAGCTC AGATCTCCTG TGAGGATGGG GCCCACCATG CTCCCGGTGC TGCCAGAGGC CCTGAGCCCCTCCCAGGGTC CCTGGGTTTG AGCCAGCCCT GTATCATCCC CAGGAGCTGA ATGTCAGAGC AATGGATAGAATTAGATGGA AAGAGCTCTC AATTTGACCT GAGACTGTCC CCAGATACTC AGGAAAAACA GGACGTCGCACAGAGTGGGC AGCAGGTGAG TGGCAGGTTA TAGGTCCTGA GTTTGAGTTT GTTCTCACGT GAGACAGACCCAGCCCCTCA CTCCATTCAC ACACTGGGTT TTAAATGGTG CAAGATAGGA GCAATTTTCT GGTCCCAAGAGCAGGAGGAA GGGATTTTCT GGGGTTTCCT GAGTCCAGAT TTGCATAAGA TCTCCTGAGT GTGCATTGTTCTTTGAGGAC CATTCTCTGA CTCACCAGGT AAGTGGCTGA ATTCTAACCT CTGTAATGAG CATTGCACCCAATACCAGTT CTGAACTCTA CCTGGTGACC AGGGACCAGG ACCTTTATAA GGTGGAAGGC TTGATGTCCTCCCCAGACTC AGCTCCTGGT GAAGCTCCCA GCCATCAGCC ATGAGGGTCT TGTATCTCCT CTTCTCGTTCCTCTTCATAT TCCTGATGCC TCTTCCAGGT GAGATGGGCC AGGGAAATAG GAGGGTTGGC CAAATGGAAGAATGGCGTAG AAGTTCTCTG TCTCCTCTCA TTCCCCTCCA CCTATCTCTC CCTCATCCCT CTCTCTCCTTCCTCTCTCTG TGTGTCCCCT CCATCCTTTT CTCCTGCTTC TCTCTCTTCT TCCCTCTCTC TCTTTTTTCTGTCTTTCTTT TTCCTCTCTC CCTAGAGCAT GTCTTTCTTT CTTTCTCTTT CCTTTCTTCT ACCCACACTTTTAGACTGAA TGCCCTATTT AATTGAACAA AGCATTGCTT CCTTCAATAG AAAAGGAGTT TGAGAACCCAATGGACACCT CACTCGTTCT TCTAAGCCAA TATGAAGGAG CCCAGTAGCT TGTAAATATC ATCTCTTCACTGCTTTCCAT GCTACAACTG CTGAGACTAT GGTTGAAACC TGTTAGGTGA CTTTTTAAAT AAAAGGCAGAAATTTTGATT TTATCTAAAG AAAGTAGTAT AGAATGTCAT TTTCTAAATT TTTATATTTA AAGGGTAGATACTGCAACCT AGAGAATTCC AGATAATCTT AAGGCCCAGC CTATACTGTG AGAACTACTG CAGCAAGACACTCTGCCTCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG TACAGCCCAT TGAAACCTAC TTTTAAACCT GGATGCCTAA CCTTCATTTT CTCCTTGATATTATGAAAAT AAAATAAAAA CCATGAAAGG ATAAAAGAGG GAGAGTGGAA GGGAAGGATG GAGAAAGGGAAAAAGAAAAT TTGAGAGTAA ATCCTAAAAC AATTAATCTA ATAGATATCA TCTTGTGAAA TCCTCATTTTACCAATCTTA TTTATGAGTC CTGGGTTTTG TGAGAACAAT GGGGTTCTGA GAGGCACCAG AGACCTCATGTTTTCCAAAA CCTAGAACAG TATAATGAAG GAAGGCGGGG AGGCAGGGAG GCAGGGAGGC AGGGAGGCAGGGAGGCGGGC AGGTGGGGAG GGAGGGACGG AAGGAGGGAG GGAGGGAGGG AGGGAGGGAG GGAGGGATAAAAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATGGTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCATCTTTTTATCC CATCTCAGGT CAAATACTTA ACAGACTAAA TGATTTGAAA AAGCAAAAGT TTACTGGCTTGTGTGTGTTA AAATGGAGGT ATGGTGGCTT TGATATTATC TTCTTGTGGT GGAGCTGAAT TCACAAGAGATCGTTGCTGA GCTCCTACCA GACCCCACCT GGAGGCCCCA GTCACTCAGG AGAGATCAGG GTCTTTCACAATCAGGTTCT ACAAAAATAA ACATCCCCCC AACCACAGCA GTGCCAGTTT CCATGTCAGA AACTTAGATCCAAATGACTG ACTCGCGTCT CATTATCATG ATGGAAAAGC CCAGGCTTGA GAAAGAAGCC CGCTGCGGATTTACTCAAGG CGATACTGAC ACAGGGTTTG TGTTTTTCCA ACATGAGTTT TGAGTTCTTA CACGCTGTTTGCTCTTTTTG TGTGTTTTTT CCCTGTTAGG TGTTTTTGGT GGTATAGGCG ATCCTGTTAC CTGCCTTAAGAGTGGAGCCA TATGTCATCC AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTGGAACAAAATG CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGCTCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC AATCTTTATCCTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA TATCCTTGAA ACACCTTTTTCTGCTCTCCA GGAAGGGGTC AGGGCTGCCA CAGCGGGGCT TGGAGTGCTT TCCAGGGTCA CAGGCATCTGTATTCTTTGG ATTCCTTGAC CTTCCCCATT TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCCTGCATCCTCC CCTTGCATGC CCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGACCAGTTCCCTC ATGGAATCAT AGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGACTCCCTTCTTC TGGCTAAGGT TTCTTATGCA ATTAT CTGCAGTGGT AAAAAGATTC TATATCTGCT GTTTGATGAATGCAGCACCC ACTAGCCACA TAGTGCTCGT GAGCACTTGC AATGCGGCTA GGGTGATTTC AATTAACCTAAAAGAGAACA GCCACAGGGA GCATGTGGCT GCCATATTGG ATGGTGCTGC TTTGAGAACA AAATGAGAGAAATGAAGCCT CTATTTACCT TGGTTGGCGG AACACATTGA AGGGACTCTG TATTGATACC AGGCTTCAAACTTTGGGAAG TGTACTGGCC AACTTAAACA CATCCACAGG AGAATGAAGA GGTTTGGGAA GGGACCAGAAACCAGGCATT GAGGACAATG AGAAGAGTTT TTCAAAAGTG GAATTACTGC AAAAAGTGGA AAAATAGCCTTTGGATGGAA GTTACTGATG AGACAATTTC CATCGGTGTG AAAGCCATCT TTCCAACAGA GATCTGCAACATGAGAATGT ACTGTCTCCT AGGGTAGCGA TGGCCTCTTG TATTAGTCCG CTCAGGCTAC CAGATTTATCGTTTAAACTG CCCATAAACA GACCAGGCAG TTTAAACAAC AGAAATTTAT TTCCTCGCAG TCCTGGAGGCAGGAAGTCTG CGATCAAGGT GGAAGCAGGG TTGGCTTCTT CTCAGGTGTC TGTCCTTGGC TGGTAGATGACCGCCGCCTC CCTGGGTCCT CACATGGTCT TTCCTCTGTG TGTGTCTGTC CCAATCTCTT CTTATAAGGATGCAAGTCTT ATGGATCAGA GCACACCCCA ATGACCGTGT TTAACTTGAA TCACCTCTTT AAAGTTTCTCTCTCCAAATA CAATCACCTC CTGAGGCACT GTTAGGGCTT CGACACAGGA ATTCTTTTCC TAGGGGATTCAGTTCAGTCC AAAACGCCTA CCAGTGGAGA CTTGCAACAT GGCGGCCTGC TGGTCCCTCG CCAGGAATATCACAGGCGAC TGTTCCCTGT TGCATGGAAT AGAAGGCTAT TCCAGAGTAC TGTCTCTATT TATCAGATCTGGGATACTGG GAGAAGGGCA AAATAAAGTC CAAGTAGAAA AAAAAACTAT GAAAGTTTTA GAGAGTAACCATAATTTCAG CCCGATGTGA AACGATCCTA GATTTCAGCT GAAATAGTGA TGTGGGAAGT GAGGGGGCCGGGATTCAAGG CAGAGGGAAC AGCGTAACTG AAGGCATGGA AGGAGGGAAG TGTAGGCTGT GTTTGAAGAGTGGCAGCTGC TTCCACATTT CTAAAACACA GGATGTGATT TTGGGGTGTG TTGAGACAAG GCAGAAAACTTGTTTGGAAA AATAACTTGA ATTCCCTGCA CATTTAAAAT CTCTCAGCAG AAGAAAACCC CACTCAGAACCCCACTGTTC ATTCCTTGGC TTGTATTTGG SCACAGCTGG CATAGCCCCA GACTGAGTAA GCTCTTCAGACACCTCATTT CATGAGTAGC CCCAAAGATC AATCATGGGC CAATTTCTTG GAAGAGAAGA CTCTCCGGTGTTTTGCAGTT ATTTGTTCTG CTTTCGCGAG ATGTTCTCAA ATCGTTGCAG CTACAAGCCA TGAGTCTGAAGTGTTTGTGT TCCCTCCTTA CAGGTGGTAA CTTTCTCACA GGCCTTGGCC ACAGATCTGA TCATTACAATTGCGTCAGCA GTGGAGGGCA ATGTCTCTAT TCTGCCTGCC CGATCTTTAC CAAAATTCAA GGCACCTGTTACAGAGGGAA GGCCAAGTGC TGCAAGTGAG CTGAGAGTGA CCAGAAGAAA TGACGCAGAA GTGAAATGAACTTTTTATAA GCATTCTTTT AATAAAGGAA AATTGCTTTT GAAGTATACC TCCTTTGGGC CAAAATGAATCTTGTGTCTC AATTGGAAGA GGTAAAGAAG TAGGGGGTTA GGGTGCATGG GTTGGAACGT GAGACAGGTCGAACCACAAA GCCTGCCTGG AAAAGGGGAG TGACGTCCTA GGCTTCAGTG ATGTCACCTC CACTTTGTTTGATCCACAAA CCAACAGGTG ACTGATTTTG GTCAGCTCAG CCTCCAAAGG AGCCAGCCTC TCCCCAGTTCCTGAAATCCT GAGTGTTGCC TGCCAGTCGC CATGAGAACT TCCTACCTTC TGCTGTTTAC TCTCTGCTTACTTTTGTCTG AGATGGCCTC AGGTGGTAAC TTTCTCACAG GCCTTGGCCA CAGATCTGAT CATTACAATTGCGTCAGCAG TGGAGGGCAA TGTCTCTATT CTGCCTGCCC GATCTTTACC AAAATTCAAG GCACCTGTTACAGAGGGAAG GCCAAGTGCT GCAAGTGAGC TGGGAGTGAC CAGAAGAAAT GACGCAGAAG TGAAATGAAC TTGAATTCACAT TTCTCACCTT TTGATGTATT AAGAAAGTAT GGAGAAATAT ATCCTCTATC AAATTTTCATGCCTTCAATA ATTTCTAATT CATCAGTCAG TGTTTTTCCA TCCTTTACTG TGATGATGCC CTTTCTTCCAAACTTTTTCA TTGCATCAGA GATGATGTTA CCAATTTCTT TGTCTCCATT TGCAGAAATT GTAGCAACCTGTGCAATTTC TTCAGGTTTG GTCACAGGTT TAGACTGCTT TTTAAGTTCA GCAATTACAG CATCAACAGCTAACATCACA CCTCTCTTGA TTTCCACTGG ATTAGCACCT TTGCTAACCT TCTGGAAGGC TTATTTGGAAATAGAGCATA CCAGTACAGC AGCAGTGATA GTGCCATCCC CCAGTCTCTC CATTTGTGTT ATTGGCAACATCTTGGACAA GTTTAGCTCC AATGCTTTTA TATTTATCCT TTAAGTCAAT TGACTTTGCA TCAGTCACACCATCTTTTGT TACTTTGGGA CTTCCCCAGC TATGTTCAAT AATTACTGTT CTTCCCTTTG GCCCCATTGTAATGGCTACA GCATCGACAA AAAGTCTACA CTTTGAAGCA TTAAGGCTCA GACATCAGCA CCAAATTTTACATCTTTACC ATCACTTCAA GTGAGGTGAG GAGCCAGTAG CCTGGACACT GGTCTCATCT GGTGAAAGACTGTGGGTAAT GGAAGCATTT CTGTGGGGTG GTGGCAGGAC ATGTGCATGG TGAGGCAGGT CATCAGCAGCAAGTGAGAGC TGCCTCTTAC TTTCTAAAGG TGACATAGCA AGTATACAAA AAAAAATAAA ATATTAATTTAGGCAGAGCA CATAAAGGCT TTATTTCATA TTCCATTTCT CTGTATGCTT TCTTCACCAG GAAGAAATAGTTTTAGTGTC AGGAATGAAT GAGTCTGCCC CTCAATTCCA GCCTGCTCAG CACACAAGGA AACAAAGCCCTGACAATCAG AGTGACTCCC TGGTGACTAA GCTCCAGTCC TGGATGCATA TTTGTTTAGC AGTTCTGACAGCATCTGACC CAGCCCTCTC TTTGCATACC CCACCAGAAC CTTCTTTTTT TTTTTTITTC TTTGAGACTGAGTCTTGCTC TGTCGGAAGC GATTCCCGTG CCTCAGCCTC CCAAATACCT GGAATTATAG GCGTAAGCCATCATGCCTGG CTAATTTTTG TATTTTTCAT GGAGATGGGG TTTTGCCATG TTGGTCAAAT TGGTCTCACACTCCTGACCT CATGTGATCC ACCTGCCTCA GCCTCCCAAA GTGCTGGGAT GACAGGTGTA AGCCACCATGCTAGGCTCAG AAATTTCCTT TTATAAAAAT GTCATTAAGG ATCTTGGCTG CACAATATCG TTACCAGCTTCCTTTAAATC CACCTCTGGC CTGCCAGGAA TCAGGGTTCT TCAGAACCTG ACATTTTAAA TGAAGAGGTCAGGCAGGTCA TGAGGAAAGC CTCATTGTCC CCATGTCTCT GTCACTGCTG CACCCCTGAG ACATCACAGACATGGACACT GGGGCCTGCT TGTTTCTCAA ACTGCCCTTA GATCGAAAGA GGGAGGAACC AGGATGAATGCCACTCATTT TCCCAAGAAA GGCCCTCTCC TGAGTGCCCG GGATGGGGCT CTGTCCATTG CCTGGGGCCGCCAATTGCTA CTCTGGGTTA CGGAAGAAGG ACAGGGTCCT GAGAGACACC AGAGACCTCA CACAGCCCTGAAAACATGGG GCTCCTTCAT AAGTGTTTCC CATCACCAAC AGGGAGACCA CGTGGAGGCC TTGCAGCCCTACTCGGTGCT TCTCCACCAA ATCCCAAGGG CAGTGACGCT GACGTCTGTG GAAAGCAGAG AAAGCCCTGGCTCCCAAAGC CCTGAAGTCC TGTGGAGCTG ACATTCCCTG AGTGACGGTG TGAATGGAAG GAACTCAAGTGCGGGTGGTA GGCCACCTCC TGGCCCAGGC CTGGGTGAAC TCTGAGGGGA CACATGTAGT CACAATCCCATCCTCCCATT CTCCTTCTCA GAGGAAGGAA GTGGGCATCC ATCTGCCTCA TCTCTCTCCC GTGGGGAAGATGGGGAGTTT CAGGGGAACT TTCACATAAA TTTCACCAGC TCAGATCTCC TGTGAGGATG GGGCCCACCATGCTCCCGGT GCTGCCAGAG GCCCTGAGCC CCTCCAGGGT CCCTGGGTTT GAGCCAGCCC TGTATCATCCCCAGGAGCTG AATGTCCGAA CAATGGATAG AATTAGATGG AAAGAGCTCT CAATTTGGCC TGAGACTGTCCCCAGATACT CAGGAAAAAC AGGACGTCGC ACAGAGTGGG CAGCAGGTGA GTGGCAGGTT ATAGGTCCTGAGTTTGAGTT TGTTCTCACG TGAGACAGAC CCAGCCCCTC ACTCCATTCA CACACTGGGT TTTAAATGGTGCAAGATAGG AGGAATTTTC TGGTCCCAAG AGCAGGAGGA AGGGATTTTC TGGGGTTTCC TGAGTCCAGATTTGCATAAG ATCTCCTGAG TGTGCATTGT TCTTTGAGGA CCATTCTCTG ACTCACCAGG TAAGTGGCTGAATTCTAACC TCTGTAATGA GCATTGCACC CAATACCAGT TCTGAACTCT ACCTGGTGAC CAGGGACCAGGACCTTTATA AGGTGGAAGG CTTGATGTCC TCCCCAGACT CAGCTCCTGG TGAAGCTCCC AGCCATCAGCCATGAGGGTC TTGTATCTCC TCTTCTCGTT CCTCTTCATA TTCCTGATGC CTCTTCCAGG TGAGATGGGCCAGGGAAATA GGAGGGTTGG CCAAATGGAA GAATGGCGTA GAAGTTCTCT GTCTCCTCTC ATTCCCCTCCACCTATCTCT CCCTCATCCC TCTCTCTCCT TCCTCTCTCT GTGTGTCCCC TCCATCCTTT TCTCCTGCTTCTCTCTCTTC TTCCCTCTCT CTCTTTTTTT CTGTCTTTCT TTTTCCTCTC TCCCTAGAGC ATGTCTTTCTTTCTTTCTCT TTCCTTTCTT CTACCCACAC TTTTAGACTG AGTAGACTGA ATGCCCTATT TAATTGAACCAAGCATTGCT TCCTTCAATA GAAAAGGAGT TTGAGAACCC AATGGACAAC TCACTCGTTC TTCTAAGCCAATATGAAGGA GCCCAGTAGT TTGTAAATAT CATCTCTTCA CTGCTTTCCA TGCTACAACT GCTGAGACTATGGTTGAAAC CTGTTAGGTG ACTTTTTAAA TAAAAGGCAG AAATTTTGAT TTTATCTAAA GAAAGTAGTATAGAATGTCA TTTTCTAAAT TTTTATATTT AAAGAGTAGA TACTGCAACC TAGAGAATTC CAGATAATCTTAAGGCCCAG CCTATACTGT GAGAACTACT GCAGCAGACA CTCTGCCCCC AGGACTTTTC TGATCAGAGGCCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCA CAGGACAGGG ACAGCCCATT GAAACCAACTTTTAAACCTG GATGCCTAAC CTTCATTTTC TCCTTGATAT TATGAAAATA AAATAAAAAC CATGAAAGGATAAAAGAGGG AGAGTGGAAG GGAAGGATGG AGAAAGGGAA AAAGAAAATT TGAGAGTAAA TCCTAAAACAATTAATCTAA TAGATATCAT CTTGTGAAAT CCTCATTTTA CCAATCTTAT TTATGAGTCC TGGGTTTTGTGAGAACAATG GGGTTCTGAG AGGCACCAGA GACCTCATAT TTTCCAAAAC CTAGAACAGT ATAATGAAGGAAGGAGGGAA GGAGGGAGGG AGGGAGGGAA GGAGGGAAGG AGGGAGGGAG GGAGGGAAAC AAAAAGAAGAATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATG GTTAATTGTGGTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCAT CTTTTTTATCCCATCTCAGA TCAAATACTT AACAGACTAA ATGATTTGAA AAAGCAAAAG TTTACTGGCT TGTGTGTGTTAAAATGGAGG TATGGTGGCT TTGATATTAT CTTCTTGTGG TGGAGCTGAA TTCACAAGAG ATCGTTGCTGAGCTCCTGCC AGACCCCACC TGGAGGCCCC AGTCACTCAG GAGAGATCAG GGTCTTTCAC AATCAGGTTCTACAAAAATA AACATCCCCC AAACCACAGC AGTGCCAGTT TCCATGTCAG AAACTTAGAT CCAAATGACTGACTCGCGTC TCATTATCAT GATGGAAAAG CCCAGGCTTG AGAAAGAAGC CCGCTGCGGA TTTACTCAAGGCGATACTGA CACAGGGTTT GTGTTTTTCC AACATGAGTT TTGAGTTCTT ACACGCTGTT TGCTCTTTTTGTGTGTTTTT TCCCTGTTAG GTGTTTTTGG TGGTATAGGC GATCCTGTTA CCTGCCTTAA GAGTGGAGCCATATGTCATC CAGTCTTTTG CCCTAGAAGG TATAAACAAA TTGGCACCTG TGGTCTCCCT GGAACAAAATGCTGCAAAAA GCCATGAGGA GGCCAAGAAG CTGCTGTGGC TGATGCGGAT TCAGAAAGGG CTCCCTCATCAGAGACGTGC GACATGTAAA CCAAATTAAA CTATGGTGTC CAAAGATACG CAATCTTTAT CCTAGTAATTGTGGTCATTG GGTGATGTTG GTTTGGGCAG GCCATCTCTA ATATCCTTGA AACACCTTTT TCTGCTCTCCAGGAAGGGGT CAGGGCTGCC ACAGCGGGGC TTGGAGTGC GAATTCCCTG TAAGCCCTGT TACAGGGGCTGCACCCCAGA TACAACCTGA CCTGTGTCCA AGGCGGGCAA CTCAACCCTT AGATATTGAA TGGGTCCCATGGCACCAATG CTTAAACACC AGCAGCCCTC ACAACCACAG ATCGTGTTTT AAGGATGAGG AGGTAGTTCTCTGGATGCAC AGGCTTCAAT CCAAATGGGC TCATGACGCC GCAGCACACA CCCAGTCTGC AGCCTGAAGAGTTGGAGCAT TGCATTCACA GAAAGCATCC AGACATGATC ATGGGCTCAG GGATACACCT GTTCTCCGATGTGTACCAGT GAAGGATGGA AACTCCTATG CCTCCCAGAA AGCACCACTC AAGCTTTTGC TGAATGCTTCTCTGAAGGCC CACAAGGCTG AGAGGCTGTG CAACACCAGC AGTAAAGTGA ATGCCCAGAC TCCCACCTCCTTTCTTGGGT GGCCATCTGG AAAGGCCACT CCCACCCTGA TGGCTAATGC CTCAGACCAG TTCTTGGCCCAGATGATCCT AGACAATTGT TTAAGCTTAA ACTGTTCATT GGCCAAGCAA ACAGGTGATA GTACCTCTGGGGAACCACAT GCCGCGTGTA CATCCAGATC TCAGGAGAAC CCAAAAATGT CTGTTCCACA TAGCAACAGAAGCCCAGGTA GCACTCAGTC TCACCTGGGT GTTCTCCAAC ATCCCAGCTC AGCCAAATGG CTTTCATTAGTTTTTATGGT TAGACCCCAG GTCCTCGGGA CACTGCTTTA GAAACACATT CCAAATCCTC CTCTGTGTGCAGGTGGCATT CCTATCCCAA TCTCTTTGCA GGGCGTATAC TGTGATACGC AGCCAGGCTG TCCCAGAGGCCTTAAATATT CCCTTGGTGC AGGTAGTTCA GCTTAGCCAC AGCCAATGCA TCACAGGGTC AACTGTGTTAGGAGCCATTG AGAATCCATA GTTGGTTGCT GCCTGGGCCT GGCCAGGGCT GACCAAGGTA GATGAGAGGTTCCTCTGTGG AGTTCTACTT TAACCTCACC TTCCCACCAA ATTTCTCAAC TGTCCTTGCC ACCACAATTATTTAATGGAC CCAACAGAAA GTAACCCCGG AAATTAGGAC ACCTCATCCC AAAAGACCTT TAAATAGGGGAAGTCCACTT GTGCACGGCT GCTCCTTGCT ATAGAAGACC TGGGACAGAG GACTGCTGTC TGCCCTCTCTGGTCACCCTG CCTAGCTAGA GGATCTGTAA GTACTACAAA ACTTAAACTT TACACTGAGT TTTCATCATTGAAGCTATGC CTCCAATCTG ACCTCTGACT GTGGGGCCGC CCCAGAGGGA CCCAGCGGGT GAATCCCTGCTAGGAACGTC TGTCCGGACC TCTGGTGACT GCTGGGGACG ATGGCTTCCA GCTAACTTAA TAGAGAAACTCAAGCAGTTT CCTTCTAAAT ACACATGTCA CATGTCCTGG TTGACATGTC CAGTAAGAAG ACTATCACAGGTCTTTGGAA CATTCTTTTG AGAGAAACCT ATTTAGGTCC TTGGTCTGTT TTTCAATCAG GTTGTTTGATTTTTGCTATT GAGTTGTTGG AATTCCTTAT GTATTCAGAT ATTTGCCCCT TCTGCCATGT AGGTTTTGCAAATATTTTCT CTCATTTTCT GGGTTATCTT TTCACTCGGT TGATTGTTTC CTTTGCTGTG CAGATGCTTTAGCGTTAAAT GAAGCCACAC TTGTCTATTT TCCCTTTTAT TGCCTGTGCC TTTGGTGTCA TAGCCAAGAAATCATTACCT ACATCAATGT CAAAAGCTTT ATCCTTCTAT ACACTTCTAG TAGTTTATGG TTTCAGTTGTTACATTTAGG TTTTCAATTC ATTCTGAGTT GATGTTCCTA CATGGTGTGA GATAAAGATT TAAATACATACATATATAAA ATCATGAGGT AGTGTACACT ATAAATATAC AATTGTTAAT TGTTACTCAA GTCTAAGTAGAGGTGGAAAT AATAAACTTT CTTTTTTTTA CTTAAACCAC TCTGTGTCAC TGAGCTGATT TCACCTTTAGCCTGATAAAA TCATTGTCCT CTCCACCCTG ATTCCTACAG GAGACTACTC ACCCCATAAC CTCAAAAACCTCTTCATGAG GATGGTAAGT CACCTGAATC CTGAAGTGAA TTACTCGCTA TTCCATTGGA ACTCATATAGGACACCAGAA TCTAGACCTC CAGAGAACAG CAGGACCCAT CTTCAGAAAA TAAGAAGCAT TTGTTCCCTGAGCCTGTTGA ATCAAAGTGC AATTTCTATT CTTTTTGGAA TGTTAAAAAG TGAATCATAA TATTTAAGCAGGTGAACCCA CGAGTAACAT AGCAGGGTCT TTCTTGTCAT TATTAGCTCC AACCTAGCAC AGACATTAAAGGTACAGATG TATACTAGCA TGAAACTGGG AGAACAGGAG CATTCGAGCA ACCTTGAGAC CAATGGGCCTCTCTTATAAA ATGCACACCT CCTCTCACTG AGATTGAGGA AGGTTTCTTG TCTCCGAGCC TTCTCCCAGTAGAGCTATAA ATCCAGGCTG GCTCCTCCCT CCCCACACAG CTGCTCCTGC TCTCCCTCCT CCAGGTGACCCCAGCCATGA GGACCCTCGC CATCCTTGCT GCCATTCTCC TGGTGGCCCT GCAGGCCCAG GCTGAGCCACTCCAGGCAAG AGCTGATGAG GTTGCTGCAG CCCCGGAGCA GATTGCAGCG GACATCCCAG AAGTGGTTGTTTCCCTTGCA TGGGACGAAA GCTTGGCTCC AAAGCATCCA GGTGAGAGAG GCAGGCATGC AGAGCTGCTAAGTCTAGAGG GAAGGACGGG AGAGAGGTTC CAGAGTTGGG TCTCAGCAGT CTATGTCACT GAGGTGGCTTCACTTAGAAT CTCTGGGCAT TGATTTTCTC ATCTAGAAAT TGAACAGAGA GCCAAATAAA CCTGAGAAACTTTATTTCTC CAAAGACTTG ATTCCAAGAA ACATCTGTGA AATTCACTAA GTTTAAGATA TGAAGAGACAGACTAGTTAT TTCTGGATCT AAACAAGTAG ACTTAGTTGT AAAGAGAACA TTTTACTCTA TCTACAGAAGAGCTTTTAAA AACTGCAGCC AAGCCTGAGG GTAAGTTCAG GTGTGTGTGT GATGGGGCAG GAATGCAAAAATGAGAGCAA AGGAGAATGA GTCTCAAATT CTGTGTGACA AGCACTGCTC TGCGTGTTTA TTCCTATCGACTGAGGTTGT TCGTGCTACC GGCTGCAATG CAGCCAGCAT CACCTGTCAG CTAGCATGTG ACTTCCCCGAGATTCTTTTT CTTACCCACT GCTAACTCCA TACTCAATTT CTCATGCTCT CCCTCTCCCA GGCTCAAGGAAAAACATGGA CTGCTATTGC AGAATACCAG CGTGCATTGC ACGAGAACGT CGCTATGGAA CCTGCATCTACCAGGGAAGA CTCTGGGCAT TCTGCTGCTG AGCTTGCAGA AAAAGAAAAA TGAGCTCAAA ATTTGCTTTGAGAGCTACAG GGAATTGCTA TTACTCCTGT ACCTTCTGCT CAATTTCCTT TCCTCATCTC AAATAAATGCCTTGTTACAA GATTTCTGTG TTTCCACCTC TTTAATGTGT GATATGTGTC TGTGTCAAGA CACTTGGGATACACGTACCA AAACGCAAAA TCAAATTTTT GAACAATATA CCTACCTTGC TATAGAAGAC CTGGGACAGAGGACTGCTGT CTGCCCTCTC TGGTCACCCT GCCTAGCTAG AGGATCTGTG ACCCCAGCCA TGAGGACCCTCGCCATCCTT GCTGCCATTC TCCTGGTGGC CCTGCAGGCC CAGGCTGAGC CACTCCAGGC AAGAGCTGATGAGGTTGCTG CAGCCCCGGA GCAGATTGCA GCGGACATCC CAGAAGTGGT TGTTTCCCTT GCATGGGACGAAAGCTTGGC TCCAAAGCAT CCAGGCTCAA GGAAAAACAT GGACTGCTAT TGCAGAATAC CAGCGTGCATTGCAGGAGAA CGTCGCTATG GAACCTGCAT CTACCAGGGA AGACTCTGGG CATTCTGCTG CTGAGCTTGCAGAAAAAGAA AAATGAGCTC AAAATTTGCT TTGAGAGCTA CAGGGAATTG CTATTACTCC TGTACCTTCTGCTCAATTTC CTTT GATCAAAATT TTTACCTATT ATGCATTTGA TATATAAATA AGTATATAAA TGCACACACAGACACAGCAA TGATGGTGAA CAGTCTTCAT ACAATTATAT GGATGAATCT CATAAAATGC TGAGTTAAAGAAATCAGACC AAAGAACATA TACTGAAAGA TTCTCTCTAT ATACAAAGTT CAAAAATAGG TGGACCAATTCATGGTGGTG TTAGAAATCA GAAGAGAGGC TACCTTTGTG GGGAGGGGAC AGTTTAATGC CCAGAAGCGGTAAATAAGGA ATCCTCTGGG GAGTGGTAAT GATCTGGATG CTGGCTACAG GATGTGTTGG TTGTAAAAATGCATTTTTTT ATATCTAGCT TTTTCCATGT GTATATTATA CTTCAAAGAA GTTCAGTTAA TAATTTCTCATGTCACTGTA GAGTAGCTCA GTTAGCCCCA GCAAGCCTCT GGCTTAATCT TGTTTTACCT TAAGCCATCAGTCATTTACA AGTAGGAAAA TTCACAGGGA AAGTTAGAGT ATAAAATCCA GAATGAAGGT TTACTGGGTAAGAGTCTCTC CATTTTCCAA AGCCCGTTTA TTTCTTGATT CCAGTTCTTA AGAAGTCTCA GCATTGTGTCTTTTTCATGT ATCTTACAAG AAGACAGCAT GTGCTTCTAA CACCTGATAC ATTGTATCTA CCAGCACTTGGTAAACAGAA AAGAACCACA TTTTTCTTGT AGGAGAAATT TGGTGCCTAT TTCCTACCAG GCACCAATAAGTGGGACCAA TAGGTGGGAT TAAAGATACA GTAGAAAGTA TTTAAAACTT GCCAGGGGGC AATAGTCTGAAAATAAGTAA ATTGGTGCTA TAGAATGGAA GTTACAGGCT TCTTTCTTTT TTCCCACAAG ATCTGCTCCTTGAGCCCCTA GAGACTTTTC TGTCTGTTAC TGTTTCTTCA TTCCTCATCT GCAGAGCCAG CCCTGAGAAGTGCAGACCAA AGCCAGGGAA GGCTCTGCAA AGATGTACAA ATGGAAGTCA CCTTAATAAC CTCTGACTGCTGCGCATAAT ACATTTCACT CAAAAGAGGG GTTAAACAAT GGAACAGAAT ACAGAGGCCA GAAATAATGCTGAACACTGA CAACCATCTG ATCTTTGACA AAATCCACAA AAACAAGCAA TGGAGAAAGG ACTCCCTATTCCATAATGGT GCTGGGATAA CTGTCTAGCT ATATACAGAA GATTGAACCT GGGCCCCTTC CTTACATCATATACAAAAAA TAACTCAAGA TGGAGTAAAG ACTTAAATCT AAAACCAAAC ACTATAAAAA CCCTGGAAGATAGCCTGGGA AATACCATTC TGGACATAGG ACCTGGCAAA GACTTCATGA CAAGACACCA AAAGCAATAGCAACAAAAAC CAAATTGACT AATGAAACTA ATGAAACTCT TTAGTTGTAC AACAGATAGT TTATCTGTACAACAAAATAA ACTATCAACA GAGTAAACAA CCTACAGAAT GGAAAAATTT TTTGCAAACT ATGCATCTGACAAAGGTCTA ATATCCAGAA TCTATAAGGA ATTTAAACAA ATTTACAAGC AAAAAAATGA CCTCATTAAAAAGTGGGCAA AGGACATGAA CAGATGCTTT TCAAAATAAG ACATTCACAC ATCCAACAAC CATATGAAAAGATGTTTAAC ATCACTAATC ATTAGAGGAA TACAAATCAA AAGCATAATA AGATACCATC TAATACCAGTAGGAATGACT ACTATTAAAA AGTCAGACAA TAACAGATGC TGGTGAAGGT TGTGGAGAAA AGGGAATGTTTATGCACTGC TAGTGGGAAT GTAAACTAGT TCAGCCATTG TGGAAGAGAG TGTGGTGATT CCTCAAAGAATGTAAAACCG AACTGCCTTT CAATCCAGCA ATCCCATTAT TGGATATACA CCAAAAGGAA TAGAAATTGTTTTACCGTAA AGGCGCATGC ATGCATATGT TCATTACAGC ACTATTTACG ATAGCAAAGA CATGGAATCGTCTAAATGCC CATCAGTGGT AGACTAGCTA AAAAAAAAAA AATGTGGTAC ATATACATCA CAGAATAGTATGCAGCCATA AAAATGAACA AGATCATCAT GTCCTTTGCA GCAACATGGA TGTAGTTGGA GGCCATTATCCTAAGCAAAT TAATGCAGGA ACAGAAAGCC AAATACCACA TGTTCTCATT TATAAGTGAC AGCTAAATATTGAGTACACA TGGACACAAA GAAGGGAACA ATAGACATGG GACCTACTTG AGAATAGAGG GTGGGAGGAGGGTGAGGATC AAAAAGTACC CATAGGACAC TGTGCTTATT ACCTGGGTGA TGAAATAATT TGCACACCAAACCCCTGTGA CACACAATTT ACCTATATAG AAAACCTGTG CATGTACCCC TGAACCTAAA AGTTAATGGTGGGGGGGTGG GGTTAAGCTA CTTTGTGGTA TAAATCTGAG CATTCATATT AAAATAAAAT ATTTACCTCATTAGAGTAAT TAACATTTAT TAAGCAAAGA GCCAAGTACC TTACACACAT GATGTTTAAT CTCACAATGATCTTTAATCT CATAACAACC GTCCATTGTA TGTACATATG TGGAAATTGA GCCTTGGAGA GATTAAATGCATGGGGCATG CCATTTGACT AGAAACTGGA AGCATCAGGA TTTAAACTCA GTTCTGAATG GTTTTGTAGGCTTTGTTTTT TCCACATTAT AGCATGGCCT GCCATGAAGA ACAGGTCCTT TCTGGTGTTT GTCTTGTTTGGTTTAAGTGA AGCAAATATT TATTTAAATA TTCAAGATAT GCTGTTAAAT TTTTACTCAA AAATTTGAGTACAGTATGGA TCTTCTGAAG CCAAATAACT CTTATTCAAT GCTTAGTTGA GAAATTTTAT GGAGTAGTTCTCAATTTTTA TGTAGTTCCA CTGCAAAGGT AAGTCTTATG GAAAGATTCA CTGTAATTTT TTTTCCTCATTTGGACATCA GCTTTTTCTT TTCCTCAGAC CCGCTGAAAG ATAATTTTTA AAATAAAAAC CTTGTTTTTATATCAAGTGG GGACATTTTT TCCAAATGAA AACCGTGTAT TCATTTTATA TGATAAAATC AATGTTATTATTTTTAAAAT TTTGATTTAA AAATCATTAA AAATAAATTT TCAGATATTA CCTGAAATTC TACCATCCAGAGATAATAGT GCTTAAAGAT TTGATATATA GACACACACA CATATATACA TATATATCAT CCTAAACTTCTTTGTATAAA TGTATATAAA GTTTTTAATA AAAACTAGGA GATTAATGCC CTTTGAATGA AAATAAATACAATGTGTATG CTTTAACATC TTGCCTTTAC TTTATAACATTTATCACAGC AGTCATGAGA TAATGATTTACATGGTCATT GTTAGTAAGC TAATAGCTAA GTGCATGAAC TCTGGAGCTA GCCTCCCTGG ATTTTAATCCCAGATCTGTC ACTGACCAGC TGAGCAATAC TAGGTAAATT GCTCTTGTTC CTTAGTTTCT TCATCTGTAAAATAGAGATA AAAATAATAT CCACCTCATA GGATTGGTGT GAGCATTAAA TGAGCATACG TATGTAGGCCACTTAACAAC AATGCCTTCA CATACTGAAC ACAAATATAC GAGCTGTTGT CTTATTGGGC TCATGTTTTTCCTACCACTA AGCCGCATGC ATGCAAGGAC CATGTTGGTT TTGTTCCACA TTGCATCCCC AACCTGGTATACAGTGTGCA TTCAATAGTT GTTGACTATT ATTACTAGTG GCATTTAACA AATATCTGTT AAATGAGTGAAGAAATACCC ATTTACTGCA AGTGTGTCTA ATATTGATGG CATAATGGGG GAAACTCAAA CTCTGGAGTCAAACAGGTTT TAAAACCTTA TTCCCTCATC CTCAGTTATT GACGTTTTTT TTTTGGCAGG TGTGTGTGTGGGACAACTTA TTGAACTTTT CTGAATTTCC AGCTTCGCAT ATATAAAATA GAGATAGTGA TTCATTCTTGCAATGTATGG ATTTGAGACA ATTGTGTAAG TTTATCAATA AATAGTAGCT ATTTTTGTAT AAGTATTACATATAATATCC AGGCCACTGC TTTGCATAAC CCAAAAGGGG CACCATTCAT GCAGAATACA ACATAAATGGTGTCCCTGGA GCAGTGCAGT ATAGGAACCC TGAGGGGACC TACAGTATAC TTTATAGTTC ATAGATTACAAATTATCCCT TTATCAGAGT CTCTCAAGGT TGGATGTATT TGAGGTCCAT AAGAGCAATT TAGGATTAACAGTAGCTGCA GAAACCATCT GCAGTGATAT TCTCATTTTA AATCCGCGGG AAAGAAGACA GCTATAAACTTGGGACCTGG GTTTAAGCAT TTTAAATGCC AAGTTCACCA TTTTCTAAAA CACAACAAAT ACCCAGTGAGAGAGGGAGAA GGGAAGTAAA TGCCTCTGAA TAAGCAAGTT AATGTCAGTA GTTGTACTGT ATGCATATTGATGAACAATA GAGGAACCAA TGTCCAATCA GATGAGCAGG ATATTTGGCA ATAACAAGTT GCCTTTGAGGAAAAATGATT TTCTTGGCAA GTTCTTTATC AGCATTACAA AGCTAAAAGC TACGCTTATC ATCACTTATACTAGCATACC CTGTTGTGCA AATGCTGTCT GTGTTTGCAT CTGCTATTGT TGATGCCTGG TGCATGAATCAGGACTCCAG CCCACAAGTT TTCCCAGAAC TTTCTTATGG CCATCATCTT TAAGTGTCTG GTGAACAGTCATAGTTTGGT ACACAAAAGG GTCAACCTGG GGGATGGCTA GGGTTTGACT CAGTCGTTAC ATTTCAATAGAGCAGGAAGG GGAAATGGTG GCCTGTAACC TCAGGGAATT TTGCCAGTTG GTCCACCCCA CTCTCTCTCTCCTGCTCTGA GGAAGTGGCA CAGCCTAGAA CAGCACCACA GGTGAGAGAA ATGCAAACCC TAACCAGAGAAGCAGACTCT TTGCCAGTAG TAATAGTTCA GGACCACCAC CAGCTTTTAT TAAAATTTTT AATAACACTCAAGTATTGGC AGAAAGAAAT AATCTTGGGT TAACTATAAC TAGAATATTG ACTCTTCCTC TGTGGAAGAATCAGCCAATC ACATTTGTTT ACATCAGTTC CCCTGAAGAA GAAAAATACA CTGATGTTGC AGCAAGACAAATTTAAGCTA GATGTAAATA ACTTCCTTTA GCCTGTAATG CTAGGCTAAT TACATATTGG AACTATTTTTTCAGGGAAGA ATTGTGTAGG GTTTCAGGGA AGAATTCTGA AGAAAATATA GAGCTGAAAT GATCTTGCAGCTCACTGAAA CTGCAGGGTT TAGATCCACA CTGATACTCG TTCTATTATC ACTGTAATGA AGGCTGATGGAATAAGTAAA AATGTTTTGT ATTAGTATGT TTTTACACTT ATTTGCAAGG CATAAATAGG TTAGGTTTTGATCTTAATTT AATTCTAACA TGTATTGTGC ACAAGCTGTG AGCAGTTTTC AGGAGTTAGG TATCTGGCCATGACTGATTT TTCAGGAGTT AATCATCTGG TAGAAGGGTC ATACACAATA GGAAGATGTG TGTGACAGGTTGTGATCATT ACTATAATCA CACAGAGAGC TGTAGAATTT TAGGCTGGCA GGGTGGCTCA CGCCTGTAATCCCAGCACTT TGGGAGGCCA AGGCAGGCGG ATCAAGAGGT CAGGAGATGG AGACCATCCT GGCTAACACGGTGAAACCCC GTCTGTACTA AAAATACAAA AAAAAAAAAA AGCCAGGCGT GGTGGTGGGC GCCTGTAGTCCCAGCTACTT GGGAGGCTGA GGCAGGAGAA TGGCGTGAAC CCGGGAGGTG GAGCTTGCAG TGAGCCGAGATCGCATCACT GCAATCCAAC CTGGGCGACA GAGGGAGACT CAGTCTCAAA AAAAAAAAAA AAAAAAAGTCATGTTAGATC CAGAGGGGTA GCAACTGGGG CTGGGCTGTC AGTCAACTCA GTCAACTCAG TCAACTCTGCTCCCCCACAG GAGATGCCAG TGATGCATTT TCATGGCCAA CATTGTCAGT CAGCATCATT GAATTACTCCTGATTATAGA GACACAGCTG CAAACGATTC CCCATTAAAT ATGATGTTTC TTGCAATGTT TGGAAGGTACTCCTTTTTAG TAAGGGAAAT CCCCTCTTCT GGCTTGCTGA AAGTTTTTTC TTTCCATTTT AAAAATCGTGAATTCCTTTT TGCAATATTG AGGTGGTTAT ATGGTTTCTC TTCTCTAATC TGTTAATATG GTGATTTAATGGTTAGAAAT TTTCTAATGT AAATTCCACT CATATTGCAG AAATAAACCT AAACTGAGCA TGAGGCTATATTTTTTATTT GCTTCTATAT TTGGTTGCTA TACAGTATTA TGTTTAAGAT TTGTTCACAT ATATTTGTGAATGGGATTGG ACTATTTTTC CTTCTTGCCG ATTTTTATCT GGTTTTTAAA TTAAGGATAT TTTAGACTTATGAAATATTT GGCAAACAAT CCTTGGCAAG TAATTTTTTG GGGAATTTGT TTTGGCTATT TTGAGTATTACCCAATATAT TTTAATTAAG TTATTCTTAA TGTTTTCTTA ATTAAAAAAA TTACCTACTC TAGAGATATTCTTTATGTAC TCCAGATTTT GTCTATTTAT ACCACTTTTC TTTTTTCCTC GATGAGTGTC ATAGATGTTCATCTATTTTT TTATCTTCTT TGATCTTCTC TTATTCCTTG TTTCTATTAA CTTCTGAAGT TTATTATTTTCTTTTTTCCA CTTCCTTATG GTTTATTCTT TCAATTTTTC TCTAACTTCT TAAGTTGGGT GTTTAATTTTTAGCTTGCTT TGCTTTTTTA GGATAAGCAT TAAAACTACA AATTTTCCTT GTTATTCTTT TGCTGCACCCCAAATTGTTG ATATTTCTAT TGTCTAATTT CTATTCAATT AGAATACTTT AAAGTTTCTT TTTGGTTTTTAAAAACTAAC TTTTTAAATT GACAAATAAA AATTGTGTAT ATTTATTGTG CACAGCATAT GGCTTTGAAATATATGTACA TTGTGGAATG GCTAAATTTA GCTTATTAAT GTATGCATTA TCTCACATAC TTATCATTTTTTGTGGTGAG AGCTATGTGA CTTTTGAACT TATGAGTTAT TTAAATATTT TTAAATTATT AAGCATATTGGGATTTTAAG TAATTTACCT TTTTATTATT AACTTATAAC AAGTAGAACA GTTAACCTGT ATGATTCTACATCATTGAAA TTTATTGACA TTTGCTTCAT AGTCTATTAT ATGGTCTACT TTTGTTCATG TTACATCTGTAGTAGAATTG GCTAATAGTT GAGTAAAGTA CACATATGTC TATGAAATCA AGTGTAATCC AGAGAAAAAGAGAAATTTAC TGAATATATT GTTCTAGGTG CTATTATATG TTGTCATGTT TAATCCTCAC CACAATTGTATGAGGCAGCC ATAATTAATT CCACTTTACA CATGAGGAGC CTGAGGGTTA AAAAAAAAGC TAGCTCTACTATTTGTAAAG AATGAAGCAA AGATACAAAT GAAGGCCCAC ATATCCTATA ACTAGATATT TAAGCATTTTAATTCAAGCT TTAAAACTGC TAAATAAAAT GTGCTCCAAT TTCTATATTG ACAGACATAC CTTCCTAATGAGCTGGGGTT CGAATTTAGA AATCTTTGAT GCTTCAGAGT CCACACTGAA ATGTGGAGGC ACATAGTGAGTTGGTCCCCA GCCTTCAGTC CACCCACCTT CTCTTTACTA AATCACCTTT CACATACATG TATGAACACCCCAGCCTCCA AGTCCAAACC CTAAACAAAA TGGGACACCC TTGTGCATAC ACAGAGACAC AGCCCATCCTCAGGAAAACC TGGAAAAGTC CATACAAGTT CTGGAAGCAA GCTTGGGACG GTTTCAGTAG TGTGGTCTATAAGGGAGGCC TCAGAAGACA GGTTTTCTTA ATTCTGTGAA CTTCTCCCAC AGTAGAAAGG GTGCTGGAGGAGGGTCAGAG TGAGGACTTC TAAAGCATGG GTCCTGAGTA GGGGCCACTC TTGCCCAAGT CTAAGAAGGGTACTAGAATA GCACACTACT ACTAGATACT AGAACCCAGA TACAAGCACA GGTCTTCTGA AATTAATAATAATAATAACT ATTACCATTA TTATACCAGT AGCTGTCATT TATTTAGTGC TTATTATTTG CCAGTCACTGTTCTAAATTC TTTACATGTA TTATACAACT GCCATATAAC TGCCATATGA GGGATGTACC CTCATTGTCACCATTTTACC GATGAGAAAA CTGGCATAAA ACGTTTAAGT AACTTGTCCA AGTTACAGAG CTTAGTGAAGCCACAATGTT GCTCAATTTG CTCTCAAACT TCAAAGGGAT GGGAAGGACA CCTAAGTCAT AGAGTCTTTAAGAATCAGAG CTAGAAGGAA TCTTAGATGT TATCTAGTCA GCCTCCTCCC ATTACAGTCC AAGAGAAGATGGCCCTGAGT TACTTGTAGC TATTTTTGCA TGTGAATTGC AAGTGAATAT ACATTCTACT GAAGATAAAAGATATTTAAA GATATCGCTG GATATAGGAA CAGTGGTTTT AAATCTCTAG GCTTTAACTT TTCTCAGAACAAGAAATCCT TTTTGGTTTT AATCTATATG CACATCTGTA TTTTTCTCAA TTATCGGGTA GTAAAATATAACTTTTCTTC TGTAATATTT TTTAACTTTA ATGAGTGTTC CTCATAATAG AAAAGTTTGG AAACCATTGCTATGGGTATA TACTTTCTAA AGGGATAGTA ATTTCTCTAG AATATTCATT TAATGCTCCA GAAGTAATTAGCACAATTGT GCAAGTCTGT GCATCATCAA CTATACATTC TGCCTGTTTA CTCCAAATCC ACATGAAACTGATTATACAG TCAAAGGCGA GCCCAGTGGA GAGGCATTTT TGGAGACTTC CTGGTACATT GAGACAGGGTCGGCCAGTCT GCGTTAGGGT CTTGGTCAAA ACTGCATTTC TGAAACTAAA CTCAGATTGC TTTCTTTTAAGGGGTCAGAA CTGATTCAAA TCTACATTTT TAAAAGCCTT AGATGTGGGG CTTTTCCTAT TCCCAGTCTCCGCTATTGGT CTTTGTGAAT CCACAGGCAA TTTGGCCACA TCCTTGACTC TCTCTTATAT TAAGAATTAAACAGCTAAGT TCATGCAGAG GAAATATAAC AAAGGAGGGA CTTTCCTACA AGATCTTTGA AAAATGGAACATTTGCATAA GTCATATTTA GCCAGAACTG TTGTTTTATA TTTTCCTTTC TGAATACTTT GTTACACCTCCTCCCAGCCA ACCCCCCCCC TCCCTGACCC CAACTAGTCA GAGACCAAAG CCTTCACAAT GGTTTACACTTGAACCTTCC TGGCCCCACC CTCATCATCA CGCCTGAATA ATTACATTCA CTGACTGGTC TCCCCTGCTTCCGTTTATCT CCACTCCTAA ACCCTCTGAC ACCTTAATCT TCCCAGAATA CCATTGTGAT CCTGTTCCACTCTTGCTCAA GTTTTCCCAG AAACTAGAGT ACAAACTTTA TAAGCTTTAG AGTTGAAAGC CACTCTATCTCTTTTTCATC CCCAGGTCTC TGCCAAGGCA GTATAACCTG TCCAACATCT CTAACTTCAA TACCTTTGTCTTAGATACTA GACTCTCCTC CTGGTTTCTA ATTAAACCTG ATCTAGGATC TAATTTTGCC TCTGAATTCTGTTGCCCTTT GCCAAGTGAT CTCTTCCTCC TCTGAGCCGC AGCATCTCTG AGCTTGCACA CTTAGCATAGCCATAGCACA CACAGCCTTA GCTTGCAGTT CAGGGTGTTT ACCTTCCCTC CCCTTCCAGA TGCTGGATCCCCAGGGATAG GAACTCTGCC CTTATGTGTC CATAGCCCCT GGTAGTATGT CTTGCAGTCG TACATTTTCAGCAAATGTTT AATTGGTTAA TTGAAGACAA CTGTCCCATG CCTTAAGCCT CTCTTTTTGC TAAACATGCCTGTGTCCTTT GTCATTGAAC AACTATTTTG ATCTATTTTC TTCCTGACAT AGGGGTCAGT TCCGAGGATGCTGAAATCAA GAGACATAGC TTATTCTCTC AAAATTGCTT TCAAGAGTGA TTTTGTTGTG AATTGAGAACTGGCTGCCTA CTTTTGGACT ACCCACTTCA GCAAGAGTGT TTGAAACCAA ATCTATTCTA AGTAATTTTTTATTCCCTTT TCTCTATGGC ATTAGACACA CAGCTCTTTT AAACTACCTT TCGTTATCTA TTAAACAGACATTCAGTAAC TCTATAGACA CTGTCTAGCT ATATGAACTT AGACAAACTA ATATCTCTGA GCTTCAGTTTCTTAAAATTT AAAATGAGGA CAATACCATC TATGGCCGGG GATTAAATGC TATGAGGAAT GTAAACCAGATGTCAGGTAC CATCTCTCTA AAATCCAGAT AAAATGAATT AAAAATACTG GCCGCAAACC CTCTCTAAGAGTTCTCAAAA TTCTCAGAGA GCTTAATTTT CATGCTCACC ATAGCACCGA TTTTCTTCTA AATATTTTGTTTCTACCAAA ATATTTTGTC CCAATTTTGC CTTTTATGGC TATTTCTTCA TATCCACTTT CCCAAACTAAAGAAGCAGCC CCTTCACCTT AAACTCCTCC TTCAAAGCAA CCTAAATACA GGTCTGGGTT TGTATTCCTAGTGGGATGTT ACAGAGGTTA GTGTGATGCA GAGGAGGAGT CATGCTGTTT AAATCCATAC TAGTCCCCAGAGGCCAGGCT GCTTCTGCCA CCCCTACCCC TCCCGCCACA GAGCTCTTCA GCTTCTCACA TTTCTAGTTCTTCTCTCTCT ACTTTCATTA CCTTCTCTCT TTTTTTTTTT CTTCTCATGT GCTCACGGGA GCAGAGAAAATTAACTCCTC TAAGTTTTCT TAACACAGAG TGCCTTAATT ACATATTACT ATTGTTTGAG TTCCTGCCAACACTACGTCT GTAGGGTCAC ACCTGCTATA TTAGAGGCTT ATCAAAAAAA GATAGCTTTC TCCTAAAAAGGGATTTGGAT GCCTACTAAG ATAACTGGAT GCCAAGATAA GTTTAACCTA ACAAACTTTA TTATTATTATTATTATTATT ATTAGAGATA GGTACTTATT CTGTCACCCA GACTGCAGTG CAGGGATGCA ATAATAGCTCACTGCAGCCT CAAAGTCCTG AGTTCATGCA ATCCTTCTGC TTCAGCTCCC TGAGTAGCTA GGACTACAGGCATATGCTAC TCTGCCCAGC TACTTTTAAA AAAATAATTA GGGATGGGGT CTTGTTGTAT TGCCCAGGCTCGTCTCAAAC TTCTGGTTTC AAGCAATCCT CCTGCCTTTT ACCTCCCTAA TTGTTGGAGT TACAGGCATGAGCCACAGCA CTCAACCAAG ATTTAAAAAC TTTTAAAAGA AATCACATTA CTTACTGTTA TCATCATTATGGTTACTACC AGTGTTAAAA CAATTGGTAT TGAAAACACC ACTACCAGAT CAAGCTTCAA ACCAAGATGTCAAGTAAATA TTATTGTCAG ACCTCTGAGC CCAAGCCTGC AGGTATACAC CCAGATGGCC TGAAGCAAGTGAAGAATCAC AAAAGAACTG AAAATGGCCG GTTCCTGCCT TAACTGATGA CATTCCACCA TTGTGATTTGTTCCTGCCCC ACCTTGACTG AGGGATTAAC CTTGTGAAAT TCCTTCCCCT GGCTCAGAAG CTCCCCGACTGAGTACCTTG TGACCCCCAC CCCTGCCCAC AAGTGAAAAA CCCCCTTTGA CTGTAATTTT CCACTACCCACCCAAATCCT ATAAAACAGC CTCACCCCTA TCTCCCTTCG CTGACTCTCT TTTCAGACTC AACCTGCCTGCACCTAGGTG ATTCAAAAGC TTTATTGCTC ACACAAAGCC TGTTTGGTGG TCTCTTCACA CAGACCATGTGACATTTGGT GCCGTAACTC AGATCGGGGA ACCTCCCTTG GGAGATCAGT CCCCTGTCAT CCTGCTCTTTGCTCCATGAG AAAGATCCAC CTATGACCTC TGGTCCTCAG ACCAACCAGC CCAAGGAACA TCTCACCAATTTTAAATTGG GTAAGTGGCC TCTTTTTACT CTCTTCTCCA GCCTCTCTCA CTATCCCTCA ACATCTTTCTCCTTTCAATC TTGGCACCAC GCTTCAATCT CTCCCTTCCC TTAATTTCAG TTCCTTTCTT TTTCTGGTAGAGACAGAGGA AACGTGTTCT ATCTGTGAAC CCAAAACTCC AGCACTGGTC ATGGACTTGG AAAGACAGTCTTCCCTTGAT GTTTAATCAC TGCAGGGATG CCTGCCTGAT TATTCACCCA CATTTCAGAG CTGTCTGATCACTGCAGGGA CGCCTGCCTG GATCCTTCAC CTTAGTGGCA AGTACCACTT TGCCTGGGTG GCAAGCACCACCTCTCCTGG GGGGCAAGCA CCACCTCTCC TGGGGGGCAA GTACCCCCCA ACCCCTTCTC TCCATGTCTCCACCCTCTCT TCTCTGGGCT TGCCTCCTTC ACTATGGGCC ACCTTCCACC CTCCATTCCT CCCTTTTCTCCCTTAGCCTG TGTTCTCAAG AACTTAAAAC CTCTTCAACT CACGTCTGAC CTAAAACCTA AATGCCTTACTTTCTTCTGC AATACCGCTT GACCCCAATA CAAACTCAAC AATGGTTCCA AATAGCCTGA AAACGGCACTTTCAATTTCT CCATCCCACA AGATCTAAAT AATTCTTGTC GTAAAATGGA CAAATGGTCT GAGGTGCCTGACATCTGGGC ATTCTTTTAC ACGTCGGTCC CTCCCTAGTC TCTGTTCCCA ATGCAACTCA TCCCAAATCCTCCTTCTTTC CCTCCTGCCT GTCCCCTCAG TCCCAACCCC AAGTGTCGCT GAGTCTTTCC AATCTTCCTTTTCTACTGAC CCATCTGACC TCTCCCCTCT TCCCCAGACT GCTCCTCCTC AGGTCGCTCC CCGCCAGGCTGAATCAGGCT CCAATTCTTC CTCAGCGTCC GCTCCTCCAC CCTATAATCC TTCTATCACC TCCCCTCCTCACACCTGGTC CAGCTTACAG TTTCATTCTG TGACTAGCCC TCCCCCACCT GCCCAACAAT TTCCTCTTAAAGAGGTGGCT GGAGCTAAAG GCATAGTCAA GGTTAATGCT CCTTTTTCTT TATCCAACCT CTCCCATCTCAGTTAGTATT TAGGCTTTTT TTCATCAAAT ATGAATACCT AGCCCACTCC ATGGCTCATT TGGCAGCAACTCCTAGACAT TTTACAGCCT TGGACCCAGA GGGGCCAGAA GGTCATCTTA TTCTCAATAT GCATTTTATTACCCAATCCA CTCCCAACAT TAGAAAAAGC TCCAAAAGTT AGACTCCGGC CCTCAAACCC CACAACAGGACTTAATTAAC CTTGCCTTCA AAGCGTACAA TAATAGAGTA GAGGCAGCCA AGTAGCAACA TATTTCTGAGTTGCAATTCC TTGCCTCCAC TGTGAGAGAA ACCCCAGCCA CATCTCCAGT ACACAAGAAC TTCAAAATGCCTAAGCCACA GTGGTCAAGC ATTCCTACAG GACCTCCTCC ATCAGGATCT TGCTTCAAGT GCCAGAAATCTGGCCACTGG GCCAAGGAAT GCCCTCAGCC TGGGATTCCT CCTAAGCCAT GTTCCATCTG TGTGGGACCCCACTGGAAAT CGGACTGTCC AACTTGCCCA GCACCCACTC CCAGAGCCCC TGGAACTCTG GCCCAAGGCTCTCTGACTGA CTCCTTCCCA GATCTTCTTG GCTTAGTGGC TGAAGACTGA TGCTGCCTGA TCGCCTCAGAAGCCTCCTGG ACCATCACAG ATGCTTTTGG TAACTCTTAC AGTGGAGGGT AAGTCCGTCC CCTTCTTAATCAATGCAGAG GCTACCCACT CCACATTACC TTCTCTTCAA GGTCCTGTTT CCCTTGTCTT CATAAATGTTGTGGGTATTG ATGGCCAGGC TTCTAAACCC CTTAAAACTC CCCAACTCTG GTGCCGATTT AAACAACATTCTTTTATACA CTTCTTTTTA GTTATCCCCA CCTGCCCAGT TCCCTTATTA GGCTGAGACA TTTTAACCAAATTATTTGCT TCCCTGACTA TTCCTGGACT ACAGCCACAT CTCATTGCTG CCCTTCTTCC CAACCCAAAAGTGGCAACTC CTTTGCCACT TCCTCTCATA TCCCCCTACC TTAACCCACA GGTATGGGAC ACCTCTACTCCCTCCCTGGC AACAAATCAC ACCCTCATTA CTATCCCATT AAAACCTAAT CACCCTTACC TGGGTCAACGCCAGTATCCC ATCCCACAAC AGGCTTTAAA GGGATTAAAG CCTGTTATCA CTTGCCTGTT ACAACATGTCCTTTTAAAGC CTGTAAACTC TCCTTACAAT TCCCCCATTT TACCTGTCCA AAAACTGGAC ATGCCTTACAGGTTAGTTCA GGATCTGTGC CTTATCAACC AAATTGTCTT GCCTATCCAC GCCATGGTGC CAAACCCATATACTCTCCTA TCCTCAATAC CTCCCTCCAA AACCCCTCCA TAACCCTTAT TCTGTTCTGG ATCTCAAAACATGCTTTCTT TACTATTCAT TTGCACCCTT CATCCCAGCC TCTCTTCACT TTCACTTGGA CTGACCCTGACACCCATCAG CCTCAGCAAC TTACCTGGGC TGTACTGCCG CAAGGCTTCA TGGACAGCCC CCATTACCTCAGTCAACCCA AATTTCTTCT TCATCCATTA CCTATCCAGG CATAGTTCTT CATGAAAACA CACGTGCTCTCCCTGCTGAT CATGTCCAGC TAATCTCCCC AACCCCAGGA CTGGCAAATT GACTTTACTC ACATGCCCCAAATCAGGACA CTAAAGTACC TCTTGGTCTG GGTAGACACT TTCACTGGAT AGGTAGATGC CTTTCCCACAGGGCCTAAGA AGGCCACCGT GGTCATTTCT TCCCTTCTGT CAGACATAAT TCCTTGGTTT GGCCTTCCCACCTCTATACA GTCTGATAAT GGACAAGCCT TTACTAGTCA AAGCACGCAA GCAGTTTCTC AGGCTCTTGGTATTCAGTGA AACCTTCATA CCCCTTACCG TCCTCAATCC TTAGGAAAGG TAGAACTGAT TAATGGTCTTTTAAAAACAC ACCTCACCAA GCTCAGCCTC CAACTTAAAA AGGACTGGAC AGTACTTTTA CCACTTGCCATTCTCAGAAT TCGGGCCTGT CCTCGAAATG CTACAAGGTA CAGCCCATTT AAGATTCTGT ATGGACGCTCCTTTTTATTA GGCCCCAGTC TCATTCCAGA CACCAGCCCA ACTTGAACTG TGCCCCAAAA ACTTGTCATCCCTACAATCT TCTGTCTAGT CATACTCCTA TTCACCATTC TCAACTACTT GTAAATGCCC TGCCCTTTTTTACAGTGCTG ATTTATACTT TTCCTCCAAA CCATCATAAC TGATATCTCC TGGTTTTACC TCAAACCGCCACCCTTAAGT CTCTCTTAAA GTGGATAGAA GATCTTCAGT GACAAGGTAC ACTCCAATAC TTTCACCCTAATAAAGCCCT ATTCTTTACT TTTATATTCA CTCTTATTCT TGTTCCCATT CTTATGCCAC TCTCTACCTCTCCCCAGCTA TCTCCACCAC ACTATCAATC TCACTCACTC TCTCCTAGCC ATTTCTAATC CTTCTTTAACAAACAATTGC TGGCTTTACA ATTTCTCTTT CCTCCAAAAT CACCGAGTCC TCAATTTACT CACTGCTAAAAAAGGGGACT CTGCATATTT TTAAATGAAG AGTGTTGTTT TTACCTAAAT CAATCTGGCC TGGTATATGACAACATAAAA AAAACTCAAG GATAGAGCCA AAAACCTTGC CAACCAAGCA AGTAATTATG CTGAACCCCCTTGGGCACTC TAATTAGATG TCCTGGGTTC TCCCGATTCT TAATCCTTTA ATACCTGTTT TTCTCCTTCTCTTATGCAGA CCTTGTGTCT TCCATTTAGT TTCTCAATTC ATACAAAACC GTATCCAGGC CATCACCAATCATTCTATAC GACAAATGTT TTAAGGGAGG AGACCACCCC TCATATTGTC TTATGCCCAA TTTCTGCCTCCAAAGAAAGA AGTAAAAATG AAAAGGCAGA AATGAAATCC ACAGGCAGAC AGCCTGATGC CACACCCTGGGCCTGGTGGT TAAGATCAAC CCCTGACCTA ATCAGTTATG TTATCTATAG ATTACAGACA TTGTATGGAAAAGCACTGTG AAAATCCCTG TCTTGTTCTG TTCCTCTAAT TACCAGTACA CGCAGCCCCT AGTCATGTACCCCCTGCTTG CTCCCCCTGC TTGCTCAATC AGTCATGACC CTCTCACGCA GACCCCCTTA GAGTTGTAAGCCCTTAAGAG GAAAAGGAAT TGTTCACTCG GAGAGCTCGG TTTTTGAGAC ATGAGTCTTG CCAATGCTCCCAGCTGAATA AAGCCCTTCC TTCTTTAACT CAGTGTCTGA GGGGTTTTGT CTGTGTCTTG TCCTGCTACAGTTTCATCTA ACAACCCCAT AATATCACCC CTTACCACAA AATCTTCCTT CAGCTTAATC TCTCCCACTCTAGGTTCTCA CGCCACCCCT AATCCTGCTC GAAGCAGCCC TGAGAAACAT CGCCCGTTAT CTCTCCACACCACCCCCAAA AATTTTCACT GCCCCAACAC TTTACCACTA TTTCGTTTTA TTTTTCTTAT TAATATAAGAAGATAGAAAT GTCAGGCCTC TGAGCCCAAG CCTGCACGTA TACATCCACA TGGCCTGAAG CAAGTGAAGAATCACAAAAG AAGTGAAAAT GGCTGGTTCC TGCCTTAACT GATGATATTC CACCATTGTG ATTTGTTCCTGCGCCACCTT GACTGAGGGA TTAACCTTGT GAAATTCCTT CCCCTGGCTC AGAAGCTCCC CCACTGAGCACCTTGTGACC CCCACCCCTA CCCACAAGTG AAAAACCCCC TTTGACTGTA ATTTTCCACT ACCCACCCAAATCCTATAAA ACAGCCCCAC CCCATCTCCC TTTGCTGACT CTATTTTTGG ACTCAGCCCA CCTGCACCCAGGTGATTCAA AAGCTTCATT GCTCACACAA AGCCTGTTTG GTGGTCTCTT CACACCGACA CGCGTGATAATTATTATATT ACTTTTAACT AAAACCCTTT CAGAGTCTCG CAGGGAAGGC TGTATATATC TCATAAAATGTTGGGGCCCA CTGGATCAGA CAAGGCCACA AAGGCCAAAG GGAAGTAAAG ATCTCATTAT TTCTCCTAATAATTTCCCTG TCCTTTGTCA TAAATGGTGG GTAGGCTGTT ATGGTGATGG CAGATTTTCT TTCCATAAAATGTCCATAAT AGGACATTTG AACAGAAGGG AAAAATCAAA TTGCTGAAGT TGAAAGAGGG CAATGCAAAGAACTTTGGAG AAAGAACTGT ACAGAGAAGT CAACTGGCAG ATGGGAGGAA GTTTAAGGGG AAAAATATAGATGTCTAAAG AATACATTTA TTCATTTTCC ACAGTGCAAT TTGGACAAGA AGCCTCTTTC TTGCTTCTTTCTATTCTCAT TAAATCATTA GAGCTCAAGC AATCCTTCTG CCTCAGCTTC CCGACTAGCT AGGACTACAGGTATGTGCTA CTATGCCCAG CTAATTTTTT AAAAATTAGA TTTTAATTTG GTGAACTATT TCTGTAGGAAACTACAATAA TACAGCCCAG GCACATTGAT CTTGGGTGAA CAAATCAGAA GGAATGAATA ATTCTGTGTTCCTGGGACTC TGACAATTTC ATGAACTTGG TACTCTGAGT AAAGCATAGG AGGAGTTATT TCATAAAATGTGGAGCACAA TCATGTGACA AAGATAATGG GATCCCCATT TCATAAATAA ATCTGAAGTT CAGAGAGAGTAACAACTGGC CAGGGTCACA TCACGGAGAC AGAGGCAGGG TTCCCACTGA TGCCTCTGAC TCCCTGTCCCAGGCCCTTCC TCCTCCCGCA AGCAGAAGTG CAGGGGGCAG AGCTGACCCT GTGCAGTGAA AATCTGAGGGCTGAGTTCCT ATTGGAACAC AAGTGAAAGA CTTCCTGGCT TCTAATCTCA GGATAAGGAC TCAGAGCTCCATCTGTTCCA GCCTTAGGAT AAGAACCAGA ATCTTACACC ATGAAAGCAT GAAAGGTAAG ATTTGAGTGAGGAAAAAAAA AAAAAAAGTC TGTGTTTCAG ATTCAGTTCA CAAAGCAGTT TCATACTTAA GGTACCATCACAATAACCCTGTGGGGTAAG CAAGGCAAAT TTCATTCTTG TTTTATGGGC ATAGGAAGTA AGTCTCAGGGAGGTTAAGAC CAAGGTTTCT GGAGAATTTT ATATTATGAA TCTTGATTTA TGGGATTACT ATTATGTAATTCCTAAGATC ATATAGGAAT CCTAGAGCTT GAATATAGAA CTTTATTTTT AAATCTATAT ACATCATAATTACAAGGAGT AGTGTCCATT TGGGTTCCTT GGCCCTGATG TGTTAGTGGA ATAAACATTT TTGTCAGGGTTGCCATGTGT GTCTGTGCAC GTGTGCACTG TACACCTCCA GGGGATGTAC CCTAAACCAC ATGAATGTGATTTGCACATC CAAGATTTAC AGTGTACTAT AGGGAGAATC TTTTGCAACA GCTTTTGCTA TAATACAGAATCTGAGATGT CTTTGAGAAA GAAAAGTGTA ATCATTACCA AAAAATTATT CTCATAATGT GTGCAAATTTGTATGAAATC TATATTGGCC ATGGGACAAG GAGGTATTTC CAGCTAGCTT CTGAAAGGGC TCTATTCTCTCATAAGAATT CAGCTGTTGA CATTAGGTGA TATCTGCCCA GGTCATCAGA TGCCATAGAG AAAGAGGGTTTGCTGAAACT TATATCAGCA GTGCACTGTA TGCTCTTTCT GATTTATTTG AACATTCATT TATTGAGTGTCAAGTAATGC ACTAGATACT CCAGGGATCT GACACAAACT CTGCCCTGAA GGAGCATGTA ATCTCACTGGGGAGAAAACA AAACATATGA TAATTTCAAA ATAACAAACT AGGCAAACTA GTTAACACTT AAAAAGCACGCTTTATTCAA ATGCAAAATT GCATGTTACA GGGTAACCTT TCAGTAAGAA GCCAGGAAGA GGAGCTCATCATGGGTTGGA TTAGTAAAGG ACTAGTTATA AAAGAAGTGG TGGGGTTGAG GGAGGCCTGA GATGAAATTTAAAGAATATG TAGAATCTAG GTAAGTGGAT AAAAGGTCTG GGGGCAGGGG AAAGGAGAGC ATTTCATTGTGAATCAAGGA ATTTCTCCAC CTGTTTTAAC TCTTCCATAT GACATCAAAG AGATGTCACT TGCAGCTAGCATTTCAGTGA TGTTTTCTTA CTAATAATAT CGTGATAAAA GAAACATTGA CTATAAGAAA TAGGAATGGGTCTCATAAAA GGAAACAGCA AAACCCCCAA ACTAAAAAAC AGCGCAGGCT ATTTCTCTCT TCTCTCCTTTTGCTTGGCAC TCATGAGATG CTAGGTGTGG AAGTCAGCCA ACTGAAAAAG AGAGGTGGCT GAAGAAGGTGGGGAGGCTGA AGCCAGTTAA ATAGGATGGT CCAATTCACA GACGGCGAGG CTACAGTGCA AATAGGACTCTTTCAACTTG AGCAGGACCC CATTACTTCA CTGGAGTTAG AAAGAAAGGA GAGCGTAGAC TTTTTGAACTTTCTATAAGA GTGTACCTCC ACAGTATACA GAAGACGACG TGAAATTTGA TCTGCAAGAA AACTGAGTCCATATTCACAT ATGTATCAAA TTTGCACTTC ATTTAGAAGT GTCTGTCATC AAGTACAGCA CTGAATTGAAACTGAAAACA AGAGTCAAGA AAGAGCAAAG TCAGCCATCT TTATATTCCA CATGAATCCT TTCCCTTTATGGTCTTATTT GTTTCTCCTC AGAAAAGACA AAAAGCTGAG CTGTATAAAC ACCTGTGGGC TGGGGGTTGAGGGATAAATG AGGGGCGAAA TGGAAGCTGA AGGAACTGTT GGTCAGGTAG AAATCTTCCC AGATGCACTGAAGGAAACAC ACTTCATGTT TGACGTAGGA GGTGCCACCA CACAAAACGT TTCATGGAAG GATTTAAAGGATCTCATGAT TTTTAGTATT CCAAGAATTT TCTTTCACCA AGGGCGATTT AATATGGGTC ATTCATACTGAAAGAAAAAC AAAAGATAAT AAGAGTTTAA AAATTGCAAA ACTTGGAGTG TTAGTAGTAA AGGTAAATATTCATTAGAGA TGAGAAGAGG AGCAAGGAAA TGCTTTCAGC TGGAAATCTC AGACAAGAGG CCAGGCTTTAGGAACCTCTG AAGATGAACA AATGTAAGCA AACCCTAGTA GCAGCACTTC TCAGATTTTC ATGTGCTTACCACTCAGAGA TGGTGTTAAA ATGCAGACTC TGATTCAGTA GGTCTGAGTG GAGCCTGAGA TTCTGCACCCCTAACAAGCT CTTTAGTGAT GCTTATGCCA CTGGCGCACA GACCCCACTT GGAGAAATTT TTGTGGTGCATACGGTCTTT GTCTCCAGAT CTAATGAGTC TGAAGGACAG TGTAGATTGA TTTTTTAAAT TTATGTTTATTTTAATTTAA TTTAATTTAA TTTATTTATT TATTTATTTT TGAGATGGAG TCTCACTCTG TTGCCCAGTCCGGAGTGCAG TGGCACGGAG GCAGCTCATG CAACCACGGC CTCCTGGGTT CAAGCGATTC TTCCGCCTCAACTTCCTGAG TAGCTGGGAA TACAGGCACG TGCCAGCACA CCCAGCTAAT TTTTGTATTT TTAGTAGAGATGGGGTTTCA CCACATTGGC CAAGCTAATC TCAAACTCCT GACCTCATGA TCCACCTGCC ACGGCCTCCGAAAGTGCTGG GATTACAGGC GTGAGCCACC GAGCCCAGCT GTAGATTGAT TTTGAGCAGT GGAAAGTCAAGGAATTAGAA GGCATGCTTA AATGGAAAGT GAAATTGGAG AAAATTTAAA CTCATGAAAT AGTGGTGGTTATAAACTCGT GATAAATTAT ATCCTGGGAT ATAATTTAAT GAGATGGTAA CACATTTAGT TTAAAGAAATAAGTGACACT TTTTTTGTGT GACACAACTG TCTTATTCTT GGAAAGGACA AGGAGAGAAT GAAATATGGTATGTCTTCAC AGCACCTTTC AAAGGGAGAA CCAGATTCTG AGGAGCTGGT CTCATGATGA ACTGTCAGGGTAAACCACAG TTCAGCAGCT GCAAATGTGC TTGCCAAAAT AGAGACAAAA AAATGTTTCT GAAAACAAAATTTCACATAT GCCCTCCTCT GAGGTTGGCA TCATATCTTC CTGTGTATCT TGGGTGTAGC TTCTATCCTGCCAGAATTTA GACAGTAGAA ACCAAATGAG GTGATAAACA GAGTCATTTT GCAGAAGAGT CAAAATAACCCAGCAAGAAA TGAAACCACA AATGCCCAAG GAGTCATTCA TTCACCATTC AAAAGCTAAT AGAAATGAACACAAACTACT ATGAAAATTC ACCCAAGAAC TTAAAAAAAA AAAAAAAGGC TCATGGTGTT TAGTGTGATAGTATTCATTT TACCTTTGAC TTGTTCTAAA AACACACCAT ACTTCTACCC CACCCTTCCT CAGTGCCGTCACACAATGGT TTCAGTGTGA AAAAAAAAAC CACGTTACTG GAAAAGGAGG GTGCCTGGGA CTTGCCACTCTAAGCTGGTA GTCAAGGGTC TTGAGTTCTA AAAGCATACG CGTTAAGAGC ATGATTCCTG GATCCAAATGAGTATGGATC TCAGCATTGC CATTTATTGT GACCTCAGGC TATTTTATTT CTCTGTGCCT GTTTCTTTATCAGTAATGAA GATGTTCATA GACCCTTCTC CCACAGACTT AAAGGCATAT TTCATGATTT AAGACATGTAAACCATTCAT AACAGTATAC AACATGGAAT TAATATTTGA TAAAGGTTTA TGATTATTGT AACTAACTCTGTCACTTGCT CAAGGCCTAT AGAAAACTTA CTTAATTAGT TCAACTACAA AAAGAGTTTG AATGTGATATCCACCAAGAT CATATTCAGA CCTAGAATTC TGTGATTCTT ATGAATTAAT ACAGCCTTGG TCAATAAATGAGAGCTGGGC AAATAATTCT TCTTTGCTAG GCCTTTCTAG ACCATCTGGT GAAGCATTCA AGACTTATGTTATTGGGGCC AGCCTTCCTT TCCAACTTCA ACTCCACAAC TCCTCAATAA GCCATGGGCT CAAGAAAGTTCTGCTCAGTG GCCCCTGAAA AATGCTTTCA TAGTCTCACT ACCATACCAC TGCTTACACA ATTTCCTTCCTACAGACTGC CTTCCTTTCC TGCTTTTCTC CATATACCTA AATCCTATCT ATTCTTCATA AGCAACCTTCTTTATAACAT TTTCTATAAC CACCAAGCCA AATGACCTTT TCCTTCTTAA ATATAGCACC CATTGGCCATTACCATGCTC TGCCTTGTAT TTTTCTGATT TTTTTCTTTC TATATTCCTG TCTTAACTCC CCAGCTAGGTAATAATTTTC CTGAAATCAG GGACCAGGCT GACTCCTCTT GCTGTCTCAA GAAAGCTTAG CAGTTTCCAACACAAAAATG TTCAATAAAC AACTATTAAT TGACTGATTA TAAAAAATCA GTGAACCATT AAACTTAATATAGCAATTTG CTTAGCATGG TAATTAGCTT TTTGCTAATA TTCTTCCAGC CAGTCTCTCC TCCTGTGCCTCAAGGACATC TTAAAAAAAA AAAATCTAGT TGATCTGCTT CCATCTAGTG GCAATTAAAA CAGGTGGTTCCGGTAGCCAG AAAACAGCTC TGGGTAGATT GTGCCAGAAA ATACTTTCAC TCAGTAGGTG CGAGTTTGAAAGAAATCTTC ACATCTGTGG GTTTCCTGCC ACAGACATAG GGAGACCAGC CCAGAGAAAG AAGCCTTTCCTCACTAGACT CCATTTGCAC TAGTAAAGAG AAGACAGAGT AATTAAAAAG AATAAAAAGA ACCTCCACTGATCGTACATC CTCATCCAGT TACCCCTGCC CCACTTCTCC TTCACAGCCA AACATTTTAA AAGAGATGACTGCTTGTTCT GTCTCTACTT TCTCATCCTC AGTAATGCTC AATGCTTGGC CGTCTGACCT CTGTCTTGATGTCTGCACTG CAAATAGTCT CCCCACTGAC ACCCTTGTTG CATCCAGGGG ATACTTACTG GTTCTCTTGGCAATGTTTGA AACCGTTCCC CTTTCTTTGT TTCCTTGGCA TTCATTACCC CACACTCTTT CTCCTCTTCCTTCTCCCTGC CTGGCAACAT CTTTTCATTT CTCTTTCCCT TAGGTGACTT ATTAGATAAT GATGTTCCTCTGGCTCCCAT ACTCTCTCCC AGGTCCTCTT CCATTCTTAA AGCACTCACA CCCTCCCTGG ATGATAGTACCCACTCCTGA GATGGCAGTT ACCTCCTGAA ATGTGAGGGA CCCAAATCCA CTTCTCCTGC CATAGCCTCTGTGCTTTGGA TAGGTCCAAT GAGCCACAGT GAATGATGTG CATACACCCA AAGCTCAGTA CAAAACTGAACCCATGATCT TTACCTCCAA AACCTCTCAT TCTTTTATGT TCCCTTCTCA GAAGTAAACA GGACTACCATCCGCCAGTTT CCAGGTGAGA AAGATGATAA TTTGATTCTT CTCTCTCACT TTTAGCCAAT TAACAGACACATTCAGTTAA TATCACCTCC TCTTATTTCA TGAACCCATT CTTACTACTA GTTCCCTAGA CAGGCGCCATCGGTTTTAAT CTAATAACTG CAAATGCCTC CAAAACAAGT CTCTTTGAAT CCAGGCTCAC CTGTCTCCCACACTTGCCAT ACTGCTCTGC AGGGTGACCT TATAAGATGC CAGAGGTAAG GCTACTCACT GTTTAAACCCCTTTAGTGAT ATCCCAAAAG ACCTCAAGAT AAAGCCCATA TCACATGGCT TATACATTAG TTTATGATCTGGCTTCTGGT GCCTCATTTT TCCCCACTTT TTCCTTTGCA TTCTAAGCAA TGGCCCATAC TAAGTTTGTGATTGGTAGGA TGGTTGCCCA AACCAGCATC CAATCCCTTC AGAAATCATC TCACTTCATT TCTAGCATTTTAAAGGAAGC TCAGTTGTCC AGCTGGGTAC TGAATATGTC ACCAAAGTCC TCCTTTCATA GTTTATTTTACTTAAACTCT CCTTCCTAAA ATTCCAGAGC AAGTCACTAA ACCCTAGATA CTGAGAAATA TTTTTCCATCTTCATTTCTG CCAGGTGGGC CATCAACTTT CACATGTCTG CATCTCCTCC CACTGTGCTA TTTCTCCAGTAGAAGAAATT TGAGCTTCAA GACCAAACTG AAAAATACTT GCCTCCTTGG GGAAGCTGTA GGTAGAATTCATGCTCCCTA TCTTTCCCAC ATTTCTGAAG GACAATGCCT GTTAGAGCAA TTGAATGCAA ATAGTCAATTGAATAAGCAT TTATTCATTT CTCAATAAGT GCTTGTTCAA TTGAATATTT CTTAAATAAT ATATTTAAGAACAAGAAGAA CACACCACAA TGTTTTTAAC CCTCAGAAAA AATTCTGAGG TAATCAGAAA AATCTCCCTTTACATAAACT GCCCTTTTCT AATAGGGATT ACTTGTTCGT TCATTCATTC ATTCAGCTCC ACTAGCACCAAAAAGCACAG CTCTGAAAGG AAGCTAGTAG ATTTATCACC TTATCTGGTC ATTTGGATGA GGACCCCAGGTAAATAAACT ACTATGGGGT TAATGTGTCT AGCTAGAGCA GGAAGTAACT TAAGGAAGTA GAGAATGAATCAGCAGATGT GGAAACTCCT CGCCACTAAT AAAACTTACC TTCTCTTGGA TTTCTTGCCT GAAAATAGAAAATAGAGAAA AGGCATTAGC AAAAATTAGA CAATTTAAAG TTTTTCAAGT AAGGGAGAAG GAAGACTCCCACTCTCAAAA CTGTCTTTTG AAGTATATTA GGTATTTGTT AGGTGGACCC TATCTGTGTC AAAGGAGATTTGAGGAACTG GCTTAATAAA CAGTGGTAGA CACTAATACA GAACAGACAT GTTGATGCAG ATGCCTCCTGAGGTTCCATT CCATTCTCCG TGCTACTCAA GAAGACAGAA 25441 TTGCTAAATT GCCTGGTGGC AAGACCCAATATGTCCATTC AAGTGTTTAT CCCTTCCCAA TCTGCCATCT CATCCTACCT GCAGATTCTT CCCTTGAGGGACAGCTGCTA ATACTGTAAA ACTATGTGCC ATTACAGCTC ACAGCATCAT CTCTATGAGA ATCCACAAGAGAATTTCACT TTGGTCTTGT TGGTAGGAAT TGTGCAGCCT CATCTGAGTA ACTAATGTGT TTTTATCTTACAAACACAAG GAATATCACA TGGTTCTCCT TTGACTGGCT GTAAGGAAAC TCAGAGCTAG ATCTGAGACCCTCTCCTACC AAGTATATAA AACTTTGTGA CATACATTTT TGTGCCATAA CTTCAACCTT GGTTCCAAATGATTTTTGTA CCCTAAGTTT AAATTTGGCT TTCTTTTTTT TTTTTTTGTA CTCAATAAAA CATCAAGCTCATTTATTATT GCGAAGAGCG AAACAACAAA GCTTCCACAG CGTGGAAGGG GACCCGAGTG GGTTGCCCAAATTGGCTTCT TTTTCTTACT TTTTAATTAA TTTTAATTTG CTATACTGAA CACATTTTGTACTGTTCTCACATTCTTTTT GAAAAAAGCA GAATATAAAT AAGTAGATAA CTTAAAAAAA ACTCTTTGAG CAGAAAGAATCATTTGGGAG GCAATATATT TCAGTGGCTG TAAAGTGGCA TTCTAGAATC ATCCTACCCA GGTGAAAGCCCTATTTTGCC ACCTGTAGTG TAGTGTGTAT TTGAACAGCT ACTTTCTTTT CTAAACTACA ATTTCTTCATCTGTTAAAGA GGCATAATAA TTGTATCATC CTCATTGGGT TGATAAAATA AAATATTTCC AAGTATTTAGTTCAGGTCCT AGCACGTAGA CAGTGTTGCA TTACTGTTTT AATCCTTTAA AGTATTAAAG ACTACTATTTGAAATCTTTT CTTCTAAAAT TCAGCCTGCT GATGACCAAG TGCACTTGAG CAGGGGGAAT CAAATCTGAATTAATTTCAG ATTCTGGTTA GCTTCACATA AATATTTTTT TTAGGGATGA TGAACCTAAC AGCAATAGATGAGTAAGAAT CTGTTCCTAC TGAGAGAGTT TCATTTTGAA GAAAAAGGAA CTAAGGGGGC ATGTGTTCAGTTTCATGCCC TGGTCTAACC CTGTGTGTTG GTTCTGGTGG GAAATTCTTC CAACCGAGGA AAAAACCAGTTCACAAATCT GAAGACCAGT GATTTTAGAA GATGTATCTG GACTGGAGTC TAATCTCTGA CTCTGGGTCCTGCTGATATG GTATTTTTGA GATTTGGCCT AAAACATCAT TGCCCTGGTT TCCTTATTTA CCAAACAGGGCCAATGGTAG TGACTAATCA GAAAATGATA ATGCCTGGTG CACAAAATGT GTCTAGATGA GCCCATGCACAAGGACACAT GTTTCTGGAA CTGTTCCTTA TTCCTTTCCT AAAAGAAAGG AGGGAAAGTC TCCATACTAAGACTACTAGG GCAGGGGACA AAGTGCTAGA GTCAGAAGAT TCATCTGAGG ACAGAAGAAT AGGGGTGAAGGCTCTAGTCA CTTCATTGGC TACCATGCTC TAAATAGTTA CCTGTGCCCT TTTTCTAACT ATTAGAACCCAAAAAGCCTA TAAATTCTCT CTCTCTCTCT CTCTCTCTCT GTGTATATAT ATACATATAC ACACACACATAGACACACAC ACACACCTAA ACACACACAT AGAGATTTAT GACTTTTTAC TTTTATCCTT GTAAATGCCATTAACTATAT TTTGTCTTAG ATTTAGCCTG GGAATGTAGC CATTATTTCT ACCATTGCCT CCATAGGAAA AATACTCTTC ATGTTTTAAA GGACCAACCT ACAACTAAAA TCTTTGGAAA GCAGAATCAT TTGTAAGTTGGTGAAAATGG AAGATGTTGT TTTATAAATG AAGACTTTTT TTTTTTTTTT TTTTGAGACA GGGCCTCACTCTGTTGTGGA GTGCAGTGGT GCTGTCATGG CTTACTGCAG CCTTGACCTC CTGGGTTCAA GTGATCCTCCCACCTCAGTC TCCTGGGTAG CTGGGACTAC ATGTGCATGC TACCATGCCT GACTAATTTT TTGTATTTTTGTAGAGATGT GGTTTCGCCA TGTTGCCCAG GCTGGTCTTG AACTCGTGGG CTCAAGTAAT CCTCCTGCCTCAGCCTCCAA AAGTGCTGGG ATTAGAGGTG ACAGCCAAGG TGCCTGGCCC ACAGATGAAG ACTATTTAATGTTATCTTAA AGATACCCTA AGCTTCCTAC CAAGCCAGTG ATCTTTTGGG GCTTCTGTTT TCTTTGTTGGCATAACTGTA ACTAGCCTAA CTGCCCGTTA TCTGTTTCCT GTTTGCCCCA CACTGATTCC CACAGCAGTTTTCAAGTTAT CGGTTTGAGA TCTTGTACAG AAATGACTCC AAGGTAAAAA ATTTAAAAAC AACCCCTCTAATTTTTTTAC CCTTGCTTAT AAAACAGCCT TAGCCAGCTA ACCCCTCACT ACATGCAAAT GAGTTTGATTCTATTCTTTT GATTCTACAA ACACTTATTA AAAGATTTTA GAATTCGGAA ATAAATAGCT TCCTTATTAAGGTGACTTAC AGCCCCAAAG TCCTTAAAAT TATTTAGACA ATAGCCACCT TATCCCAGGG GGCAGTGTGTAATAACCCAC CCTGTTCTCT ATCCGTCAGT TCTGCCATCA TCGCCCAAGG TAGGAAGAAA GACAGGACAACCGGGGTCAA GATTTGAAGT CTCAATGGAA AGAATAATCA GTGGTTGGAG AAAACTGTCA TTCTTCTTTTGCCTTAATGC AGTACTTGAT ACTTATACTT AGTACTGTAT AGTACTTAGT ACTGTATAAT ACTATAAGATAGTGAGATTC AATCAGCACA GAATTTCTAA TAGCAAGGGC AGAGACATTT TAACTGCTCA GTGCTCTCAGGTTATACATA GCTAATGAAG TTCTTGCATA TCAACAATCC CCACCCCCCT CACACACTTT GTCTTTCTGGATTGGTTAGA AAACTTACCT AGCGCCCACT ATTCTCAAAT TTAAATGAAA GATAAGATCA GAGTGGCACGCAATTAGGGA CTGATAAATA ATATTTTTGT AATTGCCAGT GTAAATGGAC AGGGGGCAAC CTTTACATACCATATTCAGT GAACAGAATA CGTACTAACT AATTTGATGG AAGGAAAATT AAAATGACAA TCAACTGAGCCCACAGAAAG GCAACACAGA GCAGTTGGTT AGCAATTGTT TCGAGATCAT CCCTGAACTT GAAACAGGTATATCTTTTTT TTTTTTTTTT TTGAGACAGA GTCTCACTCT GTCACCAGGC TGGAGTGCAA TGGTGCGGTCTCAGCTCACT GCAACCTCCG CCTCCCGGGT TCAAGTGATT CTTCTGTCTC AGCCTCCCGA GTAGCTGGGATTACAGGTGC CCGCCACCAC GCCTGGCTAA TTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGGCCAGGCTGGT CTTGAACTGC TGAGCTCATG ATCCGCCCGC CTCGGCCTCC CAAAGTGCTG GGATTACAGGCATGAGCCAC CACACCTGGC CAAAACAGGT ATATCTTAAA AGCTGCCCAA TGTCCATGAA TGTTACAGCCTTGAATGGTT CTTCCAGGTG AGTTTGGCCA AATGTGGCAC CATACACCCA AGGCCTGCTG CAGGCTAGTGGGTTGCTCAC ACTTTAAAGC TGAGACACAC TCATGCCTTA AGGTAAAGGG AGTGATAATC TGGGCAGCAGATGTTAACTT CTCAAGGCAG TCCTCCTTCT CTTTTCCTCT CCAGTGACGG ATGGTTGGAA AGCATATATGGTGCATTTGG TTAGAGCTGT GGCCTTGGTG AATAGATACT TGGGAGAATA CATGGGAATT TCTCCCAGGGTTAATGCAAT GCCCATGTGT TGGGAACCAG GTGACTCTTG AAGAGGTCAG GTATTTGGGA GCAGTGCCTTGAAACCTTAG TGGACATTAG ACCCACTTCC TAGTGGAATT GTAGCATTGA AATCCAAGGC ATGTAGGCTCTTAGAGGACA GAGATAGTGT GTCATTTTTT CAGAATTAAT TAAGAGCAGG CCAGGCGTGG TGGCTCACACCTGTAATCCA AGCCCTTTGG GAGGCCAAGG CAGGCAGATC ACGAGGTCAG GAGATCGAGA CCACTCTGGCTAACACAGTG AAACCCCGTG TCTACTAAAA ATACAAAAAA TTAGCTGGGC ATGGTGGCAC GCTCCTGTAGTCCCAGCTAC TTGGGAGGCT GAGGTGGGAG AATAGCTTGA ACCCAGAAGG CGGAGGTTGC AGTGAGCTGAAATTGCACCA CTGCACTCTA GCCTGGTGAC AGAGTGAGGC TCTGTCTCAA AAAAAAAAAA GTATTAAAGAATTACATAAG AGCAAAGAAC CATTAGAATA TCTCACTTAG TTGTTATCAG CCTAGCAAGC TGCCTTGAAGGTAATAGACA TTTTTAAAAG TTTATCAGAT GAAAAGCGAA AATCAGCCAA CCTGTTTTAA TGAAGGTGTGTCCTGGGCTG ATTTACATGT CTCCAGGGAC TGATGGCTCT AGAATGTAAA GCTTGGCATC CTGCTTGTGTTGAATCTATC ACATTTAATT TCCTGTGGGT TTCTTTTTTT TTTCTTTTTC ACTTTAAAGT TGTGTTCTTTTCATGTGAAG TTAAACTCAC ATACCTTTTT TTAATCTCCT TGCCAGCCAA ATGATAAATG CCAACCCAGAGAATGCAGTA ACCATGACTG CCACTGGAAT GAAGAGGGGG TTATAATCAC CCTCCTTAAT CATTGAGAAACTTTTGTCCA ATTCTGAAAG AGAAATCAGT AAGGCACATA GCATGAGACC ACCAGCATTA TTTCCTTAGTCTATCTCATG ATATTTGACT TTTTTCCTCC TTACATCTCC CAGTAGTAGC CCATTTGATG CCATTTGACAGATGAGGAAA CTGGCATGGG AAGGCCCCTG ATGAGTCTAC AGCATAGGCA AAGACTGGAC CAGCCTTGCTAGTCTAATGC CTACAGAATC TCAATGCCCA GATTTGTGGT TCATAGAGTT CCTGAAAATG CACCTAAAAATGTTGGCAAG AATGGTCATC GTTGTATTTA GCTCCATGGA CTTGTTCAAT GACTGGAACT CTGAAACACAGAGAAGAGCT AAAAGCCTAA TACAACTTCA GGAAAAATAA AAGCCAATGA TCTGAACTGG ATAATTCACCAGTCAAAGGA AATCATTAAT GCTTTTACTT TAAAGCAGTT GTGCAAAAAT AAGCACTTGA TTTTTACATGCCAAGGACCT GCACTAATTT CTTTCCAATG CAGTAGTTAC CACTTCCCTC TACTTCCTTC ACGAATAAGTAAAAGGGCAT GTTTAGAGAT ACTCTTGTAA GTGTAAACTA AGTTCATTTG GGAGCCTCTA TTTGAAAATACTGGTATAAA AAAAAATCTG TCTCCTGATA CTAACATTTG AAGGAATCTA CTTTTTTACA TATTGGCAGAGGGTCTGATT CTATCCTTAG TTCTTCCCAT TACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACACCCAAATATAT GATTGAGAGA AGGCTCAAGT TCCCAGGAGC TCCAGACAGA AGGTACCTGT TGGCTTGATGAAGATGAGGA GGAAATGAAC ACTAGCTAGG CCTTAAAGGG AAATGTCTCT GATAGGCCTA ATACACAGTCCTCTGCTAAA GGCCTCCCTG CCTCTCTCTG CTCATCCACT CTACTCCCTG GCCCTGGGCA CGCAGCACACAGAGATCAGC ATTTCTGACA GCTTCTGTAG ATCCTACCAT TTAAAGACTT TTGTCATCCA TGCAGATAGTCTCAGGAGCA GACACAGGTA GCTATTCTTT CACATGCTAG CTTAACATGC ATTTGCTTTA GCACCTATTGCCAGGCACTG TGTCAGGTGG AGGGTATACA AAGATGAACA AGACATGATT CTTCTCATAT ACAGATAGATTTTGGAGGCA TTAGCTTAGT GATGATTCAG GAGTATCCAT TATTTGGGGA AGTAGGTGGT CATTAGTGACCTTTTACAGG CATTTCAATG GGCTAACAGA GATGTTAGAT TGTAGTGGAA TAGAAGAATG GGTAAAAAGTAAATCAGTGA GTTCAGATTT TAGGAGTTAA GATGGCAAGA GGTGAGAACA AAAAAAGGAA ATGATTGTCATTAAAGGAGG AGGAAAGACC AGCCAAAGAT TTTACAGTGA GTTAAGCATA CAAATTTATT TCTAGGCCACATATTCTTAG CAAAACAACA TGTAAATGTT TATGTATGTC TTTCCTCATA TCTGCTCATC CATCAGCTCCATCGTTAAGA TTTCAGTTTT CCAGGACAAA CTTACTCACT TTGACATATT GGACTAGGAT TTGACCAGATTCCAGATGAT TCACAAATGG TTTTCTTCTT CCCAATTAAC TCAGTTCCTT CTGAGCAGAT GAAGGTACATGCAGAGGTAA AGCTGAAGCT GGCCAGGGGA TGGCTACAGT TCATGATCCC CAAATCTGGT GCTGATAGAGGCTCACACTG AATCACTTCA ATGAAAAAGA AAAAAAAAAA AAAGACAAAA CAGTATTTCT GAGTAGAGACCCTCCCTTGA GCAAAGGATT TTTAGCCAAA GCTGCCTGAC TACATTACTT GTGATATTGC TTCCAGGCTTTATTTTCTTG AGAATGATGG TGGGTGGTGA ATGAGAGATG AAGGCAAGGA AGCATTGAAA GCTGTGGGGAGAGGAGTAGC TACTCCAGGC TGCTGCCCTA GCTAAGGTGA CCCTCCCCTT CTGCTGGAAG TACCATGCCATATGGCCTCT GCATCAAGGG CTCTTATGGG ATATTCTCAG AGAATCTCTG CCGTTTCATC TGTTCTGATATCTACCCAAG CATTTTGAAA AACATCCCAA TTCACTGAAG CAAGTCCAAC TTCCGTAAAT TCCAGTAGGTGGGTTGACAG TTTTATAATT TCAATAAGGG ATTTTGATAG CACTTCTAAG AATTAAACTA CTTAAACTAATGCATCAGGA GCATACTTGT AGAAAAGTTA ACCAAAACTT CGTAAGTTCA GATGACATTG GTTTTCTCCCATATGGAGAT AAGGTTGGCA GTTAAAAATG AAAAAAAAAA AAAAACCTAC CTTATTTCAA ACTTGAAAAGATCAAGAGAT TGTGTTTTTG TTTTTCAGTT GTTATTCTCC TAAAAGTTTA TGCATGAGGA AAAGTAAAAGTGATTTTAAG AATAAGCCAA ATAAAACAAC CAAGAAAGAC CTCCACTACC CTGGGAAGGA AACTGGTTGGTATTAAGTAG GACACCACAT AAAACAGGTG TTATTGAGAG GAGAAGAACC AAAATGTAAC TGAGGTTCAACAAGACATTA TTTATGCAAT GGCAATGAGA AAAATAAAAA ACACAGTATA ACCATGCTGT ATTGCTATAAGTCATGTTAC ACACTGGGAG ATGGCTTCAG GGGTATTTGG TTTTTACTTT TTGTTTGGGA GGTTTTTCAAAAAAATTTAG TTAGAATAAG TCCTTTGAGA AACATCACAG TAGGTTAAAC AAAGTTAGGT TAAATTAGGCTCCTAAGTTT GACTTCTCAG CAAACTTCTA CTGAATGTTC TGACTGTAAG CCCAGGATTG CATGACAAAACCTCTAGTCT GAAGTTACTC ACCTTGACAG GTTGGTTCTG GAGATGACCA GTTTCCAAAT GGTCCACAGGTGGTTTCTTC AATCCCAGTT AAGTTTGTTC CTTCAGAGCA GCTGAAGGCA CACTGTGAGC TGAAGCTGAAGTTTCCCAAA GGGTGAGTAC AGTCCATGGT ACCCAGCTCT GGGGCCTCCA AAGGCTCACA CTGAATCACTTCAATAGGGA AAGAAACAGT ATGGGGAAGA GTTAAGAGGA ACTGACGCCT GGATTTGAAT CCTAGCCCTGCCACTTGATA ACCATGTGCC TTTAAACAAG GTTACTTGAA CCCTCCAACT TCAGTTTCTT CATCTATATAAGAGGAATAA TGAAATTGTG TTATCTTTAT CAAATTGATA TGGAAACTAA ATGTAATTCA ATTAGCATAAGTCAAGGACC TTAGAACAAA GCCTGACTCA TCAGAAATTC TAAGTAAACA TTAGCTAGTC TTCATATTATTATCTTCAGC ATTATCTGTA GTGAGAATCC TTAAAGCCAA ATAGGTGTAA CTGGGAATGA CCAGCTTAGTCGGGAAATAA CTATCACATC AGAGCCCCTG AGTCTACTAG AGTATTGGGA GCAAGATGTT CAGAGAAAGAGTGGGTCTCC ATAATAAGCC TTCTTTGCAA GGAGAGAATA TAAAAGTCTA GGAAGCATTT TGACCTCAATTCTGTCTTCT ATTCTAGCTC AGTTCCAGAA TTTTAACTCT TTTGATTTTG ACAACCCTCT CCAGAAACTGTATCTATTTC CCTGTTCTGA TTGGTGGTAC AATAGGTAAA TTTAAGACTT GGAAATCAAA GTTTTCACATTTTAGACCCT GCCATGCCAT TTAGTAAACA GTACAACTTT CATGTCTTAT TCCTCATCTG TCAAATTTAAGCCATTATTG CTACCTTGCT CTAGAGACTT CAAGGAAGAA TGGACTCAAG GAATCAGAAG AATTTTTGTATTTGGAAACT ATATGAGATG AGATTAGGGA GAAACATGGG AACTAAGAGA AAATGTTATC TTTTTTCATTGATTTAAAGA GTATCTATTA TATATCAAGC ATTACTCTGG GGCTTGAAGA GCTTAGATTT CACCCTGTAGGACAAAATGG TAGGTAGAAA TTAATGGGTG GATTGTCATG TATGTGTGAT GTGTTTTAAT TGCTTTTAATTGATCAGTCT CCCTGTAGTA TGAATAATGT ATTTGAGGGG AGCTAATTTA AAATTGTGGA ACTCATCTAATAAACTATTG CAAGAATCTA GAAGAAAGAT AATGACGGCA ATGGTAGTAG AGTTGACAAG TGGAAGACAAATTAGAAAAA CACTAAGTTG TAAAAATTGG TAGAATGTTA CCCTGCATAA ATGTTGGGGG AGTTAAGAGAGTCTCATACC AGGGTGCCCA TGTAAATGGT GATTCCACAT ACTGAGATAA GAAATACGAA GAGAAAAGCTGACTGGGAAC AATTGGTTTT ATAGTCTTTT AAACATCCCA AAGGACATCC TTAGCATATT TGAGTTCAGAGCTGGAGATA GGCTTATCAG TCCAAAGATC ACATAGATTT GTGAGTCCGC AAAAGTCAGT AAGTTTGACCAAAGGATACA TGTAGATTAG AGTCAGAAGA GCAATATACA AAAGACAAAA GCTGAGAAAT TATAGTAGTTTATGGTCCTG GATAAGTGCT CATGAAGGAT CTCAGGAGAA ATGATCACAG GTAGAAAGAA TGAGAAAAGAGTGATATGAG AGAAACCAAG ACAAAGAAAA GTAAAATGTT AAAAATGAGT GAAATAGGCA TACCAATAATTAAAAATGAG TAAAATAGGC ATACCAATAA CATAAGGGTT AAAAAATAGA GTTCAAAAAT GGGGTGAGGGTAAAGTATTA GGAAGGAGTC ATGGCCCAGG GATCAAGTGA AATGAGTTAG ATCTATAGAT CTATTTCAGTTGGTTGACAT TTAAATGTAT TTTGGTTTTA ATTCTTTATT GTTTACAAAC ATTGCTTTTT TAAAAAATTAAATTGTCCAA TTCAATTCAG GCTCACAAGC AAGTGCCTCA TATATACAGG CATTTTGTGG ATCCCAAAGATGCAATGATA AATAGGACAC TTACTGATCT CAAGAAGTTT TCAGTACCAG AGGAGACGGA CAAGTGAACAGATGACTTCA ACATAAGTGG GAGAAATGAG GAAGAAATAT GTGGAGCTAT CAGAACTAAG AAAGCTTCCTAGAAGAAACT GTCTTTGAAC AATGTCTTAA AGATGACATGTTTTTTGGCC ATGTGCAAAA TGAGAGAGAAGGCCACCAGC AAAGTCAGTG TGCTACAGAG CACATGTGTT AAGTGTGGAG AACTGCAAGA AGGAAAGGAACTACTAGAAG GAAAAAGCAA GATACTTTCT GGGTAACTCA GCCTCCTAAT GATAAATGGC ATAGTTTCTTCCAGACCTTA GAGTTCTAAT TAATCTAACA AGCTCATTAG ATCGTGAGCT TCTTGAGAGC GGGAATCTACCATGCTAATT CCTTATGGTA ACCCTGACAG CTTTTATCCC AACACTGTGC TTCTTGTGGT ACTCAAAAAGACTTGTTGAG AAGTGAGTCG AAACTTCATG CTGACTTATG AAATCTTTAC GGAAAGGTAA CAATATTGTGAAAGCAGAGC TTTCTGATCA AAACTTCCCA TTTCTCAGAG TGGCTAGTAT CATTTTGTTC CAACCAGCTTCATGATAAGC TATAATGATT CCTGTGACTT TACCTAAGAA GAAGCAAAGA AAGGAAAGAG ACTTACCAAACTGACACTGG GGCCCATAGT ACCCCACATC ACAGTTGCAG GTGTAATTAT TGATGATTTC TACACATTCTCCATGGCCAC TGCATGACCA GGGCTGGCAA GAAGCTTTAA GGAGGTCAGA AAAAAAATAT TTTAATGTGATTACATTTTA GTACTCAAAG TCATTTCTTT AGACATAGAT AACCTITTGT CTGAGATGAT TTAAATAATCAGGAAAGGTT TATTTGTAAA TTCATAGCAT AAAAATCATA TGCTAAAATT TTTACGTATA AAATACACTAAGCATATAGT CATAGGCATT TATTTGCTTT TGGAATGAAA TTACCAATAC TAATATTCTG TAACACTTATAGGAAACTTA GTGGCATACC TTGAAACTCT TGAAATTACT TGTTTTTAAT GAGTGAGAAG GTTAAATGATGACCTGACCT CAATCATTTC TGCATGCAAT TATTTCTTGG CAATCCCTTT CTTTATAGAA ATCAAAGATTAAAAAGTCCA AATTTGCTAA AACGGTAGAG TCCAATTTAT AAGAGACCAA ATTAACTATG GTTCATTATTAAAACATCAC TTGGAAAATG CTGGCTGTTT TGGAATTGTA GAAGATTTTA CAGAAATATT CATACACCAAAGATAGTGCA ATTTTTATAT AAAATTATAT AAGGTTAGAC CAAGAAGGAA GCACGCAGCA CCACACTCTCTACTTCACAA TGTGAAAACT GAGGTGATGT GAGCCTAAGT TTCCAACTGG CCCCAGCTGT CAGCTTCTCCTCCCCTGCCT TATTATCAAA GGCACTGATT GTCTAGCTCT TCCTCTGTAC TTCCTACGTA GATCTATCATTTTGATGTAA CTTGATTTAG GGGTATAGCT TTTGTGCACA GGGACAAATC TTACACACCA AAAATTCTTAGGAGTGACAC GATGCAAGAT TATATAGAGG GCTAGATGTA TTTTAGAATG AACCAGAAGC TGTTCTCATCCCCCCACCTT TCCATGGGGT AAATCTGAGT ATTCTCTTAA CCGTGGCCCT TCCTGAGTCT GAGGCAGCATAGCCGTCTTG TCACTCCCTA CCTGTGTAAC AGAGGGCTGC CTTTAGTTTG TGGCAGGCGT CATCGTTCCATTTGCCTGCA TCTTTGTTTC TCTTGATATA GATCTCCACG CAGTCCTCCT TGTTCTTCTT GTTGTTGGGCTCACCATCTC CCCAGTTCTC TGCTTCTTCA GTAAGAGATT TGTTGGTTCC CACCCACGTC CATATTCCTCCTATCTTCCG GATTCCTATC CAGTAGTAAG AACGACTGAA AGGCAGAGTC TTCTCCAGAT ACTCAATTTCCGCCTTGTTT TGTATGGCAA CTAAATCTGT GTAATTGTCT CGGCAGAATC TTCTAGCCCT TTGCCAGTTCATGGGTTTTT CAGAATAATG GTAAGTCCAG CAGTCGGTTC CATGATGTGC CAGGAAATCT GCAAGACATCAGTGTGACCT ATGCAGACTT ACATAATGTT ACAGCTAAAA AGAACCTAGC ACTACTCCAG GCTGAGCTAGACACTTAGAG ATGAGGAAAC AGAGCCTAAG AGTGTATGTG ACCATCTCAG GATCACAGAA TAGTTGTTTGCAGATTTGAA GTAGAACCTA GACCTTCTGG CTTGAATATA AGATGCTTTT ATCTAAGGTT CTATTTGAAACAAATTTAGT GGTTTTCTAG GTTTATTTTC TTATTAATTT TTTTCTCAAA ATTATTTCAG GTGAAATTTAACCAACATAT TTTAGACATT CATATTTCTT TTTCTTTGTA GCTGTTAATG ATTTACAACT AATTACCGTGTAATATCATA TAACTATACA ATTTACGTAT ACTTTTTAAT CCTGGAATCA TTTCTTGAAG GCCAACACATATGTACCTAT GGGAGAAGCA TAATAAGGAC AGGAAGAACA GTGACATACT TTTAAGTAAC CTCTTTTACATAAAAAACAT TTTATTTTAC CATAGGAAGA ACTGCTTCTG GAAAAGCCCA ATATACCACT CAACTCTTATATATCTAACT GTATAATTTT TAAAAAGAAC AATTTACAAA GCCAAATGGT ATAGGATTAT GAAATTCATTAGATCATGTT CTATACACAA AGAGACTCAA CTGATGATGT TTAATAAACA TATGGACCCA TCAAATATGAGGGCTTTGAA GATATCTAAT TAAACACATA ATTACACAAT GACTTCATAA TAATATATGG CATTCTAAGCATGGTATGAT CTACATGAAT CACTATTTAA TACAGTAAAG AAACAGATAT AATTGATGGT AAAGAGCATCATAAAATAAA CATTTTGAAC AGAGTTTTGA ATGAGCATTC CACTAGAATG CAAGTTCTAA GAGGGAAAAAACTGTTGTGT CCACTGCTGT ATCCTTAGTG CCTAGCATAA ATTTCACACA TTGTAGGGAC TCAGAAAATACCTGTTGTAT GAAAAGAGCA CTAAGTTTCT ATGTGACACA GTGCAGACAT GGCATAAGGA ATGTGTGAACGGGAGAGTTA GCATGTTTGC TTGGCTAGAG CTGAAAATCC AGGCTAGGGA GAAAGAAGAC ATTAGTTTACTTAGGAAATG AAAAACCAAG TTCAAAGCTA TTGCTGGAGA GTCTTCAAGA ATCAGATATA AAATTTGTCACAACAATGGG AGAAGGACCA AAAAATGATA AACCCCCGTC CCTTAATAAG CTCGTATTGT AATTGTAGAAATGACATTAA TGTACACTGA ACTATGAATA AAAAATAGAA AATGAGGTGC TAAATATTTG GTACAGATTGTAAGTACCTT AACAGAGATT TCTTAATTAA CATTATTCCT TTATAATTGA GGGATTTTGT GGGGTTATTGGGATTTGAAC TCTACAGCAT GGGCTATTAT AGGTTAAAAA TAGTGTTCAG GAGTTTCTGG GGAAGAACTAAAGGTAAGAA GAAAAGAGAT GTTTACAGAA GGGATAGAAT TAACAGCTCT GTGAAATAAT TTTCCCTTAGACTATGTATA ACTAGTGGAT ATTTAAGAAA AATGAATATA AGTAAAATAG ACTTAGCGAT ATATAAATATCATAACATAC CACAACAGAG CATTGTCCAC CCCCACAACT TGAAGATGTT CCATAAGTCC CTCTGGGTGCTCTGACATTT CCATGGAAAT ATCTGCAAAT GAAATACAAA ATTATATTTA GATGTATACT CTTAAACCACACATTTATAG CCTTTGAGGT GGTGCTTACA ACTTTCTTAA TAATCAGAAT AAAACACATA TGTCTACTAACCCTGTCTGA GGTAACAGGT TTCTCAGACA TAGATGAAAA ATTACTTCAA ATTTACATCA GAACTGATGCACAGTTTTGT TTTGTTCTAT TTTATTTTTA CGCTTTAGTC TCAAGTTGCT AATCGGTACT GCCCTGAATTTTTTCTATGG TTTGGTAATT TTTATACCTG CTTTTCTGCT GAGCTATTAG ATAAAACTAT TTAATATTTACTATGTATAT TTTTTAAAGT ATTGTTGCTG CTTAATTAAC TATTGATGCT TATATTTAAT GTTATAGCCTCACTCTTGAT CATAATGGGT CAATGCCTCA AATACCTAAA AAAAAAAAAA ATTAGATAGC CAGACACCAGGAAAGAAAAG TATTTCTTTT TTTAATAAAA AGAAATACCT TTTTGAGCAA CTGAAATGAC AAAGTCACAAATTTCCTGCA CACCTTAAAA TATACTTAAT GTAAATGACG AGTTAATGGG TGCAGCACAC CAACATGGCACATGTATACA TGTGTGACAA ACCTGTATGT TGTGCACATG TACCCTAGAA CTTAAAGTAT AATTTTAAAAAAATTCTATC TTCCAAAGCA TATCACTTCT CAGGTAGACA CAGTGTTTAT TGCAAAAGAT CTGATTTCAATAGTATTTCT TCAAGAGTCT CCCCAGAGAC AAAGTCAAGA AGAGGAAATC AGCATATCTG AGAAGAAAGATTTCAGGATC ACTTTTTTTG AGGGTCTGAG AAAATGTTTA GTTTCTATAT TATTTAAAAC CAGAATTGAAATGGGGTGAT TCCTATCCTT GCCACCTGCC TCTACAACCC CAAGAGTTTC TATCTGAGCA TCTAAACGTCTTTTAGGCTG AAAGGCTCAC CATGGCTTTG CTTGGTCCTT CTCTAGTTCT TCTGCAGCCC ATTGAGCCTCTTGACTTAGC ACAAGGGTCT CAGGTCCTTG CCCAAAGGGA GTGTGCTGTG CTGCAGGTAG ACTGCACTGAATGTCAACAG AAAGCCTTGC TTTCTTTCAT TTCTCTAACC CAGTCTCACA TCCTCCTCCT CCTCCCCTTTTCCCTCCCCT TCCTCCTGCA CTTCTCTTTC CTCTTTCCCC ACCCCTTTCC TAGACTGGCC TCTATTGCCTCCCACTGAGA CAAAAATGAA CTGCTGATCA GAAAGTAATG TGACTAGATT CTCTCTTCCT TCCCTCCTTTCTATCCTTCC TTCCATTCTC CTATGCATCT TTCCTTACCC TCCTCCTCCT TCACTCATTG TTGTTGCTGTTCTTCTTCCT CTTCTTTTTC CTCCTGCTCC TCTTCTTCTA CTTGTTCTTG TTCTTGTTTT TGTTTGGTTCTTGTTCTCCT CTTCCTCCTT CTCTCTCTCC TCCTCCTCCT TCTTTTCCAC CACCCTCCCC TATCTTTTTCATAAATGCTA AACTAACTCT TGGCTACCTG TGGTAAATGG CCCTTGGAAA TTGCAAATAC TACAAATCAAAACTGCATTT CAGACATATT TATGATGTTT GCAAAACTTC AGTAGAGCTA AGCAGTGGAC TTGACTCGTTTCGGTTCCTT CACCTCCGTC TTTCCTTGCT CACCACCTAG TGGACGTCCT TGTTAGTGGC ACTTCCTGAAGTTAACCCCT GAAGAGAGCC CATGCTCTCT AGCTTTTCAC CGTGTAGGTT TGGGAGCCTA CAAGTACCTTTAATATTCTT GGACTATAAA ATGAGATGGT TTTATAAGAC TGCATGTGAA ATTAGGACCC ATATGATGAAGGACAATAAA AAGGAAGACC CACTGATGTG AGTCAATGAG TCAAATGCAA ATCAGATTTG CATTTTTAGGAAAATAATAA TAACAACAAC AAAAACTCTGAAGCTCAGCG CCCCATATTT ATTATATTGT TTAATCTTTATAACAGCTCT CTGCTATAGA TATGATTATT ATCCCCATTC TAAAGAGTCT CAAAGAGGTT AAGAAACAAATTCAAAAACT AGCGAAAGAC AAGAAATAAC TAAGATCAGA GCAGAACCAT AGGAGGTAGA GACACGAAAAAGCCTTCAAA AAATCAATAA ATCCAGGAGC TGCATTTTGA AAAGATTAAC AAAATAGATG GACCACTAGCTAGACTAATA AGAAAGAAGA ATCAATAGAC ACAATAAAAA ATGGTAAAGG GGATATTACC ACTGATCCCGTAGAAATACA AACTACCATC AGAGATTACT ATAAACATCT TTACACAAAT AAACTAGAAA ATCTAGAAGAAATGGATAAA TTCCTGGACA CATACACCCT CCCAAGACTA AACCAGGAAG AAGTCAAATC CCTGAATAGACTAATAACAA GTTCTGAAAT TAAGGCAGCA ATTAATAGCC TACCAACTAA AAAAAGCCCA GGACCAGATGGATTCACAGC CAAATTCTAC CAGAGGTACA AAGAGGTGCT GGTACCATTC CTTCTGAAAC TATTCCAGAGAATAGAAAAA GAGGAACTCC TCCCTCACTC ATTTTATGAG GCCAGCATCA TCCTGATACT AAAACCTGGCAGAGACACAA CAAAAAAAGA AAATTTCAGG CCAATATCCC TGATGAACAT CATTGCGAAA ATACTCAATAAAATACGGCA AACTGAATCC AGCAGCACAT CAAAAAGCTT ATCAACCACA ATCAAGTTGG CTTCATCCCTGGAATGCAAG GCTGGTTCAA CATACACAAA TCAATAAACA GAATCCATTA CGTAAACAGA ACCAATCACAAAAACCACGT GATTATCTCA ATAGATGCAG AAAAGGCCTT GGATAAAATT CAACACCCCT TCATGCTAAAAACTCTCAAT AAACTAGGTA TTGATGGAAC GTATCTCAAA ATAATAAGAG CTATTTATGA CAAACCCACAGCCAATAGCA TACTGAATGG GCAAAAACTG AAAGCGTTCC CTTTAAAAAC TGGCACAAGA CAAGTATGCCTCTCTCACCA CTCCTGTTCA ACATAGTATT GGAAGTTCTG GCCAGGGCAA TCAGGCAAGA GAAAGAAATAAAGTGTATTC AAATAGAAGA GAGGAAGTCA AATTGTGTCT GTTTGCAGAT GACATGATTG TATATTTAGAAAATCCCATT GTCTCAGCCC AAAATCTCCT TAAACTGATC AGCAACTTCA GCAAAGTCTC AGGTTACAAAATCAATGTGA AAAAATCACA AGAATTCCTA TACAGCAATA ATAGACAAAC AGAGAGCCAA ATCATGAGTGAACTCCCATT CACGATTGCT ACAAAGAGAA TAAAATACCT AGGAATCCAA CTTACAAGGA ATGTGAAGGACCTATTCAAG GAGAACTACA AACCACTGCT CAAGGAAATA AGAGAGGACA CAAATGAATG GAAAAACATTCCATGCTCAT GGGTAGGAAG AATCAATATC ATGAAAATGA CCATACTGCC CAAGGTAATT TATAGATTCAGTGCTATCCC CATCAAGCTA CTACTGACTT TTTTCACAGA ATTAGAAAAA AACTACTTTA AATTTCATATGGAACCAAAA AAGAGCTTGT ATAGCCAAGA CAATCCTAAG CAAAAAGAAC AAAGCTGGAG GCATCATGCTACCTGACTTC AAACTATACT ACAAGGCTAT AGTAACCAAA ACAGCATGGT GCTGGTACAA AAACAGATATATGGACCAAC GGAACAGAAC AGAGGCATCA GAAATAACAC CACACATCTA CAACCATCTG ATCTTTGACAAAGCTGACAA AAAGAAGCAA TTGGGAAAGG ATTCCCCATT TAATAAATGA TGTTGGGAAA ACTGGCTAGCCATATGCAGA AAACTGAAAC TGGATCCCTT CCTTACACCT TATATAAAAA TTAACTCAAG ATGGATTAAAGACTTAAATG GAAGACCTAA AACCATAAAA ATTCTAGGAG AAAACCTAGG CAATACCATT CAGGACGTAGGTATGGGCAA AGACTTCATG ACTAAAACAC CAAAAGCAAC AGCAACAAAA GCCAAAATTG ACAAATGGGATCTAATTAAA CTAAAGAGCT TCTGCACAGT AGAAAAAAAA AAACTATCAT CAAAGTGAAC AGGAAACCTACAGAATGGGA GAAAATTTTT GCAATCTATT CACCTGACAA AGGGCTAATA TCCAAAATCT ACAAGAAACTTAAACAAATT TACAAGAAAA AACAAACAAC ACCATCAAAA AGTGAGTGAA GGATATGAAC AGATGCTTCTCAAAAGAAGA AGTTTATGCA GTCAACAAAC ATATGAAAAA AAGCTCATCA TCACTGGTCA TTAGAGAAATGCAAATCAAA ACCACAATGA GATGCCATCT CATGCCAGTT AGAATGGCGA TTATTAAAAA GTCAGGAAACAACAGATGCT GGAGAGGATG TGGAGAAATA AGAATGCTTT TTACAGTGTT GGTGGAAGTG TAAATTAGTTCAATCATTGT GGAAGACAAT GTGGCGATTT CTCAAGGATC TATAACTAGA AAAACCATTT GACCCAGCAATCCCATTACT GGGTATATAC CCAAAGGATT ATAAATCATT CTACGATAAA GACACATGCA CACTTATGTTTATTGAGGCA CTATTCACAA CAGCAAAGAG TTGGAACCAA CCCAAATGCC CACCAATGAT AAACTGGATAAAGATGATGT GGCACATATA CATCATGGAA TACTATACAG CCATAAAAAA GGATGAGTTC ATGTCCTTTGCAGGGACATG GATGAAGCTG GAAACCGTCA TTCTCAGCAA ACTAACACTG GAACAGAAAA CCAAACATTACCCATTCTCA CTCATAAGTG GGAGTTGAAC AATGAGAACA CATGGACACA GGGAGGGGAA CATCACACACTGGGGCATGT CAGGGGATGT GGGGCTAGGG GAGGAACAGC ATTAGGAGAA ATACCTAATG TAGATGACAGGTTGATGAAT CAGCAAACC ACCATGGCAC ATGTATACCT ATGTAACAAA CCTGCACGTT CTGCTCATGTATCCCAGAAA TTAAAGTATA ATTTAAAAAA AGTTTAAAAA AAGAAAGTTG CCTTAGTCAC ATAACTAGTAAGAGACATGG TTGGGAATTT GAACAGAGGC CAATCAGTTC CAAATCCATG CTCTTGATCA TTAAGCTGAACTTATGGCAG GAACTTGGAA GACATGGTAA AATGGGGAAA AACGTGGAGC CAGGGAGACT TGTGAAAGTGCCAGTGCTCC CACTATACCC TGAAAGAAGT ATCTAGACTT ACTTTTTTCT AAGTCCTCTC CTCTAATTCTCTCAATCTCT CTCTCTCTTT CTCTAAGAGA TGGGAATGCT GCTCTGTCAC TCAGGCTAGA GTGCAGTGGTGCGATCATAG CTCATTGCAC TCAAGGAATC CTAGGGTCTA GTGCCCCTTC TCCCTCAGCC TCCCATGTAGCTAAGACTAC AGGCACATGC CCCAACCCTC GACTAATTTT TTTATTTTTT ATTTTTGTAG AGACAGGATCTCACTATGTT GCTCAGGCTG TAATTCTGTC TTGAAGCTTG TCCAATCAGG CTTTCAGCCA CACCAATTCCCTGAGACTGC TCTCACCAAG GTCCTACACT TCACTAACAC AAACAGCCTA TTCTCCATCC TCATCTTACTTCACCAGGGA GCTCCTGGTT TTCCTCCTAC TTCACTGGCT ATTTCTTCTG TATCATGTGT TGATTCTCCCTCATCTCCCC AACCTCCAAA CCCTTGGAGT ACTCCAGAGA TCACCGCTTT GCTCTTCTGT GTCTAACCTCACTAACTTGG TGGTCCAATT CACACTCTTG ACTTTGAATA CCATTTAAAT GCGAACGAAT TCTAAATTCTGTACAACCAG AACCATTCTC CTGTAGCCAA ATGCCTACTC AACATCTCCA TCCCCAAACA AATTTAGTTGTTCAATAAGC CTCTCATATT TTACATATCC CAAACTGAAC TTCTGAATTT CTCCTCCAAT CTGTAGGGCTCTTCCCACAG CCTTTCCATC TCAGTGGATT ATAACTCCAT CCTTCCAGTT ACTCAGACCA AAACTTTTGGAGTTAACTGA GACACCTCTC TTTTTTTTCA CAAGTCATAT CCAATGTGTC AACAAATTTT GGTAGTGGAAATATTGCGGG ATTTTTTAAG AAATCAGAGA GACCGATGGG GTTCAGGAGG ATATTTATTA TTTAGGTGCACTGGCCAAGT CAGATTAACA TCCAAAGGAC TGAGCCCTGA ACAAAGAGTT AAGTTACCTT TTAAGCATTTTGTGGGGTGG GAGAGAGGGG TATCTGTGCA GGGGGAAGCA TACTACAGAA GTGAGAAATA AAGACAGTTATTCAATTAAT TGAGACATGC ATTACATCAT TTCTTACTTT TCAAGAAGAA ACATGTTTTG CGACTTGAGTTTATCTGTCT AGTGACCTTG CAGCTGCACA GCTAGAGAAA CAGGGTCTTC ACAATGCCTG GGAAAGGAGGAGAGGTAAGT CTCACTAGCC ACAGAAAAAC AGGCAGTTAA TTTTTAAAGG GCTCCAGCTC TTTCTCTTTCTCAGGGGGAG TTGGGTTTTG TTACATACAA CTGAGTTTCC GCTTACACAT TATTTAATTT CTTTTAATTCCTGTTCCAAA AGAAGCCAGA TACAAAAGGT TACATGTTGT CTGATTCCAT TTATATGAAA CATATAGAAGAGGTAAATCC ATAGAGACAG AAAGTAGATT AGAGGTTCCC AGGGGCTGAG GAAGAAATGG GGACTAACTGCTTATAGGGT ACAGAGTTTT CTTCTGATAA AAATATTTTG GAACTAGATA GACATTTTGT TAGGCCATTCTTGCATTGTT ATAAAGAATT ACCTGAGACT TGGTAATTTA TAAAGAAAAG ATGTTTAATT GGCTTACACTTCTGCAAGCT TTACAGGAAG CATGGTGCCG ATATCTGCTC AGCTTCTGGT AAGGCCTCAG GAAGCTTACAATCATGGCAG AAGGTGAAAG GGGAGCAGGC ATATCACATA GCAAAAGCAG GAGCAAGAGA GGGATGTGGGGAGGTGACAG TCACTTTTAA ACAGCCAGAT CTTGTGAGAA CTCATTCACT ATCATGAAGA CAGTACCAAGAGGATGGTAC TAAATCATTC ATGAGAAACC CCACCCTCAT GATCAAATCA CCTCCCACCA GGCCCCACCTCCAACACTGG GGATTACAAT TTGACATGAG ATTTGAGTGA GAACACGGAT CCAAACCATA TCAGAGATGGTGGTTATACA ATGCGATAAA CGTCACTGGA TTGTACACTT TAAGATGGTT GTTTTATGTT GTGTGAACTTCACCTCAATA AAAAAAAATA TTTAATGTAC ATTCAGCCAA AAGAAGATTT GGAATAGGAA AGGTCATGGAGATATATTAA CAGCCATTTG ATGGGTGGTA AGGAAAAGAG TGGTTATTAG ACTGTTTTGT GGCCCTCAAAAGGTAGAACT AGATCGAGTT GGTGAGCATT ATAAAACCAT CACAAAACCC TGGAGAGAGG ACCCAGTGCTGAAGAACCGT TTGCCTGCCATGAGACATGA GGGAAGTACC AGTGAATGCC ATTGAAAGCA GCATCCCTGGGTCCAAGGGA TGGTCAAAGG ACCACTACCC AACCCTTCCC TAGCCTACGC CTCCATTACA GATGACCGCAAGATTTATTT GCTCATTGCT GCCAACCAAG GCTGCACTCA CTGCAGTTGC TATCAGTTTA TCATGGGTAAAAGGAATGTG CAGTAGAGAA CTAACTAACT GCCCACCTAC CTCCACAATC CTATCAGGAC AAATCACCATGGCTCACATT TCCTTACATT TGGCATGTAA GCCCCTCTTA CTGTCTGTCA TCTATCTCCT ACACAGTTCACCTAAACTGT TCTCTCCTGA CCCAACCTTG ATTTTCATCC CAAATGCTTC CTTGCCATCT CTGGGATTCCTGTCTTCACC ATCACCAAAC TCCCCTCAAT CTTCCAGTTT CCTGTTCAAA CTTTTCTCCT ACCTCCTTGCTTTGTCATTA GCCCGACTGC CTCCCTAGGA CATCACTTCC CCTGCAGATC TCTCAAGATG ACAATATTTATTCTCCACAC AGCACATACT TCAGGGTTGG AAGGCAGGGG CAATCTTCTC CTTTATAATG AGTGCCTCTTATATATGTTT ATTCATCTGC CCTCTTGTAA AACACACACA CACACACACA CAAAGAAGAA ATAAAATAACTCTGCTTCTT TGAAGCTTGT GACACTGAGA TAAACCATCT CACTGTCCTC ATTGTAGTGA CCTCTCAACTCCTCATGCAA GATTGGCTTT GGCACCTAGT TCCTGATCTT CCTTTCCCTG TAAGCACTTC TCATAGTCTTACGGGACTTC ACCATCCATG GCACAACCAA TACCACAGCC CAGATCCTCA GCTCTCCAAT GACATTTTCCTCCACTAGAC TTGAGCTACC TCCTTCCCTA GGCACAGCCT CAACCTCGAC AACACCTAAG ACTGTACCGTCTCTAAAGTC ACATGTTCAA ACACTTCACT CTTTAACCAC TGTCTCCTAT TCTTGCAAGT GTATTGCTCAAGTATCTCAT TGCAATGCTT TTTACTTCTA CCTCATTGAA CCTCCAGGCC ATTAAACATT TCCTTATTTCTAACCATCAG GTTTCTCCTT ACTTGTTTGT TTGTTTATTT GTTTCTTTTT TTTTTTTTTT TTTGAGACAGGGTCTCACTC TGTTGCCCAG GCTGGAGTGC AGTGGTATGA TCTCGGCTCA CTGCAGCCTC CATCTCCCTGGTTCAAGTGA TTCTCATGTC TCAGCCTCCC GAGTAGCTGG GACTACAGGT GCATGCCACT ACGCCTGGCTAAGATTTTGT ATTTTTATTA GAGAAGGGGT TTTGCCATGT TGGCCAAGCT GGTCTCGAAC TCCTAACCTCAGGTGATCCA CCTGCCTCAG CCTCCCAAAG TGCTGAGATT ATAGGCATGA GCCACTATGC CCCACCTGGTTTCTCCTTAT TTATTTCAAG TCTATGCTGC ACTATTAAAA CTGCCTTGAC AAAAATTATA ATAGTGAGAAAATTATGACA GTGAAAGAGA TCTGAAATAA TCAACCCCCA TCTTGCCTTT ACCTTCCAGA CTGCCCTTAATAATTCCTGA GCTTGGGCCA AGCTATCTTT GGCAGAAATT TAGTTTATAG TTTAAATGAT AATAGCCCTTCTCCAAAACT AAACTGCCTT TGTAAAACTA ATAAAAGACC ACCAATGAAA GGTTAGGAGG ATGAGAGGAGCCTGAATTCT GCTAAGGTGT AGATGTAAAC AATTACCAAC TGTTATTCCG GAGGTCACAA GATTTGCAACATCGCCAATT ACTCCTGCAG ATAACAGCAC TATCATAGAA TCTGATTGGC CTTTTGAGAT GTCTTTTCAGATTCTTACAT TTCAACTGGT GGCTCTACCT GGACCCATCA ACAAGTCCTG TGGCTCCACC CAGAAGCAGACTTAACATGC ACAAGGACCA TTTTCCACAC CGCTATGATT GCATCCCAAC CAATCAGCAG CAACCATTCCTCTGCCTGCC AAATTATCCT TGAAAAATCT TAGCCTTAGA ATTTTGGGGG AGGCTGATTT CAGTAATAACAAAACCCCGG TCTCCCATTT GGCTGGCTCT GCATGAATTA AATTCTTTCT CTATTGCAGT TCCCATCTTGATAAATCACC TTTATCTGGG CAGCAAACAA AAGGAACCCA TTGGACAGTT ACACTGTTGG CAGATATATCTTGCTTCCAA AATTGGATTT TTGTTTAATG AATTTATTCT GTTTTCTTGA TATTTACAAC TGTGAATGTTGTGTCTGAAT TCTCTTTATT TCTTGTTGAA AAGAACTATA TTGCTACAGC CAGTACATAC AGATGGATAGCTAATTACTC AACACGGGGG GATGTGACCA TCACCGCACT GTGCAAATGA ATGTTACCCA TTGTCCACTTTTCCCAAACT ACATAGTGTT ATATGGTATA TGACCCAATC AACGGTGGCA AAGCTCCAGA AATACCACATAGACATCAGG GACACTTTAA ACTAATCAGC CTATAGTCCT TTTTCAGTAA TTTCCAAACC TGGTTGTGCATCCAAATCAC TTGGTAACAT TAAAAAAACA AAAAAATATA CACGCAACAT TCGCTCCCAA TCCTACTGAATCAGAATATT TTGGGTTGGT TCAGGAACAT TCAGGAGTTT TTCAGGGTCC AAGGTTTATA TAATTTGAGGTCTCTCTTTG AGAAAAGGAA CGTAAAAGCG TCTTGCTTTT ATAGATCTTA CAAAGATGTA TTACCATGTAAACACATTCC TAGGACCCAG GCCCTTGTAA TTTAAAGGTT TATCTAAGTA ATGGGCCCTG AAGCTTAATTTTCATTATCT TCAGGGCAAA TTACCTGTGG GTTAGGGTTT AGGAATATAT CTCTCTGTGT ATGTGTGTGCACATTAGCAT GTACGCTTGT GTGGATTTTT TTTTTTTTTT TTTTTTTTTC TGAGACAGAG TCTCGCTCTGTCGCCAGGCT GGAGTGCAGT GGCGTGATCT CTGCTCACTG CAAACTCCGC CTCCCAGGCT CAAGCGATTCTTCTGCCTCA GCCTCTTGAG TAGCTGGGAC TATAGGCACG CACCACTATG CCCAGCTAAT TTTTGTATTTTTAGTAGAGT TGGGGTTTCG CCATGTTGGC CAGGATGGTC TTGATCTCTT GACCTCGTGA TCCACCCGCCTCCACCTCCC AAAGTGCTGG GATTACAGGC GTGAGTCACC ATGCCCAGCA CTTGTGTGGA TGTTTTAAGCTCCCAGGTGA GTGAATACAA AACTAGATCT TTCCCTTCTG TAGCATCTGT ACTGTTTACT CTATGCATCTCAATATTTTT TCTTTTAGTA TCTTTCCTTT TTCTCTCTTA TTACTTCCTC TTGTGCTATT TTTACACCTCCTTTTTTAAA AAATTTTTTC CCTTTTATTT CTATTGACCT TTAGCCCTCA CAATGATTCC TACAAGCCCCATTTCTGTAA ATGGGGATTG AAATAATTGC TGGACTTTTG AGAGATAGAT ATATTAAATT GCAAACTGGCAGTAGTGGGG GCAGTTGATA CATAACTAGG TTTTAAAGTC TAGCCTTCTG AGACCACTCA TTCCATTTGTGAAAAGTGAT TCTACTTCTT ATTATGAGCC AAAATATGCA TTCATTCACC CATGCATTGA TTTATTCATTCAATAAATAT TTGTTGGATG TCCACTCTGT ATCAGGAATG TGCTAGGTTC TGGGAATACA GCAATGAACAAGGTAATTTT TCCCTACCCC TAAGGAACTT AGAGTTTAGT GGGGAAGACA GACATTAAAC AAACAATTGTGCAAGTAATA ATCTATAATT ATTTATTACA ATTAAAGGAA GGAAGAGACA TATGGATTAT GAGGGCATTAAAGAGGAGAC CTAGTGTAAG TAGCCAGTTC TCGTGAAGGG ACATGTATTA GTTGGAGTTC TCCAGAGAAACAGAACCAAT GGTGTGTGTG TGTGTGTGTG CGTGTGTGCG TGTGTGTGTT GGGGTGTGGG GGTGTGGTATTTTTTATAGA AATTGTCTCA CACAATTATG GAAGCTGAGA AGTCCCATGG CCTGCTGTCT ACGAGCTGAGAACCAGGAAA GCCAGTGGAA TACTTCAAAG TCCAAAGGCC CTGGAACCAA GAGTGCCAGT GTTGGAAGGCAGGAGAAGAT GGGTGTCCCA GCTTAAAAAG ACAGTGAATT CACTCTTTTT GCTCTACATA GGGCCTCAATGGGTTGGATC ATGGCCACCC ACATTGGTGA AGGCAATCCT CTTAGTCTAC CAATTAAATA CTAATCTCTTTGGAAATACT CTCACAGACA CACTGAGAAA TAATGTTTTA TCAGGGTGAT AGAAATCTTC TGGAGTTAAACAATGGTGAT AGCTGTACAA TCACATACAT TTTTAAAGGG TGCGTTTTAT GGAAAGTGAG TTTTATCTAAATAAAATTTC TAAGAAAGAG ACTTAACACA GAGATAAACA TAAGCACATT TATTGTCAAC CTTTATAGTGTTATGTCAAA TAGGTCTGAC ATAAGCTTAA ATAAATATAT ACTTTAAAAA TTATAAAATA TTTTAAGTTATAATTTAAAA TTCTCAATAA AACTCAAACA CAAACCACAC TGGTATTTCA CACAGCTAAT TTCTAATGCAGTTTACATAA ATATTTACAA CACTTAAACA ATTTCAAAGA AAATAACACT GTATTCCATA CATAGCCTGATCACAGTAGT TGTTCTCTCT TATTTCCCAG AGTTTTTCTG CCCCTTTAAA AGAACCTCTG CTGTTCTGATCCTTATCACA TCTCTGTTTT GACTGTTGGC TTTGTTGTTG CCAGTGTTCA GCCAGAACTT CTCTGAAACTTTTTTTTCAA CACATGCTAA GTTAATGGAA GTGTAGGAGA GTTTTGATTC TCACACTCCT CAAGGCTAGAGCAGCTTTGG CAATTACTGA CTGAGAATTT TTCATTGCCA GTGATCAACT GAAAACTGGA GATTCCTTTGGAATTGTTAA ATCTGCTTAT AAATAAACAT AAATGCTTGC TCACACAGGC ATTCCTCTCT TCCAGAGCACCCTAACATAC AGAAGAAAAC AAATAGGGAA TAACTATTAG ACATCTTCAT TCGTTAAAAA TCTACCAGATGACTCTTTTA CATGGTGAGT TTCTATTGTG AATTTAAAAT CTTCCATAAT ATACAAGAAT TATGTTTACATATCATATCT GACAAACATC TTTGTAGGAA TGCAAAGCAC ATCCATCTTT CTGTATTCTT TTCCAACAAAGACATTCATA AAATTATACC TTTGTGTGTT TGCATTTATG CTTTTATTAG TTCAAAACGT TTGGCCTCATGGAAGTTTTT CATCGTGGAA ACCACATATT TCTGAAAAAA TATCTGACAA TATACAAACC TTCCATTCAGTTTTTACTCT CCAATTCTAC CATGTTTTCA AAAAACAACT GTAGTAAAAA CACTCAGAAC TTTATTCTGGTTAACATCAT GCCTTGCTAG GGGACAATAG TTTCCCTTTT TGAAATAAAT TTAAAACAGA TGTAACATAATTTGTTAATA AACAATGAGG GGGTAATCTA GAATAAGTAA CTTTTACCAT ATCATAGTTG ACAGCATTTACAAGTTTTTT AAGTCCCTAC CACACTTGTA TTGAATGAAG AAGTATGGAA GATTATAATA TATTCAATGCAAGTAAAAAT ATCACAATCC TTAAGAACTC TTTAAGAAGC ACTGAATCCC ATAGGGATGA AAGTGATTAAATTGTGCATA GTAACCCTCG CACAGAGCAT TCAGTAGGAT TTGCACCATT AACAACCCTC CATGCATTTGCCTGTGGGCA TTCAACATCT GTCATTTTTT TAAGTTATAA TATTTTTAGT CATTTTTTTC CTCTAAACTCTGGATAATTA TTATTCATTC TTATGACAGC AACTGTGTAA TCAGCTGTCG AAACACTGTG AAGGGCAAAAGAAAGAAAGC CACAAAATAT TGTGTTTCTG TGCCAAGATT TTACAGCGAG CAAGGGAGAG TTAGAAAAGGAATTCTGAGA TTTCAGAGTC TTGGTCTCTT CACCTTTGCT TGGAAGAAAA TATCCTTTCC CTTCATTAGCCAACACTTTC TTGATCCTGA GAGTAGGAAA GGGAACACTG AGTCTTTTCA GTTGAAGGCC GTCCTTGCCTGCTGGACTTT GATCTATTGA AGTGGTGATG GGTGTTGCGG TTTCAGCCAT AAAGGCATCT GGCATAGTAGGCAAGAAGGG CCAGAGACCC GAGGAGAGTT ATCTGTCTCT GTTAACTTCA GTGTATCCCT CTAGTTCCCCAGATGCACCT GTTTCTGTAA ATATAAACAT GCATGTCATC AGAACACTTA ATATTCTGCA TACTGATCATGACAACAAAA TGTACCTTCT AACACAGACA CTCTCACTAG GATAGACCAT GTAGGAACAT CGAATTCTATTCAGTTAGGA CAGTGATGAT GTCTACATAT TATACCTCTG TCAAAACCTA CAGAATATAC AACACAGCACAGAGTGAATT CTAATGTAGC CTGTGGACAT TAATGAATAA TAATGTATCA ATATTGGCCC ATCAGTTGTAACACTAATAT AAGATGTTAA TAACAGGGGG AATTGAAGGG GTGGTGGGGA GATATGTTGG AACTCTTTGTGCTTTCTGCT CAATTTTTCT GTAAACTTAA AACCGCACAC ACAAAAAAAG TTATTTTAAT TTTTTAAAAAGTATTCAGAG GGACTTGACC TTTCCAAATT CTCTCAAAGC AGGTCGGAGT AGTTAAGAAC ACAAATTTTAGAACCAGACT GCCAGAGTTT GAATCCTGGC TACACCACTT ACTAGCTTTG AGATTTCAGA CAATTTACTTAACTTCTCTG TCTCATTTTC TTCATCTGTG TGATAAGAAA TAAAGTAACA GGCCAGGCCC AGTGGCTCACGCCTGTAATC CCAGCACTTT GAGAGGCCAA GGCGGGTGGA TCAGGAGTTC AAGATCAGCC TGGCCAACATGACGAAAAAA TACAAAATCT CTACTAAAAA TACAAAAATT AGCTGGGTGT GGTGGCAGGC ACCTGTAATCCCAGCTACTC AGGAGGCTGA GGCAGGAGAA TTGCTTGAAC GCAGGAGGTG GAGGTTGCAG TGAGCCAAGATCATGCCACT GCACTCCAGT CTAGGCAACA GAATGAGACT CCATCTCAAA ATTAAAAAAA AAAAAAGTAAAAAGAAAAGA TAAGAAATAT AGTACCAGCC CCTATCTCAG AGTTCCTAGC TTAGAAAAAT TCCCAGAATATAATAAGTGC AATGTAAGGG TCAGCTATCT TCATTATTAT TATCTATCAT AAATGAAATT ACACAATAAAGCTAGATCCG TTTCTTTCCT CTCCTTCTAC AAAAAATAAA GCAACTTTCC AGAACAATAC CCAGGTGATGATTTCTCCCC TGCTCCCTCC CTAAGATATT GGCAAGTTTG GAGGGTTCAA GGAGAAACAG AGCATGTAGAGAAGATACCT CTCTCATAAC CATTTGTGAT TTACAAGTCT TACCTGATTC TTTTGAACTT AAAGGATGTAAGAAGGCTTT TGGTAGCTTC CATCTGATTC AAGGCTTTGG CAGCTGCTGT GGAATACATG AGAACACTAGGTAAAGCACT GTCTTCCAAC ATGAAGAGAG AAAAATATGT GGAATGTTCA ATGGCATGCT TTGTATAAGAATGCAACTTA CCTGGCAGGA ACAAATTTCT TTGCTGCAAA AGAAAAGACA AACAACCATT AATTCAGACTAAATGACTTT TAAGGATATA TTAAATCCAG ATACAATATG ACTTAATTCA TCAAGTGTTG CAAACTCGATGCTTCAGGGC CTCTGTAATA ATCAGAGCAC AAGCATGGCT CTGTGGCATC TAGGGTAAAA TGCAAAGTGCACAGCCATCC AAAGGGCATA GCAGCTTCCT AATGCCAGCA AATAGCTACG GGGTCATCTT GCCCAATTCAGCTCCCAATT TTTCATGAGA AGTCCAAAGT CTTAATTTAA ATGTGAGATT TCCTATTTTG TAAACGTCAGAACTTAACTC AAAAATGTTT TAAGTACTCT TAAACATGTA AGCCAAACAA ACCATGAGTG TAGTCAGATGTGCTTCCATA TTCCTTATGA GAGACTCTCA AATTTAAGCC TGTACTCCAA ATAAATCTCC TTAGGAAGAATTTTATCCAT TTTCCTTAGA GTGCTCATCA TGGCAGTTCC ATTGCACAAT TCCGGGAGGC ATCATATAATTCAACATGAA TAGCACCCCC TGGAGTTGTA CAATATTAGG CACGACTAAC ATTTTTATTT CCTGAAACACTTCCCACACT GAGTTGTACT ACTAACTCTT TTCTTAATAC TTCTGCTTAA TTATACTGCA TTTTATCCAGATTCTAATTA TTGTTTAAAT CAGTAAGCAA GACCATGACT TATCAATGAG AAAGAAATGT ATTTTCAAAAACATTTTTGA AGTACATTCA TAAACTTCCT CACCTTTCCG TAAGCATTTC CGAAGCCAGA GGAGAAATGGTGCTAATGTC AGGAGGGAGA GTCCAGCAGC AGAAAGTCCA GCTACCAAGG GAATGTTGGA CTCAGTGGGAGCTAAGGAAG TAAGAGACGA AGAAAGGTCA TGAGGAAGAA TTGATGTTAA AGTCTCTCCG TCCTGTCCCTTTGGCCTTTT TTCTGTACAT TCATTACTAG GAGCAGAAGA GCTATCTAGT TTAATACAAG AAGCAGAGATGTGGCATTAC AGGCCTTTGA GATCTGCTCC AAGCCACCTT TGAAGCTATT TCCACCATTG GCAGGCAGAACTCTAACTTG CCAAGCTCGT TCACAATACC ACACCACACC TTGGTTAATA AACACTGCAC TTGCTTGCTCTCTTGCTCTC ACTCCCTCTT GTTTTCCATT TCCCCTTTCT CCTCTCCTCT CTCTGTCTCC TTTTTCCAGTTGTCAGAATT CTACCCTTTC CATCAACATG CAACTTCTGT TTTTTCTCTA TCCCCATACA ACTTAATATTCACAACTTGT CAACCTGGGC GAACTTTCTG GTTTGGATAT AATGAATAGT TGATTACTGT AACAAGATAGCTCCCCCTTT TTCTTTTTAA TCACCAGACA ACCACCATCA ATCAATGCAT CACCTTCACA GGTAGGTAGCAGGCCAGACC AGTGTCCTGT GGCTCCACAT GTCCGAGCTG CAGAGCCATT GAGCGTCCAT CCTTCAGGACAGGCGAACTT GCACACAGTG CCAAACACGG GCTCCCCACT GCAGCTCATG TTGATCTTTC CCGGAACTGCCAGGCTTGAA CATTTTACCA CTGCAAATGT TAGGTACACA GGCAGAGTTT CAGAAAAATC TACTGGAAAACTTCCAAAAC TTGCTTAAAA GTCAACAATG AATGTAAAGT GTAAGCGCTA CTTAGTTTTC AGCATGTAGGAAATTAGGAC CAAACCCCTT TGGGGCAATC TAGGTTCAGA AACTTTATGA AGTATTTGAC CTGTACCCTAAAAAAGTCTG CACTCAATTC TACCTTGGCA GGAAGGAACC TCTTCTGTCC ATTGTCCCTG AGATGTGCACTCAAGTTGAG TTGATCCATG TAATTCAAAT CCCTCCTCAC AGCTGAAGGC ACAAGAGGAC TTGTAGGTGAATTCTCCAAT AGGGGAATGA GCACACCTCA CCAAACCCTT CGGGGGCTGG TGGACAGCAT CGCATCTCACAGCTGGAACA CACGAGAGAG CACTTTAGAA GTTTGTTTGC ATCTCCAGCA ATACGTTTCC CAAGGTAACCAAGTTCCCAA GCTCTTCAAT AGTTCTTTTT ATCTTAAAAT AAAATAAAAA CAAAGACTGT ACCTTCACATGTGGGCTTCT CGTTGTCCCA CTCCCCTGTG GGGCCACATT GGAGCCTTTT GGATCCCTTC AACACAAAACCCTGCTCACA GGAGAACTCA CAGCTGGACC CATAACGGAA ACTGCCAGAA GCACTAGGAA GACAATTCATGTAGCCTCGC TCGGGGTTGG ACAAGGCTGT GCACTGGAAA GCTGAGACAT CAAAATGATG GTCAGAAAATATTGCAGTGG AACTAGAGAG TACTTGGCGT TTGTTGAGTG AACCCAGTTC ATTCAAGCAA CACTTGGAGAACTGAAGATT CTTTATAATT CCCTGGACAA ATGGGAAGAT GGCTGTGTTT TCTTTGAATT TCAGCCCCCTCACTGATCAT GGCACTAATT AAAAGACTAA TTAATCAGAA CATTAGTTCC TGAGCACTGT TCTTCTAACACACAAAATAA ATTATGGTCC AAGGAAAGAT TTCACGCAGT CTGAGGACAA CATATGGGTC ATGGATGTTTATAGATGGTG CCAAAAAGAA AGAAAAGAAA GCACCCCTAT AAAATTTGTC TGTTTTGCAG TTTGGTTTTTGTGTTATGTT TTGCTACTGG AAATCATTCT GTGCTGGCTT TGGCTAGGAC AAGGCCAGTG CCTGATAGTAAAAACTGCTT GTTTTCAATA TCCTTGCTCT CACTTTAAAG TGAATTAAAA TTTACTGCTT ATATATGCATCAATACTATC TCTGTAGCTG ACACCATGCT TGAAACAGTC TCATCACTGC TAATTATGAG CCATTTCAGAAGACAGGTGT GATGAGAGTT TTACATTCAA ATCATGTTCT CATTATTCTG CTTTCCGAAT TTTCTAATATGATTCCTTTA GATTAAGAAT TCTGTCTATT CCATGCTAAT GTCTACAAAG TTTTATCAGC ACATCACAGTTAAAAAAAAA CAGCAAAGAA TTCATTCTTA ACACATATGA TCCTTTCCCT GGCCAAACAT TAGTTCTTTTAAATGAATCT CAAAGATACG AGGGTTGCTC ATCAAATCTG ATTTCTATAG TTAAAGTGGG TATTGGTTTTTTTTTTCACT GTCCAAGTTT GAAGATGGTT GTTCTTTAAG AAAGTATAAA TCGAAGGATC TCAAGCTTACCTTCACAAAC TGGGATTTGC TGTGTCCACT GCCCTTGAGT GGTGCATTCA ACCTGGGCTG GTCCCTGCAACATGAAGCCT TCCTCACAGG TGAAGTTGCA GGATGATTTG AAGGTGAACT CTCCAGCAGG GGAATGGCTGCACCTCACAG AGCCATTCTG AGGCTGGCGG ACGGCCCTGC ATGTCACAGC TGTAACAAAT ATACGCATTGATATTAGCAC GGCCTAGAAT TAGCTTGCCC ATTTCCAGTA TGGGTTGAGA GAAAGAATGT TCACAGTAAGTCTCCATGTG GAACAACTCT ACCTTTACAC GTTGGCTTCT CGTTGTCCCA ATTCCCAGAT GAGGTACACTGAAGGCTCTG GGCTCCCATT AGTTCAAATC CTTCTTCACA GTCAAATGTA CAGGTTGTGT TCCATGGGAAGCTTCCAGGG TTTTGGAAAC ATTCCACGAA CCCATTGGCT GGATTTGTCA CAGCATCACA CTCAACCACTGAGGATTTTA AAGAGCACCA TGAATTTTAC AGAAGAATGA TCTTTTCACT TCCTATTGAG CTGGGTGCCTAACAGAGTGA GGAAGCTGCC TTCAAAGGGT AGATCCCAAA GTCCTATGTC AATTCTTAGG GACATGCACAGCCAGAATAA AAGCTTTTAT TCTTTTTCAT GGATATTCTA TCTTTTCTGA TTTCCACTTT GCCTATGCTGAGTGGTCTCT AATCTATGTT ATCATTTACG TGAGGTAAAA ATTTAAAAAA AATAGATTCC AGATTAGGAGTTATGACTAG TACTGACATA CGTAGGCTAT TCATTTATTT TAGCCCATCA GAGCCTGAAG AACTGATTTTTCTTTTTTTG GCCTCTGGTT CAGAAAGATA AAATTAAGAG AGAAAAAGAG ATACTAAGAC TGCTTGACTATCATGGTCTT AAGTTAGTCC CATGGCTTGG AAAAGTTAAA CAGGGAAACA AGATGAGAAA TCCATTGAGATTTCTAGAGC TTTATTGTTT TATGGTCTCC CTTACAAATC ACCAGAGCCT CAGAAACACC CATTTCAAGCATAGAATAAA AAAACCTCTC TCAACCCAAG CAGGTACTGG GTTGGCAATA TACATTGGCT GAGAGAACAAATTGTATTAA AAACAAAAAC AAAAAAAAAA CTTTCCCTGA AGTTTTGAAA ATGTAAGTTG AATCAAAAAACAGAAGCAAT GAGGGATGAG TTACAGAACG TTCTGTGCAT TCTCAGAGGG ATTTACCATT GCAGGCTGGAATAGGAGCAC TCCATTCTCC AGAGGACATA CACTGCATGG TCTCCATGCT GCTTGGCAGG TAACCCCTATCACAGCTGAT AGAGCAGGAA GAATTGTAGC TGAAGTTTCC CAGTGGGTGA CTGCAAACCA GGCTTCCATGCTCAGGGGAT TCCAGGGCTG TACAGTTCAC AACTGAAAAA GAAACCCAAA TCAGTTCTGC TCATCTCTCACCTTTAACAG ATAAGAACAC TGGAAACTAG AACTACAGTT TGGTTTTTTT TTTTTTTAGT TTAAAAATTTATAAAATTTC TAATGGAATT TGTAAAATTG ACTGTAATTC TACCCCTTTT CTTTTATTCA AGAAAATGCTGATCCATAAC AACAACAACA AAAAAGCAGT GATGACAACC ATAAAAAAGA AATATTGAGT GATATGGGGAGAGTAGTGTA ATTGTGTTTA CCTCAAAACT GTTCAAATTA TATGAACAAA CACAGCAAAC TTAGGTACCACAACAAATTT CTTGTTACTT TTCTCACAAC TGCTAAAAAT ACTACAGTAA GCTTCCAACC AGGATGAGAACCATTCACAA AGCTATATTT CAAATTTAAG TACTAGAATA CATTACAAAT TTTAAAACCC TAATGCTGCACTGTCTACTA TAGTAGCCAC TATCTGTGTG GCTACTCAAA TTTAAACTTG AATTCGTTGA AATCAAATAACATTTAAAAT TCAGTTCCTC AGTGTCACCA GCCACATTTC AAGTACTCAA TAACCACATG TGGCTCATAGGTACACACTG GAAAACACAG CTATGGAACA TTTCCATTAT CACAAAAGCT CTACTGCACA ACGCTGTGCTAAGGAATCTT GGAGAGAAGC TCATCTAACT CTCTTAATGT ACAAATTTAG GAACTGAGAC CTCATTTCATTCAAGTGACT TGCTCCATGC TACACGGCTA GTCATTACAG AGCCAGAGGC CAGAGCATGA ACCAAGATACCCTGGACTCT GTAACTCACT CATTTCTACT GCAACGTCTT GTTACCACCT AGATGAGGTG AGTACATGTTCCTCGCAGGG ACACAGAATT ACAGTTTATT GAATGTGTCC TGTGTGCCAG GCACCATGTA ACCATGAGCCTATGAAGTTC ACACTATTAT TATCCTCATT TTACAATGAG AAAACTGACA TAGAGAGTTA AACTATCTTGTCAAGGTGCC AAAATAAATA ACTGGTGAAT CTAGGACTCA AACCCAGCAG GGTCTGACTT CATAGTCTCAGCTCACGATC ACCATATGAC ACCATCTGCA CCAGGGAAGG GAAGGCATGC AGACCTGACT CTAATGCCAGCTAGGACGTG AGATGGTGCT ACCATCTCAA GTGAAGAAAG AGGCAAGAAC CAGACTTACT TTGCTCACACTTGAGTCCAC TGAAGCCAGG GTCACACTTG CAAGTGTAAT TATTGATGGT CTCTACACAT TCACCGTGGCCACTGCAGGA TGTATTGGTA CAGGCAGCTA CGGAAAATAC AAAGCATGAT GAGGAGGACT ATTACTGTGCTTATACTGAG TGCCTTTGAT TTTAGAATCA ACAGTGTGCA ACAGAGACAT CAGCAGTCCT ACAGAGTGCCATAGACTTTA ACTGAAGTGT TTTACAAAGT TCCAAATCTG AGTTTCAGGC CCACCTATCC TAAACCTTGATGCTAATGTA TAGCTGTGGC TGGCACCTAC CGTAGAAAAT TTACTTCTTC ACAAACTCTG AAGACAGTTCCCCTACCACA AATAAACAAG TAATTAAAAT ATGTATTGTG TGTGTGCATT TTTATATGTA AAGAACTACATATTTGCCTA CAGTATTTAT ATATATTTTA TATATATACA TACACACATA TATGTGTGTA TATGTGTGTATGTATATATA TAAAATGTAT ATAAATGCTG TAGGCTATAT ATATATACAC ACACACATAT ATGTGTGTGTGTATATATGT GTGTGTGTGT ATATATATAC ATATCCACAT ATTCTTGCCC ACATTCACAC AAAACAGCAAAAGAGAGAAA CTTTAGCAGT TAAACAGAAT CTTTTGGAAC ATAAAATGAC CACAATAGAG AGCAGTTTTTGCATGCTGTA AATTTGCCAA GATGCCCACA CACTGAAACT ACCTCCCACT GCTGCCGCAA ACTCCCTACCTGTGTAGCAT AGGGCAAGCT TCTTCTTGCT GCACCTCTCA TCATTCCACA TGCCCACATC TTTTTCTCTCTTGATGTAGA TCTCCACGCA GTCCTCATCT TTTTGCCTAT TGTTGGGTTC ACCTGGAGCC CAGTTCTTGGCTTCTTCTGT CAGAGGTTTC TGGGTTCCTA CCCAGACCCA CACATTGTTG ACTTTTCTGA TTCCAATCCAGTAATAACTT GGTGAATAGC TCAATATGGA GTTTAGGTAC TCAATCTCTT CTTTGTTTTG AATTGCAACCAGGTGTGTGT ACCTTTGCTG ACAATAAGCA CTGGCCTCAT CATAAGTCAT AGCTTCCGTG GAGGTGTTGTAAGACCAGGC TCCACTCTCT TTAATGAGAA GCACTAGTGG GAGAAAAAGA AAAGAAATGG TAGAGTTTGGTACTGTTGTG GTTTAACTCT GACAACTGTG CTTTTTATTG TCTTATTTTT GGCAATGTTT GTGACATGGCCCAGACTTTT CTCATCTTTT CAAAAGTAAG AAGTACGTAT GAAGAAACAG CGACTTATTG TTTATCTCTTTTGTGACTGC CACCCACTAG GTACCTTATC CACACTCACT CACAACATTA TAGTATACCCATTTTGTAGTAGAATAATAA TCAGAATAAC TAAGCTTTAT TGAGCACTTA GTATGCACCA AGAAGCACTG TATGAGGTACTTTCCATGAA CCATGCTATT GAATCCTCAC AATGCATCTG GGAAATAGGT CATTATGATC CACACTTTACACTTAAGGAA AGGGAGACAC CAAGAGGTAA AGTAAATGAC CCCAAGCCCA GGGAAGAACA CATTGCAGGTAGAGGTCAAG GATGCTGCCA GATATCCTGT GCAGGACAGC CCCAGACAAG CAAGGATATT TCAGTCTGAAATATCTATAG TGCGAGAATG AGAAATCTTG GTCTAATGGC ACTGACTTAC CCAAAGTGAG AGCTGAGAGAAACTGTGAAG CAATCATGAC TTCAAGAGTT CTTTTCACCC AAAGGTTTAG GCTTGAAATA CTTTCCTGGGGAGATAAAAC ACAAAATGAA TTAAAGAAGG AAATCGTGGG TAGCTAGTTA CATTATTCTA CCATGATGTTTAAGGCAGCA TCCTAAGATT TTGGGCAAAG GACACTAGTG CAATAATCTT TATTTCAGAG TTTAATCAAATAAATAAACA AATTTTAAGA CTTTCATTAT TTAGGTCAAA GAGAAAAGAC AGGTTTTAGC TACAATACAATAAGAGCTTG TACAGATGTG GTTTTTATTA GAAGGCCTTT TGCATATCTG TGTTTCATGG CCCGAGGCTGCCCTTATAAA GCGTTCTGCA CTTACCGTTT TGGGAAGCAG TTGTTCAAAC ACAGGATCTC TCAGGTGGGTATCACTGCTG CCTCTGTCTC AGGTCAGTAT AGGAGTTTTG ATGTGAAGTC AGCCAAGAAC AGCTGAACACTACTTCGGCT GAGGCCCTTT TATAGGAGGG ATTGCTTCCT GTGAATAATA GGAGGATATT GTCCACATCCAGTAAAGAGG AAATCCCCAA TGGCATCCAA AAACTTTCCC GGGAATATCC ACGATGCTTA AAATTACAATGATGTCAGAA ACTCTGTCTC TTGAAGCTAC TTCACCTTTG TCCATGCCTT TATATCGTAT ATGCAATTTTATTAATATGA CAAAAATGCA TGATTTTTAA TTATAATAAC ATAAAGTCTA TGTCTTTAAA AAGTTGTAAAACTTTGCTTG TTAGTAGTGT CTCTCATGTA GTTGTGGTAG TAATTAGAAT TTCAGAAACA GAAGGAAACCAAGAATAGGT TTGTCATCCA TAGTCTACTA CCTTCAATTT CTCATTCATA GCTGTGGATA ACCAATCACTACTCATTTTT TCTTCCTTTT TCACCTGCCA ATTCAACATA TTTAACATGC ACTGTCTCAC AGAGGAATGACTCACAAGGT AGATATTAAT CTTCAGATTT TGCACGGCAG TTATGCCTAA ATTAAAATAT TATCTAAAAATAATATCTAA CACTCAAATG GTTAAAATAA TGCCTTATTT TAAAAAAAGA AAAATGGGAA ATAGATATTTACATCTGGGA AAGTTTCATG GTTTGTTCAG TGAAAAAAAT AAAAAGGAGG CCAGGCACAG TGGCTCACGCCTGTAATCCC ACCACTTTGG GAGGCCGAGG CAGGCGGATC ACCTGAGGCC GGGAGTTCAA GACCAGCCTGACCAACATGG AGAAACGCCA TCTCTACTAA AAATACAAAA TTAGCTGGGC ATGGTGGCGC ATGCCTGTAATCCCAGCTAC TCGGGAGGCT GAGGCAGGAG AATCGCTTGA ACCCGGGAAG TGGAGGTTGC AGTGAGCCAAGATCACGCCA GTGCACTCCA GCCTGGGAAA CGAGTGAAAC TCTGTCTTAA AAAAAAAAAA AAAAAAAGAAAAGAAAAGAA AAAAAATAAA ACGGAAAACT ATATATATAT ATTTAATTGG TCAAAATTTT GTTTAAAATTTTTGAAATGT TAATGTGCAA AGAATAAAAA TTCTTCCACA ATGTTAACAG TGACTAACTC TGGATGGCAGGATTTGGGAT AATTTTTATA TCCTTCATTA TTATTTTCAG GATTTTAAAG TTTTTTTCAA TTTCCCTTTTTTTCACCTTT ATAGTAACAA GAATACAGTT TAAAGAAACT TGTCTCTAGG CCAGGCATGA TGGCTCATGCCTGTAATCCC AGCACTTTGG GAGGCTGAGG TGGGTGGATC ACCTGAGGTC AGGAGTTCCA GACCAGCGTGGCCAATATGG TGAAACCCTG TCTCTACTAA AAATACAAAA ATTAGCCGGG GTGTAGTGGC GCATGCCTGTAATCCCAGCT ACTGGGGAGC CTGATGCAAG AGAATCGCTT GAACCCAGGA GGCAGAGGTT GCAGTGAGCTGAAATCACAC CATTGCACTC CAGCCTGGGC GACAGAGCAA GACTCCATCT CAAAAAAAAA GAAAAAAAGAAAAAGAAAAG AAAAGAAATT TGTTTCCAAA TGCAACAGAA GGAGATGTAT GTGGTATCCT ATATTCCTGCTCTTCATTTT GACATTTCTT CTGGGTGATT GTATACATTC CCCATCTCTG CATCTTACCC TATCTAAATGATGGTAACAG TAAATGGGGA TCATTTTAAT TTCCATATTC TGTAGGTTTT CAGAGCTCAA GTCAAGCTAATATTCTATAT CTACAGCCTT TCAAAATAGG AGGTCTATCT AAAAATGTAC TGTCAGCAGA CCTGAACGAGTAGTGGTAAA AGCCTCGTTT TTCTCTTTAC TTGTTAGCAC TGGTCTTTCT GTGTTCATAA AGATGTCAAGACCCAAAAAA AAAACAAGAA AAGAGAAGAA AAATTCCAAA AAAGACAACT GATTAGAAAA AAATAACTTAATTAACGAAT TTAATTCAAC CCCTATCAAA AAGCATAGAA TTTATTCCCT CCACCTTACC ACTCTCTTACATGATCCAGA TACTGACATT ATTCCAATTC TTTATCCCAC TTTACTTAGC TCAATGTGGT TGTTGCTTCAATAAATTCAG AAGAGTAATC ACTCATATAG TGTTTATTTA GATTTTAGGG CAGAATGTCA AGTTGGGTTAATACATTATC TGTATGTATT TTATTTTTAA TAAAGTATGA ATACATAATC TGCTATTTTT AAAAAGCATGGTCAAATGTA TAGAGTAGCC AAATCTTAAA AAACAATTTA TCTTCGATAT CAATAAAGTA CCTAATAATTATATTGCTAA TAGAAATTAG TCGTTAACAT CCCTAGATAA CTAACTTTAT TATTGCGAAT TTTTCATAACTAAGTTTATA GTTTATCTCT TCCCCTTTTT AAAATTAGTT CAAAGATATC TAAAAATAGC CCCAGTGGTGATGAAGTTTC TATTTTACTT ACATATATAT GTCCTGGACC CCCAATTATA ATCTCTAACA TTTATTGAGTGCTTACTATG TGCCAGGCCA TATTCTGAGC ATTTTGTATG TTCACCTATT GATTATTCAA TCCGTACAACAGCCTATGAA ATAGGTACTC CTATTATCCC CATTTTACAG ATGAGGAAAT TGAGAATCTG GGGATTTTATCTCATTCAAA AGCACAGAGC TAAGGGTTGA AACCAGGCAG TTGATATCCA GAGCCCACTC CCTTACCTGCTACTCCAAAC CATGATTTCT TTTGTTGTTA TGCCCCGAGA TTCCTTGTTC TACCCAAGTT TCCTGTACTCTTCTTGCCCT CTTCTTCCTG AGACATCCTT GACCATCACA GCTCTCCACT GAGATAACTG TGTCCTGGGTTCTGAGACAT GGGGGCTGGA AGGGACCCCA GGGACAGTGA GCAGTAGGGA GAGGATGCAG TGAGAACAGACCCTGGATCC CCGGTGCATA GGCAGGGAGA AAGTGGACAA AGGAAAAAAC AAGCAAGGCA GGTGGAGCCATGCCTAGGTA AAGTTGATCC CTAAGCCACA GTTCCCAGAA GTTCCTGATT CAAAAGCAAA TTTTCTCTAAGGTCAAAGGG CAAACTGATT ATTCTAAATT CTAAACTGAT TATTTCTAAA TTGAGAAAGC TTCAGGGAGAGATCCCAATA TTCGAAGGAT AAGAGAAATG AGGAGTGGAA GAGATAGGTG AGTAACAGTA ACTTAAATGTAGACTATATA TAATATATAA TATATGTAGA GTATATATAT ATAATTACAA TATATTATAT ATGTGGAATATATATATTAT TTATATATAT TTATATATTT TATATATATA GATATTTTTA TATTTTATAT ATAAATATAGATATTTTTAT ATTTTATATA TAAATATAGA TATTTTTATA TATATTATAT ATAAATATAT GTAAAATACTGTGAAAGAAG AATAGAATCT TGAGACCTCA AATTCACTAT GCCAAAGGGA AAGTTAAGCT TGGGAAATGAGTCATGCAAA AACTGCCTTC CTTTTGTTCC CAAATACCTG TAATTTCACA TGCTTACTTT ATCTTATATAAAATGTAGAT GTACTGAGCA TGAGATCCAT GCATAATTTC CCTCTAGTCC CTTCTTTTTA CATGTAAAGTGTAGACTCAC TGAGTGTTAC AGAGCCTTGC CACAATGTAA ACACTTGTCT CATTGCCAAC CCATCTTTCGTTTATTTTCT TCCCCTCCTG CTTGCTCTTT CCCCTCTAAA GATGGAAGTT CCCAAAACTC TCTTTGGAAAAAGCGCAGGT CACAGATCCT ACAGTGATTT GTGTTTCTTT TACCTGGGAC AAAATAAACC TCTAATCTGTTGAGATATGC TTCAGTTACT TTTTGGTTTA CAATATGTAC ATGTATGTAT ATAATTTATA TGTATATAATATATGTACTT GTTTTAACCA GAGGTATGTT ATTCAAAATC CATTCATCCT TACAATTACC TGCATTCTCCCACAGTATTT TCTGTGTCCC TGCCCCCGAG GTTGTCACTG CAAATCAGGT ACATGGATAC TGGGAGCTGATGGGCTCCCC TCTGGCTACC TGGGCTGCTG AAGGGGCCAT AGACAGACCC AGCTTTCCTC TCGTGGAGAGGCCCTGGGCC AGCGCTGCGT GGGAGTGGGA TTACAACCAG ACTATAGCTT CTTCACCTGC TTTTTCCTATCAGGATTTCA TAAGAGGCAA TTGCTTGTTT TTTGAGGGTG GGGGCAAATC AGGGGGAGTT GAAGAGGAAATTGGGTAAGA TTTGAATAGT TGGGCATGTT GAATATTATG AATATCATCT CCCTCTTCAA ATAATCCAAAATATACCCCC AAGAAACAGG CTGATTAGAG GTGCTTCAAG GCTCCACTGA ATCTCCCAAG CTCTGAAGATGTAGCTAGCT GTTACCGGAT TGCCGGTTTT CAAGCCTCGC CTCACATGGA CCCTCTTGGC AGTTTCTCGCATGGGGGAAG CATCCGCTAC ATAGATGGGA ATGAAAAGAG GAAAGAAGAC GGTGCAAACT CAGGCACACCCCGGTGTCTG CCACCAGTGC TATTTAATCT CTGAGGTGTC ACCCTTCCTG GCTTTATTGT CTCTTCCTGGAAGTCTCTTG TCCTCTCCTC CACACCCTTT AATCAGGCAT CAAAGACTTT AACCAGTTTT GCTGTGTGCCCAGGCCCACT CATTCTCACT TTTATGGCAA AGGGAGTGGG AGACAGAGAG ATAGCCAGAA AGAAGAGATTGGGGACCCCA AGACAAATGT TAGAATTTTA ACCAAGGCCA CCCTGTGGAC AGGAGATTAT TGGGTTTAGTGGAAAGCAGC ACTGGCCACA ACCACACGTG GCAAAAGCAT CTATCGAGGA GTGAAGTTAT ATTTGGTGAATGTGACCGGG AAGCAGGGGC AGTGGTGTCC TCCTGCCTTC CTGAGGCACT CTGTTCCCTT ACCTCTGCGAAGGCTTATTT TACCCCTGAG TGCTTAGTTT TGAAAGCCTT AGTTCCCTCT CTCCCATAAA AAAGCTCTACTCTGCTAACA TCTAAGTTAC CTTTGCAGAG TCTTAGGTAG AGGGAGGAAA TCCCAATAAA GATTCCACCCTATCTGCAAA ATACAAACAT GGTATTTCTT GCATTCCCAA AATTGTGAAA GAAAATGTGT ATCACCACAGTAGAGAATGG CATTTTTTGT TTGATCAAAA CCTAAATATA TTTGATGAAA ATGTGTCTGG TTCTAAGTTTATTTCCCAGA AAGCCATGTT TACTCACTTG GAATTTATAG ACATCTTATA ATATCTGAGT CGAGTAGGAGCTCCGGGCTC TACCTCACTC TTTTCTCCCA CACCCAGGGG GAAGTGTAGG GTTCTCAGAC TTTAGAATAAAGAGGAATCA CCTGGACAAC TCACCTAAAA TGCACATCTT CAGGTCTCAT ACTCAGAGGC TCTGACTCAACAGGTCTGGG TGGCGCCCAA GAATTTGGGC TTTAAATGAG TATCTCAGAT GATTCTAATA CAGAATGTGTAAGATGACCA GATCCTATCA CACTTAGATG TATTGGCCTA GGGCCACCTA ACTTGGAGAA AATGTTAGTAAGACCCCGTG GTTGGTGCTC AGCTATAGGT ACCAGAATTT TGATCAAAAT TTACTATCAT TGTGACACTTCTCTTCGGAA CTGGAAGGCC AGAACCCCAC TTGTAAAGTG CTGGGAAAAT ACAAGGAAAA TTTAGGGTGAGTAGCATTTT GAATTCTTAC ACATGGAAAG TAAATGTATA AGAATTCTTA CCAATAAAAA AAAAGCAAGAGAGAATAGCT GCTAAAGAAT TAACACAAAT ATGTATATAT TAGTTATTCT CTTTTCTCCT CTGATTCCAGAGGACTTTGT AATTCCACTA ATTCTTCTTG AGCTTCCAGG ATGATCTGAG ACTTGAATTT TTCATGTGCTTTTTGCTTCC TATTTGGCAG CATCTTATCT TGAAGTTTCC GCTTTCTGCT TGGGGACCTA AAAACTAACTAATGGGAATT TCTTCAAAAT GAGCAAACTC TGGTGAATTC CCAAAGCGGA AGAAACAAGT GAGGATCGGGCTGGTTAATT AAGAGAACTT TTCCTGAATG TAGCCAGACT GTTTGCCGAC TGTTGTTAAC ATGAGGGAAGAAATACCCCT GGATTTTAGA AGAGCCCCTT GTTTGTTTTC CTTGGCCATT TGTGCTGCTT GTTTTGTAAGTCAGAAATTT CCTGAAGGAC TATTATTAGC TTTGTTCTCA CGTCAGAAAA CTTCTGCTCT GGCCACTTTTAAACATATAA CTTGGATTTT ACTGTATTAG AAAATGTAAC AATTACAGAC AGCACTAAAA GGACACCAAAGGGCAAAGAA AATGGGTAAC TTTTTTTTCT TCCCCAAATC TAAAATAGGT GATTTTGGAG AAGTAGGAGAAAAACCTGGA TTTTCTAGAT CTCTTTAGAG CTCAACAACT GATATAGTTA ATTATGTAAG TCTTTGATATTTGGAAATGA TTGGATTAAC CGGATAACAA TGAATATTTA AATACAGTGA TTTGGCCAGG AGCAGTGGCTCATGCCTGTA ATCCCAGCAT TTGGGGAGGC TGAGGCGGGT GGATCACCTA AGGCCGGGAG TTCCAGACCAGCCTGGCCAA CATGGTGAAA CCCCATCTCT ACTAAAAATA CAAAATTAGC CAGGCGTGGT GGTGCAAGACTGTAATCCCA GCAACTCGGG AGGCTGAGGC AGGAGAATTG CTTGAACCCG GGAGGCAGAG GTTGCAGTGAGCCAAGATCA CGCCATTGCA CTCCAGCCTG GGCAACAAGA GCGAAATTCC ATCTCAATAA ATAAATAAATAAATACAGTG ATTTAACACA AGAGATTTCT ATTTCACACT AATGAGCTCT GTCACTGGGG CAAGCTTCTTTGCCTCATTA AGTCTCAGAT TTCCCGAGAG CTTATTTATT TATACCAAGA GTGCTTTACT ACCGTCTCTGCTAGCTGTGA CATAATATGA CAAAAGGTAT AAATATGGGA AAAGGCACTA ATTTATATCA AAGCGTTCTTCGTTTTTCCT TGCTGTGAAG TTTTTAGCTA ATAATTCATA AGAATATACC ATATTTAGAG TGTTTACTATGCATGGGCCT GGCACTTCAC ATACATTGCT TCTTACAAAT TTTACAAAGT GAAAGGTAGA TATTAATCTCATTTTATGGA GGACAAGATA GAGATCTGGA GAGGTTACAT AACTTGCCAG TGTTTTTTCA GTTAATAAATGGTAGGGTGG AGATTCAATC TGTGTTACTC TAAAGTCCGT GTCCTTTTTA TTGGCTCCAT GCCTACTCAGATTTAAATCT CAGCAGGGAA GTAAACCTTA GTTTTTACAT GAGAAAATGT TACAGCAGCC TTCTCGGCTTCCTTTACCCC CATCCCAGTT TCACGAGCTT AGTGCCTTAG ATCGGGTTCC TTTAGAAGCA GACCTCGAAATAAGGATGTG GGTGCCAGTC ATTTATTGAA AAGATGATCC CAAGAAAGCC TAGTAGGAGA GTGAGGAAGTGAGATGGGGA AAGGAAGAAA CTCCACAAGA AGTGTGTTAA TAAGCAGGTT ACCGCTGTGG GCAGCCATGGGGCTCAGCTG CACTAACAAA CTCTGTCTAG TACAGAAAAC CTCAGGGTCT CCCCAAGGAG GGGCAAGAAGTCTGCCTAGG GTATATATCC GCCAACTCAG TCACTGGCTG AGAGCTGATC CTGGGAGGGC ATGGTTAATTCCTCTGCACT TTCAAGTGGA TTCCTGTGGT CAGAAAAAGC CCTCTACAAT GAATTCCAGA TGCTTGTATTTAAATCTGAC ATGATCTGAA TGCTGTGTTG GGACAGGGTG GGCGTTATTA GTTTTCTGTC ATTACTGTAACAGATTACTA CAAACCTGAT GGCTGCAAAC AACACATATT TATTATGTCA TAGTTTGTGT GGGTCAGAAGTACAGGTTAG CTCAACTAGT TTCTCTGCTC TAGGTTTCAC ATTGCCAATA TCAAGGTGTC ATCCAGTTGGGCTCTTCTTG GGAGGCTTGG GGATGAATCC ACTTTCAAGC TCATTCAGAT TGTTGGCAGA ATCCAGTTCCTTGTGGTTGC AGGACCAAGG TCCCTGTTGC CTTGCTGGCT GTTGGCCAGG AGTCATTCTT AGCTTCTAGAGACTACCTGT ACTCTCTGAC TCGTGTCTCC ACTTCACCTT TCAAACCAGC AGCGGCTAGT CGAGTCCCTCTCTTCAAATG TCTCCAACTG TGCCTTCACC TCATTTCTCC TCTGTGTACC ATGTCTGCCT CTACTGCTTGTAAGGGCTCA TGGGATTACA TTGGATTTAT TCAATCCAGG ATAATCTCCA TATTTTAAGG CTAGCTGACTAGTGATCTTA ATTCCATCTA CAAAGTCCCT TCCAATAGTA CTGTATTAGT CCATTTTCAT GCTACTGATAAAGACATACC CAAGACTGGG CAATTCACAA AAGAAAGAGG TTTAATTAGA TTTACAGTTC CACATGGCTGGGGAAGCCTC ACAATCATGG CAGAAGTCAA GGAAGAGCAA GTCATGTCTT ACATAGATGG CAGCAGGCAAAGAGAGAGAG CTTGTGCAGG GAACTCCTCT TTTTAAAACC ATCAGATCTC ATAATACTTA TTCACTATCACAAGAACAGC ATGGGAAAGT CTTGCCCCCA TGATTCAATT ACTCCCACCA GGTCCCTCCC ACAACATGCAGGAATTCAAG ATGAGATTTG TGTGGGGACA CAGCCAAACC ATATCAAGTA CCTAGATTCA TGTTTGATTAAACAACCAGG GAGCAGAAAT CTTCAGGAGT GGGGGGCATC TTTAGAATTC TGCCCACCAA GGCTGGGCGCGGTGGCTCAC ACCTGTAATC CCAGCACTTT GGGAGGCCAA GGTGGGTGGA TCATGAGGTC AAGAGATCGAGACCACCCTG GCCATGGTGA AACCCCATTT CTACTAAAAA TACAAAAATT AGCCAGGTAT GGTGGTGGGCACCTGTAGTC CCAGCTACTC AGGAGGCTGA GGTAGGAGAA TCACTTGAAC CCAGGAAGCG GAGGTTGCAGTGAGCCAAGA TTGCGCCGCT GCACTCCAGC CTGGGAGACA GAGCAAGACT GTCTCAAAAA AAAAGAATTCTGCCCATCAT AGTAGGCTGT CCTACAGAGA CATAACCCAG GAATTAGGTG AATGGCTAAC CTAAATTAGCACTGTGATGT GTTTTCTGAC TTGGTCCTTA TAGCTCCTCT GCTTAGATGT GGAACTAATC CATGAATGCAAGGGTTTGTC TAGAGTTTTA AGTGGGAGTT AAATATCCAA AGTACAGGAG ATATTATGGG TGCCTCATCCATGTCCCCTT GGCATTTATC TTTCTTGGAT AACCCAACTC TATTAGTTTT TATATCTCAC TTGTTCCTATACTCTGTGAA CTGATGTCCC ATAAATAGAC ATTTCATTTT GCCAGTCTTC TTGAACAATA ATTACGATTATTAATCTAGC AGTTATCATT AATTGGCCAC TTCACATTAG ACACAGCACT TAGGACTTAA GAATACCATGTCATTTGATC ATCATAATAT GGTCAGGAAT TAAGTATTGC TATCCAAATT TTACAAAGAA GGCACTGAGGGTTAGAGTTT AAATAACTTG CTTAAGATGT CATAGCCTGT AAGTGACAAA ACTAGGACTC AAATACAGGTCCATCTGACT CCAAAGTCTA TGTTCTTGGC TACCACACTG CCTCTCCTAC AAGTGACCTG TGGTTTTACTACTATATTCA CACTCTACTA ACTTTACCAT CTCCCATGAG TCTGTCTAGA GGAGGGCACA CACAGCACAGAAAACACATG AATGCAAAAT AAGGAAGGGC CTACTTACTA CACAGAGCCA TTCTAATACC TGATGTTTGCTCTAATCCAG TTTTACTATT AATTAGTTGC TGGTGCCCAA GTTTTTACTG AGAAATGGGG ATAATTTTGGAAGTCATAAT GATGCCTTCT TCTCATAGGG TATTTTATTT GTTGTTGTAT CTCCAGGCCC CAACACAGCCTGGCTTTTAG TAAATGATCA AAAATACCTG TTGAATGAAT AAATGGAGTC ACCTGAAACA TGTTAAACATTTGTTCATGT GTCCTAATCG TGGATTTCAG GATAGTAAGC ATCCTAAAAG GAAAGCATGC ACACTGTTCTTGCTACATTA ATTTCTCACA ATATAAAAAA AGAAAAGCAT CTGAAAAAAG CTGCCAGCCG CTGTGTCTCCTAATATCAAA CTGAGCACAG ATATGGAGAA GCTAAGGGAG AGGGATGATG GGCCATGCCT CTAACCTCATCATGGCAAAA GTCCTGGGGG TCAGACCCGA GGAGAGCAGG AAGTGTCTTT TGAGGGATAC ATTTCCACAGTGGAAATAAT GAGACTTAAA TAAATATTAT ATACACAGTT CAACTGTTTT TATGTGTAAA GGTAGTAGGTTTTCACAGTA AGGAAGCACT TCTTTTTTTT TTTGTTTGAG ACAGAGTCTC GCTCTGTCTC CCAGCCTGGAGTACAGTGGT GCTATCTCGG CTCACTGCAA TCTCTGCCTC CTGGATTCAA GTGATTCTCC TGCCTCAGCCTCCCGAGTAG CTGGGACAAC AGGTGTGTGC CATTACACCT GGCTAATTTT TGTATTTTTA GCAGAGATGCGGTTTCACCA TGTTGGCCAG GCTGATCTCG AACTCCTGAC CTCAGGTGTT CTGCCCGCCT CTGCCTCCCAATGTGCTGGG ATTACAGGCA TGAGCCACTG CACTCACCAA GCACTTCTAC TGATAGCATT TACAAACCCTTCTTAGAATA TTTAAAAATT CTAAGAGAAG AGTAAATTGA GCCTTCCCAA CTAATACTAG GAGGTTATAACCTTCATACC AAAACTGGAC AATGCTTGCA CAAAAGAAGG AAGCCAATGA GGCCACCTAG AAGGAAGACTGGGCATTGGG CCCAGTGAGT CCTGGAAACC TCATCTGTGC CAGCCACCCC GGCATGGCCT GTATGAGTGGATGAGGGTGA CTTGTCCACA GACAATAGCC ATCTAGCTGT GATAAAGGAG TCAAGGTAGT CAGCTGCATCTCTTTCACCT GTTTGCCAAT GTTACACAGG TTGAAAAGCT AAGGTTTATG TAAAGCAAGC ATCAAAGATGATGAAATGAT CAACCTGACA ATGAGTACTA TGCTGCATTG TCCAGAAAGG AACTGTGGAA GATTTTGGGCTGAATTTCAA AACAGAATTT CCTCACTCTC TGGATGTTGG CTTACTTGGC CTTTGATGTT CAGAGGTGGTGCCTTTGTGT TGTTGAACAA TGTTGATTTT GGAGAGAAAA CAGAGTTGAA AAACCCACAA GTCATTCCCTGGGGAGTATT ACCGGAATAC AGAGGATAAT TTCAGCAAGC CAGCAAGGCC TCATCTCTGC TTCTAATAGATAGGAAGAAA GGAAGAGAGG AACAATACTT TTTTAAGAAG CTCAGCTTTA TCGCCTTATC TCATAGAAAGATGCCTCCAG TCTGTCTGGC TAAAGGTAAT TGGCATGGGA AAGTCTTTAT CTGTGATTCT AACAAGTGGAATGTTTCCCT TCATTAAGAG AGCCTTGTCT GGCTTGGGGA AATGAAACAC TTTCTCCGAT ATGAGTGGGCTGTAACCCCT GCTACTAAAT ACTCAGAAGA AATAAGGCGG TTGTGGAGCA GTCAGGAATG AGTCACTTGCCTCCCTGGAA TATTCAGAAA ACTGAATCAA AAGTACATTC TTCTGGGTTT TCTTAGTCTA ATAGACTAAGGGTCTCTACT TTGTTAAATT TCTGGGAAAC AGCATAGAAT GGGAGAAAAA ACTGGTCACT GTAGTCATGCAAATCTGCAA AACAAACAAA AAAGTCTGGG TATTGCTGCT AACTAGCTAT GTGACCTTAA GCAAGGTATTAACTCTCTCT GAATTTCAGG TTCTTCATCT GTTAAATAGC ATATCTGTAA AATGGGAATT ATTTTCATATCATAATGCTG TAGCTTTAAA AAATAAAATA AAATGGATGA GATAATCAGA ATTAAAGAGC CTGGGATATATAGTTAATAT ATAGCAGCAT GTAAAGATCC TGTTAGAAAT GCTAATTTTA CAGTTAACCA TTTGGAGATGATCCGCCAAA GCTGCTAGTG TAGAGGCAAC TGAGAATTTG CCTGTCCTTC AGAATATGAA TAAATAACTGTCAATGATGT CTCAAGCCTA GAAAAACCTA TCCATCTGGA TGGGTGGGAA ATTTCTAGGC TAGTATTGAGAAGCCCATTT CTTGGGAAAT AGGTCCTGGA CTGAGTGAAG GAAAAGAAAC AGTAAAACCC ATGGTAAAGCAGCAAGGCTC TCTAGAGGCT CTGGAGAGGA TGAATTGAAT TCTAGAAGAT GAAGTAGGGA AGACGCTTTACCTTCTTGTG AAATGGATTC AAAGATTCAA AGACCTTCGG GAATCTCCAA TTGTATAAAT GGCACCATAGCTGTATGTTC CATGGAACAC TACTTCCCAG AGATGCCCAG TGAAAAAAGA ATGCCACAGT CAAATAAGTTTGGAAACACT CCATTATGTG GCCACCTCCT TGAAGACTCT AATGCACATT AGCATGTTAA ACAGTCTTGAGAAGTCCTGC AGAGCAGAAA TTGCTTCACA TCTGCTAAGC CGGCAGTTTC CCAATATACT TGATTATGGATAGTTTTTTC CTTACAACAC CATTCTCTGA TATGCTTCCA ATGACATGAA ATAAATATAT ATGCATGAGGTTCTTCATTA GGGCATACTT TTTAATAGAA AATATTGAGA ATAATCTAAA TATAAATGCA CAGCATTTACCTTTTCTGCA TAAACTATAT ACAGGCATAC CTTGGAGATA CTATGGGTTT GGTTCCCACA ATATCTCCAAAACCACATTC GGTTTTATGA CCACTGCCAT AAAACCAGCC ACATGAATTT TTTGGTTTCC CAATGTATATCAAAGTTACA TTTTTACTAT ACCATAGTCT ATTATATATA CAATAGCATT ATATCTAAAA AACAACGTAAACACCTTAAT TTAAGGCTGT GGCTGGTTTG ATTTTCTACC CAGACCACTA AAACTTTCTT CATATCAGCAATAAGGCTGT TTCACTTTCT TACTATTTTT TGTGATAGCA CTTTTCCTTT CCTTCAAGAA TTTTTCCTTTCTATTCACAA TTTGTTTGAT ACAAGAGGAC TAGATTTTAG CTTATCTCAG TTTAAGGTGT TTACATTGTTAGCTAAAAAT GCTAATGATC ATCTGAGACT TCAGCAAGTC ATAATCTTTT GCTGGTGGAA GGTCTTGCCTCAGTGTTGAT GTCTGCTGAC TGGGTGGCTT TGGCAATTTC TTAAAGTAAG ACAACAATCA AGTTTGACATATCAATTGAC CCTTCCTGTC ATAAATGATT TTTTTTTTCT CTGTAGCCTG CAATGCTCTT TGATAGCATTTTACCCACAG TAGAATTTTC AAAATTGGAG TCAATCCTTT CAAACTCTGG TGCTGTTTTA TCAACTAAGTTTATGGAGTA TTAGAAATCC CTTGTTGTCA TTTCAACAAT GTTCACACCA TCTTCCCCAG GAGTATATTCTACCTCAAGA AACCACTTTC TTTGCTCATC TATAAGAAGC AGCTCCTCAT CCACTAAAGT TTTATCCTGAGATTGCAACA ATTCAGTTAC ATCTTCAGGC TCTACTTCTA ATTCTAGTTC TCTTGCTGTT TCTATCTCATTTGTGCTTAC TTTCTCCGCT GAAGTCTTGA ACCCCTTAAA GTCACTCATG AGGGTTGGAA TCAACTTCTTACAAACTCCT GTTGATGTTG ATATTTTGAC CTGCTCCCAT GATTCATGGG TATTCTTAAT GGCATCTAGAATGGTGAACG TTTTCAGAAG GTTTTCAGTT GGCTTTGCCC GGATCCATCA GACGAATCCC TATCTATGGAAGCTATAGAT TTATAAAATG TATTTCTTTT TTTGTGGGGG CATAGCGTCT CACCCTGTCA CCCAACCTGGAATGCAGTGG CACAGTCATA ACTCACTGAA GACTCAAACT CCTGGGCTCA AGTGATTCTT CCACCTTGGCCTCCCAAAAC ACTGGATTAC AAGCTTGAGC CACTGTGTCT AGCCCAAAAT GTATATCATA ACTAATGAGGCTTGAAAGTC AAAGTGACTC CTTGATCCATGGGCTACAGA ATGGACGCTG GGTTACCAGA CATGAAAACAATACTCATCT CCTCATACAT CTCCTTCAGA GCTCCTGGGT GAGCAGGCCC ATTGTCAAAT GAGCAGTAGTATCTTGAAAG AAATTTTTTT TCTGAGCATG AGATCTCCAC AGTGGACTTA AAATAGTCAG TAAACTATGCTGTAAACAGA AGTGCTGTCA TCCAAGCTCT GTTTTTCCAC TGATAGGGCA AAAGCAGAGT AGATTTGGCATAATTCTCTA GGGCCTTAGG ATTTTTGGAA TGGCAAATTG AGCATTGGCT TCAACTTTTT TTTTTTTTTTTTTTTTTGAG ACAGAGTCTT GGTCTGTCAC CCAGGCTGGA GTGCAGTGGT GCAATCTCGG CCCACTGCAAGCTCTGCCTC CTAGGTTCAC ACCATTCTCC TGCCTCTGCC TCCTGAGTAG CTGGGACTAC AGGCACCCGCCACCATGCCC GGCTAATTTT TTGTATTTTA GTACAGACGG GGTTTCGCCA TGTTAGCCAG GATGGTCTCGATCTCCTGAC CTCGTGATCC ACCCGCCTCG GCCTCCCAAA GTGCTGGGAT TACAGGCGTG AGCCACAGCGCCCAGCCTGT CTTCAACTTA AAGTCGCCAG CTGTGTTAGC CTCTAATAAG AGAGTCTGCC TGTCCTTTCAAGCTTTGAAG CCAGGCATCA TTCTCTTCTC TAGCTATGAA AATCTTAGAT AGCATCTTCT CCCAATAGGAAGCCATTTTT TATGCCCTAA AAATCTGTCG TTTGGTGTAG CCACCTTCAT CATTGATCTT ACCTAGATCCGCTGGATAAC TTACCACAGT GTCTACATCA TTACTTCTGC TTCACCTTGC ACTTTTATGT TATGGGGATGGCTCCTTTCC TCTAACCTCA TAAACTAACC TCCACTAGCC TCACATTCTT CTTTTACAGC TTCCTCGCCTCTCTCAGAGT TCACAGAATT GAAGAATGTT GGGCCTTGGA TTACACTTTG GTTTAAGGGA ATGCTGTGGCTGGTTTGATT TTCTATCCAG AACACTAAAA CTTTCTTCAT ATCAGCAATA AGACTGTTTC ACTTTCTTACTATTTTTTGT GATAGCACTT TTCCTTTCCT TCAAGAATTT TTCCTTTCTA TTCACAATTT GACCGTTTGATATGAGAGGC CTAGATTTTA GCCAATCTCA GTTTACACCA TGCCTTTTTC ACTAAGCTTC ATCATTTTAGCTTTTTATTT AAAGTAAGAT GTGTGACCCT TCCTTTCATT TGAACACTTA CATGATGATG CCTGGCTTCAAAGCTTGAAA GGACAGGCAG ACTCTCTTAT TAGGGGCTAA CACAGCTGGC GACTTTTAAG TTGAAGCCAATGCTCAATTT GCCATTAGAA GCCATTGTAG GGTTAATTAA TTTGCCTAAT TTTAATATTA TGGTGTCTCAGGGAATAAGG AGGCCTGAGT AGAGGGAGGG AGATGGGGAA ACAGCCAGTC ATCAGAGCAC ACACAACATTTATCAATTAA GTTTATCACC TTGAGGGCAC AGGTCATGAT ACTTCAAAAC AATTACAATA ATAAAATAAAAAATCATTGA TCGCAGATCA CCATAACAGA TATAATGATA ATGAAAAATT TGAAGTATTG TGAGAATTACCAAAACGTGA CACACAGACA CAAAGTGAGC ACATGTCATT GGAAAAGTGG TGCTGATAGA CTTACTTCATGCAGGGTTGC CACAAATACT CAATCTGTAA AAAATTCAAT TATCTACATA GTACCATAAA AACAAGGTATACCTGTTTAT ATAATCAAGA CCAACAGAAC CCTAGAGAAA ATAGCTCACT CCCTAGCTCG GAGACATTCTAACCAACATA CACTTACCTT TCTTTTTGCT GTGTACAGAA TTCAAATCCC TGTCTCAGCA AAATTGCAAAGTATCAAATG TCATGTCCAT CTAATACTCA AAACTGCAAA TGTTAAGTCT TGTAAGCCCA GAGACCACTGTATATACAAG TGTTGCTATA AGCATTAGTT CTTCTCCAAA GAAAATAGTC CACTTGGTAG AAACAAACAAAAAGAAAAAA AAAGAAAGAA AAAACATTTT TTACAAGAAG ATTCAGTCTC TTACCTACAT AAGCAAAAATATGAGATGTT CTCTTATCAT TTTTCCATCT ATCTTATAAT CTTTGGTGCT GACTTAGACA CTCATTTTCCTTTTTGTACG TGACCATGTA AAAGTTCAAG TCAAGAAAAA CTTGTTTTGA CATTTGTTTT GCTGAGTGATGGGTCCCTAA AAGAAATTTG GCTTTGCTTT TGAAAAGTTC AGCATGATAT TGTGTGAATT TTTCATGGCTAATGATTTTT AGAACAGTTG TGATGTGTTT AGGTGTTTTA AGAATATGAA GCATTCAGTG GTTTAAGTTGGTTGTTATAA AATGAAAGAA TATGAAGGAA AGCCTTCTTG TCTTAGAACA CACTGATTCA CAAATAAGCAGCTTCTCTCA AAATGTTGTA ATTACAAAAA TTCCAAGGCA AATATAATAA ACTCCTTGTC GGTGCTATGTCTAGAAACTT AACAGCCCCA AAGAAAGTCC TGACAAGGCA AAAAATATAT ATATATATAC AAATTGTGGAAGCAGGGTGT TGAAAGAAGA ATAAAGACTA TATAAGGACA AACTGTTTAA AAGGGAGGGT ATCCTTGAAAGCTTGACACT TGACTCTTTT GACGAGGCTG AGGGAAAACA CTCAGTTTCA TAGATTGCTG GTACGGATGTAAAATAGTGA CATCCCTATA GAGAGGAATT TGGCAATATC TAGCAAAAGT GCTTATGCAT TTATTCTTTGACCTAGTAAT CCCGCTTCTA GGATTAGTGG TGAAGATACA CCTCAACAAT AAAAATATAT ATACATTAGGTTATTAGTTA TGGTTTAATT TTTAATAGCA AAATATTTAA AACAACCTAC ATGAACAAAT AGGAGACTTACTGAATAAAC TATGGTATAT CTGTACAATA AAGTGCAATT CACTTATGTT GTTAATTTGT TCCAAAAATCCAGAGCCAAA GAGTATTTGT TATGCTCTCT TTAGTATAAG AAAGGGGAAA TAAGATATGT GTGCATCTGTTTATTTTTGT GAAAATAAGT ACAGAAAGGA TAAGTAAGAA ACTAGTAAAA CTAGTTATCT CCTAGTGTTAGTAGAAATAG AATGAAAGTG AATTAGGCTT CTTTGAGTAT ATGTTTATAT ATAGTTTTGA CTTTTGAATTATGTTTATGT TTACATAGTC AAAAATATAA ATTAATCAAC AGAAATAACA AAAAAAGAAG AAATCACAAGCTTTAAAATT TAATACAAAC AGAAATAATT GAATCTAACA GTATATCAAA GTGATAACGT AAACTCAGAAGAAAAAAACA TAATCCAACA TACCAGTGGA ACACAATATT CTAACTGTAT ACATTCAGTG GTTATAGTCTAAGGACAAGA AAAATTGCAA AAATATCTTG AACTTTAGCT TGTAGGATTT TTATTGGTAG CAATACTAATGTACTAATTC TGAAATTAAT ATTCGTGTAT TATAGAATTG AGTAAATGAA TAAATATGTT GATGTTATTGGGAACTAAAA TTATCATTCT GGGAGTAGAG AAATATAAAT ATGGACTTGG CAAATGAAAC AAAGACCTGCAGAGAGATAA CCATATAAAC TCATTATTTT AAAAATTATA AGTGTCCTAG CTCTGTTACT GAAAAGGCCTAGATTCAATC TTATCTTGAT AGACAGGAGG GCACCCCTTT CTCAGAACAT GGTTTCCAAA TGCCATTCTCCATTAAAAGG AACAAGGTCT TCTTGGAGAA AAGACTGATT CTAGGTCTGG ATTAGGTAAA GTACAACGTTAGTCTGGAAT TTCTTGCTGA ATCAGAAGTA AGAAAGTGCT CAAAAACATG GGAACATGTC ACAAACACACGTGAGGCAAC TTGAATCCTC ACTGGCCATA TTTAGGACAA TCGAGCATCA AAAAAAAAAA AAATGTTGAGAATAATGGAT TCTAACACTT AAAACAAAAA ATAATCCATA GCCCACAGAA GGGGAAGAGA GGGGGAGCTCTTATTTACAG ATGAATATCA AATAGCAAAG ACAGAAGAAA TGACAGAATT AGAGAAACAT CATTTTGCAAAACACCACTG TAATAATCAA TTCAGGCAAG TATTATTAAT GGATGTATTA CTATTGCGTA AAACCAGTTGGGGAACAGGA TATTCATACA GTCTGAAGGT GTCACCCTAA ACATAACTTA TTACAAGTGG AAAATGGTGCCTTTACAATG AAGAAATCTA GCAGAAACCA TCTTAATCTA GTGATCAAAC TTAGTATCAC CAATAATGGATCATACTGAG TCATGTGTCT CCTAATATGA TGCACCAGGA AGGATGCAAC GTCATGAACG TTGTATTCTTTTGTATTCAA CAGACCACCC AGGGTAAAGG CAGCTTTCTC ACTTACTAAT CAGAATTGTT GGTTTTAATTCATTTTGGAT TTTAAGATTT CTTACTTTCT TGTCAGCTCA GAAATTTATT TAAGATGATT TTTATCTTTTATTCAATACT TTAGCTTGGA GAACCATTCA GAGTTTCTAA CTCATTGTAT TGCCAAAAAT AGAAAACAGCATGGTTTCTT TTGAAAATGT CTAACTTTAA AGTTACTTGT GTGTGTCACT CAGATTCACA TAGCTTTTTTGCCTAGTAAT GTAGTATCAT GTGGCAAGGC TATAAAAATG TTTACAATCT TTTATTTAAT ATGACTCTTGAGAGTTTATT CTAAGGAAAT AATTGAATAG TAACAAAACA CTATTAACAC AAAGCATAGC AATTTGATTTGGGCAACCAA ACACTGGAAA CAACCTAAAT GTCCATTACA GGAATCATTT ATGAAGCAAA CACTAAAATATTTATTGTGA AGATTATGAG AACATAGAAG ACAGTTATGA GAGTAAATTT GAAAACCTGA ACACAAAACTTACATATACT CCAATTGTAA CTTATAAAAA ATACGTGCAT ATAAGGATAA AACAGTACAA ACAAAAAAATAGTTGCGTTA GATTGGTAGA ATTATGGCTC CTTTTGCTGT CTTAATTTTT TCCTTTTACA TTTTGATACATTATTTTAAT TTTAATTTTA AAATTCAAAA GAATTTGCCA CTCATCTTTG CCACTTCAAG GAAAAAAGAAATGTGTTCGA TTATTCTGTT CTTAGTATAG TTTTGGCAAT TTCCTCACGT GTAAAAAGAG AATACTATTAATAATTTCAG TATCTATAAG ACAATATAAA ATTAAAGAAT CTAGCCCAGT AACTGGTACA TGGAACGTAATTAATAAATC ATTATGGACT TTTTTTCTCA CACCCAAGTA GGGAGGAATC AGTGGTCCCC TAGAGGCCCAGTGTAGAGGT GGCAGCACCA ATCCCTAGGG GAGAAGATCT TGGTGATGAT AATTCCTGAG CAGACAGTTAGCTGAGAATT CAAGAGCAGA AAAGTAAGAA AGAAACAACT TCTTGCTAAC ACCTTTCCAC CCACGTTTCCCTGTTCTGTT GTACTCTGCT TACCCTTTCA TGGATGGAGG CAGAGGAAAG AGAACCAAGT TTGCTCTTAGTCATTCACTA TGTTGTTTAATCTGCCTTCC ATCTTTCTTA TCAGTTCAAA TTAGAATGTA GACCTGAATTTAAATCCCCG TTCTGTCAGT TATAATGTGA CCCTAGACAA AACACATTCT CTGAACCTCA GAGAACATTCTTCATTTGTA GAATGGGAAG ATTAATCTAT ATTCCACTTG GATGGCAAGT CTTTTATAAA CTTTATAACCTAAACATGTG TGAGTTGCTA GTATCATTAT GTTGGTAAAG TTATTCTGAG ATATGATAAC AGAACTGTTTTGTCTAACTC CACTAGCATG GTTCAGGTTT AGAGAGTGTG GAATTAAAAG GCTTTATCCT CAAATATGACTTAAATCCGA TTTTTCTCAT CCACTTTCCT CCACAAACAA ATCCTCAGGA AATGACAAAC TTTACATGGTTAAACATCAG TTTTGTTTAG TCTTTGACAT CCACATGGTT AAATCATACA TTTGAAAACT GCTTATATTTGTGTTGTCTA TGTCTAAATT GAAAAGACTT ATTGAGGAAT AGAAGACTAC ACATTTTTCA GCAAACACTGCACGTTTTGC AGAATTTCCC CAGGCACCAG TCTCCAGGAA TTTATTGGCT ACTAACAATA CTAAGATATGGATGAATGAG GAAATCAAAA TGGAGATCTT GCAAGTTTTG TGAGAATGGG TGAATGGTCC AAATGAAGAGATAAGTTGTG AAATATTAGT ACAAGTAAAA ATTATTTACA ATGAAAGACA TTTTGTCAAT AGCTATGAGAATTTTACCAT TGACCCAGAA ATTCCATTTC TTTCTTCAGA AATACCCACG TAGGTATACA TATAAAAAGTTATTCATTAC AGTATCGTTT TTCATAGGAA AAAGTTTTAA AAATCAGAAG CTATCTAAAC TATGGTATATCTAGGTCATA GAAATCAAAT GACTAAAAAT GTTAATATAA GCATATGTTT TTAAATTAAC TTGGCTTGGGTCTTCAGCAA AATTGGCTTC TTAACATTGC ACTCCAGAGT TAGACTTACC CACTCAGTCA CTTATCATGCAGGAGCAGAC TCCTAATACC ACATATCATA GAGCAGAGTA GGACACAGGT TCTCTGCAGG CAGGCAAATCCCAAAGAGAA GGGAGGAAAG GGCTGAGACA CTGCATGGTC AATTTCTTCT GAACTCTGCA ATGTACGGAGGTGGACAGTG TCCACAAAGA TTGCTCCCCT GGACCCACCA TCATAATAAC ACAACGGCTT TGTTTTGTTTTTGTTTTTGT TTTTTGACAC GGAGTTTTGC TCTTGTTGTC CAGGCTGGAG TGCAATGGTG TGATCTCGACTCACCACAAC CTCCACTTCC TGGGTTCAAG TGATTCTCCT GCCTCAGCCT CCTGAGTGGA TGGGATTACAGGCATGCACC ACCATGCCCA GCTAATTTTG TATTTTTAGT AGAGACGAGG TTTCTCCACG TTGGCCAGGCTGGTCTCAAA CTCTTAACCT CAGGTGATCC ACCCGTCTTG GCCTCCCAAA GTGCTGCGAT TACAGGTGTGAGCCACCGCG CCCAGCCCAC AATGGCCTTT TGTTTACATC TCTAGTGCAG CACTCATTTC ATGTTCTTTCAAGAAGAATA CATATTTCAT CTTTTTATTT TATACAGCAA TTAGCACAGT GCCTGGCATA AGGAAAATGATCATTAAAAG CTGGGTGAAA AACCTAATAA AGCTACTGAG GATAGGAACT GCAGACCAGC ATGGAAAGAAAACTATGAGC CAGATATTGA CATCATCCTG AAAGGCAGAA GATTTAGTAT AGGCAAGAAG TATGCTTTTGGAATATAGAA AATCTGGATT ATGATAAGAA AAGAATCATA TTTGTCTTAT CTTACCTACT CACTTCTCAGTTCCACATGT TTCTGAGGCT GTTTGTCCTT ACTTTCTTTT CTGTTTTATC CACTCTTTCT GTTCTTTAGATTGGATCATT CCTATTGAGC TGACATCAAG TTAACTGACC TTTTATTTTG TCCAAACTGC TGTTAAATGCATCCAGTGAA TTTTTAACTT TATATAGTAT ATCTTTTAGT CCTAGAATTT CCACATGAGT TTTTTAAGTTTCCATTTCTC TGCTGAGATC TCCTATTTGT TCATTCATTA TGACCATATT TTTCTCTACA TTATTGAGCATAATTATAAC AGCTCTTCTA AAATTCTTGT CTGCACATTC TAACACCTGA ATTATTCTGG GGTCAGTCTCTGTTACATTG CCTTATTACA AAAACAGTAT AAGTCACATT GCCTTGTTTC TTAATATGCA AAATGATTTTTGATTGCAGA CTAGACATTT TGAATTAAAC ATTATAGAGA TTCTGGATTC TCGAGAGAGT ATTGACTTGTTTTTTCCATC AGGCAGGTAA CTTGACTGGA CTCAAACTCC AAACTCTAGG TCCTCTGTAA TGGGCAACTGCAGTAATCTT TGTTTAGTTC TTTAAGACTT ATTGGCCAGG CACGGGGGCT CATGCCTGCA ATCCCAGCACTGTGGGAGGC CAAGGTGGGA GGATCACCTG AGGTCAGGAG TTCGAGACCA GCCTGGCCCA CATGGTGAAACCCTGCCTCT ACTAAAAATA CAAAAATTAG CCGGGTGTGG TGGTGGGCGC CTGTAGTCCC AGCTACTCAGAAGGCTAAGG CAGAAGAATC ACTTGAACCT GGAAGGCAGA GGTTGCAGTG AGCCGAGATT GTGCCACTATACTCCAGCCT GGGTGACAAA AGCGAGACTC CCTCTCAAAA AAAAATTTAT TGGCACTGCT TGGCATCTGCTATGAATACA TGAAGTTCAT GGGTCAGCTA TAGATCTGGG CACGTTATAC ACAGAATTTG GGTCTCCCTTTCTCTGGATT TCTCCTTTTC TGGATTTCTT TTCTCATTTT CCAGCAGCTG TGGTTGCCCT AAACTCGGTCCTCTGTTTCT TTACGGCAGT AAGATTTGGG AACTTTTAGG TTTTACCTGC CTCTCAGACA AAATAAAAAATAATTTTCAT CTTGATGCTA CTCCTTTCTT CCAGATGTAG ACACCTCTCT AATTTCCAGT TGCTTTTTATTGCTCTCCAG AGTCTAAAGA TTATCATTGT TTTCTGTGGG AGAGTTGGTC TGATAAAAAC TACTCCCCCAAAACTGGAAG CTGGAAGCTT GTAATTATGA ATAGACTTTG AGTAGTATTC TTCTTTGGAA AAGGATTTTAACTACTCCCT ATGTACTTCT TTATTTCCTG TTTTTCTCAT CCGTAATCTT TTTATTTTCA TACTTCCTAAGTCAGACAAT TTTCCTACTT GAAGATTCAG TGACTGCTAT CAAATGACCC CCATATTACT AAATACAATATCCCCAACTG CATTTATAAA AAGAAAATTT ACTGTTTATT AGTAAACAAT GTTGTAGAAT AGTAAAATATTGCTGGGCTT TGGAGCCAGA TAATCAAGGT TAGAATCCCA GATTCTAACT TACTAGCTGG TGTATTAGTCCTTTCTCATG CTGCTAATAA AGACATACCC CAGACTGGGA GACTGGGTAA TTTATGAAGA AAAGAGGTTTAATTGACTCA CAGTTCAGCA TGGCTGGGGA GGCCTTAGGA AACTTACAGT CATGGTGGCA GCAAGGAGAAGTTCCAAGCA AAGAGGGAAA AGCCCCTTAT AAAACCATCT GATCTTATGA GAACTCACTC ACTATCACGAGAACAGCATG AGGGTAACTG CCCTCACGTT TAATTACCTT CCACCAGTTC CCCCCCATGA CACATGGGGATTATGAAAGC TATAATTCAA GATGAGATTT GGGTGGAGAA ATAGCCAAAC CATATAATTC CACCCCTGGCCCCTCTCAAA TCTCATGTCC TCACATTTCA AAACTCAATC ATGCCCTCCC AACTGTCCCC CAAGGTCTTAACTCATTCCA GCATTAAGTC AAAAATCCAA GTTCAAAGTC TCATCTGAGA CAAGGCAAGT CCCTTCTGCCTATGAGCCTA TAAAATCAAA AGCATGTTAG TTACTTCCTA GATACAGTGG GGGTACAGGC GTTGGGTAAATACACTGATT CCAAATGGGA GAAATTGCCA AAACAAAAGA GTTACAGACC CCATGCAAGT CCAAAACCCAATAGGGCAGT CATTAACATT AAAGTTCCAA AATGATCTCC TTTGACTTCA TGTCTCACAT CCAGGTCACACTGATGCAAG AGGTGGGCTT CCAATGGCCT TGGGCAGCTC TGCCCCTGTG GCTTTGCAGG GTATAGCCTGCTTCCTGTTT GCTTTTTCAC AGGCTGACAT TGAGTGTCTG TGGCTTTTCC ATGAGTATGG TGCAAGCTGTTGGTGGATTT ACCATTCTGG GGTCTGGGCC AGGTGCAGTG GCTCATGCCT GTAATCCCAG CACTTTGGGAGGCTGAGGTG GGGGATCACA AGGTCAGGAG ATCGAGACCA TCCTGGCTAA CACGGTAAAA CCCAGTCTCTGCTTAAAAAA TACAAAAAAT TAGCCAGGCG TGGTGGTGGG TGCCTGTAGT CCCAGATACT TGGGAGGCTGAGGCAGGAGA ATGGCGTGAA CCCAGGAGGT GGAGCTTGCA GCGAGCTGAG ATTGTGCCAC TGCACTCCAGCCTGGGCGAC AGAGCAAGAC TCCATCAAAA AAAAAAACAA AAAAACCATT CTGGGGTCTG GAGAATGGTAGCCCTTACAG CACCACCAGG CAGTGCCCCA GTGGGGACTC TGTGTGGGGG CTCTGACCCC ACATTTCCCTTCTGCACGGC CCTAGTAGAG GTTCTCCATG AGGGTTCTAC CCCTGCAGCA AACTTCTGCC TGGACATCCAGGCATTTCCA TACATCCTCG GAAATCTAAG CCGCGGAGGT TCCCAAACTT CAATTCTTGA CTCCTGTGCACCCACAGGCT CAATACCACA TGTAAGCCAC CAATGCTTGG TCAGGGCTTG AACCCTCTGA AGCAATGGCCTGAGCTGTAC GTTGACACCT TTTAGCCTAG ACATCTAGGA CACAGGGCAC CATGACCCGA AGCTTCATAAAGTGGGAGGG CCTTGGGACT AGCTGAGGAA ACCATTTTTC CATCCTAGGC CTCCAGGCCT GTGATGGGAAGGGCAGCCAT GAAGGTGCCT GACATGCCCT GGAGACGTTT TCCCCATTGT CTTGGTAACT AACATTCAGCTCCGTGTGCA GCACCAACTT ACTTATGCAA ATTTCTGTCA CTGGTTTGAA TTTCTCCCCA GAAAACAGGATTTTTCTTTT CTATTGCATC ATCATGCTGC AAATTTTCAA ACTTTTATGC TATGCTTCCT GTTGAAGACTTTGCGGCTTA GAAATTTCTT CCCCCAGATA CCCAAAATTA TCTCTCTCAA GTTCAAAGTT CCACAGATATCTAGGGGACA AAATGTTGCC AGTCTCTTTG CATAGCAAGA GTGACCTTTA CTCCAGTTCC CAACAAGTTTCTCATCTCCA TATGAGACCA TCTCAGCTTG GACTTAGTTG TCCATGTTAC TATCAACATT TTGGTCAAAGCCATTCAACA AGTCTCTATG AAGTTTCAAA CTTCCCCATG TTTTCCTGTC TTCTAATAGC CCTCCAAATTTTTCCAACCT CTGTCTGTTA CCCAGTTCTA AAGTCACTTC TACATTTTTG GGTATCTTTA CAGCAGTGGCACTCCCCATG GTACTAATTT ACTGTATTAG TCTGTTCTCA TGCTGCTAAT AAAGACTTAC TCGAGACTGGGTAATTTATA AAGAACAGAG GTTCAACTGG CTCACAGTTC AGCATGGCTG GGAGGCCTCA GGAAACTTACAAACATGGTG GCAGCAAAGA GAAGTTCCAA GCAAAGAGGG AAAAGCCCCT TATAAAACCA TCAGATCTTGTGAGAATTCA CTATCATGAA AATAGCATGA GGGTAACTGC CCCCATGATT AATTTACCTC CCACAGGGTCCCTCCCATGA CAGGTGGGGA TTATGGGAAC TACAATTCAA GATGAGATTT GGGTGGGGAC ACAGCCATACCATGCCAGCT AGAGAGCCTT AAGAAAGTCA CCTAATCTCC ACAAATAAAA GGTTTCCTAT TTGTTCAACAAAAATAATGA CACCCCTTTT ATGGGATTTC TGTGAGGACA AATGATAACT AACATAGCCT TGCATAGTGTCTGGCACAAA ATAGCTACTC AAAAAATAAT AGAAACAACA TTTAAAAAAT GTAGACTTTA TTTTTTAGAGTTTTATGTAC AAAGCAAAAT TGAGCAGAAT GTACAGAGAG TTTCCGTATA GCACTCCCTA CCCCCAAGCACAGATAGCCT CCCCCAGTAT CAGCATCCCG CACCAGAGTG GTACATTTAT TATAACTGAT GAATCTATATTGACGTGTCA TTTTCATCCA AAATCCATAG TTTATATTAG GGATGCCTCT TGGTGTTGTA CCTTCTATGGGTTTTGACAA ATGTATAATG ACATGTATTC ACCATTACAG TATCATAAAG AATAGTTTCA CTGTCCTAAAAATCTTTGAT CTTCTTCCTA TTCATCACTC CCTCCCCATT AATCCCTGAC AACTACTGCT AATTTTCCTGTCTCCATTGT TTTGTCTTTT CCTGAATGTC ATATAGTTTA AATATACAGT ATGTAGGATT TTCAAACTGGTTTATTTCAC TTAGTAATAT GCATTTGATG TTCTTCCATA TCTTTTCAAA GCTTCATAGT TCAATATTTATAGAATTGAA TAATATTCCA TTGTCTGGAT GTACTACAGT TTATGTATTC ATTCACCTAT CAAAGAACACCTTGGTTGCT TCCAAGTTTC AACAATCATG AGTAAAGCTG CTATAAACAT CTATGTACAT GTTTTTTTGTGAATTGAACA TTTTCAGCTT TTTTAGCTCC ATTCCTAGGA GTGCAATTGC TGGATTGTAT GATAAGGGTATGTTTAGTGT TGTAAGAAAC TGCCACGCTC TTCCTAACTG GATGTACTGT TTTGCATTCT CACCAGCAATGAAAGAGTTC CTGTTGCTCC ACATACTCAC CAGCATTTGG TGTCGTCAAT GTTTTGAGCA ATAGCATTTTGATCTAACTT TTCCTAGGTA TTCTTTTTGA AGGAAATAAT ATGACAGATA ATAGAGAAAG GATATACGAGGACAGTTCTG TCCTTTATTT ATAGTCCATC ATTTAATGAA GGACTCTGTC CACACTTGGT ATTTTTAACTCTGATCCTCC TCTCCCATGA ACTCTGACAA TCTCCTAAAT CCCTGTTGCT GGCACACATG GTTGTGTATCAGGCCCCCTG TGGTCTGTCT GAAGCATGGC TTTTTTTTTT TTTTTTTTTT TTTTTTTGAG ACGGAGTCTCGCTCTGTCGC CCAGGCTGGA GTGCAGTGGC GCGATCTCGG CTCACTGCAA GCTCCGCCTC CCGGGTTCACGCCATTCTCC TGCCTCAGCC TCCCGAGTAG CTGGGACTAC AGGCGCCCGC CACCACGCCT GGCTAATTTTTTGTATTTTT AGTAGAGGCG GGGTTTCACT GTGTTAGCCA GGATGGTCTC GATCTCCTGA CCTTGTGATCCGCCCGCCTC TGCCTCCCAA AGTGCTGGGA TTACAGGCGT GAGCCACCGC GCCCGGCCTT TTTTTTTTTTTTTTTTTTTT TTTGAGATGG AGTCTGTCAC TCTGTCACCC AGGCTGGTGC AGTGATGCAA TCTTGGCTCACTACAACCTC CATCTTTCAG GTTCAAGTGA TTCTGCCACC TCAGCCTCCC AAGTACCTGG GATTACAGGTGCCCGCCACC ACACCCAGCT ATTTTTTTGT ATTTTTAGTA GAGACGTAGT TTCACCATGT TGGCCAGGCTGGTCTCATTC CTGACCTTGA GTGATCCACC TGCCTTGGCC TCCCAAAGTG CTGGGATTAC AGGCATGGGTCATCACATGT GGCCTGAAGC ATGACTGTTG CTTTAATCAT ATGAAATACT GCTCTGTATT GTTATCTATTTGAAATGCCA CACCTCCTGA GCTAAATTGC AAGCTTTTAT GGAGCACAAA CCATATTTAT ATATATTAGCATGATACCAT GACACATATC AAAAGCTGTT ATATATTGTT ACGTGAATTG ATTCTTTCTC AGTTAAGAGGACCTCTGTAG TAGCACTTTC ATACCGTTAA TTTTTCATTT TGTGCCCAGC CCCTACTCTG TGAAAAATGAAATGAATCCT GTTATCATTT CCCTCCCAGG CCTTTTCTCC TTGTGGACAA TGTGTGGCTC AAGAGAAAATTCAGTCAGTA AATTTGTTCA GTGCACAAAC TCTTTATCAC CTCTCACTGT TCTCAAGTGA GATAGAACAGAACATCCATC CAGTGTCTTA CAAATTGTCT GGTATATAGT AGGCACTCAA TAAATGTTTT TTGAATAAATGCATACATGA ATCCTATTCC TATATATAGT ATGGTAGACA GATCATTGAT ACCCAAAGAT GCCCAAATGCTGATCCCCAG AACTTGTGAA TATGTTACAT TTCATGTCAA AAGGGACTTT GCTAATGTGA TTAAGGATTCAGACCCTTGG ATTGTAAGAT TATCCCGGAT TAACCAGGGC CAATCTAATC ACATGAGACC TTAAAAAAGCAGAAAACATT TCCCAGCTGG GTTAGAGAGA GATGAGACAG AGTAAAAAGG AAAGAGATTC AGGGCATGAAAATGACTCTA CCCACTGTTG CTGGCTTTGA AGATAGAGGA ACTAGGCCAC AAAACAAGGA GTATGAGTGGCCTTAAGAAA TAGGAAAAAG CCCTCATCTG ACAGCCAGCT AGAAAGCAGT CCTCTGACCA CAAGAAATTGGATTCTGCCA ACCACTCAAA TGAGCAAGGA AATGGATTCT CCCCTAGAAC CTCCAGAAAG GAACACAGCTCTGTAATGCC TTGATTTTAG CCAGGTGAGA CCTGTTTCAG ACTTTTGACC TATGGAAATA TAAGATAATAAAGTTTTATT GTATGCTGCT AAATTTGCGG TAGTTTATTA CTGAAGCAAT GGAAAGCCAA TACAGACAGAATATACAGAG AGAAAGAGAA TGAGTTCTTT CCTGATAATT TGTAAATATT TGGGTCTTCA CTGGACAAGCTTCACAGAGG ATTCACTGGT TCCCTAGCAA ACCAGCATGT CCAGTCCTGC AGCCTCCCTT TCTTAGGCCCAGCATATGTC AGCTGTGTGC ATAGAAAAAT CAAAGCAGGA CCCTGAGTAG TTGGAAAGAA AAGATGGTTGGAAATGGGT GCACTTCAAG TGAGGAAACA AGAGGTAGGA GACCGGCATC TCTTTCTCAT ATGTCCCAGGCTGACTCTTG TGAGTTGTTT TCCCTTGGAG GCTATCGATG ACAGTCACAG TAACCTGATG GAACCTGGATCATGATGAA GAAGTAAGTG TCAATGGCTC CGACTTCCAA GGACTCTGAT GTCCCACAGC ACTAGCTAAACAAAGCCAGT TGGAAATGAG CTTAAATGGG GAATTTCCTG AATATATTCC CTATTGTTAG GAAGCCAGGTTGGCTTCCTT GCCTACAATT ATGCCAAGCA GTCACACTAT AGAGTCCCTA GGGACATGAT ATTAAGTGATTCTTTTAACA CAAACAACTT AATAATCATT TATACTAATA GCAAAACGGC CAACGGCTGA TATTCCACTTGAAGTAGAAT TGGCTATCCA ACTGGAAGAG AAGACAGGAA GACGTGATCT CCAGGGAGCC ACTAAAAGGATTGGCACCTG CCTCTGGATT CCCCTTTTCC TTATATTACC TCTCAGCACT GGCAGGCCTT TATTTCAGGATACAGTTTCA CAAGTATTAT GTCACGTCTC TGAGAATTAT GTTGGTAGAT ATTTGCTCCT CTGGCCAGAAAGACCTAGTT TGGAGTCTGG AGTCATGAAG GTGACATACA TGTAGCTAGT GACATAAGTG TAGCTAGTAAAAATAGTGAG TAATGGCCCT GAAATTCTAT TGAATGCCCA AAGTGCTGAC CAGGAACAAG CATGCTCTAGCTTATCTCAC AAGGAACTTG ACAATTTTCT TCAAAAATCC TAGTAGCTAA GATTTCTTAG TAACAAAGCCACTAAGGCAC AATTATGATT AACTTGACCC TTAGGTGACT TTTAAGGACT ATTCTATAAA ATATTACAACTAATAGTGGA TCCAAGCCAG CACACTCTGC TATATAAGAT TAATTGACAG TGTCCACACT GGTAAAATAAGTTGTTTCAT AAATACATTA GAATTCATTT GCACTTTCTA CACAGCCCCA AGTCCAGAAC TTTCCCCAGAATAGGTCTAT GTTTTGCAAT CTGCTACTCC ATACAGAGAT TTGAGTTCAC TTGGCAATTT AGTGCTGCTTATATGTGACC AGTTAGTCTG TTTTACTTAT CTATGCCTTA AACATTACTA TACTTACTAA CTCCAAGATGCCTGGTCTCA ACTTGACAAA AATACCCCAA GTTGGGAAAT CCTTATGTGA ATATGTAGAT AGTCACAATTGCTGGTTGAT GATGATCTGT CTTTTCCTGT ATTTGAGAAA ATGGAGATAA AATGGACCAA TCCAAATAATGGATTAAACA TGGGAATAGG TGAGAGAGAG AGAGGAATAC ATGGTGGCTC TCAGTGTCTG GCTTAGGCAGTAAACACTTT CGTTAATAAA GACGGAAAAT AAAAAAGGAA TAATTGGTGT CTAGGGGAAA ATAATGAGCTCAAGTTTTAA CACTCTGAGT TCCCGGATGT GAGACATCCA GGCGCATTTA TCCAAGAGGC AGTTGGAAGCAACGTTCCGG AGCTTAGGAG AGAGGCATGA CCAAAAGCTG GTGGGACTGT GAAAAGGTAT GGCCATTCTGGAAAACTGTT TGGCAGTTTC TTAGAAAATT AAACATGTAC TAACAACCCA GCAATTGTAC TCTTGAGCATTTGTCCCAGA TAAATGAAAA AAAAAAAAAG CATTTTTTTT ACACAAAAAC ATATACATGA AAGTTCATAGAAGTGTTATT CATAAAAAAC TGGAAAAAAC TGAGATGTCT TTATTGAGTG AATGCTTAGG CAAACGGTGGTCTATCCATA CAATGGAATT ATGCTTAGCA ATAAAGAGAA AAGAACTATT GATACATGCA ATAACACAGATGAATCTCAA AGGAATTAAT GCTGAGTGGG AAAAAAAGCA CATCTCAAAA TGGTATATAC TGTACTATTTTATTTACTTA ACATTTTAAA AATAGCAAAA TCATAGAGAT GGAGAACAGA TTAATGGGTA CTGTGTTTTGGGATGGGGAG TGAGAAAAGG GTAAGGTGTA AATATAAAGG GGTAGCACAA AAGAGCCTTG TGGTTGAAGGATTCTATGTC TTGGTTGTAG TCGTGATTGC AGGAATCTAC ATGTGATAAA ATTGTATGGG TCTACATACGCATACACACA AGAGCATATA AAACTGGTGA CATGTGAAGA AGCTCCGCAC ATTGTGCCAA CATCAGTATCCTAGTTTCAA TATCAGACTA CAGTTATACA AAACATTGTC ATTGAGGGAA ACTGGGTAAA GGGAACACAGGACATTTGGC ATATATTTTT GCAATTTCCT GTGAATCCGT AATTATTTAA AAATAACAGA TATACTACATATCAAAAATT TAATGTCATA AAGTTGATGA GTTTACCTAG TGGATAGCTT TGTTAATATC TGCTATAAGACTACTGAAAA TGACAGTTAT GCAAGTATAA GCTCAGAGAA CTTTCCTCCC CCTTCGTAAA TGAAATGAGCAAAAGAAATG AAACAGGAAA GGCAAGCAGT ACTGAAAACA GGGAAGGGCT CTTCCCCATA TAACTATATCTGCGACTTCA ACAGCTATTC ATCCAGAAAC ACAGCCTCTT GCGCTAAGAG GAAACTTTGG ATAACAATATGTTTTCACTC TCCAAGAGAG AAAATGGATA GATTAATTTT TAAGAAAAAA AAAAAAACCT CACCAATTTCATGCTGTGGC TTGCACCTTT AATCCCAGCT ACCTACAAGG CTGAGGTGAG AGGCTTACTT GAGCCCAGGAGTTCAAGGCT GCAATGAGCT ATGATTGATT GTGCTATCGC ACTCCAACCT GGAGTACTAA GCTAAGAGCTAAGAACACAG CTGAGAGCGG AGAAGAAACA AACAAATCTG ACCAATAACC CCCACTCCCC TCATTTTACTGGAGTGAGCT GAGACTGCTG GCAAACATGG CCTTTGACCT AGCCTGAACT GTAGCAAAAG TCATCAGATATTTTTCCACC AATCAACAGA CAGAAGTGGG GAGAAAACAA TCGTAGTTCA TAACTACAAC AAGCAGATAAACGAAGGCCA TGGTGAGGGA TGGAAGACAT TGTGATATAT CAAAGGCAGG CTCATTTAAA ACTCAACCCAAATTCCAAAC AAAATATATA ATTGAATATG TATTAATGCC AAAGGAGCTT GAGTGAGCTT TAGCACAAACCCCGCCCTCC AGCCCCCACC CAAAAAAATC ACTCTGTTCT CTCCCCATTC TTTGATAGGC ATACTTGCTGTTTTCTCACA GCCAAGGTAC AGAGGGGACT TAGAGGAACT AGAACTCTAA TACACTGCTA GCAGGAATGTAAAATGAAGC ATCTACTTCA GAAAACCATT TTATCAGTTT CTAGAAAGTT AAACATAGAC CCACCATGCAGCCCAGCCAC TCTACTCCTA AGTATTTACA CAAGAGAAAT GAAAACGTGT CCCCACACAG TTGTATTTAAAGGTGATGGT TAGCCTTGTG TGTCAACTTG GCTAGGCTAT AATACCCAGT TACTGAATCA AATAGTAATCTAGGTGCATC TGTGAAGGTA TTTTGTAGAT GTGGTTAACA GCTACAATCT GTTGACTTCA AGTAAAGGAGATTGCTCTTG ATAGTATGGG TGGGCTTCAT CCAATCAATT GAAGGCCTTA AGAGCAAAAA GTAAGGTTTCCCGGAGAGAA AGAAATTCTG CCTCAAGACT GCAGCCTCAA CTCCTGCCTG AGTTTCCAGT CAGCCAGCCAGCCTAAAGAT TTGCTAGGCA TTATAATCAC ATCAGCTAAT TTCTTAAAAT AAACCTCTTT ATATATATTGATACAATGAA TGGTTATAGC AGCCTTATTT GTAATAGCCA CAAACTGGAA ACAACCTAAA TGTCCTTCAATAAGTGAATA CATAAACAAA TTGTGGTATA TCCACAATTT TTACGCAGCA GTAAAAAGGA ATAAATGGTTGAATAAGGAA TAAACACATA ACAAGGATGA ACCTTAAAAC CGTAAGGCTG AATGGAAAAA GTCAGACAAAACTAATACAT ACTGAATAAT TCCATTTATA TTGAAGTTCT AGAAAATGAG GACTAACCTA TAGTAACAAAAAGCAGAAAA ATTTTGCCCA CTGGTGATGG AGGGGGCGCA GGTATTGTAG AGTATCTGAG AAAGGACAACTGGATAAAAG GGGGCACAAG AAAACTTTTG AGGGTGATTG ATATGTTCAT TATCTTGTGG CATGGTTTCATAGGTGCATA CATATGTCAA AACATCAAGT TATACACTTT TAAAATGTTC AGTTTACTGT ATATCTATTATACTTCAGTA GAGAGGAAGG AAGAAAGTGG GCAGGGTGGG GGAGAGGAAA GGAAACGAGG GAGGAAAGGCCCTAATAGGA AGGATTTTGG AGTTTAGATT TTAAAATGAT AAAGGATGTT TGACACTCTA GGCATATGACGAATATAGGA TTATGAGTCC ACAAAAACCA CCAGGAAGTC ATGTATGTTT ATACTTTTAA GTGAAGGATCAGTGGATTAT CAACTCCCTA ATGCTTTGCC TCTCTATGAC TGGCTGCTGT CCTTCTCATC CCAATACTCCTTCCAAAGCC CCTTGCTTAA ATGTAAGCCT TCTTTCCTCC TTTCAACACA TCCTGCATTC CGTGACAAAATAAGTTTTCC TTAAACAGAA TGTACAGCAT ATTATTTGTA CAATTAAAAA TTTTTGGCCA GGTGTGATGACTCATGCCTG TAATCCCAGC AATTTGGGAG GCCGAGATGT GTGGATTACC TGAGGTCAGG AGTTCGAGACCAGCCTGGCC AACATGGTGA AACCCTGTCT CTACTAAAAA TACAAAAATT AGCTGAGTGT AGTGTGGCAGGTACCTGTAA TCCCAGCTAC TCAGGAAGCT GAGGCAGGAG AATCGCTTGA ACCTGGGAGG TGGAGGTTGCTGTGAGCAGA GATCAGACTA TTGCATTCTA GGCTAGGAGA CAGAGTGAGA CTCGGTCCCC AAAAAAAAACACATTTTTTT TTAATGTTTC CTCCTTGCCT GTAGGAAAAA GGCTCTGACT CCTTAGCCTG GGCATCAGAGCTCTATCTAA ATGGACTTTA ACCTGATTTT GTGGCACTAA TTCCATTGCA GTACTTGTCC GCTCACTGGCCTGTGCCTCT CTGCCACTAT TTTTGGAATA ATGTCCTCTC TCCATCTTGT TTACTCAACT ATATCCAACCTCTAAGGCTG TGCTCCTACA AAGCCTCCCC TGGCTACTTC AGCCCACAGA GATATTTAAC TGCTCTGCAGTTCAGGACAT TCTTCTGACT CTTTAAATCA CATTTACTTA TATATGATCT TGTGATATTT TTTGTTGACGTGTTTACTTT AATTTTCTTC CATAACCTAT TCATTCAACA AACTCAACAA TTATTTATTA AATGCCAAGTTAGAAAAATA TTATTGATTT TATATAGATT ATAGATATGT TTGAAATTTT ATTTGGCAAT CTGCAAGTAGAAAAATAATT ATAATGTGGT ATATCTGTGA TAGAAGTATT AGTGCAGAGA CCATGGGGAA CATAATCCAGCCTGGAAGTT CAGGAGAGAT ACGTGGAAGA AAGGACGTCA GAGCCTTTTT CCTACAGGCA TGGAAGAAACATTAAAAAAA ATTTTTTTTT TTGAGATGGA GTCTCACTCT GTCTCCCAGC CTAGACTGTG GTGGTGCGATCTCTGCTCAC TGCAACCTCT GTCTCCCGGG TTCAAGTGAT TCTCCTGCCT CAGCTTCCCA AGTAGCTGGGATTACAGGTA CCTGCCACAC ATGGATGATA AATATGATCA TATTTTCTTG TTCTTTTCCT CCTCAGTTGTCTTCCCTGAA GAAAGGAATG CCTTTTATAG ATGACAAACT CCCATTCTCA AGAACAAGGA TTTTTGACCAATTTAATTTA ATCAGATGTC TGGCTTTGAC CTAGAAACAC AGTCACGAAA CTTGGTGATT AGAGACCAATTCCCAAACAT GAGCATTTCT TAGGAAACAC AGTAAAGATC TGAGAGACCC AAGAGCAGAA GGGCGAGAAACCAAAAGCCA TCAGTTTGCA TAGGAAACAC CTTGTTTAGC CTAATCTTTT TATTTTTATT ACTCTATTAGTCACTACAAC TATTTTCTGA TTGCTATGGT GATAGATGGT TTAAAACAAG CCTTCATTAA GAATTGTCACACCATGGTCT CAGTCAAAAA CACCAACATT TTTATTGGTA TTGACAATTA TGGGAATATC CAATTCCAAGAAGACAAGGA GACCTCTGAA CTTTCTAAAT GAAGACTCCA ATCTTCCTGA TCTGATGGGA AGCAGCTTGGCAAGATTACC AACCACCACC ACAGAGAGTG GACTCTAAGC TAAGACTTAA AAGATAAGTA GAAATTATCCAGGTAAAGAT GTGTACAGAG AAGGAAGTAC ATCCAGGGGA AAAGAACAAT ACGTGCAAAA GTACGGAAATGGTAAAAAGT AATACTACAT AGTCAAAGCC AAGCAGAGTT CAGAAGGGAT CTGGTGGTGA AAAATACGGCTAGAGAAAGC AGCAAGGATT GGCTTCTAAA ACCTATGTAG TATCTTGGAC CTTACCCTAA ATGTAATGAGAAGCTTCTAA AGAATCTTTC ATTTATTCAT TCATTGAACA AATATTTTGA GGCTTTCTGT GAAGAACATCATTCTAAGTA GTAAAGATAC AGCAGTGAAT AGGACACATA AAATCCTAGA TCTCACAGAA TTGACATTCCAGAGAGGGAA AGGTAGACAA TAAATACATA AACAAATCAT TTAACAAGAT GATTTCAGAC AATGGTACGTACTGTGAAAA AAATGAAACA AGGTAATGGA CAGCGAAAAG GCACTGGAAG GAAGCCTGCT TACCTTTGCATGGTTAGAAA AGATCTCTCT AAGAAAGAGA CCACATGTGA GCTGCGACCT GAAGGATACC GAGAAGCTAGGTGTGCAAAG ATGTGGGGAC AGAACTTTTG GACTGAATAG CAAATACAAA TGCCCTTGGG TGCAAGCTTTGCCTGTTCAA GGACCAAAAA GAAGGCCAGT GTGCCTGCAG CATACTAAGC ACAGAGGAAA ACACTGTTATATGCTGAGAT TGGAATTATA AGTAGAGCCA GATAATATAG TCTCTTATAG GTCATAATAA GGCAACCAGATTTTATTCCA AGAGGATTTA AAAATCACTG GAGGTTTTGC ACTAGGGTGA GAGGTGTGAT TTGTATTTTTAAAAGATAAT TCTGGAGAAT TAACTATAAT GAGGTAGGAG TAAACTAAGT TAGGGGCTAT TTCAGTGGCTCAGACAAGAG ATAATGGTAG CTTAGACTAG GATAGTAGTC GTAGAAATAA ATAAAAGTGG CACTCTACTTTGGGGGTAGA GTCTATAATA GGTTTGGTTT ATGGATCATA TATGAGAGTA AAAAAAAGAA AATAAATTAATAATGGTTCC TAGGTTTGTA CCTGAGCAAC TGAATAAATG GGTGCTGTGA ATTGAGATAA AGGAGATTGAGAATCACAGG CTTTGTTTTG CAAATTAATT TTGAGAGGCT TATTAGACAT CCCAGTGGAG ATTTCAGGTGAGTGGAGCCC ATTGAAAGGT AAGGGACAGG GTCAGGTGTG GTAGGTCAGG CCTGTGATCC CAGGACTTTGGAAGGCCAAG GCAGACAGAT CAGTTGAGCT CAGGAGTTTG AGACCAGCCT GGGCAACATG GGAAAACCCTGTCTCTACAA AATATGCAAA ATATTACCTG GGCATGGTGG CATATGACTG TGGTCCAAGC CACTTGGGGGGCTGAGATGG GAGGATCACT TGAGTACAGG AGGCGGAGGT TGCAGTGAGC CAAGATCTCG CCACTGCAAACCAGCTTAGG TGACAGAGTG AGAACCTGTC TCAATAAATA AATAAGAAAC GTAAGGGAAA AGGAAATTAATCTGATCATT GGCAAATGCA TAGTATTTAA AGCCAGGGGA GTAGATGAGA TACTCAAAGT AGGTGAAGATAAGGAGGCAA TGAAGGCCTA GGACTCTGGT GTACATTTAG ATGGTTATAA GAGGAATAGA AACTGGCAAAATAAGTAACA CTGAGCACCC AATGAGGTGG AGAGGAAAGC CAGGAGATGA AGCATCATAG AAGGCAAGAGAAGAAGGGTG TCAAAGAGGC GAGGCAGTCA TCAACTTCTG GGCAGTCAAA TAATATAAGG ACAGAAAAGTGACCATTGGA TTTGGAAATA TGATGAGCAC TTTGAGTGGA GTGTTGAGAC AGAAGACCAA TTAGAGTAGATTGAGGAGAT AACGAGAAAT GAGAAAATGT AACCTGCAAG CACAGACAAT TCTTGAGAGA CTTTTCTGTGAAAGGAAACA GACACAGAGT CTTAGCATGT CTTGTCTTTC TATGGGAAAT GTAAATAGTT TGAGATCAGGGATAGTATTT TATTCTGCTT TTTGTACCTC TACATTACCT AGCATAGAGC TAGCTAATGT GCACTTAAGTATGTTCTCAA TTCTTATCGC CTGAATGACT GGATGGGTGA AAGAATGGAT GGATGGATGG ATGGATGGATGGAAGGATGG ATGGATGGAT GGAAGACTTC TGATTTGCCA AGAAGAGGAT ACTGGTAGCA GAAATAAAAACAGCACTGGA GAAAGAAGAG TTTAGATTTT TATTCTTTGG TGTCAGTTAG ACAGGAAAGT AAGACATTAGAAGAGTCCTT AGATAATTTA TGTAATTGTT CACTTAGGAT TTTTAAATGT GATCACTGAT ATTGGACATGTTCCTAGTGA AGCATTTTTG GTGTTTCACT GGTTGAAGTT AATAACTGTA AAATTATTTC CCGTTCAGGACAGAAAAACA GAAAACTTGA AGCTCCTATT AGAAAGTTCA AGATTCTCTG GGGTTCTTAG GATTTACTGTTCCCAAAACT CTGTCAAGAA CAAGAAAATG ACCTGTATAC TTAACTGGTC TAGGCAACAG TGGAAAGACAATTCTCAGAG AAGATTTGTT TTAAGAAGAC ACTTTCCATA GGAATCAAAC AATAGCTTTC AGTGACTAACATGGTAAGAC ACAGGGTGTT AGCTCTTTCC TTCCAACCTC ATGGCTGTTG TACCTTACCT TTCGACCCCGTGTTCCTGAA ATTGTTAAAT TCATAAACTT ACCAAGGACT AACCAGCCTC TGGGGAATTG CTGTATACTTAGCAAACTTA CAATGGACAT ATTTATAAGC CATAATGATA ACTGACTAAT AGGAAATACC CTCAACTGAAAATGAGAGAT CATCATTTGC AAATGAGTTC CCTTGCCCAG GCAACTACTG GGGAAAATGT CATGCAAGCAAAATTAATCT TTGAAATCCT CCTTTTCCAT TTTTTGTGTC TTCCTTTTCC ATAGGCACCA GAAATATCATGGTGCCTGGA TCTCATCTCT ACAGAAAAAA AAAGTGATTT GATAAACTGA TTTATATTGT GTCCAAATGTGATTGTATTT TCAAAGATAA CCTAAGGGGA GAATGCTGTC TGGCCCAACA GCAGGCTCTC GACTTCATTTCAGACACTGT GGCCAATGGC TGGGAAACAG GTATGAACAG TAGGTTTCTG AGTCCCCTGG AATTATTCCATTTATGTAGC CACCTCCATG ACAGGAAGCC TCCCTACTCT TACTTCCCAG TTTGTTCATT CATGGCACCAGGTTGCAGAT TAAAATTTGC TCAGTGACCT TTTATCTAAT AATGTGTTAC CTTCTTCTCT TAAAAAGTACAAGGGACAAA TGCTCATGGT ATACTTTTAG GAGATTGTGG CTCTCTATTA ACAGTATTTA TTCAACAAACATTTATTGAG CATTTATATG TGCATCATGC TAGGGACTGG AACCTAGTAA GTGTAGCACA TATTATTTCATTTAATCCTC ACAACAAACC CATGAGGTTG GTTTTATGAT CCCAATTTTT CAGAAGAAGA AACTGATATTCAGAACCAGT TAACTAACTG GTTCAAGGTC ATGCAATTTC TAAGATACAG AACCAAGAGT CAAAGACATGATTTTAAACC AAAGCTTTTT CTGCTACTCC ACATTGCTTC CCTAGGTGAG ATCTGAGGCA TTCCGCGAAAAGAGAAGGGT CATAAAGCCA AGGGAAGACA AGCTTAGGAA AAAAAAGGGA AATGTCCTAA ATAAACAGCTTTCCTATTTA CCAGAAACCA CTAGTTTAAA AATATAATGG GAAAAATCCT ATTCACTTTA ACAATGTTAAAAAAAAAAAA GATAGAAGAA ACATAGGGAT AAACTTAACA CATTTGTAGG ATATGTAAAG AAACTAAAAGATGTTAATAA TGGCCTAAAG AAAAAAAAAC TTACATGTAT GGGGAGATAG ACCATCTTAC TGGATTCTAATATTTAATAG TCTAGGTGTT CCATTTCTCA CCAAATTAAT GTATACATTT AATACAATGT CAAACGAAATATCTTAGGAA TTGCTTACAA ATTGTCAGAT AATTACAAAG TTTACCTGGG AAATATAAGC ATATATGAAGAGTGAATGGG ACCCCACCAC TCCCCCCAAA ACAAAAAAGG TCTGAAAAGG ACAGAAATCA AGGAGAGTCTTGCCTGCCAG ATACAAAATT CTATTATAAA GGTGTATTGA TGAAAACAAT TTAATACTAG TGTAGCAATAGGCAGCAAAG CAATGAAACA GCATAAAAAG ACCAGAACTA TACCTAATTA TGATGAAGAT TTAAGGTATGATAAACATGA CATAATTCAA ATCAGCAGAA ATTGGCATAG ATAGGGTTAA GACAAATAGC TAATCATTAGAGGGGAGGAA GGAAAGGAGG GAGGATAAAA TTAGGTTCCT GCCTTCATCT TACATTAAAA TAAATTCCAGATGTATTACA TTTAAATTTT TTTAAAAAAA GAAACCACAA AATACTTGAA GAAAATATAA GTTGTTATATAGTCTTTTGA TGGGAATTTT TTTTTTTTTC AGAGACAGGG TCTTGCTCTG TCACCTAGCC TAGAGTGCAATGGCATGATC ATGGCTCACT GCAGCCTTGA ACTCCTGGGC TCAAGTGATC CTCCCAGCTC AGCCCCCCAGGTAGCAGGAA CTACAGGCAT GCGACACCCC ATCCAACTTA TTTTTTATTT TTTGTAGAGA CAGGGGTCTTGCTTTGTTTC CCAGGCTTAT CTCGAACTTC TGCCTTCAAG CACCTCAGCC TCCCAAAGAG CTGGGCTGATGGGACATTTT TTAACATAGT GCCACATTAC CATAAATGAA AAGCTTGTAA AATACTAATT TTTAAAACTAATATATATCA GAAATTTTTA TAAACAAAGT TAAAAAGCAA ACACAAAAAA TTTGTAGCAC TTATGACAAATATATGTATA TATATGAATA CAAAAAGAGC CTTTACAAAA CAGTAAGAAA ACAATGAATA CTCCCAATGGAGTATTCAAA ACTAAACTGC TAAAAGCAAT TCAAAACAAA AAACATAAACTATGCATATA TGTATGTGAAAAAGTTTAAC CTTATCAAAG AAGTAAACTC TCAAAGAAAT AAACATCAAA TAAGGAAATA GCCTTTTCCCACAAATAACC AAAATCTGTA AGAATACTGA GCTGCGAATG TTTCAGAAAA AAAAAAAAAT CATACACCTAGTTCGGCATG TAATTAATAT AGATCAGAAC ACTTTAAAAA TATTTATAGG CCAGGCACGG TGGCTCATGCCTATAATCCC AGCACTTTGG GAGGCCAAGG CGGGTGGATC ACCTGAAGTC AGGAGTTTGA GACCATCCTGACCAACATGG TGAAACCCTG TCTCTACTAA AAATACAAAA ACTAGCCAGG CATGTTGGCG TATGCTGGTAATCCTGGCTA CTCGGGAGGC TGAGGCAGGA GAATTGCTTG AACCCAGGAG GTGGAGGTTG CAGTGAGCTGACATTGTGCC ACTGTACTCC AGCCTGGGCA ACAAGAGCAA AACTCTGTCT CAAAAAATAA TAATAAATAAAAATAAAATA TTTATATACT CTGACCCATC AATTTGTCCA GCATAATTAG GCATGTGTAC AAGGGTTTACACACAAGAAT GCCTATTGCA ATATTGCTTT TAATGCTAAA AAAAATTGGG GAAAATGCTT TAAAAATATAGATTAAGACT GTACATTGTG GTACAGTCAT ATAATCAATA GTATACAGCT ATTATTTATT TTCAGCCACTGTCCAAAATA TAGCCTGGCC TAACAACATT CTGTTAGGAT ACGCAAGCAC CGTGAGGAGA TCAGCTATAAAGTATCAGTG TTTCACACCA CTGCTCCTTT GCTAATAACC TTCAATGGCT TTTAAAGAAG TAAAAAACAAAGGCAAAATT CCTTAGTCAG CCCTTAAGAC TCTCTGTTAC TTAGCTCAAA CTACCCTTTT CAACAACACTGCCCTAACCA GGATGAGTTT TTTGCCCCCC TGGAGTACAT TCAGCCTTTC CTTATCAAAC CTTCCTTTAAATAAGTATCT TCTCCAGGAC CACTTCACTT TCTTCCCCAA TTTAGCATTT TCTATATCTC CAGGCCTACCTCTATAAAGC CTGTCCTAAC CACTCAAACC CTAGCTTTTT CTCTGAACTG CTAGAAATAT TTTTCTCTCATTGGCCATTT AGGTAAAAAG GTTTTTACTG TTTATTACCT ACTCAATAAA AATTTTCTTT TTTTGAGACAAGGTCTTACT CTGTCGCCTA GAATGGGGGG AAGTGGTGTG ATCACAACTC ACTGCAGCTT CTACCTCCCAGCTCAACAGT CCTCCCACCT CAGCCTAGTG AGTAGCTGTG ACTACAGGCA TGTGCCACCA TACCCCACTACTTTTCATTT TTTATTTTTT GTGAGATGGA ATCTCACTAT GTTACCCAGG CTGGTCTGCT GATCTCAATTGATCCTCCCA CTGTGGCCTC CCAAAATGCT GGGATTACAG GCATGAGCCA CAATATCTGG CCCCAGTAAGCTTTTAAGGC CATTAACATG AGGAACAGTG TTCTTTACAC TATTTTATCA GCTAGGGCTT TGCATGGAGTAGGAGTTTAG TAAATGCGGT TGATGGGTTA ATCAATGTGT GAAAATATTC AGAGCCACCA AAAACAGATATTATGTCTAT TCTCATCAAC AATCAAAATT GAGTAAACAG CCATTTTCTA ATACAGGAAA CCACAAAACATTGAATGGTG ACATTAAAAA ATTCCCCCAG CAGGAGCCAA CCAATTTTTT CATCCTGATC CAAGTTAGCAAACTGCAAAA GATAGGAAGC ACTAATGAGT GGAAATTTGA GTAGAAGCAT TTCTTATGAA GGCTGTCTTGACTGGATCAC ATTTTTATTG CTGTTGGAGG TGCCAAATGT GTGTGTTTAT GCTAATCCTC CACCTCAGGCAACACACAGT CAAGGATCCT ACCAAGTGTT ACCGTCAAGT GTCTGTTGGC AGCTCAAGGC CCCAGCGTTGTTCCCTTGCA CTAGGGAAAA GACATATTCC AGGTACAAGT ACTCCCACTT TGATGCTACA GAGGAGTTGCTGAACTTTGT GTCATTAATC TCTCTTCGTT AGATCCCAAC CCTGTTTAAA TCCCACTATC TGCCTACTCTGGGTCTTCAC CAATTTACTA GATCATAGTT GGAGAAAATC TACAAAGCCT TGCTCCCTTT AGATTTAAACAGGTCTCCGT TTAAATTTAG AATTGCTAAC TTCAAGCGGG CCCTTATGCG ACAGTATGCC TGTCAGTCATACTACATTTC CTCAATTCCA TTCATGTGAC TGCTCCATAC CCTTCCCTCT CTCTTCATAC TACTATTATCTCTTCCCCCC TCCCTCATTT TTAACTGATG ATCTTGTTTC CTATTTCTCT GAGAAAATAG AAGCCATCAAAAGAGAGTTT CCACAAACTC CTACTGCCTT ATCTAGCCCT GTACCATATA CTTTGCATTT CCTCTCATTACCATGGATGT ACTGCCTATC TGTGCTTCTA TCTAAGGCTA ACCCTTCCAC TTCAGTTTTG AATATTATCAGCTCTTACCA ACTCAAGGCC ATTGCTCTAG CAATTCTCTC ATTCTCTCTC ATTTTCTTCC ATCAAGTTTTCCTTTTCTTC AATTAACAGA GTAGCTCCTA AAGGGAAAAA AAAGTCTTCT TTTTCAATGC TCATCATCACTGGCCATCAG AGAAATGCAA ATCAAAACCA CAATGAGATA TCATCTCACA CCAGTTAGAA TGGCAATCATTAAAAAGTCA GGAAACAACA GGTGCTGGAG AGGATGTGGA GAAATAGGAA CACTTTTACA CTGTTGGTGGGACTGTAAAC TAGTTCAACC ATTGTGGAAG ACAGTGTGGC GATTCCTCAG GGATCTAGAA TTAGAAATACCATTTGACCC AGCCATCCCA TTACTGGGTA TATACCCAAA GGATTATAAA CAATGCTGCT ATAAAGACACATGCACACGT ATGTTTATTG TGGCACTACT CACAATAGCA AAGACTTGGA ACCAACCCAA ACGTCCAACAATGATAGACT GGATTAAGAA AATGTGGCAC ATATACACCA TGGAATACTA TGCAGCCATA AAAAATGATGAGTTCATGTC CTTTGTAGGG ACATGGAGGA AGCTGGAAAC CATCACTCTC AGCAAACTAT CACAAGGACAAAAAACCAAA CACTGCATGT TCTCACTCAT AGGTGGGAAT TGAACAATGA GAACACTTGG ACACAGGAAGGGGAACATCA CCCACTGGGG CCTGTTGTGG GATGAGGGGA GTGGGGAGGG ATAGCATTAG GAGATATACCTAATGTTAAA TGATGAGTTA ATGGGTGCAG CACACCAACA TAGCACATGT ATACATATGT AACAAACCTGCACGTTGTGC ACATGTACCC TAAAACTTAA AGTATAATAA AAAAATATAT ATATATATAT AAAACAACTAAAAATAAATC TTCTTTTTCT GCAGGATCAG TCCATCACCA CACACACAGG CTGTGTTTTA TGTTGTTCCCCAGCTTAAGA GATCGTTCTC CAGATCCCAC TGCTCCTTCC AGTTGTCACC TCAGTTCTCC ACTTCTTTTTGCTGATAAAC TACTCTAACT AGTTACATAT GATTTCTGTC CCCAGGTCCC CTCCCTCAGT TGTTTTGAACATAATCATTT ATATCATTTA TCATTTTCAC TCTAATTGCA CAACCAAAAA CTCCCTTTTT TTTTAGATGGAGTCTCACTC TGTCACCTAG GCTGGAGTGC AGTGGCATGA TCTCGGCTCA CTCCAACCTC CGCCTCACGGGTTCAAGTGA TCCCCCTGCC TTAGCCTCCT GAATAGCTGG GATTATACAC ATGCACCACC ACACCTGGCTAATTGCTTTG TTTTTGTTTG TGTGTGTGTG TGTTTTTTTT TTTTTTTGGA CAGAGTCTCA CTCTGTTGCCCAGGCTAGAC TGCAGTGGCA TGATCTCAGC TCACTGCAAC CTCCACCTCC TGGGTTCAAG CGATTCTCCTGCCTCAGCCT CCCGAGTAGC TGGGACTACA GGCATGCACC ACCATGCCAG GCTAATTTTT TTGTATTTTCAGTAGAGACC AGGTTTCACC ATGTTGGTCA GGCTGGTCTT GAACTCCTGA CCTCAAATGA TCTGCGCACCTGGACCTCCC AAAGTGCTGG GATTACAGAC TTGAGCTACT GCGCCGGGCT ATTTTGTGTT TTTAGTAAAGACGGGGTTTC ACCATGTTGT CCAGGCTGGT CTCAAACTCC TGACCTCAAG TGATCCGCTC GCCTCAGGCCCTCAAAGTGC TGGGATTACA GGAGTGAGCC ACCATGCCTG GCCATAAAAC TGCCCTTTGT TAATATGACTGTTGGCCTGC ACATTGTCAA ATCCAGTGGC ATTCATCTTA CTCGGCCAAC CTACGGCATT TGACACTGTCTGTCTTTCCT TCTGTTCCTC TATCTGTTTC CAGTATACTG GCCTGGCTTT CTTTTTACCT CTTTTATATGCTCTTCCAGT CTCAGGCTCC TTTGGGGATT TGAAGGTATG TTGCATTTTG CTATTCAATG AATAATGACAAGTAATGATC ACTTAAGACA TTAAGTGGTC AGTTCCTTTA CTAGGATAAA AATAATTTTC TTCCCAACATGGGGCATATT CCATTTCCAG TCTGACTGTT CTGTGTAATC TTTGTATTCC TTGGCAGCCC CTTTTATATCAGTTCATCTA CTGTGCAGGA AATTGGACAA ACATTTGCAC TGGTATAACC AAATACAGTT GAACTTTTGGCTTGACTCTT AGCTGAACTC ACCAAAAATA ATTTCTGTAA GAGACTGAGA CGTCTACGAG TAGGTTTTTCAGAATTAGTA AACATAAATC AAGGATACAC AGGTAGATTT GAATTTCAGA TAAACAACAA ATACTTTTTTAGTATGTCTA CTGAAATATT TGTATCTTAT CTGGCAATTC TACCTGGTAC AGAACTAATC CATTCTCTTGAAAGATCTTG ACTCTGTAAT AAGTTCTTTG GTGATGGAAG GGAGGTATTT CTGTAATTAG AGTCACTGTCTTCCTCCCAG TTTTTTATCC TGGCCCAGAT CTGCAATGAA CACACGACAG AATCCAGGGG GGATGAAGATGGGTGCTTTG CAGGAAAAAA AAATTAAAAA CATCTGAAAA AGCTTTTGTA CTAAAAGAAT GTGATCTAAAAAAGAAAGCA GGAGAACTTT CTGTCTGCAC TTTACATCAG AACAACCTTG GCGTCTAGAA GCTGTGCCCTGTGGGAAGTG GTGGTGCTTG GTAAGAGATG CCAGGACCAG TGGTACCCAC TGGGAGCACT GCCAATACCCAGCAAGGAGC ATGGGTGCAC AGTAAGGCAT TGCACTGTGA TTCAGCATAA AATAACAATA AGGGAACGTCACGGAGAAAA GGCCAGACTT CCTTTGTTTA GAATGTGGGA AATGTCTTCT GAAAAATGGT AGTAAAAAAGCATGCTTGGA TGGTCCACTC CAGGCAAAAC TGACTAATCG GGGGTCAGGG ATACAACCCC TGCATCATATGTTTGTTTCT GTTGGGCTGA CATGAGGTTC ACTGTGACCA CTGTGGTTTA ACCCCATAGT CTCCTGGAAATACAGCCAGG TCAAGAGAGC TCCACATAAA ACATAATCAAAAAAATAAAC TCAAGTTTCC ACTGATCAGCTTTTCACAAC TCTTATCCTT TCACTAACTT TGGAGCAAGA TTTGAGAATT GGATGGCTAT TTGAGGGCTATTTCTGCGCT TTAGTTCAAT GTTTTGTTCT TTCTTTATTA GAGAACTATG GTTTTTTATT ATATTTACACTTTAAGTTCT AGGGTACATG TGCACAACGT GCAGATTTGT TACACAGGTA TAAATGTGCC ATGTTGGTTTGCTGCACCCA TCAACTCGTC ATTTACATTA GGTATTTCTC CTAATGCTAT CCCTCCCCCA GTCCCCCACCCCCCGACAGG CCCTGGTGTG TGATGTTCCC CTTCCTGTGT CCAAGTGTTC TGTTTATGTG ATAGATTACGTTTATTGATT TGTGTATGTT GAACCAGCCT TGCATCACAG TCACTTGCTT ACAAGAAACA AACACTTCACAGATGGATCA TTATGTGTGA TAAGTGAAAT CCAAGGATTT ATGCTCAGAG GTGGGCTTAA CAGGTAGGAAGAGCAGTATT TTCCTTCAAC CATGAGTGTA TGCAGGTTTT TCTTTTCTTT TTTGAGATGG AGTCTCACTCTTTTACCCAG GCTGGCGCGC AGTGGTGCGA TCTTGGCTCA CTGTAACCTC TGCCACCTGG GTTCAAGCAATTCTCCTGCC TCAGCCTCCC AAGTGGCTGG GATTACAGGC ACCTGCCACT GTCTCCGGCT AATTTTTGTCTTTTTAGTAG AGATGGGGTT TCACCATCTT GGCCAGCCTT GTCTTGAACT CCTGACCTCA TGAATCATCCTTCTCAGCCT CCCAAAGTGC TGGGATTACA GGCATGAGCC ACTGCGCCCA GCCCACAGGT TTTTCAAAGACTAAACTTAA AAAAAAAAAA AAAATTTCCC AATGAAATAT AAAACTAAAG TGCTAAACTG TGATAGACTGTTTTACAAGA ATGCCAGTTT TCACAAGTGT CTATAGAACA TGTAATTTAG ATAGGTAAGA TGAAATTTTGATAATATTTG ATGGCAAATT TAAACAGGTA TACAACAAAA ATAAAATTCT AAGCCCCTCA ACCAACTGAATGGACTCCTT CTCTCAGCCA AAGGAATACC AAAGTAAACC TGAAAAACTA GTTTTGGCCA GGATTGGGGGTAGGTGGGGG AAGCCCAACA TGACTCATTA TTCTCTCCTC CCTTTGGAAT TCAGGCACAA CTGAATGTCAGCATTGACAC TAAAACACAG ATCTTAAGAC TGACAAGCCA GACTCTTTGT AGCAGAGAGC CAGGCCCTGGAAGAAATCAA GTTATTTTAT CCCAAAAAAT ATTTCTTTGA TATATTTTCA AATGGCCCTG CAAAGCTGTCTCTTGTGGGG AAAATTGACA TGCTGTACAG AATTTCCTTC TCTTTCCAAG TTTTTACTGA TCCAGGAGAGATTTAACTAA GAGGCTAGCA TGTTTTTTTT TTTTTTTTTT TGAGGCGGAG TCTTGCTCTG TTGCCCAGGCTGGAGTGCAG TGGCGTGATC TCAGCTCACT GCAACCTTCG CCTCCCGGGT TCAAGCGATT CTCCTGCCTCAGCTTCCCGA GTAGCTGGGA TTACAGATCC ATGCCACTAT GCCCAGCTAA TTTTTGTATT TTTTGTAGAGACAGGGTTTC ACCATGTTGG CCAGGCTAGT ATTGAACTCC TGACCTCGTG ATCCGCCCAC CTCGGCCTCCCAAAGTGCTG GCATTACAGG CGTGAGCCAC CGTGCCCAGC ACAAGACATT TACCGTCTAT TCTCTCTGAAGCTACTATCT AGAGGCTTCA TCAACATAAT AAGACCCTTG GTCTCCACAA CTCCTTATCT TATCCTATTAGTTTCTACTG ATTCCAGGTC TTTAGATAAT AACAACTCTT TCAACCAATT GCCAATCAGA AAGTCTTTGAATCCACCTAT GACTTAAAAG CCCCACTCCT TCAAGTTATC CCGCCTTTCT GGACTGAACC AATGTACACCTTATATGTGT TGATGGATAT CTGCCTGTAA CTTCCATTCC CCTAAAATGT ATAACATCAA GCTGTAACCCAACCACCTTG GGCACATGTT TTCAGGAACT CATGAGACTG TGTTGCAGAC CTTGGTCACT CATATTTGGCTCACAGTAAA CTTCTTTAAA TATTGTATAG AGTTTGGCTT TTTTCATTGA CACAGGAAAA ATAAAGAATTGGAAGGTCTT TCATCAGTCA CTGAGCCAGC TTCATATCTG ACTGAGGTCA TACAGTTCAG TGATTTGTAGCTTTGCTACT TAGATTGCTA TCCATTATCT AGAAGCATCA GGATCACGTG GGACCTATTG GAAATGCAGACTTTCCTCCT AGAACCCAGG ACCTTGGAAT ATTCTTGGCA CATAGTAGGT GCTCAATACA TATTGAACTCCTAGGTGCAA TTCATTAATT CATGAATTAA TGAATTAACA CGCTCTCAAA GTTTAGTGCT TTTTCACAGACTAGTCTTTC TGCCTCTTAA GCACTCAGCT CACCACGCTT CCAGTCTCAC TCCCCTATTA GTCTGATTAAAATCTGCTTA CATGTGAGTC TGAGATCAAG TGTTATCTCT TCTGAGAAGT CTTCCCTCAC TGGCCCAAAGGAATTTCTCC TCTATTTTAG CACTGTCCCA GTTGACTTGT CATTATTCTA GTCTTTTTCA TATTAGTTGTTTTTCATATA TATGTTATTA AGGAAACTAG TCATTTCCCC TAATAGAACA AAATTGCTGG CCTTTGGGGTTGGCAATGGA GGGGAGGCTC TTCTTGAAAA GGGGGAAGAG TGTTCTCCTA ATATTTTTCT TACGAGATTTATGTTGCTCA TCTTTAGCCT TTAGTCCCCC ATTGCCTGCC TACAGTTGGC AGAGACCATC TGTTCTCTCACTGTCAGGAA CTGTCTCAAT TCTTGAAGTT CAGAGTCAAA AAAGAAGCAA GTTTTCCTAG CTCTTTGATCAACTTTCAAA GTTTTACTTC CATTTGAAAA TTTACTAAGT CACCAGGAGA TGGTTTATAC TGAGAAATATCCACTCATAC TCTTCCTCTT CAACTTTCTT CCATATACAC CCTATTACAG GGATATAGTC TTACTCTATAGCTCAAAAGG ATGACCCTAT CAGAAACCTG CACAGTATGT AAAACATTCT CACCAGAGGT TCACTTGTGTATTTCCACCC TAGAATGGAA GCTCTACAAA AGCACAGAAT GTATCATTTT AACTTTAGAT TCTATTTTCACACCCAGTGC TTGACACATG ATTTGAAGTT AATATTTATT TATCAAGTGA TTGTTTTAAA ATCATGACTCACTCAACAAA GTTATAAGAA TAAGAATAGT GTTACAGAAT TGGTATACAC AAGCTGACCA TAATCAACACACCTATTATC ATTTTTTTGC GACAGGTTCT CGCTGTCTCA CCCTGGCTGG AGTGGAGTGG CATGACCACGGTTCACTGCA GGTTTGAACT TCCAGGCTCA AGCAATCCTC CCACCTCAGC CTCCCACATA GCTGAGCCCACAGGTGTGTG CCACCATGTC CAGCTAACTT TTTAATTCTT TGTAGAGACA GGGTCACCCT ATGTTGCCCAAGCTGGTCTT GAACTCCTTG GCTAGAGAGA TCCTCCCTCC AAGGTCCCCC AAAATGCTGG GATCTCAGGCAAGAGCCACC ATGCCTGGCC ATAATCAATA CACTTTTAAG AATGCTAGAA TGTTATATCA GATGCATACTTCAGCACTAT CTCAAGCAAA CTGGGGTGTG GGTTATTCTA CATATAAAGT TCAGCAGTGT TGTTCCACAGTCCCAAACTC CAACTGAGGT CAAATGTAGG GTGCAGCAAG GTCACTGGGG CTGTCATCAA GGGCCTCTCCTTGCACTCTT GCCAACCCTG TTTCTTGATT GTCTCTACCA CCATGAGTCA CCAGCAATCT CCCACAGTCACTTGTTTAAA AGTTCACAAG TATTGTGTGA ATTGCAGGCA ACCCCTTGAC TCCCTGATTG CCTGGTCTTCTTCCTTGGGC TCTACCATTT TTTTTCCCCA GCACTCTTTC TGCTGCTCTA AATTTTAATT CATGCAATTCCATATGTGTT TCTCTATCAT TCTTCATCTC TTTCCTCTCC CTTCCATCCA ATTTTGTTTG TCTGTTTGCTTGCTTGCTTG CTTTAATACA TTTCTCTTTT TCTGAGAAGG CTTGAGTCCA AAACTCTCAG TTACCTGTTGTTCTGTTTCC CGTTAGTTAA TCTCCGAACC TTCATAAATT AAATCTGACA AAGTGCCCTG ACTAACAAAGGAAATGCACA AGTCACAGTA AAAGGGGCAC ACACAGAACA CAAATAGACC CAGGGTCTTT TCTGTTCATCACTCAGCTTT TTATAGGAGA TCCAGGAGAA ATGAAGTGGA AAGGGAAGTG TGTTGAGTTA CTATACAACACAAGAGTAAA CTTTCTTATA AGTGGTAATT TTTTTTTACA GGAATAATTG AAAATGGAAA TTACCTTCTCTACTCATAGT AAGTACTCAG TGCGTTCTTG ATGGGATGAG AATGTGTTTG AGCTTTAGTG TAAGGCAGAATTCTGTTTAG TCTGCCAGTA TTGGAGAAAA ATAAAACACA AAGGGACTGA CATGTAGGAA GTGGCACCTGGGAGGGTCTC AATTCTTCCT ATTACAAAAA TGCCCCAGAG AAATAAAAAG CTTGTGTACA TGTTGAGATGGGAGAGTTCT CTGGCCCCCC TCGCAGGATG TGTGACAGTG GGGTGGCTCT CTGCTGCGCC ACCATGAGCTCAAACCCCTC ATAGGAGGGG GAGCACACAG GCAGGAAGGT GCAGGAGCTG GGCGAGCTCT TTGGGCTCTGGCCCCGTGGT ACTGTCTAGA GGTGGGTGCC TGCAACTCCT GAAAGCCCAA GTGGGCATGT GTTACAGTGCACTCTTTCAG CTTTGCTGTC TGCAGCTTAA GCGTTAACCA GCTCAGTTTC TTCTTGGTAC CCAGGTCCTTGTCTGGCATC CAGGAAGAAT CAGGTTACAC ATGGACTTGA AGGATGAATG TGGGAGTTTT ATGGAGTGGTGGAGGTGGCT CTCAGTGGGA TGGATGGGGA GCTGGAAGGG GGATGGAGTG GGAAGATGAT ATTCTCCTGGAGTTTGGCTG TCCAGCAGCC GATCTCCTCT CCAGTCGTCC CCAGCCTCTC GACGTTCAGA TGCTCCTCTTCTCTCCTTCT CTGCCATGCT GTTCTGCCGT TCATCTGCCT GTCTCTCTCT GGAGCCTGGA ATTTGGGGTTTATATGGTAC ACAATAAGGG GCATGGCAGG CCAAAAGGGA ACTTTTTAGG TGCAAAAAAC AGGAATGCCTCTTCTCACTT AGGGCTATAG ATTTTCAGGC TTGAAGGTGG GGCCTTTACC AGCGAACCTG TATTTCCCTGTCTCCTGTGC ATATCAATGT AATCAAATAC TGGGCTGATC CAGGATGTTT CTTTAGACCA ATTATGGGTAAAATAATTTA CATTCAGGTT TTTATATTTG CTTTTGTCAT TTCTTTTTAA GCAATCATGT AAAATATCTATACGACAGTA ATAGATGATA GCGAACCTAA TTAAAATTAC CAGAAACTTA AGAATCTCTA ATGATTTCAACTGTAACTAA GGTTATTTCT CTTTATGTTG AACAATGTTG GGAGATAAGA CACAAGAGTT TCTGAAGTATTTCAGAAACA CAAAGAGGGA GGTTATATAA ATAATATTTT TTTCCTACTT TGGGAAAATG AAAGCTAGTCACAAAGTTAA ACGAGTGGTT ATTTTAATAT TTAAAATACA GGCTTGGATG TATTTCCTGT TAAAGAAAATAAAATGCAGA ATATTCAAAA CGTCTGACCA CCCTTCTAAG AAAATGCATC TCTGAGGTAT TTTTCCTTAGAAGTTATTGT AAAAATCCTG GAGAAGCTTG AACACAGCAA AGCAAACAGG ATGCAGAGTT TAATCTGTGGAAAGCTTAGG GAAGAAAAGC AAATCATTAA AAATAGGTCT TCCTCTGAAG ATTTTTAAAA CGCAAAGAGGGTGGAATAGC AATGATAATA AAAAAGCTGG CATAGAGAGT GGCACAATTT GCTGTGCCAC TGAGCTGACTGGATGTGTTC TGAATTTCTA GGCATTAGTG TACCTTTCCA CACGCATTCT CCCTTTAAAA AAAATGCCCACACACTGAAT ACTTTTTTCA TGCAATTTAA AATAAGCGCA CCATCTAGTT TACAGAAATT CACTAGAAGTTATTTATCCT AAAATAGCAG AGATCTAGAA GAATTTTGAG CTCTAGGACA TTTTAGACAC ACAGAAAGAAGAATCTGGAC AAGTCTTGAC CAGACATGAC AGAATAGAAA TTTCTTTTCC TATTTATCTC TTTGAATAAAATTTTCAGGA TCTTACAGTG GACAAGTTTG TTATCTACAC ATTGTGAAGC ACATTGATTT CTCCTCTGTAGCCTTAGGAA GATCTGAGAG GTGACTGAGC TGATTGAATG ATCCGTGACC GCTCTACTGG GACCAGTAGTAGAACTTTAC TGGTGGAGAC CTGCTGGAGG TTTGAGAGCA GACTTTGAAA ATTACTAGAG CTACACAGATACTGTGTGGC TAACTGGATT ATGTTTAGAG GCTTTCAGAA CTATGCTGCT GCTGCTGCAG TGTAGCCAGGACGCACAGAG AACATCTAAG GCTCTTGAAT GGGGCGATAG CGACAGATTT CAGCAGCCAT CTGACTTCAGTGCTCATTTT GATGCTTTCC CTGCAGGGTG CAGTGTGCAG TGTGCAGTGT GCAGTGGTGG GAGGCTCACACAGGAATACT TGCTTCTGTA GCCCTAATTT CCGGTTCAAA CTCTGCATTC ACCTTGACAG ATTCTTTCCTTGGCCAAAAT TTAGTTAGGC TTCTGGGCTT TCTCTTATGC CCACCTGCAG ACTTTTTGGT AAAATCCAGTTTTAGTAAAG AGCTCTGCTA AGTCAGTTTA GCAAGAATCC CCACCTCAAA AGTCACTATC TCCCTCCCTGGTAGTGTCTG GCTTGTCTTC AGCGAGAATT CTATTAGGTT CTGTTAGATT AGAATCCTCC TTACCCTTGATGCTTCCTCT TAGTATTTTT TCATCCACTG ACTCCTTGAC CCACCTTGCT CCTCGGCTAT AAATTCCCACTTGCCCATAC TCTGCAGTTA AGACTATTTT CTCCCCACTA CTGCAAAATC CCATTGCCAT GGTCCCTATACTATCTCAAT GGTAATGAAT AAAGTCTGCC TTACCATGCT TTAACAAGTA ACATTGAACC ATTTTTTTCTTTAACAATCT GCTGCACAAT GAGATTACTA AAACTTTATT CCATTTTGCC ATGCTGGATG TCCTCAATGGAATGGCTCTT GTGAGCACCA AATCATTGTG AGAAGGAAAA CCCATCTCTT ACAGCCCCCT GTAACGTGATGTATGTTACA TGTGATGTAT GTTACATAGT TTTTTTTCAT GTTGATCACT TTTTGCCCAT TTTCCTATATCTTATCAGTT GGAAGACTGT GGAAGTTTGT AGTACTAAGC CACAAGATGA CTAAGAAGAG TTGAAAGGGCAAGTGGGGCT AAAAACAGAT TTTGTTTGAC TTACCCCACC ATTCCCCCTA TCATGGGGCT GAATCTGCCTGGAGGAAGGA GCATCTTTAT CTTTGTACTG TGAACCACAC AGTCTAGCAG CAGCACAGCC AAGGCACTTGGGGTTTCATG AGACTAAGTA CATGCAATTC TATTGTAAAG GCTTAAAATA TATACAACTG ACCCTTGAACAACATGAATT TGAATTGCAT GGTCAGTTAT ACGCAGATTT TCTTCCACCT CTGCCACCCC TGAGACAGTAAGATCAATCA ATCCTCTTCC TCCTACTCCT CAGTCTACTC AAAGATACTT GAAGTCTACT TGAAGATGACAAGCACAAAG ACATTTATGA TGATCCACTT CCACTTAGTG AATAGTAAAT ATGTTTTCTC TTCCTCCTAATTTTTTAACA CTTTCTTCTC TCTAGCTTAA TTTATTGTTA AGAATACAAT CTATAATACA TATGACATACAAAATATGTC TTAGTTGACT GTTTATGTTA TCTGTAAGGC TTCAGGTCAA GAGTATGCTA TTAGTGGTTAAGTTTTCGAG GAGTCAAAAG GTGTATGTGG ACTTTCAACT GCAGGGGGGT GGGCACCCCT GCCCCCATGTTGTTCAAGGG TCAACTTTAC TGCCAAAGGC AAGCCTTTAC ATCCACTTTT TCCATCCCAT CAGTAAATGGAAAAAGATAG CTACAGTATC CCTGCGTCAA ATCTTTTTTT TTGCAGATCA CAAATTGGCC ACTCACCTTGCTCTGTGAGG GGTAAAATGC CCCACTTTCT TTAGTAATAT TTAAGTTAGA TAATATTTAA GTTATAAAGTTGTTCTTTGT AATCGTTAAT TGTAATTTTT ACATAGTTTC TTTCAAACAG AAATAGCATT TTTGTTAGATAACCTCCCGT ATAGATGATG AAACTCCTTT TAAGGGCTAT CTGAATTTTA ATTCCTTGAA AAGGCAGAAATTGGATAGCT AGTAGTCATA AATGTACTGT GGCTTCCCCC AACCATCTGG GCTATATAGA AGCTGCATCCTTGGACTGCA GTAGAGGAGT CTTACAAAGC ACAGAGCAAC TTCTCTCCTG GGTTGCGCTA GTTATGATGGCAATTTTAAA TGTGTACTTT TACCCAAAGA AAATCCTTAT TATCAACAAT CACAATGCCA TCATAACCATGGTATAAAAA ATTCAAAATG TCCCAGCTGA AGTGGAGGCA AAGACTCAAG TTCATGGAGT CAGAGTTTCCTTGCTATTCC TCTTTTTCAA ATGACCATTT AGTAAGCACC TGAAGAAAAT ACTATGGACG GCATTGAAAAGTGAAGATAG GTTTAATCTT CTCGAAAATC TAATTCTCCA GATGAAACGC TGACACTTAT CCACCCCACAGACCCTATAG CAGATGTGTC ACTGGCCATC ACATTTGACA CAGAGAAGTC ATAACTCAGT CAGCACAGAGACATTTCCAT GAGTTTCTGA ACCATGGACA GAACGTCGTC TGTGGGACAT GAAAACTGGA ACTTAGAGGACAGGCACATC TGAGAAATGG GCAGTTTAAA GGCAGAACAT AGCACATATG TGACTGGGTT TTAGAAGCAAATTTACAAGA CGCACTCTTC TTCATCCTAA ATAATCTGCA ACCAAAGCTT CCAAAAAAGA CAATTTAGGAATGCAGAGGT GAGGAGTAGG GAGGGGAATG GGATGAGAGA GAGTGGAGAT TAATGGTGGG CAGAGCGAGGTTTAGAACTT AGTGGTTTCT TCAGGTTCTG AACTGAAATT TGTATACTGT AAAGGCACAA ACACCATTTTTAACAAAAGT GAGCAGGACT TCCTATCTGG TTCAGAAAAT AGGTGAATAA ATAGTACGAA TTATTAAAAATAATAATTTC CACTTATACA TAGGAAACTT GATAGGAACC ATGATAAATG CTTAACTCTT AATCTTCAAGGAACTCTGCT AGGGATATAA TATTATAAAT CTTGTTTTGC AGATGGAGAA ATTGAATTTT AACCCAAGTTATCATAACCC TTAAATGATT AAATGATACT GTTACATGAG AAAGCTGCGT ATCTGTTTCC TGGATTTGTAGCCATAATTT GTGTCTCAAG TCCCTTTTGC TGCCAGCTAT CTTGGGTAGG TGTGTTCCCT TTGGGCTGTTTGATACCCCC ACATTTATCT TTTTTTTTTC TCTTTTTTTG TTGAGAGAGT CTTTCCCTGT TGCCTAGGCTGGAGGGCAAT GGCGCGATCT CGGCTCACTG CAACCTCCGC CTCCTGGGTT CAAGTGCTTC TCACGATTCTCTTGTCCCAG CCTCTCTAAT AGCTCGGATT ACTGGCATGC ACCACCACGC CCACCTAATT TTGTATTTTTAGTAGACAAG GGGTTTCTCC ATGTTGGTCA GGGTGGTCTC AAACTCCTGA CCTCAGGTGA TCTGCCTGCCTTGGCCTCCC AAAGTGCTGG GATTACAGGT GTGAGCCACC ATGCCTGGCC CCAAATTTAT CTTTAATGCCCCAAATTATC TAGTTCCCAT GACTGGGCTT CTGCTTTGAT CCTTTCTGCA CTTGCTGGAC CCTCTCCCTGGGAAATGAGA TTGTGTCCTG AGCCCCTAGT TAGAGGCTAT GTCTCTGCTG TTCCTGAATG GGCCTCCTGGATGAGACCTC ATTAAAAGTC TAATTCTCTT GGAGAATTGA GAGATACCTA TTTGTCTCAA AATCATTGAAACCAATTAAT GTATTATGAG CCTCTATCCA GTGATTTGTA CCTCAATTCC CCAATCCAGC TGTCAAGGCCAATTTGTTCT ACCTTACCTA GTAGGTAAGT CTGGAATTGT AGCTGTGGCA TTTTCAGTAA TGGTACTCTAGGTTAGCAGT CCCCAACCTT TTTGGCACCA GGGACCAGTT TTGTGGAAGA CAATTTTTCC ATGAAGGGCTGGGCAGGGGA GTGGTTTCAG GATGAAACTG TTCCACCTCA GATCATCAGG CATTAGATTC TCACAAGGAGTGCGCAAGCT AGATCCCTCA CACATGCAGT TCACAATAGG GTGTGCACTC CCATGAGAAT CTAACACCGCTGCTGATCTG ACAGGAGACA GAGCTCAGGC AGTAATACTC ATTTGCCTAC CGCTCACCTC CTGCCGTGCAGCTCAGTTCC TAACAGGCCA CGGACCAGTA CTGGTCCACG GCGCAGGCAT CAGGGACCCC TGTTGCTAGGTATAAGCATC TGGCTGCTGC ATGTCTTCTG TGTAGCTACA TCTGTATGTG TATCTGATGA GATATAAATTATTTGATTAT AAATTACTTT CTTCATATTA GAGTTGTGAA TGAGTATCAC ATATAATTAT ACATAAACTAGGAATATGCT TTTTAATAAT GTATATAAGT AAGTTTCCTT AACTATGACT TTCATCTTAG CGTAGTAAGAGGGTGCTAAG AAATATTTGT GATGAAAATA GGCATTGGTA GAGTTGAGAC CACTGGGTGA TGAAAGAGTGTAAAGATTTT AAAGCCTTCA GATGCTGGTT CAAGGTGAGA AATGTGATTG GGAGCAAATC AATTAACTTCTTGAAGTCTT ATAGGGCAGT TATGAATACT TAATGTTAAC ATATGTAAAG CTCTTCTGCC CTGTATACAGTAAATGCTAG TTAGCTATTA TGATCACTAC TAAAATGGGG ATGACATAAA CCTCATAAGG TTTTAAGTATTATGCAAGAT ACTATACAAA GTCCAGTAAA TATCACATTC AATTGAATCC ATGATGTCCG ATTATTTTAGCTACTTCCAA GAGAGAAAAA AATGCTGTCA GTTTTACTGT TCTTATAGAG AGCAAGGCAG ATCCCAATTCCCAATGTGGT AACGTGAAAA TTTTTGCATT TGAATCAACA AAACACTTTC TCCTTTCTTT CCTACTATTTAACAACTGGT AAGTCTATAC TCCCCCAAAT CTGGAATTCT CCTTTCTTAT TCTTTTTCCT CCTACCAAGACCGCAGGATC TTTTACTTGG CTATAAGGGG TAAACCTCAA GTAGTACAAG TTCTCTGTAT TACTTTTATACTCTGTCACA GATTCCCTTT GTTTCCTCAT CTCCATGTGA ATTTAGTTAA ATTCTCAGCA TTCTGATCCTTACTATACAA GGTAAATGAA TATAAAAACA AAACGAAACA AAAACCTCTT CCTATTTACA TAAGGCCCCAACCTAATATT TAGTGATATA TATTAATGTG AACAAGGAAC TAACGAAGAC TGGGAAGAAA TTCACAGACTTGAGAGAAGA AATGGCAGGA TTTCCTGGGA ACAATTTCAT GTAACGTCAA AGGTGGTAAA AGGTCAAATAGAATGAAGAT GGAGAATACC GGATTTTCTT ACAAAATGAT TTCCCAGGAG ATCTCATCAA ATGCACGAGGATACCTTCTC AGTTTCACCT AGTGAGTAAA AGACTGGTAA CATAGCTCAC TTACAATTTG GATAAACAAAACTAAACAAA CAACATCAAA ATTTCAGAAA AAATAATAGC AAAACAGAAA TCAAACACTC AAATTTTTGGTCCTTCTGTT TATTTCATTT TGGATACTCA GTGAATGTTA ATTAACCAGG AAACTTAAAA GTTATTTCAATTATGAACCT CTTCAATCCT TCATCAATTA TTTTGAGTAT TCTGGTCTTA AAAACATCTC TTTCTTCTACAAACTTCTGA AAGAGATGAA CACCTCCACC TACACCAAAA TAATGTGCTT TGCTGGCCAA AAGTACACGTCCATTTTTAC TTAACAGTCT AAGGAAAGTC TGGTGCAAAT TACTATAATA ATCTGGGTTG TAAATGGTTTCTGAGGTGAG AATGAGATCA TATTTTACAA AAAGTTTTTC ACTACTTAGT ACAAGCTTAC AAAACTCAGACCACTCACCA GAAAAAAATC GGCATTTATA TAGTTGTGTT ACTTTTGGTT TCCTGCATCT TTTCACATCTGGCTCATTTA CATCATTTTC TTCATCTTCC AAAGTGGAGT TAGCTACTAC ATTAGGTAAG GTTACTTCATCAATCACCAT ACTGTTATAA TCTTGAAAGT GAATTTCTTT GGACCCTCCC TTGAATGCAG TTATACCTAGTAAACCTGAT CCACAACCAA GATCCAAGAC TTTTTTCCCA GCAAATTTCA CTTTGGCCTT TGTGAAATAAGCCAGGAGGT CAAAGGTACA TTCCCAGATT TTTAAGCCTC CCTCATAAAC ACCTGTAATC AGATCAGAGTGAGAAGAAAA GCTTTTTGAA ACTATGTTTT CTCCAGGGAA GTTCTCTTTC AACAAGATGG TTTTCACTACTGATAACTTA ACATGCTGGA AACCTGGTAA TGTTTCTATG ACTTTATTTT CTAACATCTT CTTTAAATCTTTAGGCATAG CATGCTCTTT GGCAGCTCTC AAGGAGGGCT GTTTTCCATG TGGCTCCAAG TTCCTTGAACTGCTGGCTGC ACTGAGTGGA CTGTCTGTGT CTTGAGAGGG AGCTGCATTT TCCATTGACT TATGTTCCCACAAGTGATCC TGAGGCAAGT CAAATTGTTC TGCAGAACAT TTTCTGTCCC TCTCTTCTCC TTTTTGACTTTCTGAGACTG ACAGCTCTTT TGAGGAATCC AGGGTCAAAG CTCCATCTCT AATGGGTGTT AATTCATTTTCCAGATGGTC TTCTATAGTG AAATTAAACT GAAAGGTCAT CCTCTTATTA AATGCACACA ATCTTTAAATTCAGATTCTT CAACTTCTGG ATAGAATTTG ATGATACACA CAAATCTGCC TCAATTATTC AATTAGTTTTGTTGGGCCCA ATTTCTCTTT AGCAGCTTAT ACATGGTAAC AAATATTTAG AGATATTTCC AAATGACTTTTTAGACGTCT TTGGTCCTCT TTCCAAGCAG CTCTGGAAAG AAAAAAAAAA AAAAAAGAAA GAAAATGATGATTAAAGCAA AATGGCACAT TTCACTAAAG TGTAATATTA AACAGCCACC CCCACCCCTC CCTGTCCCACCATACAGCTG CTTTTTCTTA AAAAGTTGTG GGGAAGAGAG AGAGATAAGA GATTTGGACA CTCATACACACCTTAAGGGT TCCAAAGTGG GAGAAGAAAA TCAACTATAA AAACAAACAG AAGAACAACA GCAACCACCACCACTACCAC CTGGACAAAC ATAAAGTCCA AGATATTCAG ACAGGACAGC CTAGCTACTT GCTGTCTTTCAGCTGTCTTG ATTTGTGTCC AACCATATTC ACCCCCTAAG CTTCCAGAAT AACTTCACTT CTGTCTTTTACAGAAGAGGT GCAGTATTTT ATTTTGGTAA GTCAGCGTCC CTTTAAAAAC ATGCATAGGT ATGGCCTGGTGTGTGTAAAT TCATCCAAGA CTTCACTCCA AACATTTAGT CGAGAACAGC AGCCCTAAGT GTATAGAAGTGGGGGTAATT TGGCAATAAT TAGTAAAGAC TAATTCGGTG GCAGAGCAAA CGCAAACTAG GGCACTGCAGTAGTTTGGAG AGACCTGTAG AAATAAGAAG CAACTTTATT GAGAATCTTC TATCTACTGC GCTAGACACTATACCATCTG CCTCAATTTT CACAGTTCTG GCAAGTGGGA TCTTTGTTCC CTTTATACAA GATTTACAATTTGGGGGAGA GGCGGGTCAC CCAGTCCCGC GGCTAGGAAC GCGCCTCTTT CCTCTCCCAT CACGCTGCAAGGCTTGGAGT CACTTCCGGC TGCAGGTCCC GGAACAAATC CGACCCCAGA AGTGGGGACT TCTGGCCCTCACCTCCCCAT TTGAATGTAA TGTTTACAGT GATCCAGACC TGGGGATGCT TGCTTCCCGA CGTGTCCTGGGATCGCGCTT CTGAAAAAGC TCACCTCACA ACGCCTCCTC CGGACCTAAA TCGCGCACCA GTGAGTCGAGTCCTCCAGGG GCTAGAGAAG CCCGACTTTC TTTCCGGCCT TGAGGGACCC GGGCTCACCA AGAAACCAGCCGCCCTCCTC TCTATGGTTT TGGAGCCGGC GGAGAGCGCG CAAGGGTTGG CGGGACTGCG AGTTTCCGGTCTGGGCTTTG GCGGGTCTGG TTTGAAGCTC TCCTGTTTGA CGAAAGTATG TCTCAGGAAG GTGCGGTCCCAGCTAGCGCG GTTCCCCTGG AAGAATTAAG TAGCTGGCCA GAGGAGCTAT GCCGCCGGGA ACTGCCGTCCGTCCTGCCCC GACTCCTCAT ATCCTTCCTT GGTTGTCACT TCTACCTAGA GAAGGGTGTG GGCGGGTCGCGAACCTTTCT CTTCTGTCCC TTCAGACCCA CCGCCAGGCT GGGTTATATT ACCGCGGCCT GAACCCCCTCTTTTCTTTGT CAGTGAGTGG GATGAAAAGT GAGGGACTGG AGGGGAAGCG ACAACCGTGG TAGATTTAAGTAAGGCTTTG GCCCTGGAAA GCCTCGCGGA CGTGTTCTGA CCCAAGGTTT TAGCAGTGGA TGTGGCGTTTTCTTCCATTCCTTCTTTCAG TTTTTCTGTA CTCGTTGCTT GCAATTAAGT GTAAATACTT TTGCTAGTGGATAATGGGGG AGGCAAGGAC TGAGACCTGC GGTATGACGA TAGCTCTGGC TCTTAATAGT TTGAGGTAAAGCGAGATACT CTGAGCTTTT GTCTCCCGTA AAAAGGGTGG TGAATATGAA TAAGGGCTTT CTTAGCGTTATAAGAATTAA AGGGCATAGT TCTGTGGTGT GAAATCTTTA AAAGATGTTC AGTAAATAAA AATGATTTTCCTCCTTCCCC TCTCAGACCT CTTTTTCTTC TTTCTTTCTT TTTTTTTGAC AAGTTCTCAC TCCTCTCACCCAGGCTGGAG TCTTTCTGAA AGAGTTCTTC CGCTTGTTGT TGGCTTTCAA CTGTTGGATT TGAGGCGCTTAGCGCCTTCT TCGTCCGGGT GCAGCACATT CTTGATTGGT CTCATGCCTT TGTGGTTGTA AATGTGCCTGGAATCCTAGC CTTTCATGGT AAACCATATG TATATGTATC TTTTTCACAA CATTTGAGCC CAGCTTTATACAATTACACT CAAAAGAAAA AAAGTAACCT TCACTTGAGA GAATCTCAAT ACTGCACAAA TATTGTGCAGCTAAAGCCCT ATGTAATCAC ATAGAAGTCA TTCACCTAGG CATTAGCAAA ATCTCAGAAG GTGCCAAAGCCCCCTTTTTT AGTTTTTGTG TAGGTACAGA ACTGCCGTCT TCAAGGAGTT TCAACTTGAA AACAAATAGCCACCCTCAAA ACATTCAAAA ACACTTAAAC TGCGTGCATA ATGTGTGTGA GACATGGTGT TAGGCTTTGGGAGAACAGAG ACACGGAACG TGATTCCTCT TCTTCCCCAC AAGCTTATAG AGAGACTTCA TTAAGTTGAAAGTCAACATT CCCACCTAGC TTTGCACTTC AAACGACATA TTCAAAAAAG CCCAAACTTC CTCTAGTTTTCTTCATCTGA GTAAATGGTT TCACAAACTG AAACCTTGAA TCCTCTCTGT CTCACACACC CGATCAGTAAGTTCTATTGT TTCTGATTCC AAACTATGTC TTGAATCAAT CCGTTTATCT CCATCCTCAT TGCTACCACTCTGATTCCAA ACCCTTATCA CCTCTCACTT GGAGTATTAA TAGTTTCCTT GTTTCTACTC ATAATTCATTATTCCAAAAA AGTTAAGAGG GGAAAAACAT AGATCTCGTC ATTTCCCTTT TTAAACCACT TTACCTTCAAGGTTCCAGGT GATCTAAGCC TTGCCCTTCT CTCATACCTA GTTAATTAAC TACACTCTGT TCATGAATACATTAGGCTCA CCTACCTCAA GATCTTTTTG CTCAGCCTGA TTTGTTCTCT CAGCCTTTTG CATATTTCATGTTTATGTCT TGGCCCAAAT GTCACTTCCT TAGAGGGGCT TTTTCAGAGC CTTCAATCTT AGGCAGTTCCCCCAAACGCA GTCTTACACT TGTATCACAT TGGCCTGTTC AGTTTTCTAA AAAGCACATT ACCATTAAAAGAAATGCTCT TGTTTGCTTT GTATATTTTC CACTTCTACA CATTATGTTG CAAAGTTCAT AAAGGCAGGATGTTGATTTT CTTCACAGCG TTACCCTCAG CACCTAGAAC AGTGCCTGAC ACATAGTAAG CATTCATTAAAGGGCTAAAA ATATTTCATG TTTTAAAAAT ACTTGGGAGT CTAATTAGAC AATACTTTTT TTCAGCTTAATGGTAGTATT TTAGCTTCAC TATTTTAACA AATGAAAAAT TTGCAATAAA TCTACAATGC CATTACCCCCCAAAATCTTT TTCATGTTTT GCATTTTACG TATTATTTTC CAGGCCTTAC CTGCATGTCT GCATAATCATAACTGACTAA TTTTGGAACA GCTGGTAATT ATTTGAGCTT TACTGAAATT TTTTCATGAG GCCAATTCTACCCTACTGAA CTCAAATTTG AGTTAATGAT GACCTCATTT TGATTGCTGC TGTAAAAAAT AAGATTTCGGAAGAGGAATG AATTCTTGTA TTACTGTGGT AGGACTATGG GTTTTTTTTT GTTTGTTTGT TTGTTTTGAGACGGAGTCTC ACCCTGTCAC CCAGGCTGGA GTGCAGTGGT GCGATCTCAG CTCACAGCAG CCAGGTTCAAGTGATTCTCC TTCCTCAGCC TCCCGAGTAG CTGAGATTAC AGGCACGTGC CACCATGCCC GGCTAATTTTTTGTATCTTT AGTAGAGATG GTTTCACCAT GTTGGCCAGG CTGGTCTCGA ACTCCTGACC TCGTGATCCGCCTGCCTCAG CCTCCCAAAG TGCTGGGACT ACAGGCGTGA GCCACCGTGC CCGGCCGGGT TATTCATTTTTCTTATTAAC ATTCTTTGAT GATTCTTATG GTGTTGTTAC AGTAAAACAT TTCTAACAAT TATTCTAACAATTATTCTTG ATGGTGTATA TGAAGAATTT ATTGTCGTGT ATTTGTAAGC TGCTATGTGC AGAAGAATTTCAGTCAAATA AAGTTGGTAA GATAGGTATG TAAGTAATAT GAAAAAAGAT AGAAGGTGAT GAGTGACTTAGGTATAAATT AAGTACAATA GAAATGTTGA GGAAAGAAAA ATTTCTTGTA ATAGAAATCG GAAGTACAAACTGGGCATGG TGGTGTGCAT CTCTAATCCC AGCTCCTTGA GAGGCTGGTA TGGGAGGATC ACTTTAGCCCAGGAGCTTGA GGCTGCAGTG AGGTGTGATC ATGTCACCGC ACTCCATCCT GGGTGACAGC AAGACCGTCTCTCTTTTTTT TTTTTTTTGA GACGGAGTCT CGCCTATGCT GGAGTGCAAT GGCGCGATCT TGGCTCACTGCAACCTCTGC CTCCCAGTTT CAAGTGATTC TCCTGCCTCA GCCTCCTGAG CAGCTGGGAT TACAGGTGTGCGCCACCATG CCCAGCTAAT TATTTTGTAT TTTAAGTAGA GACGGGTTCT CACCATACTG GCCAGGCTGGTCTTCAACTC CTGACCTCTT GTTCGCCCAT CTAGGTCTCC CAAAGTGCTG GGATTACAGG TGTGAGCCACCCCACTTGGC CCCGAGCGAG ACCCTCTCTC TAAAAAAAAA TAAATAAATA AATCATAAAC CTGTGGATTATTGTAGCATT GTTTCTCATC TGTCAAAAAT ATTTCATGAC TATGCATAGT TTGAAAAGGC AAGTTTGTCCCTGGGCAATT TTCAAAATAT TTCTTTAATG TGTTTTCACA ATACTGTTTA CCTAATAAAT CTTAAGTTTTTAAAAGCAAA ATTAAGCCAG TAATTTGAGT CCAATTCCAA TCTCTTATGA GTCATTGCTT AAATTTCAAAAGGGTTTTAT TTTTTTTTTA GGTTTGTTCT GAGTAATGAA TACCCTATTA CTATGATACT AGTATCTTCCTTAATTATCC TACTCATTGT CTCAACATTC TGACAGTTGG ATTGAGCATA TTCGTAAGTA AAATTGTTTTAACTGTATGA TGTACTTTGA TGTTAAGGTC CGAGTCCCCA CATACCTCGG TAGATGTGTT CTTACAGTTTTGTATTCCCT TGAAATGTAA CTGTTCTCTA TGTTACAGCC TTTATAACCT TCAGTTACTT GAAATGAACAAATTCATTCA AATTCCAGCA CTTAAAAGTT TTAAATTACA TTTTGGATAA ATACCAAAGT GTTTTGTTGATGATGTATGT ATAAACAAAT TGTAAATATT AAACGTTAGT TGTTACGATT AGACCTATAT AAAACATGATATGCAGTCTA CTGAATAGCT ATCAGCCTCT AACATGTTTA GTGTCATTTA GAAAATGCTT TCTAAATTGCCAAAAGCTGA TTGTCTAGGT GATAACAAAT TTACCATTTG GAGGAAGTTG ACTTTCTCAT TTTCATGTCTTCATCAGTCT TACTTGATGA GATTCATTCT TCTAGTCAGA AGAGAGTTTA GACTGCTCAG TTTACTCATATTTTGAGTTA GCTTTTCTAT TTAGAGTTCA CTTGGTTGTG GAATATTCAT TTATAATTTG AATCTACGTTGTGTAATGGG ACCTAATTTT TTTTTCCTTT GTTTTTGTTG GAGTCTCGTT TTGTCACCCA GGTTGGAGTGCAGTGGCGTG ATCTTTGCTC ACTGCAACCT CCACCTTCCA GGTTCAGGTG ATTCTCCTGC CTCAGTCTCCCAAGTAGCTG GGATTACAGG CATGCTTCAC CACGCCTGGC TAATTTTTGT ATTTTTAGTA GAGATGGGGTTTCACCATGT TGGCCAGGCT GGTCTCAAAA CTCCTGAGCT CAAGTGATCC TCCTGCCTTG GCCTCCATAAGTGCTGGGAT TACAGGCGTG AGCCGCTGAG CCTGGCCCCA GAGTTTGTTT TGTTTTGTTT TCAAGACAAGATCTCACTCT ATTGCCCAGG CTGGAGAGCA GTAGTGCGAT CATAGCTCAC TGCAGCCTGA ACTCCTGGGTTCAAGCTATT CTCCTGCCTC CATCTTCTAA AGTGCTGTGA TTACAGGTCT GAGCCATGAT GCTTGGCCTGTGTTTTTGTT TGTTTGTTTT GGGGGACAGG GTCTTGCTTT GTCACCAAAA CTGGAGTGTA GTGGTGCGAACATAGCTAGC TCACTGCAGC CTCCATCTCC CACGCTCAAG CAATCCTCTC ACCTCAGCCT TCCAAGTAGCTGAGACCGCA GGTGCGTGCT ACCATGCGTG GCTAATTTTC TATTTATATA TTTATTTTTT GGTAGACATGAGGTCTTGTC ATGTTTCCCA GGTGGTCTTT AACTCCTGGG CTCAGACAGT CCTCCCGCCT CAGCCACCCAAAGTGTTGGG ATTACAGGCG TGAGCCACCA TGCGTGGCAT AATTTTTTTT AAGTAAATTA TTTTTTTATCTTGAGTATAG AAGTGATTCA TGTTCATTGT GGAAAATATG AAACATATAG AAAAACAGAA AAGATTACAAAACATCTAAT CTGAAATGGT TAAGATTTTG ATGAGAACAG TCTCATCTCA TTTCCGTATA TTCCTGCCAGCCTATCCATC ATTCTTCGTA CATGTTTATC TACATTAAAA TTGGTGTTAT ATTTTGGAAA CTTTTTGTTTAACTACATTG TGAACATTTT TCATGTTTTA AAATGTCATT TTAATGATGG CAGATCCTAT TCAATAGATGTACACACACC TATTTAACTG GTCCACAATT GTTGGATATG TAGGTCGTTT CCTTTCTCTC TTTTTTTTTTTTTTTGGCTA CTACTTAATA GTTTCTCTGT ATAGAATGTG GTATTTTGAA AGTGTATCAA GCTTTAGATTGGTAGTATTC TTGCATTTAA TAAAGGGCAG TGGCCTTTGT TGACTGACAT GACAATATTT TTATAAAATTTGTTATTTGC TTTACAGAAA TTTTGAAAAT TATTGTAGAA ATGTTTTTAC CTCATATGAA CCACCTGACATTGGAACAGA CTTTCTTTTC ACAAGTGTTA CCAAAGGTAT AATACTATTA CCTGAAAATA CATGTTATAAGGAATCTAGC CTCAGTCTTA GATGATTTAT TATTAATTAT GGCTCTCTTT TTCTAATATA TCAAATATATTCAAAATAAA AATAAGGAGT AAGTAGATCT CATGTGAGAC TATAATGGTG TTAGTGTGAT CATTAGGCAGTTAAAAACTG TTACAGGCTG GGCACGGTGG CTCATGCCTG TAATCCCAGC TCTCTGAGAG GCTGAGGTGGGCAGATCATC TGAGGTCAGG AGTTCGAGAC CACCCATGGT CAACATGATG AAACCTCGTC TCTACTAAAAGTACAAAAAA TTAGCTGGAC ATGGTGGCAG GTGCCTGTAA TCCCAGCTAC TTGGGAGACT GAGACAGGAGAATTGCTTGA GCCTGGGAGG CGGAGGTTGC ATTGAGTCAA GATCGTGCCA TTGCACTCCA GCCTGGGCAATAAGAGCGAT GCTCCGTCTC AAAAAAAAAA AAAAAAAAAA AAGAACTTAT ATTTTCAGAT TGTGTGGTTCCTTTACTAAC TGAATTTAAA TTATTTGTAG TCAATTTTAA ATGCTCTTGT ATTTTAAAGC CACTGTACTCCAGCCTGGGT GACAGAGTGA AACCCTTAAT TCAAAAAAAA AAAAAAAAAA AAGAAAAGCT GGAATATTGGCAAAATCAAG TAACTAAGAG AAAACATTAA ATTCACAGAA TACATTATTA CATTTTAGAT ATATATGGTATATGTTTTCT CTGAAAAGCA CAAGCATACC TTTTTTGTTT TAAATGGAGG GAACTAAAGA TACTTTGGTGCCAAAATGAA ACATTATTTG TAATTAATCT CTTATTGAAA TGGGTTTCTA ACTTTAGCTT TGAATCGTAATCTTTCAAAT TTCTTGTACT CATAGTCACT TGATGATTCT CTATCTGAAA TATTTCTTAG AATTTGTTCTTGACCACCAG AAAAAGATTC AACTGTTACA TAGATGAAAA TGGATGTTGA GTGTTAACAG GCCTATGGGAAACAGTATTT TCTTTAGCTA CATTGTATTG TTGACTGTGT TGCTATTCTT ATAATGTTTA GGTCATTTAAATTGTTAGAA AGATCCAAGT ATTAAGATCT AGGGTGGCTA ACTTTTCACA GACAAAAAGC TTGTTTGTAAGGTCATTTAC TATACCCTTA ATTCAGGAAG GTTAGCTTGA ATTGGGTCAA AAGGAAACTG GTTAGAAAATAAGTGAGTAG TGAATAGGCG ATTCAGTGCA AATTCCTTCC AGAAAATACC CTTGTAAATG ACTGTATGAATGTGGATTCT TCAAGACAGT CAAATTTATT GTGCGAAAGT AATACTTTTA TTTTTTGCAT CTCTAAAACATGAACTTTGA GTGATTTTTT AAAAAAATTG ATGCTATTAA ATAGATTCAA ACCATAGAAA TGGAAAATAAATTTCTGTTT GGGGCTTTTG GGGGGATTAT GTTGTAAAAA TACCTTTTCT CTGTATTTTG TGCTTAATTAGGTACAATTG TTAAGCTAGA TGATAGCCTG TGGATGTTAC TAGTGCAAAA TCAAATTATC GTATTGTGTTTTCTCTGTAA AGTTTTGTCT TGTCTTTTCT AGTGATTTCT CTTATTCCTG TTTATTACTT GATTTGTTTTTACAGACTGT GAAATTATTC GATGACATGA TGTATGAATT AACCAGTCAA GCCAGAGGAC TGTCAAGCCAAAATTTGGAA ATCCAGACCA CTCTAAGGAA TATTTTACAA GTAAGTCAAA TGTATTAGAA AGCAGGAGAGAGAGGGAGCT TAAAGAATGT CAAAATTTTT ATACTGATAC TGATTAGCTA TGTATTCTTA TGTAATGGCCTAATGTTGGA ATTAAATTTA TAGAATTAAA GACGTGAATA TAGAAACATG AATTCTGAAT AATAAACTCTTATAAGAAGA GAAGTCATCA AGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG AACACCTGCCATGTGTTTTG AAGTTTGTGT TAGTATTCTA AATGGCTAGA CAGTTGTTCC AGTATTTGTA GTTCTGATAGACTAAAGTTC TGTGAAAAGA GGAAGAGACT GTGTTTTGTT CATTGCTGTA TTTGTAGCAC CCAGCATGCTGACTAATACC TTTTCAGTGC ACAAAAAATA TATTCTAAGT GAAATTTCCT TCCTTATTCA CAGACAATGGTGCAGCTCTT AGGAGCTCTC ACAGGATGTG TTCAGCATAT CTGTGCCACA CAGGAATCCA TCATTTTGGAAAATATTCAG AGTCTCCCCT CCTCAGTCCT TCATATAATT AAAAGCACAT TTGTGCATTG TAAGGTGAGTAAAGGTCTAA TTATACTTTG AATGGTATAT AATCAATGTG CATAGGGGCT GAGTAAAATA ATGTTTGTATAAGATTTTAC ATTTTAGTCT ATATTATTGA AATAAACTTT TCCATAGAAT AAAGAACATG TAAGTAAATAATTGTTGCAA AAAAAGTGGT TTTAAGGAAG TCATTAAAAG TGGCTTTTTG GGGTTTTTTA GTTTTATCTTATTTCCCCTC TATAAAGAAA GAAGTTTTAA GAATTTGTGT TGAGACAGAC ACAGGGATCC TGAAATAGTTATGTCATGTT GCATTGACCA ATATTCAATT ACCATTATGA TTAGATGTCA GAACTTCCTT TTATAAAGGAAAGTTAATCC TTATTTAGTC CATCTCTACA TGCCAGAGGT AGCCTTGAGG CACAAAAGCT TGCCTAGAATTTATGGGTCA CAGACAGTTT TAATATTGCT ATTTGTTGGG CGAATGAAAA TCACTAGTTA ATTAATACCTCTCTTTGCTG ATAGGATGCT AAAAATGTCA CGCACCTGGC CTAATGTTAC CCTTTTTTAG TTCTGTATTTGCAAGATCAT GGAAGTCAGA AATAATATTT TATACATGCT TGCATCTCTT GAAGCACACT ATATTTAATGGATGTTCACT AAACAATGAA TGAATATGTG ATTCAGTAAA TTTATGATCT CTAATAGTAT GAATTAAAGTAAATTTGGCT CTTGAGCTTT GATTTGTTTT TTCTCTCATT TTTATTTATC CGTAATCAGA ATAGTGAATCTGTGTATTCT GGGTGTTTAC ACCTAGTTTC AGACCTTCTC CAGGCTCTTT TCAAGGAGGC CTATTCTCTTCAAAAGCAGT TAATGGAACT GCTGGACATG GTTTGCATGG ACCCTTTAGT AGATGACAAT GATGATATTTTGAATATGGT AATAGGTGAG TGAAGAAAAC TTTCTGCTTA GTATATGGTG ACTATAAATC ATGTATCAATTAAAATTGTC TCTAATGATT CATGTTATTT TCTTACTAAT TATGCATTAA AATTGATTTA AATCTTACCAAATAAATTTT TAATCTTGAA ATTTGGAATT TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTATTTAGTTACT GTAATTTCTC CACAATGATT AACTTATATA ACTTTATAAT CTCTGAGGTT GTCCATATTCAGAGACAATA ACTTTCACAT TTTTTTAACC ATAACTGATA TTGAGATGCA GTTTATATTT CCTTCCAGAATACATATAAA TACGTGCATA TGTGTATGTA AATATGTCTA TTCTCATATA CATATTATAA TGAAATAACTCATTTTACAT GTGATGCACT TTATACTAGT TTATTTTTAT TTTATTTTAT TTTTTTGAGA CAGAGTCTCACTGTGTAGCC CAGGCTGGAG TGCAGTGGCA CAATCTCGGC TCACTGCAAC CTCGCCTCCC GGACTCAAGCGATTCTCCTG CCTCAGCCTC ATGAGTAGCT GGGATTATAG GCGTCCGCCA CCACACCTGG CTAATTTTTGTATTTTTAGT AGAGACAGGG TTTCACCGTG TTGGCCAGGC TGGTCTTGAA CTCCTGACCT CAGGTAATCCACCTGCCTCA GCCTCCCAAA GTGCTGGGAT TACAGGCATG AGCCACCGTG CCCAGCCAAT ACTAGTTTATTTTTAAAGAA TTGCTGGTCG TAACACACTT CATTGATTTT ATCACTCATT AATGGATTAT GAACAAGAGTTTGAAAAACA ATATAAAGGC AAAGTTTGCA TTCAAAACTT TGGTATAAAG AGAGTAAGTT GGTTTTGTGCAGTGTATCAG GCACCTGTTG CTCTGCAACA CACCACCTCA AAATCTATTT ATTCACTATT TATTTATTCATGATTCTGTG AGTCTGCAGT TTAGGGTGGG ATGTCCTGAG ACAACTTTCT CTGATCCACC TGGGGCACTAGCTCACCCAT GTGACTTCAG TGACTTCATT CACATCTGGC TGTTGGCAGA GGCAGAAGTA CTTGAGAAAGCCATGTGCAT CATCCAGCAG GTTCACCCTA TCTCAGATAC CTGATGCCAG TGGTTTCAGG GTTTCTAAGAGTAGCAAAAG TGTGAGCAGG TCGCTGTGTG CTAGCACTTT TCAAGTTTCT GCTTGCCTTA ATTTTATTATTGTCCCCCGG GCCACAGCAG GTCATAGCGT TTAGCCCAGA GTCATTGTAG AAAAGTGTGG ATTCACAAAGGGCAGTCATT GTGGCCATTT TTATAAATAA TCTACCACAG ACTGAGTAAA AGCCTTGCAT GAATACCATGGATATTAATT TGAATTCTTC CTTTTTAGAT TTTCTTTCCT TAGCAATTTG TTTTGTCATT TTGGATTAGAATTATATCTG TAGAATATTT CAGTTATAAT AGGGTACAAC TTTTATTCCA CTGAACATCT TTAGTTTTATTTAGGTCATC TGGTAGGTAT AAACTTCAGA AGTTAATATT CAATATTTAT AAAAACCATT AACAAGTGTGACACTTAAAT AGTTTAAATA ATTCTTTTGA CACAACTGTT TCCAAGTTGT GTTACGTATT TTAATTCAATCAAATGTTGA AATTGTTCAG TAGATAGTTT TAATTATAGG AGAAACTCAC CCCCATGACA TTTGGATGTCTTAAAAGTTC TGTTATCTTT CTTTGCAGTT ATTCATTCTT TATTGGATAT CTGCTCTGTT ATTTCCAGTATGGACCATGC ATTTCATGCC AATACTTGGA AGTTTATAAT TAAGTAAGTT TGTTTGTTAT TTTTTACTTTTTAGAAAATG TTTTCCATAT TCCCCAATCT TAATTATTCA TGATTCTTTA GATTGCATTT AAAACATTTTGTGTGAATTT AATGTTCACT GACACTGCTG TCTGATAATC CAGATATTCT ACATGTAGCT CTCAAGCCAAATTGGACTTC TTTACCCTGT GGCCTCTAAA ATTAAAAAAA ATGTTCTTCC TAGTTAGCTA GTACTTCAGAAATAATGGGC CATGGGCCAG ACTAGAACTT AACCACTTTT CTTCTGCTAC TGTTGTTTAA CCAGCTATCAAGTATCCTAT TTCTAGGATT AGATAAATTG ATAACTATAA TTAAAACTGA ATATAATCTT TTCATTAGGTACTTTTAAGT TGTTCACACT TAATTCCATT TGTACAGTAA TTTTAACTTT CTGAAACTGA AGCATTTTAAAGGGTCACCA GGGATAGTGC CTGTAGCATT CATCAGATTC TTAGGGGTGA GAGGAGATGT GGTTGAGATGTAAAAATGGT TAAGAATATC TACTTTATAC ACATACATAA AACATTAAAG GTCAGTGTAT TTTCAGGTCTTAGGTACTTT TCTTGTACTA CCAGGACATT AAGTTGCCAT TCAGTGGTTA AGAGTGTTGC CTGGGAGCTGTATCACATGT GCTTAAATCC ATTCTTGAAA TCATTTACTC CTTCTGAGCC CTTGGGCTAT TTGGTTAATTTCTCTGAACG TTAGTTTGCT CATCTGAAAA TGGAAATAAT AATAGCAACT TCTTGACAGG GTTATAGTGAGAATTGAGTT CATCACTGTG AAATGCTTAG AAATGTGCAT GACACATAGT TAATACTCAA GGAATTAGCCACATCACTAT CATCATCACT GATTATCTTC CACTCTTACC CTCTTCCAGT TCATTTTCTG CCCAGCAGAATGATCTTTTA AAAAGTAAAT CAGATCATGT TACTCTATTG CTTGAAGTCT ATCCCATTTG ATTAAGAATAACAACCTAAT CCTCTGTGGA TGCTGCCTCC TTCACCAGCC TGTCTCATGC TGCTCTCCCT ACTCTTAGTTCCTCAAACAT ACCAAACTCT CCTGTCCCAG AGTCTTTTCG TGGTTTTTCC ATCTGCCTAG GATGCTTCTCTCTCCTATTT TGTGTACCTT GCTAACTCCT GCTTACTGTC TTTCAGTTCT CAGCTTAAGA GTTATATCTTCATGATAACA TTCTTTGATA TCCTTACCCT AAGATTAAGT TAGATTGATA TCCTTACCCT AAGAATAAGTTAGATTAGGT CTCTCTATTG TAGCACCTTA GACTCTGTCA TTTGACAAAT CACAGCCCTA ATTAATTATTCTTAAAATTA TTTAACATTC TCTCTCATGC TAGACCACAA GTTTCATGCA GGTAAGGCGG AGATTGTGTCCATTTGTTTG ACCCCTTTGT CTCCAGGGCC TGGTAGAATG CCTCATACAT AGTAAGAATT CAATTAATATTTTACACAGA GAAAAAATTA GCAACTTATT TAAACAAATA TAACTGCTTC AGAGGTAAAC TGGGCACATCTTAGTTATAT TATGTGATAT ATGATGCTTT TTGATTGTTT TTTTAAATGT TCTACAAGGT AGATATTGTTAGAGGTCCTA AGTTACTTGA TGTGTTACTT GTGGTGATTG TATTCTTTTC TTTTTATTCA TTTAGGCAGAGCCTTAAGCA CCAGTCCATA ATAAAAAGCC AGTTGAAACA CAAAGATATA ATTACTAGCT TGTGTGAAGACATTCTTTTC TCCTTCCATT CTTGTTTACA GTTAGCTGAG CAGATGACAC AGTCAGATGC ACAGGTAAAATTTGGGCTAA TAGCATTTTA AACAGCAACT CTTATTTTCT TTGGCAGTTA GTAAATCTCA TTTGAATGTCTGGGTCAGTC TATTTAAGAG GATTTTAATT TATTTCATTT GGGTGTTTTT TTTTGATCTG TGGGATTATTTATATCCCAT AATTACTTTT CACCCAGAGC ATTGTATTAG ATTCCTAACT GCTGTCATTG CCTCTGGGGTCTGCCTGGCT CCCTCTTTGC TTGGTAACTG GTTGGTCACA GCATTCTTCT CAGAATCCTT TCATTCTTTTCTGCATGAGA ACAAAAATTC TTTTGTTCAT ATTTGTATAA GATCTGATAT AGCTGCAATC AATCTTGCATTTTTTCTTCA CCAACGCATT GCGACCTTTA GGGATACAAG TATGTTTGTG CATGTATATG TATGTATCAGTCTTTTAAAT TTGATATAGT CATACATTTG TTTTTATTTT GAAAAGTTAG AGTGTTGAAT TGGTATCCCATTTATGAAAC ATTATATTCT AAAAATTTGT AGTACGATTA TTGGGAATTA TAACTCATTT TCCTGTAACACTGTTATACA TAGTACCTTT TGCTTTCAGA CTAGCCCTCA ATTTTATTTA ACTATAGTAG TCCTAAATTATAAGATTAAT AGTACTCAGG ACCTAACAGT TATATGTCAT TTGTTTTTTT TTTTTTTGAG ATGGCGTCTCACTCTGTCAC CCAAGCTGGA GTGCAGTGGT ATGACCTTGG CTCACTGCAG CCTCTGCCTC ACGGGTTCAAGGGATCGTTC TGCCTTAGCC TCCTGAGTAG CTGGGATTAT AGGCGCCTGC CACCACGCCT GGCTAATTTTTTTAGTAGAG ACGGGGTTTC GCCATGTTGG CCAGGCTGGT CTCGAACTCC TGACCTCAGG TGGTCCACCCGCCTTGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCC ACCGCGCCCA GCCTATATGT AATAATTTTAATGGGACCAT GAATTGAATA TTTCTTCCTT GAATAGCAAT GACATAGCCC CTTCTATTGT ACATCTGCAAGCTGATACAG GGAATTCCTT TGTACCTGCG CTCTTCCCTG CCAGTCAGCT ATGGGGGTGA AAGTGTAGGGGTTCATCCAA GTCCTAAAAC TGGTAGCAAC TCCTAGGGCA GGGCTGATCT GGAAGGACAG ACCCTAGGGGAGGGTGGAAC TTTAAAAAGA AGTTCTGAAG GTAGTAAGAA GGAAATGAGG AGTAGTGTTA GGAAGGGGCTAACTTTTTTC TTCTTGCTTC TCTTCTTTAT CTCACCTGCC CCTCCCCTTG TATCCCTTCT TCCTTTTTCCCTTTCCTTTT TTGTCCTCAC TTCATTCGTG CATCCTTTCT GATTCCTCTT ACCTTGCTAA AAGGAGAAGTTTGTTTGGGT ATCCTATATC AATGGCAGGA AGGTTGTTTT CTTCTTTACC TTTATCCTAT AGATTCATATTCTCAACACC AACCTCCTCC TTTTTCAGTT TCCTTCTTGC TTCTCTTGAC ACCACAGAGT TTGCAGCTAGTACTTGGAGA GGAAAATTAA ACAGAGATAC TTGGACCAAG AGTAAGATGA AGAAAGTCTA AACAACAGTATAGTCTATAG TGGCAAGAGA GAGTATGGGG GCTGCTTAGC CAGGGTGGCT GTACATAAAG TATATCTTCAGTTTATATAA ACTGCTTATA GATGGAAATC AGAAAATTTA AATTCTCTTA ACTGTCCAAG AAAATTCTCATTTTTTCAAA TTTGGGACTG ATAAATGTGA CCAGTTCTGC TTACTGTCCA TTGCCTGAAA TGGAGCTTTGAGGTGGACTG TATAATTTCT TCAATCTTAA CTCCAAATTC TGATCAGCGA CGCCCTCTGC TGTTCACTATTAATATTTAT TTACCAATCA AAGTAAAGTA TTGAAGTTTT CCTGGCAGTT TTCACTTTGT GTTTTAGTCCATTTAGGCTG CTATAACAAA ATCCCTTAAA CTGGGTAAGG GATTATAAAT ATTAGAAATT TATCTCTCACAGTTCTGGAA GCTGGGAAGC CCAATATCAA GGCACCAGTA GATTTGGTGT CTAACGAGGG TGTGCCGTCTGCTTCAAAAA TGGCCCCTTG TTGCTGCATC CTCACTTAGT GCAAGGGGCA AGACAGCTCC CTTCAACCTCTTTTATAAGG GCACTTATGT CATTCATGAG GGCAGAGCCC TCATGACTTA ATCACTTCCC CAAAGGCCCCACCTCTTAAT AGTATCACAT TGGGTGTTAG GTGTCTGGGA GGACACCAAT CTTCAAGCCA TATCATCTCACTTGGAAAAA AGTCAAAATA AAACCAGTAG ATTTAATTAA TATTACACTA TTTATAGAAG CATGTGATGTATCATTCCTT GTATTAATTT CCTGGGGTTG CCGTAACAAG TTACCACAAA CTAGGTGGCT TAAAACAATAGAATTTTATT CTCTCACATT TCTAGAGGCA GAAGTTCACA GTGTGTCAAT AGGGCCATGT TCTCTGGAAGGCTTTAGGGG AGAATATATT TCATATCTTT CTCTTAGCTT CTCGGTGTCA CTGGCAATCC TTAGCTTACTTTGGCTTTCT GTGTCTTCAC ATCATCTTTT TATAAGAACA CCAGTGATAGTGATTAAGGG CATACCTTACTTTAATATGA CCTCATCTTA ACTAATTATG TCTTCAATAA CCCTATTTCC AAATAAGGCC ACATTCTGAAGTATTGGGAG TTAGAACTTA AAGCTTTTTG GGAGGGACAC AGTTCAACCC ATAACAACCC CTAAAATCGATATTTATTCT CAATTAAGTC TTGAAATTGG TTTCAAAAAG AGAATATTCT ATTAGAGTTT TTAATGTATAGTTTTAACAT ATAGTTCTTT AGCCCCCAAT TTTTTTTTTT TTTTTTTTTT TTTTTTTTTT TTTTTGAGACGGAGTCTCGC TCTGTCGCCC AGGCCGGACT GCGGACTGCA GTGGCGCAAT CTCGGCTCAC TGCAAGCTCCGCTTCCCGGG TTCACGCCAT TCCCCTGCCT CAGCCTCCCG AGTAGCTGGG ACTACAGGCG CCTGCCACCGCGCCCGGCTA ATTTTTTTGT ATTTTTAGTA GAGACGGGGT TTCACCTTGT TAGCCAGGAT GGTCTCGATCTCCTGACCTC ATGATCCACC CGCCTCGGCC TCCCAAAGTG CTGGGATTAC AGGCGTGAGC CACCGCGCCCGGCCTGCCCC CAATTATTTA GTTTTTCTAT AAACAGGGAA ATTTATTTGT GTGGCCCTTA GAACTAATTTAATTTCCACT CTAATTCCTA CTTATGTTTA TATAATGCTT TTAGAAATTT GTATTATTCA GAAAATAAACATATACTATT GTATCTGTTG CCTACACTTA GATTTTATTG CCTGCTATAT TTAAATTTTA TTAGTATTTTAATTGTTTTA TTAAAGAAAG AATGTGCCTG TAATCTCAGC ACTTTTGAGA GGCCAAGGCA GAAGGATTGCTTGAGCCCAG GAGTTTGAGA CCAGACTGAG CAACACAGGG AGACCCCCAT CTCTACAAAA AATAAAAAAATTCTCCAGGC CTCATGGCAC ATACCTGTAG TTCTAGTTAC TTGGGAGACT GGGGTGGGAG GATGCATTGAGCCCAGGAGA TTGAGGCTGC AGTGAGCCAT GATCAGGCCA CTGTACTCCA GCTTGGACAA CAGAGTGAGAGCTTGTCTAG ATAGATAGAT AGATAGATAA TCTAAATAGA TAATAGACAG ATTATCTAAA TAGATAATAGACAGATTATC TAAATAGATA ATAGACAGAT TATCTAAATA GATAATAGAC AGATTATCTA AATAGATAATAGACAGATTA TCTAAATAGA TAATAGACAG ATTATCTATC TAAATAGATA ATAGATTATC TAAATAGATAATAGATAGAT AGATTAGATA GATAGATAGA TAGATAGAGC TTGGACAACA GAGTGAGAGC CTGTCTAGATAGATAGAAAC AAAGAAAGAA AGAAAGAATG GTGCTCATAT TTTAAAGCAT TGAAAAATGG TCTTCCTTGCTTATATTACC CACACCTTCT TTGTTGGCAT TAAGATGCAA ACTTTGTTTT AAACAGTTGA GTAAATCAAAGATGGGACTG TTAAGTTATT TGTGTTATTT ACCTGCTTTT TGAAAATGTA AAAATAAAAC TCTAGGTTTAATTAGTAGTA TGCTATTTAG TAATGAAGTA AAGCTAGAGG CTTCGAACAA ATCTTGTGTA ATTTCCTCTTGAATGAGAGA GAAAATTTAA AGTAAGCAAA CAAATAAGTT GTGTGTCACC ACTCATTCAG TCATTTAACAAGTATTTCCA GAGTACTTAT TCTGTGCCAG GAAATGTTGT AGGTGCCCTC AACAACTTAG AGTCTAGCCTGAGACACAAG TAAGTAGGTA ATTATTATAG AATGGTATGA TCTTTGGAGG ACTGGGTATT GGCTGGCTCATGGGAGTACA AGATAGGTAC CCAGTGATGA AGTCAGGAAA GGTTTCTTAT GGTGATATGA TGACGTCTATGCTGATTATA AGGTCAGTGT AGAATAAACT TTGTGCTTTT AAATTTGCAT AGCACTGTAT TAGAGAGTTCATCTTCAAAA TAATCGAAAA GGCTGAGTGT GGTGACCCAT GGCTGTAATC CCAGCACTTT GGGAGGCCGAGGTGGGCAGA TTGCTTGAGC TAGGAGTTCG AGACCAGGCT GGCCAACATG GTGAAACCCC GTCTCTACTAAAAATACAAA AATTAGCCAG GAGTGATGGT GCGCACCTGT AATGCCAGCT ACTTGGGAGG CTGAGGCAGGAGGATCACTT GAACCCAGGA GGTGGAGGTT GAAGTAAGCC GAGGTCATGC CACTGCACTC CAGCCTGGGCAACAGAGTGA GACTCCATCT CAAAAAAAAA AAAAATGATC AAAGAAAGGT GAATTTTCAT CTACCCTATTTCTGCTGAGG AAAATGGACT ATTTTCAAAT ATTTTTAATA AGGGTCAAAA TGAGGGGATC GCATTTTTTCAAGTTTTATG ATTTATTTAA CTTGTGGAAC AAAAATAAAC CAGAAACCAC CACCTCTCAC GCCAAAGCTCACACCTTCAG CCTCCAACAT GAAGGTCTCC GCAGCACTTC TGTGGCTGCT GCTCATAGCA GCTGCCTTCAGCCCCCAGGG GCTCGCTGGG CCAGCTTCTG TCCCAACCAC CTGCTGCTTT AACCTGGCCA ATAGGAAGATACCCCTTCAG CGACTAGAGA GCTACAGGAG AATCACCAGT GGCAAATGTC CCCAGAAAGC TGTGATCTTCAAGACCAAAC TGGCCAAGGA TATCTGTGCC GACCCCAAGA AGAAGTGGGT GCAGGATTCC ATGAAGTATCTGGACCAAAA ATCTCCAACT CCAAAGCCAT AAATAATCAC CATTTTTGAA ACCAAACCAG AGCCTGAGTGTTGCCTAATT TGTTTTCCCT TCTTACAATG CATTCTGAGG TAACCTCATT ATCAGTCCAA AGGGCATGGGTTTTATTATA TATATATATA TTTTTTTTTT AAAAAAAAAC GTATTGCATT TAATTTATTG AGGCTTTAAAACTTATCCTC CATGAATATC AGTTATTTTT AAACTGTAAA GCTTTGTGCA GATTCTTTAC CCCCTGGGAGCCCCAATTCG ATCCCCTGTC ACGTGTGGGC AATGTTCCCC CTCTCCTCTC TTCCTCCCTG GAATCTTGTAAAGGTCCTGG CAAAGATGAT CAGTATGAAA ATGTCATTGT TCTTGTGAAC CCAAAGTGTG ACTCATTAAATGGAAGTAAA TGTTGTTTTA GGAATAC ATGAAGGTCT CCGCAGCACT TCTGTGGCTG CTGCTCATAGCAGCTGCCTT CAGCCCCCAG HGGCTCGCTG GGCCAGCTTC TGTCCCAACC ACCTGCTGCT TTAACCTGGCCAATAGGAAG ATACCCCTTC AGCGACTAGA GAGCTACAGG AGAATCACCA GTGGCAAATG TCCCCAGAAAGCTGTGATCT TCAAGACCAA ACTGGCCAAG GATATCTGTG CCGACCCCAA GAAGAAGTGG GTGCAGGATTCCATGAAGTA TCTGGACCAA AAATCTCCAA CTCCAAAGCC ATAA CCACATATTC CCCTCCTTTT CCAAGGCAAGATCCAGATGG ATTAAAAAAT GTACCAAGTC CCTCCTACTA GCTTGCCTCT CTTCTGTTCT GCTTGACTTCCTAGGATCTG GAATCTGGTC AGCAATCAGG AATCCCTTCA TCGTGACCCC CGCATGGGCA AAGGCTTCCCTGGAATCTCC CACACTGTCT GCTCCCTATA AAAGGCAGGC AGATGGGCCA GAGGAGCAGA GAGGCTGAGACCAACCCAGA AACCACCACC TCTCACGCCA AAGCTCACAC CTTCAGCCTC CAACATGAAG GTCTCCGCAGCACTTCTGTG GCTGCTGCTC ATAGCAGCTG CCTTCAGCCC CCAGGGGCTC GCTGGGCCAG GTAAGCCCCCCAACTCCTTA CAGGAAAGGT AAGGTAACCA CCTCCAGGCT ACTAGGTCAG CAAGAATCTT TACAGACTCACTGCAAATTC TCCATTTGAA AAATAGGGAA ACAGGTTTTG TGGGTGGACA AGAAATGCCT CAACCGTCACATCCAGTCAC TGGAAGAGCC AGAACTAGAA AGCTCCCGAG TCTTTTCCCC ACATTCAAGA GGGCCGCTGGGTGCATCCTT ACCCAGCTAT CCTTACAGTG TTTGGGAATG GGGAATGGCT CTGTCTTACT GTGGGCATGGTGGGCATTTT TGGCAGTGGG AGAGAAGGAA AATCTGTTGA TTAGAAGCTC AGTATGTTAA TTCGACTCCAGGACAGCTTT CAGAGACAGT GGCTAAGAGA AGAACGAGGT CCCAGGGGAT CTCTTGAGGT GACTTATTTTGACACTCTTT GGGAAAGTTA TCTAGGAGAT TTGTTCCATA ACTCATTTTC CCATACTCTG GTGACAAATTTACTGAGTGT ATCGGTCCCA CTGAGCCAGT GCATAGCATG GTAACAAACA GTTCTAAATT ATCAATGACTTAACAGAATT AACTAAATTA ACAAAAGTTA CTTTCTCACT TGTACTAAAT ATCTATAATG TATGGGCTCAGGCTTCTGCA TTTTATACTC AGGATTCTAG ACTGATGGAG AAGTTGCCAT GTGGGGGAAC ATTGATGGATACTGTGATAA AGCAGAAGAA AGCTCTCAGG AGTCTTGCAT AGGCAATGCA CTGTGGCTCA AAAATGACACCCATCACTTT GTCTCCTTCT TTATTGATCA AAACTAATTA ATGCCTCCAA CCAAACAAAA GTGGCCAAGAAATGCAAGTC TACCTTGTGT CTCAAAACAG AGGATGGAGA ATATTTGGTG AAAATTACCA TGACCATCACATGGCCACGT AGGTCTTTAT AATGACAGAG CTAGCATTTG TCACATTGAC CAAGCTTTGT CCATACACTCTACAGTAATG ATGAGTCCTC AGTGCACAGG GGAGGATGCT GAAGACACAG GACAGCATCC TCCAGACACATAAGACTTCA GAGCAGAGGG ATTCTCCCTC CACCTCTCGC AATTCCTTGC TTTCTCCTAA CTTCCTTTACAAAGTCATGC TTGGAAATGT CTATGTATCA TCATGTGGCT CATTTTTTTC TCTGTTCATT TTTTTTCCCCAAAATTCAGC TTCTGTCCCA ACCACCTGCT GCTTTAACCT GGCCAATAGG AAGATACCCC TTCAGCGACTAGAGAGCTAC AGGAGAATCA CCAGTGGCAA ATGTCCCCAG AAAGCTGTGA TGTAAGTAAA TAAAGTTCACCCTCCCCTAG ACAAAAAAAT AATGTCTAGG GCACAGAGTC AAGAACTGTG GGAGTCATAG ACTCTGATAGTTTGACCTCT ATGGTCCAAT TCATTAATTT TCACAAGTGA GTGTTCACTC CCAGCTCCCT GCCTGGGAGATTGCTGTAGT CATATCAATT TCTTCAAGTC AAGAGCAAAG ATGGTTTTAC TGGGCCTTTA AGAGCAGCAACTAACCCAAG AGTCTCATCC TTCCTCCTCT CCGTAGCAAC CCTTTGTCCA GGGGCAGATG GTCCTTAAATATTTAGGGTC AAATGGGCAG AATTTTCAAA AACAATCCTT CCAATTGCAT CCTGATTCTC CCCACAGCTTCAAGACCAAA CTGGCCAAGG ATATCTGTGC CGACCCCAAG AAGAAGTGGG TGCAGGATTC CATGAAGTATCTGGACCAAA AATCTCCAAC TCCAAAGCCA TAAATAATCA CCATTTTTGA AACCAAACCA GAGCCTGAGTGTTGCCTAAT TTGTTTTCCC TTCTTACAAT GCATTCTGAG GTAACCTCAT TATCAGTCCA AAGGGCATGGGTTTTATTAT ATATATATAT ATATATTTTT TTTTAAAAAA AAACGTATTG CATTTAATTT ATTGAGGCTTTAAAACTTAT CCTCCATGAA TATCAGTTAT TTTTAAACTG TAAAGCTTTG TGCAGATTCT TTACCCCCTGGGAGCCCCAA TTCGATCCCC TGTCACGTGT GGGCAATGTT CCCCCTCTCC TCTCTTCCTC CCTGGAATCTTGTAAAGGTC CTGGCAAAGA TGATCAGTAT GAAAATGTCA TTGTTCTTGT GAACCCAAAG TGTGACTCATTAAATGGAAG TAATGTTGTT TTAGGAATAC ATAAAGTATG TGCATATTTT ATTATAGTCA CTAGTTGTAATTTTTTTGTG GGAAATCCAC ACTGAGCTGA GGGGG GCCAGGTCGC TGTTGGTCCA CGCCGCCCGTCGCGCCGCCC GCCCGCTCAG CGTCCGCCGC CGCCATGGGA GGCCGGAGCC GAGCCGGGGT CGGGCAGCAGCAGGGACCCC CCAGAGGCGG GGCCTGTGGG ACCGCTATGG GCGTGGAGAT CGAGACCATC TCCCCCGGAGACGGAAGGAC ATTCCCCAAG AAGGGCCAAA CGTGTGTGGT GCACTACACA GGAATGCTCC AAAATGGGAAGAAGTTTGAT TCATCCAGAG ACAGAAACAA ACCTTTCAAG TTCAGAATTG GCAAACAGGA AGTCATCAAAGGTTTTGAAG AGGGTGCAGC CCAGATGAGC TTGGGGCAGA GGGCGAAGCT GACCTGCACC CCTGATGTGGCATATGGAGC CACGGGCCAC CCCGGTGTCA TCCCTCCCAA TGCCACCCTC ATCTTTGACG TGGAGCTGCTCAACTTAGAG TGAAGGCAGG AAGGAACTCA AGGTGGCTGG AGATGGCTGC TGCTCACCCT CCTAGCCTGCTCTGCCACTG GGACGGCTCC TGCTTTTGGG GCTCTTGATC AGTGTGCTAA CCTCACTGCC TCATGGCATCATCCATTCTC TCTGCCCAAG TTGCTCTGTA TGTGTTCGTC AGTGTTCATG CGAATTCTTG CTTGAGGAAACTTCGGTTGC AGATTGAAGC ATTTCAGGTT GTGCATTTTG TGTGATGCAT GTAGTAGCCT TTCCTGATGACAGAACACAG ATCTCTTGTT CGCACAATCT ACACTGCCTT ACCTTCACTT AAACCACACA CACAAGGTGCTCAGACATGA AATGTACATG GCGTACCGTA CACAGAGGGA CTTGAGCCAG TTACCTTTGC TGTCACTTTCTCTCTTATAA ATTCTGTTAG CTGCTCACTT AAACAATGTC CTCTTTGAGA AAATGTAAAA TAAAGGCTCTGTGCTTGACA GAATTCGGGC CGCCGCCAGG TCGCTGTTGG TCCACGCCGC CCGTCGCGCC GCCCGCCCGCTCAGCGTCCG CCGCCGCCAT GGGAGTGCAG GTGGAAACCA TCTCCCCAGG AGACGGGCGC ACCTTCCCCAAGCGCGGCCA GACCTGCGTG GTGCACTACA CCGGGATGCT TGAAGATGGA AAGAAATTTG ATTCCTCCCGGGACAGAAAC AAGCCCTTTA AGTTTATGCT AGGCAAGCAG GAGGTGATCC GAGGCTGGGA AGAAGGGGTTGCCCAGATGA GTGTGGGTCA GAGAGCCAAA CTGACTATAT CTCCAGATTA TGCCTATGGT GCCACTGGGCACCCAGGCAT CATCCCACCA CATGCCACTC TCGTCTTCGA TGTGGAGCTT CTAAAACTGG AATGACAGGAATGGCCTCCT CCCTTAGCTC CCTGTTCTTG GATCTGCCAT GGAGGGATCT GGTGCCTCCA GACATGTGCACATGAGTCCA TATGGAGCTT TTCCTGATGT TCCACTCCAC TTTGTATAGA CATCTGCCCT GACTGAATGTGTTCTGTCAC TCAGCTTTGC TTCCGACACC TCTGTTTCCT CTTCCCCTTT CTCCTCGTAT GTGTGTTTACCTAAACTATA TGCCATAAAC CTCAAGTTAT TCATTTTATT TTGTTTTCAT TTTGGGGTGA AGATTCAGTTTCAGTCTTTT GGATATAGGT TTCCAATTAA GTACATGGTC AAGTATTAAC AGCACAAGTG GTAGGTTAACATTAGAATAG GAATTGGTGT TGGGGGGGGG GTTTGCAAGA ATATTTTATT TTAATTTTTT GGATGAAATTTTTATCTATT ATATATTAAA CATTCTTGCT GCTGCGCTGC AAAGCCATAG CAGATTTGAG GCGCTGTTGAGGACTGAATT ACTCTCCAAG TTGAGAGATG TCTTTGGGTT AAATTAAAAG CCCTACCTAA AACTGAGGTGGGGATGGGGA GAGCCTTTGC CTCCACCATT CCCACCCACC CTCCCCTTAA ACCCTCTGCC TTTGAAAGTAGATCATGTTC ACTGCAATGC TGGACACTAC AGGTATCTGT CCCTGGGCCA GCAGGGACCT CTGAAGCCTTCTTTGTGGCC TTTTTTTTTT TTCATCCTGT GGTTTTTCTA ATGGACTTTC AGGAATTTTG TAATCTCATAACTTTCCAAG CTCCACCACT TCCTAAATCT TAAGAACTTT AATTGACAGT TTCAATTGAA GGTGCTGTTTGTAGACTTAA CACCCAGTGA AAGCCCAGCC ATCATGACAA ATCCTTGAAT GTTCTCTTAA GAAAATGATGCTGGTCATCG CAGCTTCAGC ATCTCCTGTT TTTTGATGCT TGGCTCCCTC TGCTGATCTC AGTTTCCTGGCTTTTCCTCC CTCAGCCCCT TCTCACCCCT TTGCTGTCCT GTGTAGTGAT TTGGTGAGAA ATCGTTGCTGCACCCTTCCC CCAGCACCAT TTATGAGTCT CAAGTTTTAT TATTGCAATA AAAGTGCTTT ATGCCCGAAT TCGCCGCCGCCA TGGGAGTGCA GGTGGAAACC ATCTCCCCAG GAGACGGGCG CACCTTCCCC AAGCGCGGCCAGACCTGCGT GGTGCACTAC ACCGGGATGC TTGAAGATGG AAAGAAATTT GATICCTCCC GGGACAGAA ACAAGCCCTTT AAGTTTATGC TAGGCAAGCA GGAGGTGATC CGAGGCTGGG AAGAAGGGGT TGCCCAGATGAGTGTGGGTC AGAGAGCCAA ACTGACTATA TCTCCAGATT ATGCCTATGG TGCCACTGGG CACCCAGGCATCATCCCACC ACATGCCACT CTCGTCTTCG ATGTGGAGCT TCTAAAACTG GAATGACAGG AATGGCCTCCTCCCTTAGCT CCCTGTTCTT GGATCTGCCR TGGAGGGATC TGGTGCCTCC AGACATGTGC ACATGARTCCATATGGAGCT TTTCCTGATG TTCCACTCCA CTTTGTATAG ACATCTGCCC TGACTGAATG TGTTCTGTCACTCAGCTTTG CTTCCGACAC CTCTGTTTCC TCTTCCCCTT TCTCCTCGTA TGTGTGTTTA CCTAAACTATATGCCATAAA CCTCAAGTTA TTCA AAGCTTCTAC CCTAGTCTGG TGCTACACTT ACATTGCTTA CATCCAAGTGTGGTTATTTC TGTGGCTCCT GTTATAACTA TTATAGCACC AGGTCTATGA CCAGGAGAAT TAGACTGGCATTAAATCAGA ATAAGAGATT TTGCACCTGC AATAGACCTT ATGACACCTA ACCAACCCCA TTATTTACAATTAAACAGGA ACAGAGGGAA TACTTTATCC AACTCACACA AGCTGTTTTC CTCCCAGATC CATGCTTTTTTGCGTTTATT ATTTTTTAGA GATGGGGGCT TCACTATGTT GCCCACACTG GACTAAAACT CTGGGCCTCAAGTGATTGTC CTGCCTCAGC CTCCTGAATA GCTGGGACTA CAGGGGCATG CCATCACACC TAGTTCATTTCCTCTATTTA AAATATACAT GGCTTAAACT CCAACTGGGA ACCCAAAACA TTCATTTGCT AAGAGTCTGGTGTTCTACCA CCTGAACTAG GCTGGCCACA GGAATTATAA AAGCTGAGAA ATTCTTTAAT AATAGTAACCAGGCAACATC ATTGAAGGCT CATATGTAAA AATCCATGCC TTCCTTTCTC CCAATCTCCA TTCCCAAACTTAGCCACTGG TTCTGGCTGA GGCCTTACGC ATACCTCCCG GGGCTTGCAC ACACCTTCTT CTACAGAAGACACACCTTGG GCATATCCTA CAGAAGACCA GGCTTCTCTC TGGTCCTTGG TAGAGGGCTA CTTTACTGTAACAGGGCCAG GGTGGAGAGT TCTCTCCTGA AGCTCCATCC CCTCTATAGG AAATGTGTTG ACAATATTCAGAAGAGTAAG AGGATCAAGA CTTCTTTGTG CTCAAATACC ACTGTTCTCT TCTCTACCCT GCCCTAACCAGGAGCTTGTC ACCCCAAACT CTGAGGTGAT TTATGCCTTA ATCAAGCAAA CTTCCCTCTT CAGAAAAGATGGCTCATTTT CCCTCAAAAG TTGCCAGGAG CTGCCAAGTA TTCTGCCAAT TCACCCTGGA GCACAATCAACAAATTCAGC CAGAACACAA CTACAGCTAC TATTAGAACT ATTATTATTA ATAAATTCCT CTCCAAATCTAGCCCCTTGA CTTCGGATTT CACGATTTCT CCCTTCCTCC TAGAAACTTG ATAAGTTTCC CGCGCTTCCCTTTTTCTAAG ACTACATGTT TGTCATCTTA TAAAGCAAAG GGGTGAATAA ATGAACCAAA TCAATAACTTCTGGAATATC TGCAAACAAC AATAATATCA GCTATGCCAT CTTTCACTAT TTTAGCCAGT ATCGAGTTGAATGAACATAG AAAAATACAA AACTGAATTC TTCCCTGTAA ATTCCCCGTT TTGACGACGC ACTTGTAGCCACGTAGCCAC GCCTACTTAA GACAATTACA AAAGGCGAAG AAGACTGACT CAGGCTTAAG CTGCCAGCCAGAGAGGGAGT CATTTCATTG GCGTTTGAGT CAGCAAAGGT ATTGTCCTCA CATCTCTGGC TATTAAAGTATTTTCTGTTG TTGTTTTTCT CTTTGGCTGT TTTCTCTCAC ATTGCCTTCT CTAAAGCTAC AGTCTCTCCTTTCTTTTCTT GTCCCTCCCT GGTTTGGTAT GTGACCTAGA ATTACAGTCA GATTTCAGAA AATGATTCTCTCATTTTGCT GATAAGGACT GATTCGTTTT ACTGAGGGAC GGCAGAACTA GTTTCCTATG AGGGCATGGGTGAATACAAC TGAGGCTTCT CATGGGAGGG AATCTCTACT ATCCAAAATT ATTAGGAGAA AATTGAAAATTTCCAACTCT GTCTCTCTCT TACCTCTGTG TAAGGCAAAT ACCTTATTCT TGTGGTGTTT TTGTAACCTCTTCAAACTTT CATTGATTGA ATGCCTGTTC TGGCAATACA TTAGGTTGGG CACATAAGGA ATACCAACATAAATAAAACA TTCTAAAAGA AGTTTACGAT CTAATAAAGG AGACAGGTAC ATAGCAAACT AATTCAAAGGAGCTAGAAGA TGGAGAAAAT GCTGAATGTG GACTAAGTCA TTCAACAAAG TTTTCAGGAA GCACAAAGAGGAGGGGCTCC CCTCACAGAT ATCTGGATTA GAGGCTGGCT GAGCTGATGG TGGCTGGTGT TCTCTGTTGCAGAAGTCAAG ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGGTA AGGAATAAGATTTATCTCTT GTGATTTAAT GAGGGTTTCA AGGCTCACCA GAATCCAGCT AGGCATAACA GTGGCCAGCATGGGGGCAGG CCGGCAGAGG TTGTAGAGAT GTGTACTAGT CCTGAAGTCA GAGCAGGTTC AGAGAAGACCCAGAAAAACT AAGCATTCAG CATGTTAAAC TGAGATTACA TTGGCAGGGA GACCGCCATT TTAGAAAAATTATTTTTGAG GTCTGCTGAG CCCTACATGA ATATCAGCAT CAACTTAGAC ACAGCCTCTG TTGAGATCACATGCCCTGAT ATAAGAATGG GTTTTACTGG TCCATTCTCA GGAAAACTTG ATCTCATTCA GGAACAGGAAATGGCTCCAC AGCAAGCTGG GCATGTGAAC TCACATATGC AGGCAAATCT CACTCAGATG TAGAAGAAAGGTAAATGAAC ACAAAGATAA AATTACGGAA CATATTAAAC TAACATGATG TTTCCATTAT CTGTAGTAAATACTAACACA AACTAGGCTG TCAAAATTTT GCCTGGATAT TTTACTAAGT ATAAATTATG AAATCTGTTTTAGTGAATAC ATGAAAGTAA TGTGTAACAT ATAATCTATT TGGTTAAAAT AAAAAGGAAG TGCTTCAAAACCTTTCTTTT CTCTAAAGGA GCTTAACATT CTTCCCTGAA CTTCAATTAA AGCTCTTCAA TTTGTTAGCCAAGTCCAATT TTTACAGATA AAGCACAGGT AAAGCTCAAA GCCTGTCTTG ATGACTACTA ATTCCAGATTAGTAAGATAT GAATTACTCT ACCTATGTGT ATGTGTAGAA GTCCTTAAAT TTCAAAGATG ACAGTAATGGCCATGTGTAT GTGTGTGACC CACAACTATC ATGGTCATTA AAGTACATTG GCCAGAGACC ACATGAAATAACAACAATTA CATTCTCATC ATCTTATTTT GACAGTGAAA ATGAAGAAGA CAGTTCCTCC ATTGATCATCTGTCTCTGAA TCAGGTAAGC AAATGACTGT AATTCTCATG GGACTGCTAT TCTTACACAG TGGTTTCTTCATCCAAAGAG AACAGCAATG ACTTGAATCT TAAATACTTT TGTTTTACCC TCACTAGAGA TCCAGAGACCTGTCTTTCAT TATAAGTGAG ACCAGCTGCC TCTCTAAACT AATAGTTGAT GTGCATTGGC TTCTCCCAGAACAGAGCAGA ACTATCCCAA ATCCCTGAGA ACTGGAGTCT CCTGGGGCAG GCTTCATCAG GATGTTAGTTATGCCATCCT GAGAAAGCCC CGCAGGCCGC TTCACCAGGT GTCTGTCTCC TAACGTGATG TGTTGTGGTTGTCTTCTCTG ACACCAGCAT CAGAGGTTAG AGAAAGTCTC CAAACATGAA GCTGAGAGAG AGGAAGCAAGCCAGCTGAAA GTGAGAAGTC TACAGCCACT CATCAATCTG TGTTATTGTG TTTGGAGACC ACAAATAGACACTATAAGTA CTGCCTAGTA TGTCTTCAGT ACTGGCTTTA AAAGCTGTCC CCAAAGGAGT ATTTCTAAAATATTTTGAGC ATTGTTAAGC AGATTTTTAA CCTCCTGAGA GGGAACTAAT TGGAAAGCTA CCACTCACTACAATCATTGT TAACCTATTT AGTTACAACA TCTCATTTTT GAGCATGCAA ATAAATGAAA AAGTCTTCCTAAAAAAATCA TCTTTTTATC CTGGAAGGAG GAAGGAAGGT GAGACAAAAG GGAGAGAGGG AGGGAAGCCTAATGAAACAC CAGTTACCTAAGACCAGAAT GGAGATCCTC CTCACTACCT CTGTTGAATA CAGCACCTACTGAAAGAACT TTCATTCCCT GACCATGAAC AGCCTCTCAG CTTCTGTTTT CCTTCCTCAC AGAAATCCTTCTATCATGTA AGCTATGGCC CACTCCATGA AGGCTGCATG GATCAATCTG TGTCTCTGAG TATCTCTGAAACCTCTAAAA CATCCAAGCT TACCTTCAAG GAGAGCATGG TGGTAGTAGC AACCAACGGG AAGGTTCTGAAGAAGAGACG GTTGAGTTTA AGCCAATCCA TCACTGATGA TGACCTGGAG GCCATCGCCA ATGACTCAGAGGAAGGTAAG GGGTCAAGCA CAATAATATC TTTCTTTTAC AGTTTTAAGC AAGTAGGGAC AGTAGAATTTAGGGGAAAAT TAAACGTGGA GTCAGAATAA CAAGAAGACA ACCAAGCATT AGTCTGGTAA CTATACAGAGGAAAATTAAT TTTTATCCTT CTCCAGGAGG GAGAAATGAG CAGTGGCCTG AATCGAGAAT ACTTGCTCACAGCCATTATT TCTTAGCCAT ATTGTAAAGG TCGTGTGACT TTTAGCCTTT CAGGAGAAAG CAGTAATAAGACCACTTACG AGCTATGTTC CTCTCATACT AACTATGCCT CCTTGGTCAT GTTACATAAT CTTTTCGTGATTCAGTTTCC TCTACTGTAA AATGGAGATA ATCAGAATCC CCCACTCATT GGATTGTTGT AAAGATTAAGAGTCTCAGGC TTTACAGACT GAGCTAGCTG GGCCCTCCTG ACTGTTATAA AGATTAAATG AGTCAACATCCCCTAACTTC TGGACTAGAA TAATGTCTGG TACAAAGTAA GCACCCAATA AATGTTAGCT ATTACTATCATTATTATTAT TATTTTATTT TTTTTTTTTG AGATGGAGTC TGGCTCTGTC ACCCAGGCTG GAGTGCAGTGGCACAATCTC GGCTCACTGC AAGCTCTGCC TCCTGGGTTC ATGCCATTCT CCTGCCTCAG CCTCCCGAGTAAGCTGGGAA TACAGGCACC CGCCACTGTT CCCGGCTAAT TTTTTGTATT TTTAGTAGAG ACGGAGTTTCACCGTGGTCT CCATCTCCTC GTGATCCACC CACCTTGGCC TCCCAAAGTG CCGGGATTAC AGGCGTGAGCCACCGCGCCC GGCCTATTAT TATTATTATT ACTACTACTA CTACCTATAT GAATACTACC AGCAATACTAATTTATTAAT GACTGGATTA TGTCTAAACC TCACAAGAAT CCTACCTTCT CATTTTACAT AAAAGGAAACTAAGCTCATT GAGATAGGTA AACTGCCCAA TGGCATACAT CTGTAAGTGG GAGAGCCTCA AATCTAATTCAGTTCTACCT GAGTAAAAAA ATCATGGTTT CTCCTCCATC CCTTTACTGT ACAAGCCTCC ACATGAACTATAAACCCAAT ATTCCTGTTT TTAAGATAAT ACCTAAGCAA TAACGCATGT TCACCTAGAA GGTTTTAAAATGTAACAAAA TATAAGAAAA TAAAAATCAC TCATATCGTC AGTGAGAGTT TACTACTGCC AGCACTATGGTATGTTTCCT TAAAATCTTT GCTATACACA TACCTACATG TGAACAAATA TGTCTAACAT CAAGACCACACTATTTACAA CTTTATATCC AGCTTTTCTT ACTTAGCAAT GTATTGAGGA CATTTTAGAG TGCCCGTTTTTCACCATTAT AAGCAATGCA ACAATGAACA TCTGTATAAA TAAATATTCA TTTCTCTCAC CCTTTATTTCCTTAGAATAT ATTCCTAGAA GTAGAATTTC CCAGAGCCAT GAGGATTTGT GACGCTATTG ATATGTGCCACTTTGCACTC TCTGTGACAT ATATAATTAT TTTTAATGCA TTCATTTTTT TCTCAGAGTG CATTCGTTTGAAAACATAGA CGGGAAATAC TGGTAGTCTT CCTTGTCAGT TAGAAACACC CAAACAATGA AAAATGAAAAAGTTGCACAA ATAGTCTCTA AAAACAATGA AACTATTGCC TGAGGAATTG AAGTTTAAAA AGAAGCACATAAGCAACAAC AAGGATAATC CTAGAAAACC AGTTCTGCTG ACTGGGTGAT TTCACTTCTC TTTGCTTCCTCATCTGGATT GGAATATTCC TAATACCCCC TCCAGAACTA TTTTCCCTGT TTGTACTAGA CTGTGTATATCATCTGTGTT TGTACATAGA CATTAATCTG CACTTGTGAT CATGGTTTTA GAAATCATCA AGCCTAGGTCATCACCTTTT AGCTTCCTGA GCAATGTGAA ATACAACTTT ATGAGGATCA TCAAATACGA ATTCATCCTGAATGACGCCC TCAATCAAAG TATAATTCGA GCCAATGATC AGTACCTCAC GGCTGCTGCA TTACATAATCTGGATGAAGC AGGTACATTA AAATGGCACC AGACATTTCT GTCATCCTCC CCTCCTTTCA TTTACTTATTTATTTATTTC AATCTTTCTG CTTGCAAAAA ACATACCTCT TCAGAGTTCT GGGTTGCACA ATTCTTCCAGAATAGCTTGA AGCACAGCAC CCCCATAAAA ATCCCAAGCC AGGGCAGAAG GTTCAACTAA ATCTGGAAGTTCCACAAGAG AGAAGTTTCC TATCTTTGAG AGTAAAGGGT TGTGCACAAA GCTAGCTGAT GTACTACCTCTTTGGTTCTT TCAGACATTC TTACCCTCAA TTTTAAAACT GAGGAAACTG TCAGACATAT TAAATGATTTACTCAGATTT ACCCAGAAGC CAATGAAGAA CAATCACTCT CCTTTAAAAA GTCTGTTGAT CAAACTCACAAGTAACACCA AACCAGGAAG ATCTTTATTA TCTCTGATAA CATATTTGTG AGGCAAAACC TCCAATAAGCTACAAATATG GCTTAAAGGA TGAAGTTTAG TGTCCAAAAA CTTTTATCAC ACACATCCAA TTTTCATGGCGGACATGTTT TAGTTTCAAC AGTATACATA TTTTCAAAGG TCCAGAGAGG CAATTTTGCA ATAAACAAGCAAGACTTTTT CTGATTGGAT GCACTTCAGC TAACATGCTT TCAACTCTAC ATTTACAAAT TATTTTGTGTTCTATTTTTC TACTTAATAT TATTTCTGCA ATTTTCCCAA TATTGACATC GTGTATGTAT TTGCCATTTTTAATATCACT AGACAATTCA ATCAGGTTGC TACGTTGGTC CCTTGGGTTT ACTCTAAATA GCTTGATTGCAAATATCTTT GTATATATTA TTGTTTTTTC TCCTATCTTG TAATTTCTTT GAGCACATCC CAAAGAGGAATGCCTAGATC AATGGGCACA AATAATTTGA CAGCTCTTAT TAAACATTAT TCTGTAAGTA AAAACTGAACTACTTTTCAG TATCACTAGC AACATATGAG TGTATCAGCT TCCTAAACCC CTCCATGTTA GGTCATTATGAACTTATGAT CTAACAAATT ACAGGGTCTT ATCCCACTAA TGAAATTATA AGAGATTCAA CACTTATTCAGCCCCGAAGG ATTCATTCAA CGTAGAAAAT TCTAAGAACA TTAACCAAGT ATTTACCTGC CTAGTGAGTGTGGAAGACAT TGTGAAGGAC ACAAAGATGT ATAGAATTCC ATTCCTGACT TCCAGGTATT TACACCATAGGTGGGGACCT AACTACACAC ACACACACAC ACACACACAC ACACACACAC ACCATGCACA CACAATCTACATCAACACTT GATTTTATAC AAATACAATG AATTTACTTT CTTTTTGGTT CTTCTCTTCA CCAGTGAAATTTGACATGGG TGCTTATAAG TCATCAAAGG ATGATGCTAA AATTACCGTG ATTCTAAGAA TCTCAAAAACTCAATTGTAT GTGACTGCCC AAGATGAAGA CCAACCAGTG CTGCTGAAGG TCAGTTGTCC TTTGTCTCCAACTTACCTTC ATTTACATCT CATATGTTTG TAAATAAGCC CAATAGGCAG ACACCTCTAA CAAGGTGACACTGTCCTCTT TCCTTCCTAC CACAGCCCCC ACCTACCCAC CCCACTCCCA TTGATTCCAG AGGCGTGCCTAGGCAGGATC TATGAGAAAA TATAACAGAG AGTAAGAGGA AAATTACCTT CTTTCTTTTT CCTTTCCCTGCCTGACCTTA TTCACCTCCC ATCCCAGAGC ATCCATTTAT TCCATTGATC TTTACTGACA TCTATTATCTGACCTACACA ATACTAGACA TTAGGACAAT GTGGCCTGCC TCCAAGAAAC TCAAATAAGC CAACTGAGATCAGAGAGGAT TAATCACCTG CCAATGGGCA CAAAGCAACA AGCTGGGAGC CAAGTCCCAA AATGGGGCCTGCTGCTTCCA GTTCCCCTCT CTCTGCATTG ATGTCAGCAT TATCCTTCGT CCCAGTCCTG TCTCCACTACCACTTTCCCC CTCAAACACA CACACACACA ACAGCCTTAG ATGTTTTCTC CACTGATAAG TAGGTGACTCAATTTGTAAG TATATAATCC AAGACCTTCT ATTCCCAAGT AGAATTTATG TGCCTGCCTG TGCTTTTCTACCTGGATCAA GTGATGTCTA CAGAGTAGGG CAGTAGCTTC ATTCATGAAC TCATTCAACA AGCATTATTCACTGAGAGCC TTGTATTTTT CAGGCATAGT GCCAACAGCA GTGTGGACAG TGGTGCATCA AAGCCTCTAGTCTCATAGAA CTTAGTCTTC TGGAGGATAT GGAAAACAGA CAACCCAAAC AACCAACAAA AGAGCAAGATGCTGCAAAAA AAAAAAAAAT GAATAGGGTG CTAAGATAGA GAAAAGTGGG AGAGTGCTAT TTAGACAAAGTGGTAAAAAC AAAGCCCCTT GTGAGATGAG AGCTGCCGAC AGAGGGGGCG GGTCATGGTT GTGGGTTTTTGGGTAGGACA TTCAGAGGAG GGGGCGGGTC GTGGTTGTGG GTTTTTGGGT AGGACATTCA GAGGAGGGGGCGGGTCGTGG TTGTGGGTTT TTGGGTAGGA CATTCAGAGG AGGGGGCGGG TCGTGGTTGT GGGTTTTTGGGTAGGACATT CAGAGGAGGG GGCGGGTCGT GGTTGTGGGT TTTTGGGACA TTCAGAGGAG TCTGAATGCACCCAGGCCTA CAACTTCAAG ATGGTAAAGG ACAGCTCCAA GGATCAGAAG AAGCATTCTT GGAACTGGGGCATTTTGAGA AGGAGGAAAA ATATGCAGAG ACTAGTGCTT GCAGAGCTTG CATTTGGATT TCATTTGAGGTACAATGAAA ACCCATTAAT GGGTTTCACA CAGTGCAATG GCCTGACCTC ACTTATATTT CCTAAAATAGAAAACAGATC AGAAGGAAGG CAATAGAGAA GCAGAAAGTC CAATGAGGAG GTTTCACAGC AGTCATGGGGGTGGGGTAAG GAAAAGAAGT GGAAAGAAAC AGACAGAATT GGGTTATATT TTGGAGATAG AACCAACAGAAGGAAGAGGA GAAACAACAT TTACTGAGAA GGGAAAAAGT AGGAGAGGAA TAGGTTTGGG AAATAAATCCTGCTGACATT GGAAACCCCA AGGAAGCCTC AAAAGTATAT TTACTTGCTT TAGATTTAAA AGAATAGGAAAGAAGCATCT CAACTTGGAA TTTGAAATCT ATTTTTCCAT AAAAGTATTG TTAAATTCTA CTCATACTCACAAGAAAAGT ACATTCTAAA GAGTATATTG AAAGAGTTTA CTGATATACT TAGGAATTTT GTGTGTATGTGTGTGTGTGT ATGTGTGTGT GTGTGTTTAA CCTTCAATTG TTGACTTAAA TACTGAGATA AATGTCATCTAAATGCTAAA TTGATTTCCC AAAGGTATGA TTTGTTCACT TGGAGATCAA AATGTTTAGG GGGCTTAGAATCACTGTAGT GCTCAGATTT GATGCAAAAT GTCTTAGGCC TATGTTGAAG GCAGGACAGA AACAATGTTTCCCTCCTACC TGCCTGGATA CAGTAAGATA CTAGTGTCAC TGACAATCTT CATAACTAAT TTAGATCTCTCTCCAATCAA CTAAGGAAAT CAACTCTTAT TAATAGACTG GGCCACACAT CTACTAGGCA TGTAATAAATGCTTGCTGAA TGAACAAATG AATGAAGAGC CTATAGCATC ATGTTACAGC CATAGTCCTA AAGTGGTGTTTCTCATGAAG GCCAAATGCT AAGGGATTGA GCTTCAGTCC TTTTTCTAAC ATCTTGTTCT CTAACAGAATTCTCTTCTTT TCTTCATAGG AGATGCCTGA GATACCCAAA ACCATCACAG GTAGTGAGAC CAACCTCCTCTTCTTCTGGG AAACTCACGG CACTAAGAAC TATTTCACAT CAGTTGCCCA TCCAAACTTG TTTATTGCCACAAAGCAAGA CTACTGGGTG TGCTTGGCAG GGGGGCCACC CTCTATCACT GACTTTCAGA TACTGGAAAACCAGGCGTAG GTCTGGAGTC TCACTTGTCT CACTTGTGCA GTGTTGACAG TTCATATGTA CCATGTACATGAAGAAGCTA AATCCTTTAC TGTTAGTCAT TTGCTGAGCA TGTACTGAGC CTTGTAATTC TAAATGAATGTTTACACTCT TTGTAAGAGT GGAACCAACA CTAACATATA ATGTTGTTAT TTAAAGAACA CCCTATATTTTGCATAGTAC CAATCATTTT AATTATTATT CTTCATAACA ATTTTAGGAG GACCAGAGCT ACTGACTATGGCTACCAAAA AGACTCTACC CATATTACAG ATGGGCAAAT TAAGGCATAA GAAAACTAAG AAATATGCACAATAGCAGTT GAAACAAGAA GCCACAGACC TAGGATTTCA TGATTTCATT TCAACTGTTT GCCTTCTGCTTTTAAGTTGC TGATGAACTC TTAATCAAAT AGCATAAGTT TCTGGGACCT CAGTTTTATC ATTTTCAAAATGGAGGGAAT AATACCTAAG CCTTCCTGCC GCAACAGTTT TTTATGCTAA TCAGGGAGGT CATTTTGGTAAAATACTTCT CGAAGCCGAG CCTCAAGATG AAGGCAAAGC ACGAAATGTT ATTTTTTAAT TATTATTTATATATGTATTT ATAAATATAT TTAAGATAAT TATAATATAC TATATTTATG GGAACCCCTT CATCCTCTGAGTGTGACCAG GCATCCTCCA CAATAGCAGA CAGTGTTTTC TGGGATAAGT AAGTTTGATT TCATTAATACAGGGCATTTT GGTCCAAGTT GTGCTTATCC CATAGCCAGG AAACTCTGCA TTCTAGTACT TGGGAGACCTGTAATCATAT AATAAATGTA CATTAATTAC CTTGAGCCAG TAATTGGTCC GATCTTTGAC TCTTTTGCCATTAAACTTAC CTGGGCATTC TTGTTTCATT CAATTCCACC TGCAATCAAG TCCTACAAGC TAAAATTAGATGAACTCAAC TTTGACAACC ATGAGACCAC TGTTATCAAA ACTTTCTTTT CTGGAATGTA ATCAATGTTTCTTCTAGGTT CTAAAAATTG TGATCAGACC ATAATGTTAC ATTATTATCA ACAATAGTGA TTGATAGAGTGTTATCAGTC ATAACTAAAT AAAGCTTGCA ACAAAATTCT CTGACACATA GTTATTCATT GCCTTAATCATTATTTTACT GCATGGTAAT TAGGGACAAA TGGTAAATGT TTACATAAAT AATTGTATTT AGTGTTACTTTATAAAATCA AACCAAGATT TTATATTTTT TTCTCCTCTT TGTTAGCTGC CAGTATGCAT AAATGGCATTAAGAATGATA ATATTTCCGG GTTCACTTAA AGCTCATATT ACACATACAC AAAACATGTG TTCCCATCTTTATACAAACT CACACATACA GAGCTACATT AAAAACAACT AATAGGCCAG GCACGGTGGC TCAGACCTGTAATCCCAGCA CTTTGGGAGG ACCAACCTCT TCGAGGCACA AGGCACAACA GGCTGCTCTG GGATTCTCTTCAGCCAATCT TCATTGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACC TGAGCTCGCC AGTGAAATGATGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGC CCTAAACAGA TGAAGTGCTCCTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAA TCTCCGACCA CCACTACAGCAAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG ACAAGCTGAG GAAGATGCTG GTTCCCTGCCCACAGACCTT CCAGGAGAAT GACCTGAGCA CCTTCTTTCC CTTCATCTTT GAAGAAGAAC CTATCTTCTTCGACACATGG GATAACGAGG CTTATGTGCA CGATGCACCT GTACGATCAC TGAACTGCAC GCTCCGGGACTCACAGCAAA AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCT CCACCTCCAG GGACAGGATATGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGT AATGACAAAA TACCTGTGGCCTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATG ATAAGCCCAC TCTACAGCTGGAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG AAAAGCGATT TGTCTTCAAC AAGATAGAAATCAATAACAA GCTGGAATTT GAGTCTGCCC AGTTCCCCAA CTGGTACATC AGCACCTCTC AAGCAGAAAACATGCCCGTC TTCCTGGGAG GGACCAAAGG CGGCCAGGAT ATAACTGACT TCACCATGCA ATTTGTGTCTTCCTAAAGAG AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAAT CCCTAGGGCT GGCAGAAAGGGAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCT ACACCAATGC CCAACTGCCTGCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCA GCTCTCTCCT TTCAGGGCCAATCCCCAGCC CTTTTGTTGA GCCAGGCCTC TCTCACCTCT CCTACTCACT TAAAGCCCGC CTGACAGAAACCACGGCCAC ATTTGGTTCT AAGAAACCCT CTGTCATTCG CTCCCACATT CTGATGAGCA ACCGCTTCCCTATTTATTTA TTTATTTGTT TGTTTGTTTT ATTCATTGGT CTAATTTATT CAAAGGGGGC AAGAAGTAGCAGTGTCTGTA AAAGAGCCTA GTTTTTAATA GCTATGGAAT CAATTCAATT TGGACTGGTG TGCTCTCTTTAAATCAAGTC CTTTAATTAA GACTGAAAAT ATATAAGCTC AGATTATTTA AATGGGAATA TTTATAAATGAGCAAATATC ATACTGTTCA ATGGTTCTGA AATAAACTTC TCTGAAG AGAAAGAAAG AGAGAGAGAAAGAAAAGAAA GAGGAAGGAA GGAAGGAAGG AAGAAAGACA GGCTCTGAGG AAGGTGGCAG TTCCTACAACGGGAGAACCA GTGGTTAATT TGCAAAGTGG ATCCTGTGGA GGCANNCAGA GGAGTCCCCT AGGCCACCCAGACAGGGCTT TTAGCTATCT GCAGGCCAGA CACCAAATTT CAGGAGGGCT CAGTGTTAGG AATGGATTATGGCTTATCAA ATTCACAGGA AACTAACATG TTGAACAGCT TTTAGATTTC CTGTGGAAAA TATAACTTACTAAAGATGGA GTTCTTGTGA CTGACTCCTG ATATCAAGAT ACTGGGAGCC AAATTAAAAA TCAGAAGGCTGCTTGGAGAG CAAGTCCATG AAATGCTCTT TTTCCCACAG TAGAACCTAT TTCCCTCGTG TCTCAAATACTTGCACAGAG GCTCACTCCC TTGGATAATG CAGAGCGAGC ACGATACCTG GCACATACTA ATTTGAATAAAATGCTGTCA AATTCCCATT CACCCATTCA AGCAGCAAAC TCTATCTCAC CTGAATGTAC ATGCCAGGCACTGTGCTAGA CTTGGCTCAA AAAGATTTCA GTTTCCTGGA GGAACCAGGA GGGCAAGGTT TCAACTCAGTGCTATAAGAA GTGTTACAGG CTGGACACGG TGGCTCACGC CTGTAATCCC AACATTTGGG AGGCCGAGGCGGGCAGATCA CAAGGTCAGG AGATCGAGAC CATCCTGGCT AACATGGTGA AACCCTGTCT CTACTAAAAATACAAAAAAT TAGCCGGGCG TTGGCGGCAG GTGCCTGTAG TCCCAGCTGC TGGGGAGGCT GAGGCAGGAGAATGGTGTGA ACCCGGGAGG CGGAACTTGC AGGGGGCCGA GATCGTGCCA CTGCACTCCA GCCTGGGCGACAGAGTGAGA CTCTGTCTCA AAAAAAAAAA AAAAGTGTTA TGATGCAGAC CTGTCAAAGA GGCAAAGGAGGGTGTTCCTA CACTCCAGGC ACTGTTCATA ACCTGGACTC TCATTCATTC TACAAATGGA GGGCTCCCCTGGGCAGATCC CTGGAGCAGG CACTTTGCTG GTGTCTCGGT TAAAGAGAAA CTGATAACTC TTGGTATTACCAAGAGATAG AGTCTCAGAT GGATATTCTT ACAGAAACAA TATTCCCACT TTTCAGAGTT CACCAAAAAATCATTTTAGG CAGAGCTCAT CTGGCATTGA TCTGGTTCAT CCATGAGATT GGCTAGGGTA ACAGCACCTGGTCTTGCAGG GTTGTGTGAG CTTATCTCCA GGGTTGCCCC AACTCCGTCA GGAGCCTGAA CCCTGCATACCGTATGTTCT CTGCCCCAGC CAAGAAAGGT CAATTTTCTC CTCAGAGGCT CCTGCAATTG ACAGAGAGCTCCCGAGGCAG AGAACAGCAC CCAAGGTAGA GACCCACACC CTCAATACAG ACAGGGAGGG CTATTGGCCCTTCATTGTAC CCATTTATCC ATCTGTAAGT GGGAAGATTC CTAAACTTAA GTACAAAGAA GTGAATGAAGAAAAGTATGT GCATGTATAA ATCTGTGTGT CTTCCACTTT GTCCCACATA TACTAAATTT AAACATTCTTCTAACGTGGG AAAATCCAGT ATTTTAATGT GGACATCAAC TGCACAACGA TTGTCAGGAA AACAATGCATATTTGCATGG TGATACATTT GCAAAATGTG TCATAGTTTG CTACTCCTTG CCCTTCCATG AACCAGAGAATTATCTCAGT TTATTAGTCC CCTCCCCTAA GAAGCTTCCA CCAATACTCT TTTCCCCTTT CCTTTAACTTGATTGTGAAA TCAGGTATTC AACAGAGAAA TTTCTCAGCC TCCTACTTCT GCTTTTGAAA GCTATAAAAACAGCGAGGGA GAAACTGGCA GATACCAAAC CTCTTCGAGG CACAAGGCAC AACAGGCTGC TCTGGGATTCTCTTCAGCCA ATCTTCATTG CTCAAGTATG ACTTTAATCT TCCTTACAAC TAGGTGCTAA GGGAGTCTCTCTGTCTCTCT GCCTCTTTGT GTGTATGCAT ATTCTCTCTC TCTCTCTCTT TCTTTCTCTG TCTCTCCTCTCCTTCCTCTC TGCCTCCTCT CTCAGCTTTT TGCAAAAATG CCAGGTGTAA TATAATGCTT ATGACTCGGGAAATATTCTG GGAATGGATA CTGCTTATCT AACAGCTGAC ACCCTAAAGG TTAGTGTCAA AGCCTCTGCTCCAGCTCTCC TAGCCAATAC ATTGCTAGTT GGGGTTTGGT TTAGCAAATG CTTTTCTCTA GACCCAAAGGACTTCTCTTT CACACATTCA TTCATTTACT CAGAGATCAT TTCTTTGCAT GACTGCCATG CACTGGATGCTGAGAGAAAT CACACATGAA CGTAGCCGTC ATGGGGAAGT CACTCATTTT CTCCTTTTTA CACAGGTGTCTGAAGCAGCC ATGGCAGAAG TACCTGAGCT CGCCAGTGAA ATGATGGCTT ATTACAGGTC AGTGGAGACGCTGAGACCAG TAACATGAGC AGGTCTCCTC TTTCAAGAGT AGAGTGTTAT CTGTGCTTGG AGACCAGATTTTTCCCCTAA ATTGCCTCTT TCAGTGGCAA ACAGGGTGCC AAGTAAATCT GATTTAAAGA CTACTTTCCCATTACAAGTC CCTCCAGCCT TGGGACCTGG AGGCTATCCA GATGTGTTGT TGCAAGGGCT TCCTGCAGAGGCAAATGGGG AGAAAAGATT CCAAGCCCAC AATACAAGGA ATCCCTTTGC AAAGTGTGGC TTGGAGGGAGAGGGAGAGCT CAGATTTTAG CTGACTCTGC TGGGCTAGAG GTTAGGCCTC AAGATCCAAC AGGGAGCACCAGGGTGCCCA CCTGCCAGGC CTAGAATCTG CCTTCTGGAC TGTTCTGCGC ATATCACTGT GAAACTTGCCAGGTGTTTCA GGCAGCTTTG AGAGGCAGGC TGTTTGCAGT TTCTTATGAA CAGTCAAGTC TTGTACACAGGGAAGGAAAA ATAAACCTGT TTAGAAGACA TAATTGAGAC ATGTCCCTGT TTTTATTACA GTGGCAATGAGGATGACTTG TTCTTTGAAG CTGATGGCCC TAAACAGATG AAGGTAAGAC TATGGGTTTA ACTCCCAACCCAAGGAAGGG CTCTAACACA GGGAAAGCTC AAAGAAGGGA GTTCTGGGCC ACTTTGATGC CATGGTATTTTGTTTTAGAA AGACTTTAAC CTCTTCCAGT GAGACACAGG CTGCACCACT TGCTGACCTG GCCACTTGGTCATCATATCA CCACAGTCAC TCACTAACGT TGGTGGTGGT GGCCACACTT GGTGGTGACA GGGGAGGAGTAGTGATAATG TTCCCATTTC ATAGTAGGAA GACAACCAAG TCTTCAACAT AAATTTGATT ATCCTTTTAAGAGATGGATT CAGCCTATGC CAATCACTTG AGTTAAACTC TGAAACCAAG AGATGATCTT GAGAACTAACATATGTCTAC CCCTTTTGAG TAGAATAGTT TTTTGCTACC TGGGGTGAAG CTTATAACAA CAAGACATAGATGATATAAA CAAAAAGATG AATTGAGACT TGAAAGAAAA CCATTCACTT GCTGTTTGAC CTTGACAAGTCATTTTACCC GCTTTGGACC TCATCTGAAA AATAAAGGGC TGAGCTGGAT GATCTCTGAG ATTCCAGCATCCTGCAACCT CCAGTTCTGA AATATTTTCA GTTGTAGCTA AGGGCATTTG GGCAGCAAAT GGTCATTTTTCAGACTCATC CTTACAAAGA GCCATGTTAT ATTCCTGCTG TCCCTTCTGT TTTATATGAT GCTCAGTAGCCTTCCTAGGT GCCCAGCCAT CAGCCTAGCT AGGTCAGTTG TGCAGGTTGG AGGCAGCCAC TTTTCTCTGGCTTTATTTTA TTCCAGTTTG TGATAGCCTC CCCTAGCCTC ATAATCCAGT CCTCAATCTT GTTAAAAACATATTTCTTTA GAAGTTTTAA GACTGGCATA ACTTCTTGGC TGCAGCTGTG GGAGGAGCCC ATTGGCTTGTCTGCCTGGCC TTTGCCCCCC ATTGCCTCTT CCAGCAGCTT GGCTCTGCTC CAGGCAGGAA ATTCTCTCCTGCTCAACTTT CTTTTGTGCA CTTACAGGTC TCTTTAACTG TCTTTCAAGC CTTTGAACCA TTATCAGCCTTAAGGCAACC TCAGTGAAGC CTTAATACGG AGCTTCTCTG AATAAGAGGA AAGTGGTAAC ATTTCACAAAAAGTACTCTC ACAGGATTTG CAGAATGCCT ATGAGACAGT GTTATGAAAA AGGAAAAAAA AGAACAGTGTAGAAAAATTG AATACTTGCT GAGTGAGCAT AGGTGAATGG AAAATGTTAT GGTCATCTGC ATGAAAAAGCAAATCATAGT GTGACAGCAT TAGGGATACA AAAAGATATA GAGAAGGTAT ACATGTATGG TGTAGGTGGGGCATGTACAA AAAGATGACA AGTAGAATCG GGATTTATTC TAAAGAATAG CCTGTAAGGT GTCCAGAAGCCACATTCTAG TCTTGAGTCT GCCTCTACCT GCTGTGTGCC CTTGAGTACA CCCTTAACCT CCTTGAGCTTCAGAGAGGGA TAATCTTTTT ATTTTATTTT ATTTTATTTT GTTTTGTTTT GTTTTGTTTT GTTTTATGAGACAGAGTCTC ACTCTGTTGC CCAGGCTGGA GTGCAGTGGT ACAATCTTGG CTTACTGCAT CCTCCACCTCCTGAGTTCAA GCGATTCTCC TTCCTCAGTC TCCTGAATAG CTAGGATTAC AGGTGCACCC CACCACACCCAGCTAATTTT TGTATTTTTA GTAGAGAAGG GGTTTCGCCA TGTTGGCCAG GCTGGTTTTG AAGTCCTGACCTAAATGATT CATCCACCTC GGCTTCCCAA AGTGCTGGGA TTACAGGCAT GAGCCACCAC GCCTGGCCCAGAGAGGGATG ATCTTTAGAA GCTCGGGATT CTTTCAAGCC CTTTCCTCCT CTCTGAGCTT TCTACTCTCTGATGTCAAAG CATGGTTCCT GGCAGGACCA CCTCACCAGG CTCCCTCCCT CGCTCTCTCC GCAGTGCTCCTTCCAGGACC TGGACCTCTG CCCTCTGGAT GGCGGCATCC AGCTACGAAT CTCCGACCAC CACTACAGCAAGGGCTTCAG GCAGGCCGCG TCAGTTGTTG TGGCCATGGA CAAGCTGAGG AAGATGCTGG TTCCCTGCCCACAGACCTTC CAGGAGAATG ACCTGAGCAC CTTCTTTCCC TTCATCTTTG AAGAAGGTAG TTAGCCAAGAGCAGGCAGTA GATCTCCACT TGTGTCCTCT TGGAAGTCAT CAAGCCCCAG CCAACTCAAT TCCCCCAGAGCCAAAGCCCT TTAAAGGTAG AAGGCCCAGC GGGGAGACAA AACAAAGAAG GCTGGAAACC AAAGCAATCATCTCTTTAGT GGAAACTATT CTTAAAGAAG ATCTTGATGG CTACTGACAT TTGCAACTCC CTCACTCTTTCTCAGGGGCC TTTCACTTAC ATTGTCACCA GAGGTTCGTA ACCTCCCTGT GGGCTAGTGT TATGACCATCACCATTTTAC CTAAGTAGCT CTGTTGCTCG GCCACAGTGA GCAGTAATAG ACCTGAAGCT GGAACCCATGTCTAATAGTG TCAGGTCCAG TGTTCTTAGC CACCCCACTC CCAGCTTCAT CCCTACTGGT GTTGTCATCAGACTTTGACC GTATATGCTC AGGTGTCCTC CAAGAAATCA AATTTTGCCA CCTCGCCTCA CGAGGCCTGCCCTTCTGATT TTATACCTAA ACAACATGTG CTCCACATTT CAGAACCTAT CTTCTTCGAC ACATGGGATAACGAGGCTTA TGTGCACGAT GCACCTGTAC GATCACTGAA CTGCACGCTC CGGGACTCAC AGCAAAAAAGCTTGGTGATG TCTGGTCCAT ATGAACTGAA AGCTCTCCAC CTCCAGGGAC AGGATATGGA GCAACAAGGTAAATGGAAAC ATCCTGGTTT CCCTGCCTGG CCTCCTGGCA GCTTGCTAAT TCTCCATGTT TTAAACAAAGTAGAAAGTTA ATTTAAGGCA AATGATCAAC ACAAGTGAAA AAAAATATTA AAAAGGAATA TACAAACTTTGGTCCTAGAA ATGGCACATT TGATTGCACT GGCCAGTGCA TTTGTTAACA GGAGTGTGAC CCTGAGAAATTAGACGGCTC AAGCACTCCC AGGACCATGT CCACCCAAGT CTCTTGGGCA TAGTGCAGTG TCAATTCTTCCACAATATGG GGTCATTTGA TGGACATGGC CTAACTGCCT GTGGGTTCTC TCTTCCTGTT GTTGAGGCTGAAACAAGAGT GCTGGAGCGA TAATGTGTCC ATCCCCCTCC CCAGTCTTCC CCCCTTGCCC CAACATCCGTCCCACCCAAT GCCAGGTGGT TCCTTGTAGG GAAATTTTAC CGCCCAGCAG GAACTTATAT CTCTCCGCTGTAACGGGCAA AAGTTTCAAG TGCGGTGAAC CCATCATTAG CTGTGGTGAT CTGCCTGGCA TCGTGCCACAGTAGCCAAAG CCTCTGCACA GGAGTGTGGG CAACTAAGGC TGCTGACTTT GAAGGACAGC CTCACTCAGGGGGAAGCTAT TTGCTCTCAG CCAGGCCAAG AAAATCCTGT TTCTTTGGAA TCGGGTAGTA AGAGTGATCCCAGGGCCTCC AATTGACACT GCTGTGACTG AGGAAGATCA AAATGAGTGT CTCTCTTTGG AGCCACTTTCCCAGCTCAGC CTCTCCTCTC CCAGTTTCTT CCCATGGGCT ACTCTCTGTT CCTGAAACAG TTCTGGTGCCTGATTTCTGG CAGAAGTACA GCTTCACCTC TTTCCTTTCC TTCCACATTG ATCAAGTTGT TCCGCTCCTGTGGATGGGCA CATTGCCAGC CAGTGACACA ATGGCTTCCT TCCTTCCTTC CTTCAGCATT TAAAATGTAGACCCTCTTTC ATTCTCCGTT CCTACTGCTA TGAGGCTCTG AGAAACCCTC AGGCCTTTGA GGGGAAACCCTAAATCAACA AAATGACCCT GCTATTGTCT GTGAGAAGTC AAGTTATCCT GTGTCTTAGG CCAAGGAACCTCACTGTGGG TTCCCACAGA GGCTACCAAT TACATGTATC CTACTCTCGG GGCTAGGGGT TGGGGTGACCCTGCATGCTG TGTCCCTAAC CACAAGACCC CCTTCTTTCT TCAGTGGTGT TCTCCATGTC CTTTGTACAAGGAGAAGAAA GTAATGACAA AATACCTGTG GCCTTGGGCC TCAAGGAAAA GAATCTGTAC CTGTCCTGCGTGTTGAAAGA TGATAAGCCC ACTCTACAGC TGGAGGTAAG TGAATGCTAT GGAATGAAGC CCTTCTCAGCCTCCTGCTAC CACTTATTCC CAGACAATTC ACCTTCTCCC CGCCCCCATC CCTAGGAAAA GCTGGGAACAGGTCTATTTG ACAAGTTTTG CATTAATGTA AATAAATTTA ACATAATTTT TAACTGCGTG CAACCTTCAATCCTGCTGCA GAAAATTAAA TCATTTTGCC GATGTTATTA TGTCCTACCA TAGTTACAAC CCCAACAGATTATATATTGT TAGGGCTGCT CTCATTTGAT AGACACCTTG GGAAATAGAT GACTTAAAGG GTCCCATTATCACGTCCACT CCACTCCCAA AATCACCACC ACTATCACCT CCAGCTTTCT CAGCAAAAGC TTCATTTCCAAGTTGATGTC ATTCTAGGAC CATAAGGAAA AATACAATAA AAAGCCCCTG GAAACTAGGT ACTTCAAGAAGCTCTAGCTT AATTTTCACC CCCCCAAAAA AAAAAAATTC TCACCTACAT TATGCTCCTC AGCATTTGGCACTAAGTTTT AGAAAAGAAG AAGGGCTCTT TTAATAATCA CACAGAAAGT TGGGGGCCCA GTTACAACTCAGGAGTCTGG CTCCTGATCA TGTGACCTGC TCGTCAGTTT CCTTTCTGGC CAACCCAAAG AACATCTTTCCCATAGGCAT CTTTGTCCCT TGCCCCACAA AAATTCTTCT TTCTCTTTCG CTGCAGAGTG TAGATCCCAAAAATTACCCA AAGAAGAAGA TGGAAAAGCG ATTTGTCTTC AACAAGATAG AAATCAATAA CAAGCTGGAATTTGAGTCTG CCCAGTTCCC CAACTGGTAC ATCAGCACCT CTCAAGCAGA AAACATGCCC GTCTTCCTGGGAGGGACCAA AGGCGGCCAG GATATAACTG ACTTCACCAT GCAATTTGTG TCTTCCTAAA GAGAGCTGTACCCAGAGAGT CCTGTGCTGA ATGTGGACTC AATCCCTAGG GCTGGCAGAA AGGGAACAGA AAGGTTTTTGAGTACGGCTA TAGCCTGGAC TTTCCTGTTG TCTACACCAA TGCCCAACTG CCTGCCTTAG GGTAGTGCTAAGAGGATCTC CTGTCCATCA GCCAGGACAG TCAGCTCTCT CCTTTCAGGG CCAATCCCCA GCCCTTTTGTTGAGCCAGGC CTCTCTCACC TCTCCTACTC ACTTAAAGCC CGCCTGACAG AAACCACGGC CACATTTGGTTCTAAGAAAC CCTCTGTCAT TCGCTCCCAC ATTCTGATGA GCAACCGCTT CCCTATTTAT TTATTTATTTGTTTGTTTGT TTTGATTCAT TGGTCTAATT TATTCAAAGG GGGCAAGAAG TAGCAGTGTC TGTAAAAGAGCCTAGTTTTT AATAGCTATG GAATCAATTC AATTTGGACT GGTGTGCTCT CTTTAAATCA AGTCCTTTAATTAAGACTGA AAATATATAA GCTCAGATTA TTTAAATGGG AATATTTATA AATGAGCAAA TATCATACTGTTCAATGGTT CTGAAATAAA CTTCACTGAA GAAAAAAAAA AAAGGGTCTC TCCTGATCAT TGACTGTCTGGATTGACACT GACAGTAAGC AAACAGGCTG TGAGAGTTCT TGGGACTAAG CCCACTCCTC ATTGCTGAGTGCTGCAAGTA CCTAGAAATA TCCTTGGCCA CCGAAGACTA TCCTCCTCAC CCATCCCCTT TATTTCGTTGTTCAACAGAA GGATATTCAG TGCACATCTG GAACAGGATC AGCTGAAGCA CTGCAGGGAG TCAGGACTGGTAGTAACAGC TACCATGATT TATCTATCAA TGCACCAAAC ATCTGTTGAG CAAGCGCTAT GTACTAGGAGCTGGGAGTAC AGAGATGAGA ACAGTCACAA GTCCCTCCTC AGATAGGAGA GGCAGCTAGT TATAAGCAGAACAAGGTAAC ATGACAAGTA GAGTAAGATA GAAGAACGAA GAGGAGTAGC CAGGAAGGAG GGAGGAGAACGACATAAGAA TCAAGCCTAA AGGGATAAAC AGAAGATTTC CACACATGGG CTGGGCCAAT TGGGTGTCGGTTACGCCTGT AATCCCAGCA CTTTGGGTGG CAGGGGCAGA AAGATCGCTT GAGCCCAGGA GTTCAAGACCAGCCTGGGCA ACATAGTGAG ACTCCCATCT CTACAAAAAA TAAATAAATA AATAAAACAA TCAGCCAGGCATGCTGGCAT GCACCTGTAG TCCTAGCTAC TTGGGAAGCT GACACTGGAG GATTGCTTGA GCCCAGAAGTTCAAGACTGC AGTGAGCTTA TCCGTTGACC TGCAGGTCGA C ACAAACCTTT TCGAGGCAAA AGGCAAAAAAGGCTGCTCTG GGATTCTCTT CAGCCAATCT TCAATGCTCA AGTGTCTGAA GCAGCCATGG CAGAAGTACCTAAGCTCGCC AGTGAAATGA TGGCTTATTA CAGTGGCAAT GAGGATGACT TGTTCTTTGA AGCTGATGGCCCTAAACAGA TGAAGTGCTC CTTCCAGGAC CTGGACCTCT GCCCTCTGGA TGGCGGCATC CAGCTACGAATCTCCGACCA CCACTACAGC AAGGGCTTCA GGCAGGCCGC GTCAGTTGTT GTGGCCATGG ACAAGCTGAGGAAGATGCTG GTTCCCTGCC CACAGACCTT CCAGGAGAAT GACCTGAGCA CCTTCTTTCC CTTCATCTTTGAAGAAGAAC CTATCTTCTT CGACACATGG GATAACGAGG CTTATGTGCA CGATGCACCT GTACGATCACTGAACTGCAC GCTCCGGGAC TCACAGCAAA AAAGCTTGGT GATGTCTGGT CCATATGAAC TGAAAGCTCTCCACCTCCAG GGACAGGATA TGGAGCAACA AGTGGTGTTC TCCATGTCCT TTGTACAAGG AGAAGAAAGTAATGACAAAA TACCTGTGGC CTTGGGCCTC AAGGAAAAGA ATCTGTACCT GTCCTGCGTG TTGAAAGATGATAAGCCCAC TCTACAGCTG GAGAGTGTAG ATCCCAAAAA TTACCCAAAG AAGAAGATGG AAAAGCGATTTGTCTTCAAC AAGATAGAAA TCAATAACAA GCTGGAATTT GAGTCTGCCC AGTTCCCCAA CTGGTACATCAGCACCTCTC AAGCAGAAAA CATGCCCGTC TTCCTGGGAG GGACCAAAGG CGGCCAGGAT ATAACTGACTTCACCATGCA ATTTGTGTCT TCCTAAAGAG AGCTGTACCC AGAGAGTCCT GTGCTGAATG TGGACTCAATCCCTAGGGCT GGCAGAAAGG GAACAGAAAG GTTTTTGAGT ACGGCTATAG CCTGGACTTT CCTGTTGTCTACACCAATGC CCAACTGCCT GCCTTAGGGT AGTGCTAAGA GGATCTCCTG TCCATCAGCC AGGACAGTCAGCTCTCTCCT TTCAGGGCCA ATCCCAGCCC TTTTGTTGAG CCAGGCCTCT CTCACCTCTC CTACTCACTTAAAGCCCGCC TGACAGAAAC CAGGCCACAT TTTGGTTCTA AGAAACCCTC CTCTGTCATT CGCTCCCACATTCTGATGAG CAACCGCTTC CCTATTTATT TATTTATTTG TTTGTTTGTT TTGATTCATT GGTCTAATTTATTCAAAGGG GGCAAGAAGT AGCAGTGTCT GTAAAAGAGC CTAGTTTTTA ATAGCTATGG AATCAATTCAATTTGGACTG GTGTGCTCTC TTTAAATCAA GTCCTTTAAT TAAGACTGAA AATATATAAG CTCAGATTATTTAAATGGGA ATATTTATAA ATGAGCAAAT ATCATACTGT TCAATGGTTC TCAAATAAAC TTCACTCTGGCAGGAG TAGCAGCTGC CCCTTGGCGC GACTGCTGGA GCCGCGAACT AGAGAAACAC AGACACGCCTCATAGAGCAA CGGCGTCTCT CGGAGCGTGG AGCCCGCCAA GCTCGAGCTG AGCTTTCGCT TGCCGTCCACCACTGCCCAC ACTGTCGTTT GCTGCCATCG CAGACCTGCT GCTGACTTCC ATCCCTCTGG ATCCGGCAAGGGCCTGCGAT TTTGACAATG TCAAGATTTA CCGTATATCC CTGTTTGTTT GGATACACCA GTGACGTCCACTTCTAGAAG ACAAAGTTAT ATTACTTAAA CAACCAAAGA TATGAAACTA TCCATGAAGA ACAATATTATCAATACACAG CAGTCTTTTG TAACCATGCC CAATGTGATT GTACCAGATA TTGAAAAGGA AATACGAAGGATGGAAAATG GAGCATGCAG CTCCTTTTCT GAGGATGATG ACAGTGCCTC TACATCTGAA GAATCAGAGAATGAAAACCC TCATGCAAGG GGTTCCTTTA GTTATAAGTC ACTCAGAAAG GGAGGACCAT CACAGAGGGAGCAGTACCTG CCTGGTGCCA TTGCCATTTT TAATGTGAAC AACAGCGACA ATAAGGACCA GGAACCAGAAGAAAAAAAGA AAAAGAAAAA AGAAAAGAAG AGCAAGTCAG ATGATAAAAA CGAAAATAAA AACGACCCAAAGAAGAAGAT GGAAAAGCGA ATGGCCAAAG TTCCAGACAT GTTTGAAGAC CTGAAGAACT GTTACAGTGAAAATGAAGAA GACAGTTCCT CCATTGATCA TCTGTCTCTG AATCAGAAAT CCTTCTATCA TGTAAGCTATGGCCCACTCC ATGAAGGCTG CATGGATCAA TCTGTGTCTC TGAGTATCTC TGAAACCTCT AAAACATCCAAGCTTACCTT CAAGGAGAGC ATGGTGGTAG TAGCAACCAA CGGGAAGGTT CTGAAGAAGA GACGGTTGAGTTTAAGCCAA TCCATCACTG ATGATGACCT GGAGGCCATC GCCAATGACT CAGAGGAAGA AATCATCAAGCCTAGGTCAG CACCTTTTAG CTTCCTGAGC AATGTGAAAT ACAACTTTAT GAGGATCATC AAATACGAATTCATCCTGAA TGACGCCCTC AATCAAAGTA TAATTCGAGC CAATGATCAG TACCTCACGG CTGCTGCATTACATAATCTG GATGAAGCAG TGAAATTTGA CATGGGTGCT TATAAGTCAT CAAAGGATGA TGCTAAAATTACCGTGATTC TAAGAATCTC AAAAACTCAA TTGTATGTGA CTGCCCAAGA TGAAGACCAA CCAGTGCTGCTGAAGGAGAT GCCTGAGATA CCCAAAACCA TCACAGGTAG TGAGACCAAC CTCCTCTTCT TCTGGGAAACTCACGGCACT AAGAACTATT TCACATCAGT TGCCCATCCA AACTTGTTTA TTGCCACAAA GCAAGACTACTGGGTGTGCT TGGCAGGGGG GCCACCCTCT ATCACTGACT TTCAGATACT GGAAAACCAG GCGTAGGTCTGGAGTCTCAC TTGTCTCACT TGTGCAGTGT TGACAGTTCA TATGTACCAT GTACATGAAG AAGCTAAATCCTTTACTGTT AGTCATTTGC TGAGCATGTA CTGAGCCTTG TAATTCTAAA TGAATGTTTA CACTCTTTGTAAGAGTGGAA CCAACACTAA CATATAATGT TGTTATTTAA AGAACACCCT ATATTTTGCA TAGTACCAATCATTTTAATT ATTATTCTTC ATAACAATTT TAGGAGGACC AGAGCTACTG ACTATGGCTA CCAAAAAGACTCTACCCATA TTACAGATGG GCAAATTAAG GCATAAGAAA ACTAAGAAAT ATGCACAATA GCAGTTGAAACAAGAAGCCA CAGACCTAGG ATTTCATGAT TTCATTTCAA CTGTTTGCCTTCTGCTTTTA AGTTGCTGATGAACTCTTAA TCAAATAGCA TAAGTTTCTG GGACCTCAGT TTTATCATTT TCAAAATGGA GGGAATAATACCTAAGCCTT CCTGCCGCAA CAGTTTTTTA TGCTAATCAG GGAGGTCATT TTGGTAAAAT ACTTCTCGAAGCCGAGCCTC AAGATGAAGG CAAAGCACGA AATGTTATTT TTTAATTATT ATTTATATAT GTATTTATAAATATATTTAA GATAATTATA ATATACTATA TTTATGGGAA CCCCTTCATC CTCTGAGTGT GACCAGGCATCCTCCACAAT AGCAGACAGT GTTTTCTGGG ATAAGTAAGT TTGATTTCAT TAATACAGGG CATTTTGGTCCAAGTTGTGC TTATCCCATA GCCAGGAAAC TCTGCATTCT AGTACTTGGG AGACCTGTAA TCATATAATAAATGTACATT AATTACCTTG AGCCAGTAAT TGGTCCGATC TTTGACTCTT TTGCCATTAA ACTTACCTGGGCATTCTTGT TTCATTCAAT TCCACCTGCA ATCAAGTCCT ACAAGCTAAA ATTAGATGAA CTCAACTTTGACAACCATAG ACCACTGTTA TCAAAACTTT CTTTTCTGGA ATGTAATCAA TGTTTCTTCT AGGTTCTAAAAATTGTGATC AGACCATAAT GTTACATTAT TATCAACAAT AGTGATTGAT AGAGTGTTAT CAGTCATAACTAAATAAAGC TTGCAAGTGA GGGAGTCATT TCATTGGCGT TTGAGTCAGC AAAGAAGTCA AG AGCTGCCAGCCAGAGAGGGA GTCATTTCAT TGGCGTTTGA GTCAGCAAAG AAGTCAAGAT GGCCAAAGTT CCAGACATGTTTGAAGACCT GAAGAACTGT TACAGTGAAA ATGAAGAAGA CAGTTCCTCC ATTGATCATC TGTCTCTGAATCAGAAATCC TTCTATCATG TAAGCTATGG CCCACTCCAT GAAGGCTGCA TGGATCAATC TGTGTCTCTGAGTATCTCTG AAACCTCTAA AACATCCAAG CTTACCTTCA AGGAGAGCAT GGTGGTAGTA GCAACCAACGGGAAGGTTCT GAAGAAGAGA CGGTTGAGTT TAAGCCAATC CATCACTGAT GATGACCTGG AGGCCATCGCCAATGACTCA GAGGAAGAAA TCATCAAGCC TAGGTCATCA CCTTTTAGCT TCCTGAGCAA TGTGAAATACAACTTTATGA GGATCATCAA ATACGAATTC ATCCTGAATG ACGCCCTCAA TCAAAGTATA ATTCGAGCCAATGATCAGTA CCTCACGGCT GCTGCATTAC ATAATCTGGA TGAAGCAGTG AAATTTGACA TGGGTGCTTATAAGTCATCA AAGGATGATG CTAAAATTAC CGTGATTCTA AGAATCTCAA AAACTCAATT GTATGTGACTGCCCAAGATG AAGACCAACC AGTGCTGCTG AAGGAGATGC CTGAGATACC CAAAACCATC ACAGGTAGTGAGACCAACCT CCTCTTCTTC TGGGAAACTC ACGGCACTAA GAACTATTTC ACATCAGTTG CCCATCCAAACTTGTTTATT GCCACAAAGC AAGACTACTG GGTGTGCTTG GCAGGGGGGC CACCCTCTAT CACTGACTTTCAGATACTGG AAAACCAGGC GTAGGTCTGG AGTCTCACTT GTCTCACTTG TGCAGTGTTG ACAGTTCATATGTACCATGT ACATGAAGAA GCTAAATCCT TTACTGTTAG TCATTTGCTG AGCATGTACT GAGCCTTGTAATTCTAAATG AATGTTTACA CTCTTTGTAA GAGTGGAACC AACACTAACA TATAATGTTG TTATTTAAAGAACACCCTAT ATTTTGCATA GTACCAATCA TTTTAATTAT TATTCTTCAT AACAATTTTA GGAGGACCAGAGCTACTGAC TATGGCTACC AAAAAGACTC TACCCATATT ACAGATGGGC AAATTAAGGC ATAAGAAAACTAAGAAATAT GCACAATAGC AGTCGAAACA AGAAGCCACA GACCTAGGAT TTCATGATTT CATTTCAACTGTTTGCCTTC TGCTTTTAAG TTGCTGATGA ACTCTTAATC AAATAGCATA AGTTTCTGGG ACCTCAGTTTTATCATTTTC AAAATGGAGG GAATAATACC TAAGCCTTCC TGCCGCAACA GTTTTTTATG CTAATCAGGGAGGTCATTTT GGTAAAATAC TTCTCGAAGC CGAGCCTCAA GATGAAGGCA AAGCACGAAA TGTTATTTTTTAATTATTAT TTATATATGT ATTTATAAAT ATATTTAAGA TAATTATAAT ATACTATATT TATGGGAACCCCTTCATCCT CTGAGTGTGA CCAGGCATCC TCCACAATAG CAGACAGTGT TTTCTGGGAT AAGTAAGTTTGATTTCATTA ATACAGGGCA TTTTGGTCCA AGTTGTGCTT ATCCCATAGC CAGGAAACTC TGCATTCTAGTACTTGGGAG ACCTGTAATC ATATAATAAA TGTACATTAA TTACCTTGAG CCAGTAATTG GTCCGATCTTTGACTCTTTT GCCATTAAAC TTACCTGGGC ATTCTTGTTT CATTCAATTC CACCTGCAAT CAAGTCCTACAAGCTAAAAT TAGATGAACT CAACTTTGAC AACCATGAGA CCACTGTTAT CAAAACTTTC TTTTCTGGAATGTAATCAAT GTTTCTTCTA GGTTCTAAAA ATTGTGATCA GACCATAATG TTACATTATT ATCAACAATAGTGATTGATA GAGTGTTATC AGTCATAACT AAATAAAGCT TGCAACAAAA TTCTCTG GCTCAGGGCACATGCCTCCC CTCCCCAGGC CGCGGCCCAG CTGACCCTCG GGGCTCCCCC GGCAGCGGAC AGGGAAGGGTTAAAGGCCCC CGGCTCCCTG CCCCCTGCCC TGGGGAACCC CTGGCCCTGT GGGGACATGA ACTGTGTTTGCCGCCTGGTC CTGGTCGTGC TGAGCCTGTG GCCAGATACA GCTGTCGCCC CTGGGCCACC ACCTGGCCCCCCTCGAGTTT CCCCAGACCC TCGGGCCGAG CTGGACAGCA CCGTGCTCCT GACCCGCTCT CTCCTGGCGGACACGCGGCA GCTGGCTGCA CAGCTGAGGG ACAAATTCCC AGCTGACGGG GACCACAACC TGGATTCCCTGCCCACCCTG GCCATGAGTG CGGGGGCACT GGGAGCTCTA CAGCTCCCAG GTGTGCTGAC AAGGCTGCGAGCGGACCTAC TGTCCTACCT GCGGCACGTG CAGTGGCTGC GCCGGGCAGG TGGCTCTTCC CTGAAGACCCTGGAGCCCGA GCTGGGCACC CTGCAGGCCC GACTGGACCG GCTGCTGCGC CGGCTGCAGC TCCTGATGTCCCGCCTGGCC CTGCCCCAGC CACCCCCGGA CCCGCCGGCG CCCCCGCTGG CGCCCCCCTC CTCAGCCTGGGGGGGCATCA GGGCCGCCCA CGCCATCCTG GGGGGGCTGC ACCTGACACT TGACTGGGCC GTGAGGGGACTGCTGCTGCT GAAGACTCGG CTGTGACCCG GGGCCCAAAG CCACCACCGT CCTTCCAAAG CCAGATCTTATTTATTTATT TATTTCAGTA CTGGGGGCGA AACAGCCAGG TGATCCCCCC GCCATTATCT CCCCCTAGTTAGAGACAGTC CTTCCGTGAG GCCTGGGGGA CATCTGTGCC TTATTTATAC TTATTTATTT CAGGAGCAGGGGTGGGAGGC AGGTGGACTC CTGGGTCCCC GAGGAGGAGG GGACTGGGGT CCCGGATTCT TGGGTCTCCAAGAAGTCTGT CCACAGACTT CTGCCCTGGC TCTTCCCCAT CTAGGCCTGG GCAGGAACAT ATATTATTTATTTAAGCAAT TACTTTTCAT GTTGGGGTGG GGACGGAGGG GAAAGGGAAG CCTGGGTTTT TGTACAAAAATGTGAGAAAC CTTTGTGAGA CAGAGAACAG GGAATTAAAT GTGTCATACA TATCC CAGCTGCGGCATCCTCTGTC TCAGAGTCTT GGTGTCTCTG TTCCTTTCCC CTCGGGGTCT CCCTGGGTCT CCCCAAGTCCCTCCTGCTGT CTTCCTCCCG CTCTCTGATC TCTGACTCCC AGAACCTCTC CCTCTGTCTC CAGGGCTGCCCCTCTGATCC TCTTTGCTTC TCTGGTGTGT CTCTCTGGCT GCCTCCATCT CTGTGGATCT CCGTCTCCCTGTCTCTGTCT CAGTCTGTCC TTCACTCTGT GTGTGTGTGT GTCTCTCTCT CTCTCTCTCC TTCCCTTCCACTCCCTCTTC CTCCTGCCTC CACCTCTCCA GGCCCCTGTC TTGTCCCTCC GTCCGGCCTT TCTCTGCCTTTCCGTCCTCC TGCCTCCCCA TCTCTCTCTG CTAGTCCTGT CCAGCCGGAC CCCCACCCAC AGTCGGGCCCCAGCGCTTGA GCCTGAGTGT CTGCTCCGGC CCGTGGAGGT GGAGGGAGGG GACGCCAATG ACCTCACCAGCCCCTCTCCG ACCACCCCCC CCTTTCCCTT TTCAACTTTT CCAACTTTTC CTTCCGTGCC CTCCTCCGAGCGCGGCGGCG TGAGCCCTGC AAGGCAGCCG CTCCGTCTGA ATGGAAAAGG CAGGCAGGGA GGGTGAGTCAGGATGTGTCA GGCCGGCCCT CCCCTGCCGC CTGCCCCCCG CCCGCCCGCC CCAGGCCCCC TATATAACCCCCCAGGCGTC CACACTCCCT CACTGCCGCG GGCCCTGCTG CTCAGGGCAC ATGCCTCCCC TCCCCAGCCGCGGGCCCAGC TGACCCTCGG GGCTCCCCCG GCAGCGGACA GGGAAGGGTT AAAGGCCCCC GGCTCCCTGCCCCCTGCCCT GGGGAACCCC TGGCCCTGTG GGGACATGAA CTGTAAGTTG GTTCATGGGG AGGGTGGAGGGGACAGGGAG GCAGGGAGGA GAGGGACCCA CGGCGGGGGT GGGAGCAGAC CCCGCTGAGT CGCACAGAGAGGGACCCGGA GACAGGCAGC CGGGGAGGAG AGCAGCTTCG GAGACAGGAG GCGGCGGAGG AGATGGGCAGAGAGAGACAC AGACAGGAGC GGATGGAGGC AGCCAATCAG AGGCGCCGCA GGAGGGACGG GCCAGACAGGGCCCGAGAGG AGCGAGACGC GAGACCGAGC AGGGGCAGGG ACGCAGGGAC TGGTGCCGGG AGGGAGGTGACCCCCATCGA CCCAGGCCCC AGGGAGCCCG CGGGGACCGG GAGACTCCCT GGGATTCCGG CAGAGAGGCTCCGGAGGGAA ACTGAGGCAG GGTCCGCGGA GAGCGGAGCA AGCCAGGGAG TAGCGACCCC AGCCGGGGGGAGGAGAGAGA CTGGGCGCCG GGGGAAAGCG GGGAGAGCCG GGCAGATGCG GCCGACGGAG GCGCGGACAGACCGACGGCT GGCGGGCCCG GGGGGCGGGC TGGGGGTGTG CGAGGCGCGG GCGGCCGGGG AGCGCTGATTGGCTGGCGGG TGGCCGGGTG GGCGGGGCGG CCGGGGTGGG CTGCGGGGAG CGAGCTCCGG ACCCCCGCGCCCCCGGCGCC CCCCGCGCCC CCCGCCGCCA GCTCTCCCGC TCCCGGCGCC CGGCCGGGCC ATGGCTCTGCCCCTCTCCGC CCAGGTGCGC TGCGGCCCGG GCTTCTGCCG CCCACCCGGC GGGCTCCTGG GAGGGCGTCTAAGGGGTCTC CCGTGGGAGA GGTCCGTGTC TCCCGGACTC CGTCCTGGGC TTTTGGCTCC TTCCCCTGCTCCCAGCCAGC TCGGGCTCCC GCGGCCCGGG GAGGGGGCAG GTTCTGGCCT GTCCCTCCCC CACCATCCGCGCCCCGGGGC CCAGATTCCG GCGTCCGGGG GCGGACGGGA GACGCCCGGG CCGCGTCTGC TCCGACGGGCGGGGCAGCCA GAGCCAGGGA GGGGAGAGGG AGCCCGCCTG GCCCTGCGAC CTGCCCGCGG GCGTTCCACCCTGGGACTTA AGACCTCCAG CTCCATCCTC CCTAAGGCCG GGAGTCCAGG CCCCAGACCC TCCTCCCCGAGACCCAGGAG TCCAGACCCC AGGCCTTCCT CCCTCAGACC TAGGAGTCCA GGCCCCCAGC CTCTCCTCCCTCAGACCCAG GAGGAGTCCA GACCCCAGTT CCTCCTCCCT CAGACCCGGG AGTCCAGCCC AGGCCCTCCTCTCTCAGACC CGGAGTCCAG CCTGAGCTCT CTGCCTTATC CTGCCCCCAG GTGTTTGCCG CCTGGTCCTGGTCGTGCTGA GCCTGTGGCC AGATACAGCT GTCGCCCCTG GGCCACCACC TGGCCCCCCT CGAGTTTCCCCAGACCCTCG GGCCGAGCTG GACAGCACCG TGCTCCTGAC CCGCTCTCTC CTGGCGGACA CGCGGCAGCTGGCTGCACAG CTGGTAGGAG AGACTGGGCT GGGGCCAGCA CAGGAGTGAG AGGCAGAGAG GAACGGAGAGGAGTCTGCGG GCAGCCACTT GGAGGGGTTC TGGGCTCTCA GGTGGCAGAG TGAGGGAGGG GAAGAGTTGGGGGCCTGGCG TGGGGGATGG AGGGAGCCCC GAGGCTGGGC AGGGGCCACC TCACAGCTTT TTTCCCTGCCAGAGGGACAA ATTCCCAGCT GACGGGGACC ACAACCTGGA TTCCCTGCCC ACCCTGGCCA TGAGTGCAGGGGCACTGGGA GCTCTACAGG TAAGGGCAAG GGAGTGGGCT GGGGACAAGG TGGGAGGCAG GCAGTGAAGGGGGCGGGGAG GATGAGGGGC ACTGGTCGGG TGTTCTCTGA TGTCCCGGCT CTATCCCCAG CTCCCAGGTGTGCTGACAAG GCTGCGAGCG GACCTACTGT CCTACCTGCG GCACGTGCAG TGGCTGCGCC GGGCAGGTGGCTCTTCCCTG AAGACCCTGG AGCCCGAGCT GGGCACCCTG CAGGCCCGAC TGGACCGGCT GCTGCGCCGGCTGCAGCTCC TGGTATGTCC TGGCCCCAAG ACCTGACACC CCAGACCCCC ACCCCTGGCC CCAAAATCCTGTGGCCTGAG TCCTTGAAGC CTGAGACCCC AGACCCGAGT GCAACAGCCC CGCTCTGAGA CCCTGACACCCTAACAGCCC GCTCTGAGAC CCTGACACCG TAACAGCCCC GCTCTGAGAC CCTGACCCTA ACAGTCCTGCTCTGAGACCC TGACCCTGCA GTCCCAAGAT CCTGTGGCCC TGAGACCCTG AGGCCCTAGA CCCCCAAATCCTGCCCAGAA ACTTCAAATT CTCACCCAAG ACCCTGAGAC TCCATCATCC ATGACCTCAA AGTCCCCAGATCCCAGCCCC TAAGACCCAA GACCCCATCC TGAAGCCCAA AGCCTTGAGA ATTCAAATCC TCACCTCAAGACTTGGAGAC CCTGGCCCCA TGACATTGAA AACCATGGAC CTGGCCAGGC GTGGTGGCTC ACGCCTGTAATCCCAGCACT TTGGGAGGCC GAGGCAAGTG GATCACCTGA GGTCGGGAGT TCAAGACCAG CCAGACCAACATGGTGAAAC CCTGTCTCTA CTAAAAATAC AAAATTAGCCAGGCGTGGTG GTGCATGCCT GTAATCCCAGCTACTTGGGA GGCTGAGGCA GGAGAATCGC TTGAACCTGG GAGGCGGAGG TTGCAGTGAG CCGAGATCGCACCATTACAC TCCAGCCTGG GCAACAAGAG CAAAACTCCC TCTCTCTCAA AAAAAAAAAA AAAAAAAAAAAAGAAGGAAA AGAAAACCAT GGACCTCCAG ACCCTGAGAC CCCAGGCCCC AGCCCTGAGA TCCTGACATCTTAAAGATCC CAGGCCCTAA GATACAAGAC CTTGACCCAA AGCCAGCCTT GGGACCCTGG CTGTACAAACCCAAGACCTC CAGGACCTAG ACCCCGAGCC CTGAGGCCCT ATGTCTCACT CCCAACATCG AAAACCCTGACACCTCAGAT CCTGAGCCTG CGCCTGTACG ACTCCAAGAC CCTCACTTCC AAAGCCAGGC CCAAAGCCCTGAGACCAGAA GACTTCAAAC CCTGGTTCTT GGGCCTAACT CCAAAGACCC TGGATCTCAA ATTCCAACTTCTAGCTCTGA GACTCCAGCC CTCACCCATG AGTTCCTGAA CTTGAACCCA GAGACCCCAT CTCTAAGACTTCAGCCTTGA GATCCAGGGC CTGACCCTAG ACTCGAGCCC ACAGACCTCA GATACTGTCT GTAAAACCCCAGCTCTGGTG GGGAGCAGTG GCTCACTCCT GTAATCCCAA GGCAGGGGAG GCCAAGGCAG AAGGACCTCTTGAGGCCATG AGTTTGAGAC AGCCTGGGCA GCATAGCAAG ACTCTGTTTC TTAATTATTA TTATTATTATTATTTTTTGG AGACAGAGTC TCGCGCTCTG TTGCCCAGGC TAGAGTGCAA TGGTGCCATT TCGGCTTGCTGGAACCTCCG CCTCCTGGGC TCAAGCGATT CTCCTGCCTC AGCCTCCTGA GTAGCTGGGA CTTCAGGTGCACACTGCCAC ACCCGGATAA TTTTTTTGTA TTTTAGTAGA CACAGGGTTT CACCGTGTTG CCCAGGCTGGTCACAAACTC CTGAGCTCAG GCCATCCGCC CGCCTCGGCC TCCCAAAGCG CTGGGATAAC AGGCGTGACGCCGCGCCTGG CTTCTTAATT GTTCTAACAG CAGCGACAAC AACAAAAACC CAGCTCTGAG ATTCCAGCCCCGGCGACTCT AACAGTCCCA GGCCCGATCC CTCACCTAGA ACCGAGATGC CAGCCCTGAC TCCACAGACTTCACCCCCAA CCCCCACACT CAGCTCTGGA AGCCCGTCCT GACTCCAGCC TCCATTTTCG GAACCCCACAGCCTGAAGAG CTCCCGGCCT AAACACTTCA CCCCACGCGC CACAGTCCCC CTGTGAATAT GCAGCCCCGATTCAGCTGCA GCTCCACAGC ACCCCTGCCC TGCACCCCCG CTGCACCCCC TACCTGTGAC TCACCTCTCTCCTCTCCCCA CAGATGTCCC GCCTGGCCCT GCCCCAGCCA CCCCCGGACC CGCCGGCGCC CCCGCTGGCGCCCCCCTCCT CAGCCTGGGG GGGCATCAGG GCCGCCCACG CCATCCTGGG GGGGCTGCAC CTGACACTTGACTGGGCCGT GAGGGGACTG CTGCTGCTGA AGACTCGGCT GTGACCCGGG GCCCAAAGCC ACCACCGTCCTTCCAAAGCC AGATCTTATT TATTTATTTA TTTCAGTACT GGGGGCGAAA CAGCCAGGTG ATCCCCCCGCCATTATCTCC CCCTAGTTAG AGACAGTCCT TCCGTGAGGC CTGGGGGGCA TCTGTGCCTT ATTTATACTTATTTATTTCA GGAGCAGGGG TGGGAGGCAG GTGGACTCCT GGGTCCCCGA GGAGGAGGGG ACTGGGGTCCCGGATTCTTG GGTCTCCAAG AAGTCTGTCC ACAGACTTCT GCCCTGGCTC TTCCCCATCT AGGCCTGGGCAGGAACATAT ATTATTTATT TAAGCAATTA CTTTTCATGT TGGGGTGGGG ACGGAGGGGA AAGGGAAGCCTGGGTTTTTG TACAAAAATG TGAGAAACCT TTGTGAGACA GAGAACAGGG AATTAAATGT GTCATACATATCCACTTGAG GGCGATTTGT CTGAGAGCTG GGGCTGGATG CTTGGGTAAC TGGGGCAGGG CAGGTGGAGGGGAGACCTCC ATTCAGGTGG AGGTCCCGAG TGGGCGGGGC AGCGACTGGG AGATGGGTCG GTCACCCAGACAGCTCTGTG GAGGCAGGGT CTGAGCCTTG CCTGGGGCCC CGCACTGCAT AGGGCCGTTT GTTTGTTTTTTGAGATGGAG TCTCGCTCTG TTGCCTAGGC TGGAGTGCAG TGAGGCAATC TAAGGTCACT GCAACCTCCACCTCCCGGGT TCAAGCAATT CTCCTGCCTC AGCCTCCCGA TTAGCTGGGA TCACAGGTGT GCACCACCATGCCCAGCTAA TTATTTATTT CTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGTTTCGAACTCC TGACCTCAGG TGATCCTCCT GCCTCGGCCT CCCAAAGTGC TGGGATTACA GGTGTGAGCCACCACACCTG ACCCATAGGT CTTCAATAAA TATTTAATGG AAGGTTCCAC AAGTCACCCT GTGATCAACAGTACCCGTAT GGGACAAAGC TGCAAGGTCA AGATGGTTCA TTATGGCTGT GTTCACCATA GCAAACTGGAAACAATCTAG ATATCCAACA GTGAGGGTTA AGCAACATGG TGCATCTGTG GATAGAACGC CACCCAGCCGCCCGGAGCAG GGACTGTCAT TCAGGGAGGC TAAGGAGAGA GGCTTGCTTG GGATATAGAA AGATATCCTGACATTGGCCA GGCATGGTGG CTCACGCCTG TAATCCTGGC ACTTTGGGAG GACGAAGCGA GTGGATCACTGAAGTCCAAG AGTTTGAGAC CGGCCTGCGA GACATGGCAA AACCCTGTCT CAAAAAAGAA AGAATGATGTCCTGACATGA AACAGCAGGC TACAAAACCA CTGCATGCTG TGATCCCAAT TTTGTGTTTT TCTTTCTATATATGGATTAA AACAAAAATC CTAAAGGGAA ATACGCCAAA ATGTTGACAA TGACTGTCTC CAGGTCAAAGGAGAGAGGTG GGATTGTGGG TGACTTTTAA TGTGTATGAT TGTCTGTATT TTACAGAATT TCTGCCATGACTGTGTATTT TGCATGACAC ATTTTAAAAA TAATAAACAC TATTTTTAGA ATAACAGAAT ATCAGCCTCCTCCTCTCCAA AAATAAGCCC TCAGGAGGGG ACAAAGTTGA CCGCTGATTG AGCCTGTCAG GGCTGTGCAC

2) SEQ ID NO: 3005 data:

(i) sequence characteristics:

(A) length: 11786 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3005 sequence description: ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTGTGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTTCATCGTCTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAACATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCTCCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGATGGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTGCCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGGAGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGTGTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAGCTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCAAGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCACCCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAACTCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGAATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GATGAGTGTCA GAAGTGTGAA GGGTGCCTGT TCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCAGGTGAGGAAG GGTTTAACCT CACTGGAAGG AATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTGGGGGCACTTG GACAGAACAG TCAGGCAGCC GGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGGAGCGCTGCGG CGGGAGCCGG AGGACTATGA GCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCGCGCGGCCCGG AGCTCTGTTC CCTGGAACTT TGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGGATGGTGCTTG CCTCGTGCCC CTTGGTGCCC GTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCTCCATCTCAGC TTTCCAGGCC GCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAACGTGCTGGTG ATCTGGGCGG TGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTGTCGCTGGCGGTGG CTGATGTGGC CGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCACAGACCTACTT CCACACCTGC CTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGCCCTGCTGGCA ATTGCTGTGG ACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACCCCCCGGAGGG CGGCGGTGGC CATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGTTTGGCTGGAA CAATCTGAGT GCGGTGGAGC GGGCCTGGGC AGCCAACGGCAGCATGGGGG AGCCCGTGATCAAGTGCGAG TTCGAGAAGG TCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTGCCCCCGCTTC TCCTCATGGT CCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGAAGGTGTCGGC CTCCTCCGGC GACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGCCCTCATCCTC TTCCTCTTTG CCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGCCCGTCCTGCC ACAAGCCCAG CATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGAACCCCATTGT CTATGCCTTC CGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTTCCGCTGCCAG CCTGCACCTC CCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCTTCCGCTCCCA CCAGCCCACA TCCAGTGGGG TCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCTCCCTGAGCCT GCCCCAGCTG GGCTGTTGGC TGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGTGTGGTCCCTC CACTAGGAGT TAACTACCCT ACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGTCCTACGGAGG GACCAGGTGT CTAGAGGCAA CAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGCAGTCCAGCGC TTCAGGGCTG GGCAGGTCCT GGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAGAAGGTGCTTG GGCTTCTGCG GTGAGGCAGG GGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGGACCAAGCTTA AGGAGAGGAG AGCATCTGCT CTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGCCTGTTCTGTA GGAGAGACTG GCCAGAGGCA GCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCTGAGGACTCTG GACCCCAGGC CATACCAGGT GCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGATTGTACGTGG GAGAGGCAGA AAGGGTAGGT TCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCCACGCCCTGGG GAGTGAGCTT GGTGCGGTAG GTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCCCTCCTTCTTG CCCTGAGCTT TCCGGGGAGG AGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTCCACTGGCCCC CGTTGCCGGG CCTGGACTGT CCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGAGAGGAGAACA CTAGACATGC CAACTCGGGA GCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGTCTGTAAGGAC TCAGTGTTGA CTGTAGGCGC CCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGGAGTACCCCCC TGAGAGCATG TGGGGGAAGG CCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTGGGTGGGTTTT GAGGGGCTTT GGAAGCTCTG TTGGAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGATCTGGGGAAG GACCAACCCA TGCCCTGCCA AGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCCTGGAGCCCCT GTGTGGGAGG GCGAGGCGGG GGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGATCCTGGAGCCC CTGTGTCGGG GGGCGAGGGA GGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTCAACTCCAGGA CTTGCTTCCA AGCCCTTCCC TCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGCCCATGTGACT AATAAAAAAC TGTGAACCCT CGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAGTCTTGAAGAG AGACAAAGGA AGGAAAATTT AAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGTTTGGGTTGTT GTTGTTGTTG TTTGGTGTGT TTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAGTCTCGCTGTG TTACCGGGAG CGACAGAGCC GCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTGGAGCTTACCG GCCGGCCTTG GCTTCCCCAG GAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGTGGGGGCACTT GGACAGAACA GTCAGGCAGC CGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCTCGTGCCCCTT GGTGCCCGTC TGCTGATGTG CCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTTCCAGGCCGCC TACATCGGCA TCGAGGTGCT CATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATCTGGGCGGTGA AGGTGAACCA GGCGCTGCGG GATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTGATGTGGCCGT GGGTGCCCTG GTCATCCCCC TCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCACACCTGCCTC ATGGTTGCCT GTCCGGTCCT CATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATTGCTGTGGACC GCTACCTCCG GGTCAAGATC CCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGGCGGTGGCCAT AGCCGGCTGC TGGATCCTCT CCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAATCTGAGTGCG GTGGAGCGGG CCTGGGCAGC CAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTCGAGAAGGTCA TCAGCATGGA GTACATGGTC TACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCCTCATGGTCCT CATCTACCTG GAGGTCTTCT ACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTCCTCCGGCGAC CCGCAGAAGT ACTATGGGAA GGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTCCTCTTTGCCC TCAGCTGGCT GCCTTTGCAC ATCCTCAACT GCATCACCCT CTTCTGCCCG TCCTGCCACAAGCCCAGCAT CCTTACCTAC ATTGCCATCT TCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTATGCCTTCCGC ATCCAGAAGT TCCGCGTCAC CTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCTGCACCTCCCA TTGACGAGGA TCTCCCAGAA GAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCGCCCACATCCA GTGGGGTCTC AGTCCAGTCC TCACATGCCC GCTGTCCCAG GGGTCTCCCT GAGCCTGCCCCAGCTGGGCT GTTGGCTGGG GGCATGGGGG AGGCTCTGAA GAGATACCCA CAGAGTGTGG TCCCTCCACTAGGAGTTAAC TACCCTACAC CTCTGGGCCC TGCAGGAGGC CTGGGAGGGC AAGGGTCCTA CGGAGGGACCAGGTGTCTAG AGGCAACAGT GTTCTGAGCC CCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCAGGGCTGGGCA GGTCCTGGGG AGGCTGAGAC TGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCTTCTGCGGTGA GGCAGGGGAG TCTGCTTGTC TTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGAGAGGAGAGCA TCTGCTCTGA GACGGATGGA AGGAGAGAGG TTGAGGATGC ACTGGCCTGT TCTGTAGGAGAGACTGGCCA GA GAT GGA GGG CGG CAT GGC GGG G CGG GTC GCC GG GGC GGG CBC BGG CGGC GGG CBC GC GGC CTG G GGB GGG CGG C GBT GGB GGG GG CTG GGC GC GGC CTG GAA AGCTGA GAT GGA GGG CGG CAT GGC GGG CAC AGG CTG GGC ATGCCGCCCT CCATCTCAGC TTTCCAGGCCGCCTACATCG GCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGGTGAAGGTGAA CCAGGCGCTG CGGGATGCCA CCTTCTGCTT CATCGTCTCG CTGGCGGTGG CTGATGTGGCCGTGGGTGCC CTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGCCTCATGGTTG CCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGGACCGCTACCT CCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGCCATAGCCGGC TGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGTGCGGTGGAGC GGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGGTCATCAGCAT GGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGTCCTCATCTAC CTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGCGACCCGCAGA AGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTGCCCTCAGCTG GCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAGCATCCTTACC TACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTCCGCATCCAGA AGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTCCCATTGACGA GGATCTCCCA GAAGAGAGGC CTGATGACTA G ATGAGTGTCA GAAGTGTGAA GGGTGCCTGTTCTGAATCCC AGAGCCTCCT CTCCCTCTGT GAGGCTGGCA GGTGAGGAAG GGTTTAACCT CACTGGAAGGAATCCCTGGA GCTAGCGGCT GCTGAAGGCG TCGAGGTGTG GGGGCACTTG GACAGAACAG TCAGGCAGCCGGGAGCTCTG CCAGCTTTGG TGACCTTGGG CCGGGCTGGG AGCGCTGCGG CGGGAGCCGG AGGACTATGAGCTGCCGCGC GTTGTCCAGA GCCCAGCCCA GCCCTACGCG CGCGGCCCGG AGCTCTGTTC CCTGGAACTTTGGGCACTGC CTCTGGGACC CCTGCCGGCC AGCAGGCAGG ATGGTGCTTG CCTCGTGCCC CTTGGTGCCCGTCTGCTGAT GTGCCCAGCC TGTGCCCGCC ATGCCGCCCT CCATCTCAGC TTTCCAGGCC GCCTACATCGGCATCGAGGT GCTCATCGCC CTGGTCTCTG TGCCCGGGAA CGTGCTGGTG ATCTGGGCGG TGAAGGTGAACCAGGCGCTG CGGGATGCCA CCTTCTGCTTCATCGTGTCG CTGGCGGTGG CTGATGTGGC CGTGGGTGCCCTGGTCATCC CCCTCGCCAT CCTCATCAAC ATTGGGCCAC AGACCTACTT CCACACCTGC CTCATGGTTGCCTGTCCGGT CCTCATCCTC ACCCAGAGCT CCATCCTGGC CCTGCTGGCA ATTGCTGTGG ACCGCTACCTCCGGGTCAAG ATCCCTCTCC GGTACAAGAT GGTGGTGACC CCCCGGAGGG CGGCGGTGGC CATAGCCGGCTGCTGGATCC TCTCCTTCGT GGTGGGACTG ACCCCTATGT TTGGCTGGAA CAATCTGAGT GCGGTGGAGCGGGCCTGGGC AGCCAACGGC AGCATGGGGG AGCCCGTGAT CAAGTGCGAG TTCGAGAAGG TCATCAGCATGGAGTACATG GTCTACTTCA ACTTCTTTGT GTGGGTGCTG CCCCCGCTTC TCCTCATGGT CCTCATCTACCTGGAGGTCT TCTACCTAAT CCGCAAGCAG CTCAACAAGA AGGTGTCGGC CTCCTCCGGC GACCCGCAGAAGTACTATGG GAAGGAGCTG AAGATCGCCA AGTCGCTGGC CCTCATCCTC TTCCTCTTTG CCCTCAGCTGGCTGCCTTTG CACATCCTCA ACTGCATCAC CCTCTTCTGC CCGTCCTGCC ACAAGCCCAG CATCCTTACCTACATTGCCA TCTTCCTCAC GCACGGCAAC TCGGCCATGA ACCCCATTGT CTATGCCTTC CGCATCCAGAAGTTCCGCGT CACCTTCCTT AAGATTTGGA ATGACCATTT CCGCTGCCAG CCTGCACCTC CCATTGACGAGGATCTCCCA GAAGAGAGGC CTGATGACTA GACCCCGCCT TCCGCTCCCA CCAGCCCACA TCCAGTGGGGTCTCAGTCCA GTCCTCACAT GCCCGCTGTC CCAGGGGTCT CCCTGAGCCT GCCCCAGCTG GGCTGTTGGCTGGGGGCATG GGGGAGGCTC TGAAGAGATA CCCACAGAGT GTGGTCCCTC CACTAGGAGT TAACTACCCTACACCTCTGG GCCCTGCAGG AGGCCTGGGA GGGCAAGGGT CCTACGGAGG GACCAGGTGT CTAGAGGCAACAGTGTTCTG AGCCCCCACC TGCCTGACCA TCCCATGAGC AGTCCAGCGC TTCAGGGCTG GGCAGGTCCTGGGGAGGCTG AGACTGCAGA GGAGCCACCT GGGCTGGGAG AAGGTGCTTG GGCTTCTGCG GTGAGGCAGGGGAGTCTGCT TGTCTTAGAT GTTGGTGGTG CAGCCCCAGG ACCAAGCTTA AGGAGAGGAG AGCATCTGCTCTGAGACGGA TGGAAGGAGA GAGGTTGAGG ATGCACTGGC CTGTTCTGTA GGAGAGACTG GCCAGAGGCAGCTAAGGGGC AGGAATCAAG GAGCCTCCGT TCCCACCTCT GAGGACTCTG GACCCCAGGC CATACCAGGTGCTAGGGTGC CTGCTCTCCT TGCCCTGGGC CAGCCCAGGA TTGTACGTGG GAGAGGCAGA AAGGGTAGGTTCAGTAATCA TTTCTGATGA TTTGCTGGAG TGCTGGCTCC ACGCCCTGGG GAGTGAGCTT GGTGCGGTAGGTGCTGGCCT CAAACAGCCA CGAGGTGGTA GCTCTGAGCC CTCCTTCTTG CCCTGAGCTT TCCGGGGAGGAGCCTGGAGT GTAATTACCT GTCATCTGGG CCACCAGCTC CACTGGCCCC CGTTGCCGGG CCTGGACTGTCCTAGGTGAC CCCATCTCTG CTGCTTCTGG GCCTGATGGA GAGGAGAACA CTAGACATGC CAACTCGGGAGCATTCTGCC TGCCTGGGAA CGGGGTGGAC GAGGGAGTGT CTGTAAGGAC TCAGTGTTGA CTGTAGGCGCCCCTGGGGTG GGTTTAGCAG GCTGCAGCAG GCAGAGGAGG AGTACCCCCC TGAGAGCATG TGGGGGAAGGCCTTGCTGTC ATGTGAATCC CTCAATACCC CTAGTATCTG GCTGGGTTTT CAGGGGCTTT GGAAGCTCTGTTGCAGGTGT CCGGGGGTCT AGGACTTTAG GGATCTGGGA TCTGGGGAAG GACCAACCCA TGCCCTGCCAAGCCTGGAGC CCCTGTGTTG GGGGGCAAGG TGGGGGAGCC TGGAGCCCCT GTGTGGGAGG GCGAGGCGGGGGAGCCTGGA GCCCCTGTGT GGGAGGGCGA GGCGGGGGAT CCTGGAGCCC CTGTGTCGGG GGGCGAGGGAGGGGAGGTGG CCGTCGGTTG ACCTTCTGAA CATGAGTGTC AACTCCAGGA CTTGCTTCCA AGCCCTTCCCTCTGTTGGAA ATTGGGTGTG CCCTGGCTCC CAAGGGAGGC CCATGTGACT AATAAAAAAC TGTGAACCCTCGCATTTGTG TTTTAATAAA AGAATCTGGA AGATAAATAG TCTTGAAGAG AGACAAAGGA AGGAAAATTTAAATCCTTAG ATTCAAGCAG AAGAATTCCA TGTGGAAGGT TTGGGTTGTT GTTGTTGTTG TTTGGTGTGTTTTTTGTTTT TTTGTTTTTT TGTTTTTTTT TGAGATGGAG TCTCGCTGTG TTACCGGGAG CGACAGAGCCGCACGGCCGA GTCGAGTCCC AGCCAGCTAC CATCCCTCTG GAGCTTACCG GCCGGCCTTG GCTTCCCCAGGAATCCCTGG AGCTAGCGGC TGCTGAAGGC GTCGAGGTGT GGGGGCACTT GGACAGAACA GTCAGGCAGCCGGGAGCTCT GCCAGCTTTG GTGACCTTGG GTGCTTGCCT CGTGCCCCTT GGTGCCCGTC TGCTGATGTGCCCAGCCTGT GCCCGCCATG CCGCCCTCCA TCTCAGCTTT CCAGGCCGCC TACATCGGCA TCGAGGTGCTCATCGCCCTG GTCTCTGTGC CCGGGAACGT GCTGGTGATC TGGGCGGTGA AGGTGAACCA GGCGCTGCGGGATGCCACCT TCTGCTTCAT CGTGTCGCTG GCGGTGGCTG ATGTGGCCGT GGGTGCCCTG GTCATCCCCCTCGCCATCCT CATCAACATT GGGCCACAGA CCTACTTCCA CACCTGCCTC ATGGTTGCCT GTCCGGTCCTCATCCTCACC CAGAGCTCCA TCCTGGCCCT GCTGGCAATT GCTGTGGACC GCTACCTCCG GGTCAAGATCCCTCTCCGGT ACAAGATGGT GGTGACCCCC CGGAGGGCGG CGGTGGCCAT AGCCGGCTGC TGGATCCTCTCCTTCGTGGT GGGACTGACC CCTATGTTTG GCTGGAACAA TCTGAGTGCG GTGGAGCGGG CCTGGGCAGCCAACGGCAGC ATGGGGGAGC CCGTGATCAA GTGCGAGTTC GAGAAGGTCA TCAGCATGGA GTACATGGTCTACTTCAACT TCTTTGTGTG GGTGCTGCCC CCGCTTCTCC TCATGGTCCT CATCTACCTG GAGGTCTTCTACCTAATCCG CAAGCAGCTC AACAAGAAGG TGTCGGCCTC CTCCGGCGAC CCGCAGAAGT ACTATGGGAAGGAGCTGAAG ATCGCCAAGT CGCTGGCCCT CATCCTCTTC CTCTTTGCCC TCAGCTGGCT GCCTTTGCACATCCTCAACT GCATCACCCT CTTCTGCCCG TCCTGCCACA AGCCCAGCAT CCTTACCTAC ATTGCCATCTTCCTCACGCA CGGCAACTCG GCCATGAACC CCATTGTCTA TGCCTTCCGC ATCCAGAAGT TCCGCGTCACCTTCCTTAAG ATTTGGAATG ACCATTTCCG CTGCCAGCCT GCACCTCCCA TTGACGAGGA TCTCCCAGAAGAGAGGCCTG ATGACTAGAC CCCGCCTTCC GCTCCCACCG CCCACATCCA GTGGGGTCTC AGTCCAGTCCTCACATGCCC GCTGTCCCAG GGGTCTCCCT GAGCCTGCCC CAGCTGGGCT GTTGGCTGGG GGCATGGGGGAGGCTCTGAA GAGATACCCA CAGAGTGTGG TCCCTCCACT AGGAGTTAAC TACCCTACAC CTCTGGGCCCTGCAGGAGGC CTGGGAGGGC AAGGGTCCTA CGGAGGGACC AGGTGTCTAG AGGCAACAGT GTTCTGAGCCCCCACCTGCC TGACCATCCC ATGAGCAGTC CAGAGCTTCA GGGCTGGGCA GGTCCTGGGG AGGCTGAGACTGCAGAGGAG CCACCTGGGC TGGGAGAAGG TGCTTGGGCT TCTGCGGTGA GGCAGGGGAG TCTGCTTGTCTTAGATGTTG GTGGTGCAGC CCCAGGACCA AGCTTAAGGA GAGGAGAGCA TCTGCTCTGA GACGGATGGAAGGAGAGAGG TTGAGGATGC ACTGGCCTGT TCTGTAGGAG AGACTGGCCA GA

(2) SEQ ID NO: 3006 data:

(i) sequence characteristics:

(A) length: 7144 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3006 sequence description: GGC GCC GTG CCG CGT CTT GGT GGC GGC GG GTT CGC GCC CGC GCG GGG CCC CTC CGG TCC GTTCGC GCC CCC GCG GGG CCC CTC CGG TCC CGG GTC GGG GCC CCC CCC GGC C GCC TCG GGG CTGGGG CCC TGG TGG CCG GG CCG CGC CTC CGC CTG CCG CTT CTG GCT GGG CCC CGG GCG CCC CCTCCC CTC TTG CTC GGG TCC CCG TG ACA GCG CGT CCT GTG TCT CCA GCA GCA TGG CCG GGC CAGCTG GGC CCC BCB GCG CGT CCT GTG TCT CCB GCB GCB TGG CCG GCC CBG CTG GGC CCCCCCAGCCCCG AGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CCG GCGGGTCTCACGCGGCTG CCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCTGCTGGAGACA CAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAACGTGCTGGTGT GCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCCTGGCTGCGGC CGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTGCACTGACTTC TACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGCCTTCTGGCCG TGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGGGGACCCGAGC AAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCTGGGGTGGAAC AGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGCTGCTGCCTTG TGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTGCGTGTGTTCT GCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCAGCTTCAGCGC ACTGAGCTGA TGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCACTGGCCATGA TTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT GTCACTCTTTTCCAGCCAGC TCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAATTCAGTTGTC AATCCCATTG TCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATCTCCAGGTATC TTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCGGTGTGGGCCT ATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGACACGGCTGGTT TTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCCCTGGAGCTAC CACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTATGATCTATTC AGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTGTTTTTAAAAG TCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTATTATAATGCA AATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATACTTGTTGCCAG GAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTGTAATTCCAGC ACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAATATAGTG GGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGCGCA CGGCGCCTGG ACCGGAGGGGCCCCGCGCGG GCGCGAACTT TGGGCTCCGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCGCGCGGGCCAA TGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCCAGCCCCGAGG CTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCACGCGGCTGCCC CTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCTGGAGACACAG GACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTGCTGGTGTGCG CCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGGCTGCGGCCGA CGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCACTGACTTCTAC GGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTTCTGGCCGTGG CAGTCGACAG ATACCTGGCC ATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGACCCGAGCAAG AGGGGTCATT GCTGTCCTCT GGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGGGTGGAACAGT AAAGACAGTG CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGCTGCCTTGTGA AGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGTGTGTTCTGCC CCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT GCAGGCAGCTTCAGCGCACT GAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGA TCCATGCAGC CAAGTCACTGGCCATGATTG TGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTC ACTCTTTTCCAGCCAGCTCA GGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTCAGTTGTCAAT CCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCCAGGTATCTTC TCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTGTGGGCCTATG ATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACAGGGCTGGTTTTC ATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTGGAGCTACCAC GTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATGATCTATTCAG CTGCTTTTAC TGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTTTTTAAAAGTC TGCCTTGTTT ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATTATAATGCAAA TACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG CCCAGCCCCGAGGCTCAGAA GCGGCAGGCG GAGGCGCGGT CCGGGCGCTA TGGCCATGCC CGGCGGGTCT CACGCGGCTGCCCCTCGCCC GGCGCGCCTT CGGTAGGGGG CGCCCGGGGC CCAGCTGGCC CGGCCATGCT GCTGGAGACACAGGACGCGC TGTACGTGGC GCTGGAGCTG GTCATCGCCG CGCTTTCGGT GGCGGGCAAC GTGCTGGTGTGCGCCGCGGT GGGCACGGCG AACACTCTGC AGACGCCCAC CAACTACTTC CTGGTGTCCC TGGCTGCGGCCGACGTGGCC GTGGGGCTCT TCGCCATCCC CTTTGCCATC ACCATCAGCC TGGGCTTCTG CACTGACTTCTACGGCTGCC TCTTCCTCGC CTGCTTCGTG CTGGTGCTCA CGCAGAGCTC CATCTTCAGC CTTCTGGCCGTGGCAGTCGA CAGATACCTG GCCATCTGTG TCCCGCTCAG GTATAAAAGT TTGGTCACGG GGACCCGAGCAAGAGGGGTC ATTGCTGTCC TCTGGGTCCT TGCCTTTGGC ATCGGATTGA CTCCATTCCT GGGGTGGAACAGTAAAGACA GTGCCACCAA CAACTGCACA GAACCCTGGG ATGGAACCAC GAATGAAAGC TGCTGCCTTGTGAAGTGTCT CTTTGAGAAT GTGGTCCCCA TGAGCTACAT GGTATATTTC AATTTCTTTG GGTGTGTTCTGCCCCCACTG CTTATAATGC TGGTGATCTA CATTAAGATC TTCCTGGTGG CCTGCAGGCA GCTTCAGCGCACTGAGCTGA TGGACCACTC GAGGACCACC CTCCAGCGGG AGATCCATGC AGCCAAGTCA CTGGCCATGATTGTGGGGAT TTTTGCCCTG TGCTGGTTAC CTGTGCATGC TGTTAACTGT GTCACTCTTT TCCAGCCAGCTCAGGGTAAA AATAAGCCCA AGTGGGCAAT GAATATGGCC ATTCTTCTGT CACATGCCAA TTCAGTTGTC-TCCCATTG TCTATGCTTA CCGGAACCGA GACTTCCGCT ACACTTTTCA CAAAATTATC TCCAGGTATCTTCTCTGCCA AGCAGATGTC AAGAGTGGGA ATGGTCAGGC TGGGGTACAG CCTGCTCTCG GTGTGGGCCTATGATCTAGG CTCTCGCCTC TTCCAGGAGA AGATACAAAT CCACAAGAAA CAAAGAGGAC ACGGCTGGTTTTCATTGTGA AAGATAGCTA CACCTCACAA GGAAATGGAC TGCCTCTCTT GAGCACTTCC CTGGAGCTACCACGTATCTA GCTAATATGT ATGTGTCAGT AGTAGCACCA AGGATTGACA AATATATTTA TGATCTATTCAGCTGCTTTT ACTGTGTGGA TTATGCCAAC AGCTTGAATG GATTCTAACA GACTCTTTTG TTTTTAAAAGTCTGCCTTGT TTATGGTGGA AAATTACTGA AACTATTTTA CTGTGAAACA GTGTGAACTA TTATAATGCAAATACTTTTT AACTTAGAGG CAATGGAAAA ATAAAAGTTG ACTGTACTAA AAATGTATAC TTGTTGCCAGGAAGGTGACC TCAAAAATTA AAAGTATAAT TATTCGGCCG GGCATGGTGG CTCACACCTG TAATTCCAGCACTTTGGGAG GCCAAGGCAG GCGGATCACG AGGTCAGGAG TTCAAAACCA GCCTGTCCAA TATAGTGGGGCAATTTG TTAGTTATCC GCCGCCACCA AGACGCGGCA GGGCGCCTGG ACCGGAGGGG CCCCGCGCGGGCGCGAACTT TGGGCTCGGG CGAGTGGGTG GTGCTCCGCC CAGCCCGAGA CGGGCGGGCG CGCGGGCCAATGGGTGCCGC CTCTTGGCCG CGGGGGGCCC CGACCCGTGG GTCCCGGCCA CCAGCGCCCC AGCCCCGAGGCTCAGAAGCG GCAGGCGGAG GCGCGGTCCG GGCGCTATGG CCATGCCCGG CGGGTCTCAC GCGGCTGCCCCTCGCCCGGC GCGCCTTCGG TAGGGGGCGC CCGGGGCCCA GCTGGCCCGG CCATGCTGCT GGAGACACAGGACGCGCTGT ACGTGGCGCT GGAGCTGGTC ATCGCCGCGC TTTCGGTGGC GGGCAACGTG CTGGTGTGCGCCGCGGTGGG CACGGCGAAC ACTCTGCAGA CGCCCACCAA CTACTTCCTG GTGTCCCTGG CTGCGGCCGACGTGGCCGTG GGGCTCTTCG CCATCCCCTT TGCCATCACC ATCAGCCTGG GCTTCTGCAC TGACTTCTACGGCTGCCTCT TCCTCGCCTG CTTCGTGCTG GTGCTCACGC AGAGCTCCAT CTTCAGCCTT CTGGCCGTGGCAGTCGACAG ATACCTGGCC ATCTGTGTCC CGCTCAGGTA TAAAAGTTTG GTCACGGGGA CCCGAGCAAGAGGGGTCATT GCTGTCCTCT GGGTCCTTGC CTTTGGCATC GGATTGACTC CATTCCTGGG GTGGAACAGTAAAGACAGTG CCACCAACAA CTGCACAGAA CCCTGGGATG GAACCACGAA TGAAAGCTGC TGCCTTGTGAAGTGTCTCTT TGAGAATGTG GTCCCCATGA GCTACATGGT ATATTTCAAT TTCTTTGGGT GTGTTCTGCCCCCACTGCTT ATAATGCTGG TGATCTACAT TAAGATCTTC CTGGTGGCCT GCAGGCAGCT TCAGCGCACTGAGCTGATGG ACCACTCGAG GACCACCCTC CAGCGGGAGA TCCATGCAGC CAAGTCACTG GCCATGATTGTGGGGATTTT TGCCCTGTGC TGGTTACCTG TGCATGCTGT TAACTGTGTC ACTCTTTTCC AGCCAGCTCAGGGTAAAAAT AAGCCCAAGT GGGCAATGAA TATGGCCATT CTTCTGTCAC ATGCCAATTC AGTTGTCAATCCCATTGTCT ATGCTTACCG GAACCGAGAC TTCCGCTACA CTTTTCACAA AATTATCTCC AGGTATCTTCTCTGCCAAGC AGATGTCAAG AGTGGGAATG GTCAGGCTGG GGTACAGCCT GCTCTCGGTG TGGGCCTATGATCTAGGCTC TCGCCTCTTC CAGGAGAAGA TACAAATCCA CAAGAAACAA AGAGGACACG GCTGGTTTTCATTGTGAAAG ATAGCTACAC CTCACAAGGA AATGGACTGC CTCTCTTGAG CACTTCCCTG GAGCTACCACGTATCTAGCT AATATGTATG TGTCAGTAGT AGGCTCCAAG GATTGACAAA TATATTTATG ATCTATTCAGCTGCTTTTAC TGTGTGGATT ATGCCAACAG CTTGAATGGA TTCTAACAGA CTCTTTTGTT TTTAAAAGTCTGCCTTGTTT ATGGTGGAAA ATTACTGAAA CTATTTTACT GTGAAACAGT GTGAACTATT ATAATGCAAATACTTTTTAA CTTAGAGGCA ATGGAAAAAT AAAAGTTGAC TGTACTAAAA ATG

(2) SEQ ID NO: 3007 data:

(i) sequence characteristics:

(A) length: 11395 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single chain (D) topology: linear (xi) SEQ ID NO: 3007 sequence description: ACA GAG CAG TGC TGT TGT TGG GCA TCT TGC CTT CCC AGG G BCB GBG CB TGC TGT TGT TGGGCB TCT TGC CTT CCC BGG GCC CTT TTC TGG TGG GGT GGT GCT GTT GTT GGG CTT TCT TCT GTTCCC BCB GBG CBG TGC TGT TGT TGG GCB TCT TGC CTT CCC BGG GCC CTT TTC TGG TGG GGT GGTGCT GTT GTT GGG C TTT CTT CTG TTC CC GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCTAAGTGTGTCT CCTGCCTTTA TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCTGTGTTTGGAC ACAAACCCCT TTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTCACCTATGTAC TGGGGTAGGG GAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA GTGCTATATAGTGAGAAAGG CTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCC TCCTAGAAAT TTCTCTTGGTAACTTCCTTC TCTGAAGCAC AGATAAAGAA AACAATTACA GTAGAAACAT TTATGAGGGA CACATTGGAGGCCGATGAAG CTTTTCAAGT TCCAGCAGTG CAGGGATGTG GGCAGAACTG ACATTGGAAA ATACTAGAATGATGGAAATT CAGTTGGAGA GGACTGCCCT TTTTAATGTC TGGGGAGTCT GCTCAGGGAG AAATGACAAGTCTGGCGGGG ACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGAT ACAGGGTGGG GGTCGGGAGTGGAATCAATG AATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGAT GAGCCCCAGG CAGAGGCGTCTCCCTTATGC CCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT TGTTGTTACT GCTGAATTTTATTTTGGGCT GTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCT CAAGCCACTG TGTGGGTTTGGGTCCAAGTG TTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAGAAGCACCTGA ACCAAGTGGG TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGACTAGGTAAGCA GCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGAGGCTTGGGGA ATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTGTATGTCTGGT CATTCTGCTA TTCTGTCGTT CCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGTGCCAGTGTGA TTTTGCTAGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAGAGGTGCTGAG TTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCAAAGGCTGGGT ATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCTAAGGTTAGGA GGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGAGATCTTTTTG CTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCAC CTGATCCTGCACTGTCCTCT GGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTCATGGCTCCTC TTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCT GTACTTCCTC TTGGCCCATCTCACTTCCTG AAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGGCAGAGGCGTT GAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGCTGTCCTACAG CATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGATGAGCCCTTTC TAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG AGCAAGTTGGGAATTTTAGA CTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCC ACTGGCCCTACAGACGGATC TTGCTGGCTC ACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCC CAACAACAGCACTGCTCTGT CATTGGCCAA TGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGGGCAACGTGCT GGTCATCTGC GTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGTCTCTCTAGCC CTGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGCATCACAATCC ACTTCTACAG CTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCAC GCCTCCATCATGTCCTTGCT GGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACC GTCAGGTAGCCTGCGGCGTGGGGTGGGCAG CAATTGAGGC AGCTGGGAAA TGAGGCTACA AAGCCAGAGC CTGCTGAATT TTATTTTGGACTGTACATAT TTAGATGCTT AAGGTAAAAA TGATAAAGCC CTCAAGCCAC TGTGTGGGTT GGGTCCAAGTGTTCCTTGCT GCTGCCTCTC TAACACGCCT GGTTAAAATA ATCCCTTTGG ATGGTGCTGA GAAGCACCTGAACCAAGTGG GTCCCCAAAT AACTATGGCG TGCAAGTGTC TGGTTCCCAG AAGTTGGTGA CTAGGTAAGCGACTCAGGGA GAGGGGCTGA TTCCCAGACA GTCGCCTGTT CCTGCTGGGA TGGGGCTGAG GCTTGGGGAATGTGGGCAGG AGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCC TTCTTTCTGT ATGTCTGGTCATTCTGCTAT TCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTG CCAGTGTGATTTTGCTAGGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAGTTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGTATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGAGGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTGCTAAGCTGGC AGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCAC CTGATCCTGC ACTGTCCTCTGGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTCTTCTGCTCTT TCCATCTTTT TGCTGAGAGT TACTGAGCTC TGTACTTCCT CTTGGCCCAT CTCACTTCCTGAAACACCCC TGAAGAGGGT TGCTTATCTT GATGGAACTC AAAAAGCCAA AAAGCTGCAG GCAGAGGCGTTGAGGACATC TGTTTGGGGA ACTAAGAGCA GCAGCACTTT CAGATTCAGT CCATATAGAG CTGTCCTACAGCATTCTGGA AACTTGAGGA TGTGCGGTGC ATAAAGGGGC TGGAAGTGAC CCACCTGTGA TGAGCCCTTTCTAAGGAGAA GGGTTTCCAA GAGATCACCC CACCAGAAAA GGGTAGGAAT GAGCAAGTTG GGAATTTTAGACTGTCACTG CACATGGACC TCTGGGAAGA CGTCTGGCGA GAGCTAGGCC CACTGGCCCT ACAGACGGATCTTGCTGGCT CACCTGTCCC TGTGGAGGTT CCCCTGGGAA GGCAAGATGC CCAACAACAG CACTGCTCTGCGAATTCGGG GGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA TATAGAGCTGTCCTACAGCA TTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG AAGTGACCCA CCTGTGATGAGCCCTTTCTA AGGAGAAGGG TTTCCAAGAG ATCACCCCAC CAGAAAAGGG TAGGAATGAG CAAGTTGGGAATTTTAGACT GTCACTGCAC ATGGACCTCT GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACAGACGGATCTT GCTGGCTCAC CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCACTGCTCTGTCA TTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGCAACGTGCTGG TCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT TTCATTGTCTCTCTAGCCCT GGCTGACATT GCTGTTGGGG TGCTGGTCAT GCCTTTGGCC ATTGTTGTCA GCCTGGGCATCACAATCCAC TTCTACAGCT GCCTTTTTAT GACTTGCCTA CTGCTTATCT TTACCCACGC CTCCATCATGTCCTTGCTGG CCATCGCTGT GGACCGATAC TTGCGGGTCA AGCTTACCGT CAGATACAAG AGGGTCACCACTCACAGAAG AATATGGCTG GCCCTGGGCC TTTGCTGGCT GGTGTCATTC CTGGTGGGAT TGACCCCCATGTTTGGCTGG AACATGAAAC TGACCTCAGA GTACCACAGA AATGTCACCT TCCTTTCATG CCAATTTGTTTCCGTCATGA GGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGAT TTTCATCCCC CTGGTTGTCATGTGCGCCAT CTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTAT CTAACTCCAAAGAGACAGGT GCATTTTATG GACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTTGCTCTGTCAT GGCTGCCTTT ATCTCTCATC AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTGTGCTGTACAT GGGCATCCTG CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAATAAAGAAGTTC AAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTGGACACAAGCA TTGAGAAGAA TTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG ACCTTCAGATTCCCCATCAA CAAACACTTG AGGGCCTGTA TGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCACTGAGGTGGG AGCATCTCCA GTGCTCCCCA ATTATATCTC CCCCACTCCA CTACTCTCTT CCTCCACTTCATTTTTCCTT TGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTT GGGGACAACG TATTATTGATATTATTGTCT GTTTTCCTTC TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCC TAGTTGACTTACTGACAAAA GGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATTGAGCAGAGAA CCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGGGGGACTTAAA CTGCTGAATT C GAATTCCCAG ATGGGCAGAG GTGGCTGGGC TGGTGACCCT AAGTGTGTCTCCTGCCTTTA TTCTCTCTAG TGGGTTATTC TTTCATGTGG TATCTTGCCT ACAGCATGCT GTGTTTGGACACAAACCCCT TTCCTTGGTT TCTCTGACCC AGCTGAGATG GACTGATTCC AAAAGAACTC ACCTATGTACTGGGGTAGGG GAGGGAGGGT TTTTTGCAGT ATTTAACTAA GGTTCAAAGA GTGCTATATA GTGAGAAAGGCTTCTTTTTT TTTTTTTTTT TTTTTTGGCA GAGTGCTGCC TCCTAGAAAT TTCTCTTGGT AACTTCCTTCTCTGAAGCAC AGATAAAGAA AACAATTACA GTAGAAACAT TTATGAGGGA CACATTGGAG GCCGATGAAGCTTTTCAAGT TCCAGCAGTG CAGGGATGTG GGCAGAACTG ACATTGGAAA ATACTAGAAT GATGGAAATTCAGTTGGAGA GGACTGCCCT TTTTAATGTC TGGGGAGTCT GCTCAGGGAG AAATGACAAG TCTGGCGGGGACAAGTATGG GATTTGGTAA GACTTGGATC AACTTGGGAT ACAGGGTGGGGGTCGGGAGT GGAATCAATGAATGATGCCA GAGCAGATCA ACTAACAAGA GGACCCTGAT GAGCCCCAGG CAGAGGCGTC TCCCTTATGCCCCACTCTGA AGTGTTTGTT AGTAAACACC AGAACGCCAT TGTTGTTACT GCTGAATTTT ATTTTGGGCTGTACATATTT AGATGCTTAA GGTAAAAATG ATAAAGCCCT CAAGCCACTG TGTGGGTTTG GGTCCAAGTGTTCCTTCTTG CTGCCTCTCT AACACGCCTG GTTAAAATAA TCCCTTTGGA TGGTGCTGAG AAGCACCTGAACCAAGTGGG TCCCCAAATA ACAATGGCGT GCAAGTGTCT GGTTCCCAGA AGTTGGTGAC TAGGTAAGCAGCTTCAGGGA GAGGGGGCTG ATTCCCAGAC AGTCGCCTGT TCCTGCGGGG ATGGGGCTGA GGCTTGGGGAATGTGGGCAG GAGGATATGC CATTTGATTC TGTTGCACAC GTTCTTTTCC CTTCTTTCTG TATGTCTGGTCATTCTGCTA TTCTGTCGTT CCTCACATAG GTTGGACATT GGCCGGCTGC CAGCATAAGT GCCAGTGTGATTTTGCTAGG TGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAGTTTTTGCCCT TCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTGCA AAGGCTGGGTATCGGCTGTG CTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGAGGCTGCCACC AAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTGCTAAGCTGGC AGAAAGATTG CATAGTCAGT GCTTCCAGCT CTGCTCCCAC CTGATCCTGC ACTGTCCTCTGGTCCCTGAA TGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTCTTCTGCTCTT TCCATCTTTT TGCTGAGAGT TCTGAGCTCT GTACTTCCTC TTGGCCCATC TCACTTCCTGAAACACCCCT GAAGAGGGTT GCTTATCTTG ATGGAACTCA AAAAGCCAAA AAGCTGCAGG CAGAGGCGTTGAGGACATCT GTTTGGGGAA CTAAGAGCAG CAGCACTTTC AGATTCAGTC CATATAGAGC TGTCCTACAGCATTCTGGAA ACTTGAGGAT GTGCGGTGCA TAAAGGGGCT GGAAGTGACC CACCTGTGAT GAGCCCTTTCTAAGGAGAAG GGTTTCCAAG AGATCACCCC ACCAGAAAAG GGTAGGAATG AGCAAGTTGG GAATTTTAGACTGTCACTGC ACATGGACCT CTGGGAAGAC GTCTGGCGAG AGCTAGGCCC ACTGGCCCTA CAGACGGATCTTGCTGGCTC ACCTGTCCCT GTGGAGGTTC CCCTGGGAAG GCAAGATGCC CAACAACAGC ACTGCTCTGTCATTGGCCAA TGTTACCTAC ATCACCATGG AAATTTTCAT TGGACTCTGC GCCATAGTGG GCAACGTGCTGGTCATCTGC GTGGTCAAGC TGAACCCCAG CCTGCAGACC ACCACCTTCT ATTTCATTGT CTCTCTAGCCCTGGCTGACA TTGCTGTTGG GGTGCTGGTC ATGCCTTTGG CCATTGTTGT CAGCCTGGGC ATCACAATCCACTTCTACAG CTGCCTTTTT ATGACTTGCC TACTGCTTAT CTTTACCCAC GCCTCCATCA TGTCCTTGCTGGCCATCGCT GTGGACCGAT ACTTGCGGGT CAAGCTTACC GTCAGGTAGC CTGCGGCGTG GGGTGGGCAGCAATTGAGGC AGCTGGGAAA TGAGGCTACA AAGCCAGAGC CTGCTGAATT TTATTTTGGA CTGTACATATTTAGATGCTT AAGGTAAAAA TGATAAAGCC CTCAAGCCAC TGTGTGGGTT GGGTCCAAGT GTTCCTTGCTGCTGCCTCTC TAACACGCCT GGTTAAAATA ATCCCTTTGG ATGGTGCTGA GAAGCACCTG AACCAAGTGGGTCCCCAAAT AACTATGGCG TGCAAGTGTC TGGTTCCCAG AAGTTGGTGA CTAGGTAAGC GACTCAGGGAGAGGGGCTGA TTCCCAGACA GTCGCCTGTT CCTGCTGGGA TGGGGCTGAG GCTTGGGGAA TGTGGGCAGGAGGATATGCC ATTTGATTCT GTTGCACACG TTCTTTTCCC TTCTTTCTGT ATGTCTGGTC ATTCTGCTATTCTGTCGTTC CTCACATAGG TTGGACATTG GCCGGCTGCC AGCATAAGTG CCAGTGTGAT TTTGCTAGGGTGTGAGCTGA GAAAGAGAGG TGGAGGCTAA GCAGGTGTGA TGCTTCTCAG AGGTGCTGAG TTTTTGCCCTTCTGAGCAGG GAATCTTTGC TTATCCCTTT GACCAAGGAT CTTTGCTCCA AAGGCTGGGT ATCGGCTGTGCTCAGCAAAG CGTCAACTCG TGCAAGAACT TAGCAGGAAT AGTTCTGGCT AAGGTTAGGA GGCTGCCACCAAAGTCTCTT TTTTGTTCCT CTGCTTCTCC CGTTTGCCTC CTTATCATGA GATCTTTTTG CTAAGCTGGCAGAAAGATTG CATAATCAGT GCTTCCAGCT CCGCTCCCAC CTGATCCTGC ACTGTCCTCT GGTCCCTGAATGAATGAACT CTGATACCCA ATCTTGTCTC GAGCCTTCTC TATGCCACTC ATGGCTCCTC TTCTGCTCTTTCCATCTTTT TGCTGAGAGT TACTGAGCTC TGTACTTCCT CTTGGCCCAT CTCACTTCCT GAAACACCCCTGAAGAGGGT TGCTTATCTT GATGGAACTC AAAAAGCCAA AAAGCTGCAG GCAGAGGCGT TGAGGACATCTGTTTGGGGA ACTAAGAGCA GCAGCACTTT CAGATTCAGT CCATATAGAG CTGTCCTACA GCATTCTGGAAACTTGAGGA TGTGCGGTGC ATAAAGGGGC TGGAAGTGAC CCACCTGTGA TGAGCCCTTT CTAAGGAGAAGGGTTTCCAA GAGATCACCC CACCAGAAAA GGGTAGGAAT GAGCAAGTTG GGAATTTTAG ACTGTCACTGCACATGGACC TCTGGGAAGA CGTCTGGCGA GAGCTAGGCC CACTGGCCCT ACAGACGGAT CTTGCTGGCTCACCTGTCCC TGTGGAGGTT CCCCTGGGAA GGCAAGATGC CCAACAACAG CACTGCTCTG CGAATTCGGGGGACATCTGT TTGGGGAACT AAGAGCAGCA GCACTTTCAG ATTCAGTCCA TATAGAGCTG TCCTACAGCATTCTGGAAAC TTGAGGATGT GCGGTGCATA AACGGGCTGG AAGTGACCCA CCTGTGATGA GCCCTTTCTAAGGAGAAGGG TTTCCAAGAG ATCACCCCAC CAGAAAAGGG TAGGAATGAG CAAGTTGGGA ATTTTAGACTGTCACTGCAC ATGGACCTCT GGGAAGACGT CTGGCGAGAG CTAGGCCCAC TGGCCCTACA GACGGATCTTGCTGGCTCAC CTGTCCCTGT GGAGGTTCCC CTGGGAAGGC AAGATGCCCA ACAACAGCAC TGCTCTGTCATTGGCCAATG TTACCTACAT CACCATGGAA ATTTTCATTG GACTCTGCGC CATAGTGGGC AACGTGCTGGTCATCTGCGT GGTCAAGCTG AACCCCAGCC TGCAGACCAC CACCTTCTAT TTCATTGTCT CTCTAGCCCTGGCTGACATT GCTGTTGGGG TGCTGGTCAT GCCTTTGGCC ATTGTTGTCA GCCTGGGCAT CACAATCCACTTCTACAGCT GCCTTTTTAT GACTTGCCTA CTGCTTATCT TTACCCACGC CTCCATCATG TCCTTGCTGGCCATCGCTGT GGACCGATAC TTGCGGGTCA AGCTTACCGT CAGATACAAG AGGGTCACCA CTCACAGAAGAATATGGCTG GCCCTGGGCC TTTGCTGGCT GGTGTCATTC CTGGTGGGAT TGACCCCCAT GTTTGGCTGGAACATGAAAC TGACCTCAGA GTACCACAGA AATGTCACCT TCCTTTCATG CCAATTTGTT TCCGTCATGAGGATGGACTA CATGGTATAC TTCAGCTTCC TCACCTGGAT TTTCATCCCC CTGGTTGTCA TGTGCGCCATCTATCTTGAC ATCTTTTACA TCATTCGGAA CAAACTCAGT CTGAACTTAT CTAACTCCAA AGAGACAGGTGCATTTTATG GACGGGAGTT CAAGACGGCT AAGTCCTTGT TTCTGGTTCT TTTCTTGTTT GCTCTGTCATGGCTGCCTTT ATCTCTCATC AACTGCATCA TCTACTTTAA TGGTGAGGTA CCACAGCTTG TGCTGTACATGGGCATCCTG CTGTCCCATG CCAACTCCAT GATGAACCCT ATCGTCTATG CCTATAAAAT AAAGAAGTTCAAGGAAACCT ACCTTTTGAT CCTCAAAGCC TGTGTGGTCT GCCATCCCTC TGATTCTTTG GACACAAGCATTGAGAAGAA TTCTGAGTAG TTATCCATCA GAGATGACTC TGTCTCATTG ACCTTCAGAT TCCCCATCAACAAACACTTG AGGGCCTGTA TGCCTGGGCC AAGGGATTTT TACATCCTTG ATTACTTCCA CTGAGGTGGGAGCATCTCCA GTGCTCCCCA ATTATATCTC CCCCACTCCA CTACTCTCTT CCTCCACTTC ATTTTTCCTTTGTCCTTTCT CTCTAATTCA GTGTTTTGGA GGCCTGACTT GGGGACAACG TATTATTGAT ATTATTGTCTGTTTTCCTTC TTCCCAATAG AAGAATAAGT CATGGAGCCT GAAGGGTGCC TAGTTGACTT ACTGACAAAAGGCTCTAGTT GGGCTGAACA TGTGTGTGGT GGTGACTCAT TTCCATGCCA TTGTGGAATT GAGCAGAGAACCTGCTCTCG GAGGATGCCT AGGAGATGTT GGGAACAGAA GAAATAAACT GAGTTTAAGG GGGACTTAAACTGCTGAATTC

(2) SEQ ID NO: 3008 data:

(i) sequence characteristics:

(A) length: 6106 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3008 sequence description: GCG CTC GGC CTG GTC CCG G GGG TCT CCT CTT GTT GTT GC TTG CGC CTC CTG CTG GGG GT CCCTC TGT TCT TGT TTT GGG GGC GGG CCC GGC CGT TGT CTT G GTT TGG GGG TTT CCG TTG GGGTTC TCC TGG CCC GGG CCT TGC CC GGC CGT GGT CCC GGC TTC GTTCCT GTC TCC GTC TCG GCTCTT CTG GGG CCT TGC GCT GTC TTT GGT G5 ═ GCB CCG TCC BGT GBT GGT GCG GT CTT GTCGCT GCB GCG CTC GGC CTG GTC CCG GBG BGC CACCGCTCCT GTCAGCCAAC AAATATCCAT TGAGCGACACCTGTGTCCCA GGTGCTGCTC TGGGCCCTGG GAGAAGTGCA TCAGTGGGCT TGGTAGTAGA GGGTAGGGATGGAGTGAAGG GTAGGCAGGA AGAATGTCCC CAGGCTGGTA GGAGGTGGGG TGGGGGGTTT CAGTCTCAAAACTCCCATGA AAACCAGAGA GAAGTTTCAG AACTCCACCC AAGAGGCTGG GTTTCTAGGG CCCAGAGCTGCCCTCCCCCA CCCTAGAATG GGCTATAAAA GTCCCTTCCC AGCTACGTCC AGAGAAGAGC TGGAGGAAGTGAGAGGTCGG CTGGGGGTCC TCAAAGTGAG AGGGGAGCAG AGGATCCTCC CGTGCAGGCT GTGGATGTCACTCACTTCCC AGCTGGTGAA GCCTCGCTGC AGAGATGCAT CTGCTCCCAG CCCTGGCAGG GGTCCTGGCCACACTCGTCC TCGCCCAGCC CTGTGAGGGC ACTGACCCAG GTAATAGTCC CCTAGACAGG CAAGGAGGAGGGAGGGGAAA TGGAAGGGGA AGCACTTGGG TCTTGGAGGG GGTCTTGTGG CTTGCTGAAC CCTGAGTCCCCATCTCTTTG AACAGCCTCC CCTGGGGCAG TGGAGACCTC GGTCCTGCGA GACTGCATAG CAGAGGCCAAGTTGCTGGTG GATGCTGCCT ACAATTGGAC CCAGAAGAGG TGGACTTGGG TCTGGGGGCT GCATGGGCCTGGGAGGATCA GT TAATACCTTG TGGGGTCAGG GAGCCCATGT CCCGTGCTGA TGTTATTTCC CCACCAGGTCCGGGCTGTCT CCAACCAGAT TGTGCGCTTC CCCAATGAGA GACTGACCTC CGACCGTGGC CGAGCCCTCATGTTCATGCA GTGGGGCCAG TTCATTGACC ATGACCTGGA CTTCTCCCCG GAGTCCCCGG CCAGAGTGGCCTTCACTGCA GGCGTTGACT GTGAGAGGAC CTGCGCCCAG CTGCCCCCCT GCTTTCCCAT CAAGGTACCTACCCTCAGCC AATCTCCCAT GCCCTTGTGT GGCCTCCCCC AAAGGCAAGG TGCTGGGGGT GGGGATCTGGAAGACTGGAG CACCATCCTT AAGGAGCTGC CTGTGGAGCT AGGGTATGAG ACAGAGACAC AAG CACTGTCTCCTCTTCCATCT CAGATCCCAC CCAATGACCC CCGCATCAAG AACCAGCGTG ACTGCATCCC TTTCTTCCGCTCGGCACCCT CATGCCCCCA AAACAAGAAC AGAGTCCGCA ACCAGATCAA CGCGCTCACC TCCTTTGTGGACGCCAGCAT GGTGTATGGC AGTGAGGTCT CCCTCTCGCT GCGGCTCCGC AACCGGACCA ACTACCTGGGGCTGCTGGCC ATCAACCAGC GCTTTCAAGA CAACGGCCGG GCCCTGCTGC CCTTCGACAA CCTGCACGATGACCCCTGTC TCCTCACCAA CCGCTCGGCG CGCATCCCCT GCTTCCTGGC AGGTCAGACA GGGAGGAAGGTGGTGTCTTC CCAGGAAACA GCCATCCCTG GGGTGCCAAC TGGGAAGCAA TGGTGGGATG TGGTGAAGGTACATGGTTTG GGACCTCAGT ATTAGGCACA CCATAAGCAT GGATCTGTGC AC TGAAGAGATG GAGGTCCAGTGAGGGCCAGG AGTTTGGCCC ACCCCGTCTC TCCCATCCCC AGCCCTGGGT CTACCCTGGT AGAAAGACATTTCTCTGGGA AAGGCTGCAG TAAATCTGAG CTTGGGGTTT TCAAGGTGAC ACCCGATCAA CGGAAACCCCCAAACTGGCA GCCATGCACA CCCTCTTTAT GCGAGAGCAC AACCGGCTGG CCACCGAGCT GAGACGCCTGAATCCCCGGT GGAATGGAGA CAAACTGTAC AATGAGGCTC GGAAGATCAT GGGGGCCATG GTCCAGGTAAGGAGCTCTGC ATCCCAGCAT CCCCC CTTTGTATCT CCACCCACCA ATAGTAAATT AATGTTGTCA CATTTGACGTGATGACAATA AAGAATATGT CTGAGCCACC CTTTGAAAAG GCAAGGGTAT GGGTGAGTAG CCTCTGGGGAATGTTCCTCC TGTCTTCCCT TCCAGATCAT CACCTACCGA GACTTTCTGC CCCTGGTTCT GGGCAAGGCCCGGGCCAGGA GAACCCTGGG GCACTACAGG GGGTACTGCT CCAATGTGGA CCCACGGGTG GCCAATGTCTTCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCC CTTCATGTTC CGCTTGGACA GTCAGTACCGGGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCC TTCTTTGCCA GCTGGCGGAT CGTGTATGAAGGTGACCAGG TTTTCCAGGG GGCAAATGGG GGTGAGGGTG GGGAGCATGC CCTCCCCTAG GTGG TCCAGCTGCTTCATGTCTCT CCAGAACTCT GTTTCCTGAC AAACGTTACT AACATACCCG ACTGGCTTGT CCAGCTCTGGGCTAGCTTGG CATCATGTGA TAACCCAAGT AGCTTCCCAG AGGCTGGTCC AATCTGTGCT GCTCACATTCCCTGCCACCA GGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCC CTGCCAAGCT GAACCGTCAGGATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAG GAGGATTGGG CTGGACCTGGCAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGTGAGGGG GCTGTCCACC TCTTCTCCCAGCTTTGCTCG GGCCAGGCTG CTCAAGGGGT TCTGGGAAGA CCCTGGTACC CGACTGCCTG GTAGGTTCTGGTGGCAGAAA CGAGGTGTTT TCACCAAAAG ACAGCGCAAG GCCCTGAGCA GAATTTCCTT GTCTCGAATTATATGTGACA ATACCGGTAT CACCACGGTT TCAAGGGACA TCTTCAGAGC CAACATCTAC CCTCGGGGCTTTGTGAACTG CAGCCGTATC CCCAGGTTGA ACCTATCAGC CTGGCGAGGG ACATGAGGCT TCTGCAGGTAAGGGGAGGCC ACCTCCAGCA CCCTGGGCTG GTTAAGCCTC ACATCCTTCC CTGGATGGAT GGCTGAGTCCTCTTAGGTCT CTAAGCAGAG AAAACAGAAC TTGTCACTAG GTACTCTTTC CAAGTGGCTT CCCAATGTGCTAGTTTCTGG GCTGACAGTC AATTCCAGGC CCTAGGACTT TGGGGGGAAA TTAGGAGCAT CCAACTAGAATTCCGTG GCCAGGACCC CTGCCAGGGC ACTGACCCAG CCTCCCCTGG GGCAGTGGAG ACCTCGGTCCTGCGAGACTG CATAGCAGAG GCCAAGTTGC TGGTGGATGC TGCCTACAAT TGGACCCAGA AGAGCATCAAGCAGCGGCTT CGCAGCGGTT CAGCCAGCCC CATGGACCTC CTGTCCTACT TCAAACAACC GGTAGCAGCCACCAGGACAG TTGTTCGGGC CGCAGATTAT ATGCATGTGG CTTTGGGGCT GCTTGAAGAG AAGTTACAACCCCAGCGGTC CGGACCCTTC ATTGTCACTG ATGTGCTAAC AGAACCACAG CTGCGGCTGC TGTCCCAGGCCAGTGGCTGT GCTCTCCGGG ACCAGGCCGA GCGCTGCAGC GACAAGTACCGCACCATCAC TGGACGGTGCAACAACAAGA GGAGACCCTT GCTAGGGGCC TCCAACCAGG CTCTGGCTCG CTGGCTGCCC GCCGAGTATGAGGATGGGCT GTCGCTCCCC TTCGGCTGGA CCCCCAGCAG GAGGCGCAAT GGCTTCCTTC TCCCTCTTGTCCGGGCTGTC TCCAACCAGA TTGTGCGCTT CCCCAATGAG AGACTGACCT CCGACCGTGG CCGAGCCCTCATGTTCATGC AGTGGGGCCA GTTCATTGAC CATGACCTGG ACTTCTCCCC GGAGTCCCCG GCCAGAGTGGCCTTCACTGC AGGCGTTGAC TGTGAGAGGA CCTGCGCCCA GCTGCCCCCC TGCTTTCCCA TCAAGATCCCACCCAATGAC CCCCGCATCA AGAACCAGCG TGACTGCATC CCTTTCTTCC GCTCGGCACC CTCATGCCCCCAAAACAAGA ACAGAGTCCG CAACCAGATC AACGCGCTCA CCTCCTTTGT GGACGCCAGC ATGGTGTATGGCAGTGAGGT CTCCCTCTCG CTGCGGCTCC GCAACCGGAC CAACTACCTG GGGCTGCTGG CCATCAACCAGCGCTTTCAA GACAACGGCC GGGCCCTGCT GCCCTTCGAC AACCTGCACG ATGACCCCTG TCTCCTCACCAACCGCTCGG CGCGCATCCC CTGCTTCCTG GCAGGTGACA CCCGATCAAC GGAAACCCCC AAACTGGCAGCCATGCACAC CCTCTTTATG CGAGAGCACA ACCGGCTGGC CACCGAGCTG AGACGCCTGA ATCCCCGGTGGAATGGAGAC AAACTGTACA ATGAGGCTCG GAAGATCATG GGGGCCATGG TCCAGATCAT CACCTACCGAGACTTTCTGC CCCTGGTTCT GGGCAAGGCC CGGGCCAGGA GAACCCTGGG GCACTACAGG GGGTACTGCTCCAATGTGGA CCCACGGGTG GCCAATGTCT TCACCCTGGC CTTCCGCTTT GGCCACACAA TGCTCCAGCCCTTCATGTTC CGCTTGGACA GTCAGTACCG GGCCTCCGCA CCCAACTCGC ATGTCCCACT TAGCTCTGCCTTCTTTGCCA GCTGGCGGAT CGTGTATGAA GGGGGCATCG ACCCCATCCT CCGGGGCCTC ATGGCCACCCCTGCCAAGCT GAACCGTCAG GATGCCATGT TAGTGGATGA GCTCCGGGAC CGGCTGTTTC GGCAAGTGAGGAGGATTGGG CTGGACCTGG CAGCTCTCAA CATGCAACGA AGCCGGGACC ACGGCCTTCC AGGGTACAATGCTTGGAGGC GCTTCTGTGG GCTCTCCCAG CCCCGGAATT TGGCACAGCT TAGCCGGGTG CTGAAAAACCAGGACTTGGC AAGGAAGTTC CTGAATTTGT ATGGAACACC TGACAACATT GACATCTGGA TTGGGGCCATCGCTGAGCCT CTTTTGCCGG GGGCTCGAGT GGGGCCTCTT CTGGCTTGTC TGTTCGAGAA CCAGTTCAGAAGAGCCGAGA CGGAGACAGG TTCTGGTGGC AGAACGAGGT GTTTTCACCA AAGACAGCGC AAGGCCCTGAGCAGAATTTC CTTGTCTCGA ATTATATGTG ACAATACCGG TATCACCACG GTTTCAAGGG ACATCTTCAGAGCCAACATC TACCCTCGGG GCTTTGTGAA CTGCAGCCGT ATCCCCAGGT TGAACCTATC AGCCTGGCGAGGGACATGAG GCTTCTGCAG GAGTCTATCC CAAGTCTCCA ACTTTTGGAG ACAAGGGGAA GGGGAGGACCATGAGGCTGC CTTGTCTCCC TGGAGCAAGT GCAGGCTCGT GACGCTTCTG CTGGCTACAG CTCAGAGCTGGGTTCCCCAG CCAGGAGTGA AGGCTGGGGG CTCCTATCAG CAATGGACCT TCCGCCTTGG GAGCCTCTTAGGTATTAGGC TATGAATCAG CGCCACGTGC AAAGGCTTGG GAGCCAAGCC ATGTGGTCTT GCACCCCAGGCAAGAAAAGT CAGCTGGAGG GTTTACAGCA CTTTCTACTG TTTCCCAGCC CTCCCTCCCC TCCCTCACCATGACTAAGAG ACCACTCGGT CCTAGCCTCC AGACACCCCA CAATACTCCT CTGAGCCTGA GGCCAGGCAGCATGCTCTGC TTCTACCAAT AAAGCACTGC CGGAATTC

(2) SEQ ID NO: 3009 data:

(i) sequence characteristics:

(A) length: 146987 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3009 sequence description: BBG TGB GBG CTG BGB GBB BCT GTG BBG CBB TCB TGB CTT CBB GBG TTC TTT TCB CCC GTTCTT GGC TTC TTC TGT C CGT TGG CTT CTC GTT GTC CC TGT GGG CTT CTC GTT GTC CC CCCTTC GCG GGC TGG TGG GGC CGT CCT TGC CTG CTG G GTT CTT GGC TTC TTC TGT CCG T TGGCTT CTC GTT GTC CC TGT GGG CTT CTC GTT GTC CC CCC TTC GGG GGC TGG TGG GGC CGT CCTTGC CTG CTG G CCTGAGACAG AGGCAGCAGT GATACCCACC TGAGAGATCC TGTGTTTGAA CAACTGCTTCCCAAAACGGA AAGTATTTCA AGCCTAAACC TTTGGGTGAA AAGAACTCTT GAAGTCATGA TTGCTTCACAGTTTCTCTCA GCTCTCACTT TGGTGCTTCT CATTAAAGAG AGTGGAGCCT GGTCTTACAA CACCTCCACGGAAGCTATGA CTTATGATGA GGCCAGTGCT TATTGTCAGC AAAGGTACAC ACACCTGGTT GCAATTCAAAACAAAGAAGA GATTGAGTAC CTAAACTCCA TATTGAGCTA TTCACCAAGT TATTACTGGA TTGGAATCAGAAAAGTCAAC AATGTGTGGG TCTGGGTAGG AACCCAGAAA CCTCTGACAG AAGAAGCCAA GAACTGGGCTCCAGGTGAAC CCAACAATAG GCAAAAAGAT GAGGACTGCG TGGAGATCTA CATCAAGAGA GAAAAAGATGTGGGCATGTG GAATGATGAG AGGTGCAGCA AGAAGAAGCT TGCCCTATGC TACACAGCTG CCTGTACCAATACATCCTGC AGTGGCCACG GTGAATGTGT AGAGACCATC AATAATTACA CTTGCAAGTG TGACCCTGGCTTCAGTGGAC TCAAGTGTGA GCAAATTGTG AACTGTACAG CCCTGGAATC CCCTGAGCAT GGAAGCCTGGTTTGCAGTCA CCCACTGGGA AACTTCAGCT ACAATTCTTC CTGCTCTATC AGCTGTGATA GGGGTTACCTGCCAAGCAGC ATGGAGACCA TGCAGTGTAT GTCCTCTGGA GAATGGAGTG CTCCTATTCC AGCCTGCAATGTGGTTGAGT GTGATGCTGT GACAAATCCA GCCAATGGGT TCGTGGAATG TTTCCAAAAC CCTGGAAGCTTCCCATGGAA CACAACCTGT ACATTTGACT GTGAAGAAGG ATTTGAACTA ATGGGAGCCC AGAGCCTTCAGTGTACCTCA TCTGGGAATT GGGACAACGA GAAGCCAACG TGTAAAGCTG TGACATGCAG GGCCGTCCGCCAGCCTCAGA ATGGCTCTGT GAGGTGCAGC CATTCCCCTG CTGGAGAGTT CACCTTCAAA TCATCCTGCAACTTCACCTG TGAGGAAGGC TTCATGTTGC AGGGACCAGC CCAGGTTGAA TGCACCACTC AAGGGCAGTGGACACAGCAA ATCCCAGTTT GTGAAGCTTT CCAGTGCACA GCCTTGTCCA ACCCCGAGCG AGGCTACATGAATTGTCTTC CTAGTGCTTC TGGCAGTTTC CGTTATGGGT CCAGCTGTGA GTTCTCCTGT GAGCAGGGTTTTGTGTTGAA GGGATCCAAA AGGCTCCAAT GTGGCCCCAC AGGGGAGTGG GACAACGAGA AGCCCACATGTGAAGCTGTG AGATGCGATG CTGTCCACCA GCCCCCGAAG GGTTTGGTGA GGTGTGCTCA TTCCCCTATTGGAGAATTCA CCTACAAGTC CTCTTGTGCC TTCAGCTGTG AGGAGGGATT TGAATTATAT GGATCAACTCAACTTGAGTG CACATCTCAG GGACAATGGA CAGAAGAGGT TCCTTCCTGC CAAGTGGTAA AATGTTCAAGCCTGGCAGTT CCGGGAAAGA TCAACATGAG CTGCAGTGGG GAGCCCGTGT TTGGCACTGT GTGCAAGTTCGCCTGTCCTG AAGGATGGAC GCTCAATGGC TCTGCAGCTC GGACATGTGG AGCCACAGGA CACTGGTCTGGCCTGCTACC TACCTGTGAA GCTCCCACTG AGTCCAACAT TCCCTTGGTA GCTGGACTTT CTGCTGCTGGACTCTCCCTC CTGACATTAG CACCATTTCT CCTCTGGCTT CGGAAATGCT TACGGAAAGC AAAGAAATTTGTTCCTGCCA GCAGCTGCCA AAGCCTTGAA TCAGACGGAA GCTACCAAAA GCCTTCTTAC ATCCTTTAAGTTCAAAAGAA TCAGAAACAG GTGCATCTGG GGAACTAGAG GGATACACTG AAGTTAACAG AGACAGATAACTCTCCTCGG GTCTCTGGCC CTTCTTGCCT ACTATGCCAG ATGCCTTTAT GGCTGAAACC GCAACACCCATCACCACTTC AATAGATCAA AGTCCAGCAG GCAAGGACGG CCTTCAACTG AAAAGACTCA GTGTTCCCTTTCCTACTCTC AGGATCAAGA AAGTGTTGGC TAATGAAGGG AAAGGATATT TTCTTCCAAG CAAAGGTGAAGAGACCAAGA CTCTGAAATC TCAGAATTCC TTTTCTAACT CTCCCTTGCT CGCTGTAAAA TCTTGGCACAGAAACACAAT ATTTTGTGGC TTTCTTTCTT TTGCCCTTCA CAGTGTTTCG ACAGCTGATT ACACAGTTGCTGTCATAAGA ATGAATAATA ATTATCCAGA GTTTAGAGGA AAAAAATGAC TAAAAATATT ATAACTTAAAAAAATGACAG ATGTTGAATG CCCACAGGCA AATGCATGGA GGGTTGTTAA TGGTGCAAAT CCTACTGAATGCTCTGTGCG AGGGTTACTA TGCACAATTT AATCACTTTC ATCCCTATGG GATTCAGTGC TTCTTAAAGAGTTCTTAAGG ATTGTGATAT TTTTACTTGC ATTGAATATA TTATAATCTT CCATACTTCT TCATTCAATACAAGTGTGGT AGGGACTTAA AAAACTTGTA AATGCTGTCA ACTATGATAT GGTAAAAGTT ACTTATTCTAGATTACCCCC TCATTGTTTA TTAACAAATT ATGTTACATC TGTTTTAAAT TTATTTCAAA AAGGGAAACTATTGTCCCCT AGCAAGGCAT GATGTTAACC AGAATAAAGT TCTGAGTGTT TTTACTACAG TTGTTTTTTGAAAACATGGT AGAATTGGAG AGTAAAAACT GAATGGAAGG TTTGTATATT GTCAGATATT TTTTCAGAAATATGTGGTTT CCACGATGAA AAACTTCCAT GAGGCCAAAC GTTTTGAACT AATAAAAGCA TAAATGCAAACACACAAAGG TATAATTTTA TGAATGTCTT TGTTGGAAAA GAATACAGAA AGATGGATGT GCTTTGCATTCCTACAAAGA TGTTTGTCAG ATGTGATATG TAAACATAAT TCTTGTATAT TATGGAAGAT TTTAAATTCACAATAGAAAC TCACCATGTA AAAGAGTCAT CTGGTAGATT TTTAACGAAT GAAGATGTCT AATAGTTATTCCCTATTTGT TTTCTTCTGT ATGTTAGGGT GCTCTGGAAG AGAGGAATGC CTGTGTGAGC AAGCATTTATGTTTATTTAT AAGCAGATTT AACAATTCCA AAGGAATCTC CAGTTTTCAG TTGATCACTG GCAATGAAAAATTCTCAGTC AGTAATTGCC AAAGCTGCTC TAGCCTTGAG GAGTGTGAGA ATCAAAACTC TCCTACACTTCCATTAACTT AGCATGTGTT GAAAAAAAAA GTTTCAGAGA AGTTCTGGCT GAACACTGGC AACGACAAAGCCAACAGTCA AAACAGAGAT GTGATAAGGA TCAGAACAGC AGAGGTTCTT TTAAAGGGGC AGAAAAACTCTGGGAAATAA GAGAGAACAA CTACTGTGAT CAGGCTATGT ATGGAATACA GTGTTATTTT CTTTGAAATTGTTTAAGTGT TGTAAATATT TATGTAAACT GCATTAGAAA TTAGCTGTGT GAAATACCAG TGTGGTTTGTGTTTGAGTTT TATTGAGAAT TTTAAATTAT AACTTAAAAT ATTTTATAAT TTTTAAAGTA TATATTTATTTAAGCTTATG TCAGACCTAT TTGACATAACACTATAAAGG TTGACAATAA ATGTGCTTAT GTTT GATCAAAATTTTTACCTATT ATGCATTTGA TATATAAATA AGTATATAAA TGCACACACA GACACAGCAA TGATGGTGAACAGTCTTCAT ACAATTATAT GGATGAATCT CATAAAATGC TGAGTTAAAG AAATCAGACC AAAGAACATATACTGAAAGA TTCTCTCTAT ATACAAAGTT CAAAAATAGG TGGACCAATT CATGGTGGTG TTAGAAATCAGAAGAGAGGC TACCTTTGTG GGGAGGGGAC AGTTTAATGC CCAGAAGCGG TAAATAAGGA ATCCTCTGGGGAGTGGTAAT GATCTGGATG CTGGCTACAG GATGTGTTGG TTGTAAAAAT GCATTTTTTT ATATCTAGCTTTTTCCATGT GTATATTATA CTTCAAAGAA GTTCAGTTAA TAATTTCTCA TGTCACTGTA GAGTAGCTCAGTTAGCCCCA GCAAGCCTCT GGCTTAATCT TGTTTTACCT TAAGCCATCA GTCATTTACA AGTAGGAAAATTCACAGGGA AAGTTAGAGT ATAAAATCCA GAATGAAGGT TTACTGGGTA AGAGTCTCTC CATTTTCCAAAGCCCGTTTA TTTCTTGATT CCAGTTCTTA AGAAGTCTCA GCATTGTGTC TTTTTCATGT ATCTTACAAGAAGACAGCAT GTGCTTCTAA CACCTGATAC ATTGTATCTA CCAGCACTTG GTAAACAGAA AAGAACCACATTTTTCTTGT AGGAGAAATT TGGTGCCTAT TTCCTACCAG GCACCAATAA GTGGGACCAA TAGGTGGGATTAAAGATACA GTAGAAAGTA TTTAAAACTT GCCAGGGGGC AATAGTCTGA AAATAAGTAA ATTGGTGCTATAGAATGGAA GTTACAGGCT TCTTTCTTTT TTCCCACAAG ATCTGCTCCT TGAGCCCCTA GAGACTTTTCTGTCTGTTAC TGTTTCTTCA TTCCTCATCT GCAGAGCCAG CCCTGAGAAG TGCAGACCAA AGCCAGGGAAGGCTCTGCAA AGATGTACAA ATGGAAGTCA CCTTAATAAC CTCTGACTGC TGCGCATAAT ACATTTCACTCAAAAGAGGG GTTAAACAAT GGAACAGAAT ACAGAGGCCA GAAATAATGC TGAACACTGA CAACCATCTGATCTTTGACA AAATCCACAA AAACAAGCAA TGGAGAAAGG ACTCCCTATT CCATAATGGT GCTGGGATAACTGTCTAGCT ATATACAGAA GATTGAACCT GGGCCCCTTC CTTACATCAT ATACAAAAAA TAACTCAAGATGGAGTAAAG ACTTAAATCT AAAACCAAAC ACTATAAAAA CCCTGGAAGA TAGCCTGGGA AATACCATTCTGGACATAGG ACCTGGCAAA GACTTCATGA CAAGACACCA AAAGCAATAG CAACAAAAAC CAAATTGACTAATGAAACTA ATGAAACTCT TTAGTTGTAC AACAGATAGT TTATCTGTAC AACAAAATAA ACTATCAACAGAGTAAACAA CCTACAGAAT GGAAAAATTT TTTGCAAACT ATGCATCTGA CAAAGGTCTA ATATCCAGAATCTATAAGGA ATTTAAACAA ATTTACAAGC AAAAAAATGA CCTCATTAAA AAGTGGGCAA AGGACATGAACAGATGCTTT TCAAAATAAG ACATTCACAC ATCCAACAAC CATATGAAAA GATGTTTAAC ATCACTAATCATTAGAGGAA TACAAATCAA AAGCATAATA AGATACCATC TAATACCAGT AGGAATGACT ACTATTAAAAAGTCAGACAA TAACAGATGC TGGTGAAGGT TGTGGAGAAA AGGGAATGTT TATGCACTGC TAGTGGGAATGTAAACTAGT TCAGCCATTG TGGAAGAGAG TGTGGTGATT CCTCAAAGAA TGTAAAACCG AACTGCCTTTCAATCCAGCA ATCCCATTAT TGGATATACA CCAAAAGGAA TAGAAATTGT TTTACCGTAA AGGCGCATGCATGCATATGT TCATTACAGC ACTATTTACG ATAGCAAAGA CATGGAATCG TCTAAATGCC CATCAGTGGTAGACTAGCTA AAAAAAAAAA AATGTGGTAC ATATACATCA CAGAATAGTA TGCAGCCATA AAAATGAACAAGATCATCAT GTCCTTTGCA GCAACATGGA TGTAGTTGGA GGCCATTATC CTAAGCAAAT TAATGCAGGAACAGAAAGCC AAATACCACA TGTTCTCATT TATAAGTGAC AGCTAAATAT TGAGTACACA TGGACACAAAGAAGGGAACA ATAGACATGG GACCTACTTG AGAATAGAGG GTGGGAGGAG GGTGAGGATC AAAAAGTACCCATAGGACAC TGTGCTTATT ACCTGGGTGA TGAAATAATT TGCACACCAA ACCCCTGTGA CACACAATTTACCTATATAG AAAACCTGTG CATGTACCCC TGAACCTAAA AGTTAATGGT GGGGGGGTGG GGTTAAGCTACTTTGTGGTA TAAATCTGAG CATTCATATT AAAATAAAAT ATTTACCTCA TTAGAGTAAT TAACATTTATTAAGCAAAGA GCCAAGTACC TTACACACAT GATGTTTAAT CTCACAATGA TCTTTAATCT CATAACAACCGTCCATTGTA TGTACATATG TGGAAATTGA GCCTTGGAGA GATTAAATGC ATGGGGCATG CCATTTGACTAGAAACTGGA AGCATCAGGA TTTAAACTCA GTTCTGAATG GTTTTGTAGG CTTTGTTTTT TCCACATTATAGCATGGCCT GCCATGAAGA ACAGGTCCTT TCTGGTGTTT GTCTTGTTTG GTTTAAGTGA AGCAAATATTTATTTAAATA TTCAAGATAT GCTGTTAAAT TTTTACTCAA AAATTTGAGT ACAGTATGGA TCTTCTGAAGCCAAATAACT CTTATTCAAT GCTTAGTTGA GAAATTTTAT GGAGTAGTTC TCAATTTTTA TGTAGTTCCACTGCAAAGGT AAGTCTTATG GAAAGATTCA CTGTAATTTT TTTTCCTCAT TTGGACATCA GCTTTTTCTTTTCCTCAGAC CCGCTGAAAG ATAATTTTTA AAATAAAAAC CTTGTTTTTA TATCAAGTGG GGACATTTTTTCCAAATGAA AACCGTGTAT TCATTTTATA TGATAAAATC AATGTTATTA TTTTTAAAAT TTTGATTTAAAAATCATTAA AAATAAATTT TCAGATATTA CCTGAAATTC TACCATCCAG AGATAATAGT GCTTAAAGATTTGATATATA GACACACACA CATATATACA TATATATCAT CCTAAACTTC TTTGTATAAA TGTATATAAAGTTTTTAATA AAAACTAGGA GATTAATGCC CTTTGAATGA AAATAAATAC AATGTGTATG CTTTAACATCTTGCCTTTAC TTTATAACAT TTATCACAGC AGTCATGAGA TAATGATTTA CATGGTCATT GTTAGTAAGCTAATAGCTAA GTGCATGAAC TCTGGAGCTA GCCTCCCTGG ATTTTAATCC CAGATCTGTC ACTGACCAGCTGAGCAATAC TAGGTAAATT GCTCTTGTTC CTTAGTTTCT TCATCTGTAA AATAGAGATA AAAATAATATCCACCTCATA GGATTGGTGT GAGCATTAAA TGAGCATACG TATGTAGGCC ACTTAACAAC AATGCCTTCACATACTGAAC ACAAATATAC GAGCTGTTGT CTTATTGGGC TCATGTTTTT CCTACCACTA AGCCGCATGCATGCAAGGAC CATGTTGGTT TTGTTCCACA TTGCATCCCC AACCTGGTAT ACAGTGTGCA TTCAATAGTTGTTGACTATT ATTACTAGTG GCATTTAACA AATATCTGTT AAATGAGTGA AGAAATACCC ATTTACTGCAAGTGTGTCTA ATATTGATGG CATAATGGGG GAAACTCAAA CTCTGGAGTC AAACAGGTTT TAAAACCTTATTCCCTCATC CTCAGTTATT GACGTTTTTT TTTTGGCAGG TGTGTGTGTG GGACAACTTA TTGAACTTTTCTGAATTTCC AGCTTCGCAT ATATAAAATA GAGATAGTGA TTCATTCTTG CAATGTATGG ATTTGAGACAATTGTGTAAG TTTATCAATA AATAGTAGCT ATTTTTGTAT AAGTATTACA TATAATATCC AGGCCACTGCTTTGCATAAC CCAAAAGGGG CACCATTCAT GCAGAATACA ACATAAATGG TGTCCCTGGA GCAGTGCAGTATAGGAACCC TGAGGGGACC TACAGTATAC TTTATAGTTC ATAGATTACA AATTATCCCT TTATCAGAGTCTCTCAAGGT TGGATGTATT TGAGGTCCAT AAGAGCAATT TAGGATTAAC AGTAGCTGCA GAAACCATCTGCAGTGATAT TCTCATTTTA AATCCGCGGG AAAGAAGACA GCTATAAACT TGGGACCTGG GTTTAAGCATTTTAAATGCC AAGTTCACCA TTTTCTAAAA CACAACAAAT ACCCAGTGAG AGAGGGAGAA GGGAAGTAAATGCCTCTGAA TAAGCAAGTT AATGTCAGTA GTTGTACTGT ATGCATATTG ATGAACAATA GAGGAACCAATGTCCAATCA GATGAGCAGG ATATTTGGCA ATAACAAGTT GCCTTTGAGG AAAAATGATT TTCTTGGCAAGTTCTTTATC AGCATTACAA AGCTAAAAGC TACGCTTATC ATCACTTATA CTAGCATACC CTGTTGTGCAAATGCTGTCT GTGTTTGCAT CTGCTATTGT TGATGCCTGG TGCATGAATC AGGACTCCAG CCCACAAGTTTTCCCAGAAC TTTCTTATGG CCATCATCTT TAAGTGTCTG GTGAACAGTC ATAGTTTGGT ACACAAAAGGGTCAACCTGG GGGATGGCTA GGGTTTGACT CAGTCGTTAC ATTTCAATAG AGCAGGAAGG GGAAATGGTGGCCTGTAACC TCAGGGAATT TTGCCAGTTG GTCCACCCCA CTCTCTCTCT CCTGCTCTGA GGAAGTGGCACAGCCTAGAA CAGCACCACA GGTGAGAGAA ATGCAAACCC TAACCAGAGA AGCAGACTCT TTGCCAGTAGTAATAGTTCA GGACCACCAC CAGCTTTTAT TAAAATTTTT AATAACACTC AAGTATTGGC AGAAAGAAATAATCTTGGGT TAACTATAAC TAGAATATTG ACTCTTCCTC TGTGGAAGAA TCAGCCAATC ACATTTGTTTACATCAGTTC CCCTGAAGAA GAAAAATACA CTGATGTTGC AGCAAGACAA ATTTAAGCTA GATGTAAATAACTTCCTTTA GCCTGTAATG CTAGGCTAAT TACATATTGG AACTATTTTT TCAGGGAAGA ATTGTGTAGGGTTTCAGGGA AGAATTCTGA AGAAAATATA GAGCTGAAAT GATCTTGCAG CTCACTGAAA CTGCAGGGTTTAGATCCACA CTGATACTCG TTCTATTATC ACTGTAATGA AGGCTGATGG AATAAGTAAA AATGTTTTGTATTAGTATGT TTTTACACTT ATTTGCAAGG CATAAATAGG TTAGGTTTTG ATCTTAATTT AATTCTAACATGTATTGTGC ACAAGCTGTG AGCAGTTTTC AGGAGTTAGG TATCTGGCCA TGACTGATTT TTCAGGAGTTAATCATCTGG TAGAAGGGTC ATACACAATA GGAAGATGTG TGTGACAGGT TGTGATCATT ACTATAATCACACAGAGAGC TGTAGAATTT TAGGCTGGCA GGGTGGCTCA CGCCTGTAAT CCCAGCACTT TGGGAGGCCAAGGCAGGCGG ATCAAGAGGT CAGGAGATGG AGACCATCCT GGCTAACACG GTGAAACCCC GTCTGTACTAAAAATACAAA AAAAAAAAAA AGCCAGGCGT GGTGGTGGGC GCCTGTAGTC CCAGCTACTT GGGAGGCTGAGGCAGGAGAA TGGCGTGAAC CCGGGAGGTG GAGCTTGCAG TGAGCCGAGA TCGCATCACT GCAATCCAACCTGGGCGACA GAGGGAGACT CAGTCTCAAA AAAAAAAAAA AAAAAAAGTC ATGTTAGATC CAGAGGGGTAGCAACTGGGG CTGGGCTGTC AGTCAACTCA GTCAACTCAG TCAACTCTGC TCCCCCACAG GAGATGCCAGTGATGCATTT TCATGGCCAA CATTGTCAGT CAGCATCATT GAATTACTCC TGATTATAGA GACACAGCTGCAAACGATTC CCCATTAAAT ATGATGTTTC TTGCAATGTT TGGAAGGTAC TCCTTTTTAG TAAGGGAAATCCCCTCTTCT GGCTTGCTGA AAGTTTTTTC TTTCCATTTT AAAAATCGTG AATTCCTTTT TGCAATATTGAGGTGGTTAT ATGGTTTCTC TTCTCTAATC TGTTAATATG GTGATTTAAT GGTTAGAAAT TTTCTAATGTAAATTCCACT CATATTGCAG AAATAAACCT AAACTGAGCA TGAGGCTATA TTTTTTATTT GCTTCTATATTTGGTTGCTA TACAGTATTA TGTTTAAGAT TTGTTCACAT ATATTTGTGA ATGGGATTGG ACTATTTTTCCTTCTTGCCG ATTTTTATCT GGTTTTTAAA TTAAGGATAT TTTAGACTTA TGAAATATTT GGCAAACAATCCTTGGCAAG TAATTTTTTG GGGAATTTGT TTTGGCTATT TTGAGTATTA CCCAATATAT TTTAATTAAGTTATTCTTAA TGTTTTCTTA ATTAAAAAAA TTACCTACTC TAGAGATATT CTTTATGTAC TCCAGATTTTGTCTATTTAT ACCACTTTTC TTTTTTCCTC GATGAGTGTC ATAGATGTTC ATCTATTTTT TTATCTTCTTTGATCTTCTC TTATTCCTTG TTTCTATTAA CTTCTGAAGT TTATTATTTT CTTTTTTCCA CTTCCTTATGGTTTATTCTT TCAATTTTTC TCTAACTTCT TAAGTTGGGT GTTTAATTTT TAGCTTGCTT TGCTTTTTTAGGATAAGCAT TAAAACTACA AATTTTCCTT GTTATTCTTT TGCTGCACCC CAAATTGTTG ATATTTCTATTGTCTAATTT CTATTCAATT AGAATACTTT AAAGTTTCTT TTTGGTTTTT AAAAACTAAC TTTTTAAATTGACAAATAAA AATTGTGTAT ATTTATTGTG CACAGCATAT GGCTTTGAAA TATATGTACA TTGTGGAATGGCTAAATTTA GCTTATTAAT GTATGCATTA TCTCACATAC TTATCATTTT TTGTGGTGAG AGCTATGTGACTTTTGAACT TATGAGTTAT TTAAATATTT TTAAATTATT AAGCATATTG GGATTTTAAG TAATTTACCTTTTTATTATT AACTTATAAC AAGTAGAACA GTTAACCTGT ATGATTCTAC ATCATTGAAA TTTATTGACATTTGCTTCAT AGTCTATTAT ATGGTCTACT TTTGTTCATG TTACATCTGT AGTAGAATTG GCTAATAGTTGAGTAAAGTA CACATATGTC TATGAAATCA AGTGTAATCC AGAGAAAAAG AGAAATTTAC TGAATATATTGTTCTAGGTGCTATTATATG TTGTCATGTT TAATCCTCAC CACAATTGTA TGAGGCAGCC ATAATTAATTCCACTTTACA CATGAGGAGC CTGAGGGTTA AAAAAAAAGC TAGCTCTACT ATTTGTAAAG AATGAAGCAAAGATACAAAT GAAGGCCCAC ATATCCTATA ACTAGATATT TAAGCATTTT AATTCAAGCT TTAAAACTGCTAAATAAAAT GTGCTCCAAT TTCTATATTG ACAGACATAC CTTCCTAATG AGCTGGGGTT CGAATTTAGAAATCTTTGAT GCTTCAGAGT CCACACTGAA ATGTGGAGGC ACATAGTGAG TTGGTCCCCA GCCTTCAGTCCACCCACCTT CTCTTTACTA AATCACCTTT CACATACATG TATGAACACC CCAGCCTCCA AGTCCAAACCCTAAACAAAA TGGGACACCC TTGTGCATAC ACAGAGACAC AGCCCATCCT CAGGAAAACC TGGAAAAGTCCATACAAGTT CTGGAAGCAA GCTTGGGACG GTTTCAGTAG TGTGGTCTAT AAGGGAGGCC TCAGAAGACAGGTTTTCTTA ATTCTGTGAA CTTCTCCCAC AGTAGAAAGG GTGCTGGAGG AGGGTCAGAG TGAGGACTTCTAAAGCATGG GTCCTGAGTA GGGGCCACTC TTGCCCAAGT CTAAGAAGGG TACTAGAATA GCACACTACTACTAGATACT AGAACCCAGA TACAAGCACA GGTCTTCTGA AATTAATAAT AATAATAACT ATTACCATTATTATACCAGT AGCTGTCATT TATTTAGTGC TTATTATTTG CCAGTCACTG TTCTAAATTC TTTACATGTATTATACAACT GCCATATAAC TGCCATATGA GGGATGTACC CTCATTGTCA CCATTTTACC GATGAGAAAACTGGCATAAA ACGTTTAAGT AACTTGTCCA AGTTACAGAG CTTAGTGAAG CCACAATGTT GCTCAATTTGCTCTCAAACT TCAAAGGGAT GGGAAGGACA CCTAAGTCAT AGAGTCTTTA AGAATCAGAG CTAGAAGGAATCTTAGATGT TATCTAGTCA GCCTCCTCCC ATTACAGTCC AAGAGAAGAT GGCCCTGAGT TACTTGTAGCTATTTTTGCA TGTGAATTGC AAGTGAATAT ACATTCTACT GAAGATAAAA GATATTTAAA GATATCGCTGGATATAGGAA CAGTGGTTTT AAATCTCTAG GCTTTAACTT TTCTCAGAAC AAGAAATCCT TTTTGGTTTTAATCTATATG CACATCTGTA TTTTTCTCAA TTATCGGGTA GTAAAATATA ACTTTTCTTC TGTAATATTTTTTAACTTTA ATGAGTGTTC CTCATAATAG AAAAGTTTGG AAACCATTGC TATGGGTATA TACTTTCTAAAGGGATAGTA ATTTCTCTAG AATATTCATT TAATGCTCCA GAAGTAATTA GCACAATTGT GCAAGTCTGTGCATCATCAA CTATACATTC TGCCTGTTTA CTCCAAATCC ACATGAAACT GATTATACAG TCAAAGGCGAGCCCAGTGGA GAGGCATTTT TGGAGACTTC CTGGTACATT GAGACAGGGT CGGCCAGTCT GCGTTAGGGTCTTGGTCAAA ACTGCATTTC TGAAACTAAA CTCAGATTGC TTTCTTTTAA GGGGTCAGAA CTGATTCAAATCTACATTTT TAAAAGCCTT AGATGTGGGG CTTTTCCTAT TCCCAGTCTC CGCTATTGGT CTTTGTGAATCCACAGGCAA TTTGGCCACA TCCTTGACTC TCTCTTATAT TAAGAATTAA ACAGCTAAGT TCATCCAGAGGAAATATAAC AAAGGAGGGA CTTTCCTACA AGATCTTTGA AAAATGGAAC ATTTGCATAA GTCATATTTAGCCAGAACTG TTGTTTTATA TTTTCCTTTC TGAATACTTT GTTACACCTC CTCCCAGCCA ACCCCCCCCCTCCCTGACCC CAACTAGTCA GAGACCAAAG CCTTCACAAT GGTTTACACT TGAACCTTCC TGGCCCCACCCTCATCATCA CGCCTGAATA ATTACATTCA CTGACTGGTC TCCCCTGCTT CCGTTTATCT CCACTCCTAAACCCTCTGAC ACCTTAATCT TCCCAGAATA CCATTGTGAT CCTGTTCCAC TCTTGCTCAA GTTTTCCCAGAAACTAGAGT ACAAACTTTA TAAGCTTTAG AGTTGAAAGC CACTCTATCT CTTTTTCATC CCCAGGTCTCTGCCAAGGCA GTATAACCTG TCCAACATCT CTAACTTCAA TACCTTTGTC TTAGATACTA GACTCTCCTCCTGGTTTCTA ATTAAACCTG ATCTAGGATC TAATTTTGCC TCTGAATTCT GTTGCCCTTT GCCAAGTGATCTCTTCCTCC TCTGAGCCGC AGCATCTCTG AGCTTGCACA CTTAGCATAG CCATAGCACA CACAGCCTTAGCTTGCAGTT CAGGGTGTTT ACCTTCCCTC CCCTTCCAGA TGCTGGATCC CCAGGGATAG GAACTCTGCCCTTATGTGTC CATAGCCCCT GGTAGTATGT CTTGCAGTCG TACATTTTCA GCAAATGTTT AATTGGTTAATTGAAGACAA CTGTCCCATG CCTTAAGCCT CTCTTTTTGC TAAACATGCC TGTGTCCTTT GTCATTGAACAACTATTTTG ATCTATTTTC TTCCTGACAT AGGGGTCAGT TCCGAGGATG CTGAAATCAA GAGACATAGCTTATTCTCTC AAAATTGCTT TCAAGAGTGA TTTTGTTGTG AATTGAGAAC TGGCTGCCTA CTTTTGGACTACCCACTTCA GCAAGAGTGT TTGAAACCAA ATCTATTCTA AGTAATTTTT TATTCCCTTT TCTCTATGGCATTAGACACA CAGCTCTTTT AAACTACCTT TCGTTATCTA TTAAACAGAC ATTCAGTAAC TCTATAGACACTGTCTAGCT ATATGAACTT AGACAAACTA ATATCTCTGA GCTTCAGTTT CTTAAAATTT AAAATGAGGACAATACCATC TATGGCCGGG GATTAAATGC TATGAGGAAT GTAAACCAGA TGTCAGGTAC CATCTCTCTAAAATCCAGAT AAAATGAATT AAAAATACTG GCCGCAAACC CTCTCTAAGA GTTCTCAAAA TTCTCAGAGAGCTTAATTTT CATGCTCACC ATAGCACCGA TTTTCTTCTA AATATTTTGT TTCTACCAAA ATATTTTGTCCCAATTTTGC CTTTTATGGC TATTTCTTCA TATCCACTTT CCCAAACTAA AGAAGCAGCC CCTTCACCTTAAACTCCTCC TTCAAAGCAA CCTAAATACA GGTCTGGGTT TGTATTCCTA GTGGGATGTT ACAGAGGTTAGTGTGATGCA GAGGAGGAGT CATGCTGTTT AAATCCATAC TAGTCCCCAG AGGCCAGGCT GCTTCTGCCACCCCTACCCC TCCCGCCACA GAGCTCTTCA GCTTCTCACA TTTCTAGTTC TTCTCTCTCT ACTTTCATTACCTTCTCTCT TTTTTTTTTT CTTCTCATGT GCTCACGGGA GCAGAGAAAA TTAACTCCTC TAAGTTTTCTTAACACAGAG TGCCTTAATT ACATATTACT ATTGTTTGAG TTCCTGCCAA CACTACGTCT GTAGGGTCACACCTGCTATA TTAGAGGCTT ATCAAAAAAA GATAGCTTTC TCCTAAAAAG GGATTTGGAT GCCTACTAAGATAACTGGAT GCCAAGATAA GTTTAACCTA ACAAACTTTA TTATTATTAT TATTATTATT ATTAGAGATAGGTACTTATT CTGTCACCCA GACTGCAGTG CAGGGATGCA ATAATAGCTC ACTGCAGCCT CAAAGTCCTGAGTTCATGCA ATCCTTCTGC TTCAGCTCCC TGAGTAGCTA GGACTACAGG CATATGCTAC TCTGCCCAGCTACTTTTAAA AAAATAATTA GGGATGGGGT CTTGTTGTAT TGCCCAGGCT CGTCTCAAAC TTCTGGTTTCAAGCAATCCT CCTGCCTTTT ACCTCCCTAA TTGTTGGAGT TACAGGCATG AGCCACAGCA CTCAACCAAGATTTAAAAAC TTTTAAAAGA AATCACATTA CTTACTGTTA TCATCATTAT GGTTACTACC AGTGTTAAAACAATTGGTAT TGAAAACACC ACTACCAGAT CAAGCTTCAA ACCAAGATGT CAAGTAAATA TTATTGTCAGACCTCTGAGC CCAAGCCTGC AGGTATACAC CCAGATGGCC TGAAGCAAGT GAAGAATCAC AAAAGAACTGAAAATGGCCG GTTCCTGCCT TAACTGATGA CATTCCACCA TTGTGATTTG TTCCTGCCCC ACCTTGACTGAGGGATTAAC CTTGTGAAAT TCCTTCCCCT GGCTCAGAAG CTCCCCGACT GAGTACCTTG TGACCCCCACCCCTGCCCAC AAGTGAAAAA CCCCCTTTGA CTGTAATTTT CCACTACCCA CCCAAATCCT ATAAAACAGCCTCACCCCTA TCTCCCTTCG CTGACTCTCT TTTCAGACTC AACCTGCCTG CACCTAGGTG ATTCAAAAGCTTTATTGCTC ACACAAAGCC TGTTTGGTGG TCTCTTCACA CAGACCATGT GACATTTGGT GCCGTAACTCAGATCGGGGA ACCTCCCTTG GGAGATCAGT CCCCTGTCAT CCTGCTCTTT GCTCCATGAG AAAGATCCACCTATGACCTC TGGTCCTCAG ACCAACCAGC CCAAGGAACA TCTCACCAAT TTTAAATTGG GTAAGTGGCCTCTTTTTACT CTCTTCTCCA GCCTCTCTCA CTATCCCTCA ACATCTTTCT CCTTTCAATC TTGGCACCACGCTTCAATCT CTCCCTTCCC TTAATTTCAG TTCCTTTCTT TTTCTGGTAG AGACAGAGGA AACGTGTTCTATCTGTGAAC CCAAAACTCC AGCACTGGTC ATGGACTTGG AAAGACAGTC TTCCCTTGAT GTTTAATCACTGCAGGGATG CCTGCCTGAT TATTCACCCA CATTTCAGAG CTGTCTGATC ACTGCAGGGA CGCCTGCCTGGATCCTTCAC CTTAGTGGCA AGTACCACTT TGCCTGGGTG GCAAGCACCA CCTCTCCTGG GGGGCAAGCACCACCTCTCC TGGGGGGCAA GTACCCCCCA ACCCCTTCTC TCCATGTCTC CACCCTCTCT TCTCTGGGCTTGCCTCCTTC ACTATGGGCC ACCTTCCACC CTCCATTCCT CCCTTTTCTC CCTTAGCCTG TGTTCTCAAGAACTTAAAAC CTCTTCAACT CACGTCTGAC CTAAAACCTA AATGCCTTAC TTTCTTCTGC AATACCGCTTGACCCCAATA CAAACTCAAC AATGGTTCCA AATAGCCTGA AAACGGCACT TTCAATTTCT CCATCCCACAAGATCTAAAT AATTCTTGTC GTAAAATGGA CAAATGGTCT GAGGTGCCTG ACATCTGGGC ATTCTTTTACACGTCGGTCC CTCCCTAGTC TCTGTTCCCA ATGCAACTCA TCCCAAATCC TCCTTCTTTC CCTCCTGCCTGTCCCCTCAG TCCCAACCCC AAGTGTCGCT GAGTCTTTCC AATCTTCCTT TTCTACTGAC CCATCTGACCTCTCCCCTCT TCCCCAGACT GCTCCTCCTC AGGTCGCTCC CCGCCAGGCT GAATCAGGCT CCAATTCTTCCTCAGCGTCC GCTCCTCCAC CCTATAATCC TTCTATCACC TCCCCTCCTC ACACCTGGTC CAGCTTACAGTTTCATTCTG TGACTAGCCC TCCCCCACCT GCCCAACAAT TTCCTCTTAA AGAGGTGGCT GGAGCTAAAGGCATAGTCAA GGTTAATGCT CCTTTTTCTT TATCCAACCT CTCCCATCTC AGTTAGTATT TAGGCTTTTTTTCATCAAAT ATGAATACCT AGCCCACTCC ATGGCTCATT TGGCAGCAAC TCCTAGACAT TTTACAGCCTTGGACCCAGA GGGGCCAGAA GGTCATCTTA TTCTCAATAT GCATTTTATT ACCCAATCCA CTCCCAACATTAGAAAAAGC TCCAAAAGTT AGACTCCGGC CCTCAAACCC CACAACAGGA CTTAATTAAC CTTGCCTTCAAAGCGTACAA TAATAGAGTA GAGGCAGCCA AGTAGCAACA TATTTCTGAG TTGCAATTCC TTGCCTCCACTGTGAGAGAA ACCCCAGCCA CATCTCCAGT ACACAAGAAC TTCAAAATGC CTAAGCCACA GTGGTCAAGCATTCCTACAG GACCTCCTCC ATCAGGATCT TGCTTCAAGT GCCAGAAATC TGGCCACTGG GCCAAGGAATGCCCTCAGCC TGGGATTCCT CCTAAGCCAT GTTCCATCTG TGTGGGACCC CACTGGAAAT CGGACTGTCCAACTTGCCCA GCACCCACTC CCAGAGCCCC TGGAACTCTG GCCCAAGGCT CTCTGACTGA CTCCTTCCCAGATCTTCTTG GCTTAGTGGC TGAAGACTGA TGCTGCCTGA TCGCCTCAGA AGCCTCCTGG ACCATCACAGATGCTTTTGG TAACTCTTAC AGTGGAGGGT AAGTCCGTCC CCTTCTTAAT CAATGCAGAG GCTACCCACTCCACATTACC TTCTCTTCAA GGTCCTGTTT CCCTTGTCTT CATAAATGTT GTGGGTATTG ATGGCCAGGCTTCTAAACCC CTTAAAACTC CCCAACTCTG GTGCCGATTT AAACAACATT CTTTTATACA CTTCTTTTTAGTTATCCCCA CCTGCCCAGT TCCCTTATTA GGCTGAGACA TTTTAACCAA ATTATTTGCT TCCCTGACTATTCCTGGACT ACAGCCACAT CTCATTGCTG CCCTTCTTCC CAACCCAAAA GTGGCAACTC CTTTGCCACTTCCTCTCATA TCCCCCTACC TTAACCCACA GGTATGGGAC ACCTCTACTC CCTCCCTGGC AACAAATCACACCCTCATTA CTATCCCATT AAAACCTAAT CACCCTTACC TGGGTCAACG CCAGTATCCC ATCCCACAACAGGCTTTAAA GGGATTAAAG CCTGTTATCA CTTGCCTGTT ACAACATGTC CTTTTAAAGC CTGTAAACTCTCCTTACAAT TCCCCCATTT TACCTGTCCA AAAACTGGAC ATGCCTTACA GGTTAGTTCA GGATCTGTGCCTTATCAACC AAATTGTCTT GCCTATCCAC GCCATGGTGC CAAACCCATA TACTCTCCTA TCCTCAATACCTCCCTCCAA AACCCCTCCA TAACCCTTAT TCTGTTCTGG ATCTCAAAAC ATGCTTTCTT TACTATTCATTTGCACCCTT CATCCCAGCC TCTCTTCACT TTCACTTGGA CTGACCCTGA CACCCATCAG CCTCAGCAACTTACCTGGGC TGTACTGCCG CAAGGCTTCA TGGACAGCCC CCATTACCTC AGTCAACCCA AATTTCTTCTTCATCCATTA CCTATCCAGG CATAGTTCTT CATGAAAACA CACGTGCTCT CCCTGCTGAT CATGTCCAGCTAATCTCCCC AACCCCAGGA CTGGCAAATT GACTTTACTC ACATGCCCCA AATCAGGACA CTAAAGTACCTCTTGGTCTG GGTAGACACT TTCACTGGAT AGGTAGATGC CTTTCCCACA GGGCCTAAGA AGGCCACCGTGGTCATTTCT TCCCTTCTGT CAGACATAAT TCCTTGGTTT GGCCTTCCCA CCTCTATACA GTCTGATAATGGACAAGCCT TTACTAGTCA AAGCACGCAA GCAGTTTCTC AGGCTCTTGG TATTCAGTGA AACCTTCATACCCCTTACCG TCCTCAATCC TTAGGAAAGG TAGAACTGAT TAATGGTCTT TTAAAAACAC ACCTCACCAAGCTCAGCCTC CAACTTAAAA AGGACTGGAC AGTACTTTTA CCACTTGCCA TTCTCAGAAT TCGGGCCTGTCCTCGAAATG CTACAAGGTA CAGCCCATTT AAGATTCTGT ATGGACGCTC CTTTTTATTA GGCCCCAGTCTCATTCCAGA CACCAGCCCA ACTTGAACTG TGCCCCAAAA ACTTGTCATC CCTACAATCT TCTGTCTAGTCATACTCCTA TTCACCATTC TCAACTACTT GTAAATGCCC TGCCCTTTTT TACAGTGCTG ATTTATACTTTTCCTCCAAA CCATCATAAC TGATATCTCC TGGTTTTACC TCAAACCGCC ACCCTTAAGT CTCTCTTAAAGTGGATAGAA GATCTTCAGT GACAAGGTAC ACTCCAATAC TTTCACCCTA ATAAAGCCCT ATTCTTTACTTTTATATTCA CTCTTATTCT TGTTCCCATT CTTATGCCAC TCTCTACCTC TCCCCAGCTA TCTCCACCACACTATCAATC TCACTCACTC TCTCCTAGCC ATTTCTAATC CTTCTTTAAC AAACAATTGC TGGCTTTACAATTTCTCTTT CCTCCAAAAT CACCGAGTCC TCAATTTACT CACTGCTAAA AAAGGGGACT CTGCATATTTTTAAATGAAG AGTGTTGTTT TTACCTAAAT CAATCTGGCC TGGTATATGA CAACATAAAA AAAACTCAAGGATAGAGCCA AAAACCTTGC CAACCAAGCA AGTAATTATG CTGAACCCCC TTGGGCACTC TAATTAGATGTCCTGGGTTC TCCCGATTCT TAATCCTTTA ATACCTGTTT TTCTCCTTCT CTTATGCAGA CCTTGTGTCTTCCATTTAGT TTCTCAATTC ATACAAAACC GTATCCAGGC CATCACCAAT CATTCTATAC GACAAATGTTTTAAGGGAGG AGACCACCCC TCATATTGTC TTATGCCCAA TTTCTGCCTC CAAAGAAAGA AGTAAAAATGAAAAGGCAGA AATGAAATCC ACAGGCAGAC AGCCTGATGC CACACCCTGG GCCTGGTGGT TAAGATCAACCCCTGACCTA ATCAGTTATG TTATCTATAG ATTACAGACA TTGTATGGAA AAGCACTGTG AAAATCCCTGTCTTGTTCTG TTCCTCTAAT TACCAGTACA CGCAGCCCCT AGTCATGTAC CCCCTGCTTG CTCCCCCTGCTTGCTCAATC AGTCATGACC CTCTCACGCA GACCCCCTTA GAGTTGTAAG CCCTTAAGAG GAAAAGGAATTGTTCACTCG GAGAGCTCGG TTTTTGAGAC ATGAGTCTTG CCAATGCTCC CAGCTGAATA AAGCCCTTCCTTCTTTAACT CAGTGTCTGA GGGGTTTTGT CTGTGTCTTG TCCTGCTACA GTTTCATCTA ACAACCCCATAATATCACCC CTTACCACAA AATCTTCCTT CAGCTTAATC TCTCCCACTC TAGGTTCTCA CGCCACCCCTAATCCTGCTC GAAGCAGCCC TGAGAAACAT CGCCCGTTAT CTCTCCACAC CACCCCCAAA AATTTTCACTGCCCCAACAC TTTACCACTA TTTCGTTTTA TTTTTCTTAT TAATATAAGA AGATAGAAAT GTCAGGCCTCTGAGCCCAAG CCTGCACGTA TACATCCACA TGGCCTGAAG CAAGTGAAGA ATCACAAAAG AAGTGAAAATGGCTGGTTCC TGCCTTAACT GATGATATTC CACCATTGTG ATTTGTTCCT GCGCCACCTT GACTGAGGGATTAACCTTGT GAAATTCCTT CCCCTGGCTC AGAAGCTCCC CCACTGAGCA CCTTGTGACC CCCACCCCTACCCACAAGTG AAAAACCCCC TTTGACTGTA ATTTTCCACT ACCCACCCAA ATCCTATAAA ACAGCCCCACCCCATCTCCC TTTGCTGACT CTATTTTTGG ACTCAGCCCA CCTGCACCCA GGTGATTCAA AAGCTTCATTGCTCACACAA AGCCTGTTTG GTGGTCTCTT CACACCGACA CGCGTGATAA TTATTATATT ACTTTTAAGTAAAACCCTTT CAGAGTCTCG CAGGGAAGGC TGTATATATC TCATAAAATG TTGGGGCCCA CTGGATCAGACAAGGCCACA AAGGCCAAAG GGAAGTAAAG ATCTCATTAT TTCTCCTAAT AATTTCCCTG TCCTTTGTCATAAATGGTGG GTAGGCTGTT ATGGTGATGG CAGATTTTCT TTCCATAAAA TGTCCATAAT AGGACATTTGAACAGAAGGG AAAAATCAAA TTGCTGAAGT TGAAAGAGGG CAATGCAAAG AACTTTGGAG AAAGAACTGTACAGAGAAGT CAACTGGCAG ATGGGAGGAA GTTTAAGGGG AAAAATATAG ATGTCTAAAG AATACATTTATTCATTTTCC ACAGTGCAAT TTGGACAAGA AGCCTCTTTC TTGCTTCTTT CTATTCTCAT TAAATCATTAGAGCTCAAGC AATCCTTCTG CCTCAGCTTC CCGACTAGCT AGGACTACAG GTATGTGCTA CTATGCCCAGCTAATTTTTT AAAAATTAGA TTTTAATTTG GTGAACTATT TCTGTAGGAA ACTACAATAA TACAGCCCAGGCACATTGAT CTTGGGTGAA CAAATCAGAA GGAATGAATA ATTCTGTGTT CCTGGGACTC TGACAATTTCATGAACTTGG TACTCTGAGT AAAGCATAGG AGGAGTTATT TCATAAAATG TGGAGCACAA TCATGTGACAAAGATAATGG GATCCCCATT TCATAAATAA ATCTGAAGTT CAGAGAGAGT AACAACTGGC CAGGGTCACATCACGGAGAC AGAGGCAGGG TTCCCACTGA TGCCTCTGAC TCCCTGTCCC AGGCCCTTCC TCCTCCCGCAAGCAGAAGTG CAGGGGGCAG AGCTGACCCT GTGCAGTGAA AATCTGAGGG CTGAGTTCCT ATTGGAACACAAGTGAAAGA CTTCCTGGCT TCTAATCTCA GGATAAGGAC TCAGAGCTCC ATCTGTTCCA GCCTTAGGATAAGAACCAGA ATCTTACACC ATGAAAGCAT GAAAGGTAAG ATTTGAGTGA GGAAAAAAAA AAAAAAAGTCTGTGTTTCAG ATTCAGTTCA CAAAGCAGTT TCATACTTAA GGTACCATCA CAATAACCCT GTGGGGTAAGCAAGGCAAAT TTCATTCTTG TTTTATGGGC ATAGGAAGTA AGTCTCAGGG AGGTTAAGAC CAAGGTTTCTGGAGAATTTT ATATTATGAA TCTTGATTTA TGGGATTACT ATTATGTAAT TCCTAAGATC ATATAGGAATCCTAGAGCTT GAATATAGAA CTTTATTTTT AAATCTATAT ACATCATAAT TACAAGGAGT AGTGTCCATTTGGGTTCCTT GGCCCTGATG TGTTAGTGGA ATAAACATTT TTGTCAGGGT TGCCATGTGT GTCTGTGCACGTGTGCACTG TACACCTCCA GGGGATGTAC CCTAAACCAC ATGAATGTGA TTTGCACATC CAAGATTTACAGTGTACTAT AGGGAGAATC TTTTGCAACA GCTTTTGCTA TAATACAGAA TCTGAGATGT CTTTGAGAAAGAAAAGTGTA ATCATTACCA AAAAATTATT CTCATAATGT GTGCAAATTT GTATGAAATC TATATTGGCCATGGGACAAG GAGGTATTTC CAGCTAGCTT CTGAAAGGGC TCTATTCTCT CATAAGAATT CAGCTGTTGACATTAGGTGA TATCTGCCCA GGTCATCAGA TGCCATAGAG AAAGAGGGTT TGCTGAAACT TATATCAGCAGTGCACTGTA TGCTCTTTCT GATTTATTTG AACATTCATT TATTGAGTGT CAAGTAATGC ACTAGATACTCCAGGGATCT GACACAAACT CTGCCCTGAA GGAGCATGTA ATCTCACTGG GGAGAAAACA AAACATATGATAATTTCAAA ATAACAAACT AGGCAAACTA GTTAACACTT AAAAAGCAGG CTTTATTCAA ATGCAAAATTGCATGTTACA GGGTAACCTT TCAGTAAGAA GCCAGGAAGA GGAGCTCATC ATGGGTTGGA TTAGTAAAGGACTAGTTATA AAAGAAGTGG TGGGGTTGAG GGAGGCCTGA GATGAAATTT AAAGAATATG TAGAATCTAGGTAAGTGGAT AAAAGGTCTG GGGGCAGGGG AAAGGAGAGC ATTTCATTGT GAATCAAGGA ATTTCTCCACCTGTTTTAAC TCTTCCATAT GACATCAAAG AGATGTCACT TGCAGCTAGC ATTTCAGTGA TGTTTTCTTACTAATAATAT CGTGATAAAA GAAACATTGA CTATAAGAAA TAGGAATGGG TCTCATAAAA GGAAACAGCAAAACCCCCAA ACTAAAAAAC AGCGCAGGCT ATTTCTCTCT TCTCTCCTTT TGCTTGGCAC TCATGAGATGCTAGGTGTGG AAGTCAGCCA ACTGAAAAAG AGAGGTGGCT GAAGAAGGTG GGGAGGCTGA AGCCAGTTAAATAGGATGGT CCAATTCACA GACGGCGAGG CTACAGTGCA AATAGGACTC TTTCAACTTG AGCAGGACCCCATTACTTCA CTGGAGTTAG AAAGAAAGGA GAGCGTAGAC TTTTTGAACT TTCTATAAGA GTGTACCTCCACAGTATACA GAAGACGACG TGAAATTTGA TCTGCAAGAA AACTGAGTCC ATATTCACAT ATGTATCAAATTTGCACTTC ATTTAGAAGT GTCTGTCATC AAGTACAGCA CTGAATTGAA ACTGAAAACA AGAGTCAAGAAAGAGCAAAG TCAGCCATCT TTATATTCCA CATGAATCCT TTCCCTTTAT GGTCTTATTT GTTTCTCCTCAGAAAAGACA AAAAGCTGAG CTGTATAAAC ACCTGTGGGC TGGGGGTTGA GGGATAAATG AGGGGCGAAATGGAAGCTGA AGGAACTGTT GGTCAGGTAG AAATCTTCCC AGATGCACTG AAGGAAACAC ACTTCATGTTTGACGTAGGA GGTGCCACCA CACAAAACGT TTCATGGAAG GATTTAAAGG ATCTCATGAT TTTTAGTATTCCAAGAATTT TCTTTCACCA AGGGCGATTT AATATGGGTC ATTCATACTG AAAGAAAAAC AAAAGATAATAAGAGTTTAA AAATTGCAAA ACTTGGAGTG TTAGTAGTAA AGGTAAATAT TCATTAGAGA TGAGAAGAGGAGCAAGGAAA TGCTTTCAGC TGGAAATCTC AGACAAGAGG CCAGGCTTTA GGAACCTCTG AAGATGAACAAATGTAAGCA AACCCTAGTA GCAGCACTTC TCAGATTTTC ATGTGCTTAC CACTCAGAGA TGGTGTTAAAATGCAGACTC TGATTCAGTA GGTCTGAGTG GAGCCTGAGA TTCTGCACCC CTAACAAGCT CTTTAGTGATGCTTATGCCA CTGGCGCACA GACCCCACTT GGAGAAATTT TTGTGGTGCA TACGGTCTTT GTCTCCAGATCTAATGAGTC TGAAGGACAG TGTAGATTGA TTTTTTAAAT TTATGTTTAT TTTAATTTAA TTTAATTTAATTTATTTATT TATTTATTTT TGAGATGGAG TCTCACTCTG TTGCCCAGTC CGGAGTGCAG TGGCACGGAGGCAGCTCATG CAACCACGGC CTCCTGGGTT CAAGCGATTC TTCCGCCTCA ACTTCCTGAG TAGCTGGGAATACAGGCACG TGCCAGCACA CCCAGCTAAT TTTTGTATTT TTAGTAGAGA TGGGGTTTCA CCACATTGGCCAAGCTAATC TCAAACTCCT GACCTCATGA TCCACCTGCC ACGGCCTCCG AAAGTGCTGG GATTACAGGCGTGAGCCACC GAGCCCAGCT GTAGATTGAT TTTGAGCAGT GGAAAGTCAA GGAATTAGAA GGCATGCTTAAATGGAAAGT GAAATTGGAG AAAATTTAAA CTCATGAAAT AGTGGTGGTT ATAAACTCGT GATAAATTATATCCTGGGAT ATAATTTAAT GAGATGGTAA CACATTTAGT TTAAAGAAAT AAGTGACACT TTTTTTGTGTGACACAACTG TCTTATTCTT GGAAAGGACA AGGAGAGAAT GAAATATGGT ATGTCTTCAC AGCACCTTTCAAAGGGAGAA CCAGATTCTG AGGAGCTGGT CTCATGATGA ACTGTCAGGG TAAACCACAG TTCAGCAGCTGCAAATGTGC TTGCCAAAAT AGAGACAAAA AAATGTTTCT GAAAACAAAA TTTCACATAT GCCCTCCTCTGAGGTTGGCA TCATATCTTC CTGTGTATCT TGGGTGTAGC TTCTATCCTG CCAGAATTTA GACAGTAGAAACCAAATGAG GTGATAAACA GAGTCATTTT GCAGAAGAGT CAAAATAACC CAGCAAGAAA TGAAACCACAAATGCCCAAG GAGTCATTCA TTCACCATTC AAAAGCTAAT AGAAATGAAC ACAAACTACT ATGAAAATTCACCCAAGAAC TTAAAAAAAA AAAAAAAGGC TCATGGTGTT TAGTGTGATA GTATTCATTT TACCTTTGACTTGTTCTAAA AACACACCAT ACTTCTACCC CACCCTTCCT CAGTGCCGTC ACACAATGGT TTCAGTGTGAAAAAAAAAAC CACGTTACTG GAAAAGGAGG GTGCCTGGGA CTTGCCACTC TAAGCTGGTA GTCAAGGGTCTTGAGTTCTA AAAGCATACG CGTTAAGAGC ATGATTCCTG GATCCAAATG AGTATGGATC TCAGCATTGCCATTTATTGT GACCTCAGGC TATTTTATTT CTCTGTGCCT GTTTCTTTAT CAGTAATGAA GATGTTCATAGACCCTTCTC CCACAGACTT AAAGGCATAT TTCATGATTT AAGACATGTA AACCATTCAT AACAGTATACAACATGGAAT TAATATTTGA TAAAGGTTTA TGATTATTGT AACTAACTCT GTCACTTGCT CAAGGCCTATAGAAAACTTA CTTAATTAGT TCAACTACAA AAAGAGTTTG AATGTGATAT CCACCAAGAT CATATTCAGACCTAGAATTC TGTGATTCTT ATGAATTAAT ACAGCCTTGG TCAATAAATG AGAGCTGGGC AAATAATTCTTCTTTGCTAG GCCTTTCTAG ACCATCTGGT GAAGCATTCA AGACTTATGT TATTGGGGCC AGCCTTCCTTTCCAACTTCA ACTCCACAAC TCCTCAATAA GCCATGGGCT CAAGAAAGTT CTGCTCAGTG GCCCCTGAAAAATGCTTTCA TAGTCTCACT ACCATACCAC TGCTTACACA ATTTCCTTCCTACAGACTGC CTTCCTTTCCTGCTTTTCTC CATATACCTA AATCCTATCT ATTCTTCATA AGCAACCTTC TTTATAACAT TTTCTATAACCACCAAGCCA AATGACCTTT TCCTTCTTAA ATATAGCACC CATTGGCCAT TACCATGCTC TGCCTTGTATTTTTCTGATT TTTTTCTTTC TATATTCCTG TCTTAACTCC CCAGCTAGGT AATAATTTTC CTGAAATCAGGGACCAGGCT GACTCCTCTT GCTGTCTCAA GAAAGCTTAG CAGTTTCCAA CACAAAAATG TTCAATAAACAACTATTAAT TGACTGATTA TAAAAAATCA GTGAACCATT AAACTTAATA TAGCAATTTG CTTAGCATGGTAATTAGCTT TTTGCTAATA TTCTTCCAGC CAGTCTCTCC TCCTGTGCCT CAAGGACATC TTAAAAAAAAAAAATCTAGT TGATCTGCTT CCATCTAGTG GCAATTAAAA CAGGTGGTTC CGGTAGCCAG AAAACAGCTCTGGGTAGATT GTGCCAGAAA ATACTTTCAC TCAGTAGGTG CGAGTTTGAA AGAAATCTTC ACATCTGTGGGTTTCCTGCC ACAGACATAG GGAGACCAGC CCAGAGAAAG AAGCCTTTCC TCACTAGACT CCATTTGCACTAGTAAAGAG AAGACAGAGT AATTAAAAAG AATAAAAAGA ACCTCCACTG ATCGTACATC CTCATCCAGTTACCCCTGCC CCACTTCTCC TTCACAGCCA AACATTTTAA AAGAGATGAC TGCTTGTTCT GTCTCTACTTTCTCATCCTC AGTAATGCTC AATGCTTGGC CGTCTGACCT CTGTCTTGAT GTCTGCACTG CAAATAGTCTCCCCACTGAC ACCCTTGTTG CATCCAGGGG ATACTTACTG GTTCTCTTGG CAATGTTTGA AACCGTTCCCCTTTCTTTGT TTCCTTGGCA TTCATTACCC CACACTCTTT CTCCTCTTCC TTCTCCCTGC CTGGCAACATCTTTTCATTT CTCTTTCCCT TAGGTGACTT ATTAGATAAT GATGTTCCTC TGGCTCCCAT ACTCTCTCCCAGGTCCTCTT CCATTCTTAA AGCACTCACA CCCTCCCTGG ATGATAGTAC CCACTCCTGA GATGGCAGTTACCTCCTGAA ATGTGAGGGA CCCAAATCCA CTTCTCCTGC CATAGCCTCT GTGCTTTGGA TAGGTCCAATGAGCCACAGT GAATGATGTG CATACACCCA AAGCTCAGTA CAAAACTGAA CCCATGATCT TTACCTCCAAAACCTCTCAT TCTTTTATGT TCCCTTCTCA GAAGTAAACA GGACTACCAT CCGCCAGTTT CCAGGTGAGAAAGATGATAA TTTGATTCTT CTCTCTCACT TTTAGCCAAT TAACAGACAC ATTCAGTTAA TATCACCTCCTCTTATTTCA TGAACCCATT CTTACTACTA GTTCCCTAGA CAGGCGCCAT CGGTTTTAAT CTAATAACTGCAAATGCCTC CAAAACAAGT CTCTTTGAAT CCAGGCTCAC CTGTCTCCCA CACTTGCCAT ACTGCTCTGCAGGGTGACCT TATAAGATGC CAGAGGTAAG GCTACTCACT GTTTAAACCC CTTTAGTGAT ATCCCAAAAGACCTCAAGAT AAAGCCCATA TCACATGGCT TATACATTAG TTTATGATCT GGCTTCTGGT GCCTCATTTTTCCCCACTTT TTCCTTTGCA TTCTAAGCAA TGGCCCATAC TAAGTTTGTG ATTGGTAGGA TGGTTGCCCAAACCAGCATC CAATCCCTTC AGAAATCATC TCACTTCATT TCTAGCATTT TAAAGGAAGC TCAGTTGTCCAGCTGGGTAC TGAATATGTC ACCAAAGTCC TCCTTTCATA GTTTATTTTA CTTAAACTCT CCTTCCTAAAATTCCAGAGC AAGTCACTAA ACCCTAGATA CTGAGAAATA TTTTTCCATC TTCATTTCTG CCAGGTGGGCCATCAACTTT CACATGTCTG CATCTCCTCC CACTGTGCTA TTTCTCCAGT AGAAGAAATT TGAGCTTCAAGACCAAACTG AAAAATACTT GCCTCCTTGG GGAAGCTGTA GGTAGAATTC ATGCTCCCTA TCTTTCCCACATTTCTGAAG GACAATGCCT GTTAGAGCAA TTGAATGCAA ATAGTCAATT GAATAAGCAT TTATTCATTTCTCAATAAGT GCTTGTTCAA TTGAATATTT CTTAAATAAT ATATTTAAGA ACAAGAAGAA CACACCACAATGTTTTTAAC CCTCAGAAAA AATTCTGAGG TAATCAGAAA AATCTCCCTT TACATAAACT GCCCTTTTCTAATAGGGATT ACTTGTTCGT TCATTCATTC ATTCAGCTCC ACTAGCACCA AAAAGCACAG CTCTGAAAGGAAGCTAGTAG ATTTATCACC TTATCTGGTC ATTTGGATGA GGACCCCAGG TAAATAAACT ACTATGGGGTTAATGTGTCT AGCTAGAGCA GGAAGTAACT TAAGGAAGTA GAGAATGAAT CAGCAGATGT GGAAACTCCTCGCCACTAAT AAAACTTACC TTCTCTTGGA TTTCTTGCCT GAAAATAGAA AATAGAGAAA AGGCATTAGCAAAAATTAGA CAATTTAAAG TTTTTCAAGT AAGGGAGAAG GAAGACTCCC ACTCTCAAAA CTGTCTTTTGAAGTATATTA GGTATTTGTT AGGTGGACCC TATCTGTGTC AAAGGAGATT TGAGGAACTG GCTTAATAAACAGTGGTAGA CACTAATACA GAACAGACAT GTTGATGCAG ATGCCTCCTG AGGTTCCATT CCATTCTCCGTGCTACTCAA GAAGACAGAA 25441 TTGCTAAATT GCCTGGTGGC AAGACCCAAT ATGTCCATTC AAGTGTTTATCCCTTCCCAA TCTGCCATCT CATCCTACCT GCAGATTCTT CCCTTGAGGG ACAGCTGCTA ATACTGTAAAACTATGTGCC ATTACAGCTC ACAGCATCAT CTCTATGAGA ATCCACAAGA GAATTTCACT TTGGTCTTGTTGGTAGGAAT TGTGCAGCCT CATCTGAGTA ACTAATGTGT TTTTATCTTA CAAACACAAG GAATATCACATGGTTCTCCT TTGACTGGCT GTAAGGAAAC TCAGAGCTAG ATCTGAGACC CTCTCCTACC AAGTATATAAAACTTTGTGA CATACATTTT TGTGCCATAA CTTCAACCTT GGTTCCAAAT GATTTTTGTA CCCTAAGTTTAAATTTGGCT TTCTTTTTTT TTTTTTTGTA CTCAATAAAA CATCAAGCTC ATTTATTATT GCGAAGAGCGAAACAACAAA GCTTCCACAG CGTGGAAGGG GACCCGAGTG GGTTGCCCAA ATTGGCTTCT TTTTCTTACTTTTTAATTAA TTTTAATTTG CTATACTGAA CACATTTTGT ACTGTTCTCA CATTCTTTTT GAAAAAAGCAGAATATAAAT AAGTAGATAA CTTAAAAAAA ACTCTTTGAG CAGAAAGAAT CATTTGGGAG GCAATATATTTCAGTGGCTG TAAAGTGGCA TTCTAGAATC ATCCTACCCA GGTGAAAGCC CTATTTTGCC ACCTGTAGTGTAGTGTGTAT TTGAACAGCT ACTTTCTTTT CTAAACTACA ATTTCTTCAT CTGTTAAAGA GGCATAATAATTGTATCATC CTCATTGGGT TGATAAAATA AAATATTTCC AAGTATTTAG TTCAGGTCCT AGCACGTAGACAGTGTTGCA TTACTGTTTT AATCCTTTAA AGTATTAAAG ACTACTATTT GAAATCTTTT CTTCTAAAATTCAGCCTGCT GATGACCAAG TGCACTTGAG CAGGGGGAAT CAAATCTGAA TTAATTTCAG ATTCTGGTTAGCTTCACATA AATATTTTTT TTAGGGATGA TGAACCTAAC AGCAATAGAT GAGTAAGAAT CTGTTCCTACTGAGAGAGTT TCATTTTGAA GAAAAAGGAA CTAAGGGGGC ATGTGTTCAG TTTCATGCCC TGGTCTAACCCTGTGTGTTG GTTCTGGTGG GAAATTCTTC CAACCGAGGA AAAAACCAGT TCACAAATCT GAAGACCAGTGATTTTAGAA GATGTATCTG GACTGGAGTC TAATCTCTGA CTCTGGGTCC TGCTGATATG GTATTTTTGAGATTTGGCCT AAAACATCAT TGCCCTGGTT TCCTTATTTA CCAAACAGGG CCAATGGTAG TGACTAATCAGAAAATGATA ATGCCTGGTG CACAAAATGT GTCTAGATGA GCCCATGCAC AAGGACACAT GTTTCTGGAACTGTTCCTTA TTCCTTTCCT AAAAGAAAGG AGGGAAAGTC TCCATACTAA GACTACTAGG GCAGGGGACAAAGTGCTAGA GTCAGAAGAT TCATCTGAGG ACAGAAGAAT AGGGGTGAAG GCTCTAGTCA CTTCATTGGCTACCATGCTC TAAATAGTTA CCTGTGCCCT TTTTCTAACT ATTAGAACCC AAAAAGCCTA TAAATTCTCTCTCTCTCTCT CTCTCTCTCT GTGTATATAT ATACATATAC ACACACACAT AGACACACAC ACACACCTAAACACACACAT AGAGATTTAT GACTTTTTAC TTTTATCCTT GTAAATGCCA TTAACTATAT TTTGTCTTAGATTTAGCCTG GGAATGTAGC CATTATTTCT ACCATTGCCT CCATAGGAAA AATACTCTTC ATGTTTTAAAGGACCAACCT ACAACTAAAA TCTTTGGAAA GCAGAATCAT TTGTAAGTTG GTGAAAATGG AAGATGTTGTTTTATAAATG AAGACTTTTT TTTTTTTTTT TTTTGAGACA GGGCCTCACT CTGTTGTGGA GTGCAGTGGTGCTGTCATGG CTTACTGCAG CCTTGACCTC CTGGGTTCAA GTGATCCTCC CACCTCAGTC TCCTGGGTAGCTGGGACTAC ATGTGCATGC TACCATGCCT GACTAATTTT TTGTATTTTT GTAGAGATGT GGTTTCGCCATGTTGCCCAG GCTGGTCTTG AACTCGTGGG CTCAAGTAAT CCTCCTGCCT CAGCCTCCAA AAGTGCTGGGATTAGAGGTG ACAGCCAAGG TGCCTGGCCC ACAGATGAAG ACTATTTAAT GTTATCTTAA AGATACCCTAAGCTTCCTAC CAAGCCAGTG ATCTTTTGGG GCTTCTGTTT TCTTTGTTGG CATAACTGTA ACTAGCCTAACTGCCCGTTA TCTGTTTCCT GTTTGCCCCA CACTGATTCC CACAGCAGTT TTCAAGTTAT CGGTTTGAGATCTTGTACAG AAATGACTCC AAGGTAAAAA ATTTAAAAAC AACCCCTCTA ATTTTTTTAC CCTTGCTTATAAAACAGCCT TAGCCAGCTA ACCCCTCACT ACATGCAAAT GAGTTTGATT CTATTCTTTT GATTCTACAAACACTTATTA AAAGATTTTA GAATTCGGAA ATAAATAGCT TCCTTATTAA GGTGACTTAC AGCCCCAAAGTCCTTAAAAT TATTTAGACA ATAGCCACCT TATCCCAGGG GGCAGTGTGT AATAACCCAC CCTGTTCTCTATCCGTCAGT TCTGCCATCA TCGCCCAAGG TAGGAAGAAA GACAGGACAA CCGGGGTCAA GATTTGAAGTCTCAATGGAA AGAATAATCA GTGGTTGGAG AAAACTGTCA TTCTTCTTTT GCCTTAATGC AGTACTTGATACTTATACTT AGTACTGTAT AGTACTTAGT ACTGTATAAT ACTATAAGAT AGTGAGATTC AATCAGCACAGAATTTCTAA TAGCAAGGGC AGAGACATTT TAACTGCTCA GTGCTCTCAG GTTATACATA GCTAATGAAGTTCTTGCATA TCAACAATCC CCACCCCCCT CACACACTTT GTCTTTCTGG ATTGGTTAGA AAACTTACCTAGCGCCCACT ATTCTCAAAT TTAAATGAAA GATAAGATCA GAGTGGCACG CAATTAGGGA CTGATAAATAATATTTTTGT AATTGCCAGT GTAAATGGAC AGGGGGCAAC CTTTACATAC CATATTCAGT GAACAGAATACGTACTAACT AATTTGATGG AAGGAAAATT AAAATGACAA TCAACTGAGC CCACAGAAAG GCAACACAGAGCAGTTGGTT AGCAATTGTT TCGAGATCAT CCCTGAACTT GAAACAGGTA TATCTTTTTT TTTTTTTTTTTTGAGACAGA GTCTCACTCT GTCACCAGGC TGGAGTGCAA TGGTGCGGTC TCAGCTCACT GCAACCTCCGCCTCCCGGGT TCAAGTGATT CTTCTGTCTC AGCCTCCCGA GTAGCTGGGA TTACAGGTGC CCGCCACCACGCCTGGCTAA TTTTTGTATT TTTAGTAGAG ACAGGGTTTC ACCATGTTGG CCAGGCTGGT CTTGAACTGCTGAGCTCATG ATCCGCCCGC CTCGGCCTCC CAAAGTGCTG GGATTACAGG CATGAGCCAC CACACCTGGCCAAAACAGGT ATATCTTAAA AGCTGCCCAA TGTCCATGAA TGTTACAGCC TTGAATGGTT CTTCCAGGTGAGTTTGGCCA AATGTGGCAC CATACACCCA AGGCCTGCTG CAGGCTAGTG GGTTGCTCAC ACTTTAAAGCTGAGACACAC TCATGCCTTA AGGTAAAGGG AGTGATAATC TGGGCAGCAG ATGTTAACTT CTCAAGGCAGTCCTCCTTCT CTTTTCCTCT CCAGTGACGG ATGGTTGGAA AGCATATATG GTGCATTTGG TTAGAGCTGTGGCCTTGGTG AATAGATACT TGGGAGAATA CATGGGAATT TCTCCCAGGG TTAATGCAAT GCCCATGTGTTGGGAACCAG GTGACTCTTG AAGAGGTCAG GTATTTGGGA GCAGTGCCTT GAAACCTTAG TGGACATTAGACCCACTTCC TAGTGGAATT GTAGCATTGA AATCCAAGGC ATGTAGGCTC TTAGAGGACA GAGATAGTGTGTCATTTTTT CAGAATTAAT TAAGAGCAGG CCAGGCGTGG TGGCTCACAC CTGTAATCCA AGCCCTTTGGGAGGCCAAGG CAGGCAGATC ACGAGGTCAG GAGATCGAGA CCACTCTGGC TAACACAGTG AAACCCCGTGTCTACTAAAA ATACAAAAAA TTAGCTGGGC ATGGTGGCAC GCTCCTGTAG TCCCAGCTAC TTGGGAGGCTGAGGTGGGAG AATAGCTTGA ACCCAGAAGG CGGAGGTTGC AGTGAGCTGA AATTGCACCA CTGCACTCTAGCCTGGTGAC AGAGTGAGGC TCTGTCTCAA AAAAAAAAAA GTATTAAAGA ATTACATAAG AGCAAAGAACCATTAGAATA TCTCACTTAG TTGTTATCAG CCTAGCAAGC TGCCTTGAAG GTAATAGACA TTTTTAAAAGTTTATCAGAT GAAAAGCGAA AATCAGCCAA CCTGTTTTAA TGAAGGTGTG TCCTGGGCTG ATTTACATGTCTCCAGGGAC TGATGGCTCT AGAATGTAAA GCTTGGCATC CTGCTTGTGT TGAATCTATC ACATTTAATTTCCTGTGGGT TTCTTTTTTT TTTCTTTTTCACTTTAAAGT TGTGTTCTTT TCATGTGAAG TTAAACTCACATACCTTTTT TTAATCTCCT TGCCAGCCAA ATGATAAATG CCAACCCAGA GAATGCAGTA ACCATGACTGCCACTGGAAT GAAGAGGGGG TTATAATCAC CCTCCTTAAT CATTGAGAAA CTTTTGTCCA ATTCTGAAAGAGAAATCAGT AAGGCACATA GCATGAGACC ACCAGCATTA TTTCCTTAGT CTATCTCATG ATATTTGACTTTTTTCCTCC TTACATCTCC CAGTAGTAGC CCATTTGATG CCATTTGACA GATGAGGAAA CTGGCATGGGAAGGCCCCTG ATGAGTCTAC AGCATAGGCA AAGACTGGAC CAGCCTTGCT AGTCTAATGC CTACAGAATCTCAATGCCCA GATTTGTGGT TCATAGAGTT CCTGAAAATG CACCTAAAAA TGTTGGCAAG AATGGTCATCGTTGTATTTA GCTCCATGGA CTTGTTCAAT GACTGGAACT CTGAAACACA GAGAAGAGCT AAAAGCCTAATACAACTTCA GGAAAAATAA AAGCCAATGA TCTGAACTGG ATAATTCACC AGTCAAAGGA AATCATTAATGCTTTTACTT TAAAGCAGTT GTGCAAAAAT AAGCACTTGA TTTTTACATG CCAAGGACCT GCACTAATTTCTTTCCAATG CAGTAGTTAC CACTTCCCTC TACTTCCTTC ACGAATAAGT AAAAGGGCAT GTTTAGAGATACTCTTGTAA GTGTAAACTA AGTTCATTTG GGAGCCTCTA TTTGAAAATA CTGGTATAAA AAAAAATCTGTCTCCTGATA CTAACATTTG AAGGAATCTA CTTTTTTACA TATTGGCAGA GGGTCTGATT CTATCCTTAGTTCTTCCCAT TACTTTGATG AACCTTTTCA AGGTGATTTG ATCCCCACAC CCAAATATAT GATTGAGAGAAGGCTCAAGT TCCCAGGAGC TCCAGACAGA AGGTACCTGT TGGCTTGATG AAGATGAGGA GGAAATGAACACTAGCTAGG CCTTAAAGGG AAATGTCTCT GATAGGCCTA ATACACAGTC CTCTGCTAAA GGCCTCCCTGCCTCTCTCTG CTCATCCACT CTACTCCCTG GCCCTGGGCA CGCAGCACAC AGAGATCAGC ATTTCTGACAGCTTCTGTAG ATCCTACCAT TTAAAGACTT TTGTCATCCA TGCAGATAGT CTCAGGAGCA GACACAGGTAGCTATTCTTT CACATGCTAG CTTAACATGC ATTTGCTTTA GCACCTATTG CCAGGCACTG TGTCAGGTGGAGGGTATACA AAGATGAACA AGACATGATT CTTCTCATAT ACAGATAGAT TTTGGAGGCA TTAGCTTAGTGATGATTCAG GAGTATCCAT TATTTGGGGA AGTAGGTGGT CATTAGTGAC CTTTTACAGG CATTTCAATGGGCTAACAGA GATGTTAGAT TGTAGTGGAA TAGAAGAATG GGTAAAAAGT AAATCAGTGA GTTCAGATTTTAGGAGTTAA GATGGCAAGA GGTGAGAACA AAAAAAGGAA ATGATTGTCA TTAAAGGAGG AGGAAAGACCAGCCAAAGAT TTTACAGTGA GTTAAGCATA CAAATTTATT TCTAGGCCAC ATATTCTTAG CAAAACAACATGTAAATGTT TATGTATGTC TTTCCTCATA TCTGCTCATC CATCAGCTCC ATCGTTAAGA TTTCAGTTTTCCAGGACAAA CTTACTCACT TTGACATATT GGACTAGGAT TTGACCAGAT TCCAGATGAT TCACAAATGGTTTTCTTCTT CCCAATTAAC TCAGTTCCTT CTGAGCAGAT GAAGGTACAT GCAGAGGTAA AGCTGAAGCTGGCCAGGGGA TGGCTACAGT TCATGATCCC CAAATCTGGT GCTGATAGAG GCTCACACTG AATCACTTCAATGAAAAAGA AAAAAAAAAA AAAGACAAAA CAGTATTTCT GAGTAGAGAC CCTCCCTTGA GCAAAGGATTTTTAGCCAAA GCTGCCTGAC TACATTACTT GTGATATTGC TTCCAGGCTT TATTTTCTTG AGAATGATGGTGGGTGGTGA ATGAGAGATG AAGGCAAGGA AGCATTGAAA GCTGTGGGGA GAGGAGTAGC TACTCCAGGCTGCTGCCCTA GCTAAGGTGA CCCTCCCCTT CTGCTGGAAG TACCATGCCA TATGGCCTCT GCATCAAGGGCTCTTATGGG ATATTCTCAG AGAATCTCTG CCGTTTCATC TGTTCTGATA TCTACCCAAG CATTTTGAAAAACATCCCAA TTCACTGAAG CAAGTCCAAC TTCCGTAAAT TCCAGTAGGT GGGTTGACAG TTTTATAATTTCAATAAGGG ATTTTGATAG CACTTCTAAG AATTAAACTA CTTAAACTAA TGCATCAGGA GCATACTTGTAGAAAAGTTA ACCAAAACTT CGTAAGTTCA GATGACATTG GTTTTCTCCC ATATGGAGAT AAGGTTGGCAGTTAAAAATG AAAAAAAAAA AAAAACCTAC CTTATTTCAA ACTTGAAAAG ATCAAGAGAT TGTGTTTTTGTTTTTCAGTT GTTATTCTCC TAAAAGTTTA TGCATGAGGA AAAGTAAAAG TGATTTTAAG AATAAGCCAAATAAAACAAC CAAGAAAGAC CTCCACTACC CTGGGAAGGA AACTGGTTGG TATTAAGTAG GACACCACATAAAACAGGTG TTATTGAGAG GAGAAGAACC AAAATGTAAC TGAGGTTCAA CAAGACATTA TTTATGCAATGGCAATGAGA AAAATAAAAA ACACAGTATA ACCATGCTGT ATTGCTATAA GTCATGTTAC ACACTGGGAGATGGCTTCAG GGGTATTTGG TTTTTACTTT TTGTTTGGGA GGTTTTTCAA AAAAATTTAG TTAGAATAAGTCCTTTGAGA AACATCACAG TAGGTTAAAC AAAGTTAGGT TAAATTAGGC TCCTAAGTTT GACTTCTCAGCAAACTTCTA CTGAATGTTC TGACTGTAAG CCCAGGATTG CATGACAAAA CCTCTAGTCT GAAGTTACTCACCTTGACAG GTTGGTTCTG GAGATGACCA GTTTCCAAAT GGTCCACAGG TGGTTTCTTC AATCCCAGTTAAGTTTGTTC CTTCAGAGCA GCTGAAGGCA CACTGTGAGC TGAAGCTGAA GTTTCCCAAA GGGTGAGTACAGTCCATGGT ACCCAGCTCT GGGGCCTCCA AAGGCTCACA CTGAATCACT TCAATAGGGA AAGAAACAGTATGGGGAAGA GTTAAGAGGA ACTGACGCCT GGATTTGAAT CCTAGCCCTG CCACTTGATA ACCATGTGCCTTTAAACAAG GTTACTTGAA CCCTCCAACT TCAGTTTCTT CATCTATATA AGAGGAATAA TGAAATTGTGTTATCTTTAT CAAATTGATA TGGAAACTAA ATGTAATTCA ATTAGCATAA GTCAAGGACC TTAGAACAAAGCCTGACTCA TCAGAAATTC TAAGTAAACA TTAGCTAGTC TTCATATTAT TATCTTCAGC ATTATCTGTAGTGAGAATCC TTAAAGCCAA ATAGGTGTAA CTGGGAATGA CCAGCTTAGT CGGGAAATAA CTATCACATCAGAGCCCCTG AGTCTACTAG AGTATTGGGA GCAAGATGTT CAGAGAAAGA GTGGGTCTCC ATAATAAGCCTTCTTTGCAA GGAGAGAATA TAAAAGTCTA GGAAGCATTT TGACCTCAAT TCTGTCTTCT ATTCTAGCTCAGTTCCAGAA TTTTAACTCT TTTGATTTTG ACAACCCTCT CCAGAAACTG TATCTATTTC CCTGTTCTGATTGGTGGTAC AATAGGTAAA TTTAAGACTT GGAAATCAAA GTTTTCACAT TTTAGACCCT GCCATGCCATTTAGTAAACA GTACAACTTT CATGTCTTAT TCCTCATCTG TCAAATTTAA GCCATTATTG CTACCTTGCTCTAGAGACTT CAAGGAAGAA TGGACTCAAG GAATCAGAAG AATTTTTGTA TTTGGAAACT ATATGAGATGAGATTAGGGA GAAACATGGG AACTAAGAGA AAATGTTATC TTTTTTCATT GATTTAAAGA GTATCTATTATATATCAAGC ATTACTCTGG GGCTTGAAGA GCTTAGATTT CACCCTGTAG GACAAAATGG TAGGTAGAAATTAATGGGTG GATTGTCATG TATGTGTGAT GTGTTTTAAT TGCTTTTAAT TGATCAGTCT CCCTGTAGTATGAATAATGT ATTTGAGGGG AGCTAATTTA AAATTGTGGA ACTCATCTAA TAAACTATTG CAAGAATCTAGAAGAAAGAT AATGACGGCA ATGGTAGTAG AGTTGACAAG TGGAAGACAA ATTAGAAAAA CACTAAGTTGTAAAAATTGG TAGAATGTTA CCCTGCATAA ATGTTGGGGG AGTTAAGAGA GTCTCATACC AGGGTGCCCATGTAAATGGT GATTCCACAT ACTGAGATAA GAAATACGAA GAGAAAAGCT GACTGGGAAC AATTGGTTTTATAGTCTTTT AAACATCCCA AAGGACATCC TTAGCATATT TGAGTTCAGA GCTGGAGATA GGCTTATCAGTCCAAAGATC ACATAGATTT GTGAGTCCGC AAAAGTCAGT AAGTTTGACC AAAGGATACA TGTAGATTAGAGTCAGAAGA GCAATATACA AAAGACAAAA GCTGAGAAAT TATAGTAGTT TATGGTCCTG GATAAGTGCTCATGAAGGAT CTCAGGAGAA ATGATCACAG GTAGAAAGAA TGAGAAAAGA GTGATATGAG AGAAACCAAGACAAAGAAAA GTAAAATGTT AAAAATGAGT GAAATAGGCA TACCAATAAT TAAAAATGAG TAAAATAGGCATACCAATAA CATAAGGGTT AAAAAATAGA GTTCAAAAAT GGGGTGAGGG TAAAGTATTA GGAAGGAGTCATGGCCCAGG GATCAAGTGA AATGAGTTAG ATCTATAGAT CTATTTCAGT TGGTTGACAT TTAAATGTATTTTGGTTTTA ATTCTTTATT GTTTACAAAC ATTGCTTTTT TAAAAAATTA AATTGTCCAA TTCAATTCAGGCTCACAAGC AAGTGCCTCA TATATACAGG CATTTTGTGG ATCCCAAAGA TGCAATGATA AATAGGACACTTACTGATCT CAAGAAGTTT TCAGTACCAG AGGAGACGGA CAAGTGAACA GATGACTTCA ACATAAGTGGGAGAAATGAG GAAGAAATAT GTGGAGCTAT CAGAACTAAG AAAGCTTCCT AGAAGAAACT GTCTTTGAACAATGTCTTAA AGATGACATG TTTTTTGGCC ATGTGCAAAA TGAGAGAGAA GGCCACCAGC AAAGTCAGTGTGCTACAGAG CACATGTGTT AAGTGTGGAG AACTGCAAGA AGGAAAGGAA CTACTAGAAG GAAAAAGCAAGATACTTTCT GGGTAACTCA GCCTCCTAAT GATAAATGGC ATAGTTTCTT CCAGACCTTA GAGTTCTAATTAATCTAACA AGCTCATTAG ATCGTGAGCT TCTTGAGAGC GGGAATCTAC CATGCTAATT CCTTATGGTAACCCTGACAG CTTTTATCCC AACACTGTGC TTCTTGTGGT ACTCAAAAAG ACTTGTTGAG AAGTGAGTCGAAACTTCATG CTGACTTATGAAATCTTTAC GGAAAGGTAA CAATATTGTG AAAGCAGAGC TTTCTGATCAAAACTTCCCA TTTCTCAGAG TGGCTAGTAT CATTTTGTTC CAACCAGCTT CATGATAAGC TATAATGATTCCTGTGACTT TACCTAAGAA GAAGCAAAGA AAGGAAAGAG ACTTACCAAA CTGACACTGG GGCCCATAGTACCCCACATC ACAGTTGCAG GTGTAATTAT TGATGATTTC TACACATTCT CCATGGCCAC TGCATGACCAGGGCTGGCAA GAAGCTTTAA GGAGGTCAGA AAAAAAATAT TTTAATGTGA TTACATTTTA GTACTCAAAGTCATTTCTTT AGACATAGAT AACCTTTTGT CTGAGATGAT TTAAATAATC AGGAAAGGTT TATTTGTAAATTCATAGCAT AAAAATCATA TGCTAAAATT TTTACGTATA AAATACACTA AGCATATAGT CATAGGCATTTATTTGCTTT TGGAATGAAA TTACCAATAC TAATATTCTG TAACACTTAT AGGAAACTTA GTGGCATACCTTGAAACTCT TGAAATTACT TGTTTTTAAT GAGTGAGAAG GTTAAATGAT GACCTGACCT CAATCATTTCTGCATGCAAT TATTTCTTGG CAATCCCTTT CTTTATAGAA ATCAAAGATT AAAAAGTCCA AATTTGCTAAAACGGTAGAG TCCAATTTAT AAGAGACCAA ATTAACTATG GTTCATTATT AAAACATCAC TTGGAAAATGCTGGCTGTTT TGGAATTGTA GAAGATTTTA CAGAAATATT CATACACCAA AGATAGTGCA ATTTTTATATAAAATTATAT AAGGTTAGAC CAAGAAGGAA GCACGCAGCA CCACACTCTC TACTTCACAA TGTGAAAACTGAGGTGATGT GAGCCTAAGT TTCCAACTGG CCCCAGCTGT CAGCTTCTCC TCCCCTGCCT TATTATCAAAGGCACTGATT GTCTAGCTCT TCCTCTGTAC TTCCTACGTA GATCTATCAT TTTGATGTAA CTTGATTTAGGGGTATAGCT TTTGTGCACA GGGACAAATC TTACACACCA AAAATTCTTA GGAGTGACAC GATGCAAGATTATATAGAGG GCTAGATGTA TTTTAGAATG AACCAGAAGC TGTTCTCATC CCCCCACCTT TCCATGGGGTAAATCTGAGT ATTCTCTTAA CCGTGGCCCT TCCTGAGTCT GAGGCAGCAT AGCCGTCTTG TCACTCCCTACCTGTGTAAC AGAGGGCTGC CTTTAGTTTG TGGCAGGCGT CATCGTTCCA TTTGCCTGCA TCTTTGTTTCTCTTGATATA GATCTCCACG CAGTCCTCCT TGTTCTTCTT GTTGTTGGGC TCACCATCTC CCCAGTTCTCTGCTTCTTCA GTAAGAGATT TGTTGGTTCC CACCCACGTC CATATTCCTC CTATCTTCCG GATTCCTATCCAGTAGTAAG AACGACTGAA AGGCAGAGTC TTCTCCAGAT ACTCAATTTC CGCCTTGTTT TGTATGGCAACTAAATCTGT GTAATTGTCT CGGCAGAATC TTCTAGCCCT TTGCCAGTTC ATGGGTTTTT CAGAATAATGGTAAGTCCAG CAGTCGGTTC CATGATGTGC CAGGAAATCT GCAAGACATC AGTGTGACCT ATGCAGACTTACATAATGTT ACAGCTAAAA AGAACCTAGC ACTACTCCAG GCTGAGCTAG ACACTTAGAG ATGAGGAAACAGAGCCTAAG AGTGTATGTG ACCATCTCAG GATCACAGAA TAGTTGTTTG CAGATTTGAA GTAGAACCTAGACCTTCTGG CTTGAATATA AGATGCTTTT ATCTAAGGTT CTATTTGAAA CAAATTTAGT GGTTTTCTAGGTTTATTTTC TTATTAATTT TTTTCTCAAA ATTATTTCAG GTGAAATTTA ACCAACATAT TTTAGACATTCATATTTCTT TTTCTTTGTA GCTGTTAATG ATTTACAACT AATTACCGTG TAATATCATA TAACTATACAATTTACGTAT ACTTTTTAAT CCTGGAATCA TTTCTTGAAG GCCAACACAT ATGTACCTAT GGGAGAAGCATAATAAGGAC AGGAAGAACA GTGACATACT TTTAAGTAAC CTCTTTTACA TAAAAAACAT TTTATTTTACCATAGGAAGA ACTGCTTCTG GAAAAGCCCA ATATACCACT CAACTCTTAT ATATCTAACT GTATAATTTTTAAAAAGAAC AATTTACAAA GCCAAATGGT ATAGGATTAT GAAATTCATT AGATCATGTT CTATACACAAAGAGACTCAA CTGATGATGT TTAATAAACA TATGGACCCA TCAAATATGA GGGCTTTGAA GATATCTAATTAAACACATA ATTACACAAT GACTTCATAA TAATATATGG CATTCTAAGC ATGGTATGAT CTACATGAATCACTATTTAA TACAGTAAAG AAACAGATAT AATTGATGGT AAAGAGCATC ATAAAATAAA CATTTTGAACAGAGTTTTGA ATGAGCATTC CACTAGAATG CAAGTTCTAA GAGGGAAAAA ACTGTTGTGT CCACTGCTGTATCCTTAGTG CCTAGCATAA ATTTCACACA TTGTAGGGAC TCAGAAAATA CCTGTTGTAT GAAAAGAGCACTAAGTTTCT ATGTGACACA GTGCAGACAT GGCATAAGGA ATGTGTGAAC GGGAGAGTTA GCATGTTTGCTTGGCTAGAG CTGAAAATCC AGGCTAGGGA GAAAGAAGAC ATTAGTTTAC TTAGGAAATG AAAAACCAAGTTCAAAGCTA TTGCTGGAGA GTCTTCAAGA ATCAGATATA AAATTTGTCA CAACAATGGG AGAAGGACCAAAAAATGATA AACCCCCGTC CCTTAATAAG CTCGTATTGT AATTGTAGAA ATGACATTAA TGTACACTGAACTATGAATA AAAAATAGAA AATGAGGTGC TAAATATTTG GTACAGATTG TAAGTACCTT AACAGAGATTTCTTAATTAA CATTATTCCT TTATAATTGA GGGATTTTGT GGGGTTATTG GGATTTGAAC TCTACAGCATGGGCTATTAT AGGTTAAAAA TAGTGTTCAG GAGTTTCTGG GGAAGAACTA AAGGTAAGAA GAAAAGAGATGTTTACAGAA GGGATAGAAT TAACAGCTCT GTGAAATAAT TTTCCCTTAG ACTATGTATA ACTAGTGGATATTTAAGAAA AATGAATATA AGTAAAATAG ACTTAGCGAT ATATAAATAT CATAACATAC CACAACAGAGCATTGTCCAC CCCCACAACT TGAAGATGTT CCATAAGTCC CTCTGGGTGC TCTGACATTT CCATGGAAATATCTGCAAAT GAAATACAAA ATTATATTTA GATGTATACT CTTAAACCAC ACATTTATAG CCTTTGAGGTGGTGCTTACA ACTTTCTTAA TAATCAGAAT AAAACACATA TGTCTACTAA CCCTGTCTGA GGTAACAGGTTTCTCAGACA TAGATGAAAA ATTACTTCAA ATTTACATCA GAACTGATGC ACAGTTTTGT TTTGTTCTATTTTATTTTTA CGCTTTAGTC TCAAGTTGCT AATCGGTACT GCCCTGAATT TTTTCTATGG TTTGGTAATTTTTATACCTG CTTTTCTGCT GAGCTATTAG ATAAAACTAT TTAATATTTA CTATGTATAT TTTTTAAAGTATTGTTGCTG CTTAATTAAC TATTGATGCT TATATTTAAT GTTATAGCCT CACTCTTGAT CATAATGGGTCAATGCCTCA AATACCTAAA AAAAAAAAAA ATTAGATAGC CAGACACCAG GAAAGAAAAG TATTTCTTTTTTTAATAAAA AGAAATACCT TTTTGAGCAA CTGAAATGAC AAAGTCACAA ATTTCCTGCA CACCTTAAAATATACTTAAT GTAAATGACG AGTTAATGGG TGCAGCACAC CAACATGGCA CATGTATACA TGTGTGACAAACCTGTATGT TGTGCACATG TACCCTAGAA CTTAAAGTAT AATTTTAAAA AAATTCTATC TTCCAAAGCATATCACTTCT CAGGTAGACA CAGTGTTTAT TGCAAAAGAT CTGATTTCAA TAGTATTTCT TCAAGAGTCTCCCCAGAGAC AAAGTCAAGA AGAGGAAATC AGCATATCTG AGAAGAAAGA TTTCAGGATC ACTTTTTTTGAGGGTCTGAG AAAATGTTTA GTTTCTATAT TATTTAAAAC CAGAATTGAA ATGGGGTGAT TCCTATCCTTGCCACCTGCC TCTACAACCC CAAGAGTTTC TATCTGAGCA TCTAAACGTC TTTTAGGCTG AAAGGCTCACCATGGCTTTG CTTGGTCCTT CTCTAGTTCT TCTGCAGCCC ATTGAGCCTC TTGACTTAGC ACAAGGGTCTCAGGTCCTTG CCCAAAGGGA GTGTGCTGTG CTGCAGGTAG ACTGCACTGA ATGTCAACAG AAAGCCTTGCTTTCTTTCAT TTCTCTAACC CAGTCTCACA TCCTCCTCCT CCTCCCCTTT TCCCTCCCCT TCCTCCTGCACTTCTCTTTC CTCTTTCCCC ACCCCTTTCC TAGACTGGCC TCTATTGCCT CCCACTGAGA CAAAAATGAACTGCTGATCA GAAAGTAATG TGACTAGATT CTCTCTTCCT TCCCTCCTTT CTATCCTTCC TTCCATTCTCCTATGCATCT TTCCTTACCC TCCTCCTCCT TCACTCATTG TTGTTGCTGT TCTTCTTCCT CTTCTTTTTCCTCCTGCTCC TCTTCTTCTA CTTGTTCTTG TTCTTGTTTT TGTTTGGTTC TTGTTCTCCT CTTCCTCCTTCTCTCTCTCC TCCTCCTCCT TCTTTTCCAC CACCCTCCCC TATCTTTTTC ATAAATGCTA AACTAACTCTTGGCTACCTG TGGTAAATGG CCCTTGGAAA TTGCAAATAC TACAAATCAA AACTGCATTT CAGACATATTTATGATGTTT GCAAAACTTC AGTAGAGCTA AGCAGTGGAC TTGACTCGTT TCGGTTCCTT CACCTCCGTCTTTCCTTGCT CACCACCTAG TGGACGTCCT TGTTAGTGGC ACTTCCTGAA GTTAACCCCT GAAGAGAGCCCATGCTCTCT AGCTTTTCAC CGTGTAGGTT TGGGAGCCTA CAAGTACCTT TAATATTCTT GGACTATAAAATGAGATGGT TTTATAAGAC TGCATGTGAA ATTAGGACCC ATATGATGAA GGACAATAAA AAGGAAGACCCACTGATGTG AGTCAATGAG TCAAATGCAA ATCAGATTTG CATTTTTAGG AAAATAATAA TAACAACAACAAAAACTCTG AAGCTCAGCG CCCCATATTT ATTATATTGT TTAATCTTTA TAACAGCTCT CTGCTATAGATATGATTATT ATCCCCATTC TAAAGAGTCT CAAAGAGGTT AAGAAACAAA TTCAAAAACT AGCGAAAGACAAGAAATAAC TAAGATCAGA GCAGAACCAT AGGAGGTAGA GACACGAAAA AGCCTTCAAA AAATCAATAAATCCAGGAGC TGCATTTTGA AAAGATTAAC AAAATAGATG GACCACTAGC TAGACTAATA AGAAAGAAGAATCAATAGAC ACAATAAAAA ATGGTAAAGG GGATATTACC ACTGATCCCG TAGAAATACA AACTACCATCAGAGATTACT ATAAACATCT TTACACAAAT AAACTAGAAA ATCTAGAAGA AATGGATAAA TTCCTGGACACATACACCCT CCCAAGACTA AACCAGGAAG AAGTCAAATC CCTGAATAGA CTAATAACAA GTTCTGAAATTAAGGCAGCA ATTAATAGCC TACCAACTAA AAAAAGCCCA GGACCAGATG GATTCACAGC CAAATTCTACCAGAGGTACA AAGAGGTGCT GGTACCATTC CTTCTGAAAC TATTCCAGAG AATAGAAAAA GAGGAACTCCTCCCTCACTC ATTTTATGAG GCCAGCATCA TCCTGATACT AAAACCTGGC AGAGACACAA CAAAAAAAGAAAATTTCAGG CCAATATCCC TGATGAACAT CATTGCGAAA ATACTCAATA AAATACGGCA AACTGAATCCAGCAGCACAT CAAAAAGCTT ATCAACCACA ATCAAGTTGG CTTCATCCCT GGAATGCAAG GCTGGTTCAACATACACAAA TCAATAAACA GAATCCATTA CGTAAACAGA ACCAATCACA AAAACCACGT GATTATCTCAATAGATGCAG AAAAGGCCTT GGATAAAATT CAACACCCCT TCATGCTAAA AACTCTCAAT AAACTAGGTATTGATGGAAC GTATCTCAAA ATAATAAGAG CTATTTATGA CAAACCCACA GCCAATAGCA TACTGAATGGGCAAAAACTG AAAGCGTTCC CTTTAAAAAC TGGCACAAGA CAAGTATGCC TCTCTCACCA CTCCTGTTCAACATAGTATT GGAAGTTCTG GCCAGGGCAA TCAGGCAAGA GAAAGAAATA AAGTGTATTC AAATAGAAGAGAGGAAGTCA AATTGTGTCT GTTTGCAGAT GACATGATTG TATATTTAGA AAATCCCATT GTCTCAGCCCAAAATCTCCT TAAACTGATC AGCAACTTCA GCAAAGTCTC AGGTTACAAA ATCAATGTGA AAAAATCACAAGAATTCCTA TACAGCAATA ATAGACAAAC AGAGAGCCAA ATCATGAGTG AACTCCCATT CACGATTGCTACAAAGAGAA TAAAATACCT AGGAATCCAA CTTACAAGGA ATGTGAAGGA CCTATTCAAG GAGAACTACAAACCACTGCT CAAGGAAATA AGAGAGGACA CAAATGAATG GAAAAACATT CCATGCTCAT GGGTAGGAAGAATCAATATC ATGAAAATGA CCATACTGCC CAAGGTAATT TATAGATTCA GTGCTATCCC CATCAAGCTACTACTGACTT TTTTCACAGA ATTAGAAAAA AACTACTTTA AATTTCATAT GGAACCAAAA AAGAGCTTGTATAGCCAAGA CAATCCTAAG CAAAAAGAAC AAAGCTGGAG GCATCATGCT ACCTGACTTC AAACTATACTACAAGGCTAT AGTAACCAAA ACAGCATGGT GCTGGTACAA AAACAGATAT ATGGACCAAC GGAACAGAACAGAGGCATCA GAAATAACAC CACACATCTA CAACCATCTG ATCTTTGACA AAGCTGACAA AAAGAAGCAATTGGGAAAGG ATTCCCCATT TAATAAATGA TGTTGGGAAA ACTGGCTAGC CATATGCAGA AAACTGAAACTGGATCCCTT CCTTACACCT TATATAAAAA TTAACTCAAG ATGGATTAAA GACTTAAATG GAAGACCTAAAACCATAAAA ATTCTAGGAG AAAACCTAGG CAATACCATT CAGGACGTAG GTATGGGCAA AGACTTCATGACTAAAACAC CAAAAGCAAC AGCAACAAAA GCCAAAATTG ACAAATGGGA TCTAATTAAA CTAAAGAGCTTCTGCACAGT AGAAAAAAAA AAACTATCAT CAAAGTGAAC AGGAAACCTA CAGAATGGGA GAAAATTTTTGCAATCTATT CACCTGACAA AGGGCTAATA TCCAAAATCT ACAAGAAACT TAAACAAATT TACAAGAAAAAACAAACAAC ACCATCAAAA AGTGAGTGAA GGATATGAAC AGATGCTTCT CAAAAGAAGA AGTTTATGCAGTCAACAAAC ATATGAAAAA AAGCTCATCA TCACTGGTCA TTAGAGAAAT GCAAATCAAA ACCACAATGAGATGCCATCT CATGCCAGTT AGAATGGCGA TTATTAAAAA GTCAGGAAAC AACAGATGCT GGAGAGGATGTGGAGAAATA AGAATGCTTT TTACAGTGTT GGTGGAAGTG TAAATTAGTT CAATCATTGT GGAAGACAATGTGGCGATTT CTCAAGGATC TATAACTAGA AAAACCATTT GACCCAGCAA TCCCATTACT GGGTATATACCCAAAGGATT ATAAATCATT CTACGATAAA GACACATGCA CACTTATGTT TATTGAGGCA CTATTCACAACAGCAAAGAG TTGGAACCAA CCCAAATGCC CACCAATGAT AAACTGGATA AAGATGATGT GGCACATATACATCATGGAA TACTATACAG CCATAAAAAA GGATGAGTTC ATGTCCTTTG CAGGGACATG GATGAAGCTGGAAACCGTCA TTCTCAGCAA ACTAACACTG GAACAGAAAA CCAAACATTA CCCATTCTCA CTCATAAGTGGGAGTTGAAC AATGAGAACA CATGGACACA GGGAGGGGAA CATCACACAC TGGGGCATGT CAGGGGATGTGGGGCTAGGG GAGGAACAGC ATTAGGAGAA ATACCTAATG TAGATGACAG GTTGATGAAT GCAGCAAACCACCATGGCAC ATGTATACCT ATGTAACAAA CCTGCACGTT CTGCTCATGT ATCCCAGAAA TTAAAGTATAATTTAAAAAA AGTTTAAAAA AAGAAAGTTG CCTTAGTCAC ATAACTAGTA AGAGACATGG TTGGGAATTTGAACAGAGGC CAATCAGTTC CAAATCCATG CTCTTGATCA TTAAGCTGAA CTTATGGCAG GAACTTGGAAGACATGGTAA AATGGGGAAA AACGTGGAGC CAGGGAGACT TGTGAAAGTG CCAGTGCTCC CACTATACCCTGAAAGAAGT ATCTAGACTT ACTTTTTTCT AAGTCCTCTC CTCTAATTCT CTCAATCTCT CTCTCTCTTTCTCTAAGAGA TGGGAATGCT GCTCTGTCAC TCAGGCTAGA GTGCAGTGGT GCGATCATAG CTCATTGCACTCAAGGAATC CTAGGGTCTA GTGCCCCTTC TCCCTCAGCC TCCCATGTAG CTAAGACTAC AGGCACATGCCCCAACCCTC GACTAATTTT TTTATTTTTT ATTTTTGTAG AGACAGGATC TCACTATGTT GCTCAGGCTGTAATTCTGTC TTGAAGCTTG TCCAATCAGG CTTTCAGCCA CACCAATTCC CTGAGACTGC TCTCACCAAGGTCCTACACT TCACTAACAC AAACAGCCTA TTCTCCATCC TCATCTTACT TCACCAGGGA GCTCCTGGTTTTCCTCCTAC TTCACTGGCT ATTTCTTCTG TATCATGTGT TGATTCTCCC TCATCTCCCC AACCTCCAAACCCTTGGAGT ACTCCAGAGA TCACCGCTTT GCTCTTCTGT GTCTAACCTC ACTAACTTGG TGGTCCAATTCACACTCTTG ACTTTGAATA CCATTTAAAT GCGAACGAAT TCTAAATTCT GTACAACCAG AACCATTCTCCTGTAGCCAA ATGCCTACTC AACATCTCCA TCCCCAAACA AATTTAGTTG TTCAATAAGC CTCTCATATTTTACATATCC CAAACTGAAC TTCTGAATTT CTCCTCCAAT CTGTAGGGCT CTTCCCACAG CCTTTCCATCTCAGTGGATT ATAACTCCAT CCTTCCAGTT ACTCAGACCA AAACTTTTGG AGTTAACTGA GACACCTCTCTTTTTTTTCA CAAGTCATAT CCAATGTGTC AACAAATTTT GGTAGTGGAA ATATTGCGGG ATTTTTTAAGAAATCAGAGA GACCGATGGG GTTCAGGAGG ATATTTATTA TTTAGGTGCA CTGGCCAAGT CAGATTAACATCCAAAGGAC TGAGCCCTGA ACAAAGAGTT AAGTTACCTT TTAAGCATTT TGTGGGGTGG GAGAGAGGGGTATCTGTGCA GGGGGAAGCA TACTACAGAA GTGAGAAATA AAGACAGTTA TTCAATTAAT TGAGACATGCATTACATCAT TTCTTACTTT TCAAGAAGAA ACATGTTTTG CGACTTGAGT TTATCTGTCT AGTGACCTTGCAGCTGCACA GCTAGAGAAA CAGGGTCTTC ACAATGCCTG GGAAAGGAGG AGAGGTAAGT CTCACTAGCCACAGAAAAAC AGGCAGTTAA TTTTTAAAGG GCTCCAGCTC TTTCTCTTTC TCAGGGGGAG TTGGGTTTTGTTACATACAA CTGAGTTTCC GCTTACACAT TATTTAATTT CTTTTAATTC CTGTTCCAAA AGAAGCCAGATACAAAAGGT TACATGTTGT CTGATTCCAT TTATATGAAA CATATAGAAG AGGTAAATCC ATAGAGACAGAAAGTAGATT AGAGGTTCCC AGGGGCTGAG GAAGAAATGG GGACTAACTG CTTATAGGGT ACAGAGTTTTCTTCTGATAA AAATATTTTG GAACTAGATA GACATTTTGT TAGGCCATTC TTGCATTGTT ATAAAGAATTACCTGAGACT TGGTAATTTA TAAAGAAAAG ATGTTTAATT GGCTTACACT TCTGCAAGCT TTACAGGAAGCATGGTGCCG ATATCTGCTC AGCTTCTGGT AAGGCCTCAG GAAGCTTACA ATCATGGCAG AAGGTGAAAGGGGAGCAGGC ATATCACATA GCAAAAGCAG GAGCAAGAGA GGGATGTGGG GAGGTGACAG TCACTTTTAAACAGCCAGAT CTTGTGAGAA CTCATTCACT ATCATGAAGA CAGTACCAAG AGGATGGTAC TAAATCATTCATGAGAAACC CCACCCTCAT GATCAAATCA CCTCCCACCA GGCCCCACCT CCAACACTGG GGATTACAATTTGACATGAG ATTTGAGTGA GAACACGGAT CCAAACCATA TCAGAGATGG TGGTTATACA ATGCGATAAACGTCACTGGA TTGTACACTT TAAGATGGTT GTTTTATGTT GTGTGAACTT CACCTCAATA AAAAAAAATATTTAATGTAC ATTCAGCCAA AAGAAGATTT GGAATAGGAA AGGTCATGGA GATATATTAA CAGCCATTTGATGGGTGGTA AGGAAAAGAG TGGTTATTAG ACTGTTTTGT GGCCCTCAAA AGGTAGAACT AGATCGAGTTGGTGAGCATT ATAAAACCAT CACAAAACCC TGGAGAGAGG ACCCAGTGCT GAAGAACCGT TTGCCTGCCATGAGACATGA GGGAAGTACC AGTGAATGCC ATTGAAAGCA GCATCCCTGG GTCCAAGGGA TGGTCAAAGGACCACTACCC AACCCTTCCC TAGCCTACGC CTCCATTACA GATGACCGCA AGATTTATTT GCTCATTGCTGCCAACCAAG GCTGCACTCA CTGCAGTTGC TATCAGTTTA TCATGGGTAA AAGGAATGTG CAGTAGAGAACTAACTAACT GCCCACCTAC CTCCACAATC CTATCAGGAC AAATCACCAT GGCTCACATT TCCTTACATTTGGCATGTAA GCCCCTCTTA CTGTCTGTCA TCTATCTCCT ACACAGTTCA CCTAAACTGT TCTCTCCTGACCCAACCTTG ATTTTCATCC CAAATGCTTC CTTGCCATCT CTGGGATTCC TGTCTTCACC ATCACCAAACTCCCCTCAAT CTTCCAGTTT CCTGTTCAAA CTTTTCTCCT ACCTCCTTGC TTTGTCATTA GCCCGACTGCCTCCCTAGGA CATCACTTCC CCTGCAGATC TCTCAAGATG ACAATATTTA TTCTCCACAC AGCACATACTTCAGGGTTGG AAGGCAGGGG CAATCTTCTC CTTTATAATG AGTGCCTCTT ATATATGTTT ATTCATCTGCCCTCTTGTAA AACACACACA CACACACACA CAAAGAAGAA ATAAAATAAC TCTGCTTCTT TGAAGCTTGTGACACTGAGA TAAACCATCT CACTGTCCTC ATTGTAGTGA CCTCTCAACT CCTCATGCAA GATTGGCTTTGGCACCTAGT TCCTGATCTT CCTTTCCCTG TAAGCACTTC TCATAGTCTT ACGGGACTTC ACCATCCATGGCACAACCAA TACCACAGCC CAGATCCTCA GCTCTCCAAT GACATTTTCC TCCACTAGAC TTGAGCTACCTCCTTCCCTA GGCACAGCCT CAACCTCGAC AACACCTAAG ACTGTACCGT CTCTAAAGTC ACATGTTCAAACACTTCACT CTTTAACCAC TGTCTCCTAT TCTTGCAAGT GTATTGCTCA AGTATCTCAT TGCAATGCTTTTTACTTCTA CCTCATTGAA CCTCCAGGCC ATTAAACATT TCCTTATTTC TAACCATCAG GTTTCTCCTTACTTGTTTGT TTGTTTATTT GTTTCTTTTT TTTTTTTTTT TTTGAGACAG GGTCTCACTC TGTTGCCCAGGCTGGAGTGC AGTGGTATGA TCTCGGCTCA CTGCAGCCTC CATCTCCCTG GTTCAAGTGA TTCTCATGTCTCAGCCTCCC GAGTAGCTGG GACTACAGGT GCATGCCACT ACGCCTGGCT AAGATTTTGT ATTTTTATTAGAGAAGGGGT TTTGCCATGT TGGCCAAGCT GGTCTCGAAC TCCTAACCTC AGGTGATCCA CCTGCCTCAGCCTCCCAAAG TGCTGAGATT ATAGGCATGA GCCACTATGC CCCACCTGGT TTCTCCTTAT TTATTTCAAGTCTATGCTGC ACTATTAAAA CTGCCTTGAC AAAAATTATA ATAGTGAGAA AATTATGACA GTGAAAGAGATCTGAAATAA TCAACCCCCA TCTTGCCTTT ACCTTCCAGA CTGCCCTTAA TAATTCCTGA GCTTGGGCCAAGCTATCTTT GGCAGAAATT TAGTTTATAG TTTAAATGAT AATAGCCCTT CTCCAAAACT AAACTGCCTTTGTAAAACTA ATAAAAGACC ACCAATGAAA GGTTAGGAGG ATGAGAGGAG CCTGAATTCT GCTAAGGTGTAGATGTAAAC AATTACCAAC TGTTATTCCG GAGGTCACAA GATTTGCAAC ATCGCCAATT ACTCCTGCAGATAACAGCAC TATCATAGAA TCTGATTGGC CTTTTGAGAT GTCTTTTCAG ATTCTTACAT TTCAACTGGTGGCTCTACCT GGACCCATCA ACAAGTCCTG TGGCTCCACC CAGAAGCAGA CTTAACATGC ACAAGGACCATTTTCCACAC CGCTATGATT GCATCCCAAC CAATCAGCAG CAACCATTCC TCTGCCTGCC AAATTATCCTTGAAAAATCT TAGCCTTAGA ATTTTGGGGG AGGCTGATTT CAGTAATAAC AAAACCCCGG TCTCCCATTTGGCTGGCTCT GCATGAATTA AATTCTTTCT CTATTGCAGT TCCCATCTTG ATAAATCACC TTTATCTGGGCAGCAAACAA AAGGAACCCA TTGGACAGTT ACACTGTTGG CAGATATATC TTGCTTCCAA AATTGGATTTTTGTTTAATG AATTTATTCT GTTTTCTTGA TATTTACAAC TGTGAATGTT GTGTCTGAAT TCTCTTTATTTCTTGTTGAA AAGAACTATA TTGCTACAGC CAGTACATAC AGATGGATAG CTAATTACTC AACACGGGGGGATGTGACCA TCACCGCACT GTGCAAATGA ATGTTACCCA TTGTCCACTT TTCCCAAACT ACATAGTGTTATATGGTATA TGACCCAATC AACGGTGGCA AAGCTCCAGA AATACCACAT AGACATCAGG GACACTTTAAACTAATCAGC CTATAGTCCT TTTTCAGTAA TTTCCAAACC TGGTTGTGCA TCCAAATCAC TTGGTAACATTAAAAAAACA AAAAAATATA CACGCAACAT TCGCTCCCAA TCCTACTGAA TCAGAATATT TTGGGTTGGTTCAGGAACAT TCAGGAGTTT TTCAGGGTCC AAGGTTTATA TAATTTGAGG TCTCTCTTTG AGAAAAGGAACGTAAAAGCG TCTTGCTTTT ATAGATCTTA CAAAGATGTA TTACCATGTA AACACATTCC TAGGACCCAGGCCCTTGTAA TTTAAAGGTT TATCTAAGTA ATGGGCCCTG AAGCTTAATT TTCATTATCT TCAGGGCAAATTACCTGTGG GTTAGGGTTT AGGAATATAT CTCTCTGTGT ATGTGTGTGC ACATTAGCAT GTACGCTTGTGTGGATTTTT TTTTTTTTTT TTTTTTTTTC TGAGACAGAG TCTCGCTCTG TCGCCAGGCT GGAGTGCAGTGGCGTGATCT CTGCTCACTG CAAACTCCGC CTCCCAGGCT CAAGCGATTC TTCTGCCTCA GCCTCTTGAGTAGCTGGGAC TATAGGCACG CACCACTATG CCCAGCTAAT TTTTGTATTT TTAGTAGAGT TGGGGTTTCGCCATGTTGGC CAGGATGGTC TTGATCTCTT GACCTCGTGA TCCACCCGCC TCCACCTCCC AAAGTGCTGGGATTACAGGC GTGAGTCACC ATGCCCAGCA CTTGTGTGGA TGTTTTAAGC TCCCAGGTGA GTGAATACAAAACTAGATCT TTCCCTTCTG TAGCATCTGT ACTGTTTACT CTATGCATCT CAATATTTTT TCTTTTAGTATCTTTCCTTT TTCTCTCTTA TTACTTCCTC TTGTGCTATT TTTACACCTC CTTTTTTAAA AAATTTTTTCCCTTTTATTT CTATTGACCT TTAGCCCTCA CAATGATTCC TACAAGCCCC ATTTCTGTAA ATGGGGATTGAAATAATTGC TGGACTTTTG AGAGATAGAT ATATTAAATT GCAAACTGGC AGTAGTGGGG GCAGTTGATACATAACTAGG TTTTAAAGTC TAGCCTTCTG AGACCACTCA TTCCATTTGT GAAAAGTGAT TCTACTTCTTATTATGAGCC AAAATATGCA TTCATTCACC CATGCATTGA TTTATTCATT CAATAAATAT TTGTTGGATGTCCACTCTGT ATCAGGAATG TGCTAGGTTC TGGGAATACA GCAATGAACA AGGTAATTTT TCCCTACCCCTAAGGAACTT AGAGTTTAGT GGGGAAGACA GACATTAAAC AAACAATTGT GCAAGTAATA ATCTATAATTATTTATTACA ATTAAAGGAA GGAAGAGACA TATGGATTAT GAGGGCATTA AAGAGGAGAC CTAGTGTAAGTAGCCAGTTC TCGTGAAGGG ACATGTATTA GTTGGAGTTC TCCAGAGAAA CAGAACCAAT GGTGTGTGTGTGTGTGTGTG CGTGTGTGCG TGTGTGTGTT GGGGTGTGGG GGTGTGGTAT TTTTTATAGA AATTGTCTCACACAATTATG GAAGCTGAGA AGTCCCATGG CCTGCTGTCT ACGAGCTGAG AACCAGGAAAGCCAGTGGAATACTTCAAAG TCCAAAGGCC CTGGAACCAA GAGTGCCAGT GTTGGAAGGC AGGAGAAGAT GGGTGTCCCAGCTTAAAAAG ACAGTGAATT CACTCTTTTT GCTCTACATA GGGCCTCAAT GGGTTGGATC ATGGCCACCCACATTGGTGA AGGCAATCCT CTTAGTCTAC CAATTAAATA CTAATCTCTT TGGAAATACT CTCACAGACACACTGAGAAA TAATGTTTTA TCAGGGTGAT AGAAATCTTC TGGAGTTAAA CAATGGTGAT AGCTGTACAATCACATACAT TTTTAAAGGG TGCGTTTTAT GGAAAGTGAG TTTTATCTAA ATAAAATTTC TAAGAAAGAGACTTAACACA GAGATAAACA TAAGCACATT TATTGTCAAC CTTTATAGTG TTATGTCAAA TAGGTCTGACATAAGCTTAA ATAAATATAT ACTTTAAAAA TTATAAAATA TTTTAAGTTA TAATTTAAAA TTCTCAATAAAACTCAAACA CAAACCACAC TGGTATTTCA CACAGCTAAT TTCTAATGCA GTTTACATAA ATATTTACAACACTTAAACA ATTTCAAAGA AAATAACACT GTATTCCATA CATAGCCTGA TCACAGTAGT TGTTCTCTCTTATTTCCCAG AGTTTTTCTG CCCCTTTAAA AGAACCTCTG CTGTTCTGAT CCTTATCACA TCTCTGTTTTGACTGTTGGC TTTGTTGTTG CCAGTGTTCA GCCAGAACTT CTCTGAAACT TTTTTTTCAA CACATGCTAAGTTAATGGAA GTGTAGGAGA GTTTTGATTC TCACACTCCT CAAGGCTAGA GCAGCTTTGG CAATTACTGACTGAGAATTT TTCATTGCCA GTGATCAACT GAAAACTGGA GATTCCTTTG GAATTGTTAA ATCTGCTTATAAATAAACAT AAATGCTTGC TCACACAGGC ATTCCTCTCT TCCAGAGCAC CCTAACATAC AGAAGAAAACAAATAGGGAA TAACTATTAG ACATCTTCAT TCGTTAAAAA TCTACCAGAT GACTCTTTTA CATGGTGAGTTTCTATTGTG AATTTAAAAT CTTCCATAAT ATACAAGAAT TATGTTTACA TATCATATCT GACAAACATCTTTGTAGGAA TGCAAAGCAC ATCCATCTTT CTGTATTCTT TTCCAACAAA GACATTCATA AAATTATACCTTTGTGTGTT TGCATTTATG CTTTTATTAG TTCAAAACGT TTGGCCTCAT GGAAGTTTTT CATCGTGGAAACCACATATT TCTGAAAAAA TATCTGACAA TATACAAACC TTCCATTCAG TTTTTACTCT CCAATTCTACCATGTTTTCA AAAAACAACT GTAGTAAAAA CACTCAGAAC TTTATTCTGG TTAACATCAT GCCTTGCTAGGGGACAATAG TTTCCCTTTT TGAAATAAAT TTAAAACAGA TGTAACATAA TTTGTTAATA AACAATGAGGGGGTAATCTA GAATAAGTAA CTTTTACCAT ATCATAGTTG ACAGCATTTA CAAGTTTTTT AAGTCCCTACCACACTTGTA TTGAATGAAG AAGTATGGAA GATTATAATA TATTCAATGC AAGTAAAAAT ATCACAATCCTTAAGAACTC TTTAAGAAGC ACTGAATCCC ATAGGGATGA AAGTGATTAA ATTGTGCATA GTAACCCTCGCACAGAGCAT TCAGTAGGAT TTGCACCATT AACAACCCTC CATGCATTTG CCTGTGGGCA TTCAACATCTGTCATTTTTT TAAGTTATAA TATTTTTAGT CATTTTTTTC CTCTAAACTC TGGATAATTA TTATTCATTCTTATGACAGC AACTGTGTAA TCAGCTGTCG AAACACTGTG AAGGGCAAAA GAAAGAAAGC CACAAAATATTGTGTTTCTG TGCCAAGATT TTACAGCGAG CAAGGGAGAG TTAGAAAAGG AATTCTGAGA TTTCAGAGTCTTGGTCTCTT CACCTTTGCT TGGAAGAAAA TATCCTTTCC CTTCATTAGC CAACACTTTC TTGATCCTGAGAGTAGGAAA GGGAACACTG AGTCTTTTCA GTTGAAGGCC GTCCTTGCCT GCTGGACTTT GATCTATTGAAGTGGTGATG GGTGTTGCGG TTTCAGCCAT AAAGGCATCT GGCATAGTAG GCAAGAAGGG CCAGAGACCCGAGGAGAGTT ATCTGTCTCT GTTAACTTCA GTGTATCCCT CTAGTTCCCC AGATGCACCT GTTTCTGTAAATATAAACAT GCATGTCATC AGAACACTTA ATATTCTGCA TACTGATCAT GACAACAAAA TGTACCTTCTAACACAGACA CTCTCACTAG GATAGACCAT GTAGGAACAT CGAATTCTAT TCAGTTAGGA CAGTGATGATGTCTACATAT TATACCTCTG TCAAAACCTA CAGAATATAC AACACAGCAC AGAGTGAATT CTAATGTAGCCTGTGGACAT TAATGAATAA TAATGTATCA ATATTGGCCC ATCAGTTGTA ACACTAATAT AAGATGTTAATAACAGGGGG AATTGAAGGG GTGGTGGGGA GATATGTTGG AACTCTTTGT GCTTTCTGCT CAATTTTTCTGTAAACTTAA AACCGCACAC ACAAAAAAAG TTATTTTAAT TTTTTAAAAA GTATTCAGAG GGACTTGACCTTTCCAAATT CTCTCAAAGC AGGTCGGAGT AGTTAAGAAC ACAAATTTTA GAACCAGACT GCCAGAGTTTGAATCCTGGC TACACCACTT ACTAGCTTTG AGATTTCAGA CAATTTACTT AACTTCTCTG TCTCATTTTCTTCATCTGTG TGATAAGAAA TAAAGTAACA GGCCAGGCCC AGTGGCTCAC GCCTGTAATC CCAGCACTTTGAGAGGCCAA GGCGGGTGGA TCAGGAGTTC AAGATCAGCC TGGCCAACAT GACGAAAAAA TACAAAATCTCTACTAAAAA TACAAAAATT AGCTGGGTGT GGTGGCAGGC ACCTGTAATC CCAGCTACTC AGGAGGCTGAGGCAGGAGAA TTGCTTGAAC GCAGGAGGTG GAGGTTGCAG TGAGCCAAGA TCATGCCACT GCACTCCAGTCTAGGCAACA GAATGAGACT CCATCTCAAA ATTAAAAAAA AAAAAAGTAA AAAGAAAAGA TAAGAAATATAGTACCAGCC CCTATCTCAG AGTTCCTAGC TTAGAAAAAT TCCCAGAATA TAATAAGTGC AATGTAAGGGTCAGCTATCT TCATTATTAT TATCTATCAT AAATGAAATT ACACAATAAA GCTAGATCCG TTTCTTTCCTCTCCTTCTAC AAAAAATAAA GCAACTTTCC AGAACAATAC CCAGGTGATG ATTTCTCCCC TGCTCCCTCCCTAAGATATT GGCAAGTTTG GAGGGTTCAA GGAGAAACAG AGCATGTAGA GAAGATACCT CTCTCATAACCATTTGTGAT TTACAAGTCT TACCTGATTC TTTTGAACTT AAAGGATGTA AGAAGGCTTT TGGTAGCTTCCATCTGATTC AAGGCTTTGG CAGCTGCTGT GGAATACATG AGAACACTAG GTAAAGCACT GTCTTCCAACATGAAGAGAG AAAAATATGT GGAATGTTCA ATGGCATGCT TTGTATAAGA ATGCAACTTA CCTGGCAGGAACAAATTTCT TTGCTGCAAA AGAAAAGACA AACAACCATT AATTCAGACT AAATGACTTT TAAGGATATATTAAATCCAG ATACAATATG ACTTAATTCA TCAAGTGTTG CAAACTCGAT GCTTCAGGGC CTCTGTAATAATCAGAGCAC AAGCATGGCT CTGTGGCATC TAGGGTAAAA TGCAAAGTGC ACAGCCATCC AAAGGGCATAGCAGCTTCCT AATGCCAGCA AATAGCTACG GGGTCATCTT GCCCAATTCA GCTCCCAATT TTTCATGAGAAGTCCAAAGT CTTAATTTAA ATGTGAGATT TCCTATTTTG TAAACGTCAG AACTTAACTC AAAAATGTTTTAAGTACTCT TAAACATGTA AGCCAAACAA ACCATGAGTG TAGTCAGATG TGCTTCCATA TTCCTTATGAGAGACTCTCA AATTTAAGCC TGTACTCCAA ATAAATCTCC TTAGGAAGAA TTTTATCCAT TTTCCTTAGAGTGCTCATCA TGGCAGTTCC ATTGCACAAT TCCGGGAGGC ATCATATAAT TCAACATGAA TAGCACCCCCTGGAGTTGTA CAATATTAGG CACGACTAAC ATTTTTATTT CCTGAAACAC TTCCCACACT GAGTTGTACTACTAACTCTT TTCTTAATAC TTCTGCTTAA TTATACTGCA TTTTATCCAG ATTCTAATTA TTGTTTAAATCAGTAAGCAA GACCATGACT TATCAATGAG AAAGAAATGT ATTTTCAAAA ACATTTTTGA AGTACATTCATAAACTTCCT CACCTTTCCG TAAGCATTTC CGAAGCCAGA GGAGAAATGG TGCTAATGTC AGGAGGGAGAGTCCAGCAGC AGAAAGTCCA GCTACCAAGG GAATGTTGGA CTCAGTGGGA GCTAAGGAAG TAAGAGACGAAGAAAGGTCA TGAGGAAGAA TTGATGTTAA AGTCTCTCCG TCCTGTCCCT TTGGCCTTTT TTCTGTACATTCATTACTAG GAGCAGAAGA GCTATCTAGT TTAATACAAG AAGCAGAGAT GTGGCATTAC AGGCCTTTGAGATCTGCTCC AAGCCACCTT TGAAGCTATT TCCACCATTG GCAGGCAGAA CTCTAACTTG CCAAGCTCGTTCACAATACC ACACCACACC TTGGTTAATA AACACTGCAC TTGCTTGCTC TCTTGCTCTC ACTCCCTCTTGTTTTCCATT TCCCCTTTCT CCTCTCCTCT CTCTGTCTCC TTTTTCCAGT TGTCAGAATT CTACCCTTTCCATCAACATG CAACTTCTGT TTTTTCTCTA TCCCCATACA ACTTAATATT CACAACTTGT CAACCTGGGCGAACTTTCTG GTTTGGATAT AATGAATAGT TGATTACTGT AACAAGATAG CTCCCCCTTT TTCTTTTTAATCACCAGACA ACCACCATCA ATCAATGCAT CACCTTCACA GGTAGGTAGC AGGCCAGACC AGTGTCCTGTGGCTCCACAT GTCCGAGCTG CAGAGCCATT GAGCGTCCAT CCTTCAGGAC AGGCGAACTT GCACACAGTGCCAAACACGG GCTCCCCACT GCAGCTCATG TTGATCTTTC CCGGAACTGC CAGGCTTGAA CATTTTACCACTGCAAATGT TAGGTACACA GGCAGAGTTT CAGAAAAATC TACTGGAAAA CTTCCAAAAC TTGCTTAAAAGTCAACAATG AATGTAAAGT GTAAGCGCTA CTTAGTTTTC AGCATGTAGG AAATTAGGAC CAAACCCCTTTGGGGCAATC TAGGTTCAGA AACTTTATGA AGTATTTGAC CTGTACCCTA AAAAAGTCTG CACTCAATTCTACCTTGGCA GGAAGGAACC TCTTCTGTCC ATTGTCCCTG AGATGTGCAC TCAAGTTGAG TTGATCCATGTAATTCAAAT CCCTCCTCAC AGCTGAAGGC ACAAGAGGAC TTGTAGGTGA ATTCTCCAAT AGGGGAATGAGCACACCTCA CCAAACCCTT CGGGGGCTGG TGGACAGCAT CGCATCTCAC AGCTGGAACA CACGAGAGAGCACTTTAGAA GTTTGTTTGC ATCTCCAGCA ATACGTTTCC CAAGGTAACC AAGTTCCCAA GCTCTTCAATAGTTCTTTTT ATCTTAAAAT AAAATAAAAA CAAAGACTGT ACCTTCACAT GTGGGCTTCT CGTTGTCCCACTCCCCTGTG GGGCCACATT GGAGCCTTTT GGATCCCTTC AACACAAAAC CCTGCTCACA GGAGAACTCACAGCTGGACC CATAACGGAA ACTGCCAGAA GCACTAGGAA GACAATTCAT GTAGCCTCGC TCGGGGTTGGACAAGGCTGT GCACTGGAAA GCTGAGACAT CAAAATGATG GTCAGAAAAT ATTGCAGTGG AACTAGAGAGTACTTGGCGT TTGTTGAGTG AACCCAGTTC ATTCAAGCAA CACTTGGAGA ACTGAAGATT CTTTATAATTCCCTGGACAA ATGGGAAGAT GGCTGTGTTT TCTTTGAATT TCAGCCCCCT CACTGATCAT GGCACTAATTAAAAGACTAA TTAATCAGAA CATTAGTTCC TGAGCACTGT TCTTCTAACA CACAAAATAA ATTATGGTCCAAGGAAAGAT TTCACGCAGT CTGAGGACAA CATATGGGTC ATGGATGTTT ATAGATGGTG CCAAAAAGAAAGAAAAGAAA GCACCCCTAT AAAATTTGTC TGTTTTGCAG TTTGGTTTTT GTGTTATGTT TTGCTACTGGAAATCATTCT GTGCTGGCTT TGGCTAGGAC AAGGCCAGTG CCTGATAGTA AAAACTGCTT GTTTTCAATATCCTTGCTCT CACTTTAAAG TGAATTAAAA TTTACTGCTT ATATATGCAT CAATACTATC TCTGTAGCTGACACCATGCT TGAAACAGTC TCATCACTGC TAATTATGAG CCATTTCAGA AGACAGGTGT GATGAGAGTTTTACATTCAA ATCATGTTCT CATTATTCTG CTTTCCGAAT TTTCTAATAT GATTCCTTTA GATTAAGAATTCTGTCTATT CCATGCTAAT GTCTACAAAG TTTTATCAGC ACATCACAGT TAAAAAAAAA CAGCAAAGAATTCATTCTTA ACACATATGA TCCTTTCCCT GGCCAAACAT TAGTTCTTTT AAATGAATCT CAAAGATACGAGGGTTGCTC ATCAAATCTG ATTTCTATAG TTAAAGTGGG TATTGGTTTT TTTTTTCACT GTCCAAGTTTGAAGATGGTT GTTCTTTAAG AAAGTATAAA TCGAAGGATC TCAAGCTTAC CTTCACAAAC TGGGATTTGCTGTGTCCACT GCCCTTGAGT GGTGCATTCA ACCTGGGCTG GTCCCTGCAA CATGAAGCCT TCCTCACAGGTGAAGTTGCA GGATGATTTG AAGGTGAACT CTCCAGCAGG GGAATGGCTG CACCTCACAG AGCCATTCTGAGGCTGGCGG ACGGCCCTGC ATGTCACAGC TGTAACAAAT ATACGCATTG ATATTAGCAC GGCCTAGAATTAGCTTGCCC ATTTCCAGTA TGGGTTGAGA GAAAGAATGT TCACAGTAAG TCTCCATGTG GAACAACTCTACCTTTACAC GTTGGCTTCT CGTTGTCCCA ATTCCCAGAT GAGGTACACT GAAGGCTCTG GGCTCCCATTAGTTCAAATC CTTCTTCACA GTCAAATGTA CAGGTTGTGT TCCATGGGAA GCTTCCAGGG TTTTGGAAACATTCCACGAA CCCATTGGCT GGATTTGTCA CAGCATCACA CTCAACCACT GAGGATTTTA AAGAGCACCATGAATTTTAC AGAAGAATGA TCTTTTCACT TCCTATTGAG CTGGGTGCCT AACAGAGTGA GGAAGCTGCCTTCAAAGGGT AGATCCCAAA GTCCTATGTC AATTCTTAGG GACATGCACA GCCAGAATAA AAGCTTTTATTCTTTTTCAT GGATATTCTA TCTTTTCTGA TTTCCACTTT GCCTATGCTG AGTGGTCTCT AATCTATGTTATCATTTACG TGAGGTAAAA ATTTAAAAAA AATAGATTCC AGATTAGGAG TTATGACTAG TACTGACATACGTAGGCTAT TCATTTATTT TAGCCCATCA GAGCCTGAAG AACTGATTTT TCTTTTTTTG GCCTCTGGTTCAGAAAGATA AAATTAAGAG AGAAAAAGAG ATACTAAGAC TGCTTGACTA TCATGGTCTT AAGTTAGTCCCATGGCTTGG AAAAGTTAAA CAGGGAAACA AGATGAGAAA TCCATTGAGA TTTCTAGAGC TTTATTGTTTTATGGTCTCC CTTACAAATC ACCAGAGCCT CAGAAACACC CATTTCAAGC ATAGAATAAA AAAACCTCTCTCAACCCAAG CAGGTACTGG GTTGGCAATA TACATTGGCT GAGAGAACAA ATTGTATTAA AAACAAAAACAAAAAAAAAA CTTTCCCTGA AGTTTTGAAA ATGTAAGTTG AATCAAAAAA CAGAAGCAAT GAGGGATGAGTTACAGAACG TTCTGTGCAT TCTCAGAGGG ATTTACCATT GCAGGCTGGA ATAGGAGCAC TCCATTCTCCAGAGGACATA CACTGCATGG TCTCCATGCT GCTTGGCAGG TAACCCCTAT CACAGCTGAT AGAGCAGGAAGAATTGTAGC TGAAGTTTCC CAGTGGGTGA CTGCAAACCA GGCTTCCATG CTCAGGGGAT TCCAGGGCTGTACAGTTCAC AACTGAAAAA GAAACCCAAA TCAGTTCTGC TCATCTCTCA CCTTTAACAG ATAAGAACACTGGAAACTAG AACTACAGTT TGGTTTTTTT TTTTTTTAGT TTAAAAATTT ATAAAATTTC TAATGGAATTTGTAAAATTG ACTGTAATTC TACCCCTTTT CTTTTATTCA AGAAAATGCT GATCCATAAC AACAACAACAAAAAAGCAGT GATGACAACC ATAAAAAAGA AATATTGAGT GATATGGGGA GAGTAGTGTA ATTGTGTTTACCTCAAAACT GTTCAAATTA TATGAACAAA CACAGCAAAC TTAGGTACCA CAACAAATTT CTTGTTACTTTTCTCACAAC TGCTAAAAAT ACTACAGTAA GCTTCCAACC AGGATGAGAA CCATTCACAA AGCTATATTTCAAATTTAAG TACTAGAATA CATTACAAAT TTTAAAACCC TAATGCTGCA CTGTCTACTA TAGTAGCCACTATCTGTGTG GCTACTCAAA TTTAAACTTG AATTCGTTGA AATCAAATAA CATTTAAAAT TCAGTTCCTCAGTGTCACCA GCCACATTTC AAGTACTCAA TAACCACATG TGGCTCATAG GTACACACTG GAAAACACAGCTATGGAACA TTTCCATTAT CACAAAAGCT CTACTGCACA ACGCTGTGCT AAGGAATCTT GGAGAGAAGCTCATCTAACT CTCTTAATGT ACAAATTTAG GAACTGAGAC CTCATTTCAT TCAAGTGACT TGCTCCATGCTACACGGCTA GTCATTACAG AGCCAGAGGC CAGAGCATGA ACCAAGATAC CCTGGACTCT GTAACTCACTCATTTCTACT GCAACGTCTT GTTACCACCT AGATGAGGTG AGTACATGTT CCTCGCAGGG ACACAGAATTACAGTTTATT GAATGTGTCC TGTGTGCCAG GCACCATGTA ACCATGAGCC TATGAAGTTC ACACTATTATTATCCTCATT TTACAATGAG AAAACTGACA TAGAGAGTTA AACTATCTTG TCAAGGTGCC AAAATAAATAACTGGTGAAT CTAGGACTCA AACCCAGCAG GGTCTGACTT CATAGTCTCA GCTCACGATC ACCATATGACACCATCTGCA CCAGGGAAGG GAAGGCATGC AGACCTGACT CTAATGCCAG CTAGGACGTG AGATGGTGCTACCATCTCAA GTGAAGAAAG AGGCAAGAAC CAGACTTACT TTGCTCACAC TTGAGTCCAC TGAAGCCAGGGTCACACTTG CAAGTGTAAT TATTGATGGT CTCTACACAT TCACCGTGGC CACTGCAGGA TGTATTGGTACAGGCAGCTA CGGAAAATAC AAAGCATGAT GAGGAGGACT ATTACTGTGC TTATACTGAG TGCCTTTGATTTTAGAATCA ACAGTGTGCA ACAGAGACAT CAGCAGTCCT ACAGAGTGCC ATAGACTTTA ACTGAAGTGTTTTACAAAGT TCCAAATCTG AGTTTCAGGC CCACCTATCC TAAACCTTGA TGCTAATGTA TAGCTGTGGCTGGCACCTAC CGTAGAAAAT TTACTTCTTC ACAAACTCTG AAGACAGTTC CCCTACCACA AATAAACAAGTAATTAAAAT ATGTATTGTG TGTGTGCATT TTTATATGTA AAGAACTACA TATTTGCCTA CAGTATTTATATATATTTTA TATATATACA TACACACATA TATGTGTGTA TATGTGTGTA TGTATATATA TAAAATGTATATAAATGCTG TAGGCTATAT ATATATACAC ACACACATAT ATGTGTGTGT GTATATATGT GTGTGTGTGTATATATATAC ATATCCACAT ATTCTTGCCC ACATTCACAC AAAACAGCAA AAGAGAGAAA CTTTAGCAGTTAAACAGAAT CTTTTGGAAC ATAAAATGAC CACAATAGAG AGCAGTTTTT GCATGCTGTA AATTTGCCAAGATGCCCACA CACTGAAACT ACCTCCCACT GCTGCCGCAA ACTCCCTACC TGTGTAGCAT AGGGCAAGCTTCTTCTTGCT GCACCTCTCA TCATTCCACA TGCCCACATC TTTTTCTCTC TTGATGTAGA TCTCCACGCAGTCCTCATCT TTTTGCCTAT TGTTGGGTTC ACCTGGAGCC CAGTTCTTGG CTTCTTCTGT CAGAGGTTTCTGGGTTCCTA CCCAGACCCA CACATTGTTG ACTTTTCTGA TTCCAATCCA GTAATAACTT GGTGAATAGCTCAATATGGA GTTTAGGTAC TCAATCTCTT CTTTGTTTTG AATTGCAACC AGGTGTGTGT ACCTTTGCTGACAATAAGCA CTGGCCTCAT CATAAGTCAT AGCTTCCGTG GAGGTGTTGT AAGACCAGGC TCCACTCTCTTTAATGAGAA GCACTAGTGG GAGAAAAAGA AAAGAAATGG TAGAGTTTGG TACTGTTGTG GTTTAACTCTGACAACTGTG CTTTTTATTG TCTTATTTTT GGCAATGTTT GTGACATGGC CCAGACTTTT CTCATCTTTTCAAAAGTAAG AAGTACGTAT GAAGAAACAG CGACTTATTG TTTATCTCTT TTGTGACTGC CACCCACTAGGTACCTTATC CACACTCACT CACAACATTA TAGTATACCC ATTTTGTAGT AGAATAATAA TCAGAATAACTAAGCTTTAT TGAGCACTTA GTATGCACCA AGAAGCACTG TATGAGGTAC TTTCCATGAA CCATGCTATTGAATCCTCAC AATGCATCTG GGAAATAGGT CATTATGATC CACACTTTAC ACTTAAGGAA AGGGAGACACCAAGAGGTAA AGTAAATGAC CCCAAGCCCA GGGAAGAACA CATTGCAGGT AGAGGTCAAG GATGCTGCCAGATATCCTGT GCAGGACAGC CCCAGACAAG CAAGGATATT TCAGTCTGAA ATATCTATAG TGCGAGAATGAGAAATCTTG GTCTAATGGC ACTGACTTAC CCAAAGTGAG AGCTGAGAGA AACTGTGAAG CAATCATGACTTCAAGAGTT CTTTTCACCC AAAGGTTTAG GCTTGAAATA CTTTCCTGGG GAGATAAAAC ACAAAATGAATTAAAGAAGG AAATCGTGGG TAGCTAGTTA CATTATTCTA CCATGATGTT TAAGGCAGCA TCCTAAGATTTTGGGCAAAG GACACTAGTG CAATAATCTT TATTTCAGAG TTTAATCAAA TAAATAAACA AATTTTAAGACTTTCATTAT TTAGGTCAAA GAGAAAAGAC AGGTTTTAGC TACAATACAA TAAGAGCTTG TACAGATGTGGTTTTTATTA GAAGGCCTTT TGCATATCTG TGTTTCATGG CCCGAGGCTG CCCTTATAAA GCGTTCTGCACTTACCGTTT TGGGAAGCAG TTGTTCAAAC ACAGGATCTC TCAGGTGGGT ATCACTGCTG CCTCTGTCTCAGGTCAGTAT AGGAGTTTTG ATGTGAAGTC AGCCAAGAAC AGCTGAACAC TACTTCGGCT GAGGCCCTTTTATAGGAGGG ATTGCTTCCT GTGAATAATA GGAGGATATT GTCCACATCC AGTAAAGAGG AAATCCCCAATGGCATCCAA AAACTTTCCC GGGAATATCC ACGATGCTTA AAATTACAAT GATGTCAGAA ACTCTGTCTCTTGAAGCTAC TTCACCTTTG TCCATGCCTT TATATCGTAT ATGCAATTTT ATTAATATGA CAAAAATGCATGATTTTTAA TTATAATAAC ATAAAGTCTA TGTCTTTAAA AAGTTGTAAA ACTTTGCTTG TTAGTAGTGTCTCTCATGTA GTTGTGGTAG TAATTAGAAT TTCAGAAACA GAAGGAAACC AAGAATAGGT TTGTCATCCATAGTCTACTA CCTTCAATTT CTCATTCATA GCTGTGGATA ACCAATCACT ACTCATTTTT TCTTCCTTTTTCACCTGCCA ATTCAACATA TTTAACATGC ACTGTCTCAC AGAGGAATGA CTCACAAGGT AGATATTAATCTTCAGATTT TGCACGGCAG TTATGCCTAA ATTAAAATAT TATCTAAAAA TAATATCTAA CACTCAAATGGTTAAAATAA TGCCTTATTT TAAAAAAAGA AAAATGGGAA ATAGATATTT ACATCTGGGA AAGTTTCATGGTTTGTTCAG TGAAAAAAAT AAAAAGGAGG CCAGGCACAG TGGCTCACGC CTGTAATCCC ACCACTTTGGGAGGCCGAGG CAGGCGGATC ACCTGAGGCC GGGAGTTCAA GACCAGCCTG ACCAACATGG AGAAACGCCATCTCTACTAA AAATACAAAA TTAGCTGGGC ATGGTGGCGC ATGCCTGTAA TCCCAGCTAC TCGGGAGGCTGAGGCAGGAG AATCGCTTGA ACCCGGGAAG TGGAGGTTGC AGTGAGCCAA GATCACGCCA GTGCACTCCAGCCTGGGAAA CGAGTGAAAC TCTGTCTTAA AAAAAAAAAA AAAAAAAGAA AAGAAAAGAA AAAAAATAAAACGGAAAACT ATATATATAT ATTTAATTGG TCAAAATTTT GTTTAAAATT TTTGAAATGT TAATGTGCAAAGAATAAAAA TTCTTCCACA ATGTTAACAG TGACTAACTC TGGATGGCAG GATTTGGGAT AATTTTTATATCCTTCATTA TTATTTTCAG GATTTTAAAG TTTTTTTCAA TTTCCCTTTT TTTCACCTTT ATAGTAACAAGAATACAGTT TAAAGAAACT TGTCTCTAGG CCAGGCATGA TGGCTCATGC CTGTAATCCC AGCACTTTGGGAGGCTGAGG TGGGTGGATC ACCTGAGGTC AGGAGTTCCA GACCAGCGTG GCCAATATGG TGAAACCCTGTCTCTACTAA AAATACAAAA ATTAGCCGGG GTGTAGTGGC GCATGCCTGT AATCCCAGCT ACTGGGGAGCCTGATGCAAG AGAATCGCTT GAACCCAGGA GGCAGAGGTT GCAGTGAGCT GAAATCACAC CATTGCACTCCAGCCTGGGC GACAGAGCAA GACTCCATCT CAAAAAAAAA GAAAAAAAGA AAAAGAAAAG AAAAGAAATTTGTTTCCAAA TGCAACAGAA GGAGATGTAT GTGGTATCCT ATATTCCTGC TCTTCATTTT GACATTTCTTCTGGGTGATT GTATACATTC CCCATCTCTG CATCTTACCC TATCTAAATG ATGGTAACAG TAAATGGGGATCATTTTAAT TTCCATATTC TGTAGGTTTT CAGAGCTCAA GTCAAGCTAA TATTCTATAT CTACAGCCTTTCAAAATAGG AGGTCTATCT AAAAATGTAC TGTCAGCAGA CCTGAACGAG TAGTGGTAAA AGCCTCGTTTTTCTCTTTAC TTGTTAGCAC TGGTCTTTCT GTGTTCATAA AGATGTCAAG ACCCAAAAAA AAAACAAGAAAAGAGAAGAA AAATTCCAAA AAAGACAACT GATTAGAAAA AAATAACTTA ATTAACGAAT TTAATTCAACCCCTATCAAA AAGCATAGAA TTTATTCCCT CCACCTTACC ACTCTCTTAC ATGATCCAGA TACTGACATTATTCCAATTC TTTATCCCAC TTTACTTAGC TCAATGTGGT TGTTGCTTCA ATAAATTCAG AAGAGTAATCACTCATATAG TGTTTATTTA GATTTTAGGG CAGAATGTCA AGTTGGGTTA ATACATTATC TGTATGTATTTTATTTTTAA TAAAGTATGA ATACATAATC TGCTATTTTT AAAAAGCATG GTCAAATGTA TAGAGTAGCCAAATCTTAAA AAACAATTTA TCTTCGATAT CAATAAAGTA CCTAATAATT ATATTGCTAA TAGAAATTAGTCGTTAACAT CCCTAGATAA CTAACTTTAT TATTGCGAAT TTTTCATAAC TAAGTTTATA GTTTATCTCTTCCCCTTTTT AAAATTAGTT CAAAGATATC TAAAAATAGC CCCAGTGGTG ATGAAGTTTC TATTTTACTTACATATATAT GTCCTGGACC CCCAATTATA ATCTCTAACA TTTATTGAGT GCTTACTATG TGCCAGGCCATATTCTGAGC ATTTTGTATG TTCACCTATT GATTATTCAA TCCGTACAAC AGCCTATGAA ATAGGTACTCCTATTATCCC CATTTTACAG ATGAGGAAAT TGAGAATCTG GGGATTTTAT CTCATTCAAA AGCACAGAGCTAAGGGTTGA AACCAGGCAG TTGATATCCA GAGCCCACTC CCTTACCTGC TACTCCAAAC CATGATTTCTTTTGTTGTTA TGCCCCGAGA TTCCTTGTTC TACCCAAGTT TCCTGTACTC TTCTTGCCCT CTTCTTCCTGAGACATCCTT GACCATCACA GCTCTCCACT GAGATAACTG TGTCCTGGGT TCTGAGACAT GGGGGCTGGAAGGGACCCCA GGGACAGTGA GCAGTAGGGA GAGGATGCAG TGAGAACAGA CCCTGGATCC CCGGTGCATAGGCAGGGAGA AAGTGGACAA AGGAAAAAAC AAGCAAGGCA GGTGGAGCCA TGCCTAGGTA AAGTTGATCCCTAAGCCACA GTTCCCAGAA GTTCCTGATT CAAAAGCAAA TTTTCTCTAA GGTCAAAGGG CAAACTGATTATTCTAAATT CTAAACTGAT TATTTCTAAA TTGAGAAAGC TTCAGGGAGA GATCCCAATA TTCGAAGGATAAGAGAAATG AGGAGTGGAA GAGATAGGTG AGTAACAGTA ACTTAAATGT AGACTATATA TAATATATAATATATGTAGA GTATATATAT ATAATTACAATATATTATAT ATGTGGAATA TATATATTAT TTATATATATTTATATATTT TATATATATA GATATTTTTA TATTTTATAT ATAAATATAG ATATTTTTAT ATTTTATATATAAATATAGA TATTTTTATA TATATTATAT ATAAATATAT GTAAAATACT GTGAAAGAAG AATAGAATCTTGAGACCTCA AATTCACTAT GCCAAAGGGA AAGTTAAGCT TGGGAAATGA GTCATGCAAA AACTGCCTTCCTTTTGTTCC CAAATACCTG TAATTTCACA TGCTTACTTT ATCTTATATA AAATGTAGAT GTACTGAGCATGAGATCCAT GCATAATTTC CCTCTAGTCC CTTCTTTTTA CATGTAAAGT GTAGACTCAC TGAGTGTTACAGAGCCTTGC CACAATGTAA ACACTTGTCT CATTGCCAAC CCATCTTTCG TTTATTTTCT TCCCCTCCTGCTTGCTCTTT CCCCTCTAAA GATGGAAGTT CCCAAAACTC TCTTTGGAAA AAGCGCAGGT CACAGATCCTACAGTGATTT GTGTTTCTTT TACCTGGGAC AAAATAAACC TCTAATCTGT TGAGATATGC TTCAGTTACTTTTTGGTTTA CAATATGTAC ATGTATGTAT ATAATTTATA TGTATATAAT ATATGTACTT GTTTTAACCAGAGGTATGTT ATTCAAAATC CATTCATCCT TACAATTACC TGCATTCTCC CACAGTATTT TCTGTGTCCCTGCCCCCGAG GTTGTCACTG CAAATCAGGT ACATGGATAC TGGGAGCTGA TGGGCTCCCC TCTGGCTACCTGGGCTGCTG AAGGGGCCAT AGACAGACCC AGCTTTCCTC TCGTGGAGAG GCCCTGGGCC AGCGCTGCGTGGGAGTGGGA TTACAACCAG ACTATAGCTT CTTCACCTGC TTTTTCCTAT CAGGATTTCA TAAGAGGCAATTGCTTGTTT TTTGAGGGTG GGGGCAAATC AGGGGGAGTT GAAGAGGAAA TTGGGTAAGA TTTGAATAGTTGGGCATGTT GAATATTATG AATATCATCT CCCTCTTCAA ATAATCCAAA ATATACCCCC AAGAAACAGGCTGATTAGAG GTGCTTCAAG GCTCCACTGA ATCTCCCAAG CTCTGAAGAT GTAGCTAGCT GTTACCGGATTGCCGGTTTT CAAGCCTCGC CTCACATGGA CCCTCTTGGC AGTTTCTCGC ATGGGGGAAG CATCCGCTACATAGATGGGA ATGAAAAGAG GAAAGAAGAC GGTGCAAACT CAGGCACACC CCGGTGTCTG CCACCAGTGCTATTTAATCT CTGAGGTGTC ACCCTTCCTG GCTTTATTGT CTCTTCCTGG AAGTCTCTTG TCCTCTCCTCCACACCCTTT AATCAGGCAT CAAAGACTTT AACCAGTTTT GCTGTGTGCC CAGGCCCACT CATTCTCACTTTTATGGCAA AGGGAGTGGG AGACAGAGAG ATAGCCAGAA AGAAGAGATT GGGGACCCCA AGACAAATGTTAGAATTTTA ACCAAGGCCA CCCTGTGGAC AGGAGATTAT TGGGTTTAGT GGAAAGCAGC ACTGGCCACAACCACACGTG GCAAAAGCAT CTATCGAGGA GTGAAGTTAT ATTTGGTGAA TGTGACCGGG AAGCAGGGGCAGTGGTGTCC TCCTGCCTTC CTGAGGCACT CTGTTCCCTT ACCTCTGCGA AGGCTTATTT TACCCCTGAGTGCTTAGTTT TGAAAGCCTT AGTTCCCTCT CTCCCATAAA AAAGCTCTAC TCTGCTAACA TCTAAGTTACCTTTGCAGAG TCTTAGGTAG AGGGAGGAAA TCCCAATAAA GATTCCACCC TATCTGCAAA ATACAAACATGGTATTTCTT GCATTCCCAA AATTGTGAAA GAAAATGTGT ATCACCACAG TAGAGAATGG CATTTTTTGTTTGATCAAAA CCTAAATATA TTTGATGAAA ATGTGTCTGG TTCTAAGTTT ATTTCCCAGA AAGCCATGTTTACTCACTTG GAATTTATAG ACATCTTATA ATATCTGAGT CGAGTAGGAG CTCCGGGCTC TACCTCACTCTTTTCTCCCA CACCCAGGGG GAAGTGTAGG GTTCTCAGAC TTTAGAATAA AGAGGAATCA CCTGGACAACTCACCTAAAA TGCACATCTT CAGGTCTCAT ACTCAGAGGC TCTGACTCAA CAGGTCTGGG TGGCGCCCAAGAATTTGGGC TTTAAATGAG TATCTCAGAT GATTCTAATA CAGAATGTGT AAGATGACCA GATCCTATCACACTTAGATG TATTGGCCTA GGGCCACCTA ACTTGGAGAA AATGTTAGTA AGACCCCGTG GTTGGTGCTCAGCTATAGGT ACCAGAATTT TGATCAAAAT TTACTATCAT TGTGACACTT CTCTTCGGAA CTGGAAGGCCAGAACCCCAC TTGTAAAGTG CTGGGAAAAT ACAAGGAAAA TTTAGGGTGA GTAGCATTTT GAATTCTTACACATGGAAAG TAAATGTATA AGAATTCTTA CCAATAAAAA AAAAGCAAGA GAGAATAGCT GCTAAAGAATTAACACAAAT ATGTATATAT TAGTTATTCT CTTTTCTCCT CTGATTCCAG AGGACTTTGT AATTCCACTAATTCTTCTTG AGCTTCCAGG ATGATCTGAG ACTTGAATTT TTCATGTGCT TTTTGCTTCC TATTTGGCAGCATCTTATCT TGAAGTTTCC GCTTTCTGCT TGGGGACCTA AAAACTAACT AATGGGAATT TCTTCAAAATGAGCAAACTC TGGTGAATTC CCAAAGCGGA AGAAACAAGT GAGGATCGGG CTGGTTAATT AAGAGAACTTTTCCTGAATG TAGCCAGACT GTTTGCCGAC TGTTGTTAAC ATGAGGGAAG AAATACCCCT GGATTTTAGAAGAGCCCCTT GTTTGTTTTC CTTGGCCATT TGTGCTGCTT GTTTTGTAAG TCAGAAATTT CCTGAAGGACTATTATTAGC TTTGTTCTCA CGTCAGAAAA CTTCTGCTCT GGCCACTTTT AAACATATAA CTTGGATTTTACTGTATTAG AAAATGTAAC AATTACAGAC AGCACTAAAA GGACACCAAA GGGCAAAGAA AATGGGTAACTTTTTTTTCT TCCCCAAATC TAAAATAGGT GATTTTGGAG AAGTAGGAGA AAAACCTGGA TTTTCTAGATCTCTTTAGAG CTCAACAACT GATATAGTTA ATTATGTAAG TCTTTGATAT TTGGAAATGA TTGGATTAACCGGATAACAA TGAATATTTA AATACAGTGA TTTGGCCAGG AGCAGTGGCT CATGCCTGTA ATCCCAGCATTTGGGGAGGC TGAGGCGGGT GGATCACCTA AGGCCGGGAG TTCCAGACCA GCCTGGCCAA CATGGTGAAACCCCATCTCT ACTAAAAATA CAAAATTAGC CAGGCGTGGT GGTGCAAGAC TGTAATCCCA GCAACTCGGGAGGCTGAGGC AGGAGAATTG CTTGAACCCG GGAGGCAGAG GTTGCAGTGA GCCAAGATCA CGCCATTGCACTCCAGCCTG GGCAACAAGA GCGAAATTCC ATCTCAATAA ATAAATAAAT AAATACAGTG ATTTAACACAAGAGATTTCT ATTTCACACT AATGAGCTCT GTCACTGGGG CAAGCTTCTT TGCCTCATTA AGTCTCAGATTTCCCGAGAG CTTATTTATT TATACCAAGA GTGCTTTACT ACCGTCTCTG CTAGCTGTGA CATAATATGACAAAAGGTAT AAATATGGGA AAAGGCACTA ATTTATATCA AAGCGTTCTT CGTTTTTCCT TGCTGTGAAGTTTTTAGCTA ATAATTCATA AGAATATACC ATATTTAGAG TGTTTACTAT GCATGGGCCT GGCACTTCACATACATTGCT TCTTACAAAT TTTACAAAGT GAAAGGTAGA TATTAATCTC ATTTTATGGA GGACAAGATAGAGATCTGGA GAGGTTACAT AACTTGCCAG TGTTTTTTCA GTTAATAAAT GGTAGGGTGG AGATTCAATCTGTGTTACTC TAAAGTCCGT GTCCTTTTTA TTGGCTCCAT GCCTACTCAG ATTTAAATCT CAGCAGGGAAGTAAACCTTA GTTTTTACAT GAGAAAATGT TACAGCAGCC TTCTCGGCTT CCTTTACCCC CATCCCAGTTTCACGAGCTT AGTGCCTTAG ATCGGGTTCC TTTAGAAGCA GACCTCGAAA TAAGGATGTG GGTGCCAGTCATTTATTGAA AAGATGATCC CAAGAAAGCC TAGTAGGAGA GTGAGGAAGT GAGATGGGGA AAGGAAGAAACTCCACAAGA AGTGTGTTAA TAAGCAGGTT ACCGCTGTGG GCAGCCATGG GGCTCAGCTG CACTAACAAACTCTGTCTAG TACAGAAAAC CTCAGGGTCT CCCCAAGGAG GGGCAAGAAG TCTGCCTAGG GTATATATCCGCCAACTCAG TCACTGGCTG AGAGCTGATC CTGGGAGGGC ATGGTTAATT CCTCTGCACT TTCAAGTGGATTCCTGTGGT CAGAAAAAGC CCTCTACAAT GAATTCCAGA TGCTTGTATT TAAATCTGAC ATGATCTGAATGCTGTGTTG GGACAGGGTG GGCGTTATTA GTTTTCTGTC ATTACTGTAA CAGATTACTA CAAACCTGATGGCTGCAAAC AACACATATT TATTATGTCA TAGTTTGTGT GGGTCAGAAG TACAGGTTAG CTCAACTAGTTTCTCTGCTC TAGGTTTCAC ATTGCCAATA TCAAGGTGTC ATCCAGTTGG GCTCTTCTTG GGAGGCTTGGGGATGAATCC ACTTTCAAGC TCATTCAGAT TGTTGGCAGA ATCCAGTTCC TTGTGGTTGC AGGACCAAGGTCCCTGTTGC CTTGCTGGCT GTTGGCCAGG AGTCATTCTT AGCTTCTAGA GACTACCTGT ACTCTCTGACTCGTGTCTCC ACTTCACCTT TCAAACCAGC AGCGGCTAGT CGAGTCCCTC TCTTCAAATG TCTCCAACTGTGCCTTCACC TCATTTCTCC TCTGTGTACC ATGTCTGCCT CTACTGCTTG TAAGGGCTCA TGGGATTACATTGGATTTAT TCAATCCAGG ATAATCTCCA TATTTTAAGG CTAGCTGACT AGTGATCTTA ATTCCATCTACAAAGTCCCT TCCAATAGTA CTGTATTAGT CCATTTTCAT GCTACTGATA AAGACATACC CAAGACTGGGCAATTCACAA AAGAAAGAGG TTTAATTAGA TTTACAGTTC CACATGGCTG GGGAAGCCTC ACAATCATGGCAGAAGTCAA GGAAGAGCAA GTCATGTCTT ACATAGATGG CAGCAGGCAA AGAGAGAGAG CTTGTGCAGGGAACTCCTCT TTTTAAAACC ATCAGATCTC ATAATACTTA TTCACTATCA CAAGAACAGC ATGGGAAAGTCTTGCCCCCA TGATTCAATT ACTCCCACCA GGTCCCTCCC ACAACATGCA GGAATTCAAG ATGAGATTTGTGTGGGGACA CAGCCAAACC ATATCAAGTA CCTAGATTCA TGTTTGATTA AACAACCAGG GAGCAGAAATCTTCAGGAGT GGGGGGCATC TTTAGAATTC TGCCCACCAA GGCTGGGCGC GGTGGCTCAC ACCTGTAATCCCAGCACTTT GGGAGGCCAAGGTGGGTGGA TCATGAGGTC AAGAGATCGA GACCACCCTG GCCATGGTGAAACCCCATTT CTACTAAAAA TACAAAAATT AGCCAGGTAT GGTGGTGGGC ACCTGTAGTC CCAGCTACTCAGGAGGCTGA GGTAGGAGAA TCACTTGAAC CCAGGAAGCG GAGGTTGCAG TGAGCCAAGA TTGCGCCGCTGCACTCCAGC CTGGGAGACA GAGCAAGACT GTCTCAAAAA AAAAGAATTC TGCCCATCAT AGTAGGCTGTCCTACAGAGA CATAACCCAG GAATTAGGTG AATGGCTAAC CTAAATTAGC ACTGTGATGT GTTTTCTGACTTGGTCCTTA TAGCTCCTCT GCTTAGATGT GGAACTAATC CATGAATGCA AGGGTTTGTC TAGAGTTTTAAGTGGGAGTT AAATATCCAA AGTACAGGAG ATATTATGGG TGCCTCATCC ATGTCCCCTT GGCATTTATCTTTCTTGGAT AACCCAACTC TATTAGTTTT TATATCTCAC TTGTTCCTAT ACTCTGTGAA CTGATGTCCCATAAATAGAC ATTTCATTTT GCCAGTCTTC TTGAACAATA ATTACGATTA TTAATCTAGC AGTTATCATTAATTGGCCAC TTCACATTAG ACACAGCACT TAGGACTTAA GAATACCATG TCATTTGATC ATCATAATATGGTCAGGAAT TAAGTATTGC TATCCAAATT TTACAAAGAA GGCACTGAGG GTTAGAGTTT AAATAACTTGCTTAAGATGT CATAGCCTGT AAGTGACAAA ACTAGGACTC AAATACAGGT CCATCTGACT CCAAAGTCTATGTTCTTGGC TACCACACTG CCTCTCCTAC AAGTGACCTG TGGTTTTACT ACTATATTCA CACTCTACTAACTTTACCAT CTCCCATGAG TCTGTCTAGA GGAGGGCACA CACAGCACAG AAAACACATG AATGCAAAATAAGGAAGGGC CTACTTACTA CACAGAGCCA TTCTAATACC TGATGTTTGC TCTAATCCAG TTTTACTATTAATTAGTTGC TGGTGCCCAA GTTTTTACTG AGAAATGGGG ATAATTTTGG AAGTCATAAT GATGCCTTCTTCTCATAGGG TATTTTATTT GTTGTTGTAT CTCCAGGCCC CAACACAGCC TGGCTTTTAG TAAATGATCAAAAATACCTG TTGAATGAAT AAATGGAGTC ACCTGAAACA TGTTAAACAT TTGTTCATGT GTCCTAATCGTGGATTTCAG GATAGTAAGC ATCCTAAAAG GAAAGCATGC ACACTGTTCT TGCTACATTA ATTTCTCACAATATAAAAAA AGAAAAGCAT CTGAAAAAAG CTGCCAGCCG CTGTGTCTCC TAATATCAAA CTGAGCACAGATATGGAGAA GCTAAGGGAG AGGGATGATG GGCCATGCCT CTAACCTCAT CATGGCAAAA GTCCTGGGGGTCAGACCCGA GGAGAGCAGG AAGTGTCTTT TGAGGGATAC ATTTCCACAG TGGAAATAAT GAGACTTAAATAAATATTAT ATACACAGTT CAACTGTTTT TATGTGTAAA GGTAGTAGGT TTTCACAGTA AGGAAGCACTTCTTTTTTTT TTTGTTTGAG ACAGAGTCTC GCTCTGTCTC CCAGCCTGGA GTACAGTGGT GCTATCTCGGCTCACTGCAA TCTCTGCCTC CTGGATTCAA GTGATTCTCC TGCCTCAGCC TCCCGAGTAG CTGGGACAACAGGTGTGTGC CATTACACCT GGCTAATTTT TGTATTTTTA GCAGAGATGC GGTTTCACCA TGTTGGCCAGGCTGATCTCG AACTCCTGAC CTCAGGTGTT CTGCCCGCCT CTGCCTCCCA ATGTGCTGGG ATTACAGGCATGAGCCACTG CACTCACCAA GCACTTCTAC TGATAGCATT TACAAACCCT TCTTAGAATA TTTAAAAATTCTAAGAGAAG AGTAAATTGA GCCTTCCCAA CTAATACTAG GAGGTTATAA CCTTCATACC AAAACTGGACAATGCTTGCA CAAAAGAAGG AAGCCAATGA GGCCACCTAG AAGGAAGACT GGGCATTGGG CCCAGTGAGTCCTGGAAACC TCATCTGTGC CAGCCACCCC GGCATGGCCT GTATGAGTGG ATGAGGGTGA CTTGTCCACAGACAATAGCC ATCTAGCTGT GATAAAGGAG TCAAGGTAGT CAGCTGCATC TCTTTCACCT GTTTGCCAATGTTACACAGG TTGAAAAGCT AAGGTTTATG TAAAGCAAGC ATCAAAGATG ATGAAATGAT CAACCTGACAATGAGTACTA TGCTGCATTG TCCAGAAAGG AACTGTGGAA GATTTTGGGC TGAATTTCAA AACAGAATTTCCTCACTCTC TGGATGTTGG CTTACTTGGC CTTTGATGTT CAGAGGTGGT GCCTTTGTGT TGTTGAACAATGTTGATTTT GGAGAGAAAA CAGAGTTGAA AAACCCACAA GTCATTCCCT GGGGAGTATT ACCGGAATACAGAGGATAAT TTCAGCAAGC CAGCAAGGCC TCATCTCTGC TTCTAATAGA TAGGAAGAAA GGAAGAGAGGAACAATACTT TTTTAAGAAG CTCAGCTTTA TCGCCTTATC TCATAGAAAG ATGCCTCCAG TCTGTCTGGCTAAAGGTAAT TGGCATGGGA AAGTCTTTAT CTGTGATTCT AACAAGTGGA ATGTTTCCCT TCATTAAGAGAGCCTTGTCT GGCTTGGGGA AATGAAACAC TTTCTCCGAT ATGAGTGGGC TGTAACCCCT GCTACTAAATACTCAGAAGA AATAAGGCGG TTGTGGAGCA GTCAGGAATG AGTCACTTGC CTCCCTGGAA TATTCAGAAAACTGAATCAA AAGTACATTC TTCTGGGTTT TCTTAGTCTA ATAGACTAAG GGTCTCTACT TTGTTAAATTTCTGGGAAAC AGCATAGAAT GGGAGAAAAA ACTGGTCACT GTAGTCATGC AAATCTGCAA AACAAACAAAAAAGTCTGGG TATTGCTGCT AACTAGCTAT GTGACCTTAA GCAAGGTATT AACTCTCTCT GAATTTCAGGTTCTTCATCT GTTAAATAGC ATATCTGTAA AATGGGAATT ATTTTCATAT CATAATGCTG TAGCTTTAAAAAATAAAATA AAATGGATGA GATAATCAGA ATTAAAGAGC CTGGGATATA TAGTTAATAT ATAGCAGCATGTAAAGATCC TGTTAGAAAT GCTAATTTTA CAGTTAACCA TTTGGAGATG ATCCGCCAAA GCTGCTAGTGTAGAGGCAAC TGAGAATTTG CCTGTCCTTC AGAATATGAA TAAATAACTG TCAATGATGT CTCAAGCCTAGAAAAACCTA TCCATCTGGA TGGGTGGGAA ATTTCTAGGC TAGTATTGAG AAGCCCATTT CTTGGGAAATAGGTCCTGGA CTGAGTGAAG GAAAAGAAAC AGTAAAACCC ATGGTAAAGC AGCAAGGCTC TCTAGAGGCTCTGGAGAGGA TGAATTGAAT TCTAGAAGAT GAAGTAGGGA AGACGCTTTA CCTTCTTGTG AAATGGATTCAAAGATTCAA AGACCTTCGG GAATCTCCAA TTGTATAAAT GGCACCATAG CTGTATGTTC CATGGAACACTACTTCCCAG AGATGCCCAG TGAAAAAAGA ATGCCACAGT CAAATAAGTT TGGAAACACT CCATTATGTGGCCACCTCCT TGAAGACTCT AATGCACATT AGCATGTTAA ACAGTCTTGA GAAGTCCTGC AGAGCAGAAATTGCTTCACA TCTGCTAAGC CGGCAGTTTC CCAATATACT TGATTATGGA TAGTTTTTTC CTTACAACACCATTCTCTGA TATGCTTCCA ATGACATGAA ATAAATATAT ATGCATGAGG TTCTTCATTA GGGCATACTTTTTAATAGAA AATATTGAGA ATAATCTAAA TATAAATGCA CAGCATTTAC CTTTTCTGCA TAAACTATATACAGGCATAC CTTGGAGATA CTATGGGTTT GGTTCCCACA ATATCTCCAA AACCACATTC GGTTTTATGACCACTGCCAT AAAACCAGCC ACATGAATTT TTTGGTTTCC CAATGTATAT CAAAGTTACA TTTTTACTATACCATAGTCT ATTATATATA CAATAGCATT ATATCTAAAA AACAACGTAA ACACCTTAAT TTAAGGCTGTGGCTGGTTTG ATTTTCTACC CAGACCACTA AAACTTTCTT CATATCAGCA ATAAGGCTGT TTCACTTTCTTACTATTTTT TGTGATAGCA CTTTTCCTTT CCTTCAAGAA TTTTTCCTTT CTATTCACAA TTTGTTTGATACAAGAGGAC TAGATTTTAG CTTATCTCAG TTTAAGGTGT TTACATTGTT AGCTAAAAAT GCTAATGATCATCTGAGACT TCAGCAAGTC ATAATCTTTT GCTGGTGGAA GGTCTTGCCT CAGTGTTGAT GTCTGCTGACTGGGTGGCTT TGGCAATTTC TTAAAGTAAG ACAACAATCA AGTTTGACAT ATCAATTGAC CCTTCCTGTCATAAATGATT TTTTTTTTCT CTGTAGCCTG CAATGCTCTT TGATAGCATT TTACCCACAG TAGAATTTTCAAAATTGGAG TCAATCCTTT CAAACTCTGG TGCTGTTTTA TCAACTAAGT TTATGGAGTA TTAGAAATCCCTTGTTGTCA TTTCAACAAT GTTCACACCA TCTTCCCCAG GAGTATATTC TACCTCAAGA AACCACTTTCTTTGCTCATC TATAAGAAGC AGCTCCTCAT CCACTAAAGT TTTATCCTGA GATTGCAACA ATTCAGTTACATCTTCAGGC TCTACTTCTA ATTCTAGTTC TCTTGCTGTT TCTATCTCAT TTGTGCTTAC TTTCTCCGCTGAAGTCTTGA ACCCCTTAAA GTCACTCATG AGGGTTGGAA TCAACTTCTT ACAAACTCCT GTTGATGTTGATATTTTGAC CTGCTCCCAT GATTCATGGG TATTCTTAAT GGCATCTAGA ATGGTGAACG TTTTCAGAAGGTTTTCAGTT GGCTTTGCCC GGATCCATCA GACGAATCCC TATCTATGGA AGCTATAGAT TTATAAAATGTATTTCTTTT TTTGTGGGGG CATAGCGTCT CACCCTGTCA CCCAACCTGG AATGCAGTGG CACAGTCATAACTCACTGAA GACTCAAACT CCTGGGCTCA AGTGATTCTT CCACCTTGGC CTCCCAAAAC ACTGGATTACAAGCTTGAGC CACTGTGTCT AGCCCAAAAT GTATATCATA ACTAATGAGG CTTGAAAGTC AAAGTGACTCCTTGATCCAT GGGCTACAGA ATGGACGCTG GGTTACCAGA CATGAAAACA ATACTCATCT CCTCATACATCTCCTTCAGA GCTCCTGGGT GAGCAGGCCC ATTGTCAAAT GAGCAGTAGT ATCTTGAAAG AAATTTTTTTTCTGAGCAGT AGATCTCCAC AGTGGACTTA AAATAGTCAG TAAACTATGC TGTAAACAGA AGTGCTGTCATCCAAGCTCT GTTTTTCCAC TGATAGGGCA AAAGCAGAGT AGATTTGGCA TAATTCTCTA GGGCCTTAGGATTTTTGGAA TGGCAAATTG AGCATTGGCT TCAACTTTTT TTTTTTTTTT TTTTTTTGAG ACAGAGTCTTGGTCTGTCAC CCAGGCTGGA GTGCAGTGGT GCAATCTCGG CCCACTGCAA GCTCTGCCTC CTAGGTTCACACCATTCTCC TGCCTCTGCC TCCTGAGTAG CTGGGACTAC AGGCACCCGC CACCATGCCC GGCTAATTTTTTGTATTTTA GTACAGACGG GGTTTCGCCA TGTTAGCCAG GATGGTCTCG ATCTCCTGAC CTCGTGATCCACCCGCCTCG GCCTCCCAAA GTGCTGGGAT TACAGGCGTG AGCCACAGCG CCCAGCCTGT CTTCAACTTAAAGTCGCCAG CTGTGTTAGC CTCTAATAAG AGAGTCTGCC TGTCCTTTCA AGCTTTGAAG CCAGGCATCATTCTCTTCTC TAGCTATGAA AATCTTAGAT AGCATCTTCT CCCAATAGGA AGCCATTTTT TATGCCCTAAAAATCTGTCG TTTGGTGTAG CCACCTTCAT CATTGATCTT ACCTAGATCC GCTGGATAAC TTACCACAGTGTCTACATCA TTACTTCTGC TTCACCTTGC ACTTTTATGT TATGGGGATG GCTCCTTTCC TCTAACCTCATAAACTAACC TCCACTAGCC TCACATTCTT CTTTTACAGC TTCCTCGCCT CTCTCAGAGT TCACAGAATTGAAGAATGTT GGGCCTTGGA TTACACTTTG GTTTAAGGGA ATGCTGTGGC TGGTTTGATT TTCTATCCAGAACACTAAAA CTTTCTTCAT ATCAGCAATA AGACTGTTTC ACTTTCTTAC TATTTTTTGT GATAGCACTTTTCCTTTCCT TCAAGAATTT TTCCTTTCTA TTCACAATTT GACCGTTTGA TATGAGAGGC CTAGATTTTAGCCAATCTCA GTTTACACCA TGCCTTTTTC ACTAAGCTTC ATCATTTTAG CTTTTTATTT AAAGTAAGATGTGTGACCCT TCCTTTCATT TGAACACTTA CATGATGATG CCTGGCTTCA AAGCTTGAAA GGACAGGCAGACTCTCTTAT TAGGGGCTAA CACAGCTGGC GACTTTTAAG TTGAACCCAA TGCTCAATTT GCCATTAGAAGCCATTGTAG GGTTAATTAA TTTGCCTAAT TTTAATATTA TGGTGTCTCA GGGAATAAGG AGGCCTGAGTAGAGGGAGGG AGATGGGGAA ACAGCCAGTC ATCAGAGCAC ACACAACATT TATCAATTAA GTTTATCACCTTGAGGGCAC AGGTCATGAT ACTTCAAAAC AATTACAATA ATAAAATAAA AAATCATTGA TCGCAGATCACCATAACAGA TATAATGATA ATGAAAAATT TGAAGTATTG TGAGAATTAC CAAAACGTGA CACACAGACACAAAGTGAGC ACATGTCATT GGAAAAGTGG TGCTGATAGA CTTACTTCAT GCAGGGTTGC CACAAATACTCAATCTGTAA AAAATTCAAT TATCTACATA GTACCATAAA AACAAGGTAT ACCTGTTTAT ATAATCAAGACCAACAGAAC CCTAGAGAAA ATAGCTCACT CCCTAGCTCG GAGACATTCT AACCAACATA CACTTACCTTTCTTTTTGCT GTGTACAGAA TTCAAATCCC TGTCTCAGCA AAATTGCAAA GTATCAAATG TCATGTCCATCTAATACTCA AAACTGCAAA TGTTAAGTCT TGTAAGCCCA GAGACCACTG TATATACAAG TGTTGCTATAAGCATTAGTT CTTCTCCAAA GAAAATAGTC CACTTGGTAG AAACAAACAA AAAGAAAAAA AAAGAAAGAAAAAACATTTT TTACAAGAAG ATTCAGTCTC TTACCTACAT AAGCAAAAAT ATGAGATGTT CTCTTATCATTTTTCCATCT ATCTTATAAT CTTTGGTGCT GACTTAGACA CTCATTTTCC TTTTTGTACG TGACCATGTAAAAGTTCAAG TCAAGAAAAA CTTGTTTTGA CATTTGTTTT GCTGAGTGAT GGGTCCCTAA AAGAAATTTGGCTTTGCTTT TGAAAAGTTC AGCATGATAT TGTGTGAATT TTTCATGGCT AATGATTTTT AGAACAGTTGTGATGTGTTT AGGTGTTTTA AGAATATGAA GCATTCAGTG GTTTAAGTTG GTTGTTATAA AATGAAAGAATATGAAGGAA AGCCTTCTTG TCTTAGAACA CACTGATTCA CAAATAAGCA GCTTCTCTCA AAATGTTGTAATTACAAAAA TTCCAAGGCA AATATAATAA ACTCCTTGTC GGTGCTATGT CTAGAAACTT AACAGCCCCAAAGAAAGTCC TGACAAGGCA AAAAATATAT ATATATATAC AAATTGTGGA AGCAGGGTGT TGAAAGAAGAATAAAGACTA TATAAGGACA AACTGTTTAA AAGGGAGGGT ATCCTTGAAA GCTTGACACT TGACTCTTTTGACGAGGCTG AGGGAAAACA CTCAGTTTCA TAGATTGCTG GTACGGATGT AAAATAGTGA CATCCCTATAGAGAGGAATT TGGCAATATC TAGCAAAAGT GCTTATGCAT TTATTCTTTG ACCTAGTAAT CCCGCTTCTAGGATTAGTGG TGAAGATACA CCTCAACAAT AAAAATATAT ATACATTAGG TTATTAGTTA TGGTTTAATTTTTAATAGCA AAATATTTAA AACAACCTAC ATGAACAAAT AGGAGACTTA CTGAATAAAC TATGGTATATCTGTACAATA AAGTGCAATT CACTTATGTT GTTAATTTGT TCCAAAAATC CAGAGCCAAA GAGTATTTGTTATGCTCTCT TTAGTATAAG AAAGGGGAAA TAAGATATGT GTGCATCTGT TTATTTTTGT GAAAATAAGTACAGAAAGGA TAAGTAAGAA ACTAGTAAAA CTAGTTATCT CCTAGTGTTA GTAGAAATAG AATGAAAGTGAATTAGGCTT CTTTGAGTAT ATGTTTATAT ATAGTTTTGA CTTTTGAATT ATGTTTATGT TTACATAGTCAAAAATATAA ATTAATCAAC AGAAATAACA AAAAAAGAAG AAATCACAAG CTTTAAAATT TAATACAAACAGAAATAATT GAATCTAACA GTATATCAAA GTGATAACGT AAACTCAGAA GAAAAAAACA TAATCCAACATACCAGTGGA ACACAATATT CTAACTGTAT ACATTCAGTG GTTATAGTCT AAGGACAAGA AAAATTGCAAAAATATCTTG AACTTTAGCT TGTAGGATTT TTATTGGTAG CAATACTAAT GTACTAATTC TGAAATTAATGTTCGTGTAT TATAGAATTG AGTAAATGAA TAAATATGTT GATGTTATTG GGAACTAAAA TTATCATTCTGGGAGTAGAG AAATATAAAT ATGGACTTGG CAAATGAAAC AAAGACCTGC AGAGAGATAA CCATATAAACTCATTATTTT AAAAATTATA AGTGTCCTAG CTCTGTTACT GAAAAGGCCT AGATTCAATC TTATCTTGATAGACAGGAGG GCACCCCTTT CTCAGAACAT GGTTTCCAAA TGCCATTCTC CATTAAAAGG AACAAGGTCTTCTTGGAGAA AAGACTGATT CTAGGTCTGG ATTAGGTAAA GTACAACGTT AGTCTGGAAT TTCTTGCTGAATCAGAAGTA AGAAAGTGCT CAAAAACATG GGAACATGTC ACAAACACAC GTGAGGCAAC TTGAATCCTCACTGGCCATA TTTAGGACAA TCGAGCATCA AAAAAAAAAA AAATGTTGAG AATAATGGAT TCTAACACTTAAAACAAAAA ATAATCCATA GCCCACAGAA GGGGAAGAGA GGGGGAGCTC TTATTTACAG ATGAATATCAAATAGCAAAG ACAGAAGAAA TGACAGAATT AGAGAAACAT CATTTTGCAA AACACCACTG TAATAATCAATTCAGGCAAG TATTATTAAT GGATGTATTA CTATTGCGTA AAACCAGTTG GGGAACAGGA TATTCATACAGTCTGAAGGT GTCACCCTAA ACATAACTTA TTACAAGTGG AAAATGGTGC CTTTACAATG AAGAAATCTAGCAGAAACCA TCTTAATCTA GTGATCAAAC TTAGTATCAC CAATAATGGA TCATACTGAG TCATGTGTCTCCTAATATGA TGCACCAGGA AGGATGCAAC GTCATGAACG TTGTATTCTT TTGTATTCAA CAGACCACCCAGGGTAAAGG CAGCTTTCTC ACTTACTAAT CAGAATTGTT GGTTTTAATT CATTTTGGAT TTTAAGATTTCTTACTTTCT TGTCAGCTCA GAAATTTATT TAAGATGATT TTTATCTTTT ATTCAATACT TTAGCTTGGAGAACCATTCA GAGTTTCTAA CTCATTGTAT TGCCAAAAAT AGAAAACAGC ATGGTTTCTT TTGAAAATGTCTAACTTTAA AGTTACTTGT GTGTGTCACT CAGATTCACA TAGCTTTTTT GCCTAGTAAT GTAGTATCATGTGGCAAGGC TATAAAAATG TTTACAATCT TTTATTTAAT ATGACTCTTG AGAGTTTATT CTAAGGAAATAATTGAATAG TAACAAAACA CTATTAACAC AAAGCATAGC AATTTGATTT GGGCAACCAA ACACTGGAAACAACCTAAAT GTCCATTACA GGAATCATTT ATGAAGCAAA CACTAAAATA TTTATTGTGA AGATTATGAGAACATAGAAG ACAGTTATGA GAGTAAATTT GAAAACCTGA ACACAAAACT TACATATACT CCAATTGTAACTTATAAAAA ATACGTGCAT ATAAGGATAA AACAGTACAA ACAAAAAAAT AGTTGCGTTA GATTGGTAGAATTATGGCTC CTTTTGCTGT CTTAATTTTT TCCTTTTACA TTTTGATACA TTATTTTAAT TTTAATTTTAAAATTCAAAA GAATTTGCCA CTCATCTTTG CCACTTCAAG GAAAAAAGAA ATGTGTTCGA TTATTCTGTTCTTAGTATAG TTTTGGCAAT TTCCTCACGT GTAAAAAGAG AATACTATTA ATAATTTCAG TATCTATAAGACAATATAAA ATTAAAGAAT CTAGCCCAGT AACTGGTACA TGGAACGTAA TTAATAAATC ATTATGGACTTTTTTTCTCA CACCCAAGTA GGGAGGAATC AGTGGTCCCC TAGAGGCCCA GTGTAGAGGT GGCAGCACCAATCCCTAGGG GAGAAGATCT TGGTGATGAT AATTCCTGAG CAGACAGTTA GCTGAGAATT CAAGAGCAGAAAAGTAAGAA AGAAACAACT TCTTGCTAAC ACCTTTCCAC CCACGTTTCC CTGTTCTGTT GTACTCTGCTTACCCTTTCA TGGATGGAGG CAGAGGAAAG AGAACCAAGT TTGCTCTTAG TCATTCACTA TGTTGTTTAATCTGCCTTCC ATCTTTCTTA TCAGTTCAAA TTAGAATGTA GACCTGAATT TAAATCCCCG TTCTGTCAGTTATAATGTGA CCCTAGACAA AACACATTCT CTGAACCTCA GAGAACATTC TTCATTTGTA GAATGGGAAGATTAATCTAT ATTCCACTTG GATGGCAAGT CTTTTATAAA CTTTATAACC TAAACATGTG TGAGTTGCTAGTATCATTAT GTTGGTAAAG TTATTCTGAG ATATGATAAC AGAACTGTTT TGTCTAACTC CACTAGCATGGTTCAGGTTT AGAGAGTGTG GAATTAAAAG GCTTTATCCT CAAATATGAC TTAAATCCGA TTTTTCTCATCCACTTTCCT CCACAAACAA ATCCTCAGGA AATGACAAAC TTTACATGGT TAAACATCAG TTTTGTTTAGTCTTTGACAT CCACATGGTT AAATCATACA TTTGAAAACT GCTTATATTT GTGTTGTCTA TGTCTAAATTGAAAAGACTT ATTGAGGAAT AGAAGACTAC ACATTTTTCA GCAAACACTG CACGTTTTGC AGAATTTCCCCAGGCACCAG TCTCCAGGAA TTTATTGGCT ACTAACAATA CTAAGATATG GATGAATGAG GAAATCAAAATGGAGATCTT GCAAGTTTTG TGAGAATGGG TGAATGGTCC AAATGAAGAG ATAAGTTGTG AAATATTAGTACAAGTAAAA ATTATTTACA ATGAAAGACA TTTTGTCAAT AGCTATGAGA ATTTTACCAT TGACCCAGAAATTCCATTTC TTTCTTCAGA AATACCCACG TAGGTATACA TATAAAAAGT TATTCATTAC AGTATCGTTTTTCATAGGAA AAAGTTTTAA AAATCAGAAG CTATCTAAAC TATGGTATAT CTAGGTCATA GAAATCAAATGACTAAAAAT GTTAATATAA GCATATGTTT TTAAATTAAC TTGGCTTGGG TCTTCAGCAA AATTGGCTTCTTAACATTGC ACTCCAGAGT TAGACTTACC CACTCAGTCA CTTATCATGC AGGAGCAGAC TCCTAATACCACATATCATA GAGCAGAGTA GGACACAGGT TCTCTGCAGG CAGGCAAATC CCAAAGAGAA GGGAGGAAAGGGCTGAGACA CTGCATGGTC AATTTCTTCT GAACTCTGCA ATGTACGGAG GTGGACAGTG TCCACAAAGATTGCTCCCCT GGACCCACCA TCATAATAAC ACAACGGCTT TGTTTTGTTT TTGTTTTTGT TTTTTGACACGGAGTTTTGC TCTTGTTGTC CAGGCTGGAG TGCAATGGTG TGATCTCGAC TCACCACAAC CTCCACTTCCTGGGTTCAAG TGATTCTCCT GCCTCAGCCT CCTGAGTGGA TGGGATTACA GGCATGCACC ACCATGCCCAGCTAATTTTG TATTTTTAGT AGAGACGAGG TTTCTCCACG TTGGCCAGGC TGGTCTCAAA CTCTTAACCTCAGGTGATCC ACCCGTCTTG GCCTCCCAAA GTGCTGCGAT TACAGGTGTG AGCCACCGCG CCCAGCCCACAATGGCCTTT TGTTTACATC TCTAGTGCAG CACTCATTTC ATGTTCTTTC AAGAAGAATA CATATTTCATCTTTTTATTT TATACAGCAA TTAGCACAGT GCCTGGCATA AGGAAAATGA TCATTAAAAG CTGGGTGAAAAACCTAATAA AGCTACTGAG GATAGGAACT GCAGACCAGC ATGGAAAGAA AACTATGAGC CAGATATTGACATCATCCTG AAAGGCAGAA GATTTAGTAT AGGCAAGAAG TATGCTTTTG GAATATAGAA AATCTGGATTATGATAAGAA AAGAATCATA TTTGTCTTAT CTTACCTACT CACTTCTCAG TTCCACATGT TTCTGAGGCTGTTTGTCCTT ACTTTCTTTT CTGTTTTATC CACTCTTTCT GTTCTTTAGA TTGGATCATT CCTATTGAGCTGACATCAAG TTAACTGACC TTTTATTTTG TCCAAACTGC TGTTAAATGC ATCCAGTGAA TTTTTAACTTTATATAGTAT ATCTTTTAGT CCTAGAATTT CCACATGAGT TTTTTAAGTT TCCATTTCTC TGCTGAGATCTCCTATTTGT TCATTCATTA TGACCATATT TTTCTCTACA TTATTGAGCA TAATTATAAC AGCTCTTCTAAAATTCTTGT CTGCACATTC TAACACCTGA ATTATTCTGG GGTCAGTCTC TGTTACATTG CCTTATTACAAAAACAGTAT AAGTCACATT GCCTTGTTTC TTAATATGCA AAATGATTTT TGATTGCAGA CTAGACATTTTGAATTAAAC ATTATAGAGA TTCTGGATTC TCGAGAGAGT ATTGACTTGT TTTTTCCATC AGGCAGGTAACTTGACTGGA CTCAAACTCC AAACTCTAGG TCCTCTGTAA TGGGCAACTG CAGTAATCTT TGTTTAGTTCTTTAAGACTT ATTGGCCAGG CACGGGGGCT CATGCCTGCA ATCCCAGCAC TGTGGGAGGC CAAGGTGGGAGGATCACCTG AGGTCAGGAG TTCGAGACCA GCCTGGCCCA CATGGTGAAA CCCTGCCTCT ACTAAAAATACAAAAATTAG CCGGGTGTGG TGGTGGGCGC CTGTAGTCCC AGCTACTCAG AAGGCTAAGG CAGAAGAATCACTTGAACCT GGAAGGCAGA GGTTGCAGTG AGCCGAGATT GTGCCACTAT ACTCCAGCCT GGGTGACAAAAGCGAGACTC CCTCTCAAAA AAAAATTTAT TGGCACTGCT TGGCATCTGC TATGAATACA TGAAGTTCATGGGTCAGCTA TAGATCTGGG CACGTTATAC ACAGAATTTG GGTCTCCCTT TCTCTGGATT TCTCCTTTTCTGGATTTCTT TTCTCATTTT CCAGCAGCTG TGGTTGCCCT AAACTCGGTC CTCTGTTTCT TTACGGCAGTAAGATTTGGG AACTTTTAGG TTTTACCTGC CTCTCAGACA AAATAAAAAA TAATTTTCAT CTTGATGCTACTCCTTTCTT CCAGATGTAG ACACCTCTCT AATTTCCAGT TGCTTTTTAT TGCTCTCCAG AGTCTAAAGATTATCATTGT TTTCTGTGGG AGAGTTGGTC TGATAAAAAC TACTCCCCCA AAACTGGAAG CTGGAAGCTTGTAATTATGA ATAGACTTTG AGTAGTATTC TTCTTTGGAA AAGGATTTTA ACTACTCCCT ATGTACTTCTTTATTTCCTG TTTTTCTCAT CCGTAATCTT TTTATTTTCA TACTTCCTAA GTCAGACAAT TTTCCTACTTGAAGATTCAG TGACTGCTAT CAAATGACCC CCATATTACT AAATACAATA TCCCCAACTG CATTTATAAAAAGAAAATTT ACTGTTTATT AGTAAACAAT GTTGTAGAAT AGTAAAATAT TGCTGGGCTT TGGAGCCAGATAATCAAGGT TAGAATCCCA GATTCTAACT TACTAGCTGG TGTATTAGTC CTTTCTCATG CTGCTAATAAAGACATACCC CAGACTGGGA GACTGGGTAA TTTATGAAGA AAAGAGGTTT AATTGACTCA CAGTTCAGCATGGCTGGGGA GGCCTTAGGA AACTTACAGT CATGGTGGCA GCAAGGAGAA GTTCCAAGCA AAGAGGGAAAAGCCCCTTAT AAAACCATCT GATCTTATGA GAACTCACTC ACTATCACGA GAACAGCATG AGGGTAACTGCCCTCACGTT TAATTACCTT CCACCAGTTC CCCCCCATGA CACATGGGGA TTATGAAAGC TATAATTCAAGATGAGATTT GGGTGGAGAA ATAGCCAAAC CATATAATTC CACCCCTGGC CCCTCTCAAA TCTCATGTCCTCACATTTCA AAACTCAATC ATGCCCTCCC AACTGTCCCC CAAGGTCTTA ACTCATTCCA GCATTAAGTCAAAAATCCAA GTTCAAAGTC TCATCTGAGA CAAGGCAAGT CCCTTCTGCC TATGAGCCTA TAAAATCAAAAGCATGTTAG TTACTTCCTA GATACAGTGG GGGTACAGGC GTTGGGTAAA TACACTGATT CCAAATGGGAGAAATTGCCA AAACAAAAGA GTTACAGACC CCATGCAAGT CCAAAACCCA ATAGGGCAGTCATTAACATTAAAGTTCCAA AATGATCTCC TTTGACTTCA TGTCTCACAT CCAGGTCACA CTGATGCAAG AGGTGGGCTTCCAATGGCCT TGGGCAGCTC TGCCCCTGTG GCTTTGCAGG GTATAGCCTG CTTCCTGTTT GCTTTTTCACAGGCTGACAT TGAGTGTCTG TGGCTTTTCC ATGAGTATGG TGCAAGCTGT TGGTGGATTT ACCATTCTGGGGTCTGGGCC AGGTGCAGTG GCTCATGCCT GTAATCCCAG CACTTTGGGA GGCTGAGGTG GGGGATCACAAGGTCAGGAG ATCGAGACCA TCCTGGCTAA CACGGTAAAA CCCAGTCTCT GCTTAAAAAA TACAAAAAATTAGCCAGGCG TGGTGGTGGG TGCCTGTAGT CCCAGATACT TGGGAGGCTG AGGCAGGAGA ATGGCGTGAACCCAGGAGGT GGAGCTTGCA GCGAGCTGAG ATTGTGCCAC TGCACTCCAG CCTGGGCGAC AGAGCAAGACTCCATCAAAA AAAAAAACAA AAAAACCATT CTGGGGTCTG GAGAATGGTA GCCCTTACAG CACCACCAGGCAGTGCCCCA GTGGGGACTC TGTGTGGGGG CTCTGACCCC ACATTTCCCT TCTGCACGGC CCTAGTAGAGGTTCTCCATG AGGGTTCTAC CCCTGCAGCA AACTTCTGCC TGGACATCCA GGCATTTCCA TACATCCTCGGAAATCTAAG CCGCGGAGGT TCCCAAACTT CAATTCTTGA CTCCTGTGCA CCCACAGGCT CAATACCACATGTAAGCCAC CAATGCTTGG TCAGGGCTTG AACCCTCTGA AGCAATGGCC TGAGCTGTAC GTTGACACCTTTTAGCCTAG ACATCTAGGA CACAGGGCAC CATGACCCGA AGCTTCATAA AGTGGGAGGG CCTTGGGACTAGCTGAGGAA ACCATTTTTC CATCCTAGGC CTCCAGGCCT GTGATGGGAA GGGCAGCCAT GAAGGTGCCTGACATGCCCT GGAGACGTTT TCCCCATTGT CTTGGTAACT AACATTCAGC TCCGTGTGCA GCACCAACTTACTTATGCAA ATTTCTGTCA CTGGTTTGAA TTTCTCCCCA GAAAACAGGA TTTTTCTTTT CTATTGCATCATCATGCTGC AAATTTTCAA ACTTTTATGC TATGCTTCCT GTTGAAGACT TTGCGGCTTA GAAATTTCTTCCCCCAGATA CCCAAAATTA TCTCTCTCAA GTTCAAAGTT CCACAGATAT CTAGGGGACA AAATGTTGCCAGTCTCTTTG CATAGCAAGA GTGACCTTTA CTCCAGTTCC CAACAAGTTT CTCATCTCCA TATGAGACCATCTCAGCTTG GACTTAGTTG TCCATGTTAC TATCAACATT TTGGTCAAAG CCATTCAACA AGTCTCTATGAAGTTTCAAA CTTCCCCATG TTTTCCTGTC TTCTAATAGC CCTCCAAATT TTTCCAACCT CTGTCTGTTACCCAGTTCTA AAGTCACTTC TACATTTTTG GGTATCTTTA CAGCAGTGGC ACTCCCCATG GTACTAATTTACTGTATTAG TCTGTTCTCA TGCTGCTAAT AAAGACTTAC TCGAGACTGG GTAATTTATA AAGAACAGAGGTTCAACTGG CTCACAGTTC AGCATGGCTG GGAGGCCTCA GGAAACTTAC AAACATGGTG GCAGCAAAGAGAAGTTCCAA GCAAAGAGGG AAAAGCCCCT TATAAAACCA TCAGATCTTG TGAGAATTCA CTATCATGAAAATAGCATGA GGGTAACTGC CCCCATGATT AATTTACCTC CCACAGGGTC CCTCCCATGA CAGGTGGGGATTATGGGAAC TACAATTCAA GATGAGATTT GGGTGGGGAC ACAGCCATAC CATGCCAGCT AGAGAGCCTTAAGAAAGTCA CCTAATCTCC ACAAATAAAA GGTTTCCTAT TTGTTCAACA AAAATAATGA CACCCCTTTTATGGGATTTC TGTGAGGACA AATGATAACT AACATAGCCT TGCATAGTGT CTGGCACAAA ATAGCTACTCAAAAAATAAT AGAAACAACA TTTAAAAAAT GTAGACTTTA TTTTTTAGAG TTTTATGTAC AAAGCAAAATTGAGCAGAAT GTACAGAGAG TTTCCGTATA GCACTCCCTA CCCCCAAGCA CAGATAGCCT CCCCCAGTATCAGCATCCCG CACCAGAGTG GTACATTTAT TATAACTGAT GAATCTATAT TGACGTGTCA TTTTCATCCAAAATCCATAG TTTATATTAG GGATGCCTCT TGGTGTTGTA CCTTCTATGG GTTTTGACAA ATGTATAATGACATGTATTC ACCATTACAG TATCATAAAG AATAGTTTCA CTGTCCTAAA AATCTTTGAT CTTCTTCCTATTCATCACTC CCTCCCCATT AATCCCTGAC AACTACTGCT AATTTTCCTG TCTCCATTGT TTTGTCTTTTCCTGAATGTC ATATAGTTTA AATATACAGT ATGTAGGATT TTCAAACTGG TTTATTTCAC TTAGTAATATGCATTTGATG TTCTTCCATA TCTTTTCAAA GCTTCATAGT TCAATATTTA TAGAATTGAA TAATATTCCATTGTCTGGAT GTACTACAGT TTATGTATTC ATTCACCTAT CAAAGAACAC CTTGGTTGCT TCCAAGTTTCAACAATCATG AGTAAAGCTG CTATAAACAT CTATGTACAT GTTTTTTTGT GAATTGAACA TTTTCAGCTTTTTTAGCTCC ATTCCTAGGA GTGCAATTGC TGGATTGTAT GATAAGGGTA TGTTTAGTGT TGTAAGAAACTGCCACGCTC TTCCTAACTG GATGTACTGT TTTGCATTCT CACCAGCAAT GAAAGAGTTC CTGTTGCTCCACATACTCAC CAGCATTTGG TGTCGTCAAT GTTTTGAGCA ATAGCATTTT GATCTAACTT TTCCTAGGTATTCTTTTTGA AGGAAATAAT ATGACAGATA ATAGAGAAAG GATATACGAG GACAGTTCTG TCCTTTATTTATAGTCCATC ATTTAATGAA GGACTCTGTC CACACTTGGT ATTTTTAACT CTGATCCTCC TCTCCCATGAACTCTGACAA TCTCCTAAAT CCCTGTTGCT GGCACACATG GTTGTGTATC AGGCCCCCTG TGGTCTGTCTGAAGCATGGC TTTTTTTTTT TTTTTTTTTT TTTTTTTGAG ACGGAGTCTC GCTCTGTCGC CCAGGCTGGAGTGCAGTGGC GCGATCTCGG CTCACTGCAA GCTCCGCCTC CCGGGTTCAC GCCATTCTCC TGCCTCAGCCTCCCGAGTAG CTGGGACTAC AGGCGCCCGC CACCACGCCT GGCTAATTTT TTGTATTTTT AGTAGAGGCGGGGTTTCACT GTGTTAGCCA GGATGGTCTC GATCTCCTGA CCTTGTGATC CGCCCGCCTC TGCCTCCCAAAGTGCTGGGA TTACAGGCGT GAGCCACCGC GCCCGGCCTT TTTTTTTTTT TTTTTTTTTT TTTGAGATGGAGTCTGTCAC TCTGTCACCC AGGCTGGTGC AGTGATGCAA TCTTGGCTCA CTACAACCTC CATCTTTCAGGTTCAAGTGA TTCTGCCACC TCAGCCTCCC AAGTACCTGG GATTACAGGT GCCCGCCACC ACACCCAGCTATTTTTTTGT ATTTTTAGTA GAGACGTAGT TTCACCATGT TGGCCAGGCT GGTCTCATTC CTGACCTTGAGTGATCCACC TGCCTTGGCC TCCCAAAGTG CTGGGATTAC AGGCATGGGT CATCACATGT GGCCTGAAGCATGACTGTTG CTTTAATCAT ATGAAATACT GCTCTGTATT GTTATCTATT TGAAATGCCA CACCTCCTGAGCTAAATTGC AAGCTTTTAT GGAGCACAAA CCATATTTAT ATATATTAGC ATGATACCAT GACACATATCAAAAGCTGTT ATATATTGTT ACGTGAATTG ATTCTTTCTC AGTTAAGAGG ACCTCTGTAG TAGCACTTTCATACCGTTAA TTTTTCATTT TGTGCCCAGC CCCTACTCTG TGAAAAATGA AATGAATCCT GTTATCATTTCCCTCCCAGG CCTTTTCTCC TTGTGGACAA TGTGTGGCTC AAGAGAAAAT TCAGTCAGTA AATTTGTTCAGTGCACAAAC TCTTTATCAC CTCTCACTGT TCTCAAGTGA GATAGAACAG AACATCCATC CAGTGTCTTACAAATTGTCT GGTATATAGT AGGCACTCAA TAAATGTTTT TTGAATAAAT GCATACATGA ATCCTATTCCTATATATAGT ATGGTAGACA GATCATTGAT ACCCAAAGAT GCCCAAATGC TGATCCCCAG AACTTGTGAATATGTTACAT TTCATGTCAA AAGGGACTTT GCTAATGTGA TTAAGGATTC AGACCCTTGG ATTGTAAGATTATCCCGGAT TAACCAGGGC CAATCTAATC ACATGAGACC TTAAAAAAGC AGAAAACATT TCCCAGCTGGGTTAGAGAGA GATGAGACAG AGTAAAAAGG AAAGAGATTC AGGGCATGAA AATGACTCTA CCCACTGTTGCTGGCTTTGA AGATAGAGGA ACTAGGCCAC AAAACAAGGA GTATGAGTGG CCTTAAGAAA TAGGAAAAAGCCCTCATCTG ACAGCCAGCT AGAAAGCAGT CCTCTGACCA CAAGAAATTG GATTCTGCCA ACCACTCAAATGAGCAAGGA AATGGATTCT CCCCTAGAAC CTCCAGAAAG GAACACAGCT CTGTAATGCC TTGATTTTAGCCAGGTGAGA CCTGTTTCAG ACTTTTGACC TATGGAAATA TAAGATAATA AAGTTTTATT GTATGCTGCTAAATTTGCGG TAGTTTATTA CTGAAGCAAT GGAAAGCCAA TACAGACAGA ATATACAGAG AGAAAGAGAATGAGTTCTTT CCTGATAATT TGTAAATATT TGGGTCTTCA CTGGACAAGC TTCACAGAGG ATTCACTGGTTCCCTAGCAA ACCAGCATGT CCAGTCCTGC AGCCTCCCTT TCTTAGGCCC AGCATATGTC AGCTGTGTGCATAGAAAAAT CAAAGCAGGA CCCTGAGTAG TTGGAAAGAA AAGATGGTTG GAAATGGGTT GCACTTCAAGTGAGGAAACA AGAGGTAGGA GACCGGCATC TCTTTCTCAT ATGTCCCAGG CTGACTCTTG TGAGTTGTTTTCCCTTGGAG GCTATCGATG ACAGTCACAG TAACCTGATG GAACCTGGAT CATGATGAAA GAAGTAAGTGTCAATGGCTC CGACTTCCAA GGACTCTGAT GTCCCACAGC ACTAGCTAAA CAAAGCCAGT TGGAAATGAGCTTAAATGGG GAATTTCCTG AATATATTCC CTATTGTTAG GAAGCCAGGT TGGCTTCCTT GCCTACAATTATGCCAAGCA GTCACACTAT AGAGTCCCTA GGGACATGAT ATTAAGTGAT TCTTTTAACA CAAACAACTTAATAATCATT TATACTAATA GCAAAACGGC CAACGGCTGA TATTCCACTT GAAGTAGAAT TGGCTATCCAACTGGAAGAG AAGACAGGAA GACGTGATCT CCAGGGAGCC ACTAAAAGGA TTGGCACCTG CCTCTGGATTCCCCTTTTCC TTATATTACC TCTCAGCACT GGCAGGCCTT TATTTCAGGA TACAGTTTCA CAAGTATTATGTCACGTCTC TGAGAATTAT GTTGGTAGAT ATTTGCTCCT CTGGCCAGAA AGACCTAGTT TGGAGTCTGGAGTCATGAAG GTGACATACA TGTAGCTAGT GACATAAGTG TAGCTAGTAA AAATAGTGAG TAATGGCCCTGAAATTCTAT TGAATGCCCA AAGTGCTGAC CAGGAACAAG CATGCTCTAG CTTATCTCAC AAGGAACTTGACAATTTTCT TCAAAAATCC TAGTAGCTAA GATTTCTTAG TAACAAAGCC ACTAAGGCAC AATTATGATTAACTTGACCC TTAGGTGACT TTTAAGGACT ATTCTATAAA ATATTACAAC TAATAGTGGA TCCAAGCCAGCACACTCTGC TATATAAGAT TAATTGACAG TGTCCACACT GGTAAAATAA GTTGTTTCAT AAATACATTAGAATTCATTT GCACTTTCTA CACAGCCCCA AGTCCAGAAC TTTCCCCAGA ATAGGTCTAT GTTTTGCAATCTGCTACTCC ATACAGAGAT TTGAGTTCAC TTGGCAATTT AGTGCTGCTT ATATGTGACC AGTTAGTCTGTTTTACTTAT CTATGCCTTA AACATTACTA TACTTACTAA CTCCAAGATG CCTGGTCTCA ACTTGACAAAAATACCCCAA GTTGGGAAAT CCTTATGTGA ATATGTAGAT AGTCACAATT GCTGGTTGAT GATGATCTGTCTTTTCCTGT ATTTGAGAAA ATGGAGATAA AATGGACCAA TCCAAATAAT GGATTAAACA TGGGAATAGGTGAGAGAGAG AGAGGAATAC ATGGTGGCTC TCAGTGTCTG GCTTAGGCAG TAAACACTTT CGTTAATAAAGACGGAAAAT AAAAAAGGAA TAATTGGTGT CTAGGGGAAA ATAATGAGCT CAAGTTTTAA CACTCTGAGTTCCCGGATGT GAGACATCCA GGCGCATTTA TCCAAGAGGC AGTTGGAAGC AACGTTCCGG AGCTTAGGAGAGAGGCATGA CCAAAAGCTG GTGGGACTGT GAAAAGGTAT GGCCATTCTG GAAAACTGTT TGGCAGTTTCTTAGAAAATT AAACATGTAC TAACAACCCA GCAATTGTAC TCTTGAGCAT TTGTCCCAGA TAAATGAAAAAAAAAAAAAG CATTTTTTTT ACACAAAAAC ATATACATGA AAGTTCATAG AAGTGTTATT CATAAAAAACTGGAAAAAAC TGAGATGTCT TTATTGAGTG AATGCTTAGG CAAACGGTGG TCTATCCATA CAATGGAATTATGCTTAGCA ATAAAGAGAA AAGAACTATT GATACATGCA ATAACACAGA TGAATCTCAA AGGAATTAATGCTGAGTGGG AAAAAAAGCA CATCTCAAAA TGGTATATAC TGTACTATTT TATTTACTTA ACATTTTAAAAATAGCAAAA TCATAGAGAT GGAGAACAGA TTAATGGGTA CTGTGTTTTG GGATGGGGAG TGAGAAAAGGGTAAGGTGTA AATATAAAGG GGTAGCACAA AAGAGCCTTG TGGTTGAAGG ATTCTATGTC TTGGTTGTAGTCGTGATTGC AGGAATCTAC ATGTGATAAA ATTGTATGGG TCTACATACG CATACACACA AGAGCATATAAAACTGGTGA CATGTGAAGA AGCTCCGCAC ATTGTGCCAA CATCAGTATC CTAGTTTCAA TATCAGACTACAGTTATACA AAACATTGTC ATTGAGGGAA ACTGGGTAAA GGGAACACAG GACATTTGGC ATATATTTTTGCAATTTCCT GTGAATCCGT AATTATTTAA AAATAACAGA TATACTACAT ATCAAAAATT TAATGTCATAAAGTTGATGA GTTTACCTAG TGGATAGCTT TGTTAATATC TGCTATAAGA CTACTGAAAA TGACAGTTATGCAAGTATAA GCTCAGAGAA CTTTCCTCCC CCTTCGTAAA TGAAATGAGC AAAAGAAATG AAACAGGAAAGGCAAGCAGT ACTGAAAACA GGGAAGGGCT CTTCCCCATA TAACTATATC TGCGACTTCA ACAGCTATTCATCCAGAAAC ACAGCCTCTT GCGCTAAGAG GAAACTTTGG ATAACAATAT GTTTTCACTC TCCAAGAGAGAAAATGGATA GATTAATTTT TAAGAAAAAA AAAAAAACCT CACCAATTTC ATGCTGTGGC TTGCACCTTTAATCCCAGCT ACCTACAAGG CTGAGGTGAG AGGCTTACTT GAGCCCAGGA GTTCAAGGCT GCAATGAGCTATGATTGATT GTGCTATCGC ACTCCAACCT GGAGTACTAA GCTAAGAGCT AAGAACACAG CTGAGAGCGGAGAAGAAACA AACAAATCTG ACCAATAACC CCCACTCCCC TCATTTTACT GGAGTGAGCT GAGACTGCTGGCAAACATGG CCTTTGACCT AGCCTGAACT GTAGCAAAAG TCATCAGATA TTTTTCCACC AATCAACAGACAGAAGTGGG GAGAAAACAA TCGTAGTTCA TAACTACAAC AAGCAGATAA ACGAAGGCCA TGGTGAGGGATGGAAGACAT TGTGATATAT CAAAGGCAGG CTCATTTAAA ACTCAACCCA AATTCCAAAC AAAATATATAATTGAATATG TATTAATGCC AAAGGAGCTT GAGTGAGCTT TAGCACAAAC CCCGCCCTCC AGCCCCCACCCAAAAAAATC ACTCTGTTCT CTCCCCATTC TTTGATAGGC ATACTTGCTG TTTTCTCACA GCCAAGGTACAGAGGGGACT TAGAGGAACT AGAACTCTAA TACACTGCTA GCAGGAATGT AAAATGAAGC ATCTACTTCAGAAAACCATT TTATCAGTTT CTAGAAAGTT AAACATAGAC CCACCATGCA GCCCAGCCAC TCTACTCCTAAGTATTTACA CAAGAGAAAT GAAAACGTGT CCCCACACAG TTGTATTTAA AGGTGATGGT TAGCCTTGTGTGTCAACTTG GCTAGGCTAT AATACCCAGT TACTGAATCA AATAGTAATC TAGGTGCATC TGTGAAGGTATTTTGTAGAT GTGGTTAACA GCTACAATCT GTTGACTTCA AGTAAAGGAG ATTGCTCTTG ATAGTATGGGTGGGCTTCAT CCAATCAATT GAAGGCCTTA AGAGCAAAAA GTAAGGTTTC CCGGAGAGAA AGAAATTCTGCCTCAAGACT GCAGCCTCAA CTCCTGCCTG AGTTTCCAGT CAGCCAGCCA GCCTAAAGAT TTGCTAGGCATTATAATCAC ATCAGCTAAT TTCTTAAAAT AAACCTCTTT ATATATATTG ATACAATGAA TGGTTATAGCAGCCTTATTT GTAATAGCCA CAAACTGGAA ACAACCTAAA TGTCCTTCAA TAAGTGAATA CATAAACAAATTGTGGTATA TCCACAATTT TTACGCAGCA GTAAAAAGGA ATAAATGGTT GAATAAGGAA TAAACACATAACAAGGATGA ACCTTAAAAC CGTAAGGCTG AATGGAAAAA GTCAGACAAA ACTAATACAT ACTGAATAATTCCATTTATA TTGAAGTTCT AGAAAATGAG GACTAACCTA TAGTAACAAA AAGCAGAAAA ATTTTGCCCACTGGTGATGG AGGGGGCGCA GGTATTGTAG AGTATCTGAG AAAGGACAAC TGGATAAAAG GGGGCACAAGAAAACTTTTG AGGGTGATTG ATATGTTCAT TATCTTGTGG CATGGTTTCA TAGGTGCATA CATATGTCAAAACATCAAGT TATACACTTT TAAAATGTTC AGTTTACTGT ATATCTATTA TACTTCAGTA GAGAGGAAGGAAGAAAGTGG GCAGGGTGGG GGAGAGGAAA GGAAACGAGG GAGGAAAGGC CCTAATAGGA AGGATTTTGGAGTTTAGATT TTAAAATGAT AAAGGATGTT TGACACTCTA GGCATATGAC GAATATAGGA TTATGAGTCCACAAAAACCA CCAGGAAGTC ATGTATGTTT ATACTTTTAA GTGAAGGATC AGTGGATTAT CAACTCCCTAATGCTTTGCC TCTCTATGAC TGGCTGCTGT CCTTCTCATC CCAATACTCC TTCCAAAGCC CCTTGCTTAAATGTAAGCCT TCTTTCCTCC TTTCAACACA TCCTGCATTC CGTGACAAAA TAAGTTTTCC TTAAACAGAATGTACAGCAT ATTATTTGTA CAATTAAAAA TTTTTGGCCA GGTGTGATGA CTCATGCCTG TAATCCCAGCAATTTGGGAG GCCGAGATGT GTGGATTACC TGAGGTCAGG AGTTCGAGAC CAGCCTGGCC AACATGGTGAAACCCTGTCT CTACTAAAAA TACAAAAATT AGCTGAGTGT AGTGTGGCAG GTACCTGTAA TCCCAGCTACTCAGGAAGCT GAGGCAGGAG AATCGCTTGA ACCTGGGAGG TGGAGGTTGC TGTGAGCAGA GATCAGACTATTGCATTCTA GGCTAGGAGA CAGAGTGAGA CTCGGTCCCC AAAAAAAAAC ACATTTTTTT TTAATGTTTCCTCCTTGCCT GTAGGAAAAA GGCTCTGACT CCTTAGCCTG GGCATCAGAG CTCTATCTAA ATGGACTTTAACCTGATTTT GTGGCACTAA TTCCATTGCA GTACTTGTCC GCTCACTGGC CTGTGCCTCT CTGCCACTATTTTTGGAATA ATGTCCTCTC TCCATCTTGT TTACTCAACT ATATCCAACC TCTAAGGCTG TGCTCCTACAAAGCCTCCCC TGGCTACTTC AGCCCACAGA GATATTTAAC TGCTCTGCAG TTCAGGACAT TCTTCTGACTCTTTAAATCA CATTTACTTA TATATGATCT TGTGATATTT TTTGTTGACG TGTTTACTTT AATTTTCTTCCATAACCTAT TCATTCAACA AACTCAACAA TTATTTATTA AATGCCAAGT TAGAAAAATA TTATTGATTTTATATAGATT ATAGATATGT TTGAAATTTT ATTTGGCAAT CTGCAAGTAG AAAAATAATT ATAATGTGGTATATCTGTGA TAGAAGTATT AGTGCAGAGA CCATGGGGAA CATAATCCAG CCTGGAAGTT CAGGAGAGATACGTGGAAGA AAGGACGTCA GAGCCTTTTT CCTACAGGCA TGGAAGAAAC ATTAAAAAAA ATTTTTTTTTTTGAGATGGA GTCTCACTCT GTCTCCCAGC CTAGACTGTG GTGGTGCGAT CTCTGCTCAC TGCAACCTCTGTCTCCCGGG TTCAAGTGAT TCTCCTGCCT CAGCTTCCCA AGTAGCTGGG ATTACAGGTA CCTGCCACACATGGATGATA AATATGATCA TATTTTCTTG TTCTTTTCCT CCTCAGTTGT CTTCCCTGAA GAAAGGAATGCCTTTTATAG ATGACAAACT CCCATTCTCA AGAACAAGGA TTTTTGACCA ATTTAATTTA ATCAGATGTCTGGCTTTGAC CTAGAAACAC AGTCACGAAA CTTGGTGATT AGAGACCAAT TCCCAAACAT GAGCATTTCTTAGGAAACAC AGTAAAGATC TGAGAGACCC AAGAGCAGAA GGGCGAGAAA CCAAAAGCCA TCAGTTTGCATAGGAAACAC CTTGTTTAGC CTAATCTTTT TATTTTTATT ACTCTATTAG TCACTACAAC TATTTTCTGATTGCTATGGT GATAGATGGT TTAAAACAAG CCTTCATTAA GAATTGTCAC ACCATGGTCT CAGTCAAAAACACCAACATT TTTATTGGTA TTGACAATTA TGGGAATATC CAATTCCAAG AAGACAAGGA GACCTCTGAACTTTCTAAAT GAAGACTCCA ATCTTCCTGA TCTGATGGGA AGCAGCTTGG CAAGATTACC AACCACCACCACAGAGAGTG GACTCTAAGC TAAGACTTAA AAGATAAGTA GAAATTATCC AGGTAAAGAT GTGTACAGAGAAGGAAGTAC ATCCAGGGGA AAAGAACAAT ACGTGCAAAA GTACGGAAAT GGTAAAAAGT AATACTACATAGTCAAAGCC AAGCAGAGTT CAGAAGGGAT CTGGTGGTGA AAAATACGGC TAGAGAAAGC AGCAAGGATTGGCTTCTAAA ACCTATGTAG TATCTTGGAC CTTACCCTAA ATGTAATGAG AAGCTTCTAA AGAATCTTTCATTTATTCAT TCATTGAACA AATATTTTGA GGCTTTCTGT GAAGAACATC ATTCTAAGTA GTAAAGATACAGCAGTGAAT AGGACACATA AAATCCTAGA TCTCACAGAA TTGACATTCC AGAGAGGGAA AGGTAGACAATAAATACATA AACAAATCAT TTAACAAGA GATTTCAGAC AATGGTACGT ACTGTGAAAA AAATGAAACAAGGTAATGGA CAGCGAAAAG GCACTGGAAG GAAGCCTGCT TACCTTTGCA TGGTTAGAAA AGATCTCTCTAAGAAAGAGA CCACATGTGA GCTGCGACCT GAAGGATACC GAGAAGCTAG GTGTGCAAAG ATGTGGGGACAGAACTTTTG GACTGAATAG CAAATACAAA TGCCCTTGGG TGCAAGCTTT GCCTGTTCAA GGACCAAAAAGAAGGCCAGT GTGCCTGCAG CATACTAAGC ACAGAGGAAA ACACTGTTAT ATGCTGAGAT TGGAATTATAAGTAGAGCCA GATAATATAG TCTCTTATAG GTCATAATAA GGCAACCAGA TTTTATTCCA AGAGGATTTAAAAATCACTG GAGGTTTTGC ACTAGGGTGA GAGGTGTGAT TTGTATTTTT AAAAGATAAT TCTGGAGAATTAACTATAAT GAGGTAGGAG TAAACTAAGT TAGGGGCTAT TTCAGTGGCT CAGACAAGAG ATAATGGTAGCTTAGACTAG GATAGTAGTC GTAGAAATAA ATAAAAGTGG CACTCTACTT TGGGGGTAGA GTCTATAATAGGTTTGGTTT ATGGATCATA TATGAGAGTA AAAAAAAGAA AATAAATTAA TAATGGTTCC TAGGTTTGTACCTGAGCAAC TGAATAAATG GGTGCTGTGA ATTGAGATAA AGGAGATTGA GAATCACAGG CTTTGTTTTGCAAATTAATT TTGAGAGGCT TATTAGACAT CCCAGTGGAG ATTTCAGGTG AGTGGAGCCC ATTGAAAGGTAAGGGACAGG GTCAGGTGTG GTAGGTCAGG CCTGTGATCC CAGGACTTTG GAAGGCCAAG GCAGACAGATCAGTTGAGCT CAGGAGTTTG AGACCAGCCT GGGCAACATG GGAAAACCCT GTCTCTACAA AATATGCAAAATATTACCTG GGCATGGTGG CATATGACTG TGGTCCAAGC CACTTGGGGG GCTGAGATGG GAGGATCACTTGAGTACAGG AGGCGGAGGT TGCAGTGAGC CAAGATCTCG CCACTGCAAA CCAGCTTAGG TGACAGAGTGAGAACCTGTC TCAATAAATA AATAAGAAAC GTAAGGGAAA AGGAAATTAA TCTGATCATT GGCAAATGCATAGTATTTAA AGCCAGGGGA GTAGATGAGA TACTCAAAGT AGGTGAAGAT AAGGAGGCAA TGAAGGCCTAGGACTCTGGT GTACATTTAG ATGGTTATAA GAGGAATAGA AACTGGCAAA ATAAGTAACA CTGAGCACCCAATGAGGTGG AGAGGAAAGC CAGGAGATGA AGCATCATAG AAGGCAAGAG AAGAAGGGTG TCAAAGAGGCGAGGCAGTCA TCAACTTCTG GGCAGTCAAA TAATATAAGG ACAGAAAAGT GACCATTGGA TTTGGAAATATGATGAGCAC TTTGAGTGGA GTGTTGAGAC AGAAGACCAA TTAGAGTAGA TTGAGGAGAT AACGAGAAATGAGAAAATGT AACCTGCAAG CACAGACAAT TCTTGAGAGA CTTTTCTGTG AAAGGAAACA GACACAGAGTCTTAGCATGT CTTGTCTTTC TATGGGAAAT GTAAATAGTT TGAGATCAGG GATAGTATTT TATTCTGCTTTTTGTACCTC TACATTACCT AGCATAGAGC TAGCTAATGT GCACTTAAGT ATGTTCTCAA TTCTTATCGCCTGAATGACT GGATGGGTGA AAGAATGGAT GGATGGATGG ATGGATGGAT GGAAGGATGG ATGGATGGATGGAAGACTTC TGATTTGCCA AGAAGAGGAT ACTGGTAGCA GAAATAAAAA CAGCACTGGA GAAAGAAGAGTTTAGATTTT TATTCTTTGG TGTCAGTTAG ACAGGAAAGT AAGACATTAG AAGAGTCCTT AGATAATTTATGTAATTGTT CACTTAGGAT TTTTAAATGT GATCACTGAT ATTGGACATG TTCCTAGTGA AGCATTTTTGGTGTTTCACT GGTTGAAGTT AATAACTGTA AAATTATTTC CCGTTCAGGA CAGAAAAACA GAAAACTTGAAGCTCCTATT AGAAAGTTCA AGATTCTCTG GGGTTCTTAG GATTTACTGT TCCCAAAACT CTGTCAAGAACAAGAAAATG ACCTGTATAC TTAACTGGTC TAGGCAACAG TGGAAAGACA ATTCTCAGAG AAGATTTGTTTTAAGAAGAC ACTTTCCATA GGAATCAAAC AATAGCTTTC AGTGACTAAC ATGGTAAGAC ACAGGGTGTTAGCTCTTTCC TTCCAACCTC ATGGCTGTTG TACCTTACCT TTCGACCCCG TGTTCCTGAA ATTGTTAAATTCATAAACTT ACCAAGGACT AACCAGCCTC TGGGGAATTG CTGTATACTT AGCAAACTTA CAATGGACATATTTATAAGC CATAATGATA ACTGACTAAT AGGAAATACC CTCAACTGAA AATGAGAGAT CATCATTTGCAAATGAGTTC CCTTGCCCAG GCAACTACTG GGGAAAATGT CATGCAAGCA AAATTAATCT TTGAAATCCTCCTTTTCCAT TTTTTGTGTC TTCCTTTTCC ATAGGCACCA GAAATATCAT GGTGCCTGGA TCTCATCTCTACAGAAAAAA AAAGTGATTT GATAAACTGA TTTATATTGT GTCCAAATGT GATTGTATTT TCAAAGATAACCTAAGGGGA GAATGCTGTC TGGCCCAACA GCAGGCTCTC GACTTCATTT CAGACACTGT GGCCAATGGCTGGGAAACAG GTATGAACAG TAGGTTTCTG AGTCCCCTGG AATTATTCCA TTTATGTAGC CACCTCCATGACAGGAAGCC TCCCTACTCT TACTTCCCAG TTTGTTCATT CATGGCACCA GGTTGCAGAT TAAAATTTGCTCAGTGACCT TTTATCTAAT AATGTGTTAC CTTCTTCTCT TAAAAAGTAC AAGGGACAAA TGCTCATGGTATACTTTTAG GAGATTGTGG CTCTCTATTA ACAGTATTTA TTCAACAAAC ATTTATTGAG CATTTATATGTGCATCATGC TAGGGACTGG AACCTAGTAA GTGTAGCACA TATTATTTCA TTTAATCCTC ACAACAAACCCATGAGGTTG GTTTTATGAT CCCAATTTTT CAGAAGAAGA AACTGATATT CAGAACCAGT TAACTAACTGGTTCAAGGTC ATGCAATTTC TAAGATACAG AACCAAGAGT CAAAGACATG ATTTTAAACC AAAGCTTTTTCTGCTACTCC ACATTGCTTC CCTAGGTGAG ATCTGAGGCA TTCCGCGAAA AGAGAAGGGT CATAAAGCCAAGGGAAGACA AGCTTAGGAA AAAAAAGGGA AATGTCCTAA ATAAACAGCT TTCCTATTTA CCAGAAACCACTAGTTTAAA AATATAATGG GAAAAATCCT ATTCACTTTA ACAATGTTAA AAAAAAAAAA GATAGAAGAAACATAGGGAT AAACTTAACA CATTTGTAGG ATATGTAAAG AAACTAAAAG ATGTTAATAA TGGCCTAAAGAAAAAAAAAC TTACATGTAT GGGGAGATAG ACCATCTTAC TGGATTCTAA TATTTAATAG TCTAGGTGTTCCATTTCTCA CCAAATTAAT GTATACATTT AATACAATGT CAAACGAAAT ATCTTAGGAA TTGCTTACAAATTGTCAGAT AATTACAAAG TTTACCTGGG AAATATAAGC ATATATGAAG AGTGAATGGG ACCCCACCACTCCCCCCAAA ACAAAAAAGG TCTGAAAAGG ACAGAAATCA AGGAGAGTCT TGCCTGCCAG ATACAAAATTCTATTATAAA GGTGTATTGA TGAAAACAAT TTAATACTAG TGTAGCAATA GGCAGCAAAG CAATGAAACAGCATAAAAAG ACCAGAACTA TACCTAATTA TGATGAAGAT TTAAGGTATG ATAAACATGA CATAATTCAAATCAGCAGAA ATTGGCATAG ATAGGGTTAA GACAAATAGC TAATCATTAG AGGGGAGGAA GGAAAGGAGGGAGGATAAAA TTAGGTTCCT GCCTTCATCT TACATTAAAA TAAATTCCAG ATGTATTACA TTTAAATTTTTTTAAAAAAA GAAACCACAA AATACTTGAA GAAAATATAA GTTGTTATAT AGTCTTTTGA TGGGAATTTTTTTTTTTTTC AGAGACAGGG TCTTGCTCTG TCACCTAGCC TAGAGTGCAA TGGCATGATC ATGGCTCACTGCAGCCTTGA ACTCCTGGGC TCAAGTGATC CTCCCAGCTC AGCCCCCCAG GTAGCAGGAA CTACAGGCATGCGACACCCC ATCCAACTTA TTTTTTATTT TTTGTAGAGA CAGGGGTCTT GCTTTGTTTC CCAGGCTTATCTCGAACTTC TGCCTTCAAG CACCTCAGCC TCCCAAAGAG CTGGGCTGAT GGGACATTTT TTAACATAGTGCCACATTAC CATAAATGAA AAGCTTGTAA AATACTAATT TTTAAAACTA ATATATATCA GAAATTTTTATAAACAAAGT TAAAAAGCAA ACACAAAAAA TTTGTAGCAC TTATGACAAA TATATGTATA TATATGAATACAAAAAGAGC CTTTACAAAA CAGTAAGAAA ACAATGAATA CTCCCAATGG AGTATTCAAA ACTAAACTGCTAAAAGCAAT TCAAAACAAA AAACATAAAC TATGCATATA TGTATGTGAA AAAGTTTAAC CTTATCAAAGAAGTAAACTC TCAAAGAAAT AAACATCAAA TAAGGAAATA GCCTTTTCCC ACAAATAACC AAAATCTGTAAGAATACTGA GCTGCGAATG TTTCAGAAAA AAAAAAAAAT CATACACCTA GTTCGGCATG TAATTAATATAGATCAGAAC ACTTTAAAAA TATTTATAGG CCAGGCACGG TGGCTCATGC CTATAATCCC AGCACTTTGGGAGGCCAAGG CGGGTGGATC ACCTGAAGTC AGGAGTTTGA GACCATCCTG ACCAACATGG TGAAACCCTGTCTCTACTAA AAATACAAAA ACTAGCCAGG CATGTTGGCG TATGCTGGTA ATCCTGGCTA CTCGGGAGGCTGAGGCAGGA GAATTGCTTG AACCCAGGAG GTGGAGGTTG CAGTGAGCTG ACATTGTGCC ACTGTACTCCAGCCTGGGCA ACAAGAGCAA AACTCTGTCT CAAAAAATAA TAATAAATAA AAATAAAATA TTTATATACTCTGACCCATC AATTTGTCCA GCATAATTAG GCATGTGTAC AAGGGTTTAC ACACAAGAAT GCCTATTGCAATATTGCTTT TAATGCTAAA AAAAATTGCG GAAAATGCTT TAAAAATATA GATTAAGACT GTACATTGTGGTACAGTCAT ATAATCAATA GTATACAGCT ATTATTTATT TTCAGCCACT GTCCAAAATA TAGCCTGGCCTAACAACATT CTGTTAGGAT ACGCAAGCAC CGTGAGGAGA TCAGCTATAA AGTATCAGTG TTTCACACCACTGCTCCTTT GCTAATAACC TTCAATGGCT TTTAAAGAAG TAAAAAACAA AGGCAAAATT CCTTAGTCAGCCCTTAAGAC TCTCTGTTAC TTAGCTCAAA CTACCCTTTT CAACAACACT GCCCTAACCA GGATGAGTTTTTTGCCCCCC TGGAGTACAT TCAGCCTTTC CTTATCAAAC CTTCCTTTAA ATAAGTATCT TCTCCAGGACCACTTCACTT TCTTCCCCAA TTTAGCATTT TCTATATCTC CAGGCCTACC TCTATAAAGC CTGTCCTAACCACTCAAACC CTAGCTTTTT CTCTGAACTG CTAGAAATAT TTTTCTCTCA TTGGCCATTT AGGTAAAAAGGTTTTTACTG TTTATTACCT ACTCAATAAA AATTTTCTTT TTTTGAGACA AGGTCTTACT CTGTCGCCTAGAATGGGGGG AAGTGGTGTG ATCACAACTC ACTGCAGCTT CTACCTCCCA GCTCAACAGT CCTCCCACCTCAGCCTAGTG AGTAGCTGTG ACTACAGGCA TGTGCCACCA TACCCCACTA CTTTTCATTT TTTATTTTTTGTGAGATGGA ATCTCACTAT GTTACCCAGG CTGGTCTGCT GATCTCAATT GATCCTCCCA CTGTGGCCTCCCAAAATGCT GGGATTACAG GCATGAGCCA CAATATCTGG CCCCAGTAAG CTTTTAAGGC CATTAACATGAGGAACAGTG TTCTTTACAC TATTTTATCA GCTAGGGCTT TGCATGGAGT AGGAGTTTAG TAAATGCGGTTGATGGGTTA ATCAATGTGT GAAAATATTC AGAGCCACCA AAAACAGATA TTATGTCTAT TCTCATCAACAATCAAAATT GAGTAAACAG CCATTTTCTA ATACAGGAAA CCACAAAACA TTGAATGGTG ACATTAAAAAATTCCCCCAG CAGGAGCCAA CCAATTTTTT CATCCTGATC CAAGTTAGCA AACTGCAAAA GATAGGAAGCACTAATGAGT GGAAATTTGA GTAGAAGCAT TTCTTATGAA GGCTGTCTTG ACTGGATCAC ATTTTTATTGCTGTTGGAGG TGCCAAATGT GTGTGTTTAT GCTAATCCTC CACCTCAGGC AACACACAGT CAAGGATCCTACCAAGTGTT ACCGTCAAGT GTCTGTTGGC AGCTCAAGGC CCCAGCGTTG TTCCCTTGCA CTAGGGAAAAGACATATTCC AGGTACAAGT ACTCCCACTT TGATGCTACA GAGGAGTTGC TGAACTTTGT GTCATTAATCTCTCTTCGTT AGATCCCAAC CCTGTTTAAA TCCCACTATC TGCCTACTCT GGGTCTTCAC CAATTTACTAGATCATAGTT GGAGAAAATC TACAAAGCCT TGCTCCCTTT AGATTTAAAC AGGTCTCCGT TTAAATTTAGAATTGCTAAC TTCAAGCGGG CCCTTATGCG ACAGTATGCC TGTCAGTCAT ACTACATTTC CTCAATTCCATTCATGTGAC TGCTCCATAC CCTTCCCTCT CTCTTCATAC TACTATTATC TCTTCCCCCC TCCCTCATTTTTAACTGATG ATCTTGTTTC CTATTTCTCT GAGAAAATAG AAGCCATCAA AAGAGAGTTT CCACAAACTCCTACTGCCTT ATCTAGCCCT GTACCATATA CTTTGCATTT CCTCTCATTA CCATGGATGT ACTGCCTATCTGTGCTTCTA TCTAAGGCTA ACCCTTCCAC TTCAGTTTTG AATATTATCA GCTCTTACCA ACTCAAGGCCATTGCTCTAG CAATTCTCTC ATTCTCTCTC ATTTTCTTCC ATCAAGTTTT CCTTTTCTTC AATTAACAGAGTAGCTCCTA AAGGGAAAAA AAAGTCTTCT TTTTCAATGC TCATCATCAC TGGCCATCAG AGAAATGCAAATCAAAACCA CAATGAGATA TCATCTCACA CCAGTTAGAA TGGCAATCAT TAAAAAGTCA GGAAACAACAGGTGCTGGAG AGGATGTGGA GAAATAGGAA CACTTTTACA CTGTTGGTGG GACTGTAAAC TAGTTCAACCATTGTGGAAG ACAGTGTGGC GATTCCTCAG GGATCTAGAA TTAGAAATAC CATTTGACCC AGCCATCCCATTACTGGGTA TATACCCAAA GGATTATAAA CAATGCTGCT ATAAAGACAC ATGCACACGT ATGTTTATTGTGGCACTACT CACAATAGCA AAGACTTGGA ACCAACCCAA ACGTCCAACA ATGATAGACT GGATTAAGAAAATGTGGCAC ATATACACCA TGGAATACTA TGCAGCCATA AAAAATGATG AGTTCATGTC CTTTGTAGGGACATGGAGGA AGCTGGAAAC CATCACTCTC AGCAAACTAT CACAAGGACA AAAAACCAAA CACTGCATGTTCTCACTCAT AGGTGGGAAT TGAACAATGA GAACACTTGG ACACAGGAAG GGGAACATCA CCCACTGGGGCCTGTTGTGG GATGAGGGGA GTGGGGAGGG ATAGCATTAG GAGATATACC TAATGTTAAA TGATGAGTTAATGGGTGCAG CACACCAACA TAGCACATGT ATACATATGT AACAAACCTG CACGTTGTGC ACATGTACCCTAAAACTTAA AGTATAATAA AAAAATATAT ATATATATAT AAAACAACTA AAAATAAATC TTCTTTTTCTGCAGGATCAG TCCATCACCA CACACACAGG CTGTGTTTTA TGTTGTTCCC CAGCTTAAGA GATCGTTCTCCAGATCCCAC TGCTCCTTCC AGTTGTCACC TCAGTTCTCC ACTTCTTTTT GCTGATAAAC TACTCTAACTAGTTACATAT GATTTCTGTC CCCAGGTCCC CTCCCTCAGT TGTTTTGAAC ATAATCATTT ATATCATTTATCATTTTCAC TCTAATTGCA CAACCAAAAA CTCCCTTTTT TTTTAGATGG AGTCTCACTC TGTCACCTAGGCTGGAGTGC AGTGGCATGA TCTCGGCTCA CTCCAACCTC CGCCTCACGG GTTCAAGTGA TCCCCCTGCCTTAGCCTCCT GAATAGCTGG GATTATACAC ATGCACCACC ACACCTGGCT AATTGCTTTG TTTTTGTTTGTGTGTGTGTG TGTTTTTTTT TTTTTTTGGA CAGAGTCTCA CTCTGTTGCC CAGGCTAGAC TGCAGTGGCATGATCTCAGC TCACTGCAAC CTCCACCTCC TGGGTTCAAG CGATTCTCCT GCCTCAGCCT CCCGAGTAGCTGGGACTACA GGCATGCACC ACCATGCCAG GCTAATTTTT TTGTATTTTC AGTAGAGACC AGGTTTCACCATGTTGGTCA GGCTGGTCTTGAACTCCTGA CCTCAAATGA TCTGCGCACC TGGACCTCCC AAAGTGCTGGGATTACAGAC TTGAGCTACT GCGCCGGGCT ATTTTGTGTT TTTAGTAAAG ACGGGGTTTC ACCATGTTGTCCAGGCTGGT CTCAAACTCC TGACCTCAAG TGATCCGCTC GCCTCAGGCC CTCAAAGTGC TGGGATTACAGGAGTGAGCC ACCATGCCTG GCCATAAAAC TGCCCTTTGT TAATATGACT GTTGGCCTGC ACATTGTCAAATCCAGTGGC ATTCATCTTA CTCGGCCAAC CTACGGCATT TGACACTGTC TGTCTTTCCT TCTGTTCCTCTATCTGTTTC CAGTATACTG GCCTGGCTTT CTTTTTACCT CTTTTATATG CTCTTCCAGT CTCAGGCTCCTTTGGGGATT TGAAGGTATG TTGCATTTTG CTATTCAATG AATAATGACA AGTAATGATC ACTTAAGACATTAAGTGGTC AGTTCCTTTA CTAGGATAAA AATAATTTTC TTCCCAACAT GGGGCATATT CCATTTCCAGTCTGACTGTT CTGTGTAATC TTTGTATTCC TTGGCAGCCC CTTTTATATC AGTTCATCTA CTGTGCAGGAAATTGGACAA ACATTTGCAC TGGTATAACC AAATACAGTT GAACTTTTGG CTTGACTCTT AGCTGAACTCACCAAAAATA ATTTCTGTAA GAGACTGAGA CGTCTACGAG TAGGTTTTTC AGAATTAGTA AACATAAATCAAGGATACAC AGGTAGATTT GAATTTCAGA TAAACAACAA ATACTTTTTT AGTATGTCTA CTGAAATATTTGTATCTTAT CTGGCAATTC TACCTGGTAC AGAACTAATC CATTCTCTTG AAAGATCTTG ACTCTGTAATAAGTTCTTTG GTGATGGAAG GGAGGTATTT CTGTAATTAG AGTCACTGTC TTCCTCCCAG TTTTTTATCCTGGCCCAGAT CTGCAATGAA CACACGACAG AATCCAGGGG GGATGAAGAT GGGTGCTTTG CAGGAAAAAAAAATTAAAAA CATCTGAAAA AGCTTTTGTA CTAAAAGAAT GTGATCTAAA AAAGAAAGCA GGAGAACTTTCTGTCTGCAC TTTACATCAG AACAACCTTG GCGTCTAGAA GCTGTGCCCT GTGGGAAGTG GTGGTGCTTGGTAAGAGATG CCAGGACCAG TGGTACCCAC TGGGAGCACT GCCAATACCC AGCAAGGAGC ATGGGTGCACAGTAAGGCAT TGCACTGTGA TTCAGCATAA AATAACAATA AGGGAACGTC ACGGAGAAAA GGCCAGACTTCCTTTGTTTA GAATGTGGGA AATGTCTTCT GAAAAATGGT AGTAAAAAAG CATGCTTGGA TGGTCCACTCCAGGCAAAAC TGACTAATCG GGGGTCAGGG ATACAACCCC TGCATCATAT GTTTGTTTCT GTTGGGCTGACATGAGGTTC ACTGTGACCA CTGTGGTTTA ACCCCATAGT CTCCTGGAAA TACAGCCAGG TCAAGAGAGCTCCACATAAA ACATAATCAA AAAAATAAAC TCAAGTTTCC ACTGATCAGC TTTTCACAAC TCTTATCCTTTCACTAACTT TGGAGCAAGA TTTGAGAATT GGATGGCTAT TTGAGGGCTA TTTCTGCGCT TTAGTTCAATGTTTTGTTCT TTCTTTATTA GAGAACTATG GTTTTTTATT ATATTTACAC TTTAAGTTCT AGGGTACATGTGCACAACGT GCAGATTTGT TACACAGGTA TAAATGTGCC ATGTTGGTTT GCTGCACCCA TCAACTCGTCATTTACATTA GGTATTTCTC CTAATGCTAT CCCTCCCCCA GTCCCCCACC CCCCGACAGG CCCTGGTGTGTGATGTTCCC CTTCCTGTGT CCAAGTGTTC TGTTTATGTG ATAGATTACG TTTATTGATT TGTGTATGTTGAACCAGCCT TGCATCACAG TCACTTGCTT ACAAGAAACA AACACTTCAC AGATGGATCA TTATGTGTGATAAGTGAAAT CCAAGGATTT ATGCTCAGAG GTGGGCTTAA CAGGTAGGAA GAGCAGTATT TTCCTTCAACCATGAGTGTA TGCAGGTTTT TCTTTTCTTT TTTGAGATGG AGTCTCACTC TTTTACCCAG GCTGGCGCGCAGTGGTGCGA TCTTGGCTCA CTGTAACCTC TGCCACCTGG GTTCAAGCAA TTCTCCTGCC TCAGCCTCCCAAGTGGCTGG GATTACAGGC ACCTGCCACT GTCTCCGGCT AATTTTTGTC TTTTTAGTAG AGATGGGGTTTCACCATCTT GGCCAGCCTT GTCTTGAACT CCTGACCTCA TGAATCATCC TTCTCAGCCT CCCAAAGTGCTGGGATTACA GGCATGAGCC ACTGCGCCCA GCCCACAGGT TTTTCAAAGA CTAAACTTAA AAAAAAAAAAAAAATTTCCC AATGAAATAT AAAACTAAAG TGCTAAACTG TGATAGACTG TTTTACAAGA ATGCCAGTTTTCACAAGTGT CTATAGAACA TGTAATTTAG ATAGGTAAGA TGAAATTTTG ATAATATTTG ATGGCAAATTTAAACAGGTA TACAACAAAA ATAAAATTCT AAGCCCCTCA ACCAACTGAA TGGACTCCTT CTCTCAGCCAAAGGAATACC AAAGTAAACC TGAAAAACTA GTTTTGGCCA GGATTGGGGG TAGGTGGGGG AAGCCCAACATGACTCATTA TTCTCTCCTC CCTTTGGAAT TCAGGCACAA CTGAATGTCA GCATTGACAC TAAAACACAGATCTTAAGAC TGACAAGCCA GACTCTTTGT AGCAGAGAGC CAGGCCCTGG AAGAAATCAA GTTATTTTATCCCAAAAAAT ATTTCTTTGA TATATTTTCA AATGGCCCTG CAAAGCTGTC TCTTGTGGGG AAAATTGACATGCTGTACAG AATTTCCTTC TCTTTCCAAG TTTTTACTGA TCCAGGAGAG ATTTAACTAA GAGGCTAGCATGTTTTTTTT TTTTTTTTTT TGAGGCGGAG TCTTGCTCTG TTGCCCAGGC TGGAGTGCAG TGGCGTGATCTCAGCTCACT GCAACCTTCG CCTCCCGGGT TCAAGCGATT CTCCTGCCTC AGCTTCCCGA GTAGCTGGGATTACAGATCC ATGCCACTAT GCCCAGCTAA TTTTTGTATT TTTTGTAGAG ACAGGGTTTC ACCATGTTGGCCAGGCTAGT ATTGAACTCC TGACCTCGTG ATCCGCCCAC CTCGGCCTCC CAAAGTGCTG GCATTACAGGCGTGAGCCAC CGTGCCCAGC ACAAGACATT TACCGTCTAT TCTCTCTGAA GCTACTATCT AGAGGCTTCATCAACATAAT AAGACCCTTG GTCTCCACAA CTCCTTATCT TATCCTATTA GTTTCTACTG ATTCCAGGTCTTTAGATAAT AACAACTCTT TCAACCAATT GCCAATCAGA AAGTCTTTGA ATCCACCTAT GACTTAAAAGCCCCACTCCT TCAAGTTATC CCGCCTTTCT GGACTGAACC AATGTACACC TTATATGTGT TGATGGATATCTGCCTGTAA CTTCCATTCC CCTAAAATGT ATAACATCAA GCTGTAACCC AACCACCTTG GGCACATGTTTTCAGGAACT CATGAGACTG TGTTGCAGAC CTTGGTCACT CATATTTGGC TCACAGTAAA CTTCTTTAAATATTGTATAG AGTTTGGCTT TTTTCATTGA CACAGGAAAA ATAAAGAATT GGAAGGTCTT TCATCAGTCACTGAGCCAGC TTCATATCTG ACTGAGGTCA TACAGTTCAG TGATTTGTAG CTTTGCTACT TAGATTGCTATCCATTATCT AGAAGCATCA GGATCACGTG GGACCTATTG GAAATGCAGA CTTTCCTCCT AGAACCCAGGACCTTGGAAT ATTCTTGGCA CATAGTAGGT GCTCAATACA TATTGAACTC CTAGGTGCAA TTCATTAATTCATGAATTAA TGAATTAACA CGCTCTCAAA GTTTAGTGCT TTTTCACAGA CTAGTCTTTC TGCCTCTTAAGCACTCAGCT CACCACGCTT CCAGTCTCAC TCCCCTATTA GTCTGATTAA AATCTGCTTA CATGTGAGTCTGAGATCAAG TGTTATCTCT TCTGAGAAGT CTTCCCTCAC TGGCCCAAAG GAATTTCTCC TCTATTTTAGCACTGTCCCA GTTGACTTGT CATTATTCTA GTCTTTTTCA TATTAGTTGT TTTTCATATA TATGTTATTAAGGAAACTAG TCATTTCCCC TAATAGAACA AAATTGCTGG CCTTTGGGGT TGGCAATGGA GGGGAGGCTCTTCTTGAAAA GGGGGAAGAG TGTTCTCCTA ATATTTTTCT TACGAGATTT ATGTTGCTCA TCTTTAGCCTTTAGTCCCCC ATTGCCTGCC TACAGTTGGC AGAGACCATC TGTTCTCTCA CTGTCAGGAA CTGTCTCAATTCTTGAAGTT CAGAGTCAAA AAAGAAGCAA GTTTTCCTAG CTCTTTGATC AACTTTCAAA GTTTTACTTCCATTTGAAAA TTTACTAAGT CACCAGGAGA TGGTTTATAC TGAGAAATAT CCACTCATAC TCTTCCTCTTCAACTTTCTT CCATATACAC CCTATTACAG GGATATAGTC TTACTCTATA GCTCAAAAGG ATGACCCTATCAGAAACCTG CACAGTATGT AAAACATTCT CACCAGAGGT TCACTTGTGT ATTTCCACCC TAGAATGGAAGCTCTACAAA AGCACAGAAT GTATCATTTT AACTTTAGAT TCTATTTTCA CACCCAGTGC TTGACACATGATTTGAAGTT AATATTTATT TATCAAGTGA TTGTTTTAAA ATCATGACTC ACTCAACAAA GTTATAAGAATAAGAATAGT GTTACAGAAT TGGTATACAC AAGCTGACCA TAATCAACAC ACCTATTATC ATTTTTTTGCGACAGGTTCT CGCTGTCTCA CCCTGGCTGG AGTGGAGTGG CATGACCACG GTTCACTGCA GGTTTGAACTTCCAGGCTCA AGCAATCCTC CCACCTCAGC CTCCCACATA GCTGAGCCCA CAGGTGTGTG CCACCATGTCCAGCTAACTT TTTAATTCTT TGTAGAGACA GGGTCACCCT ATGTTGCCCA AGCTGGTCTT GAACTCCTTGGCTAGAGAGA TCCTCCCTCC AAGGTCCCCC AAAATGCTGG GATCTCAGGC AAGAGCCACC ATGCCTGGCCATAATCAATA CACTTTTAAG AATGCTAGAA TGTTATATCA GATGCATACT TCAGCACTAT CTCAAGCAAACTGGGGTGTG GGTTATTCTA CATATAAAGT TCAGCAGTGT TGTTCCACAG TCCCAAACTC CAACTGAGGTCAAATGTAGG GTGCAGCAAG GTCACTGGGG CTGTCATCAA GGGCCTCTCC TTGCACTCTT GCCAACCCTGTTTCTTGATT GTCTCTACCA CCATGAGTCA CCAGCAATCT CCCACAGTCA CTTGTTTAAA AGTTCACAAGTATTGTGTGA ATTGCAGGCA ACCCCTTGAC TCCCTGATTG CCTGGTCTTC TTCCTTGGGC TCTACCATTTTTTTTCCCCA GCACTCTTTC TGCTGCTCTA AATTTTAATT CATGCAATTC CATATGTGTT TCTCTATCATTCTTCATCTCTTTCCTCTCC CTTCCATCCA ATTTTGTTTG TCTGTTTGCT TGCTTGCTTG CTTTAATACATTTCTCTTTT TCTGAGAAGG CTTGAGTCCA AAACTCTCAG TTACCTGTTG TTCTGTTTCC CGTTAGTTAATCTCCGAACC TTCATAAATT AAATCTGACA AAGTCCCCTG ACTAACAAAG GAAATGCACA AGTCACAGTAAAAGGGGCAC ACACAGAACA CAAATAGACC CAGGGTCTTT TCTGTTCATC ACTCAGCTTT TTATAGGAGATCCAGGAGAA ATGAAGTGGA AAGGGAAGTG TGTTGAGTTA CTATACAACA CAAGAGTAAA CTTTCTTATAAGTGGTAATT TTTTTTTACA GGAATAATTG AAAATGGAAA TTACCTTCTC TACTCATAGT AAGTACTCAGTGCGTTCTTG ATGGGATGAG AATGTGTTTG AGCTTTAGTG TAAGGCAGAA TTCTGTTTAG TCTGCCAGTATTGGAGAAAA ATAAAACACA AAGGGACTGA CATGTAGGAA GTGGCACCTG GGAGGGTCTC AATTCTTCCTATTACAAAAA TGCCCCAGAG AAATAAAAAG CTTGTGTACA TGTTGAGATG GGAGAGTTCT CTGGCCCCCCTCGCAGGATG TGTGACAGTG GGGTGGCTCT CTGCTGCGCC ACCATGAGCT CAAACCCCTC ATAGGAGGGGGAGCACACAG GCAGGAAGGT GCAGGAGCTG GGCGAGCTCT TTGGGCTCTG GCCCCGTGGT ACTGTCTAGAGGTGGGTGCC TGCAACTCCT GAAAGCCCAA GTGGGCATGT GTTACAGTGC ACTCTTTCAG CTTTGCTGTCTGCAGCTTAA GCGTTAACCA GCTCAGTTTC TTCTTGGTAC CCAGGTCCTT GTCTGGCATC CAGGAAGAATCAGGTTACAC ATGGACTTGA AGGATGAATG TGGGAGTTTT ATGGAGTGGT GGAGGTGGCT CTCAGTGGGATGGATGGGGA GCTGGAAGGG GGATGGAGTG GGAAGATGAT ATTCTCCTGG AGTTTGGCTG TCCAGCAGCCGATCTCCTCT CCAGTCGTCC CCAGCCTCTC GACGTTCAGA TGCTCCTCTT CTCTCCTTCT CTGCCATGCTGTTCTGCCGT TCATCTGCCT GTCTCTCTCT GGAGCCTGGA ATTTGGGGTT TATATGGTAC ACAATAAGGGGCATGGCAGG CCAAAAGGGA ACTTTTTAGG TGCAAAAAAC AGGAATGCCT CTTCTCACTT AGGGCTATAGATTTTCAGGC TTGAAGGTGG GGCCTTTACC AGCGAACCTG TATTTCCCTG TCTCCTGTGC ATATCAATGTAATCAAATAC TGGGCTGATC CAGGATGTTT CTTTAGACCA ATTATGGGTA AAATAATTTA CATTCAGGTTTTTATATTTG CTTTTGTCAT TTCTTTTTAA GCAATCATGT AAAATATCTA TACGACAGTA ATAGATGATAGCGAACCTAA TTAAAATTAC CAGAAACTTA AGAATCTCTA ATGATTTCAA CTGTAACTAA GGTTATTTCTCTTTATGTTG AACAATGTTG GGAGATAAGA CACAAGAGTT TCTGAAGTAT TTCAGAAACA CAAAGAGGGAGGTTATATAA ATAATATTTT TTTCCTACTT TGGGAAAATG AAAGCTAGTC ACAAAGTTAA ACGAGTGGTTATTTTAATAT TTAAAATACA GGCTTGGATG TATTTCCTGT TAAAGAAAAT AAAATGCAGA ATATTCAAAACGTCTGACCA CCCTTCTAAG AAAATGCATC TCTGAGGTAT TTTTCCTTAG AAGTTATTGT AAAAATCCTGGAGAAGCTTG AACACAGCAA AGCAAACAGG ATGCAGAGTT TAATCTGTGG AAAGCTTAGG GAAGAAAAGCAAATCATTAA AAATAGGTCT TCCTCTGAAG ATTTTTAAAA CGCAAAGAGG GTGGAATAGC AATGATAATAAAAAAGCTGG CATAGAGAGT GGCACAATTT GCTGTGCCAC TGAGCTGACT GGATGTGTTC TGAATTTCTAGGCATTAGTG TACCTTTCCA CACGCATTCT CCCTTTAAAA AAAATGCCCA CACACTGAAT ACTTTTTTCATGCAATTTAA AATAAGCGCA CCATCTAGTT TACAGAAATT CACTAGAAGT TATTTATCCT AAAATAGCAGAGATCTAGAA GAATTTTGAG CTCTAGGACA TTTTAGACAC ACAGAAAGAA GAATCTGGAC AAGTCTTGACCAGACATGAC AGAATAGAAA TTTCTTTTCC TATTTATCTC TTTGAATAAA ATTTTCAGGA TCTTACAGTGGACAAGTTTG TTATCTACAC ATTGTGAAGC ACATTGATTT CTCCTCTGTA GCCTTAGGAA GATCTGAGAGGTGACTGAGC TGATTGAATG ATCCGTGACC GCTCTACTGG GACCAGTAGT AGAACTTTAC TGGTGGAGACCTGCTGGAGG TTTGAGAGCA GACTTTGAAA ATTACTAGAG CTACACAGAT ACTGTGTGGC TAACTGGATTATGTTTAGAG GCTTTCAGAA CTATGCTGCT GCTGCTGCAG TGTAGCCAGG ACGCACAGAG AACATCTAAGGCTCTTGAAT GGGGCGATAG GGACAGATTT CAGCAGCCAT CTGACTTCAG TGCTCATTTT GATGCTTTCCCTGCAGGGTG CAGTGTGCAG TGTGCAGTGT GCAGTGGTGG GAGGCTCACA CAGGAATACT TGCTTCTGTAGCCCTAATTT CCGGTTCAAA CTCTGCATTC ACCTTGACAG ATTCTTTCCT TGGCCAAAAT TTAGTTAGGCTTCTGGGCTT TCTCTTATGC CCACCTGCAG ACTTTTTGGT AAAATCCAGT TTTAGTAAAG AGCTCTGCTAAGTCAGTTTA GCAAGAATCC CCACCTCAAA AGTCACTATC TCCCTCCCTG GTAGTGTCTG GCTTGTCTTCAGCGAGAATT CTATTAGGTT CTGTTAGATT AGAATCCTCC TTACCCTTGA TGCTTCCTCT TAGTATTTTTTCATCCACTG ACTCCTTGAC CCACCTTGCT CCTCGGCTAT AAATTCCCAC TTGCCCATAC TCTGCAGTTAAGACTATTTT CTCCCCACTA CTGCAAAATC CCATTGCCAT GGTCCCTATA CTATCTCAAT GGTAATGAATAAAGTCTGCC TTACCATGCT TTAACAAGTA ACATTGAACC ATTTTTTTCT TTAACAATCT GCTGCACAATGAGATTACTA AAACTTTATT CCATTTTGCC ATGCTGGATG TCCTCAATGG AATGGCTCTT GTGAGCACCAAATCATTGTG AGAAGGAAAA CCCATCTCTT ACAGCCCCCT GTAACGTGAT GTATGTTACA TGTGATGTATGTTACATAGT TTTTTTTCAT GTTGATCACT TTTTGCCCAT TTTCCTATAT CTTATCAGTT GGAAGACTGTGGAAGTTTGT AGTACTAAGC CACAAGATGA CTAAGAAGAG TTGAAAGGGC AAGTGGGGCT AAAAACAGATTTTGTTTGAC TTACCCCACC ATTCCCCCTA TCATGGGGCT GAATCTGCCT GGAGGAAGGA GCATCTTTATCTTTGTACTG TGAACCACAC AGTCTAGCAG CAGCACAGCC AAGGCACTTG GGGTTTCATG AGACTAAGTACATGCAATTC TATTGTAAAG GCTTAAAATA TATACAACTG ACCCTTGAAC AACATGAATT TGAATTGCATGGTCAGTTAT ACGCAGATTT TCTTCCACCT CTGCCACCCC TGAGACAGTA AGATCAATCA ATCCTCTTCCTCCTACTCCT CAGTCTACTC AAAGATACTT GAAGTCTACT TGAAGATGAC AAGCACAAAG ACATTTATGATGATCCACTT CCACTTAGTG AATAGTAAAT ATGTTTTCTC TTCCTCCTAA TTTTTTAACA CTTTCTTCTCTCTAGCTTAA TTTATTGTTA AGAATACAAT CTATAATACA TATGACATAC AAAATATGTC TTAGTTGACTGTTTATGTTA TCTGTAAGGC TTCAGGTCAA GAGTATGCTA TTAGTGGTTA AGTTTTCGAG GAGTCAAAAGGTGTATGTGG ACTTTCAACT GCAGGGGGGT GGGCACCCCT GCCCCCATGT TGTTCAAGGG TCAACTTTACTGCCAAAGGC AAGCCTTTAC ATCCACTTTT TCCATCCCAT CAGTAAATGG AAAAAGATAG CTACAGTATCCCTGCGTCAA ATCTTTTTTT TTGCAGATCA CAAATTGGCC ACTCACCTTG CTCTGTGAGG GGTAAAATGCCCCACTTTCT TTAGTAATAT TTAAGTTAGA TAATATTTAA GTTATAAAGT TGTTCTTTGT AATCGTTAATTGTAATTTTT ACATAGTTTC TTTCAAACAG AAATAGCATT TTTGTTAGAT AACCTCCCGT ATAGATGATGAAACTCCTTT TAAGGGCTAT CTGAATTTTA ATTCCTTGAA AAGGCAGAAA TTGGATAGCT AGTAGTCATAAATGTACTGT GGCTTCCCCC AACCATCTGG GCTATATAGA AGCTGCATCC TTGGACTGCA GTAGAGGAGTCTTACAAAGC ACAGAGCAAC TTCTCTCCTG GGTTGCGCTA GTTATGATGG CAATTTTAAA TGTGTACTTTTACCCAAAGA AAATCCTTAT TATCAACAAT CACAATGCCA TCATAACCAT GGTATAAAAA ATTCAAAATGTCCCAGCTGA AGTGGAGGCA AAGACTCAAG TTCATGGAGT CAGAGTTTCC TTGCTATTCC TCTTTTTCAAATGACCATTT AGTAAGCACC TGAAGAAAAT ACTATGGACG GCATTGAAAA GTGAAGATAG GTTTAATCTTCTCGAAAATC TAATTCTCCA GATGAAACGC TGACACTTAT CCACCCCACA GACCCTATAG CAGATGTGTCACTGGCCATC ACATTTGACA CAGAGAAGTC ATAACTCAGT CAGCACAGAG ACATTTCCAT GAGTTTCTGAACCATGGACA GAACGTCGTC TGTGGGACAT GAAAACTGGA ACTTAGAGGA CAGGCACATC TGAGAAATGGGCAGTTTAAA GGCAGAACAT AGCACATATG TGACTGGGTT TTAGAAGCAA ATTTACAAGA CGCACTCTTCTTCATCCTAA ATAATCTGCA ACCAAAGCTT CCAAAAAAGA CAATTTAGGA ATGCAGAGGT GAGGAGTAGGGAGGGGAATG GGATGAGAGA GAGTGGAGAT TAATGGTGGG CAGAGCGAGG TTTAGAACTT AGTGGTTTCTTCAGGTTCTG AACTGAAATT TGTATACTGT AAAGGCACAA ACACCATTTT TAACAAAAGT GAGCAGGACTTCCTATCTGG TTCAGAAAAT AGGTGAATAA ATAGTACGAA TTATTAAAAA TAATAATTTC CACTTATACATAGGAAACTT GATAGGAACC ATGATAAATG CTTAACTCTT AATCTTCAAG GAACTCTGCT AGGGATATAATATTATAAAT CTTGTTTTGC AGATGGAGAA ATTGAATTTT AACCCAAGTT ATCATAACCC TTAAATGATTAAATGATACT GTTACATGAG AAAGCTGCGT ATCTGTTTCC TGGATTTGTA GCCATAATTT GTGTCTCAAGTCCCTTTTGC TGCCAGCTAT CTTGGGTAGG TGTGTTCCCT TTGGGCTGTT TGATACCCCC ACATTTATCTTTTTTTTTTC TCTTTTTTTG TTGAGAGAGT CTTTCCCTGT TGCCTAGGCT GGAGGGCAAT GGCGCGATCTCGGCTCACTG CAACCTCCGC CTCCTGGGTT CAAGTGCTTC TCACGATTCT CTTGTCCCAG CCTCTCTAATAGCTCGGATT ACTGGCATGC ACCACCACGC CCACCTAATT TTGTATTTTT AGTAGACAAG GGGTTTCTCCATGTTGGTCA GGGTGGTCTC AAACTCCTGA CCTCAGGTGA TCTGCCTGCC TTGGCCTCCC AAAGTGCTGGGATTACAGGT GTGAGCCACC ATGCCTGGCC CCAAATTTAT CTTTAATGCC CCAAATTATC TAGTTCCCATGACTGGGCTT CTGCTTTGAT CCTTTCTGCA CTTGCTGGAC CCTCTCCCTG GGAAATGAGA TTGTGTCCTGAGCCCCTAGT TAGAGGCTAT GTCTCTGCTG TTCCTGAATG GGCCTCCTGG ATGAGACCTC ATTAAAAGTCTAATTCTCTT GGAGAATTGA GAGATACCTA TTTGTCTCAA AATCATTGAA ACCAATTAAT GTATTATGAGCCTCTATCCA GTGATTTGTA CCTCAATTCC CCAATCCAGC TGTCAAGGCC AATTTGTTCT ACCTTACCTAGTAGGTAAGT CTGGAATTGT AGCTGTGGCA TTTTCAGTAA TGGTACTCTA GGTTAGCAGT CCCCAACCTTTTTGGCACCA GGGACCAGTT TTGTGGAAGA CAATTTTTCC ATGAAGGGCT GGGCAGGGGA GTGGTTTCAGGATGAAACTG TTCCACCTCA GATCATCAGG CATTAGATTC TCACAAGGAG TGCGCAAGCT AGATCCCTCACACATGCAGT TCACAATAGG GTGTGCACTC CCATGAGAAT CTAACACCGC TGCTGATCTG ACAGGAGACAGAGCTCAGGC AGTAATACTC ATTTGCCTAC CGCTCACCTC CTGCCGTGCA GCTCAGTTCC TAACAGGCCACGGACCAGTA CTGGTCCACG GCGCAGGCAT CAGGGACCCC TGTTGCTAGG TATAAGCATC TGGCTGCTGCATGTCTTCTG TGTAGCTACA TCTGTATGTG TATCTGATGA GATATAAATT ATTTGATTAT AAATTACTTTCTTCATATTA GAGTTGTGAA TGAGTATCAC ATATAATTAT ACATAAACTA GGAATATGCT TTTTAATAATGTATATAAGT AAGTTTCCTT AACTATGACT TTCATCTTAG CGTAGTAAGA GGGTGCTAAG AAATATTTGTGATGAAAATA GGCATTGGTA GAGTTGAGAC CACTGGGTGA TGAAAGAGTG TAAAGATTTT AAAGCCTTCAGATGCTGGTT CAAGGTGAGA AATGTGATTG GGAGCAAATC AATTAACTTC TTGAAGTCTT ATAGGGCAGTTATGAATACT TAATGTTAAC ATATGTAAAG CTCTTCTGCC CTGTATACAG TAAATGCTAG TTAGCTATTATGATCACTAC TAAAATGGGG ATGACATAAA CCTCATAAGG TTTTAAGTAT TATGCAAGAT ACTATACAAAGTCCAGTAAA TATCACATTC AATTGAATCC ATGATGTCCG ATTATTTTAG CTACTTCCAA GAGAGAAAAAAATGCTGTCA GTTTTACTGT TCTTATAGAG AGCAAGGCAG ATCCCAATTC CCAATGTGGT AACGTGAAAATTTTTGCATT TGAATCAACA AAACACTTTC TCCTTTCTTT CCTACTATTT AACAACTGGT AAGTCTATACTCCCCCAAAT CTGGAATTCT CCTTTCTTAT TCTTTTTCCT CCTACCAAGA CCGCAGGATC TTTTACTTGGCTATAAGGGG TAAACCTCAA GTAGTACAAG TTCTCTGTAT TACTTTTATA CTCTGTCACA GATTCCCTTTGTTTCCTCAT CTCCATGTGA ATTTAGTTAA ATTCTCAGCA TTCTGATCCT TACTATACAA GGTAAATGAATATAAAAACA AAACGAAACA AAAACCTCTT CCTATTTACA TAAGGCCCCA ACCTAATATT TAGTGATATATATTAATGTG AACAAGGAAC TAACGAAGAC TGGGAAGAAA TTCACAGACT TGAGAGAAGA AATGGCAGGATTTCCTGGGA ACAATTTCAT GTAACGTCAA AGGTGGTAAA AGGTCAAATA GAATGAAGAT GGAGAATACCGGATTTTCTT ACAAAATGAT TTCCCAGGAG ATCTCATCAA ATGCACGAGG ATACCTTCTC AGTTTCACCTAGTGAGTAAA AGACTGGTAA CATAGCTCAC TTACAATTTG GATAAACAAA ACTAAACAAA CAACATCAAAATTTCAGAAA AAATAATAGC AAAACAGAAA TCAAACACTC AAATTTTTGG TCCTTCTGTT TATTTCATTTTGGATACTCA GTGAATGTTA ATTAACCAGG AAACTTAAAA GTTATTTCAA TTATGAACCT CTTCAATCCTTCATCAATTA TTTTGAGTAT TCTGGTCTTA AAAACATCTC TTTCTTCTAC AAACTTCTGA AAGAGATGAACACCTCCACC TACACCAAAA TAATGTGCTT TGCTGGCCAA AAGTACACGT CCATTTTTAC TTAACAGTCTAAGGAAAGTC TGGTGCAAAT TACTATAATA ATCTGGGTTG TAAATGGTTT CTGAGGTGAG AATGAGATCATATTTTACAA AAAGTTTTTC ACTACTTAGT ACAAGCTTAC AAAACTCAGA CCACTCACCA GAAAAAAATCGGCATTTATA TAGTTGTGTT ACTTTTGGTT TCCTGCATCT TTTCACATCT GGCTCATTTA CATCATTTTCTTCATCTTCC AAAGTGGAGT TAGCTACTAC ATTAGGTAAG GTTACTTCAT CAATCACCAT ACTGTTATAATCTTGAAAGT GAATTTCTTT GGACCCTCCC TTGAATGCAG TTATACCTAG TAAACCTGAT CCACAACCAAGATCCAAGAC TTTTTTCCCA GCAAATTTCA CTTTGGCCTT TGTGAAATAA GCCAGGAGGT CAAAGGTACATTCCCAGATT TTTAAGCCTC CCTCATAAAC ACCTGTAATC AGATCAGAGT GAGAAGAAAA GCTTTTTGAAACTATGTTTT CTCCAGGGAA GTTCTCTTTC AACAAGATGG TTTTCACTAC TGATAACTTA ACATGCTGGAAACCTGGTAA TGTTTCTATG ACTTTATTTT CTAACATCTT CTTTAAATCT TTAGGCATAG CATGCTCTTTGGCAGCTCTC AAGGAGGGCT GTTTTCCATG TGGCTCCAAG TTCCTTGAAC TGCTGGCTGC ACTGAGTGGACTGTCTGTGT CTTGAGAGGG AGCTGCATTT TCCATTGACT TATGTTCCCA CAAGTGATCC TGAGGCAAGTCAAATTGTTC TGCAGAACAT TTTCTGTCCC TCTCTTCTCC TTTTTGACTT TCTGAGACTG ACAGCTCTTTTGAGGAATCC AGGGTCAAAG CTCCATCTCT AATGGGTGTT AATTCATTTT CCAGATGGTC TTCTATAGTGAAATTAAACT GAAAGGTCAT CCTCTTATTA AATGCACACA ATCTTTAAAT TCAGATTCTT CAACTTCTGGATAGAATTTG ATGATACACA CAAATCTGCC TCAATTATTC AATTAGTTTT GTTGGGCCCA ATTTCTCTTTAGCAGCTTAT ACATGGTAAC AAATATTTAG AGATATTTCC AAATGACTTT TTAGACGTCT TTGGTCCTCTTTCCAAGCAG CTCTGGAAAG AAAAAAAAAA AAAAAAGAAA GAAAATGATG ATTAAAGCAAAATGGCACATTTCACTAAAG TGTAATATTA AACAGCCACC CCCACCCCTC CCTGTCCCAC CATACAGCTG CTTTTTCTTAAAAAGTTGTG GGGAAGAGAG AGAGATAAGA GATTTGGACA CTCATACACA CCTTAAGGGT TCCAAAGTGGGAGAAGAAAA TCAACTATAA AAACAAACAG AAGAACAACA GCAACCACCA CCACTACCAC CTGGACAAACATAAAGTCCA AGATATTCAG ACAGGACAGC CTAGCTACTT GCTGTCTTTC AGCTGTCTTG ATTTGTGTCCAACCATATTC ACCCCCTAAG CTTCCAGAAT AACTTCACTT CTGTCTTTTA CAGAAGAGGT GCAGTATTTTATTTTGGTAA GTCAGCGTCC CTTTAAAAAC ATGCATAGGT ATGGCCTGGT GTGTGTAAAT TCATCCAAGACTTCACTCCA AACATTTAGT CGAGAACAGC AGCCCTAAGT GTATAGAAGT GGGGGTAATT TGGCAATAATTAGTAAAGAC TAATTCGGTG GCAGAGCAAA CGCAAACTAG GGCACTGCAG TAGTTTGGAG AGACCTGTAGAAATAAGAAG CAACTTTATT GAGAATCTTC TATCTACTGC GCTAGACACT ATACCATCTG CCTCAATTTTCACAGTTCTG GCAAGTGGGA TCTTTGTTCC CTTTATACAA GATTTACAAT TTGGGGGAGA GGCGGGTCACCCAGTCCCGC GGCTAGGAAC GCGCCTCTTT CCTCTCCCAT CACGCTGCAA GGCTTGGAGT CACTTCCGGCTGCAGGTCCC GGAACAAATC CGACCCCAGA AGTGGGGACT TCTGGCCCTC ACCTCCCCAT TTGAATGTAATGTTTACAGT GATCCAGACC TGGGGATGCT TGCTTCCCGA CGTGTCCTGG GATCGCGCTT CTGAAAAAGCTCACCTCACA ACGCCTCCTC CGGACCTAAA TCGCGCACCA GTGAGTCGAG TCCTCCAGGG GCTAGAGAAGCCCGACTTTC TTTCCGGCCT TGAGGGACCC GGGCTCACCA AGAAACCAGC CGCCCTCCTC TCTATGGTTTTGGAGCCGGC GGAGAGCGCG CAAGGGTTGG CGGGACTGCG AGTTTCCGGT CTGGGCTTTG GCGGGTCTGGTTTGAAGCTC TCCTGTTTGA CGAAAGTATG TCTCAGGAAG GTGCGGTCCC AGCTAGCGCG GTTCCCCTGGAAGAATTAAG TAGCTGGCCA GAGGAGCTAT GCCGCCGGGA ACTGCCGTCC GTCCTGCCCC GACTCCTCATATCCTTCCTT GGTTGTCACT TCTACCTAGA GAAGGGTGTG GGCGGGTCGC GAACCTTTCT CTTCTGTCCCTTCAGACCCA CCGCCAGGCT GGGTTATATT ACCGCGGCCT GAACCCCCTC TTTTCTTTGT CAGTGAGTGGGATGAAAAGT GAGGGACTGG AGGGGAAGCG ACAACCGTGG TAGATTTAAG TAAGGCTTTG GCCCTGGAAAGCCTCGCGGA CGTGTTCTGA CCCAAGGTTT TAGCAGTGGA TGTGGCGTTT TCTTCCATTC CTTCTTTCAGTTTTTCTGTA CTCGTTGCTT GCAATTAAGT GTAAATACTT TTGCTAGTGG ATAATGGGGG AGGCAAGGACTGAGACCTGC GGTATGACGA TAGCTCTGGC TCTTAATAGT TTGAGGTAAA GCGAGATACT CTGAGCTTTTGTCTCCCGTA AAAAGGGTGG TGAATATGAA TAAGGGCTTT CTTAGCGTTA TAAGAATTAA AGGGCATAGTTCTGTGGTGT GAAATCTTTA AAAGATGTTC AGTAAATAAA AATGATTTTC CTCCTTCCCC TCTCAGACCTCTTTTTCTTC TTTCTTTCTT TTTTTTTGAC AAGTTCTCAC TCCTCTCACC CAGGCTGGAG TCTTTCTGAAAGAGTTCTTC CGCTTGTTGT TGGCTTTCAA CTGTTGGATT TGAGGCGCTT AGCGCCTTCT TCGTCCGGGTGCAGCACATT CTTGATTGGT CTCATGCCTT TGTGGTTGTA AATGTGCCTG GAATCCTAGC CTTTCATGGTAAACCATATG TATATGTATC TTTTTCACAA CATTTGAGCC CAGCTTTATA CAATTACACT CAAAAGAAAAAAAGTAACCT TCACTTGAGA GAATCTCAAT ACTGCACAAA TATTGTGCAG CTAAAGCCCT ATGTAATCACATAGAAGTCA TTCACCTAGG CATTAGCAAA ATCTCAGAAG GTGCCAAAGC CCCCTTTTTT AGTTTTTGTGTAGGTACAGA ACTGCCGTCT TCAAGGAGTT TCAACTTGAA AACAAATAGC CACCCTCAAA ACATTCAAAAACACTTAAAC TGCGTGCATA ATGTGTGTGA GACATGGTGT TAGGCTTTGG GAGAACAGAG ACACGGAACGTGATTCCTCT TCTTCCCCAC AAGCTTATAG AGAGACTTCA TTAAGTTGAA AGTCAACATT CCCACCTAGCTTTGCACTTC AAACGACATA TTCAAAAAAG CCCAAACTTC CTCTAGTTTT CTTCATCTGA GTAAATGGTTTCACAAACTG AAACCTTGAA TCCTCTCTGT CTCACACACC CGATCAGTAA GTTCTATTGT TTCTGATTCCAAACTATGTC TTGAATCAAT CCGTTTATCT CCATCCTCAT TGCTACCACT CTGATTCCAA ACCCTTATCACCTCTCACTT GGAGTATTAA TAGTTTCCTT GTTTCTACTC ATAATTCATT ATTCCAAAAA AGTTAAGAGGGGAAAAACAT AGATCTCGTC ATTTCCCTTT TTAAACCACT TTACCTTCAA GGTTCCAGGT GATCTAAGCCTTGCCCTTCT CTCATACCTA GTTAATTAAC TACACTCTGT TCATGAATAC ATTAGGCTCA CCTACCTCAAGATCTTTTTG CTCAGCCTGA TTTGTTCTCT CAGCCTTTTG CATATTTCAT GTTTATGTCT TGGCCCAAATGTCACTTCCT TAGAGGGGCT TTTTCAGAGC CTTCAATCTT AGGCAGTTCC CCCAAACGCA GTCTTACACTTGTATCACAT TGGCCTGTTC AGTTTTCTAA AAAGCACATT ACCATTAAAA GAAATGCTCT TGTTTGCTTTGTATATTTTC CACTTCTACA CATTATGTTG CAAAGTTCAT AAAGGCAGGA TGTTGATTTT CTTCACAGCGTTACCCTCAG CACCTAGAAC AGTGCCTGAC ACATAGTAAG CATTCATTAA AGGGCTAAAA ATATTTCATGTTTTAAAAAT ACTTGGGAGT CTAATTAGAC AATACTTTTT TTCAGCTTAA TGGTAGTATT TTAGCTTCACTATTTTAACA AATGAAAAAT TTGCAATAAA TCTACAATGC CATTACCCCC CAAAATCTTT TTCATGTTTTGCATTTTACG TATTATTTTC CAGGCCTTAC CTGCATGTCT GCATAATCAT AACTGACTAA TTTTGGAACAGCTGGTAATT ATTTGAGCTT TACTGAAATT TTTTCATGAG GCCAATTCTA CCCTACTGAA CTCAAATTTGAGTTAATGAT GACCTCATTT TGATTGCTGC TGTAAAAAAT AAGATTTCGG AAGAGGAATG AATTCTTGTATTACTGTGGT AGGACTATGG GTTTTTTTTT GTTTGTTTGT TTGTTTTGAG ACGGAGTCTC ACCCTGTCACCCAGGCTGGA GTGCAGTGGT GCGATCTCAG CTCACAGCAG CCAGGTTCAA GTGATTCTCC TTCCTCAGCCTCCCGAGTAG CTGAGATTAC AGGCACGTGC CACCATGCCC GGCTAATTTT TTGTATCTTT AGTAGAGATGGTTTCACCAT GTTGGCCAGG CTGGTCTCGA ACTCCTGACC TCGTGATCCG CCTGCCTCAG CCTCCCAAAGTGCTGGGACT ACAGGCGTGA GCCACCGTGC CCGGCCGGGT TATTCATTTT TCTTATTAAC ATTCTTTGATGATTCTTATG GTGTTGTTAC AGTAAAACAT TTCTAACAAT TATTCTAACA ATTATTCTTG ATGGTGTATATGAAGAATTT ATTGTCGTGT ATTTGTAAGC TGCTATGTGC AGAAGAATTT CAGTCAAATA AAGTTGGTAAGATAGGTATG TAAGTAATAT GAAAAAAGAT AGAAGGTGAT GAGTGACTTA GGTATAAATT AAGTACAATAGAAATGTTGA GGAAAGAAAA ATTTCTTGTA ATAGAAATCG GAAGTACAAA CTGGGCATGG TGGTGTGCATCTCTAATCCC AGCTCCTTGA GAGGCTGGTA TGGGAGGATC ACTTTAGCCC AGGAGCTTGA GGCTGCAGTGAGGTGTGATC ATGTCACCGC ACTCCATCCT GGGTGACAGC AAGACCGTCT CTCTTTTTTT TTTTTTTTGAGACGGAGTCT CGCCTATGCT GGAGTGCAAT GGCGCGATCT TGGCTCACTG CAACCTCTGC CTCCCAGTTTCAAGTGATTC TCCTGCCTCA GCCTCCTGAG CAGCTGGGAT TACAGGTGTG CGCCACCATG CCCAGCTAATTATTTTGTAT TTTAAGTAGA GACGGGTTCT CACCATACTG GCCAGGCTGG TCTTCAACTC CTGACCTCTTGTTCGCCCAT CTAGGTCTCC CAAAGTGCTG GGATTACAGG TGTGAGCCAC CCCACTTGGC CCCGAGCGAGACCCTCTCTC TAAAAAAAAA TAAATAAATA AATCATAAAC CTGTGGATTA TTGTAGCATT GTTTCTCATCTGTCAAAAAT ATTTCATGAC TATGCATAGT TTGAAAAGGC AAGTTTGTCC CTGGGCAATT TTCAAAATATTTCTTTAATG TGTTTTCACA ATACTGTTTA CCTAATAAAT CTTAAGTTTT TAAAAGCAAA ATTAAGCCAGTAATTTGAGT CCAATTCCAA TCTCTTATGA GTCATTGCTT AAATTTCAAA AGGGTTTTAT TTTTTTTTTAGGTTTGTTCT GAGTAATGAA TACCCTATTA CTATGATACT AGTATCTTCC TTAATTATCC TACTCATTGTCTCAACATTC TGACAGTTGG ATTGAGCATA TTCGTAAGTA AAATTGTTTT AACTGTATGA TGTACTTTGATGTTAAGGTC CGAGTCCCCA CATACCTCGG TAGATGTGTT CTTACAGTTT TGTATTCCCT TGAAATGTAACTGTTCTCTA TGTTACAGCC TTTATAACCT TCAGTTACTT GAAATGAACA AATTCATTCA AATTCCAGCACTTAAAAGTT TTAAATTACA TTTTGGATAA ATACCAAAGT GTTTTGTTGA TGATGTATGT ATAAACAAATTGTAAATATT AAACGTTAGT TGTTACGATT AGACCTATAT AAAACATGAT ATGCAGTCTA CTGAATAGCTATCAGCCTCT AACATGTTTA GTGTCATTTA GAAAATGCTT TCTAAATTGC CAAAAGCTGA TTGTCTAGGTGATAACAAAT TTACCATTTG GAGGAAGTTG ACTTTCTCAT TTTCATGTCT TCATCAGTCT TACTTGATGAGATTCATTCT TCTAGTCAGA AGAGAGTTTA GACTGCTCAG TTTACTCATA TTTTGAGTTA GCTTTTCTATTTAGAGTTCA CTTGGTTGTG GAATATTCAT TTATAATTTG AATCTACGTT GTGTAATGGG ACCTAATTTTTTTTTCCTTT GTTTTTGTTG GAGTCTCGTT TTGTCACCCA GGTTGGAGTGCAGTGGCGTG ATCTTTGCTCACTGCAACCT CCACCTTCCA GGTTCAGGTG ATTCTCCTGC CTCAGTCTCC CAAGTAGCTG GGATTACAGGCATGCTTCAC CACGCCTGGC TAATTTTTGT ATTTTTAGTA GAGATGGGGT TTCACCATGT TGGCCAGGCTGGTCTCAAAA CTCCTGAGCT CAAGTGATCC TCCTGCCTTG GCCTCCATAA GTGCTGGGAT TACAGGCGTGAGCCGCTGAG CCTGGCCCCA GAGTTTGTTT TGTTTTGTTT TCAAGACAAG ATCTCACTCT ATTGCCCAGGCTGGAGAGCA GTAGTGCGAT CATAGCTCAC TGCAGCCTGA ACTCCTGGGT TCAAGCTATT CTCCTGCCTCCATCTTCTAA AGTGCTGTGA TTACAGGTCT GAGCCATGAT GCTTGGCCTG TGTTTTTGTT TGTTTGTTTTGGGGGACAGG GTCTTGCTTT GTCACCAAAA CTGGAGTGTA GTGGTGCGAA CATAGCTAGC TCACTGCAGCCTCCATCTCC CACGCTCAAG CAATCCTCTC ACCTCAGCCT TCCAAGTAGC TGAGACCGCA GGTGCGTGCTACCATGCGTG GCTAATTTTC TATTTATATA TTTATTTTTT GGTAGACATG AGGTCTTGTC ATGTTTCCCAGGTGGTCTTT AACTCCTGGG CTCAGACAGT CCTCCCGCCT CAGCCACCCA AAGTGTTGGG ATTACAGGCGTGAGCCACCA TGCGTGGCAT AATTTTTTTT AAGTAAATTA TTTTTTTATC TTGAGTATAG AAGTGATTCATGTTCATTGT GGAAAATATG AAACATATAG AAAAACAGAA AAGATTACAA AACATCTAAT CTGAAATGGTTAAGATTTTG ATGAGAACAG TCTCATCTCA TTTCCGTATA TTCCTGCCAG CCTATCCATC ATTCTTCGTACATGTTTATC TACATTAAAA TTGGTGTTAT ATTTTGGAAA CTTTTTGTTT AACTACATTG TGAACATTTTTCATGTTTTA AAATGTCATT TTAATGATGG CAGATCCTAT TCAATAGATG TACACACACC TATTTAACTGGTCCACAATT GTTGGATATG TAGGTCGTTT CCTTTCTCTC TTTTTTTTTT TTTTTGGCTA CTACTTAATAGTTTCTCTGT ATAGAATGTG GTATTTTGAA AGTGTATCAA GCTTTAGATT GGTAGTATTC TTGCATTTAATAAAGGGCAG TGGCCTTTGT TGACTGACAT GACAATATTT TTATAAAATT TGTTATTTGC TTTACAGAAATTTTGAAAAT TATTGTAGAA ATGTTTTTAC CTCATATGAA CCACCTGACA TTGGAACAGA CTTTCTTTTCACAAGTGTTA CCAAAGGTAT AATACTATTA CCTGAAAATA CATGTTATAA GGAATCTAGC CTCAGTCTTAGATGATTTAT TATTAATTAT GGCTCTCTTT TTCTAATATA TCAAATATAT TCAAAATAAA AATAAGGAGTAAGTAGATCT CATGTGAGAC TATAATGGTG TTAGTGTGAT CATTAGGCAG TTAAAAACTG TTACAGGCTGGGCACGGTGG CTCATGCCTG TAATCCCAGC TCTCTGAGAG GCTGAGGTGG GCAGATCATC TGAGGTCAGGAGTTCGAGAC CACCCATGGT CAACATGATG AAACCTCGTC TCTACTAAAA GTACAAAAAA TTAGCTGGACATGGTGGCAG GTGCCTGTAA TCCCAGCTAC TTGGGAGACT GAGACAGGAG AATTGCTTGA GCCTGGGAGGCGGAGGTTGC ATTGAGTCAA GATCGTGCCA TTGCACTCCA GCCTGGGCAA TAAGAGCGAT GCTCCGTCTCAAAAAAAAAA AAAAAAAAAA AAGAACTTAT ATTTTCAGAT TGTGTGGTTC CTTTACTAAC TGAATTTAAATTATTTGTAG TCAATTTTAA ATGCTCTTGT ATTTTAAAGC CACTGTACTC CAGCCTGGGT GACAGAGTGAAACCCTTAAT TCAAAAAAAA AAAAAAAAAA AAGAAAAGCT GGAATATTGG CAAAATCAAG TAACTAAGAGAAAACATTAA ATTCACAGAA TACATTATTA CATTTTAGAT ATATATGGTA TATGTTTTCT CTGAAAAGCACAAGCATACC TTTTTTGTTT TAAATGGAGG GAACTAAAGA TACTTTGGTG CCAAAATGAA ACATTATTTGTAATTAATCT CTTATTGAAA TGGGTTTCTA ACTTTAGCTT TGAATCGTAA TCTTTCAAAT TTCTTGTACTCATAGTCACT TGATGATTCT CTATCTGAAA TATTTCTTAG AATTTGTTCT TGACCACCAG AAAAAGATTCAACTGTTACA TAGATGAAAA TGGATGTTGA GTGTTAACAG GCCTATGGGA AACAGTATTT TCTTTAGCTACATTGTATTG TTGACTGTGT TGCTATTCTT ATAATGTTTA GGTCATTTAA ATTGTTAGAA AGATCCAAGTATTAAGATCT AGGGTGGCTA ACTTTTCACA GACAAAAAGC TTGTTTGTAA GGTCATTTAC TATACCCTTAATTCAGGAAG GTTAGCTTGA ATTGGGTCAA AAGGAAACTG GTTAGAAAAT AAGTGAGTAG TGAATAGGCGATTCAGTGCA AATTCCTTCC AGAAAATACC CTTGTAAATG ACTGTATGAA TGTGGATTCT TCAAGACAGTCAAATTTATT GTGCGAAAGT AATACTTTTA TTTTTTGCAT CTCTAAAACA TGAACTTTGA GTGATTTTTTAAAAAAATTG ATGCTATTAA ATAGATTCAA ACCATAGAAA TGGAAAATAA ATTTCTGTTT GGGGCTTTTGGGGGGATTAT GTTGTAAAAA TACCTTTTCT CTGTATTTTG TGCTTAATTA GGTACAATTG TTAAGCTAGATGATAGCCTG TGGATGTTAC TAGTGCAAAA TCAAATTATC GTATTGTGTT TTCTCTGTAA AGTTTTGTCTTGTCTTTTCT AGTGATTTCT CTTATTCCTG TTTATTACTT GATTTGTTTT TACAGACTGT GAAATTATTCGATGACATGA TGTATGAATT AACCAGTCAA GCCAGAGGAC TGTCAAGCCA AAATTTGGAA ATCCAGACCACTCTAAGGAA TATTTTACAA GTAAGTCAAA TGTATTAGAA AGCAGGAGAG AGAGGGAGCT TAAAGAATGTCAAAATTTTT ATACTGATAC TGATTAGCTA TGTATTCTTA TGTAATGGCC TAATGTTGGA ATTAAATTTATAGAATTAAA GACGTGAATA TAGAAACATG AATTCTGAAT AATAAACTCT TATAAGAAGA GAAGTCATCAAGCTAGCTGA CCCTACCTGT ATTTTCAAGG ATATGTGTGG AACACCTGCC ATGTGTTTTG AAGTTTGTGTTAGTATTCTA AATGGCTAGA CAGTTGTTCC AGTATTTGTA GTTCTGATAG ACTAAAGTTC TGTGAAAAGAGGAAGAGACT GTGTTTTGTT CATTGCTGTA TTTGTAGCAC CCAGCATGCT GACTAATACC TTTTCAGTGCACAAAAAATA TATTCTAAGT GAAATTTCCT TCCTTATTCA CAGACAATGG TGCAGCTCTT AGGAGCTCTCACAGGATGTG TTCAGCATAT CTGTGCCACA CAGGAATCCA TCATTTTGGA AAATATTCAG AGTCTCCCCTCCTCAGTCCT TCATATAATT AAAAGCACAT TTGTGCATTG TAAGGTGAGT AAAGGTCTAA TTATACTTTGAATGGTATAT AATCAATGTG CATAGGGGCT GAGTAAAATA ATGTTTGTAT AAGATTTTAC ATTTTAGTCTATATTATTGA AATAAACTTT TCCATAGAAT AAAGAACATG TAAGTAAATA ATTGTTGCAA AAAAAGTGGTTTTAAGGAAG TCATTAAAAG TGGCTTTTTG GGGTTTTTTA GTTTTATCTT ATTTCCCCTC TATAAAGAAAGAAGTTTTAA GAATTTGTGT TGAGACAGAC ACAGGGATCC TGAAATAGTT ATGTCATGTT GCATTGACCAATATTCAATT ACCATTATGA TTAGATGTCA GAACTTCCTT TTATAAAGGA AAGTTAATCC TTATTTAGTCCATCTCTACA TGCCAGAGGT AGCCTTGAGG CACAAAAGCT TGCCTAGAAT TTATGGGTCA CAGACAGTTTTAATATTGCT ATTTGTTGGG CGAATGAAAA TCACTAGTTA ATTAATACCT CTCTTTGCTG ATAGGATGCTAAAAATGTCA CGCACCTGGC CTAATGTTAC CCTTTTTTAG TTCTGTATTT GCAAGATCAT GGAAGTCAGAAATAATATTT TATACATGCT TGCATCTCTT GAAGCACACT ATATTTAATG GATGTTCACT AAACAATGAATGAATATGTG ATTCAGTAAA TTTATGATCT CTAATAGTAT GAATTAAAGT AAATTTGGCT CTTGAGCTTTGATTTGTTTT TTCTCTCATT TTTATTTATC CGTAATCAGA ATAGTGAATC TGTGTATTCT GGGTGTTTACACCTAGTTTC AGACCTTCTC CAGGCTCTTT TCAAGGAGGC CTATTCTCTT CAAAAGCAGT TAATGGAACTGCTGGACATG GTTTGCATGG ACCCTTTAGT AGATGACAAT GATGATATTT TGAATATGGT AATAGGTGAGTGAAGAAAAC TTTCTGCTTA GTATATGGTG ACTATAAATC ATGTATCAAT TAAAATTGTC TCTAATGATTCATGTTATTT TCTTACTAAT TATGCATTAA AATTGATTTA AATCTTACCA AATAAATTTT TAATCTTGAAATTTGGAATT TGTAAAATTT ATTTTGGGTA CCTTAACCTA GATTTGCGTA TTTAGTTACT GTAATTTCTCCACAATGATT AACTTATATA ACTTTATAAT CTCTGAGGTT GTCCATATTC AGAGACAATA ACTTTCACATTTTTTTAACC ATAACTGATA TTGAGATGCA GTTTATATTT CCTTCCAGAA TACATATAAA TACGTGCATATGTGTATGTA AATATGTCTA TTCTCATATA CATATTATAA TGAAATAACT CATTTTACAT GTGATGCACTTTATACTAGT TTATTTTTAT TTTATTTTAT TTTTTTGAGA CAGAGTCTCA CTGTGTAGCC CAGGCTGGAGTGCAGTGGCA CAATCTCGGC TCACTGCAAC CTCGCCTCCC GGACTCAAGC GATTCTCCTG CCTCAGCCTCATGAGTAGCT GGGATTATAG GCGTCCGCCA CCACACCTGG CTAATTTTTG TATTTTTAGT AGAGACAGGGTTTCACCGTG TTGGCCAGGC TGGTCTTGAA CTCCTGACCT CAGGTAATCC ACCTGCCTCA GCCTCCCAAAGTGCTGGGAT TACAGGCATG AGCCACCGTG CCCAGCCAAT ACTAGTTTAT TTTTAAAGAA TTGCTGGTCGTAACACACTT CATTGATTTT ATCACTCATT AATGGATTAT GAACAAGAGT TTGAAAAACA ATATAAAGGCAAAGTTTGCA TTCAAAACTT TGGTATAAAG AGAGTAAGTT GGTTTTGTGC AGTGTATCAG GCACCTGTTGCTCTGCAACA CACCACCTCA AAATCTATTT ATTCACTATT TATTTATTCA TGATTCTGTG AGTCTGCAGTTTAGGGTGGG ATGTCCTGAG ACAACTTTCT CTGATCCACC TGGGGCACTA GCTCACCCAT GTGACTTCAGTGACTTCATT CACATCTGGC TGTTGGCAGA GGCAGAAGTA CTTGAGAAAG CCATGTGCAT CATCCAGCAGGTTCACCCTA TCTCAGATAC CTGATGCCAG TGGTTTCAGG GTTTCTAAGA GTAGCAAAAG TGTGAGCAGGTCGCTGTGTG CTAGCACTTT TCAAGTTTCT GCTTGCCTTA ATTTTATTAT TGTCCCCCGG GCCACAGCAGGTCATAGCGT TTAGCCCAGA GTCATTGTAG AAAAGTGTGG ATTCACAAAG GGCAGTCATT GTGGCCATTTTTATAAATAA TCTACCACAG ACTGAGTAAA AGCCTTGCAT GAATACCATG GATATTAATT TGAATTCTTCCTTTTTAGAT TTTCTTTCCT TAGCAATTTG TTTTGTCATT TTGGATTAGA ATTATATCTG TAGAATATTTCAGTTATAAT AGGGTACAAC TTTTATTCCA CTGAACATCT TTAGTTTTAT TTAGGTCATC TGGTAGGTATAAACTTCAGA AGTTAATATT CAATATTTAT AAAAACCATT AACAAGTGTG ACACTTAAAT AGTTTAAATAATTCTTTTGA CACAACTGTT TCCAAGTTGT GTTACGTATT TTAATTCAAT CAAATGTTGA AATTGTTCAGTAGATAGTTT TAATTATAGG AGAAACTCAC CCCCATGACA TTTGGATGTC TTAAAAGTTC TGTTATCTTTCTTTGCAGTT ATTCATTCTT TATTGGATAT CTGCTCTGTT ATTTCCAGTA TGGACCATGC ATTTCATGCCAATACTTGGA AGTTTATAAT TAAGTAAGTT TGTTTGTTAT TTTTTACTTT TTAGAAAATG TTTTCCATATTCCCCAATCT TAATTATTCA TGATTCTTTA GATTGCATTT AAAACATTTT GTGTGAATTT AATGTTCACTGACACTGCTG TCTGATAATC CAGATATTCT ACATGTAGCT CTCAAGCCAA ATTGGACTTC TTTACCCTGTGGCCTCTAAA ATTAAAAAAA ATGTTCTTCC TAGTTAGCTA GTACTTCAGA AATAATCGGC CATGGGCCAGACTAGAACTT AACCACTTTT CTTCTGCTAC TGTTGTTTAA CCAGCTATCA AGTATCCTAT TTCTAGGATTAGATAAATTG ATAACTATAA TTAAAACTGA ATATAATCTT TTCATTAGGT ACTTTTAAGT TGTTCACACTTAATTCCATT TGTACAGTAA TTTTAACTTT CTGAAACTGA AGCATTTTAA AGGGTCACCA GGGATAGTGCCTGTAGCATT CATCAGATTC TTAGGGGTGA GAGGAGATGT GGTTGAGATG TAAAAATGGT TAAGAATATCTACTTTATAC ACATACATAA AACATTAAAG GTCAGTGTAT TTTCAGGTCT TAGGTACTTT TCTTGTACTACCAGGACATT AAGTTGCCAT TCAGTGGTTA AGAGTGTTGC CTGGGAGCTG TATCACATGT GCTTAAATCCATTCTTGAAA TCATTTACTC CTTCTGAGCC CTTGGGCTAT TTGGTTAATT TCTCTGAACG TTAGTTTGCTCATCTGAAAA TGGAAATAAT AATAGCAACT TCTTGACAGG GTTATAGTGA GAATTGAGTT CATCACTGTGAAATGCTTAG AAATGTGCAT GACACATAGT TAATACTCAA GGAATTAGCC ACATCACTAT CATCATCACTGATTATCTTC CACTCTTACC CTCTTCCAGT TCATTTTCTG CCCAGCAGAA TGATCTTTTA AAAAGTAAATCAGATCATGT TACTCTATTG CTTGAAGTCT ATCCCATTTG ATTAAGAATA ACAACCTAAT CCTCTGTGGATGCTGCCTCC TTCACCAGCC TGTCTCATGC TGCTCTCCCT ACTCTTAGTT CCTCAAACAT ACCAAACTCTCCTGTCCCAG AGTCTTTTCG TGGTTTTTCC ATCTGCCTAG GATGCTTCTC TCTCCTATTT TGTGTACCTTGCTAACTCCT GCTTACTGTC TTTCAGTTCT CAGCTTAAGA GTTATATCTT CATGATAACA TTCTTTGATATCCTTACCCT AAGATTAAGT TAGATTGATA TCCTTACCCT AAGAATAAGT TAGATTAGGT CTCTCTATTGTAGCACCTTA GACTCTGTCA TTTGACAAAT CACAGCCCTA ATTAATTATT CTTAAAATTA TTTAACATTCTCTCTCATGC TAGACCACAA GTTTCATGCA GGTAAGGCGG AGATTGTGTC CATTTGTTTG ACCCCTTTGTCTCCAGGGCC TGGTAGAATG CCTCATACAT AGTAAGAATT CAATTAATAT TTTACACAGA GAAAAAATTAGCAACTTATT TAAACAAATA TAACTGCTTC AGAGGTAAAC TGGGCACATC TTAGTTATAT TATGTGATATATGATGCTTT TTGATTGTTT TTTTAAATGT TCTACAAGGT AGATATTGTT AGAGGTCCTA AGTTACTTGATGTGTTACTT GTGGTGATTG TATTCTTTTC TTTTTATTCA TTTAGGCAGA GCCTTAAGCA CCAGTCCATAATAAAAAGCC AGTTGAAACA CAAAGATATA ATTACTAGCT TGTGTGAAGA CATTCTTTTC TCCTTCCATTCTTGTTTACA GTTAGCTGAG CAGATGACAC AGTCAGATGC ACAGGTAAAA TTTGGGCTAA TAGCATTTTAAACAGCAACT CTTATTTTCT TTGGCAGTTA GTAAATCTCA TTTGAATGTC TGGGTCAGTC TATTTAAGAGGATTTTAATT TATTTCATTT GGGTGTTTTT TTTTGATCTG TGGGATTATT TATATCCCAT AATTACTTTTCACCCAGAGC ATTGTATTAG ATTCCTAACT GCTGTCATTG CCTCTGGGGT CTGCCTGGCT CCCTCTTTGCTTGGTAACTG GTTGGTCACA GCATTCTTCT CAGAATCCTT TCATTCTTTT CTGCATGAGA ACAAAAATTCTTTTGTTCAT ATTTGTATAA GATCTGATAT AGCTGCAATC AATCTTGCAT TTTTTCTTCA CCAACGCATTGCGACCTTTA GGGATACAAG TATGTTTGTG CATGTATATG TATGTATCAG TCTTTTAAAT TTGATATAGTCATACATTTG TTTTTATTTT GAAAAGTTAG AGTGTTGAAT TGGTATCCCA TTTATGAAAC ATTATATTCTAAAAATTTGT AGTACGATTA TTGGGAATTA TAACTCATTT TCCTGTAACA CTGTTATACA TAGTACCTTTTGCTTTCAGA CTAGCCCTCA ATTTTATTTA ACTATAGTAG TCCTAAATTA TAAGATTAAT AGTACTCAGGACCTAACAGT TATATGTCAT TTGTTTTTTT TTTTTTTGAG ATGGCGTCTC ACTCTGTCAC CCAAGCTGGAGTGCAGTGGT ATGACCTTGG CTCACTGCAG CCTCTGCCTC ACGGGTTCAA GGGATCGTTC TGCCTTAGCCTCCTGAGTAG CTGGGATTAT AGGCGCCTGC CACCACGCCT GGCTAATTTT TTTAGTAGAG ACGGGGTTTCGCCATGTTGG CCAGGCTGGT CTCGAACTCC TGACCTCAGG TGGTCCACCC GCCTTGGCCT CCCAAAGTGCTGGGATTACA GGTGTGAGCC ACCGCGCCCA GCCTATATGT AATAATTTTA ATGGGACCAT GAATTGAATATTTCTTCCTT GAATAGCAAT GACATAGCCC CTTCTATTGT ACATCTGCAA GCTGATACAG GGAATTCCTTTGTACCTGCG CTCTTCCCTG CCAGTCAGCT ATGGGGGTGA AAGTGTAGGG GTTCATCCAA GTCCTAAAACTGGTAGCAAC TCCTAGGGCA GGGCTGATCT GGAAGGACAG ACCCTAGGGG AGGGTGGAAC TTTAAAAAGAAGTTCTGAAG GTAGTAAGAA GGAAATGAGG AGTAGTGTTA GGAAGGGGCT AACTTTTTTC TTCTTGCTTCTCTTCTTTAT CTCACCTGCC CCTCCCCTTG TATCCCTTCT TCCTTTTTCC CTTTCCTTTT TTGTCCTCACTTCATTCGTG CATCCTTTCT GATTCCTCTT ACCTTGCTAA AAGGAGAAGT TTGTTTGGGT ATCCTATATCAATGGCAGGA AGGTTGTTTT CTTCTTTACC TTTATCCTAT AGATTCATAT TCTCAACACC AACCTCCTCCTTTTTCAGTT TCCTTCTTGC TTCTCTTGAC ACCACAGAGT TTGCAGCTAG TACTTGGAGA GGAAAATTAAACAGAGATAC TTGGACCAAG AGTAAGATGA AGAAAGTCTA AACAACAGTA TAGTCTATAG TGGCAAGAGAGAGTATGGGG GCTGCTTAGC CAGGGTGGCT GTACATAAAG TATATCTTCA GTTTATATAA ACTGCTTATAGATGGAAATC AGAAAATTTA AATTCTCTTA ACTGTCCAAG AAAATTCTCA TTTTTTCAAA TTTGGGACTGATAAATGTGA CCAGTTCTGC TTACTGTCCA TTGCCTGAAA TGGAGCTTTG AGGTGGACTG TATAATTTCTTCAATCTTAA CTCCAAATTC TGATCAGCGA CGCCCTCTGC TGTTCACTAT TAATATTTAT TTACCAATCAAAGTAAAGTA TTGAAGTTTT CCTGGCAGTT TTCACTTTGT GTTTTAGTCC ATTTAGGCTG CTATAACAAAATCCCTTAAA CTGGGTAAGG GATTATAAAT ATTAGAAATT TATCTCTCAC AGTTCTGGAA GCTGGGAAGCCCAATATCAA GGCACCAGTA GATTTGGTGT CTAACGAGGG TGTGCCGTCT GCTTCAAAAA TGGCCCCTTGTTGCTGCATC CTCACTTAGT GCAAGGGGCA AGACAGCTCC CTTCAACCTC TTTTATAAGG GCACTTATGTCATTCATGAG GGCAGAGCCC TCATGACTTA ATCACTTCCC CAAAGGCCCC ACCTCTTAAT AGTATCACATTGGGTGTTAG GTGTCTGGGA GGACACCAAT CTTCAAGCCA TATCATCTCA CTTGGAAAAA AGTCAAAATAAAACCAGTAG ATTTAATTAA TATTACACTA TTTATAGAAG CATGTGATGT ATCATTCCTT GTATTAATTTCCTGGGGTTG CCGTAACAAG TTACCACAAA CTAGGTGGCT TAAAACAATA GAATTTTATT CTCTCACATTTCTAGAGGCA GAAGTTCACA GTGTGTCAAT AGGGCCATGT TCTCTGGAAG GCTTTAGGGG AGAATATATTTCATATCTTT CTCTTAGCTT CTCGGTGTCA CTGGCAATCC TTAGCTTACT TTGGCTTTGT GTGTGTTGAGATCATCTTTT TATAAGAACA CCAGTGATAG TGATTAAGGG CATACCTTAC TTTAATATGA CCTCATCTTAACTAATTATG TCTTCAATAA CCCTATTTCC AAATAAGGCC ACATTCTGAA GTATTGGGAG TTAGAACTTAAAGCTTTTTG GGAGGGACAC AGTTCAACCC ATAACAACCC CTAAAATCGA TATTTATTCT CAATTAAGTCTTGAAATTGG TTTCAAAAAG AGAATATTCT ATTAGAGTTT TTAATGTATA GTTTTAACAT ATAGTTCTTTAGCCCCCAAT TTTTTTTTTT TTTTTTTTTT TTTTTTTTTT TTTTTGAGAC GGAGTCTCGC TCTGTCGCCCAGGCCGGACT GCGGACTGCA GTGGCGCAAT CTCGGCTCAC TGCAAGCTCC GCTTCCCGGG TTCACGCCATTCCCCTGCCT CAGCCTCCCG AGTAGCTGGG ACTACAGGCG CCTGCCACCG CGCCCGGCTA ATTTTTTTGTATTTTTAGTA GAGACGGGGT TTCACCTTGT TAGCCAGGAT GGTCTCGATC TCCTGACCTC ATGATCCACCCGCCTCGGCC TCCCAAAGTG CTGGGATTAC AGGCGTGAGC CACCGCGCCC GGCCTGCCCC CAATTATTTAGTTTTTCTAT AAACAGGGAA ATTTATTTGT GTGGCCCTTA GAACTAATTT AATTTCCACT CTAATTCCTACTTATGTTTA TATAATGCTT TTAGAAATTT GTATTATTCA GAAAATAAAC ATATACTATT GTATCTGTTGCCTACACTTA GATTTTATTG CCTGCTATAT TTAAATTTTA TTAGTATTTT AATTGTTTTA TTAAAGAAAGAATGTGCCTG TAATCTCAGC ACTTTTGAGA GGCCAAGGCA GAAGGATTGC TTGAGCCCAG GAGTTTGAGACCAGACTGAG CAACACAGGG AGACCCCCAT CTCTACAAAA AATAAAAAAA TTCTCCAGGC CTCATGGCACATACCTGTAG TTCTAGTTAC TTGGGAGACT GGGGTGGGAG GATGCATTGA GCCCAGGAGA TTGAGGCTGCAGTGAGCCAT GATCAGGCCA CTGTACTCCA GCTTGGACAA CAGAGTGAGA GCTTGTCTAG ATAGATAGATAGATAGATAA TCTAAATAGA TAATAGACAG ATTATCTAAA TAGATAATAG ACAGATTATC TAAATAGATAATAGACAGAT TATCTAAATA GATAATAGAC AGATTATCTA AATAGATAAT AGACAGATTA TCTAAATAGATAATAGACAG ATTATCTATC TAAATAGATA ATAGATTATC TAAATAGATA ATAGATAGAT AGATTAGATAGATAGATAGA TAGATAGAGC TTGGACAACA GAGTGAGAGC CTGTCTAGAT AGATAGAAAC AAAGAAAGAAAGAAAGAATG GTGCTCATAT TTTAAAGCAT TGAAAAATGG TCTTCCTTGC TTATATTACC CACACCTTCTTTGTTGGCAT TAAGATGCAA ACTTTGTTTT AAACAGTTGA GTAAATCAAA GATGGGACTG TTAAGTTATTTGTGTTATTT ACCTGCTTTT TGAAAATGTA AAAATAAAAC TCTAGGTTTA ATTAGTAGTA TGCTATTTAGTAATGAAGTA AAGCTAGAGG CTTCGAACAA ATCTTGTGTA ATTTCCTCTT GAATGAGAGA GAAAATTTAAAGTAAGCAAA CAAATAAGTT GTGTGTCACC ACTCATTCAG TCATTTAACA AGTATTTCCA GAGTACTTATTCTGTGCCAG GAAATGTTGT AGGTGCCCTC AACAACTTAG AGTCTAGCCT GAGACACAAG TAAGTAGGTAATTATTATAG AATGGTATGA TCTTTGGAGG ACTGGGTATT GGCTGGCTCA TGGGAGTACA AGATAGGTACCCAGTGATGA AGTCAGGAAA GGTTTCTTAT GGTGATATGA TGACGTCTAT GCTGATTATA AGGTCAGTGTAGAATAAACT TTGTGCTTTT AAATTTGCAT AGCACTGTAT TAGAGAGTTC ATCTTCAAAA TAATCGAAAAGGCTGAGTGT GGTGACCCAT GGCTGTAATC CCAGCACTTT GGGAGGCCGA GGTGGGCAGA TTGCTTGAGCTAGGAGTTCG AGACCAGGCT GGCCAACATG GTGAAACCCC GTCTCTACTA AAAATACAAA AATTAGCCAGGAGTGATGGT GCGCACCTGT AATGCCAGCT ACTTGGGAGG CTGAGGCAGG AGGATCACTT GAACCCAGGAGGTGGAGGTT GAAGTAAGCC GAGGTCATGC CACTGCACTC CAGCCTGGGC AACAGAGTGA GACTCCATCTCAAAAAAAAA AAAAATGATC AAAGAAAGGT GAATTTTCAT CTACCCTATT TCTGCTGAGG AAAATGGACTATTTTCAAAT ATTTTTAATA AGGGTCAAAA TGAGGGATC GCCACCATGG AAACCCTTTG CCTCAGGGCATCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATA ATCCTGAGAG ATACAGCACA AATCTAAGCAATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCT CAGCTTCCTG GTTACCACTC ATCAACCCACTAATTTGGTC CTACCCAGCA ATGGCTCAAT GCACAACTAT TGCCCACAGC AGACTAAAAT TACTTCAGCTTTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCA TCGTGGGAAT GGTGGGGAAT GCAACTCTGCTCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCC CAACGCGCTG ATAGCCAGTC TTGCCCTTGGAGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTA TTTAAGCTGC TGGCTGGGCG CTGGCCTTTTGATCACAATG ACTTTGGCGT ATTTCTTTGC AAGCTGTTCC CCTTTTTGCA GAAGTCCTCG GTGGGGATCACCGTCCTCAA CCTCTGCGCT CTTAGTGTTG ACAGGTACAG AGCAGTTGCC TCCTGGAGTC GTGTTCAGGGAATTGGGATT CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCC TGTCCTTTAT CCTGGCCATTCCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACA GCATAAAACC TGTATGCTCAATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGG CTCTTCGGGT TCTATTTCTGTATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGA TGTTGAACAG AAGGAATGGCAGCTTGAGAA TTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGC AAAAACAGTT TTCTGCTTGGTTGTAATTTT TGCTCTTTGC TGGTTCCCTC TTCATTTAAG CCGTATATTG AAGAAAACTG TGTATAACGAGATGGACAAG AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATT ACATCGGTAT TAACTTGGCAACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAA ATTTAAAAAT TGTTTCCAGTCATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTC CCCATGAACG GAACAAGCATCCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGAC CGGAGCAGCC ATAAGGACAG CATGAACTGACCACCCTTAG AAGCACTCCT

(2) SEQ ID NO: 3010 data:

(i) sequence characteristics:

(A) length: 2936 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3010 sequence description: CCGGGGCTGC BGCBBCCTCB TCBGCTCTTG CCTGGBGTGG CTCBGCCTGG GCCTGCBGGG CCBCCBGGBGBBTGGCBGCB BGGBTGGCGB GGGTCCTCBT GGCTGGGGTC BCBGBTCCTC TBGCTBGGCB GGGTGBCCBGBGBGGGC GGG TCC TCB TGG CTG GGG GCC TGG GCC TGC BGG GCC GCT CTT GCC TGG BGT GGC TCGCC CBG BGT CTT CCC TGG T GCTCAGCCTC CAAAGGAGCC AGCCTCTCCC CAGTTCCTGA AATCCTGAGTGTTGCCTGCC AGTCGCCATG AGAACTTCCT ACCTTCTGCT GTTTACTCTC TGCTTACTTT TGTCTGAGATGGCCTCAGGT GGTAACTTTC TCACAGGCCT TGGCCACAGA TCTGATCATT ACAATTGCGT CAGCAGTGGAGGGCAATGTC TCTATTCTGC CTGCCCGATC TTTACCAAAA TTCAAGGCAC CTGTTACAGA GGGAAGGCCAAGTGCTGCAA GTGAGCTGGG AGTGACCAGA AGAAATGACG CAGAAGTGAA ATGAACTTTT TATAAGCATTCTTTTAATAA AGGAAAATTG CTTTTGAAGT AT CTGCAGTGGT AAAAAGATTC TATATCTGCT GTTTGATGAATGCAGCACCC ACTAGCCACA TAGTGCTCGT GAGCACTTGC AATGCGGCTA GGGTGATTTC AATTAACCTAAAAGAGAACA GCCACAGGGA GCATGTGGCT GCCATATTGG ATGGTGCTGC TTTGAGAACA AAATGAGAGAAATGAAGCCT CTATTTACCT TGGTTGGCGG AACACATTGA AGGGACTCTG TATTGATACC AGGCTTCAAACTTTGGGAAG TGTACTGGCC AACTTAAACA CATCCACAGG AGAATGAAGA GGTTTGGGAA GGGACCAGAAACCAGGCATT GAGGACAATG AGAAGAGTTT TTCAAAAGTG GAATTACTGC AAAAAGTGGA AAAATAGCCTTTGGATGGAA GTTACTGATG AGACAATTTC CATCGGTGTG AAAGCCATCT TTCCAACAGA GATCTGCAACATGAGAATGT ACTGTCTCCT AGGGTAGCGA TGGCCTCTTG TATTAGTCCG CTCAGGCTAC CAGATTTATCGTTTAAACTG CCCATAAACA GACCAGGCAG TTTAAACAAC AGAAATTTAT TTCCTCGCAG TCCTGGAGGCAGGAAGTCTG CGATCAAGGT GGAAGCAGGG TTGGCTTCTT CTCAGGTGTC TGTCCTTGGC TGGTAGATGACCGCCGCCTC CCTGGGTCCT CACATGGTCT TTCCTCTGTG TGTGTCTGTC CCAATCTCTT CTTATAAGGATGCAAGTCTT ATGGATCAGA GCACACCCCA ATGACCGTGT TTAACTTGAA TCACCTCTTT AAAGTTTCTCTCTCCAAATA CAATCACCTC CTGAGGCACT GTTAGGGCTT CGACACAGGA ATTCTTTTCC TAGGGGATTCAGTTCAGTCC AAAACGCCTA CCAGTGGAGA CTTGCAACAT GGCGGCCTGC TGGTCCCTCG CCAGGAATATCACAGGCGAC TGTTCCCTGT TGCATGGAAT AGAAGGCTAT TCCAGAGTAC TGTCTCTATT TATCAGATCTGGGATACTGG GAGAAGGGCA AAATAAAGTC CAAGTAGAAA AAAAAACTAT GAAAGTTTTA GAGAGTAACCATAATTTCAG CCCGATGTGA AACGATCCTA GATTTCAGCT GAAATAGTGA TGTGGGAAGT GAGGGGGCCGGGATTCAAGG CAGAGGGAAC AGCGTAACTG AAGGCATGGA AGGAGGGAAG TGTAGGCTGT GTTTGAAGAGTGGCAGCTGC TTCCACATTT CTAAAACACA GGATGTGATT TTGGGGTGTG TTGAGACAAG GCAGAAAACTTGTTTGGAAAAATAACTTGA ATTCCCTGCA CATTTAAAAT CTCTCAGCAG AAGAAAACCC CACTCAGAACCCCACTGTTC ATTCCTTGGC TTGTATTTGG SCACAGCTGG CATAGCCCCA GACTGAGTAA GCTCTTCAGACACCTCATTT CATGAGTAGC CCCAAAGATC AATCATGGGC CAATTTCTTG GAAGAGAAGA CTCTCCGGTGTTTTGCAGTT ATTTGTTCTG CTTTCGCGAG ATGTTCTCAA ATCGTTGCAG CTACAAGCCA TGAGTCTGAAGTGTTTGTGT TCCCTCCTTA CAGGTGGTAA CTTTCTCACA GGCCTTGGCC ACAGATCTGA TCATTACAATTGCGTCAGCA GTGGAGGGCA ATGTCTCTAT TCTGCCTGCC CGATCTTTAC CAAAATTCAA GGCACCTGTTACAGAGGGAA GGCCAAGTGC TGCAAGTGAG CTGAGAGTGA CCAGAAGAAA TGACGCAGAA GTGAAATGAACTTTTTATAA GCATTCTTTT AATAAAGGAA AATTGCTTTT GAAGTATACC TCCTTTGGGC CAAAATGAATCTTGTGTCTC AATTGGAAGA GGTAAAGAAG TAGGGGGTTA GGGTGCATGG GTTGGAACGT GAGACAGGTCGAACCACAAA GCCTGCCTGG AAAAGGGGAG TGACGTCCTA GGCTTCAGTG ATGTCACCTC CACTTTGTTTGATCCACAAA CCAACAGGTG ACTGATTTTG GTCAGCTCAG CCTCCAAAGG AGCCAGCCTC TCCCCAGTTCCTGAAATCCT GAGTGTTGCC TGCCAGTCGC CATGAGAACT TCCTACCTTC TGCTGTTTAC TCTCTGCTTACTTTTGTCTG AGATGGCCTC AGGTGGTAAC TTTCTCACAG GCCTTGGCCA CAGATCTGAT CATTACAATTGCGTCAGCAG TGGAGGGCAA TGTCTCTATT CTGCCTGCCC GATCTTTACC AAAATTCAAG GCACCTGTTACAGAGGGAAG GCCAAGTGCT GCAAGTGAGC TGGGAGTGAC CAGAAGAAAT GACGCAGAAG TGAAATGAAC TT are provided.

(2) SEQ ID NO: 3011 data:

(i) sequence characteristics:

(A) length: 9454 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3011 sequence description: ATCCTTTAAG TCAATGGACT TTGCATCAGT CACACCATCT TTTGTTACTT TGGACTTCCC CAGCTATGTTCAATAATTAC TGTTCTTCCC TTGGGCCCCA TTGTAATGGC TACAGCCTCG ACAAAAAGTC TACACTTTGAAGCATTAAGG CTCGGACATC AGCACCAAAT TTTACATCTT TACCATCACT TCAAGTGAGG TGAGGAGCCAGTAGCCTGGA CACTGGTCTC ATCTGGTGAA AGACTGTGGG TAATGGAAGC ATTTCTGTGG GGTGCTGGCAGGACATGTGC ATGGCGAGGC AGGTCATCAG CAGCAAGTGA GAGCTGCCTC TTACTTTCTA AAGGTGACATAGCAAATATA CAAAAAAAAA TAAATAAATT ATTAATTTAG GTAGAGCACA TAAAGGCTTT ATTTCATATTCCATTTCTCT GTATGCTTTC TTCACCAGGA AGAAATAGTT TTAGTGTCAG GAATGAATGA GTCTGCCCCTCAATTCCAGC CTGCTCAACA CACAAGGAAA CAAAGCCCTG ACAATCAGAG TGACTCCCTG GTGACTAAGCTCCCAGTCCT GGATGCATAT TTGTTTAGCA GTTCTGACAG CATTTGACCC AGCCCTCTCT CTGCATATCCCATCAGAACC TTCTTTTTTT TTTTTTTCTT TGAGACTGAG TCTTGCTCTG TCGGAAGCGA CTCCTGTGCCTCAGCCTCCC AAATACCTGG AATTATAGGC GTAAGCCATC ATGCCTGGCT AATTTTTGTA TTTTTCATGGAGATGGGGTT TTGCCATGTT GGTCAAATTG GTCTCACACT CCTGACCTCA TGTGATCCAC CTGCCTCAGCCTCCCAAACT GCTGGGATGA CAGGTGTAAG CCACCATGCT AGGCTCAGAA ATTTCCTTTT ATAAAAATGTCATTAAGGAT CTTGGCTGCA CAATATCGTT ACCAGCTTCC TTTAAATCCA CTTCTGGCCT GCCAGGAATCAGGTTCTTCA GAACCTGACA TTTTAAATGA AGAGGTCAGG CAGTTCATGA GGAAAGCCTC ATTGTCCCCATGTCTCTGTC ACTGCTGCAC CCCTGAGACA TCACAGACAT GGACACTGGG GCCTGCTTGT TTCTCAAACTGCCCTTAGAT CGAAAGAGGG AGGAACCAGG ATGAATGCCA CTCATTTTCC CAAGAAAGGC CCTCTCCTGAGTGCCCGGGA TGGGGCTCTG TCCATTGCCT GGGGCCGCCA ATTGCTACTC TGGGTTACGG AGGAAGGACAGGGTCCTGAG AGACACCAGA GACCTCACAC AGCCCTGAAA ACATGGGGCT CCTTCATAAG TGTTTCCCATCACCAACAGG GAGACCACGT GGAGGCCTTG CAGCCCCACT CGGTGCTTCT CCACCAAATC CCAAGGGCAGTGACGCTGAC GTCTGTGGAA AGCAGAGAAA GCCCTGGCTC CCAAAGCCCT GAAGTCCCTG TGGAGCTGACATTCCCTGAG TGACGGTGTG AATGGAAGGA ACTCAAGTGC GGGTGGTAGG CCACCTCCTG GCCCAGGCCTGGGTGAACTC TGAGGGGACA CATGTAGTCA CAATCCCATC CTCCCATTCT CCTTCTCAGA GGAAGGAAGTGGGCATCCAT CTGCCTCATC TCTCTCCCGT GGGGAAGATG GGGAGTTTCA GGGGAACTTT CACATAAATTTCACCAGCTC AGATCTCCTG TGAGGATGGG GCCCACCATG CTCCCGGTGC TGCCAGAGGC CCTGAGCCCCTCCCAGGGTC CCTGGGTTTG AGCCAGCCCT GTATCATCCC CAGGAGCTGA ATGTCAGAGC AATGGATAGAATTAGATGGA AAGAGCTCTC AATTTGACCT GAGACTGTCC CCAGATACTC AGGAAAAACA GGACGTCGCACAGAGTGGGC AGCAGGTGAG TGGCAGGTTA TAGGTCCTGA GTTTGAGTTT GTTCTCACGT GAGACAGACCCAGCCCCTCA CTCCATTCAC ACACTGGGTT TTAAATGGTG CAAGATAGGA GCAATTTTCT GGTCCCAAGAGCAGGAGGAA GGGATTTTCT GGGGTTTCCT GAGTCCAGAT TTGCATAAGA TCTCCTGAGT GTGCATTGTTCTTTGAGGAC CATTCTCTGA CTCACCAGGT AAGTGGCTGA ATTCTAACCT CTGTAATGAG CATTGCACCCAATACCAGTT CTGAACTCTA CCTGGTGACC AGGGACCAGG ACCTTTATAA GGTGGAAGGC TTGATGTCCTCCCCAGACTC AGCTCCTGGT GAAGCTCCCA GCCATCAGCC ATGAGGGTCT TGTATCTCCT CTTCTCGTTCCTCTTCATAT TCCTGATGCC TCTTCCAGGT GAGATGGGCC AGGGAAATAG GAGGGTTGGC CAAATGGAAGAATGGCGTAG AAGTTCTCTG TCTCCTCTCA TTCCCCTCCA CCTATCTCTC CCTCATCCCT CTCTCTCCTTCCTCTCTCTG TGTGTCCCCT CCATCCTTTT CTCCTGCTTC TCTCTCTTCT TCCCTCTCTC TCTTTTTTCTGTCTTTCTTT TTCCTCTCTC CCTAGAGCAT GTCTTTCTTT CTTTCTCTTT CCTTTCTTCT ACCCACACTTTTAGACTGAA TGCCCTATTT AATTGAACAA AGCATTGCTT CCTTCAATAG AAAAGGAGTT TGAGAACCCAATGGACACCT CACTCGTTCT TCTAAGCCAA TATGAAGGAG CCCAGTAGCT TGTAAATATC ATCTCTTCACTGCTTTCCAT GCTACAACTG CTGAGACTAT GGTTGAAACC TGTTAGGTGA CTTTTTAAAT AAAAGGCAGAAATTTTGATT TTATCTAAAG AAAGTAGTAT AGAATGTCAT TTTCTAAATT TTTATATTTA AAGGGTAGATACTGCAACCT AGAGAATTCC AGATAATCTT AAGGCCCAGC CTATACTGTG AGAACTACTG CAGCAAGACACTCTGCCTCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG TACAGCCCAT TGAAACCTAC TTTTAAACCT GGATGCCTAA CCTTCATTTT CTCCTTGATATTATGAAAAT AAAATAAAAA CCATGAAAGG ATAAAAGAGG GAGAGTGGAA GGGAAGGATG GAGAAAGGGAAAAAGAAAAT TTGAGAGTAA ATCCTAAAAC AATTAATCTA ATAGATATCA TCTTGTGAAA TCCTCATTTTACCAATCTTA TTTATGAGTC CTGGGTTTTG TGAGAACAAT GGGGTTCTGA GAGGCACCAG AGACCTCATGTTTTCCAAAA CCTAGAACAG TATAATGAAG GAAGGCGGGG AGGCAGGGAG GCAGGGAGGC AGGGAGGCAGGGAGGCGGGC AGGTGGGGAG GGAGGGACGG AAGGAGGGAG GGAGGGAGGG AGGGAGGGAG GGAGGGATAAAAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATGGTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCATCTTTTTATCC CATCTCAGGT CAAATACTTA ACAGACTAAA TGATTTGAAA AAGCAAAAGT TTACTGGCTTGTGTGTGTTA AAATGGAGGT ATGGTGGCTT TGATATTATC TTCTTGTGGT GGAGCTGAAT TCACAAGAGATCGTTGCTGA GCTCCTACCA GACCCCACCT GGAGGCCCCA GTCACTCAGG AGAGATCAGG GTCTTTCACAATCAGGTTCT ACAAAAATAA ACATCCCCCC AACCACAGCA GTGCCAGTTT CCATGTCAGA AACTTAGATCCAAATGACTG ACTCGCGTCT CATTATCATG ATGGAAAAGC CCAGGCTTGA GAAAGAAGCC CGCTGCGGATTTACTCAAGG CGATACTGAC ACAGGGTTTG TGTTTTTCCA ACATGAGTTT TGAGTTCTTA CACGCTGTTTGCTCTTTTTG TGTGTTTTTT CCCTGTTAGG TGTTTTTGGT GGTATAGGCG ATCCTGTTAC CTGCCTTAAGAGTGGAGCCA TATGTCATCC AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTGGAACAAAATG CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGCTCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC AATCTTTATCCTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA TATCCTTGAA ACACCTTTTTCTGCTCTCCA GGAAGGGGTC AGGGCTGCCA CAGCGGGGCT TGGAGTGCTT TCCAGGGTCA CAGGCATCTGTATTCTTTGG ATTCCTTGAC CTTCCCCATT TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCCTGCATCCTCC CCTTGCATGC CCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGACCAGTTCCCTC ATGGAATCAT AGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGACTCCCTTCTTC TGGCTAAGGT TTCTTATGCA ATTAT GAATTCACAT TTCTCACCTT TTGATGTATT AAGAAAGTATGGAGAAATAT ATCCTCTATC AAATTTTCAT GCCTTCAATA ATTTCTAATT CATCAGTCAG TGTTTTTCCATCCTTTACTG TGATGATGCC CTTTCTTCCA AACTTTTTCA TTGCATCAGA GATGATGTTA CCAATTTCTTTGTCTCCATT TGCAGAAATT GTAGCAACCT GTGCAATTTC TTCAGGTTTG GTCACAGGTT TAGACTGCTTTTTAAGTTCA GCAATTACAG CATCAACAGC TAACATCACA CCTCTCTTGA TTTCCACTGG ATTAGCACCTTTGCTAACCT TCTGGAAGGC TTATTTGGAA ATAGAGCATA CCAGTACAGC AGCAGTGATA GTGCCATCCCCCAGTCTCTC CATTTGTGTT ATTGGCAACA TCTTGGACAA GTTTAGCTCC AATGCTTTTA TATTTATCCTTTAAGTCAAT TGACTTTGCA TCAGTCACAC CATCTTTTGT TACTTTGGGA CTTCCCCAGC TATGTTCAATAATTACTGTT CTTCCCTTTG GCCCCATTGT AATGGCTACA GCATCGACAA AAAGTCTACA CTTTGAAGCATTAAGGCTCA GACATCAGCA CCAAATTTTA CATCTTTACC ATCACTTCAA GTGAGGTGAG GAGCCAGTAGCCTGGACACT GGTCTCATCT GGTGAAAGAC TGTGGGTAAT GGAAGCATTT CTGTGGGGTG GTGGCAGGACATGTGCATGG TGAGGCAGGT CATCAGCAGC AAGTGAGAGC TGCCTCTTAC TTTCTAAAGG TGACATAGCAAGTATACAAA AAAAAATAAA ATATTAATTT AGGCAGAGCA CATAAAGGCT TTATTTCATA TTCCATTTCTCTGTATGCTT TCTTCACCAG GAAGAAATAG TTTTAGTGTC AGGAATGAAT GAGTCTGCCC CTCAATTCCAGCCTGCTCAG CACACAAGGA AACAAAGCCC TGACAATCAG AGTGACTCCC TGGTGACTAA GCTCCAGTCCTGGATGCATA TTTGTTTAGC AGTTCTGACA GCATCTGACC CAGCCCTCTC TTTGCATACC CCACCAGAACCTTCTTTTTT TTTTTTTTTC TTTGAGACTG AGTCTTGCTC TGTCGGAAGC GATTCCCGTG CCTCAGCCTCCCAAATACCT GGAATTATAG GCGTAAGCCA TCATGCCTGG CTAATTTTTG TATTTTTCAT GGAGATGGGGTTTTGCCATG TTGGTCAAAT TGGTCTCACA CTCCTGACCT CATGTGATCC ACCTGCCTCA GCCTCCCAAAGTGCTGGGAT GACAGGTGTA AGCCACCATG CTAGGCTCAG AAATTTCCTT TTATAAAAATGTCATTAAGGATCTTGGCTG CACAATATCG TTACCAGCTT CCTTTAAATC CACCTCTGGC CTGCCAGGAA TCAGGGTTCTTCAGAACCTG ACATTTTAAA TGAAGAGGTC AGGCAGGTCA TGAGGAAAGC CTCATTGTCC CCATGTCTCTGTCACTGCTG CACCCCTGAG ACATCACAGA CATGGACACT GGGGCCTGCT TGTTTCTCAA ACTGCCCTTAGATCGAAAGA GGGAGGAACC AGGATGAATG CCACTCATTT TCCCAAGAAA GGCCCTCTCC TGAGTGCCCGGGATGGGGCT CTGTCCATTG CCTGGGGCCG CCAATTGCTA CTCTGGGTTA CGGAAGAAGG ACAGGGTCCTGAGAGACACC AGAGACCTCA CACAGCCCTG AAAACATGGG GCTCCTTCAT AAGTGTTTCC CATCACCAACAGGGAGACCA CGTGGAGGCC TTGCAGCCCT ACTCGGTGCT TCTCCACCAA ATCCCAAGGG CAGTGACGCTGACGTCTGTG GAAAGCAGAG AAAGCCCTGG CTCCCAAAGC CCTGAAGTCC TGTGGAGCTG ACATTCCCTGAGTGACGGTG TGAATGGAAG GAACTCAAGT GCGGGTGGTA GGCCACCTCC TGGCCCAGGC CTGGGTGAACTCTGAGGGGA CACATGTAGT CACAATCCCA TCCTCCCATT CTCCTTCTCA GAGGAAGGAA GTGGGCATCCATCTGCCTCA TCTCTCTCCC GTGGGGAAGA TGGGGAGTTT CAGGGGAACT TTCACATAAA TTTCACCAGCTCAGATCTCC TGTGAGGATG GGGCCCACCA TGCTCCCGGT GCTGCCAGAG GCCCTGAGCC CCTCCAGGGTCCCTGGGTTT GAGCCAGCCC TGTATCATCC CCAGGAGCTG AATGTCCGAA CAATGGATAG AATTAGATGGAAAGAGCTCT CAATTTGGCC TGAGACTGTC CCCAGATACT CAGGAAAAAC AGGACGTCGC ACAGAGTGGGCAGCAGGTGA GTGGCAGGTT ATAGGTCCTG AGTTTGAGTT TGTTCTCACG TGAGACAGAC CCAGCCCCTCACTCCATTCA CACACTGGGT TTTAAATGGT GCAAGATAGG AGGAATTTTC TGGTCCCAAG AGCAGGAGGAAGGGATTTTC TGGGGTTTCC TGAGTCCAGA TTTGCATAAG ATCTCCTGAG TGTGCATTGT TCTTTGAGGACCATTCTCTG ACTCACCAGG TAAGTGGCTG AATTCTAACC TCTGTAATGA GCATTGCACC CAATACCAGTTCTGAACTCT ACCTGGTGAC CAGGGACCAG GACCTTTATA AGGTGGAAGG CTTGATGTCC TCCCCAGACTCAGCTCCTGG TGAAGCTCCC AGCCATCAGC CATGAGGGTC TTGTATCTCC TCTTCTCGTT CCTCTTCATATTCCTGATGC CTCTTCCAGG TGAGATGGGC CAGGGAAATA GGAGGGTTGG CCAAATGGAA GAATGGCGTAGAAGTTCTCT GTCTCCTCTC ATTCCCCTCC ACCTATCTCT CCCTCATCCC TCTCTCTCCT TCCTCTCTCTGTGTGTCCCC TCCATCCTTT TCTCCTGCTT CTCTCTCTTC TTCCCTCTCT CTCTTTTTTT CTGTCTTTCTTTTTCCTCTC TCCCTAGAGC ATGTCTTTCT TTCTTTCTCT TTCCTTTCTT CTACCCACAC TTTTAGACTGAGTAGACTGA ATGCCCTATT TAATTGAACC AAGCATTGCT TCCTTCAATA GAAAAGGAGT TTGAGAACCCAATGGACAAC TCACTCGTTC TTCTAAGCCA ATATGAAGGA GCCCAGTAGT TTGTAAATAT CATCTCTTCACTGCTTTCCA TGCTACAACT GCTGAGACTA TGGTTGAAAC CTGTTAGGTG ACTTTTTAAA TAAAAGGCAGAAATTTTGAT TTTATCTAAA GAAAGTAGTA TAGAATGTCA TTTTCTAAAT TTTTATATTT AAAGAGTAGATACTGCAACC TAGAGAATTC CAGATAATCT TAAGGCCCAG CCTATACTGT GAGAACTACT GCAGCAGACACTCTGCCCCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG ACAGCCCATT GAAACCAACT TTTAAACCTG GATGCCTAAC CTTCATTTTC TCCTTGATATTATGAAAATA AAATAAAAAC CATGAAAGGA TAAAAGAGGG AGAGTGGAAG GGAAGGATGG AGAAAGGGAAAAAGAAAATT TGAGAGTAAA TCCTAAAACA ATTAATCTAA TAGATATCAT CTTGTGAAAT CCTCATTTTACCAATCTTAT TTATGAGTCC TGGGTTTTGT GAGAACAATG GGGTTCTGAG AGGCACCAGA GACCTCATATTTTCCAAAAC CTAGAACAGT ATAATGAAGG AAGGAGGGAA GGAGGGAGGG AGGGAGGGAA GGAGGGAAGGAGGGAGGGAG GGAGGGAAAC AAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCATTACAAAATT TATTTCTATG GTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAAACAATTTCAG TAAGTTGCAT CTTTTTTATC CCATCTCAGA TCAAATACTT AACAGACTAA ATGATTTGAAAAAGCAAAAG TTTACTGGCT TGTGTGTGTT AAAATGGAGG TATGGTGGCT TTGATATTAT CTTCTTGTGGTGGAGCTGAA TTCACAAGAG ATCGTTGCTG AGCTCCTGCC AGACCCCACC TGGAGGCCCC AGTCACTCAGGAGAGATCAG GGTCTTTCAC AATCAGGTTC TACAAAAATA AACATCCCCC AAACCACAGC AGTGCCAGTTTCCATGTCAG AAACTTAGAT CCAAATGACT GACTCGCGTC TCATTATCAT GATGGAAAAG CCCAGGCTTGAGAAAGAAGC CCGCTGCGGA TTTACTCAAG GCGATACTGA CACAGGGTTT GTGTTTTTCC AACATGAGTTTTGAGTTCTT ACACGCTGTT TGCTCTTTTT GTGTGTTTTT TCCCTGTTAG GTGTTTTTGG TGGTATAGGCGATCCTGTTA CCTGCCTTAA GAGTGGAGCC ATATGTCATC CAGTCTTTTG CCCTAGAAGG TATAAACAAATTGGCACCTG TGGTCTCCCT GGAACAAAAT GCTGCAAAAA GCCATGAGGA GGCCAAGAAG CTGCTGTGGCTGATGCGGAT TCAGAAAGGG CTCCCTCATC AGAGACGTGC GACATGTAAA CCAAATTAAA CTATGGTGTCCAAAGATACG CAATCTTTAT CCTAGTAATT GTGGTCATTG GGTGATGTTG GTTTGGGCAG GCCATCTCTAATATCCTTGA AACACCTTTT TCTGCTCTCC AGGAAGGGGT CAGGGCTGCC ACAGCGGGGC TTGGAGTGC

(2) SEQ ID NO: 3012 data:

(i) sequence characteristics:

(A) length: 8365 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3012 sequence description: ATCCTTTAAG TCAATGGACT TTGCATCAGT CACACCATCT TTTGTTACTT TGGACTTCCC CAGCTATGTTCAATAATTAC TGTTCTTCCC TTGGGCCCCA TTGTAATGGC TACAGCCTCG ACAAAAAGTC TACACTTTGAAGCATTAAGG CTCGGACATC AGCACCAAAT TTTACATCTT TACCATCACT TCAAGTGAGG TGAGGAGCCAGTAGCCTGGA CACTGGTCTC ATCTGGTGAA AGACTGTGGG TAATGGAAGC ATTTCTGTGG GGTGCTGGCAGGACATGTGC ATGGCGAGGC AGGTCATCAG CAGCAAGTGA GAGCTGCCTC TTACTTTCTA AAGGTGACATAGCAAATATA CAAAAAAAAA TAAATAAATT ATTAATTTAG GTAGAGCACA TAAAGGCTTT ATTTCATATTCCATTTCTCT GTATGCTTTC TTCACCAGGA AGAAATAGTT TTAGTGTCAG GAATGAATGA GTCTGCCCCTCAATTCCAGC CTGCTCAACA CACAAGGAAA CAAAGCCCTG ACAATCAGAG TGACTCCCTG GTGACTAAGCTCCCAGTCCT GGATGCATAT TTGTTTAGCA GTTCTGACAG CATTTGACCC AGCCCTCTCT CTGCATATCCCATCAGAACC TTCTTTTTTT TTTTTTTCTT TGAGACTGAG TCTTGCTCTG TCGGAAGCGA CTCCTGTGCCTCAGCCTCCC AAATACCTGG AATTATAGGC GTAAGCCATC ATGCCTGGCT AATTTTTGTA TTTTTCATGGAGATGGGGTT TTGCCATGTT GGTCAAATTG GTCTCACACT CCTGACCTCA TGTGATCCAC CTGCCTCAGCCTCCCAAACT GCTGGGATGA CAGGTGTAAG CCACCATGCT AGGCTCAGAA ATTTCCTTTT ATAAAAATGTCATTAAGGAT CTTGGCTGCA CAATATCGTT ACCAGCTTCC TTTAAATCCA CTTCTGGCCT GCCAGGAATCAGGTTCTTCA GAACCTGACA TTTTAAATGA AGAGGTCAGG CAGTTCATGA GGAAAGCCTC ATTGTCCCCATGTCTCTGTC ACTGCTGCAC CCCTGAGACA TCACAGACAT GGACACTGGG GCCTGCTTGT TTCTCAAACTGCCCTTAGAT CGAAAGAGGG AGGAACCAGG ATGAATGCCA CTCATTTTCC CAAGAAAGGC CCTCTCCTGAGTGCCCGGGA TGGGGCTCTG TCCATTGCCT GGGGCCGCCA ATTGCTACTC TGGGTTACGG AGGAAGGACAGGGTCCTGAG AGACACCAGA GACCTCACAC AGCCCTGAAA ACATGGGGCT CCTTCATAAG TGTTTCCCATCACCAACAGG GAGACCACGT GGAGGCCTTG CAGCCCCACT CGGTGCTTCT CCACCAAATC CCAAGGGCAGTGACGCTGAC GTCTGTGGAA AGCAGAGAAA GCCCTGGCTC CCAAAGCCCT GAAGTCCCTG TGGAGCTGACATTCCCTGAG TGACGGTGTG AATGGAAGGA ACTCAAGTGC GGGTGGTAGG CCACCTCCTG GCCCAGGCCTGGGTGAACTC TGAGGGGACA CATGTAGTCA CAATCCCATC CTCCCATTCT CCTTCTCAGA GGAAGGAAGTGGGCATCCAT CTGCCTCATC TCTCTCCCGT GGGGAAGATG GGGAGTTTCA GGGGAACTTT CACATAAATTTCACCAGCTC AGATCTCCTG TGAGGATGGG GCCCACCATG CTCCCGGTGC TGCCAGAGGC CCTGAGCCCCTCCCAGGGTC CCTGGGTTTG AGCCAGCCCT GTATCATCCC CAGGAGCTGA ATGTCAGAGC AATGGATAGAATTAGATGGA AAGAGCTCTC AATTTGACCT GAGACTGTCC CCAGATACTC AGGAAAAACA GGACGTCGCACAGAGTGGGC AGCAGGTGAG TGGCAGGTTA TAGGTCCTGA GTTTGAGTTT GTTCTCACGT GAGACAGACCCAGCCCCTCA CTCCATTCAC ACACTGGGTT TTAAATGGTG CAAGATAGGA GCAATTTTCT GGTCCCAAGAGCAGGAGGAA GGGATTTTCT GGGGTTTCCT GAGTCCAGAT TTGCATAAGA TCTCCTGAGT GTGCATTGTTCTTTGAGGAC CATTCTCTGA CTCACCAGGT AAGTGGCTGA ATTCTAACCT CTGTAATGAG CATTGCACCCAATACCAGTT CTGAACTCTA CCTGGTGACC AGGGACCAGG ACCTTTATAA GGTGGAAGGC TTGATGTCCTCCCCAGACTC AGCTCCTGGT GAAGCTCCCA GCCATCAGCC ATGAGGGTCT TGTATCTCCT CTTCTCGTTCCTCTTCATAT TCCTGATGCC TCTTCCAGGT GAGATGGGCC AGGGAAATAG GAGGGTTGGC CAAATGGAAGAATGGCGTAG AAGTTCTCTG TCTCCTCTCA TTCCCCTCCA CCTATCTCTC CCTCATCCCT CTCTCTCCTTCCTCTCTCTG TGTGTCCCCT CCATCCTTTT CTCCTGCTTC TCTCTCTTCT TCCCTCTCTC TCTTTTTTCTGTCTTTCTTT TTCCTCTCTC CCTAGAGCAT GTCTTTCTTT CTTTCTCTTT CCTTTCTTCT ACCCACACTTTTAGACTGAA TGCCCTATTT AATTGAACAA AGCATTGCTT CCTTCAATAG AAAAGGAGTT TGAGAACCCAATGGACACCT CACTCGTTCT TCTAAGCCAA TATGAAGGAG CCCAGTAGCT TGTAAATATC ATCTCTTCACTGCTTTCCAT GCTACAACTG CTGAGACTAT GGTTGAAACC TGTTAGGTGA CTTTTTAAAT AAAAGGCAGAAATTTTGATT TTATCTAAAG AAAGTAGTAT AGAATGTCAT TTTCTAAATT TTTATATTTA AAGGGTAGATACTGCAACCT AGAGAATTCC AGATAATCTT AAGGCCCAGC CTATACTGTG AGAACTACTG CAGCAAGACACTCTGCCTCC AGGACTTTTC TGATCAGAGG CCCTGAGAAC AGTCCCTGCC ACTAGGCCAC TGCAGGTTCACAGGACAGGG TACAGCCCAT TGAAACCTAC TTTTAAACCT GGATGCCTAA CCTTCATTTT CTCCTTGATATTATGAAAAT AAAATAAAAA CCATGAAAGG ATAAAAGAGG GAGAGTGGAA GGGAAGGATG GAGAAAGGGAAAAAGAAAAT TTGAGAGTAA ATCCTAAAAC AATTAATCTA ATAGATATCA TCTTGTGAAA TCCTCATTTTACCAATCTTA TTTATGAGTC CTGGGTTTTG TGAGAACAAT GGGGTTCTGA GAGGCACCAG AGACCTCATGTTTTCCAAAA CCTAGAACAG TATAATGAAG GAAGGCGGGG AGGCAGGGAG GCAGGGAGGC AGGGAGGCAGGGAGGCGGGC AGGTGGGGAG GGAGGGACGG AAGGAGGGAG GGAGGGAGGG AGGGAGGGAG GGAGGGATAAAAAAAGAAGA ATGAGGTTGA AACCAGGACT TAGATATTAG AAACAAGCCA TTACAAAATT TATTTCTATGGTTAATTGTG GTTTTCAACT GTAAGTTACT TGGTGTTAAT TTCCTATTAA ACAATTTCAG TAAGTTGCATCTTTTTATCC CATCTCAGGT CAAATACTTA ACAGACTAAA TGATTTGAAA AAGCAAAAGT TTACTGGCTTGTGTGTGTTA AAATGGAGGT ATGGTGGCTT TGATATTATC TTCTTGTGGT GGAGCTGAAT TCACAAGAGATCGTTGCTGA GCTCCTACCA GACCCCACCT GGAGGCCCCA GTCACTCAGG AGAGATCAGG GTCTTTCACAATCAGGTTCT ACAAAAATAA ACATCCCCCC AACCACAGCA GTGCCAGTTT CCATGTCAGA AACTTAGATCCAAATGACTG ACTCGCGTCT CATTATCATG ATGGAAAAGC CCAGGCTTGA GAAAGAAGCC CGCTGCGGATTTACTCAAGG CGATACTGAC ACAGGGTTTG TGTTTTTCCA ACATGAGTTT TGAGTTCTTA CACGCTGTTTGCTCTTTTTG TGTGTTTTTT CCCTGTTAGG TGTTTTTGGT GGTATAGGCG ATCCTGTTAC CTGCCTTAAGAGTGGAGCCA TATGTCATCC AGTCTTTTGC CCTAGAAGGT ATAAACAAAT TGGCACCTGT GGTCTCCCTGGAACAAAATG CTGCAAAAAG CCATGAGGAG GCCAAGAAGC TGCTGTGGCT GATGCGGATT CAGAAAGGGCTCCCTCATCA GAGACGTGCG ACATGTAAAC CAAATTAAAC TATGGTGTCC AAAGATACGC AATCTTTATCCTAGTAATTG TGGTCATTGG GTGATGTTGG TTTGGGCAGG CCATCTCTAA TATCCTTGAA ACACCTTTTTCTGCTCTCCA GGAAGGGGTC AGGGCTGCCA CAGCGGGGCT TGGAGTGCTT TCCAGGGTCA CAGGCATCTGTATTCTTTGG ATTCCTTGAC CTTCCCCATT TATTCCCGGC ATTTTCCTAA AACGTGTGCT TTGCTCCTCCTGCATCCTCC CCTTGCATGC CCTCACCTAC CCCACATCTT CCCTAAAAAA AGCAAGCCCA ACTCAAAGACCAGTTCCCTC ATGGAATCAT AGTGGATCTG CCAAGGGAGG GGATGCCCAG TCCTCTGTTC TTCACAAGACTCCCTTCTTC TGGCTAAGGT TTCTTATGCA ATTAT GAATTCCCTG TAAGCCCTGT TACAGGGGCT GCACCCCAGATACAACCTGA CCTGTGTCCA AGGCGGGCAA CTCAACCCTT AGATATTGAA TGGGTCCCAT GGCACCAATGCTTAAACACC AGCAGCCCTC ACAACCACAG ATCGTGTTTT AAGGATGAGG AGGTAGTTCT CTGGATGCACAGGCTTCAAT CCAAATGGGC TCATGACGCC GCAGCACACA CCCAGTCTGC AGCCTGAAGA GTTGGAGCATTGCATTCACA GAAAGCATCC AGACATGATC ATGGGCTCAG GGATACACCT GTTCTCCGAT GTGTACCAGTGAAGGATGGA AACTCCTATG CCTCCCAGAA AGCACCACTC AAGCTTTTGC TGAATGCTTC TCTGAAGGCCCACAAGGCTG AGAGGCTGTG CAACACCAGC AGTAAAGTGA ATGCCCAGAC TCCCACCTCC TTTCTTGGGTGGCCATCTGG AAAGGCCACT CCCACCCTGA TGGCTAATGC CTCAGACCAG TTCTTGGCCC AGATGATCCTAGACAATTGT TTAAGCTTAA ACTGTTCATT GGCCAAGCAA ACAGGTGATA GTACCTCTGG GGAACCACATGCCGCGTGTA CATCCAGATC TCAGGAGAAC CCAAAAATGT CTGTTCCACA TAGCAACAGA AGCCCAGGTAGCACTCAGTC TCACCTGGGT GTTCTCCAAC ATCCCAGCTC AGCCAAATGG CTTTCATTAG TTTTTATGGTTAGACCCCAG GTCCTCGGGA CACTGCTTTA GAAACACATT CCAAATCCTC CTCTGTGTGC AGGTGGCATTCCTATCCCAA TCTCTTTGCA GGGCGTATAC TGTGATACGC AGCCAGGCTG TCCCAGAGGC CTTAAATATTCCCTTGGTGC AGGTAGTTCA GCTTAGCCAC AGCCAATGCA TCACAGGGTC AACTGTGTTA GGAGCCATTGAGAATCCATA GTTGGTTGCT GCCTGGGCCT GGCCAGGGCT GACCAAGGTA GATGAGAGGT TCCTCTGTGGAGTTCTACTT TAACCTCACC TTCCCACCAA ATTTCTCAAC TGTCCTTGCC ACCACAATTA TTTAATGGACCCAACAGAAA GTAACCCCGG AAATTAGGAC ACCTCATCCC AAAAGACCTT TAAATAGGGG AAGTCCACTTGTGCACGGCT GCTCCTTGCT ATAGAAGACC TGGGACAGAG GACTGCTGTC TGCCCTCTCT GGTCACCCTGCCTAGCTAGA GGATCTGTAA GTACTACAAA ACTTAAACTT TACACTGAGT TTTCATCATT GAAGCTATGCCTCCAATCTG ACCTCTGACT GTGGGGCCGC CCCAGAGGGA CCCAGCGGGT GAATCCCTGC TAGGAACGTCTGTCCGGACC TCTGGTGACT GCTGGGGACG ATGGCTTCCA GCTAACTTAA TAGAGAAACT CAAGCACTTTCCTTCTAAAT ACACATGTCA CATGTCCTGG TTGACATGTC CAGTAAGAAG ACTATCACAG GTCTTTGGAACATTCTTTTG AGAGAAACCT ATTTAGGTCC TTGGTCTGTT TTTCAATCAG GTTGTTTGAT TTTTGCTATTGAGTTGTTGG AATTCCTTAT GTATTCAGAT ATTTGCCCCT TCTGCCATGT AGGTTTTGCA AATATTTTCTCTCATTTTCT GGGTTATCTT TTCACTCGGT TGATTGTTTC CTTTGCTGTG CAGATGCTTT AGCGTTAAATGAAGCCACAC TTGTCTATTT TCCCTTTTAT TGCCTGTGCC TTTGGTGTCA TAGCCAAGAA ATCATTACCTACATCAATGT CAAAAGCTTT ATCCTTCTAT ACACTTCTAG TAGTTTATGG TTTCAGTTGT TACATTTAGGTTTTCAATTC ATTCTGAGTT GATGTTCCTA CATGGTGTGA GATAAAGATT TAAATACATA CATATATAAAATCATGAGGT AGTGTACACT ATAAATATAC AATTGTTAAT TGTTACTCAA GTCTAAGTAG AGGTGGAAATAATAAACTTT CTTTTTTTTA CTTAAACCAC TCTGTGTCAC TGAGCTGATT TCACCTTTAG CCTGATAAAATCATTGTCCT CTCCACCCTG ATTCCTACAG GAGACTACTC ACCCCATAAC CTCAAAAACC TCTTCATGAGGATGGTAAGT CACCTGAATC CTGAAGTGAA TTACTCGCTA TTCCATTGGA ACTCATATAG GACACCAGAATCTAGACCTC CAGAGAACAG CAGGACCCAT CTTCAGAAAA TAAGAAGCAT TTGTTCCCTG AGCCTGTTGAATCAAAGTGC AATTTCTATT CTTTTTGGAA TGTTAAAAAG TGAATCATAA TATTTAAGCA GGTGAACCCACGAGTAACAT AGCAGGGTCT TTCTTGTCAT TATTAGCTCC AACCTAGCAC AGACATTAAA GGTACAGATGTATACTAGCA TGAAACTGGG AGAACAGGAG CATTCGAGCA ACCTTGAGAC CAATGGGCCT CTCTTATAAAATGCACACCT CCTCTCACTG AGATTGAGGA AGGTTTCTTG TCTCCGAGCC TTCTCCCAGT AGAGCTATAAATCCAGGCTG GCTCCTCCCT CCCCACACAG CTGCTCCTGC TCTCCCTCCT CCAGGTGACC CCAGCCATGAGGACCCTCGC CATCCTTGCT GCCATTCTCC TGGTGGCCCT GCAGGCCCAG GCTGAGCCAC TCCAGGCAAGAGCTGATGAG GTTGCTGCAG CCCCGGAGCA GATTGCAGCG GACATCCCAG AAGTGGTTGT TTCCCTTGCATGGGACGAAAGCTTGGCTCC AAAGCATCCA GGTGAGAGAG GCAGGCATGC AGAGCTGCTA AGTCTAGAGGGAAGGACGGG AGAGAGGTTC CAGAGTTGGG TCTCAGCAGT CTATGTCACT GAGGTGGCTT CACTTAGAATCTCTGGGCAT TGATTTTCTC ATCTAGAAAT TGAACAGAGA GCCAAATAAA CCTGAGAAAC TTTATTTCTCCAAAGACTTG ATTCCAAGAA ACATCTGTGA AATTCACTAA GTTTAAGATA TGAAGAGACA GACTAGTTATTTCTGGATCT AAACAAGTAG ACTTAGTTGT AAAGAGAACA TTTTACTCTA TCTACAGAAG AGCTTTTAAAAACTGCAGCC AAGCCTGAGG GTAAGTTCAG GTGTGTGTGT GATGGGGCAG GAATGCAAAA ATGAGAGCAAAGGAGAATGA GTCTCAAATT CTGTGTGACA AGCACTGCTC TGCGTGTTTA TTCCTATCGA CTGAGGTTGTTCGTGCTACC GGCTGCAATG CAGCCAGCAT CACCTGTCAG CTAGCATGTG ACTTCCCCGA GATTCTTTTTCTTACCCACT GCTAACTCCA TACTCAATTT CTCATGCTCT CCCTGTCCCA GGCTCAAGGA AAAACATGGACTGCTATTGC AGAATACCAG CGTGCATTGC AGGAGAACGT CGCTATGGAA CCTGCATCTA CCAGGGAAGACTCTGGGCAT TCTGCTGCTG AGCTTGCAGA AAAAGAAAAA TGAGCTCAAA ATTTGCTTTG AGAGCTACAGGGAATTGCTA TTACTCCTGT ACCTTCTGCT CAATTTCCTT TCCTCATCTC AAATAAATGC CTTGTTACAAGATTTCTGTG TTTCCACCTC TTTAATGTGT GATATGTGTC TGTGTCAAGA CACTTGGGAT ACACGTACCAAAACGCAAAA TCAAATTTTT GAACAATATA are provided.

(2) SEQ ID NO: 3013 data:

(i) sequence characteristics:

(A) length: 644 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3013 sequence description: CGCTGCBBTC TGCTCCGGGGGG CTGCBGCBBC CTCBTCBGCTCTCTGCTTGCCTGGBGTG GCTCBGCCTGGGGCCTGCBGGGCCBCCBGGBGB BTGGCBGCBBG GBTGGCGBGGGGG TCCTCBGGGGGTCBCCTGGGGGGGGGBGGBGGGB GBGCBGGGGGGGGGTCCTCBTGGC TGGGGTCCCT CTCTCCCGTC CT CCTACCTTGC TATAGAAGAC CTGGGACAGA GGACTGCTGTCTGCCCTCTC TGGTCACCCT GCCTAGCTAG AGGATCTGTG ACCCCAGCCA TGAGGACCCT CGCCATCCTTGCTGCCATTC TCCTGGTGGC CCTGCAGGCC CAGGCTGAGC CACTCCAGGC AAGAGCTGAT GAGGTTGCTGCAGCCCCGGA GCAGATTGCA GCGGACATCC CAGAAGTGGT TGTTTCCCTT GCATGGGACG AAAGCTTGGCTCCAAAGCAT CCAGGCTCAA GGAAAAACAT GGACTGCTAT TGCAGAATAC CAGCGTGCAT TGCAGGAGAACGTCGCTATG GAACCTGCAT CTACCAGGGA AGACTCTGGG CATTCTGCTG CTGAGCTTGC AGAAAAAGAAAAATGAGCTC AAAATTTGCT TTGAGAGCTA CAGGGAATTG CTATTACTCC TGTACCTTCT GCTCAATTTC CTTT

(2) SEQ ID NO: 3014 data:

(i) sequence characteristics:

(A) length: 5036 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3014 sequence description: GCCACCATGG AAACCCTTTG CCTCAGGGCA TCCTTTTGGC TGGCACTGGT TGGATGTGTA ATCAGTGATAATCCTGAGAG ATACAGCACA AATCTAAGCA ATCATGTGGA TGATTTCACC ACTTTTCGTG GCACAGAGCTCAGCTTCCTG GTTACCACTC ATCAACCCAC TAATTTGGTC CTACCCAGCA ATGGCTCAAT GCACAACTATTGCCCACAGC AGACTAAAAT TACTTCAGCT TTCAAATACA TTAACACTGT GATATCTTGT ACTATTTTCATCGTGGGAAT GGTGGGGAAT GCAACTCTGC TCAGGATCAT TTACCAGAAC AAATGTATGA GGAATGGCCCCAACGCGCTG ATAGCCAGTC TTGCCCTTGG AGACCTTATC TATGTGGTCA TTGATCTCCC TATCAATGTATGGCTGGGCG CTGGCCTTTT GATCACAATG ACTTTGGCGT ATTTCTTTGC AAGCTGTTCC CCTTTTTGCAGAAGTCCTCG GTGGGGATCA CCGTCCTCAA CCTCTGCGCT CTTAGTGTTG ACAGGTACAG AGCAGTTGCCTCCTGGAGTC GTGTTCAGGG AATTGGGATT CCTTTGGTAA CTGCCATTGA AATTGCCTCC ATCTGGATCCTGTCCTTTAT CCTGGCCATT CCTGAAGCGA TTGGCTTCGT CATGGTACCC TTTGAATATA GGGGTGGACAGCATAAAACC TGTATGCTCA ATGCCACATC AAAATTCATG GAGTTCTACC AAGATGTAAA GGACTGGTGGCTCTTCGGGT TCTATTTCTG TATGCCCTTG GTGTGCACTG CGATCTTCTA CACCCTCATG ACTGGTGAGATGTTGAACAG AAGGAATGGC AGCTTGAGAA TTGCCCTCAG TGAACATCTT AAGCAGCGTC GAGAAGTGGCAAAAACAGTT TTCTGCTTGG TTGTAATTTT TGCTCTTTGC TGGTTCCCTC TTCATTTAAG CCGTATATTGAAGAAAACTG TGTATAACGA GATGGACAAG AACCGATGTG AATTACTTAG TTTCTTACTG CTCATGGATTACATCGGTAT TAACTTGGCA ACCATGAATT CATGTATAAA CCCCATAGCT CTGTATTTTG TGAGCAAGAAATTTAAAAAT TGTTTCCAGT CATGCCTCTG CTGCTGCTGT TACCAGTCCA AAAGTCTGAT GACCTCGGTCCCCATGAACG GAACAAGCAT CCAGTGGAAG AACCACGATC AAAACAACCA CAACACAGAC CGGAGCAGCCATAAGGACAG CATGAACTGA CCACCCTTAG AAGCACTCCT GAATTCGGGA AAAAGTGAAG GTGTAAAAGCAGCACAAGTG CAATAAGAGA TATTTCCTCA AATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCCTTTTGGCTGG CACTGGTTGG ATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAAT CTAAGCAATCATGTGGATGA TTTCACCACT TTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAATTTGGTCCTA CCCAGCAATG GCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC TTCAGCTTTCAAATACATTA ACACTGTGAT ATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCA ACTCTGCTCAGGATCATTTA CCAGAACAAA TGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTG CCCTTGGAGACCTTATCTAT GTGGTCATTG ATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGATCACAATGACT TTGGCGTATT TCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCGTCCTCAACCT CTGCGCTCTT AGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAATTGGGATTCCT TTGGTAACTG CCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCTGAAGCGATTG GCTTCGTCAT GGTACCCTTT GAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATGCCACATCAAA ATTCATGGAG TTCTACCAAG ATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTATGCCCTTGGTG TGCACTGCGA TCTTCTACAC CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGCTTGAGAATTG CCCTCAGTGA ACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTGTAATTTTTGC TCTTTGCTGG TTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGATGGACAAGAAC CGATGTGAAT TACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAA CTTGGCAACCATGAATTCAT GTATAAACCC CATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCATGCCTCTGCTG CTGCTGTTAC CAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCAGTGGAAGAAC CACGATCAAA ACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCACCCTTAGAAG CACTCCTCGG TACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCCGGGAATCTCT TCTCTGATCC TTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCGCAAGGGTAGA CTGGTTTATC CACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATATTCTGCGTGT TGTATTCAGC ACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACCAGAAGGATAT TTACTACTTT TGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCTGGTGAATGTT CAATGGGAAC TGGTCACCAT GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTTAAGTGATTTT TTTGTCCTTC AGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGGTGCCAGTATC CCGAATTC GAATTCGGGA AAAAGTGAAG GTGTAAAAGC AGCACAAGTG CAATAAGAGATATTTCCTCA AATTTGCCTC AAGATGGAAA CCCTTTGCCT CAGGGCATCC TTTTGGCTGG CACTGGTTGGATGTGTAATC AGTGATAATC CTGAGAGATA CAGCACAAAT CTAAGCAATC ATGTGGATGA TTTCACCACTTTTCGTGGCA CAGAGCTCAG CTTCCTGGTT ACCACTCATC AACCCACTAA TTTGGTCCTA CCCAGCAATGGCTCAATGCA CAACTATTGC CCACAGCAGA CTAAAATTAC TTCAGCTTTC AAATACATTA ACACTGTGATATCTTGTACT ATTTTCATCG TGGGAATGGT GGGGAATGCA ACTCTGCTCA GGATCATTTA CCAGAACAAATGTATGAGGA ATGGCCCCAA CGCGCTGATA GCCAGTCTTG CCCTTGGAGA CCTTATCTAT GTGGTCATTGATCTCCCTAT CAATGTATTT AAGCTGCTGG CTGGGCGCTG GCCTTTTGAT CACAATGACT TTGGCGTATTTCTTTGCAAG CTGTTCCCCT TTTTGCAGAA GTCCTCGGTG GGGATCACCG TCCTCAACCT CTGCGCTCTTAGTGTTGACA GGTACAGAGC AGTTGCCTCC TGGAGTCGTG TTCAGGGAAT TGGGATTCCT TTGGTAACTGCCATTGAAAT TGTCTCCATC TGGATCCTGT CCTTTATCCT GGCCATTCCT GAAGCGATTG GCTTCGTCATGGTACCCTTT GAATATAGGG GTGAACAGCA TAAAACCTGT ATGCTCAATG CCACATCAAA ATTCATGGAGTTCTACCAAG ATGTAAAGGA CTGGTGGCTC TTCGGGTTCT ATTTCTGTAT GCCCTTGGTG TGCACTGCGATCTTCTACAC CCTCATGACT TGTGAGATGT TGAACAGAAG GAATGGCAGC TTGAGAATTG CCCTCAGTGAACATCTTAAG CAGCGTCGAG AAGTGGCAAA AACAGTTTTC TGCTTGGTTG TAATTTTTGC TCTTTGCTGGTTCCCTCTTC ATTTAAGCCG TATATTGAAG AAAACTGTGT ATAACGAGAT GGACAAGAAC CGATGTGAATTACTTAGTTT CTTACTGCTC ATGGATTACA TCGGTATTAA CTTGGCAACC ATGAATTCAT GTATAAACCCCATAGCTCTG TATTTTGTGA GCAAGAAATT TAAAAATTGT TTCCAGTCAT GCCTCTGCTG CTGCTGTTACCAGTCCAAAA GTCTGATGAC CTCGGTCCCC ATGAACGGAA CAAGCATCCA GTGGAAGAAC CACGATCAAAACAACCACAA CACAGACCGG AGCAGCCATA AGGACAGCAT GAACTGACCA CCCTTAGAAG CACTCCTCGGTACTCCCATA ATCCTCTCGG AGAAAAAAAT CACAAGGCAA CTGTGAGTCC GGGAATCTCT TCTCTGATCCTTCTTCCTTA ATTCACTCCC ACACCCAAGA AGAAATGCTT TCCAAAACCG CAAGGGTAGA CTGGTTTATCCACCCACAAC ATCTACGAAT CGTACTTCTT TAATTGATCT AATTTACATA TTCTGCGTGT TGTATTCAGCACTAAAAAAT GGTGGGAGCT GGGGGAGAAT GAAGACTGTT AAATGAAACC AGAAGGATAT TTACTACTTTTGCATGAAAA TAGAGCTTTC AAGTACATGG CTAGCTTTTA TGGCAGTTCT GGTGAATGTT CAATGGGAACTGGTCACCAT GAAACTTTAG AGATTAACGA CAAGATTTTC TACTTTTTTT AAGTGATTTT TTTGTCCTTCAGCCAAACAC AATATGGGCT CAAGTCACTT TTATTTGAAA TGTCATTTGG TGCCAGTATC CCGAATTC are provided.

(2) SEQ ID NO: 3015 data:

(i) sequence characteristics:

(A) length: 9372 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3015 sequence description: GGBGCTGBTB CTGCBGATTT CBGBGGGBBG BBCCCTTGBTB CTCBCCBGCT TCBGCTCTCTGGBGCBCBBGBGBBBGBGBGBGBGBGBGBGBGGGBGBG GBBGBBGGGBBGBBGCBG CBTCTTCCCB GBGBGBGBGGCTGC CTGBGCBBGBGCBT GCTGGTTTTCCTTTCCBGTC TTGGGTTTTB TBBCCCBG BBGGCBBGGGGCBBGG CGTTTTCTTC TCTCGCTGGTTTTCCTTTCC TGGCAGTGGG TGGGGGTGGG GGTGGGGTGG CTTCCTTGTT CCTGGGGGTG TCCTCTTGCTCTGGGCTTTT CTCCCCTTTT CCTTCCTGTC TGTTTTCCTG GGGCTCTCCT CTGTCTCTGT GTCCTTGCCCTGGCCCTCTT CCCTCTCCTG TCTCCTGTCC CTGTGTTCCG CCCGTCTTCCCTCTCCTGAC CTCCTTTTCC TCCGCTGGGT GGGGCCCTGC CTGTTCTCTG CTCCCTGGCT TGGGGTTTCTTCTGTGTGTC TTCTTCCTCT GTTGGCTGGC TTTCTCCTTC TTTTGTCTTC CTGGGTGCCC CTTCTTCCTTTCTTGGGTCC TTGGTGCTTG GGCTGGG TCCCAGTTAA TACATAATCA ATATGCAATT TATTAATACATCTCTCCATG TCCACTCCCC CTGTATCTTG CCATTCTTGA CCTGCATTTC CATCCTCCTT ACCTTCCCTAGAGGCCAACT CATTTTCTTT GAAAAACCTG GCATTTCCCA GAAAAAAAAG TGAAGGGCTG GGAGCTGTCCGTTGTCCTGA TTTGCTCCCT CTGCCCTTGC TTCCAAATGT GGTTGGAAAG AAGCACTATT GAAAAATCCCTAAACGCACC CCTGCAGGGT TGGCTCTACC CTGTAGCCAT GGACACATGC TGTTGATACC ACCTGCCTCATGAGTCTCAC ATAATTTGCC CTTTCACACT ATCTACCCCA TCAGCCTTAC CAAAACCATA CCTGCATCCTGGGCAGCATC TGCCCTTCAA GAGACTAAGG AATCTCCTTG CAACCAAGAA TGACTAGACC AATGAGACACCCTTTAAGGC CCCAGCACAA TATAGAAATC CCACAATATG GTAATCCCAG TAAGGAGCTA TCAAGCCATTGCAGGACCAT CTAGAATACA ACTAGAGTAT AGTTCCTTTC AATCCAGGAA CTATACTCTA ACAGCTTGGCTCACAGGAAC CAGAAGTGAA GATGATGAGG ATCAGGGCTG AGCCTGTGAG CACCAGCTCC ACCACTGACACCAACCACAG ATTAAACAAG CATCTTGTGG ACCCCTGGGA TGGAAAGAAT AGTTGTTGCC TTATCAACCTCCCCCACAGC CCACACAGAA AAGATAAAAT CATCATGGCT ACAGTGTTAC AGAAGATGAT GACCCAAGGAGTAGGCCTGC CTGAGTGAAT GCTGAGAGTG ATAATGGGAG CAGTAGCATC TCAGAGACTA CAGCAGAAACCATCCACATA AAGAGCTTTG CCCAAACTTA TGATAAAGGG CACCCTCAGA GACTCTCCCT ACTTTAATATTAGCCCATTG CAGAAATGGT GAGTGGAAAG AGAAATCTTA GGAAGAACCC CTTAAAAAAG CAAAATGCTTTTTAGGTTTG TGCTGAAGAG CCTGGAAAAG AAATAAGGAC ACACACGCTG AGAAATCTTC CTCCTGCCCCAACACTGGGA TAATCTCCAA GGATCTCTCC ATATCTCATT CTCCTGGATA CACTGTCCAC TCAGAAATATTGTGCAGAGT GCAGTAATTC AAAAGTGAGC TATTGTGTTA GGAGTGAAGG CAAGAGTATC GTAAAATAAATCAAATTTGA AATGAATTCT CTTAAATTGC TTTATAGATG TTTAATGTAA GCCAGCAGCT ATTAAACGATAAACCTTAAA TTCGAGAAAA ACTTGGTCAT TCAGAAACTA TAGAAACAGG CAGGACTTAT TGCGAGGGCAAACACAGAGT GAGCTCCAGC CTGCTTCAGG AAAATCTGCC AGTGCCATGA AGGATGTACT CTGTCTGCTCCACTGCACTA CTGCTCAGTA TGAGCCCATG CCATCAGCTG TCCCTGACCC ACAGGAGTTC TTTAGAAGAGACTGGTCAAC AAAAGTTTCT AGGGTGTTTT ATACCTGCCA ACTCGAGGGT TAAAACAAGT TGCATAGAAATGCTCAATCA AGAAAGACAC AGTCATTACT CAGAGAATAA TAAACAGCCT GGCAGCACAT GAATGAATAGAAAAAAGATG TTACATGCAA AGCATGAAAT AACCAAATTC CATAACAGAT GTTAATCTGT AATGTGTTTAGGAGAATTTA GAGGAAGTAT AAGATTTATT CTTTCATCAA AAAAATTATA GCCAATGAGG ATATATCTATCAATTATCCA TCAAGTGGTG ATATGGCAGC ACAAGGTAAA ACACAAAGGA ATAAAACCAA CGTTTATTAAGAACCAATCA TGTGGCATTT CACATTGAGC ATCATATTTA ATTCTGAAAA AAATCCTTGT ACTGTATCATTCTTCATATT TTATGGATGC AGTAACTAAG GCTGAGAACT TTAAAATTTT TCCTAAGTTC AGACACATAGCTAAGTGGCA GAACCAAGAT TCAAACTCAC CCCATCTAAC TGCAGAGCAA ACTGCATGCC TTAAATGTCAAAGTGAATAC TAGCACAGTT AATACAATGT TTGGAAACTC AGAGAAGGAA TGATCCCTCT GCATTATAGTTACTAAGGAA TCATTGCCAT TATTTAAATG CCAGTGCTTC TACATCAGGC CCAAATTTTC TGTCCTACTAACTGTGAATC AAGACTTGAT TCAACCTCTA CTTGAGTATC TGCCGCAATG AGAAATCACT TACCTCCACTAACCACACAT TTATTTTATA ACAACAGATT GTTAGTAAGT CCTTTCTTAT ACATACTCAA CAGCTGCTTCCCAAGATGCT GTAGGATTAT GTCTAGAGTC AAACTAGCCA GAAGCAATGT CCAAAATACA CCATAACACTGTGCAGCAAA GGTCCTACTA CCACTTGTTT GGCCCAAACA TTCTAGGCAG CACTGGATAT CTGAATCATCAATTATTTCC ACAAACACTG ACCCCTCTAC CAGTCACCCT CACTAGAAGA ATTAATTCCA CATGATAATAGCTCCCTCAT GTTACTCCCT TCTAAGTCAA ATTGTACACC CCTTTATCTG ATTAACAGAG TCTAAGTCACATGACCTAAA TGCAAGAGAA CTGGGAATGG ACGTTTGTGG ATTCTACCTT AGTAAGGCAA AGTTATCATTGGGAATTCCT CTAATACAGG AAGGGTGTTC CAGAGACATT AAGGAGCCAT ATAAATGGAA AATGTCCACTACAATCCATC ACTTGGTTGC CCCACATCAA CATTCATTCT TTTGCCACAC TTAAAGTTTC CAAGAACAAAAATTATCCCA CTGAACATAA TCTTTACTAT CTTTTATATA AAGGAAAATT AGACTTGACT CAGCAGAACTGAAATAACCC AGCTCTAACA GTTACTGCTT TTAACTTCAA GTACTGTGTC TCTAGGTGAT ACCTGCTCCAACAATAGTTT GGTCACATTT TCAATTTGAT ATTCTCTAGT CTCCCAACTT GATAACTGTA CCCTAAACCATAAAGTTCAC TACCAACATG CTATATATAA AATAACCAAA GGGGGAAGAA GAAAGAGAAA AAGGAAATCTCTTAAAATAC ACAGGTATAC ATATGACAAA GCAAAGAAGG AAATGTGAGC AGATAGTGCA GTCCTCGTTTCTGAAATTGG TCCCCTGACT GGGGCTATAC CTATTCCATT TCCTCACCCT CAGCCAGGCA GGTGGAGCAAAAACTTAAGT CTTGGTGGAT CTGAATCTTG ATGCTGTGGA GCTGTCTTAC TAGCCCCAGA CTACCTGCCTCTCAATTTCT AATTATATCA GTGAAAGCAA ACAGCTTTGA TTTGTTTAAG CCTCTGATTT TTTGGTCTAACTGATGTAAG ACCACAAGGA CAAGAGTTCT CCAGCTCCGG ATTCTCTTCT GTTCTGTTAA TGGTGAAATGCCCGAGAGAA GAGTTGCCAA CTTTGGCAAA TAAAAAATAC AGGATTCCAG TTAAATTCAA ATTTAGATAAACAACAATTT TTTAGTATTA GTGTGTCCCA TTCAATATTT GGACATACTT AACTAAAAAA TGATTTGTTGTTCATCTGAA ATACAAATTT AACTGGGCAT TCTGAATATT CTCTGGCAAC CCCCGAGAGA GTGAAGAAAGTGGTACAAGG ACACTTAAGA AGACCAGATT TGAAAAGACA TTACGGATGT GTTTAAATGT CTTATTCTAGAGAGAGTTAG AGCTGTAGGT AGAACTTGGG AAATTAAGTT AAAAGCAGAC ACAGAGACCT GGCCAATATATACTAAGGAG TGGATCACTC TGGTCACAAG CCCAACCTGA GACCAAGGGC ATAGTGAGAT GATTTGGGAAAGGCACTTAT ACACTACTCA TCCCCGTCTT TGAACTAAAT GCCTTATAAA TCTCCAAGAG AAATGACAGTCCACCATGTG GACTGCTTTC TGTAAGTCCA GGGAAAATAA AAGCTATGTG CTTGAAACCC ACTTCTGATATTATAAGGTG TGTGATCTTT GTCATGTTAA TGGGTCTGAG TATCAATTCT ACAATTGTAA AGTGACAGTAATGGTGTGTC CCCAGGTTGT TGTGGAAAGC TTGATTCTTA ATGCAACAGT AGGAAACCCC AGCCTCTCTGGAGCAAACAC CCTTCTACAT CTTTACTTCC CCTGCACATT GGCAGGACTC TATTCCTCTA TTTCTCTCTAGTGCTAGAGC AGAAAGGGAC CTTGATTTGA TATCAGGAAA ATCTATTTCT GAACCATAAG CTATGATAGCTGATTTAAAA AATTGACTAT CATGACATGA TAATGATCAT AATGGTAATA CATATTGATA GGGTTGCCGTGAAAGTAATA ATATATCTAA GAGTTGTGAC AATATATGAT ACGCCTAGAC TCTCAGAAAA TGCTAATTCCAATCCCAATT GCTCTTTGCA TAAAGTTCTG TCCTAGGGTC TGTTCTTTTC CCACATCTAC CCTCCTTGGATCTCTCTTCT GTCTTTTTCA TGTGGTTCAG AGGAGGAGAG AGATCCAGGT CAATGTTTTT CAAATTACAAGGAATTATCA TTTAAATGGG GAAGAAGCTC AAGTTTTGAC GTGTAGTGGA ATTGGAGTGG AGTGGAGTGGAATGGAAACT AACAGGAAGA CACTGCACAT GGTTAAGATA AAGATTGTTT CCTGAAACCT TTAATTTGTGCTTACATACT CACACATACA TATGTGCATG CACTGGGACT CTGCAATATG CATTTCTGAC TATGGAACATAGCCATAAAA GTCTTTGCAC TGAACGTTCA GTGGGCCTTT CACAAGCTGC CCTAATTGGG AAAGAAAAACATGGTCCCTC CATTTCCTGC CCCCAACTCC AGAAAAGTCA CCATAGTTGA GGGTACATCT GAGAAGCCAGCACTTGGGAG TTCAGGGCTC AAGTTCCTTT CTAGAAAAAC ACTGGGTGAT TCTAGGGGAA CTTCCGATCAGAAACAGCCA ATTCAGAGTG AGAGAAGAAA ACGTGACCAT GCAGTTCCTG TGGTTACCAG CCTTGCCCCTCTCTTGCCTT CTGGGAGTTA TAAAACCCAA GACTGGAAAG GAAAACCAGC ATTTGCTCAG GCAGCCTCTCTGGGAAGATG CTGCTTCTTC CTCTCCCCCT GCTGCTCTTT CTCTTGTGCT CCAGAGCTGA AGCTGGTGAGTATCAGGGTT CTTCCCTCTG AAATCTGCAG TATCAGCTCC TGAAACAAAG ATGTTTAGTC TGAAATAGCTGACTCCTAAA CAGGGTTCCA AGATCTCTCT TCAAGAGTCC CACAGAGGAA ATTTCCACTT GGGATGTGTGCCACCCCACC CCCACCCCCA CCCACTGCCA TTCTCTACAG CCTAGGACAC CCCCAGGAAC AAGGAATTTCACCTCAATTG TAGAAAAGCC CAGAGCAAGT GGAAGGAAAA GGGGTATCCC CAGGAAAACA GACATGTCCTCTTAATCTTC TGAGCATCAG GGCTACCCAT TACTTTGTGA CTTTCTCACT CTGTGACCAT GCTCAAGAGCTATGGAGAAA TCTAAAACAG GAACCTGGAC AGTGGGTCCT ACACAGAGAC AGAGGAGAGT GGGCCAGGGCAAGGTGGGAG TGGGAGAAGT CTGAGATGAA AACATCAGAA TGGAGCAGAG GCAAGAATGA GATTTCACCTGGGAGGTTAT GGGTGGGGAA AGATACGAAA TACAGGAGAC AGGAGAGGGA AGATGGGCGG AACACAGGGTGAGAATGAGA TTCCAGGGAA GCCTAGCTCA GCTTTAACCC AATTTGTCCA TTCATTGGAG AGAGTATCTATGGCCGTGTT CAAACCCTGG GGTGCTCTGT TCCAGGGGAG ATCATCGGGG GCACAGAATG CAAGCCACATTCCCGCCCCT ACATGGCCTA CCTGGAAATT GTAACTTCCA ACGGTCCCTC AAAATTTTGT GGTGGTTTCCTTATAAGACG GAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTGA GACAACAGGG TCTATTTATCTCCAAATGGG AGATGAACAA CCAGAGTAGC ATCCAGGAAT ACACCTGCAC TGGGGACTGA AGAGGGGGTCCTGGGTCTTG TCAACTTTCA GGAGAGGGAA GACTTTGGGC TGAAAGACTT TAGTCTGTGT TTGAATAGTTCCTTGAGCCT CAGTCACTGA GCTAAGCTCC CTTCGGAGGA AAAGGAGGTC CTGTCCGAAG GTCCCTCTTGTTGCAGTAGC ACCCCTCACC CCTACCCAAC TCAAGACACA CGGCTCACTT TTCAGGGCCC CACCCAGTCTCAGGGCCACT TCCTCTATGG CCTTTTCAAG AACACTGGCT CTAGTTCTCA GGGTCCTGAA CCCATCATTTTATGGGAGCA GAGAACAGGT CTACATAAGA CCCCCACTTT CGCGTTTTAA CTGATATCTC CTGCTTCAGGGGCTGGCCCT CATGCAGGGT TCCCTGAATT AGGAAGTGTG AACCCTGTCC CCTGAGTCCT CCCTGGCCTGTTCAGTCCCC AGCAATTCCA GGGGTCGTAGAAATTGTGTC TGTTTCCTGA GAAAGCTCTT TCATGAGTTAAGCCTGAGCC CTCAAATGCC ACAAGTGGCC CATGAAAAGG GAGATGGGTA GAGTCCGGCN ACCCAGTGACAGAGTTTAGT CCTCTTTTCT CAGAATGAGC TCACCTCAGA AGAAACCCCA AGCCATCACT GTCGCCTCCTTTTCCTTCCT TCTTCCTCAC AGCAGGTCTA TAACAGTCAC CCTTGGAGCC CATAACATAA CAGAGGAAGAAGACACATGG CAGAAGCTTG AGGTTATAAA GCAATTCCGT CATCCAAAAT ATAACACTTC TACTCTTCACCACGATATCA TGTTACTAAA GGTGACAACA CCTCTCTTCT CCCTTTCCAC TTCCCATTCT CCTAAGCTTCTCCTTCAGGT CCTCATTGCC CTGAATTTTT CTTAGGACTT GGCTATAACA TGAAGCTACT CACCCTGTCCCTCCCTGATC ACCTCCAACT GTCCAGAGCC CATTTCGAGG ACTGACAGTC CTTCATTCCC TTCACAGTTGAAGGAGAAAG CCAGCCTGAC CCTGGCTGTG GGGACACTCC CCTTCCCATC ACAATTCAAC TTTGTCCCACCTGGGAGAAT GTGCCGGGTG GCTGGCTGGG GAAGAACAGG TGTGTTGAAG CCGGGCTCAG ACACTCTGCAAGAGGTGAAG CTGAGACTCA TGGATCCCCA GGCCTGCAGC CACTTCAGAG ACTTTGACCA CAATCTTCAGCTGTGTGTGG GCAATCCCAG GAAGACAAAA TCTGCATTTA AGGTGATCCT CCAACTAGGT TTCCTCTCCAAAACTCACTG TTCAGGGACC TGAATGCTCT TAGAAGGAGA TGGGGTCAGC AGGTTGTCAG TCAGGTGACAGGGTGAGCAT CACAGGAATT GCTGTCCTCC CGTGGTCCAA GACAGCCTCT GACCATCCAT TCCAGTCTACTGCACTGGGG GCATGGGGTG ACTGTGGAGA ATGTGGATGA CGGTCCCAAG AAAGGAAGAA GGGGCATCAGAACTAGATGT ATAAGTGAGG AGCTCCACCT CCTGGGTCTG ACTTTAGGTC TCACTGTGAC TCCAAGCTGGCTGGCAGACA GGAGTGGAGG ACTTCCCGGG CTCACCTTCT TCTCTCTCTC CTCCCCCTAC AGGGAGACTCTGGGGGCCCT CTTCTGTGTG CTGGGGTGGC CCAGGGCATC GTATCCTATG GACGGTCGGA TGCAAAGCCCCCTGCTGTCT TCACCCGAAT CTCCCATTAC CGGCCCTGGA TCAACCAGAT CCTGCAGGCA AATTAATCCTGGATCCTGAG CCAGCCTGAA GGGAAGCTGG AACTGGACCT TAGCAGCAAA GTGTGTGCAA CTCATTCTGGTTCTACCCTT GGTTCCCTCA GCCACAACCC TAAGCCTCCA AGAGGTCTCC TACAGGTAAC AGAACTTTCAATAAACTTCA GTGAAGACAC AGCTTCTAGT CGTGAGTGTG TGTCCCTCTC TGCTGCTCTC TTCTCCTGCACATGTGACCT GATTCCCAGC CCAAGCACCA AGGA ATCATCGGGG GCACAGAATC CAAGCCACAT TCCCGCCCCTACATGGCCTA CCTGGAAATT GTAACTTCCA ACGGTCCCTC AAAATTTTGT GGTGGTTTCC TTATAAGACGGAACTTTGTG CTGACGGCTG CTCATTGTGC AGGAAGGTCT ATAACAGTCA CCCTTGGAGC CCATAACATAACAGAGGAAG AAGACACATG GCAGAAGCTT GAGGTTATAA AGCAATTCCG TCATCCAAAA TATAACACTTCTACTCTTCA CCACGATATC ATGTTACTAA AGTTGAAGGA GAAAGCCAGC CTGACCCTGG CTGTGGGGACACTCCCCTTC CCATCACAAT TCAACTTTGT CCCACCTGGG AGAATGTGCC GGGTGGCTGG CTGGGGAAGAACAGGTGTGT TGAAGCCGGG CTCAGACACT CTGCAAGAGG TGAAGCTGAG ACTCATGGAT CCCCAGGCCTGCAGCCACTT CAGAGACTTT GACCACAATC TTCAGCTGTG TGTGGGCAAT CCCAGGAAGA CAAAATCTGCATTTAAGGGA GACTCTGGGG GCCCTCTTCT GTGTGCTGGG GTGGCCCAGG GCATCGTATC CTATGGACGGTCGGATGCAA AGCCCCCTGC TGTCTTCACC CGAATCTCCC ATTACCGGCC CTGGATCAAC CAGATCCTGCAGGCAAATTA A

(2) SEQ ID NO: 3016 data:

(i) sequence characteristics:

(A) length: 3117 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3016 sequence description: CTGCCCCGTT TTTTTTGBTCCT CBCBTGCCGT GGGGGGBGGBCB BTGGCTGCCT CCCCGGGGTT TCTGCTGCTTGCTGCTTCTT TCCCGTCTCC CTTCTTTCCC GTCTCCTTTT TGCCTCTTTG GGTTCCTGTT GTTTCTGGCCTGCTTGGTGG CGGCTTGTGC GTTTCCTCTC TCTTCTCTTG GGTCTCCGCT TCTCGTCCTG CCTTTTCCTGTCTCTGTCGC GCCGTTCCTC CTCCGGCGTC CTCCTGCCCT GTGCTGTTTG CCTCGGGTGG TGCGGGTCCCGGTGCTCCCC CGGCGGGCCG GCTGGTTGCC TGGGCCTGTC TGGTGGGGTG TGGGGCCGCT GGGTTGGGGGTGTGGTGGGC TCTTCTGTGG CCTGTGGGGC TGTTGGTGTC TCTGTGGGCG TGTGCTGGGT CTTGGGGCTTCCTCCCTTGT GCTGGGTGCG GCCTCCCCGC CCCCCTTCTG GGCCGGTGGC CTGGCTCCTT GTGGGCGCTTCTGGCTCTTG CCCTGTCCTT CTTCGCCTCG TGGCTGCTGG GCTGC CATATGTATG GGAATACTGTATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCAT TGTGGCTAAC CCTTGTAATC CTAGCACTTTGAGAGGCTGA AGTGGGCAGA TCACTTGAGC TTCAGAGTTC GAGACCAGCA TGGACAACAT GGTGAAACCCAGTCTCTACC AAAAACACAA AAATATTAGC TGGGTGTGGT GGTGCATGCC TGTAGTCCCA GCTACTCAGGAGGCTGAGGT GGGAGGATCG CTTGAGCCTG GGAGGCAGAA GTTGCAATGA GCAGAGATCG TGCCACTCCGCTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAAT AAATAAATAA ATAAATAAAA TAAATGAAATGAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGA TCATTTCCAT TATAAGGGAA GGAATTTAATCCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGG ATGAGGTGTT AGTAAGACCA ACATCTCAGAGGCCTCTCTG TGCCAATAGC CTTCCTTCCT TTCCCTTCCA AAAACCTCAA GTGACTAGTT CAGAGGCCTGTCTGGAATAATGGCATCATC TAATATCACT GGCCTTCTGG AACCTGGGCA TTTTCCAGTG TGTTCCATACTGTCAATATT CCCCCAGCTT CCTGGACTCC TGTCACAAGC TGGAAAAGTG AGAGGATGGA CAGGGATTAACCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCT GAAAGTGAGG CCATGTGGCT TGGCCAAATAAAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCT GCTGATGAAC TGCCACCTTG GACTTGGGACCAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGT GATGTAACAG CAAGATCAGG TCACCCACAGGCCCTGGCAG TCACAGTCAT AAATTAGCTA ACTGTACACA AGCTGGGGAC ACTCCCTTTG GAAACCAAAAAAAAAAAAAA AAAAAAGAGA CCTTTATGCA AAAACAACTC TCTGGATGGC ATGGGGTGAG TATAAATACTTCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGA AAACTGAGGC TCCGGCCGCA GAGAACTCAGCCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGA GGGGACTGGG CAGTTCTAGA CAGTCCCGAAGTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTT ACCCCGGGGA GGCAGTGCAG CCAGCTGCAAGGTGAGTTGC C CATATGTATG GGAATACTGT ATTTCAGGCA TTATAAGGAA TGAAATTATA GGCCGGGCATTGTGGCTAAC CCTTGTAATC CTAGCACTTT GAGAGGCTGA AGTGGGCAGA TCACTTGAGC TTCAGAGTTCGAGACCAGCA TGGACAACAT GGTGAAACCC AGTCTCTACC AAAAACACAA AAATATTAGC TGGGTGTGGTGGTGCATGCC TGTAGTCCCA GCTACTCAGG AGGCTGAGGT GGGAGGATCG CTTGAGCCTG GGAGGCAGAAGTTGCAATGA GCAGAGATCG TGCCACTCCG CTCCAGTCTT GGTGACAGAA TGAGACTCCA TCTCAAAAATAAATAAATAA ATAAATAAAA TAAATGAAAT GAAATTATAA GAAATTACCA CTTTTTCATG TAAGAAGTGATCATTTCCAT TATAAGGGAA GGAATTTAAT CCTACCTGCC ATTCCACCAA AGCTTACCTA GTGCTAAAGGATGAGGTGTT AGTAAGACCA ACATCTCAGA GGCCTCTCTG TGCCAATAGC CTTCCTTCCT TTCCCTTCCAAAAACCTCAA GTGACTAGTT CAGAGGCCTG TCTGGAATAA TGGCATCATC TAATATCACT GGCCTTCTGGAACCTGGGCA TTTTCCAGTG TGTTCCATAC TGTCAATATT CCCCCAGCTT CCTGGACTCC TGTCACAAGCTGGAAAAGTG AGAGGATGGA CAGGGATTAA CCAGAGAGCT CCCTGCTGAG GAAAAAATCT CCCAGATGCTGAAAGTGAGG CCATGTGGCT TGGCCAAATA AAACCTGGCT CCGTGGTGCC TCTGTCTTAG CAGCCACCCTGCTGATGAAC TGCCACCTTG GACTTGGGAC CAGAAAGAGG TGGGTTGGGT GAAGAGGCAC CACACAGAGTGATGTAACAG CAAGATCAGG TCACCCACAG GCCCTGGCAG TCACAGTCAT AAATTAGCTA ACTGTACACAAGCTGGGGAC ACTCCCTTTG GAAACCAAAA AAAAAAAAAA AAAAAAGAGA CCTTTATGCA AAAACAACTCTCTGGATGGC ATGGGGTGAG TATAAATACT TCTTGGCTGC CAGTGTGTTC ATAACTTTGT AGCGAGTCGAAAACTGAGGC TCCGGCCGCA GAGAACTCAG CCTCATTCCT GCTTTAAAAT CTCTCGGCCA CCTTTGATGAGGGGACTGGG CAGTTCTAGA CAGTCCCGAA GTTCTCAAGG CACAGGTCTC TTCCTGGTTT GACTGTCCTTACCCCGGGGA GGCAGTGCAG CCAGCTGCAA GGTGAGTTGC C

(2) SEQ ID NO: 3017 data:

(i) sequence characteristics:

(A) length: 8222 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: linear (xi) SEQ ID NO: 3017 sequence description: CTGCTTTAAA ATCTCTCGGC CACCTTTGAT GAGGGGACTG GGCAGTTCTA GACAGTCCCG AAGTTCTCAAGGCACAGGTC TCTTCCTGGT TTGACTGTCC TTACCCCGGG GAGGCAGTGC AGCCAGCTGC AAGCCCCACAGTGAAGAACA TCTGAGCTCA AATCCAGATA AGTGACATAA GTGACCTGCT TTGTAAAGCC ATAGAGATGGCCTGTCCTTG GAAATTTCTG TTCAAGACCA AATTCCACCA GTATGCAATG AATGGGGAAA AAGACATCAACAACAATGTG GAGAAAGCCC CCTGTGCCAC CTCCAGTCCA GTGACACAGG ATGACCTTCA GTATCACAACCTCAGCAAGC AGCAGAATGA GTCCCCGCAG CCCCTCGTGG AGACGGGAAA GAAGTCTCCA GAATCTCTGGTCAAGCTGGA TGCAACCCCA TTGTCCTCCC CACGGCATGT GAGGATCAAA AACTGGGGCA GCGGGATGACTTTCCAAGAC ACACTTCACC ATAAGGCCAA AGGGATTTTA ACTTGCAGGT CCAAATCTTG CCTGGGGTCCATTATGACTC CCAAAAGTTT GACCAGAGGA CCCAGGGACA AGCCTACCCC TCCAGATGAG CTTCTACCTCAAGCTATCGA ATTTGTCAAC CAATATTACG GCTCCTTCAA AGAGGCAAAA ATAGAGGAAC ATCTGGCCAGGGTGGAAGCG GTAACAAAGG AGATAGAAAC AACAGGAACC TACCAACTGA CGGGAGATGA GCTCATCTTCGCCACCAAGC AGGCCTGGCG CAATGCCCCA CGCTGCATTG GGAGGATCCA GTGGTCCAAC CTGCAGGTCTTCGATGCCCG CAGCTGTTCC ACTGCCCGGG AAATGTTTGA ACACATCTGC AGACACGTGC GTTACTCCACCAACAATGGC AACATCAGGT CGGCCATCAC CGTGTTCCCC CAGCGGAGTG ATGGCAAGCA CGACTTCCGGGTGTGGAATG CTCAGCTCAT CCGCTATGCT GGCTACCAGA TGCCAGATGG CAGCATCAGA GGGGACCCTGCCAACGTGGA ATTCACTCAG CTGTGCATCG ACCTGGGCTG GAAGCCCAAG TACGGCCGCT TCGATGTGGTCCCCCTGGTC CTGCAGGCCA ATGGCCGTGA CCCTGAGCTC TTCGAAATCC CACCTGACCT TGTGCTTGAGGTGGCCATGG AACATCCCAA ATACGAGTGG TTTCGGGAAC TGGAGCTAAA GTGGTACGCC CTGCCTGCAGTGGCCAACAT GCTGCTTGAG GTGGGCGGCC TGGAGTTCCC AGGGTGCCCC TTCAATGGCT GGTACATGGGCACAGAGATC GGAGTCCGGG ACTTCTGTGA CGTCCAGCGC TACAACATCC TGGAGGAAGT GGGCAGGAGAATGGGCCTGG AAACGCACAA GCTGGCCTCG CTCTGGAAAG ACCAGGCTGT CGTTGAGATC AACATTGCTGTGATCCATAG TTTTCAGAAG CAGAATGTGA CCATCATGGA CCACCACTCG GCTGCAGAAT CCTTCATGAAGTACATGCAG AATGAATACC GGTCCCGTGG GGGCTGCCCG GCAGACTGGA TTTGGCTGGT CCCTCCCATGTCTGGGAGCA TCACCCCCGT GTTTCACCAG GAGATGCTGA ACTACGTCCT GTCCCCTTTC TACTACTATCAGGTAGAGGC CTGGAAAACC CATGTCTGGC AGGACGAGAA GCGGAGACCC AAGAGAAGAG AGATTCCATTGAAAGTCTTG GTCAAAGCTG TGCTCTTTGC CTGTATGCTG ATGCGCAAGA CAATGGCGTC CCGAGTCAGAGTCACCATCC TCTTTGCGAC AGAGACAGGA AAATCAGAGG CGCTGGCCTG GGACCTGGGG GCCTTATTCAGCTGTGCCTT CAACCCCAAG GTTGTCTGCA TGGATAAGTA CAGGCTGAGC TGCCTGGAGG AGGAACGGCTGCTGTTGGTG GTGACCAGTA CGTTTGGCAA TGGAGACTGC CCTGGCAATG GAGAGAAACT GAAGAAATCGCTCTTCATGC TGAAAGAGCT CAACAACAAA TTCAGGTACG CTGTGTTTGG CCTCGGCTCC AGCATGTACCCTCGGTTCTG CGCCTTTGCT CATGACATTG ATCAGAAGCT GTCCCACCTG GGGGCCTCTC AGCTCACCCCGATGGGAGAA GGGGATGAGC TCAGTGGGCA GGAGGACGCC TTCCGCAGCT GGGCCGTGCA AACCTTCAAGGCAGCCTGTG AGACGTTTGA TGTCCGAGGC AAACAGCACA TTCAGATCCC CAAGCTCTAC ACCTCCAATGTGACCTGGGA CCCGCACCAC TACAGGCTCG TGCAGGACTC ACAGCCTTTG GACCTCAGCA AAGCCCTCAGCAGCATGCAT GCCAAGAACG TGTTCACCAT GAGGCTCAAA TCTCGGCAGA ATCTACAAAG TCCGACATCCAGCCGTGCCA CCATCCTGGT GGAACTCTCC TGTGAGGATG GCCAAGGCCT GAACTACCTG CCGGGGGAGCACCTTGGGGT TTGCCCAGGC AACCAGCCGG CCCTGGTCCA AGGCATCCTG GAGCGAGTGG TGGATGGCCCCACACCCCAC CAGACAGTGC GCCTGGAGGA CCTGGATGAG AGTGGCAGCT ACTGGGTCAG TGACAAGAGGCTGCCCCCCT GCTCACTCAG CCAGGCCCTC ACCTACTCCC CGGACATCAC CACACCCCCA ACCCAGCTGCTGCTCCAAAA GCTGGCCCAG GTGGCCACAG AAGAGCCTGA GAGACAGAGG CTGGAGGCCC TGTGCCAGCCCTCAGAGTAC AGCAAGTGGA AGTTCACCAA CAGCCCCACA TTCCTGGAGG TGCTAGAGGA GTTCCCGTCCCTGCGGGTGT CTGCTGGCTT CCTGCTTTCC CAGCTCCCCA TTCTGAAGCC CAGGTTCTAC TCCATCAGCTCCTCCCGGGA TCACACGCCC ACGGAGATCC ACCTGACTGT GGCCGTGGTC ACCTACCACA CCGGAGATGGCCAGGGTCCC CTGCACCACG GTGTCTGCAG CACATGGCTC AACAGCCTGA AGCCCCAAGA CCCAGTGCCCTGCTTTGTGC GGAATGCCAG CGCCTTCCAC CTCCCCGAGG ATCCCTCCCA TCCTTGCATC CTCATCGGGCCTGGCACAGG CATCGTGCCC TTCCGCAGTT TCTGGCAGCA ACGGCTCCAT GACTCCCAGC ACAAGGGAGTGCGGGGAGGC CGCATGACCT TGGTGTTTGG GTGCCGCCGC CCAGATGAGG ACCACATCTA CCAGGAGGAGATGCTGGAGA TGGCCCAGAA GGGGGTGCTG CATGCGGTGC ACACAGCCTA TTCCCGCCTG CCTGGCAAGCCCAAGGTCTA TGTTCAGGAC ATCCTGCGGC AGCAGCTGGC CAGCGAGGTG CTCCGTGTGC TCCACAAGGAGCCAGGCCAC CTCTATGTTT GCGGGGATGT GCGCATGGCC CGGGACGTGG CCCACACCCT GAAGCAGCTGGTGGCTGCCA AGCTGAAATT GAATGAGGAG CAGGTCGAGG ACTATTTCTT TCAGCTCAAG AGCCAGAAGCGCTATCACGA AGATATCTTC GGTGCTGTAT TTCCTTACGA GGCGAAGAAG GACAGGGTGG CGGTGCAGCCCAGCAGCCTG GAGATGTCAG CGCTCTGAGG GCCTACAGGA GGGGTTAAAG CTGCCGGCAC AGAACTTAAGGATGGAGCCA GCTCTGCATT ATCTGAGGTC ACAGGGCCTG GGGAGATGGA GGAAAGTGAT ATCCCCCAGCCTCAAGTCTT ATTTCCTCAA CGTTGCTCCC CATCAAGCCC TTTACTTGAC CTCCTAACAA GTAGCACCCTGGATTGATCG GAGCCTCCTC TCTCAAACTG GGGCCTCCCT GGTCCCTTGG AGACAAAATC TTAAATGCCAGGCCTGGCGA GTGGGTGAAA GATGGAACTT GCTGCTGAGT GCACCACTTC AAGTGACCAC CAGGAGGTGCTATCGCACCA CTGTGTATTT AACTGCCTTG TGTACAGTTA TTTATGCCTC TGTATTTAAA AAACTAACACCCAGTCTGTT CCCCATGGCC ACTTGGGTCT TCCCTGTATG ATTCCTTGAT GGAGATATTT ACATGAATTGCATTTTACTT TAATC GAATTCCCAC TCTGCTGCCT GCTCCAGCAG ACGGACGCAC AGTAACATGGGCAACTTGAA GAGCGTGGCC CAGGAGCCTG GGCCACCCTG CGGCCTGGGG CTGGGGCTGG GCCTTGGGCTGTGCGGCAAG CAGGGCCCAG CCACCCCGGC CCCTGAGCCC AGCCGGGCCC CAGCATCCCT ACTCCCACCAGCGCCAGAAC ACAGCCCCCC GAGCTCCCCG CTAACCCAGC CCCCAGAGGG GCCCAAGTTC CCTCGTGTGAAGAACTGGGA GGTGGGGAGC ATCACCTATG ACACCCTCAG CGCCCAGGCG CAGCAGGATG GGCCCTGCACCCCAAGACGC TGCCTGGGCT CCCTGGTATT TCCACGGAAA CTACAGGGCC GGCCCTCCCC CGGCCCCCCGGCCCCTGAGC AGCTGCTGAG TCAGGCCCGG GACTTCATCA ACCAGTACTA CAGCTCCATT AAGAGGAGCGGCTCCCAGGC CCACGAACAG CGGCTTCAAG AGGTGGAAGC CGAGGTGGCA GCCACAGGCA CCTACCAGCTTAGGGAGAGC GAGCTGGTGT TCGGGGCTAA GCAGGCCTGG CGCAACGCTC CCCGCTGCGT GGGCCGGATCCAGTGGGGGA AGCTGCAGGT GTTCGATGCC CGGGACTGCA GGTCTGCACA GGAAATGTTC ACCTACATCTGCAACCACAT CAAGTATGCC ACCAACCGGG GCAACCTTCG CTCGGCCATC ACAGTGTTCC CGCAGCGCTGCCCTGGCCGA GGAGACTTCC GAATCTGGAA CAGCCAGCTG GTGCGCTACG CGGGCTACCG GCAGCAGGACGGCTCTGTGC GGGGGGACCC AGCCAACGTG GAGATCACCG AGCTCTGCAT TCAGCACGGC TGGACCCCAGGAAACGGTCG CTTCGACGTG CTGCCCCTGC TGCTGCAGGC CCCAGATGAG CCCCCAGAAC TCTTCCTTCTGCCCCCCGAG CTGGTCCTTG AGGTGCCCCT GGAGCACCCC ACGCTGGAGT GGTTTGCAGC CCTGGGCCTGCGCTGGTACG CCCTCCCGGC AGTGTCCAAC ATGCTGCTGG AAATTGGGGG CCTGGAGTTC CCCGCAGCCCCCTTCAGTGG CTGGTACATG AGCACTGAGA TCGGCACGAG GAACCTGTGT GACCCTCACC GCTACAACATCCTGGAGGAT GTGGCTGTCT GCATGGACCT GGATACCCGG ACCACCTCGT CCCTGTGGAA AGACAAGGCAGCAGTGGAAA TCAACGTGGC CGTGCTGCAC AGTTACCAGC TAGCCAAAGT CACCATCGTG GACCACCACGCCGCCACGGC CTCTTTCATG AAGCACCTGG AGAATGAGCA GAAGGCCAGG GGGGGCTGCC CTGCAGACTGGGCCTGGATC GTGCCCCCCA TCTCGGGCAG CCTCACTCCT GTTTTCCATC AGGAGATGGT CAACTATTTCCTGTCCCCGG CCTTCCGCTA CCAGCCAGAC CCCTGGAAGG GGAGTGCCGC CAAGGGCACC GGCATCACCAGGAAGAAGAC CTTTAAAGAA GTGGCCAACG CCGTGAAGAT CTCCGCCTCG CTCATGGGCA CGGTGATGGCGAAGCGAGTG AAGGCGACAA TCCTGTATGG CTCCGAGACC GGCCGGGCCC AGAGCTACGC ACAGCAGCTGGGGAGACTCT TCCGGAAGGC TTTTGATCCC CGGGTCCTGT GTATGGATGA GTATGACGTG GTGTCCCTCGAACACGAGAC GCTGGTGCTG GTGGTAACCA GCACATTTGG GAATGGGGAT CCCCCGGAGA ATGGAGAGAGCTTTGCAGCT GCCCTGATGG AGATGTCCGG CCCCTACAAC AGCTCCCCTC GGCCGGAACA GCACAAGAGTTATAAGATCC GCTTCAACAG CATCTCCTGC TCAGACCCAC TGGTGTCCTC TTGGCGGCGG AAGAGGAAGGAGTCCAGTAA CACAGACAGT GCAGGGGCCC TGGGCACCCT CAGGTTCTGT GTGTTCGGGC TCGGCTCCCGGGCATACCCC CACTTCTGCG CCTTTGCTCG TGCCGTGGAC ACACGGCTGG AGGAACTGGG CGGGGAGCGGCTGCTGCAGC TGGGCCAGGG CGACGAGCTG TGCGGCCAGG AGGAGGCCTT CCGAGGCTGG GCCCAGGCTGCCTTCCAGGC CGCCTGTGAG ACCTTCTGTG TGGGAGAGGA TGCCAAGGCC GCCGCCCGAG ACATCTTCAGCCCCAAACGG AGCTGGAAGC GCCAGAGGTA CCGGCTGAGC GCCCAGGCCG AGGGCCTGCA GTTGCTGCCAGGTCTGATCC ACGTGCACAG GCGGAAGATG TTCCAGGCTA CAATCCGCTC AGTGGAAAAC CTGCAAAGCAGCAAGTCCAC GAGGGCCACC ATCCTGGTGC GCCTGGACAC CGGAGGCCAG GAGGGGCTGC AGTACCAGCCGGGGGACCAC ATAGGTGTCT GCCCGCCCAA CCGGCCCGGC CTTGTGGAGG CGCTGCTGAG CCGCGTGGAGGACCCGCCGG CGCCCACTGA GCCCGTGGCA GTAGAGCAGC TGGAGAAGGG CAGCCCTGGT GGCCCTCCCCCCGGCTGGGT GCGGGACCCC CGGCTGCCCC CGTGCACGCT GCGCCAGGCT CTCACCTTCT TCCTGGACATCACCTCCCCA CCCAGCCCTC AGCTCTTGCG GCTGCTCAGC ACCTTGGCAG AAGAGCCCAG GGAACAGCAGGAGCTGGAGG CCCTCAGCCA GGATCCCCGA CGCTACGAGG AGTGGAAGTG GTTCCGCTGC CCCACGCTGCTGGAGGTGCT GGAGCAGTTC CCGTCGGTGG CGCTGCCTGC CCCACTGCTC CTCACCCAGC TGCCTCTGCTCCAGCCCCGG TACTACTCAG TCAGCTCGGC ACCCAGCACC CACCCAGGAG AGATCCACCT CACTGTAGCTGTGCTGGCAT ACAGGACTCA GGATGGGCTG GGCCCCCTGC ACTATGGAGT CTGCTCCACG TGGCTAAGCCAGCTCAAGCC CGGAGACCCT GTGCCCTGCT TCATCCGGGG GGCTCCCTCC TTCCGGCTGC CACCCGATCCCAGCTTGCCC TGCATCCTGG TGGGTCCAGG CACTGGCATT GCCCCCTTCC GGGGATTCTG GCAGGAGCGGCTGCATGACA TTGAGAGCAA AGGGCTGCAG CCCACTCCCA TGACTTTGGT GTTCGGCTGC CGATGCTCCCAACTTGACCA TCTCTACCGC GACGAGGTGC AGAACGCCCA GCAGCGCGGG GTGTTTGGCC GAGTCCTCACCGCCTTCTCC CGGGAACCTG ACAACCCCAA GACCTACGTG CAGGACATCC TGAGGACGGA GCTGGCTGCGGAGGTGCACC GCGTGCTGTG CCTCGAGCGG GGCCACATGT TTGTCTGCGG CGATGTTACC ATGGCAACCAACGTCCTGCA GACCGTGCAG CGCATCCTGG CGACGGAGGG CGACATGGAG CTGGACGAGG CCGGCGACGTCATCGGCGTG CTGCGGGATC AGCAACGCTA CCACGAAGAC ATTTTCGGGC TCACGCTGCG CACCCAGGAGGTGACAAGCC GCATACGCAC CCAGAGCTTT TCCTTGCAGG AGCGTCAGTT GCGGGGCGCA GTGCCCTGGGCGTTCGACCC TCCCGGCTCA GACACCAACA GCCCCTGAGA GCCGCCTGGC TTTCCCTTCC AGTTCCGGGAGAGCGGCTGC CCGACTCAGG TCCGCCCGAC CAGGATCAGC CCCGCTCCTC CCCTCTTGAG GTGGTGCCTTCTCACATCTG TCCAGAGGCT GCAAGGATTC AGCATTATTC CTCCAGGAAG GAGCAAAACG CCTCTTTTCCCTCTCTAGGC CTGTTGCCTC GGGCCTGGGT CCGCCTTAAT CTGGAAGGCC CCTCCCAGCA GCGGTACCCCAGGGCCTACT GCCACCCGCT TCCTGTTTCT TAGTCCGAAT GTTAGATTCC TCTTGCCTCT CTCAGGAGTATCTTACCTGT AAAGTCTAAT CTCTAAATCA AGTATTTATT ATTGAAGATT TACCATAAGG GACTGTGCCAGATGTTAGGA GAACTACTAA AGTGCCTACC CCAGCTC

(2) SEQ ID NO: 3018 data:

(i) sequence characteristics:

(A) length: 48330 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3018 sequence description: GGTGBCBTTG BGCBTGTCGG CGCGGTCCCG TTBBGBGTGG GCCCGCCAGC CCAGCCACTC CACTTGGGGGCGGGTGGCCA GCACGAACAG CACCCAGAGG AAGGGGGGCG GCCCAGAAGG GCAGCCCGCA GGCCAGGATCAGGTCTGCTG CGGCCGGAGA TAATGGCATT CACCACGCGG CGGCCCAGCG CACGCCGCGC ATCCGGCCCGGGTTCTGACC TGCAGCCCCC GTCTCCTTGG CATTCCTGGG CCCCAGTCAC TCCTCTCCCT GCCCCCCTTGCTGGGGCAGG GACGGGGTG BCBTTGBGCB TGTCGGCGCG GTCCCGTTTBB GBGTGGGCCC GCCAGCCCAGCCACTCCACT TGGGGGCGGG TGGCCAGCAC GAACAGCACC CAGAGGAAGG GGGGCGGCCC AGAAGGGCAGCCCGCAGGCC AGGATCAGGT CTGCTGCGGC CGGAGATAAT GGCATTCACC ACGCGGCGGC CCAGCGCACGCCGCGCATCC GGCCCGGGTT CTGACCTGCA GCCCCCGTCT CCTTGGCATT CCTGGGCCCC AGTCACTCCTCTCCCTGCCC CCCTTGCTGG GGCAGGGACG GCCGTGTTGT CBGTGGTGCT GCCCGTTTGB GGTBTGGCTCCBCCBBTT CCCTTTTCTC CTTGTTTTCC GTTTCTCTTG CCGTCTGTGG TT CAGATTCACA AACTGCAGGACTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACAGTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATGTCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGGGGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCTGAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGG GGGAGGGAGA GGAGTGACTG AGCTTCCCTCCCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGTGCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGGACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTATGGCTCCCCT CAGTATTGAG CACTGTAGGC AAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGGAACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAGCAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGCACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAACAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTGGGATATGTTT ACTATAAGGA AAAGACACTG ACGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGGAGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCATTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAGTCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACCCCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCAACCAAGGGAT TGTTCCTGTC AATCAATCGT TTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTGAAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATATTTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAACCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAGCTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTGGAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGGAATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAGGGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAACCTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGCTAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGCCCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACCCCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGGTGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAATGAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTCTGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAACTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGAAAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACATGTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTT GCAAAAAAAA AAAAAAAAA AAATGATAGACCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAATCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATGGCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGCTACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGCCATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTACGCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAGGAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCTCGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCAGGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCCCTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGTGCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACACACCCACATAC CCACACATGC ACACACACAC ACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACAGCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAAGAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGTTTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAAGGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGAGGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATACTCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGTCCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGCCTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACCTTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCCTGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAATCCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCCCCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGACTGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAATAATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTTTTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTCAGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGACTCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATCTAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTCTCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGTGAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAGCTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTCAGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTCAGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGGGAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACAAAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAGGGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAAGAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGCAGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATCTTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGCTGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAGACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACCAAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCAAGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCAAAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTTGGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAAAGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATTAGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAGTAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATCACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCCCTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAACAGCTTCCCC AGTTCTGTGC CTCTGCTCAG GCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTCCGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGA GTCACCTCCA ACCCCTTACC CACCAGCCCCCTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTGTCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGCACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCAGGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAATCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGCCCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGTGCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAAATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCAAGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAAGGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAATGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAATAAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGTCTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGTTCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGTAGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCTGCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGGCCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAA TGATATCATT TTTCTCTTTT AATAAATTAACTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCA ACTCCCTTGG GAGGGCCCCG GTTGATAAGGAAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGG TCAAGGGTCC AACACTTGAG ATTGTTAGTGCTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGC CTCGAGATGA AGAACATGAG GCCCCCGTTTAGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGAAAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGGACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGACATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGGAGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGAGAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGGAACCTGGCCG CAGCAGACCT GATCCTGGCC TGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACTTCGACTGGCT CTTTGGGGAG ACGCTCTGCC GCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAGCATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGGATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCACCCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAGCTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTGAGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGGAGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCTGCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAGCGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGG CCTACAGCAA CAGCTGCCTC AACCCACTGGTGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTG GGAGGTGTAC CAGGGAGTGT GCCAGAAAGGGGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATG GGCACACTGC GGACCTCCAT CTCCGTGGAACGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGAATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGG GCCCAGGAAT GCCAAGGAGA CATCTATGCACGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGCAGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTACTGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGGAGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAGGAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAATCTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATAACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATCCAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGAAGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAAAGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCCAGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTC GCCCTTCAAA GATGAGCTGT TCCCGCCGCCACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCCCCGCAGTACC AGGGAGCGAC TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGCTGCTCCAGCC GCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGCAGCGGGGAGA AGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTCCATAGGGGAT AAAGCACAGA CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCTCTGTCCCCAA CTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCACAGATGAGTCA ACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAAGCCAGGGCTA GCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGATCAGGCTTGA TTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGGGGGACGTCCT CTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAAGGAAGGGTTT TAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAGCCCTGGGAGT GTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCCTTGACATGGG AGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACACCCGTACCCAG GAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAATCCCAGGACT CCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACATCCAAAACTC AGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGGCAAATTTATT CACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCACGACTCCAACG GGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTCAGAGGGTGGC AGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCTGGGCAGGAGT GCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAGCCCTTCAAAG ATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGACGGTGGTGACG GTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGCTCCGGAGAAG GTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCCCAGCACAGAG GGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAAAGTTCCCTTC CTTCCGGAGG GAGG CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGCCAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCCAAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCTGCCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAAAATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAGGAGGCCTGGG GGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAGACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTGCCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCCCTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTCTGTGCCAAAG AAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGCAAGACCCAAG AAAGAGAAGG AGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGGCACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGAAGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTTTTATGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGGTGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTGAGGTCTAGAA ATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCTGGCACACAGT AGGTGCTCAT TGGCTCCCTT CCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCACACACACAGGA GCATTTGGAG AGAAGGCCAT GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATATTTCTAATCGG TCTTGCCCAG AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGGGAGAGTGCAG GCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGTTTATTGGAAG GTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGGCAGTGCCAGG GCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGGAGAGCTAGAA CCTGGAGAAC TAGAACCTGG AGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAGAACCTGGAGG GGCTAGAACC TAGAGAAGCT AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGGCTGGAATCTG AAGGGCTAGA ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTGGAGGGCTAGA ACCTAGAAGG GCTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAGAACCTGGAGG GCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAAGGGCTAGAAC CTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAACATGGAGAGC TAGAACCCGG CAGGCTAGAA CCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGCTAGAACCTGG AGAATGAGAA AAATTTACAT GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAATTTTAAAGCAA AAGCGTGAAA AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCACTCTCCTCTGC CTCAGTAAGT ATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATTAGTATTAGAA TGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC TGTGTTTTGTCACACAGGGC AGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC TTAGGAGCAG AGCTCTGCCGCAATGGCCAT GTGGGGATCC ACACCTGGTC TGAGGGGCAA CTGAGTCTGC GGGAGAAGAG CGGCCCTATGCATGGTGTAG ATGCCCTGAT AAAGAACATC TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACAGGAAGCATTT CACATCCAAA CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGATGAGGTTTTT GCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAAATGAATGCTT TAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGATTGTGTGAGGT CAGGAGTTCG AGACCAACCT GGCCAACATGGCAAAACCTC ACTCTCTACC AAAAATACAAAAATTAGCCA GGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCTTGAACCCGGG AGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGAGACTCCGTCT CAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTTGAATTTTCTT TCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGCAAACTCCCTG CCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCTGATCCCAGCT GTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTGTTTACCAACT CAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTCCCAACTGAAT TAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGGGATGTGGCAG ATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACACACACACCCGC ACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCACTTGGTATCC TGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCATGGGACTGAGA CAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCCCATGCCTGCC CCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAAGGCCCTTGGG AAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCACCTTGTAATTG GTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTCAAAGTCCCTC AAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTGCTGGACCCAA CCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAACAGTTCCAGC CTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTGCCTTTGCAGG AGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGCACTAGGCATG TCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTCGAAGCTAATG GGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAGCCAGGGCCTA ATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCCACCCTGTTTA GTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGACCCCATGTTC TATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTATTAAGTGACTG AGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGCTGTGTGGGAG CACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGGAGAATGCGTG TATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAGGTGTGGCCTC ACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCTGTTCGTGAGG ACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTTAGGGGAGGTG GGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGAGTGTGGCCTC ACTCACATCC GCCCTTCTCA AGTCAGGGAC TAACCATCTT AGATATCAAT GCCCTCGTGGAGGAACCATG GTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGGAGCAGAGGGA ATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTTATATGTTTCT ATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCCAGTGGATCAG ACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGGTGGGAGATCA GAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGCAGAGGATAGG GAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCTCTCCACCCTG CTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGCACTGGACCTA TAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCCAGGGATGGGC CAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTC TCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATGGGTTTTCTGT AGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTCAGAGGACTCT GGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTATCTCTGTTCCA AGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGCGTAACTGGGG CCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCCTCACATGGCG GCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTATGACCTAGCCT CAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAAGAGGAAGCAG ATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACACACCACAGGG ATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAGCCTCACTTCC TTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTCTCCTGTCCAA CATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGC CTCTGCTCAGGCTGTTCCCC CTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT CTGTGTCCCA CAACCCCCCTGCTCCCTCCA GGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTGGTGTCTTCTT TGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAGGATAGAAGCA TTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAACGGACTTTTC CTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTCCTCCATGAGC CTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGGGCACTGGGAA AATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCCACTCTTCAAC TTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATACCCTACTCCAA AGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGAGTGGAACTCA TGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAGAAAGGTGCCT GCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAGGTCACCAACA ACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTTATTGAGCCTA GTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTAGTGGTTTTAA CTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTGACACGGCTTA TAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCCCCTCGCCATC TGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCACAGACTGTCC AGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCCAGGTCTGGAA TGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCAAAGTTGACCA ACTCCCTTGG GAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGCTTCAAGGAGG TCAAGGGTCC AACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATCCCAGTGGAGC CTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAGACCCAGGGGA GTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCCTTGTCCTGGC TGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCTGAGGGGTAAC AGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATG TCACCTTGCA AGGGCCCACTCTTAACGGGA CCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGCCCCCCTTCCT CTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCTGCACAAGAGC AGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCCTGCGGGCTGC CCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCCGCGTGGTGAA TGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGACCGCTACCTG GCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTACAGCTTGGTGA TCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGTACAGCGATGA GGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCACCAACATGCTC CTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATCATGCAGGTGC TGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGCTAGTCCTGGT TGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATACGCTGCATCGC CTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCCTCCTTCATGG CCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAAAGAAGTCTTG GGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGAGAACTCCATG GGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCAGGGAGCAGAC AGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTTTTCAGCATGG GCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGGTAAAACACCG GAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAACTCACGCACAG CCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAGCCTGCTCCTT CCCAGGAGTG GAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTGTTCTCCGTCC CTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGGCTGAGTGCAC AAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTTCTTGCATTAA TAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCCCCTCACTGAT GGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTATATGCAGTATT GAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAAAGACTCAAGT GGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTGCTGTGGGTGA TATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGTCCTGCCTC CTGCAGAAAA CAGCCTGAGC TCCACCTCGG CTTCTCCTTG CCCTGGCTGG TTGTCCTTAACCCCTGTCTC CTTCTGGACC AGTTTTTGTC CTTCCCTTGT GACCCTGAGG GGTAACAGCC TCTTTTCCACTTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAGCAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTCGTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGGCAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCATCACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCCATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAACCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTACGCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTCACCGCTTGTG TCATCAGCTA CCCATCCCTC ATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGGGCTTCCTGCT GCCCCTGAGT GTCATCACCT TCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGAGATGCAGAAG TTCAAGGAGA TCCAGACGGA GAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTATTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCTCCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAGCTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAGGGAGTGTGCC AGAAAGGGGG CTGCAGGTCA GAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGACCTCCATCTC CGTGGAACGC CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGCCAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCCAAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCTGNCCTGCCCA ATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAAAATCACAACA GCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAGGAGGCCTGGG GGCAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAGACAACTTAGA TCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTGCCCTGGGTTT CTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCCCTGAGGGGTC CCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGGAGGTCTGTGCCAAA GAAGAATCCA ATAAGCACAT ATTGAGCACT TGCTGTATAT GCAGTATTGA GCACTGTAGGCAAGAGGGAA GAAAGAGAAG GAGCCATCTC CATCTTGAAG GAACTCAAAG ACTCAAGTGG GAACGACTGGCACTGCCACC ACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGAAGGGGGAGAC CAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTCTTCTGTAACA TGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGGTGCTACGTAC ATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTGAGGTCTAGA TGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTTCAAGGACGTT AAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG AACCCAGTAGGACTATCTGG CTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCTGATAGAAGGT ACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCATGGTCTCCAA GCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTCACCCACCACA CGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAGGAATGTGAAT CCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTGTTGGTGGATA CTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGATCAGAGGGGG CTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAGCTCCACCTCG GCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGTCCTTCCCTTG TGACCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCACCTTGCAAGG GCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTGGCTCAACACC ATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTCCTCAGCGTCT TCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC CTGGCCGCAGCAGACCTGAT CCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCG ACTGGCTCTTTGGGGAGACG CTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCAT CTGTTTCCTGATGCTGGTGA GCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGCGCTGGGCCAA GCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTTCCGGACCATG AAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTCATCTGGGAAG TGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT GTCATCACCTTCTGCACGAT GCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGA TCCAGACGGAGAGGAGGGCC ACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATCAGCACCTTCC TGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATGTAATCACACA GATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGTGGGCAAGCGC TTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCAGAACCCATTC AGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACAAACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGATTGAGGGACA GTTGCTTTTCAGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAATGAGTGTTGA TGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGGCTGTGAGGAT GGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTTGCTGCCACAC CTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACTGAGCTTCCCT CCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCATCCACGTTTGG TGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGAACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGACCAGGATTTT ATGGCTCCCC TCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATATGAGCACTTC TGTATATCAG TATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTTCTGTCTGTTT GTGAGGACTC CGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGCAAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAACACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGCGTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACCTGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGAGACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCA GCATCTGTTT CCTGATGCTGGTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGGCCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGACCATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGGGAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC ACCTTCTGCACGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGA CGGAGAGGAGGGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACCTTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCACACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAAGCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCCATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGCAGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGGGACAGTTGCT T ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACCACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCCAGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCTGTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACGGTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGGCCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTATCTCCATGAAC CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTGAAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGTGTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAACGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTCGTGGGCTTCC TGCTGCCCCT GAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACAACGAGATGCA GAAGTTCAAG GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCTGCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATCCTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCAACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTACCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTGCGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAAACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGTTCCCGCCGCC ACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGCCCCGCAGTAC CAGGGAGCGA CTGAAGTGCC CATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGGCTGCTCCAGC CGCCTCACCT CTGCTGGGAG GACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGGCAGCGGGGAG AAGTTTCCCT GTGGTCGTGG GGAGTT GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTCTGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACCAGGGAGCGAC TGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCCGCCTCACCTC TGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGAAGTTTCCCTG TGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGATAAAGCACAGA CACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAACTGGCAAGTC AGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCAACCACACAGC CAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTAGCGCCAGGCC ACCCATAAAC TGATCTGAGA CTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGATTGCTGGTTT GTAGGCTTGT TATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCTCTGGCCCTCC TGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTTTAAGGCTTCA AAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGTGTAAAGTGCT GCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC TTGACATGGGAGAAACCTCC GCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACAC CCGTACCCAGGAAACAGGAC AGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAA TCCCAGGACTCCGCCTGCCC ACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTCAGACACAAAA TAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATTCACATGGGGC TTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACGGGCAGCCGGG CCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGCAGAGCGGAGA GCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGTGCAGAGCTCA GCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAGATGAGCTGTT CCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACGGTGGGGACAT CAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAGGTGGGTGCCG GGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAGGGAGGGAGGG AGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTCCTTCCGGAGG GAGG CAGATTCACA AACTGCAGGA CTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCTGCTGTGAATT TGTGTAAGGA TTGAGGGACA GTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACATCTATGCACGA CCTTGGGAAA TGAGTTGATG TCTCCGGTAA AACACCGGAG ACTAATTCCT GCCCTGCCCAATTTTGCAGG GAGCATGGCT GTGAGGATGG GGTGAACTCA CGCACAGCCA AGGACTCCAA AATCACAACAGCATTACTGT TCTTATTTGC TGCCACACCT GAGCCAGCCT GCTCCTTCCC AGGAGTGGAG GAGGCCTGGGGGGAGGGAGA GGAGTGACTG AGCTTCCCTC CCGTGTGTTC TCCGTCCCTG CCCCAGCAAG ACAACTTAGATCTCCAGGAG AACTGCCATC CAGCTTTGGT GCAATGGCTG AGTGCACAAG TGAGTTGTTG CCCTGGGTTTCTTTAATCTA TTCAGCTAGA ACTTTGAAGG ACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTCCCTGATAACA ACCTGGAGAC CAGGATTTTA TGGCTCCCCT CACTGATGGA CAAGGAGGTCTGTGCCAAAGAAGAATCCAA TAAGCACATA TTGAGCACTT GCTGTATATG CAGTATTGAG CACTGTAGGC AAGACCCAAGAAAGAGAAGG AGCCATCTCC ATCTTGAAGG AACTCAAAGA CTCAAGTGGG AACGACTGGG CACTGCCACCACCAGAAAGC TGTTCGACGA GACGGTCGAG CAGGGTGCTG TGGGTGATAT GGACAGCAGA AGGGGGAGACCAAGGTTCCA GCTCAACCAA TAACTATTGC ACAACCACCT GTCCCTGCCT CAGTTCCCTT TTATGTAACATGAAGTCGTT GTGAGGGTTA AAGGCAGTAA CAGGTATAAA GTACTTAGAA AAGCAAAGGG TGCTACGTACATGTGAGGCA TCATTACGCA GACGTAACTG GGATATGTTT ACTATAAGGA AAAGACACTG AGGTCTAGAAATAGCTCCGT GGAGCAGAAT CAGTATTGGG AGCCGGTGGC GGTGTGAAGC ACCAGTGTCT GGCACACAGTAGGTGCTCAT TGGCTCCCTT CCACCTGTCA TTCCCACCAC CCTGAGGCCC CAACCGCCAC ACACACAGGAGCATTTGGAG AGAAGGCCAT GTCTTCAAAG TCTGATTTGT GATGAGGCAG AGGAAGATAT TTCTAATCGGTCTTGCCCAG AGGATCACAG TGCTGAGACC CCCCACCACC AGCCGGTACC TGGGAAGGGG GAGAGTGCAGGCCTGCTCAG GGACTGTTCC TGTCTCAGCA ACCAAGGGAT TGTTCCTGTC AATCAATGGT TTATTGGAAGGTGGCCCAGT ATGAGCCCTA GAAGAGTGTG AAAAGGAATG GCAATGGTGT TCACCATCGG CAGTGCCAGGGCAGCACTCA TTCACTTGAT AAATGAATAT TTATTAGCTG GTTGGAGAGC TAGAACCTGG AGAGCTAGAACCTGGAGAAC TAGAACCTGG AGGGCTAGAA CCTGGAGAGG CTAGAACCAA GAAGGGCTAG AACCTGGAGGGGCTAGAACC TAGAGAAGCT AAAACCTGAG CTAGAAGCTG GAGGACTAGA ACCTGGAGGG CTGGAATCTGAAGGGCTAGA ACCTGGAGGG CTGGAATCTG GAGAGCTAGA ACCTGGAGGG CTAGAACCTG GAGGGCTAGAACCTAGAAGG GGTAGAACCT GGAGGGCTGG AATCTGGAGA GCTAGAACCT GGAGGGCTAG AACCTGGAGGGCTAGAACCT AGAAGGGCTA GAACCTGGAG GGCTAGAACC TGGCAGGTTA GAACCTAGAA GGGCTAGAACCTGGAGAGCC AGAACCTGGA GGGCTAGAAC CTGGAAGGGC TAGAACCTGT AGAGCTAGAA CATGGAGAGCTAGAACCCGG CAGGCTAGAA CCTGGCAAGC TAGAACCTGG AGGGAATGAA CCTGGAGGGC TAGAACCTGGAGAATGAGAA AAATTTACAT GGCAAAGAGC CCATAAATCC TGACCAATCC AACTCTGAAT TTTAAAGCAAAAGCGTGAAA AAAAAGATTC CCTCCTTACC CCCAACCCAC TCTTTTTTCC CACCACCCAC TCTCCTCTGCCTCAGTAAGT ATCTGGAGGA AGAAAACAGG TGAAAGAAGA AGTAAAAACC ATTTAGTATT AGTATTAGAATGAAGTCAAA CTGTGCCACA CATGGTGAAT GAAAAAAAAA AAAAAGAGGC TGTGTTTTGT CACACAGGGCAGTCATTCAG CACCAGAGCA CGTGATGGTC TGAGACTCTC TTAGGAGCAG AGCTCTGCCG CAATGGCCATGTGGGGATCC ACACCTGGTC TGAGGGGCAA CTGAGTCTGC GGGAGAAGAG CGGCCCTATG CATGGTGTAGATGCCCTGAT AAAGAACATC TGTCCTGTGA AAGACTCAAT GAGCTGTTAT GTTGTAAACA GGAAGCATTTCACATCCAAA CGAGAAAATC ATGTAAACAT GTGTCTTTTC TGTAGAGCAT AATAAATGGA TGAGGTTTTTGCAAAAAAAA AAAAAAAAA AAATGATAGA CCGTCAATAA TTTGTTAAAT GCTTTTTAAA ATGAATGCTTTAAGCCGGGT GCAGTGCCTC ACATCTGTAA TCCCAGCACT TTGGAGCCGA GCGGGTGGAT TGTGTGAGGTCAGGAGTTCG AGACCAACCT GGCCAACATG GCAAAACCTC ACTCTCTACC AAAAATACAA AAATTAGCCAGGCATGGTGG CAGGCACCTG TGATCCCAGC TACTCAGGAG GCTGAGACAG GAGAATCGCT TGAACCCGGGAGGCAAGGTT GCAGTGAGCC AAGATTACGC CATTGTACTC CAGCCTGGGT GACAGAGAGA GACTCCGTCTCAAAAAAAAA AAAAAAAAAA AAAAAATTAC GCTTCAAACA CATGATCTCT CACCACTGTT GAATTTTCTTTCTATGAGCC CAGGAGGGCC TCTCAGAGAG GAAAGCTCCT AGGTCTTCCT TTCCCTCTGC AAACTCCCTGCCTTGAAGGT TCAGAAGGAC TGTGCGTGCT CGTTGCATCC TTTGCAAGTG TCCAAACCCT GATCCCAGCTGTGCTTAGGG GTTCCTGCAA ACCTTTTCCA GGTGTTAATT ACCTCCCACT TCATTTCCTG TTTACCAACTCAGCTTTTTG TTTTAGTGTG TTTGAATTCC CTGAACTGAC CGTTGTCTGA TCTCCACCTC CCAACTGAATTAGGGGAGCT GGGCTTCTGG AAACCCAGGT GCCGGGTGTT GCAGAGTGGC TGAAAGCTGG GATGTGGCAGATCCGTGGCT ACATTCATGC ACACACACAC ACCCACATAC CCACACATGC ACACACACAC ACACACCCGCACTCACACAC TTGGACATGC ATAGACCACA GCTTTCCACA CCCTTCCTAG ACAGGGGTCA CTTGGTATCCTGGAGAGAGT GTGAAGTCCT GGAATGGAAA GAGGGGGGAT TAAGCCCCAC CTCTAGCCAT GGGACTGAGACAAGTCACCA CCAACCCATC TGCGCCTTGT TTACCTCCTC TGTGAGGCAA GCACAGAGCC CATGCCTGCCCCCCTGGATG GGAGTGATGT GAAACTTGAA GGGCGGTCAG AGCAAGGGTC GGGAATGGAA GGCCCTTGGGAAAAAAGGCC CTTTCAACTA GGGGCACAGA GGAGGCCCTG GGCTGAGAAC TTGACAGCAC CTTGTAATTGGTAAGCCAAG CCCGAAGGGA CTGGAAATAC TCAGATGTGT CTGTCTCCCT TATTAGGTTC AAAGTCCCTCAAGACCCTGT CTCCATCACA GTGCTCCAGT CCAGACCCCT CCTCTGAGCT CCAGACCCTG CTGGACCCAACCAGCCCTAT GGGGTCGCAT CCCCACCTGC CTGGAATTCT CCAAAGAACC TCCCCTTTAA CAGTTCCAGCCTTTAACAGT TCCAGTCTAA ACACATGACC TTTCTCCTCT AAATCAGCCC CCCATCTCTG CCTTTGCAGGAGATGGAAGC CATGACACCT GCCTCGCCCC TGTCCTCACC CCATCCATGT CCAATCAAGC ACTAGGCATGTCAGGTTTAC CCTCTAAACT CCTCTGGAAT CCAGTCTCTC AGTCTCCATC ATCCCAGGTC GAAGCTAATGGGCTAACTGG TCCTTGCTTC CACTCTACCC CCACTGCAGT CCTGACTTCC TGAGCAGCAG CCAGGGCCTAATCGATATTC ACACCAAGCG CCAACCTGAC TGAGATATCC TCCTGCACCA TCATCCCTCC ACCCTGTTTAGTTCTGCTCA CCCTCAGTGT TCTCATCAAT AATCCACTCC CCTCACAGGC GCGTTTGGGA CCCCATGTTCTATGCTCTCA CAGGACCTTT TGCTTGATTT TTCACTGTAC TTAGGTCAGT TTGCAGTTAT TAAGTGACTGAGCAATGTCT GGCTTCTCCA GTAGACTGTC AGCTCCTAGC CATTGTATAC CTAGCACCGC TGTGTGGGAGCACGTGACAA ACGTCCAGTG AGTCAGGGAC TCAGCAGTCT CCATTTCTCC GCCCTGCTGG AGAATGCGTGTATTTGGCAA TCCCCAGCCC CTGTGCCATC TAACCATCTT TTCTTCTCTG TTCAGCCCAG GTGTGGCCTCACTCACATCC CACTCTGAGT CCAAATGTTC TCTCCCTGGA AGATATCAAT GTTTCTGTCT GTTCGTGAGGACTCCGTGCC CACCACGGCC TCTTTCAGGT GAGTCAAAGG GATTCCTCAG TTCACTAGTT AGGGGAGGTGGGCAGACACC CTGGAGAACT CCCTGGAAAG CTCAACTCTC ATGCCCCGGA CAACAGTTGA AGGAACCATGGTGATGTTAA GCCCAAAGAC AAAACCTCTC AGGTGTCCAA GTCCCTGTTG GAATCTTGGG AGCAGAGGGAATGTTCTGTG GTCTAGAGGA AGAGGGGCTC AGGGAGGAGA AGGGCACATT CCTGGTTGTT ATATGTTTCTATCTATCCCA GATGAACTTG GAAGTGAAGG GAAGAGAGTT AAACATTAAA GTAAATACCC AGTGGATCAGACAGCAATGT GCCAGATTGC CTTGGAAACA AAATATCTCC AACACATGGC TGACATTTGG TGGGAGATCAGAACACCCTA AAGAGAGAAT TTAAGGGGAG GGGGAGGAGG ACCTGAGCCA GAGTAGAAGC AGAGGATAGGGAGATCTGTT CTTGGGGACA GCATTTGCAA GAAACAAGGC TGAGGGGTCC ACTCCAACCT CTCCACCCTGCTGCAGGTGC TGCCTATGAT GAAGATGAGC AGATGGCCAT CTCAGCTGGG GCCACAGTGC ACTGGACCTATAGTTTCCAA TTCCGCACTC AGCAGGCATC TTTCTGATGA TCCGATGGCT TCTCAGAGCC AGGGATGGGCCAGGATCCAT CCCCTTGGCT ACTGTCTTGC TGAGAAATTT ATAAGCAGCA TCTGGTGCTA TACTTTGGTCTCTAGTGAGT TAGCTCATGA AAGATGATAG ACTCTCCAAG CCAGGGGTAT GCAGGAAATG GGTTTTCTGTAGCTACAGAA ATGGGGTTGA GGGTTGGACC AAGGGACTAC CCAGGGGAAG TCTTACCTTC AGAGGACTCTGGAAAGGAGG CTGCAAGTTT TCATGGGTCA AGAATTCAGA GCCCAGTAGA GACAGCTTAT CTCTGTTCCAAGATGTCTGG GGCCTTGGTT GGAAGATTCA AAGGCTAGGA AACCAGGAGC CACCAAAAGC GTAACTGGGGCCAGAGGATC CACTTTCAAG GTGGCAAGTT GGTTCCCCCC ATGTGGCTGC TTGAGTATCC TCACATGGCGGCTCACATCC TTCCAAGTAA GCAATGCAAA AGGCCAAGAA AGATGCTGCA AAGATGTTAT GACCTAGCCTCAGAAATCAC ACACCATCCC TGCCACCATT AGTAAGAAGT CCAGCCCACG TCCAGGAGAA GAGGAAGCAGATTCCTCCTT TTGAAATGAA GAATATCAAG TAATTCGGGG GGCATATGAA AGCCACCACA CACCACAGGGATCTTTTTAG AGCATACTTC TTATACCATC ACTGTAGTTC CTTAAGACTC AGGGGCAAAG CCTCACTTCCTTAGCACCCA GTGAAGACCA CGCTTACTCC CTCACTCAAC CTCTTGCTAC TTCCCACCTC TCCTGTCCAACATCTAGTGT CACTTTCCAG AACATACCAA CAGCTTCCCC AGTTCTGTGCCTCTGCTCAG GCTGTTCCCCCTGCCTGGTC CACTTGTCCT CCTTCTTGTC CGGTCAAAAT GCTTCTTATC CTTCAAGACC CAGCTCTAGAGTCACCTCCA ACCCCTTACC CACCAGCCCC CTCTCCAAGT CTGTGTCCCA CAACCCCCCT GCTCCCTCCAGGGCACCCTC CACCCTCTGG GCCACAGTTG TCAGGAGTCA GGCAGGGCAG GGGCCGGGTG GTGTCTTCTTTGTGTTCTTG CACTCAGGGC AGAGCTCAGC ACAGAGCAGA CGCTCAAAAA ACATTTAAAG GATAGAAGCATTGATTTGTG GGTCCCCCAG TCTGGCTCCA GGATGCCAGC CAGCTGCTCC TAGAAGCAAA CGGACTTTTCCTGGGAAATC CCAGAGGTGA TGATCAGTAA TCTCTCCCGT GACTCGTAGT TCAGCTCTTC CTCCATGAGCCTGACTATCA GTGGACCTTC CAGAAAGAGC CCCTTTTCCT TCTCTCACCC ACAGCACAGG GCACTGGGAAAATGCCCAAT GAGTCCTGCC TCTGGGTTGT GCTTTGGACT TTTCAGTGTG TCTCGCATCC ACTCTTCAACTTGAATGTTG CAACAGCCAT GAAAAAAGAA ATGCAAAGCG ATTCAGGATG AGAGCAATAC CCTACTCCAAAGAAGGCAAC ATAGAAGCTC AGAGAGATCA AGCAATTTGC CCAAGACCAC ACAGCTAGGA GTGGAACTCATGGCTGTCCA AGCCCCATGC CTCTGCTGAA GGTAGAGATG AATTACAGCA ACAAGTCTAG AAAGGTGCCTGCCCTATGGT CTGTGAGTCT TGCCTAAGAA TGAAAGAGGA GCCAGTGGGT TAAAGATGAG GTCACCAACAACGGTGGTGT TGGAGTTTAC CACTGATAAT AAGGGTGCAA AATGTAAATT ACTAATGTTT ATTGAGCCTAGTGCAGTGCG TGGGGCATTT TGCACATTGT CTCTGATCCC TATGACAACC CTGAGAGGTA GTGGTTTTAACTGCCATGTT ACAGGTGAGG TCATTGTGGT TCAAGGACGT TAAGTAACTT CCCCAGCGTG ACACGGCTTATAAGTAAGGC AGCCAGGATG TGAACCCAGT AGGACTATCT GGCTGCAAAG TCCCCACCCC CCTCGCCATCTGTATCCTCC AATCACTTCA GTGCTTTGCT GCATAGAAGG TAACGGAAAT CACGATGCCA CAGACTGTCCAGGAAGACAG AAACTAGGCA GATGGGCTGG CCATGGTCTC CAAGCCAGAC TGGAATCTCC AGGTCTGGAATGATATCATT TTTCTCTTTT AATAAATTAA CTCACCCACC ACACGGCTTT GAGAGGCTCA AAGTTGACCAACTCCCTTGG GAGGGCCCCG GTTGATAAGG AAGGAACGTG AATCCTCCCA TCACGGAAGC TTCAAGGAGGTCAAGGGTCC AACACTTGAG ATTGTTAGTG CTGTTGGTGG ATACTGGCCA AGGAAATATC CCAGTGGAGCCTCGAGATGA AGAACATGAG GCCCCCGTTT AGAACCAAGG ATCAGAGGGG GCTCTGTAAG ACCCAGGGGAGTCAGGTGCA CTGGAGCGCG GGCATGCAGA AAACAGCCTG AGCTCCACCT CGGCTTCTCC TTGTCCTGGCTGGTTGTCCT TAACCCCTGT CTCCTTCTGG ACCAGTTTTT GTCCTTCCCT TGTGACCGCT GAGGGGTAACAGCCTCTTTC CACTTTCTTT CAGCGCCGAC ATGCTCAATG TCACCTTGCA AGGGCCCACT CTTAACGGGACCTTTGCCCA GAGCAAATGC CCCCAAGTGG AGTGGCTGGG CTGGCTCAAC ACCATCCAGC CCCCCTTCCTCTGGGTGCTG TTCGTGCTGG CCACCCTAGA GAACATCTTT GTCCTCAGCG TCTTCTGCCT GCACAAGAGCAGCTGCACGG TGGCAGAGAT CTACCTGGGG AACCTGGCCG CAGCAGACCT GATCCTGGCC TGCGGGCTGCCCTTCTGGGC CATCACCATC TCCAACAACT TCGACTGGCT CTTTGGGGAG ACGCTCTGCC GCGTGGTGAATGCCATTATC TCCATGAACC TGTACAGCAG CATCTGTTTC CTGATGCTGG TGAGCATCGA CCGCTACCTGGCCCTGGTGA AAACCATGTC CATGGGCCGG ATGCGCGGCG TGCGCTGGGC CAAGCTCTAC AGCTTGGTGATCTGGGGGTG TACGCTGCTC CTGAGCTCAC CCATGCTGGT GTTCCGGACC ATGAAGGAGT ACAGCGATGAGGGCCACAAC GTCACCGCTT GTGTCATCAG CTACCCATCC CTCATCTGGG AAGTGTTCAC CAACATGCTCCTGAATGTCG TGGGCTTCCT GCTGCCCCTG AGTGTCATCA CCTTCTGCAC GATGCAGATC ATGCAGGTGCTGCGGAACAA CGAGATGCAG AAGTTCAAGG AGATCCAGAC GGAGAGGAGG GCCACGGTGC TAGTCCTGGTTGTGCTGCTG CTATTCATCA TCTGCTGGCT GCCCTTCCAG ATCAGCACCT TCCTGGATAC GCTGCATCGCCTCGGCATCC TCTCCAGCTG CCAGGACGAG CGCATCATCG ATGTAATCAC ACAGATCGCC TCCTTCATGGCCTACAGCAA CAGCTGCCTC AACCCACTGG TGTACGTGAT CGTGGGCAAG CGCTTCCGAA AGAAGTCTTGGGAGGTGTAC CAGGGAGTGT GCCAGAAAGG GGGCTGCAGG TCAGAACCCA TTCAGATGGA GAACTCCATGGGCACACTGC GGACCTCCAT CTCCGTGGAA CGCCAGATTC ACAAACTGCA GGACTGGGCA GGGAGCAGACAGTGAGCAAA CGCCAGCAGG GCTGCTGTGA ATTTGTGTAA GGATTGAGGG ACAGTTGCTT TTCAGCATGGGCCCAGGAAT GCCAAGGAGA CATCTATGCA CGACCTTGGG AAATGAGTTG ATGTCTCCGG TAAAACACCGGAGACTAATT CCTGCCCTGC CCAATTTTGC AGGGAGCATG GCTGTGAGGA TGGGGTGAAC TCACGCACAGCCAAGGACTC CAAAATCACA ACAGCATTAC TGTTCTTATT TGCTGCCACA CCTGAGCCAG CCTGCTCCTTCCCAGGAGTG GAGGAGGCCT GGGGGCAGGG AGAGGAGTGA CTGAGCTTCC CTCCCGTGTG TTCTCCGTCCCTGCCCCAGC AAGACAACTT AGATCTCCAG GAGAACTGCC ATCCAGCTTT GGTGCAATGG CTGAGTGCACAAGTGAGTTG TTGCCCTGGG TTTCTTTAAT CTATTCAGCT AGAACTTTGA AGGACAATTT CTTGCATTAATAAAGGTTAA GCCCTGAGGG GTCCCTGATA ACAACCTGGA GACCAGGATT TTATGGCTCC CCTCACTGATGGACAAGGAG GTCTGTGCCA AAGAAGAATC CAATAAGCAC ATATTGAGCA CTTGCTGTAT ATGCAGTATTGAGCACTGTA GGCAAGAGGG AAGAAAGAGA AGGAGCCATC TCCATCTTGA AGGAACTCAA AGACTCAAGTGGGAACGACT GGGCACTGCC ACCACCAGAA AGCTGTTCGA TGAGACGGTC GAGCAGGGTG CTGTGGGTGATATGGACAGC AGAAGGGGGA GCCAGGTTCC AGCTCACCAA TACTATTGCA CACCACCTGT CCTGCCTCTGATCCTATC ACAACCTGAG AGTAGTTTTT ACTCCATTTA CAGGTGAGGT CATTGTGGTT CAAGGACGTTAAGTAACTTC CCCAGCTCAC ACGGCTTATA AGTAAGGCAG CCAGGATGTG AACCCAGTAG GACTATCTGGCTGCAAAGTC CCCACCCTCC CTCGCCATCT GTATCCTCCA ATCATCTTCA GTGCTTTGCT GATAGAAGGTACGGAAATAC GATGCCACAG ACTGTCCAGG AAGACAGAAA CTAGGCAGAT GGGCTGGCCA TGGTCTCCAAGCCAGACTGG AATCTCCAGG TCTGGAATGA TATCATTTTT CTCTTTTAAT AAATTAACTC ACCCACCACACGGCTTTGAG AGGCTCAAAG GTGACCAACT CCCTTGGGAG GGCCCCGGTT GATAAGGAAG GAATGTGAATCCTCCCATCA CGGAAGCTTC AAGGAGGTCA AGGGTCCAAC ACTTGAGATT GTTAGTGCTG TTGGTGGATACTGCAGAATA TCCAGTGGAG CCTCAGATGA AGAACATGAG GCCCCGTTTA GATCCAAGGA TCAGAGGGGGCTCTGTAAGA CCCAGGGGAG TCAGGTGCAC TGGAGCGCGG GCTGCAGAAA ACAGCCTGAG CTCCACCTCGGCTTCTCCTT GCCCTGGCTG GTTGTCCTTA ACCCCTGTCT CCTTCTGGAC CAGTTTTTGT CCTTCCCTTGTGACCTGAGG GGTAACAGCC TCTTTTCCAC TTTCTTTCAG CGCCGACATG CTCAATGTCA CCTTGCAAGGGCCCACTCTT AACGGGACCT TTGCCCAGAG CAAATGCCCC CAAGTGGAGT GGCTGGGCTG GCTCAACACCATCCAGCCCC CCTTCCTCTG GGTGCTGTTC GTGCTGGCCA CCCTAGAGAA CATCTTTGTC CTCAGCGTCTTCTGCCTGCA CAAGAGCAGC TGCACGGTGG CAGAGATCTA CCTGGGGAAC CTGGCCGCAG CAGACCTGATCCTGGCCTGC GGGCTGCCCT TCTGGGCCAT CACCATCTCC AACAACTTCG ACTGGCTCTT TGGGGAGACGCTCTGCCGCG TGGTGAATGC CATTATCTCC ATGAACCTGT ACAGCAGCAT CTGTTTCCTG ATGCTGGTGAGCATCGACCG CTACCTGGCC CTGGTGAAAA CCATGTCCAT GGGCCGGATG CGCGGCGTGC GCTGGGCCAAGCTCTACAGC TTGGTGATCT GGGGGTGTAC GCTGCTCCTG AGCTCACCCA TGCTGGTGTT CCGGACCATGAAGGAGTACA GCGATGAGGG CCACAACGTC ACCGCTTGTG TCATCAGCTA CCCATCCCTC ATCTGGGAAGTGTTCACCAA CATGCTCCTG AATGTCGTGG GCTTCCTGCT GCCCCTGAGT GTCATCACCT TCTGCACGATGCAGATCATG CAGGTGCTGC GGAACAACGA GATGCAGAAG TTCAAGGAGA TCCAGACGGA GAGGAGGGCCACGGTGCTAG TCCTGGTTGT GCTGCTGCTA TTCATCATCT GCTGGCTGCC CTTCCAGATC AGCACCTTCCTGGATACGCT GCATCGCCTC GGCATCCTCT CCAGCTGCCA GGACGAGCGC ATCATCGATG TAATCACACAGATCGCCTCC TTCATGGCCT ACAGCAACAG CTGCCTCAAC CCACTGGTGT ACGTGATCGT GGGCAAGCGCTTCCGAAAGA AGTCTTGGGA GGTGTACCAG GGAGTGTGCC AGAAAGGGGG CTGCAGGTCA GAACCCATTCAGATGGAGAA CTCCATGGGC ACACTGCGGA CCTCCATCTC CGTGGAACGC CAGATTCACA AACTGCAGGACTGGGCAGGG AGCAGACAGT GAGCAAACGC CAGCAGGGCT GCTGTGAATT TGTGTAAGGA TTGAGGGACAGTTGCTTTTC AGCATGGGCC CAGGAATGCC AAGGAGACAT CTATGCACGA CCTTGGGAAA TGAGTGTTGATGTCTCCGGT AAAACACCGG AGACTAATTC CTGCCCTGCC CAATTTTCGA GGGAGCATGG CTGTGAGGATGGGGTGAACT CACGCACAGC CAAGGACTCC AAAATCACAA CAGCATTACT GTTCTTATTT GCTGCCACACCTGAGCCAGC CTGCTCCTTC CCAGGAGTGG AGGAGGCCTG GGGGAGGGAG AGGAGTGACT GAGCTTCCCTCCCGTGTGTT CTCCGTCCCT GCCCCAGCAA GACAACTTAG ATCTCCAGGA GAACTGCCAT CCACGTTTGGTGCAATGGCT GAGTGCACAA GTGAGTTGTT GCCCTGGGTT TCTTTAATCT ATCAGCTAGA ACTTTGAAGGACAATTTCTT GCATTAATAA AGGTTAAGCC CTGAGGGGTC CCTTGATAAC AACCTGGAGA CCAGGATTTTATGGCTCCCC TCACTGATGG ACAAGGAGGT CTGTGCCAAA GAAGAATCAA TAAGCACATA TGAGCACTTCTGTATATCAG TATTGAGCAC TGTAGGCA ATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTTGTGAGGACTC CGTGCCCACC ACGGCCTCTT TCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCACTCTTAACGGG ACCTTTGCCC AGAGCAAATG CCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAGCCCCCCTTCC TCTGGGTGCT GTTCGTGCTG GCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCCTGCACAAGAG CAGCTGCACG GTGGCAGAGA TCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGCCTGCGGGCTG CCCTTCTGGG CCATCACCAT CTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGCCGCGTGGTGA ATGCCATTAT CTCCATGAAC CTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCGACCGCTACCT GGCCCTGGTG AAAACCATGT CCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTACAGCTTGGTG ATCTGGGGGT GTACGCTGCT CCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAGTACAGCGATG AGGGCCACAA CGTCACCGCT TGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCACCAACATGCT CCTGAATGTC GTGGGCTTCC TGCTGCCCCT GAGTGTCATC ACCTTCTGCA CGATGCAGATCATGCAGGTG CTGCGGAACA ACGAGATGCA GAAGTTCAAG GAGATCCAGA CGGAGAGGAG GGCCACGGTGCTAGTCCTGG TTGTGCTGCT GCTATTCATC ATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATACGCTGCATCG CCTCGGCATC CTCTCCAGCT GCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGCCTCCTTCATG GCCTACAGCA ACAGCTGCCT CAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGAAAGAAGTCTT GGGAGGTGTA CCAGGGAGTG TGCCAGAAAG GGGGCTGCAG GTCAGAACCC ATTCAGATGGAGAACTCCAT GGGCACACTG CGGACCTCCA TCTCCGTGGA ACGCCAGATT CACAAACTGC AGGACTGGGCAGGGAGCAGA CAGTGAGCAA ACGCCAGCAG GGCTGCTGTG AATTTGTGTA AGGATTGAGG GACAGTTGCT TATGTTCTCTC CCTGGAAGAT ATCAATGTTT CTGTCTGTTC GTGAGGACTC CGTGCCCACC ACGGCCTCTTTCAGCGCCGA CATGCTCAAT GTCACCTTGC AAGGGCCCAC TCTTAACGGG ACCTTTGCCC AGAGCAAATGCCCCCAAGTG GAGTGGCTGG GCTGGCTCAA CACCATCCAG CCCCCCTTCC TCTGGGTGCT GTTCGTGCTGGCCACCCTAG AGAACATCTT TGTCCTCAGC GTCTTCTGCC TGCACAAGAG CAGCTGCACG GTGGCAGAGATCTACCTGGG GAACCTGGCC GCAGCAGACC TGATCCTGGC CTGCGGGCTG CCCTTCTGGG CCATCACCATCTCCAACAAC TTCGACTGGC TCTTTGGGGA GACGCTCTGC CGCGTGGTGA ATGCCATTAT CTCCATGAACCTGTACAGCA GCATCTGTTT CCTGATGCTG GTGAGCATCG ACCGCTACCT GGCCCTGGTG AAAACCATGTCCATGGGCCG GATGCGCGGC GTGCGCTGGG CCAAGCTCTA CAGCTTGGTG ATCTGGGGGT GTACGCTGCTCCTGAGCTCA CCCATGCTGG TGTTCCGGAC CATGAAGGAG TACAGCGATG AGGGCCACAA CGTCACCGCTTGTGTCATCA GCTACCCATC CCTCATCTGG GAAGTGTTCA CCAACATGCT CCTGAATGTC GTGGGCTTCCTGCTGCCCCT GAGTGTCATC ACCTTCTGCA CGATGCAGAT CATGCAGGTG CTGCGGAACA ACGAGATGCAGAAGTTCAAG GAGATCCAGA CGGAGAGGAG GGCCACGGTG CTAGTCCTGG TTGTGCTGCT GCTATTCATCATCTGCTGGC TGCCCTTCCA GATCAGCACC TTCCTGGATA CGCTGCATCG CCTCGGCATC CTCTCCAGCTGCCAGGACGA GCGCATCATC GATGTAATCA CACAGATCGC CTCCTTCATG GCCTACAGCA ACAGCTGCCTCAACCCACTG GTGTACGTGA TCGTGGGCAA GCGCTTCCGA AAGAAGTCTT GGGAGGTGTA CCAGGGAGTGTGCCAGAAAG GGGGCTGCAG GTCAGAACCC ATTCAGATGG AGAACTCCAT GGGCACACTG CGGACCTCCATCTCCGTGGA ACGCCAGATT CACAAACTGC AGGACTGGGC AGGGAGCAGA CAGTGAGCAA ACGCCAGCAGGGCTGCTGTG AATTTGTGTA AGGATTGAGG GACAGTTGCT T GCCCTTCAAA GATGAGCTGT TCCCGCCGCCACTCCAGCTC TGGCTTCTGG GCTCCGAGGA GGGGTGGGGA CGGTGGGGAC ATCAGGCTGC CCCGCAGTACCAGGGAGCGA CTGAAGTGCC CATGCCGCTT GCTCCGGAGA AGGTGGGTGC CGGGCAGGGG CTGCTCCAGCCGCCTCACCT CTGCTGGGAG GACAAACTGT CCCAGCACAG AGGGAGGGAG GGAGGGCAGG CAGCGGGGAGAAGTTTCCCT GTGGTCGTGG GGAGTT GCCCTTCAAA GATGAGCTGT TCCCGCCGCC ACTCCAGCTC TGGCTTCTGGGCTCCGAGGA GGGGTGGGGA CGGTGGTGAC GGTGGGGACA TCAGGCTGCC CCGCAGTACC AGGGAGCGACTGAAGTGCCC ATGCCGCTTG CTCCGGAGAA GGTGGGTGCC GGGCAGGGGC TGCTCCAGCC GCCTCACCTCTGCTGGGAGG ACAAACTGTC CCAGCACAGA GGGAGGGAGG GAGGGCAGGC AGCGGGGAGA AGTTTCCCTGTGGTCGTGGG GAGTT GAGCTCTTCA ATATTTTAGT GAAAGCTATA GATGAGGCTC CATAGGGGAT AAAGCACAGACACACCTTTT CAGAGGGCTT GTGGACTCTG GGCAGCCTGT CCATAGACCT CTGTCCCCAA CTGGCAAGTCAGGAAACTCC AGATTAAGGA GCCCCAATGT GGTTGAACAG CCAGGTGCAC AGATGAGTCA ACCACACAGCCAGGCCAGGG AGGGCCTTCA CTCAAGAGCC TACAGCCAGT TCACAGCCAA GCCAGGGCTA GCGCCAGGCCACCCATAAAC TGATCTGAGACTCTGTTTCC CTGTCTCCAT GATGATGGGA TCAGGCTTGA TTGCTGGTTTGTAGGCTTGT TATGAATCAA GTCACAGGGA AGAGGAGCTG ATGGGCTGGG GGGACGTCCT CTGGCCCTCCTGTCTCTTCC CCAGATCCAC TGGGCCCACT CTTATCTGTT CTCTTCTGAA GGAAGGGTTT TAAGGCTTCAAAAAAAAATG TTTTGAAAGT CCCTGCCCTT TCCAGCTCCT ACCGTCTCAG CCCTGGGAGT GTAAAGTGCTGCAGATAGTT AGTAAGTCTT TGAGCAAAAC TGAGAAAGCC AGCCTGAGCC TTGACATGGG AGAAACCTCCGCCATACATC TCCGAAGAAA CGGCCGCGTG TCTCAGGGGA GCGCAAACAC CCGTACCCAG GAAACAGGACAGCTTCTGCC ACTGTCGCCC TTGGGAGCCG TACGTGGCAT GACAAAGAAA TCCCAGGACT CCGCCTGCCCACCTGGCCAC CCTCTGTTTA CACCTTCCGC GTAAACGCCC ACTGTTTACA TCCAAAACTC AGACACAAAATAACCACCTC AAGAAGATAA ATAATGATAA GAAATAAATG TTACGCGAGG CAAATTTATT CACATGGGGCTTCCCAGGCC ACTTTGTGGT CAGCCGGGAG GGACGTTTTT GCCGTCCCAC GACTCCAACG GGCAGCCGGGCCTACGCAAA CATGGAAATC TTCCAAGAGC CTCCCTGGCC CCCAGGGCTC AGAGGGTGGC AGAGCGGAGAGCGAAGGTGG CCGCAGCCTT CCCGGCCCCA CAGCCAGCCT GGCTCCAGCT GGGCAGGAGT GCAGAGCTCAGCTGGAGGCG AGGGGGAAGT GCCCAGGAGG CTGATGACAT CACTACCCAG CCCTTCAAAG ATGAGCTGTTCCCGCCGCCA CTCCAGCTCT GGCTTCTGGG CTCCGAGGAG GGGTGGGGAC GGTGGTGACG GTGGGGACATCAGGCTGCCC CGCAGTACCA GGGAGCGACT GAAGTGCCCA TGCCGCTTGC TCCGGAGAAG GTGGGTGCCGGGCAGGGGCT GCTCCAGCCG CCTCACCTCT GCTGGGAGGA CAAACTGTCC CAGCACAGAG GGAGGGAGGGAGGGCAGGCA GCGGGGAGAA GTTTCCCTGT GGTCGTGGGG AGTTGGGAAA AGTTCCCTTC CTTCCGGAGG GAGG (2) SEQ ID NO: 3019 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3019 sequence description: CCCGGCCCCG CCTCGTGCC 19

(2) SEQ ID NO: 3020 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3020 sequence description: CGTCCBTGCC GCGGGCCC 18

(2) SEQ ID NO: 3021 materials:

(i) sequence characteristics:

(A) length: 28 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3021 sequence description: GCCCCGCTGC TTGGGCTGCT CTGCCGGG 28

(2) SEQ ID NO: 3022 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3022 sequence description: TCTGTGCTCC TCTCGCCTGG G21

(2) SEQ ID NO: 3023 materials:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3023 sequence description: TGGTGGGGTG GGTCTTGGTG G21

(2) SEQ ID NO: 3024 materials:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3024 sequence description: CTGTCCCTGG TCCTGTG 17

(2) SEQ ID NO: 3025 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3025 sequence description: GGTCCCGCTT CTTC 14

(2) SEQ ID NO: 3026 materials:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3026 sequence description: GGGGTTGTTG TTGGTCTGG 19

(2) SEQ ID NO: 3027 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3027 sequence description: TGTCCTCTTT CTGC 14

(2) SEQ ID NO: 3028 materials:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3028 sequence description: GCCTCGGGCC TCCC 14

(2) SEQ ID NO: 3029 materials:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3029 sequence description: GGCTGGGGTC TGCGT 15

(2) SEQ ID NO: 3030 data:

(i) sequence characteristics:

(A) length: 24 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3030 sequence description: GGCCGGGGGT CGGTGGGTCC GCTG 24

(2) SEQ ID NO: 3031 data:

(i) sequence characteristics:

(A) length: 22 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3031 sequence description: GGGCTGGGGT GCTGGCTTGG GG 22

(2) SEQ ID NO: 3032 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3032 sequence description: GGGGCTGGGG CCTGGGCC 18

(2) SEQ ID NO: 3033 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3033 sequence description: GCCTGGGTGG GCTTGGGGGC 20

(2) SEQ ID NO: 3034 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3034 sequence description: GCTGGGTCTG TGCTGTTGCC 20

(2) SEQ ID NO: 3035 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3035 sequence description: GTTGTGTGGG GGGCC 15

(2) SEQ ID NO: 3036 data:

(i) sequence characteristics:

(A) length: 27 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3036 sequence description: GCTGGGTCGG GGGGCCTCTG GGCTGTC 27

(2) SEQ ID NO: 3037 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3037 sequence description: GCCCCGGGGC CCCC 14

(2) SEQ ID NO: 3038 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3038 sequence description: TGGCTCCCCC CTCC 14

(2) SEQ ID NO: 3039 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3039 sequence description: GCTCCCCCCT TTCC 14

(2) SEQ ID NO: 3040 the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3040 the sequence description: CGGACGAAGA CAGAGA 16

(2) SEQ ID NO: 3041 the following data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3041 the sequence description: GGCTTTGTGG GCTC 14

(2) SEQ ID NO: 3042 the following data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3042 the sequence is described: GCCTGCTCTC CCCC 14

(2) SEQ ID NO: 3043 the following data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3043 the sequence description: CCCGGCCCCG CCBCGBBCC 19

(2) SEQ ID NO: 3044 the following data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3044 the sequence description: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 3045 the following data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3045 the sequence description: CCCGGCCCCG CCBCGBBCC 19

(2) SEQ ID NO: 3046 the following data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3046 the sequence description: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 3046 the following data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 2344 sequence description: CCCGBCC CCTCCBBG 17

(2) SEQ ID NO: 3047 the following data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3047 the sequence description: CCCGBCCCTC 14

(2) SEQ ID NO: 3048 the following data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3048 the sequence description: CCGGCCCCGC CTC 13

(2) SEQ ID NO: 3049 the following data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3049 the sequence description: CCCGBCCCG CBTBGTGCC 19

(2) SEQ ID NO: 3050 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3050 sequence description: CCCGCTBTBGT GCC 13

(2) SEQ ID NO: 3051, data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3051 sequence description: CCCGGCBCCCB CCBBGTGCC 19

(2) SEQ ID NO: 3052, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3052 sequence description: CBGBBCCCGC CTCGTGCC 18

(2) SEQ ID NO: 3053, data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3053 sequence description: CCCGCCTCGT GCC 13

(2) SEQ ID NO: 3054, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3054 sequence description: CCGGCBCCGC CTCBTGCC 18

(2) SEQ ID NO: 3055, data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3055 sequence description: CCGGCCCCGC CBCBTGCC 18

(2) SEQ ID NO: 3056 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3056 sequence description: CCCGBCTCG 15

(2) SECID NO: 3057, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3057 sequence description: CCCGGCCCBCG BCTCG 15

(2) SEQ ID NO: 3058, data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3058 sequence description: CCCGGCCCBG CCTGBG 15

(2) SEQ ID NO: 3059 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3059 sequence description: CCCGGCCBG BCTCGTBCC 19

(2) SEQ ID NO: 3060 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3060 sequence description: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 3061 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3061 sequence description: CCCGGCCCCG CCBCG 15

(2) SEQ ID NO: 3062 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3062 sequence description: TCCBTGCCGC GGGC 14

(2) SEQ ID NO: 3063 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3063 sequence description: TCCBTGCCBC GGGCC 15

(2) SEQ ID NO: 3064 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3064 sequence description: TCCBTGCCBC GGGCC 15

(2) SEQ ID NO: 3065 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3065 sequence description: TCCBTGCCBC BGGCC 15

(2) SEQ ID NO: 3066 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3066 sequence description: GTCCBTGBCG CGG 13

(2) SEQ ID NO: 3067 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3067 sequence description: TCCBTGBCGC GGG 13

(2) SEQ ID NO: 3068 data:

(i) sequence characteristics:

(A) length: 21 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3068 sequence description: TCTGBGCTCC TCTBBCCTGG G21

(2) SEQ ID NO: 3069 data:

(i) sequence characteristics:

(A) length: 20 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3069 sequence description: CTGTGCBCCT BBCBCCTGGG 20

(2) SEQ ID NO: 3070 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3070 sequence description: TGTGBTCCBC TBGBCTGGG 19

(2) SEQ ID NO: 3071 the data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3071 sequence description: TCTGTBCBTCB BCTCBCCTG 19

(2) SEQ ID NO: 3072 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3072 sequence description: TGCTCCTCBC BBCTGGG 17

(2) SEQ ID NO: 3073 the data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3073 the sequence is described: CTCCTCTGBC CTGG 14

(2) SEQ ID NO: 3074 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3074 sequence description: GTGCTCCBBT CBBCTGGG 18

(2) SEQ ID NO: 3075 the data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3075 sequence description: GTGCBCCBBT CBCCTGGG 18

(2) SEQ ID NO: 3076 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3076 sequence description: TCTGTGTGCBCC TCTBGBCT 18

(2) SEQ ID NO: 3077 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3077 the sequence description: TBBTCCTBBC BCCTGG 16

(2) SEQ ID NO: 3078 data:

(i) sequence characteristics:

(A) length: 19 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3078 sequence description: TGTGCTBBTC BCBCBCBTGGG 19

(2) SEQ ID NO: 3079 data:

(i) sequence characteristics:

(A) length: 1G base pair

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3079 sequence description: GTGCBCCBCT CBCCTG 16

(2) SEQ ID NO: 3080 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3080 sequence description: CTGTGCBCCT CTC 13

(2) SEQ ID NO: 3081 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3081 sequence description: CBGTGCBCCB CTCBCCTG 18

(2) SEQ ID NO: 3082 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3082 sequence description: GTGCBCCBCT CBCCTG 16

(2) SEQ ID NO: 3083 the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3083 sequence description: CBCCTCTCTCBC CTGGG 15

(2) SEQ ID NO: 3084 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3084 sequence description: CCTCCBCCT GGG 13

(2) SEQ ID NO: 3085 data:

(i) sequence characteristics:

(A) length: 13 basepairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3085 sequence description: GCTCCBCTCG CCT 13

(2) SEQ ID NO: 3086 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3086 sequence description: TGCTCCTCBC GCC 13

(2) SEQ ID NO: 3087 the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3087 sequence description: GTTGTTGBTC TGG 13

(2) SEQ ID NO: 3088 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3088 sequence description: GGTTGBBBTT GGTCTTGG 18

(2) SEQ ID NO: 3089 the data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3089 sequence description: GGTTGTTGBT GBTCTG 16

(2) SEQ ID NO: 3090 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3090 sequence description: GGGTTBBBGT TGBTCTGG 18

(2) SEQ ID NO: 3091 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3091 sequence description: GGGTTBBBGT TGBTCTGG 18

(2) SEQ ID NO: 3092 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3092 sequence description: TTGTTGTBGB TCTGG 15

(2) SEQ ID NO: 3093 materials:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3093 sequence description: GGGTBGBBGB GTCCGCTG 18

(2) SEQ ID NO: 3094 data:

(i) sequence characteristics:

(A) length: 18 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3094 sequence description: GGGTCBGBGG BTCBGCTG 18

(2) SEQ ID NO: 3095 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3095 sequence description: GGGTBGGTGG GTC 13

(2) SEQ ID NO: 3096 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3096 sequence description: GGGTCGGBGG GTCBGC 16

(2) SEQ ID NO: 3097 the data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3097 the sequence description: CCTGGGTGGG CTT 13

(2) SEQ ID NO: 3098 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3098 sequence description: GGGTGGGCTT GGG 13

(2) SEQ ID NO: 3099 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3099 sequence description: CCTGGGTGGG BBTGGG 16

(2) SEQ ID NO: 3100 materials:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3100 sequence description: CCTGGGBTGGG CBTGGG 16

(2) SEQ ID NO: 3101 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3101 the sequence description: GCCTGBGTGB BCTTGGG 17

(2) SEQ ID NO: 3102 data:

(i) sequence characteristics:

(A) length: 17 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3102 the sequence description: CCCAVGVCCV CCCAGGC 17

(2) SEQ ID NO: 3103 data:

(i) sequence characteristics:

(A) length: 13 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3103 the sequence description: AGCCCACCCA GGC 13

(2) SEQ ID NO: 3104 data:

(i) sequence characteristics:

(A) length: 14 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3104 the sequence description: BCCTGGGTGG GCTB 14

(2) SEQ ID NO: 3105 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3105 the sequence description: GGTGGGCTTG GG 12

(2) SEQ ID NO: 3106 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3106 the sequence description: CCBBGGTGGG CTTGGG 16

(2) SEQ ID NO: 3107 data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3107 the sequence description: CTGGGTGGGB BTGGG 15

(2) SEQ ID NO: 3108 the data:

(i) sequence characteristics:

(A) length: 15 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3108 the sequence description: CCBGGGTGGG CTTGG 15

(2) SEQ ID NO: 3109 data:

(i) sequence characteristics:

(A) length: 12 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3109 the sequence description: GGGTGGGCTT GG 12

(2) SEQ ID NO: 3110 data:

(i) sequence characteristics:

(A) length: 16 base pairs

(B) Type (2): nucleic acids

(C) Chain type: single strand

(D) Topology: line shape

(xi) SEQ ID NO: 3110 sequence description: CCTGGBGTGBG CBTGGG 16396218.173999/000001248396218.173999/00000

Claims (92)

1. A pharmaceutical composition comprising one or more oligonucleotides or a combination or mixture thereof and a pharmacologically or veterinarily acceptable carrier or diluent; wherein the composition is effective to reduce bronchoconstriction and/or pneumonia, allergy, or surfactant deficiency or hyposecretion when administered to a mammal, said oligonucleotide comprising 0 to about 15% adenosine and being antisense to a target selected from the group consisting of the start code, the coding region, the 5 'and 3' end genomic flanking regions, the 5 'and 3' intron-exon junctions and a region of 2 to 10 nucleotides encoding the junction of the gene for a target polypeptide associated with pulmonary airway dysfunction; or antisense to the polypeptide mRNA.

2. The composition of claim 1, wherein the oligonucleotide does not contain adenosine.

3. The composition of claim 1, wherein the target is selected from the group consisting of a region of 2-10 nucleotides of the start code, the coding region, 5 'and 3' end genome flanking regions, 5 'and 3' intron-exon junctions, and a junction of an oncogene and a gene encoding a target polypeptide associated with pulmonary airway dysfunction; or a combination of mRNA antisense to an oncogene and a polypeptide mRNA oligonucleotide; a mixture of oligonucleotides; the polypeptides are selected from the group consisting of peptide factors and transmitters, antibodies, cytokines and chemokines, enzymes, binding proteins, adhesion molecules, their receptors and malignant tumor-associated proteins.

4. The composition of claim 3, wherein the target is selected from the group consisting of a region of 2-10 nucleotides in the region of the start code, the coding region, the 5 'and 3' end genomic flanking regions, the 5 'and 3' intron-exon junctions, and the junction of an oncogene and a gene encoding a target polypeptide associated with pulmonary airway dysfunction; or mRNA and polypeptide mRNA that is antisense to an oncogene; a conjugate of an oligonucleotide; a mixture of oligonucleotides; wherein the polypeptide is selected from the group consisting of transcription factors, stimulatory and activating peptide factors, cytokines, cytokine receptors, chemokines, chemokine receptors, adenosine receptors, bradykinin receptors, endogenously produced specific and non-specific enzymes, immunoglobulins and antibodies, antibody receptors, Central Nervous System (CNS) and peripheral nervous and non-nervous system receptors, CNS and peripheral nervous and non-nervous system peptide transmitters, adhesion molecules, defensins, growth factors, vasoactive peptides and receptors, binding proteins, and malignant tumor-associated proteins.

5. The composition of claim 4, wherein the encoded polypeptide is selected from the group consisting of adenosine A, A2 and A receptors, bradykinin receptors B and B, Nf6 transcription factor, interleukin-8 receptor (IL-8R), interleukin-5 receptor (IL-5R), interleukin-4 receptor (IL-4R), interleukin-3 receptor (IL-3R), interleukin-1 (IL-1), interleukin-0 receptor (IL-1R), eosinophil toxin, trypsin, major basic protein, 2-adrenoreceptor kinase, endothelin receptor A, endothelin receptor B, preproendothelin, bradykinin B receptor, IgE high affinity receptor, interleukin-1 (IL-1), interleukin 11 receptor (IL-11R), interleukin 9(IL-9), interleukin-9 receptor (IL-9R), interleukin 11(IL-11), interleukin-11 receptor (IL-11R), inducible nitric oxide synthase-1 (COX-1), cyclooxygenase-2, COX-9, interleukin-9 receptor (IL-9R), interleukin-11 (IL-11, interleukin-11 receptor, interleukin-11 (IL-11), interleukin-11) receptor (IL-11), interleukin-11 receptor (IL-11-1, CD-C, CD-receptor binding protein receptor binding receptor, CD-receptor binding protein, chemokine, CD-receptor binding protein receptor binding to a-receptor kinase (CCR-receptor-1, receptor-2, chemokine, CD-receptor kinase, CD-receptor binding protein kinase, CD-receptor binding protein kinase, chemokine, CD-receptor binding protein kinase, TNF-receptor binding protein kinase, CD-receptor binding protein (MCA-C, CD-1, TNF-1-receptor-C, CD-1-receptor-1, CD-receptor-C, CD-receptor binding protein kinase, CD-2, TNF-1-2, CD-receptor binding protein kinase, CD-2, CD-receptor binding protein kinase, TNF-receptor binding, CD-receptor binding protein kinase, CD-receptor (CCR-C, CD-C-receptor binding protein kinase, CD-receptor binding protein kinase, CD-1, CD-receptor binding protein kinase, CD-receptor binding protein kinase, CD-1, TNF-1, CD-receptor binding, CD-1-receptor binding protein kinase, TNF-1, CD-receptor binding, CD-1-receptor binding protein kinase, CD-1-receptor binding, TNF-receptor binding protein kinase, CD-1, CD-receptor binding protein kinase.

6. The composition of claim 1, wherein one or more of the adenosines are substituted with a universal base selected from the group consisting of heteroaromatic bases that bind to a thymidine base but have antagonistic activity at adenosine a1, A2a, A2b, and A3 receptors and adenosine base agonistic or antagonistic activity of less than about 0.3.

7. The composition of claim 6, wherein the heteroaromatic base is selected from the group of pyrimidines and purines, which may be substituted with: halogen, halogen, 、 、 、 、 、 And branched and fused primary and secondary amino, alkyl, alkenyl, alkynyl, cycloalkyl, heterocycloalkyl, aryl, heteroaryl, alkoxy, alkenyloxy, acyl, cycloacyl, aroyl, alkynyloxyAryl, cycloalkoxy, aroyl, arylthio, arylthioxo, halocycloalkyl, alkylcycloalkyl, alkenylcycloalkyl, alkynylcycloalkyl, haloaryl, alkylaryl, alkenylaryl, alkynylaryl, arylalkyl, arylalkenyl, arylalkynyl and arylcycloalkyl groups, which may also be substituted Halogen, halogen, Primary, secondary and tertiary amino groups, 、 、 、 Cycloalkyl, heterocycloalkyl and heteroaryl substituted.

8. The composition of claim 7 wherein one of the 1, 2, 3, 4, 7 and 8 positions of the pyrimidines and purines are substituted, the pyrimidines and purines being selected from the group consisting of theophylline, caffeine, dihydroxypropyl theophylline, etoxytheophylline, piperacetine piperazine, paminotheophylline, enprophylline and xanthines having the following chemical formulas,wherein R is¹And R²Each independently is Alkyl, alkenyl or alkynyl, R³Is composed of Aryl, bicycloalkyl, bicycloalkenyl, bicycloalkynyl, cycloalkyl, cycloalkenyl, cycloalkynyl, O-cycloalkyl, O-cycloalkenyl, O-cycloalkynyl, amino-alkylamino-ketoxyoxyalkyloxy-aryl, mono-and di-Alkylaminoalkyl-N-alkylamino-SO₂And (4) an aryl group.

9. The composition of claim 8, wherein the universal base is selected from the group of 3-nitropyrrole-2 ' -deoxynucleotides, 5-nitroindole, 2-deoxyribose- (5-nitroindole), 2-deoxyribofuranose- (5-nitroindole), 2 ' -deoxyinosine, 2 ' -deoxyazatosine, 6H, 8H-3, 4-dihydropyrimido [4, 5-c]oxazin-7-one, and 2-amino-6-methoxyaminopurine.

10. The composition of claim 1, wherein if one or more CpG dinucleotides are present in the oligonucleotide, one or more methylated cytidines are used (b^mC) Replacing one cytidine.

11. The composition of claim 1, wherein one or more mononucleotides of the oligonucleotide are linked or modified by one or more methyl phosphonates, 5 '-N-aminocarbonates, phosphotriesters, phosphorothioates, phosphorodithioates, boranophosphates, formaldol diols, thiaformal diols, thioesters, carbonates, carbamates, sulfates, sulfonates, sulfamates, sulfonamides, sulfones, sulfites, sulfoxides, sulfides, hydroxylamines, methylene (methylimino) (MMI), methoxymethyl (MOM), Methoxyethyl (MOE), methyleneoxy (methylimino) (MOMI), 2' -O methyl, phosphoramidates, C-5 substituted residues, or combinations thereof.

12. The composition of claim 11, wherein the mononucleotide residues are all linked by phosphorothioate residues.

13. The composition of claim 1, wherein the antisense oligonucleotide comprises about 7 to about 60 mononucleotides.

14. The composition of claim 1, wherein the antisense oligonucleotide comprises fragments 1, 3, 5, 7 and 8 to 2313(SEQ. ID NOS: 1-2419).

15. The composition of claim 1, wherein the antisense oligonucleotide is operatively linked to or complexed with an agent selected from the group consisting of a cell-internalizing or absorbing agent and a cell-targeting agent.

16. The composition of claim 15, wherein the intercellular permeabilization or absorption agent is selected from the group consisting of transferrin, asialoglycoprotein, streptavidin.

17. The composition of claim 1, wherein the antisense oligonucleotide is operably linked to a prokaryotic or eukaryotic medium.

18. The composition of claim 1, wherein the antisense oligonucleotide hybridizes to a ribonucleic acid.

19. A cell loaded with the oligonucleotide of claim 1.

20. The composition of claim 1, wherein the carrier or diluent is selected from a gaseous, liquid, or solid carrier or diluent.

21. The composition of claim 20, further comprising an agent selected from the group consisting of other therapeutic agents, surfactants, fragrance and coloring agents, fillers, volatile oils, buffers, dispersants, RNA inactivators, antioxidants, flavoring agents, propellants and preservatives.

22. The composition of claim 21, comprising one or more oligonucleotides, a surfactant and a carrier or diluent for the oligonucleotides and surfactant.

23. The composition of claim 21, wherein the agent is an RNA inactivating agent comprising an enzyme, preferably a ribozyme.

24. The composition of claim 1, wherein the antisense oligonucleotide is present in the composition in an amount of about 0.01 to 99.99 weight ratio.

25. The composition of claim 1, which is a systemic or topical formulation.

26. The formulation of claim 25, which is a formulation selected from the group consisting of oral, buccal, intrapulmonary, rectal, intrauterine, intrafallopian, intracranial, nasal, intramuscular, subcutaneous, intravascular, intrathecal, inhalant, intradermal, intracavitary, implantable, iontophoretic, ocular, enteral, intraarticular, otic, intravenous, intramuscular, intraglandular, intraorgan, intralymphatic, implantable, slow release, and enteric coating.

27. The formulation of claim 26 which is an oral formulation wherein the carrier is selected from the group consisting of solid and liquid carriers.

28. The formulation of claim 27, wherein the oral formulation is a formulation selected from the group consisting of a fine powder, a dragee, a tablet, a capsule, a spray, an aerosol, a solution, a suspension and an emulsion, optionally an oil-in-water and a water-in-oil emulsion.

29. The formulation of claim 25 which is a topical formulation wherein the carrier is selected from the group consisting of creams, gels, ointments, sprays, aerosols, patches, solutions, suspensions and emulsions.

30. The formulation of claim 26 which is an injection formulation wherein said carrier is selected from the group consisting of aqueous and alcoholic solutions and suspensions, oily solutions and suspensions and oil-in-water, water-in-oil emulsions.

31. The formulation of claim 26, which is a rectal formulation, and optionally a suppository.

32. The formulation of claim 26, which is an intradermal formulation, wherein the carrier is selected from the group consisting of water and alcoholic solutions, oil solutions and suspensions, and oil-in-water, water-in-oil emulsions.

33. The formulation of claim 32, which is an iontophoretic transdermal formulation, wherein said carrier is selected from the group consisting of aqueous and alcoholic solutions, oil solutions and suspensions, and oil-in-water, water-in-oil emulsions, and further wherein the formulation further comprises a dermal layer transport enhancer.

34. The formulation of claim 26 which is an implantable article, capsule or cartridge.

35. The composition of claim 20, wherein the carrier is selected from the group consisting of aqueous and alcoholic solutions and suspensions, oil solutions and suspensions, and oil-in-water, water-in-oil emulsions.

36. The formulation of claim 20, wherein the carrier comprises a hydrophobic carrier.

37. The formulation of claim 36, wherein the carrier comprises a lipid carrier, optionally a liposome, or a particle, optionally a microcrystal.

38. The formulation of claim 37, wherein the carrier comprises a liposome comprising the antisense oligonucleotide.

39. The formulation of claim 26 which is a breathable or inhalable formulation, optionally an aerosol.

40. The composition of claim 1 in the form of a single dose or multiple doses.

41. The composition of claim 1 in the form of a bulk pack.

42. A kit, comprising:

a transfer device;

an oligonucleotide of claim 1 in a separate container; and

adding a carrier and instructions for use of the kit.

43. The kit of claim 42, wherein the formulation is a breathable formulation and the delivery device comprises a single metered dose nebulizer capable of delivering the formulation.

44. The kit of claim 43, wherein the nebulizer comprises an insufflator and the composition is placed in a pierceable or openable capsule or cartridge.

45. The kit of claim 44, wherein the delivery device comprises a pressure-driven inhaler and a composition comprising a suspension, solution or dry formulation of the oligonucleotide.

46. The kit of claim 45, further comprising, in a separate container, a formulation selected from the group consisting of other therapeutic agents, surfactants, antioxidants, fragrances, fillers, volatile oils, dispersants, antioxidants, propellants, preservatives, buffers, RNA inactivators, intercellular internalizing or absorbing agents, and optionally other therapeutic agents.

47. The kit of claim 46, comprising one or more oligonucleotides, one or more surfactants and a carrier or diluent and optionally other therapeutic agents in a separate container.

48. The kit of claim 42, wherein the device is an intradermal delivery device, the kit further comprising an intradermal delivery agent, an intradermal carrier or diluent, and instructions for preparing an intradermal delivery agent.

49. The kit of claim 42, wherein the device is an iontophoretic delivery device, and further comprising an iontophoretic formulation and instructions for preparing the iontophoretic formulation.

50. A method of delivering antisense oligonucleotides to one or more target polynucleic acids in vivo, the method comprising: administering one or more oligonucleotides that are antisense to the polynucleotide to therespiratory system of the patient in an amount effective to reach or hybridize to the target polynucleotide and reduce the yield or availability, or enhance degradation of the target mRNA, or reduce the amount of the target polypeptide present in the lung.

51. A method of delivering an antisense oligonucleotide to a target polynucleotide associated with bronchial constriction and/or pneumonia, allergy and/or surfactant hypogenesis in vivo comprising administering the composition of claim 1 to the respiratory system of a patient, reaching or hybridizing to the target polynucleotide at an effective oligonucleotide dose, and reducing or preventing transcription and/or expression of the polynucleotide while reducing bronchial constriction and/or pneumonia, allergy and/or surfactant hypogenesis.

52. The method of claim 51 wherein the composition is administered in an amount of oligonucleotide effective to reduce bronchovascular constriction and/or pulmonary inflammation, hypersensitivity and/or surfactant depletion or hyposecretion when administered to a mammal.

53. The method of claim 51, wherein the composition is administered to the respiratory system of the patient.

54. The method of claim 53, wherein the composition is administered to the lungs of the patient.

55. The method of claim 51, wherein the administered formulation comprises an amount of an oligonucleotide and is administered under conditions effective to reduce the production and availability of the target mRNA or to enhance its degradation or to reduce the amount of the target polypeptide present in the lung.

56. The method of claim 51, wherein the formulation is administered as a breathable aerosol.

57. The method of claim 51, wherein the lung disorder and/or bronchovascular constriction and/or pneumonia, allergy and or low output of surfactants is associated with a disease or condition comprising pulmonary bronchovasoconstriction, allergy, asthma, impeded respiration, Respiratory Distress Syndrome (RDS), pain, Cystic Fibrosis (CF), Allergic Rhinitis (AR), pulmonary hypertension, emphysema, Chronic Obstructive Pulmonary Disease (COPD), rejection of lung transplants, lung infection, bronchitis, and cancer.

58. The method of claim 57, wherein said disease or condition is associated with an allergy and said oligonucleotide is antisense to a target selected from the group consisting of the start code, the coding region, the 5 'and 3' end genomic flanking regions, the 5 'and 3' intron-exon junctions and a region of 2-10 nucleotides encoding the junction of an immunoglobulin and antibody and the genes of an immunoglobulin receptor and antibody receptor; or mRNA that is antisense to immunoglobulins and antibodies and immunoglobulin receptors and antibody receptors; a conjugate of an oligonucleotide; and mixtures of oligonucleotides.

59. The method of claim 57, wherein said disease or disorder is associated with one or a malignancy or cancer, said oligonucleotide being antisense to a target selected from the group of the start code, the coding region, the 5 'and 3' end genomic flanking regions, the 5 'and 3' intron-exon junctions and a region of 2-10 nucleotides of the junction of an oncogene and/or a gene encoding a malignancy-associated protein; or mRNA antisense to a cancer or malignancy-associated protein; an oligonucleotide conjugate; and a mixture of oligonucleotides; the oligonucleotide is administered in an effective amount to reduce protein mRNA or levels of protein associated with a malignant tumor or to reduce growth of a malignant tumor cell or to provide a tumor cell with an intentional characteristic.

60. The method of claim 51, wherein the composition is administered by an intradermal or systemic route.

61. The method of claim 60, wherein the composition is administered orally, intracavitarily, intranasally, rectally, enterally, intrauterine, intraarticularly, intradermally, intraorally, intravenously, subcutaneously, intramuscularly, intravascularly, tumorally, glandularly, ocularly, intracranially, into an organ, intravascularly, intrathecally, intralymphatically, intraotically, by implantation, by inhalation, intradermally, intrapulmonary, intraotially, by slow release, by sustained release, and by pump.

62. The method of claim 51, wherein the patient is a non-human mammal.

63. The method of claim 51, wherein the mammal is a human.

64. The method of claim 51, wherein the antisense oligonucleotide is administered at a dose of about 0.005 to 150mg per kilogram of body weight.

65. The method of claim 51, wherein the oligonucleotides are obtained by:

(a) selecting a target nucleic acid having at least 4 contiguous nucleic acids from the group consisting of G and C, and isolating a fragment thereof;

(b) obtaininga first oligonucleotide 4-60 nucleotides long comprising the selected fragment and having a C and G content up to and including about 15% in the nucleic acid;

(c) obtaining a second oligonucleotide comprising a sequence of 4-60 nucleotides long antisense to the selected fragment, the second oligonucleotide having an adenosine a content of up to and including about 15%.

65. The method of claim 64, wherein the oligonucleotide does not contain adenosine.

66. The method of claim 51, wherein the target is selected from the group of the start code, the coding region, the 5 'and 3' end genome flanking regions, the 5 'and 3' intron-exon junctions and an oncogene and or a region of 2-10 nucleotides encoding the junction of a gene of a target polypeptide associated with pulmonary airway dysfunction; or antisense to polypeptide or oncogene mRNA; a conjugate of an oligonucleotide; and an oligonucleotide, wherein the polypeptide is selected from the group of transcription factors, stimulatory and activating factors, interleukins, interleukin receptors, chemokines, chemokine receptors, endogenously produced specific and non-specific enzymes, immunoglobulins, antibody receptors, Central Nervous System (CNS) and peripheral nervous and non-nervous system receptors, CNS and peripheral nervous and non-nervous system polypeptide transmitters, adhesion molecules, defensins, growth factors, vasoactive peptides, peptide receptors and binding proteins and malignancy-associated proteins.

67. The method of claim 51, wherein one or more adenosine A of the oligonucleotide is replaced with a universal base selected from the group consisting of heteroaromatic bases that bind to a thymidine base but have adenosine base agonistic or antagonistic activity of less than about 0.3 in the presence of adenosine A1, A2a, A2b and A3 receptors.

68. The method of claim 67, wherein the heteroaromatic base is selected from the group of pyrimidines and purines, which may be substituted with: halogen, halogen, 、 、 、 、 、 And branched and fused primary and secondary amino, alkyl, alkenyl, alkynyl, cycloalkyl, heterocycloalkyl, aryl, heteroaryl, alkoxy, alkenyloxy, acyl, cycloacyl, aroyl, alkynyloxy, cycloalkoxy, aroyl, arylthio, arylthioxo, halocycloalkyl, heterocyclo, heterocycl,Alkylcycloalkyl, alkenylcycloalkyl, alkynylcycloalkyl, haloaryl, alkylaryl, alkenylaryl, alkynylaryl, arylalkyl, arylalkenyl, arylalkynyl and arylcycloalkyl groups, which may further be substituted Halogen, halogen, Primary, secondary and tertiary amino groups, 、 、 、 Cycloalkyl, heterocycloalkyl and heteroaryl substituted.

69. The method of claim 67 wherein the 1, 2, 3, 4, 7 and 8 positions of the pyrimidines and purines are substituted, the pyrimidines and purines being selected from the group consisting of theophylline, caffeine, dihydroxypropyl theophylline, etoxytheophylline, piperacetatefylline, paminotheophylline, enprophylline and xanthines having the following chemical formula,

wherein R is¹And R²Each independently is Alkyl, alkenyl or alkynyl, R³Is composed of Aryl, bicycloalkyl, bicycloalkenyl, bicycloalkynyl, cycloaryl, cycloalkenyl, cycloalkynyl, O-cycloalkyl, O-cycloalkenyl, O-cycloalkynyl, amino-alkylaminonoyloxyalkyloxy-aryl, mono-and dialkylaminoalkyl-N-alkylamino-SO₂And (4) an aryl group.

70. The method of claim 69 wherein the universal base is selected from the group of 3-nitropyrrole-2 ' -deoxynucleotides, 5-nitroindole, 2-deoxyribose- (5-nitroindole), 2-deoxyribofuranose- (5-nitroindole), 2 ' -deoxyinosine, 2 ' -deoxyazatosine, 6H, 8H-3, 4-dihydropyrimido [4, 5-c]oxazin-7-one, and 2-amino-6-methoxyaminopurine.

71. The method of claim 51, further comprising using a methylated cytidine (C) if one or more CpG dinucleotides are present in the oligonucleotide^mC) Instead of one cytidine.

72. The method of claim 51, further comprising substituting or modifying a nucleotide residue of one or more of the oligonucleotides with methyl phosphonate, phosphotriester, phosphorothioate, phosphorodithioate, boranophosphate, formaldehyde diol, thiocarboxamide diol, thioester, carbonate, carbamate, sulfate, sulfonate, sulfamate, sulfonamide, sulfone, sulfite, sulfoxide, sulfide, hydroxylamine, methylene (methylimino) (MMI), methoxymethyl (MOM), Methoxyethyl (MOE), methyleneoxy (methylimino) (MOMI), methoxymethyl (MOM), 2' -O-methyl, phosphoramidate, C-5 substituted residue, or a combination thereof.

73. The method of claim 51, further comprising an agent selected from the group consisting of an intercellular mediating agent, an absorbing agent, and a cellular target agent operatively linked to or complexed with the oligonucleotide.

74. The method of claim 73, wherein the intercellular internalising agent or absorbing agent is selected from the group consisting of transferrin, asialoglycoprotein, streptavidin.

75. The method of claim 73, wherein the cellular target agent is a vehicle, optionally a prokaryotic or eukaryotic vehicle.

76. A method of treating a disease or condition associated with a target selected from those associated with diseases or conditions that afflict pulmonary airways comprising carrying out the method of claim 56.

77. The method of claim 76, wherein the oligonucleotide is used in an amount effective to reduce the production or availability of mRNA, or to enhance degradation thereof; or reducing the amount of polypeptide present in the lungs of the patient.

78. The method of claim 77, wherein administering an effective dose of the oligonucleotide reduces production or availability of mRNA, or enhances degradation, or increases the amount of surfactant present in the lung of the patient.

79. The composition of claim 4, wherein the oligonucleotide is antisense to a region of 2 to 10 nucleotides encoding the start code, the coding region, 5 'and 3' end genomic flanking regions, 5 'and 3' intron-exon junctions, and the junction of a gene encoding the adenosine A1, A2a, A2b, and/or A3 receptor; or an mRNA antisense to the A1, A2a, A2b and/or A3 receptor.

80. The composition of claim 79, wherein all nucleotide-linked residues are phosphorothioates.

81. The composition of claim 1, wherein the oligonucleotide is a DNA.

82. The composition of claim 1, wherein the oligonucleotide is an RNA.

83. The composition of claim 1, wherein the oligonucleotide comprises about 7-60 mononucleotides.

84. The composition of claim 79, wherein the oligonucleotide is selected from the group consisting of SEQ ID NOS: 1, 3, 5, 7, 8, and/or 11 to 2419, optionally wherein one or more of the mononucleotide residues is substituted or modified with methyl phosphonate, phosphotriester, phosphorothioate, phosphorodithioate, boranophosphate, carboxaldehyde diol, thiocarboxamide diol, thioester, carbonate, carbamate, sulfate, sulfonate, sulfamate, sulfonamide, sulfone, sulfite, sulfoxide, sulfide, hydroxylamine, methylene (methylimino) (MMI), methoxymethyl (MOM), Methoxyethyl (MOE), methylene oxy (methylimino) (MOMI), 2' -O methyl, phosphoramidate, C-5 substituted residue or combination thereof.

85. The method of claim 51, wherein the oligonucleotide is administered topically to the airway, respiratory system, or lung surface of the patient.

86. The composition of claim 1, wherein the oligonucleotide has a particle size of about 5-10um or in the range of 10-500 um.

87. The composition of claim 1, further comprising a propellant.

88. The method of claim 50 wherein the oligonucleotide has a particle size of about 5-10um or in the range of 10-500 um.

89. The method of claim 50, further comprising adding a propellant to the oligonucleotide.

90. The method of claim 51 wherein the oligonucleotide has a particle size of about 5-10um or in the range of 10-500 um.

91. The method of claim 51, further comprising adding a propellant to the oligonucleotide.